ORF » Species Summary » Mus caroli » Ylpm1 cDNA ORF clone

Ylpm1 cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Ylpm1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Ylpm1 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
OMv68149 XM_029484466.1
Latest version!		 Mus caroli YLP motif containing 1 (Ylpm1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 29-31 $1091.30
$1559.00
OMv28547 XM_021178800.1
Latest version!		 Mus caroli YLP motif containing 1 (Ylpm1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $1161.30
$1659.00
OMv28548 XM_021178801.2
Latest version!		 Mus caroli YLP motif containing 1 (Ylpm1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $1161.30
$1659.00
OMv28549 XM_021178802.1
Latest version!		 Mus caroli YLP motif containing 1 (Ylpm1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00
View Old Accession Versions >>
OMv28548 XM_021178801.1 Mus caroli YLP motif containing 1 (Ylpm1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $1161.30
$1659.00
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)
    Ylpm1 ( XM_029484466.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029340326.1 Mus caroli YLP motif containing 1 (Ylpm1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OMv68149
    Clone ID Related Accession (Same CDS sequence) XM_029484466.1
    Accession Version XM_029484466.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6318bp)
    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 YLP motif-containing protein 1 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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    ATGTATCCGA ATTGGGGCCG GTATGGCGGG AGCAGCCACT ATCCGCCGCC GCCAGTGCCG 
    CCGCCGCCAC CACCGGTGGC GCTTCCCGAG GCCTCGCCGG GGCCCGGGTA CTCCAGTTCG 
    ACGGCTCCCG CGGCCCCTTC CTCTTCAGGC TTCATGAGCT TCCGAGAGCA ACACTTGGCG 
    CAGCTCCAGC AGCTGCAGCA GATGCACCAG AAGCAAATGC AGTGCGTGCT CCAACCCCAC 
    CATCTTCCTC CGCCCCCGCT GCCGCCCCCG CCGGTGATGC CCGGGGGCGG CTACGGAGAC 
    TGGCAGCCGC CTCCGCCACC GATGCCCCCG CCACCTGGAC CAGCCCTCAG TTATCAGAAG 
    CAGCAGCAGT ACAAACACCA GATGATCCAC CACCAACGAG ATGGGCCTCC GGGTTTGGTT 
    CCAATGGAGC TGGAGTCCCC TCCTGAATCT CCCCCTGTAC CTCCAGGATC CTACATGCCC 
    CCATCCCAGT CGTACATGCC TCCACCTCAG CCACCACCCT CGTACTATCC CCCTTCCTCC 
    GCTCAGCCCT ACCTGCCACC TGCTCAGCCG TCCCCTTCAC AGTCTCCACC TTCCCAGTCC 
    TACCTGGCGC CCACTCCTTC TTATTCTTCC TCTTCCTCCT CACAATCATA TTTGAGCCAT 
    TCCCAGCCCT ACTTACCCCC TTCTCAGGCA TCTCCTTCCC GCTCCTCCCA GGGCCCTTCT 
    AAACCCCAGC TACCACCACC ACCGTCCATC CCTTCTGGGA ATAAAACAGC TATCCAGCAA 
    GAGCCTTTGG AGAGTGGGGC CAAGAACAAG ACTGCTGAAC AGAAGCAAGC TGCTCCTGAA 
    CCAGATCCCT CTACAATGAC TCCACAGGAG CAACAACAAT ATTGGTATCG ACAGCATCTA 
    CTTAGTTTGC AGCAGAGGAC AAAGGTGCAT TTGCCGGGAC ATAAAAAGGG TCTTGTCACA 
    GCAAAGGATG TACCAGAACC CATCAAAGAA GAAGCTCCGG GGCCACCTGC CAGTCAGGTA 
    GCAGAACCTC TTGCAGCTGA GAAGCCCCCA TTGCCACCTC CCAGTGAAGA AGCACCACCT 
    CCGCTCTCAC CTGAGGAACC CCAGTCAGAA GACTCAGAAG ACTCAGAAGA GGATTCTAGA 
    TTTAAACAGT TGAAGGCTAT AGCAGCACAT TGGCAGGCTG CAGCAGCACA TTGGCAACAG 
    CAGCAGCAGC AGCGAGTCGG CTTCCAGTAT CAAGGAATAA TGCAGAGGCA CACACAGTTA 
    CAGCAGATCC TGCAGCAGTA CCAGCAAGTT ATCCAGCACT CACCACACAT ACAGACCATG 
    TCTCTGGATG TGCAGCTGCG ACATTATGAG ATGCAGCAGC AACAGTTTCA ACATCTCTTT 
    CAAGACTGGG AGCGAGAGTT TCAGCTGTGG GAGGAGCAGC TCCATTCCTA TCCTCATAAA 
    GATCAGCTTC AGGAGTATGA GAAGCAGTGG AAGACATGGC AGGGACATAT GAAAGCCACT 
    CAGACCTATC TCCAGGAGAA AGTCAACTCG TTCCAGACTG TGAAGAGCCA GTACCTGGGG 
    AACATGGCAA TGCCACCTCC GTTTGTTCCA TATTCTCAGA TGCCTCCACC TCTGCCAACA 
    ATGCCCCCTC CAGTATTACC TCCATCCTTG CCACCACCAG TGATGCCCCC TGCCCTGCCT 
    ACCTCCATCC CACCACCTGG CATGCCTCCG CCTGTGATGC CACCTTCTCT GCCAACCTCT 
    GTCCCCCCAC CAGGAATGCC TCCATCTCTT TCTTCAGGGC CACCTCCAGT TCTCCCTCCA 
    CCTGCCCTCT CTTCAGCAGG GTCACCACCA GTCCTTCCCC CACCGGCTCT ACCTGGGGGA 
    CCACCCATCC TACCCCTCCC ACCATTATCT TCAGCCACAC CTCCCCCAGG AATACCTCCC 
    CCTGGAGCTC CACAAGGGAT GCCTCCTCAG TTAACAGCCC CACTTCCACC AGCTTCTGGT 
    TCTCAGAACT CACAGATCCC AGAGAAACCT AGACAAGCAC TGCTTCCCAC ACCTGTGTCT 
    TTTGGTTCGA CCCCACCTTC ACCATATCAC CCTCCACCTC AGTCAGAACA AGTGAATTCC 
    AAACCTCTGA ACAAGGTGTT CTCATCTGAG CAAGGACTGG GCGAGTCTTC TGCTCTATCT 
    CAATCCGTCA TTGCAGCTAA GGACATGCCA GTGAAGTCAG GTGGACTGCT TGCAGACCCT 
    CCTAAGGGCA GTTTCTTGGA AGGTCCGAGA GGTCCAAGAT TTGATGGTCC TCGAAGATTT 
    GAGGATTTAG GGTCAAGGTG TGAAGGACCG AGACCCAAAG GGCCTCGTTT TGAAGGAAAT 
    CGCCCCGATG GGCCAAGACC CAGATATGAA AGTCACCCAG CAGAGGGCAC TAAAAGCAAA 
    TGGGGAACGA TCCCTCGGGG CCCAGCATCT CAATTTTATA TAACTCCCAA TACATCCCTA 
    AGTCCTCGAC AGAGTGGACC ACAGTGGAAA GGCCCCAAAG CAACTGTTGG ACAGCAGCAT 
    CAGCAGCAGC CTAAGCAGCA ACCTAAGTCA CAAGCAGAAC CTCTTTCAGG AAACAAAGAG 
    CCATTAGCAG ATACAAGTAA TAACCAACAG AAGAATTTAA AAATTCAGTC AGCTGCATTT 
    TCCATTTCCG CAGATGTCAA GGATACCAAG GCAGCTCAGT CAAATGAGAA TCTAAGTGAC 
    TCTCAACAAG AGCCAACTAA AAGCCAAGTC TCGGAAGGGC CCGTAGAGCC CTCTAATTGG 
    AACCAGAATT CTCAAAGTAT GGAGACTGAC ATGGACAAAG CAGAAGGTGT TACTCAGCCT 
    GTATCCCTTG CAAACAAACC TGTACCTACT CAATCTACTT TCCCCTCAAA AGTAGGGAGC 
    ATGGAGGGAG GAGCCACAGC AGCAGCATTG ACTGCAGATG ATTTCAAACC TTTGGGTGTT 
    GGTTTGTCCC ACTCAGAAAA CCACCAAGAA AAAGATCTTC CTCAGCCAGA CAGCAGAGAA 
    AATAGATTAG AAGGCAATAA AGGCAGCAGC TCATCATACA GAGGTCCTGG GCAGAACAAA 
    GTGGAAGAGT CACGGGATAA AGGACTAGTA AACAGAGGTC GTGGCCAGAC AATTAACCGT 
    GGTCCAGGTC TGGTCAAGCA AGAAGATTTC CATGATAAAA TGATGGGTAG AAGAGAAGAC 
    AGTCGTGAGA AAATGAACAG AGGAGAAGGC AGCCGGGACA GGGTGTTTGT GAGGCCAGGA 
    AGCAGTCGGG ATAAAATACC AGGTGGCCTA CAAGACAGCC AGGACAGTAG AGCCAACAGC 
    CGAGAAAGGG GACCACCTCG CAGGGCTGGC AGTCAGGAGA GAGGACCTCC TCGAAGGGCT 
    GGAAGTAGAG AGAGAGTACC TTCTCAAAGA GCTGGAAGCA GGGAGAGGGT GCCACCTCGT 
    GGTCCAGGTA GTCGAGAAAG GGGGTTAGGA AGGCCAGATT TTGGTCATGA TAGAGTTCCA 
    TTCAGACCAG AACCAGGAGA TGGTGGAGAC AAAATGTATC CTTATCACCG AGATGAACCT 
    TCTAGGGCTT CGTGGAACCA TGGAGAAGAG AGAGGACATG AAGAGTTCCC AGTAGATGGT 
    AGAAATGCTC CAATTGAGCG AGAAAGACTC GATGACTGGG ATAGAAAGAG ATACTGGAGA 
    GAGTGTGAAC GTGACTATCA AGATGATACA CTAGATTCAT ACAGCAGAGA GGACAGGTTC 
    TCAGCACCAC CATCACGGTC TTATGATGGA GACAGGCGAG GCCCTTGGTG GGATGATTGG 
    GAAAGAGATC AGGATATGGA TGAGGGTTAT GGTAGGGAAA TGGACAGGGA CTTAGACAGA 
    GATGTGGATT GCATTAGAAG ATCTGTGGAT ATATATGATA GAAATGTGGA TAACGAGTGG 
    GACAGAGATT ATGGGAGACC ACTGGATGAA CAAGAATCAC AGTTTCGTGA ACGGGATATT 
    CCATCTCTTC CACCTTTACC ACCCCTCCCA CCTCTTCCAC CTTTGGATAG ATATCGGGAT 
    GATAGATGGA GAGAAGAAAG AAATCGAGAC CATGGGTATG ACCGAGATTT CCGTGATAGG 
    GGTGAGTTGA GGATTCGAGA GTATCCAGAA AGAGGAGATA CATGGCGGGA AAAGCGAGAT 
    TATGTTCCTG ACAGAATGGA CTGGGAAAGA GAACTGTTGT CAGACAGATG GTACCCATCT 
    GATGTGGATA GACATTCCCC CCTGGCGGAA CATATGCCAT CCTCACATCA TTCCTCTGAA 
    ATGATGGGGT CCGATGCAAA CTTAGACTCT GACCCAGGCC TTGGAGGGGT AATGGTTCTC 
    AGTCAGAGGC AGCACGAAAT CATTTTGAAA GCTGCACAAG AATTGAAAAT GCTTCGAGAA 
    CAGAAAGAGC AGCTTCAAAA GTTGAAAGAC TTTGGGTCTG AGCCACAGAT GGCTGACCAT 
    CTACCACCCC CAGACTCAAG ACTACAGAAT CCATCAAGAC CTGGGATGTA TCCGCCTCCA 
    GGATCCTATA GACCACCCCC TCCTATGGGT AAGCCACCTG GGTCAATTGT AAGACCCTCT 
    GCTCCACCAG CAAGATCATC TATTCCTATG ACTAGGCCTC CTGTGCCAAT ACCACCACCG 
    CCTCCTCCAC CTCCACCACC ACCACCTCCT CCTCCAGTTA TAAAGTCAAA AACCTCATCT 
    GTGAAACAGG AACGCTGGGA TGAAGATTCT TTCTTTGGGC TCTGGGATAC AAATGATGAT 
    CAAGGACTGA ATTCAGAATT TAAGCGAGAC ACTGCAACAA TTCCGTCTGC TCCGGTGTTA 
    CCACCCCCAC CTGTTCATTC TTCCATTCCC CCTCCTGGCC CAATGCCTAT GGGTATGCCA 
    CCAATGTCCA AACCACCACC AGTGCAGCAT ACAGTTGACT ATGGCCATGG CCGAGATCAT 
    GCAGGCCAGC GTGATCGCTA CGATAGAGAT AGAGACCGTG AACCTTATTT TGACCGTCCA 
    AGTAATATAA CAGATCATCG AGATTTTAAA AGGGACCGAG AGACACATAG AGATAGAGAC 
    CGAGATCGTG TTCTTGACTA TGAGCGGGAC CGATTTGACA GAGAGCGCAG ACCCCGAGAT 
    GACAGGAATC AGTCATATCG AGACAAAAAA GACCATTCTT CATCCAGAAG AGGAGGGTTT 
    GATAGGCCAT CCTATGACCG GAAGTCTGAT CGACCACCCT ATGAAGGCCC ACCCATGTTT 
    GGAGGAGAAC GAAGAACTTA CCCGGAGGAG CGCATGCCCC TTCCAGCTCC TGCCCTGGGC 
    CACCAGCCAC CTCCAGTTCC TCGGGTTGAG AAGAAGCCGG AGTCCAAAAA TGTGGATGAC 
    ATTCTGAAAC CGCCAGGCCG GGAGAGCCGG CCTGAAAGAA TTGTTGTTAT AATGAGAGGA 
    TTGCCTGGCA GTGGAAAGAC ACATGTTGCA AAACTTATCC GGGATAAGGA AGTAGAATTT 
    GGAGGACCTG CGCCCAGGGT TTTAAGTCTA GATGATTATT TCATCGCTGA AGTAGAAAAA 
    GAAGAAAAAG ATCCAGATTC TGGAAAGAAA GTAAAAAAGA AGGTAATGGA ATATGAATAT 
    GAAGCTGACA TGGAGGAGAC TTATCGCACC AGCATGTTCA AAACTTTCAA AAAGACTCTA 
    GATGACGGCT TTTTCCCTTT CATTATTCTG GATGCTATCA ATGACAGAGT TAGGCATTTT 
    GATCAGTTTT GGAGTGCAGC GAAAACCAAG GGCTTTGAGG TGTATTTGGC TGAAATGAGT 
    GCTGATAACC AGACTTGTGG CAAGAGAAAT ATTCATGGAA GAAAGCTTAA AGAAATAAAC 
    AAGATGGCTG AACACTGGGA AGCTGCACCT CGTCACATGA TGCGTCTAGA CATCCGCTCC 
    CTGCTACAAG ATGCTGCGAT TGAAGAAGTA GAGATGGAAG ATTTTGATGC TAACATTGAA 
    GACCAGAAGG AAGAAAAGAA AGATGCAGAA GAAGAGGAAA GCGAACTGGG TTACATTCCG 
    AAAAGCAAAT GGGAGATGGA CACTTCTGAG GCAAAGCTAG ACAAGTTGGA TGGCTTGAGG 
    ACTGGTACTA AAAGGAAGCG AGACTGGGAG GCGATTGCCA GCAGAATGGA GGATTATCTT 
    CAGCTCCCTG ACGACTACGA GACTCGAGCT TCTGAGCCTG GGAAGAAGAG GGTGAGATGG 
    GCAGACCTAG AAGAAAAGAA GGATGCAGAT AGGAAAAGGG CCATAGGTTT TGTGGTCGGA 
    CAGACTGATT GGGAGAAGAT CACAGATGAG AGTGGTCACC TGGCTGAAAG AGCCCTCAAT 
    CGGACCAAAT ATATATGA

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

    RefSeq XP_029340326.1
    CDS136..6453
    Translation

    Target ORF information:

    RefSeq Version XM_029484466.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli YLP motif containing 1 (Ylpm1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029484466.1

    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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    ATGTATCCGA ATTGGGGCCG GTATGGCGGG AGCAGCCACT ATCCGCCGCC GCCAGTGCCG 
    CCGCCGCCAC CACCGGTGGC GCTTCCCGAG GCCTCGCCGG GGCCCGGGTA CTCCAGTTCG 
    ACGGCTCCCG CGGCCCCTTC CTCTTCAGGC TTCATGAGCT TCCGAGAGCA ACACTTGGCG 
    CAGCTCCAGC AGCTGCAGCA GATGCACCAG AAGCAAATGC AGTGCGTGCT CCAACCCCAC 
    CATCTTCCTC CGCCCCCGCT GCCGCCCCCG CCGGTGATGC CCGGGGGCGG CTACGGAGAC 
    TGGCAGCCGC CTCCGCCACC GATGCCCCCG CCACCTGGAC CAGCCCTCAG TTATCAGAAG 
    CAGCAGCAGT ACAAACACCA GATGATCCAC CACCAACGAG ATGGGCCTCC GGGTTTGGTT 
    CCAATGGAGC TGGAGTCCCC TCCTGAATCT CCCCCTGTAC CTCCAGGATC CTACATGCCC 
    CCATCCCAGT CGTACATGCC TCCACCTCAG CCACCACCCT CGTACTATCC CCCTTCCTCC 
    GCTCAGCCCT ACCTGCCACC TGCTCAGCCG TCCCCTTCAC AGTCTCCACC TTCCCAGTCC 
    TACCTGGCGC CCACTCCTTC TTATTCTTCC TCTTCCTCCT CACAATCATA TTTGAGCCAT 
    TCCCAGCCCT ACTTACCCCC TTCTCAGGCA TCTCCTTCCC GCTCCTCCCA GGGCCCTTCT 
    AAACCCCAGC TACCACCACC ACCGTCCATC CCTTCTGGGA ATAAAACAGC TATCCAGCAA 
    GAGCCTTTGG AGAGTGGGGC CAAGAACAAG ACTGCTGAAC AGAAGCAAGC TGCTCCTGAA 
    CCAGATCCCT CTACAATGAC TCCACAGGAG CAACAACAAT ATTGGTATCG ACAGCATCTA 
    CTTAGTTTGC AGCAGAGGAC AAAGGTGCAT TTGCCGGGAC ATAAAAAGGG TCTTGTCACA 
    GCAAAGGATG TACCAGAACC CATCAAAGAA GAAGCTCCGG GGCCACCTGC CAGTCAGGTA 
    GCAGAACCTC TTGCAGCTGA GAAGCCCCCA TTGCCACCTC CCAGTGAAGA AGCACCACCT 
    CCGCTCTCAC CTGAGGAACC CCAGTCAGAA GACTCAGAAG ACTCAGAAGA GGATTCTAGA 
    TTTAAACAGT TGAAGGCTAT AGCAGCACAT TGGCAGGCTG CAGCAGCACA TTGGCAACAG 
    CAGCAGCAGC AGCGAGTCGG CTTCCAGTAT CAAGGAATAA TGCAGAGGCA CACACAGTTA 
    CAGCAGATCC TGCAGCAGTA CCAGCAAGTT ATCCAGCACT CACCACACAT ACAGACCATG 
    TCTCTGGATG TGCAGCTGCG ACATTATGAG ATGCAGCAGC AACAGTTTCA ACATCTCTTT 
    CAAGACTGGG AGCGAGAGTT TCAGCTGTGG GAGGAGCAGC TCCATTCCTA TCCTCATAAA 
    GATCAGCTTC AGGAGTATGA GAAGCAGTGG AAGACATGGC AGGGACATAT GAAAGCCACT 
    CAGACCTATC TCCAGGAGAA AGTCAACTCG TTCCAGACTG TGAAGAGCCA GTACCTGGGG 
    AACATGGCAA TGCCACCTCC GTTTGTTCCA TATTCTCAGA TGCCTCCACC TCTGCCAACA 
    ATGCCCCCTC CAGTATTACC TCCATCCTTG CCACCACCAG TGATGCCCCC TGCCCTGCCT 
    ACCTCCATCC CACCACCTGG CATGCCTCCG CCTGTGATGC CACCTTCTCT GCCAACCTCT 
    GTCCCCCCAC CAGGAATGCC TCCATCTCTT TCTTCAGGGC CACCTCCAGT TCTCCCTCCA 
    CCTGCCCTCT CTTCAGCAGG GTCACCACCA GTCCTTCCCC CACCGGCTCT ACCTGGGGGA 
    CCACCCATCC TACCCCTCCC ACCATTATCT TCAGCCACAC CTCCCCCAGG AATACCTCCC 
    CCTGGAGCTC CACAAGGGAT GCCTCCTCAG TTAACAGCCC CACTTCCACC AGCTTCTGGT 
    TCTCAGAACT CACAGATCCC AGAGAAACCT AGACAAGCAC TGCTTCCCAC ACCTGTGTCT 
    TTTGGTTCGA CCCCACCTTC ACCATATCAC CCTCCACCTC AGTCAGAACA AGTGAATTCC 
    AAACCTCTGA ACAAGGTGTT CTCATCTGAG CAAGGACTGG GCGAGTCTTC TGCTCTATCT 
    CAATCCGTCA TTGCAGCTAA GGACATGCCA GTGAAGTCAG GTGGACTGCT TGCAGACCCT 
    CCTAAGGGCA GTTTCTTGGA AGGTCCGAGA GGTCCAAGAT TTGATGGTCC TCGAAGATTT 
    GAGGATTTAG GGTCAAGGTG TGAAGGACCG AGACCCAAAG GGCCTCGTTT TGAAGGAAAT 
    CGCCCCGATG GGCCAAGACC CAGATATGAA AGTCACCCAG CAGAGGGCAC TAAAAGCAAA 
    TGGGGAACGA TCCCTCGGGG CCCAGCATCT CAATTTTATA TAACTCCCAA TACATCCCTA 
    AGTCCTCGAC AGAGTGGACC ACAGTGGAAA GGCCCCAAAG CAACTGTTGG ACAGCAGCAT 
    CAGCAGCAGC CTAAGCAGCA ACCTAAGTCA CAAGCAGAAC CTCTTTCAGG AAACAAAGAG 
    CCATTAGCAG ATACAAGTAA TAACCAACAG AAGAATTTAA AAATTCAGTC AGCTGCATTT 
    TCCATTTCCG CAGATGTCAA GGATACCAAG GCAGCTCAGT CAAATGAGAA TCTAAGTGAC 
    TCTCAACAAG AGCCAACTAA AAGCCAAGTC TCGGAAGGGC CCGTAGAGCC CTCTAATTGG 
    AACCAGAATT CTCAAAGTAT GGAGACTGAC ATGGACAAAG CAGAAGGTGT TACTCAGCCT 
    GTATCCCTTG CAAACAAACC TGTACCTACT CAATCTACTT TCCCCTCAAA AGTAGGGAGC 
    ATGGAGGGAG GAGCCACAGC AGCAGCATTG ACTGCAGATG ATTTCAAACC TTTGGGTGTT 
    GGTTTGTCCC ACTCAGAAAA CCACCAAGAA AAAGATCTTC CTCAGCCAGA CAGCAGAGAA 
    AATAGATTAG AAGGCAATAA AGGCAGCAGC TCATCATACA GAGGTCCTGG GCAGAACAAA 
    GTGGAAGAGT CACGGGATAA AGGACTAGTA AACAGAGGTC GTGGCCAGAC AATTAACCGT 
    GGTCCAGGTC TGGTCAAGCA AGAAGATTTC CATGATAAAA TGATGGGTAG AAGAGAAGAC 
    AGTCGTGAGA AAATGAACAG AGGAGAAGGC AGCCGGGACA GGGTGTTTGT GAGGCCAGGA 
    AGCAGTCGGG ATAAAATACC AGGTGGCCTA CAAGACAGCC AGGACAGTAG AGCCAACAGC 
    CGAGAAAGGG GACCACCTCG CAGGGCTGGC AGTCAGGAGA GAGGACCTCC TCGAAGGGCT 
    GGAAGTAGAG AGAGAGTACC TTCTCAAAGA GCTGGAAGCA GGGAGAGGGT GCCACCTCGT 
    GGTCCAGGTA GTCGAGAAAG GGGGTTAGGA AGGCCAGATT TTGGTCATGA TAGAGTTCCA 
    TTCAGACCAG AACCAGGAGA TGGTGGAGAC AAAATGTATC CTTATCACCG AGATGAACCT 
    TCTAGGGCTT CGTGGAACCA TGGAGAAGAG AGAGGACATG AAGAGTTCCC AGTAGATGGT 
    AGAAATGCTC CAATTGAGCG AGAAAGACTC GATGACTGGG ATAGAAAGAG ATACTGGAGA 
    GAGTGTGAAC GTGACTATCA AGATGATACA CTAGATTCAT ACAGCAGAGA GGACAGGTTC 
    TCAGCACCAC CATCACGGTC TTATGATGGA GACAGGCGAG GCCCTTGGTG GGATGATTGG 
    GAAAGAGATC AGGATATGGA TGAGGGTTAT GGTAGGGAAA TGGACAGGGA CTTAGACAGA 
    GATGTGGATT GCATTAGAAG ATCTGTGGAT ATATATGATA GAAATGTGGA TAACGAGTGG 
    GACAGAGATT ATGGGAGACC ACTGGATGAA CAAGAATCAC AGTTTCGTGA ACGGGATATT 
    CCATCTCTTC CACCTTTACC ACCCCTCCCA CCTCTTCCAC CTTTGGATAG ATATCGGGAT 
    GATAGATGGA GAGAAGAAAG AAATCGAGAC CATGGGTATG ACCGAGATTT CCGTGATAGG 
    GGTGAGTTGA GGATTCGAGA GTATCCAGAA AGAGGAGATA CATGGCGGGA AAAGCGAGAT 
    TATGTTCCTG ACAGAATGGA CTGGGAAAGA GAACTGTTGT CAGACAGATG GTACCCATCT 
    GATGTGGATA GACATTCCCC CCTGGCGGAA CATATGCCAT CCTCACATCA TTCCTCTGAA 
    ATGATGGGGT CCGATGCAAA CTTAGACTCT GACCCAGGCC TTGGAGGGGT AATGGTTCTC 
    AGTCAGAGGC AGCACGAAAT CATTTTGAAA GCTGCACAAG AATTGAAAAT GCTTCGAGAA 
    CAGAAAGAGC AGCTTCAAAA GTTGAAAGAC TTTGGGTCTG AGCCACAGAT GGCTGACCAT 
    CTACCACCCC CAGACTCAAG ACTACAGAAT CCATCAAGAC CTGGGATGTA TCCGCCTCCA 
    GGATCCTATA GACCACCCCC TCCTATGGGT AAGCCACCTG GGTCAATTGT AAGACCCTCT 
    GCTCCACCAG CAAGATCATC TATTCCTATG ACTAGGCCTC CTGTGCCAAT ACCACCACCG 
    CCTCCTCCAC CTCCACCACC ACCACCTCCT CCTCCAGTTA TAAAGTCAAA AACCTCATCT 
    GTGAAACAGG AACGCTGGGA TGAAGATTCT TTCTTTGGGC TCTGGGATAC AAATGATGAT 
    CAAGGACTGA ATTCAGAATT TAAGCGAGAC ACTGCAACAA TTCCGTCTGC TCCGGTGTTA 
    CCACCCCCAC CTGTTCATTC TTCCATTCCC CCTCCTGGCC CAATGCCTAT GGGTATGCCA 
    CCAATGTCCA AACCACCACC AGTGCAGCAT ACAGTTGACT ATGGCCATGG CCGAGATCAT 
    GCAGGCCAGC GTGATCGCTA CGATAGAGAT AGAGACCGTG AACCTTATTT TGACCGTCCA 
    AGTAATATAA CAGATCATCG AGATTTTAAA AGGGACCGAG AGACACATAG AGATAGAGAC 
    CGAGATCGTG TTCTTGACTA TGAGCGGGAC CGATTTGACA GAGAGCGCAG ACCCCGAGAT 
    GACAGGAATC AGTCATATCG AGACAAAAAA GACCATTCTT CATCCAGAAG AGGAGGGTTT 
    GATAGGCCAT CCTATGACCG GAAGTCTGAT CGACCACCCT ATGAAGGCCC ACCCATGTTT 
    GGAGGAGAAC GAAGAACTTA CCCGGAGGAG CGCATGCCCC TTCCAGCTCC TGCCCTGGGC 
    CACCAGCCAC CTCCAGTTCC TCGGGTTGAG AAGAAGCCGG AGTCCAAAAA TGTGGATGAC 
    ATTCTGAAAC CGCCAGGCCG GGAGAGCCGG CCTGAAAGAA TTGTTGTTAT AATGAGAGGA 
    TTGCCTGGCA GTGGAAAGAC ACATGTTGCA AAACTTATCC GGGATAAGGA AGTAGAATTT 
    GGAGGACCTG CGCCCAGGGT TTTAAGTCTA GATGATTATT TCATCGCTGA AGTAGAAAAA 
    GAAGAAAAAG ATCCAGATTC TGGAAAGAAA GTAAAAAAGA AGGTAATGGA ATATGAATAT 
    GAAGCTGACA TGGAGGAGAC TTATCGCACC AGCATGTTCA AAACTTTCAA AAAGACTCTA 
    GATGACGGCT TTTTCCCTTT CATTATTCTG GATGCTATCA ATGACAGAGT TAGGCATTTT 
    GATCAGTTTT GGAGTGCAGC GAAAACCAAG GGCTTTGAGG TGTATTTGGC TGAAATGAGT 
    GCTGATAACC AGACTTGTGG CAAGAGAAAT ATTCATGGAA GAAAGCTTAA AGAAATAAAC 
    AAGATGGCTG AACACTGGGA AGCTGCACCT CGTCACATGA TGCGTCTAGA CATCCGCTCC 
    CTGCTACAAG ATGCTGCGAT TGAAGAAGTA GAGATGGAAG ATTTTGATGC TAACATTGAA 
    GACCAGAAGG AAGAAAAGAA AGATGCAGAA GAAGAGGAAA GCGAACTGGG TTACATTCCG 
    AAAAGCAAAT GGGAGATGGA CACTTCTGAG GCAAAGCTAG ACAAGTTGGA TGGCTTGAGG 
    ACTGGTACTA AAAGGAAGCG AGACTGGGAG GCGATTGCCA GCAGAATGGA GGATTATCTT 
    CAGCTCCCTG ACGACTACGA GACTCGAGCT TCTGAGCCTG GGAAGAAGAG GGTGAGATGG 
    GCAGACCTAG AAGAAAAGAA GGATGCAGAT AGGAAAAGGG CCATAGGTTT TGTGGTCGGA 
    CAGACTGATT GGGAGAAGAT CACAGATGAG AGTGGTCACC TGGCTGAAAG AGCCCTCAAT 
    CGGACCAAAT ATATATGA

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

    Ylpm1 ( XM_021178800.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021034459.1 Mus caroli YLP motif containing 1 (Ylpm1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OMv28547
    Clone ID Related Accession (Same CDS sequence) XM_021178800.1
    Accession Version XM_021178800.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6411bp)
    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 YLP motif-containing protein 1 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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    ATGTATCCGA ATTGGGGCCG GTATGGCGGG AGCAGCCACT ATCCGCCGCC GCCAGTGCCG 
    CCGCCGCCAC CACCGGTGGC GCTTCCCGAG GCCTCGCCGG GGCCCGGGTA CTCCAGTTCG 
    ACGGCTCCCG CGGCCCCTTC CTCTTCAGGC TTCATGAGCT TCCGAGAGCA ACACTTGGCG 
    CAGCTCCAGC AGCTGCAGCA GATGCACCAG AAGCAAATGC AGTGCGTGCT CCAACCCCAC 
    CATCTTCCTC CGCCCCCGCT GCCGCCCCCG CCGGTGATGC CCGGGGGCGG CTACGGAGAC 
    TGGCAGCCGC CTCCGCCACC GATGCCCCCG CCACCTGGAC CAGCCCTCAG TTATCAGAAG 
    CAGCAGCAGT ACAAACACCA GATGATCCAC CACCAACGAG ATGGGCCTCC GGGTTTGGTT 
    CCAATGGAGC TGGAGTCCCC TCCTGAATCT CCCCCTGTAC CTCCAGGATC CTACATGCCC 
    CCATCCCAGT CGTACATGCC TCCACCTCAG CCACCACCCT CGTACTATCC CCCTTCCTCC 
    GCTCAGCCCT ACCTGCCACC TGCTCAGCCG TCCCCTTCAC AGTCTCCACC TTCCCAGTCC 
    TACCTGGCGC CCACTCCTTC TTATTCTTCC TCTTCCTCCT CACAATCATA TTTGAGCCAT 
    TCCCAGCCCT ACTTACCCCC TTCTCAGGCA TCTCCTTCCC GCTCCTCCCA GGGCCCTTCT 
    AAACCCCAGC TACCACCACC ACCGTCCATC CCTTCTGGGA ATAAAACAGC TATCCAGCAA 
    GAGCCTTTGG AGAGTGGGGC CAAGAACAAG ACTGCTGAAC AGAAGCAAGC TGCTCCTGAA 
    CCAGATCCCT CTACAATGAC TCCACAGGAG CAACAACAAT ATTGGTATCG ACAGCATCTA 
    CTTAGTTTGC AGCAGAGGAC AAAGGTGCAT TTGCCGGGAC ATAAAAAGGG TCTTGTCACA 
    GCAAAGGATG TACCAGAACC CATCAAAGAA GAAGCTCCGG GGCCACCTGC CAGTCAGGTA 
    GCAGAACCTC TTGCAGCTGA GAAGCCCCCA TTGCCACCTC CCAGTGAAGA AGCACCACCT 
    CCGCTCTCAC CTGAGGAACC CCAGTCAGAA GACTCAGAAG ACTCAGAAGA GGATTCTAGA 
    TTTAAACAGT TGAAGGCTAT AGCAGCACAT TGGCAGGCTG CAGCAGCACA TTGGCAACAG 
    CAGCAGCAGC AGCGAGTCGG CTTCCAGTAT CAAGGAATAA TGCAGAGGCA CACACAGTTA 
    CAGCAGATCC TGCAGCAGTA CCAGCAAGTT ATCCAGCACT CACCACACAT ACAGACCATG 
    TCTCTGGATG TGCAGCTGCG ACATTATGAG ATGCAGCAGC AACAGTTTCA ACATCTCTTT 
    CAAGACTGGG AGCGAGAGTT TCAGCTGTGG GAGGAGCAGC TCCATTCCTA TCCTCATAAA 
    GATCAGCTTC AGGAGTATGA GAAGCAGTGG AAGACATGGC AGGGACATAT GAAAGCCACT 
    CAGACCTATC TCCAGGAGAA AGTCAACTCG TTCCAGACTG TGAAGAGCCA GTACCTGGGG 
    AACATGGCAA TGCCACCTCC GTTTGTTCCA TATTCTCAGA TGCCTCCACC TCTGCCAACA 
    ATGCCCCCTC CAGTATTACC TCCATCCTTG CCACCACCAG TGATGCCCCC TGCCCTGCCT 
    ACCTCCATCC CACCACCTGG CATGCCTCCG CCTGTGATGC CACCTTCTCT GCCAACCTCT 
    GTCCCCCCAC CAGGAATGCC TCCATCTCTT TCTTCAGGGC CACCTCCAGT TCTCCCTCCA 
    CCTGCCCTCT CTTCAGCAGG GTCACCACCA GTCCTTCCCC CACCGGCTCT ACCTGGGGGA 
    CCACCCATCC TACCCCTCCC ACCATTATCT TCAGCCACAC CTCCCCCAGG AATACCTCCC 
    CCTGGAGCTC CACAAGGGAT GCCTCCTCAG TTAACAGCCC CACTTCCACC AGCTTCTGGT 
    TCTCAGAACT CACAGATCCC AGAGAAACCT AGACAAGCAC TGCTTCCCAC ACCTGTGTCT 
    TTTGGTTCGA CCCCACCTTC ACCATATCAC CCTCCACCTC AGTCAGAACA AGTGAATTCC 
    AAACCTCTGA ACAAGGTGTT CTCATCTGAG CAAGGACTGG GCGAGTCTTC TGCTCTATCT 
    CAATCCGTCA TTGCAGCTAA GGACATGCCA GTGAAGTCAG GTGGACTGCT TGCAGACCCT 
    CCTAAGGGCA GTTTCTTGGA AGGTCCGAGA GGTCCAAGAT TTGATGGTCC TCGAAGATTT 
    GAGGATTTAG GGTCAAGGTG TGAAGGACCG AGACCCAAAG GGCCTCGTTT TGAAGGAAAT 
    CGCCCCGATG GGCCAAGACC CAGATATGAA AGTCACCCAG CAGAGGGCAC TAAAAGCAAA 
    TGGGGAACGA TCCCTCGGGG CCCAGCATCT CAATTTTATA TAACTCCCAA TACATCCCTA 
    AGTCCTCGAC AGAGTGGACC ACAGTGGAAA GGCCCCAAAG CAACTGTTGG ACAGCAGCAT 
    CAGCAGCAGC CTAAGCAGCA ACCTAAGTCA CAAGCAGAAC CTCTTTCAGG AAACAAAGAG 
    CCATTAGCAG ATACAAGTAA TAACCAACAG AAGAATTTAA AAATTCAGTC AGCTGCATTT 
    TCCATTTCCG CAGATGTCAA GGATACCAAG GCAGCTCAGT CAAATGAGAA TCTAAGTGAC 
    TCTCAACAAG AGCCAACTAA AAGCCAAGTC TCGGAAGGGC CCGTAGAGCC CTCTAATTGG 
    AACCAGAATT CTCAAAGTAT GGAGACTGAC ATGGACAAAG CAGAAGGTGT TACTCAGCCT 
    GTATCCCTTG CAAACAAACC TGTACCTACT CAATCTACTT TCCCCTCAAA AGTAGGGAGC 
    ATGGAGGGAG GAGCCACAGC AGCAGCATTG ACTGCAGATG ATTTCAAACC TTTGGGTGTT 
    GGTTTGTCCC ACTCAGAAAA CCACCAAGAA AAAGATCTTC CTCAGCCAGA CAGCAGAGAA 
    AATAGATTAG AAGGCAATAA AGGCAGCAGC TCATCATACA GAGGTCCTGG GCAGAACAAA 
    GTGGAAGAGT CACGGGATAA AGGACTAGTA AACAGAGGTC GTGGCCAGAC AATTAACCGT 
    GGTCCAGGTC TGGTCAAGCA AGAAGATTTC CATGATAAAA TGATGGGTAG AAGAGAAGAC 
    AGTCGTGAGA AAATGAACAG AGGAGAAGGC AGCCGGGACA GGGTGTTTGT GAGGCCAGGA 
    AGCAGTCGGG ATAAAATACC AGGTGGCCTA CAAGACAGCC AGGACAGTAG AGCCAACAGC 
    CGAGAAAGGG GACCACCTCG CAGGGCTGGC AGTCAGGAGA GAGGACCTCC TCGAAGGGCT 
    GGAAGTAGAG AGAGAGTACC TTCTCAAAGA GCTGGAAGCA GGGAGAGGGT GCCACCTCGT 
    GGTCCAGGTA GTCGAGAAAG GGGGTTAGGA AGGCCAGATT TTGGTCATGA TAGAGTTCCA 
    TTCAGACCAG AACCAGGAGA TGGTGGAGAC AAAATGTATC CTTATCACCG AGATGAACCT 
    TCTAGGGCTT CGTGGAACCA TGGAGAAGAG AGAGGACATG AAGAGTTCCC AGTAGATGGT 
    AGAAATGCTC CAATTGAGCG AGAAAGACTC GATGACTGGG ATAGAAAGAG ATACTGGAGA 
    GAGTGTGAAC GTGACTATCA AGATGATACA CTAGATTCAT ACAGCAGAGA GGACAGGTTC 
    TCAGCACCAC CATCACGGTC TTATGATGGA GACAGGCGAG GCCCTTGGTG GGATGATTGG 
    GAAAGAGATC AGGATATGGA TGAGGGTTAT GGTAGGGAAA TGGACAGGGA CTTAGACAGA 
    GATGTGGATT GCATTAGAAG ATCTGTGGAT ATATATGATA GAAATGTGGA TAACGAGTGG 
    GACAGAGATT ATGGGAGACC ACTGGATGAA CAAGAATCAC AGTTTCGTGA ACGGGATATT 
    CCATCTCTTC CACCTTTACC ACCCCTCCCA CCTCTTCCAC CTTTGGATAG ATATCGGGAT 
    GATAGATGGA GAGAAGAAAG AAATCGAGAC CATGGGTATG ACCGAGATTT CCGTGATAGG 
    GGTGAGTTGA GGATTCGAGA GTATCCAGAA AGAGGAGATA CATGGCGGGA AAAGCGAGAT 
    TATGTTCCTG ACAGAATGGA CTGGGAAAGA GAACTGTTGT CAGACAGATG GTACCCATCT 
    GATGTGGATA GACATTCCCC CCTGGCGGAA CATATGCCAT CCTCACATCA TTCCTCTGAA 
    ATGATGGGGT CCGATGCAAA CTTAGACTCT GACCCAGGCC TTGGAGGGGT AATGGTTCTC 
    AGTCAGAGGC AGCACGAAAT CATTTTGAAA GCTGCACAAG AATTGAAAAT GCTTCGAGAA 
    CAGAAAGAGC AGCTTCAAAA GTTGAAAGAC TTTGGGTCTG AGCCACAGAT GGCTGACCAT 
    CTACCACCCC CAGACTCAAG ACTACAGAAT CCATCAAGAC CTGGGATGTA TCCGCCTCCA 
    GGATCCTATA GACCACCCCC TCCTATGGGT AAGCCACCTG GGTCAATTGT AAGACCCTCT 
    GCTCCACCAG CAAGATCATC TATTCCTATG ACTAGGCCTC CTGTGCCAAT ACCACCACCG 
    CCTCCTCCAC CTCCACCACC ACCACCTCCT CCTCCAGTTA TAAAGTCAAA AACCTCATCT 
    GTGAAACAGG AACGCTGGGA TGAAGATTCT TTCTTTGGGC TCTGGGATAC AAATGATGAT 
    CAAGGACTGA ATTCAGAATT TAAGCGAGAC ACTGCAACAA TTCCGTCTGC TCCGGTGTTA 
    CCACCCCCAC CTGTTCATTC TTCCATTCCC CCTCCTGGCC CAATGCCTAT GGGTATGCCA 
    CCAATGTCCA AACCACCACC AGTGCAGCAT ACAGTTGACT ATGGCCATGG CCGAGATATG 
    CCTACTAATA AAGTTGAACA GATACCATAT GGAGAAAGAA TAACTCTACG TCCAGATCCA 
    TTACCTGAAA GGTCAACTTT TGATGCAGAT CATGCAGGCC AGCGTGATCG CTACGATAGA 
    GATAGAGACC GTGAACCTTA TTTTGACCGT CCAAGTAATA TAACAGATCA TCGAGATTTT 
    AAAAGGGACC GAGAGACACA TAGAGATAGA GACCGAGATC GTGTTCTTGA CTATGAGCGG 
    GACCGATTTG ACAGAGAGCG CAGACCCCGA GATGACAGGA ATCAGTCATA TCGAGACAAA 
    AAAGACCATT CTTCATCCAG AAGAGGAGGG TTTGATAGGC CATCCTATGA CCGGAAGTCT 
    GATCGACCAC CCTATGAAGG CCCACCCATG TTTGGAGGAG AACGAAGAAC TTACCCGGAG 
    GAGCGCATGC CCCTTCCAGC TCCTGCCCTG GGCCACCAGC CACCTCCAGT TCCTCGGGTT 
    GAGAAGAAGC CGGAGTCCAA AAATGTGGAT GACATTCTGA AACCGCCAGG CCGGGAGAGC 
    CGGCCTGAAA GAATTGTTGT TATAATGAGA GGATTGCCTG GCAGTGGAAA GACACATGTT 
    GCAAAACTTA TCCGGGATAA GGAAGTAGAA TTTGGAGGAC CTGCGCCCAG GGTTTTAAGT 
    CTAGATGATT ATTTCATCGC TGAAGTAGAA AAAGAAGAAA AAGATCCAGA TTCTGGAAAG 
    AAAGTAAAAA AGAAGGTAAT GGAATATGAA TATGAAGCTG ACATGGAGGA GACTTATCGC 
    ACCAGCATGT TCAAAACTTT CAAAAAGACT CTAGATGACG GCTTTTTCCC TTTCATTATT 
    CTGGATGCTA TCAATGACAG AGTTAGGCAT TTTGATCAGT TTTGGAGTGC AGCGAAAACC 
    AAGGGCTTTG AGGTGTATTT GGCTGAAATG AGTGCTGATA ACCAGACTTG TGGCAAGAGA 
    AATATTCATG GAAGAAAGCT TAAAGAAATA AACAAGATGG CTGAACACTG GGAAGCTGCA 
    CCTCGTCACA TGATGCGTCT AGACATCCGC TCCCTGCTAC AAGATGCTGC GATTGAAGAA 
    GTAGAGATGG AAGATTTTGA TGCTAACATT GAAGACCAGA AGGAAGAAAA GAAAGATGCA 
    GAAGAAGAGG AAAGCGAACT GGGTTACATT CCGAAAAGCA AATGGGAGAT GGACACTTCT 
    GAGGCAAAGC TAGACAAGTT GGATGGCTTG AGGACTGGTA CTAAAAGGAA GCGAGACTGG 
    GAGGCGATTG CCAGCAGAAT GGAGGATTAT CTTCAGCTCC CTGACGACTA CGAGACTCGA 
    GCTTCTGAGC CTGGGAAGAA GAGGGTGAGA TGGGCAGACC TAGAAGAAAA GAAGGATGCA 
    GATAGGAAAA GGGCCATAGG TTTTGTGGTC GGACAGACTG ATTGGGAGAA GATCACAGAT 
    GAGAGTGGTC ACCTGGCTGA AAGAGCCCTC AATCGGACCA AATATATATG A

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

    RefSeq XP_021034459.1
    CDS136..6546
    Translation

    Target ORF information:

    RefSeq Version XM_021178800.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli YLP motif containing 1 (Ylpm1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021178800.1

    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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    ATGTATCCGA ATTGGGGCCG GTATGGCGGG AGCAGCCACT ATCCGCCGCC GCCAGTGCCG 
    CCGCCGCCAC CACCGGTGGC GCTTCCCGAG GCCTCGCCGG GGCCCGGGTA CTCCAGTTCG 
    ACGGCTCCCG CGGCCCCTTC CTCTTCAGGC TTCATGAGCT TCCGAGAGCA ACACTTGGCG 
    CAGCTCCAGC AGCTGCAGCA GATGCACCAG AAGCAAATGC AGTGCGTGCT CCAACCCCAC 
    CATCTTCCTC CGCCCCCGCT GCCGCCCCCG CCGGTGATGC CCGGGGGCGG CTACGGAGAC 
    TGGCAGCCGC CTCCGCCACC GATGCCCCCG CCACCTGGAC CAGCCCTCAG TTATCAGAAG 
    CAGCAGCAGT ACAAACACCA GATGATCCAC CACCAACGAG ATGGGCCTCC GGGTTTGGTT 
    CCAATGGAGC TGGAGTCCCC TCCTGAATCT CCCCCTGTAC CTCCAGGATC CTACATGCCC 
    CCATCCCAGT CGTACATGCC TCCACCTCAG CCACCACCCT CGTACTATCC CCCTTCCTCC 
    GCTCAGCCCT ACCTGCCACC TGCTCAGCCG TCCCCTTCAC AGTCTCCACC TTCCCAGTCC 
    TACCTGGCGC CCACTCCTTC TTATTCTTCC TCTTCCTCCT CACAATCATA TTTGAGCCAT 
    TCCCAGCCCT ACTTACCCCC TTCTCAGGCA TCTCCTTCCC GCTCCTCCCA GGGCCCTTCT 
    AAACCCCAGC TACCACCACC ACCGTCCATC CCTTCTGGGA ATAAAACAGC TATCCAGCAA 
    GAGCCTTTGG AGAGTGGGGC CAAGAACAAG ACTGCTGAAC AGAAGCAAGC TGCTCCTGAA 
    CCAGATCCCT CTACAATGAC TCCACAGGAG CAACAACAAT ATTGGTATCG ACAGCATCTA 
    CTTAGTTTGC AGCAGAGGAC AAAGGTGCAT TTGCCGGGAC ATAAAAAGGG TCTTGTCACA 
    GCAAAGGATG TACCAGAACC CATCAAAGAA GAAGCTCCGG GGCCACCTGC CAGTCAGGTA 
    GCAGAACCTC TTGCAGCTGA GAAGCCCCCA TTGCCACCTC CCAGTGAAGA AGCACCACCT 
    CCGCTCTCAC CTGAGGAACC CCAGTCAGAA GACTCAGAAG ACTCAGAAGA GGATTCTAGA 
    TTTAAACAGT TGAAGGCTAT AGCAGCACAT TGGCAGGCTG CAGCAGCACA TTGGCAACAG 
    CAGCAGCAGC AGCGAGTCGG CTTCCAGTAT CAAGGAATAA TGCAGAGGCA CACACAGTTA 
    CAGCAGATCC TGCAGCAGTA CCAGCAAGTT ATCCAGCACT CACCACACAT ACAGACCATG 
    TCTCTGGATG TGCAGCTGCG ACATTATGAG ATGCAGCAGC AACAGTTTCA ACATCTCTTT 
    CAAGACTGGG AGCGAGAGTT TCAGCTGTGG GAGGAGCAGC TCCATTCCTA TCCTCATAAA 
    GATCAGCTTC AGGAGTATGA GAAGCAGTGG AAGACATGGC AGGGACATAT GAAAGCCACT 
    CAGACCTATC TCCAGGAGAA AGTCAACTCG TTCCAGACTG TGAAGAGCCA GTACCTGGGG 
    AACATGGCAA TGCCACCTCC GTTTGTTCCA TATTCTCAGA TGCCTCCACC TCTGCCAACA 
    ATGCCCCCTC CAGTATTACC TCCATCCTTG CCACCACCAG TGATGCCCCC TGCCCTGCCT 
    ACCTCCATCC CACCACCTGG CATGCCTCCG CCTGTGATGC CACCTTCTCT GCCAACCTCT 
    GTCCCCCCAC CAGGAATGCC TCCATCTCTT TCTTCAGGGC CACCTCCAGT TCTCCCTCCA 
    CCTGCCCTCT CTTCAGCAGG GTCACCACCA GTCCTTCCCC CACCGGCTCT ACCTGGGGGA 
    CCACCCATCC TACCCCTCCC ACCATTATCT TCAGCCACAC CTCCCCCAGG AATACCTCCC 
    CCTGGAGCTC CACAAGGGAT GCCTCCTCAG TTAACAGCCC CACTTCCACC AGCTTCTGGT 
    TCTCAGAACT CACAGATCCC AGAGAAACCT AGACAAGCAC TGCTTCCCAC ACCTGTGTCT 
    TTTGGTTCGA CCCCACCTTC ACCATATCAC CCTCCACCTC AGTCAGAACA AGTGAATTCC 
    AAACCTCTGA ACAAGGTGTT CTCATCTGAG CAAGGACTGG GCGAGTCTTC TGCTCTATCT 
    CAATCCGTCA TTGCAGCTAA GGACATGCCA GTGAAGTCAG GTGGACTGCT TGCAGACCCT 
    CCTAAGGGCA GTTTCTTGGA AGGTCCGAGA GGTCCAAGAT TTGATGGTCC TCGAAGATTT 
    GAGGATTTAG GGTCAAGGTG TGAAGGACCG AGACCCAAAG GGCCTCGTTT TGAAGGAAAT 
    CGCCCCGATG GGCCAAGACC CAGATATGAA AGTCACCCAG CAGAGGGCAC TAAAAGCAAA 
    TGGGGAACGA TCCCTCGGGG CCCAGCATCT CAATTTTATA TAACTCCCAA TACATCCCTA 
    AGTCCTCGAC AGAGTGGACC ACAGTGGAAA GGCCCCAAAG CAACTGTTGG ACAGCAGCAT 
    CAGCAGCAGC CTAAGCAGCA ACCTAAGTCA CAAGCAGAAC CTCTTTCAGG AAACAAAGAG 
    CCATTAGCAG ATACAAGTAA TAACCAACAG AAGAATTTAA AAATTCAGTC AGCTGCATTT 
    TCCATTTCCG CAGATGTCAA GGATACCAAG GCAGCTCAGT CAAATGAGAA TCTAAGTGAC 
    TCTCAACAAG AGCCAACTAA AAGCCAAGTC TCGGAAGGGC CCGTAGAGCC CTCTAATTGG 
    AACCAGAATT CTCAAAGTAT GGAGACTGAC ATGGACAAAG CAGAAGGTGT TACTCAGCCT 
    GTATCCCTTG CAAACAAACC TGTACCTACT CAATCTACTT TCCCCTCAAA AGTAGGGAGC 
    ATGGAGGGAG GAGCCACAGC AGCAGCATTG ACTGCAGATG ATTTCAAACC TTTGGGTGTT 
    GGTTTGTCCC ACTCAGAAAA CCACCAAGAA AAAGATCTTC CTCAGCCAGA CAGCAGAGAA 
    AATAGATTAG AAGGCAATAA AGGCAGCAGC TCATCATACA GAGGTCCTGG GCAGAACAAA 
    GTGGAAGAGT CACGGGATAA AGGACTAGTA AACAGAGGTC GTGGCCAGAC AATTAACCGT 
    GGTCCAGGTC TGGTCAAGCA AGAAGATTTC CATGATAAAA TGATGGGTAG AAGAGAAGAC 
    AGTCGTGAGA AAATGAACAG AGGAGAAGGC AGCCGGGACA GGGTGTTTGT GAGGCCAGGA 
    AGCAGTCGGG ATAAAATACC AGGTGGCCTA CAAGACAGCC AGGACAGTAG AGCCAACAGC 
    CGAGAAAGGG GACCACCTCG CAGGGCTGGC AGTCAGGAGA GAGGACCTCC TCGAAGGGCT 
    GGAAGTAGAG AGAGAGTACC TTCTCAAAGA GCTGGAAGCA GGGAGAGGGT GCCACCTCGT 
    GGTCCAGGTA GTCGAGAAAG GGGGTTAGGA AGGCCAGATT TTGGTCATGA TAGAGTTCCA 
    TTCAGACCAG AACCAGGAGA TGGTGGAGAC AAAATGTATC CTTATCACCG AGATGAACCT 
    TCTAGGGCTT CGTGGAACCA TGGAGAAGAG AGAGGACATG AAGAGTTCCC AGTAGATGGT 
    AGAAATGCTC CAATTGAGCG AGAAAGACTC GATGACTGGG ATAGAAAGAG ATACTGGAGA 
    GAGTGTGAAC GTGACTATCA AGATGATACA CTAGATTCAT ACAGCAGAGA GGACAGGTTC 
    TCAGCACCAC CATCACGGTC TTATGATGGA GACAGGCGAG GCCCTTGGTG GGATGATTGG 
    GAAAGAGATC AGGATATGGA TGAGGGTTAT GGTAGGGAAA TGGACAGGGA CTTAGACAGA 
    GATGTGGATT GCATTAGAAG ATCTGTGGAT ATATATGATA GAAATGTGGA TAACGAGTGG 
    GACAGAGATT ATGGGAGACC ACTGGATGAA CAAGAATCAC AGTTTCGTGA ACGGGATATT 
    CCATCTCTTC CACCTTTACC ACCCCTCCCA CCTCTTCCAC CTTTGGATAG ATATCGGGAT 
    GATAGATGGA GAGAAGAAAG AAATCGAGAC CATGGGTATG ACCGAGATTT CCGTGATAGG 
    GGTGAGTTGA GGATTCGAGA GTATCCAGAA AGAGGAGATA CATGGCGGGA AAAGCGAGAT 
    TATGTTCCTG ACAGAATGGA CTGGGAAAGA GAACTGTTGT CAGACAGATG GTACCCATCT 
    GATGTGGATA GACATTCCCC CCTGGCGGAA CATATGCCAT CCTCACATCA TTCCTCTGAA 
    ATGATGGGGT CCGATGCAAA CTTAGACTCT GACCCAGGCC TTGGAGGGGT AATGGTTCTC 
    AGTCAGAGGC AGCACGAAAT CATTTTGAAA GCTGCACAAG AATTGAAAAT GCTTCGAGAA 
    CAGAAAGAGC AGCTTCAAAA GTTGAAAGAC TTTGGGTCTG AGCCACAGAT GGCTGACCAT 
    CTACCACCCC CAGACTCAAG ACTACAGAAT CCATCAAGAC CTGGGATGTA TCCGCCTCCA 
    GGATCCTATA GACCACCCCC TCCTATGGGT AAGCCACCTG GGTCAATTGT AAGACCCTCT 
    GCTCCACCAG CAAGATCATC TATTCCTATG ACTAGGCCTC CTGTGCCAAT ACCACCACCG 
    CCTCCTCCAC CTCCACCACC ACCACCTCCT CCTCCAGTTA TAAAGTCAAA AACCTCATCT 
    GTGAAACAGG AACGCTGGGA TGAAGATTCT TTCTTTGGGC TCTGGGATAC AAATGATGAT 
    CAAGGACTGA ATTCAGAATT TAAGCGAGAC ACTGCAACAA TTCCGTCTGC TCCGGTGTTA 
    CCACCCCCAC CTGTTCATTC TTCCATTCCC CCTCCTGGCC CAATGCCTAT GGGTATGCCA 
    CCAATGTCCA AACCACCACC AGTGCAGCAT ACAGTTGACT ATGGCCATGG CCGAGATATG 
    CCTACTAATA AAGTTGAACA GATACCATAT GGAGAAAGAA TAACTCTACG TCCAGATCCA 
    TTACCTGAAA GGTCAACTTT TGATGCAGAT CATGCAGGCC AGCGTGATCG CTACGATAGA 
    GATAGAGACC GTGAACCTTA TTTTGACCGT CCAAGTAATA TAACAGATCA TCGAGATTTT 
    AAAAGGGACC GAGAGACACA TAGAGATAGA GACCGAGATC GTGTTCTTGA CTATGAGCGG 
    GACCGATTTG ACAGAGAGCG CAGACCCCGA GATGACAGGA ATCAGTCATA TCGAGACAAA 
    AAAGACCATT CTTCATCCAG AAGAGGAGGG TTTGATAGGC CATCCTATGA CCGGAAGTCT 
    GATCGACCAC CCTATGAAGG CCCACCCATG TTTGGAGGAG AACGAAGAAC TTACCCGGAG 
    GAGCGCATGC CCCTTCCAGC TCCTGCCCTG GGCCACCAGC CACCTCCAGT TCCTCGGGTT 
    GAGAAGAAGC CGGAGTCCAA AAATGTGGAT GACATTCTGA AACCGCCAGG CCGGGAGAGC 
    CGGCCTGAAA GAATTGTTGT TATAATGAGA GGATTGCCTG GCAGTGGAAA GACACATGTT 
    GCAAAACTTA TCCGGGATAA GGAAGTAGAA TTTGGAGGAC CTGCGCCCAG GGTTTTAAGT 
    CTAGATGATT ATTTCATCGC TGAAGTAGAA AAAGAAGAAA AAGATCCAGA TTCTGGAAAG 
    AAAGTAAAAA AGAAGGTAAT GGAATATGAA TATGAAGCTG ACATGGAGGA GACTTATCGC 
    ACCAGCATGT TCAAAACTTT CAAAAAGACT CTAGATGACG GCTTTTTCCC TTTCATTATT 
    CTGGATGCTA TCAATGACAG AGTTAGGCAT TTTGATCAGT TTTGGAGTGC AGCGAAAACC 
    AAGGGCTTTG AGGTGTATTT GGCTGAAATG AGTGCTGATA ACCAGACTTG TGGCAAGAGA 
    AATATTCATG GAAGAAAGCT TAAAGAAATA AACAAGATGG CTGAACACTG GGAAGCTGCA 
    CCTCGTCACA TGATGCGTCT AGACATCCGC TCCCTGCTAC AAGATGCTGC GATTGAAGAA 
    GTAGAGATGG AAGATTTTGA TGCTAACATT GAAGACCAGA AGGAAGAAAA GAAAGATGCA 
    GAAGAAGAGG AAAGCGAACT GGGTTACATT CCGAAAAGCA AATGGGAGAT GGACACTTCT 
    GAGGCAAAGC TAGACAAGTT GGATGGCTTG AGGACTGGTA CTAAAAGGAA GCGAGACTGG 
    GAGGCGATTG CCAGCAGAAT GGAGGATTAT CTTCAGCTCC CTGACGACTA CGAGACTCGA 
    GCTTCTGAGC CTGGGAAGAA GAGGGTGAGA TGGGCAGACC TAGAAGAAAA GAAGGATGCA 
    GATAGGAAAA GGGCCATAGG TTTTGTGGTC GGACAGACTG ATTGGGAGAA GATCACAGAT 
    GAGAGTGGTC ACCTGGCTGA AAGAGCCCTC AATCGGACCA AATATATATG A

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

    Ylpm1 ( XM_021178801.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021034460.1 Mus caroli YLP motif containing 1 (Ylpm1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OMv28548
    Clone ID Related Accession (Same CDS sequence) XM_021178801.1 , XM_021178801.2
    Accession Version XM_021178801.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6150bp)
    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 YLP motif-containing protein 1 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
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    ATGTATCCGA ATTGGGGCCG GTATGGCGGG AGCAGCCACT ATCCGCCGCC GCCAGTGCCG 
    CCGCCGCCAC CACCGGTGGC GCTTCCCGAG GCCTCGCCGG GGCCCGGGTA CTCCAGTTCG 
    ACGGCTCCCG CGGCCCCTTC CTCTTCAGGC TTCATGAGCT TCCGAGAGCA ACACTTGGCG 
    CAGCTCCAGC AGCTGCAGCA GATGCACCAG AAGCAAATGC AGTGCGTGCT CCAACCCCAC 
    CATCTTCCTC CGCCCCCGCT GCCGCCCCCG CCGGTGATGC CCGGGGGCGG CTACGGAGAC 
    TGGCAGCCGC CTCCGCCACC GATGCCCCCG CCACCTGGAC CAGCCCTCAG TTATCAGAAG 
    CAGCAGCAGT ACAAACACCA GATGATCCAC CACCAACGAG ATGGGCCTCC GGGTTTGGTT 
    CCAATGGAGC TGGAGTCCCC TCCTGAATCT CCCCCTGTAC CTCCAGGATC CTACATGCCC 
    CCATCCCAGT CGTACATGCC TCCACCTCAG CCACCACCCT CGTACTATCC CCCTTCCTCC 
    GCTCAGCCCT ACCTGCCACC TGCTCAGCCG TCCCCTTCAC AGTCTCCACC TTCCCAGTCC 
    TACCTGGCGC CCACTCCTTC TTATTCTTCC TCTTCCTCCT CACAATCATA TTTGAGCCAT 
    TCCCAGCCCT ACTTACCCCC TTCTCAGGCA TCTCCTTCCC GCTCCTCCCA GGGCCCTTCT 
    AAACCCCAGC TACCACCACC ACCGTCCATC CCTTCTGGGA ATAAAACAGC TATCCAGCAA 
    GAGCCTTTGG AGAGTGGGGC CAAGAACAAG ACTGCTGAAC AGAAGCAAGC TGCTCCTGAA 
    CCAGATCCCT CTACAATGAC TCCACAGGAG CAACAACAAT ATTGGTATCG ACAGCATCTA 
    CTTAGTTTGC AGCAGAGGAC AAAGGTGCAT TTGCCGGGAC ATAAAAAGGG TCTTGTCACA 
    GCAAAGGATG TACCAGAACC CATCAAAGAA GAAGCTCCGG GGCCACCTGC CAGTCAGGTA 
    GCAGAACCTC TTGCAGCTGA GAAGCCCCCA TTGCCACCTC CCAGTGAAGA AGCACCACCT 
    CCGCTCTCAC CTGAGGAACC CCAGTCAGAA GACTCAGAAG ACTCAGAAGA GGATTCTAGA 
    TTTAAACAGT TGAAGGCTAT AGCAGCACAT TGGCAGGCTG CAGCAGCACA TTGGCAACAG 
    CAGCAGCAGC AGCGAGTCGG CTTCCAGTAT CAAGGAATAA TGCAGAGGCA CACACAGTTA 
    CAGCAGATCC TGCAGCAGTA CCAGCAAGTT ATCCAGCACT CACCACACAT ACAGACCATG 
    TCTCTGGATG TGCAGCTGCG ACATTATGAG ATGCAGCAGC AACAGTTTCA ACATCTCTTT 
    CAAGACTGGG AGCGAGAGTT TCAGCTGTGG GAGGAGCAGC TCCATTCCTA TCCTCATAAA 
    GATCAGCTTC AGGAGTATGA GAAGCAGTGG AAGACATGGC AGGGACATAT GAAAGCCACT 
    CAGACCTATC TCCAGGAGAA AGTCAACTCG TTCCAGACTG TGAAGAGCCA GTACCTGGGG 
    AACATGGCAA TGCCACCTCC GTTTGTTCCA TATTCTCAGA TGCCTCCACC TCTGCCAACA 
    ATGCCCCCTC CAGTATTACC TCCATCCTTG CCACCACCAG TGATGCCCCC TGCCCTGCCT 
    ACCTCCATCC CACCACCTGG CATGCCTCCG CCTGTGATGC CACCTTCTCT GCCAACCTCT 
    GTCCCCCCAC CAGGAATGCC TCCATCTCTT TCTTCAGGGC CACCTCCAGT TCTCCCTCCA 
    CCTGCCCTCT CTTCAGCAGG GTCACCACCA GTCCTTCCCC CACCGGCTCT ACCTGGGGGA 
    CCACCCATCC TACCCCTCCC ACCATTATCT TCAGCCACAC CTCCCCCAGG AATACCTCCC 
    CCTGGAGCTC CACAAGGGAT GCCTCCTCAG TTAACAGCCC CACTTCCACC AGCTTCTGGT 
    TCTCAGAACT CACAGATCCC AGAGAAACCT AGACAAGCAC TGCTTCCCAC ACCTGTGTCT 
    TTTGGTTCGA CCCCACCTTC ACCATATCAC CCTCCACCTC AGTCAGAACA AGTGAATTCC 
    AAACCTCTGA ACAAGGTGTT CTCATCTGAG CAAGGACTGG GCGAGTCTTC TGCTCTATCT 
    CAATCCGTCA TTGCAGCTAA GGACATGCCA GTGAAGTCAG GTGGACTGCT TGCAGACCCT 
    CCTAAGGGCA GTTTCTTGGA AGGTCCGAGA GGTCCAAGAT TTGATGGTCC TCGAAGATTT 
    GAGGATTTAG GGTCAAGGTG TGAAGGACCG AGACCCAAAG GGCCTCGTTT TGAAGGAAAT 
    CGCCCCGATG GGCCAAGACC CAGATATGAA AGTCACCCAG CAGAGGGCAC TAAAAGCAAA 
    TGGGGAACGA TCCCTCGGGG CCCAGCATCT CAATTTTATA TAACTCCCAA TACATCCCTA 
    AGTCCTCGAC AGAGTGGACC ACAGTGGAAA GGCCCCAAAG CAACTGTTGG ACAGCAGCAT 
    CAGCAGCAGC CTAAGCAGCA ACCTAAGTCA CAAGCAGAAC CTCTTTCAGG AAACAAAGAG 
    CCATTAGCAG ATACAAGTAA TAACCAACAG AAGAATTTAA AAATTCAGTC AGCTGCATTT 
    TCCATTTCCG CAGATGTCAA GGATACCAAG GCAGCTCAGT CAAATGAGAA TCTAAGTGAC 
    TCTCAACAAG AGCCAACTAA AAGCCAAGTC TCGGAAGGGC CCGTAGAGCC CTCTAATTGG 
    AACCAGAATT CTCAAAGTAT GGAGACTGAC ATGGACAAAG CAGAAGGTGT TACTCAGCCT 
    GTATCCCTTG CAAACAAACC TGTACCTACT CAATCTACTT TCCCCTCAAA AGTAGGGAGC 
    ATGGAGGGAG GAGCCACAGC AGCAGCATTG ACTGCAGATG ATTTCAAACC TTTGGGTGTT 
    GGTTTGTCCC ACTCAGAAAA CCACCAAGAA AAAGATCTTC CTCAGCCAGA CAGCAGAGAA 
    AATAGATTAG AAGGCAATAA AGGCAGCAGC TCATCATACA GAGGTCCTGG GCAGAACAAA 
    GTGGAAGAGT CACGGGATAA AGGACTAGTA AACAGAGGTC GTGGCCAGAC AATTAACCGT 
    GGTCCAGGTC TGGTCAAGCA AGAAGATTTC CATGATAAAA TGATGGGTAG AAGAGAAGAC 
    AGTCGTGAGA AAATGAACAG AGGAGAAGGC AGCCGGGACA GGGTGTTTGT GAGGCCAGGA 
    AGCAGTCGGG ATAAAATACC AGGTGGCCTA CAAGACAGCC AGGACAGTAG AGCCAACAGC 
    CGAGAAAGGG GACCACCTCG CAGGGCTGGC AGTCAGGAGA GAGGACCTCC TCGAAGGGCT 
    GGAAGTAGAG AGAGAGTACC TTCTCAAAGA GCTGGAAGCA GGGAGAGGGT GCCACCTCGT 
    GGTCCAGGTA GTCGAGAAAG GGGGTTAGGA AGGCCAGATT TTGGTCATGA TAGAGTTCCA 
    TTCAGACCAG AACCAGGAGA TGGTGGAGAC AAAATGTATC CTTATCACCG AGATGAACCT 
    TCTAGGGCTT CGTGGAACCA TGGAGAAGAG AGAGGACATG AAGAGTTCCC AGTAGATGGT 
    AGAAATGCTC CAATTGAGCG AGAAAGACTC GATGACTGGG ATAGAAAGAG ATACTGGAGA 
    GAGTGTGAAC GTGACTATCA AGATGATACA CTAGATTCAT ACAGCAGAGA GGACAGGTTC 
    TCAGCACCAC CATCACGGTC TTATGATGGA GACAGGCGAG GCCCTTGGTG GGATGATTGG 
    GAAAGAGATC AGGATATGGA TGAGGGTTAT GGTAGGGAAA TGGACAGGGA CTTAGACAGA 
    GATGTGGATT GCATTAGAAG ATCTGTGGAT ATATATGATA GAAATGTGGA TAACGAGTGG 
    GACAGAGATT ATGGGAGACC ACTGGATGAA CAAGAATCAC AGTTTCGTGA ACGGGATATT 
    CCATCTCTTC CACCTTTACC ACCCCTCCCA CCTCTTCCAC CTTTGGATAG ATATCGGGAT 
    GATAGATGGA GAGAAGAAAG AAATCGAGAC CATGGGTATG ACCGAGATTT CCGTGATAGG 
    GGTGAGTTGA GGATTCGAGA GTATCCAGAA AGAGGAGATA CATGGCGGGA AAAGCGAGAT 
    TATGTTCCTG ACAGAATGGA CTGGGAAAGA GAACTGTTGT CAGACAGATG GTACCCATCT 
    GATGTGGATA GACATTCCCC CCTGGCGGAA CATATGCCAT CCTCACATCA TTCCTCTGAA 
    ATGATGGGGT CCGATGCAAA CTTAGACTCT GACCCAGGCC TTGGAGGGGT AATGGTTCTC 
    AGTCAGAGGC AGCACGAAAT CATTTTGAAA GCTGCACAAG AATTGAAAAT GCTTCGAGAA 
    CAGAAAGAGC AGCTTCAAAA GTTGAAAGAC TTTGGGTCTG AGCCACAGAT GGCTGACCAT 
    CTACCACCCC CAGACTCAAG ACTACAGAAT CCATCAAGAC CTGGGATGTA TCCGCCTCCA 
    GGATCCTATA GACCACCCCC TCCTATGGGT AAGCCACCTG GGTCAATTGT AAGACCCTCT 
    GCTCCACCAG CAAGATCATC TATTCCTATG ACTAGGCCTC CTGTGCCAAT ACCACCACCG 
    CCTCCTCCAC CTCCACCACC ACCACCTCCT CCTCCAGTTA TAAAGTCAAA AACCTCATCT 
    GTGAAACAGG AACGCTGGGA TGAAGATTCT TTCTTTGGGC TCTGGGATAC AAATGATGAT 
    CAAGGACTGA ATTCAGAATT TAAGCGAGAC ACTGCAACAA TTCCGTCTGC TCCGGTGTTA 
    CCACCCCCAC CTGTTCATTC TTCCATTCCC CCTCCTGGCC CAATGCCTAT GGGTATGCCA 
    CCAATGTCCA AACCACCACC AGTGCAGCAT ACAGTTGACT ATGGCCATGG CCGAGATATG 
    CCTACTAATA AAGTTGAACA GATACCATAT GGAGAAAGAA TAACTCTACG TCCAGATCCA 
    TTACCTGAAA GGTCAACTTT TGATGCAGAT CATGCAGGCC AGCGTGATCG CTACGATAGA 
    GATAGAGACC GTGAACCTTA TTTTGACCGT CCAAGTAATA TAACAGATCA TCGAGATTTT 
    AAAAGGGACC GAGAGACACA TAGAGATAGA GACCGAGATC GTGTTCTTGA CTATGAGCGG 
    GACCGATTTG ACAGAGAGCG CAGACCCCGA GATGACAGGA ATCAGTCATA TCGAGACAAA 
    AAAGACCATT CTTCATCCAG AAGAGGAGGG TTTGATAGGC CATCCTATGA CCGGAAGTCT 
    GATCGACCAC CCTATGAAGG CCCACCCATG TTTGGAGGAG AACGAAGAAC TTACCCGGAG 
    GAGCGCATGC CCCTTCCAGC TCCTGCCCTG GGCCACCAGC CACCTCCAGT TCCTCGGGTT 
    GAGAAGAAGC CGGAGTCCAA AAATGTGGAT GACATTCTGA AACCGCCAGG CCGGGAGAGC 
    CGGCCTGAAA GAATTGTTGT TATAATGAGA GGATTGCCTG GCAGTGGAAA GACACATGTT 
    GCAAAACTTA TCCGGGATAA GGAAGTAGAA TTTGGAGGAC CTGCGCCCAG GGTTTTAAGT 
    CTAGATGATT ATTTCATCGC TGAAGTAGAA AAAGAAGAAA AAGATCCAGA TTCTGGAAAG 
    AAAGTAAAAA AGAAGGTAAT GGAATATGAA TATGAAGCTG ACATGGAGGA GACTTATCGC 
    ACCAGCATGT TCAAAACTTT CAAAAAGACT CTAGATGACG GCTTTTTCCC TTTCATTATT 
    CTGGATGCTA TCAATGACAG AGTTAGGCAT TTTGATCAGT TTTGGAGTGC AGCGAAAACC 
    AAGGGCTTTG AGGTGTATTT GGCTGAAATG AGTGCTGATA ACCAGACTTG TGGCAAGAGA 
    AATATTCATG GAAGAAAGCT TAAAGAAATA AACAAGATGG CTGAACACTG GGAAGCTGCA 
    CCTCGTCACA TGATGCGTCT AGACATCCGC TCCCTGCTAC AAGATGCTGC GATTGAAGAA 
    GTAGAGATGG AAGATTTTGA TGCTAACATT GAAGACCAGA AGGAAGAAAA GAAAGATGCA 
    GAAGAAGAGG AAAGCGAACT GCAGGTATGT GGTAGAGCCT ACCCAACATA TGCATACTCT 
    TACCTCTTTG CTGTAAGATC TCAAAACTGA

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

    RefSeq XP_021034460.1
    CDS136..6285
    Translation

    Target ORF information:

    RefSeq Version XM_021178801.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli YLP motif containing 1 (Ylpm1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021178801.1

    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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    ATGTATCCGA ATTGGGGCCG GTATGGCGGG AGCAGCCACT ATCCGCCGCC GCCAGTGCCG 
    CCGCCGCCAC CACCGGTGGC GCTTCCCGAG GCCTCGCCGG GGCCCGGGTA CTCCAGTTCG 
    ACGGCTCCCG CGGCCCCTTC CTCTTCAGGC TTCATGAGCT TCCGAGAGCA ACACTTGGCG 
    CAGCTCCAGC AGCTGCAGCA GATGCACCAG AAGCAAATGC AGTGCGTGCT CCAACCCCAC 
    CATCTTCCTC CGCCCCCGCT GCCGCCCCCG CCGGTGATGC CCGGGGGCGG CTACGGAGAC 
    TGGCAGCCGC CTCCGCCACC GATGCCCCCG CCACCTGGAC CAGCCCTCAG TTATCAGAAG 
    CAGCAGCAGT ACAAACACCA GATGATCCAC CACCAACGAG ATGGGCCTCC GGGTTTGGTT 
    CCAATGGAGC TGGAGTCCCC TCCTGAATCT CCCCCTGTAC CTCCAGGATC CTACATGCCC 
    CCATCCCAGT CGTACATGCC TCCACCTCAG CCACCACCCT CGTACTATCC CCCTTCCTCC 
    GCTCAGCCCT ACCTGCCACC TGCTCAGCCG TCCCCTTCAC AGTCTCCACC TTCCCAGTCC 
    TACCTGGCGC CCACTCCTTC TTATTCTTCC TCTTCCTCCT CACAATCATA TTTGAGCCAT 
    TCCCAGCCCT ACTTACCCCC TTCTCAGGCA TCTCCTTCCC GCTCCTCCCA GGGCCCTTCT 
    AAACCCCAGC TACCACCACC ACCGTCCATC CCTTCTGGGA ATAAAACAGC TATCCAGCAA 
    GAGCCTTTGG AGAGTGGGGC CAAGAACAAG ACTGCTGAAC AGAAGCAAGC TGCTCCTGAA 
    CCAGATCCCT CTACAATGAC TCCACAGGAG CAACAACAAT ATTGGTATCG ACAGCATCTA 
    CTTAGTTTGC AGCAGAGGAC AAAGGTGCAT TTGCCGGGAC ATAAAAAGGG TCTTGTCACA 
    GCAAAGGATG TACCAGAACC CATCAAAGAA GAAGCTCCGG GGCCACCTGC CAGTCAGGTA 
    GCAGAACCTC TTGCAGCTGA GAAGCCCCCA TTGCCACCTC CCAGTGAAGA AGCACCACCT 
    CCGCTCTCAC CTGAGGAACC CCAGTCAGAA GACTCAGAAG ACTCAGAAGA GGATTCTAGA 
    TTTAAACAGT TGAAGGCTAT AGCAGCACAT TGGCAGGCTG CAGCAGCACA TTGGCAACAG 
    CAGCAGCAGC AGCGAGTCGG CTTCCAGTAT CAAGGAATAA TGCAGAGGCA CACACAGTTA 
    CAGCAGATCC TGCAGCAGTA CCAGCAAGTT ATCCAGCACT CACCACACAT ACAGACCATG 
    TCTCTGGATG TGCAGCTGCG ACATTATGAG ATGCAGCAGC AACAGTTTCA ACATCTCTTT 
    CAAGACTGGG AGCGAGAGTT TCAGCTGTGG GAGGAGCAGC TCCATTCCTA TCCTCATAAA 
    GATCAGCTTC AGGAGTATGA GAAGCAGTGG AAGACATGGC AGGGACATAT GAAAGCCACT 
    CAGACCTATC TCCAGGAGAA AGTCAACTCG TTCCAGACTG TGAAGAGCCA GTACCTGGGG 
    AACATGGCAA TGCCACCTCC GTTTGTTCCA TATTCTCAGA TGCCTCCACC TCTGCCAACA 
    ATGCCCCCTC CAGTATTACC TCCATCCTTG CCACCACCAG TGATGCCCCC TGCCCTGCCT 
    ACCTCCATCC CACCACCTGG CATGCCTCCG CCTGTGATGC CACCTTCTCT GCCAACCTCT 
    GTCCCCCCAC CAGGAATGCC TCCATCTCTT TCTTCAGGGC CACCTCCAGT TCTCCCTCCA 
    CCTGCCCTCT CTTCAGCAGG GTCACCACCA GTCCTTCCCC CACCGGCTCT ACCTGGGGGA 
    CCACCCATCC TACCCCTCCC ACCATTATCT TCAGCCACAC CTCCCCCAGG AATACCTCCC 
    CCTGGAGCTC CACAAGGGAT GCCTCCTCAG TTAACAGCCC CACTTCCACC AGCTTCTGGT 
    TCTCAGAACT CACAGATCCC AGAGAAACCT AGACAAGCAC TGCTTCCCAC ACCTGTGTCT 
    TTTGGTTCGA CCCCACCTTC ACCATATCAC CCTCCACCTC AGTCAGAACA AGTGAATTCC 
    AAACCTCTGA ACAAGGTGTT CTCATCTGAG CAAGGACTGG GCGAGTCTTC TGCTCTATCT 
    CAATCCGTCA TTGCAGCTAA GGACATGCCA GTGAAGTCAG GTGGACTGCT TGCAGACCCT 
    CCTAAGGGCA GTTTCTTGGA AGGTCCGAGA GGTCCAAGAT TTGATGGTCC TCGAAGATTT 
    GAGGATTTAG GGTCAAGGTG TGAAGGACCG AGACCCAAAG GGCCTCGTTT TGAAGGAAAT 
    CGCCCCGATG GGCCAAGACC CAGATATGAA AGTCACCCAG CAGAGGGCAC TAAAAGCAAA 
    TGGGGAACGA TCCCTCGGGG CCCAGCATCT CAATTTTATA TAACTCCCAA TACATCCCTA 
    AGTCCTCGAC AGAGTGGACC ACAGTGGAAA GGCCCCAAAG CAACTGTTGG ACAGCAGCAT 
    CAGCAGCAGC CTAAGCAGCA ACCTAAGTCA CAAGCAGAAC CTCTTTCAGG AAACAAAGAG 
    CCATTAGCAG ATACAAGTAA TAACCAACAG AAGAATTTAA AAATTCAGTC AGCTGCATTT 
    TCCATTTCCG CAGATGTCAA GGATACCAAG GCAGCTCAGT CAAATGAGAA TCTAAGTGAC 
    TCTCAACAAG AGCCAACTAA AAGCCAAGTC TCGGAAGGGC CCGTAGAGCC CTCTAATTGG 
    AACCAGAATT CTCAAAGTAT GGAGACTGAC ATGGACAAAG CAGAAGGTGT TACTCAGCCT 
    GTATCCCTTG CAAACAAACC TGTACCTACT CAATCTACTT TCCCCTCAAA AGTAGGGAGC 
    ATGGAGGGAG GAGCCACAGC AGCAGCATTG ACTGCAGATG ATTTCAAACC TTTGGGTGTT 
    GGTTTGTCCC ACTCAGAAAA CCACCAAGAA AAAGATCTTC CTCAGCCAGA CAGCAGAGAA 
    AATAGATTAG AAGGCAATAA AGGCAGCAGC TCATCATACA GAGGTCCTGG GCAGAACAAA 
    GTGGAAGAGT CACGGGATAA AGGACTAGTA AACAGAGGTC GTGGCCAGAC AATTAACCGT 
    GGTCCAGGTC TGGTCAAGCA AGAAGATTTC CATGATAAAA TGATGGGTAG AAGAGAAGAC 
    AGTCGTGAGA AAATGAACAG AGGAGAAGGC AGCCGGGACA GGGTGTTTGT GAGGCCAGGA 
    AGCAGTCGGG ATAAAATACC AGGTGGCCTA CAAGACAGCC AGGACAGTAG AGCCAACAGC 
    CGAGAAAGGG GACCACCTCG CAGGGCTGGC AGTCAGGAGA GAGGACCTCC TCGAAGGGCT 
    GGAAGTAGAG AGAGAGTACC TTCTCAAAGA GCTGGAAGCA GGGAGAGGGT GCCACCTCGT 
    GGTCCAGGTA GTCGAGAAAG GGGGTTAGGA AGGCCAGATT TTGGTCATGA TAGAGTTCCA 
    TTCAGACCAG AACCAGGAGA TGGTGGAGAC AAAATGTATC CTTATCACCG AGATGAACCT 
    TCTAGGGCTT CGTGGAACCA TGGAGAAGAG AGAGGACATG AAGAGTTCCC AGTAGATGGT 
    AGAAATGCTC CAATTGAGCG AGAAAGACTC GATGACTGGG ATAGAAAGAG ATACTGGAGA 
    GAGTGTGAAC GTGACTATCA AGATGATACA CTAGATTCAT ACAGCAGAGA GGACAGGTTC 
    TCAGCACCAC CATCACGGTC TTATGATGGA GACAGGCGAG GCCCTTGGTG GGATGATTGG 
    GAAAGAGATC AGGATATGGA TGAGGGTTAT GGTAGGGAAA TGGACAGGGA CTTAGACAGA 
    GATGTGGATT GCATTAGAAG ATCTGTGGAT ATATATGATA GAAATGTGGA TAACGAGTGG 
    GACAGAGATT ATGGGAGACC ACTGGATGAA CAAGAATCAC AGTTTCGTGA ACGGGATATT 
    CCATCTCTTC CACCTTTACC ACCCCTCCCA CCTCTTCCAC CTTTGGATAG ATATCGGGAT 
    GATAGATGGA GAGAAGAAAG AAATCGAGAC CATGGGTATG ACCGAGATTT CCGTGATAGG 
    GGTGAGTTGA GGATTCGAGA GTATCCAGAA AGAGGAGATA CATGGCGGGA AAAGCGAGAT 
    TATGTTCCTG ACAGAATGGA CTGGGAAAGA GAACTGTTGT CAGACAGATG GTACCCATCT 
    GATGTGGATA GACATTCCCC CCTGGCGGAA CATATGCCAT CCTCACATCA TTCCTCTGAA 
    ATGATGGGGT CCGATGCAAA CTTAGACTCT GACCCAGGCC TTGGAGGGGT AATGGTTCTC 
    AGTCAGAGGC AGCACGAAAT CATTTTGAAA GCTGCACAAG AATTGAAAAT GCTTCGAGAA 
    CAGAAAGAGC AGCTTCAAAA GTTGAAAGAC TTTGGGTCTG AGCCACAGAT GGCTGACCAT 
    CTACCACCCC CAGACTCAAG ACTACAGAAT CCATCAAGAC CTGGGATGTA TCCGCCTCCA 
    GGATCCTATA GACCACCCCC TCCTATGGGT AAGCCACCTG GGTCAATTGT AAGACCCTCT 
    GCTCCACCAG CAAGATCATC TATTCCTATG ACTAGGCCTC CTGTGCCAAT ACCACCACCG 
    CCTCCTCCAC CTCCACCACC ACCACCTCCT CCTCCAGTTA TAAAGTCAAA AACCTCATCT 
    GTGAAACAGG AACGCTGGGA TGAAGATTCT TTCTTTGGGC TCTGGGATAC AAATGATGAT 
    CAAGGACTGA ATTCAGAATT TAAGCGAGAC ACTGCAACAA TTCCGTCTGC TCCGGTGTTA 
    CCACCCCCAC CTGTTCATTC TTCCATTCCC CCTCCTGGCC CAATGCCTAT GGGTATGCCA 
    CCAATGTCCA AACCACCACC AGTGCAGCAT ACAGTTGACT ATGGCCATGG CCGAGATATG 
    CCTACTAATA AAGTTGAACA GATACCATAT GGAGAAAGAA TAACTCTACG TCCAGATCCA 
    TTACCTGAAA GGTCAACTTT TGATGCAGAT CATGCAGGCC AGCGTGATCG CTACGATAGA 
    GATAGAGACC GTGAACCTTA TTTTGACCGT CCAAGTAATA TAACAGATCA TCGAGATTTT 
    AAAAGGGACC GAGAGACACA TAGAGATAGA GACCGAGATC GTGTTCTTGA CTATGAGCGG 
    GACCGATTTG ACAGAGAGCG CAGACCCCGA GATGACAGGA ATCAGTCATA TCGAGACAAA 
    AAAGACCATT CTTCATCCAG AAGAGGAGGG TTTGATAGGC CATCCTATGA CCGGAAGTCT 
    GATCGACCAC CCTATGAAGG CCCACCCATG TTTGGAGGAG AACGAAGAAC TTACCCGGAG 
    GAGCGCATGC CCCTTCCAGC TCCTGCCCTG GGCCACCAGC CACCTCCAGT TCCTCGGGTT 
    GAGAAGAAGC CGGAGTCCAA AAATGTGGAT GACATTCTGA AACCGCCAGG CCGGGAGAGC 
    CGGCCTGAAA GAATTGTTGT TATAATGAGA GGATTGCCTG GCAGTGGAAA GACACATGTT 
    GCAAAACTTA TCCGGGATAA GGAAGTAGAA TTTGGAGGAC CTGCGCCCAG GGTTTTAAGT 
    CTAGATGATT ATTTCATCGC TGAAGTAGAA AAAGAAGAAA AAGATCCAGA TTCTGGAAAG 
    AAAGTAAAAA AGAAGGTAAT GGAATATGAA TATGAAGCTG ACATGGAGGA GACTTATCGC 
    ACCAGCATGT TCAAAACTTT CAAAAAGACT CTAGATGACG GCTTTTTCCC TTTCATTATT 
    CTGGATGCTA TCAATGACAG AGTTAGGCAT TTTGATCAGT TTTGGAGTGC AGCGAAAACC 
    AAGGGCTTTG AGGTGTATTT GGCTGAAATG AGTGCTGATA ACCAGACTTG TGGCAAGAGA 
    AATATTCATG GAAGAAAGCT TAAAGAAATA AACAAGATGG CTGAACACTG GGAAGCTGCA 
    CCTCGTCACA TGATGCGTCT AGACATCCGC TCCCTGCTAC AAGATGCTGC GATTGAAGAA 
    GTAGAGATGG AAGATTTTGA TGCTAACATT GAAGACCAGA AGGAAGAAAA GAAAGATGCA 
    GAAGAAGAGG AAAGCGAACT GCAGGTATGT GGTAGAGCCT ACCCAACATA TGCATACTCT 
    TACCTCTTTG CTGTAAGATC TCAAAACTGA

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

    Ylpm1 ( XM_021178801.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021034460.1 Mus caroli YLP motif containing 1 (Ylpm1), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OMv28548
    Clone ID Related Accession (Same CDS sequence) XM_021178801.1 , XM_021178801.2
    Accession Version XM_021178801.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6150bp)
    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 YLP motif-containing protein 1 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 On Jun 10, 2019 this sequence version replaced XM_021178801.1. ##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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    ATGTATCCGA ATTGGGGCCG GTATGGCGGG AGCAGCCACT ATCCGCCGCC GCCAGTGCCG 
    CCGCCGCCAC CACCGGTGGC GCTTCCCGAG GCCTCGCCGG GGCCCGGGTA CTCCAGTTCG 
    ACGGCTCCCG CGGCCCCTTC CTCTTCAGGC TTCATGAGCT TCCGAGAGCA ACACTTGGCG 
    CAGCTCCAGC AGCTGCAGCA GATGCACCAG AAGCAAATGC AGTGCGTGCT CCAACCCCAC 
    CATCTTCCTC CGCCCCCGCT GCCGCCCCCG CCGGTGATGC CCGGGGGCGG CTACGGAGAC 
    TGGCAGCCGC CTCCGCCACC GATGCCCCCG CCACCTGGAC CAGCCCTCAG TTATCAGAAG 
    CAGCAGCAGT ACAAACACCA GATGATCCAC CACCAACGAG ATGGGCCTCC GGGTTTGGTT 
    CCAATGGAGC TGGAGTCCCC TCCTGAATCT CCCCCTGTAC CTCCAGGATC CTACATGCCC 
    CCATCCCAGT CGTACATGCC TCCACCTCAG CCACCACCCT CGTACTATCC CCCTTCCTCC 
    GCTCAGCCCT ACCTGCCACC TGCTCAGCCG TCCCCTTCAC AGTCTCCACC TTCCCAGTCC 
    TACCTGGCGC CCACTCCTTC TTATTCTTCC TCTTCCTCCT CACAATCATA TTTGAGCCAT 
    TCCCAGCCCT ACTTACCCCC TTCTCAGGCA TCTCCTTCCC GCTCCTCCCA GGGCCCTTCT 
    AAACCCCAGC TACCACCACC ACCGTCCATC CCTTCTGGGA ATAAAACAGC TATCCAGCAA 
    GAGCCTTTGG AGAGTGGGGC CAAGAACAAG ACTGCTGAAC AGAAGCAAGC TGCTCCTGAA 
    CCAGATCCCT CTACAATGAC TCCACAGGAG CAACAACAAT ATTGGTATCG ACAGCATCTA 
    CTTAGTTTGC AGCAGAGGAC AAAGGTGCAT TTGCCGGGAC ATAAAAAGGG TCTTGTCACA 
    GCAAAGGATG TACCAGAACC CATCAAAGAA GAAGCTCCGG GGCCACCTGC CAGTCAGGTA 
    GCAGAACCTC TTGCAGCTGA GAAGCCCCCA TTGCCACCTC CCAGTGAAGA AGCACCACCT 
    CCGCTCTCAC CTGAGGAACC CCAGTCAGAA GACTCAGAAG ACTCAGAAGA GGATTCTAGA 
    TTTAAACAGT TGAAGGCTAT AGCAGCACAT TGGCAGGCTG CAGCAGCACA TTGGCAACAG 
    CAGCAGCAGC AGCGAGTCGG CTTCCAGTAT CAAGGAATAA TGCAGAGGCA CACACAGTTA 
    CAGCAGATCC TGCAGCAGTA CCAGCAAGTT ATCCAGCACT CACCACACAT ACAGACCATG 
    TCTCTGGATG TGCAGCTGCG ACATTATGAG ATGCAGCAGC AACAGTTTCA ACATCTCTTT 
    CAAGACTGGG AGCGAGAGTT TCAGCTGTGG GAGGAGCAGC TCCATTCCTA TCCTCATAAA 
    GATCAGCTTC AGGAGTATGA GAAGCAGTGG AAGACATGGC AGGGACATAT GAAAGCCACT 
    CAGACCTATC TCCAGGAGAA AGTCAACTCG TTCCAGACTG TGAAGAGCCA GTACCTGGGG 
    AACATGGCAA TGCCACCTCC GTTTGTTCCA TATTCTCAGA TGCCTCCACC TCTGCCAACA 
    ATGCCCCCTC CAGTATTACC TCCATCCTTG CCACCACCAG TGATGCCCCC TGCCCTGCCT 
    ACCTCCATCC CACCACCTGG CATGCCTCCG CCTGTGATGC CACCTTCTCT GCCAACCTCT 
    GTCCCCCCAC CAGGAATGCC TCCATCTCTT TCTTCAGGGC CACCTCCAGT TCTCCCTCCA 
    CCTGCCCTCT CTTCAGCAGG GTCACCACCA GTCCTTCCCC CACCGGCTCT ACCTGGGGGA 
    CCACCCATCC TACCCCTCCC ACCATTATCT TCAGCCACAC CTCCCCCAGG AATACCTCCC 
    CCTGGAGCTC CACAAGGGAT GCCTCCTCAG TTAACAGCCC CACTTCCACC AGCTTCTGGT 
    TCTCAGAACT CACAGATCCC AGAGAAACCT AGACAAGCAC TGCTTCCCAC ACCTGTGTCT 
    TTTGGTTCGA CCCCACCTTC ACCATATCAC CCTCCACCTC AGTCAGAACA AGTGAATTCC 
    AAACCTCTGA ACAAGGTGTT CTCATCTGAG CAAGGACTGG GCGAGTCTTC TGCTCTATCT 
    CAATCCGTCA TTGCAGCTAA GGACATGCCA GTGAAGTCAG GTGGACTGCT TGCAGACCCT 
    CCTAAGGGCA GTTTCTTGGA AGGTCCGAGA GGTCCAAGAT TTGATGGTCC TCGAAGATTT 
    GAGGATTTAG GGTCAAGGTG TGAAGGACCG AGACCCAAAG GGCCTCGTTT TGAAGGAAAT 
    CGCCCCGATG GGCCAAGACC CAGATATGAA AGTCACCCAG CAGAGGGCAC TAAAAGCAAA 
    TGGGGAACGA TCCCTCGGGG CCCAGCATCT CAATTTTATA TAACTCCCAA TACATCCCTA 
    AGTCCTCGAC AGAGTGGACC ACAGTGGAAA GGCCCCAAAG CAACTGTTGG ACAGCAGCAT 
    CAGCAGCAGC CTAAGCAGCA ACCTAAGTCA CAAGCAGAAC CTCTTTCAGG AAACAAAGAG 
    CCATTAGCAG ATACAAGTAA TAACCAACAG AAGAATTTAA AAATTCAGTC AGCTGCATTT 
    TCCATTTCCG CAGATGTCAA GGATACCAAG GCAGCTCAGT CAAATGAGAA TCTAAGTGAC 
    TCTCAACAAG AGCCAACTAA AAGCCAAGTC TCGGAAGGGC CCGTAGAGCC CTCTAATTGG 
    AACCAGAATT CTCAAAGTAT GGAGACTGAC ATGGACAAAG CAGAAGGTGT TACTCAGCCT 
    GTATCCCTTG CAAACAAACC TGTACCTACT CAATCTACTT TCCCCTCAAA AGTAGGGAGC 
    ATGGAGGGAG GAGCCACAGC AGCAGCATTG ACTGCAGATG ATTTCAAACC TTTGGGTGTT 
    GGTTTGTCCC ACTCAGAAAA CCACCAAGAA AAAGATCTTC CTCAGCCAGA CAGCAGAGAA 
    AATAGATTAG AAGGCAATAA AGGCAGCAGC TCATCATACA GAGGTCCTGG GCAGAACAAA 
    GTGGAAGAGT CACGGGATAA AGGACTAGTA AACAGAGGTC GTGGCCAGAC AATTAACCGT 
    GGTCCAGGTC TGGTCAAGCA AGAAGATTTC CATGATAAAA TGATGGGTAG AAGAGAAGAC 
    AGTCGTGAGA AAATGAACAG AGGAGAAGGC AGCCGGGACA GGGTGTTTGT GAGGCCAGGA 
    AGCAGTCGGG ATAAAATACC AGGTGGCCTA CAAGACAGCC AGGACAGTAG AGCCAACAGC 
    CGAGAAAGGG GACCACCTCG CAGGGCTGGC AGTCAGGAGA GAGGACCTCC TCGAAGGGCT 
    GGAAGTAGAG AGAGAGTACC TTCTCAAAGA GCTGGAAGCA GGGAGAGGGT GCCACCTCGT 
    GGTCCAGGTA GTCGAGAAAG GGGGTTAGGA AGGCCAGATT TTGGTCATGA TAGAGTTCCA 
    TTCAGACCAG AACCAGGAGA TGGTGGAGAC AAAATGTATC CTTATCACCG AGATGAACCT 
    TCTAGGGCTT CGTGGAACCA TGGAGAAGAG AGAGGACATG AAGAGTTCCC AGTAGATGGT 
    AGAAATGCTC CAATTGAGCG AGAAAGACTC GATGACTGGG ATAGAAAGAG ATACTGGAGA 
    GAGTGTGAAC GTGACTATCA AGATGATACA CTAGATTCAT ACAGCAGAGA GGACAGGTTC 
    TCAGCACCAC CATCACGGTC TTATGATGGA GACAGGCGAG GCCCTTGGTG GGATGATTGG 
    GAAAGAGATC AGGATATGGA TGAGGGTTAT GGTAGGGAAA TGGACAGGGA CTTAGACAGA 
    GATGTGGATT GCATTAGAAG ATCTGTGGAT ATATATGATA GAAATGTGGA TAACGAGTGG 
    GACAGAGATT ATGGGAGACC ACTGGATGAA CAAGAATCAC AGTTTCGTGA ACGGGATATT 
    CCATCTCTTC CACCTTTACC ACCCCTCCCA CCTCTTCCAC CTTTGGATAG ATATCGGGAT 
    GATAGATGGA GAGAAGAAAG AAATCGAGAC CATGGGTATG ACCGAGATTT CCGTGATAGG 
    GGTGAGTTGA GGATTCGAGA GTATCCAGAA AGAGGAGATA CATGGCGGGA AAAGCGAGAT 
    TATGTTCCTG ACAGAATGGA CTGGGAAAGA GAACTGTTGT CAGACAGATG GTACCCATCT 
    GATGTGGATA GACATTCCCC CCTGGCGGAA CATATGCCAT CCTCACATCA TTCCTCTGAA 
    ATGATGGGGT CCGATGCAAA CTTAGACTCT GACCCAGGCC TTGGAGGGGT AATGGTTCTC 
    AGTCAGAGGC AGCACGAAAT CATTTTGAAA GCTGCACAAG AATTGAAAAT GCTTCGAGAA 
    CAGAAAGAGC AGCTTCAAAA GTTGAAAGAC TTTGGGTCTG AGCCACAGAT GGCTGACCAT 
    CTACCACCCC CAGACTCAAG ACTACAGAAT CCATCAAGAC CTGGGATGTA TCCGCCTCCA 
    GGATCCTATA GACCACCCCC TCCTATGGGT AAGCCACCTG GGTCAATTGT AAGACCCTCT 
    GCTCCACCAG CAAGATCATC TATTCCTATG ACTAGGCCTC CTGTGCCAAT ACCACCACCG 
    CCTCCTCCAC CTCCACCACC ACCACCTCCT CCTCCAGTTA TAAAGTCAAA AACCTCATCT 
    GTGAAACAGG AACGCTGGGA TGAAGATTCT TTCTTTGGGC TCTGGGATAC AAATGATGAT 
    CAAGGACTGA ATTCAGAATT TAAGCGAGAC ACTGCAACAA TTCCGTCTGC TCCGGTGTTA 
    CCACCCCCAC CTGTTCATTC TTCCATTCCC CCTCCTGGCC CAATGCCTAT GGGTATGCCA 
    CCAATGTCCA AACCACCACC AGTGCAGCAT ACAGTTGACT ATGGCCATGG CCGAGATATG 
    CCTACTAATA AAGTTGAACA GATACCATAT GGAGAAAGAA TAACTCTACG TCCAGATCCA 
    TTACCTGAAA GGTCAACTTT TGATGCAGAT CATGCAGGCC AGCGTGATCG CTACGATAGA 
    GATAGAGACC GTGAACCTTA TTTTGACCGT CCAAGTAATA TAACAGATCA TCGAGATTTT 
    AAAAGGGACC GAGAGACACA TAGAGATAGA GACCGAGATC GTGTTCTTGA CTATGAGCGG 
    GACCGATTTG ACAGAGAGCG CAGACCCCGA GATGACAGGA ATCAGTCATA TCGAGACAAA 
    AAAGACCATT CTTCATCCAG AAGAGGAGGG TTTGATAGGC CATCCTATGA CCGGAAGTCT 
    GATCGACCAC CCTATGAAGG CCCACCCATG TTTGGAGGAG AACGAAGAAC TTACCCGGAG 
    GAGCGCATGC CCCTTCCAGC TCCTGCCCTG GGCCACCAGC CACCTCCAGT TCCTCGGGTT 
    GAGAAGAAGC CGGAGTCCAA AAATGTGGAT GACATTCTGA AACCGCCAGG CCGGGAGAGC 
    CGGCCTGAAA GAATTGTTGT TATAATGAGA GGATTGCCTG GCAGTGGAAA GACACATGTT 
    GCAAAACTTA TCCGGGATAA GGAAGTAGAA TTTGGAGGAC CTGCGCCCAG GGTTTTAAGT 
    CTAGATGATT ATTTCATCGC TGAAGTAGAA AAAGAAGAAA AAGATCCAGA TTCTGGAAAG 
    AAAGTAAAAA AGAAGGTAAT GGAATATGAA TATGAAGCTG ACATGGAGGA GACTTATCGC 
    ACCAGCATGT TCAAAACTTT CAAAAAGACT CTAGATGACG GCTTTTTCCC TTTCATTATT 
    CTGGATGCTA TCAATGACAG AGTTAGGCAT TTTGATCAGT TTTGGAGTGC AGCGAAAACC 
    AAGGGCTTTG AGGTGTATTT GGCTGAAATG AGTGCTGATA ACCAGACTTG TGGCAAGAGA 
    AATATTCATG GAAGAAAGCT TAAAGAAATA AACAAGATGG CTGAACACTG GGAAGCTGCA 
    CCTCGTCACA TGATGCGTCT AGACATCCGC TCCCTGCTAC AAGATGCTGC GATTGAAGAA 
    GTAGAGATGG AAGATTTTGA TGCTAACATT GAAGACCAGA AGGAAGAAAA GAAAGATGCA 
    GAAGAAGAGG AAAGCGAACT GCAGGTATGT GGTAGAGCCT ACCCAACATA TGCATACTCT 
    TACCTCTTTG CTGTAAGATC TCAAAACTGA

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

    RefSeq XP_021034460.1
    CDS136..6285
    Translation

    Target ORF information:

    RefSeq Version XM_021178801.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli YLP motif containing 1 (Ylpm1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021178801.2

    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
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    ATGTATCCGA ATTGGGGCCG GTATGGCGGG AGCAGCCACT ATCCGCCGCC GCCAGTGCCG 
    CCGCCGCCAC CACCGGTGGC GCTTCCCGAG GCCTCGCCGG GGCCCGGGTA CTCCAGTTCG 
    ACGGCTCCCG CGGCCCCTTC CTCTTCAGGC TTCATGAGCT TCCGAGAGCA ACACTTGGCG 
    CAGCTCCAGC AGCTGCAGCA GATGCACCAG AAGCAAATGC AGTGCGTGCT CCAACCCCAC 
    CATCTTCCTC CGCCCCCGCT GCCGCCCCCG CCGGTGATGC CCGGGGGCGG CTACGGAGAC 
    TGGCAGCCGC CTCCGCCACC GATGCCCCCG CCACCTGGAC CAGCCCTCAG TTATCAGAAG 
    CAGCAGCAGT ACAAACACCA GATGATCCAC CACCAACGAG ATGGGCCTCC GGGTTTGGTT 
    CCAATGGAGC TGGAGTCCCC TCCTGAATCT CCCCCTGTAC CTCCAGGATC CTACATGCCC 
    CCATCCCAGT CGTACATGCC TCCACCTCAG CCACCACCCT CGTACTATCC CCCTTCCTCC 
    GCTCAGCCCT ACCTGCCACC TGCTCAGCCG TCCCCTTCAC AGTCTCCACC TTCCCAGTCC 
    TACCTGGCGC CCACTCCTTC TTATTCTTCC TCTTCCTCCT CACAATCATA TTTGAGCCAT 
    TCCCAGCCCT ACTTACCCCC TTCTCAGGCA TCTCCTTCCC GCTCCTCCCA GGGCCCTTCT 
    AAACCCCAGC TACCACCACC ACCGTCCATC CCTTCTGGGA ATAAAACAGC TATCCAGCAA 
    GAGCCTTTGG AGAGTGGGGC CAAGAACAAG ACTGCTGAAC AGAAGCAAGC TGCTCCTGAA 
    CCAGATCCCT CTACAATGAC TCCACAGGAG CAACAACAAT ATTGGTATCG ACAGCATCTA 
    CTTAGTTTGC AGCAGAGGAC AAAGGTGCAT TTGCCGGGAC ATAAAAAGGG TCTTGTCACA 
    GCAAAGGATG TACCAGAACC CATCAAAGAA GAAGCTCCGG GGCCACCTGC CAGTCAGGTA 
    GCAGAACCTC TTGCAGCTGA GAAGCCCCCA TTGCCACCTC CCAGTGAAGA AGCACCACCT 
    CCGCTCTCAC CTGAGGAACC CCAGTCAGAA GACTCAGAAG ACTCAGAAGA GGATTCTAGA 
    TTTAAACAGT TGAAGGCTAT AGCAGCACAT TGGCAGGCTG CAGCAGCACA TTGGCAACAG 
    CAGCAGCAGC AGCGAGTCGG CTTCCAGTAT CAAGGAATAA TGCAGAGGCA CACACAGTTA 
    CAGCAGATCC TGCAGCAGTA CCAGCAAGTT ATCCAGCACT CACCACACAT ACAGACCATG 
    TCTCTGGATG TGCAGCTGCG ACATTATGAG ATGCAGCAGC AACAGTTTCA ACATCTCTTT 
    CAAGACTGGG AGCGAGAGTT TCAGCTGTGG GAGGAGCAGC TCCATTCCTA TCCTCATAAA 
    GATCAGCTTC AGGAGTATGA GAAGCAGTGG AAGACATGGC AGGGACATAT GAAAGCCACT 
    CAGACCTATC TCCAGGAGAA AGTCAACTCG TTCCAGACTG TGAAGAGCCA GTACCTGGGG 
    AACATGGCAA TGCCACCTCC GTTTGTTCCA TATTCTCAGA TGCCTCCACC TCTGCCAACA 
    ATGCCCCCTC CAGTATTACC TCCATCCTTG CCACCACCAG TGATGCCCCC TGCCCTGCCT 
    ACCTCCATCC CACCACCTGG CATGCCTCCG CCTGTGATGC CACCTTCTCT GCCAACCTCT 
    GTCCCCCCAC CAGGAATGCC TCCATCTCTT TCTTCAGGGC CACCTCCAGT TCTCCCTCCA 
    CCTGCCCTCT CTTCAGCAGG GTCACCACCA GTCCTTCCCC CACCGGCTCT ACCTGGGGGA 
    CCACCCATCC TACCCCTCCC ACCATTATCT TCAGCCACAC CTCCCCCAGG AATACCTCCC 
    CCTGGAGCTC CACAAGGGAT GCCTCCTCAG TTAACAGCCC CACTTCCACC AGCTTCTGGT 
    TCTCAGAACT CACAGATCCC AGAGAAACCT AGACAAGCAC TGCTTCCCAC ACCTGTGTCT 
    TTTGGTTCGA CCCCACCTTC ACCATATCAC CCTCCACCTC AGTCAGAACA AGTGAATTCC 
    AAACCTCTGA ACAAGGTGTT CTCATCTGAG CAAGGACTGG GCGAGTCTTC TGCTCTATCT 
    CAATCCGTCA TTGCAGCTAA GGACATGCCA GTGAAGTCAG GTGGACTGCT TGCAGACCCT 
    CCTAAGGGCA GTTTCTTGGA AGGTCCGAGA GGTCCAAGAT TTGATGGTCC TCGAAGATTT 
    GAGGATTTAG GGTCAAGGTG TGAAGGACCG AGACCCAAAG GGCCTCGTTT TGAAGGAAAT 
    CGCCCCGATG GGCCAAGACC CAGATATGAA AGTCACCCAG CAGAGGGCAC TAAAAGCAAA 
    TGGGGAACGA TCCCTCGGGG CCCAGCATCT CAATTTTATA TAACTCCCAA TACATCCCTA 
    AGTCCTCGAC AGAGTGGACC ACAGTGGAAA GGCCCCAAAG CAACTGTTGG ACAGCAGCAT 
    CAGCAGCAGC CTAAGCAGCA ACCTAAGTCA CAAGCAGAAC CTCTTTCAGG AAACAAAGAG 
    CCATTAGCAG ATACAAGTAA TAACCAACAG AAGAATTTAA AAATTCAGTC AGCTGCATTT 
    TCCATTTCCG CAGATGTCAA GGATACCAAG GCAGCTCAGT CAAATGAGAA TCTAAGTGAC 
    TCTCAACAAG AGCCAACTAA AAGCCAAGTC TCGGAAGGGC CCGTAGAGCC CTCTAATTGG 
    AACCAGAATT CTCAAAGTAT GGAGACTGAC ATGGACAAAG CAGAAGGTGT TACTCAGCCT 
    GTATCCCTTG CAAACAAACC TGTACCTACT CAATCTACTT TCCCCTCAAA AGTAGGGAGC 
    ATGGAGGGAG GAGCCACAGC AGCAGCATTG ACTGCAGATG ATTTCAAACC TTTGGGTGTT 
    GGTTTGTCCC ACTCAGAAAA CCACCAAGAA AAAGATCTTC CTCAGCCAGA CAGCAGAGAA 
    AATAGATTAG AAGGCAATAA AGGCAGCAGC TCATCATACA GAGGTCCTGG GCAGAACAAA 
    GTGGAAGAGT CACGGGATAA AGGACTAGTA AACAGAGGTC GTGGCCAGAC AATTAACCGT 
    GGTCCAGGTC TGGTCAAGCA AGAAGATTTC CATGATAAAA TGATGGGTAG AAGAGAAGAC 
    AGTCGTGAGA AAATGAACAG AGGAGAAGGC AGCCGGGACA GGGTGTTTGT GAGGCCAGGA 
    AGCAGTCGGG ATAAAATACC AGGTGGCCTA CAAGACAGCC AGGACAGTAG AGCCAACAGC 
    CGAGAAAGGG GACCACCTCG CAGGGCTGGC AGTCAGGAGA GAGGACCTCC TCGAAGGGCT 
    GGAAGTAGAG AGAGAGTACC TTCTCAAAGA GCTGGAAGCA GGGAGAGGGT GCCACCTCGT 
    GGTCCAGGTA GTCGAGAAAG GGGGTTAGGA AGGCCAGATT TTGGTCATGA TAGAGTTCCA 
    TTCAGACCAG AACCAGGAGA TGGTGGAGAC AAAATGTATC CTTATCACCG AGATGAACCT 
    TCTAGGGCTT CGTGGAACCA TGGAGAAGAG AGAGGACATG AAGAGTTCCC AGTAGATGGT 
    AGAAATGCTC CAATTGAGCG AGAAAGACTC GATGACTGGG ATAGAAAGAG ATACTGGAGA 
    GAGTGTGAAC GTGACTATCA AGATGATACA CTAGATTCAT ACAGCAGAGA GGACAGGTTC 
    TCAGCACCAC CATCACGGTC TTATGATGGA GACAGGCGAG GCCCTTGGTG GGATGATTGG 
    GAAAGAGATC AGGATATGGA TGAGGGTTAT GGTAGGGAAA TGGACAGGGA CTTAGACAGA 
    GATGTGGATT GCATTAGAAG ATCTGTGGAT ATATATGATA GAAATGTGGA TAACGAGTGG 
    GACAGAGATT ATGGGAGACC ACTGGATGAA CAAGAATCAC AGTTTCGTGA ACGGGATATT 
    CCATCTCTTC CACCTTTACC ACCCCTCCCA CCTCTTCCAC CTTTGGATAG ATATCGGGAT 
    GATAGATGGA GAGAAGAAAG AAATCGAGAC CATGGGTATG ACCGAGATTT CCGTGATAGG 
    GGTGAGTTGA GGATTCGAGA GTATCCAGAA AGAGGAGATA CATGGCGGGA AAAGCGAGAT 
    TATGTTCCTG ACAGAATGGA CTGGGAAAGA GAACTGTTGT CAGACAGATG GTACCCATCT 
    GATGTGGATA GACATTCCCC CCTGGCGGAA CATATGCCAT CCTCACATCA TTCCTCTGAA 
    ATGATGGGGT CCGATGCAAA CTTAGACTCT GACCCAGGCC TTGGAGGGGT AATGGTTCTC 
    AGTCAGAGGC AGCACGAAAT CATTTTGAAA GCTGCACAAG AATTGAAAAT GCTTCGAGAA 
    CAGAAAGAGC AGCTTCAAAA GTTGAAAGAC TTTGGGTCTG AGCCACAGAT GGCTGACCAT 
    CTACCACCCC CAGACTCAAG ACTACAGAAT CCATCAAGAC CTGGGATGTA TCCGCCTCCA 
    GGATCCTATA GACCACCCCC TCCTATGGGT AAGCCACCTG GGTCAATTGT AAGACCCTCT 
    GCTCCACCAG CAAGATCATC TATTCCTATG ACTAGGCCTC CTGTGCCAAT ACCACCACCG 
    CCTCCTCCAC CTCCACCACC ACCACCTCCT CCTCCAGTTA TAAAGTCAAA AACCTCATCT 
    GTGAAACAGG AACGCTGGGA TGAAGATTCT TTCTTTGGGC TCTGGGATAC AAATGATGAT 
    CAAGGACTGA ATTCAGAATT TAAGCGAGAC ACTGCAACAA TTCCGTCTGC TCCGGTGTTA 
    CCACCCCCAC CTGTTCATTC TTCCATTCCC CCTCCTGGCC CAATGCCTAT GGGTATGCCA 
    CCAATGTCCA AACCACCACC AGTGCAGCAT ACAGTTGACT ATGGCCATGG CCGAGATATG 
    CCTACTAATA AAGTTGAACA GATACCATAT GGAGAAAGAA TAACTCTACG TCCAGATCCA 
    TTACCTGAAA GGTCAACTTT TGATGCAGAT CATGCAGGCC AGCGTGATCG CTACGATAGA 
    GATAGAGACC GTGAACCTTA TTTTGACCGT CCAAGTAATA TAACAGATCA TCGAGATTTT 
    AAAAGGGACC GAGAGACACA TAGAGATAGA GACCGAGATC GTGTTCTTGA CTATGAGCGG 
    GACCGATTTG ACAGAGAGCG CAGACCCCGA GATGACAGGA ATCAGTCATA TCGAGACAAA 
    AAAGACCATT CTTCATCCAG AAGAGGAGGG TTTGATAGGC CATCCTATGA CCGGAAGTCT 
    GATCGACCAC CCTATGAAGG CCCACCCATG TTTGGAGGAG AACGAAGAAC TTACCCGGAG 
    GAGCGCATGC CCCTTCCAGC TCCTGCCCTG GGCCACCAGC CACCTCCAGT TCCTCGGGTT 
    GAGAAGAAGC CGGAGTCCAA AAATGTGGAT GACATTCTGA AACCGCCAGG CCGGGAGAGC 
    CGGCCTGAAA GAATTGTTGT TATAATGAGA GGATTGCCTG GCAGTGGAAA GACACATGTT 
    GCAAAACTTA TCCGGGATAA GGAAGTAGAA TTTGGAGGAC CTGCGCCCAG GGTTTTAAGT 
    CTAGATGATT ATTTCATCGC TGAAGTAGAA AAAGAAGAAA AAGATCCAGA TTCTGGAAAG 
    AAAGTAAAAA AGAAGGTAAT GGAATATGAA TATGAAGCTG ACATGGAGGA GACTTATCGC 
    ACCAGCATGT TCAAAACTTT CAAAAAGACT CTAGATGACG GCTTTTTCCC TTTCATTATT 
    CTGGATGCTA TCAATGACAG AGTTAGGCAT TTTGATCAGT TTTGGAGTGC AGCGAAAACC 
    AAGGGCTTTG AGGTGTATTT GGCTGAAATG AGTGCTGATA ACCAGACTTG TGGCAAGAGA 
    AATATTCATG GAAGAAAGCT TAAAGAAATA AACAAGATGG CTGAACACTG GGAAGCTGCA 
    CCTCGTCACA TGATGCGTCT AGACATCCGC TCCCTGCTAC AAGATGCTGC GATTGAAGAA 
    GTAGAGATGG AAGATTTTGA TGCTAACATT GAAGACCAGA AGGAAGAAAA GAAAGATGCA 
    GAAGAAGAGG AAAGCGAACT GCAGGTATGT GGTAGAGCCT ACCCAACATA TGCATACTCT 
    TACCTCTTTG CTGTAAGATC TCAAAACTGA

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

    Ylpm1 ( XM_021178802.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021034461.1 Mus caroli YLP motif containing 1 (Ylpm1), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OMv28549
    Clone ID Related Accession (Same CDS sequence) XM_021178802.1
    Accession Version XM_021178802.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4293bp)
    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 YLP motif-containing protein 1 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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGTATCCGA ATTGGGGCCG GTATGGCGGG AGCAGCCACT ATCCGCCGCC GCCAGTGCCG 
    CCGCCGCCAC CACCGGTGGC GCTTCCCGAG GCCTCGCCGG GGCCCGGGTA CTCCAGTTCG 
    ACGGCTCCCG CGGCCCCTTC CTCTTCAGGC TTCATGAGCT TCCGAGAGCA ACACTTGGCG 
    CAGCTCCAGC AGCTGCAGCA GATGCACCAG AAGCAAATGC AGTGCGTGCT CCAACCCCAC 
    CATCTTCCTC CGCCCCCGCT GCCGCCCCCG CCGGTGATGC CCGGGGGCGG CTACGGAGAC 
    TGGCAGCCGC CTCCGCCACC GATGCCCCCG CCACCTGGAC CAGCCCTCAG TTATCAGAAG 
    CAGCAGCAGT ACAAACACCA GATGATCCAC CACCAACGAG ATGGGCCTCC GGGTTTGGTT 
    CCAATGGAGC TGGAGTCCCC TCCTGAATCT CCCCCTGTAC CTCCAGGATC CTACATGCCC 
    CCATCCCAGT CGTACATGCC TCCACCTCAG CCACCACCCT CGTACTATCC CCCTTCCTCC 
    GCTCAGCCCT ACCTGCCACC TGCTCAGCCG TCCCCTTCAC AGTCTCCACC TTCCCAGTCC 
    TACCTGGCGC CCACTCCTTC TTATTCTTCC TCTTCCTCCT CACAATCATA TTTGAGCCAT 
    TCCCAGCCCT ACTTACCCCC TTCTCAGGCA TCTCCTTCCC GCTCCTCCCA GGGCCCTTCT 
    AAACCCCAGC TACCACCACC ACCGTCCATC CCTTCTGGGA ATAAAACAGC TATCCAGCAA 
    GAGCCTTTGG AGAGTGGGGC CAAGAACAAG ACTGCTGAAC AGAAGCAAGC TGCTCCTGAA 
    CCAGATCCCT CTACAATGAC TCCACAGGAG CAACAACAAT ATTGGTATCG ACAGCATCTA 
    CTTAGTTTGC AGCAGAGGAC AAAGGTGCAT TTGCCGGGAC ATAAAAAGGG TCTTGTCACA 
    GCAAAGGATG TACCAGAACC CATCAAAGAA GAAGCTCCGG GGCCACCTGC CAGTCAGGTA 
    GCAGAACCTC TTGCAGCTGA GAAGCCCCCA TTGCCACCTC CCAGTGAAGA AGCACCACCT 
    CCGCTCTCAC CTGAGGAACC CCAGTCAGAA GACTCAGAAG ACTCAGAAGA GGATTCTAGA 
    TTTAAACAGT TGAAGGCTAT AGCAGCACAT TGGCAGGCTG CAGCAGCACA TTGGCAACAG 
    CAGCAGCAGC AGCGAGTCGG CTTCCAGTAT CAAGGAATAA TGCAGAGGCA CACACAGTTA 
    CAGCAGATCC TGCAGCAGTA CCAGCAAGTT ATCCAGCACT CACCACACAT ACAGACCATG 
    TCTCTGGATG TGCAGCTGCG ACATTATGAG ATGCAGCAGC AACAGTTTCA ACATCTCTTT 
    CAAGACTGGG AGCGAGAGTT TCAGCTGTGG GAGGAGCAGC TCCATTCCTA TCCTCATAAA 
    GATCAGCTTC AGGAGTATGA GAAGCAGTGG AAGACATGGC AGGGACATAT GAAAGCCACT 
    CAGACCTATC TCCAGGAGAA AGTCAACTCG TTCCAGACTG TGAAGAGCCA GTACCTGGGG 
    AACATGGCAA TGCCACCTCC GTTTGTTCCA TATTCTCAGA TGCCTCCACC TCTGCCAACA 
    ATGCCCCCTC CAGTATTACC TCCATCCTTG CCACCACCAG TGATGCCCCC TGCCCTGCCT 
    ACCTCCATCC CACCACCTGG CATGCCTCCG CCTGTGATGC CACCTTCTCT GCCAACCTCT 
    GTCCCCCCAC CAGGAATGCC TCCATCTCTT TCTTCAGGGC CACCTCCAGT TCTCCCTCCA 
    CCTGCCCTCT CTTCAGCAGG GTCACCACCA GTCCTTCCCC CACCGGCTCT ACCTGGGGGA 
    CCACCCATCC TACCCCTCCC ACCATTATCT TCAGCCACAC CTCCCCCAGG AATACCTCCC 
    CCTGGAGCTC CACAAGGGAT GCCTCCTCAG TTAACAGCCC CACTTCCACC AGCTTCTGGT 
    TCTCAGAACT CACAGATCCC AGAGAAACCT AGACAAGCAC TGCTTCCCAC ACCTGTGTCT 
    TTTGGTTCGA CCCCACCTTC ACCATATCAC CCTCCACCTC AGTCAGAACA AGTGAATTCC 
    AAACCTCTGA ACAAGGTGTT CTCATCTGAG CAAGGACTGG GCGAGTCTTC TGCTCTATCT 
    CAATCCGTCA TTGCAGCTAA GGACATGCCA GTGAAGTCAG GTGGACTGCT TGCAGACCCT 
    CCTAAGGGCA GTTTCTTGGA AGGTCCGAGA GGTCCAAGAG AACAGAAAGA GCAGCTTCAA 
    AAGTTGAAAG ACTTTGGGTC TGAGCCACAG ATGGCTGACC ATCTACCACC CCCAGACTCA 
    AGACTACAGA ATCCATCAAG ACCTGGGATG TATCCGCCTC CAGGATCCTA TAGACCACCC 
    CCTCCTATGG GTAAGCCACC TGGGTCAATT GTAAGACCCT CTGCTCCACC AGCAAGATCA 
    TCTATTCCTA TGACTAGGCC TCCTGTGCCA ATACCACCAC CGCCTCCTCC ACCTCCACCA 
    CCACCACCTC CTCCTCCAGT TATAAAGTCA AAAACCTCAT CTGTGAAACA GGAACGCTGG 
    GATGAAGATT CTTTCTTTGG GCTCTGGGAT ACAAATGATG ATCAAGGACT GAATTCAGAA 
    TTTAAGCGAG ACACTGCAAC AATTCCGTCT GCTCCGGTGT TACCACCCCC ACCTGTTCAT 
    TCTTCCATTC CCCCTCCTGG CCCAATGCCT ATGGGTATGC CACCAATGTC CAAACCACCA 
    CCAGTGCAGC ATACAGTTGA CTATGGCCAT GGCCGAGATA TGCCTACTAA TAAAGTTGAA 
    CAGATACCAT ATGGAGAAAG AATAACTCTA CGTCCAGATC CATTACCTGA AAGGTCAACT 
    TTTGATGCAG ATCATGCAGG CCAGCGTGAT CGCTACGATA GAGATAGAGA CCGTGAACCT 
    TATTTTGACC GTCCAAGTAA TATAACAGAT CATCGAGATT TTAAAAGGGA CCGAGAGACA 
    CATAGAGATA GAGACCGAGA TCGTGTTCTT GACTATGAGC GGGACCGATT TGACAGAGAG 
    CGCAGACCCC GAGATGACAG GAATCAGTCA TATCGAGACA AAAAAGACCA TTCTTCATCC 
    AGAAGAGGAG GGTTTGATAG GCCATCCTAT GACCGGAAGT CTGATCGACC ACCCTATGAA 
    GGCCCACCCA TGTTTGGAGG AGAACGAAGA ACTTACCCGG AGGAGCGCAT GCCCCTTCCA 
    GCTCCTGCCC TGGGCCACCA GCCACCTCCA GTTCCTCGGG TTGAGAAGAA GCCGGAGTCC 
    AAAAATGTGG ATGACATTCT GAAACCGCCA GGCCGGGAGA GCCGGCCTGA AAGAATTGTT 
    GTTATAATGA GAGGATTGCC TGGCAGTGGA AAGACACATG TTGCAAAACT TATCCGGGAT 
    AAGGAAGTAG AATTTGGAGG ACCTGCGCCC AGGGTTTTAA GTCTAGATGA TTATTTCATC 
    GCTGAAGTAG AAAAAGAAGA AAAAGATCCA GATTCTGGAA AGAAAGTAAA AAAGAAGGTA 
    ATGGAATATG AATATGAAGC TGACATGGAG GAGACTTATC GCACCAGCAT GTTCAAAACT 
    TTCAAAAAGA CTCTAGATGA CGGCTTTTTC CCTTTCATTA TTCTGGATGC TATCAATGAC 
    AGAGTTAGGC ATTTTGATCA GTTTTGGAGT GCAGCGAAAA CCAAGGGCTT TGAGGTGTAT 
    TTGGCTGAAA TGAGTGCTGA TAACCAGACT TGTGGCAAGA GAAATATTCA TGGAAGAAAG 
    CTTAAAGAAA TAAACAAGAT GGCTGAACAC TGGGAAGCTG CACCTCGTCA CATGATGCGT 
    CTAGACATCC GCTCCCTGCT ACAAGATGCT GCGATTGAAG AAGTAGAGAT GGAAGATTTT 
    GATGCTAACA TTGAAGACCA GAAGGAAGAA AAGAAAGATG CAGAAGAAGA GGAAAGCGAA 
    CTGGGTTACA TTCCGAAAAG CAAATGGGAG ATGGACACTT CTGAGGCAAA GCTAGACAAG 
    TTGGATGGCT TGAGGACTGG TACTAAAAGG AAGCGAGACT GGGAGGCGAT TGCCAGCAGA 
    ATGGAGGATT ATCTTCAGCT CCCTGACGAC TACGAGACTC GAGCTTCTGA GCCTGGGAAG 
    AAGAGGGTGA GATGGGCAGA CCTAGAAGAA AAGAAGGATG CAGATAGGAA AAGGGCCATA 
    GGTTTTGTGG TCGGACAGAC TGATTGGGAG AAGATCACAG ATGAGAGTGG TCACCTGGCT 
    GAAAGAGCCC TCAATCGGAC CAAATATATA TGA

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

    RefSeq XP_021034461.1
    CDS136..4428
    Translation

    Target ORF information:

    RefSeq Version XM_021178802.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli YLP motif containing 1 (Ylpm1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021178802.1

    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
    3961
    4021
    4081
    4141
    4201
    4261
    ATGTATCCGA ATTGGGGCCG GTATGGCGGG AGCAGCCACT ATCCGCCGCC GCCAGTGCCG 
    CCGCCGCCAC CACCGGTGGC GCTTCCCGAG GCCTCGCCGG GGCCCGGGTA CTCCAGTTCG 
    ACGGCTCCCG CGGCCCCTTC CTCTTCAGGC TTCATGAGCT TCCGAGAGCA ACACTTGGCG 
    CAGCTCCAGC AGCTGCAGCA GATGCACCAG AAGCAAATGC AGTGCGTGCT CCAACCCCAC 
    CATCTTCCTC CGCCCCCGCT GCCGCCCCCG CCGGTGATGC CCGGGGGCGG CTACGGAGAC 
    TGGCAGCCGC CTCCGCCACC GATGCCCCCG CCACCTGGAC CAGCCCTCAG TTATCAGAAG 
    CAGCAGCAGT ACAAACACCA GATGATCCAC CACCAACGAG ATGGGCCTCC GGGTTTGGTT 
    CCAATGGAGC TGGAGTCCCC TCCTGAATCT CCCCCTGTAC CTCCAGGATC CTACATGCCC 
    CCATCCCAGT CGTACATGCC TCCACCTCAG CCACCACCCT CGTACTATCC CCCTTCCTCC 
    GCTCAGCCCT ACCTGCCACC TGCTCAGCCG TCCCCTTCAC AGTCTCCACC TTCCCAGTCC 
    TACCTGGCGC CCACTCCTTC TTATTCTTCC TCTTCCTCCT CACAATCATA TTTGAGCCAT 
    TCCCAGCCCT ACTTACCCCC TTCTCAGGCA TCTCCTTCCC GCTCCTCCCA GGGCCCTTCT 
    AAACCCCAGC TACCACCACC ACCGTCCATC CCTTCTGGGA ATAAAACAGC TATCCAGCAA 
    GAGCCTTTGG AGAGTGGGGC CAAGAACAAG ACTGCTGAAC AGAAGCAAGC TGCTCCTGAA 
    CCAGATCCCT CTACAATGAC TCCACAGGAG CAACAACAAT ATTGGTATCG ACAGCATCTA 
    CTTAGTTTGC AGCAGAGGAC AAAGGTGCAT TTGCCGGGAC ATAAAAAGGG TCTTGTCACA 
    GCAAAGGATG TACCAGAACC CATCAAAGAA GAAGCTCCGG GGCCACCTGC CAGTCAGGTA 
    GCAGAACCTC TTGCAGCTGA GAAGCCCCCA TTGCCACCTC CCAGTGAAGA AGCACCACCT 
    CCGCTCTCAC CTGAGGAACC CCAGTCAGAA GACTCAGAAG ACTCAGAAGA GGATTCTAGA 
    TTTAAACAGT TGAAGGCTAT AGCAGCACAT TGGCAGGCTG CAGCAGCACA TTGGCAACAG 
    CAGCAGCAGC AGCGAGTCGG CTTCCAGTAT CAAGGAATAA TGCAGAGGCA CACACAGTTA 
    CAGCAGATCC TGCAGCAGTA CCAGCAAGTT ATCCAGCACT CACCACACAT ACAGACCATG 
    TCTCTGGATG TGCAGCTGCG ACATTATGAG ATGCAGCAGC AACAGTTTCA ACATCTCTTT 
    CAAGACTGGG AGCGAGAGTT TCAGCTGTGG GAGGAGCAGC TCCATTCCTA TCCTCATAAA 
    GATCAGCTTC AGGAGTATGA GAAGCAGTGG AAGACATGGC AGGGACATAT GAAAGCCACT 
    CAGACCTATC TCCAGGAGAA AGTCAACTCG TTCCAGACTG TGAAGAGCCA GTACCTGGGG 
    AACATGGCAA TGCCACCTCC GTTTGTTCCA TATTCTCAGA TGCCTCCACC TCTGCCAACA 
    ATGCCCCCTC CAGTATTACC TCCATCCTTG CCACCACCAG TGATGCCCCC TGCCCTGCCT 
    ACCTCCATCC CACCACCTGG CATGCCTCCG CCTGTGATGC CACCTTCTCT GCCAACCTCT 
    GTCCCCCCAC CAGGAATGCC TCCATCTCTT TCTTCAGGGC CACCTCCAGT TCTCCCTCCA 
    CCTGCCCTCT CTTCAGCAGG GTCACCACCA GTCCTTCCCC CACCGGCTCT ACCTGGGGGA 
    CCACCCATCC TACCCCTCCC ACCATTATCT TCAGCCACAC CTCCCCCAGG AATACCTCCC 
    CCTGGAGCTC CACAAGGGAT GCCTCCTCAG TTAACAGCCC CACTTCCACC AGCTTCTGGT 
    TCTCAGAACT CACAGATCCC AGAGAAACCT AGACAAGCAC TGCTTCCCAC ACCTGTGTCT 
    TTTGGTTCGA CCCCACCTTC ACCATATCAC CCTCCACCTC AGTCAGAACA AGTGAATTCC 
    AAACCTCTGA ACAAGGTGTT CTCATCTGAG CAAGGACTGG GCGAGTCTTC TGCTCTATCT 
    CAATCCGTCA TTGCAGCTAA GGACATGCCA GTGAAGTCAG GTGGACTGCT TGCAGACCCT 
    CCTAAGGGCA GTTTCTTGGA AGGTCCGAGA GGTCCAAGAG AACAGAAAGA GCAGCTTCAA 
    AAGTTGAAAG ACTTTGGGTC TGAGCCACAG ATGGCTGACC ATCTACCACC CCCAGACTCA 
    AGACTACAGA ATCCATCAAG ACCTGGGATG TATCCGCCTC CAGGATCCTA TAGACCACCC 
    CCTCCTATGG GTAAGCCACC TGGGTCAATT GTAAGACCCT CTGCTCCACC AGCAAGATCA 
    TCTATTCCTA TGACTAGGCC TCCTGTGCCA ATACCACCAC CGCCTCCTCC ACCTCCACCA 
    CCACCACCTC CTCCTCCAGT TATAAAGTCA AAAACCTCAT CTGTGAAACA GGAACGCTGG 
    GATGAAGATT CTTTCTTTGG GCTCTGGGAT ACAAATGATG ATCAAGGACT GAATTCAGAA 
    TTTAAGCGAG ACACTGCAAC AATTCCGTCT GCTCCGGTGT TACCACCCCC ACCTGTTCAT 
    TCTTCCATTC CCCCTCCTGG CCCAATGCCT ATGGGTATGC CACCAATGTC CAAACCACCA 
    CCAGTGCAGC ATACAGTTGA CTATGGCCAT GGCCGAGATA TGCCTACTAA TAAAGTTGAA 
    CAGATACCAT ATGGAGAAAG AATAACTCTA CGTCCAGATC CATTACCTGA AAGGTCAACT 
    TTTGATGCAG ATCATGCAGG CCAGCGTGAT CGCTACGATA GAGATAGAGA CCGTGAACCT 
    TATTTTGACC GTCCAAGTAA TATAACAGAT CATCGAGATT TTAAAAGGGA CCGAGAGACA 
    CATAGAGATA GAGACCGAGA TCGTGTTCTT GACTATGAGC GGGACCGATT TGACAGAGAG 
    CGCAGACCCC GAGATGACAG GAATCAGTCA TATCGAGACA AAAAAGACCA TTCTTCATCC 
    AGAAGAGGAG GGTTTGATAG GCCATCCTAT GACCGGAAGT CTGATCGACC ACCCTATGAA 
    GGCCCACCCA TGTTTGGAGG AGAACGAAGA ACTTACCCGG AGGAGCGCAT GCCCCTTCCA 
    GCTCCTGCCC TGGGCCACCA GCCACCTCCA GTTCCTCGGG TTGAGAAGAA GCCGGAGTCC 
    AAAAATGTGG ATGACATTCT GAAACCGCCA GGCCGGGAGA GCCGGCCTGA AAGAATTGTT 
    GTTATAATGA GAGGATTGCC TGGCAGTGGA AAGACACATG TTGCAAAACT TATCCGGGAT 
    AAGGAAGTAG AATTTGGAGG ACCTGCGCCC AGGGTTTTAA GTCTAGATGA TTATTTCATC 
    GCTGAAGTAG AAAAAGAAGA AAAAGATCCA GATTCTGGAA AGAAAGTAAA AAAGAAGGTA 
    ATGGAATATG AATATGAAGC TGACATGGAG GAGACTTATC GCACCAGCAT GTTCAAAACT 
    TTCAAAAAGA CTCTAGATGA CGGCTTTTTC CCTTTCATTA TTCTGGATGC TATCAATGAC 
    AGAGTTAGGC ATTTTGATCA GTTTTGGAGT GCAGCGAAAA CCAAGGGCTT TGAGGTGTAT 
    TTGGCTGAAA TGAGTGCTGA TAACCAGACT TGTGGCAAGA GAAATATTCA TGGAAGAAAG 
    CTTAAAGAAA TAAACAAGAT GGCTGAACAC TGGGAAGCTG CACCTCGTCA CATGATGCGT 
    CTAGACATCC GCTCCCTGCT ACAAGATGCT GCGATTGAAG AAGTAGAGAT GGAAGATTTT 
    GATGCTAACA TTGAAGACCA GAAGGAAGAA AAGAAAGATG CAGAAGAAGA GGAAAGCGAA 
    CTGGGTTACA TTCCGAAAAG CAAATGGGAG ATGGACACTT CTGAGGCAAA GCTAGACAAG 
    TTGGATGGCT TGAGGACTGG TACTAAAAGG AAGCGAGACT GGGAGGCGAT TGCCAGCAGA 
    ATGGAGGATT ATCTTCAGCT CCCTGACGAC TACGAGACTC GAGCTTCTGA GCCTGGGAAG 
    AAGAGGGTGA GATGGGCAGA CCTAGAAGAA AAGAAGGATG CAGATAGGAA AAGGGCCATA 
    GGTTTTGTGG TCGGACAGAC TGATTGGGAG AAGATCACAG ATGAGAGTGG TCACCTGGCT 
    GAAAGAGCCC TCAATCGGAC CAAATATATA TGA

    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

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03-6811-6573
050-3174-7589(受注専用)

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