ORF » Species Summary » Mus caroli » Nrcam cDNA ORF clone

Nrcam cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Nrcam gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Nrcam cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OMv29274 XM_021179684.2
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMv29275 XM_021179685.1
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMv29276 XM_021179686.2
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X19, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMv29277 XM_021179687.1
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMv29278 XM_021179688.1
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMv29279 XM_021179689.2
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X24, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMv29280 XM_021179690.1
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMv29280 XM_029484562.1
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X26, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMv29281 XM_021179691.2
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X27, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMv29282 XM_021179692.2
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X29, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMv68193 XM_029484541.1
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv68193 XM_029484542.1
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv68193 XM_029484543.1
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv68193 XM_029484544.1
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv68193 XM_029484545.1
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv68194 XM_029484546.1
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv68195 XM_029484548.1
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv68196 XM_029484549.1
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv68197 XM_029484550.1
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv68198 XM_029484551.1
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv68199 XM_029484552.1
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv68200 XM_029484553.1
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv68201 XM_029484554.1
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X14, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv68202 XM_029484555.1
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X15, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv68203 XM_029484556.1
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X16, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv68204 XM_029484557.1
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X17, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv68205 XM_029484558.1
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X18, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv68206 XM_029484559.1
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X20, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv68207 XM_029484560.1
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X21, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv68208 XM_021179687.2
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X22, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv68209 XM_021179688.2
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X23, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv68210 XM_029484561.1
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X25, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv68211 XM_029484563.1
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X28, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv68212 XM_029484564.1
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X30, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv68213 XM_029484565.1
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X31, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv68214 XM_029484567.1
Latest version!		 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X32, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
View Old Accession Versions >>
OMv29279 XM_021179689.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMv29281 XM_021179691.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMv29276 XM_021179686.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMv29274 XM_021179684.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMv29282 XM_021179692.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
Hide Old Accession Versions >>

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    Nrcam ( XM_021179684.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021035343.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OMv29274
    Clone ID Related Accession (Same CDS sequence) XM_021179684.1 , XM_021179684.2
    Accession Version XM_021179684.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3915bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GCTGGTATTC CTCCACCTGA TGTAGGTGCA 
    GGCAAAGTCC GTGCAGTAAA TCCCAGGATC AGCAATGTCA CTGCCGCAGC TGCTGAGACG 
    TATGCCAATA TCAGTTGGGA GTATGAGGGA CCAGAACATG TGAAGTTTTA TGTTGAATAT 
    GGTGTAGCAG GCAGCAAAGA AGAATGGAGG AAAGAAATTG TAAATGGTTC TCGAAGCTTC 
    TTTGGGTTAA AGGGTCTAAT GCCAGGAACA GCATACAAAG TTCGAGTTGG TGCTGAGGGG 
    GACTCTGGTT TTGTGAGTTC AGAGGATGTG TTTGAGACAG GACCAGCAAT GGCAAGCCGG 
    CAAGTGGATA TTGCGACCCA AGGCTGGTTC ATAGGTCTAA TGTGTGCTGT TGCTCTCCTC 
    ATCTTAATTT TGCTGATTGT TTGCTTCATC AGAAGAAACA AGGGTGGTAA ATACCCAGTT 
    AAAGAAAAGG AGGATGCTCA TGCAGACCCT GAAATCCAGC CCATGAAGGA AGATGATGGG 
    ACGTTTGGAG AATACAGTGA TGCAGAAGAT CACAAGCCTT TGAAAAAAGG AAGTCGAACA 
    CCTTCAGACA GGACTGTGAA AAAAGAAGAT AGTGATGATA GCCTGGTTGA CTATGGAGAG 
    GGGGTCAACG GCCAATTCAA TGAGGATGGC TCCTTTATTG GCCAATACAG TGGTAAGAAA 
    GAGAAAGAGC CAGCGGAGGG AAATGAAAGC TCAGAGGCCC CTTCTCCTGT CAACGCAATG 
    AACTCCTTTG TTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_021035343.1
    CDS94..4008
    Translation

    Target ORF information:

    RefSeq Version XM_021179684.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021179684.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GCTGGTATTC CTCCACCTGA TGTAGGTGCA 
    GGCAAAGTCC GTGCAGTAAA TCCCAGGATC AGCAATGTCA CTGCCGCAGC TGCTGAGACG 
    TATGCCAATA TCAGTTGGGA GTATGAGGGA CCAGAACATG TGAAGTTTTA TGTTGAATAT 
    GGTGTAGCAG GCAGCAAAGA AGAATGGAGG AAAGAAATTG TAAATGGTTC TCGAAGCTTC 
    TTTGGGTTAA AGGGTCTAAT GCCAGGAACA GCATACAAAG TTCGAGTTGG TGCTGAGGGG 
    GACTCTGGTT TTGTGAGTTC AGAGGATGTG TTTGAGACAG GACCAGCAAT GGCAAGCCGG 
    CAAGTGGATA TTGCGACCCA AGGCTGGTTC ATAGGTCTAA TGTGTGCTGT TGCTCTCCTC 
    ATCTTAATTT TGCTGATTGT TTGCTTCATC AGAAGAAACA AGGGTGGTAA ATACCCAGTT 
    AAAGAAAAGG AGGATGCTCA TGCAGACCCT GAAATCCAGC CCATGAAGGA AGATGATGGG 
    ACGTTTGGAG AATACAGTGA TGCAGAAGAT CACAAGCCTT TGAAAAAAGG AAGTCGAACA 
    CCTTCAGACA GGACTGTGAA AAAAGAAGAT AGTGATGATA GCCTGGTTGA CTATGGAGAG 
    GGGGTCAACG GCCAATTCAA TGAGGATGGC TCCTTTATTG GCCAATACAG TGGTAAGAAA 
    GAGAAAGAGC CAGCGGAGGG AAATGAAAGC TCAGAGGCCC CTTCTCCTGT CAACGCAATG 
    AACTCCTTTG TTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_021179684.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021035343.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OMv29274
    Clone ID Related Accession (Same CDS sequence) XM_021179684.1 , XM_021179684.2
    Accession Version XM_021179684.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3915bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 10, 2019 this sequence version replaced XM_021179684.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GCTGGTATTC CTCCACCTGA TGTAGGTGCA 
    GGCAAAGTCC GTGCAGTAAA TCCCAGGATC AGCAATGTCA CTGCCGCAGC TGCTGAGACG 
    TATGCCAATA TCAGTTGGGA GTATGAGGGA CCAGAACATG TGAAGTTTTA TGTTGAATAT 
    GGTGTAGCAG GCAGCAAAGA AGAATGGAGG AAAGAAATTG TAAATGGTTC TCGAAGCTTC 
    TTTGGGTTAA AGGGTCTAAT GCCAGGAACA GCATACAAAG TTCGAGTTGG TGCTGAGGGG 
    GACTCTGGTT TTGTGAGTTC AGAGGATGTG TTTGAGACAG GACCAGCAAT GGCAAGCCGG 
    CAAGTGGATA TTGCGACCCA AGGCTGGTTC ATAGGTCTAA TGTGTGCTGT TGCTCTCCTC 
    ATCTTAATTT TGCTGATTGT TTGCTTCATC AGAAGAAACA AGGGTGGTAA ATACCCAGTT 
    AAAGAAAAGG AGGATGCTCA TGCAGACCCT GAAATCCAGC CCATGAAGGA AGATGATGGG 
    ACGTTTGGAG AATACAGTGA TGCAGAAGAT CACAAGCCTT TGAAAAAAGG AAGTCGAACA 
    CCTTCAGACA GGACTGTGAA AAAAGAAGAT AGTGATGATA GCCTGGTTGA CTATGGAGAG 
    GGGGTCAACG GCCAATTCAA TGAGGATGGC TCCTTTATTG GCCAATACAG TGGTAAGAAA 
    GAGAAAGAGC CAGCGGAGGG AAATGAAAGC TCAGAGGCCC CTTCTCCTGT CAACGCAATG 
    AACTCCTTTG TTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_021035343.1
    CDS500..4414
    Translation

    Target ORF information:

    RefSeq Version XM_021179684.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021179684.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GCTGGTATTC CTCCACCTGA TGTAGGTGCA 
    GGCAAAGTCC GTGCAGTAAA TCCCAGGATC AGCAATGTCA CTGCCGCAGC TGCTGAGACG 
    TATGCCAATA TCAGTTGGGA GTATGAGGGA CCAGAACATG TGAAGTTTTA TGTTGAATAT 
    GGTGTAGCAG GCAGCAAAGA AGAATGGAGG AAAGAAATTG TAAATGGTTC TCGAAGCTTC 
    TTTGGGTTAA AGGGTCTAAT GCCAGGAACA GCATACAAAG TTCGAGTTGG TGCTGAGGGG 
    GACTCTGGTT TTGTGAGTTC AGAGGATGTG TTTGAGACAG GACCAGCAAT GGCAAGCCGG 
    CAAGTGGATA TTGCGACCCA AGGCTGGTTC ATAGGTCTAA TGTGTGCTGT TGCTCTCCTC 
    ATCTTAATTT TGCTGATTGT TTGCTTCATC AGAAGAAACA AGGGTGGTAA ATACCCAGTT 
    AAAGAAAAGG AGGATGCTCA TGCAGACCCT GAAATCCAGC CCATGAAGGA AGATGATGGG 
    ACGTTTGGAG AATACAGTGA TGCAGAAGAT CACAAGCCTT TGAAAAAAGG AAGTCGAACA 
    CCTTCAGACA GGACTGTGAA AAAAGAAGAT AGTGATGATA GCCTGGTTGA CTATGGAGAG 
    GGGGTCAACG GCCAATTCAA TGAGGATGGC TCCTTTATTG GCCAATACAG TGGTAAGAAA 
    GAGAAAGAGC CAGCGGAGGG AAATGAAAGC TCAGAGGCCC CTTCTCCTGT CAACGCAATG 
    AACTCCTTTG TTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_021179685.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021035344.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OMv29275
    Clone ID Related Accession (Same CDS sequence) XM_021179685.1
    Accession Version XM_021179685.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3771bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCTGGT ACAACCTCCA 
    ACCATCACTC AACAGTCACC AAAAGACTAC ATCATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAGG CCAAAGGGAA ACCTCCCCCA AGCTTTTCCT GGACTCGTAA TGGAACTCAT 
    TTTGACATAG ACAAGGACCC TCTGGTCACC ATGAAGCCTG GCTCAGGAAC CCTTGTCATC 
    AACATCATGA GTGAGGGGAA AGCAGAGACC TATGAAGGAG TCTACCAGTG CACTGCAAGG 
    AACGAGCGTG GAGCTGCCGT CTCCAATAAC ATTGTTGTCC GCCCATCTAG GTCACCCTTG 
    TGGACCAAGG AAAGACTTGA ACCCATAATA CTCCGGAATG GGCAGTCATT AGTACTTCCA 
    TGTAGGCCTC CGATTGGATT ACCTCCGGCC ATAATATTTT GGATGGATAA TTCCTTTCAG 
    AGACTTCCAC AGAGTGAGCG GGTTTCCCAA GGCCTAAATG GAGACCTTTA CTTCTCCAAT 
    GTCCTCCCAG AGGACACCCG TGAGGACTAT ATCTGCTATG CTAGATTTAA TCACACTCAA 
    ACCATCCAAC AGAAGCAGCC TATTTCTTTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCTAG TAAAGAGAGG 
    CCCCCAACGT TTCTAACTCC AGAGGGCAAT GAAAGCCACA AAGAGGAATT AAGAGGAAAC 
    GTGCTTTCGC TGGAGTGCAT TGCGGAAGGC CTCCCTACTC CAATTATTTA CTGGATCAAA 
    GAAGACGGAA CGCTTCCTGC CAACCGGACA TTTTATCGGA ACTTTAAGAA AACCTTGCAG 
    ATCACTCATG TTTCCGAAGC CGACTCTGGA AATTATCAGT GCATAGCAAA AAACGCATTA 
    GGGGCCGTCC ATCACACCAT TTCTGTCACT GTTAAAGCGG CTCCCTACTG GATCGTGGCA 
    CCTCAAAACC TCGTGCTTTC CCCGGGAGAG AATGGGACCC TCATCTGCAG AGCTAATGGC 
    AACCCGAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCTCTTGAT 
    GACCCCAGCA GAAAAATAGA TGGTGATACC ATTATATTTT CTAATGTTCA AGAAAGCTCA 
    AGTGCGGTTT ATCAGTGCAA CGCCTCTAAC AAATATGGAT ATTTACTAGC AAATGCATTT 
    GTAAATGTTC TCGCTGAACC ACCTCGGATT CTCACATCAG CAAACACTCT GTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT GCTAGATTGT GCCTTCTTTG GATCTCCTAT GCCTACCATT 
    GAATGGTTTA AAGGGACTAA AGGAAGCGCT CTTCATGAAG ACACTTATGT TTTGCATGAT 
    AATGGAACAT TAGAAATTCC CGTGGCCCAA AAGGATAGTA CAGGGACGTA TACTTGTGTC 
    GCACGGAATA AACTAGGGAT GGCAAAGAAT GAAGTTCACT TGGAAATCAA AGATCCAACC 
    AGGATCATTA AACAACCTGA ATATGCAGTC GTCCAGAGGG GGAGCAAGGT GTCGTTTGAA 
    TGCAGAGTGA AACATGACCA CACCTTAATT CCCACCATTC TGTGGCTGAA GGACAATGGA 
    GAGCTGCCCA ATGATGAAAG GTTCTCCACT GACAAGGATC ATCTGGTGGT ATCTGATGTA 
    AAGGATGACG ATGGTGGCAC CTACACATGT ACGGCCAACA CAACGCTGGA CAGTGCTTCG 
    GCCAGCGCTG TGCTCAGGGT TGTCGCTCCT ACTCCAACTC CAGCCCCCAT TTACGATGTC 
    CCGAATCCTC CCTTTGATTT AGAATTGACC AATCAACTTG ACAAAAGTGT TCAGCTGACA 
    TGGACCCCAG GCGATGACAA CAATAGCCCC ATTACAAAAT TCATCATTGA GTATGAAGAT 
    GCAATGCATG ACGCAGGGCT GTGGCGCCAC CAGGCTGAAG TTTCTGGAAC ACAGACCACA 
    GCCCAACTGA AGCTGTCTCC CTATGTGAAC TACTCCTTCC GTGTCATGGC AGAGAACGGC 
    ATTGGAAGAA GCATGCCGAG CGAGGCATCT GAGCAGTACC TCACAAAAGC CGCAGAACCA 
    GATCAGAATC CCATGGCTGT GGAAGGACTA GGGACAGAGC CGGACAACTT GGTGATTACA 
    TGGAAGCCCC TGAATGGTTT TCAATCGAAT GGGCCTGGCC TCCAGTACAA AGTGAGCTGG 
    CGCCAGAAAG ATGGTGACGA TGAGTGGACG TCTGTAGTTG TGGCCAATGT ATCCAAATAC 
    ATTGTTTCTG GCACACCAAC CTTTGTCCCA TACCTGATAA AAGTTCAAGC TCTGAATGAT 
    GTGGGGTTTG CACCAGAGCC AGCTGCAGTC ATGGGGCATT CTGGAGAAGA CCTTCCAATG 
    GTGGCTCCTG GAAATGTTCG TGTCAGCGTG GTGAACAGTA CGCTGGCAGA GGTGCACTGG 
    GACCCAGTTC CTCCCAAGAG TGTCCGAGGA CACTTACAAG GCTACCGGAT TTACTACTGG 
    AAGACCCAGA GCTCCTCTAA AAGAAACAGG CGCCACATTG AGAAGAAGAT CCTCACCTTC 
    CAGGGCACCA AGACTCACGG CATGCTGCCA GGGCTGCAGC CATACAGTCA CTATGCTCTC 
    AACGTCCGAG TGGTCAACGG GAAAGGGGAG GGCCCAGCCA GCACCGACAG AGGCTTCCAT 
    ACACCGGAGG GAGTCCCTAG TGCTCCCTCA TCTTTGAAAA TTGTTAATCC TACACTGGAC 
    TCTCTCACTT TGGAGTGGGA CCCACCAAGC CACCCAAATG GCATCCTGAC AGAGTACATC 
    TTAAAATATC AGCCAATTAA CAGCACACAT GAGCTAGGCC CTCTGGTAGA TTTAAAAATT 
    CCTGCCAACA AGACCCGCTG GACTTTGAAA AATTTAAATT TCAGCACTCG GTACAAGTTC 
    TATTTCTATG CACAGACATC AGTGGGGTCA GGGAGTCAGA TCACAGAGGA AGCAATAACG 
    ACTGTGGACG AAGCTGGTAT TCCTCCACCT GATGTAGGTG CAGGCAAAGG CAAAGAAGAA 
    TGGAGGAAAG AAATTGTAAA TGGTTCTCGA AGCTTCTTTG GGTTAAAGGG TCTAATGCCA 
    GGAACAGCAT ACAAAGTTCG AGTTGGTGCT GAGGGGGACT CTGGTTTTGT GAGTTCAGAG 
    GATGTGTTTG AGACAGGACC AGCAATGGCA AGCCGGCAAG TGGATATTGC GACCCAAGGC 
    TGGTTCATAG GTCTAATGTG TGCTGTTGCT CTCCTCATCT TAATTTTGCT GATTGTTTGC 
    TTCATCAGAA GAAACAAGGG TGGTAAATAC CCAGTTAAAG AAAAGGAGGA TGCTCATGCA 
    GACCCTGAAA TCCAGCCCAT GAAGGAAGAT GATGGGACGT TTGGAGAATA CAGTGATGCA 
    GAAGATCACA AGCCTTTGAA AAAAGGAAGT CGAACACCTT CAGACAGGAC TGTGAAAAAA 
    GAAGATAGTG ATGATAGCCT GGTTGACTAT GGAGAGGGGG TCAACGGCCA ATTCAATGAG 
    GATGGCTCCT TTATTGGCCA ATACAGTGGT AAGAAAGAGA AAGAGCCAGC GGAGGGAAAT 
    GAAAGCTCAG AGGCCCCTTC TCCTGTCAAC GCAATGAACT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_021035344.1
    CDS543..4313
    Translation

    Target ORF information:

    RefSeq Version XM_021179685.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021179685.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCTGGT ACAACCTCCA 
    ACCATCACTC AACAGTCACC AAAAGACTAC ATCATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAGG CCAAAGGGAA ACCTCCCCCA AGCTTTTCCT GGACTCGTAA TGGAACTCAT 
    TTTGACATAG ACAAGGACCC TCTGGTCACC ATGAAGCCTG GCTCAGGAAC CCTTGTCATC 
    AACATCATGA GTGAGGGGAA AGCAGAGACC TATGAAGGAG TCTACCAGTG CACTGCAAGG 
    AACGAGCGTG GAGCTGCCGT CTCCAATAAC ATTGTTGTCC GCCCATCTAG GTCACCCTTG 
    TGGACCAAGG AAAGACTTGA ACCCATAATA CTCCGGAATG GGCAGTCATT AGTACTTCCA 
    TGTAGGCCTC CGATTGGATT ACCTCCGGCC ATAATATTTT GGATGGATAA TTCCTTTCAG 
    AGACTTCCAC AGAGTGAGCG GGTTTCCCAA GGCCTAAATG GAGACCTTTA CTTCTCCAAT 
    GTCCTCCCAG AGGACACCCG TGAGGACTAT ATCTGCTATG CTAGATTTAA TCACACTCAA 
    ACCATCCAAC AGAAGCAGCC TATTTCTTTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCTAG TAAAGAGAGG 
    CCCCCAACGT TTCTAACTCC AGAGGGCAAT GAAAGCCACA AAGAGGAATT AAGAGGAAAC 
    GTGCTTTCGC TGGAGTGCAT TGCGGAAGGC CTCCCTACTC CAATTATTTA CTGGATCAAA 
    GAAGACGGAA CGCTTCCTGC CAACCGGACA TTTTATCGGA ACTTTAAGAA AACCTTGCAG 
    ATCACTCATG TTTCCGAAGC CGACTCTGGA AATTATCAGT GCATAGCAAA AAACGCATTA 
    GGGGCCGTCC ATCACACCAT TTCTGTCACT GTTAAAGCGG CTCCCTACTG GATCGTGGCA 
    CCTCAAAACC TCGTGCTTTC CCCGGGAGAG AATGGGACCC TCATCTGCAG AGCTAATGGC 
    AACCCGAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCTCTTGAT 
    GACCCCAGCA GAAAAATAGA TGGTGATACC ATTATATTTT CTAATGTTCA AGAAAGCTCA 
    AGTGCGGTTT ATCAGTGCAA CGCCTCTAAC AAATATGGAT ATTTACTAGC AAATGCATTT 
    GTAAATGTTC TCGCTGAACC ACCTCGGATT CTCACATCAG CAAACACTCT GTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT GCTAGATTGT GCCTTCTTTG GATCTCCTAT GCCTACCATT 
    GAATGGTTTA AAGGGACTAA AGGAAGCGCT CTTCATGAAG ACACTTATGT TTTGCATGAT 
    AATGGAACAT TAGAAATTCC CGTGGCCCAA AAGGATAGTA CAGGGACGTA TACTTGTGTC 
    GCACGGAATA AACTAGGGAT GGCAAAGAAT GAAGTTCACT TGGAAATCAA AGATCCAACC 
    AGGATCATTA AACAACCTGA ATATGCAGTC GTCCAGAGGG GGAGCAAGGT GTCGTTTGAA 
    TGCAGAGTGA AACATGACCA CACCTTAATT CCCACCATTC TGTGGCTGAA GGACAATGGA 
    GAGCTGCCCA ATGATGAAAG GTTCTCCACT GACAAGGATC ATCTGGTGGT ATCTGATGTA 
    AAGGATGACG ATGGTGGCAC CTACACATGT ACGGCCAACA CAACGCTGGA CAGTGCTTCG 
    GCCAGCGCTG TGCTCAGGGT TGTCGCTCCT ACTCCAACTC CAGCCCCCAT TTACGATGTC 
    CCGAATCCTC CCTTTGATTT AGAATTGACC AATCAACTTG ACAAAAGTGT TCAGCTGACA 
    TGGACCCCAG GCGATGACAA CAATAGCCCC ATTACAAAAT TCATCATTGA GTATGAAGAT 
    GCAATGCATG ACGCAGGGCT GTGGCGCCAC CAGGCTGAAG TTTCTGGAAC ACAGACCACA 
    GCCCAACTGA AGCTGTCTCC CTATGTGAAC TACTCCTTCC GTGTCATGGC AGAGAACGGC 
    ATTGGAAGAA GCATGCCGAG CGAGGCATCT GAGCAGTACC TCACAAAAGC CGCAGAACCA 
    GATCAGAATC CCATGGCTGT GGAAGGACTA GGGACAGAGC CGGACAACTT GGTGATTACA 
    TGGAAGCCCC TGAATGGTTT TCAATCGAAT GGGCCTGGCC TCCAGTACAA AGTGAGCTGG 
    CGCCAGAAAG ATGGTGACGA TGAGTGGACG TCTGTAGTTG TGGCCAATGT ATCCAAATAC 
    ATTGTTTCTG GCACACCAAC CTTTGTCCCA TACCTGATAA AAGTTCAAGC TCTGAATGAT 
    GTGGGGTTTG CACCAGAGCC AGCTGCAGTC ATGGGGCATT CTGGAGAAGA CCTTCCAATG 
    GTGGCTCCTG GAAATGTTCG TGTCAGCGTG GTGAACAGTA CGCTGGCAGA GGTGCACTGG 
    GACCCAGTTC CTCCCAAGAG TGTCCGAGGA CACTTACAAG GCTACCGGAT TTACTACTGG 
    AAGACCCAGA GCTCCTCTAA AAGAAACAGG CGCCACATTG AGAAGAAGAT CCTCACCTTC 
    CAGGGCACCA AGACTCACGG CATGCTGCCA GGGCTGCAGC CATACAGTCA CTATGCTCTC 
    AACGTCCGAG TGGTCAACGG GAAAGGGGAG GGCCCAGCCA GCACCGACAG AGGCTTCCAT 
    ACACCGGAGG GAGTCCCTAG TGCTCCCTCA TCTTTGAAAA TTGTTAATCC TACACTGGAC 
    TCTCTCACTT TGGAGTGGGA CCCACCAAGC CACCCAAATG GCATCCTGAC AGAGTACATC 
    TTAAAATATC AGCCAATTAA CAGCACACAT GAGCTAGGCC CTCTGGTAGA TTTAAAAATT 
    CCTGCCAACA AGACCCGCTG GACTTTGAAA AATTTAAATT TCAGCACTCG GTACAAGTTC 
    TATTTCTATG CACAGACATC AGTGGGGTCA GGGAGTCAGA TCACAGAGGA AGCAATAACG 
    ACTGTGGACG AAGCTGGTAT TCCTCCACCT GATGTAGGTG CAGGCAAAGG CAAAGAAGAA 
    TGGAGGAAAG AAATTGTAAA TGGTTCTCGA AGCTTCTTTG GGTTAAAGGG TCTAATGCCA 
    GGAACAGCAT ACAAAGTTCG AGTTGGTGCT GAGGGGGACT CTGGTTTTGT GAGTTCAGAG 
    GATGTGTTTG AGACAGGACC AGCAATGGCA AGCCGGCAAG TGGATATTGC GACCCAAGGC 
    TGGTTCATAG GTCTAATGTG TGCTGTTGCT CTCCTCATCT TAATTTTGCT GATTGTTTGC 
    TTCATCAGAA GAAACAAGGG TGGTAAATAC CCAGTTAAAG AAAAGGAGGA TGCTCATGCA 
    GACCCTGAAA TCCAGCCCAT GAAGGAAGAT GATGGGACGT TTGGAGAATA CAGTGATGCA 
    GAAGATCACA AGCCTTTGAA AAAAGGAAGT CGAACACCTT CAGACAGGAC TGTGAAAAAA 
    GAAGATAGTG ATGATAGCCT GGTTGACTAT GGAGAGGGGG TCAACGGCCA ATTCAATGAG 
    GATGGCTCCT TTATTGGCCA ATACAGTGGT AAGAAAGAGA AAGAGCCAGC GGAGGGAAAT 
    GAAAGCTCAG AGGCCCCTTC TCCTGTCAAC GCAATGAACT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_021179686.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021035345.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OMv29276
    Clone ID Related Accession (Same CDS sequence) XM_021179686.1 , XM_021179686.2
    Accession Version XM_021179686.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3636bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GCTGGTATTC CTCCACCTGA TGTAGGTGCA 
    GGCAAAGCAA TGGCAAGCCG GCAAGTGGAT ATTGCGACCC AAGGCTGGTT CATAGGTCTA 
    ATGTGTGCTG TTGCTCTCCT CATCTTAATT TTGCTGATTG TTTGCTTCAT CAGAAGAAAC 
    AAGGGTGGTA AATACCCAGT TAAAGAAAAG GAGGATGCTC ATGCAGACCC TGAAATCCAG 
    CCCATGAAGG AAGATGATGG GACGTTTGGA GAATACAGTG ATGCAGAAGA TCACAAGCCT 
    TTGAAAAAAG GAAGTCGAAC ACCTTCAGAC AGGACTGTGA AAAAAGAAGA TAGTGATGAT 
    AGCCTGGTTG ACTATGGAGA GGGGGTCAAC GGCCAATTCA ATGAGGATGG CTCCTTTATT 
    GGCCAATACA GTGGTAAGAA AGAGAAAGAG CCAGCGGAGG GAAATGAAAG CTCAGAGGCC 
    CCTTCTCCTG TCAACGCAAT GAACTCCTTT GTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_021035345.1
    CDS99..3734
    Translation

    Target ORF information:

    RefSeq Version XM_021179686.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021179686.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GCTGGTATTC CTCCACCTGA TGTAGGTGCA 
    GGCAAAGCAA TGGCAAGCCG GCAAGTGGAT ATTGCGACCC AAGGCTGGTT CATAGGTCTA 
    ATGTGTGCTG TTGCTCTCCT CATCTTAATT TTGCTGATTG TTTGCTTCAT CAGAAGAAAC 
    AAGGGTGGTA AATACCCAGT TAAAGAAAAG GAGGATGCTC ATGCAGACCC TGAAATCCAG 
    CCCATGAAGG AAGATGATGG GACGTTTGGA GAATACAGTG ATGCAGAAGA TCACAAGCCT 
    TTGAAAAAAG GAAGTCGAAC ACCTTCAGAC AGGACTGTGA AAAAAGAAGA TAGTGATGAT 
    AGCCTGGTTG ACTATGGAGA GGGGGTCAAC GGCCAATTCA ATGAGGATGG CTCCTTTATT 
    GGCCAATACA GTGGTAAGAA AGAGAAAGAG CCAGCGGAGG GAAATGAAAG CTCAGAGGCC 
    CCTTCTCCTG TCAACGCAAT GAACTCCTTT GTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_021179686.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021035345.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X19, mRNA.
    Price & Availability↑
    CloneID OMv29276
    Clone ID Related Accession (Same CDS sequence) XM_021179686.1 , XM_021179686.2
    Accession Version XM_021179686.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3636bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X15
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 10, 2019 this sequence version replaced XM_021179686.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GCTGGTATTC CTCCACCTGA TGTAGGTGCA 
    GGCAAAGCAA TGGCAAGCCG GCAAGTGGAT ATTGCGACCC AAGGCTGGTT CATAGGTCTA 
    ATGTGTGCTG TTGCTCTCCT CATCTTAATT TTGCTGATTG TTTGCTTCAT CAGAAGAAAC 
    AAGGGTGGTA AATACCCAGT TAAAGAAAAG GAGGATGCTC ATGCAGACCC TGAAATCCAG 
    CCCATGAAGG AAGATGATGG GACGTTTGGA GAATACAGTG ATGCAGAAGA TCACAAGCCT 
    TTGAAAAAAG GAAGTCGAAC ACCTTCAGAC AGGACTGTGA AAAAAGAAGA TAGTGATGAT 
    AGCCTGGTTG ACTATGGAGA GGGGGTCAAC GGCCAATTCA ATGAGGATGG CTCCTTTATT 
    GGCCAATACA GTGGTAAGAA AGAGAAAGAG CCAGCGGAGG GAAATGAAAG CTCAGAGGCC 
    CCTTCTCCTG TCAACGCAAT GAACTCCTTT GTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_021035345.1
    CDS500..4135
    Translation

    Target ORF information:

    RefSeq Version XM_021179686.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X19, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021179686.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GCTGGTATTC CTCCACCTGA TGTAGGTGCA 
    GGCAAAGCAA TGGCAAGCCG GCAAGTGGAT ATTGCGACCC AAGGCTGGTT CATAGGTCTA 
    ATGTGTGCTG TTGCTCTCCT CATCTTAATT TTGCTGATTG TTTGCTTCAT CAGAAGAAAC 
    AAGGGTGGTA AATACCCAGT TAAAGAAAAG GAGGATGCTC ATGCAGACCC TGAAATCCAG 
    CCCATGAAGG AAGATGATGG GACGTTTGGA GAATACAGTG ATGCAGAAGA TCACAAGCCT 
    TTGAAAAAAG GAAGTCGAAC ACCTTCAGAC AGGACTGTGA AAAAAGAAGA TAGTGATGAT 
    AGCCTGGTTG ACTATGGAGA GGGGGTCAAC GGCCAATTCA ATGAGGATGG CTCCTTTATT 
    GGCCAATACA GTGGTAAGAA AGAGAAAGAG CCAGCGGAGG GAAATGAAAG CTCAGAGGCC 
    CCTTCTCCTG TCAACGCAAT GAACTCCTTT GTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_021179687.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021035346.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OMv29277
    Clone ID Related Accession (Same CDS sequence) XM_021179687.1
    Accession Version XM_021179687.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3594bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCCGAAGA AGAAGCACTT ATCTGCAGGC GGAGTGCCCC TGATTCTCTT CCTGTGCCAG 
    ATGATCAGCG CTCTGGATGT TCCTCTTGAT CCAAAGCTCC TTCATGACTT GGTACAACCT 
    CCAACCATCA CTCAACAGTC ACCAAAAGAC TACATCATTG ACCCTCGGGA GAATATTGTA 
    ATCCAGTGTG AGGCCAAAGG GAAACCTCCC CCAAGCTTTT CCTGGACTCG TAATGGAACT 
    CATTTTGACA TAGACAAGGA CCCTCTGGTC ACCATGAAGC CTGGCTCAGG AACCCTTGTC 
    ATCAACATCA TGAGTGAGGG GAAAGCAGAG ACCTATGAAG GAGTCTACCA GTGCACTGCA 
    AGGAACGAGC GTGGAGCTGC CGTCTCCAAT AACATTGTTG TCCGCCCATC TAGGTCACCC 
    TTGTGGACCA AGGAAAGACT TGAACCCATA ATACTCCGGA ATGGGCAGTC ATTAGTACTT 
    CCATGTAGGC CTCCGATTGG ATTACCTCCG GCCATAATAT TTTGGATGGA TAATTCCTTT 
    CAGAGACTTC CACAGAGTGA GCGGGTTTCC CAAGGCCTAA ATGGAGACCT TTACTTCTCC 
    AATGTCCTCC CAGAGGACAC CCGTGAGGAC TATATCTGCT ATGCTAGATT TAATCACACT 
    CAAACCATCC AACAGAAGCA GCCTATTTCT TTGAAGGTGA TTTCAGTGGA TGAATTGAAT 
    GACACTATAG CTGCTAATTT GAGTGACACT GAGTTTTATG GTGCTAAATC TAGTAAAGAG 
    AGGCCCCCAA CGTTTCTAAC TCCAGAGGGC AATGAAAGCC ACAAAGAGGA ATTAAGAGGA 
    AACGTGCTTT CGCTGGAGTG CATTGCGGAA GGCCTCCCTA CTCCAATTAT TTACTGGATC 
    AAAGAAGACG GAACGCTTCC TGCCAACCGG ACATTTTATC GGAACTTTAA GAAAACCTTG 
    CAGATCACTC ATGTTTCCGA AGCCGACTCT GGAAATTATC AGTGCATAGC AAAAAACGCA 
    TTAGGGGCCG TCCATCACAC CATTTCTGTC ACTGTTAAAG CGGCTCCCTA CTGGATCGTG 
    GCACCTCAAA ACCTCGTGCT TTCCCCGGGA GAGAATGGGA CCCTCATCTG CAGAGCTAAT 
    GGCAACCCGA AACCCAGAAT TAGCTGGTTA ACAAATGGAG TCCCAATAGA AATTGCTCTT 
    GATGACCCCA GCAGAAAAAT AGATGGTGAT ACCATTATAT TTTCTAATGT TCAAGAAAGC 
    TCAAGTGCGG TTTATCAGTG CAACGCCTCT AACAAATATG GATATTTACT AGCAAATGCA 
    TTTGTAAATG TTCTCGCTGA ACCACCTCGG ATTCTCACAT CAGCAAACAC TCTGTACCAG 
    GTCATTGCAA ACAGGCCTGC TTTGCTAGAT TGTGCCTTCT TTGGATCTCC TATGCCTACC 
    ATTGAATGGT TTAAAGGGAC TAAAGGAAGC GCTCTTCATG AAGACACTTA TGTTTTGCAT 
    GATAATGGAA CATTAGAAAT TCCCGTGGCC CAAAAGGATA GTACAGGGAC GTATACTTGT 
    GTCGCACGGA ATAAACTAGG GATGGCAAAG AATGAAGTTC ACTTGGAAAT CAAAGATCCA 
    ACCAGGATCA TTAAACAACC TGAATATGCA GTCGTCCAGA GGGGGAGCAA GGTGTCGTTT 
    GAATGCAGAG TGAAACATGA CCACACCTTA ATTCCCACCA TTCTGTGGCT GAAGGACAAT 
    GGAGAGCTGC CCAATGATGA AAGGTTCTCC ACTGACAAGG ATCATCTGGT GGTATCTGAT 
    GTAAAGGATG ACGATGGTGG CACCTACACA TGTACGGCCA ACACAACGCT GGACAGTGCT 
    TCGGCCAGCG CTGTGCTCAG GGTTGTCGCT CCTACTCCAA CTCCAGCCCC CATTTACGAT 
    GTCCCGAATC CTCCCTTTGA TTTAGAATTG ACCAATCAAC TTGACAAAAG TGTTCAGCTG 
    ACATGGACCC CAGGCGATGA CAACAATAGC CCCATTACAA AATTCATCAT TGAGTATGAA 
    GATGCAATGC ATGACGCAGG GCTGTGGCGC CACCAGGCTG AAGTTTCTGG AACACAGACC 
    ACAGCCCAAC TGAAGCTGTC TCCCTATGTG AACTACTCCT TCCGTGTCAT GGCAGAGAAC 
    GGCATTGGAA GAAGCATGCC GAGCGAGGCA TCTGAGCAGT ACCTCACAAA AGCCGCAGAA 
    CCAGATCAGA ATCCCATGGC TGTGGAAGGA CTAGGGACAG AGCCGGACAA CTTGGTGATT 
    ACATGGAAGC CCCTGAATGG TTTTCAATCG AATGGGCCTG GCCTCCAGTA CAAAGTGAGC 
    TGGCGCCAGA AAGATGGTGA CGATGAGTGG ACGTCTGTAG TTGTGGCCAA TGTATCCAAA 
    TACATTGTTT CTGGCACACC AACCTTTGTC CCATACCTGA TAAAAGTTCA AGCTCTGAAT 
    GATGTGGGGT TTGCACCAGA GCCAGCTGCA GTCATGGGGC ATTCTGGAGA AGACCTTCCA 
    ATGGTGGCTC CTGGAAATGT TCGTGTCAGC GTGGTGAACA GTACGCTGGC AGAGGTGCAC 
    TGGGACCCAG TTCCTCCCAA GAGTGTCCGA GGACACTTAC AAGGCTACCG GATTTACTAC 
    TGGAAGACCC AGAGCTCCTC TAAAAGAAAC AGGCGCCACA TTGAGAAGAA GATCCTCACC 
    TTCCAGGGCA CCAAGACTCA CGGCATGCTG CCAGGGCTGC AGCCATACAG TCACTATGCT 
    CTCAACGTCC GAGTGGTCAA CGGGAAAGGG GAGGGCCCAG CCAGCACCGA CAGAGGCTTC 
    CATACACCGG AGGGAGTCCC TAGTGCTCCC TCATCTTTGA AAATTGTTAA TCCTACACTG 
    GACTCTCTCA CTTTGGAGTG GGACCCACCA AGCCACCCAA ATGGCATCCT GACAGAGTAC 
    ATCTTAAAAT ATCAGCCAAT TAACAGCACA CATGAGCTAG GCCCTCTGGT AGATTTAAAA 
    ATTCCTGCCA ACAAGACCCG CTGGACTTTG AAAAATTTAA ATTTCAGCAC TCGGTACAAG 
    TTCTATTTCT ATGCACAGAC ATCAGTGGGG TCAGGGAGTC AGATCACAGA GGAAGCAATA 
    ACGACTGTGG ACGAAGGTAA GAAGGCAATG GCAAGCCGGC AAGTGGATAT TGCGACCCAA 
    GGCTGGTTCA TAGGTCTAAT GTGTGCTGTT GCTCTCCTCA TCTTAATTTT GCTGATTGTT 
    TGCTTCATCA GAAGAAACAA GGGTGGTAAA TACCCAGTTA AAGAAAAGGA GGATGCTCAT 
    GCAGACCCTG AAATCCAGCC CATGAAGGAA GATGATGGGA CGTTTGGAGA ATACAGTGAT 
    GCAGAAGATC ACAAGCCTTT GAAAAAAGGA AGTCGAACAC CTTCAGACAG GACTGTGAAA 
    AAAGAAGATA GTGATGATAG CCTGGTTGAC TATGGAGAGG GGGTCAACGG CCAATTCAAT 
    GAGGATGGCT CCTTTATTGG CCAATACAGT GGTAAGAAAG AGAAAGAGCC AGCGGAGGGA 
    AATGAAAGCT CAGAGGCCCC TTCTCCTGTC AACGCAATGA ACTCCTTTGT TTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_021035346.1
    CDS1..3594
    Translation

    Target ORF information:

    RefSeq Version XM_021179687.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021179687.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCCGAAGA AGAAGCACTT ATCTGCAGGC GGAGTGCCCC TGATTCTCTT CCTGTGCCAG 
    ATGATCAGCG CTCTGGATGT TCCTCTTGAT CCAAAGCTCC TTCATGACTT GGTACAACCT 
    CCAACCATCA CTCAACAGTC ACCAAAAGAC TACATCATTG ACCCTCGGGA GAATATTGTA 
    ATCCAGTGTG AGGCCAAAGG GAAACCTCCC CCAAGCTTTT CCTGGACTCG TAATGGAACT 
    CATTTTGACA TAGACAAGGA CCCTCTGGTC ACCATGAAGC CTGGCTCAGG AACCCTTGTC 
    ATCAACATCA TGAGTGAGGG GAAAGCAGAG ACCTATGAAG GAGTCTACCA GTGCACTGCA 
    AGGAACGAGC GTGGAGCTGC CGTCTCCAAT AACATTGTTG TCCGCCCATC TAGGTCACCC 
    TTGTGGACCA AGGAAAGACT TGAACCCATA ATACTCCGGA ATGGGCAGTC ATTAGTACTT 
    CCATGTAGGC CTCCGATTGG ATTACCTCCG GCCATAATAT TTTGGATGGA TAATTCCTTT 
    CAGAGACTTC CACAGAGTGA GCGGGTTTCC CAAGGCCTAA ATGGAGACCT TTACTTCTCC 
    AATGTCCTCC CAGAGGACAC CCGTGAGGAC TATATCTGCT ATGCTAGATT TAATCACACT 
    CAAACCATCC AACAGAAGCA GCCTATTTCT TTGAAGGTGA TTTCAGTGGA TGAATTGAAT 
    GACACTATAG CTGCTAATTT GAGTGACACT GAGTTTTATG GTGCTAAATC TAGTAAAGAG 
    AGGCCCCCAA CGTTTCTAAC TCCAGAGGGC AATGAAAGCC ACAAAGAGGA ATTAAGAGGA 
    AACGTGCTTT CGCTGGAGTG CATTGCGGAA GGCCTCCCTA CTCCAATTAT TTACTGGATC 
    AAAGAAGACG GAACGCTTCC TGCCAACCGG ACATTTTATC GGAACTTTAA GAAAACCTTG 
    CAGATCACTC ATGTTTCCGA AGCCGACTCT GGAAATTATC AGTGCATAGC AAAAAACGCA 
    TTAGGGGCCG TCCATCACAC CATTTCTGTC ACTGTTAAAG CGGCTCCCTA CTGGATCGTG 
    GCACCTCAAA ACCTCGTGCT TTCCCCGGGA GAGAATGGGA CCCTCATCTG CAGAGCTAAT 
    GGCAACCCGA AACCCAGAAT TAGCTGGTTA ACAAATGGAG TCCCAATAGA AATTGCTCTT 
    GATGACCCCA GCAGAAAAAT AGATGGTGAT ACCATTATAT TTTCTAATGT TCAAGAAAGC 
    TCAAGTGCGG TTTATCAGTG CAACGCCTCT AACAAATATG GATATTTACT AGCAAATGCA 
    TTTGTAAATG TTCTCGCTGA ACCACCTCGG ATTCTCACAT CAGCAAACAC TCTGTACCAG 
    GTCATTGCAA ACAGGCCTGC TTTGCTAGAT TGTGCCTTCT TTGGATCTCC TATGCCTACC 
    ATTGAATGGT TTAAAGGGAC TAAAGGAAGC GCTCTTCATG AAGACACTTA TGTTTTGCAT 
    GATAATGGAA CATTAGAAAT TCCCGTGGCC CAAAAGGATA GTACAGGGAC GTATACTTGT 
    GTCGCACGGA ATAAACTAGG GATGGCAAAG AATGAAGTTC ACTTGGAAAT CAAAGATCCA 
    ACCAGGATCA TTAAACAACC TGAATATGCA GTCGTCCAGA GGGGGAGCAA GGTGTCGTTT 
    GAATGCAGAG TGAAACATGA CCACACCTTA ATTCCCACCA TTCTGTGGCT GAAGGACAAT 
    GGAGAGCTGC CCAATGATGA AAGGTTCTCC ACTGACAAGG ATCATCTGGT GGTATCTGAT 
    GTAAAGGATG ACGATGGTGG CACCTACACA TGTACGGCCA ACACAACGCT GGACAGTGCT 
    TCGGCCAGCG CTGTGCTCAG GGTTGTCGCT CCTACTCCAA CTCCAGCCCC CATTTACGAT 
    GTCCCGAATC CTCCCTTTGA TTTAGAATTG ACCAATCAAC TTGACAAAAG TGTTCAGCTG 
    ACATGGACCC CAGGCGATGA CAACAATAGC CCCATTACAA AATTCATCAT TGAGTATGAA 
    GATGCAATGC ATGACGCAGG GCTGTGGCGC CACCAGGCTG AAGTTTCTGG AACACAGACC 
    ACAGCCCAAC TGAAGCTGTC TCCCTATGTG AACTACTCCT TCCGTGTCAT GGCAGAGAAC 
    GGCATTGGAA GAAGCATGCC GAGCGAGGCA TCTGAGCAGT ACCTCACAAA AGCCGCAGAA 
    CCAGATCAGA ATCCCATGGC TGTGGAAGGA CTAGGGACAG AGCCGGACAA CTTGGTGATT 
    ACATGGAAGC CCCTGAATGG TTTTCAATCG AATGGGCCTG GCCTCCAGTA CAAAGTGAGC 
    TGGCGCCAGA AAGATGGTGA CGATGAGTGG ACGTCTGTAG TTGTGGCCAA TGTATCCAAA 
    TACATTGTTT CTGGCACACC AACCTTTGTC CCATACCTGA TAAAAGTTCA AGCTCTGAAT 
    GATGTGGGGT TTGCACCAGA GCCAGCTGCA GTCATGGGGC ATTCTGGAGA AGACCTTCCA 
    ATGGTGGCTC CTGGAAATGT TCGTGTCAGC GTGGTGAACA GTACGCTGGC AGAGGTGCAC 
    TGGGACCCAG TTCCTCCCAA GAGTGTCCGA GGACACTTAC AAGGCTACCG GATTTACTAC 
    TGGAAGACCC AGAGCTCCTC TAAAAGAAAC AGGCGCCACA TTGAGAAGAA GATCCTCACC 
    TTCCAGGGCA CCAAGACTCA CGGCATGCTG CCAGGGCTGC AGCCATACAG TCACTATGCT 
    CTCAACGTCC GAGTGGTCAA CGGGAAAGGG GAGGGCCCAG CCAGCACCGA CAGAGGCTTC 
    CATACACCGG AGGGAGTCCC TAGTGCTCCC TCATCTTTGA AAATTGTTAA TCCTACACTG 
    GACTCTCTCA CTTTGGAGTG GGACCCACCA AGCCACCCAA ATGGCATCCT GACAGAGTAC 
    ATCTTAAAAT ATCAGCCAAT TAACAGCACA CATGAGCTAG GCCCTCTGGT AGATTTAAAA 
    ATTCCTGCCA ACAAGACCCG CTGGACTTTG AAAAATTTAA ATTTCAGCAC TCGGTACAAG 
    TTCTATTTCT ATGCACAGAC ATCAGTGGGG TCAGGGAGTC AGATCACAGA GGAAGCAATA 
    ACGACTGTGG ACGAAGGTAA GAAGGCAATG GCAAGCCGGC AAGTGGATAT TGCGACCCAA 
    GGCTGGTTCA TAGGTCTAAT GTGTGCTGTT GCTCTCCTCA TCTTAATTTT GCTGATTGTT 
    TGCTTCATCA GAAGAAACAA GGGTGGTAAA TACCCAGTTA AAGAAAAGGA GGATGCTCAT 
    GCAGACCCTG AAATCCAGCC CATGAAGGAA GATGATGGGA CGTTTGGAGA ATACAGTGAT 
    GCAGAAGATC ACAAGCCTTT GAAAAAAGGA AGTCGAACAC CTTCAGACAG GACTGTGAAA 
    AAAGAAGATA GTGATGATAG CCTGGTTGAC TATGGAGAGG GGGTCAACGG CCAATTCAAT 
    GAGGATGGCT CCTTTATTGG CCAATACAGT GGTAAGAAAG AGAAAGAGCC AGCGGAGGGA 
    AATGAAAGCT CAGAGGCCCC TTCTCCTGTC AACGCAATGA ACTCCTTTGT TTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_021179688.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021035347.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OMv29278
    Clone ID Related Accession (Same CDS sequence) XM_021179688.1
    Accession Version XM_021179688.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3585bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCCGAAGA AGAAGCACTT ATCTGCAGGC GGAGTGCCCC TGATTCTCTT CCTGTGCCAG 
    ATGATCAGCG CTCTGGATGT TCCTCTTGAT CCAAAGCTCC TTCATGACTT GGTACAACCT 
    CCAACCATCA CTCAACAGTC ACCAAAAGAC TACATCATTG ACCCTCGGGA GAATATTGTA 
    ATCCAGTGTG AGGCCAAAGG GAAACCTCCC CCAAGCTTTT CCTGGACTCG TAATGGAACT 
    CATTTTGACA TAGACAAGGA CCCTCTGGTC ACCATGAAGC CTGGCTCAGG AACCCTTGTC 
    ATCAACATCA TGAGTGAGGG GAAAGCAGAG ACCTATGAAG GAGTCTACCA GTGCACTGCA 
    AGGAACGAGC GTGGAGCTGC CGTCTCCAAT AACATTGTTG TCCGCCCATC TAGGTCACCC 
    TTGTGGACCA AGGAAAGACT TGAACCCATA ATACTCCGGA ATGGGCAGTC ATTAGTACTT 
    CCATGTAGGC CTCCGATTGG ATTACCTCCG GCCATAATAT TTTGGATGGA TAATTCCTTT 
    CAGAGACTTC CACAGAGTGA GCGGGTTTCC CAAGGCCTAA ATGGAGACCT TTACTTCTCC 
    AATGTCCTCC CAGAGGACAC CCGTGAGGAC TATATCTGCT ATGCTAGATT TAATCACACT 
    CAAACCATCC AACAGAAGCA GCCTATTTCT TTGAAGGTGA TTTCAGTGGA TGAATTGAAT 
    GACACTATAG CTGCTAATTT GAGTGACACT GAGTTTTATG GTGCTAAATC TAGTAAAGAG 
    AGGCCCCCAA CGTTTCTAAC TCCAGAGGGC AATGAAAGCC ACAAAGAGGA ATTAAGAGGA 
    AACGTGCTTT CGCTGGAGTG CATTGCGGAA GGCCTCCCTA CTCCAATTAT TTACTGGATC 
    AAAGAAGACG GAACGCTTCC TGCCAACCGG ACATTTTATC GGAACTTTAA GAAAACCTTG 
    CAGATCACTC ATGTTTCCGA AGCCGACTCT GGAAATTATC AGTGCATAGC AAAAAACGCA 
    TTAGGGGCCG TCCATCACAC CATTTCTGTC ACTGTTAAAG CGGCTCCCTA CTGGATCGTG 
    GCACCTCAAA ACCTCGTGCT TTCCCCGGGA GAGAATGGGA CCCTCATCTG CAGAGCTAAT 
    GGCAACCCGA AACCCAGAAT TAGCTGGTTA ACAAATGGAG TCCCAATAGA AATTGCTCTT 
    GATGACCCCA GCAGAAAAAT AGATGGTGAT ACCATTATAT TTTCTAATGT TCAAGAAAGC 
    TCAAGTGCGG TTTATCAGTG CAACGCCTCT AACAAATATG GATATTTACT AGCAAATGCA 
    TTTGTAAATG TTCTCGCTGA ACCACCTCGG ATTCTCACAT CAGCAAACAC TCTGTACCAG 
    GTCATTGCAA ACAGGCCTGC TTTGCTAGAT TGTGCCTTCT TTGGATCTCC TATGCCTACC 
    ATTGAATGGT TTAAAGGGAC TAAAGGAAGC GCTCTTCATG AAGACACTTA TGTTTTGCAT 
    GATAATGGAA CATTAGAAAT TCCCGTGGCC CAAAAGGATA GTACAGGGAC GTATACTTGT 
    GTCGCACGGA ATAAACTAGG GATGGCAAAG AATGAAGTTC ACTTGGAAAT CAAAGATCCA 
    ACCAGGATCA TTAAACAACC TGAATATGCA GTCGTCCAGA GGGGGAGCAA GGTGTCGTTT 
    GAATGCAGAG TGAAACATGA CCACACCTTA ATTCCCACCA TTCTGTGGCT GAAGGACAAT 
    GGAGAGCTGC CCAATGATGA AAGGTTCTCC ACTGACAAGG ATCATCTGGT GGTATCTGAT 
    GTAAAGGATG ACGATGGTGG CACCTACACA TGTACGGCCA ACACAACGCT GGACAGTGCT 
    TCGGCCAGCG CTGTGCTCAG GGTTGTCGCT CCTACTCCAA CTCCAGCCCC CATTTACGAT 
    GTCCCGAATC CTCCCTTTGA TTTAGAATTG ACCAATCAAC TTGACAAAAG TGTTCAGCTG 
    ACATGGACCC CAGGCGATGA CAACAATAGC CCCATTACAA AATTCATCAT TGAGTATGAA 
    GATGCAATGC ATGACGCAGG GCTGTGGCGC CACCAGGCTG AAGTTTCTGG AACACAGACC 
    ACAGCCCAAC TGAAGCTGTC TCCCTATGTG AACTACTCCT TCCGTGTCAT GGCAGAGAAC 
    GGCATTGGAA GAAGCATGCC GAGCGAGGCA TCTGAGCAGT ACCTCACAAA AGCCGCAGAA 
    CCAGATCAGA ATCCCATGGC TGTGGAAGGA CTAGGGACAG AGCCGGACAA CTTGGTGATT 
    ACATGGAAGC CCCTGAATGG TTTTCAATCG AATGGGCCTG GCCTCCAGTA CAAAGTGAGC 
    TGGCGCCAGA AAGATGGTGA CGATGAGTGG ACGTCTGTAG TTGTGGCCAA TGTATCCAAA 
    TACATTGTTT CTGGCACACC AACCTTTGTC CCATACCTGA TAAAAGTTCA AGCTCTGAAT 
    GATGTGGGGT TTGCACCAGA GCCAGCTGCA GTCATGGGGC ATTCTGGAGA AGACCTTCCA 
    ATGGTGGCTC CTGGAAATGT TCGTGTCAGC GTGGTGAACA GTACGCTGGC AGAGGTGCAC 
    TGGGACCCAG TTCCTCCCAA GAGTGTCCGA GGACACTTAC AAGGCTACCG GATTTACTAC 
    TGGAAGACCC AGAGCTCCTC TAAAAGAAAC AGGCGCCACA TTGAGAAGAA GATCCTCACC 
    TTCCAGGGCA CCAAGACTCA CGGCATGCTG CCAGGGCTGC AGCCATACAG TCACTATGCT 
    CTCAACGTCC GAGTGGTCAA CGGGAAAGGG GAGGGCCCAG CCAGCACCGA CAGAGGCTTC 
    CATACACCGG AGGGAGTCCC TAGTGCTCCC TCATCTTTGA AAATTGTTAA TCCTACACTG 
    GACTCTCTCA CTTTGGAGTG GGACCCACCA AGCCACCCAA ATGGCATCCT GACAGAGTAC 
    ATCTTAAAAT ATCAGCCAAT TAACAGCACA CATGAGCTAG GCCCTCTGGT AGATTTAAAA 
    ATTCCTGCCA ACAAGACCCG CTGGACTTTG AAAAATTTAA ATTTCAGCAC TCGGTACAAG 
    TTCTATTTCT ATGCACAGAC ATCAGTGGGG TCAGGGAGTC AGATCACAGA GGAAGCAATA 
    ACGACTGTGG ACGAAGCAAT GGCAAGCCGG CAAGTGGATA TTGCGACCCA AGGCTGGTTC 
    ATAGGTCTAA TGTGTGCTGT TGCTCTCCTC ATCTTAATTT TGCTGATTGT TTGCTTCATC 
    AGAAGAAACA AGGGTGGTAA ATACCCAGTT AAAGAAAAGG AGGATGCTCA TGCAGACCCT 
    GAAATCCAGC CCATGAAGGA AGATGATGGG ACGTTTGGAG AATACAGTGA TGCAGAAGAT 
    CACAAGCCTT TGAAAAAAGG AAGTCGAACA CCTTCAGACA GGACTGTGAA AAAAGAAGAT 
    AGTGATGATA GCCTGGTTGA CTATGGAGAG GGGGTCAACG GCCAATTCAA TGAGGATGGC 
    TCCTTTATTG GCCAATACAG TGGTAAGAAA GAGAAAGAGC CAGCGGAGGG AAATGAAAGC 
    TCAGAGGCCC CTTCTCCTGT CAACGCAATG AACTCCTTTG TTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_021035347.1
    CDS1..3585
    Translation

    Target ORF information:

    RefSeq Version XM_021179688.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021179688.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCCGAAGA AGAAGCACTT ATCTGCAGGC GGAGTGCCCC TGATTCTCTT CCTGTGCCAG 
    ATGATCAGCG CTCTGGATGT TCCTCTTGAT CCAAAGCTCC TTCATGACTT GGTACAACCT 
    CCAACCATCA CTCAACAGTC ACCAAAAGAC TACATCATTG ACCCTCGGGA GAATATTGTA 
    ATCCAGTGTG AGGCCAAAGG GAAACCTCCC CCAAGCTTTT CCTGGACTCG TAATGGAACT 
    CATTTTGACA TAGACAAGGA CCCTCTGGTC ACCATGAAGC CTGGCTCAGG AACCCTTGTC 
    ATCAACATCA TGAGTGAGGG GAAAGCAGAG ACCTATGAAG GAGTCTACCA GTGCACTGCA 
    AGGAACGAGC GTGGAGCTGC CGTCTCCAAT AACATTGTTG TCCGCCCATC TAGGTCACCC 
    TTGTGGACCA AGGAAAGACT TGAACCCATA ATACTCCGGA ATGGGCAGTC ATTAGTACTT 
    CCATGTAGGC CTCCGATTGG ATTACCTCCG GCCATAATAT TTTGGATGGA TAATTCCTTT 
    CAGAGACTTC CACAGAGTGA GCGGGTTTCC CAAGGCCTAA ATGGAGACCT TTACTTCTCC 
    AATGTCCTCC CAGAGGACAC CCGTGAGGAC TATATCTGCT ATGCTAGATT TAATCACACT 
    CAAACCATCC AACAGAAGCA GCCTATTTCT TTGAAGGTGA TTTCAGTGGA TGAATTGAAT 
    GACACTATAG CTGCTAATTT GAGTGACACT GAGTTTTATG GTGCTAAATC TAGTAAAGAG 
    AGGCCCCCAA CGTTTCTAAC TCCAGAGGGC AATGAAAGCC ACAAAGAGGA ATTAAGAGGA 
    AACGTGCTTT CGCTGGAGTG CATTGCGGAA GGCCTCCCTA CTCCAATTAT TTACTGGATC 
    AAAGAAGACG GAACGCTTCC TGCCAACCGG ACATTTTATC GGAACTTTAA GAAAACCTTG 
    CAGATCACTC ATGTTTCCGA AGCCGACTCT GGAAATTATC AGTGCATAGC AAAAAACGCA 
    TTAGGGGCCG TCCATCACAC CATTTCTGTC ACTGTTAAAG CGGCTCCCTA CTGGATCGTG 
    GCACCTCAAA ACCTCGTGCT TTCCCCGGGA GAGAATGGGA CCCTCATCTG CAGAGCTAAT 
    GGCAACCCGA AACCCAGAAT TAGCTGGTTA ACAAATGGAG TCCCAATAGA AATTGCTCTT 
    GATGACCCCA GCAGAAAAAT AGATGGTGAT ACCATTATAT TTTCTAATGT TCAAGAAAGC 
    TCAAGTGCGG TTTATCAGTG CAACGCCTCT AACAAATATG GATATTTACT AGCAAATGCA 
    TTTGTAAATG TTCTCGCTGA ACCACCTCGG ATTCTCACAT CAGCAAACAC TCTGTACCAG 
    GTCATTGCAA ACAGGCCTGC TTTGCTAGAT TGTGCCTTCT TTGGATCTCC TATGCCTACC 
    ATTGAATGGT TTAAAGGGAC TAAAGGAAGC GCTCTTCATG AAGACACTTA TGTTTTGCAT 
    GATAATGGAA CATTAGAAAT TCCCGTGGCC CAAAAGGATA GTACAGGGAC GTATACTTGT 
    GTCGCACGGA ATAAACTAGG GATGGCAAAG AATGAAGTTC ACTTGGAAAT CAAAGATCCA 
    ACCAGGATCA TTAAACAACC TGAATATGCA GTCGTCCAGA GGGGGAGCAA GGTGTCGTTT 
    GAATGCAGAG TGAAACATGA CCACACCTTA ATTCCCACCA TTCTGTGGCT GAAGGACAAT 
    GGAGAGCTGC CCAATGATGA AAGGTTCTCC ACTGACAAGG ATCATCTGGT GGTATCTGAT 
    GTAAAGGATG ACGATGGTGG CACCTACACA TGTACGGCCA ACACAACGCT GGACAGTGCT 
    TCGGCCAGCG CTGTGCTCAG GGTTGTCGCT CCTACTCCAA CTCCAGCCCC CATTTACGAT 
    GTCCCGAATC CTCCCTTTGA TTTAGAATTG ACCAATCAAC TTGACAAAAG TGTTCAGCTG 
    ACATGGACCC CAGGCGATGA CAACAATAGC CCCATTACAA AATTCATCAT TGAGTATGAA 
    GATGCAATGC ATGACGCAGG GCTGTGGCGC CACCAGGCTG AAGTTTCTGG AACACAGACC 
    ACAGCCCAAC TGAAGCTGTC TCCCTATGTG AACTACTCCT TCCGTGTCAT GGCAGAGAAC 
    GGCATTGGAA GAAGCATGCC GAGCGAGGCA TCTGAGCAGT ACCTCACAAA AGCCGCAGAA 
    CCAGATCAGA ATCCCATGGC TGTGGAAGGA CTAGGGACAG AGCCGGACAA CTTGGTGATT 
    ACATGGAAGC CCCTGAATGG TTTTCAATCG AATGGGCCTG GCCTCCAGTA CAAAGTGAGC 
    TGGCGCCAGA AAGATGGTGA CGATGAGTGG ACGTCTGTAG TTGTGGCCAA TGTATCCAAA 
    TACATTGTTT CTGGCACACC AACCTTTGTC CCATACCTGA TAAAAGTTCA AGCTCTGAAT 
    GATGTGGGGT TTGCACCAGA GCCAGCTGCA GTCATGGGGC ATTCTGGAGA AGACCTTCCA 
    ATGGTGGCTC CTGGAAATGT TCGTGTCAGC GTGGTGAACA GTACGCTGGC AGAGGTGCAC 
    TGGGACCCAG TTCCTCCCAA GAGTGTCCGA GGACACTTAC AAGGCTACCG GATTTACTAC 
    TGGAAGACCC AGAGCTCCTC TAAAAGAAAC AGGCGCCACA TTGAGAAGAA GATCCTCACC 
    TTCCAGGGCA CCAAGACTCA CGGCATGCTG CCAGGGCTGC AGCCATACAG TCACTATGCT 
    CTCAACGTCC GAGTGGTCAA CGGGAAAGGG GAGGGCCCAG CCAGCACCGA CAGAGGCTTC 
    CATACACCGG AGGGAGTCCC TAGTGCTCCC TCATCTTTGA AAATTGTTAA TCCTACACTG 
    GACTCTCTCA CTTTGGAGTG GGACCCACCA AGCCACCCAA ATGGCATCCT GACAGAGTAC 
    ATCTTAAAAT ATCAGCCAAT TAACAGCACA CATGAGCTAG GCCCTCTGGT AGATTTAAAA 
    ATTCCTGCCA ACAAGACCCG CTGGACTTTG AAAAATTTAA ATTTCAGCAC TCGGTACAAG 
    TTCTATTTCT ATGCACAGAC ATCAGTGGGG TCAGGGAGTC AGATCACAGA GGAAGCAATA 
    ACGACTGTGG ACGAAGCAAT GGCAAGCCGG CAAGTGGATA TTGCGACCCA AGGCTGGTTC 
    ATAGGTCTAA TGTGTGCTGT TGCTCTCCTC ATCTTAATTT TGCTGATTGT TTGCTTCATC 
    AGAAGAAACA AGGGTGGTAA ATACCCAGTT AAAGAAAAGG AGGATGCTCA TGCAGACCCT 
    GAAATCCAGC CCATGAAGGA AGATGATGGG ACGTTTGGAG AATACAGTGA TGCAGAAGAT 
    CACAAGCCTT TGAAAAAAGG AAGTCGAACA CCTTCAGACA GGACTGTGAA AAAAGAAGAT 
    AGTGATGATA GCCTGGTTGA CTATGGAGAG GGGGTCAACG GCCAATTCAA TGAGGATGGC 
    TCCTTTATTG GCCAATACAG TGGTAAGAAA GAGAAAGAGC CAGCGGAGGG AAATGAAAGC 
    TCAGAGGCCC CTTCTCCTGT CAACGCAATG AACTCCTTTG TTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_021179689.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021035348.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OMv29279
    Clone ID Related Accession (Same CDS sequence) XM_021179689.1 , XM_021179689.2
    Accession Version XM_021179689.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3579bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GCTAAATCTA GTAAAGAGAG GCCCCCAACG TTTCTAACTC CAGAGGGCAA TGAAAGCCAC 
    AAAGAGGAAT TAAGAGGAAA CGTGCTTTCG CTGGAGTGCA TTGCGGAAGG CCTCCCTACT 
    CCAATTATTT ACTGGATCAA AGAAGACGGA ACGCTTCCTG CCAACCGGAC ATTTTATCGG 
    AACTTTAAGA AAACCTTGCA GATCACTCAT GTTTCCGAAG CCGACTCTGG AAATTATCAG 
    TGCATAGCAA AAAACGCATT AGGGGCCGTC CATCACACCA TTTCTGTCAC TGTTAAAGCG 
    GCTCCCTACT GGATCGTGGC ACCTCAAAAC CTCGTGCTTT CCCCGGGAGA GAATGGGACC 
    CTCATCTGCA GAGCTAATGG CAACCCGAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCTCTTGA TGACCCCAGC AGAAAAATAG ATGGTGATAC CATTATATTT 
    TCTAATGTTC AAGAAAGCTC AAGTGCGGTT TATCAGTGCA ACGCCTCTAA CAAATATGGA 
    TATTTACTAG CAAATGCATT TGTAAATGTT CTCGCTGAAC CACCTCGGAT TCTCACATCA 
    GCAAACACTC TGTACCAGGT CATTGCAAAC AGGCCTGCTT TGCTAGATTG TGCCTTCTTT 
    GGATCTCCTA TGCCTACCAT TGAATGGTTT AAAGGGACTA AAGGAAGCGC TCTTCATGAA 
    GACACTTATG TTTTGCATGA TAATGGAACA TTAGAAATTC CCGTGGCCCA AAAGGATAGT 
    ACAGGGACGT ATACTTGTGT CGCACGGAAT AAACTAGGGA TGGCAAAGAA TGAAGTTCAC 
    TTGGAAATCA AAGATCCAAC CAGGATCATT AAACAACCTG AATATGCAGT CGTCCAGAGG 
    GGGAGCAAGG TGTCGTTTGA ATGCAGAGTG AAACATGACC ACACCTTAAT TCCCACCATT 
    CTGTGGCTGA AGGACAATGG AGAGCTGCCC AATGATGAAA GGTTCTCCAC TGACAAGGAT 
    CATCTGGTGG TATCTGATGT AAAGGATGAC GATGGTGGCA CCTACACATG TACGGCCAAC 
    ACAACGCTGG ACAGTGCTTC GGCCAGCGCT GTGCTCAGGG TTGTCGCTCC TACTCCAACT 
    CCAGCCCCCA TTTACGATGT CCCGAATCCT CCCTTTGATT TAGAATTGAC CAATCAACTT 
    GACAAAAGTG TTCAGCTGAC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATTG AGTATGAAGA TGCAATGCAT GACGCAGGGC TGTGGCGCCA CCAGGCTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAACTG AAGCTGTCTC CCTATGTGAA CTACTCCTTC 
    CGTGTCATGG CAGAGAACGG CATTGGAAGA AGCATGCCGA GCGAGGCATC TGAGCAGTAC 
    CTCACAAAAG CCGCAGAACC AGATCAGAAT CCCATGGCTG TGGAAGGACT AGGGACAGAG 
    CCGGACAACT TGGTGATTAC ATGGAAGCCC CTGAATGGTT TTCAATCGAA TGGGCCTGGC 
    CTCCAGTACA AAGTGAGCTG GCGCCAGAAA GATGGTGACG ATGAGTGGAC GTCTGTAGTT 
    GTGGCCAATG TATCCAAATA CATTGTTTCT GGCACACCAA CCTTTGTCCC ATACCTGATA 
    AAAGTTCAAG CTCTGAATGA TGTGGGGTTT GCACCAGAGC CAGCTGCAGT CATGGGGCAT 
    TCTGGAGAAG ACCTTCCAAT GGTGGCTCCT GGAAATGTTC GTGTCAGCGT GGTGAACAGT 
    ACGCTGGCAG AGGTGCACTG GGACCCAGTT CCTCCCAAGA GTGTCCGAGG ACACTTACAA 
    GGCTACCGGA TTTACTACTG GAAGACCCAG AGCTCCTCTA AAAGAAACAG GCGCCACATT 
    GAGAAGAAGA TCCTCACCTT CCAGGGCACC AAGACTCACG GCATGCTGCC AGGGCTGCAG 
    CCATACAGTC ACTATGCTCT CAACGTCCGA GTGGTCAACG GGAAAGGGGA GGGCCCAGCC 
    AGCACCGACA GAGGCTTCCA TACACCGGAG GGAGTCCCTA GTGCTCCCTC ATCTTTGAAA 
    ATTGTTAATC CTACACTGGA CTCTCTCACT TTGGAGTGGG ACCCACCAAG CCACCCAAAT 
    GGCATCCTGA CAGAGTACAT CTTAAAATAT CAGCCAATTA ACAGCACACA TGAGCTAGGC 
    CCTCTGGTAG ATTTAAAAAT TCCTGCCAAC AAGACCCGCT GGACTTTGAA AAATTTAAAT 
    TTCAGCACTC GGTACAAGTT CTATTTCTAT GCACAGACAT CAGTGGGGTC AGGGAGTCAG 
    ATCACAGAGG AAGCAATAAC GACTGTGGAC GAAGCTGGTA TTCCTCCACC TGATGTAGGT 
    GCAGGCAAAG CAATGGCAAG CCGGCAAGTG GATATTGCGA CCCAAGGCTG GTTCATAGGT 
    CTAATGTGTG CTGTTGCTCT CCTCATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATACCC AGTTAAAGAA AAGGAGGATG CTCATGCAGA CCCTGAAATC 
    CAGCCCATGA AGGAAGATGA TGGGACGTTT GGAGAATACA GTGATGCAGA AGATCACAAG 
    CCTTTGAAAA AAGGAAGTCG AACACCTTCA GACAGGACTG TGAAAAAAGA AGATAGTGAT 
    GATAGCCTGG TTGACTATGG AGAGGGGGTC AACGGCCAAT TCAATGAGGA TGGCTCCTTT 
    ATTGGCCAAT ACAGTGGTAA GAAAGAGAAA GAGCCAGCGG AGGGAAATGA AAGCTCAGAG 
    GCCCCTTCTC CTGTCAACGC AATGAACTCC TTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_021035348.1
    CDS99..3677
    Translation

    Target ORF information:

    RefSeq Version XM_021179689.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021179689.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GCTAAATCTA GTAAAGAGAG GCCCCCAACG TTTCTAACTC CAGAGGGCAA TGAAAGCCAC 
    AAAGAGGAAT TAAGAGGAAA CGTGCTTTCG CTGGAGTGCA TTGCGGAAGG CCTCCCTACT 
    CCAATTATTT ACTGGATCAA AGAAGACGGA ACGCTTCCTG CCAACCGGAC ATTTTATCGG 
    AACTTTAAGA AAACCTTGCA GATCACTCAT GTTTCCGAAG CCGACTCTGG AAATTATCAG 
    TGCATAGCAA AAAACGCATT AGGGGCCGTC CATCACACCA TTTCTGTCAC TGTTAAAGCG 
    GCTCCCTACT GGATCGTGGC ACCTCAAAAC CTCGTGCTTT CCCCGGGAGA GAATGGGACC 
    CTCATCTGCA GAGCTAATGG CAACCCGAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCTCTTGA TGACCCCAGC AGAAAAATAG ATGGTGATAC CATTATATTT 
    TCTAATGTTC AAGAAAGCTC AAGTGCGGTT TATCAGTGCA ACGCCTCTAA CAAATATGGA 
    TATTTACTAG CAAATGCATT TGTAAATGTT CTCGCTGAAC CACCTCGGAT TCTCACATCA 
    GCAAACACTC TGTACCAGGT CATTGCAAAC AGGCCTGCTT TGCTAGATTG TGCCTTCTTT 
    GGATCTCCTA TGCCTACCAT TGAATGGTTT AAAGGGACTA AAGGAAGCGC TCTTCATGAA 
    GACACTTATG TTTTGCATGA TAATGGAACA TTAGAAATTC CCGTGGCCCA AAAGGATAGT 
    ACAGGGACGT ATACTTGTGT CGCACGGAAT AAACTAGGGA TGGCAAAGAA TGAAGTTCAC 
    TTGGAAATCA AAGATCCAAC CAGGATCATT AAACAACCTG AATATGCAGT CGTCCAGAGG 
    GGGAGCAAGG TGTCGTTTGA ATGCAGAGTG AAACATGACC ACACCTTAAT TCCCACCATT 
    CTGTGGCTGA AGGACAATGG AGAGCTGCCC AATGATGAAA GGTTCTCCAC TGACAAGGAT 
    CATCTGGTGG TATCTGATGT AAAGGATGAC GATGGTGGCA CCTACACATG TACGGCCAAC 
    ACAACGCTGG ACAGTGCTTC GGCCAGCGCT GTGCTCAGGG TTGTCGCTCC TACTCCAACT 
    CCAGCCCCCA TTTACGATGT CCCGAATCCT CCCTTTGATT TAGAATTGAC CAATCAACTT 
    GACAAAAGTG TTCAGCTGAC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATTG AGTATGAAGA TGCAATGCAT GACGCAGGGC TGTGGCGCCA CCAGGCTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAACTG AAGCTGTCTC CCTATGTGAA CTACTCCTTC 
    CGTGTCATGG CAGAGAACGG CATTGGAAGA AGCATGCCGA GCGAGGCATC TGAGCAGTAC 
    CTCACAAAAG CCGCAGAACC AGATCAGAAT CCCATGGCTG TGGAAGGACT AGGGACAGAG 
    CCGGACAACT TGGTGATTAC ATGGAAGCCC CTGAATGGTT TTCAATCGAA TGGGCCTGGC 
    CTCCAGTACA AAGTGAGCTG GCGCCAGAAA GATGGTGACG ATGAGTGGAC GTCTGTAGTT 
    GTGGCCAATG TATCCAAATA CATTGTTTCT GGCACACCAA CCTTTGTCCC ATACCTGATA 
    AAAGTTCAAG CTCTGAATGA TGTGGGGTTT GCACCAGAGC CAGCTGCAGT CATGGGGCAT 
    TCTGGAGAAG ACCTTCCAAT GGTGGCTCCT GGAAATGTTC GTGTCAGCGT GGTGAACAGT 
    ACGCTGGCAG AGGTGCACTG GGACCCAGTT CCTCCCAAGA GTGTCCGAGG ACACTTACAA 
    GGCTACCGGA TTTACTACTG GAAGACCCAG AGCTCCTCTA AAAGAAACAG GCGCCACATT 
    GAGAAGAAGA TCCTCACCTT CCAGGGCACC AAGACTCACG GCATGCTGCC AGGGCTGCAG 
    CCATACAGTC ACTATGCTCT CAACGTCCGA GTGGTCAACG GGAAAGGGGA GGGCCCAGCC 
    AGCACCGACA GAGGCTTCCA TACACCGGAG GGAGTCCCTA GTGCTCCCTC ATCTTTGAAA 
    ATTGTTAATC CTACACTGGA CTCTCTCACT TTGGAGTGGG ACCCACCAAG CCACCCAAAT 
    GGCATCCTGA CAGAGTACAT CTTAAAATAT CAGCCAATTA ACAGCACACA TGAGCTAGGC 
    CCTCTGGTAG ATTTAAAAAT TCCTGCCAAC AAGACCCGCT GGACTTTGAA AAATTTAAAT 
    TTCAGCACTC GGTACAAGTT CTATTTCTAT GCACAGACAT CAGTGGGGTC AGGGAGTCAG 
    ATCACAGAGG AAGCAATAAC GACTGTGGAC GAAGCTGGTA TTCCTCCACC TGATGTAGGT 
    GCAGGCAAAG CAATGGCAAG CCGGCAAGTG GATATTGCGA CCCAAGGCTG GTTCATAGGT 
    CTAATGTGTG CTGTTGCTCT CCTCATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATACCC AGTTAAAGAA AAGGAGGATG CTCATGCAGA CCCTGAAATC 
    CAGCCCATGA AGGAAGATGA TGGGACGTTT GGAGAATACA GTGATGCAGA AGATCACAAG 
    CCTTTGAAAA AAGGAAGTCG AACACCTTCA GACAGGACTG TGAAAAAAGA AGATAGTGAT 
    GATAGCCTGG TTGACTATGG AGAGGGGGTC AACGGCCAAT TCAATGAGGA TGGCTCCTTT 
    ATTGGCCAAT ACAGTGGTAA GAAAGAGAAA GAGCCAGCGG AGGGAAATGA AAGCTCAGAG 
    GCCCCTTCTC CTGTCAACGC AATGAACTCC TTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_021179689.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021035348.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X24, mRNA.
    Price & Availability↑
    CloneID OMv29279
    Clone ID Related Accession (Same CDS sequence) XM_021179689.1 , XM_021179689.2
    Accession Version XM_021179689.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3579bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X20
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 10, 2019 this sequence version replaced XM_021179689.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GCTAAATCTA GTAAAGAGAG GCCCCCAACG TTTCTAACTC CAGAGGGCAA TGAAAGCCAC 
    AAAGAGGAAT TAAGAGGAAA CGTGCTTTCG CTGGAGTGCA TTGCGGAAGG CCTCCCTACT 
    CCAATTATTT ACTGGATCAA AGAAGACGGA ACGCTTCCTG CCAACCGGAC ATTTTATCGG 
    AACTTTAAGA AAACCTTGCA GATCACTCAT GTTTCCGAAG CCGACTCTGG AAATTATCAG 
    TGCATAGCAA AAAACGCATT AGGGGCCGTC CATCACACCA TTTCTGTCAC TGTTAAAGCG 
    GCTCCCTACT GGATCGTGGC ACCTCAAAAC CTCGTGCTTT CCCCGGGAGA GAATGGGACC 
    CTCATCTGCA GAGCTAATGG CAACCCGAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCTCTTGA TGACCCCAGC AGAAAAATAG ATGGTGATAC CATTATATTT 
    TCTAATGTTC AAGAAAGCTC AAGTGCGGTT TATCAGTGCA ACGCCTCTAA CAAATATGGA 
    TATTTACTAG CAAATGCATT TGTAAATGTT CTCGCTGAAC CACCTCGGAT TCTCACATCA 
    GCAAACACTC TGTACCAGGT CATTGCAAAC AGGCCTGCTT TGCTAGATTG TGCCTTCTTT 
    GGATCTCCTA TGCCTACCAT TGAATGGTTT AAAGGGACTA AAGGAAGCGC TCTTCATGAA 
    GACACTTATG TTTTGCATGA TAATGGAACA TTAGAAATTC CCGTGGCCCA AAAGGATAGT 
    ACAGGGACGT ATACTTGTGT CGCACGGAAT AAACTAGGGA TGGCAAAGAA TGAAGTTCAC 
    TTGGAAATCA AAGATCCAAC CAGGATCATT AAACAACCTG AATATGCAGT CGTCCAGAGG 
    GGGAGCAAGG TGTCGTTTGA ATGCAGAGTG AAACATGACC ACACCTTAAT TCCCACCATT 
    CTGTGGCTGA AGGACAATGG AGAGCTGCCC AATGATGAAA GGTTCTCCAC TGACAAGGAT 
    CATCTGGTGG TATCTGATGT AAAGGATGAC GATGGTGGCA CCTACACATG TACGGCCAAC 
    ACAACGCTGG ACAGTGCTTC GGCCAGCGCT GTGCTCAGGG TTGTCGCTCC TACTCCAACT 
    CCAGCCCCCA TTTACGATGT CCCGAATCCT CCCTTTGATT TAGAATTGAC CAATCAACTT 
    GACAAAAGTG TTCAGCTGAC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATTG AGTATGAAGA TGCAATGCAT GACGCAGGGC TGTGGCGCCA CCAGGCTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAACTG AAGCTGTCTC CCTATGTGAA CTACTCCTTC 
    CGTGTCATGG CAGAGAACGG CATTGGAAGA AGCATGCCGA GCGAGGCATC TGAGCAGTAC 
    CTCACAAAAG CCGCAGAACC AGATCAGAAT CCCATGGCTG TGGAAGGACT AGGGACAGAG 
    CCGGACAACT TGGTGATTAC ATGGAAGCCC CTGAATGGTT TTCAATCGAA TGGGCCTGGC 
    CTCCAGTACA AAGTGAGCTG GCGCCAGAAA GATGGTGACG ATGAGTGGAC GTCTGTAGTT 
    GTGGCCAATG TATCCAAATA CATTGTTTCT GGCACACCAA CCTTTGTCCC ATACCTGATA 
    AAAGTTCAAG CTCTGAATGA TGTGGGGTTT GCACCAGAGC CAGCTGCAGT CATGGGGCAT 
    TCTGGAGAAG ACCTTCCAAT GGTGGCTCCT GGAAATGTTC GTGTCAGCGT GGTGAACAGT 
    ACGCTGGCAG AGGTGCACTG GGACCCAGTT CCTCCCAAGA GTGTCCGAGG ACACTTACAA 
    GGCTACCGGA TTTACTACTG GAAGACCCAG AGCTCCTCTA AAAGAAACAG GCGCCACATT 
    GAGAAGAAGA TCCTCACCTT CCAGGGCACC AAGACTCACG GCATGCTGCC AGGGCTGCAG 
    CCATACAGTC ACTATGCTCT CAACGTCCGA GTGGTCAACG GGAAAGGGGA GGGCCCAGCC 
    AGCACCGACA GAGGCTTCCA TACACCGGAG GGAGTCCCTA GTGCTCCCTC ATCTTTGAAA 
    ATTGTTAATC CTACACTGGA CTCTCTCACT TTGGAGTGGG ACCCACCAAG CCACCCAAAT 
    GGCATCCTGA CAGAGTACAT CTTAAAATAT CAGCCAATTA ACAGCACACA TGAGCTAGGC 
    CCTCTGGTAG ATTTAAAAAT TCCTGCCAAC AAGACCCGCT GGACTTTGAA AAATTTAAAT 
    TTCAGCACTC GGTACAAGTT CTATTTCTAT GCACAGACAT CAGTGGGGTC AGGGAGTCAG 
    ATCACAGAGG AAGCAATAAC GACTGTGGAC GAAGCTGGTA TTCCTCCACC TGATGTAGGT 
    GCAGGCAAAG CAATGGCAAG CCGGCAAGTG GATATTGCGA CCCAAGGCTG GTTCATAGGT 
    CTAATGTGTG CTGTTGCTCT CCTCATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATACCC AGTTAAAGAA AAGGAGGATG CTCATGCAGA CCCTGAAATC 
    CAGCCCATGA AGGAAGATGA TGGGACGTTT GGAGAATACA GTGATGCAGA AGATCACAAG 
    CCTTTGAAAA AAGGAAGTCG AACACCTTCA GACAGGACTG TGAAAAAAGA AGATAGTGAT 
    GATAGCCTGG TTGACTATGG AGAGGGGGTC AACGGCCAAT TCAATGAGGA TGGCTCCTTT 
    ATTGGCCAAT ACAGTGGTAA GAAAGAGAAA GAGCCAGCGG AGGGAAATGA AAGCTCAGAG 
    GCCCCTTCTC CTGTCAACGC AATGAACTCC TTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_021035348.1
    CDS500..4078
    Translation

    Target ORF information:

    RefSeq Version XM_021179689.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X24, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021179689.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GCTAAATCTA GTAAAGAGAG GCCCCCAACG TTTCTAACTC CAGAGGGCAA TGAAAGCCAC 
    AAAGAGGAAT TAAGAGGAAA CGTGCTTTCG CTGGAGTGCA TTGCGGAAGG CCTCCCTACT 
    CCAATTATTT ACTGGATCAA AGAAGACGGA ACGCTTCCTG CCAACCGGAC ATTTTATCGG 
    AACTTTAAGA AAACCTTGCA GATCACTCAT GTTTCCGAAG CCGACTCTGG AAATTATCAG 
    TGCATAGCAA AAAACGCATT AGGGGCCGTC CATCACACCA TTTCTGTCAC TGTTAAAGCG 
    GCTCCCTACT GGATCGTGGC ACCTCAAAAC CTCGTGCTTT CCCCGGGAGA GAATGGGACC 
    CTCATCTGCA GAGCTAATGG CAACCCGAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCTCTTGA TGACCCCAGC AGAAAAATAG ATGGTGATAC CATTATATTT 
    TCTAATGTTC AAGAAAGCTC AAGTGCGGTT TATCAGTGCA ACGCCTCTAA CAAATATGGA 
    TATTTACTAG CAAATGCATT TGTAAATGTT CTCGCTGAAC CACCTCGGAT TCTCACATCA 
    GCAAACACTC TGTACCAGGT CATTGCAAAC AGGCCTGCTT TGCTAGATTG TGCCTTCTTT 
    GGATCTCCTA TGCCTACCAT TGAATGGTTT AAAGGGACTA AAGGAAGCGC TCTTCATGAA 
    GACACTTATG TTTTGCATGA TAATGGAACA TTAGAAATTC CCGTGGCCCA AAAGGATAGT 
    ACAGGGACGT ATACTTGTGT CGCACGGAAT AAACTAGGGA TGGCAAAGAA TGAAGTTCAC 
    TTGGAAATCA AAGATCCAAC CAGGATCATT AAACAACCTG AATATGCAGT CGTCCAGAGG 
    GGGAGCAAGG TGTCGTTTGA ATGCAGAGTG AAACATGACC ACACCTTAAT TCCCACCATT 
    CTGTGGCTGA AGGACAATGG AGAGCTGCCC AATGATGAAA GGTTCTCCAC TGACAAGGAT 
    CATCTGGTGG TATCTGATGT AAAGGATGAC GATGGTGGCA CCTACACATG TACGGCCAAC 
    ACAACGCTGG ACAGTGCTTC GGCCAGCGCT GTGCTCAGGG TTGTCGCTCC TACTCCAACT 
    CCAGCCCCCA TTTACGATGT CCCGAATCCT CCCTTTGATT TAGAATTGAC CAATCAACTT 
    GACAAAAGTG TTCAGCTGAC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATTG AGTATGAAGA TGCAATGCAT GACGCAGGGC TGTGGCGCCA CCAGGCTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAACTG AAGCTGTCTC CCTATGTGAA CTACTCCTTC 
    CGTGTCATGG CAGAGAACGG CATTGGAAGA AGCATGCCGA GCGAGGCATC TGAGCAGTAC 
    CTCACAAAAG CCGCAGAACC AGATCAGAAT CCCATGGCTG TGGAAGGACT AGGGACAGAG 
    CCGGACAACT TGGTGATTAC ATGGAAGCCC CTGAATGGTT TTCAATCGAA TGGGCCTGGC 
    CTCCAGTACA AAGTGAGCTG GCGCCAGAAA GATGGTGACG ATGAGTGGAC GTCTGTAGTT 
    GTGGCCAATG TATCCAAATA CATTGTTTCT GGCACACCAA CCTTTGTCCC ATACCTGATA 
    AAAGTTCAAG CTCTGAATGA TGTGGGGTTT GCACCAGAGC CAGCTGCAGT CATGGGGCAT 
    TCTGGAGAAG ACCTTCCAAT GGTGGCTCCT GGAAATGTTC GTGTCAGCGT GGTGAACAGT 
    ACGCTGGCAG AGGTGCACTG GGACCCAGTT CCTCCCAAGA GTGTCCGAGG ACACTTACAA 
    GGCTACCGGA TTTACTACTG GAAGACCCAG AGCTCCTCTA AAAGAAACAG GCGCCACATT 
    GAGAAGAAGA TCCTCACCTT CCAGGGCACC AAGACTCACG GCATGCTGCC AGGGCTGCAG 
    CCATACAGTC ACTATGCTCT CAACGTCCGA GTGGTCAACG GGAAAGGGGA GGGCCCAGCC 
    AGCACCGACA GAGGCTTCCA TACACCGGAG GGAGTCCCTA GTGCTCCCTC ATCTTTGAAA 
    ATTGTTAATC CTACACTGGA CTCTCTCACT TTGGAGTGGG ACCCACCAAG CCACCCAAAT 
    GGCATCCTGA CAGAGTACAT CTTAAAATAT CAGCCAATTA ACAGCACACA TGAGCTAGGC 
    CCTCTGGTAG ATTTAAAAAT TCCTGCCAAC AAGACCCGCT GGACTTTGAA AAATTTAAAT 
    TTCAGCACTC GGTACAAGTT CTATTTCTAT GCACAGACAT CAGTGGGGTC AGGGAGTCAG 
    ATCACAGAGG AAGCAATAAC GACTGTGGAC GAAGCTGGTA TTCCTCCACC TGATGTAGGT 
    GCAGGCAAAG CAATGGCAAG CCGGCAAGTG GATATTGCGA CCCAAGGCTG GTTCATAGGT 
    CTAATGTGTG CTGTTGCTCT CCTCATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATACCC AGTTAAAGAA AAGGAGGATG CTCATGCAGA CCCTGAAATC 
    CAGCCCATGA AGGAAGATGA TGGGACGTTT GGAGAATACA GTGATGCAGA AGATCACAAG 
    CCTTTGAAAA AAGGAAGTCG AACACCTTCA GACAGGACTG TGAAAAAAGA AGATAGTGAT 
    GATAGCCTGG TTGACTATGG AGAGGGGGTC AACGGCCAAT TCAATGAGGA TGGCTCCTTT 
    ATTGGCCAAT ACAGTGGTAA GAAAGAGAAA GAGCCAGCGG AGGGAAATGA AAGCTCAGAG 
    GCCCCTTCTC CTGTCAACGC AATGAACTCC TTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_021179690.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021035349.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OMv29280
    Clone ID Related Accession (Same CDS sequence) XM_021179690.1 , XM_029484562.1
    Accession Version XM_021179690.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3561bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCTGGT ACAACCTCCA 
    ACCATCACTC AACAGTCACC AAAAGACTAC ATCATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAGG CCAAAGGGAA ACCTCCCCCA AGCTTTTCCT GGACTCGTAA TGGAACTCAT 
    TTTGACATAG ACAAGGACCC TCTGGTCACC ATGAAGCCTG GCTCAGGAAC CCTTGTCATC 
    AACATCATGA GTGAGGGGAA AGCAGAGACC TATGAAGGAG TCTACCAGTG CACTGCAAGG 
    AACGAGCGTG GAGCTGCCGT CTCCAATAAC ATTGTTGTCC GCCCATCTAG GTCACCCTTG 
    TGGACCAAGG AAAGACTTGA ACCCATAATA CTCCGGAATG GGCAGTCATT AGTACTTCCA 
    TGTAGGCCTC CGATTGGATT ACCTCCGGCC ATAATATTTT GGATGGATAA TTCCTTTCAG 
    AGACTTCCAC AGAGTGAGCG GGTTTCCCAA GGCCTAAATG GAGACCTTTA CTTCTCCAAT 
    GTCCTCCCAG AGGACACCCG TGAGGACTAT ATCTGCTATG CTAGATTTAA TCACACTCAA 
    ACCATCCAAC AGAAGCAGCC TATTTCTTTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCTAG TAAAGAGAGG 
    CCCCCAACGT TTCTAACTCC AGAGGGCAAT GAAAGCCACA AAGAGGAATT AAGAGGAAAC 
    GTGCTTTCGC TGGAGTGCAT TGCGGAAGGC CTCCCTACTC CAATTATTTA CTGGATCAAA 
    GAAGACGGAA CGCTTCCTGC CAACCGGACA TTTTATCGGA ACTTTAAGAA AACCTTGCAG 
    ATCACTCATG TTTCCGAAGC CGACTCTGGA AATTATCAGT GCATAGCAAA AAACGCATTA 
    GGGGCCGTCC ATCACACCAT TTCTGTCACT GTTAAAGCGG CTCCCTACTG GATCGTGGCA 
    CCTCAAAACC TCGTGCTTTC CCCGGGAGAG AATGGGACCC TCATCTGCAG AGCTAATGGC 
    AACCCGAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCTCTTGAT 
    GACCCCAGCA GAAAAATAGA TGGTGATACC ATTATATTTT CTAATGTTCA AGAAAGCTCA 
    AGTGCGGTTT ATCAGTGCAA CGCCTCTAAC AAATATGGAT ATTTACTAGC AAATGCATTT 
    GTAAATGTTC TCGCTGAACC ACCTCGGATT CTCACATCAG CAAACACTCT GTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT GCTAGATTGT GCCTTCTTTG GATCTCCTAT GCCTACCATT 
    GAATGGTTTA AAGGGACTAA AGGAAGCGCT CTTCATGAAG ACACTTATGT TTTGCATGAT 
    AATGGAACAT TAGAAATTCC CGTGGCCCAA AAGGATAGTA CAGGGACGTA TACTTGTGTC 
    GCACGGAATA AACTAGGGAT GGCAAAGAAT GAAGTTCACT TGGAAATCAA AGATCCAACC 
    AGGATCATTA AACAACCTGA ATATGCAGTC GTCCAGAGGG GGAGCAAGGT GTCGTTTGAA 
    TGCAGAGTGA AACATGACCA CACCTTAATT CCCACCATTC TGTGGCTGAA GGACAATGGA 
    GAGCTGCCCA ATGATGAAAG GTTCTCCACT GACAAGGATC ATCTGGTGGT ATCTGATGTA 
    AAGGATGACG ATGGTGGCAC CTACACATGT ACGGCCAACA CAACGCTGGA CAGTGCTTCG 
    GCCAGCGCTG TGCTCAGGGT TGTCGATGTC CCGAATCCTC CCTTTGATTT AGAATTGACC 
    AATCAACTTG ACAAAAGTGT TCAGCTGACA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATTGA GTATGAAGAT GCAATGCATG ACGCAGGGCT GTGGCGCCAC 
    CAGGCTGAAG TTTCTGGAAC ACAGACCACA GCCCAACTGA AGCTGTCTCC CTATGTGAAC 
    TACTCCTTCC GTGTCATGGC AGAGAACGGC ATTGGAAGAA GCATGCCGAG CGAGGCATCT 
    GAGCAGTACC TCACAAAAGC CGCAGAACCA GATCAGAATC CCATGGCTGT GGAAGGACTA 
    GGGACAGAGC CGGACAACTT GGTGATTACA TGGAAGCCCC TGAATGGTTT TCAATCGAAT 
    GGGCCTGGCC TCCAGTACAA AGTGAGCTGG CGCCAGAAAG ATGGTGACGA TGAGTGGACG 
    TCTGTAGTTG TGGCCAATGT ATCCAAATAC ATTGTTTCTG GCACACCAAC CTTTGTCCCA 
    TACCTGATAA AAGTTCAAGC TCTGAATGAT GTGGGGTTTG CACCAGAGCC AGCTGCAGTC 
    ATGGGGCATT CTGGAGAAGA CCTTCCAATG GTGGCTCCTG GAAATGTTCG TGTCAGCGTG 
    GTGAACAGTA CGCTGGCAGA GGTGCACTGG GACCCAGTTC CTCCCAAGAG TGTCCGAGGA 
    CACTTACAAG GCTACCGGAT TTACTACTGG AAGACCCAGA GCTCCTCTAA AAGAAACAGG 
    CGCCACATTG AGAAGAAGAT CCTCACCTTC CAGGGCACCA AGACTCACGG CATGCTGCCA 
    GGGCTGCAGC CATACAGTCA CTATGCTCTC AACGTCCGAG TGGTCAACGG GAAAGGGGAG 
    GGCCCAGCCA GCACCGACAG AGGCTTCCAT ACACCGGAGG GAGTCCCTAG TGCTCCCTCA 
    TCTTTGAAAA TTGTTAATCC TACACTGGAC TCTCTCACTT TGGAGTGGGA CCCACCAAGC 
    CACCCAAATG GCATCCTGAC AGAGTACATC TTAAAATATC AGCCAATTAA CAGCACACAT 
    GAGCTAGGCC CTCTGGTAGA TTTAAAAATT CCTGCCAACA AGACCCGCTG GACTTTGAAA 
    AATTTAAATT TCAGCACTCG GTACAAGTTC TATTTCTATG CACAGACATC AGTGGGGTCA 
    GGGAGTCAGA TCACAGAGGA AGCAATAACG ACTGTGGACG AAGGTAAGAA GGCAATGGCA 
    AGCCGGCAAG TGGATATTGC GACCCAAGGC TGGTTCATAG GTCTAATGTG TGCTGTTGCT 
    CTCCTCATCT TAATTTTGCT GATTGTTTGC TTCATCAGAA GAAACAAGGG TGGTAAATAC 
    CCAGTTAAAG AAAAGGAGGA TGCTCATGCA GACCCTGAAA TCCAGCCCAT GAAGGAAGAT 
    GATGGGACGT TTGGAGAATA CAGTGATGCA GAAGATCACA AGCCTTTGAA AAAAGGAAGT 
    CGAACACCTT CAGACAGGAC TGTGAAAAAA GAAGATAGTG ATGATAGCCT GGTTGACTAT 
    GGAGAGGGGG TCAACGGCCA ATTCAATGAG GATGGCTCCT TTATTGGCCA ATACAGTGGT 
    AAGAAAGAGA AAGAGCCAGC GGAGGGAAAT GAAAGCTCAG AGGCCCCTTC TCCTGTCAAC 
    GCAATGAACT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_021035349.1
    CDS543..4103
    Translation

    Target ORF information:

    RefSeq Version XM_021179690.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021179690.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCTGGT ACAACCTCCA 
    ACCATCACTC AACAGTCACC AAAAGACTAC ATCATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAGG CCAAAGGGAA ACCTCCCCCA AGCTTTTCCT GGACTCGTAA TGGAACTCAT 
    TTTGACATAG ACAAGGACCC TCTGGTCACC ATGAAGCCTG GCTCAGGAAC CCTTGTCATC 
    AACATCATGA GTGAGGGGAA AGCAGAGACC TATGAAGGAG TCTACCAGTG CACTGCAAGG 
    AACGAGCGTG GAGCTGCCGT CTCCAATAAC ATTGTTGTCC GCCCATCTAG GTCACCCTTG 
    TGGACCAAGG AAAGACTTGA ACCCATAATA CTCCGGAATG GGCAGTCATT AGTACTTCCA 
    TGTAGGCCTC CGATTGGATT ACCTCCGGCC ATAATATTTT GGATGGATAA TTCCTTTCAG 
    AGACTTCCAC AGAGTGAGCG GGTTTCCCAA GGCCTAAATG GAGACCTTTA CTTCTCCAAT 
    GTCCTCCCAG AGGACACCCG TGAGGACTAT ATCTGCTATG CTAGATTTAA TCACACTCAA 
    ACCATCCAAC AGAAGCAGCC TATTTCTTTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCTAG TAAAGAGAGG 
    CCCCCAACGT TTCTAACTCC AGAGGGCAAT GAAAGCCACA AAGAGGAATT AAGAGGAAAC 
    GTGCTTTCGC TGGAGTGCAT TGCGGAAGGC CTCCCTACTC CAATTATTTA CTGGATCAAA 
    GAAGACGGAA CGCTTCCTGC CAACCGGACA TTTTATCGGA ACTTTAAGAA AACCTTGCAG 
    ATCACTCATG TTTCCGAAGC CGACTCTGGA AATTATCAGT GCATAGCAAA AAACGCATTA 
    GGGGCCGTCC ATCACACCAT TTCTGTCACT GTTAAAGCGG CTCCCTACTG GATCGTGGCA 
    CCTCAAAACC TCGTGCTTTC CCCGGGAGAG AATGGGACCC TCATCTGCAG AGCTAATGGC 
    AACCCGAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCTCTTGAT 
    GACCCCAGCA GAAAAATAGA TGGTGATACC ATTATATTTT CTAATGTTCA AGAAAGCTCA 
    AGTGCGGTTT ATCAGTGCAA CGCCTCTAAC AAATATGGAT ATTTACTAGC AAATGCATTT 
    GTAAATGTTC TCGCTGAACC ACCTCGGATT CTCACATCAG CAAACACTCT GTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT GCTAGATTGT GCCTTCTTTG GATCTCCTAT GCCTACCATT 
    GAATGGTTTA AAGGGACTAA AGGAAGCGCT CTTCATGAAG ACACTTATGT TTTGCATGAT 
    AATGGAACAT TAGAAATTCC CGTGGCCCAA AAGGATAGTA CAGGGACGTA TACTTGTGTC 
    GCACGGAATA AACTAGGGAT GGCAAAGAAT GAAGTTCACT TGGAAATCAA AGATCCAACC 
    AGGATCATTA AACAACCTGA ATATGCAGTC GTCCAGAGGG GGAGCAAGGT GTCGTTTGAA 
    TGCAGAGTGA AACATGACCA CACCTTAATT CCCACCATTC TGTGGCTGAA GGACAATGGA 
    GAGCTGCCCA ATGATGAAAG GTTCTCCACT GACAAGGATC ATCTGGTGGT ATCTGATGTA 
    AAGGATGACG ATGGTGGCAC CTACACATGT ACGGCCAACA CAACGCTGGA CAGTGCTTCG 
    GCCAGCGCTG TGCTCAGGGT TGTCGATGTC CCGAATCCTC CCTTTGATTT AGAATTGACC 
    AATCAACTTG ACAAAAGTGT TCAGCTGACA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATTGA GTATGAAGAT GCAATGCATG ACGCAGGGCT GTGGCGCCAC 
    CAGGCTGAAG TTTCTGGAAC ACAGACCACA GCCCAACTGA AGCTGTCTCC CTATGTGAAC 
    TACTCCTTCC GTGTCATGGC AGAGAACGGC ATTGGAAGAA GCATGCCGAG CGAGGCATCT 
    GAGCAGTACC TCACAAAAGC CGCAGAACCA GATCAGAATC CCATGGCTGT GGAAGGACTA 
    GGGACAGAGC CGGACAACTT GGTGATTACA TGGAAGCCCC TGAATGGTTT TCAATCGAAT 
    GGGCCTGGCC TCCAGTACAA AGTGAGCTGG CGCCAGAAAG ATGGTGACGA TGAGTGGACG 
    TCTGTAGTTG TGGCCAATGT ATCCAAATAC ATTGTTTCTG GCACACCAAC CTTTGTCCCA 
    TACCTGATAA AAGTTCAAGC TCTGAATGAT GTGGGGTTTG CACCAGAGCC AGCTGCAGTC 
    ATGGGGCATT CTGGAGAAGA CCTTCCAATG GTGGCTCCTG GAAATGTTCG TGTCAGCGTG 
    GTGAACAGTA CGCTGGCAGA GGTGCACTGG GACCCAGTTC CTCCCAAGAG TGTCCGAGGA 
    CACTTACAAG GCTACCGGAT TTACTACTGG AAGACCCAGA GCTCCTCTAA AAGAAACAGG 
    CGCCACATTG AGAAGAAGAT CCTCACCTTC CAGGGCACCA AGACTCACGG CATGCTGCCA 
    GGGCTGCAGC CATACAGTCA CTATGCTCTC AACGTCCGAG TGGTCAACGG GAAAGGGGAG 
    GGCCCAGCCA GCACCGACAG AGGCTTCCAT ACACCGGAGG GAGTCCCTAG TGCTCCCTCA 
    TCTTTGAAAA TTGTTAATCC TACACTGGAC TCTCTCACTT TGGAGTGGGA CCCACCAAGC 
    CACCCAAATG GCATCCTGAC AGAGTACATC TTAAAATATC AGCCAATTAA CAGCACACAT 
    GAGCTAGGCC CTCTGGTAGA TTTAAAAATT CCTGCCAACA AGACCCGCTG GACTTTGAAA 
    AATTTAAATT TCAGCACTCG GTACAAGTTC TATTTCTATG CACAGACATC AGTGGGGTCA 
    GGGAGTCAGA TCACAGAGGA AGCAATAACG ACTGTGGACG AAGGTAAGAA GGCAATGGCA 
    AGCCGGCAAG TGGATATTGC GACCCAAGGC TGGTTCATAG GTCTAATGTG TGCTGTTGCT 
    CTCCTCATCT TAATTTTGCT GATTGTTTGC TTCATCAGAA GAAACAAGGG TGGTAAATAC 
    CCAGTTAAAG AAAAGGAGGA TGCTCATGCA GACCCTGAAA TCCAGCCCAT GAAGGAAGAT 
    GATGGGACGT TTGGAGAATA CAGTGATGCA GAAGATCACA AGCCTTTGAA AAAAGGAAGT 
    CGAACACCTT CAGACAGGAC TGTGAAAAAA GAAGATAGTG ATGATAGCCT GGTTGACTAT 
    GGAGAGGGGG TCAACGGCCA ATTCAATGAG GATGGCTCCT TTATTGGCCA ATACAGTGGT 
    AAGAAAGAGA AAGAGCCAGC GGAGGGAAAT GAAAGCTCAG AGGCCCCTTC TCCTGTCAAC 
    GCAATGAACT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_029484562.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029340422.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X26, mRNA.
    Price & Availability↑
    CloneID OMv29280
    Clone ID Related Accession (Same CDS sequence) XM_021179690.1 , XM_029484562.1
    Accession Version XM_029484562.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3561bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X22
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCTGGT ACAACCTCCA 
    ACCATCACTC AACAGTCACC AAAAGACTAC ATCATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAGG CCAAAGGGAA ACCTCCCCCA AGCTTTTCCT GGACTCGTAA TGGAACTCAT 
    TTTGACATAG ACAAGGACCC TCTGGTCACC ATGAAGCCTG GCTCAGGAAC CCTTGTCATC 
    AACATCATGA GTGAGGGGAA AGCAGAGACC TATGAAGGAG TCTACCAGTG CACTGCAAGG 
    AACGAGCGTG GAGCTGCCGT CTCCAATAAC ATTGTTGTCC GCCCATCTAG GTCACCCTTG 
    TGGACCAAGG AAAGACTTGA ACCCATAATA CTCCGGAATG GGCAGTCATT AGTACTTCCA 
    TGTAGGCCTC CGATTGGATT ACCTCCGGCC ATAATATTTT GGATGGATAA TTCCTTTCAG 
    AGACTTCCAC AGAGTGAGCG GGTTTCCCAA GGCCTAAATG GAGACCTTTA CTTCTCCAAT 
    GTCCTCCCAG AGGACACCCG TGAGGACTAT ATCTGCTATG CTAGATTTAA TCACACTCAA 
    ACCATCCAAC AGAAGCAGCC TATTTCTTTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCTAG TAAAGAGAGG 
    CCCCCAACGT TTCTAACTCC AGAGGGCAAT GAAAGCCACA AAGAGGAATT AAGAGGAAAC 
    GTGCTTTCGC TGGAGTGCAT TGCGGAAGGC CTCCCTACTC CAATTATTTA CTGGATCAAA 
    GAAGACGGAA CGCTTCCTGC CAACCGGACA TTTTATCGGA ACTTTAAGAA AACCTTGCAG 
    ATCACTCATG TTTCCGAAGC CGACTCTGGA AATTATCAGT GCATAGCAAA AAACGCATTA 
    GGGGCCGTCC ATCACACCAT TTCTGTCACT GTTAAAGCGG CTCCCTACTG GATCGTGGCA 
    CCTCAAAACC TCGTGCTTTC CCCGGGAGAG AATGGGACCC TCATCTGCAG AGCTAATGGC 
    AACCCGAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCTCTTGAT 
    GACCCCAGCA GAAAAATAGA TGGTGATACC ATTATATTTT CTAATGTTCA AGAAAGCTCA 
    AGTGCGGTTT ATCAGTGCAA CGCCTCTAAC AAATATGGAT ATTTACTAGC AAATGCATTT 
    GTAAATGTTC TCGCTGAACC ACCTCGGATT CTCACATCAG CAAACACTCT GTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT GCTAGATTGT GCCTTCTTTG GATCTCCTAT GCCTACCATT 
    GAATGGTTTA AAGGGACTAA AGGAAGCGCT CTTCATGAAG ACACTTATGT TTTGCATGAT 
    AATGGAACAT TAGAAATTCC CGTGGCCCAA AAGGATAGTA CAGGGACGTA TACTTGTGTC 
    GCACGGAATA AACTAGGGAT GGCAAAGAAT GAAGTTCACT TGGAAATCAA AGATCCAACC 
    AGGATCATTA AACAACCTGA ATATGCAGTC GTCCAGAGGG GGAGCAAGGT GTCGTTTGAA 
    TGCAGAGTGA AACATGACCA CACCTTAATT CCCACCATTC TGTGGCTGAA GGACAATGGA 
    GAGCTGCCCA ATGATGAAAG GTTCTCCACT GACAAGGATC ATCTGGTGGT ATCTGATGTA 
    AAGGATGACG ATGGTGGCAC CTACACATGT ACGGCCAACA CAACGCTGGA CAGTGCTTCG 
    GCCAGCGCTG TGCTCAGGGT TGTCGATGTC CCGAATCCTC CCTTTGATTT AGAATTGACC 
    AATCAACTTG ACAAAAGTGT TCAGCTGACA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATTGA GTATGAAGAT GCAATGCATG ACGCAGGGCT GTGGCGCCAC 
    CAGGCTGAAG TTTCTGGAAC ACAGACCACA GCCCAACTGA AGCTGTCTCC CTATGTGAAC 
    TACTCCTTCC GTGTCATGGC AGAGAACGGC ATTGGAAGAA GCATGCCGAG CGAGGCATCT 
    GAGCAGTACC TCACAAAAGC CGCAGAACCA GATCAGAATC CCATGGCTGT GGAAGGACTA 
    GGGACAGAGC CGGACAACTT GGTGATTACA TGGAAGCCCC TGAATGGTTT TCAATCGAAT 
    GGGCCTGGCC TCCAGTACAA AGTGAGCTGG CGCCAGAAAG ATGGTGACGA TGAGTGGACG 
    TCTGTAGTTG TGGCCAATGT ATCCAAATAC ATTGTTTCTG GCACACCAAC CTTTGTCCCA 
    TACCTGATAA AAGTTCAAGC TCTGAATGAT GTGGGGTTTG CACCAGAGCC AGCTGCAGTC 
    ATGGGGCATT CTGGAGAAGA CCTTCCAATG GTGGCTCCTG GAAATGTTCG TGTCAGCGTG 
    GTGAACAGTA CGCTGGCAGA GGTGCACTGG GACCCAGTTC CTCCCAAGAG TGTCCGAGGA 
    CACTTACAAG GCTACCGGAT TTACTACTGG AAGACCCAGA GCTCCTCTAA AAGAAACAGG 
    CGCCACATTG AGAAGAAGAT CCTCACCTTC CAGGGCACCA AGACTCACGG CATGCTGCCA 
    GGGCTGCAGC CATACAGTCA CTATGCTCTC AACGTCCGAG TGGTCAACGG GAAAGGGGAG 
    GGCCCAGCCA GCACCGACAG AGGCTTCCAT ACACCGGAGG GAGTCCCTAG TGCTCCCTCA 
    TCTTTGAAAA TTGTTAATCC TACACTGGAC TCTCTCACTT TGGAGTGGGA CCCACCAAGC 
    CACCCAAATG GCATCCTGAC AGAGTACATC TTAAAATATC AGCCAATTAA CAGCACACAT 
    GAGCTAGGCC CTCTGGTAGA TTTAAAAATT CCTGCCAACA AGACCCGCTG GACTTTGAAA 
    AATTTAAATT TCAGCACTCG GTACAAGTTC TATTTCTATG CACAGACATC AGTGGGGTCA 
    GGGAGTCAGA TCACAGAGGA AGCAATAACG ACTGTGGACG AAGGTAAGAA GGCAATGGCA 
    AGCCGGCAAG TGGATATTGC GACCCAAGGC TGGTTCATAG GTCTAATGTG TGCTGTTGCT 
    CTCCTCATCT TAATTTTGCT GATTGTTTGC TTCATCAGAA GAAACAAGGG TGGTAAATAC 
    CCAGTTAAAG AAAAGGAGGA TGCTCATGCA GACCCTGAAA TCCAGCCCAT GAAGGAAGAT 
    GATGGGACGT TTGGAGAATA CAGTGATGCA GAAGATCACA AGCCTTTGAA AAAAGGAAGT 
    CGAACACCTT CAGACAGGAC TGTGAAAAAA GAAGATAGTG ATGATAGCCT GGTTGACTAT 
    GGAGAGGGGG TCAACGGCCA ATTCAATGAG GATGGCTCCT TTATTGGCCA ATACAGTGGT 
    AAGAAAGAGA AAGAGCCAGC GGAGGGAAAT GAAAGCTCAG AGGCCCCTTC TCCTGTCAAC 
    GCAATGAACT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029340422.1
    CDS500..4060
    Translation

    Target ORF information:

    RefSeq Version XM_029484562.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X26, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029484562.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCTGGT ACAACCTCCA 
    ACCATCACTC AACAGTCACC AAAAGACTAC ATCATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAGG CCAAAGGGAA ACCTCCCCCA AGCTTTTCCT GGACTCGTAA TGGAACTCAT 
    TTTGACATAG ACAAGGACCC TCTGGTCACC ATGAAGCCTG GCTCAGGAAC CCTTGTCATC 
    AACATCATGA GTGAGGGGAA AGCAGAGACC TATGAAGGAG TCTACCAGTG CACTGCAAGG 
    AACGAGCGTG GAGCTGCCGT CTCCAATAAC ATTGTTGTCC GCCCATCTAG GTCACCCTTG 
    TGGACCAAGG AAAGACTTGA ACCCATAATA CTCCGGAATG GGCAGTCATT AGTACTTCCA 
    TGTAGGCCTC CGATTGGATT ACCTCCGGCC ATAATATTTT GGATGGATAA TTCCTTTCAG 
    AGACTTCCAC AGAGTGAGCG GGTTTCCCAA GGCCTAAATG GAGACCTTTA CTTCTCCAAT 
    GTCCTCCCAG AGGACACCCG TGAGGACTAT ATCTGCTATG CTAGATTTAA TCACACTCAA 
    ACCATCCAAC AGAAGCAGCC TATTTCTTTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCTAG TAAAGAGAGG 
    CCCCCAACGT TTCTAACTCC AGAGGGCAAT GAAAGCCACA AAGAGGAATT AAGAGGAAAC 
    GTGCTTTCGC TGGAGTGCAT TGCGGAAGGC CTCCCTACTC CAATTATTTA CTGGATCAAA 
    GAAGACGGAA CGCTTCCTGC CAACCGGACA TTTTATCGGA ACTTTAAGAA AACCTTGCAG 
    ATCACTCATG TTTCCGAAGC CGACTCTGGA AATTATCAGT GCATAGCAAA AAACGCATTA 
    GGGGCCGTCC ATCACACCAT TTCTGTCACT GTTAAAGCGG CTCCCTACTG GATCGTGGCA 
    CCTCAAAACC TCGTGCTTTC CCCGGGAGAG AATGGGACCC TCATCTGCAG AGCTAATGGC 
    AACCCGAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCTCTTGAT 
    GACCCCAGCA GAAAAATAGA TGGTGATACC ATTATATTTT CTAATGTTCA AGAAAGCTCA 
    AGTGCGGTTT ATCAGTGCAA CGCCTCTAAC AAATATGGAT ATTTACTAGC AAATGCATTT 
    GTAAATGTTC TCGCTGAACC ACCTCGGATT CTCACATCAG CAAACACTCT GTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT GCTAGATTGT GCCTTCTTTG GATCTCCTAT GCCTACCATT 
    GAATGGTTTA AAGGGACTAA AGGAAGCGCT CTTCATGAAG ACACTTATGT TTTGCATGAT 
    AATGGAACAT TAGAAATTCC CGTGGCCCAA AAGGATAGTA CAGGGACGTA TACTTGTGTC 
    GCACGGAATA AACTAGGGAT GGCAAAGAAT GAAGTTCACT TGGAAATCAA AGATCCAACC 
    AGGATCATTA AACAACCTGA ATATGCAGTC GTCCAGAGGG GGAGCAAGGT GTCGTTTGAA 
    TGCAGAGTGA AACATGACCA CACCTTAATT CCCACCATTC TGTGGCTGAA GGACAATGGA 
    GAGCTGCCCA ATGATGAAAG GTTCTCCACT GACAAGGATC ATCTGGTGGT ATCTGATGTA 
    AAGGATGACG ATGGTGGCAC CTACACATGT ACGGCCAACA CAACGCTGGA CAGTGCTTCG 
    GCCAGCGCTG TGCTCAGGGT TGTCGATGTC CCGAATCCTC CCTTTGATTT AGAATTGACC 
    AATCAACTTG ACAAAAGTGT TCAGCTGACA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATTGA GTATGAAGAT GCAATGCATG ACGCAGGGCT GTGGCGCCAC 
    CAGGCTGAAG TTTCTGGAAC ACAGACCACA GCCCAACTGA AGCTGTCTCC CTATGTGAAC 
    TACTCCTTCC GTGTCATGGC AGAGAACGGC ATTGGAAGAA GCATGCCGAG CGAGGCATCT 
    GAGCAGTACC TCACAAAAGC CGCAGAACCA GATCAGAATC CCATGGCTGT GGAAGGACTA 
    GGGACAGAGC CGGACAACTT GGTGATTACA TGGAAGCCCC TGAATGGTTT TCAATCGAAT 
    GGGCCTGGCC TCCAGTACAA AGTGAGCTGG CGCCAGAAAG ATGGTGACGA TGAGTGGACG 
    TCTGTAGTTG TGGCCAATGT ATCCAAATAC ATTGTTTCTG GCACACCAAC CTTTGTCCCA 
    TACCTGATAA AAGTTCAAGC TCTGAATGAT GTGGGGTTTG CACCAGAGCC AGCTGCAGTC 
    ATGGGGCATT CTGGAGAAGA CCTTCCAATG GTGGCTCCTG GAAATGTTCG TGTCAGCGTG 
    GTGAACAGTA CGCTGGCAGA GGTGCACTGG GACCCAGTTC CTCCCAAGAG TGTCCGAGGA 
    CACTTACAAG GCTACCGGAT TTACTACTGG AAGACCCAGA GCTCCTCTAA AAGAAACAGG 
    CGCCACATTG AGAAGAAGAT CCTCACCTTC CAGGGCACCA AGACTCACGG CATGCTGCCA 
    GGGCTGCAGC CATACAGTCA CTATGCTCTC AACGTCCGAG TGGTCAACGG GAAAGGGGAG 
    GGCCCAGCCA GCACCGACAG AGGCTTCCAT ACACCGGAGG GAGTCCCTAG TGCTCCCTCA 
    TCTTTGAAAA TTGTTAATCC TACACTGGAC TCTCTCACTT TGGAGTGGGA CCCACCAAGC 
    CACCCAAATG GCATCCTGAC AGAGTACATC TTAAAATATC AGCCAATTAA CAGCACACAT 
    GAGCTAGGCC CTCTGGTAGA TTTAAAAATT CCTGCCAACA AGACCCGCTG GACTTTGAAA 
    AATTTAAATT TCAGCACTCG GTACAAGTTC TATTTCTATG CACAGACATC AGTGGGGTCA 
    GGGAGTCAGA TCACAGAGGA AGCAATAACG ACTGTGGACG AAGGTAAGAA GGCAATGGCA 
    AGCCGGCAAG TGGATATTGC GACCCAAGGC TGGTTCATAG GTCTAATGTG TGCTGTTGCT 
    CTCCTCATCT TAATTTTGCT GATTGTTTGC TTCATCAGAA GAAACAAGGG TGGTAAATAC 
    CCAGTTAAAG AAAAGGAGGA TGCTCATGCA GACCCTGAAA TCCAGCCCAT GAAGGAAGAT 
    GATGGGACGT TTGGAGAATA CAGTGATGCA GAAGATCACA AGCCTTTGAA AAAAGGAAGT 
    CGAACACCTT CAGACAGGAC TGTGAAAAAA GAAGATAGTG ATGATAGCCT GGTTGACTAT 
    GGAGAGGGGG TCAACGGCCA ATTCAATGAG GATGGCTCCT TTATTGGCCA ATACAGTGGT 
    AAGAAAGAGA AAGAGCCAGC GGAGGGAAAT GAAAGCTCAG AGGCCCCTTC TCCTGTCAAC 
    GCAATGAACT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_021179691.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021035350.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OMv29281
    Clone ID Related Accession (Same CDS sequence) XM_021179691.1 , XM_021179691.2
    Accession Version XM_021179691.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3552bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCTGGT ACAACCTCCA 
    ACCATCACTC AACAGTCACC AAAAGACTAC ATCATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAGG CCAAAGGGAA ACCTCCCCCA AGCTTTTCCT GGACTCGTAA TGGAACTCAT 
    TTTGACATAG ACAAGGACCC TCTGGTCACC ATGAAGCCTG GCTCAGGAAC CCTTGTCATC 
    AACATCATGA GTGAGGGGAA AGCAGAGACC TATGAAGGAG TCTACCAGTG CACTGCAAGG 
    AACGAGCGTG GAGCTGCCGT CTCCAATAAC ATTGTTGTCC GCCCATCTAG GTCACCCTTG 
    TGGACCAAGG AAAGACTTGA ACCCATAATA CTCCGGAATG GGCAGTCATT AGTACTTCCA 
    TGTAGGCCTC CGATTGGATT ACCTCCGGCC ATAATATTTT GGATGGATAA TTCCTTTCAG 
    AGACTTCCAC AGAGTGAGCG GGTTTCCCAA GGCCTAAATG GAGACCTTTA CTTCTCCAAT 
    GTCCTCCCAG AGGACACCCG TGAGGACTAT ATCTGCTATG CTAGATTTAA TCACACTCAA 
    ACCATCCAAC AGAAGCAGCC TATTTCTTTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCTAG TAAAGAGAGG 
    CCCCCAACGT TTCTAACTCC AGAGGGCAAT GAAAGCCACA AAGAGGAATT AAGAGGAAAC 
    GTGCTTTCGC TGGAGTGCAT TGCGGAAGGC CTCCCTACTC CAATTATTTA CTGGATCAAA 
    GAAGACGGAA CGCTTCCTGC CAACCGGACA TTTTATCGGA ACTTTAAGAA AACCTTGCAG 
    ATCACTCATG TTTCCGAAGC CGACTCTGGA AATTATCAGT GCATAGCAAA AAACGCATTA 
    GGGGCCGTCC ATCACACCAT TTCTGTCACT GTTAAAGCGG CTCCCTACTG GATCGTGGCA 
    CCTCAAAACC TCGTGCTTTC CCCGGGAGAG AATGGGACCC TCATCTGCAG AGCTAATGGC 
    AACCCGAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCTCTTGAT 
    GACCCCAGCA GAAAAATAGA TGGTGATACC ATTATATTTT CTAATGTTCA AGAAAGCTCA 
    AGTGCGGTTT ATCAGTGCAA CGCCTCTAAC AAATATGGAT ATTTACTAGC AAATGCATTT 
    GTAAATGTTC TCGCTGAACC ACCTCGGATT CTCACATCAG CAAACACTCT GTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT GCTAGATTGT GCCTTCTTTG GATCTCCTAT GCCTACCATT 
    GAATGGTTTA AAGGGACTAA AGGAAGCGCT CTTCATGAAG ACACTTATGT TTTGCATGAT 
    AATGGAACAT TAGAAATTCC CGTGGCCCAA AAGGATAGTA CAGGGACGTA TACTTGTGTC 
    GCACGGAATA AACTAGGGAT GGCAAAGAAT GAAGTTCACT TGGAAATCAA AGATCCAACC 
    AGGATCATTA AACAACCTGA ATATGCAGTC GTCCAGAGGG GGAGCAAGGT GTCGTTTGAA 
    TGCAGAGTGA AACATGACCA CACCTTAATT CCCACCATTC TGTGGCTGAA GGACAATGGA 
    GAGCTGCCCA ATGATGAAAG GTTCTCCACT GACAAGGATC ATCTGGTGGT ATCTGATGTA 
    AAGGATGACG ATGGTGGCAC CTACACATGT ACGGCCAACA CAACGCTGGA CAGTGCTTCG 
    GCCAGCGCTG TGCTCAGGGT TGTCGATGTC CCGAATCCTC CCTTTGATTT AGAATTGACC 
    AATCAACTTG ACAAAAGTGT TCAGCTGACA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATTGA GTATGAAGAT GCAATGCATG ACGCAGGGCT GTGGCGCCAC 
    CAGGCTGAAG TTTCTGGAAC ACAGACCACA GCCCAACTGA AGCTGTCTCC CTATGTGAAC 
    TACTCCTTCC GTGTCATGGC AGAGAACGGC ATTGGAAGAA GCATGCCGAG CGAGGCATCT 
    GAGCAGTACC TCACAAAAGC CGCAGAACCA GATCAGAATC CCATGGCTGT GGAAGGACTA 
    GGGACAGAGC CGGACAACTT GGTGATTACA TGGAAGCCCC TGAATGGTTT TCAATCGAAT 
    GGGCCTGGCC TCCAGTACAA AGTGAGCTGG CGCCAGAAAG ATGGTGACGA TGAGTGGACG 
    TCTGTAGTTG TGGCCAATGT ATCCAAATAC ATTGTTTCTG GCACACCAAC CTTTGTCCCA 
    TACCTGATAA AAGTTCAAGC TCTGAATGAT GTGGGGTTTG CACCAGAGCC AGCTGCAGTC 
    ATGGGGCATT CTGGAGAAGA CCTTCCAATG GTGGCTCCTG GAAATGTTCG TGTCAGCGTG 
    GTGAACAGTA CGCTGGCAGA GGTGCACTGG GACCCAGTTC CTCCCAAGAG TGTCCGAGGA 
    CACTTACAAG GCTACCGGAT TTACTACTGG AAGACCCAGA GCTCCTCTAA AAGAAACAGG 
    CGCCACATTG AGAAGAAGAT CCTCACCTTC CAGGGCACCA AGACTCACGG CATGCTGCCA 
    GGGCTGCAGC CATACAGTCA CTATGCTCTC AACGTCCGAG TGGTCAACGG GAAAGGGGAG 
    GGCCCAGCCA GCACCGACAG AGGCTTCCAT ACACCGGAGG GAGTCCCTAG TGCTCCCTCA 
    TCTTTGAAAA TTGTTAATCC TACACTGGAC TCTCTCACTT TGGAGTGGGA CCCACCAAGC 
    CACCCAAATG GCATCCTGAC AGAGTACATC TTAAAATATC AGCCAATTAA CAGCACACAT 
    GAGCTAGGCC CTCTGGTAGA TTTAAAAATT CCTGCCAACA AGACCCGCTG GACTTTGAAA 
    AATTTAAATT TCAGCACTCG GTACAAGTTC TATTTCTATG CACAGACATC AGTGGGGTCA 
    GGGAGTCAGA TCACAGAGGA AGCAATAACG ACTGTGGACG AAGCAATGGC AAGCCGGCAA 
    GTGGATATTG CGACCCAAGG CTGGTTCATA GGTCTAATGT GTGCTGTTGC TCTCCTCATC 
    TTAATTTTGC TGATTGTTTG CTTCATCAGA AGAAACAAGG GTGGTAAATA CCCAGTTAAA 
    GAAAAGGAGG ATGCTCATGC AGACCCTGAA ATCCAGCCCA TGAAGGAAGA TGATGGGACG 
    TTTGGAGAAT ACAGTGATGC AGAAGATCAC AAGCCTTTGA AAAAAGGAAG TCGAACACCT 
    TCAGACAGGA CTGTGAAAAA AGAAGATAGT GATGATAGCC TGGTTGACTA TGGAGAGGGG 
    GTCAACGGCC AATTCAATGA GGATGGCTCC TTTATTGGCC AATACAGTGG TAAGAAAGAG 
    AAAGAGCCAG CGGAGGGAAA TGAAAGCTCA GAGGCCCCTT CTCCTGTCAA CGCAATGAAC 
    TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_021035350.1
    CDS1..3552
    Translation

    Target ORF information:

    RefSeq Version XM_021179691.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021179691.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCTGGT ACAACCTCCA 
    ACCATCACTC AACAGTCACC AAAAGACTAC ATCATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAGG CCAAAGGGAA ACCTCCCCCA AGCTTTTCCT GGACTCGTAA TGGAACTCAT 
    TTTGACATAG ACAAGGACCC TCTGGTCACC ATGAAGCCTG GCTCAGGAAC CCTTGTCATC 
    AACATCATGA GTGAGGGGAA AGCAGAGACC TATGAAGGAG TCTACCAGTG CACTGCAAGG 
    AACGAGCGTG GAGCTGCCGT CTCCAATAAC ATTGTTGTCC GCCCATCTAG GTCACCCTTG 
    TGGACCAAGG AAAGACTTGA ACCCATAATA CTCCGGAATG GGCAGTCATT AGTACTTCCA 
    TGTAGGCCTC CGATTGGATT ACCTCCGGCC ATAATATTTT GGATGGATAA TTCCTTTCAG 
    AGACTTCCAC AGAGTGAGCG GGTTTCCCAA GGCCTAAATG GAGACCTTTA CTTCTCCAAT 
    GTCCTCCCAG AGGACACCCG TGAGGACTAT ATCTGCTATG CTAGATTTAA TCACACTCAA 
    ACCATCCAAC AGAAGCAGCC TATTTCTTTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCTAG TAAAGAGAGG 
    CCCCCAACGT TTCTAACTCC AGAGGGCAAT GAAAGCCACA AAGAGGAATT AAGAGGAAAC 
    GTGCTTTCGC TGGAGTGCAT TGCGGAAGGC CTCCCTACTC CAATTATTTA CTGGATCAAA 
    GAAGACGGAA CGCTTCCTGC CAACCGGACA TTTTATCGGA ACTTTAAGAA AACCTTGCAG 
    ATCACTCATG TTTCCGAAGC CGACTCTGGA AATTATCAGT GCATAGCAAA AAACGCATTA 
    GGGGCCGTCC ATCACACCAT TTCTGTCACT GTTAAAGCGG CTCCCTACTG GATCGTGGCA 
    CCTCAAAACC TCGTGCTTTC CCCGGGAGAG AATGGGACCC TCATCTGCAG AGCTAATGGC 
    AACCCGAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCTCTTGAT 
    GACCCCAGCA GAAAAATAGA TGGTGATACC ATTATATTTT CTAATGTTCA AGAAAGCTCA 
    AGTGCGGTTT ATCAGTGCAA CGCCTCTAAC AAATATGGAT ATTTACTAGC AAATGCATTT 
    GTAAATGTTC TCGCTGAACC ACCTCGGATT CTCACATCAG CAAACACTCT GTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT GCTAGATTGT GCCTTCTTTG GATCTCCTAT GCCTACCATT 
    GAATGGTTTA AAGGGACTAA AGGAAGCGCT CTTCATGAAG ACACTTATGT TTTGCATGAT 
    AATGGAACAT TAGAAATTCC CGTGGCCCAA AAGGATAGTA CAGGGACGTA TACTTGTGTC 
    GCACGGAATA AACTAGGGAT GGCAAAGAAT GAAGTTCACT TGGAAATCAA AGATCCAACC 
    AGGATCATTA AACAACCTGA ATATGCAGTC GTCCAGAGGG GGAGCAAGGT GTCGTTTGAA 
    TGCAGAGTGA AACATGACCA CACCTTAATT CCCACCATTC TGTGGCTGAA GGACAATGGA 
    GAGCTGCCCA ATGATGAAAG GTTCTCCACT GACAAGGATC ATCTGGTGGT ATCTGATGTA 
    AAGGATGACG ATGGTGGCAC CTACACATGT ACGGCCAACA CAACGCTGGA CAGTGCTTCG 
    GCCAGCGCTG TGCTCAGGGT TGTCGATGTC CCGAATCCTC CCTTTGATTT AGAATTGACC 
    AATCAACTTG ACAAAAGTGT TCAGCTGACA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATTGA GTATGAAGAT GCAATGCATG ACGCAGGGCT GTGGCGCCAC 
    CAGGCTGAAG TTTCTGGAAC ACAGACCACA GCCCAACTGA AGCTGTCTCC CTATGTGAAC 
    TACTCCTTCC GTGTCATGGC AGAGAACGGC ATTGGAAGAA GCATGCCGAG CGAGGCATCT 
    GAGCAGTACC TCACAAAAGC CGCAGAACCA GATCAGAATC CCATGGCTGT GGAAGGACTA 
    GGGACAGAGC CGGACAACTT GGTGATTACA TGGAAGCCCC TGAATGGTTT TCAATCGAAT 
    GGGCCTGGCC TCCAGTACAA AGTGAGCTGG CGCCAGAAAG ATGGTGACGA TGAGTGGACG 
    TCTGTAGTTG TGGCCAATGT ATCCAAATAC ATTGTTTCTG GCACACCAAC CTTTGTCCCA 
    TACCTGATAA AAGTTCAAGC TCTGAATGAT GTGGGGTTTG CACCAGAGCC AGCTGCAGTC 
    ATGGGGCATT CTGGAGAAGA CCTTCCAATG GTGGCTCCTG GAAATGTTCG TGTCAGCGTG 
    GTGAACAGTA CGCTGGCAGA GGTGCACTGG GACCCAGTTC CTCCCAAGAG TGTCCGAGGA 
    CACTTACAAG GCTACCGGAT TTACTACTGG AAGACCCAGA GCTCCTCTAA AAGAAACAGG 
    CGCCACATTG AGAAGAAGAT CCTCACCTTC CAGGGCACCA AGACTCACGG CATGCTGCCA 
    GGGCTGCAGC CATACAGTCA CTATGCTCTC AACGTCCGAG TGGTCAACGG GAAAGGGGAG 
    GGCCCAGCCA GCACCGACAG AGGCTTCCAT ACACCGGAGG GAGTCCCTAG TGCTCCCTCA 
    TCTTTGAAAA TTGTTAATCC TACACTGGAC TCTCTCACTT TGGAGTGGGA CCCACCAAGC 
    CACCCAAATG GCATCCTGAC AGAGTACATC TTAAAATATC AGCCAATTAA CAGCACACAT 
    GAGCTAGGCC CTCTGGTAGA TTTAAAAATT CCTGCCAACA AGACCCGCTG GACTTTGAAA 
    AATTTAAATT TCAGCACTCG GTACAAGTTC TATTTCTATG CACAGACATC AGTGGGGTCA 
    GGGAGTCAGA TCACAGAGGA AGCAATAACG ACTGTGGACG AAGCAATGGC AAGCCGGCAA 
    GTGGATATTG CGACCCAAGG CTGGTTCATA GGTCTAATGT GTGCTGTTGC TCTCCTCATC 
    TTAATTTTGC TGATTGTTTG CTTCATCAGA AGAAACAAGG GTGGTAAATA CCCAGTTAAA 
    GAAAAGGAGG ATGCTCATGC AGACCCTGAA ATCCAGCCCA TGAAGGAAGA TGATGGGACG 
    TTTGGAGAAT ACAGTGATGC AGAAGATCAC AAGCCTTTGA AAAAAGGAAG TCGAACACCT 
    TCAGACAGGA CTGTGAAAAA AGAAGATAGT GATGATAGCC TGGTTGACTA TGGAGAGGGG 
    GTCAACGGCC AATTCAATGA GGATGGCTCC TTTATTGGCC AATACAGTGG TAAGAAAGAG 
    AAAGAGCCAG CGGAGGGAAA TGAAAGCTCA GAGGCCCCTT CTCCTGTCAA CGCAATGAAC 
    TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_021179691.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021035350.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X27, mRNA.
    Price & Availability↑
    CloneID OMv29281
    Clone ID Related Accession (Same CDS sequence) XM_021179691.1 , XM_021179691.2
    Accession Version XM_021179691.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3552bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X23
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 10, 2019 this sequence version replaced XM_021179691.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCTGGT ACAACCTCCA 
    ACCATCACTC AACAGTCACC AAAAGACTAC ATCATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAGG CCAAAGGGAA ACCTCCCCCA AGCTTTTCCT GGACTCGTAA TGGAACTCAT 
    TTTGACATAG ACAAGGACCC TCTGGTCACC ATGAAGCCTG GCTCAGGAAC CCTTGTCATC 
    AACATCATGA GTGAGGGGAA AGCAGAGACC TATGAAGGAG TCTACCAGTG CACTGCAAGG 
    AACGAGCGTG GAGCTGCCGT CTCCAATAAC ATTGTTGTCC GCCCATCTAG GTCACCCTTG 
    TGGACCAAGG AAAGACTTGA ACCCATAATA CTCCGGAATG GGCAGTCATT AGTACTTCCA 
    TGTAGGCCTC CGATTGGATT ACCTCCGGCC ATAATATTTT GGATGGATAA TTCCTTTCAG 
    AGACTTCCAC AGAGTGAGCG GGTTTCCCAA GGCCTAAATG GAGACCTTTA CTTCTCCAAT 
    GTCCTCCCAG AGGACACCCG TGAGGACTAT ATCTGCTATG CTAGATTTAA TCACACTCAA 
    ACCATCCAAC AGAAGCAGCC TATTTCTTTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCTAG TAAAGAGAGG 
    CCCCCAACGT TTCTAACTCC AGAGGGCAAT GAAAGCCACA AAGAGGAATT AAGAGGAAAC 
    GTGCTTTCGC TGGAGTGCAT TGCGGAAGGC CTCCCTACTC CAATTATTTA CTGGATCAAA 
    GAAGACGGAA CGCTTCCTGC CAACCGGACA TTTTATCGGA ACTTTAAGAA AACCTTGCAG 
    ATCACTCATG TTTCCGAAGC CGACTCTGGA AATTATCAGT GCATAGCAAA AAACGCATTA 
    GGGGCCGTCC ATCACACCAT TTCTGTCACT GTTAAAGCGG CTCCCTACTG GATCGTGGCA 
    CCTCAAAACC TCGTGCTTTC CCCGGGAGAG AATGGGACCC TCATCTGCAG AGCTAATGGC 
    AACCCGAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCTCTTGAT 
    GACCCCAGCA GAAAAATAGA TGGTGATACC ATTATATTTT CTAATGTTCA AGAAAGCTCA 
    AGTGCGGTTT ATCAGTGCAA CGCCTCTAAC AAATATGGAT ATTTACTAGC AAATGCATTT 
    GTAAATGTTC TCGCTGAACC ACCTCGGATT CTCACATCAG CAAACACTCT GTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT GCTAGATTGT GCCTTCTTTG GATCTCCTAT GCCTACCATT 
    GAATGGTTTA AAGGGACTAA AGGAAGCGCT CTTCATGAAG ACACTTATGT TTTGCATGAT 
    AATGGAACAT TAGAAATTCC CGTGGCCCAA AAGGATAGTA CAGGGACGTA TACTTGTGTC 
    GCACGGAATA AACTAGGGAT GGCAAAGAAT GAAGTTCACT TGGAAATCAA AGATCCAACC 
    AGGATCATTA AACAACCTGA ATATGCAGTC GTCCAGAGGG GGAGCAAGGT GTCGTTTGAA 
    TGCAGAGTGA AACATGACCA CACCTTAATT CCCACCATTC TGTGGCTGAA GGACAATGGA 
    GAGCTGCCCA ATGATGAAAG GTTCTCCACT GACAAGGATC ATCTGGTGGT ATCTGATGTA 
    AAGGATGACG ATGGTGGCAC CTACACATGT ACGGCCAACA CAACGCTGGA CAGTGCTTCG 
    GCCAGCGCTG TGCTCAGGGT TGTCGATGTC CCGAATCCTC CCTTTGATTT AGAATTGACC 
    AATCAACTTG ACAAAAGTGT TCAGCTGACA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATTGA GTATGAAGAT GCAATGCATG ACGCAGGGCT GTGGCGCCAC 
    CAGGCTGAAG TTTCTGGAAC ACAGACCACA GCCCAACTGA AGCTGTCTCC CTATGTGAAC 
    TACTCCTTCC GTGTCATGGC AGAGAACGGC ATTGGAAGAA GCATGCCGAG CGAGGCATCT 
    GAGCAGTACC TCACAAAAGC CGCAGAACCA GATCAGAATC CCATGGCTGT GGAAGGACTA 
    GGGACAGAGC CGGACAACTT GGTGATTACA TGGAAGCCCC TGAATGGTTT TCAATCGAAT 
    GGGCCTGGCC TCCAGTACAA AGTGAGCTGG CGCCAGAAAG ATGGTGACGA TGAGTGGACG 
    TCTGTAGTTG TGGCCAATGT ATCCAAATAC ATTGTTTCTG GCACACCAAC CTTTGTCCCA 
    TACCTGATAA AAGTTCAAGC TCTGAATGAT GTGGGGTTTG CACCAGAGCC AGCTGCAGTC 
    ATGGGGCATT CTGGAGAAGA CCTTCCAATG GTGGCTCCTG GAAATGTTCG TGTCAGCGTG 
    GTGAACAGTA CGCTGGCAGA GGTGCACTGG GACCCAGTTC CTCCCAAGAG TGTCCGAGGA 
    CACTTACAAG GCTACCGGAT TTACTACTGG AAGACCCAGA GCTCCTCTAA AAGAAACAGG 
    CGCCACATTG AGAAGAAGAT CCTCACCTTC CAGGGCACCA AGACTCACGG CATGCTGCCA 
    GGGCTGCAGC CATACAGTCA CTATGCTCTC AACGTCCGAG TGGTCAACGG GAAAGGGGAG 
    GGCCCAGCCA GCACCGACAG AGGCTTCCAT ACACCGGAGG GAGTCCCTAG TGCTCCCTCA 
    TCTTTGAAAA TTGTTAATCC TACACTGGAC TCTCTCACTT TGGAGTGGGA CCCACCAAGC 
    CACCCAAATG GCATCCTGAC AGAGTACATC TTAAAATATC AGCCAATTAA CAGCACACAT 
    GAGCTAGGCC CTCTGGTAGA TTTAAAAATT CCTGCCAACA AGACCCGCTG GACTTTGAAA 
    AATTTAAATT TCAGCACTCG GTACAAGTTC TATTTCTATG CACAGACATC AGTGGGGTCA 
    GGGAGTCAGA TCACAGAGGA AGCAATAACG ACTGTGGACG AAGCAATGGC AAGCCGGCAA 
    GTGGATATTG CGACCCAAGG CTGGTTCATA GGTCTAATGT GTGCTGTTGC TCTCCTCATC 
    TTAATTTTGC TGATTGTTTG CTTCATCAGA AGAAACAAGG GTGGTAAATA CCCAGTTAAA 
    GAAAAGGAGG ATGCTCATGC AGACCCTGAA ATCCAGCCCA TGAAGGAAGA TGATGGGACG 
    TTTGGAGAAT ACAGTGATGC AGAAGATCAC AAGCCTTTGA AAAAAGGAAG TCGAACACCT 
    TCAGACAGGA CTGTGAAAAA AGAAGATAGT GATGATAGCC TGGTTGACTA TGGAGAGGGG 
    GTCAACGGCC AATTCAATGA GGATGGCTCC TTTATTGGCC AATACAGTGG TAAGAAAGAG 
    AAAGAGCCAG CGGAGGGAAA TGAAAGCTCA GAGGCCCCTT CTCCTGTCAA CGCAATGAAC 
    TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_021035350.1
    CDS500..4051
    Translation

    Target ORF information:

    RefSeq Version XM_021179691.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X27, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021179691.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCTGGT ACAACCTCCA 
    ACCATCACTC AACAGTCACC AAAAGACTAC ATCATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAGG CCAAAGGGAA ACCTCCCCCA AGCTTTTCCT GGACTCGTAA TGGAACTCAT 
    TTTGACATAG ACAAGGACCC TCTGGTCACC ATGAAGCCTG GCTCAGGAAC CCTTGTCATC 
    AACATCATGA GTGAGGGGAA AGCAGAGACC TATGAAGGAG TCTACCAGTG CACTGCAAGG 
    AACGAGCGTG GAGCTGCCGT CTCCAATAAC ATTGTTGTCC GCCCATCTAG GTCACCCTTG 
    TGGACCAAGG AAAGACTTGA ACCCATAATA CTCCGGAATG GGCAGTCATT AGTACTTCCA 
    TGTAGGCCTC CGATTGGATT ACCTCCGGCC ATAATATTTT GGATGGATAA TTCCTTTCAG 
    AGACTTCCAC AGAGTGAGCG GGTTTCCCAA GGCCTAAATG GAGACCTTTA CTTCTCCAAT 
    GTCCTCCCAG AGGACACCCG TGAGGACTAT ATCTGCTATG CTAGATTTAA TCACACTCAA 
    ACCATCCAAC AGAAGCAGCC TATTTCTTTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCTAG TAAAGAGAGG 
    CCCCCAACGT TTCTAACTCC AGAGGGCAAT GAAAGCCACA AAGAGGAATT AAGAGGAAAC 
    GTGCTTTCGC TGGAGTGCAT TGCGGAAGGC CTCCCTACTC CAATTATTTA CTGGATCAAA 
    GAAGACGGAA CGCTTCCTGC CAACCGGACA TTTTATCGGA ACTTTAAGAA AACCTTGCAG 
    ATCACTCATG TTTCCGAAGC CGACTCTGGA AATTATCAGT GCATAGCAAA AAACGCATTA 
    GGGGCCGTCC ATCACACCAT TTCTGTCACT GTTAAAGCGG CTCCCTACTG GATCGTGGCA 
    CCTCAAAACC TCGTGCTTTC CCCGGGAGAG AATGGGACCC TCATCTGCAG AGCTAATGGC 
    AACCCGAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCTCTTGAT 
    GACCCCAGCA GAAAAATAGA TGGTGATACC ATTATATTTT CTAATGTTCA AGAAAGCTCA 
    AGTGCGGTTT ATCAGTGCAA CGCCTCTAAC AAATATGGAT ATTTACTAGC AAATGCATTT 
    GTAAATGTTC TCGCTGAACC ACCTCGGATT CTCACATCAG CAAACACTCT GTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT GCTAGATTGT GCCTTCTTTG GATCTCCTAT GCCTACCATT 
    GAATGGTTTA AAGGGACTAA AGGAAGCGCT CTTCATGAAG ACACTTATGT TTTGCATGAT 
    AATGGAACAT TAGAAATTCC CGTGGCCCAA AAGGATAGTA CAGGGACGTA TACTTGTGTC 
    GCACGGAATA AACTAGGGAT GGCAAAGAAT GAAGTTCACT TGGAAATCAA AGATCCAACC 
    AGGATCATTA AACAACCTGA ATATGCAGTC GTCCAGAGGG GGAGCAAGGT GTCGTTTGAA 
    TGCAGAGTGA AACATGACCA CACCTTAATT CCCACCATTC TGTGGCTGAA GGACAATGGA 
    GAGCTGCCCA ATGATGAAAG GTTCTCCACT GACAAGGATC ATCTGGTGGT ATCTGATGTA 
    AAGGATGACG ATGGTGGCAC CTACACATGT ACGGCCAACA CAACGCTGGA CAGTGCTTCG 
    GCCAGCGCTG TGCTCAGGGT TGTCGATGTC CCGAATCCTC CCTTTGATTT AGAATTGACC 
    AATCAACTTG ACAAAAGTGT TCAGCTGACA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATTGA GTATGAAGAT GCAATGCATG ACGCAGGGCT GTGGCGCCAC 
    CAGGCTGAAG TTTCTGGAAC ACAGACCACA GCCCAACTGA AGCTGTCTCC CTATGTGAAC 
    TACTCCTTCC GTGTCATGGC AGAGAACGGC ATTGGAAGAA GCATGCCGAG CGAGGCATCT 
    GAGCAGTACC TCACAAAAGC CGCAGAACCA GATCAGAATC CCATGGCTGT GGAAGGACTA 
    GGGACAGAGC CGGACAACTT GGTGATTACA TGGAAGCCCC TGAATGGTTT TCAATCGAAT 
    GGGCCTGGCC TCCAGTACAA AGTGAGCTGG CGCCAGAAAG ATGGTGACGA TGAGTGGACG 
    TCTGTAGTTG TGGCCAATGT ATCCAAATAC ATTGTTTCTG GCACACCAAC CTTTGTCCCA 
    TACCTGATAA AAGTTCAAGC TCTGAATGAT GTGGGGTTTG CACCAGAGCC AGCTGCAGTC 
    ATGGGGCATT CTGGAGAAGA CCTTCCAATG GTGGCTCCTG GAAATGTTCG TGTCAGCGTG 
    GTGAACAGTA CGCTGGCAGA GGTGCACTGG GACCCAGTTC CTCCCAAGAG TGTCCGAGGA 
    CACTTACAAG GCTACCGGAT TTACTACTGG AAGACCCAGA GCTCCTCTAA AAGAAACAGG 
    CGCCACATTG AGAAGAAGAT CCTCACCTTC CAGGGCACCA AGACTCACGG CATGCTGCCA 
    GGGCTGCAGC CATACAGTCA CTATGCTCTC AACGTCCGAG TGGTCAACGG GAAAGGGGAG 
    GGCCCAGCCA GCACCGACAG AGGCTTCCAT ACACCGGAGG GAGTCCCTAG TGCTCCCTCA 
    TCTTTGAAAA TTGTTAATCC TACACTGGAC TCTCTCACTT TGGAGTGGGA CCCACCAAGC 
    CACCCAAATG GCATCCTGAC AGAGTACATC TTAAAATATC AGCCAATTAA CAGCACACAT 
    GAGCTAGGCC CTCTGGTAGA TTTAAAAATT CCTGCCAACA AGACCCGCTG GACTTTGAAA 
    AATTTAAATT TCAGCACTCG GTACAAGTTC TATTTCTATG CACAGACATC AGTGGGGTCA 
    GGGAGTCAGA TCACAGAGGA AGCAATAACG ACTGTGGACG AAGCAATGGC AAGCCGGCAA 
    GTGGATATTG CGACCCAAGG CTGGTTCATA GGTCTAATGT GTGCTGTTGC TCTCCTCATC 
    TTAATTTTGC TGATTGTTTG CTTCATCAGA AGAAACAAGG GTGGTAAATA CCCAGTTAAA 
    GAAAAGGAGG ATGCTCATGC AGACCCTGAA ATCCAGCCCA TGAAGGAAGA TGATGGGACG 
    TTTGGAGAAT ACAGTGATGC AGAAGATCAC AAGCCTTTGA AAAAAGGAAG TCGAACACCT 
    TCAGACAGGA CTGTGAAAAA AGAAGATAGT GATGATAGCC TGGTTGACTA TGGAGAGGGG 
    GTCAACGGCC AATTCAATGA GGATGGCTCC TTTATTGGCC AATACAGTGG TAAGAAAGAG 
    AAAGAGCCAG CGGAGGGAAA TGAAAGCTCA GAGGCCCCTT CTCCTGTCAA CGCAATGAAC 
    TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_021179692.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021035351.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OMv29282
    Clone ID Related Accession (Same CDS sequence) XM_021179692.1 , XM_021179692.2
    Accession Version XM_021179692.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3543bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GCTAAATCTA GTAAAGAGAG GCCCCCAACG TTTCTAACTC CAGAGGGCAA TGAAAGCCAC 
    AAAGAGGAAT TAAGAGGAAA CGTGCTTTCG CTGGAGTGCA TTGCGGAAGG CCTCCCTACT 
    CCAATTATTT ACTGGATCAA AGAAGACGGA ACGCTTCCTG CCAACCGGAC ATTTTATCGG 
    AACTTTAAGA AAACCTTGCA GATCACTCAT GTTTCCGAAG CCGACTCTGG AAATTATCAG 
    TGCATAGCAA AAAACGCATT AGGGGCCGTC CATCACACCA TTTCTGTCAC TGTTAAAGCG 
    GCTCCCTACT GGATCGTGGC ACCTCAAAAC CTCGTGCTTT CCCCGGGAGA GAATGGGACC 
    CTCATCTGCA GAGCTAATGG CAACCCGAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCTCTTGA TGACCCCAGC AGAAAAATAG ATGGTGATAC CATTATATTT 
    TCTAATGTTC AAGAAAGCTC AAGTGCGGTT TATCAGTGCA ACGCCTCTAA CAAATATGGA 
    TATTTACTAG CAAATGCATT TGTAAATGTT CTCGCTGAAC CACCTCGGAT TCTCACATCA 
    GCAAACACTC TGTACCAGGT CATTGCAAAC AGGCCTGCTT TGCTAGATTG TGCCTTCTTT 
    GGATCTCCTA TGCCTACCAT TGAATGGTTT AAAGGGACTA AAGGAAGCGC TCTTCATGAA 
    GACACTTATG TTTTGCATGA TAATGGAACA TTAGAAATTC CCGTGGCCCA AAAGGATAGT 
    ACAGGGACGT ATACTTGTGT CGCACGGAAT AAACTAGGGA TGGCAAAGAA TGAAGTTCAC 
    TTGGAAATCA AAGATCCAAC CAGGATCATT AAACAACCTG AATATGCAGT CGTCCAGAGG 
    GGGAGCAAGG TGTCGTTTGA ATGCAGAGTG AAACATGACC ACACCTTAAT TCCCACCATT 
    CTGTGGCTGA AGGACAATGG AGAGCTGCCC AATGATGAAA GGTTCTCCAC TGACAAGGAT 
    CATCTGGTGG TATCTGATGT AAAGGATGAC GATGGTGGCA CCTACACATG TACGGCCAAC 
    ACAACGCTGG ACAGTGCTTC GGCCAGCGCT GTGCTCAGGG TTGTCGCTCC TACTCCAACT 
    CCAGCCCCCA TTTACGATGT CCCGAATCCT CCCTTTGATT TAGAATTGAC CAATCAACTT 
    GACAAAAGTG TTCAGCTGAC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATTG AGTATGAAGA TGCAATGCAT GACGCAGGGC TGTGGCGCCA CCAGGCTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAACTG AAGCTGTCTC CCTATGTGAA CTACTCCTTC 
    CGTGTCATGG CAGAGAACGG CATTGGAAGA AGCATGCCGA GCGAGGCATC TGAGCAGTAC 
    CTCACAAAAG CCGCAGAACC AGATCAGAAT CCCATGGCTG TGGAAGGACT AGGGACAGAG 
    CCGGACAACT TGGTGATTAC ATGGAAGCCC CTGAATGGTT TTCAATCGAA TGGGCCTGGC 
    CTCCAGTACA AAGTGAGCTG GCGCCAGAAA GATGGTGACG ATGAGTGGAC GTCTGTAGTT 
    GTGGCCAATG TATCCAAATA CATTGTTTCT GGCACACCAA CCTTTGTCCC ATACCTGATA 
    AAAGTTCAAG CTCTGAATGA TGTGGGGTTT GCACCAGAGC CAGCTGCAGT CATGGGGCAT 
    TCTGGAGAAG ACCTTCCAAT GGTGGCTCCT GGAAATGTTC GTGTCAGCGT GGTGAACAGT 
    ACGCTGGCAG AGGTGCACTG GGACCCAGTT CCTCCCAAGA GTGTCCGAGG ACACTTACAA 
    GGCTACCGGA TTTACTACTG GAAGACCCAG AGCTCCTCTA AAAGAAACAG GCGCCACATT 
    GAGAAGAAGA TCCTCACCTT CCAGGGCACC AAGACTCACG GCATGCTGCC AGGGCTGCAG 
    CCATACAGTC ACTATGCTCT CAACGTCCGA GTGGTCAACG GGAAAGGGGA GGGCCCAGCC 
    AGCACCGACA GAGGCTTCCA TACACCGGAG GGAGTCCCTA GTGCTCCCTC ATCTTTGAAA 
    ATTGTTAATC CTACACTGGA CTCTCTCACT TTGGAGTGGG ACCCACCAAG CCACCCAAAT 
    GGCATCCTGA CAGAGTACAT CTTAAAATAT CAGCCAATTA ACAGCACACA TGAGCTAGGC 
    CCTCTGGTAG ATTTAAAAAT TCCTGCCAAC AAGACCCGCT GGACTTTGAA AAATTTAAAT 
    TTCAGCACTC GGTACAAGTT CTATTTCTAT GCACAGACAT CAGTGGGGTC AGGGAGTCAG 
    ATCACAGAGG AAGCAATAAC GACTGTGGAC GAAGCAATGG CAAGCCGGCA AGTGGATATT 
    GCGACCCAAG GCTGGTTCAT AGGTCTAATG TGTGCTGTTG CTCTCCTCAT CTTAATTTTG 
    CTGATTGTTT GCTTCATCAG AAGAAACAAG GGTGGTAAAT ACCCAGTTAA AGAAAAGGAG 
    GATGCTCATG CAGACCCTGA AATCCAGCCC ATGAAGGAAG ATGATGGGAC GTTTGGAGAA 
    TACAGTGATG CAGAAGATCA CAAGCCTTTG AAAAAAGGAA GTCGAACACC TTCAGACAGG 
    ACTGTGAAAA AAGAAGATAG TGATGATAGC CTGGTTGACT ATGGAGAGGG GGTCAACGGC 
    CAATTCAATG AGGATGGCTC CTTTATTGGC CAATACAGTG GTAAGAAAGA GAAAGAGCCA 
    GCGGAGGGAA ATGAAAGCTC AGAGGCCCCT TCTCCTGTCA ACGCAATGAA CTCCTTTGTT 
    TAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_021035351.1
    CDS1..3543
    Translation

    Target ORF information:

    RefSeq Version XM_021179692.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021179692.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GCTAAATCTA GTAAAGAGAG GCCCCCAACG TTTCTAACTC CAGAGGGCAA TGAAAGCCAC 
    AAAGAGGAAT TAAGAGGAAA CGTGCTTTCG CTGGAGTGCA TTGCGGAAGG CCTCCCTACT 
    CCAATTATTT ACTGGATCAA AGAAGACGGA ACGCTTCCTG CCAACCGGAC ATTTTATCGG 
    AACTTTAAGA AAACCTTGCA GATCACTCAT GTTTCCGAAG CCGACTCTGG AAATTATCAG 
    TGCATAGCAA AAAACGCATT AGGGGCCGTC CATCACACCA TTTCTGTCAC TGTTAAAGCG 
    GCTCCCTACT GGATCGTGGC ACCTCAAAAC CTCGTGCTTT CCCCGGGAGA GAATGGGACC 
    CTCATCTGCA GAGCTAATGG CAACCCGAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCTCTTGA TGACCCCAGC AGAAAAATAG ATGGTGATAC CATTATATTT 
    TCTAATGTTC AAGAAAGCTC AAGTGCGGTT TATCAGTGCA ACGCCTCTAA CAAATATGGA 
    TATTTACTAG CAAATGCATT TGTAAATGTT CTCGCTGAAC CACCTCGGAT TCTCACATCA 
    GCAAACACTC TGTACCAGGT CATTGCAAAC AGGCCTGCTT TGCTAGATTG TGCCTTCTTT 
    GGATCTCCTA TGCCTACCAT TGAATGGTTT AAAGGGACTA AAGGAAGCGC TCTTCATGAA 
    GACACTTATG TTTTGCATGA TAATGGAACA TTAGAAATTC CCGTGGCCCA AAAGGATAGT 
    ACAGGGACGT ATACTTGTGT CGCACGGAAT AAACTAGGGA TGGCAAAGAA TGAAGTTCAC 
    TTGGAAATCA AAGATCCAAC CAGGATCATT AAACAACCTG AATATGCAGT CGTCCAGAGG 
    GGGAGCAAGG TGTCGTTTGA ATGCAGAGTG AAACATGACC ACACCTTAAT TCCCACCATT 
    CTGTGGCTGA AGGACAATGG AGAGCTGCCC AATGATGAAA GGTTCTCCAC TGACAAGGAT 
    CATCTGGTGG TATCTGATGT AAAGGATGAC GATGGTGGCA CCTACACATG TACGGCCAAC 
    ACAACGCTGG ACAGTGCTTC GGCCAGCGCT GTGCTCAGGG TTGTCGCTCC TACTCCAACT 
    CCAGCCCCCA TTTACGATGT CCCGAATCCT CCCTTTGATT TAGAATTGAC CAATCAACTT 
    GACAAAAGTG TTCAGCTGAC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATTG AGTATGAAGA TGCAATGCAT GACGCAGGGC TGTGGCGCCA CCAGGCTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAACTG AAGCTGTCTC CCTATGTGAA CTACTCCTTC 
    CGTGTCATGG CAGAGAACGG CATTGGAAGA AGCATGCCGA GCGAGGCATC TGAGCAGTAC 
    CTCACAAAAG CCGCAGAACC AGATCAGAAT CCCATGGCTG TGGAAGGACT AGGGACAGAG 
    CCGGACAACT TGGTGATTAC ATGGAAGCCC CTGAATGGTT TTCAATCGAA TGGGCCTGGC 
    CTCCAGTACA AAGTGAGCTG GCGCCAGAAA GATGGTGACG ATGAGTGGAC GTCTGTAGTT 
    GTGGCCAATG TATCCAAATA CATTGTTTCT GGCACACCAA CCTTTGTCCC ATACCTGATA 
    AAAGTTCAAG CTCTGAATGA TGTGGGGTTT GCACCAGAGC CAGCTGCAGT CATGGGGCAT 
    TCTGGAGAAG ACCTTCCAAT GGTGGCTCCT GGAAATGTTC GTGTCAGCGT GGTGAACAGT 
    ACGCTGGCAG AGGTGCACTG GGACCCAGTT CCTCCCAAGA GTGTCCGAGG ACACTTACAA 
    GGCTACCGGA TTTACTACTG GAAGACCCAG AGCTCCTCTA AAAGAAACAG GCGCCACATT 
    GAGAAGAAGA TCCTCACCTT CCAGGGCACC AAGACTCACG GCATGCTGCC AGGGCTGCAG 
    CCATACAGTC ACTATGCTCT CAACGTCCGA GTGGTCAACG GGAAAGGGGA GGGCCCAGCC 
    AGCACCGACA GAGGCTTCCA TACACCGGAG GGAGTCCCTA GTGCTCCCTC ATCTTTGAAA 
    ATTGTTAATC CTACACTGGA CTCTCTCACT TTGGAGTGGG ACCCACCAAG CCACCCAAAT 
    GGCATCCTGA CAGAGTACAT CTTAAAATAT CAGCCAATTA ACAGCACACA TGAGCTAGGC 
    CCTCTGGTAG ATTTAAAAAT TCCTGCCAAC AAGACCCGCT GGACTTTGAA AAATTTAAAT 
    TTCAGCACTC GGTACAAGTT CTATTTCTAT GCACAGACAT CAGTGGGGTC AGGGAGTCAG 
    ATCACAGAGG AAGCAATAAC GACTGTGGAC GAAGCAATGG CAAGCCGGCA AGTGGATATT 
    GCGACCCAAG GCTGGTTCAT AGGTCTAATG TGTGCTGTTG CTCTCCTCAT CTTAATTTTG 
    CTGATTGTTT GCTTCATCAG AAGAAACAAG GGTGGTAAAT ACCCAGTTAA AGAAAAGGAG 
    GATGCTCATG CAGACCCTGA AATCCAGCCC ATGAAGGAAG ATGATGGGAC GTTTGGAGAA 
    TACAGTGATG CAGAAGATCA CAAGCCTTTG AAAAAAGGAA GTCGAACACC TTCAGACAGG 
    ACTGTGAAAA AAGAAGATAG TGATGATAGC CTGGTTGACT ATGGAGAGGG GGTCAACGGC 
    CAATTCAATG AGGATGGCTC CTTTATTGGC CAATACAGTG GTAAGAAAGA GAAAGAGCCA 
    GCGGAGGGAA ATGAAAGCTC AGAGGCCCCT TCTCCTGTCA ACGCAATGAA CTCCTTTGTT 
    TAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_021179692.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021035351.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X29, mRNA.
    Price & Availability↑
    CloneID OMv29282
    Clone ID Related Accession (Same CDS sequence) XM_021179692.1 , XM_021179692.2
    Accession Version XM_021179692.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3543bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X25
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 10, 2019 this sequence version replaced XM_021179692.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GCTAAATCTA GTAAAGAGAG GCCCCCAACG TTTCTAACTC CAGAGGGCAA TGAAAGCCAC 
    AAAGAGGAAT TAAGAGGAAA CGTGCTTTCG CTGGAGTGCA TTGCGGAAGG CCTCCCTACT 
    CCAATTATTT ACTGGATCAA AGAAGACGGA ACGCTTCCTG CCAACCGGAC ATTTTATCGG 
    AACTTTAAGA AAACCTTGCA GATCACTCAT GTTTCCGAAG CCGACTCTGG AAATTATCAG 
    TGCATAGCAA AAAACGCATT AGGGGCCGTC CATCACACCA TTTCTGTCAC TGTTAAAGCG 
    GCTCCCTACT GGATCGTGGC ACCTCAAAAC CTCGTGCTTT CCCCGGGAGA GAATGGGACC 
    CTCATCTGCA GAGCTAATGG CAACCCGAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCTCTTGA TGACCCCAGC AGAAAAATAG ATGGTGATAC CATTATATTT 
    TCTAATGTTC AAGAAAGCTC AAGTGCGGTT TATCAGTGCA ACGCCTCTAA CAAATATGGA 
    TATTTACTAG CAAATGCATT TGTAAATGTT CTCGCTGAAC CACCTCGGAT TCTCACATCA 
    GCAAACACTC TGTACCAGGT CATTGCAAAC AGGCCTGCTT TGCTAGATTG TGCCTTCTTT 
    GGATCTCCTA TGCCTACCAT TGAATGGTTT AAAGGGACTA AAGGAAGCGC TCTTCATGAA 
    GACACTTATG TTTTGCATGA TAATGGAACA TTAGAAATTC CCGTGGCCCA AAAGGATAGT 
    ACAGGGACGT ATACTTGTGT CGCACGGAAT AAACTAGGGA TGGCAAAGAA TGAAGTTCAC 
    TTGGAAATCA AAGATCCAAC CAGGATCATT AAACAACCTG AATATGCAGT CGTCCAGAGG 
    GGGAGCAAGG TGTCGTTTGA ATGCAGAGTG AAACATGACC ACACCTTAAT TCCCACCATT 
    CTGTGGCTGA AGGACAATGG AGAGCTGCCC AATGATGAAA GGTTCTCCAC TGACAAGGAT 
    CATCTGGTGG TATCTGATGT AAAGGATGAC GATGGTGGCA CCTACACATG TACGGCCAAC 
    ACAACGCTGG ACAGTGCTTC GGCCAGCGCT GTGCTCAGGG TTGTCGCTCC TACTCCAACT 
    CCAGCCCCCA TTTACGATGT CCCGAATCCT CCCTTTGATT TAGAATTGAC CAATCAACTT 
    GACAAAAGTG TTCAGCTGAC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATTG AGTATGAAGA TGCAATGCAT GACGCAGGGC TGTGGCGCCA CCAGGCTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAACTG AAGCTGTCTC CCTATGTGAA CTACTCCTTC 
    CGTGTCATGG CAGAGAACGG CATTGGAAGA AGCATGCCGA GCGAGGCATC TGAGCAGTAC 
    CTCACAAAAG CCGCAGAACC AGATCAGAAT CCCATGGCTG TGGAAGGACT AGGGACAGAG 
    CCGGACAACT TGGTGATTAC ATGGAAGCCC CTGAATGGTT TTCAATCGAA TGGGCCTGGC 
    CTCCAGTACA AAGTGAGCTG GCGCCAGAAA GATGGTGACG ATGAGTGGAC GTCTGTAGTT 
    GTGGCCAATG TATCCAAATA CATTGTTTCT GGCACACCAA CCTTTGTCCC ATACCTGATA 
    AAAGTTCAAG CTCTGAATGA TGTGGGGTTT GCACCAGAGC CAGCTGCAGT CATGGGGCAT 
    TCTGGAGAAG ACCTTCCAAT GGTGGCTCCT GGAAATGTTC GTGTCAGCGT GGTGAACAGT 
    ACGCTGGCAG AGGTGCACTG GGACCCAGTT CCTCCCAAGA GTGTCCGAGG ACACTTACAA 
    GGCTACCGGA TTTACTACTG GAAGACCCAG AGCTCCTCTA AAAGAAACAG GCGCCACATT 
    GAGAAGAAGA TCCTCACCTT CCAGGGCACC AAGACTCACG GCATGCTGCC AGGGCTGCAG 
    CCATACAGTC ACTATGCTCT CAACGTCCGA GTGGTCAACG GGAAAGGGGA GGGCCCAGCC 
    AGCACCGACA GAGGCTTCCA TACACCGGAG GGAGTCCCTA GTGCTCCCTC ATCTTTGAAA 
    ATTGTTAATC CTACACTGGA CTCTCTCACT TTGGAGTGGG ACCCACCAAG CCACCCAAAT 
    GGCATCCTGA CAGAGTACAT CTTAAAATAT CAGCCAATTA ACAGCACACA TGAGCTAGGC 
    CCTCTGGTAG ATTTAAAAAT TCCTGCCAAC AAGACCCGCT GGACTTTGAA AAATTTAAAT 
    TTCAGCACTC GGTACAAGTT CTATTTCTAT GCACAGACAT CAGTGGGGTC AGGGAGTCAG 
    ATCACAGAGG AAGCAATAAC GACTGTGGAC GAAGCAATGG CAAGCCGGCA AGTGGATATT 
    GCGACCCAAG GCTGGTTCAT AGGTCTAATG TGTGCTGTTG CTCTCCTCAT CTTAATTTTG 
    CTGATTGTTT GCTTCATCAG AAGAAACAAG GGTGGTAAAT ACCCAGTTAA AGAAAAGGAG 
    GATGCTCATG CAGACCCTGA AATCCAGCCC ATGAAGGAAG ATGATGGGAC GTTTGGAGAA 
    TACAGTGATG CAGAAGATCA CAAGCCTTTG AAAAAAGGAA GTCGAACACC TTCAGACAGG 
    ACTGTGAAAA AAGAAGATAG TGATGATAGC CTGGTTGACT ATGGAGAGGG GGTCAACGGC 
    CAATTCAATG AGGATGGCTC CTTTATTGGC CAATACAGTG GTAAGAAAGA GAAAGAGCCA 
    GCGGAGGGAA ATGAAAGCTC AGAGGCCCCT TCTCCTGTCA ACGCAATGAA CTCCTTTGTT 
    TAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_021035351.1
    CDS500..4042
    Translation

    Target ORF information:

    RefSeq Version XM_021179692.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X29, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021179692.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GCTAAATCTA GTAAAGAGAG GCCCCCAACG TTTCTAACTC CAGAGGGCAA TGAAAGCCAC 
    AAAGAGGAAT TAAGAGGAAA CGTGCTTTCG CTGGAGTGCA TTGCGGAAGG CCTCCCTACT 
    CCAATTATTT ACTGGATCAA AGAAGACGGA ACGCTTCCTG CCAACCGGAC ATTTTATCGG 
    AACTTTAAGA AAACCTTGCA GATCACTCAT GTTTCCGAAG CCGACTCTGG AAATTATCAG 
    TGCATAGCAA AAAACGCATT AGGGGCCGTC CATCACACCA TTTCTGTCAC TGTTAAAGCG 
    GCTCCCTACT GGATCGTGGC ACCTCAAAAC CTCGTGCTTT CCCCGGGAGA GAATGGGACC 
    CTCATCTGCA GAGCTAATGG CAACCCGAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCTCTTGA TGACCCCAGC AGAAAAATAG ATGGTGATAC CATTATATTT 
    TCTAATGTTC AAGAAAGCTC AAGTGCGGTT TATCAGTGCA ACGCCTCTAA CAAATATGGA 
    TATTTACTAG CAAATGCATT TGTAAATGTT CTCGCTGAAC CACCTCGGAT TCTCACATCA 
    GCAAACACTC TGTACCAGGT CATTGCAAAC AGGCCTGCTT TGCTAGATTG TGCCTTCTTT 
    GGATCTCCTA TGCCTACCAT TGAATGGTTT AAAGGGACTA AAGGAAGCGC TCTTCATGAA 
    GACACTTATG TTTTGCATGA TAATGGAACA TTAGAAATTC CCGTGGCCCA AAAGGATAGT 
    ACAGGGACGT ATACTTGTGT CGCACGGAAT AAACTAGGGA TGGCAAAGAA TGAAGTTCAC 
    TTGGAAATCA AAGATCCAAC CAGGATCATT AAACAACCTG AATATGCAGT CGTCCAGAGG 
    GGGAGCAAGG TGTCGTTTGA ATGCAGAGTG AAACATGACC ACACCTTAAT TCCCACCATT 
    CTGTGGCTGA AGGACAATGG AGAGCTGCCC AATGATGAAA GGTTCTCCAC TGACAAGGAT 
    CATCTGGTGG TATCTGATGT AAAGGATGAC GATGGTGGCA CCTACACATG TACGGCCAAC 
    ACAACGCTGG ACAGTGCTTC GGCCAGCGCT GTGCTCAGGG TTGTCGCTCC TACTCCAACT 
    CCAGCCCCCA TTTACGATGT CCCGAATCCT CCCTTTGATT TAGAATTGAC CAATCAACTT 
    GACAAAAGTG TTCAGCTGAC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATTG AGTATGAAGA TGCAATGCAT GACGCAGGGC TGTGGCGCCA CCAGGCTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAACTG AAGCTGTCTC CCTATGTGAA CTACTCCTTC 
    CGTGTCATGG CAGAGAACGG CATTGGAAGA AGCATGCCGA GCGAGGCATC TGAGCAGTAC 
    CTCACAAAAG CCGCAGAACC AGATCAGAAT CCCATGGCTG TGGAAGGACT AGGGACAGAG 
    CCGGACAACT TGGTGATTAC ATGGAAGCCC CTGAATGGTT TTCAATCGAA TGGGCCTGGC 
    CTCCAGTACA AAGTGAGCTG GCGCCAGAAA GATGGTGACG ATGAGTGGAC GTCTGTAGTT 
    GTGGCCAATG TATCCAAATA CATTGTTTCT GGCACACCAA CCTTTGTCCC ATACCTGATA 
    AAAGTTCAAG CTCTGAATGA TGTGGGGTTT GCACCAGAGC CAGCTGCAGT CATGGGGCAT 
    TCTGGAGAAG ACCTTCCAAT GGTGGCTCCT GGAAATGTTC GTGTCAGCGT GGTGAACAGT 
    ACGCTGGCAG AGGTGCACTG GGACCCAGTT CCTCCCAAGA GTGTCCGAGG ACACTTACAA 
    GGCTACCGGA TTTACTACTG GAAGACCCAG AGCTCCTCTA AAAGAAACAG GCGCCACATT 
    GAGAAGAAGA TCCTCACCTT CCAGGGCACC AAGACTCACG GCATGCTGCC AGGGCTGCAG 
    CCATACAGTC ACTATGCTCT CAACGTCCGA GTGGTCAACG GGAAAGGGGA GGGCCCAGCC 
    AGCACCGACA GAGGCTTCCA TACACCGGAG GGAGTCCCTA GTGCTCCCTC ATCTTTGAAA 
    ATTGTTAATC CTACACTGGA CTCTCTCACT TTGGAGTGGG ACCCACCAAG CCACCCAAAT 
    GGCATCCTGA CAGAGTACAT CTTAAAATAT CAGCCAATTA ACAGCACACA TGAGCTAGGC 
    CCTCTGGTAG ATTTAAAAAT TCCTGCCAAC AAGACCCGCT GGACTTTGAA AAATTTAAAT 
    TTCAGCACTC GGTACAAGTT CTATTTCTAT GCACAGACAT CAGTGGGGTC AGGGAGTCAG 
    ATCACAGAGG AAGCAATAAC GACTGTGGAC GAAGCAATGG CAAGCCGGCA AGTGGATATT 
    GCGACCCAAG GCTGGTTCAT AGGTCTAATG TGTGCTGTTG CTCTCCTCAT CTTAATTTTG 
    CTGATTGTTT GCTTCATCAG AAGAAACAAG GGTGGTAAAT ACCCAGTTAA AGAAAAGGAG 
    GATGCTCATG CAGACCCTGA AATCCAGCCC ATGAAGGAAG ATGATGGGAC GTTTGGAGAA 
    TACAGTGATG CAGAAGATCA CAAGCCTTTG AAAAAAGGAA GTCGAACACC TTCAGACAGG 
    ACTGTGAAAA AAGAAGATAG TGATGATAGC CTGGTTGACT ATGGAGAGGG GGTCAACGGC 
    CAATTCAATG AGGATGGCTC CTTTATTGGC CAATACAGTG GTAAGAAAGA GAAAGAGCCA 
    GCGGAGGGAA ATGAAAGCTC AGAGGCCCCT TCTCCTGTCA ACGCAATGAA CTCCTTTGTT 
    TAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_029484541.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029340401.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OMv68193
    Clone ID Related Accession (Same CDS sequence) XM_029484541.1 , XM_029484543.1 , XM_029484544.1 , XM_029484545.1 , XM_029484542.1
    Accession Version XM_029484541.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3936bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GGTAAGAAGG CTGGTATTCC TCCACCTGAT 
    GTAGGTGCAG GCAAAGTCCG TGCAGTAAAT CCCAGGATCA GCAATGTCAC TGCCGCAGCT 
    GCTGAGACGT ATGCCAATAT CAGTTGGGAG TATGAGGGAC CAGAACATGT GAAGTTTTAT 
    GTTGAATATG GTGTAGCAGG CAGCAAAGAA GAATGGAGGA AAGAAATTGT AAATGGTTCT 
    CGAAGCTTCT TTGGGTTAAA GGGTCTAATG CCAGGAACAG CATACAAAGT TCGAGTTGGT 
    GCTGAGGGGG ACTCTGGTTT TGTGAGTTCA GAGGATGTGT TTGAGACAGG ACCAGCAATG 
    GCAAGCCGGC AAGTGGATAT TGCGACCCAA GGCTGGTTCA TAGGTCTAAT GTGTGCTGTT 
    GCTCTCCTCA TCTTAATTTT GCTGATTGTT TGCTTCATCA GAAGAAACAA GGGTGGTAAA 
    TACCCAGTTA AAGAAAAGGA GGATGCTCAT GCAGACCCTG AAATCCAGCC CATGAAGGAA 
    GATGATGGGA CGTTTGGAGA ATACAGGTCT TTTGAAAGTG ATGCAGAAGA TCACAAGCCT 
    TTGAAAAAAG GAAGTCGAAC ACCTTCAGAC AGGACTGTGA AAAAAGAAGA TAGTGATGAT 
    AGCCTGGTTG ACTATGGAGA GGGGGTCAAC GGCCAATTCA ATGAGGATGG CTCCTTTATT 
    GGCCAATACA GTGGTAAGAA AGAGAAAGAG CCAGCGGAGG GAAATGAAAG CTCAGAGGCC 
    CCTTCTCCTG TCAACGCAAT GAACTCCTTT GTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029340401.1
    CDS500..4435
    Translation

    Target ORF information:

    RefSeq Version XM_029484541.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029484541.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GGTAAGAAGG CTGGTATTCC TCCACCTGAT 
    GTAGGTGCAG GCAAAGTCCG TGCAGTAAAT CCCAGGATCA GCAATGTCAC TGCCGCAGCT 
    GCTGAGACGT ATGCCAATAT CAGTTGGGAG TATGAGGGAC CAGAACATGT GAAGTTTTAT 
    GTTGAATATG GTGTAGCAGG CAGCAAAGAA GAATGGAGGA AAGAAATTGT AAATGGTTCT 
    CGAAGCTTCT TTGGGTTAAA GGGTCTAATG CCAGGAACAG CATACAAAGT TCGAGTTGGT 
    GCTGAGGGGG ACTCTGGTTT TGTGAGTTCA GAGGATGTGT TTGAGACAGG ACCAGCAATG 
    GCAAGCCGGC AAGTGGATAT TGCGACCCAA GGCTGGTTCA TAGGTCTAAT GTGTGCTGTT 
    GCTCTCCTCA TCTTAATTTT GCTGATTGTT TGCTTCATCA GAAGAAACAA GGGTGGTAAA 
    TACCCAGTTA AAGAAAAGGA GGATGCTCAT GCAGACCCTG AAATCCAGCC CATGAAGGAA 
    GATGATGGGA CGTTTGGAGA ATACAGGTCT TTTGAAAGTG ATGCAGAAGA TCACAAGCCT 
    TTGAAAAAAG GAAGTCGAAC ACCTTCAGAC AGGACTGTGA AAAAAGAAGA TAGTGATGAT 
    AGCCTGGTTG ACTATGGAGA GGGGGTCAAC GGCCAATTCA ATGAGGATGG CTCCTTTATT 
    GGCCAATACA GTGGTAAGAA AGAGAAAGAG CCAGCGGAGG GAAATGAAAG CTCAGAGGCC 
    CCTTCTCCTG TCAACGCAAT GAACTCCTTT GTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_029484543.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029340403.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OMv68193
    Clone ID Related Accession (Same CDS sequence) XM_029484541.1 , XM_029484543.1 , XM_029484544.1 , XM_029484545.1 , XM_029484542.1
    Accession Version XM_029484543.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3936bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GGTAAGAAGG CTGGTATTCC TCCACCTGAT 
    GTAGGTGCAG GCAAAGTCCG TGCAGTAAAT CCCAGGATCA GCAATGTCAC TGCCGCAGCT 
    GCTGAGACGT ATGCCAATAT CAGTTGGGAG TATGAGGGAC CAGAACATGT GAAGTTTTAT 
    GTTGAATATG GTGTAGCAGG CAGCAAAGAA GAATGGAGGA AAGAAATTGT AAATGGTTCT 
    CGAAGCTTCT TTGGGTTAAA GGGTCTAATG CCAGGAACAG CATACAAAGT TCGAGTTGGT 
    GCTGAGGGGG ACTCTGGTTT TGTGAGTTCA GAGGATGTGT TTGAGACAGG ACCAGCAATG 
    GCAAGCCGGC AAGTGGATAT TGCGACCCAA GGCTGGTTCA TAGGTCTAAT GTGTGCTGTT 
    GCTCTCCTCA TCTTAATTTT GCTGATTGTT TGCTTCATCA GAAGAAACAA GGGTGGTAAA 
    TACCCAGTTA AAGAAAAGGA GGATGCTCAT GCAGACCCTG AAATCCAGCC CATGAAGGAA 
    GATGATGGGA CGTTTGGAGA ATACAGGTCT TTTGAAAGTG ATGCAGAAGA TCACAAGCCT 
    TTGAAAAAAG GAAGTCGAAC ACCTTCAGAC AGGACTGTGA AAAAAGAAGA TAGTGATGAT 
    AGCCTGGTTG ACTATGGAGA GGGGGTCAAC GGCCAATTCA ATGAGGATGG CTCCTTTATT 
    GGCCAATACA GTGGTAAGAA AGAGAAAGAG CCAGCGGAGG GAAATGAAAG CTCAGAGGCC 
    CCTTCTCCTG TCAACGCAAT GAACTCCTTT GTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029340403.1
    CDS443..4378
    Translation

    Target ORF information:

    RefSeq Version XM_029484543.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029484543.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GGTAAGAAGG CTGGTATTCC TCCACCTGAT 
    GTAGGTGCAG GCAAAGTCCG TGCAGTAAAT CCCAGGATCA GCAATGTCAC TGCCGCAGCT 
    GCTGAGACGT ATGCCAATAT CAGTTGGGAG TATGAGGGAC CAGAACATGT GAAGTTTTAT 
    GTTGAATATG GTGTAGCAGG CAGCAAAGAA GAATGGAGGA AAGAAATTGT AAATGGTTCT 
    CGAAGCTTCT TTGGGTTAAA GGGTCTAATG CCAGGAACAG CATACAAAGT TCGAGTTGGT 
    GCTGAGGGGG ACTCTGGTTT TGTGAGTTCA GAGGATGTGT TTGAGACAGG ACCAGCAATG 
    GCAAGCCGGC AAGTGGATAT TGCGACCCAA GGCTGGTTCA TAGGTCTAAT GTGTGCTGTT 
    GCTCTCCTCA TCTTAATTTT GCTGATTGTT TGCTTCATCA GAAGAAACAA GGGTGGTAAA 
    TACCCAGTTA AAGAAAAGGA GGATGCTCAT GCAGACCCTG AAATCCAGCC CATGAAGGAA 
    GATGATGGGA CGTTTGGAGA ATACAGGTCT TTTGAAAGTG ATGCAGAAGA TCACAAGCCT 
    TTGAAAAAAG GAAGTCGAAC ACCTTCAGAC AGGACTGTGA AAAAAGAAGA TAGTGATGAT 
    AGCCTGGTTG ACTATGGAGA GGGGGTCAAC GGCCAATTCA ATGAGGATGG CTCCTTTATT 
    GGCCAATACA GTGGTAAGAA AGAGAAAGAG CCAGCGGAGG GAAATGAAAG CTCAGAGGCC 
    CCTTCTCCTG TCAACGCAAT GAACTCCTTT GTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_029484544.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029340404.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OMv68193
    Clone ID Related Accession (Same CDS sequence) XM_029484541.1 , XM_029484543.1 , XM_029484544.1 , XM_029484545.1 , XM_029484542.1
    Accession Version XM_029484544.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3936bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GGTAAGAAGG CTGGTATTCC TCCACCTGAT 
    GTAGGTGCAG GCAAAGTCCG TGCAGTAAAT CCCAGGATCA GCAATGTCAC TGCCGCAGCT 
    GCTGAGACGT ATGCCAATAT CAGTTGGGAG TATGAGGGAC CAGAACATGT GAAGTTTTAT 
    GTTGAATATG GTGTAGCAGG CAGCAAAGAA GAATGGAGGA AAGAAATTGT AAATGGTTCT 
    CGAAGCTTCT TTGGGTTAAA GGGTCTAATG CCAGGAACAG CATACAAAGT TCGAGTTGGT 
    GCTGAGGGGG ACTCTGGTTT TGTGAGTTCA GAGGATGTGT TTGAGACAGG ACCAGCAATG 
    GCAAGCCGGC AAGTGGATAT TGCGACCCAA GGCTGGTTCA TAGGTCTAAT GTGTGCTGTT 
    GCTCTCCTCA TCTTAATTTT GCTGATTGTT TGCTTCATCA GAAGAAACAA GGGTGGTAAA 
    TACCCAGTTA AAGAAAAGGA GGATGCTCAT GCAGACCCTG AAATCCAGCC CATGAAGGAA 
    GATGATGGGA CGTTTGGAGA ATACAGGTCT TTTGAAAGTG ATGCAGAAGA TCACAAGCCT 
    TTGAAAAAAG GAAGTCGAAC ACCTTCAGAC AGGACTGTGA AAAAAGAAGA TAGTGATGAT 
    AGCCTGGTTG ACTATGGAGA GGGGGTCAAC GGCCAATTCA ATGAGGATGG CTCCTTTATT 
    GGCCAATACA GTGGTAAGAA AGAGAAAGAG CCAGCGGAGG GAAATGAAAG CTCAGAGGCC 
    CCTTCTCCTG TCAACGCAAT GAACTCCTTT GTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029340404.1
    CDS427..4362
    Translation

    Target ORF information:

    RefSeq Version XM_029484544.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029484544.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GGTAAGAAGG CTGGTATTCC TCCACCTGAT 
    GTAGGTGCAG GCAAAGTCCG TGCAGTAAAT CCCAGGATCA GCAATGTCAC TGCCGCAGCT 
    GCTGAGACGT ATGCCAATAT CAGTTGGGAG TATGAGGGAC CAGAACATGT GAAGTTTTAT 
    GTTGAATATG GTGTAGCAGG CAGCAAAGAA GAATGGAGGA AAGAAATTGT AAATGGTTCT 
    CGAAGCTTCT TTGGGTTAAA GGGTCTAATG CCAGGAACAG CATACAAAGT TCGAGTTGGT 
    GCTGAGGGGG ACTCTGGTTT TGTGAGTTCA GAGGATGTGT TTGAGACAGG ACCAGCAATG 
    GCAAGCCGGC AAGTGGATAT TGCGACCCAA GGCTGGTTCA TAGGTCTAAT GTGTGCTGTT 
    GCTCTCCTCA TCTTAATTTT GCTGATTGTT TGCTTCATCA GAAGAAACAA GGGTGGTAAA 
    TACCCAGTTA AAGAAAAGGA GGATGCTCAT GCAGACCCTG AAATCCAGCC CATGAAGGAA 
    GATGATGGGA CGTTTGGAGA ATACAGGTCT TTTGAAAGTG ATGCAGAAGA TCACAAGCCT 
    TTGAAAAAAG GAAGTCGAAC ACCTTCAGAC AGGACTGTGA AAAAAGAAGA TAGTGATGAT 
    AGCCTGGTTG ACTATGGAGA GGGGGTCAAC GGCCAATTCA ATGAGGATGG CTCCTTTATT 
    GGCCAATACA GTGGTAAGAA AGAGAAAGAG CCAGCGGAGG GAAATGAAAG CTCAGAGGCC 
    CCTTCTCCTG TCAACGCAAT GAACTCCTTT GTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_029484545.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029340405.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OMv68193
    Clone ID Related Accession (Same CDS sequence) XM_029484541.1 , XM_029484543.1 , XM_029484544.1 , XM_029484545.1 , XM_029484542.1
    Accession Version XM_029484545.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3936bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GGTAAGAAGG CTGGTATTCC TCCACCTGAT 
    GTAGGTGCAG GCAAAGTCCG TGCAGTAAAT CCCAGGATCA GCAATGTCAC TGCCGCAGCT 
    GCTGAGACGT ATGCCAATAT CAGTTGGGAG TATGAGGGAC CAGAACATGT GAAGTTTTAT 
    GTTGAATATG GTGTAGCAGG CAGCAAAGAA GAATGGAGGA AAGAAATTGT AAATGGTTCT 
    CGAAGCTTCT TTGGGTTAAA GGGTCTAATG CCAGGAACAG CATACAAAGT TCGAGTTGGT 
    GCTGAGGGGG ACTCTGGTTT TGTGAGTTCA GAGGATGTGT TTGAGACAGG ACCAGCAATG 
    GCAAGCCGGC AAGTGGATAT TGCGACCCAA GGCTGGTTCA TAGGTCTAAT GTGTGCTGTT 
    GCTCTCCTCA TCTTAATTTT GCTGATTGTT TGCTTCATCA GAAGAAACAA GGGTGGTAAA 
    TACCCAGTTA AAGAAAAGGA GGATGCTCAT GCAGACCCTG AAATCCAGCC CATGAAGGAA 
    GATGATGGGA CGTTTGGAGA ATACAGGTCT TTTGAAAGTG ATGCAGAAGA TCACAAGCCT 
    TTGAAAAAAG GAAGTCGAAC ACCTTCAGAC AGGACTGTGA AAAAAGAAGA TAGTGATGAT 
    AGCCTGGTTG ACTATGGAGA GGGGGTCAAC GGCCAATTCA ATGAGGATGG CTCCTTTATT 
    GGCCAATACA GTGGTAAGAA AGAGAAAGAG CCAGCGGAGG GAAATGAAAG CTCAGAGGCC 
    CCTTCTCCTG TCAACGCAAT GAACTCCTTT GTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029340405.1
    CDS363..4298
    Translation

    Target ORF information:

    RefSeq Version XM_029484545.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029484545.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GGTAAGAAGG CTGGTATTCC TCCACCTGAT 
    GTAGGTGCAG GCAAAGTCCG TGCAGTAAAT CCCAGGATCA GCAATGTCAC TGCCGCAGCT 
    GCTGAGACGT ATGCCAATAT CAGTTGGGAG TATGAGGGAC CAGAACATGT GAAGTTTTAT 
    GTTGAATATG GTGTAGCAGG CAGCAAAGAA GAATGGAGGA AAGAAATTGT AAATGGTTCT 
    CGAAGCTTCT TTGGGTTAAA GGGTCTAATG CCAGGAACAG CATACAAAGT TCGAGTTGGT 
    GCTGAGGGGG ACTCTGGTTT TGTGAGTTCA GAGGATGTGT TTGAGACAGG ACCAGCAATG 
    GCAAGCCGGC AAGTGGATAT TGCGACCCAA GGCTGGTTCA TAGGTCTAAT GTGTGCTGTT 
    GCTCTCCTCA TCTTAATTTT GCTGATTGTT TGCTTCATCA GAAGAAACAA GGGTGGTAAA 
    TACCCAGTTA AAGAAAAGGA GGATGCTCAT GCAGACCCTG AAATCCAGCC CATGAAGGAA 
    GATGATGGGA CGTTTGGAGA ATACAGGTCT TTTGAAAGTG ATGCAGAAGA TCACAAGCCT 
    TTGAAAAAAG GAAGTCGAAC ACCTTCAGAC AGGACTGTGA AAAAAGAAGA TAGTGATGAT 
    AGCCTGGTTG ACTATGGAGA GGGGGTCAAC GGCCAATTCA ATGAGGATGG CTCCTTTATT 
    GGCCAATACA GTGGTAAGAA AGAGAAAGAG CCAGCGGAGG GAAATGAAAG CTCAGAGGCC 
    CCTTCTCCTG TCAACGCAAT GAACTCCTTT GTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_029484542.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029340402.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OMv68193
    Clone ID Related Accession (Same CDS sequence) XM_029484541.1 , XM_029484543.1 , XM_029484544.1 , XM_029484545.1 , XM_029484542.1
    Accession Version XM_029484542.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3936bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GGTAAGAAGG CTGGTATTCC TCCACCTGAT 
    GTAGGTGCAG GCAAAGTCCG TGCAGTAAAT CCCAGGATCA GCAATGTCAC TGCCGCAGCT 
    GCTGAGACGT ATGCCAATAT CAGTTGGGAG TATGAGGGAC CAGAACATGT GAAGTTTTAT 
    GTTGAATATG GTGTAGCAGG CAGCAAAGAA GAATGGAGGA AAGAAATTGT AAATGGTTCT 
    CGAAGCTTCT TTGGGTTAAA GGGTCTAATG CCAGGAACAG CATACAAAGT TCGAGTTGGT 
    GCTGAGGGGG ACTCTGGTTT TGTGAGTTCA GAGGATGTGT TTGAGACAGG ACCAGCAATG 
    GCAAGCCGGC AAGTGGATAT TGCGACCCAA GGCTGGTTCA TAGGTCTAAT GTGTGCTGTT 
    GCTCTCCTCA TCTTAATTTT GCTGATTGTT TGCTTCATCA GAAGAAACAA GGGTGGTAAA 
    TACCCAGTTA AAGAAAAGGA GGATGCTCAT GCAGACCCTG AAATCCAGCC CATGAAGGAA 
    GATGATGGGA CGTTTGGAGA ATACAGGTCT TTTGAAAGTG ATGCAGAAGA TCACAAGCCT 
    TTGAAAAAAG GAAGTCGAAC ACCTTCAGAC AGGACTGTGA AAAAAGAAGA TAGTGATGAT 
    AGCCTGGTTG ACTATGGAGA GGGGGTCAAC GGCCAATTCA ATGAGGATGG CTCCTTTATT 
    GGCCAATACA GTGGTAAGAA AGAGAAAGAG CCAGCGGAGG GAAATGAAAG CTCAGAGGCC 
    CCTTCTCCTG TCAACGCAAT GAACTCCTTT GTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029340402.1
    CDS576..4511
    Translation

    Target ORF information:

    RefSeq Version XM_029484542.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029484542.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GGTAAGAAGG CTGGTATTCC TCCACCTGAT 
    GTAGGTGCAG GCAAAGTCCG TGCAGTAAAT CCCAGGATCA GCAATGTCAC TGCCGCAGCT 
    GCTGAGACGT ATGCCAATAT CAGTTGGGAG TATGAGGGAC CAGAACATGT GAAGTTTTAT 
    GTTGAATATG GTGTAGCAGG CAGCAAAGAA GAATGGAGGA AAGAAATTGT AAATGGTTCT 
    CGAAGCTTCT TTGGGTTAAA GGGTCTAATG CCAGGAACAG CATACAAAGT TCGAGTTGGT 
    GCTGAGGGGG ACTCTGGTTT TGTGAGTTCA GAGGATGTGT TTGAGACAGG ACCAGCAATG 
    GCAAGCCGGC AAGTGGATAT TGCGACCCAA GGCTGGTTCA TAGGTCTAAT GTGTGCTGTT 
    GCTCTCCTCA TCTTAATTTT GCTGATTGTT TGCTTCATCA GAAGAAACAA GGGTGGTAAA 
    TACCCAGTTA AAGAAAAGGA GGATGCTCAT GCAGACCCTG AAATCCAGCC CATGAAGGAA 
    GATGATGGGA CGTTTGGAGA ATACAGGTCT TTTGAAAGTG ATGCAGAAGA TCACAAGCCT 
    TTGAAAAAAG GAAGTCGAAC ACCTTCAGAC AGGACTGTGA AAAAAGAAGA TAGTGATGAT 
    AGCCTGGTTG ACTATGGAGA GGGGGTCAAC GGCCAATTCA ATGAGGATGG CTCCTTTATT 
    GGCCAATACA GTGGTAAGAA AGAGAAAGAG CCAGCGGAGG GAAATGAAAG CTCAGAGGCC 
    CCTTCTCCTG TCAACGCAAT GAACTCCTTT GTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_029484546.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029340406.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OMv68194
    Clone ID Related Accession (Same CDS sequence) XM_029484546.1
    Accession Version XM_029484546.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3927bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GCTGGTATTC CTCCACCTGA TGTAGGTGCA 
    GGCAAAGTCC GTGCAGTAAA TCCCAGGATC AGCAATGTCA CTGCCGCAGC TGCTGAGACG 
    TATGCCAATA TCAGTTGGGA GTATGAGGGA CCAGAACATG TGAAGTTTTA TGTTGAATAT 
    GGTGTAGCAG GCAGCAAAGA AGAATGGAGG AAAGAAATTG TAAATGGTTC TCGAAGCTTC 
    TTTGGGTTAA AGGGTCTAAT GCCAGGAACA GCATACAAAG TTCGAGTTGG TGCTGAGGGG 
    GACTCTGGTT TTGTGAGTTC AGAGGATGTG TTTGAGACAG GACCAGCAAT GGCAAGCCGG 
    CAAGTGGATA TTGCGACCCA AGGCTGGTTC ATAGGTCTAA TGTGTGCTGT TGCTCTCCTC 
    ATCTTAATTT TGCTGATTGT TTGCTTCATC AGAAGAAACA AGGGTGGTAA ATACCCAGTT 
    AAAGAAAAGG AGGATGCTCA TGCAGACCCT GAAATCCAGC CCATGAAGGA AGATGATGGG 
    ACGTTTGGAG AATACAGGTC TTTTGAAAGT GATGCAGAAG ATCACAAGCC TTTGAAAAAA 
    GGAAGTCGAA CACCTTCAGA CAGGACTGTG AAAAAAGAAG ATAGTGATGA TAGCCTGGTT 
    GACTATGGAG AGGGGGTCAA CGGCCAATTC AATGAGGATG GCTCCTTTAT TGGCCAATAC 
    AGTGGTAAGA AAGAGAAAGA GCCAGCGGAG GGAAATGAAA GCTCAGAGGC CCCTTCTCCT 
    GTCAACGCAA TGAACTCCTT TGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029340406.1
    CDS500..4426
    Translation

    Target ORF information:

    RefSeq Version XM_029484546.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029484546.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GCTGGTATTC CTCCACCTGA TGTAGGTGCA 
    GGCAAAGTCC GTGCAGTAAA TCCCAGGATC AGCAATGTCA CTGCCGCAGC TGCTGAGACG 
    TATGCCAATA TCAGTTGGGA GTATGAGGGA CCAGAACATG TGAAGTTTTA TGTTGAATAT 
    GGTGTAGCAG GCAGCAAAGA AGAATGGAGG AAAGAAATTG TAAATGGTTC TCGAAGCTTC 
    TTTGGGTTAA AGGGTCTAAT GCCAGGAACA GCATACAAAG TTCGAGTTGG TGCTGAGGGG 
    GACTCTGGTT TTGTGAGTTC AGAGGATGTG TTTGAGACAG GACCAGCAAT GGCAAGCCGG 
    CAAGTGGATA TTGCGACCCA AGGCTGGTTC ATAGGTCTAA TGTGTGCTGT TGCTCTCCTC 
    ATCTTAATTT TGCTGATTGT TTGCTTCATC AGAAGAAACA AGGGTGGTAA ATACCCAGTT 
    AAAGAAAAGG AGGATGCTCA TGCAGACCCT GAAATCCAGC CCATGAAGGA AGATGATGGG 
    ACGTTTGGAG AATACAGGTC TTTTGAAAGT GATGCAGAAG ATCACAAGCC TTTGAAAAAA 
    GGAAGTCGAA CACCTTCAGA CAGGACTGTG AAAAAAGAAG ATAGTGATGA TAGCCTGGTT 
    GACTATGGAG AGGGGGTCAA CGGCCAATTC AATGAGGATG GCTCCTTTAT TGGCCAATAC 
    AGTGGTAAGA AAGAGAAAGA GCCAGCGGAG GGAAATGAAA GCTCAGAGGC CCCTTCTCCT 
    GTCAACGCAA TGAACTCCTT TGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_029484548.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029340408.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OMv68195
    Clone ID Related Accession (Same CDS sequence) XM_029484548.1
    Accession Version XM_029484548.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3924bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GGTAAGAAGG CTGGTATTCC TCCACCTGAT 
    GTAGGTGCAG GCAAAGTCCG TGCAGTAAAT CCCAGGATCA GCAATGTCAC TGCCGCAGCT 
    GCTGAGACGT ATGCCAATAT CAGTTGGGAG TATGAGGGAC CAGAACATGT GAAGTTTTAT 
    GTTGAATATG GTGTAGCAGG CAGCAAAGAA GAATGGAGGA AAGAAATTGT AAATGGTTCT 
    CGAAGCTTCT TTGGGTTAAA GGGTCTAATG CCAGGAACAG CATACAAAGT TCGAGTTGGT 
    GCTGAGGGGG ACTCTGGTTT TGTGAGTTCA GAGGATGTGT TTGAGACAGG ACCAGCAATG 
    GCAAGCCGGC AAGTGGATAT TGCGACCCAA GGCTGGTTCA TAGGTCTAAT GTGTGCTGTT 
    GCTCTCCTCA TCTTAATTTT GCTGATTGTT TGCTTCATCA GAAGAAACAA GGGTGGTAAA 
    TACCCAGTTA AAGAAAAGGA GGATGCTCAT GCAGACCCTG AAATCCAGCC CATGAAGGAA 
    GATGATGGGA CGTTTGGAGA ATACAGTGAT GCAGAAGATC ACAAGCCTTT GAAAAAAGGA 
    AGTCGAACAC CTTCAGACAG GACTGTGAAA AAAGAAGATA GTGATGATAG CCTGGTTGAC 
    TATGGAGAGG GGGTCAACGG CCAATTCAAT GAGGATGGCT CCTTTATTGG CCAATACAGT 
    GGTAAGAAAG AGAAAGAGCC AGCGGAGGGA AATGAAAGCT CAGAGGCCCC TTCTCCTGTC 
    AACGCAATGA ACTCCTTTGT TTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029340408.1
    CDS500..4423
    Translation

    Target ORF information:

    RefSeq Version XM_029484548.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029484548.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GGTAAGAAGG CTGGTATTCC TCCACCTGAT 
    GTAGGTGCAG GCAAAGTCCG TGCAGTAAAT CCCAGGATCA GCAATGTCAC TGCCGCAGCT 
    GCTGAGACGT ATGCCAATAT CAGTTGGGAG TATGAGGGAC CAGAACATGT GAAGTTTTAT 
    GTTGAATATG GTGTAGCAGG CAGCAAAGAA GAATGGAGGA AAGAAATTGT AAATGGTTCT 
    CGAAGCTTCT TTGGGTTAAA GGGTCTAATG CCAGGAACAG CATACAAAGT TCGAGTTGGT 
    GCTGAGGGGG ACTCTGGTTT TGTGAGTTCA GAGGATGTGT TTGAGACAGG ACCAGCAATG 
    GCAAGCCGGC AAGTGGATAT TGCGACCCAA GGCTGGTTCA TAGGTCTAAT GTGTGCTGTT 
    GCTCTCCTCA TCTTAATTTT GCTGATTGTT TGCTTCATCA GAAGAAACAA GGGTGGTAAA 
    TACCCAGTTA AAGAAAAGGA GGATGCTCAT GCAGACCCTG AAATCCAGCC CATGAAGGAA 
    GATGATGGGA CGTTTGGAGA ATACAGTGAT GCAGAAGATC ACAAGCCTTT GAAAAAAGGA 
    AGTCGAACAC CTTCAGACAG GACTGTGAAA AAAGAAGATA GTGATGATAG CCTGGTTGAC 
    TATGGAGAGG GGGTCAACGG CCAATTCAAT GAGGATGGCT CCTTTATTGG CCAATACAGT 
    GGTAAGAAAG AGAAAGAGCC AGCGGAGGGA AATGAAAGCT CAGAGGCCCC TTCTCCTGTC 
    AACGCAATGA ACTCCTTTGT TTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_029484549.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029340409.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OMv68196
    Clone ID Related Accession (Same CDS sequence) XM_029484549.1
    Accession Version XM_029484549.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3918bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCTGGT ACAACCTCCA 
    ACCATCACTC AACAGTCACC AAAAGACTAC ATCATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAGG CCAAAGGGAA ACCTCCCCCA AGCTTTTCCT GGACTCGTAA TGGAACTCAT 
    TTTGACATAG ACAAGGACCC TCTGGTCACC ATGAAGCCTG GCTCAGGAAC CCTTGTCATC 
    AACATCATGA GTGAGGGGAA AGCAGAGACC TATGAAGGAG TCTACCAGTG CACTGCAAGG 
    AACGAGCGTG GAGCTGCCGT CTCCAATAAC ATTGTTGTCC GCCCATCTAG GTCACCCTTG 
    TGGACCAAGG AAAGACTTGA ACCCATAATA CTCCGGAATG GGCAGTCATT AGTACTTCCA 
    TGTAGGCCTC CGATTGGATT ACCTCCGGCC ATAATATTTT GGATGGATAA TTCCTTTCAG 
    AGACTTCCAC AGAGTGAGCG GGTTTCCCAA GGCCTAAATG GAGACCTTTA CTTCTCCAAT 
    GTCCTCCCAG AGGACACCCG TGAGGACTAT ATCTGCTATG CTAGATTTAA TCACACTCAA 
    ACCATCCAAC AGAAGCAGCC TATTTCTTTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCTAG TAAAGAGAGG 
    CCCCCAACGT TTCTAACTCC AGAGGGCAAT GAAAGCCACA AAGAGGAATT AAGAGGAAAC 
    GTGCTTTCGC TGGAGTGCAT TGCGGAAGGC CTCCCTACTC CAATTATTTA CTGGATCAAA 
    GAAGACGGAA CGCTTCCTGC CAACCGGACA TTTTATCGGA ACTTTAAGAA AACCTTGCAG 
    ATCACTCATG TTTCCGAAGC CGACTCTGGA AATTATCAGT GCATAGCAAA AAACGCATTA 
    GGGGCCGTCC ATCACACCAT TTCTGTCACT GTTAAAGCGG CTCCCTACTG GATCGTGGCA 
    CCTCAAAACC TCGTGCTTTC CCCGGGAGAG AATGGGACCC TCATCTGCAG AGCTAATGGC 
    AACCCGAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCTCTTGAT 
    GACCCCAGCA GAAAAATAGA TGGTGATACC ATTATATTTT CTAATGTTCA AGAAAGCTCA 
    AGTGCGGTTT ATCAGTGCAA CGCCTCTAAC AAATATGGAT ATTTACTAGC AAATGCATTT 
    GTAAATGTTC TCGCTGAACC ACCTCGGATT CTCACATCAG CAAACACTCT GTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT GCTAGATTGT GCCTTCTTTG GATCTCCTAT GCCTACCATT 
    GAATGGTTTA AAGGGACTAA AGGAAGCGCT CTTCATGAAG ACACTTATGT TTTGCATGAT 
    AATGGAACAT TAGAAATTCC CGTGGCCCAA AAGGATAGTA CAGGGACGTA TACTTGTGTC 
    GCACGGAATA AACTAGGGAT GGCAAAGAAT GAAGTTCACT TGGAAATCAA AGATCCAACC 
    AGGATCATTA AACAACCTGA ATATGCAGTC GTCCAGAGGG GGAGCAAGGT GTCGTTTGAA 
    TGCAGAGTGA AACATGACCA CACCTTAATT CCCACCATTC TGTGGCTGAA GGACAATGGA 
    GAGCTGCCCA ATGATGAAAG GTTCTCCACT GACAAGGATC ATCTGGTGGT ATCTGATGTA 
    AAGGATGACG ATGGTGGCAC CTACACATGT ACGGCCAACA CAACGCTGGA CAGTGCTTCG 
    GCCAGCGCTG TGCTCAGGGT TGTCGCTCCT ACTCCAACTC CAGCCCCCAT TTACGATGTC 
    CCGAATCCTC CCTTTGATTT AGAATTGACC AATCAACTTG ACAAAAGTGT TCAGCTGACA 
    TGGACCCCAG GCGATGACAA CAATAGCCCC ATTACAAAAT TCATCATTGA GTATGAAGAT 
    GCAATGCATG ACGCAGGGCT GTGGCGCCAC CAGGCTGAAG TTTCTGGAAC ACAGACCACA 
    GCCCAACTGA AGCTGTCTCC CTATGTGAAC TACTCCTTCC GTGTCATGGC AGAGAACGGC 
    ATTGGAAGAA GCATGCCGAG CGAGGCATCT GAGCAGTACC TCACAAAAGC CGCAGAACCA 
    GATCAGAATC CCATGGCTGT GGAAGGACTA GGGACAGAGC CGGACAACTT GGTGATTACA 
    TGGAAGCCCC TGAATGGTTT TCAATCGAAT GGGCCTGGCC TCCAGTACAA AGTGAGCTGG 
    CGCCAGAAAG ATGGTGACGA TGAGTGGACG TCTGTAGTTG TGGCCAATGT ATCCAAATAC 
    ATTGTTTCTG GCACACCAAC CTTTGTCCCA TACCTGATAA AAGTTCAAGC TCTGAATGAT 
    GTGGGGTTTG CACCAGAGCC AGCTGCAGTC ATGGGGCATT CTGGAGAAGA CCTTCCAATG 
    GTGGCTCCTG GAAATGTTCG TGTCAGCGTG GTGAACAGTA CGCTGGCAGA GGTGCACTGG 
    GACCCAGTTC CTCCCAAGAG TGTCCGAGGA CACTTACAAG GCTACCGGAT TTACTACTGG 
    AAGACCCAGA GCTCCTCTAA AAGAAACAGG CGCCACATTG AGAAGAAGAT CCTCACCTTC 
    CAGGGCACCA AGACTCACGG CATGCTGCCA GGGCTGCAGC CATACAGTCA CTATGCTCTC 
    AACGTCCGAG TGGTCAACGG GAAAGGGGAG GGCCCAGCCA GCACCGACAG AGGCTTCCAT 
    ACACCGGAGG GAGTCCCTAG TGCTCCCTCA TCTTTGAAAA TTGTTAATCC TACACTGGAC 
    TCTCTCACTT TGGAGTGGGA CCCACCAAGC CACCCAAATG GCATCCTGAC AGAGTACATC 
    TTAAAATATC AGCCAATTAA CAGCACACAT GAGCTAGGCC CTCTGGTAGA TTTAAAAATT 
    CCTGCCAACA AGACCCGCTG GACTTTGAAA AATTTAAATT TCAGCACTCG GTACAAGTTC 
    TATTTCTATG CACAGACATC AGTGGGGTCA GGGAGTCAGA TCACAGAGGA AGCAATAACG 
    ACTGTGGACG AAGGTAAGAA GGCTGGTATT CCTCCACCTG ATGTAGGTGC AGGCAAAGTC 
    CGTGCAGTAA ATCCCAGGAT CAGCAATGTC ACTGCCGCAG CTGCTGAGAC GTATGCCAAT 
    ATCAGTTGGG AGTATGAGGG ACCAGAACAT GTGAAGTTTT ATGTTGAATA TGGTGTAGCA 
    GGCAGCAAAG AAGAATGGAG GAAAGAAATT GTAAATGGTT CTCGAAGCTT CTTTGGGTTA 
    AAGGGTCTAA TGCCAGGAAC AGCATACAAA GTTCGAGTTG GTGCTGAGGG GGACTCTGGT 
    TTTGTGAGTT CAGAGGATGT GTTTGAGACA GGACCAGCAA TGGCAAGCCG GCAAGTGGAT 
    ATTGCGACCC AAGGCTGGTT CATAGGTCTA ATGTGTGCTG TTGCTCTCCT CATCTTAATT 
    TTGCTGATTG TTTGCTTCAT CAGAAGAAAC AAGGGTGGTA AATACCCAGT TAAAGAAAAG 
    GAGGATGCTC ATGCAGACCC TGAAATCCAG CCCATGAAGG AAGATGATGG GACGTTTGGA 
    GAATACAGGT CTTTTGAAAG TGATGCAGAA GATCACAAGC CTTTGAAAAA AGGAAGTCGA 
    ACACCTTCAG ACAGGACTGT GAAAAAAGAA GATAGTGATG ATAGCCTGGT TGACTATGGA 
    GAGGGGGTCA ACGGCCAATT CAATGAGGAT GGCTCCTTTA TTGGCCAATA CAGTGGTAAG 
    AAAGAGAAAG AGCCAGCGGA GGGAAATGAA AGCTCAGAGG CCCCTTCTCC TGTCAACGCA 
    ATGAACTCCT TTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029340409.1
    CDS500..4417
    Translation

    Target ORF information:

    RefSeq Version XM_029484549.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029484549.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCTGGT ACAACCTCCA 
    ACCATCACTC AACAGTCACC AAAAGACTAC ATCATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAGG CCAAAGGGAA ACCTCCCCCA AGCTTTTCCT GGACTCGTAA TGGAACTCAT 
    TTTGACATAG ACAAGGACCC TCTGGTCACC ATGAAGCCTG GCTCAGGAAC CCTTGTCATC 
    AACATCATGA GTGAGGGGAA AGCAGAGACC TATGAAGGAG TCTACCAGTG CACTGCAAGG 
    AACGAGCGTG GAGCTGCCGT CTCCAATAAC ATTGTTGTCC GCCCATCTAG GTCACCCTTG 
    TGGACCAAGG AAAGACTTGA ACCCATAATA CTCCGGAATG GGCAGTCATT AGTACTTCCA 
    TGTAGGCCTC CGATTGGATT ACCTCCGGCC ATAATATTTT GGATGGATAA TTCCTTTCAG 
    AGACTTCCAC AGAGTGAGCG GGTTTCCCAA GGCCTAAATG GAGACCTTTA CTTCTCCAAT 
    GTCCTCCCAG AGGACACCCG TGAGGACTAT ATCTGCTATG CTAGATTTAA TCACACTCAA 
    ACCATCCAAC AGAAGCAGCC TATTTCTTTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCTAG TAAAGAGAGG 
    CCCCCAACGT TTCTAACTCC AGAGGGCAAT GAAAGCCACA AAGAGGAATT AAGAGGAAAC 
    GTGCTTTCGC TGGAGTGCAT TGCGGAAGGC CTCCCTACTC CAATTATTTA CTGGATCAAA 
    GAAGACGGAA CGCTTCCTGC CAACCGGACA TTTTATCGGA ACTTTAAGAA AACCTTGCAG 
    ATCACTCATG TTTCCGAAGC CGACTCTGGA AATTATCAGT GCATAGCAAA AAACGCATTA 
    GGGGCCGTCC ATCACACCAT TTCTGTCACT GTTAAAGCGG CTCCCTACTG GATCGTGGCA 
    CCTCAAAACC TCGTGCTTTC CCCGGGAGAG AATGGGACCC TCATCTGCAG AGCTAATGGC 
    AACCCGAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCTCTTGAT 
    GACCCCAGCA GAAAAATAGA TGGTGATACC ATTATATTTT CTAATGTTCA AGAAAGCTCA 
    AGTGCGGTTT ATCAGTGCAA CGCCTCTAAC AAATATGGAT ATTTACTAGC AAATGCATTT 
    GTAAATGTTC TCGCTGAACC ACCTCGGATT CTCACATCAG CAAACACTCT GTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT GCTAGATTGT GCCTTCTTTG GATCTCCTAT GCCTACCATT 
    GAATGGTTTA AAGGGACTAA AGGAAGCGCT CTTCATGAAG ACACTTATGT TTTGCATGAT 
    AATGGAACAT TAGAAATTCC CGTGGCCCAA AAGGATAGTA CAGGGACGTA TACTTGTGTC 
    GCACGGAATA AACTAGGGAT GGCAAAGAAT GAAGTTCACT TGGAAATCAA AGATCCAACC 
    AGGATCATTA AACAACCTGA ATATGCAGTC GTCCAGAGGG GGAGCAAGGT GTCGTTTGAA 
    TGCAGAGTGA AACATGACCA CACCTTAATT CCCACCATTC TGTGGCTGAA GGACAATGGA 
    GAGCTGCCCA ATGATGAAAG GTTCTCCACT GACAAGGATC ATCTGGTGGT ATCTGATGTA 
    AAGGATGACG ATGGTGGCAC CTACACATGT ACGGCCAACA CAACGCTGGA CAGTGCTTCG 
    GCCAGCGCTG TGCTCAGGGT TGTCGCTCCT ACTCCAACTC CAGCCCCCAT TTACGATGTC 
    CCGAATCCTC CCTTTGATTT AGAATTGACC AATCAACTTG ACAAAAGTGT TCAGCTGACA 
    TGGACCCCAG GCGATGACAA CAATAGCCCC ATTACAAAAT TCATCATTGA GTATGAAGAT 
    GCAATGCATG ACGCAGGGCT GTGGCGCCAC CAGGCTGAAG TTTCTGGAAC ACAGACCACA 
    GCCCAACTGA AGCTGTCTCC CTATGTGAAC TACTCCTTCC GTGTCATGGC AGAGAACGGC 
    ATTGGAAGAA GCATGCCGAG CGAGGCATCT GAGCAGTACC TCACAAAAGC CGCAGAACCA 
    GATCAGAATC CCATGGCTGT GGAAGGACTA GGGACAGAGC CGGACAACTT GGTGATTACA 
    TGGAAGCCCC TGAATGGTTT TCAATCGAAT GGGCCTGGCC TCCAGTACAA AGTGAGCTGG 
    CGCCAGAAAG ATGGTGACGA TGAGTGGACG TCTGTAGTTG TGGCCAATGT ATCCAAATAC 
    ATTGTTTCTG GCACACCAAC CTTTGTCCCA TACCTGATAA AAGTTCAAGC TCTGAATGAT 
    GTGGGGTTTG CACCAGAGCC AGCTGCAGTC ATGGGGCATT CTGGAGAAGA CCTTCCAATG 
    GTGGCTCCTG GAAATGTTCG TGTCAGCGTG GTGAACAGTA CGCTGGCAGA GGTGCACTGG 
    GACCCAGTTC CTCCCAAGAG TGTCCGAGGA CACTTACAAG GCTACCGGAT TTACTACTGG 
    AAGACCCAGA GCTCCTCTAA AAGAAACAGG CGCCACATTG AGAAGAAGAT CCTCACCTTC 
    CAGGGCACCA AGACTCACGG CATGCTGCCA GGGCTGCAGC CATACAGTCA CTATGCTCTC 
    AACGTCCGAG TGGTCAACGG GAAAGGGGAG GGCCCAGCCA GCACCGACAG AGGCTTCCAT 
    ACACCGGAGG GAGTCCCTAG TGCTCCCTCA TCTTTGAAAA TTGTTAATCC TACACTGGAC 
    TCTCTCACTT TGGAGTGGGA CCCACCAAGC CACCCAAATG GCATCCTGAC AGAGTACATC 
    TTAAAATATC AGCCAATTAA CAGCACACAT GAGCTAGGCC CTCTGGTAGA TTTAAAAATT 
    CCTGCCAACA AGACCCGCTG GACTTTGAAA AATTTAAATT TCAGCACTCG GTACAAGTTC 
    TATTTCTATG CACAGACATC AGTGGGGTCA GGGAGTCAGA TCACAGAGGA AGCAATAACG 
    ACTGTGGACG AAGGTAAGAA GGCTGGTATT CCTCCACCTG ATGTAGGTGC AGGCAAAGTC 
    CGTGCAGTAA ATCCCAGGAT CAGCAATGTC ACTGCCGCAG CTGCTGAGAC GTATGCCAAT 
    ATCAGTTGGG AGTATGAGGG ACCAGAACAT GTGAAGTTTT ATGTTGAATA TGGTGTAGCA 
    GGCAGCAAAG AAGAATGGAG GAAAGAAATT GTAAATGGTT CTCGAAGCTT CTTTGGGTTA 
    AAGGGTCTAA TGCCAGGAAC AGCATACAAA GTTCGAGTTG GTGCTGAGGG GGACTCTGGT 
    TTTGTGAGTT CAGAGGATGT GTTTGAGACA GGACCAGCAA TGGCAAGCCG GCAAGTGGAT 
    ATTGCGACCC AAGGCTGGTT CATAGGTCTA ATGTGTGCTG TTGCTCTCCT CATCTTAATT 
    TTGCTGATTG TTTGCTTCAT CAGAAGAAAC AAGGGTGGTA AATACCCAGT TAAAGAAAAG 
    GAGGATGCTC ATGCAGACCC TGAAATCCAG CCCATGAAGG AAGATGATGG GACGTTTGGA 
    GAATACAGGT CTTTTGAAAG TGATGCAGAA GATCACAAGC CTTTGAAAAA AGGAAGTCGA 
    ACACCTTCAG ACAGGACTGT GAAAAAAGAA GATAGTGATG ATAGCCTGGT TGACTATGGA 
    GAGGGGGTCA ACGGCCAATT CAATGAGGAT GGCTCCTTTA TTGGCCAATA CAGTGGTAAG 
    AAAGAGAAAG AGCCAGCGGA GGGAAATGAA AGCTCAGAGG CCCCTTCTCC TGTCAACGCA 
    ATGAACTCCT TTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_029484550.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029340410.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X10, mRNA.
    Price & Availability↑
    CloneID OMv68197
    Clone ID Related Accession (Same CDS sequence) XM_029484550.1
    Accession Version XM_029484550.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3909bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCTGGT ACAACCTCCA 
    ACCATCACTC AACAGTCACC AAAAGACTAC ATCATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAGG CCAAAGGGAA ACCTCCCCCA AGCTTTTCCT GGACTCGTAA TGGAACTCAT 
    TTTGACATAG ACAAGGACCC TCTGGTCACC ATGAAGCCTG GCTCAGGAAC CCTTGTCATC 
    AACATCATGA GTGAGGGGAA AGCAGAGACC TATGAAGGAG TCTACCAGTG CACTGCAAGG 
    AACGAGCGTG GAGCTGCCGT CTCCAATAAC ATTGTTGTCC GCCCATCTAG GTCACCCTTG 
    TGGACCAAGG AAAGACTTGA ACCCATAATA CTCCGGAATG GGCAGTCATT AGTACTTCCA 
    TGTAGGCCTC CGATTGGATT ACCTCCGGCC ATAATATTTT GGATGGATAA TTCCTTTCAG 
    AGACTTCCAC AGAGTGAGCG GGTTTCCCAA GGCCTAAATG GAGACCTTTA CTTCTCCAAT 
    GTCCTCCCAG AGGACACCCG TGAGGACTAT ATCTGCTATG CTAGATTTAA TCACACTCAA 
    ACCATCCAAC AGAAGCAGCC TATTTCTTTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCTAG TAAAGAGAGG 
    CCCCCAACGT TTCTAACTCC AGAGGGCAAT GAAAGCCACA AAGAGGAATT AAGAGGAAAC 
    GTGCTTTCGC TGGAGTGCAT TGCGGAAGGC CTCCCTACTC CAATTATTTA CTGGATCAAA 
    GAAGACGGAA CGCTTCCTGC CAACCGGACA TTTTATCGGA ACTTTAAGAA AACCTTGCAG 
    ATCACTCATG TTTCCGAAGC CGACTCTGGA AATTATCAGT GCATAGCAAA AAACGCATTA 
    GGGGCCGTCC ATCACACCAT TTCTGTCACT GTTAAAGCGG CTCCCTACTG GATCGTGGCA 
    CCTCAAAACC TCGTGCTTTC CCCGGGAGAG AATGGGACCC TCATCTGCAG AGCTAATGGC 
    AACCCGAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCTCTTGAT 
    GACCCCAGCA GAAAAATAGA TGGTGATACC ATTATATTTT CTAATGTTCA AGAAAGCTCA 
    AGTGCGGTTT ATCAGTGCAA CGCCTCTAAC AAATATGGAT ATTTACTAGC AAATGCATTT 
    GTAAATGTTC TCGCTGAACC ACCTCGGATT CTCACATCAG CAAACACTCT GTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT GCTAGATTGT GCCTTCTTTG GATCTCCTAT GCCTACCATT 
    GAATGGTTTA AAGGGACTAA AGGAAGCGCT CTTCATGAAG ACACTTATGT TTTGCATGAT 
    AATGGAACAT TAGAAATTCC CGTGGCCCAA AAGGATAGTA CAGGGACGTA TACTTGTGTC 
    GCACGGAATA AACTAGGGAT GGCAAAGAAT GAAGTTCACT TGGAAATCAA AGATCCAACC 
    AGGATCATTA AACAACCTGA ATATGCAGTC GTCCAGAGGG GGAGCAAGGT GTCGTTTGAA 
    TGCAGAGTGA AACATGACCA CACCTTAATT CCCACCATTC TGTGGCTGAA GGACAATGGA 
    GAGCTGCCCA ATGATGAAAG GTTCTCCACT GACAAGGATC ATCTGGTGGT ATCTGATGTA 
    AAGGATGACG ATGGTGGCAC CTACACATGT ACGGCCAACA CAACGCTGGA CAGTGCTTCG 
    GCCAGCGCTG TGCTCAGGGT TGTCGCTCCT ACTCCAACTC CAGCCCCCAT TTACGATGTC 
    CCGAATCCTC CCTTTGATTT AGAATTGACC AATCAACTTG ACAAAAGTGT TCAGCTGACA 
    TGGACCCCAG GCGATGACAA CAATAGCCCC ATTACAAAAT TCATCATTGA GTATGAAGAT 
    GCAATGCATG ACGCAGGGCT GTGGCGCCAC CAGGCTGAAG TTTCTGGAAC ACAGACCACA 
    GCCCAACTGA AGCTGTCTCC CTATGTGAAC TACTCCTTCC GTGTCATGGC AGAGAACGGC 
    ATTGGAAGAA GCATGCCGAG CGAGGCATCT GAGCAGTACC TCACAAAAGC CGCAGAACCA 
    GATCAGAATC CCATGGCTGT GGAAGGACTA GGGACAGAGC CGGACAACTT GGTGATTACA 
    TGGAAGCCCC TGAATGGTTT TCAATCGAAT GGGCCTGGCC TCCAGTACAA AGTGAGCTGG 
    CGCCAGAAAG ATGGTGACGA TGAGTGGACG TCTGTAGTTG TGGCCAATGT ATCCAAATAC 
    ATTGTTTCTG GCACACCAAC CTTTGTCCCA TACCTGATAA AAGTTCAAGC TCTGAATGAT 
    GTGGGGTTTG CACCAGAGCC AGCTGCAGTC ATGGGGCATT CTGGAGAAGA CCTTCCAATG 
    GTGGCTCCTG GAAATGTTCG TGTCAGCGTG GTGAACAGTA CGCTGGCAGA GGTGCACTGG 
    GACCCAGTTC CTCCCAAGAG TGTCCGAGGA CACTTACAAG GCTACCGGAT TTACTACTGG 
    AAGACCCAGA GCTCCTCTAA AAGAAACAGG CGCCACATTG AGAAGAAGAT CCTCACCTTC 
    CAGGGCACCA AGACTCACGG CATGCTGCCA GGGCTGCAGC CATACAGTCA CTATGCTCTC 
    AACGTCCGAG TGGTCAACGG GAAAGGGGAG GGCCCAGCCA GCACCGACAG AGGCTTCCAT 
    ACACCGGAGG GAGTCCCTAG TGCTCCCTCA TCTTTGAAAA TTGTTAATCC TACACTGGAC 
    TCTCTCACTT TGGAGTGGGA CCCACCAAGC CACCCAAATG GCATCCTGAC AGAGTACATC 
    TTAAAATATC AGCCAATTAA CAGCACACAT GAGCTAGGCC CTCTGGTAGA TTTAAAAATT 
    CCTGCCAACA AGACCCGCTG GACTTTGAAA AATTTAAATT TCAGCACTCG GTACAAGTTC 
    TATTTCTATG CACAGACATC AGTGGGGTCA GGGAGTCAGA TCACAGAGGA AGCAATAACG 
    ACTGTGGACG AAGCTGGTAT TCCTCCACCT GATGTAGGTG CAGGCAAAGT CCGTGCAGTA 
    AATCCCAGGA TCAGCAATGT CACTGCCGCA GCTGCTGAGA CGTATGCCAA TATCAGTTGG 
    GAGTATGAGG GACCAGAACA TGTGAAGTTT TATGTTGAAT ATGGTGTAGC AGGCAGCAAA 
    GAAGAATGGA GGAAAGAAAT TGTAAATGGT TCTCGAAGCT TCTTTGGGTT AAAGGGTCTA 
    ATGCCAGGAA CAGCATACAA AGTTCGAGTT GGTGCTGAGG GGGACTCTGG TTTTGTGAGT 
    TCAGAGGATG TGTTTGAGAC AGGACCAGCA ATGGCAAGCC GGCAAGTGGA TATTGCGACC 
    CAAGGCTGGT TCATAGGTCT AATGTGTGCT GTTGCTCTCC TCATCTTAAT TTTGCTGATT 
    GTTTGCTTCA TCAGAAGAAA CAAGGGTGGT AAATACCCAG TTAAAGAAAA GGAGGATGCT 
    CATGCAGACC CTGAAATCCA GCCCATGAAG GAAGATGATG GGACGTTTGG AGAATACAGG 
    TCTTTTGAAA GTGATGCAGA AGATCACAAG CCTTTGAAAA AAGGAAGTCG AACACCTTCA 
    GACAGGACTG TGAAAAAAGA AGATAGTGAT GATAGCCTGG TTGACTATGG AGAGGGGGTC 
    AACGGCCAAT TCAATGAGGA TGGCTCCTTT ATTGGCCAAT ACAGTGGTAA GAAAGAGAAA 
    GAGCCAGCGG AGGGAAATGA AAGCTCAGAG GCCCCTTCTC CTGTCAACGC AATGAACTCC 
    TTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029340410.1
    CDS500..4408
    Translation

    Target ORF information:

    RefSeq Version XM_029484550.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029484550.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCTGGT ACAACCTCCA 
    ACCATCACTC AACAGTCACC AAAAGACTAC ATCATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAGG CCAAAGGGAA ACCTCCCCCA AGCTTTTCCT GGACTCGTAA TGGAACTCAT 
    TTTGACATAG ACAAGGACCC TCTGGTCACC ATGAAGCCTG GCTCAGGAAC CCTTGTCATC 
    AACATCATGA GTGAGGGGAA AGCAGAGACC TATGAAGGAG TCTACCAGTG CACTGCAAGG 
    AACGAGCGTG GAGCTGCCGT CTCCAATAAC ATTGTTGTCC GCCCATCTAG GTCACCCTTG 
    TGGACCAAGG AAAGACTTGA ACCCATAATA CTCCGGAATG GGCAGTCATT AGTACTTCCA 
    TGTAGGCCTC CGATTGGATT ACCTCCGGCC ATAATATTTT GGATGGATAA TTCCTTTCAG 
    AGACTTCCAC AGAGTGAGCG GGTTTCCCAA GGCCTAAATG GAGACCTTTA CTTCTCCAAT 
    GTCCTCCCAG AGGACACCCG TGAGGACTAT ATCTGCTATG CTAGATTTAA TCACACTCAA 
    ACCATCCAAC AGAAGCAGCC TATTTCTTTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCTAG TAAAGAGAGG 
    CCCCCAACGT TTCTAACTCC AGAGGGCAAT GAAAGCCACA AAGAGGAATT AAGAGGAAAC 
    GTGCTTTCGC TGGAGTGCAT TGCGGAAGGC CTCCCTACTC CAATTATTTA CTGGATCAAA 
    GAAGACGGAA CGCTTCCTGC CAACCGGACA TTTTATCGGA ACTTTAAGAA AACCTTGCAG 
    ATCACTCATG TTTCCGAAGC CGACTCTGGA AATTATCAGT GCATAGCAAA AAACGCATTA 
    GGGGCCGTCC ATCACACCAT TTCTGTCACT GTTAAAGCGG CTCCCTACTG GATCGTGGCA 
    CCTCAAAACC TCGTGCTTTC CCCGGGAGAG AATGGGACCC TCATCTGCAG AGCTAATGGC 
    AACCCGAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCTCTTGAT 
    GACCCCAGCA GAAAAATAGA TGGTGATACC ATTATATTTT CTAATGTTCA AGAAAGCTCA 
    AGTGCGGTTT ATCAGTGCAA CGCCTCTAAC AAATATGGAT ATTTACTAGC AAATGCATTT 
    GTAAATGTTC TCGCTGAACC ACCTCGGATT CTCACATCAG CAAACACTCT GTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT GCTAGATTGT GCCTTCTTTG GATCTCCTAT GCCTACCATT 
    GAATGGTTTA AAGGGACTAA AGGAAGCGCT CTTCATGAAG ACACTTATGT TTTGCATGAT 
    AATGGAACAT TAGAAATTCC CGTGGCCCAA AAGGATAGTA CAGGGACGTA TACTTGTGTC 
    GCACGGAATA AACTAGGGAT GGCAAAGAAT GAAGTTCACT TGGAAATCAA AGATCCAACC 
    AGGATCATTA AACAACCTGA ATATGCAGTC GTCCAGAGGG GGAGCAAGGT GTCGTTTGAA 
    TGCAGAGTGA AACATGACCA CACCTTAATT CCCACCATTC TGTGGCTGAA GGACAATGGA 
    GAGCTGCCCA ATGATGAAAG GTTCTCCACT GACAAGGATC ATCTGGTGGT ATCTGATGTA 
    AAGGATGACG ATGGTGGCAC CTACACATGT ACGGCCAACA CAACGCTGGA CAGTGCTTCG 
    GCCAGCGCTG TGCTCAGGGT TGTCGCTCCT ACTCCAACTC CAGCCCCCAT TTACGATGTC 
    CCGAATCCTC CCTTTGATTT AGAATTGACC AATCAACTTG ACAAAAGTGT TCAGCTGACA 
    TGGACCCCAG GCGATGACAA CAATAGCCCC ATTACAAAAT TCATCATTGA GTATGAAGAT 
    GCAATGCATG ACGCAGGGCT GTGGCGCCAC CAGGCTGAAG TTTCTGGAAC ACAGACCACA 
    GCCCAACTGA AGCTGTCTCC CTATGTGAAC TACTCCTTCC GTGTCATGGC AGAGAACGGC 
    ATTGGAAGAA GCATGCCGAG CGAGGCATCT GAGCAGTACC TCACAAAAGC CGCAGAACCA 
    GATCAGAATC CCATGGCTGT GGAAGGACTA GGGACAGAGC CGGACAACTT GGTGATTACA 
    TGGAAGCCCC TGAATGGTTT TCAATCGAAT GGGCCTGGCC TCCAGTACAA AGTGAGCTGG 
    CGCCAGAAAG ATGGTGACGA TGAGTGGACG TCTGTAGTTG TGGCCAATGT ATCCAAATAC 
    ATTGTTTCTG GCACACCAAC CTTTGTCCCA TACCTGATAA AAGTTCAAGC TCTGAATGAT 
    GTGGGGTTTG CACCAGAGCC AGCTGCAGTC ATGGGGCATT CTGGAGAAGA CCTTCCAATG 
    GTGGCTCCTG GAAATGTTCG TGTCAGCGTG GTGAACAGTA CGCTGGCAGA GGTGCACTGG 
    GACCCAGTTC CTCCCAAGAG TGTCCGAGGA CACTTACAAG GCTACCGGAT TTACTACTGG 
    AAGACCCAGA GCTCCTCTAA AAGAAACAGG CGCCACATTG AGAAGAAGAT CCTCACCTTC 
    CAGGGCACCA AGACTCACGG CATGCTGCCA GGGCTGCAGC CATACAGTCA CTATGCTCTC 
    AACGTCCGAG TGGTCAACGG GAAAGGGGAG GGCCCAGCCA GCACCGACAG AGGCTTCCAT 
    ACACCGGAGG GAGTCCCTAG TGCTCCCTCA TCTTTGAAAA TTGTTAATCC TACACTGGAC 
    TCTCTCACTT TGGAGTGGGA CCCACCAAGC CACCCAAATG GCATCCTGAC AGAGTACATC 
    TTAAAATATC AGCCAATTAA CAGCACACAT GAGCTAGGCC CTCTGGTAGA TTTAAAAATT 
    CCTGCCAACA AGACCCGCTG GACTTTGAAA AATTTAAATT TCAGCACTCG GTACAAGTTC 
    TATTTCTATG CACAGACATC AGTGGGGTCA GGGAGTCAGA TCACAGAGGA AGCAATAACG 
    ACTGTGGACG AAGCTGGTAT TCCTCCACCT GATGTAGGTG CAGGCAAAGT CCGTGCAGTA 
    AATCCCAGGA TCAGCAATGT CACTGCCGCA GCTGCTGAGA CGTATGCCAA TATCAGTTGG 
    GAGTATGAGG GACCAGAACA TGTGAAGTTT TATGTTGAAT ATGGTGTAGC AGGCAGCAAA 
    GAAGAATGGA GGAAAGAAAT TGTAAATGGT TCTCGAAGCT TCTTTGGGTT AAAGGGTCTA 
    ATGCCAGGAA CAGCATACAA AGTTCGAGTT GGTGCTGAGG GGGACTCTGG TTTTGTGAGT 
    TCAGAGGATG TGTTTGAGAC AGGACCAGCA ATGGCAAGCC GGCAAGTGGA TATTGCGACC 
    CAAGGCTGGT TCATAGGTCT AATGTGTGCT GTTGCTCTCC TCATCTTAAT TTTGCTGATT 
    GTTTGCTTCA TCAGAAGAAA CAAGGGTGGT AAATACCCAG TTAAAGAAAA GGAGGATGCT 
    CATGCAGACC CTGAAATCCA GCCCATGAAG GAAGATGATG GGACGTTTGG AGAATACAGG 
    TCTTTTGAAA GTGATGCAGA AGATCACAAG CCTTTGAAAA AAGGAAGTCG AACACCTTCA 
    GACAGGACTG TGAAAAAAGA AGATAGTGAT GATAGCCTGG TTGACTATGG AGAGGGGGTC 
    AACGGCCAAT TCAATGAGGA TGGCTCCTTT ATTGGCCAAT ACAGTGGTAA GAAAGAGAAA 
    GAGCCAGCGG AGGGAAATGA AAGCTCAGAG GCCCCTTCTC CTGTCAACGC AATGAACTCC 
    TTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_029484551.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029340411.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X11, mRNA.
    Price & Availability↑
    CloneID OMv68198
    Clone ID Related Accession (Same CDS sequence) XM_029484551.1
    Accession Version XM_029484551.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3906bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGATGTCCC GAATCCTCCC 
    TTTGATTTAG AATTGACCAA TCAACTTGAC AAAAGTGTTC AGCTGACATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATTGAGT ATGAAGATGC AATGCATGAC 
    GCAGGGCTGT GGCGCCACCA GGCTGAAGTT TCTGGAACAC AGACCACAGC CCAACTGAAG 
    CTGTCTCCCT ATGTGAACTA CTCCTTCCGT GTCATGGCAG AGAACGGCAT TGGAAGAAGC 
    ATGCCGAGCG AGGCATCTGA GCAGTACCTC ACAAAAGCCG CAGAACCAGA TCAGAATCCC 
    ATGGCTGTGG AAGGACTAGG GACAGAGCCG GACAACTTGG TGATTACATG GAAGCCCCTG 
    AATGGTTTTC AATCGAATGG GCCTGGCCTC CAGTACAAAG TGAGCTGGCG CCAGAAAGAT 
    GGTGACGATG AGTGGACGTC TGTAGTTGTG GCCAATGTAT CCAAATACAT TGTTTCTGGC 
    ACACCAACCT TTGTCCCATA CCTGATAAAA GTTCAAGCTC TGAATGATGT GGGGTTTGCA 
    CCAGAGCCAG CTGCAGTCAT GGGGCATTCT GGAGAAGACC TTCCAATGGT GGCTCCTGGA 
    AATGTTCGTG TCAGCGTGGT GAACAGTACG CTGGCAGAGG TGCACTGGGA CCCAGTTCCT 
    CCCAAGAGTG TCCGAGGACA CTTACAAGGC TACCGGATTT ACTACTGGAA GACCCAGAGC 
    TCCTCTAAAA GAAACAGGCG CCACATTGAG AAGAAGATCC TCACCTTCCA GGGCACCAAG 
    ACTCACGGCA TGCTGCCAGG GCTGCAGCCA TACAGTCACT ATGCTCTCAA CGTCCGAGTG 
    GTCAACGGGA AAGGGGAGGG CCCAGCCAGC ACCGACAGAG GCTTCCATAC ACCGGAGGGA 
    GTCCCTAGTG CTCCCTCATC TTTGAAAATT GTTAATCCTA CACTGGACTC TCTCACTTTG 
    GAGTGGGACC CACCAAGCCA CCCAAATGGC ATCCTGACAG AGTACATCTT AAAATATCAG 
    CCAATTAACA GCACACATGA GCTAGGCCCT CTGGTAGATT TAAAAATTCC TGCCAACAAG 
    ACCCGCTGGA CTTTGAAAAA TTTAAATTTC AGCACTCGGT ACAAGTTCTA TTTCTATGCA 
    CAGACATCAG TGGGGTCAGG GAGTCAGATC ACAGAGGAAG CAATAACGAC TGTGGACGAA 
    GGTAAGAAGG CTGGTATTCC TCCACCTGAT GTAGGTGCAG GCAAAGTCCG TGCAGTAAAT 
    CCCAGGATCA GCAATGTCAC TGCCGCAGCT GCTGAGACGT ATGCCAATAT CAGTTGGGAG 
    TATGAGGGAC CAGAACATGT GAAGTTTTAT GTTGAATATG GTGTAGCAGG CAGCAAAGAA 
    GAATGGAGGA AAGAAATTGT AAATGGTTCT CGAAGCTTCT TTGGGTTAAA GGGTCTAATG 
    CCAGGAACAG CATACAAAGT TCGAGTTGGT GCTGAGGGGG ACTCTGGTTT TGTGAGTTCA 
    GAGGATGTGT TTGAGACAGG ACCAGCAATG GCAAGCCGGC AAGTGGATAT TGCGACCCAA 
    GGCTGGTTCA TAGGTCTAAT GTGTGCTGTT GCTCTCCTCA TCTTAATTTT GCTGATTGTT 
    TGCTTCATCA GAAGAAACAA GGGTGGTAAA TACCCAGTTA AAGAAAAGGA GGATGCTCAT 
    GCAGACCCTG AAATCCAGCC CATGAAGGAA GATGATGGGA CGTTTGGAGA ATACAGGTCT 
    TTTGAAAGTG ATGCAGAAGA TCACAAGCCT TTGAAAAAAG GAAGTCGAAC ACCTTCAGAC 
    AGGACTGTGA AAAAAGAAGA TAGTGATGAT AGCCTGGTTG ACTATGGAGA GGGGGTCAAC 
    GGCCAATTCA ATGAGGATGG CTCCTTTATT GGCCAATACA GTGGTAAGAA AGAGAAAGAG 
    CCAGCGGAGG GAAATGAAAG CTCAGAGGCC CCTTCTCCTG TCAACGCAAT GAACTCCTTT 
    GTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029340411.1
    CDS500..4405
    Translation

    Target ORF information:

    RefSeq Version XM_029484551.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029484551.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGATGTCCC GAATCCTCCC 
    TTTGATTTAG AATTGACCAA TCAACTTGAC AAAAGTGTTC AGCTGACATG GACCCCAGGC 
    GATGACAACA ATAGCCCCAT TACAAAATTC ATCATTGAGT ATGAAGATGC AATGCATGAC 
    GCAGGGCTGT GGCGCCACCA GGCTGAAGTT TCTGGAACAC AGACCACAGC CCAACTGAAG 
    CTGTCTCCCT ATGTGAACTA CTCCTTCCGT GTCATGGCAG AGAACGGCAT TGGAAGAAGC 
    ATGCCGAGCG AGGCATCTGA GCAGTACCTC ACAAAAGCCG CAGAACCAGA TCAGAATCCC 
    ATGGCTGTGG AAGGACTAGG GACAGAGCCG GACAACTTGG TGATTACATG GAAGCCCCTG 
    AATGGTTTTC AATCGAATGG GCCTGGCCTC CAGTACAAAG TGAGCTGGCG CCAGAAAGAT 
    GGTGACGATG AGTGGACGTC TGTAGTTGTG GCCAATGTAT CCAAATACAT TGTTTCTGGC 
    ACACCAACCT TTGTCCCATA CCTGATAAAA GTTCAAGCTC TGAATGATGT GGGGTTTGCA 
    CCAGAGCCAG CTGCAGTCAT GGGGCATTCT GGAGAAGACC TTCCAATGGT GGCTCCTGGA 
    AATGTTCGTG TCAGCGTGGT GAACAGTACG CTGGCAGAGG TGCACTGGGA CCCAGTTCCT 
    CCCAAGAGTG TCCGAGGACA CTTACAAGGC TACCGGATTT ACTACTGGAA GACCCAGAGC 
    TCCTCTAAAA GAAACAGGCG CCACATTGAG AAGAAGATCC TCACCTTCCA GGGCACCAAG 
    ACTCACGGCA TGCTGCCAGG GCTGCAGCCA TACAGTCACT ATGCTCTCAA CGTCCGAGTG 
    GTCAACGGGA AAGGGGAGGG CCCAGCCAGC ACCGACAGAG GCTTCCATAC ACCGGAGGGA 
    GTCCCTAGTG CTCCCTCATC TTTGAAAATT GTTAATCCTA CACTGGACTC TCTCACTTTG 
    GAGTGGGACC CACCAAGCCA CCCAAATGGC ATCCTGACAG AGTACATCTT AAAATATCAG 
    CCAATTAACA GCACACATGA GCTAGGCCCT CTGGTAGATT TAAAAATTCC TGCCAACAAG 
    ACCCGCTGGA CTTTGAAAAA TTTAAATTTC AGCACTCGGT ACAAGTTCTA TTTCTATGCA 
    CAGACATCAG TGGGGTCAGG GAGTCAGATC ACAGAGGAAG CAATAACGAC TGTGGACGAA 
    GGTAAGAAGG CTGGTATTCC TCCACCTGAT GTAGGTGCAG GCAAAGTCCG TGCAGTAAAT 
    CCCAGGATCA GCAATGTCAC TGCCGCAGCT GCTGAGACGT ATGCCAATAT CAGTTGGGAG 
    TATGAGGGAC CAGAACATGT GAAGTTTTAT GTTGAATATG GTGTAGCAGG CAGCAAAGAA 
    GAATGGAGGA AAGAAATTGT AAATGGTTCT CGAAGCTTCT TTGGGTTAAA GGGTCTAATG 
    CCAGGAACAG CATACAAAGT TCGAGTTGGT GCTGAGGGGG ACTCTGGTTT TGTGAGTTCA 
    GAGGATGTGT TTGAGACAGG ACCAGCAATG GCAAGCCGGC AAGTGGATAT TGCGACCCAA 
    GGCTGGTTCA TAGGTCTAAT GTGTGCTGTT GCTCTCCTCA TCTTAATTTT GCTGATTGTT 
    TGCTTCATCA GAAGAAACAA GGGTGGTAAA TACCCAGTTA AAGAAAAGGA GGATGCTCAT 
    GCAGACCCTG AAATCCAGCC CATGAAGGAA GATGATGGGA CGTTTGGAGA ATACAGGTCT 
    TTTGAAAGTG ATGCAGAAGA TCACAAGCCT TTGAAAAAAG GAAGTCGAAC ACCTTCAGAC 
    AGGACTGTGA AAAAAGAAGA TAGTGATGAT AGCCTGGTTG ACTATGGAGA GGGGGTCAAC 
    GGCCAATTCA ATGAGGATGG CTCCTTTATT GGCCAATACA GTGGTAAGAA AGAGAAAGAG 
    CCAGCGGAGG GAAATGAAAG CTCAGAGGCC CCTTCTCCTG TCAACGCAAT GAACTCCTTT 
    GTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_029484552.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029340412.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X12, mRNA.
    Price & Availability↑
    CloneID OMv68199
    Clone ID Related Accession (Same CDS sequence) XM_029484552.1
    Accession Version XM_029484552.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3900bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GGTAAGAAGG TCCGTGCAGT AAATCCCAGG 
    ATCAGCAATG TCACTGCCGC AGCTGCTGAG ACGTATGCCA ATATCAGTTG GGAGTATGAG 
    GGACCAGAAC ATGTGAAGTT TTATGTTGAA TATGGTGTAG CAGGCAGCAA AGAAGAATGG 
    AGGAAAGAAA TTGTAAATGG TTCTCGAAGC TTCTTTGGGT TAAAGGGTCT AATGCCAGGA 
    ACAGCATACA AAGTTCGAGT TGGTGCTGAG GGGGACTCTG GTTTTGTGAG TTCAGAGGAT 
    GTGTTTGAGA CAGGACCAGC AATGGCAAGC CGGCAAGTGG ATATTGCGAC CCAAGGCTGG 
    TTCATAGGTC TAATGTGTGC TGTTGCTCTC CTCATCTTAA TTTTGCTGAT TGTTTGCTTC 
    ATCAGAAGAA ACAAGGGTGG TAAATACCCA GTTAAAGAAA AGGAGGATGC TCATGCAGAC 
    CCTGAAATCC AGCCCATGAA GGAAGATGAT GGGACGTTTG GAGAATACAG GTCTTTTGAA 
    AGTGATGCAG AAGATCACAA GCCTTTGAAA AAAGGAAGTC GAACACCTTC AGACAGGACT 
    GTGAAAAAAG AAGATAGTGA TGATAGCCTG GTTGACTATG GAGAGGGGGT CAACGGCCAA 
    TTCAATGAGG ATGGCTCCTT TATTGGCCAA TACAGTGGTA AGAAAGAGAA AGAGCCAGCG 
    GAGGGAAATG AAAGCTCAGA GGCCCCTTCT CCTGTCAACG CAATGAACTC CTTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029340412.1
    CDS500..4399
    Translation

    Target ORF information:

    RefSeq Version XM_029484552.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X12, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029484552.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GGTAAGAAGG TCCGTGCAGT AAATCCCAGG 
    ATCAGCAATG TCACTGCCGC AGCTGCTGAG ACGTATGCCA ATATCAGTTG GGAGTATGAG 
    GGACCAGAAC ATGTGAAGTT TTATGTTGAA TATGGTGTAG CAGGCAGCAA AGAAGAATGG 
    AGGAAAGAAA TTGTAAATGG TTCTCGAAGC TTCTTTGGGT TAAAGGGTCT AATGCCAGGA 
    ACAGCATACA AAGTTCGAGT TGGTGCTGAG GGGGACTCTG GTTTTGTGAG TTCAGAGGAT 
    GTGTTTGAGA CAGGACCAGC AATGGCAAGC CGGCAAGTGG ATATTGCGAC CCAAGGCTGG 
    TTCATAGGTC TAATGTGTGC TGTTGCTCTC CTCATCTTAA TTTTGCTGAT TGTTTGCTTC 
    ATCAGAAGAA ACAAGGGTGG TAAATACCCA GTTAAAGAAA AGGAGGATGC TCATGCAGAC 
    CCTGAAATCC AGCCCATGAA GGAAGATGAT GGGACGTTTG GAGAATACAG GTCTTTTGAA 
    AGTGATGCAG AAGATCACAA GCCTTTGAAA AAAGGAAGTC GAACACCTTC AGACAGGACT 
    GTGAAAAAAG AAGATAGTGA TGATAGCCTG GTTGACTATG GAGAGGGGGT CAACGGCCAA 
    TTCAATGAGG ATGGCTCCTT TATTGGCCAA TACAGTGGTA AGAAAGAGAA AGAGCCAGCG 
    GAGGGAAATG AAAGCTCAGA GGCCCCTTCT CCTGTCAACG CAATGAACTC CTTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_029484553.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029340413.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X13, mRNA.
    Price & Availability↑
    CloneID OMv68200
    Clone ID Related Accession (Same CDS sequence) XM_029484553.1
    Accession Version XM_029484553.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3891bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GTCCGTGCAG TAAATCCCAG GATCAGCAAT 
    GTCACTGCCG CAGCTGCTGA GACGTATGCC AATATCAGTT GGGAGTATGA GGGACCAGAA 
    CATGTGAAGT TTTATGTTGA ATATGGTGTA GCAGGCAGCA AAGAAGAATG GAGGAAAGAA 
    ATTGTAAATG GTTCTCGAAG CTTCTTTGGG TTAAAGGGTC TAATGCCAGG AACAGCATAC 
    AAAGTTCGAG TTGGTGCTGA GGGGGACTCT GGTTTTGTGA GTTCAGAGGA TGTGTTTGAG 
    ACAGGACCAG CAATGGCAAG CCGGCAAGTG GATATTGCGA CCCAAGGCTG GTTCATAGGT 
    CTAATGTGTG CTGTTGCTCT CCTCATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATACCC AGTTAAAGAA AAGGAGGATG CTCATGCAGA CCCTGAAATC 
    CAGCCCATGA AGGAAGATGA TGGGACGTTT GGAGAATACA GGTCTTTTGA AAGTGATGCA 
    GAAGATCACA AGCCTTTGAA AAAAGGAAGT CGAACACCTT CAGACAGGAC TGTGAAAAAA 
    GAAGATAGTG ATGATAGCCT GGTTGACTAT GGAGAGGGGG TCAACGGCCA ATTCAATGAG 
    GATGGCTCCT TTATTGGCCA ATACAGTGGT AAGAAAGAGA AAGAGCCAGC GGAGGGAAAT 
    GAAAGCTCAG AGGCCCCTTC TCCTGTCAAC GCAATGAACT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029340413.1
    CDS500..4390
    Translation

    Target ORF information:

    RefSeq Version XM_029484553.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X13, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029484553.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GTCCGTGCAG TAAATCCCAG GATCAGCAAT 
    GTCACTGCCG CAGCTGCTGA GACGTATGCC AATATCAGTT GGGAGTATGA GGGACCAGAA 
    CATGTGAAGT TTTATGTTGA ATATGGTGTA GCAGGCAGCA AAGAAGAATG GAGGAAAGAA 
    ATTGTAAATG GTTCTCGAAG CTTCTTTGGG TTAAAGGGTC TAATGCCAGG AACAGCATAC 
    AAAGTTCGAG TTGGTGCTGA GGGGGACTCT GGTTTTGTGA GTTCAGAGGA TGTGTTTGAG 
    ACAGGACCAG CAATGGCAAG CCGGCAAGTG GATATTGCGA CCCAAGGCTG GTTCATAGGT 
    CTAATGTGTG CTGTTGCTCT CCTCATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATACCC AGTTAAAGAA AAGGAGGATG CTCATGCAGA CCCTGAAATC 
    CAGCCCATGA AGGAAGATGA TGGGACGTTT GGAGAATACA GGTCTTTTGA AAGTGATGCA 
    GAAGATCACA AGCCTTTGAA AAAAGGAAGT CGAACACCTT CAGACAGGAC TGTGAAAAAA 
    GAAGATAGTG ATGATAGCCT GGTTGACTAT GGAGAGGGGG TCAACGGCCA ATTCAATGAG 
    GATGGCTCCT TTATTGGCCA ATACAGTGGT AAGAAAGAGA AAGAGCCAGC GGAGGGAAAT 
    GAAAGCTCAG AGGCCCCTTC TCCTGTCAAC GCAATGAACT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_029484554.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029340414.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X14, mRNA.
    Price & Availability↑
    CloneID OMv68201
    Clone ID Related Accession (Same CDS sequence) XM_029484554.1
    Accession Version XM_029484554.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3888bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X10
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCTGGT ACAACCTCCA 
    ACCATCACTC AACAGTCACC AAAAGACTAC ATCATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAGG CCAAAGGGAA ACCTCCCCCA AGCTTTTCCT GGACTCGTAA TGGAACTCAT 
    TTTGACATAG ACAAGGACCC TCTGGTCACC ATGAAGCCTG GCTCAGGAAC CCTTGTCATC 
    AACATCATGA GTGAGGGGAA AGCAGAGACC TATGAAGGAG TCTACCAGTG CACTGCAAGG 
    AACGAGCGTG GAGCTGCCGT CTCCAATAAC ATTGTTGTCC GCCCATCTAG GTCACCCTTG 
    TGGACCAAGG AAAGACTTGA ACCCATAATA CTCCGGAATG GGCAGTCATT AGTACTTCCA 
    TGTAGGCCTC CGATTGGATT ACCTCCGGCC ATAATATTTT GGATGGATAA TTCCTTTCAG 
    AGACTTCCAC AGAGTGAGCG GGTTTCCCAA GGCCTAAATG GAGACCTTTA CTTCTCCAAT 
    GTCCTCCCAG AGGACACCCG TGAGGACTAT ATCTGCTATG CTAGATTTAA TCACACTCAA 
    ACCATCCAAC AGAAGCAGCC TATTTCTTTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCTAG TAAAGAGAGG 
    CCCCCAACGT TTCTAACTCC AGAGGGCAAT GAAAGCCACA AAGAGGAATT AAGAGGAAAC 
    GTGCTTTCGC TGGAGTGCAT TGCGGAAGGC CTCCCTACTC CAATTATTTA CTGGATCAAA 
    GAAGACGGAA CGCTTCCTGC CAACCGGACA TTTTATCGGA ACTTTAAGAA AACCTTGCAG 
    ATCACTCATG TTTCCGAAGC CGACTCTGGA AATTATCAGT GCATAGCAAA AAACGCATTA 
    GGGGCCGTCC ATCACACCAT TTCTGTCACT GTTAAAGCGG CTCCCTACTG GATCGTGGCA 
    CCTCAAAACC TCGTGCTTTC CCCGGGAGAG AATGGGACCC TCATCTGCAG AGCTAATGGC 
    AACCCGAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCTCTTGAT 
    GACCCCAGCA GAAAAATAGA TGGTGATACC ATTATATTTT CTAATGTTCA AGAAAGCTCA 
    AGTGCGGTTT ATCAGTGCAA CGCCTCTAAC AAATATGGAT ATTTACTAGC AAATGCATTT 
    GTAAATGTTC TCGCTGAACC ACCTCGGATT CTCACATCAG CAAACACTCT GTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT GCTAGATTGT GCCTTCTTTG GATCTCCTAT GCCTACCATT 
    GAATGGTTTA AAGGGACTAA AGGAAGCGCT CTTCATGAAG ACACTTATGT TTTGCATGAT 
    AATGGAACAT TAGAAATTCC CGTGGCCCAA AAGGATAGTA CAGGGACGTA TACTTGTGTC 
    GCACGGAATA AACTAGGGAT GGCAAAGAAT GAAGTTCACT TGGAAATCAA AGATCCAACC 
    AGGATCATTA AACAACCTGA ATATGCAGTC GTCCAGAGGG GGAGCAAGGT GTCGTTTGAA 
    TGCAGAGTGA AACATGACCA CACCTTAATT CCCACCATTC TGTGGCTGAA GGACAATGGA 
    GAGCTGCCCA ATGATGAAAG GTTCTCCACT GACAAGGATC ATCTGGTGGT ATCTGATGTA 
    AAGGATGACG ATGGTGGCAC CTACACATGT ACGGCCAACA CAACGCTGGA CAGTGCTTCG 
    GCCAGCGCTG TGCTCAGGGT TGTCGATGTC CCGAATCCTC CCTTTGATTT AGAATTGACC 
    AATCAACTTG ACAAAAGTGT TCAGCTGACA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATTGA GTATGAAGAT GCAATGCATG ACGCAGGGCT GTGGCGCCAC 
    CAGGCTGAAG TTTCTGGAAC ACAGACCACA GCCCAACTGA AGCTGTCTCC CTATGTGAAC 
    TACTCCTTCC GTGTCATGGC AGAGAACGGC ATTGGAAGAA GCATGCCGAG CGAGGCATCT 
    GAGCAGTACC TCACAAAAGC CGCAGAACCA GATCAGAATC CCATGGCTGT GGAAGGACTA 
    GGGACAGAGC CGGACAACTT GGTGATTACA TGGAAGCCCC TGAATGGTTT TCAATCGAAT 
    GGGCCTGGCC TCCAGTACAA AGTGAGCTGG CGCCAGAAAG ATGGTGACGA TGAGTGGACG 
    TCTGTAGTTG TGGCCAATGT ATCCAAATAC ATTGTTTCTG GCACACCAAC CTTTGTCCCA 
    TACCTGATAA AAGTTCAAGC TCTGAATGAT GTGGGGTTTG CACCAGAGCC AGCTGCAGTC 
    ATGGGGCATT CTGGAGAAGA CCTTCCAATG GTGGCTCCTG GAAATGTTCG TGTCAGCGTG 
    GTGAACAGTA CGCTGGCAGA GGTGCACTGG GACCCAGTTC CTCCCAAGAG TGTCCGAGGA 
    CACTTACAAG GCTACCGGAT TTACTACTGG AAGACCCAGA GCTCCTCTAA AAGAAACAGG 
    CGCCACATTG AGAAGAAGAT CCTCACCTTC CAGGGCACCA AGACTCACGG CATGCTGCCA 
    GGGCTGCAGC CATACAGTCA CTATGCTCTC AACGTCCGAG TGGTCAACGG GAAAGGGGAG 
    GGCCCAGCCA GCACCGACAG AGGCTTCCAT ACACCGGAGG GAGTCCCTAG TGCTCCCTCA 
    TCTTTGAAAA TTGTTAATCC TACACTGGAC TCTCTCACTT TGGAGTGGGA CCCACCAAGC 
    CACCCAAATG GCATCCTGAC AGAGTACATC TTAAAATATC AGCCAATTAA CAGCACACAT 
    GAGCTAGGCC CTCTGGTAGA TTTAAAAATT CCTGCCAACA AGACCCGCTG GACTTTGAAA 
    AATTTAAATT TCAGCACTCG GTACAAGTTC TATTTCTATG CACAGACATC AGTGGGGTCA 
    GGGAGTCAGA TCACAGAGGA AGCAATAACG ACTGTGGACG AAGGTAAGAA GGCTGGTATT 
    CCTCCACCTG ATGTAGGTGC AGGCAAAGTC CGTGCAGTAA ATCCCAGGAT CAGCAATGTC 
    ACTGCCGCAG CTGCTGAGAC GTATGCCAAT ATCAGTTGGG AGTATGAGGG ACCAGAACAT 
    GTGAAGTTTT ATGTTGAATA TGGTGTAGCA GGCAGCAAAG AAGAATGGAG GAAAGAAATT 
    GTAAATGGTT CTCGAAGCTT CTTTGGGTTA AAGGGTCTAA TGCCAGGAAC AGCATACAAA 
    GTTCGAGTTG GTGCTGAGGG GGACTCTGGT TTTGTGAGTT CAGAGGATGT GTTTGAGACA 
    GGACCAGCAA TGGCAAGCCG GCAAGTGGAT ATTGCGACCC AAGGCTGGTT CATAGGTCTA 
    ATGTGTGCTG TTGCTCTCCT CATCTTAATT TTGCTGATTG TTTGCTTCAT CAGAAGAAAC 
    AAGGGTGGTA AATACCCAGT TAAAGAAAAG GAGGATGCTC ATGCAGACCC TGAAATCCAG 
    CCCATGAAGG AAGATGATGG GACGTTTGGA GAATACAGGT CTTTTGAAAG TGATGCAGAA 
    GATCACAAGC CTTTGAAAAA AGGAAGTCGA ACACCTTCAG ACAGGACTGT GAAAAAAGAA 
    GATAGTGATG ATAGCCTGGT TGACTATGGA GAGGGGGTCA ACGGCCAATT CAATGAGGAT 
    GGCTCCTTTA TTGGCCAATA CAGTGGTAAG AAAGAGAAAG AGCCAGCGGA GGGAAATGAA 
    AGCTCAGAGG CCCCTTCTCC TGTCAACGCA ATGAACTCCT TTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029340414.1
    CDS500..4387
    Translation

    Target ORF information:

    RefSeq Version XM_029484554.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X14, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029484554.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCTGGT ACAACCTCCA 
    ACCATCACTC AACAGTCACC AAAAGACTAC ATCATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAGG CCAAAGGGAA ACCTCCCCCA AGCTTTTCCT GGACTCGTAA TGGAACTCAT 
    TTTGACATAG ACAAGGACCC TCTGGTCACC ATGAAGCCTG GCTCAGGAAC CCTTGTCATC 
    AACATCATGA GTGAGGGGAA AGCAGAGACC TATGAAGGAG TCTACCAGTG CACTGCAAGG 
    AACGAGCGTG GAGCTGCCGT CTCCAATAAC ATTGTTGTCC GCCCATCTAG GTCACCCTTG 
    TGGACCAAGG AAAGACTTGA ACCCATAATA CTCCGGAATG GGCAGTCATT AGTACTTCCA 
    TGTAGGCCTC CGATTGGATT ACCTCCGGCC ATAATATTTT GGATGGATAA TTCCTTTCAG 
    AGACTTCCAC AGAGTGAGCG GGTTTCCCAA GGCCTAAATG GAGACCTTTA CTTCTCCAAT 
    GTCCTCCCAG AGGACACCCG TGAGGACTAT ATCTGCTATG CTAGATTTAA TCACACTCAA 
    ACCATCCAAC AGAAGCAGCC TATTTCTTTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCTAG TAAAGAGAGG 
    CCCCCAACGT TTCTAACTCC AGAGGGCAAT GAAAGCCACA AAGAGGAATT AAGAGGAAAC 
    GTGCTTTCGC TGGAGTGCAT TGCGGAAGGC CTCCCTACTC CAATTATTTA CTGGATCAAA 
    GAAGACGGAA CGCTTCCTGC CAACCGGACA TTTTATCGGA ACTTTAAGAA AACCTTGCAG 
    ATCACTCATG TTTCCGAAGC CGACTCTGGA AATTATCAGT GCATAGCAAA AAACGCATTA 
    GGGGCCGTCC ATCACACCAT TTCTGTCACT GTTAAAGCGG CTCCCTACTG GATCGTGGCA 
    CCTCAAAACC TCGTGCTTTC CCCGGGAGAG AATGGGACCC TCATCTGCAG AGCTAATGGC 
    AACCCGAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCTCTTGAT 
    GACCCCAGCA GAAAAATAGA TGGTGATACC ATTATATTTT CTAATGTTCA AGAAAGCTCA 
    AGTGCGGTTT ATCAGTGCAA CGCCTCTAAC AAATATGGAT ATTTACTAGC AAATGCATTT 
    GTAAATGTTC TCGCTGAACC ACCTCGGATT CTCACATCAG CAAACACTCT GTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT GCTAGATTGT GCCTTCTTTG GATCTCCTAT GCCTACCATT 
    GAATGGTTTA AAGGGACTAA AGGAAGCGCT CTTCATGAAG ACACTTATGT TTTGCATGAT 
    AATGGAACAT TAGAAATTCC CGTGGCCCAA AAGGATAGTA CAGGGACGTA TACTTGTGTC 
    GCACGGAATA AACTAGGGAT GGCAAAGAAT GAAGTTCACT TGGAAATCAA AGATCCAACC 
    AGGATCATTA AACAACCTGA ATATGCAGTC GTCCAGAGGG GGAGCAAGGT GTCGTTTGAA 
    TGCAGAGTGA AACATGACCA CACCTTAATT CCCACCATTC TGTGGCTGAA GGACAATGGA 
    GAGCTGCCCA ATGATGAAAG GTTCTCCACT GACAAGGATC ATCTGGTGGT ATCTGATGTA 
    AAGGATGACG ATGGTGGCAC CTACACATGT ACGGCCAACA CAACGCTGGA CAGTGCTTCG 
    GCCAGCGCTG TGCTCAGGGT TGTCGATGTC CCGAATCCTC CCTTTGATTT AGAATTGACC 
    AATCAACTTG ACAAAAGTGT TCAGCTGACA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATTGA GTATGAAGAT GCAATGCATG ACGCAGGGCT GTGGCGCCAC 
    CAGGCTGAAG TTTCTGGAAC ACAGACCACA GCCCAACTGA AGCTGTCTCC CTATGTGAAC 
    TACTCCTTCC GTGTCATGGC AGAGAACGGC ATTGGAAGAA GCATGCCGAG CGAGGCATCT 
    GAGCAGTACC TCACAAAAGC CGCAGAACCA GATCAGAATC CCATGGCTGT GGAAGGACTA 
    GGGACAGAGC CGGACAACTT GGTGATTACA TGGAAGCCCC TGAATGGTTT TCAATCGAAT 
    GGGCCTGGCC TCCAGTACAA AGTGAGCTGG CGCCAGAAAG ATGGTGACGA TGAGTGGACG 
    TCTGTAGTTG TGGCCAATGT ATCCAAATAC ATTGTTTCTG GCACACCAAC CTTTGTCCCA 
    TACCTGATAA AAGTTCAAGC TCTGAATGAT GTGGGGTTTG CACCAGAGCC AGCTGCAGTC 
    ATGGGGCATT CTGGAGAAGA CCTTCCAATG GTGGCTCCTG GAAATGTTCG TGTCAGCGTG 
    GTGAACAGTA CGCTGGCAGA GGTGCACTGG GACCCAGTTC CTCCCAAGAG TGTCCGAGGA 
    CACTTACAAG GCTACCGGAT TTACTACTGG AAGACCCAGA GCTCCTCTAA AAGAAACAGG 
    CGCCACATTG AGAAGAAGAT CCTCACCTTC CAGGGCACCA AGACTCACGG CATGCTGCCA 
    GGGCTGCAGC CATACAGTCA CTATGCTCTC AACGTCCGAG TGGTCAACGG GAAAGGGGAG 
    GGCCCAGCCA GCACCGACAG AGGCTTCCAT ACACCGGAGG GAGTCCCTAG TGCTCCCTCA 
    TCTTTGAAAA TTGTTAATCC TACACTGGAC TCTCTCACTT TGGAGTGGGA CCCACCAAGC 
    CACCCAAATG GCATCCTGAC AGAGTACATC TTAAAATATC AGCCAATTAA CAGCACACAT 
    GAGCTAGGCC CTCTGGTAGA TTTAAAAATT CCTGCCAACA AGACCCGCTG GACTTTGAAA 
    AATTTAAATT TCAGCACTCG GTACAAGTTC TATTTCTATG CACAGACATC AGTGGGGTCA 
    GGGAGTCAGA TCACAGAGGA AGCAATAACG ACTGTGGACG AAGGTAAGAA GGCTGGTATT 
    CCTCCACCTG ATGTAGGTGC AGGCAAAGTC CGTGCAGTAA ATCCCAGGAT CAGCAATGTC 
    ACTGCCGCAG CTGCTGAGAC GTATGCCAAT ATCAGTTGGG AGTATGAGGG ACCAGAACAT 
    GTGAAGTTTT ATGTTGAATA TGGTGTAGCA GGCAGCAAAG AAGAATGGAG GAAAGAAATT 
    GTAAATGGTT CTCGAAGCTT CTTTGGGTTA AAGGGTCTAA TGCCAGGAAC AGCATACAAA 
    GTTCGAGTTG GTGCTGAGGG GGACTCTGGT TTTGTGAGTT CAGAGGATGT GTTTGAGACA 
    GGACCAGCAA TGGCAAGCCG GCAAGTGGAT ATTGCGACCC AAGGCTGGTT CATAGGTCTA 
    ATGTGTGCTG TTGCTCTCCT CATCTTAATT TTGCTGATTG TTTGCTTCAT CAGAAGAAAC 
    AAGGGTGGTA AATACCCAGT TAAAGAAAAG GAGGATGCTC ATGCAGACCC TGAAATCCAG 
    CCCATGAAGG AAGATGATGG GACGTTTGGA GAATACAGGT CTTTTGAAAG TGATGCAGAA 
    GATCACAAGC CTTTGAAAAA AGGAAGTCGA ACACCTTCAG ACAGGACTGT GAAAAAAGAA 
    GATAGTGATG ATAGCCTGGT TGACTATGGA GAGGGGGTCA ACGGCCAATT CAATGAGGAT 
    GGCTCCTTTA TTGGCCAATA CAGTGGTAAG AAAGAGAAAG AGCCAGCGGA GGGAAATGAA 
    AGCTCAGAGG CCCCTTCTCC TGTCAACGCA ATGAACTCCT TTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_029484555.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029340415.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X15, mRNA.
    Price & Availability↑
    CloneID OMv68202
    Clone ID Related Accession (Same CDS sequence) XM_029484555.1
    Accession Version XM_029484555.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3879bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X11
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GCTAAATCTA GTAAAGAGAG GCCCCCAACG TTTCTAACTC CAGAGGGCAA TGAAAGCCAC 
    AAAGAGGAAT TAAGAGGAAA CGTGCTTTCG CTGGAGTGCA TTGCGGAAGG CCTCCCTACT 
    CCAATTATTT ACTGGATCAA AGAAGACGGA ACGCTTCCTG CCAACCGGAC ATTTTATCGG 
    AACTTTAAGA AAACCTTGCA GATCACTCAT GTTTCCGAAG CCGACTCTGG AAATTATCAG 
    TGCATAGCAA AAAACGCATT AGGGGCCGTC CATCACACCA TTTCTGTCAC TGTTAAAGCG 
    GCTCCCTACT GGATCGTGGC ACCTCAAAAC CTCGTGCTTT CCCCGGGAGA GAATGGGACC 
    CTCATCTGCA GAGCTAATGG CAACCCGAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCTCTTGA TGACCCCAGC AGAAAAATAG ATGGTGATAC CATTATATTT 
    TCTAATGTTC AAGAAAGCTC AAGTGCGGTT TATCAGTGCA ACGCCTCTAA CAAATATGGA 
    TATTTACTAG CAAATGCATT TGTAAATGTT CTCGCTGAAC CACCTCGGAT TCTCACATCA 
    GCAAACACTC TGTACCAGGT CATTGCAAAC AGGCCTGCTT TGCTAGATTG TGCCTTCTTT 
    GGATCTCCTA TGCCTACCAT TGAATGGTTT AAAGGGACTA AAGGAAGCGC TCTTCATGAA 
    GACACTTATG TTTTGCATGA TAATGGAACA TTAGAAATTC CCGTGGCCCA AAAGGATAGT 
    ACAGGGACGT ATACTTGTGT CGCACGGAAT AAACTAGGGA TGGCAAAGAA TGAAGTTCAC 
    TTGGAAATCA AAGATCCAAC CAGGATCATT AAACAACCTG AATATGCAGT CGTCCAGAGG 
    GGGAGCAAGG TGTCGTTTGA ATGCAGAGTG AAACATGACC ACACCTTAAT TCCCACCATT 
    CTGTGGCTGA AGGACAATGG AGAGCTGCCC AATGATGAAA GGTTCTCCAC TGACAAGGAT 
    CATCTGGTGG TATCTGATGT AAAGGATGAC GATGGTGGCA CCTACACATG TACGGCCAAC 
    ACAACGCTGG ACAGTGCTTC GGCCAGCGCT GTGCTCAGGG TTGTCGCTCC TACTCCAACT 
    CCAGCCCCCA TTTACGATGT CCCGAATCCT CCCTTTGATT TAGAATTGAC CAATCAACTT 
    GACAAAAGTG TTCAGCTGAC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATTG AGTATGAAGA TGCAATGCAT GACGCAGGGC TGTGGCGCCA CCAGGCTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAACTG AAGCTGTCTC CCTATGTGAA CTACTCCTTC 
    CGTGTCATGG CAGAGAACGG CATTGGAAGA AGCATGCCGA GCGAGGCATC TGAGCAGTAC 
    CTCACAAAAG CCGCAGAACC AGATCAGAAT CCCATGGCTG TGGAAGGACT AGGGACAGAG 
    CCGGACAACT TGGTGATTAC ATGGAAGCCC CTGAATGGTT TTCAATCGAA TGGGCCTGGC 
    CTCCAGTACA AAGTGAGCTG GCGCCAGAAA GATGGTGACG ATGAGTGGAC GTCTGTAGTT 
    GTGGCCAATG TATCCAAATA CATTGTTTCT GGCACACCAA CCTTTGTCCC ATACCTGATA 
    AAAGTTCAAG CTCTGAATGA TGTGGGGTTT GCACCAGAGC CAGCTGCAGT CATGGGGCAT 
    TCTGGAGAAG ACCTTCCAAT GGTGGCTCCT GGAAATGTTC GTGTCAGCGT GGTGAACAGT 
    ACGCTGGCAG AGGTGCACTG GGACCCAGTT CCTCCCAAGA GTGTCCGAGG ACACTTACAA 
    GGCTACCGGA TTTACTACTG GAAGACCCAG AGCTCCTCTA AAAGAAACAG GCGCCACATT 
    GAGAAGAAGA TCCTCACCTT CCAGGGCACC AAGACTCACG GCATGCTGCC AGGGCTGCAG 
    CCATACAGTC ACTATGCTCT CAACGTCCGA GTGGTCAACG GGAAAGGGGA GGGCCCAGCC 
    AGCACCGACA GAGGCTTCCA TACACCGGAG GGAGTCCCTA GTGCTCCCTC ATCTTTGAAA 
    ATTGTTAATC CTACACTGGA CTCTCTCACT TTGGAGTGGG ACCCACCAAG CCACCCAAAT 
    GGCATCCTGA CAGAGTACAT CTTAAAATAT CAGCCAATTA ACAGCACACA TGAGCTAGGC 
    CCTCTGGTAG ATTTAAAAAT TCCTGCCAAC AAGACCCGCT GGACTTTGAA AAATTTAAAT 
    TTCAGCACTC GGTACAAGTT CTATTTCTAT GCACAGACAT CAGTGGGGTC AGGGAGTCAG 
    ATCACAGAGG AAGCAATAAC GACTGTGGAC GAAGGTAAGA AGGCTGGTAT TCCTCCACCT 
    GATGTAGGTG CAGGCAAAGT CCGTGCAGTA AATCCCAGGA TCAGCAATGT CACTGCCGCA 
    GCTGCTGAGA CGTATGCCAA TATCAGTTGG GAGTATGAGG GACCAGAACA TGTGAAGTTT 
    TATGTTGAAT ATGGTGTAGC AGGCAGCAAA GAAGAATGGA GGAAAGAAAT TGTAAATGGT 
    TCTCGAAGCT TCTTTGGGTT AAAGGGTCTA ATGCCAGGAA CAGCATACAA AGTTCGAGTT 
    GGTGCTGAGG GGGACTCTGG TTTTGTGAGT TCAGAGGATG TGTTTGAGAC AGGACCAGCA 
    ATGGCAAGCC GGCAAGTGGA TATTGCGACC CAAGGCTGGT TCATAGGTCT AATGTGTGCT 
    GTTGCTCTCC TCATCTTAAT TTTGCTGATT GTTTGCTTCA TCAGAAGAAA CAAGGGTGGT 
    AAATACCCAG TTAAAGAAAA GGAGGATGCT CATGCAGACC CTGAAATCCA GCCCATGAAG 
    GAAGATGATG GGACGTTTGG AGAATACAGG TCTTTTGAAA GTGATGCAGA AGATCACAAG 
    CCTTTGAAAA AAGGAAGTCG AACACCTTCA GACAGGACTG TGAAAAAAGA AGATAGTGAT 
    GATAGCCTGG TTGACTATGG AGAGGGGGTC AACGGCCAAT TCAATGAGGA TGGCTCCTTT 
    ATTGGCCAAT ACAGTGGTAA GAAAGAGAAA GAGCCAGCGG AGGGAAATGA AAGCTCAGAG 
    GCCCCTTCTC CTGTCAACGC AATGAACTCC TTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029340415.1
    CDS500..4378
    Translation

    Target ORF information:

    RefSeq Version XM_029484555.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X15, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029484555.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GCTAAATCTA GTAAAGAGAG GCCCCCAACG TTTCTAACTC CAGAGGGCAA TGAAAGCCAC 
    AAAGAGGAAT TAAGAGGAAA CGTGCTTTCG CTGGAGTGCA TTGCGGAAGG CCTCCCTACT 
    CCAATTATTT ACTGGATCAA AGAAGACGGA ACGCTTCCTG CCAACCGGAC ATTTTATCGG 
    AACTTTAAGA AAACCTTGCA GATCACTCAT GTTTCCGAAG CCGACTCTGG AAATTATCAG 
    TGCATAGCAA AAAACGCATT AGGGGCCGTC CATCACACCA TTTCTGTCAC TGTTAAAGCG 
    GCTCCCTACT GGATCGTGGC ACCTCAAAAC CTCGTGCTTT CCCCGGGAGA GAATGGGACC 
    CTCATCTGCA GAGCTAATGG CAACCCGAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCTCTTGA TGACCCCAGC AGAAAAATAG ATGGTGATAC CATTATATTT 
    TCTAATGTTC AAGAAAGCTC AAGTGCGGTT TATCAGTGCA ACGCCTCTAA CAAATATGGA 
    TATTTACTAG CAAATGCATT TGTAAATGTT CTCGCTGAAC CACCTCGGAT TCTCACATCA 
    GCAAACACTC TGTACCAGGT CATTGCAAAC AGGCCTGCTT TGCTAGATTG TGCCTTCTTT 
    GGATCTCCTA TGCCTACCAT TGAATGGTTT AAAGGGACTA AAGGAAGCGC TCTTCATGAA 
    GACACTTATG TTTTGCATGA TAATGGAACA TTAGAAATTC CCGTGGCCCA AAAGGATAGT 
    ACAGGGACGT ATACTTGTGT CGCACGGAAT AAACTAGGGA TGGCAAAGAA TGAAGTTCAC 
    TTGGAAATCA AAGATCCAAC CAGGATCATT AAACAACCTG AATATGCAGT CGTCCAGAGG 
    GGGAGCAAGG TGTCGTTTGA ATGCAGAGTG AAACATGACC ACACCTTAAT TCCCACCATT 
    CTGTGGCTGA AGGACAATGG AGAGCTGCCC AATGATGAAA GGTTCTCCAC TGACAAGGAT 
    CATCTGGTGG TATCTGATGT AAAGGATGAC GATGGTGGCA CCTACACATG TACGGCCAAC 
    ACAACGCTGG ACAGTGCTTC GGCCAGCGCT GTGCTCAGGG TTGTCGCTCC TACTCCAACT 
    CCAGCCCCCA TTTACGATGT CCCGAATCCT CCCTTTGATT TAGAATTGAC CAATCAACTT 
    GACAAAAGTG TTCAGCTGAC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATTG AGTATGAAGA TGCAATGCAT GACGCAGGGC TGTGGCGCCA CCAGGCTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAACTG AAGCTGTCTC CCTATGTGAA CTACTCCTTC 
    CGTGTCATGG CAGAGAACGG CATTGGAAGA AGCATGCCGA GCGAGGCATC TGAGCAGTAC 
    CTCACAAAAG CCGCAGAACC AGATCAGAAT CCCATGGCTG TGGAAGGACT AGGGACAGAG 
    CCGGACAACT TGGTGATTAC ATGGAAGCCC CTGAATGGTT TTCAATCGAA TGGGCCTGGC 
    CTCCAGTACA AAGTGAGCTG GCGCCAGAAA GATGGTGACG ATGAGTGGAC GTCTGTAGTT 
    GTGGCCAATG TATCCAAATA CATTGTTTCT GGCACACCAA CCTTTGTCCC ATACCTGATA 
    AAAGTTCAAG CTCTGAATGA TGTGGGGTTT GCACCAGAGC CAGCTGCAGT CATGGGGCAT 
    TCTGGAGAAG ACCTTCCAAT GGTGGCTCCT GGAAATGTTC GTGTCAGCGT GGTGAACAGT 
    ACGCTGGCAG AGGTGCACTG GGACCCAGTT CCTCCCAAGA GTGTCCGAGG ACACTTACAA 
    GGCTACCGGA TTTACTACTG GAAGACCCAG AGCTCCTCTA AAAGAAACAG GCGCCACATT 
    GAGAAGAAGA TCCTCACCTT CCAGGGCACC AAGACTCACG GCATGCTGCC AGGGCTGCAG 
    CCATACAGTC ACTATGCTCT CAACGTCCGA GTGGTCAACG GGAAAGGGGA GGGCCCAGCC 
    AGCACCGACA GAGGCTTCCA TACACCGGAG GGAGTCCCTA GTGCTCCCTC ATCTTTGAAA 
    ATTGTTAATC CTACACTGGA CTCTCTCACT TTGGAGTGGG ACCCACCAAG CCACCCAAAT 
    GGCATCCTGA CAGAGTACAT CTTAAAATAT CAGCCAATTA ACAGCACACA TGAGCTAGGC 
    CCTCTGGTAG ATTTAAAAAT TCCTGCCAAC AAGACCCGCT GGACTTTGAA AAATTTAAAT 
    TTCAGCACTC GGTACAAGTT CTATTTCTAT GCACAGACAT CAGTGGGGTC AGGGAGTCAG 
    ATCACAGAGG AAGCAATAAC GACTGTGGAC GAAGGTAAGA AGGCTGGTAT TCCTCCACCT 
    GATGTAGGTG CAGGCAAAGT CCGTGCAGTA AATCCCAGGA TCAGCAATGT CACTGCCGCA 
    GCTGCTGAGA CGTATGCCAA TATCAGTTGG GAGTATGAGG GACCAGAACA TGTGAAGTTT 
    TATGTTGAAT ATGGTGTAGC AGGCAGCAAA GAAGAATGGA GGAAAGAAAT TGTAAATGGT 
    TCTCGAAGCT TCTTTGGGTT AAAGGGTCTA ATGCCAGGAA CAGCATACAA AGTTCGAGTT 
    GGTGCTGAGG GGGACTCTGG TTTTGTGAGT TCAGAGGATG TGTTTGAGAC AGGACCAGCA 
    ATGGCAAGCC GGCAAGTGGA TATTGCGACC CAAGGCTGGT TCATAGGTCT AATGTGTGCT 
    GTTGCTCTCC TCATCTTAAT TTTGCTGATT GTTTGCTTCA TCAGAAGAAA CAAGGGTGGT 
    AAATACCCAG TTAAAGAAAA GGAGGATGCT CATGCAGACC CTGAAATCCA GCCCATGAAG 
    GAAGATGATG GGACGTTTGG AGAATACAGG TCTTTTGAAA GTGATGCAGA AGATCACAAG 
    CCTTTGAAAA AAGGAAGTCG AACACCTTCA GACAGGACTG TGAAAAAAGA AGATAGTGAT 
    GATAGCCTGG TTGACTATGG AGAGGGGGTC AACGGCCAAT TCAATGAGGA TGGCTCCTTT 
    ATTGGCCAAT ACAGTGGTAA GAAAGAGAAA GAGCCAGCGG AGGGAAATGA AAGCTCAGAG 
    GCCCCTTCTC CTGTCAACGC AATGAACTCC TTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_029484556.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029340416.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X16, mRNA.
    Price & Availability↑
    CloneID OMv68203
    Clone ID Related Accession (Same CDS sequence) XM_029484556.1
    Accession Version XM_029484556.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3657bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X12
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GGTAAGAAGG CTGGTATTCC TCCACCTGAT 
    GTAGGTGCAG GCAAAGCAAT GGCAAGCCGG CAAGTGGATA TTGCGACCCA AGGCTGGTTC 
    ATAGGTCTAA TGTGTGCTGT TGCTCTCCTC ATCTTAATTT TGCTGATTGT TTGCTTCATC 
    AGAAGAAACA AGGGTGGTAA ATACCCAGTT AAAGAAAAGG AGGATGCTCA TGCAGACCCT 
    GAAATCCAGC CCATGAAGGA AGATGATGGG ACGTTTGGAG AATACAGGTC TTTTGAAAGT 
    GATGCAGAAG ATCACAAGCC TTTGAAAAAA GGAAGTCGAA CACCTTCAGA CAGGACTGTG 
    AAAAAAGAAG ATAGTGATGA TAGCCTGGTT GACTATGGAG AGGGGGTCAA CGGCCAATTC 
    AATGAGGATG GCTCCTTTAT TGGCCAATAC AGTGGTAAGA AAGAGAAAGA GCCAGCGGAG 
    GGAAATGAAA GCTCAGAGGC CCCTTCTCCT GTCAACGCAA TGAACTCCTT TGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029340416.1
    CDS500..4156
    Translation

    Target ORF information:

    RefSeq Version XM_029484556.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X16, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029484556.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GGTAAGAAGG CTGGTATTCC TCCACCTGAT 
    GTAGGTGCAG GCAAAGCAAT GGCAAGCCGG CAAGTGGATA TTGCGACCCA AGGCTGGTTC 
    ATAGGTCTAA TGTGTGCTGT TGCTCTCCTC ATCTTAATTT TGCTGATTGT TTGCTTCATC 
    AGAAGAAACA AGGGTGGTAA ATACCCAGTT AAAGAAAAGG AGGATGCTCA TGCAGACCCT 
    GAAATCCAGC CCATGAAGGA AGATGATGGG ACGTTTGGAG AATACAGGTC TTTTGAAAGT 
    GATGCAGAAG ATCACAAGCC TTTGAAAAAA GGAAGTCGAA CACCTTCAGA CAGGACTGTG 
    AAAAAAGAAG ATAGTGATGA TAGCCTGGTT GACTATGGAG AGGGGGTCAA CGGCCAATTC 
    AATGAGGATG GCTCCTTTAT TGGCCAATAC AGTGGTAAGA AAGAGAAAGA GCCAGCGGAG 
    GGAAATGAAA GCTCAGAGGC CCCTTCTCCT GTCAACGCAA TGAACTCCTT TGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_029484557.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029340417.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X17, mRNA.
    Price & Availability↑
    CloneID OMv68204
    Clone ID Related Accession (Same CDS sequence) XM_029484557.1
    Accession Version XM_029484557.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3648bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X13
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GCTGGTATTC CTCCACCTGA TGTAGGTGCA 
    GGCAAAGCAA TGGCAAGCCG GCAAGTGGAT ATTGCGACCC AAGGCTGGTT CATAGGTCTA 
    ATGTGTGCTG TTGCTCTCCT CATCTTAATT TTGCTGATTG TTTGCTTCAT CAGAAGAAAC 
    AAGGGTGGTA AATACCCAGT TAAAGAAAAG GAGGATGCTC ATGCAGACCC TGAAATCCAG 
    CCCATGAAGG AAGATGATGG GACGTTTGGA GAATACAGGT CTTTTGAAAG TGATGCAGAA 
    GATCACAAGC CTTTGAAAAA AGGAAGTCGA ACACCTTCAG ACAGGACTGT GAAAAAAGAA 
    GATAGTGATG ATAGCCTGGT TGACTATGGA GAGGGGGTCA ACGGCCAATT CAATGAGGAT 
    GGCTCCTTTA TTGGCCAATA CAGTGGTAAG AAAGAGAAAG AGCCAGCGGA GGGAAATGAA 
    AGCTCAGAGG CCCCTTCTCC TGTCAACGCA ATGAACTCCT TTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029340417.1
    CDS500..4147
    Translation

    Target ORF information:

    RefSeq Version XM_029484557.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X17, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029484557.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GCTGGTATTC CTCCACCTGA TGTAGGTGCA 
    GGCAAAGCAA TGGCAAGCCG GCAAGTGGAT ATTGCGACCC AAGGCTGGTT CATAGGTCTA 
    ATGTGTGCTG TTGCTCTCCT CATCTTAATT TTGCTGATTG TTTGCTTCAT CAGAAGAAAC 
    AAGGGTGGTA AATACCCAGT TAAAGAAAAG GAGGATGCTC ATGCAGACCC TGAAATCCAG 
    CCCATGAAGG AAGATGATGG GACGTTTGGA GAATACAGGT CTTTTGAAAG TGATGCAGAA 
    GATCACAAGC CTTTGAAAAA AGGAAGTCGA ACACCTTCAG ACAGGACTGT GAAAAAAGAA 
    GATAGTGATG ATAGCCTGGT TGACTATGGA GAGGGGGTCA ACGGCCAATT CAATGAGGAT 
    GGCTCCTTTA TTGGCCAATA CAGTGGTAAG AAAGAGAAAG AGCCAGCGGA GGGAAATGAA 
    AGCTCAGAGG CCCCTTCTCC TGTCAACGCA ATGAACTCCT TTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_029484558.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029340418.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X18, mRNA.
    Price & Availability↑
    CloneID OMv68205
    Clone ID Related Accession (Same CDS sequence) XM_029484558.1
    Accession Version XM_029484558.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3645bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X14
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GGTAAGAAGG CTGGTATTCC TCCACCTGAT 
    GTAGGTGCAG GCAAAGCAAT GGCAAGCCGG CAAGTGGATA TTGCGACCCA AGGCTGGTTC 
    ATAGGTCTAA TGTGTGCTGT TGCTCTCCTC ATCTTAATTT TGCTGATTGT TTGCTTCATC 
    AGAAGAAACA AGGGTGGTAA ATACCCAGTT AAAGAAAAGG AGGATGCTCA TGCAGACCCT 
    GAAATCCAGC CCATGAAGGA AGATGATGGG ACGTTTGGAG AATACAGTGA TGCAGAAGAT 
    CACAAGCCTT TGAAAAAAGG AAGTCGAACA CCTTCAGACA GGACTGTGAA AAAAGAAGAT 
    AGTGATGATA GCCTGGTTGA CTATGGAGAG GGGGTCAACG GCCAATTCAA TGAGGATGGC 
    TCCTTTATTG GCCAATACAG TGGTAAGAAA GAGAAAGAGC CAGCGGAGGG AAATGAAAGC 
    TCAGAGGCCC CTTCTCCTGT CAACGCAATG AACTCCTTTG TTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029340418.1
    CDS500..4144
    Translation

    Target ORF information:

    RefSeq Version XM_029484558.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X18, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029484558.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GGTAAGAAGG CTGGTATTCC TCCACCTGAT 
    GTAGGTGCAG GCAAAGCAAT GGCAAGCCGG CAAGTGGATA TTGCGACCCA AGGCTGGTTC 
    ATAGGTCTAA TGTGTGCTGT TGCTCTCCTC ATCTTAATTT TGCTGATTGT TTGCTTCATC 
    AGAAGAAACA AGGGTGGTAA ATACCCAGTT AAAGAAAAGG AGGATGCTCA TGCAGACCCT 
    GAAATCCAGC CCATGAAGGA AGATGATGGG ACGTTTGGAG AATACAGTGA TGCAGAAGAT 
    CACAAGCCTT TGAAAAAAGG AAGTCGAACA CCTTCAGACA GGACTGTGAA AAAAGAAGAT 
    AGTGATGATA GCCTGGTTGA CTATGGAGAG GGGGTCAACG GCCAATTCAA TGAGGATGGC 
    TCCTTTATTG GCCAATACAG TGGTAAGAAA GAGAAAGAGC CAGCGGAGGG AAATGAAAGC 
    TCAGAGGCCC CTTCTCCTGT CAACGCAATG AACTCCTTTG TTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_029484559.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029340419.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X20, mRNA.
    Price & Availability↑
    CloneID OMv68206
    Clone ID Related Accession (Same CDS sequence) XM_029484559.1
    Accession Version XM_029484559.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3621bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X16
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GGTAAGAAGG CAATGGCAAG CCGGCAAGTG 
    GATATTGCGA CCCAAGGCTG GTTCATAGGT CTAATGTGTG CTGTTGCTCT CCTCATCTTA 
    ATTTTGCTGA TTGTTTGCTT CATCAGAAGA AACAAGGGTG GTAAATACCC AGTTAAAGAA 
    AAGGAGGATG CTCATGCAGA CCCTGAAATC CAGCCCATGA AGGAAGATGA TGGGACGTTT 
    GGAGAATACA GGTCTTTTGA AAGTGATGCA GAAGATCACA AGCCTTTGAA AAAAGGAAGT 
    CGAACACCTT CAGACAGGAC TGTGAAAAAA GAAGATAGTG ATGATAGCCT GGTTGACTAT 
    GGAGAGGGGG TCAACGGCCA ATTCAATGAG GATGGCTCCT TTATTGGCCA ATACAGTGGT 
    AAGAAAGAGA AAGAGCCAGC GGAGGGAAAT GAAAGCTCAG AGGCCCCTTC TCCTGTCAAC 
    GCAATGAACT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029340419.1
    CDS500..4120
    Translation

    Target ORF information:

    RefSeq Version XM_029484559.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X20, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029484559.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GGTAAGAAGG CAATGGCAAG CCGGCAAGTG 
    GATATTGCGA CCCAAGGCTG GTTCATAGGT CTAATGTGTG CTGTTGCTCT CCTCATCTTA 
    ATTTTGCTGA TTGTTTGCTT CATCAGAAGA AACAAGGGTG GTAAATACCC AGTTAAAGAA 
    AAGGAGGATG CTCATGCAGA CCCTGAAATC CAGCCCATGA AGGAAGATGA TGGGACGTTT 
    GGAGAATACA GGTCTTTTGA AAGTGATGCA GAAGATCACA AGCCTTTGAA AAAAGGAAGT 
    CGAACACCTT CAGACAGGAC TGTGAAAAAA GAAGATAGTG ATGATAGCCT GGTTGACTAT 
    GGAGAGGGGG TCAACGGCCA ATTCAATGAG GATGGCTCCT TTATTGGCCA ATACAGTGGT 
    AAGAAAGAGA AAGAGCCAGC GGAGGGAAAT GAAAGCTCAG AGGCCCCTTC TCCTGTCAAC 
    GCAATGAACT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_029484560.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029340420.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X21, mRNA.
    Price & Availability↑
    CloneID OMv68207
    Clone ID Related Accession (Same CDS sequence) XM_029484560.1
    Accession Version XM_029484560.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3612bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X17
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GCAATGGCAA GCCGGCAAGT GGATATTGCG 
    ACCCAAGGCT GGTTCATAGG TCTAATGTGT GCTGTTGCTC TCCTCATCTT AATTTTGCTG 
    ATTGTTTGCT TCATCAGAAG AAACAAGGGT GGTAAATACC CAGTTAAAGA AAAGGAGGAT 
    GCTCATGCAG ACCCTGAAAT CCAGCCCATG AAGGAAGATG ATGGGACGTT TGGAGAATAC 
    AGGTCTTTTG AAAGTGATGC AGAAGATCAC AAGCCTTTGA AAAAAGGAAG TCGAACACCT 
    TCAGACAGGA CTGTGAAAAA AGAAGATAGT GATGATAGCC TGGTTGACTA TGGAGAGGGG 
    GTCAACGGCC AATTCAATGA GGATGGCTCC TTTATTGGCC AATACAGTGG TAAGAAAGAG 
    AAAGAGCCAG CGGAGGGAAA TGAAAGCTCA GAGGCCCCTT CTCCTGTCAA CGCAATGAAC 
    TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029340420.1
    CDS500..4111
    Translation

    Target ORF information:

    RefSeq Version XM_029484560.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X21, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029484560.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GCAATGGCAA GCCGGCAAGT GGATATTGCG 
    ACCCAAGGCT GGTTCATAGG TCTAATGTGT GCTGTTGCTC TCCTCATCTT AATTTTGCTG 
    ATTGTTTGCT TCATCAGAAG AAACAAGGGT GGTAAATACC CAGTTAAAGA AAAGGAGGAT 
    GCTCATGCAG ACCCTGAAAT CCAGCCCATG AAGGAAGATG ATGGGACGTT TGGAGAATAC 
    AGGTCTTTTG AAAGTGATGC AGAAGATCAC AAGCCTTTGA AAAAAGGAAG TCGAACACCT 
    TCAGACAGGA CTGTGAAAAA AGAAGATAGT GATGATAGCC TGGTTGACTA TGGAGAGGGG 
    GTCAACGGCC AATTCAATGA GGATGGCTCC TTTATTGGCC AATACAGTGG TAAGAAAGAG 
    AAAGAGCCAG CGGAGGGAAA TGAAAGCTCA GAGGCCCCTT CTCCTGTCAA CGCAATGAAC 
    TCCTTTGTTT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_021179687.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021035346.2 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X22, mRNA.
    Price & Availability↑
    CloneID OMv68208
    Clone ID Related Accession (Same CDS sequence) XM_021179687.2
    Accession Version XM_021179687.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3609bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X18
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 10, 2019 this sequence version replaced XM_021179687.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GGTAAGAAGG CAATGGCAAG CCGGCAAGTG 
    GATATTGCGA CCCAAGGCTG GTTCATAGGT CTAATGTGTG CTGTTGCTCT CCTCATCTTA 
    ATTTTGCTGA TTGTTTGCTT CATCAGAAGA AACAAGGGTG GTAAATACCC AGTTAAAGAA 
    AAGGAGGATG CTCATGCAGA CCCTGAAATC CAGCCCATGA AGGAAGATGA TGGGACGTTT 
    GGAGAATACA GTGATGCAGA AGATCACAAG CCTTTGAAAA AAGGAAGTCG AACACCTTCA 
    GACAGGACTG TGAAAAAAGA AGATAGTGAT GATAGCCTGG TTGACTATGG AGAGGGGGTC 
    AACGGCCAAT TCAATGAGGA TGGCTCCTTT ATTGGCCAAT ACAGTGGTAA GAAAGAGAAA 
    GAGCCAGCGG AGGGAAATGA AAGCTCAGAG GCCCCTTCTC CTGTCAACGC AATGAACTCC 
    TTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_021035346.2
    CDS500..4108
    Translation

    Target ORF information:

    RefSeq Version XM_021179687.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X22, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021179687.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GGTAAGAAGG CAATGGCAAG CCGGCAAGTG 
    GATATTGCGA CCCAAGGCTG GTTCATAGGT CTAATGTGTG CTGTTGCTCT CCTCATCTTA 
    ATTTTGCTGA TTGTTTGCTT CATCAGAAGA AACAAGGGTG GTAAATACCC AGTTAAAGAA 
    AAGGAGGATG CTCATGCAGA CCCTGAAATC CAGCCCATGA AGGAAGATGA TGGGACGTTT 
    GGAGAATACA GTGATGCAGA AGATCACAAG CCTTTGAAAA AAGGAAGTCG AACACCTTCA 
    GACAGGACTG TGAAAAAAGA AGATAGTGAT GATAGCCTGG TTGACTATGG AGAGGGGGTC 
    AACGGCCAAT TCAATGAGGA TGGCTCCTTT ATTGGCCAAT ACAGTGGTAA GAAAGAGAAA 
    GAGCCAGCGG AGGGAAATGA AAGCTCAGAG GCCCCTTCTC CTGTCAACGC AATGAACTCC 
    TTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_021179688.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021035347.2 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X23, mRNA.
    Price & Availability↑
    CloneID OMv68209
    Clone ID Related Accession (Same CDS sequence) XM_021179688.2
    Accession Version XM_021179688.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3600bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X19
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 10, 2019 this sequence version replaced XM_021179688.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GCAATGGCAA GCCGGCAAGT GGATATTGCG 
    ACCCAAGGCT GGTTCATAGG TCTAATGTGT GCTGTTGCTC TCCTCATCTT AATTTTGCTG 
    ATTGTTTGCT TCATCAGAAG AAACAAGGGT GGTAAATACC CAGTTAAAGA AAAGGAGGAT 
    GCTCATGCAG ACCCTGAAAT CCAGCCCATG AAGGAAGATG ATGGGACGTT TGGAGAATAC 
    AGTGATGCAG AAGATCACAA GCCTTTGAAA AAAGGAAGTC GAACACCTTC AGACAGGACT 
    GTGAAAAAAG AAGATAGTGA TGATAGCCTG GTTGACTATG GAGAGGGGGT CAACGGCCAA 
    TTCAATGAGG ATGGCTCCTT TATTGGCCAA TACAGTGGTA AGAAAGAGAA AGAGCCAGCG 
    GAGGGAAATG AAAGCTCAGA GGCCCCTTCT CCTGTCAACG CAATGAACTC CTTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_021035347.2
    CDS500..4099
    Translation

    Target ORF information:

    RefSeq Version XM_021179688.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X23, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021179688.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GTGGATGAAT TGAATGACAC TATAGCTGCT AATTTGAGTG ACACTGAGTT TTATGGTGCT 
    AAATCTAGTA AAGAGAGGCC CCCAACGTTT CTAACTCCAG AGGGCAATGA AAGCCACAAA 
    GAGGAATTAA GAGGAAACGT GCTTTCGCTG GAGTGCATTG CGGAAGGCCT CCCTACTCCA 
    ATTATTTACT GGATCAAAGA AGACGGAACG CTTCCTGCCA ACCGGACATT TTATCGGAAC 
    TTTAAGAAAA CCTTGCAGAT CACTCATGTT TCCGAAGCCG ACTCTGGAAA TTATCAGTGC 
    ATAGCAAAAA ACGCATTAGG GGCCGTCCAT CACACCATTT CTGTCACTGT TAAAGCGGCT 
    CCCTACTGGA TCGTGGCACC TCAAAACCTC GTGCTTTCCC CGGGAGAGAA TGGGACCCTC 
    ATCTGCAGAG CTAATGGCAA CCCGAAACCC AGAATTAGCT GGTTAACAAA TGGAGTCCCA 
    ATAGAAATTG CTCTTGATGA CCCCAGCAGA AAAATAGATG GTGATACCAT TATATTTTCT 
    AATGTTCAAG AAAGCTCAAG TGCGGTTTAT CAGTGCAACG CCTCTAACAA ATATGGATAT 
    TTACTAGCAA ATGCATTTGT AAATGTTCTC GCTGAACCAC CTCGGATTCT CACATCAGCA 
    AACACTCTGT ACCAGGTCAT TGCAAACAGG CCTGCTTTGC TAGATTGTGC CTTCTTTGGA 
    TCTCCTATGC CTACCATTGA ATGGTTTAAA GGGACTAAAG GAAGCGCTCT TCATGAAGAC 
    ACTTATGTTT TGCATGATAA TGGAACATTA GAAATTCCCG TGGCCCAAAA GGATAGTACA 
    GGGACGTATA CTTGTGTCGC ACGGAATAAA CTAGGGATGG CAAAGAATGA AGTTCACTTG 
    GAAATCAAAG ATCCAACCAG GATCATTAAA CAACCTGAAT ATGCAGTCGT CCAGAGGGGG 
    AGCAAGGTGT CGTTTGAATG CAGAGTGAAA CATGACCACA CCTTAATTCC CACCATTCTG 
    TGGCTGAAGG ACAATGGAGA GCTGCCCAAT GATGAAAGGT TCTCCACTGA CAAGGATCAT 
    CTGGTGGTAT CTGATGTAAA GGATGACGAT GGTGGCACCT ACACATGTAC GGCCAACACA 
    ACGCTGGACA GTGCTTCGGC CAGCGCTGTG CTCAGGGTTG TCGCTCCTAC TCCAACTCCA 
    GCCCCCATTT ACGATGTCCC GAATCCTCCC TTTGATTTAG AATTGACCAA TCAACTTGAC 
    AAAAGTGTTC AGCTGACATG GACCCCAGGC GATGACAACA ATAGCCCCAT TACAAAATTC 
    ATCATTGAGT ATGAAGATGC AATGCATGAC GCAGGGCTGT GGCGCCACCA GGCTGAAGTT 
    TCTGGAACAC AGACCACAGC CCAACTGAAG CTGTCTCCCT ATGTGAACTA CTCCTTCCGT 
    GTCATGGCAG AGAACGGCAT TGGAAGAAGC ATGCCGAGCG AGGCATCTGA GCAGTACCTC 
    ACAAAAGCCG CAGAACCAGA TCAGAATCCC ATGGCTGTGG AAGGACTAGG GACAGAGCCG 
    GACAACTTGG TGATTACATG GAAGCCCCTG AATGGTTTTC AATCGAATGG GCCTGGCCTC 
    CAGTACAAAG TGAGCTGGCG CCAGAAAGAT GGTGACGATG AGTGGACGTC TGTAGTTGTG 
    GCCAATGTAT CCAAATACAT TGTTTCTGGC ACACCAACCT TTGTCCCATA CCTGATAAAA 
    GTTCAAGCTC TGAATGATGT GGGGTTTGCA CCAGAGCCAG CTGCAGTCAT GGGGCATTCT 
    GGAGAAGACC TTCCAATGGT GGCTCCTGGA AATGTTCGTG TCAGCGTGGT GAACAGTACG 
    CTGGCAGAGG TGCACTGGGA CCCAGTTCCT CCCAAGAGTG TCCGAGGACA CTTACAAGGC 
    TACCGGATTT ACTACTGGAA GACCCAGAGC TCCTCTAAAA GAAACAGGCG CCACATTGAG 
    AAGAAGATCC TCACCTTCCA GGGCACCAAG ACTCACGGCA TGCTGCCAGG GCTGCAGCCA 
    TACAGTCACT ATGCTCTCAA CGTCCGAGTG GTCAACGGGA AAGGGGAGGG CCCAGCCAGC 
    ACCGACAGAG GCTTCCATAC ACCGGAGGGA GTCCCTAGTG CTCCCTCATC TTTGAAAATT 
    GTTAATCCTA CACTGGACTC TCTCACTTTG GAGTGGGACC CACCAAGCCA CCCAAATGGC 
    ATCCTGACAG AGTACATCTT AAAATATCAG CCAATTAACA GCACACATGA GCTAGGCCCT 
    CTGGTAGATT TAAAAATTCC TGCCAACAAG ACCCGCTGGA CTTTGAAAAA TTTAAATTTC 
    AGCACTCGGT ACAAGTTCTA TTTCTATGCA CAGACATCAG TGGGGTCAGG GAGTCAGATC 
    ACAGAGGAAG CAATAACGAC TGTGGACGAA GCAATGGCAA GCCGGCAAGT GGATATTGCG 
    ACCCAAGGCT GGTTCATAGG TCTAATGTGT GCTGTTGCTC TCCTCATCTT AATTTTGCTG 
    ATTGTTTGCT TCATCAGAAG AAACAAGGGT GGTAAATACC CAGTTAAAGA AAAGGAGGAT 
    GCTCATGCAG ACCCTGAAAT CCAGCCCATG AAGGAAGATG ATGGGACGTT TGGAGAATAC 
    AGTGATGCAG AAGATCACAA GCCTTTGAAA AAAGGAAGTC GAACACCTTC AGACAGGACT 
    GTGAAAAAAG AAGATAGTGA TGATAGCCTG GTTGACTATG GAGAGGGGGT CAACGGCCAA 
    TTCAATGAGG ATGGCTCCTT TATTGGCCAA TACAGTGGTA AGAAAGAGAA AGAGCCAGCG 
    GAGGGAAATG AAAGCTCAGA GGCCCCTTCT CCTGTCAACG CAATGAACTC CTTTGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_029484561.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029340421.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X25, mRNA.
    Price & Availability↑
    CloneID OMv68210
    Clone ID Related Accession (Same CDS sequence) XM_029484561.1
    Accession Version XM_029484561.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3591bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X21
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GCTAAATCTA GTAAAGAGAG GCCCCCAACG TTTCTAACTC CAGAGGGCAA TGAAAGCCAC 
    AAAGAGGAAT TAAGAGGAAA CGTGCTTTCG CTGGAGTGCA TTGCGGAAGG CCTCCCTACT 
    CCAATTATTT ACTGGATCAA AGAAGACGGA ACGCTTCCTG CCAACCGGAC ATTTTATCGG 
    AACTTTAAGA AAACCTTGCA GATCACTCAT GTTTCCGAAG CCGACTCTGG AAATTATCAG 
    TGCATAGCAA AAAACGCATT AGGGGCCGTC CATCACACCA TTTCTGTCAC TGTTAAAGCG 
    GCTCCCTACT GGATCGTGGC ACCTCAAAAC CTCGTGCTTT CCCCGGGAGA GAATGGGACC 
    CTCATCTGCA GAGCTAATGG CAACCCGAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCTCTTGA TGACCCCAGC AGAAAAATAG ATGGTGATAC CATTATATTT 
    TCTAATGTTC AAGAAAGCTC AAGTGCGGTT TATCAGTGCA ACGCCTCTAA CAAATATGGA 
    TATTTACTAG CAAATGCATT TGTAAATGTT CTCGCTGAAC CACCTCGGAT TCTCACATCA 
    GCAAACACTC TGTACCAGGT CATTGCAAAC AGGCCTGCTT TGCTAGATTG TGCCTTCTTT 
    GGATCTCCTA TGCCTACCAT TGAATGGTTT AAAGGGACTA AAGGAAGCGC TCTTCATGAA 
    GACACTTATG TTTTGCATGA TAATGGAACA TTAGAAATTC CCGTGGCCCA AAAGGATAGT 
    ACAGGGACGT ATACTTGTGT CGCACGGAAT AAACTAGGGA TGGCAAAGAA TGAAGTTCAC 
    TTGGAAATCA AAGATCCAAC CAGGATCATT AAACAACCTG AATATGCAGT CGTCCAGAGG 
    GGGAGCAAGG TGTCGTTTGA ATGCAGAGTG AAACATGACC ACACCTTAAT TCCCACCATT 
    CTGTGGCTGA AGGACAATGG AGAGCTGCCC AATGATGAAA GGTTCTCCAC TGACAAGGAT 
    CATCTGGTGG TATCTGATGT AAAGGATGAC GATGGTGGCA CCTACACATG TACGGCCAAC 
    ACAACGCTGG ACAGTGCTTC GGCCAGCGCT GTGCTCAGGG TTGTCGCTCC TACTCCAACT 
    CCAGCCCCCA TTTACGATGT CCCGAATCCT CCCTTTGATT TAGAATTGAC CAATCAACTT 
    GACAAAAGTG TTCAGCTGAC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATTG AGTATGAAGA TGCAATGCAT GACGCAGGGC TGTGGCGCCA CCAGGCTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAACTG AAGCTGTCTC CCTATGTGAA CTACTCCTTC 
    CGTGTCATGG CAGAGAACGG CATTGGAAGA AGCATGCCGA GCGAGGCATC TGAGCAGTAC 
    CTCACAAAAG CCGCAGAACC AGATCAGAAT CCCATGGCTG TGGAAGGACT AGGGACAGAG 
    CCGGACAACT TGGTGATTAC ATGGAAGCCC CTGAATGGTT TTCAATCGAA TGGGCCTGGC 
    CTCCAGTACA AAGTGAGCTG GCGCCAGAAA GATGGTGACG ATGAGTGGAC GTCTGTAGTT 
    GTGGCCAATG TATCCAAATA CATTGTTTCT GGCACACCAA CCTTTGTCCC ATACCTGATA 
    AAAGTTCAAG CTCTGAATGA TGTGGGGTTT GCACCAGAGC CAGCTGCAGT CATGGGGCAT 
    TCTGGAGAAG ACCTTCCAAT GGTGGCTCCT GGAAATGTTC GTGTCAGCGT GGTGAACAGT 
    ACGCTGGCAG AGGTGCACTG GGACCCAGTT CCTCCCAAGA GTGTCCGAGG ACACTTACAA 
    GGCTACCGGA TTTACTACTG GAAGACCCAG AGCTCCTCTA AAAGAAACAG GCGCCACATT 
    GAGAAGAAGA TCCTCACCTT CCAGGGCACC AAGACTCACG GCATGCTGCC AGGGCTGCAG 
    CCATACAGTC ACTATGCTCT CAACGTCCGA GTGGTCAACG GGAAAGGGGA GGGCCCAGCC 
    AGCACCGACA GAGGCTTCCA TACACCGGAG GGAGTCCCTA GTGCTCCCTC ATCTTTGAAA 
    ATTGTTAATC CTACACTGGA CTCTCTCACT TTGGAGTGGG ACCCACCAAG CCACCCAAAT 
    GGCATCCTGA CAGAGTACAT CTTAAAATAT CAGCCAATTA ACAGCACACA TGAGCTAGGC 
    CCTCTGGTAG ATTTAAAAAT TCCTGCCAAC AAGACCCGCT GGACTTTGAA AAATTTAAAT 
    TTCAGCACTC GGTACAAGTT CTATTTCTAT GCACAGACAT CAGTGGGGTC AGGGAGTCAG 
    ATCACAGAGG AAGCAATAAC GACTGTGGAC GAAGCTGGTA TTCCTCCACC TGATGTAGGT 
    GCAGGCAAAG CAATGGCAAG CCGGCAAGTG GATATTGCGA CCCAAGGCTG GTTCATAGGT 
    CTAATGTGTG CTGTTGCTCT CCTCATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATACCC AGTTAAAGAA AAGGAGGATG CTCATGCAGA CCCTGAAATC 
    CAGCCCATGA AGGAAGATGA TGGGACGTTT GGAGAATACA GGTCTTTTGA AAGTGATGCA 
    GAAGATCACA AGCCTTTGAA AAAAGGAAGT CGAACACCTT CAGACAGGAC TGTGAAAAAA 
    GAAGATAGTG ATGATAGCCT GGTTGACTAT GGAGAGGGGG TCAACGGCCA ATTCAATGAG 
    GATGGCTCCT TTATTGGCCA ATACAGTGGT AAGAAAGAGA AAGAGCCAGC GGAGGGAAAT 
    GAAAGCTCAG AGGCCCCTTC TCCTGTCAAC GCAATGAACT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029340421.1
    CDS500..4090
    Translation

    Target ORF information:

    RefSeq Version XM_029484561.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X25, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029484561.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GCTAAATCTA GTAAAGAGAG GCCCCCAACG TTTCTAACTC CAGAGGGCAA TGAAAGCCAC 
    AAAGAGGAAT TAAGAGGAAA CGTGCTTTCG CTGGAGTGCA TTGCGGAAGG CCTCCCTACT 
    CCAATTATTT ACTGGATCAA AGAAGACGGA ACGCTTCCTG CCAACCGGAC ATTTTATCGG 
    AACTTTAAGA AAACCTTGCA GATCACTCAT GTTTCCGAAG CCGACTCTGG AAATTATCAG 
    TGCATAGCAA AAAACGCATT AGGGGCCGTC CATCACACCA TTTCTGTCAC TGTTAAAGCG 
    GCTCCCTACT GGATCGTGGC ACCTCAAAAC CTCGTGCTTT CCCCGGGAGA GAATGGGACC 
    CTCATCTGCA GAGCTAATGG CAACCCGAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCTCTTGA TGACCCCAGC AGAAAAATAG ATGGTGATAC CATTATATTT 
    TCTAATGTTC AAGAAAGCTC AAGTGCGGTT TATCAGTGCA ACGCCTCTAA CAAATATGGA 
    TATTTACTAG CAAATGCATT TGTAAATGTT CTCGCTGAAC CACCTCGGAT TCTCACATCA 
    GCAAACACTC TGTACCAGGT CATTGCAAAC AGGCCTGCTT TGCTAGATTG TGCCTTCTTT 
    GGATCTCCTA TGCCTACCAT TGAATGGTTT AAAGGGACTA AAGGAAGCGC TCTTCATGAA 
    GACACTTATG TTTTGCATGA TAATGGAACA TTAGAAATTC CCGTGGCCCA AAAGGATAGT 
    ACAGGGACGT ATACTTGTGT CGCACGGAAT AAACTAGGGA TGGCAAAGAA TGAAGTTCAC 
    TTGGAAATCA AAGATCCAAC CAGGATCATT AAACAACCTG AATATGCAGT CGTCCAGAGG 
    GGGAGCAAGG TGTCGTTTGA ATGCAGAGTG AAACATGACC ACACCTTAAT TCCCACCATT 
    CTGTGGCTGA AGGACAATGG AGAGCTGCCC AATGATGAAA GGTTCTCCAC TGACAAGGAT 
    CATCTGGTGG TATCTGATGT AAAGGATGAC GATGGTGGCA CCTACACATG TACGGCCAAC 
    ACAACGCTGG ACAGTGCTTC GGCCAGCGCT GTGCTCAGGG TTGTCGCTCC TACTCCAACT 
    CCAGCCCCCA TTTACGATGT CCCGAATCCT CCCTTTGATT TAGAATTGAC CAATCAACTT 
    GACAAAAGTG TTCAGCTGAC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATTG AGTATGAAGA TGCAATGCAT GACGCAGGGC TGTGGCGCCA CCAGGCTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAACTG AAGCTGTCTC CCTATGTGAA CTACTCCTTC 
    CGTGTCATGG CAGAGAACGG CATTGGAAGA AGCATGCCGA GCGAGGCATC TGAGCAGTAC 
    CTCACAAAAG CCGCAGAACC AGATCAGAAT CCCATGGCTG TGGAAGGACT AGGGACAGAG 
    CCGGACAACT TGGTGATTAC ATGGAAGCCC CTGAATGGTT TTCAATCGAA TGGGCCTGGC 
    CTCCAGTACA AAGTGAGCTG GCGCCAGAAA GATGGTGACG ATGAGTGGAC GTCTGTAGTT 
    GTGGCCAATG TATCCAAATA CATTGTTTCT GGCACACCAA CCTTTGTCCC ATACCTGATA 
    AAAGTTCAAG CTCTGAATGA TGTGGGGTTT GCACCAGAGC CAGCTGCAGT CATGGGGCAT 
    TCTGGAGAAG ACCTTCCAAT GGTGGCTCCT GGAAATGTTC GTGTCAGCGT GGTGAACAGT 
    ACGCTGGCAG AGGTGCACTG GGACCCAGTT CCTCCCAAGA GTGTCCGAGG ACACTTACAA 
    GGCTACCGGA TTTACTACTG GAAGACCCAG AGCTCCTCTA AAAGAAACAG GCGCCACATT 
    GAGAAGAAGA TCCTCACCTT CCAGGGCACC AAGACTCACG GCATGCTGCC AGGGCTGCAG 
    CCATACAGTC ACTATGCTCT CAACGTCCGA GTGGTCAACG GGAAAGGGGA GGGCCCAGCC 
    AGCACCGACA GAGGCTTCCA TACACCGGAG GGAGTCCCTA GTGCTCCCTC ATCTTTGAAA 
    ATTGTTAATC CTACACTGGA CTCTCTCACT TTGGAGTGGG ACCCACCAAG CCACCCAAAT 
    GGCATCCTGA CAGAGTACAT CTTAAAATAT CAGCCAATTA ACAGCACACA TGAGCTAGGC 
    CCTCTGGTAG ATTTAAAAAT TCCTGCCAAC AAGACCCGCT GGACTTTGAA AAATTTAAAT 
    TTCAGCACTC GGTACAAGTT CTATTTCTAT GCACAGACAT CAGTGGGGTC AGGGAGTCAG 
    ATCACAGAGG AAGCAATAAC GACTGTGGAC GAAGCTGGTA TTCCTCCACC TGATGTAGGT 
    GCAGGCAAAG CAATGGCAAG CCGGCAAGTG GATATTGCGA CCCAAGGCTG GTTCATAGGT 
    CTAATGTGTG CTGTTGCTCT CCTCATCTTA ATTTTGCTGA TTGTTTGCTT CATCAGAAGA 
    AACAAGGGTG GTAAATACCC AGTTAAAGAA AAGGAGGATG CTCATGCAGA CCCTGAAATC 
    CAGCCCATGA AGGAAGATGA TGGGACGTTT GGAGAATACA GGTCTTTTGA AAGTGATGCA 
    GAAGATCACA AGCCTTTGAA AAAAGGAAGT CGAACACCTT CAGACAGGAC TGTGAAAAAA 
    GAAGATAGTG ATGATAGCCT GGTTGACTAT GGAGAGGGGG TCAACGGCCA ATTCAATGAG 
    GATGGCTCCT TTATTGGCCA ATACAGTGGT AAGAAAGAGA AAGAGCCAGC GGAGGGAAAT 
    GAAAGCTCAG AGGCCCCTTC TCCTGTCAAC GCAATGAACT CCTTTGTTTA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_029484563.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029340423.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X28, mRNA.
    Price & Availability↑
    CloneID OMv68211
    Clone ID Related Accession (Same CDS sequence) XM_029484563.1
    Accession Version XM_029484563.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3564bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X24
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCTGGT ACAACCTCCA 
    ACCATCACTC AACAGTCACC AAAAGACTAC ATCATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAGG CCAAAGGGAA ACCTCCCCCA AGCTTTTCCT GGACTCGTAA TGGAACTCAT 
    TTTGACATAG ACAAGGACCC TCTGGTCACC ATGAAGCCTG GCTCAGGAAC CCTTGTCATC 
    AACATCATGA GTGAGGGGAA AGCAGAGACC TATGAAGGAG TCTACCAGTG CACTGCAAGG 
    AACGAGCGTG GAGCTGCCGT CTCCAATAAC ATTGTTGTCC GCCCATCTAG GTCACCCTTG 
    TGGACCAAGG AAAGACTTGA ACCCATAATA CTCCGGAATG GGCAGTCATT AGTACTTCCA 
    TGTAGGCCTC CGATTGGATT ACCTCCGGCC ATAATATTTT GGATGGATAA TTCCTTTCAG 
    AGACTTCCAC AGAGTGAGCG GGTTTCCCAA GGCCTAAATG GAGACCTTTA CTTCTCCAAT 
    GTCCTCCCAG AGGACACCCG TGAGGACTAT ATCTGCTATG CTAGATTTAA TCACACTCAA 
    ACCATCCAAC AGAAGCAGCC TATTTCTTTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCTAG TAAAGAGAGG 
    CCCCCAACGT TTCTAACTCC AGAGGGCAAT GAAAGCCACA AAGAGGAATT AAGAGGAAAC 
    GTGCTTTCGC TGGAGTGCAT TGCGGAAGGC CTCCCTACTC CAATTATTTA CTGGATCAAA 
    GAAGACGGAA CGCTTCCTGC CAACCGGACA TTTTATCGGA ACTTTAAGAA AACCTTGCAG 
    ATCACTCATG TTTCCGAAGC CGACTCTGGA AATTATCAGT GCATAGCAAA AAACGCATTA 
    GGGGCCGTCC ATCACACCAT TTCTGTCACT GTTAAAGCGG CTCCCTACTG GATCGTGGCA 
    CCTCAAAACC TCGTGCTTTC CCCGGGAGAG AATGGGACCC TCATCTGCAG AGCTAATGGC 
    AACCCGAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCTCTTGAT 
    GACCCCAGCA GAAAAATAGA TGGTGATACC ATTATATTTT CTAATGTTCA AGAAAGCTCA 
    AGTGCGGTTT ATCAGTGCAA CGCCTCTAAC AAATATGGAT ATTTACTAGC AAATGCATTT 
    GTAAATGTTC TCGCTGAACC ACCTCGGATT CTCACATCAG CAAACACTCT GTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT GCTAGATTGT GCCTTCTTTG GATCTCCTAT GCCTACCATT 
    GAATGGTTTA AAGGGACTAA AGGAAGCGCT CTTCATGAAG ACACTTATGT TTTGCATGAT 
    AATGGAACAT TAGAAATTCC CGTGGCCCAA AAGGATAGTA CAGGGACGTA TACTTGTGTC 
    GCACGGAATA AACTAGGGAT GGCAAAGAAT GAAGTTCACT TGGAAATCAA AGATCCAACC 
    AGGATCATTA AACAACCTGA ATATGCAGTC GTCCAGAGGG GGAGCAAGGT GTCGTTTGAA 
    TGCAGAGTGA AACATGACCA CACCTTAATT CCCACCATTC TGTGGCTGAA GGACAATGGA 
    GAGCTGCCCA ATGATGAAAG GTTCTCCACT GACAAGGATC ATCTGGTGGT ATCTGATGTA 
    AAGGATGACG ATGGTGGCAC CTACACATGT ACGGCCAACA CAACGCTGGA CAGTGCTTCG 
    GCCAGCGCTG TGCTCAGGGT TGTCGATGTC CCGAATCCTC CCTTTGATTT AGAATTGACC 
    AATCAACTTG ACAAAAGTGT TCAGCTGACA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATTGA GTATGAAGAT GCAATGCATG ACGCAGGGCT GTGGCGCCAC 
    CAGGCTGAAG TTTCTGGAAC ACAGACCACA GCCCAACTGA AGCTGTCTCC CTATGTGAAC 
    TACTCCTTCC GTGTCATGGC AGAGAACGGC ATTGGAAGAA GCATGCCGAG CGAGGCATCT 
    GAGCAGTACC TCACAAAAGC CGCAGAACCA GATCAGAATC CCATGGCTGT GGAAGGACTA 
    GGGACAGAGC CGGACAACTT GGTGATTACA TGGAAGCCCC TGAATGGTTT TCAATCGAAT 
    GGGCCTGGCC TCCAGTACAA AGTGAGCTGG CGCCAGAAAG ATGGTGACGA TGAGTGGACG 
    TCTGTAGTTG TGGCCAATGT ATCCAAATAC ATTGTTTCTG GCACACCAAC CTTTGTCCCA 
    TACCTGATAA AAGTTCAAGC TCTGAATGAT GTGGGGTTTG CACCAGAGCC AGCTGCAGTC 
    ATGGGGCATT CTGGAGAAGA CCTTCCAATG GTGGCTCCTG GAAATGTTCG TGTCAGCGTG 
    GTGAACAGTA CGCTGGCAGA GGTGCACTGG GACCCAGTTC CTCCCAAGAG TGTCCGAGGA 
    CACTTACAAG GCTACCGGAT TTACTACTGG AAGACCCAGA GCTCCTCTAA AAGAAACAGG 
    CGCCACATTG AGAAGAAGAT CCTCACCTTC CAGGGCACCA AGACTCACGG CATGCTGCCA 
    GGGCTGCAGC CATACAGTCA CTATGCTCTC AACGTCCGAG TGGTCAACGG GAAAGGGGAG 
    GGCCCAGCCA GCACCGACAG AGGCTTCCAT ACACCGGAGG GAGTCCCTAG TGCTCCCTCA 
    TCTTTGAAAA TTGTTAATCC TACACTGGAC TCTCTCACTT TGGAGTGGGA CCCACCAAGC 
    CACCCAAATG GCATCCTGAC AGAGTACATC TTAAAATATC AGCCAATTAA CAGCACACAT 
    GAGCTAGGCC CTCTGGTAGA TTTAAAAATT CCTGCCAACA AGACCCGCTG GACTTTGAAA 
    AATTTAAATT TCAGCACTCG GTACAAGTTC TATTTCTATG CACAGACATC AGTGGGGTCA 
    GGGAGTCAGA TCACAGAGGA AGCAATAACG ACTGTGGACG AAGCAATGGC AAGCCGGCAA 
    GTGGATATTG CGACCCAAGG CTGGTTCATA GGTCTAATGT GTGCTGTTGC TCTCCTCATC 
    TTAATTTTGC TGATTGTTTG CTTCATCAGA AGAAACAAGG GTGGTAAATA CCCAGTTAAA 
    GAAAAGGAGG ATGCTCATGC AGACCCTGAA ATCCAGCCCA TGAAGGAAGA TGATGGGACG 
    TTTGGAGAAT ACAGGTCTTT TGAAAGTGAT GCAGAAGATC ACAAGCCTTT GAAAAAAGGA 
    AGTCGAACAC CTTCAGACAG GACTGTGAAA AAAGAAGATA GTGATGATAG CCTGGTTGAC 
    TATGGAGAGG GGGTCAACGG CCAATTCAAT GAGGATGGCT CCTTTATTGG CCAATACAGT 
    GGTAAGAAAG AGAAAGAGCC AGCGGAGGGA AATGAAAGCT CAGAGGCCCC TTCTCCTGTC 
    AACGCAATGA ACTCCTTTGT TTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029340423.1
    CDS500..4063
    Translation

    Target ORF information:

    RefSeq Version XM_029484563.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X28, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029484563.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCTGGT ACAACCTCCA 
    ACCATCACTC AACAGTCACC AAAAGACTAC ATCATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAGG CCAAAGGGAA ACCTCCCCCA AGCTTTTCCT GGACTCGTAA TGGAACTCAT 
    TTTGACATAG ACAAGGACCC TCTGGTCACC ATGAAGCCTG GCTCAGGAAC CCTTGTCATC 
    AACATCATGA GTGAGGGGAA AGCAGAGACC TATGAAGGAG TCTACCAGTG CACTGCAAGG 
    AACGAGCGTG GAGCTGCCGT CTCCAATAAC ATTGTTGTCC GCCCATCTAG GTCACCCTTG 
    TGGACCAAGG AAAGACTTGA ACCCATAATA CTCCGGAATG GGCAGTCATT AGTACTTCCA 
    TGTAGGCCTC CGATTGGATT ACCTCCGGCC ATAATATTTT GGATGGATAA TTCCTTTCAG 
    AGACTTCCAC AGAGTGAGCG GGTTTCCCAA GGCCTAAATG GAGACCTTTA CTTCTCCAAT 
    GTCCTCCCAG AGGACACCCG TGAGGACTAT ATCTGCTATG CTAGATTTAA TCACACTCAA 
    ACCATCCAAC AGAAGCAGCC TATTTCTTTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCTAG TAAAGAGAGG 
    CCCCCAACGT TTCTAACTCC AGAGGGCAAT GAAAGCCACA AAGAGGAATT AAGAGGAAAC 
    GTGCTTTCGC TGGAGTGCAT TGCGGAAGGC CTCCCTACTC CAATTATTTA CTGGATCAAA 
    GAAGACGGAA CGCTTCCTGC CAACCGGACA TTTTATCGGA ACTTTAAGAA AACCTTGCAG 
    ATCACTCATG TTTCCGAAGC CGACTCTGGA AATTATCAGT GCATAGCAAA AAACGCATTA 
    GGGGCCGTCC ATCACACCAT TTCTGTCACT GTTAAAGCGG CTCCCTACTG GATCGTGGCA 
    CCTCAAAACC TCGTGCTTTC CCCGGGAGAG AATGGGACCC TCATCTGCAG AGCTAATGGC 
    AACCCGAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCTCTTGAT 
    GACCCCAGCA GAAAAATAGA TGGTGATACC ATTATATTTT CTAATGTTCA AGAAAGCTCA 
    AGTGCGGTTT ATCAGTGCAA CGCCTCTAAC AAATATGGAT ATTTACTAGC AAATGCATTT 
    GTAAATGTTC TCGCTGAACC ACCTCGGATT CTCACATCAG CAAACACTCT GTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT GCTAGATTGT GCCTTCTTTG GATCTCCTAT GCCTACCATT 
    GAATGGTTTA AAGGGACTAA AGGAAGCGCT CTTCATGAAG ACACTTATGT TTTGCATGAT 
    AATGGAACAT TAGAAATTCC CGTGGCCCAA AAGGATAGTA CAGGGACGTA TACTTGTGTC 
    GCACGGAATA AACTAGGGAT GGCAAAGAAT GAAGTTCACT TGGAAATCAA AGATCCAACC 
    AGGATCATTA AACAACCTGA ATATGCAGTC GTCCAGAGGG GGAGCAAGGT GTCGTTTGAA 
    TGCAGAGTGA AACATGACCA CACCTTAATT CCCACCATTC TGTGGCTGAA GGACAATGGA 
    GAGCTGCCCA ATGATGAAAG GTTCTCCACT GACAAGGATC ATCTGGTGGT ATCTGATGTA 
    AAGGATGACG ATGGTGGCAC CTACACATGT ACGGCCAACA CAACGCTGGA CAGTGCTTCG 
    GCCAGCGCTG TGCTCAGGGT TGTCGATGTC CCGAATCCTC CCTTTGATTT AGAATTGACC 
    AATCAACTTG ACAAAAGTGT TCAGCTGACA TGGACCCCAG GCGATGACAA CAATAGCCCC 
    ATTACAAAAT TCATCATTGA GTATGAAGAT GCAATGCATG ACGCAGGGCT GTGGCGCCAC 
    CAGGCTGAAG TTTCTGGAAC ACAGACCACA GCCCAACTGA AGCTGTCTCC CTATGTGAAC 
    TACTCCTTCC GTGTCATGGC AGAGAACGGC ATTGGAAGAA GCATGCCGAG CGAGGCATCT 
    GAGCAGTACC TCACAAAAGC CGCAGAACCA GATCAGAATC CCATGGCTGT GGAAGGACTA 
    GGGACAGAGC CGGACAACTT GGTGATTACA TGGAAGCCCC TGAATGGTTT TCAATCGAAT 
    GGGCCTGGCC TCCAGTACAA AGTGAGCTGG CGCCAGAAAG ATGGTGACGA TGAGTGGACG 
    TCTGTAGTTG TGGCCAATGT ATCCAAATAC ATTGTTTCTG GCACACCAAC CTTTGTCCCA 
    TACCTGATAA AAGTTCAAGC TCTGAATGAT GTGGGGTTTG CACCAGAGCC AGCTGCAGTC 
    ATGGGGCATT CTGGAGAAGA CCTTCCAATG GTGGCTCCTG GAAATGTTCG TGTCAGCGTG 
    GTGAACAGTA CGCTGGCAGA GGTGCACTGG GACCCAGTTC CTCCCAAGAG TGTCCGAGGA 
    CACTTACAAG GCTACCGGAT TTACTACTGG AAGACCCAGA GCTCCTCTAA AAGAAACAGG 
    CGCCACATTG AGAAGAAGAT CCTCACCTTC CAGGGCACCA AGACTCACGG CATGCTGCCA 
    GGGCTGCAGC CATACAGTCA CTATGCTCTC AACGTCCGAG TGGTCAACGG GAAAGGGGAG 
    GGCCCAGCCA GCACCGACAG AGGCTTCCAT ACACCGGAGG GAGTCCCTAG TGCTCCCTCA 
    TCTTTGAAAA TTGTTAATCC TACACTGGAC TCTCTCACTT TGGAGTGGGA CCCACCAAGC 
    CACCCAAATG GCATCCTGAC AGAGTACATC TTAAAATATC AGCCAATTAA CAGCACACAT 
    GAGCTAGGCC CTCTGGTAGA TTTAAAAATT CCTGCCAACA AGACCCGCTG GACTTTGAAA 
    AATTTAAATT TCAGCACTCG GTACAAGTTC TATTTCTATG CACAGACATC AGTGGGGTCA 
    GGGAGTCAGA TCACAGAGGA AGCAATAACG ACTGTGGACG AAGCAATGGC AAGCCGGCAA 
    GTGGATATTG CGACCCAAGG CTGGTTCATA GGTCTAATGT GTGCTGTTGC TCTCCTCATC 
    TTAATTTTGC TGATTGTTTG CTTCATCAGA AGAAACAAGG GTGGTAAATA CCCAGTTAAA 
    GAAAAGGAGG ATGCTCATGC AGACCCTGAA ATCCAGCCCA TGAAGGAAGA TGATGGGACG 
    TTTGGAGAAT ACAGGTCTTT TGAAAGTGAT GCAGAAGATC ACAAGCCTTT GAAAAAAGGA 
    AGTCGAACAC CTTCAGACAG GACTGTGAAA AAAGAAGATA GTGATGATAG CCTGGTTGAC 
    TATGGAGAGG GGGTCAACGG CCAATTCAAT GAGGATGGCT CCTTTATTGG CCAATACAGT 
    GGTAAGAAAG AGAAAGAGCC AGCGGAGGGA AATGAAAGCT CAGAGGCCCC TTCTCCTGTC 
    AACGCAATGA ACTCCTTTGT TTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_029484564.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029340424.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X30, mRNA.
    Price & Availability↑
    CloneID OMv68212
    Clone ID Related Accession (Same CDS sequence) XM_029484564.1
    Accession Version XM_029484564.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3555bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X26
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GCTAAATCTA GTAAAGAGAG GCCCCCAACG TTTCTAACTC CAGAGGGCAA TGAAAGCCAC 
    AAAGAGGAAT TAAGAGGAAA CGTGCTTTCG CTGGAGTGCA TTGCGGAAGG CCTCCCTACT 
    CCAATTATTT ACTGGATCAA AGAAGACGGA ACGCTTCCTG CCAACCGGAC ATTTTATCGG 
    AACTTTAAGA AAACCTTGCA GATCACTCAT GTTTCCGAAG CCGACTCTGG AAATTATCAG 
    TGCATAGCAA AAAACGCATT AGGGGCCGTC CATCACACCA TTTCTGTCAC TGTTAAAGCG 
    GCTCCCTACT GGATCGTGGC ACCTCAAAAC CTCGTGCTTT CCCCGGGAGA GAATGGGACC 
    CTCATCTGCA GAGCTAATGG CAACCCGAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCTCTTGA TGACCCCAGC AGAAAAATAG ATGGTGATAC CATTATATTT 
    TCTAATGTTC AAGAAAGCTC AAGTGCGGTT TATCAGTGCA ACGCCTCTAA CAAATATGGA 
    TATTTACTAG CAAATGCATT TGTAAATGTT CTCGCTGAAC CACCTCGGAT TCTCACATCA 
    GCAAACACTC TGTACCAGGT CATTGCAAAC AGGCCTGCTT TGCTAGATTG TGCCTTCTTT 
    GGATCTCCTA TGCCTACCAT TGAATGGTTT AAAGGGACTA AAGGAAGCGC TCTTCATGAA 
    GACACTTATG TTTTGCATGA TAATGGAACA TTAGAAATTC CCGTGGCCCA AAAGGATAGT 
    ACAGGGACGT ATACTTGTGT CGCACGGAAT AAACTAGGGA TGGCAAAGAA TGAAGTTCAC 
    TTGGAAATCA AAGATCCAAC CAGGATCATT AAACAACCTG AATATGCAGT CGTCCAGAGG 
    GGGAGCAAGG TGTCGTTTGA ATGCAGAGTG AAACATGACC ACACCTTAAT TCCCACCATT 
    CTGTGGCTGA AGGACAATGG AGAGCTGCCC AATGATGAAA GGTTCTCCAC TGACAAGGAT 
    CATCTGGTGG TATCTGATGT AAAGGATGAC GATGGTGGCA CCTACACATG TACGGCCAAC 
    ACAACGCTGG ACAGTGCTTC GGCCAGCGCT GTGCTCAGGG TTGTCGCTCC TACTCCAACT 
    CCAGCCCCCA TTTACGATGT CCCGAATCCT CCCTTTGATT TAGAATTGAC CAATCAACTT 
    GACAAAAGTG TTCAGCTGAC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATTG AGTATGAAGA TGCAATGCAT GACGCAGGGC TGTGGCGCCA CCAGGCTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAACTG AAGCTGTCTC CCTATGTGAA CTACTCCTTC 
    CGTGTCATGG CAGAGAACGG CATTGGAAGA AGCATGCCGA GCGAGGCATC TGAGCAGTAC 
    CTCACAAAAG CCGCAGAACC AGATCAGAAT CCCATGGCTG TGGAAGGACT AGGGACAGAG 
    CCGGACAACT TGGTGATTAC ATGGAAGCCC CTGAATGGTT TTCAATCGAA TGGGCCTGGC 
    CTCCAGTACA AAGTGAGCTG GCGCCAGAAA GATGGTGACG ATGAGTGGAC GTCTGTAGTT 
    GTGGCCAATG TATCCAAATA CATTGTTTCT GGCACACCAA CCTTTGTCCC ATACCTGATA 
    AAAGTTCAAG CTCTGAATGA TGTGGGGTTT GCACCAGAGC CAGCTGCAGT CATGGGGCAT 
    TCTGGAGAAG ACCTTCCAAT GGTGGCTCCT GGAAATGTTC GTGTCAGCGT GGTGAACAGT 
    ACGCTGGCAG AGGTGCACTG GGACCCAGTT CCTCCCAAGA GTGTCCGAGG ACACTTACAA 
    GGCTACCGGA TTTACTACTG GAAGACCCAG AGCTCCTCTA AAAGAAACAG GCGCCACATT 
    GAGAAGAAGA TCCTCACCTT CCAGGGCACC AAGACTCACG GCATGCTGCC AGGGCTGCAG 
    CCATACAGTC ACTATGCTCT CAACGTCCGA GTGGTCAACG GGAAAGGGGA GGGCCCAGCC 
    AGCACCGACA GAGGCTTCCA TACACCGGAG GGAGTCCCTA GTGCTCCCTC ATCTTTGAAA 
    ATTGTTAATC CTACACTGGA CTCTCTCACT TTGGAGTGGG ACCCACCAAG CCACCCAAAT 
    GGCATCCTGA CAGAGTACAT CTTAAAATAT CAGCCAATTA ACAGCACACA TGAGCTAGGC 
    CCTCTGGTAG ATTTAAAAAT TCCTGCCAAC AAGACCCGCT GGACTTTGAA AAATTTAAAT 
    TTCAGCACTC GGTACAAGTT CTATTTCTAT GCACAGACAT CAGTGGGGTC AGGGAGTCAG 
    ATCACAGAGG AAGCAATAAC GACTGTGGAC GAAGCAATGG CAAGCCGGCA AGTGGATATT 
    GCGACCCAAG GCTGGTTCAT AGGTCTAATG TGTGCTGTTG CTCTCCTCAT CTTAATTTTG 
    CTGATTGTTT GCTTCATCAG AAGAAACAAG GGTGGTAAAT ACCCAGTTAA AGAAAAGGAG 
    GATGCTCATG CAGACCCTGA AATCCAGCCC ATGAAGGAAG ATGATGGGAC GTTTGGAGAA 
    TACAGGTCTT TTGAAAGTGA TGCAGAAGAT CACAAGCCTT TGAAAAAAGG AAGTCGAACA 
    CCTTCAGACA GGACTGTGAA AAAAGAAGAT AGTGATGATA GCCTGGTTGA CTATGGAGAG 
    GGGGTCAACG GCCAATTCAA TGAGGATGGC TCCTTTATTG GCCAATACAG TGGTAAGAAA 
    GAGAAAGAGC CAGCGGAGGG AAATGAAAGC TCAGAGGCCC CTTCTCCTGT CAACGCAATG 
    AACTCCTTTG TTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029340424.1
    CDS500..4054
    Translation

    Target ORF information:

    RefSeq Version XM_029484564.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X30, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029484564.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCCAAA GCTCCTTCAT 
    GACTTGGTAC AACCTCCAAC CATCACTCAA CAGTCACCAA AAGACTACAT CATTGACCCT 
    CGGGAGAATA TTGTAATCCA GTGTGAGGCC AAAGGGAAAC CTCCCCCAAG CTTTTCCTGG 
    ACTCGTAATG GAACTCATTT TGACATAGAC AAGGACCCTC TGGTCACCAT GAAGCCTGGC 
    TCAGGAACCC TTGTCATCAA CATCATGAGT GAGGGGAAAG CAGAGACCTA TGAAGGAGTC 
    TACCAGTGCA CTGCAAGGAA CGAGCGTGGA GCTGCCGTCT CCAATAACAT TGTTGTCCGC 
    CCATCTAGGT CACCCTTGTG GACCAAGGAA AGACTTGAAC CCATAATACT CCGGAATGGG 
    CAGTCATTAG TACTTCCATG TAGGCCTCCG ATTGGATTAC CTCCGGCCAT AATATTTTGG 
    ATGGATAATT CCTTTCAGAG ACTTCCACAG AGTGAGCGGG TTTCCCAAGG CCTAAATGGA 
    GACCTTTACT TCTCCAATGT CCTCCCAGAG GACACCCGTG AGGACTATAT CTGCTATGCT 
    AGATTTAATC ACACTCAAAC CATCCAACAG AAGCAGCCTA TTTCTTTGAA GGTGATTTCA 
    GCTAAATCTA GTAAAGAGAG GCCCCCAACG TTTCTAACTC CAGAGGGCAA TGAAAGCCAC 
    AAAGAGGAAT TAAGAGGAAA CGTGCTTTCG CTGGAGTGCA TTGCGGAAGG CCTCCCTACT 
    CCAATTATTT ACTGGATCAA AGAAGACGGA ACGCTTCCTG CCAACCGGAC ATTTTATCGG 
    AACTTTAAGA AAACCTTGCA GATCACTCAT GTTTCCGAAG CCGACTCTGG AAATTATCAG 
    TGCATAGCAA AAAACGCATT AGGGGCCGTC CATCACACCA TTTCTGTCAC TGTTAAAGCG 
    GCTCCCTACT GGATCGTGGC ACCTCAAAAC CTCGTGCTTT CCCCGGGAGA GAATGGGACC 
    CTCATCTGCA GAGCTAATGG CAACCCGAAA CCCAGAATTA GCTGGTTAAC AAATGGAGTC 
    CCAATAGAAA TTGCTCTTGA TGACCCCAGC AGAAAAATAG ATGGTGATAC CATTATATTT 
    TCTAATGTTC AAGAAAGCTC AAGTGCGGTT TATCAGTGCA ACGCCTCTAA CAAATATGGA 
    TATTTACTAG CAAATGCATT TGTAAATGTT CTCGCTGAAC CACCTCGGAT TCTCACATCA 
    GCAAACACTC TGTACCAGGT CATTGCAAAC AGGCCTGCTT TGCTAGATTG TGCCTTCTTT 
    GGATCTCCTA TGCCTACCAT TGAATGGTTT AAAGGGACTA AAGGAAGCGC TCTTCATGAA 
    GACACTTATG TTTTGCATGA TAATGGAACA TTAGAAATTC CCGTGGCCCA AAAGGATAGT 
    ACAGGGACGT ATACTTGTGT CGCACGGAAT AAACTAGGGA TGGCAAAGAA TGAAGTTCAC 
    TTGGAAATCA AAGATCCAAC CAGGATCATT AAACAACCTG AATATGCAGT CGTCCAGAGG 
    GGGAGCAAGG TGTCGTTTGA ATGCAGAGTG AAACATGACC ACACCTTAAT TCCCACCATT 
    CTGTGGCTGA AGGACAATGG AGAGCTGCCC AATGATGAAA GGTTCTCCAC TGACAAGGAT 
    CATCTGGTGG TATCTGATGT AAAGGATGAC GATGGTGGCA CCTACACATG TACGGCCAAC 
    ACAACGCTGG ACAGTGCTTC GGCCAGCGCT GTGCTCAGGG TTGTCGCTCC TACTCCAACT 
    CCAGCCCCCA TTTACGATGT CCCGAATCCT CCCTTTGATT TAGAATTGAC CAATCAACTT 
    GACAAAAGTG TTCAGCTGAC ATGGACCCCA GGCGATGACA ACAATAGCCC CATTACAAAA 
    TTCATCATTG AGTATGAAGA TGCAATGCAT GACGCAGGGC TGTGGCGCCA CCAGGCTGAA 
    GTTTCTGGAA CACAGACCAC AGCCCAACTG AAGCTGTCTC CCTATGTGAA CTACTCCTTC 
    CGTGTCATGG CAGAGAACGG CATTGGAAGA AGCATGCCGA GCGAGGCATC TGAGCAGTAC 
    CTCACAAAAG CCGCAGAACC AGATCAGAAT CCCATGGCTG TGGAAGGACT AGGGACAGAG 
    CCGGACAACT TGGTGATTAC ATGGAAGCCC CTGAATGGTT TTCAATCGAA TGGGCCTGGC 
    CTCCAGTACA AAGTGAGCTG GCGCCAGAAA GATGGTGACG ATGAGTGGAC GTCTGTAGTT 
    GTGGCCAATG TATCCAAATA CATTGTTTCT GGCACACCAA CCTTTGTCCC ATACCTGATA 
    AAAGTTCAAG CTCTGAATGA TGTGGGGTTT GCACCAGAGC CAGCTGCAGT CATGGGGCAT 
    TCTGGAGAAG ACCTTCCAAT GGTGGCTCCT GGAAATGTTC GTGTCAGCGT GGTGAACAGT 
    ACGCTGGCAG AGGTGCACTG GGACCCAGTT CCTCCCAAGA GTGTCCGAGG ACACTTACAA 
    GGCTACCGGA TTTACTACTG GAAGACCCAG AGCTCCTCTA AAAGAAACAG GCGCCACATT 
    GAGAAGAAGA TCCTCACCTT CCAGGGCACC AAGACTCACG GCATGCTGCC AGGGCTGCAG 
    CCATACAGTC ACTATGCTCT CAACGTCCGA GTGGTCAACG GGAAAGGGGA GGGCCCAGCC 
    AGCACCGACA GAGGCTTCCA TACACCGGAG GGAGTCCCTA GTGCTCCCTC ATCTTTGAAA 
    ATTGTTAATC CTACACTGGA CTCTCTCACT TTGGAGTGGG ACCCACCAAG CCACCCAAAT 
    GGCATCCTGA CAGAGTACAT CTTAAAATAT CAGCCAATTA ACAGCACACA TGAGCTAGGC 
    CCTCTGGTAG ATTTAAAAAT TCCTGCCAAC AAGACCCGCT GGACTTTGAA AAATTTAAAT 
    TTCAGCACTC GGTACAAGTT CTATTTCTAT GCACAGACAT CAGTGGGGTC AGGGAGTCAG 
    ATCACAGAGG AAGCAATAAC GACTGTGGAC GAAGCAATGG CAAGCCGGCA AGTGGATATT 
    GCGACCCAAG GCTGGTTCAT AGGTCTAATG TGTGCTGTTG CTCTCCTCAT CTTAATTTTG 
    CTGATTGTTT GCTTCATCAG AAGAAACAAG GGTGGTAAAT ACCCAGTTAA AGAAAAGGAG 
    GATGCTCATG CAGACCCTGA AATCCAGCCC ATGAAGGAAG ATGATGGGAC GTTTGGAGAA 
    TACAGGTCTT TTGAAAGTGA TGCAGAAGAT CACAAGCCTT TGAAAAAAGG AAGTCGAACA 
    CCTTCAGACA GGACTGTGAA AAAAGAAGAT AGTGATGATA GCCTGGTTGA CTATGGAGAG 
    GGGGTCAACG GCCAATTCAA TGAGGATGGC TCCTTTATTG GCCAATACAG TGGTAAGAAA 
    GAGAAAGAGC CAGCGGAGGG AAATGAAAGC TCAGAGGCCC CTTCTCCTGT CAACGCAATG 
    AACTCCTTTG TTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_029484565.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029340425.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X31, mRNA.
    Price & Availability↑
    CloneID OMv68213
    Clone ID Related Accession (Same CDS sequence) XM_029484565.1
    Accession Version XM_029484565.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3516bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X27
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCTGGT ACAACCTCCA 
    ACCATCACTC AACAGTCACC AAAAGACTAC ATCATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAGG CCAAAGGGAA ACCTCCCCCA AGCTTTTCCT GGACTCGTAA TGGAACTCAT 
    TTTGACATAG ACAAGGACCC TCTGGTCACC ATGAAGCCTG GCTCAGGAAC CCTTGTCATC 
    AACATCATGA GTGAGGGGAA AGCAGAGACC TATGAAGGAG TCTACCAGTG CACTGCAAGG 
    AACGAGCGTG GAGCTGCCGT CTCCAATAAC ATTGTTGTCC GCCCATCTAG GTCACCCTTG 
    TGGACCAAGG AAAGACTTGA ACCCATAATA CTCCGGAATG GGCAGTCATT AGTACTTCCA 
    TGTAGGCCTC CGATTGGATT ACCTCCGGCC ATAATATTTT GGATGGATAA TTCCTTTCAG 
    AGACTTCCAC AGAGTGAGCG GGTTTCCCAA GGCCTAAATG GAGACCTTTA CTTCTCCAAT 
    GTCCTCCCAG AGGACACCCG TGAGGACTAT ATCTGCTATG CTAGATTTAA TCACACTCAA 
    ACCATCCAAC AGAAGCAGCC TATTTCTTTG AAGGTGATTT CAGCTAAATC TAGTAAAGAG 
    AGGCCCCCAA CGTTTCTAAC TCCAGAGGGC AATGAAAGCC ACAAAGAGGA ATTAAGAGGA 
    AACGTGCTTT CGCTGGAGTG CATTGCGGAA GGCCTCCCTA CTCCAATTAT TTACTGGATC 
    AAAGAAGACG GAACGCTTCC TGCCAACCGG ACATTTTATC GGAACTTTAA GAAAACCTTG 
    CAGATCACTC ATGTTTCCGA AGCCGACTCT GGAAATTATC AGTGCATAGC AAAAAACGCA 
    TTAGGGGCCG TCCATCACAC CATTTCTGTC ACTGTTAAAG CGGCTCCCTA CTGGATCGTG 
    GCACCTCAAA ACCTCGTGCT TTCCCCGGGA GAGAATGGGA CCCTCATCTG CAGAGCTAAT 
    GGCAACCCGA AACCCAGAAT TAGCTGGTTA ACAAATGGAG TCCCAATAGA AATTGCTCTT 
    GATGACCCCA GCAGAAAAAT AGATGGTGAT ACCATTATAT TTTCTAATGT TCAAGAAAGC 
    TCAAGTGCGG TTTATCAGTG CAACGCCTCT AACAAATATG GATATTTACT AGCAAATGCA 
    TTTGTAAATG TTCTCGCTGA ACCACCTCGG ATTCTCACAT CAGCAAACAC TCTGTACCAG 
    GTCATTGCAA ACAGGCCTGC TTTGCTAGAT TGTGCCTTCT TTGGATCTCC TATGCCTACC 
    ATTGAATGGT TTAAAGGGAC TAAAGGAAGC GCTCTTCATG AAGACACTTA TGTTTTGCAT 
    GATAATGGAA CATTAGAAAT TCCCGTGGCC CAAAAGGATA GTACAGGGAC GTATACTTGT 
    GTCGCACGGA ATAAACTAGG GATGGCAAAG AATGAAGTTC ACTTGGAAAT CAAAGATCCA 
    ACCAGGATCA TTAAACAACC TGAATATGCA GTCGTCCAGA GGGGGAGCAA GGTGTCGTTT 
    GAATGCAGAG TGAAACATGA CCACACCTTA ATTCCCACCA TTCTGTGGCT GAAGGACAAT 
    GGAGAGCTGC CCAATGATGA AAGGTTCTCC ACTGACAAGG ATCATCTGGT GGTATCTGAT 
    GTAAAGGATG ACGATGGTGG CACCTACACA TGTACGGCCA ACACAACGCT GGACAGTGCT 
    TCGGCCAGCG CTGTGCTCAG GGTTGTCGAT GTCCCGAATC CTCCCTTTGA TTTAGAATTG 
    ACCAATCAAC TTGACAAAAG TGTTCAGCTG ACATGGACCC CAGGCGATGA CAACAATAGC 
    CCCATTACAA AATTCATCAT TGAGTATGAA GATGCAATGC ATGACGCAGG GCTGTGGCGC 
    CACCAGGCTG AAGTTTCTGG AACACAGACC ACAGCCCAAC TGAAGCTGTC TCCCTATGTG 
    AACTACTCCT TCCGTGTCAT GGCAGAGAAC GGCATTGGAA GAAGCATGCC GAGCGAGGCA 
    TCTGAGCAGT ACCTCACAAA AGCCGCAGAA CCAGATCAGA ATCCCATGGC TGTGGAAGGA 
    CTAGGGACAG AGCCGGACAA CTTGGTGATT ACATGGAAGC CCCTGAATGG TTTTCAATCG 
    AATGGGCCTG GCCTCCAGTA CAAAGTGAGC TGGCGCCAGA AAGATGGTGA CGATGAGTGG 
    ACGTCTGTAG TTGTGGCCAA TGTATCCAAA TACATTGTTT CTGGCACACC AACCTTTGTC 
    CCATACCTGA TAAAAGTTCA AGCTCTGAAT GATGTGGGGT TTGCACCAGA GCCAGCTGCA 
    GTCATGGGGC ATTCTGGAGA AGACCTTCCA ATGGTGGCTC CTGGAAATGT TCGTGTCAGC 
    GTGGTGAACA GTACGCTGGC AGAGGTGCAC TGGGACCCAG TTCCTCCCAA GAGTGTCCGA 
    GGACACTTAC AAGGCTACCG GATTTACTAC TGGAAGACCC AGAGCTCCTC TAAAAGAAAC 
    AGGCGCCACA TTGAGAAGAA GATCCTCACC TTCCAGGGCA CCAAGACTCA CGGCATGCTG 
    CCAGGGCTGC AGCCATACAG TCACTATGCT CTCAACGTCC GAGTGGTCAA CGGGAAAGGG 
    GAGGGCCCAG CCAGCACCGA CAGAGGCTTC CATACACCGG AGGGAGTCCC TAGTGCTCCC 
    TCATCTTTGA AAATTGTTAA TCCTACACTG GACTCTCTCA CTTTGGAGTG GGACCCACCA 
    AGCCACCCAA ATGGCATCCT GACAGAGTAC ATCTTAAAAT ATCAGCCAAT TAACAGCACA 
    CATGAGCTAG GCCCTCTGGT AGATTTAAAA ATTCCTGCCA ACAAGACCCG CTGGACTTTG 
    AAAAATTTAA ATTTCAGCAC TCGGTACAAG TTCTATTTCT ATGCACAGAC ATCAGTGGGG 
    TCAGGGAGTC AGATCACAGA GGAAGCAATA ACGACTGTGG ACGAAGGTAA GAAGGCAATG 
    GCAAGCCGGC AAGTGGATAT TGCGACCCAA GGCTGGTTCA TAGGTCTAAT GTGTGCTGTT 
    GCTCTCCTCA TCTTAATTTT GCTGATTGTT TGCTTCATCA GAAGAAACAA GGGTGGTAAA 
    TACCCAGTTA AAGAAAAGGA GGATGCTCAT GCAGACCCTG AAATCCAGCC CATGAAGGAA 
    GATGATGGGA CGTTTGGAGA ATACAGGTCT TTTGAAAGTG ATGCAGAAGA TCACAAGCCT 
    TTGAAAAAAG GAAGTCGAAC ACCTTCAGAC AGGACTGTGA AAAAAGAAGA TAGTGATGAT 
    AGCCTGGTTG ACTATGGAGA GGGGGTCAAC GGCCAATTCA ATGAGGATGG CTCCTTTATT 
    GGCCAATACA GTGGTAAGAA AGAGAAAGAG CCAGCGGAGG GAAATGAAAG CTCAGAGGCC 
    CCTTCTCCTG TCAACGCAAT GAACTCCTTT GTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029340425.1
    CDS500..4015
    Translation

    Target ORF information:

    RefSeq Version XM_029484565.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X31, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029484565.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCTGGT ACAACCTCCA 
    ACCATCACTC AACAGTCACC AAAAGACTAC ATCATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAGG CCAAAGGGAA ACCTCCCCCA AGCTTTTCCT GGACTCGTAA TGGAACTCAT 
    TTTGACATAG ACAAGGACCC TCTGGTCACC ATGAAGCCTG GCTCAGGAAC CCTTGTCATC 
    AACATCATGA GTGAGGGGAA AGCAGAGACC TATGAAGGAG TCTACCAGTG CACTGCAAGG 
    AACGAGCGTG GAGCTGCCGT CTCCAATAAC ATTGTTGTCC GCCCATCTAG GTCACCCTTG 
    TGGACCAAGG AAAGACTTGA ACCCATAATA CTCCGGAATG GGCAGTCATT AGTACTTCCA 
    TGTAGGCCTC CGATTGGATT ACCTCCGGCC ATAATATTTT GGATGGATAA TTCCTTTCAG 
    AGACTTCCAC AGAGTGAGCG GGTTTCCCAA GGCCTAAATG GAGACCTTTA CTTCTCCAAT 
    GTCCTCCCAG AGGACACCCG TGAGGACTAT ATCTGCTATG CTAGATTTAA TCACACTCAA 
    ACCATCCAAC AGAAGCAGCC TATTTCTTTG AAGGTGATTT CAGCTAAATC TAGTAAAGAG 
    AGGCCCCCAA CGTTTCTAAC TCCAGAGGGC AATGAAAGCC ACAAAGAGGA ATTAAGAGGA 
    AACGTGCTTT CGCTGGAGTG CATTGCGGAA GGCCTCCCTA CTCCAATTAT TTACTGGATC 
    AAAGAAGACG GAACGCTTCC TGCCAACCGG ACATTTTATC GGAACTTTAA GAAAACCTTG 
    CAGATCACTC ATGTTTCCGA AGCCGACTCT GGAAATTATC AGTGCATAGC AAAAAACGCA 
    TTAGGGGCCG TCCATCACAC CATTTCTGTC ACTGTTAAAG CGGCTCCCTA CTGGATCGTG 
    GCACCTCAAA ACCTCGTGCT TTCCCCGGGA GAGAATGGGA CCCTCATCTG CAGAGCTAAT 
    GGCAACCCGA AACCCAGAAT TAGCTGGTTA ACAAATGGAG TCCCAATAGA AATTGCTCTT 
    GATGACCCCA GCAGAAAAAT AGATGGTGAT ACCATTATAT TTTCTAATGT TCAAGAAAGC 
    TCAAGTGCGG TTTATCAGTG CAACGCCTCT AACAAATATG GATATTTACT AGCAAATGCA 
    TTTGTAAATG TTCTCGCTGA ACCACCTCGG ATTCTCACAT CAGCAAACAC TCTGTACCAG 
    GTCATTGCAA ACAGGCCTGC TTTGCTAGAT TGTGCCTTCT TTGGATCTCC TATGCCTACC 
    ATTGAATGGT TTAAAGGGAC TAAAGGAAGC GCTCTTCATG AAGACACTTA TGTTTTGCAT 
    GATAATGGAA CATTAGAAAT TCCCGTGGCC CAAAAGGATA GTACAGGGAC GTATACTTGT 
    GTCGCACGGA ATAAACTAGG GATGGCAAAG AATGAAGTTC ACTTGGAAAT CAAAGATCCA 
    ACCAGGATCA TTAAACAACC TGAATATGCA GTCGTCCAGA GGGGGAGCAA GGTGTCGTTT 
    GAATGCAGAG TGAAACATGA CCACACCTTA ATTCCCACCA TTCTGTGGCT GAAGGACAAT 
    GGAGAGCTGC CCAATGATGA AAGGTTCTCC ACTGACAAGG ATCATCTGGT GGTATCTGAT 
    GTAAAGGATG ACGATGGTGG CACCTACACA TGTACGGCCA ACACAACGCT GGACAGTGCT 
    TCGGCCAGCG CTGTGCTCAG GGTTGTCGAT GTCCCGAATC CTCCCTTTGA TTTAGAATTG 
    ACCAATCAAC TTGACAAAAG TGTTCAGCTG ACATGGACCC CAGGCGATGA CAACAATAGC 
    CCCATTACAA AATTCATCAT TGAGTATGAA GATGCAATGC ATGACGCAGG GCTGTGGCGC 
    CACCAGGCTG AAGTTTCTGG AACACAGACC ACAGCCCAAC TGAAGCTGTC TCCCTATGTG 
    AACTACTCCT TCCGTGTCAT GGCAGAGAAC GGCATTGGAA GAAGCATGCC GAGCGAGGCA 
    TCTGAGCAGT ACCTCACAAA AGCCGCAGAA CCAGATCAGA ATCCCATGGC TGTGGAAGGA 
    CTAGGGACAG AGCCGGACAA CTTGGTGATT ACATGGAAGC CCCTGAATGG TTTTCAATCG 
    AATGGGCCTG GCCTCCAGTA CAAAGTGAGC TGGCGCCAGA AAGATGGTGA CGATGAGTGG 
    ACGTCTGTAG TTGTGGCCAA TGTATCCAAA TACATTGTTT CTGGCACACC AACCTTTGTC 
    CCATACCTGA TAAAAGTTCA AGCTCTGAAT GATGTGGGGT TTGCACCAGA GCCAGCTGCA 
    GTCATGGGGC ATTCTGGAGA AGACCTTCCA ATGGTGGCTC CTGGAAATGT TCGTGTCAGC 
    GTGGTGAACA GTACGCTGGC AGAGGTGCAC TGGGACCCAG TTCCTCCCAA GAGTGTCCGA 
    GGACACTTAC AAGGCTACCG GATTTACTAC TGGAAGACCC AGAGCTCCTC TAAAAGAAAC 
    AGGCGCCACA TTGAGAAGAA GATCCTCACC TTCCAGGGCA CCAAGACTCA CGGCATGCTG 
    CCAGGGCTGC AGCCATACAG TCACTATGCT CTCAACGTCC GAGTGGTCAA CGGGAAAGGG 
    GAGGGCCCAG CCAGCACCGA CAGAGGCTTC CATACACCGG AGGGAGTCCC TAGTGCTCCC 
    TCATCTTTGA AAATTGTTAA TCCTACACTG GACTCTCTCA CTTTGGAGTG GGACCCACCA 
    AGCCACCCAA ATGGCATCCT GACAGAGTAC ATCTTAAAAT ATCAGCCAAT TAACAGCACA 
    CATGAGCTAG GCCCTCTGGT AGATTTAAAA ATTCCTGCCA ACAAGACCCG CTGGACTTTG 
    AAAAATTTAA ATTTCAGCAC TCGGTACAAG TTCTATTTCT ATGCACAGAC ATCAGTGGGG 
    TCAGGGAGTC AGATCACAGA GGAAGCAATA ACGACTGTGG ACGAAGGTAA GAAGGCAATG 
    GCAAGCCGGC AAGTGGATAT TGCGACCCAA GGCTGGTTCA TAGGTCTAAT GTGTGCTGTT 
    GCTCTCCTCA TCTTAATTTT GCTGATTGTT TGCTTCATCA GAAGAAACAA GGGTGGTAAA 
    TACCCAGTTA AAGAAAAGGA GGATGCTCAT GCAGACCCTG AAATCCAGCC CATGAAGGAA 
    GATGATGGGA CGTTTGGAGA ATACAGGTCT TTTGAAAGTG ATGCAGAAGA TCACAAGCCT 
    TTGAAAAAAG GAAGTCGAAC ACCTTCAGAC AGGACTGTGA AAAAAGAAGA TAGTGATGAT 
    AGCCTGGTTG ACTATGGAGA GGGGGTCAAC GGCCAATTCA ATGAGGATGG CTCCTTTATT 
    GGCCAATACA GTGGTAAGAA AGAGAAAGAG CCAGCGGAGG GAAATGAAAG CTCAGAGGCC 
    CCTTCTCCTG TCAACGCAAT GAACTCCTTT GTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    Nrcam ( XM_029484567.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029340427.1 Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X32, mRNA.
    Price & Availability↑
    CloneID OMv68214
    Clone ID Related Accession (Same CDS sequence) XM_029484567.1
    Accession Version XM_029484567.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3897bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product neuronal cell adhesion molecule isoform X28
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCTGGT ACAACCTCCA 
    ACCATCACTC AACAGTCACC AAAAGACTAC ATCATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAGG CCAAAGGGAA ACCTCCCCCA AGCTTTTCCT GGACTCGTAA TGGAACTCAT 
    TTTGACATAG ACAAGGACCC TCTGGTCACC ATGAAGCCTG GCTCAGGAAC CCTTGTCATC 
    AACATCATGA GTGAGGGGAA AGCAGAGACC TATGAAGGAG TCTACCAGTG CACTGCAAGG 
    AACGAGCGTG GAGCTGCCGT CTCCAATAAC ATTGTTGTCC GCCCATCTAG GTCACCCTTG 
    TGGACCAAGG AAAGACTTGA ACCCATAATA CTCCGGAATG GGCAGTCATT AGTACTTCCA 
    TGTAGGCCTC CGATTGGATT ACCTCCGGCC ATAATATTTT GGATGGATAA TTCCTTTCAG 
    AGACTTCCAC AGAGTGAGCG GGTTTCCCAA GGCCTAAATG GAGACCTTTA CTTCTCCAAT 
    GTCCTCCCAG AGGACACCCG TGAGGACTAT ATCTGCTATG CTAGATTTAA TCACACTCAA 
    ACCATCCAAC AGAAGCAGCC TATTTCTTTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCTAG TAAAGAGAGG 
    CCCCCAACGT TTCTAACTCC AGAGGGCAAT GAAAGCCACA AAGAGGAATT AAGAGGAAAC 
    GTGCTTTCGC TGGAGTGCAT TGCGGAAGGC CTCCCTACTC CAATTATTTA CTGGATCAAA 
    GAAGACGGAA CGCTTCCTGC CAACCGGACA TTTTATCGGA ACTTTAAGAA AACCTTGCAG 
    ATCACTCATG TTTCCGAAGC CGACTCTGGA AATTATCAGT GCATAGCAAA AAACGCATTA 
    GGGGCCGTCC ATCACACCAT TTCTGTCACT GTTAAAGCGG CTCCCTACTG GATCGTGGCA 
    CCTCAAAACC TCGTGCTTTC CCCGGGAGAG AATGGGACCC TCATCTGCAG AGCTAATGGC 
    AACCCGAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCTCTTGAT 
    GACCCCAGCA GAAAAATAGA TGGTGATACC ATTATATTTT CTAATGTTCA AGAAAGCTCA 
    AGTGCGGTTT ATCAGTGCAA CGCCTCTAAC AAATATGGAT ATTTACTAGC AAATGCATTT 
    GTAAATGTTC TCGCTGAACC ACCTCGGATT CTCACATCAG CAAACACTCT GTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT GCTAGATTGT GCCTTCTTTG GATCTCCTAT GCCTACCATT 
    GAATGGTTTA AAGGGACTAA AGGAAGCGCT CTTCATGAAG ACACTTATGT TTTGCATGAT 
    AATGGAACAT TAGAAATTCC CGTGGCCCAA AAGGATAGTA CAGGGACGTA TACTTGTGTC 
    GCACGGAATA AACTAGGGAT GGCAAAGAAT GAAGTTCACT TGGAAATCAA AGATCCAACC 
    AGGATCATTA AACAACCTGA ATATGCAGTC GTCCAGAGGG GGAGCAAGGT GTCGTTTGAA 
    TGCAGAGTGA AACATGACCA CACCTTAATT CCCACCATTC TGTGGCTGAA GGACAATGGA 
    GAGCTGCCCA ATGATGAAAG GTTCTCCACT GACAAGGATC ATCTGGTGGT ATCTGATGTA 
    AAGGATGACG ATGGTGGCAC CTACACATGT ACGGCCAACA CAACGCTGGA CAGTGCTTCG 
    GCCAGCGCTG TGCTCAGGGT TGTCGCTCCT ACTCCAACTC CAGCCCCCAT TTACGATGTC 
    CCGAATCCTC CCTTTGATTT AGAATTGACC AATCAACTTG ACAAAAGTGT TCAGCTGACA 
    TGGACCCCAG GCGATGACAA CAATAGCCCC ATTACAAAAT TCATCATTGA GTATGAAGAT 
    GCAATGCATG ACGCAGGGCT GTGGCGCCAC CAGGCTGAAG TTTCTGGAAC ACAGACCACA 
    GCCCAACTGA AGCTGTCTCC CTATGTGAAC TACTCCTTCC GTGTCATGGC AGAGAACGGC 
    ATTGGAAGAA GCATGCCGAG CGAGGCATCT GAGCAGTACC TCACAAAAGC CGCAGAACCA 
    GATCAGAATC CCATGGCTGT GGAAGGACTA GGGACAGAGC CGGACAACTT GGTGATTACA 
    TGGAAGCCCC TGAATGGTTT TCAATCGAAT GGGCCTGGCC TCCAGTACAA AGTGAGCTGG 
    CGCCAGAAAG ATGGTGACGA TGAGTGGACG TCTGTAGTTG TGGCCAATGT ATCCAAATAC 
    ATTGTTTCTG GCACACCAAC CTTTGTCCCA TACCTGATAA AAGTTCAAGC TCTGAATGAT 
    GTGGGGTTTG CACCAGAGCC AGCTGCAGTC ATGGGGCATT CTGGAGAAGA CCTTCCAATG 
    GTGGCTCCTG GAAATGTTCG TGTCAGCGTG GTGAACAGTA CGCTGGCAGA GGTGCACTGG 
    GACCCAGTTC CTCCCAAGAG TGTCCGAGGA CACTTACAAG GCTACCGGAT TTACTACTGG 
    AAGACCCAGA GCTCCTCTAA AAGAAACAGG CGCCACATTG AGAAGAAGAT CCTCACCTTC 
    CAGGGCACCA AGACTCACGG CATGCTGCCA GGGCTGCAGC CATACAGTCA CTATGCTCTC 
    AACGTCCGAG TGGTCAACGG GAAAGGGGAG GGCCCAGCCA GCACCGACAG AGGCTTCCAT 
    ACACCGGAGG GAGTCCCTAG TGCTCCCTCA TCTTTGAAAA TTGTTAATCC TACACTGGAC 
    TCTCTCACTT TGGAGTGGGA CCCACCAAGC CACCCAAATG GCATCCTGAC AGAGTACATC 
    TTAAAATATC AGCCAATTAA CAGCACACAT GAGCTAGGCC CTCTGGTAGA TTTAAAAATT 
    CCTGCCAACA AGACCCGCTG GACTTTGAAA AATTTAAATT TCAGCACTCG GTACAAGTTC 
    TATTTCTATG CACAGACATC AGTGGGGTCA GGGAGTCAGA TCACAGAGGA AGCAATAACG 
    ACTGTGGACG AAGCTGGTAT TCCTCCACCT GATGTAGGTG CAGGCAAAGT CCGTGCAGTA 
    AATCCCAGGA TCAGCAATGT CACTGCCGCA GCTGCTGAGA CGTATGCCAA TATCAGTTGG 
    GAGTATGAGG GACCAGAACA TGTGAAGTTT TATGTTGAAT ATGGTGTAGC AGGCAGCAAA 
    GAAGAATGGA GGAAAGAAAT TGTAAATGGT TCTCGAAGCT TCTTTGGGTT AAAGGGTCTA 
    ATGCCAGGAA CAGCATACAA AGTTCGAGTT GGTGCTGAGG GGGACTCTGG TTTTGTGAGT 
    TCAGAGGATG TGTTTGAGAC AGGACCAGCA ATGGCAAGCC GGCAAGTGGA TATTGCGACC 
    CAAGGCTGGT TCATAGGTCT AATGTGTGCT GTTGCTCTCC TCATCTTAAT TTTGCTGATT 
    GTTTGCTTCA TCAGAAGAAA CAAGGGTGGT AAATACCCAG TTAAAGAAAA GGAGGATGCT 
    CATGCAGACC CTGAAATCCA GCCCATGAAG GAAGATGATG GGACGTTTGG AGAATACAGT 
    GATGCAGAAG ATCACAAGCC TTTGAAAAAA GGAAGTCGAA CACCTTCAGA CAGGACTGTG 
    AAAAAAGAAG ATAGTGATGA TAGCCTGGTT GACTATGGAG AGGGGGTCAA CGGCCAATTC 
    AATGAGGATG GCTCCTTTAT TGGCCAATAC AGTGGTAAGA AAGAGAAAGA GCCAGCGGAG 
    GGAAATGAAA GCTCAGAGGC CCCTTCTCCT GTCAACGCAA TGAACTCCTT TGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_029340427.1
    CDS500..4396
    Translation

    Target ORF information:

    RefSeq Version XM_029484567.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli neuronal cell adhesion molecule (Nrcam), transcript variant X32, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029484567.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGCAGCTTA AAATAATGCC GAAGAAGAAG CACTTATCTG CAGGCGGAGT GCCCCTGATT 
    CTCTTCCTGT GCCAGATGAT CAGCGCTCTG GATGTTCCTC TTGATCTGGT ACAACCTCCA 
    ACCATCACTC AACAGTCACC AAAAGACTAC ATCATTGACC CTCGGGAGAA TATTGTAATC 
    CAGTGTGAGG CCAAAGGGAA ACCTCCCCCA AGCTTTTCCT GGACTCGTAA TGGAACTCAT 
    TTTGACATAG ACAAGGACCC TCTGGTCACC ATGAAGCCTG GCTCAGGAAC CCTTGTCATC 
    AACATCATGA GTGAGGGGAA AGCAGAGACC TATGAAGGAG TCTACCAGTG CACTGCAAGG 
    AACGAGCGTG GAGCTGCCGT CTCCAATAAC ATTGTTGTCC GCCCATCTAG GTCACCCTTG 
    TGGACCAAGG AAAGACTTGA ACCCATAATA CTCCGGAATG GGCAGTCATT AGTACTTCCA 
    TGTAGGCCTC CGATTGGATT ACCTCCGGCC ATAATATTTT GGATGGATAA TTCCTTTCAG 
    AGACTTCCAC AGAGTGAGCG GGTTTCCCAA GGCCTAAATG GAGACCTTTA CTTCTCCAAT 
    GTCCTCCCAG AGGACACCCG TGAGGACTAT ATCTGCTATG CTAGATTTAA TCACACTCAA 
    ACCATCCAAC AGAAGCAGCC TATTTCTTTG AAGGTGATTT CAGTGGATGA ATTGAATGAC 
    ACTATAGCTG CTAATTTGAG TGACACTGAG TTTTATGGTG CTAAATCTAG TAAAGAGAGG 
    CCCCCAACGT TTCTAACTCC AGAGGGCAAT GAAAGCCACA AAGAGGAATT AAGAGGAAAC 
    GTGCTTTCGC TGGAGTGCAT TGCGGAAGGC CTCCCTACTC CAATTATTTA CTGGATCAAA 
    GAAGACGGAA CGCTTCCTGC CAACCGGACA TTTTATCGGA ACTTTAAGAA AACCTTGCAG 
    ATCACTCATG TTTCCGAAGC CGACTCTGGA AATTATCAGT GCATAGCAAA AAACGCATTA 
    GGGGCCGTCC ATCACACCAT TTCTGTCACT GTTAAAGCGG CTCCCTACTG GATCGTGGCA 
    CCTCAAAACC TCGTGCTTTC CCCGGGAGAG AATGGGACCC TCATCTGCAG AGCTAATGGC 
    AACCCGAAAC CCAGAATTAG CTGGTTAACA AATGGAGTCC CAATAGAAAT TGCTCTTGAT 
    GACCCCAGCA GAAAAATAGA TGGTGATACC ATTATATTTT CTAATGTTCA AGAAAGCTCA 
    AGTGCGGTTT ATCAGTGCAA CGCCTCTAAC AAATATGGAT ATTTACTAGC AAATGCATTT 
    GTAAATGTTC TCGCTGAACC ACCTCGGATT CTCACATCAG CAAACACTCT GTACCAGGTC 
    ATTGCAAACA GGCCTGCTTT GCTAGATTGT GCCTTCTTTG GATCTCCTAT GCCTACCATT 
    GAATGGTTTA AAGGGACTAA AGGAAGCGCT CTTCATGAAG ACACTTATGT TTTGCATGAT 
    AATGGAACAT TAGAAATTCC CGTGGCCCAA AAGGATAGTA CAGGGACGTA TACTTGTGTC 
    GCACGGAATA AACTAGGGAT GGCAAAGAAT GAAGTTCACT TGGAAATCAA AGATCCAACC 
    AGGATCATTA AACAACCTGA ATATGCAGTC GTCCAGAGGG GGAGCAAGGT GTCGTTTGAA 
    TGCAGAGTGA AACATGACCA CACCTTAATT CCCACCATTC TGTGGCTGAA GGACAATGGA 
    GAGCTGCCCA ATGATGAAAG GTTCTCCACT GACAAGGATC ATCTGGTGGT ATCTGATGTA 
    AAGGATGACG ATGGTGGCAC CTACACATGT ACGGCCAACA CAACGCTGGA CAGTGCTTCG 
    GCCAGCGCTG TGCTCAGGGT TGTCGCTCCT ACTCCAACTC CAGCCCCCAT TTACGATGTC 
    CCGAATCCTC CCTTTGATTT AGAATTGACC AATCAACTTG ACAAAAGTGT TCAGCTGACA 
    TGGACCCCAG GCGATGACAA CAATAGCCCC ATTACAAAAT TCATCATTGA GTATGAAGAT 
    GCAATGCATG ACGCAGGGCT GTGGCGCCAC CAGGCTGAAG TTTCTGGAAC ACAGACCACA 
    GCCCAACTGA AGCTGTCTCC CTATGTGAAC TACTCCTTCC GTGTCATGGC AGAGAACGGC 
    ATTGGAAGAA GCATGCCGAG CGAGGCATCT GAGCAGTACC TCACAAAAGC CGCAGAACCA 
    GATCAGAATC CCATGGCTGT GGAAGGACTA GGGACAGAGC CGGACAACTT GGTGATTACA 
    TGGAAGCCCC TGAATGGTTT TCAATCGAAT GGGCCTGGCC TCCAGTACAA AGTGAGCTGG 
    CGCCAGAAAG ATGGTGACGA TGAGTGGACG TCTGTAGTTG TGGCCAATGT ATCCAAATAC 
    ATTGTTTCTG GCACACCAAC CTTTGTCCCA TACCTGATAA AAGTTCAAGC TCTGAATGAT 
    GTGGGGTTTG CACCAGAGCC AGCTGCAGTC ATGGGGCATT CTGGAGAAGA CCTTCCAATG 
    GTGGCTCCTG GAAATGTTCG TGTCAGCGTG GTGAACAGTA CGCTGGCAGA GGTGCACTGG 
    GACCCAGTTC CTCCCAAGAG TGTCCGAGGA CACTTACAAG GCTACCGGAT TTACTACTGG 
    AAGACCCAGA GCTCCTCTAA AAGAAACAGG CGCCACATTG AGAAGAAGAT CCTCACCTTC 
    CAGGGCACCA AGACTCACGG CATGCTGCCA GGGCTGCAGC CATACAGTCA CTATGCTCTC 
    AACGTCCGAG TGGTCAACGG GAAAGGGGAG GGCCCAGCCA GCACCGACAG AGGCTTCCAT 
    ACACCGGAGG GAGTCCCTAG TGCTCCCTCA TCTTTGAAAA TTGTTAATCC TACACTGGAC 
    TCTCTCACTT TGGAGTGGGA CCCACCAAGC CACCCAAATG GCATCCTGAC AGAGTACATC 
    TTAAAATATC AGCCAATTAA CAGCACACAT GAGCTAGGCC CTCTGGTAGA TTTAAAAATT 
    CCTGCCAACA AGACCCGCTG GACTTTGAAA AATTTAAATT TCAGCACTCG GTACAAGTTC 
    TATTTCTATG CACAGACATC AGTGGGGTCA GGGAGTCAGA TCACAGAGGA AGCAATAACG 
    ACTGTGGACG AAGCTGGTAT TCCTCCACCT GATGTAGGTG CAGGCAAAGT CCGTGCAGTA 
    AATCCCAGGA TCAGCAATGT CACTGCCGCA GCTGCTGAGA CGTATGCCAA TATCAGTTGG 
    GAGTATGAGG GACCAGAACA TGTGAAGTTT TATGTTGAAT ATGGTGTAGC AGGCAGCAAA 
    GAAGAATGGA GGAAAGAAAT TGTAAATGGT TCTCGAAGCT TCTTTGGGTT AAAGGGTCTA 
    ATGCCAGGAA CAGCATACAA AGTTCGAGTT GGTGCTGAGG GGGACTCTGG TTTTGTGAGT 
    TCAGAGGATG TGTTTGAGAC AGGACCAGCA ATGGCAAGCC GGCAAGTGGA TATTGCGACC 
    CAAGGCTGGT TCATAGGTCT AATGTGTGCT GTTGCTCTCC TCATCTTAAT TTTGCTGATT 
    GTTTGCTTCA TCAGAAGAAA CAAGGGTGGT AAATACCCAG TTAAAGAAAA GGAGGATGCT 
    CATGCAGACC CTGAAATCCA GCCCATGAAG GAAGATGATG GGACGTTTGG AGAATACAGT 
    GATGCAGAAG ATCACAAGCC TTTGAAAAAA GGAAGTCGAA CACCTTCAGA CAGGACTGTG 
    AAAAAAGAAG ATAGTGATGA TAGCCTGGTT GACTATGGAG AGGGGGTCAA CGGCCAATTC 
    AATGAGGATG GCTCCTTTAT TGGCCAATAC AGTGGTAAGA AAGAGAAAGA GCCAGCGGAG 
    GGAAATGAAA GCTCAGAGGC CCCTTCTCCT GTCAACGCAA TGAACTCCTT TGTTTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

見積依頼

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03-6811-6572

FAX

03-6811-6573
050-3174-7589(受注専用)

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