ORF » Species Summary » Mus caroli » Trim66 cDNA ORF clone

Trim66 cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Trim66 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Trim66 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
OMv05717 XM_021168448.2
Latest version!		 Mus caroli tripartite motif containing 66 (Trim66), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMv05718 XM_021168449.2
Latest version!		 Mus caroli tripartite motif containing 66 (Trim66), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMv75138 XM_029480142.1
Latest version!		 Mus caroli tripartite motif containing 66 (Trim66), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMv75139 XM_029480143.1
Latest version!		 Mus caroli tripartite motif containing 66 (Trim66), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
View Old Accession Versions >>
OMv05718 XM_021168449.1 Mus caroli tripartite motif containing 66 (Trim66), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMv05717 XM_021168448.1 Mus caroli tripartite motif containing 66 (Trim66), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
Hide Old Accession Versions >>

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** 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)
    Trim66 ( XM_021168448.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021024107.1 Mus caroli tripartite motif containing 66 (Trim66), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OMv05717
    Clone ID Related Accession (Same CDS sequence) XM_021168448.2 , XM_021168448.1
    Accession Version XM_021168448.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4152bp)
    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 tripartite motif-containing protein 66 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034576.1) 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_021168448.1. ##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
    ATGGTGCCAG GCAGCGGCCG CCTGGGGAGG CAGGGAGAGG AGCTTGCTCG CGCTACACGA 
    TGCCTCATCC CAGGAGATGT CAGCGGAAAA GCTGAAGCCC CAGACTCAGG TGCAAACATG 
    AGCCCAGGCC TGGGCCTGAG CATTCCAAGT CAGCCACACT GCTCTACAGA TGAACGCGTG 
    GAGGCTCTGG CACAGACCTG CTCTATGTGT GGACGGGACC TACGAGCTGA GGGCTCCCAG 
    CTTTTACCGT GCCAACATCT GCTCTGTAAG GATTGCTTCC AGGGCTTCAT GCAGGAGCTA 
    GGGCATGCTA CCAGGGCTTA CCCAGGTGAG CTCATCTCCT GTCCTGGATG TCAGCGTGTC 
    TATCTTACCA GAGATGTAAC TGAACATATT TTTCTTCAGT GCTTTTCTCC TGTGAAACCC 
    ACTATGGCCA GGAACTGCTC TGAGTGCAAG GAGAAGCGGG CAGCACACAT CCTCTGCACA 
    TACTGCAACC GCTGGCTGTG CAGCTCCTGC ACAGAGGAGC ACCGGCATGT CCCAGCCCCG 
    GGGGGCCCAC TCTTTGCACG GGCACAGAAG GGATCCTCAG GGGTGAATGG TGGCTCTGGG 
    GACTTTGCCT TGTACTGCCC TCTGCACACA CACGAAGTGC TCAAGCTTTT CTGCGAGACG 
    TGCGATGTAC TCACCTGCCA CAGCTGCCTA ATGGTGGAGC ACAAAGAGCA CAGATGCAGG 
    CACGTTGAAG AAGTTCTACA AAACCAGAGG ATGCTCCTGG AAAGTGTGAC TACCCAGGTG 
    GCACATAAGA AATCCAGCCT ACAGACATCT GCAAAGCAAA TCGAGGACAG GATTTTTGAA 
    GTGAAGCATC AGCACCGGAA GGTGGAGAAC CAGATTAAAA TGGCCAAGAT GGTCCTCATG 
    AACGAGTTGA ACAAGCAGGC CAACGGGCTC ATAGAGGAGC TTGAGGGCAT CACTAACGAG 
    AGAAAGCGAA AGCTGGAGCA GCAGCTGCAG AGCATCATGG TTCTCAACCG GCAGTTTGAG 
    CACGTGCAGA ATTTCATCAA CTGGGCTGTC TGCAGCAAAA GCAGCGTCCC TTTCCTTTTC 
    AGCAAAGAGC TGATTGTGTT TCAGATGCAG CGGTTGCTGG AGACGAGATG TAACACAGAT 
    CCTGGCTCTC CTTGGAGTAT CAGATTCACC TGGGAGCCCA ACTTCTGGAC CAAGCAGCTG 
    GCTTCCCTTG GCTGCATATC CACTGAAGGT GGACAGCTGA CCCGGGCAGA TGCTGCAGCT 
    GCCTCTTATG GGAGTTTACA GGGGCAGCCA TCTTTTTATC AGAGCCACCA GGCCCCCATG 
    GCTCAGCAGG AGGCACTCAG CCACCCCTCA CACAAGTTCC AGTCTCCAGC ACTGTGTTCC 
    TCGTCCGTCT GCTGTTCCCA CTGCTCTCCA GTCTCGCCTT CCCTCAAAGG TCAAGTCCCC 
    CCACCCAGCA TCCACCCCGC TCACAGTTTC CGACAGCCTT CTGAAATGGT GCCCCACCAG 
    CTGGGGTCAC TGCAGTGTTC TACCCTGCTG CCCAGGGAGA AAGAGCTGGC CTGCAGTCCT 
    CATCCACCCA AACTGATGCA GCCCTGGTTG GAACCACAAC CTCCTGCAGA ACAGGAGAGT 
    ACATCCCAGC GGCCAGGACC GCAACTGGTT TCCCAGCCTG TGTGCATCGT CCCTCCGCAA 
    GATGTGCAGC CAGGAGCCCA TGCCCAGCCC ACCATACAGA CACCCTCCAT CCAAGTTCAG 
    CTGGGCCACC ATCAGAAGCT AAAGCTCAGC CACTTTCAGC AGCAGCCGCA GCAGCAGCCA 
    CCCCCACCAC CGCCACCTCC CCCACCCCCC CAGCATGCAC CTCCACCCTT GCCTCCATCC 
    CAGCACCTGG CTTCCAGTCA GCACGAGAGC CCTCCTGGGC CTGCCTGTTC GCAGAATGTG 
    GACATTATGC ACCACAAGTT TGAGCTGGAG GAGATGCAGA AGGACTTGGA ACTTCTCCTG 
    CAGGCCCAGC AGCCTAGCCT GCAATTGAGT CAGACCAAGT CTCCTCAGCA TCTTCAGCAA 
    ACCATCGTGG GGCAGATCAA CTACATCGTG AGGCAGCCAG CACCCGTGCA GTCCCAGAGC 
    CAGGAGGAGA CCCTGCAGGT TACAGAGGAG CCACCAGCAC CTGAGGGCCC AAAGCCAGCT 
    CTACCTGTTG ACAAGAATAC TGCTGCTCCC TTGCCCCAGA CATCTGGGGA GGAAACCCCT 
    CACAGTGTCC CTCCAGTGGA TGGCACCTCC CAGCACTCTT CTCCAAATGT GGTGAGAAAG 
    CATGCCACCT CAGTGAGCAT CATGGGCTTT TCCAACACTG TGGAGATGGA GTTGTCATCT 
    ACCAGGCTGG CGAGGACCAT AGAGCCACAG ATCCACAGGG TGAGCAGCCT GACAGCTGCC 
    CCCACCCACA CAATTCCAAG CTTGCTGAGT GGCCCACCAC AAACTGTGTC CAGCATGATG 
    AGTGTTTCAA ACCATGCCAT GCCAAGCCTG ACAGCCAGTC ACCTGCAGCC CGTGCCAAAC 
    CTTGTGCGTG GCACATTCCA GTCCACACCC AACCTGAGGG GTGATTCCTC TCAAGCCATC 
    ACAGGCCTGG CAAGTAATCA CTCACAAGCT GGGCCCAGTC TAATGTCTGG GCACACCCAG 
    GCTGCGCCGA GTCTGGCCAC TTGTCCTCTG CAGGGAATGC CACCGGTTTC TGATGTGCAT 
    GTGGAGCCAA GATCCGTATC CAGTCCTGGG ACTTGCCCAG CTGCAGAAAG CCTGGGCACC 
    AGGGATGGGG CTGAGTCCTC CCTGGGGAAT GCCTTGTGTA AGATGGAAAG TGAGGATTGT 
    ACCCGTTTCT CAGACTCAGT AGGACAAGGC CCTACAGCCT CCAGTCTGGA TGGTCCCAAG 
    GATTTGGCTA TTCCCTCAGA ACTGGAGGAA CCAATTAACC TCTCTGTGAA AAAACCTTTC 
    CTGGCACCAG TGATCAACAC ATCCACTGCT CTGCAACAGT ACCGGAATCC AAAAGAATAT 
    GAGAATTTTG AACAAGGAGC CCTAGAGCTG GATACAAAGG AGAATTCAGA CATCAGAGCT 
    ATCAGTAGTG AGCCCAAGAT CCCCTACGTG CGACTGGAGC GGCTCAAGAT CTGTGCTGCC 
    TCATCAGGAG AGATGCCTGT GTTTAAGCTG AAGCCCCAGA AAAATAGCCA GGATGGAAGC 
    TTCCTCCTGG TGATTGAGTG TGGCTCTGAG TCCTCCAGCA TGTCCATTAA GGTCAGCCAG 
    AACAGCCAGC CTGATGCCAC CCAGGGCCCA GGTCTTGGGG GAAGAAAGGT CACTGTCACA 
    TCTCTGACTG GACAGCGGCC ACAAGAGGTG GAGAGCACAT CTGAGGAACA CAGACTCATC 
    CCCCGAGCTC CAGGAGCCAA GAAGATGACC CCAGCCCCCA TAGAGAATGA GGACTTCTGT 
    GCGGTGTGCA TCAATGGTGG GGAGCTGCTA TGCTGTGACC GCTGCCCCAA AGTGTATCAC 
    CTTTCCTGCC ACGTGCCAGC CTTGCTCAGC TTCCCAGGGG GAGAATGGGT GTGCACCCTG 
    TGCCGCAGCC TGACGCAGCC TGAGATGGAG TACGACTGTG AGAACGCGCG CTACAGTCAC 
    CCTGGAGTGC GGGTACTTCC CGGCCTGAGC ATGTATGACC AGAAGAAGTG TGAGAAGCTG 
    GTCCTGTCCC TGTGCTGCAA CAGCCTCAGC CTGCCCTTCC ATGAACCAGT CAGCCCCCTG 
    GCCAGGCATT ATTACCAGAT TATCAAGAGG CCCATGGACC TGTCAATCAT CCGGAGGAAA 
    CTGCAAAAGA AAGACCCGGC TCATTACACC ACTCCAGAGG AAGTGGTGTC AGATGTACGC 
    CTCATGTTCT GGAACTGTGC TAAGTTCAAC TATCCTGACT CGGAGGTTGC AGAGGCTGGC 
    CGCTGTCTGG AAGTGTTCTT TGAAGGCTGG CTAAAGGAGA TCTACCCAGA CAAATGCTTT 
    GCCCAGCCCC AGCAAGAGGA TTCAGACTCT GAGGACGTAT CTGGCGAGAG TGGCTGTTCC 
    ACTCCTCAGG GCTTCCCATG GCCTCCCTAC ATGCAGGAAG GCATCCAGCC CAAGAGGCGA 
    CGGAGGCATA TGGAGAATGA GAAGACAAAG AGAGTGTCGT TTCGTCTGGC CAACAGCATC 
    TCGCAGGTGT GA

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

    RefSeq XP_021024107.1
    CDS15..4166
    Translation

    Target ORF information:

    RefSeq Version XM_021168448.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli tripartite motif containing 66 (Trim66), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021168448.2

    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
    ATGGTGCCAG GCAGCGGCCG CCTGGGGAGG CAGGGAGAGG AGCTTGCTCG CGCTACACGA 
    TGCCTCATCC CAGGAGATGT CAGCGGAAAA GCTGAAGCCC CAGACTCAGG TGCAAACATG 
    AGCCCAGGCC TGGGCCTGAG CATTCCAAGT CAGCCACACT GCTCTACAGA TGAACGCGTG 
    GAGGCTCTGG CACAGACCTG CTCTATGTGT GGACGGGACC TACGAGCTGA GGGCTCCCAG 
    CTTTTACCGT GCCAACATCT GCTCTGTAAG GATTGCTTCC AGGGCTTCAT GCAGGAGCTA 
    GGGCATGCTA CCAGGGCTTA CCCAGGTGAG CTCATCTCCT GTCCTGGATG TCAGCGTGTC 
    TATCTTACCA GAGATGTAAC TGAACATATT TTTCTTCAGT GCTTTTCTCC TGTGAAACCC 
    ACTATGGCCA GGAACTGCTC TGAGTGCAAG GAGAAGCGGG CAGCACACAT CCTCTGCACA 
    TACTGCAACC GCTGGCTGTG CAGCTCCTGC ACAGAGGAGC ACCGGCATGT CCCAGCCCCG 
    GGGGGCCCAC TCTTTGCACG GGCACAGAAG GGATCCTCAG GGGTGAATGG TGGCTCTGGG 
    GACTTTGCCT TGTACTGCCC TCTGCACACA CACGAAGTGC TCAAGCTTTT CTGCGAGACG 
    TGCGATGTAC TCACCTGCCA CAGCTGCCTA ATGGTGGAGC ACAAAGAGCA CAGATGCAGG 
    CACGTTGAAG AAGTTCTACA AAACCAGAGG ATGCTCCTGG AAAGTGTGAC TACCCAGGTG 
    GCACATAAGA AATCCAGCCT ACAGACATCT GCAAAGCAAA TCGAGGACAG GATTTTTGAA 
    GTGAAGCATC AGCACCGGAA GGTGGAGAAC CAGATTAAAA TGGCCAAGAT GGTCCTCATG 
    AACGAGTTGA ACAAGCAGGC CAACGGGCTC ATAGAGGAGC TTGAGGGCAT CACTAACGAG 
    AGAAAGCGAA AGCTGGAGCA GCAGCTGCAG AGCATCATGG TTCTCAACCG GCAGTTTGAG 
    CACGTGCAGA ATTTCATCAA CTGGGCTGTC TGCAGCAAAA GCAGCGTCCC TTTCCTTTTC 
    AGCAAAGAGC TGATTGTGTT TCAGATGCAG CGGTTGCTGG AGACGAGATG TAACACAGAT 
    CCTGGCTCTC CTTGGAGTAT CAGATTCACC TGGGAGCCCA ACTTCTGGAC CAAGCAGCTG 
    GCTTCCCTTG GCTGCATATC CACTGAAGGT GGACAGCTGA CCCGGGCAGA TGCTGCAGCT 
    GCCTCTTATG GGAGTTTACA GGGGCAGCCA TCTTTTTATC AGAGCCACCA GGCCCCCATG 
    GCTCAGCAGG AGGCACTCAG CCACCCCTCA CACAAGTTCC AGTCTCCAGC ACTGTGTTCC 
    TCGTCCGTCT GCTGTTCCCA CTGCTCTCCA GTCTCGCCTT CCCTCAAAGG TCAAGTCCCC 
    CCACCCAGCA TCCACCCCGC TCACAGTTTC CGACAGCCTT CTGAAATGGT GCCCCACCAG 
    CTGGGGTCAC TGCAGTGTTC TACCCTGCTG CCCAGGGAGA AAGAGCTGGC CTGCAGTCCT 
    CATCCACCCA AACTGATGCA GCCCTGGTTG GAACCACAAC CTCCTGCAGA ACAGGAGAGT 
    ACATCCCAGC GGCCAGGACC GCAACTGGTT TCCCAGCCTG TGTGCATCGT CCCTCCGCAA 
    GATGTGCAGC CAGGAGCCCA TGCCCAGCCC ACCATACAGA CACCCTCCAT CCAAGTTCAG 
    CTGGGCCACC ATCAGAAGCT AAAGCTCAGC CACTTTCAGC AGCAGCCGCA GCAGCAGCCA 
    CCCCCACCAC CGCCACCTCC CCCACCCCCC CAGCATGCAC CTCCACCCTT GCCTCCATCC 
    CAGCACCTGG CTTCCAGTCA GCACGAGAGC CCTCCTGGGC CTGCCTGTTC GCAGAATGTG 
    GACATTATGC ACCACAAGTT TGAGCTGGAG GAGATGCAGA AGGACTTGGA ACTTCTCCTG 
    CAGGCCCAGC AGCCTAGCCT GCAATTGAGT CAGACCAAGT CTCCTCAGCA TCTTCAGCAA 
    ACCATCGTGG GGCAGATCAA CTACATCGTG AGGCAGCCAG CACCCGTGCA GTCCCAGAGC 
    CAGGAGGAGA CCCTGCAGGT TACAGAGGAG CCACCAGCAC CTGAGGGCCC AAAGCCAGCT 
    CTACCTGTTG ACAAGAATAC TGCTGCTCCC TTGCCCCAGA CATCTGGGGA GGAAACCCCT 
    CACAGTGTCC CTCCAGTGGA TGGCACCTCC CAGCACTCTT CTCCAAATGT GGTGAGAAAG 
    CATGCCACCT CAGTGAGCAT CATGGGCTTT TCCAACACTG TGGAGATGGA GTTGTCATCT 
    ACCAGGCTGG CGAGGACCAT AGAGCCACAG ATCCACAGGG TGAGCAGCCT GACAGCTGCC 
    CCCACCCACA CAATTCCAAG CTTGCTGAGT GGCCCACCAC AAACTGTGTC CAGCATGATG 
    AGTGTTTCAA ACCATGCCAT GCCAAGCCTG ACAGCCAGTC ACCTGCAGCC CGTGCCAAAC 
    CTTGTGCGTG GCACATTCCA GTCCACACCC AACCTGAGGG GTGATTCCTC TCAAGCCATC 
    ACAGGCCTGG CAAGTAATCA CTCACAAGCT GGGCCCAGTC TAATGTCTGG GCACACCCAG 
    GCTGCGCCGA GTCTGGCCAC TTGTCCTCTG CAGGGAATGC CACCGGTTTC TGATGTGCAT 
    GTGGAGCCAA GATCCGTATC CAGTCCTGGG ACTTGCCCAG CTGCAGAAAG CCTGGGCACC 
    AGGGATGGGG CTGAGTCCTC CCTGGGGAAT GCCTTGTGTA AGATGGAAAG TGAGGATTGT 
    ACCCGTTTCT CAGACTCAGT AGGACAAGGC CCTACAGCCT CCAGTCTGGA TGGTCCCAAG 
    GATTTGGCTA TTCCCTCAGA ACTGGAGGAA CCAATTAACC TCTCTGTGAA AAAACCTTTC 
    CTGGCACCAG TGATCAACAC ATCCACTGCT CTGCAACAGT ACCGGAATCC AAAAGAATAT 
    GAGAATTTTG AACAAGGAGC CCTAGAGCTG GATACAAAGG AGAATTCAGA CATCAGAGCT 
    ATCAGTAGTG AGCCCAAGAT CCCCTACGTG CGACTGGAGC GGCTCAAGAT CTGTGCTGCC 
    TCATCAGGAG AGATGCCTGT GTTTAAGCTG AAGCCCCAGA AAAATAGCCA GGATGGAAGC 
    TTCCTCCTGG TGATTGAGTG TGGCTCTGAG TCCTCCAGCA TGTCCATTAA GGTCAGCCAG 
    AACAGCCAGC CTGATGCCAC CCAGGGCCCA GGTCTTGGGG GAAGAAAGGT CACTGTCACA 
    TCTCTGACTG GACAGCGGCC ACAAGAGGTG GAGAGCACAT CTGAGGAACA CAGACTCATC 
    CCCCGAGCTC CAGGAGCCAA GAAGATGACC CCAGCCCCCA TAGAGAATGA GGACTTCTGT 
    GCGGTGTGCA TCAATGGTGG GGAGCTGCTA TGCTGTGACC GCTGCCCCAA AGTGTATCAC 
    CTTTCCTGCC ACGTGCCAGC CTTGCTCAGC TTCCCAGGGG GAGAATGGGT GTGCACCCTG 
    TGCCGCAGCC TGACGCAGCC TGAGATGGAG TACGACTGTG AGAACGCGCG CTACAGTCAC 
    CCTGGAGTGC GGGTACTTCC CGGCCTGAGC ATGTATGACC AGAAGAAGTG TGAGAAGCTG 
    GTCCTGTCCC TGTGCTGCAA CAGCCTCAGC CTGCCCTTCC ATGAACCAGT CAGCCCCCTG 
    GCCAGGCATT ATTACCAGAT TATCAAGAGG CCCATGGACC TGTCAATCAT CCGGAGGAAA 
    CTGCAAAAGA AAGACCCGGC TCATTACACC ACTCCAGAGG AAGTGGTGTC AGATGTACGC 
    CTCATGTTCT GGAACTGTGC TAAGTTCAAC TATCCTGACT CGGAGGTTGC AGAGGCTGGC 
    CGCTGTCTGG AAGTGTTCTT TGAAGGCTGG CTAAAGGAGA TCTACCCAGA CAAATGCTTT 
    GCCCAGCCCC AGCAAGAGGA TTCAGACTCT GAGGACGTAT CTGGCGAGAG TGGCTGTTCC 
    ACTCCTCAGG GCTTCCCATG GCCTCCCTAC ATGCAGGAAG GCATCCAGCC CAAGAGGCGA 
    CGGAGGCATA TGGAGAATGA GAAGACAAAG AGAGTGTCGT TTCGTCTGGC CAACAGCATC 
    TCGCAGGTGT GA

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

    Trim66 ( XM_021168448.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021024107.1 Mus caroli tripartite motif containing 66 (Trim66), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OMv05717
    Clone ID Related Accession (Same CDS sequence) XM_021168448.2 , XM_021168448.1
    Accession Version XM_021168448.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4152bp)
    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 tripartite motif-containing protein 66 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034576.1) 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
    ATGGTGCCAG GCAGCGGCCG CCTGGGGAGG CAGGGAGAGG AGCTTGCTCG CGCTACACGA 
    TGCCTCATCC CAGGAGATGT CAGCGGAAAA GCTGAAGCCC CAGACTCAGG TGCAAACATG 
    AGCCCAGGCC TGGGCCTGAG CATTCCAAGT CAGCCACACT GCTCTACAGA TGAACGCGTG 
    GAGGCTCTGG CACAGACCTG CTCTATGTGT GGACGGGACC TACGAGCTGA GGGCTCCCAG 
    CTTTTACCGT GCCAACATCT GCTCTGTAAG GATTGCTTCC AGGGCTTCAT GCAGGAGCTA 
    GGGCATGCTA CCAGGGCTTA CCCAGGTGAG CTCATCTCCT GTCCTGGATG TCAGCGTGTC 
    TATCTTACCA GAGATGTAAC TGAACATATT TTTCTTCAGT GCTTTTCTCC TGTGAAACCC 
    ACTATGGCCA GGAACTGCTC TGAGTGCAAG GAGAAGCGGG CAGCACACAT CCTCTGCACA 
    TACTGCAACC GCTGGCTGTG CAGCTCCTGC ACAGAGGAGC ACCGGCATGT CCCAGCCCCG 
    GGGGGCCCAC TCTTTGCACG GGCACAGAAG GGATCCTCAG GGGTGAATGG TGGCTCTGGG 
    GACTTTGCCT TGTACTGCCC TCTGCACACA CACGAAGTGC TCAAGCTTTT CTGCGAGACG 
    TGCGATGTAC TCACCTGCCA CAGCTGCCTA ATGGTGGAGC ACAAAGAGCA CAGATGCAGG 
    CACGTTGAAG AAGTTCTACA AAACCAGAGG ATGCTCCTGG AAAGTGTGAC TACCCAGGTG 
    GCACATAAGA AATCCAGCCT ACAGACATCT GCAAAGCAAA TCGAGGACAG GATTTTTGAA 
    GTGAAGCATC AGCACCGGAA GGTGGAGAAC CAGATTAAAA TGGCCAAGAT GGTCCTCATG 
    AACGAGTTGA ACAAGCAGGC CAACGGGCTC ATAGAGGAGC TTGAGGGCAT CACTAACGAG 
    AGAAAGCGAA AGCTGGAGCA GCAGCTGCAG AGCATCATGG TTCTCAACCG GCAGTTTGAG 
    CACGTGCAGA ATTTCATCAA CTGGGCTGTC TGCAGCAAAA GCAGCGTCCC TTTCCTTTTC 
    AGCAAAGAGC TGATTGTGTT TCAGATGCAG CGGTTGCTGG AGACGAGATG TAACACAGAT 
    CCTGGCTCTC CTTGGAGTAT CAGATTCACC TGGGAGCCCA ACTTCTGGAC CAAGCAGCTG 
    GCTTCCCTTG GCTGCATATC CACTGAAGGT GGACAGCTGA CCCGGGCAGA TGCTGCAGCT 
    GCCTCTTATG GGAGTTTACA GGGGCAGCCA TCTTTTTATC AGAGCCACCA GGCCCCCATG 
    GCTCAGCAGG AGGCACTCAG CCACCCCTCA CACAAGTTCC AGTCTCCAGC ACTGTGTTCC 
    TCGTCCGTCT GCTGTTCCCA CTGCTCTCCA GTCTCGCCTT CCCTCAAAGG TCAAGTCCCC 
    CCACCCAGCA TCCACCCCGC TCACAGTTTC CGACAGCCTT CTGAAATGGT GCCCCACCAG 
    CTGGGGTCAC TGCAGTGTTC TACCCTGCTG CCCAGGGAGA AAGAGCTGGC CTGCAGTCCT 
    CATCCACCCA AACTGATGCA GCCCTGGTTG GAACCACAAC CTCCTGCAGA ACAGGAGAGT 
    ACATCCCAGC GGCCAGGACC GCAACTGGTT TCCCAGCCTG TGTGCATCGT CCCTCCGCAA 
    GATGTGCAGC CAGGAGCCCA TGCCCAGCCC ACCATACAGA CACCCTCCAT CCAAGTTCAG 
    CTGGGCCACC ATCAGAAGCT AAAGCTCAGC CACTTTCAGC AGCAGCCGCA GCAGCAGCCA 
    CCCCCACCAC CGCCACCTCC CCCACCCCCC CAGCATGCAC CTCCACCCTT GCCTCCATCC 
    CAGCACCTGG CTTCCAGTCA GCACGAGAGC CCTCCTGGGC CTGCCTGTTC GCAGAATGTG 
    GACATTATGC ACCACAAGTT TGAGCTGGAG GAGATGCAGA AGGACTTGGA ACTTCTCCTG 
    CAGGCCCAGC AGCCTAGCCT GCAATTGAGT CAGACCAAGT CTCCTCAGCA TCTTCAGCAA 
    ACCATCGTGG GGCAGATCAA CTACATCGTG AGGCAGCCAG CACCCGTGCA GTCCCAGAGC 
    CAGGAGGAGA CCCTGCAGGT TACAGAGGAG CCACCAGCAC CTGAGGGCCC AAAGCCAGCT 
    CTACCTGTTG ACAAGAATAC TGCTGCTCCC TTGCCCCAGA CATCTGGGGA GGAAACCCCT 
    CACAGTGTCC CTCCAGTGGA TGGCACCTCC CAGCACTCTT CTCCAAATGT GGTGAGAAAG 
    CATGCCACCT CAGTGAGCAT CATGGGCTTT TCCAACACTG TGGAGATGGA GTTGTCATCT 
    ACCAGGCTGG CGAGGACCAT AGAGCCACAG ATCCACAGGG TGAGCAGCCT GACAGCTGCC 
    CCCACCCACA CAATTCCAAG CTTGCTGAGT GGCCCACCAC AAACTGTGTC CAGCATGATG 
    AGTGTTTCAA ACCATGCCAT GCCAAGCCTG ACAGCCAGTC ACCTGCAGCC CGTGCCAAAC 
    CTTGTGCGTG GCACATTCCA GTCCACACCC AACCTGAGGG GTGATTCCTC TCAAGCCATC 
    ACAGGCCTGG CAAGTAATCA CTCACAAGCT GGGCCCAGTC TAATGTCTGG GCACACCCAG 
    GCTGCGCCGA GTCTGGCCAC TTGTCCTCTG CAGGGAATGC CACCGGTTTC TGATGTGCAT 
    GTGGAGCCAA GATCCGTATC CAGTCCTGGG ACTTGCCCAG CTGCAGAAAG CCTGGGCACC 
    AGGGATGGGG CTGAGTCCTC CCTGGGGAAT GCCTTGTGTA AGATGGAAAG TGAGGATTGT 
    ACCCGTTTCT CAGACTCAGT AGGACAAGGC CCTACAGCCT CCAGTCTGGA TGGTCCCAAG 
    GATTTGGCTA TTCCCTCAGA ACTGGAGGAA CCAATTAACC TCTCTGTGAA AAAACCTTTC 
    CTGGCACCAG TGATCAACAC ATCCACTGCT CTGCAACAGT ACCGGAATCC AAAAGAATAT 
    GAGAATTTTG AACAAGGAGC CCTAGAGCTG GATACAAAGG AGAATTCAGA CATCAGAGCT 
    ATCAGTAGTG AGCCCAAGAT CCCCTACGTG CGACTGGAGC GGCTCAAGAT CTGTGCTGCC 
    TCATCAGGAG AGATGCCTGT GTTTAAGCTG AAGCCCCAGA AAAATAGCCA GGATGGAAGC 
    TTCCTCCTGG TGATTGAGTG TGGCTCTGAG TCCTCCAGCA TGTCCATTAA GGTCAGCCAG 
    AACAGCCAGC CTGATGCCAC CCAGGGCCCA GGTCTTGGGG GAAGAAAGGT CACTGTCACA 
    TCTCTGACTG GACAGCGGCC ACAAGAGGTG GAGAGCACAT CTGAGGAACA CAGACTCATC 
    CCCCGAGCTC CAGGAGCCAA GAAGATGACC CCAGCCCCCA TAGAGAATGA GGACTTCTGT 
    GCGGTGTGCA TCAATGGTGG GGAGCTGCTA TGCTGTGACC GCTGCCCCAA AGTGTATCAC 
    CTTTCCTGCC ACGTGCCAGC CTTGCTCAGC TTCCCAGGGG GAGAATGGGT GTGCACCCTG 
    TGCCGCAGCC TGACGCAGCC TGAGATGGAG TACGACTGTG AGAACGCGCG CTACAGTCAC 
    CCTGGAGTGC GGGTACTTCC CGGCCTGAGC ATGTATGACC AGAAGAAGTG TGAGAAGCTG 
    GTCCTGTCCC TGTGCTGCAA CAGCCTCAGC CTGCCCTTCC ATGAACCAGT CAGCCCCCTG 
    GCCAGGCATT ATTACCAGAT TATCAAGAGG CCCATGGACC TGTCAATCAT CCGGAGGAAA 
    CTGCAAAAGA AAGACCCGGC TCATTACACC ACTCCAGAGG AAGTGGTGTC AGATGTACGC 
    CTCATGTTCT GGAACTGTGC TAAGTTCAAC TATCCTGACT CGGAGGTTGC AGAGGCTGGC 
    CGCTGTCTGG AAGTGTTCTT TGAAGGCTGG CTAAAGGAGA TCTACCCAGA CAAATGCTTT 
    GCCCAGCCCC AGCAAGAGGA TTCAGACTCT GAGGACGTAT CTGGCGAGAG TGGCTGTTCC 
    ACTCCTCAGG GCTTCCCATG GCCTCCCTAC ATGCAGGAAG GCATCCAGCC CAAGAGGCGA 
    CGGAGGCATA TGGAGAATGA GAAGACAAAG AGAGTGTCGT TTCGTCTGGC CAACAGCATC 
    TCGCAGGTGT GA

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

    RefSeq XP_021024107.1
    CDS15..4166
    Translation

    Target ORF information:

    RefSeq Version XM_021168448.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli tripartite motif containing 66 (Trim66), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021168448.1

    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
    ATGGTGCCAG GCAGCGGCCG CCTGGGGAGG CAGGGAGAGG AGCTTGCTCG CGCTACACGA 
    TGCCTCATCC CAGGAGATGT CAGCGGAAAA GCTGAAGCCC CAGACTCAGG TGCAAACATG 
    AGCCCAGGCC TGGGCCTGAG CATTCCAAGT CAGCCACACT GCTCTACAGA TGAACGCGTG 
    GAGGCTCTGG CACAGACCTG CTCTATGTGT GGACGGGACC TACGAGCTGA GGGCTCCCAG 
    CTTTTACCGT GCCAACATCT GCTCTGTAAG GATTGCTTCC AGGGCTTCAT GCAGGAGCTA 
    GGGCATGCTA CCAGGGCTTA CCCAGGTGAG CTCATCTCCT GTCCTGGATG TCAGCGTGTC 
    TATCTTACCA GAGATGTAAC TGAACATATT TTTCTTCAGT GCTTTTCTCC TGTGAAACCC 
    ACTATGGCCA GGAACTGCTC TGAGTGCAAG GAGAAGCGGG CAGCACACAT CCTCTGCACA 
    TACTGCAACC GCTGGCTGTG CAGCTCCTGC ACAGAGGAGC ACCGGCATGT CCCAGCCCCG 
    GGGGGCCCAC TCTTTGCACG GGCACAGAAG GGATCCTCAG GGGTGAATGG TGGCTCTGGG 
    GACTTTGCCT TGTACTGCCC TCTGCACACA CACGAAGTGC TCAAGCTTTT CTGCGAGACG 
    TGCGATGTAC TCACCTGCCA CAGCTGCCTA ATGGTGGAGC ACAAAGAGCA CAGATGCAGG 
    CACGTTGAAG AAGTTCTACA AAACCAGAGG ATGCTCCTGG AAAGTGTGAC TACCCAGGTG 
    GCACATAAGA AATCCAGCCT ACAGACATCT GCAAAGCAAA TCGAGGACAG GATTTTTGAA 
    GTGAAGCATC AGCACCGGAA GGTGGAGAAC CAGATTAAAA TGGCCAAGAT GGTCCTCATG 
    AACGAGTTGA ACAAGCAGGC CAACGGGCTC ATAGAGGAGC TTGAGGGCAT CACTAACGAG 
    AGAAAGCGAA AGCTGGAGCA GCAGCTGCAG AGCATCATGG TTCTCAACCG GCAGTTTGAG 
    CACGTGCAGA ATTTCATCAA CTGGGCTGTC TGCAGCAAAA GCAGCGTCCC TTTCCTTTTC 
    AGCAAAGAGC TGATTGTGTT TCAGATGCAG CGGTTGCTGG AGACGAGATG TAACACAGAT 
    CCTGGCTCTC CTTGGAGTAT CAGATTCACC TGGGAGCCCA ACTTCTGGAC CAAGCAGCTG 
    GCTTCCCTTG GCTGCATATC CACTGAAGGT GGACAGCTGA CCCGGGCAGA TGCTGCAGCT 
    GCCTCTTATG GGAGTTTACA GGGGCAGCCA TCTTTTTATC AGAGCCACCA GGCCCCCATG 
    GCTCAGCAGG AGGCACTCAG CCACCCCTCA CACAAGTTCC AGTCTCCAGC ACTGTGTTCC 
    TCGTCCGTCT GCTGTTCCCA CTGCTCTCCA GTCTCGCCTT CCCTCAAAGG TCAAGTCCCC 
    CCACCCAGCA TCCACCCCGC TCACAGTTTC CGACAGCCTT CTGAAATGGT GCCCCACCAG 
    CTGGGGTCAC TGCAGTGTTC TACCCTGCTG CCCAGGGAGA AAGAGCTGGC CTGCAGTCCT 
    CATCCACCCA AACTGATGCA GCCCTGGTTG GAACCACAAC CTCCTGCAGA ACAGGAGAGT 
    ACATCCCAGC GGCCAGGACC GCAACTGGTT TCCCAGCCTG TGTGCATCGT CCCTCCGCAA 
    GATGTGCAGC CAGGAGCCCA TGCCCAGCCC ACCATACAGA CACCCTCCAT CCAAGTTCAG 
    CTGGGCCACC ATCAGAAGCT AAAGCTCAGC CACTTTCAGC AGCAGCCGCA GCAGCAGCCA 
    CCCCCACCAC CGCCACCTCC CCCACCCCCC CAGCATGCAC CTCCACCCTT GCCTCCATCC 
    CAGCACCTGG CTTCCAGTCA GCACGAGAGC CCTCCTGGGC CTGCCTGTTC GCAGAATGTG 
    GACATTATGC ACCACAAGTT TGAGCTGGAG GAGATGCAGA AGGACTTGGA ACTTCTCCTG 
    CAGGCCCAGC AGCCTAGCCT GCAATTGAGT CAGACCAAGT CTCCTCAGCA TCTTCAGCAA 
    ACCATCGTGG GGCAGATCAA CTACATCGTG AGGCAGCCAG CACCCGTGCA GTCCCAGAGC 
    CAGGAGGAGA CCCTGCAGGT TACAGAGGAG CCACCAGCAC CTGAGGGCCC AAAGCCAGCT 
    CTACCTGTTG ACAAGAATAC TGCTGCTCCC TTGCCCCAGA CATCTGGGGA GGAAACCCCT 
    CACAGTGTCC CTCCAGTGGA TGGCACCTCC CAGCACTCTT CTCCAAATGT GGTGAGAAAG 
    CATGCCACCT CAGTGAGCAT CATGGGCTTT TCCAACACTG TGGAGATGGA GTTGTCATCT 
    ACCAGGCTGG CGAGGACCAT AGAGCCACAG ATCCACAGGG TGAGCAGCCT GACAGCTGCC 
    CCCACCCACA CAATTCCAAG CTTGCTGAGT GGCCCACCAC AAACTGTGTC CAGCATGATG 
    AGTGTTTCAA ACCATGCCAT GCCAAGCCTG ACAGCCAGTC ACCTGCAGCC CGTGCCAAAC 
    CTTGTGCGTG GCACATTCCA GTCCACACCC AACCTGAGGG GTGATTCCTC TCAAGCCATC 
    ACAGGCCTGG CAAGTAATCA CTCACAAGCT GGGCCCAGTC TAATGTCTGG GCACACCCAG 
    GCTGCGCCGA GTCTGGCCAC TTGTCCTCTG CAGGGAATGC CACCGGTTTC TGATGTGCAT 
    GTGGAGCCAA GATCCGTATC CAGTCCTGGG ACTTGCCCAG CTGCAGAAAG CCTGGGCACC 
    AGGGATGGGG CTGAGTCCTC CCTGGGGAAT GCCTTGTGTA AGATGGAAAG TGAGGATTGT 
    ACCCGTTTCT CAGACTCAGT AGGACAAGGC CCTACAGCCT CCAGTCTGGA TGGTCCCAAG 
    GATTTGGCTA TTCCCTCAGA ACTGGAGGAA CCAATTAACC TCTCTGTGAA AAAACCTTTC 
    CTGGCACCAG TGATCAACAC ATCCACTGCT CTGCAACAGT ACCGGAATCC AAAAGAATAT 
    GAGAATTTTG AACAAGGAGC CCTAGAGCTG GATACAAAGG AGAATTCAGA CATCAGAGCT 
    ATCAGTAGTG AGCCCAAGAT CCCCTACGTG CGACTGGAGC GGCTCAAGAT CTGTGCTGCC 
    TCATCAGGAG AGATGCCTGT GTTTAAGCTG AAGCCCCAGA AAAATAGCCA GGATGGAAGC 
    TTCCTCCTGG TGATTGAGTG TGGCTCTGAG TCCTCCAGCA TGTCCATTAA GGTCAGCCAG 
    AACAGCCAGC CTGATGCCAC CCAGGGCCCA GGTCTTGGGG GAAGAAAGGT CACTGTCACA 
    TCTCTGACTG GACAGCGGCC ACAAGAGGTG GAGAGCACAT CTGAGGAACA CAGACTCATC 
    CCCCGAGCTC CAGGAGCCAA GAAGATGACC CCAGCCCCCA TAGAGAATGA GGACTTCTGT 
    GCGGTGTGCA TCAATGGTGG GGAGCTGCTA TGCTGTGACC GCTGCCCCAA AGTGTATCAC 
    CTTTCCTGCC ACGTGCCAGC CTTGCTCAGC TTCCCAGGGG GAGAATGGGT GTGCACCCTG 
    TGCCGCAGCC TGACGCAGCC TGAGATGGAG TACGACTGTG AGAACGCGCG CTACAGTCAC 
    CCTGGAGTGC GGGTACTTCC CGGCCTGAGC ATGTATGACC AGAAGAAGTG TGAGAAGCTG 
    GTCCTGTCCC TGTGCTGCAA CAGCCTCAGC CTGCCCTTCC ATGAACCAGT CAGCCCCCTG 
    GCCAGGCATT ATTACCAGAT TATCAAGAGG CCCATGGACC TGTCAATCAT CCGGAGGAAA 
    CTGCAAAAGA AAGACCCGGC TCATTACACC ACTCCAGAGG AAGTGGTGTC AGATGTACGC 
    CTCATGTTCT GGAACTGTGC TAAGTTCAAC TATCCTGACT CGGAGGTTGC AGAGGCTGGC 
    CGCTGTCTGG AAGTGTTCTT TGAAGGCTGG CTAAAGGAGA TCTACCCAGA CAAATGCTTT 
    GCCCAGCCCC AGCAAGAGGA TTCAGACTCT GAGGACGTAT CTGGCGAGAG TGGCTGTTCC 
    ACTCCTCAGG GCTTCCCATG GCCTCCCTAC ATGCAGGAAG GCATCCAGCC CAAGAGGCGA 
    CGGAGGCATA TGGAGAATGA GAAGACAAAG AGAGTGTCGT TTCGTCTGGC CAACAGCATC 
    TCGCAGGTGT GA

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

    Trim66 ( XM_021168449.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021024108.1 Mus caroli tripartite motif containing 66 (Trim66), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OMv05718
    Clone ID Related Accession (Same CDS sequence) XM_021168449.1 , XM_021168449.2
    Accession Version XM_021168449.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3729bp)
    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 tripartite motif-containing protein 66 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034576.1) 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
    ATGGCCAGGA ACTGCTCTGA GTGCAAGGAG AAGCGGGCAG CACACATCCT CTGCACATAC 
    TGCAACCGCT GGCTGTGCAG CTCCTGCACA GAGGAGCACC GGCATGTCCC AGCCCCGGGG 
    GGCCCACTCT TTGCACGGGC ACAGAAGGGA TCCTCAGGGG TGAATGGTGG CTCTGGGGAC 
    TTTGCCTTGT ACTGCCCTCT GCACACACAC GAAGTGCTCA AGCTTTTCTG CGAGACGTGC 
    GATGTACTCA CCTGCCACAG CTGCCTAATG GTGGAGCACA AAGAGCACAG ATGCAGGCAC 
    GTTGAAGAAG TTCTACAAAA CCAGAGGATG CTCCTGGAAA GTGTGACTAC CCAGGTGGCA 
    CATAAGAAAT CCAGCCTACA GACATCTGCA AAGCAAATCG AGGACAGGAT TTTTGAAGTG 
    AAGCATCAGC ACCGGAAGGT GGAGAACCAG ATTAAAATGG CCAAGATGGT CCTCATGAAC 
    GAGTTGAACA AGCAGGCCAA CGGGCTCATA GAGGAGCTTG AGGGCATCAC TAACGAGAGA 
    AAGCGAAAGC TGGAGCAGCA GCTGCAGAGC ATCATGGTTC TCAACCGGCA GTTTGAGCAC 
    GTGCAGAATT TCATCAACTG GGCTGTCTGC AGCAAAAGCA GCGTCCCTTT CCTTTTCAGC 
    AAAGAGCTGA TTGTGTTTCA GATGCAGCGG TTGCTGGAGA CGAGATGTAA CACAGATCCT 
    GGCTCTCCTT GGAGTATCAG ATTCACCTGG GAGCCCAACT TCTGGACCAA GCAGCTGGCT 
    TCCCTTGGCT GCATATCCAC TGAAGGTGGA CAGCTGACCC GGGCAGATGC TGCAGCTGCC 
    TCTTATGGGA GTTTACAGGG GCAGCCATCT TTTTATCAGA GCCACCAGGC CCCCATGGCT 
    CAGCAGGAGG CACTCAGCCA CCCCTCACAC AAGTTCCAGT CTCCAGCACT GTGTTCCTCG 
    TCCGTCTGCT GTTCCCACTG CTCTCCAGTC TCGCCTTCCC TCAAAGGTCA AGTCCCCCCA 
    CCCAGCATCC ACCCCGCTCA CAGTTTCCGA CAGCCTTCTG AAATGGTGCC CCACCAGCTG 
    GGGTCACTGC AGTGTTCTAC CCTGCTGCCC AGGGAGAAAG AGCTGGCCTG CAGTCCTCAT 
    CCACCCAAAC TGATGCAGCC CTGGTTGGAA CCACAACCTC CTGCAGAACA GGAGAGTACA 
    TCCCAGCGGC CAGGACCGCA ACTGGTTTCC CAGCCTGTGT GCATCGTCCC TCCGCAAGAT 
    GTGCAGCCAG GAGCCCATGC CCAGCCCACC ATACAGACAC CCTCCATCCA AGTTCAGCTG 
    GGCCACCATC AGAAGCTAAA GCTCAGCCAC TTTCAGCAGC AGCCGCAGCA GCAGCCACCC 
    CCACCACCGC CACCTCCCCC ACCCCCCCAG CATGCACCTC CACCCTTGCC TCCATCCCAG 
    CACCTGGCTT CCAGTCAGCA CGAGAGCCCT CCTGGGCCTG CCTGTTCGCA GAATGTGGAC 
    ATTATGCACC ACAAGTTTGA GCTGGAGGAG ATGCAGAAGG ACTTGGAACT TCTCCTGCAG 
    GCCCAGCAGC CTAGCCTGCA ATTGAGTCAG ACCAAGTCTC CTCAGCATCT TCAGCAAACC 
    ATCGTGGGGC AGATCAACTA CATCGTGAGG CAGCCAGCAC CCGTGCAGTC CCAGAGCCAG 
    GAGGAGACCC TGCAGGTTAC AGAGGAGCCA CCAGCACCTG AGGGCCCAAA GCCAGCTCTA 
    CCTGTTGACA AGAATACTGC TGCTCCCTTG CCCCAGACAT CTGGGGAGGA AACCCCTCAC 
    AGTGTCCCTC CAGTGGATGG CACCTCCCAG CACTCTTCTC CAAATGTGGT GAGAAAGCAT 
    GCCACCTCAG TGAGCATCAT GGGCTTTTCC AACACTGTGG AGATGGAGTT GTCATCTACC 
    AGGCTGGCGA GGACCATAGA GCCACAGATC CACAGGGTGA GCAGCCTGAC AGCTGCCCCC 
    ACCCACACAA TTCCAAGCTT GCTGAGTGGC CCACCACAAA CTGTGTCCAG CATGATGAGT 
    GTTTCAAACC ATGCCATGCC AAGCCTGACA GCCAGTCACC TGCAGCCCGT GCCAAACCTT 
    GTGCGTGGCA CATTCCAGTC CACACCCAAC CTGAGGGGTG ATTCCTCTCA AGCCATCACA 
    GGCCTGGCAA GTAATCACTC ACAAGCTGGG CCCAGTCTAA TGTCTGGGCA CACCCAGGCT 
    GCGCCGAGTC TGGCCACTTG TCCTCTGCAG GGAATGCCAC CGGTTTCTGA TGTGCATGTG 
    GAGCCAAGAT CCGTATCCAG TCCTGGGACT TGCCCAGCTG CAGAAAGCCT GGGCACCAGG 
    GATGGGGCTG AGTCCTCCCT GGGGAATGCC TTGTGTAAGA TGGAAAGTGA GGATTGTACC 
    CGTTTCTCAG ACTCAGTAGG ACAAGGCCCT ACAGCCTCCA GTCTGGATGG TCCCAAGGAT 
    TTGGCTATTC CCTCAGAACT GGAGGAACCA ATTAACCTCT CTGTGAAAAA ACCTTTCCTG 
    GCACCAGTGA TCAACACATC CACTGCTCTG CAACAGTACC GGAATCCAAA AGAATATGAG 
    AATTTTGAAC AAGGAGCCCT AGAGCTGGAT ACAAAGGAGA ATTCAGACAT CAGAGCTATC 
    AGTAGTGAGC CCAAGATCCC CTACGTGCGA CTGGAGCGGC TCAAGATCTG TGCTGCCTCA 
    TCAGGAGAGA TGCCTGTGTT TAAGCTGAAG CCCCAGAAAA ATAGCCAGGA TGGAAGCTTC 
    CTCCTGGTGA TTGAGTGTGG CTCTGAGTCC TCCAGCATGT CCATTAAGGT CAGCCAGAAC 
    AGCCAGCCTG ATGCCACCCA GGGCCCAGGT CTTGGGGGAA GAAAGGTCAC TGTCACATCT 
    CTGACTGGAC AGCGGCCACA AGAGGTGGAG AGCACATCTG AGGAACACAG ACTCATCCCC 
    CGAGCTCCAG GAGCCAAGAA GATGACCCCA GCCCCCATAG AGAATGAGGA CTTCTGTGCG 
    GTGTGCATCA ATGGTGGGGA GCTGCTATGC TGTGACCGCT GCCCCAAAGT GTATCACCTT 
    TCCTGCCACG TGCCAGCCTT GCTCAGCTTC CCAGGGGGAG AATGGGTGTG CACCCTGTGC 
    CGCAGCCTGA CGCAGCCTGA GATGGAGTAC GACTGTGAGA ACGCGCGCTA CAGTCACCCT 
    GGAGTGCGGG TACTTCCCGG CCTGAGCATG TATGACCAGA AGAAGTGTGA GAAGCTGGTC 
    CTGTCCCTGT GCTGCAACAG CCTCAGCCTG CCCTTCCATG AACCAGTCAG CCCCCTGGCC 
    AGGCATTATT ACCAGATTAT CAAGAGGCCC ATGGACCTGT CAATCATCCG GAGGAAACTG 
    CAAAAGAAAG ACCCGGCTCA TTACACCACT CCAGAGGAAG TGGTGTCAGA TGTACGCCTC 
    ATGTTCTGGA ACTGTGCTAA GTTCAACTAT CCTGACTCGG AGGTTGCAGA GGCTGGCCGC 
    TGTCTGGAAG TGTTCTTTGA AGGCTGGCTA AAGGAGATCT ACCCAGACAA ATGCTTTGCC 
    CAGCCCCAGC AAGAGGATTC AGACTCTGAG GACGTATCTG GCGAGAGTGG CTGTTCCACT 
    CCTCAGGGCT TCCCATGGCC TCCCTACATG CAGGAAGGCA TCCAGCCCAA GAGGCGACGG 
    AGGCATATGG AGAATGAGAA GACAAAGAGA GTGTCGTTTC GTCTGGCCAA CAGCATCTCG 
    CAGGTGTGA

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

    RefSeq XP_021024108.1
    CDS277..4005
    Translation

    Target ORF information:

    RefSeq Version XM_021168449.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli tripartite motif containing 66 (Trim66), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021168449.1

    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
    ATGGCCAGGA ACTGCTCTGA GTGCAAGGAG AAGCGGGCAG CACACATCCT CTGCACATAC 
    TGCAACCGCT GGCTGTGCAG CTCCTGCACA GAGGAGCACC GGCATGTCCC AGCCCCGGGG 
    GGCCCACTCT TTGCACGGGC ACAGAAGGGA TCCTCAGGGG TGAATGGTGG CTCTGGGGAC 
    TTTGCCTTGT ACTGCCCTCT GCACACACAC GAAGTGCTCA AGCTTTTCTG CGAGACGTGC 
    GATGTACTCA CCTGCCACAG CTGCCTAATG GTGGAGCACA AAGAGCACAG ATGCAGGCAC 
    GTTGAAGAAG TTCTACAAAA CCAGAGGATG CTCCTGGAAA GTGTGACTAC CCAGGTGGCA 
    CATAAGAAAT CCAGCCTACA GACATCTGCA AAGCAAATCG AGGACAGGAT TTTTGAAGTG 
    AAGCATCAGC ACCGGAAGGT GGAGAACCAG ATTAAAATGG CCAAGATGGT CCTCATGAAC 
    GAGTTGAACA AGCAGGCCAA CGGGCTCATA GAGGAGCTTG AGGGCATCAC TAACGAGAGA 
    AAGCGAAAGC TGGAGCAGCA GCTGCAGAGC ATCATGGTTC TCAACCGGCA GTTTGAGCAC 
    GTGCAGAATT TCATCAACTG GGCTGTCTGC AGCAAAAGCA GCGTCCCTTT CCTTTTCAGC 
    AAAGAGCTGA TTGTGTTTCA GATGCAGCGG TTGCTGGAGA CGAGATGTAA CACAGATCCT 
    GGCTCTCCTT GGAGTATCAG ATTCACCTGG GAGCCCAACT TCTGGACCAA GCAGCTGGCT 
    TCCCTTGGCT GCATATCCAC TGAAGGTGGA CAGCTGACCC GGGCAGATGC TGCAGCTGCC 
    TCTTATGGGA GTTTACAGGG GCAGCCATCT TTTTATCAGA GCCACCAGGC CCCCATGGCT 
    CAGCAGGAGG CACTCAGCCA CCCCTCACAC AAGTTCCAGT CTCCAGCACT GTGTTCCTCG 
    TCCGTCTGCT GTTCCCACTG CTCTCCAGTC TCGCCTTCCC TCAAAGGTCA AGTCCCCCCA 
    CCCAGCATCC ACCCCGCTCA CAGTTTCCGA CAGCCTTCTG AAATGGTGCC CCACCAGCTG 
    GGGTCACTGC AGTGTTCTAC CCTGCTGCCC AGGGAGAAAG AGCTGGCCTG CAGTCCTCAT 
    CCACCCAAAC TGATGCAGCC CTGGTTGGAA CCACAACCTC CTGCAGAACA GGAGAGTACA 
    TCCCAGCGGC CAGGACCGCA ACTGGTTTCC CAGCCTGTGT GCATCGTCCC TCCGCAAGAT 
    GTGCAGCCAG GAGCCCATGC CCAGCCCACC ATACAGACAC CCTCCATCCA AGTTCAGCTG 
    GGCCACCATC AGAAGCTAAA GCTCAGCCAC TTTCAGCAGC AGCCGCAGCA GCAGCCACCC 
    CCACCACCGC CACCTCCCCC ACCCCCCCAG CATGCACCTC CACCCTTGCC TCCATCCCAG 
    CACCTGGCTT CCAGTCAGCA CGAGAGCCCT CCTGGGCCTG CCTGTTCGCA GAATGTGGAC 
    ATTATGCACC ACAAGTTTGA GCTGGAGGAG ATGCAGAAGG ACTTGGAACT TCTCCTGCAG 
    GCCCAGCAGC CTAGCCTGCA ATTGAGTCAG ACCAAGTCTC CTCAGCATCT TCAGCAAACC 
    ATCGTGGGGC AGATCAACTA CATCGTGAGG CAGCCAGCAC CCGTGCAGTC CCAGAGCCAG 
    GAGGAGACCC TGCAGGTTAC AGAGGAGCCA CCAGCACCTG AGGGCCCAAA GCCAGCTCTA 
    CCTGTTGACA AGAATACTGC TGCTCCCTTG CCCCAGACAT CTGGGGAGGA AACCCCTCAC 
    AGTGTCCCTC CAGTGGATGG CACCTCCCAG CACTCTTCTC CAAATGTGGT GAGAAAGCAT 
    GCCACCTCAG TGAGCATCAT GGGCTTTTCC AACACTGTGG AGATGGAGTT GTCATCTACC 
    AGGCTGGCGA GGACCATAGA GCCACAGATC CACAGGGTGA GCAGCCTGAC AGCTGCCCCC 
    ACCCACACAA TTCCAAGCTT GCTGAGTGGC CCACCACAAA CTGTGTCCAG CATGATGAGT 
    GTTTCAAACC ATGCCATGCC AAGCCTGACA GCCAGTCACC TGCAGCCCGT GCCAAACCTT 
    GTGCGTGGCA CATTCCAGTC CACACCCAAC CTGAGGGGTG ATTCCTCTCA AGCCATCACA 
    GGCCTGGCAA GTAATCACTC ACAAGCTGGG CCCAGTCTAA TGTCTGGGCA CACCCAGGCT 
    GCGCCGAGTC TGGCCACTTG TCCTCTGCAG GGAATGCCAC CGGTTTCTGA TGTGCATGTG 
    GAGCCAAGAT CCGTATCCAG TCCTGGGACT TGCCCAGCTG CAGAAAGCCT GGGCACCAGG 
    GATGGGGCTG AGTCCTCCCT GGGGAATGCC TTGTGTAAGA TGGAAAGTGA GGATTGTACC 
    CGTTTCTCAG ACTCAGTAGG ACAAGGCCCT ACAGCCTCCA GTCTGGATGG TCCCAAGGAT 
    TTGGCTATTC CCTCAGAACT GGAGGAACCA ATTAACCTCT CTGTGAAAAA ACCTTTCCTG 
    GCACCAGTGA TCAACACATC CACTGCTCTG CAACAGTACC GGAATCCAAA AGAATATGAG 
    AATTTTGAAC AAGGAGCCCT AGAGCTGGAT ACAAAGGAGA ATTCAGACAT CAGAGCTATC 
    AGTAGTGAGC CCAAGATCCC CTACGTGCGA CTGGAGCGGC TCAAGATCTG TGCTGCCTCA 
    TCAGGAGAGA TGCCTGTGTT TAAGCTGAAG CCCCAGAAAA ATAGCCAGGA TGGAAGCTTC 
    CTCCTGGTGA TTGAGTGTGG CTCTGAGTCC TCCAGCATGT CCATTAAGGT CAGCCAGAAC 
    AGCCAGCCTG ATGCCACCCA GGGCCCAGGT CTTGGGGGAA GAAAGGTCAC TGTCACATCT 
    CTGACTGGAC AGCGGCCACA AGAGGTGGAG AGCACATCTG AGGAACACAG ACTCATCCCC 
    CGAGCTCCAG GAGCCAAGAA GATGACCCCA GCCCCCATAG AGAATGAGGA CTTCTGTGCG 
    GTGTGCATCA ATGGTGGGGA GCTGCTATGC TGTGACCGCT GCCCCAAAGT GTATCACCTT 
    TCCTGCCACG TGCCAGCCTT GCTCAGCTTC CCAGGGGGAG AATGGGTGTG CACCCTGTGC 
    CGCAGCCTGA CGCAGCCTGA GATGGAGTAC GACTGTGAGA ACGCGCGCTA CAGTCACCCT 
    GGAGTGCGGG TACTTCCCGG CCTGAGCATG TATGACCAGA AGAAGTGTGA GAAGCTGGTC 
    CTGTCCCTGT GCTGCAACAG CCTCAGCCTG CCCTTCCATG AACCAGTCAG CCCCCTGGCC 
    AGGCATTATT ACCAGATTAT CAAGAGGCCC ATGGACCTGT CAATCATCCG GAGGAAACTG 
    CAAAAGAAAG ACCCGGCTCA TTACACCACT CCAGAGGAAG TGGTGTCAGA TGTACGCCTC 
    ATGTTCTGGA ACTGTGCTAA GTTCAACTAT CCTGACTCGG AGGTTGCAGA GGCTGGCCGC 
    TGTCTGGAAG TGTTCTTTGA AGGCTGGCTA AAGGAGATCT ACCCAGACAA ATGCTTTGCC 
    CAGCCCCAGC AAGAGGATTC AGACTCTGAG GACGTATCTG GCGAGAGTGG CTGTTCCACT 
    CCTCAGGGCT TCCCATGGCC TCCCTACATG CAGGAAGGCA TCCAGCCCAA GAGGCGACGG 
    AGGCATATGG AGAATGAGAA GACAAAGAGA GTGTCGTTTC GTCTGGCCAA CAGCATCTCG 
    CAGGTGTGA

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

    Trim66 ( XM_021168449.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021024108.1 Mus caroli tripartite motif containing 66 (Trim66), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OMv05718
    Clone ID Related Accession (Same CDS sequence) XM_021168449.1 , XM_021168449.2
    Accession Version XM_021168449.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3729bp)
    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 tripartite motif-containing protein 66 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034576.1) 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_021168449.1. ##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
    ATGGCCAGGA ACTGCTCTGA GTGCAAGGAG AAGCGGGCAG CACACATCCT CTGCACATAC 
    TGCAACCGCT GGCTGTGCAG CTCCTGCACA GAGGAGCACC GGCATGTCCC AGCCCCGGGG 
    GGCCCACTCT TTGCACGGGC ACAGAAGGGA TCCTCAGGGG TGAATGGTGG CTCTGGGGAC 
    TTTGCCTTGT ACTGCCCTCT GCACACACAC GAAGTGCTCA AGCTTTTCTG CGAGACGTGC 
    GATGTACTCA CCTGCCACAG CTGCCTAATG GTGGAGCACA AAGAGCACAG ATGCAGGCAC 
    GTTGAAGAAG TTCTACAAAA CCAGAGGATG CTCCTGGAAA GTGTGACTAC CCAGGTGGCA 
    CATAAGAAAT CCAGCCTACA GACATCTGCA AAGCAAATCG AGGACAGGAT TTTTGAAGTG 
    AAGCATCAGC ACCGGAAGGT GGAGAACCAG ATTAAAATGG CCAAGATGGT CCTCATGAAC 
    GAGTTGAACA AGCAGGCCAA CGGGCTCATA GAGGAGCTTG AGGGCATCAC TAACGAGAGA 
    AAGCGAAAGC TGGAGCAGCA GCTGCAGAGC ATCATGGTTC TCAACCGGCA GTTTGAGCAC 
    GTGCAGAATT TCATCAACTG GGCTGTCTGC AGCAAAAGCA GCGTCCCTTT CCTTTTCAGC 
    AAAGAGCTGA TTGTGTTTCA GATGCAGCGG TTGCTGGAGA CGAGATGTAA CACAGATCCT 
    GGCTCTCCTT GGAGTATCAG ATTCACCTGG GAGCCCAACT TCTGGACCAA GCAGCTGGCT 
    TCCCTTGGCT GCATATCCAC TGAAGGTGGA CAGCTGACCC GGGCAGATGC TGCAGCTGCC 
    TCTTATGGGA GTTTACAGGG GCAGCCATCT TTTTATCAGA GCCACCAGGC CCCCATGGCT 
    CAGCAGGAGG CACTCAGCCA CCCCTCACAC AAGTTCCAGT CTCCAGCACT GTGTTCCTCG 
    TCCGTCTGCT GTTCCCACTG CTCTCCAGTC TCGCCTTCCC TCAAAGGTCA AGTCCCCCCA 
    CCCAGCATCC ACCCCGCTCA CAGTTTCCGA CAGCCTTCTG AAATGGTGCC CCACCAGCTG 
    GGGTCACTGC AGTGTTCTAC CCTGCTGCCC AGGGAGAAAG AGCTGGCCTG CAGTCCTCAT 
    CCACCCAAAC TGATGCAGCC CTGGTTGGAA CCACAACCTC CTGCAGAACA GGAGAGTACA 
    TCCCAGCGGC CAGGACCGCA ACTGGTTTCC CAGCCTGTGT GCATCGTCCC TCCGCAAGAT 
    GTGCAGCCAG GAGCCCATGC CCAGCCCACC ATACAGACAC CCTCCATCCA AGTTCAGCTG 
    GGCCACCATC AGAAGCTAAA GCTCAGCCAC TTTCAGCAGC AGCCGCAGCA GCAGCCACCC 
    CCACCACCGC CACCTCCCCC ACCCCCCCAG CATGCACCTC CACCCTTGCC TCCATCCCAG 
    CACCTGGCTT CCAGTCAGCA CGAGAGCCCT CCTGGGCCTG CCTGTTCGCA GAATGTGGAC 
    ATTATGCACC ACAAGTTTGA GCTGGAGGAG ATGCAGAAGG ACTTGGAACT TCTCCTGCAG 
    GCCCAGCAGC CTAGCCTGCA ATTGAGTCAG ACCAAGTCTC CTCAGCATCT TCAGCAAACC 
    ATCGTGGGGC AGATCAACTA CATCGTGAGG CAGCCAGCAC CCGTGCAGTC CCAGAGCCAG 
    GAGGAGACCC TGCAGGTTAC AGAGGAGCCA CCAGCACCTG AGGGCCCAAA GCCAGCTCTA 
    CCTGTTGACA AGAATACTGC TGCTCCCTTG CCCCAGACAT CTGGGGAGGA AACCCCTCAC 
    AGTGTCCCTC CAGTGGATGG CACCTCCCAG CACTCTTCTC CAAATGTGGT GAGAAAGCAT 
    GCCACCTCAG TGAGCATCAT GGGCTTTTCC AACACTGTGG AGATGGAGTT GTCATCTACC 
    AGGCTGGCGA GGACCATAGA GCCACAGATC CACAGGGTGA GCAGCCTGAC AGCTGCCCCC 
    ACCCACACAA TTCCAAGCTT GCTGAGTGGC CCACCACAAA CTGTGTCCAG CATGATGAGT 
    GTTTCAAACC ATGCCATGCC AAGCCTGACA GCCAGTCACC TGCAGCCCGT GCCAAACCTT 
    GTGCGTGGCA CATTCCAGTC CACACCCAAC CTGAGGGGTG ATTCCTCTCA AGCCATCACA 
    GGCCTGGCAA GTAATCACTC ACAAGCTGGG CCCAGTCTAA TGTCTGGGCA CACCCAGGCT 
    GCGCCGAGTC TGGCCACTTG TCCTCTGCAG GGAATGCCAC CGGTTTCTGA TGTGCATGTG 
    GAGCCAAGAT CCGTATCCAG TCCTGGGACT TGCCCAGCTG CAGAAAGCCT GGGCACCAGG 
    GATGGGGCTG AGTCCTCCCT GGGGAATGCC TTGTGTAAGA TGGAAAGTGA GGATTGTACC 
    CGTTTCTCAG ACTCAGTAGG ACAAGGCCCT ACAGCCTCCA GTCTGGATGG TCCCAAGGAT 
    TTGGCTATTC CCTCAGAACT GGAGGAACCA ATTAACCTCT CTGTGAAAAA ACCTTTCCTG 
    GCACCAGTGA TCAACACATC CACTGCTCTG CAACAGTACC GGAATCCAAA AGAATATGAG 
    AATTTTGAAC AAGGAGCCCT AGAGCTGGAT ACAAAGGAGA ATTCAGACAT CAGAGCTATC 
    AGTAGTGAGC CCAAGATCCC CTACGTGCGA CTGGAGCGGC TCAAGATCTG TGCTGCCTCA 
    TCAGGAGAGA TGCCTGTGTT TAAGCTGAAG CCCCAGAAAA ATAGCCAGGA TGGAAGCTTC 
    CTCCTGGTGA TTGAGTGTGG CTCTGAGTCC TCCAGCATGT CCATTAAGGT CAGCCAGAAC 
    AGCCAGCCTG ATGCCACCCA GGGCCCAGGT CTTGGGGGAA GAAAGGTCAC TGTCACATCT 
    CTGACTGGAC AGCGGCCACA AGAGGTGGAG AGCACATCTG AGGAACACAG ACTCATCCCC 
    CGAGCTCCAG GAGCCAAGAA GATGACCCCA GCCCCCATAG AGAATGAGGA CTTCTGTGCG 
    GTGTGCATCA ATGGTGGGGA GCTGCTATGC TGTGACCGCT GCCCCAAAGT GTATCACCTT 
    TCCTGCCACG TGCCAGCCTT GCTCAGCTTC CCAGGGGGAG AATGGGTGTG CACCCTGTGC 
    CGCAGCCTGA CGCAGCCTGA GATGGAGTAC GACTGTGAGA ACGCGCGCTA CAGTCACCCT 
    GGAGTGCGGG TACTTCCCGG CCTGAGCATG TATGACCAGA AGAAGTGTGA GAAGCTGGTC 
    CTGTCCCTGT GCTGCAACAG CCTCAGCCTG CCCTTCCATG AACCAGTCAG CCCCCTGGCC 
    AGGCATTATT ACCAGATTAT CAAGAGGCCC ATGGACCTGT CAATCATCCG GAGGAAACTG 
    CAAAAGAAAG ACCCGGCTCA TTACACCACT CCAGAGGAAG TGGTGTCAGA TGTACGCCTC 
    ATGTTCTGGA ACTGTGCTAA GTTCAACTAT CCTGACTCGG AGGTTGCAGA GGCTGGCCGC 
    TGTCTGGAAG TGTTCTTTGA AGGCTGGCTA AAGGAGATCT ACCCAGACAA ATGCTTTGCC 
    CAGCCCCAGC AAGAGGATTC AGACTCTGAG GACGTATCTG GCGAGAGTGG CTGTTCCACT 
    CCTCAGGGCT TCCCATGGCC TCCCTACATG CAGGAAGGCA TCCAGCCCAA GAGGCGACGG 
    AGGCATATGG AGAATGAGAA GACAAAGAGA GTGTCGTTTC GTCTGGCCAA CAGCATCTCG 
    CAGGTGTGA

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

    RefSeq XP_021024108.1
    CDS600..4328
    Translation

    Target ORF information:

    RefSeq Version XM_021168449.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli tripartite motif containing 66 (Trim66), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021168449.2

    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
    ATGGCCAGGA ACTGCTCTGA GTGCAAGGAG AAGCGGGCAG CACACATCCT CTGCACATAC 
    TGCAACCGCT GGCTGTGCAG CTCCTGCACA GAGGAGCACC GGCATGTCCC AGCCCCGGGG 
    GGCCCACTCT TTGCACGGGC ACAGAAGGGA TCCTCAGGGG TGAATGGTGG CTCTGGGGAC 
    TTTGCCTTGT ACTGCCCTCT GCACACACAC GAAGTGCTCA AGCTTTTCTG CGAGACGTGC 
    GATGTACTCA CCTGCCACAG CTGCCTAATG GTGGAGCACA AAGAGCACAG ATGCAGGCAC 
    GTTGAAGAAG TTCTACAAAA CCAGAGGATG CTCCTGGAAA GTGTGACTAC CCAGGTGGCA 
    CATAAGAAAT CCAGCCTACA GACATCTGCA AAGCAAATCG AGGACAGGAT TTTTGAAGTG 
    AAGCATCAGC ACCGGAAGGT GGAGAACCAG ATTAAAATGG CCAAGATGGT CCTCATGAAC 
    GAGTTGAACA AGCAGGCCAA CGGGCTCATA GAGGAGCTTG AGGGCATCAC TAACGAGAGA 
    AAGCGAAAGC TGGAGCAGCA GCTGCAGAGC ATCATGGTTC TCAACCGGCA GTTTGAGCAC 
    GTGCAGAATT TCATCAACTG GGCTGTCTGC AGCAAAAGCA GCGTCCCTTT CCTTTTCAGC 
    AAAGAGCTGA TTGTGTTTCA GATGCAGCGG TTGCTGGAGA CGAGATGTAA CACAGATCCT 
    GGCTCTCCTT GGAGTATCAG ATTCACCTGG GAGCCCAACT TCTGGACCAA GCAGCTGGCT 
    TCCCTTGGCT GCATATCCAC TGAAGGTGGA CAGCTGACCC GGGCAGATGC TGCAGCTGCC 
    TCTTATGGGA GTTTACAGGG GCAGCCATCT TTTTATCAGA GCCACCAGGC CCCCATGGCT 
    CAGCAGGAGG CACTCAGCCA CCCCTCACAC AAGTTCCAGT CTCCAGCACT GTGTTCCTCG 
    TCCGTCTGCT GTTCCCACTG CTCTCCAGTC TCGCCTTCCC TCAAAGGTCA AGTCCCCCCA 
    CCCAGCATCC ACCCCGCTCA CAGTTTCCGA CAGCCTTCTG AAATGGTGCC CCACCAGCTG 
    GGGTCACTGC AGTGTTCTAC CCTGCTGCCC AGGGAGAAAG AGCTGGCCTG CAGTCCTCAT 
    CCACCCAAAC TGATGCAGCC CTGGTTGGAA CCACAACCTC CTGCAGAACA GGAGAGTACA 
    TCCCAGCGGC CAGGACCGCA ACTGGTTTCC CAGCCTGTGT GCATCGTCCC TCCGCAAGAT 
    GTGCAGCCAG GAGCCCATGC CCAGCCCACC ATACAGACAC CCTCCATCCA AGTTCAGCTG 
    GGCCACCATC AGAAGCTAAA GCTCAGCCAC TTTCAGCAGC AGCCGCAGCA GCAGCCACCC 
    CCACCACCGC CACCTCCCCC ACCCCCCCAG CATGCACCTC CACCCTTGCC TCCATCCCAG 
    CACCTGGCTT CCAGTCAGCA CGAGAGCCCT CCTGGGCCTG CCTGTTCGCA GAATGTGGAC 
    ATTATGCACC ACAAGTTTGA GCTGGAGGAG ATGCAGAAGG ACTTGGAACT TCTCCTGCAG 
    GCCCAGCAGC CTAGCCTGCA ATTGAGTCAG ACCAAGTCTC CTCAGCATCT TCAGCAAACC 
    ATCGTGGGGC AGATCAACTA CATCGTGAGG CAGCCAGCAC CCGTGCAGTC CCAGAGCCAG 
    GAGGAGACCC TGCAGGTTAC AGAGGAGCCA CCAGCACCTG AGGGCCCAAA GCCAGCTCTA 
    CCTGTTGACA AGAATACTGC TGCTCCCTTG CCCCAGACAT CTGGGGAGGA AACCCCTCAC 
    AGTGTCCCTC CAGTGGATGG CACCTCCCAG CACTCTTCTC CAAATGTGGT GAGAAAGCAT 
    GCCACCTCAG TGAGCATCAT GGGCTTTTCC AACACTGTGG AGATGGAGTT GTCATCTACC 
    AGGCTGGCGA GGACCATAGA GCCACAGATC CACAGGGTGA GCAGCCTGAC AGCTGCCCCC 
    ACCCACACAA TTCCAAGCTT GCTGAGTGGC CCACCACAAA CTGTGTCCAG CATGATGAGT 
    GTTTCAAACC ATGCCATGCC AAGCCTGACA GCCAGTCACC TGCAGCCCGT GCCAAACCTT 
    GTGCGTGGCA CATTCCAGTC CACACCCAAC CTGAGGGGTG ATTCCTCTCA AGCCATCACA 
    GGCCTGGCAA GTAATCACTC ACAAGCTGGG CCCAGTCTAA TGTCTGGGCA CACCCAGGCT 
    GCGCCGAGTC TGGCCACTTG TCCTCTGCAG GGAATGCCAC CGGTTTCTGA TGTGCATGTG 
    GAGCCAAGAT CCGTATCCAG TCCTGGGACT TGCCCAGCTG CAGAAAGCCT GGGCACCAGG 
    GATGGGGCTG AGTCCTCCCT GGGGAATGCC TTGTGTAAGA TGGAAAGTGA GGATTGTACC 
    CGTTTCTCAG ACTCAGTAGG ACAAGGCCCT ACAGCCTCCA GTCTGGATGG TCCCAAGGAT 
    TTGGCTATTC CCTCAGAACT GGAGGAACCA ATTAACCTCT CTGTGAAAAA ACCTTTCCTG 
    GCACCAGTGA TCAACACATC CACTGCTCTG CAACAGTACC GGAATCCAAA AGAATATGAG 
    AATTTTGAAC AAGGAGCCCT AGAGCTGGAT ACAAAGGAGA ATTCAGACAT CAGAGCTATC 
    AGTAGTGAGC CCAAGATCCC CTACGTGCGA CTGGAGCGGC TCAAGATCTG TGCTGCCTCA 
    TCAGGAGAGA TGCCTGTGTT TAAGCTGAAG CCCCAGAAAA ATAGCCAGGA TGGAAGCTTC 
    CTCCTGGTGA TTGAGTGTGG CTCTGAGTCC TCCAGCATGT CCATTAAGGT CAGCCAGAAC 
    AGCCAGCCTG ATGCCACCCA GGGCCCAGGT CTTGGGGGAA GAAAGGTCAC TGTCACATCT 
    CTGACTGGAC AGCGGCCACA AGAGGTGGAG AGCACATCTG AGGAACACAG ACTCATCCCC 
    CGAGCTCCAG GAGCCAAGAA GATGACCCCA GCCCCCATAG AGAATGAGGA CTTCTGTGCG 
    GTGTGCATCA ATGGTGGGGA GCTGCTATGC TGTGACCGCT GCCCCAAAGT GTATCACCTT 
    TCCTGCCACG TGCCAGCCTT GCTCAGCTTC CCAGGGGGAG AATGGGTGTG CACCCTGTGC 
    CGCAGCCTGA CGCAGCCTGA GATGGAGTAC GACTGTGAGA ACGCGCGCTA CAGTCACCCT 
    GGAGTGCGGG TACTTCCCGG CCTGAGCATG TATGACCAGA AGAAGTGTGA GAAGCTGGTC 
    CTGTCCCTGT GCTGCAACAG CCTCAGCCTG CCCTTCCATG AACCAGTCAG CCCCCTGGCC 
    AGGCATTATT ACCAGATTAT CAAGAGGCCC ATGGACCTGT CAATCATCCG GAGGAAACTG 
    CAAAAGAAAG ACCCGGCTCA TTACACCACT CCAGAGGAAG TGGTGTCAGA TGTACGCCTC 
    ATGTTCTGGA ACTGTGCTAA GTTCAACTAT CCTGACTCGG AGGTTGCAGA GGCTGGCCGC 
    TGTCTGGAAG TGTTCTTTGA AGGCTGGCTA AAGGAGATCT ACCCAGACAA ATGCTTTGCC 
    CAGCCCCAGC AAGAGGATTC AGACTCTGAG GACGTATCTG GCGAGAGTGG CTGTTCCACT 
    CCTCAGGGCT TCCCATGGCC TCCCTACATG CAGGAAGGCA TCCAGCCCAA GAGGCGACGG 
    AGGCATATGG AGAATGAGAA GACAAAGAGA GTGTCGTTTC GTCTGGCCAA CAGCATCTCG 
    CAGGTGTGA

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

    Trim66 ( XM_029480142.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029336002.1 Mus caroli tripartite motif containing 66 (Trim66), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OMv75138
    Clone ID Related Accession (Same CDS sequence) XM_029480142.1
    Accession Version XM_029480142.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4125bp)
    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 tripartite motif-containing protein 66 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034576.1) annotated using gene prediction method: Gnomon. 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
    ATGGTGCCAG GCAGCGGCCG CCTGGGGAGG CAGGGAGAGG AGCTTGCTCG CGCTACACGA 
    TGCCTCATCC CAGGAGATGT CAGCGGAAAA GCTGAAGCCC CAGACTCAGG TGCAAACATG 
    AGCCCAGGCC TGGGCCTGAG CATTCCAAGT CAGCCACACT GCTCTACAGA TGAACGCGTG 
    GAGGCTCTGG CACAGACCTG CTCTATGTGT GGACGGGACC TACGAGCTGA GGGCTCCCAG 
    CTTTTACCGT GCCAACATCT GCTCTGTAAG GATTGCTTCC AGGGCTTCAT GCAGGAGCTA 
    GGGCATGCTA CCAGGGCTTA CCCAGGTGAG CTCATCTCCT GTCCTGGATG TCAGCGTGTC 
    TATCTTACCA GAGATGTAAC TGAACATATT TTTCTTCAGT GCTTTTCTCC TGTGAAACCC 
    ACTATGGCCA GGAACTGCTC TGAGTGCAAG GAGAAGCGGG CAGCACACAT CCTCTGCACA 
    TACTGCAACC GCTGGCTGTG CAGCTCCTGC ACAGAGGAGC ACCGGCATGT CCCAGCCCCG 
    GGGGGCCCAC TCTTTGCACG GGCACAGAAG GGATCCTCAG GGGTGAATGG TGGCTCTGGG 
    GACTTTGCCT TGTACTGCCC TCTGCACACA CACGAAGTGC TCAAGCTTTT CTGCGAGACG 
    TGCGATGTAC TCACCTGCCA CAGCTGCCTA ATGGTGGAGC ACAAAGAGCA CAGATGCAGG 
    CACGTTGAAG AAGTTCTACA AAACCAGAGG ATGCTCCTGG AAAGTGTGAC TACCCAGGTG 
    GCACATAAGA AATCCAGCCT ACAGACATCT GCAAAGCAAA TCGAGGACAG GATTTTTGAA 
    GTGAAGCATC AGCACCGGAA GGTGGAGAAC CAGATTAAAA TGGCCAAGAT GGTCCTCATG 
    AACGAGTTGA ACAAGCAGGC CAACGGGCTC ATAGAGGAGC TTGAGGGCAT CACTAACGAG 
    AGAAAGCGAA AGCTGGAGCA GCAGCTGCAG AGCATCATGG TTCTCAACCG GCAGTTTGAG 
    CACGTGCAGA ATTTCATCAA CTGGGCTGTC TGCAGCAAAA GCAGCGTCCC TTTCCTTTTC 
    AGCAAAGAGC TGATTGTGTT TCAGATGCAG CGGTTGCTGG AGACGAGATG TAACACAGAT 
    CCTGGCTCTC CTTGGAGTAT CAGATTCACC TGGGAGCCCA ACTTCTGGAC CAAGCAGCTG 
    GCTTCCCTTG GCTGCATATC CACTGAAGGT GGACAGCTGA CCCGGGCAGA TGCTGCAGCT 
    GCCTCTTATG GGAGTTTACA GGGGCAGCCA TCTTTTTATC AGAGCCACCA GGCCCCCATG 
    GCTCAGCAGG AGGCACTCAG CCACCCCTCA CACAAGTTCC AGTCTCCAGC ACTGTGTTCC 
    TCGTCCGTCT GCTGTTCCCA CTGCTCTCCA GTCTCGCCTT CCCTCAAAGG TCAAGTCCCC 
    CCACCCAGCA TCCACCCCGC TCACAGTTTC CGACAGCCTT CTGAAATGGT GCCCCACCAG 
    CTGGGGTCAC TGCAGTGTTC TACCCTGCTG CCCAGGGAGA AAGAGCTGGC CTGCAGTCCT 
    CATCCACCCA AACTGATGCA GCCCTGGTTG GAACCACAAC CTCCTGCAGA ACAGGAGAGT 
    ACATCCCAGC GGCCAGGACC GCAACTGGTT TCCCAGCCTG TGTGCATCGT CCCTCCGCAA 
    GATGTGCAGC CAGGAGCCCA TGCCCAGCCC ACCATACAGA CACCCTCCAT CCAAGTTCAG 
    CTGGGCCACC ATCAGAAGCT AAAGCTCAGC CACTTTCAGC AGCAGCCGCA GCAGCAGCCA 
    CCCCCACCAC CGCCACCTCC CCCACCCCCC CAGCATGCAC CTCCACCCTT GCCTCCATCC 
    CAGCACCTGG CTTCCAGTCA GCACGAGAGC CCTCCTGGGC CTGCCTGTTC GCAGAATGTG 
    GACATTATGC ACCACAAGTT TGAGCTGGAG GAGATGCAGA AGGACTTGGA ACTTCTCCTG 
    CAGGCCCAGC AGCCTAGCCT GCAATTGAGT CAGACCAAGT CTCCTCAGCA TCTTCAGCAA 
    ACCATCGTGG GGCAGATCAA CTACATCGTG AGGCAGCCAG CACCCGTGCA GTCCCAGAGC 
    CAGGAGGAGA CCCTGCAGGT TACAGAGGAG CCACCAGCAC CTGAGGGCCC AAAGCCAGCT 
    CTACCTGTTG ACAAGAATAC TGCTGCTCCC TTGCCCCAGA CATCTGGGGA GGAAACCCCT 
    CACAGTGTCC CTCCAGTGGA TGGCACCTCC CAGCACTCTT CTCCAAATGT GGTGAGAAAG 
    CATGCCACCT CAGTGAGCAT CATGGGCTTT TCCAACACTG TGGAGATGGA GTTGTCATCT 
    ACCAGGCTGG CGAGGACCAT AGAGCCACAG ATCCACAGGG TGAGCAGCCT GACAGCTGCC 
    CCCACCCACA CAATTCCAAG CTTGCTGAGT GGCCCACCAC AAACTGTGTC CAGCATGATG 
    AGTGTTTCAA ACCATGCCAT GCCAAGCCTG ACAGCCAGTC ACCTGCAGCC CGTGCCAAAC 
    CTTGTGCGTG GCACATTCCA GTCCACACCC AACCTGAGGG GTGATTCCTC TCAAGCCATC 
    ACAGGCCTGG CAAGTAATCA CTCACAAGCT GGGCCCAGTC TAATGTCTGG GCACACCCAG 
    GCTGCGCCGA GTCTGGCCAC TTGTCCTCTG CAGGGAATGC CACCGGTTTC TGATGTGCAT 
    GTGGAGCCAA GATCCGTATC CAGTCCTGGG ACTTGCCCAG CTGCAGAAAG CCTGGGCACC 
    AGGGATGGGG CTGAGTCCTC CCTGGGGAAT GCCTTGTGTA AGATGGAAAG TGAGGATTGT 
    ACCCGTTTCT CAGACTCAGT AGGACAAGGC CCTACAGCCT CCAGTCTGGA TGGTCCCAAG 
    GATTTGGCTA TTCCCTCAGA ACTGGAGGAA CCAATTAACC TCTCTGTGAA AAAACCTTTC 
    CTGGCACCAG TGATCAACAC ATCCACTGCT CTGCAACAGT ACCGGAATCC AAAAGAATAT 
    GAGAATTTTG AACAAGGAGC CCTAGAGCTG GATACAAAGG AGAATTCAGA CATCAGAGCT 
    ATCAGTAGTG AGCCCAAGAT CCCCTACGTG CGACTGGAGC GGCTCAAGAT CTGTGCTGCC 
    TCATCAGGAG AGATGCCTGT GTTTAAGCTG AAGCCCCAGA AAAATAGCCA GGATGGAAGC 
    TTCCTCCTGG TGATTGAGTG TGGCTCTGAG TCCTCCAGCA TGTCCATTAA GGTCAGCCAG 
    AACAGCCAGC CTGATGCCAC CCAGGGCCCA GGTCTTGGGG GAAGAAAGGT CACTGTCACA 
    TCTCTGACTG GACAGCGGCC ACAAGAGGTG GAGAGCACAT CTGAGGAACA CAGACTCATC 
    CCCCGAGCTC CAGGAGCCAA GAAGATGACC CCAGCCCCCA TAGAGAATGA GGACTTCTGT 
    GCGGTGTGCA TCAATGGTGG GGAGCTGCTA TGCTGTGACC GCTGCCCCAA AGTGTATCAC 
    CTTTCCTGCC ACGTGCCAGC CTTGCTCAGC TTCCCAGGGG GAGAATGGGT GTGCACCCTG 
    TGCCGCAGCC TGACGCAGCC TGAGATGGAG TACGACTGTG AGAACGCGCG CTACAGTCAC 
    CCTGGAGTGC GGGTACTTCC CGGCCTGAGC ATGTATGACC AGAAGAAGTG TGAGAAGCTG 
    GTCCTGTCCC TGTGCTGCAA CAGCCTCAGC CTGCCCTTCC ATGAACCAGT CAGCCCCCTG 
    GCCAGGCATT ATTACCAGAT TATCAAGAGG CCCATGGACC TGTCAATCAT CCGGAGGAAA 
    CTGCAAAAGA AAGACCCGGC TCATTACACC ACTCCAGAGG AAGTGGTGTC AGATGTACGC 
    CTCATGTTCT GGAACTGTGC TAAGTTCAAC TATCCTGACT CGGAGGTTGC AGAGGCTGGC 
    CGCTGTCTGG AAGTGTTCTT TGAAGGCTGG CTAAAGGAGA TCTACCCAGA CAAATGCTTT 
    GCCCAGCCCC AGCAAGAGGA TTCAGACTCT GAGGACGTAT CTGGCGAGAG TGGCTGTTCC 
    ACTCCTCAGG GCTTCCCATG GCCTCCCTAC ATGCAGGAAG GCATCCAGCC CAAGAGGCGA 
    CGGAGGCATA TGGTAAAGAG CTTCTGCCAG CCAGTGGGAG AATGA

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

    RefSeq XP_029336002.1
    CDS15..4139
    Translation

    Target ORF information:

    RefSeq Version XM_029480142.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli tripartite motif containing 66 (Trim66), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029480142.1

    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
    ATGGTGCCAG GCAGCGGCCG CCTGGGGAGG CAGGGAGAGG AGCTTGCTCG CGCTACACGA 
    TGCCTCATCC CAGGAGATGT CAGCGGAAAA GCTGAAGCCC CAGACTCAGG TGCAAACATG 
    AGCCCAGGCC TGGGCCTGAG CATTCCAAGT CAGCCACACT GCTCTACAGA TGAACGCGTG 
    GAGGCTCTGG CACAGACCTG CTCTATGTGT GGACGGGACC TACGAGCTGA GGGCTCCCAG 
    CTTTTACCGT GCCAACATCT GCTCTGTAAG GATTGCTTCC AGGGCTTCAT GCAGGAGCTA 
    GGGCATGCTA CCAGGGCTTA CCCAGGTGAG CTCATCTCCT GTCCTGGATG TCAGCGTGTC 
    TATCTTACCA GAGATGTAAC TGAACATATT TTTCTTCAGT GCTTTTCTCC TGTGAAACCC 
    ACTATGGCCA GGAACTGCTC TGAGTGCAAG GAGAAGCGGG CAGCACACAT CCTCTGCACA 
    TACTGCAACC GCTGGCTGTG CAGCTCCTGC ACAGAGGAGC ACCGGCATGT CCCAGCCCCG 
    GGGGGCCCAC TCTTTGCACG GGCACAGAAG GGATCCTCAG GGGTGAATGG TGGCTCTGGG 
    GACTTTGCCT TGTACTGCCC TCTGCACACA CACGAAGTGC TCAAGCTTTT CTGCGAGACG 
    TGCGATGTAC TCACCTGCCA CAGCTGCCTA ATGGTGGAGC ACAAAGAGCA CAGATGCAGG 
    CACGTTGAAG AAGTTCTACA AAACCAGAGG ATGCTCCTGG AAAGTGTGAC TACCCAGGTG 
    GCACATAAGA AATCCAGCCT ACAGACATCT GCAAAGCAAA TCGAGGACAG GATTTTTGAA 
    GTGAAGCATC AGCACCGGAA GGTGGAGAAC CAGATTAAAA TGGCCAAGAT GGTCCTCATG 
    AACGAGTTGA ACAAGCAGGC CAACGGGCTC ATAGAGGAGC TTGAGGGCAT CACTAACGAG 
    AGAAAGCGAA AGCTGGAGCA GCAGCTGCAG AGCATCATGG TTCTCAACCG GCAGTTTGAG 
    CACGTGCAGA ATTTCATCAA CTGGGCTGTC TGCAGCAAAA GCAGCGTCCC TTTCCTTTTC 
    AGCAAAGAGC TGATTGTGTT TCAGATGCAG CGGTTGCTGG AGACGAGATG TAACACAGAT 
    CCTGGCTCTC CTTGGAGTAT CAGATTCACC TGGGAGCCCA ACTTCTGGAC CAAGCAGCTG 
    GCTTCCCTTG GCTGCATATC CACTGAAGGT GGACAGCTGA CCCGGGCAGA TGCTGCAGCT 
    GCCTCTTATG GGAGTTTACA GGGGCAGCCA TCTTTTTATC AGAGCCACCA GGCCCCCATG 
    GCTCAGCAGG AGGCACTCAG CCACCCCTCA CACAAGTTCC AGTCTCCAGC ACTGTGTTCC 
    TCGTCCGTCT GCTGTTCCCA CTGCTCTCCA GTCTCGCCTT CCCTCAAAGG TCAAGTCCCC 
    CCACCCAGCA TCCACCCCGC TCACAGTTTC CGACAGCCTT CTGAAATGGT GCCCCACCAG 
    CTGGGGTCAC TGCAGTGTTC TACCCTGCTG CCCAGGGAGA AAGAGCTGGC CTGCAGTCCT 
    CATCCACCCA AACTGATGCA GCCCTGGTTG GAACCACAAC CTCCTGCAGA ACAGGAGAGT 
    ACATCCCAGC GGCCAGGACC GCAACTGGTT TCCCAGCCTG TGTGCATCGT CCCTCCGCAA 
    GATGTGCAGC CAGGAGCCCA TGCCCAGCCC ACCATACAGA CACCCTCCAT CCAAGTTCAG 
    CTGGGCCACC ATCAGAAGCT AAAGCTCAGC CACTTTCAGC AGCAGCCGCA GCAGCAGCCA 
    CCCCCACCAC CGCCACCTCC CCCACCCCCC CAGCATGCAC CTCCACCCTT GCCTCCATCC 
    CAGCACCTGG CTTCCAGTCA GCACGAGAGC CCTCCTGGGC CTGCCTGTTC GCAGAATGTG 
    GACATTATGC ACCACAAGTT TGAGCTGGAG GAGATGCAGA AGGACTTGGA ACTTCTCCTG 
    CAGGCCCAGC AGCCTAGCCT GCAATTGAGT CAGACCAAGT CTCCTCAGCA TCTTCAGCAA 
    ACCATCGTGG GGCAGATCAA CTACATCGTG AGGCAGCCAG CACCCGTGCA GTCCCAGAGC 
    CAGGAGGAGA CCCTGCAGGT TACAGAGGAG CCACCAGCAC CTGAGGGCCC AAAGCCAGCT 
    CTACCTGTTG ACAAGAATAC TGCTGCTCCC TTGCCCCAGA CATCTGGGGA GGAAACCCCT 
    CACAGTGTCC CTCCAGTGGA TGGCACCTCC CAGCACTCTT CTCCAAATGT GGTGAGAAAG 
    CATGCCACCT CAGTGAGCAT CATGGGCTTT TCCAACACTG TGGAGATGGA GTTGTCATCT 
    ACCAGGCTGG CGAGGACCAT AGAGCCACAG ATCCACAGGG TGAGCAGCCT GACAGCTGCC 
    CCCACCCACA CAATTCCAAG CTTGCTGAGT GGCCCACCAC AAACTGTGTC CAGCATGATG 
    AGTGTTTCAA ACCATGCCAT GCCAAGCCTG ACAGCCAGTC ACCTGCAGCC CGTGCCAAAC 
    CTTGTGCGTG GCACATTCCA GTCCACACCC AACCTGAGGG GTGATTCCTC TCAAGCCATC 
    ACAGGCCTGG CAAGTAATCA CTCACAAGCT GGGCCCAGTC TAATGTCTGG GCACACCCAG 
    GCTGCGCCGA GTCTGGCCAC TTGTCCTCTG CAGGGAATGC CACCGGTTTC TGATGTGCAT 
    GTGGAGCCAA GATCCGTATC CAGTCCTGGG ACTTGCCCAG CTGCAGAAAG CCTGGGCACC 
    AGGGATGGGG CTGAGTCCTC CCTGGGGAAT GCCTTGTGTA AGATGGAAAG TGAGGATTGT 
    ACCCGTTTCT CAGACTCAGT AGGACAAGGC CCTACAGCCT CCAGTCTGGA TGGTCCCAAG 
    GATTTGGCTA TTCCCTCAGA ACTGGAGGAA CCAATTAACC TCTCTGTGAA AAAACCTTTC 
    CTGGCACCAG TGATCAACAC ATCCACTGCT CTGCAACAGT ACCGGAATCC AAAAGAATAT 
    GAGAATTTTG AACAAGGAGC CCTAGAGCTG GATACAAAGG AGAATTCAGA CATCAGAGCT 
    ATCAGTAGTG AGCCCAAGAT CCCCTACGTG CGACTGGAGC GGCTCAAGAT CTGTGCTGCC 
    TCATCAGGAG AGATGCCTGT GTTTAAGCTG AAGCCCCAGA AAAATAGCCA GGATGGAAGC 
    TTCCTCCTGG TGATTGAGTG TGGCTCTGAG TCCTCCAGCA TGTCCATTAA GGTCAGCCAG 
    AACAGCCAGC CTGATGCCAC CCAGGGCCCA GGTCTTGGGG GAAGAAAGGT CACTGTCACA 
    TCTCTGACTG GACAGCGGCC ACAAGAGGTG GAGAGCACAT CTGAGGAACA CAGACTCATC 
    CCCCGAGCTC CAGGAGCCAA GAAGATGACC CCAGCCCCCA TAGAGAATGA GGACTTCTGT 
    GCGGTGTGCA TCAATGGTGG GGAGCTGCTA TGCTGTGACC GCTGCCCCAA AGTGTATCAC 
    CTTTCCTGCC ACGTGCCAGC CTTGCTCAGC TTCCCAGGGG GAGAATGGGT GTGCACCCTG 
    TGCCGCAGCC TGACGCAGCC TGAGATGGAG TACGACTGTG AGAACGCGCG CTACAGTCAC 
    CCTGGAGTGC GGGTACTTCC CGGCCTGAGC ATGTATGACC AGAAGAAGTG TGAGAAGCTG 
    GTCCTGTCCC TGTGCTGCAA CAGCCTCAGC CTGCCCTTCC ATGAACCAGT CAGCCCCCTG 
    GCCAGGCATT ATTACCAGAT TATCAAGAGG CCCATGGACC TGTCAATCAT CCGGAGGAAA 
    CTGCAAAAGA AAGACCCGGC TCATTACACC ACTCCAGAGG AAGTGGTGTC AGATGTACGC 
    CTCATGTTCT GGAACTGTGC TAAGTTCAAC TATCCTGACT CGGAGGTTGC AGAGGCTGGC 
    CGCTGTCTGG AAGTGTTCTT TGAAGGCTGG CTAAAGGAGA TCTACCCAGA CAAATGCTTT 
    GCCCAGCCCC AGCAAGAGGA TTCAGACTCT GAGGACGTAT CTGGCGAGAG TGGCTGTTCC 
    ACTCCTCAGG GCTTCCCATG GCCTCCCTAC ATGCAGGAAG GCATCCAGCC CAAGAGGCGA 
    CGGAGGCATA TGGTAAAGAG CTTCTGCCAG CCAGTGGGAG AATGA

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

    Trim66 ( XM_029480143.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029336003.1 Mus caroli tripartite motif containing 66 (Trim66), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OMv75139
    Clone ID Related Accession (Same CDS sequence) XM_029480143.1
    Accession Version XM_029480143.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3402bp)
    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 tripartite motif-containing protein 66 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034576.1) annotated using gene prediction method: Gnomon. 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
    ATGCTCCTGG AAAGTGTGAC TACCCAGGTG GCACATAAGA AATCCAGCCT ACAGACATCT 
    GCAAAGCAAA TCGAGGACAG GATTTTTGAA GTGAAGCATC AGCACCGGAA GGTGGAGAAC 
    CAGATTAAAA TGGCCAAGAT GGTCCTCATG AACGAGTTGA ACAAGCAGGC CAACGGGCTC 
    ATAGAGGAGC TTGAGGGCAT CACTAACGAG AGAAAGCGAA AGCTGGAGCA GCAGCTGCAG 
    AGCATCATGG TTCTCAACCG GCAGTTTGAG CACGTGCAGA ATTTCATCAA CTGGGCTGTC 
    TGCAGCAAAA GCAGCGTCCC TTTCCTTTTC AGCAAAGAGC TGATTGTGTT TCAGATGCAG 
    CGGTTGCTGG AGACGAGATG TAACACAGAT CCTGGCTCTC CTTGGAGTAT CAGATTCACC 
    TGGGAGCCCA ACTTCTGGAC CAAGCAGCTG GCTTCCCTTG GCTGCATATC CACTGAAGGT 
    GGACAGCTGA CCCGGGCAGA TGCTGCAGCT GCCTCTTATG GGAGTTTACA GGGGCAGCCA 
    TCTTTTTATC AGAGCCACCA GGCCCCCATG GCTCAGCAGG AGGCACTCAG CCACCCCTCA 
    CACAAGTTCC AGTCTCCAGC ACTGTGTTCC TCGTCCGTCT GCTGTTCCCA CTGCTCTCCA 
    GTCTCGCCTT CCCTCAAAGG TCAAGTCCCC CCACCCAGCA TCCACCCCGC TCACAGTTTC 
    CGACAGCCTT CTGAAATGGT GCCCCACCAG CTGGGGTCAC TGCAGTGTTC TACCCTGCTG 
    CCCAGGGAGA AAGAGCTGGC CTGCAGTCCT CATCCACCCA AACTGATGCA GCCCTGGTTG 
    GAACCACAAC CTCCTGCAGA ACAGGAGAGT ACATCCCAGC GGCCAGGACC GCAACTGGTT 
    TCCCAGCCTG TGTGCATCGT CCCTCCGCAA GATGTGCAGC CAGGAGCCCA TGCCCAGCCC 
    ACCATACAGA CACCCTCCAT CCAAGTTCAG CTGGGCCACC ATCAGAAGCT AAAGCTCAGC 
    CACTTTCAGC AGCAGCCGCA GCAGCAGCCA CCCCCACCAC CGCCACCTCC CCCACCCCCC 
    CAGCATGCAC CTCCACCCTT GCCTCCATCC CAGCACCTGG CTTCCAGTCA GCACGAGAGC 
    CCTCCTGGGC CTGCCTGTTC GCAGAATGTG GACATTATGC ACCACAAGTT TGAGCTGGAG 
    GAGATGCAGA AGGACTTGGA ACTTCTCCTG CAGGCCCAGC AGCCTAGCCT GCAATTGAGT 
    CAGACCAAGT CTCCTCAGCA TCTTCAGCAA ACCATCGTGG GGCAGATCAA CTACATCGTG 
    AGGCAGCCAG CACCCGTGCA GTCCCAGAGC CAGGAGGAGA CCCTGCAGGT TACAGAGGAG 
    CCACCAGCAC CTGAGGGCCC AAAGCCAGCT CTACCTGTTG ACAAGAATAC TGCTGCTCCC 
    TTGCCCCAGA CATCTGGGGA GGAAACCCCT CACAGTGTCC CTCCAGTGGA TGGCACCTCC 
    CAGCACTCTT CTCCAAATGT GGTGAGAAAG CATGCCACCT CAGTGAGCAT CATGGGCTTT 
    TCCAACACTG TGGAGATGGA GTTGTCATCT ACCAGGCTGG CGAGGACCAT AGAGCCACAG 
    ATCCACAGGG TGAGCAGCCT GACAGCTGCC CCCACCCACA CAATTCCAAG CTTGCTGAGT 
    GGCCCACCAC AAACTGTGTC CAGCATGATG AGTGTTTCAA ACCATGCCAT GCCAAGCCTG 
    ACAGCCAGTC ACCTGCAGCC CGTGCCAAAC CTTGTGCGTG GCACATTCCA GTCCACACCC 
    AACCTGAGGG GTGATTCCTC TCAAGCCATC ACAGGCCTGG CAAGTAATCA CTCACAAGCT 
    GGGCCCAGTC TAATGTCTGG GCACACCCAG GCTGCGCCGA GTCTGGCCAC TTGTCCTCTG 
    CAGGGAATGC CACCGGTTTC TGATGTGCAT GTGGAGCCAA GATCCGTATC CAGTCCTGGG 
    ACTTGCCCAG CTGCAGAAAG CCTGGGCACC AGGGATGGGG CTGAGTCCTC CCTGGGGAAT 
    GCCTTGTGTA AGATGGAAAG TGAGGATTGT ACCCGTTTCT CAGACTCAGT AGGACAAGGC 
    CCTACAGCCT CCAGTCTGGA TGGTCCCAAG GATTTGGCTA TTCCCTCAGA ACTGGAGGAA 
    CCAATTAACC TCTCTGTGAA AAAACCTTTC CTGGCACCAG TGATCAACAC ATCCACTGCT 
    CTGCAACAGT ACCGGAATCC AAAAGAATAT GAGAATTTTG AACAAGGAGC CCTAGAGCTG 
    GATACAAAGG AGAATTCAGA CATCAGAGCT ATCAGTAGTG AGCCCAAGAT CCCCTACGTG 
    CGACTGGAGC GGCTCAAGAT CTGTGCTGCC TCATCAGGAG AGATGCCTGT GTTTAAGCTG 
    AAGCCCCAGA AAAATAGCCA GGATGGAAGC TTCCTCCTGG TGATTGAGTG TGGCTCTGAG 
    TCCTCCAGCA TGTCCATTAA GGTCAGCCAG AACAGCCAGC CTGATGCCAC CCAGGGCCCA 
    GGTCTTGGGG GAAGAAAGGT CACTGTCACA TCTCTGACTG GACAGCGGCC ACAAGAGGTG 
    GAGAGCACAT CTGAGGAACA CAGACTCATC CCCCGAGCTC CAGGAGCCAA GAAGATGACC 
    CCAGCCCCCA TAGAGAATGA GGACTTCTGT GCGGTGTGCA TCAATGGTGG GGAGCTGCTA 
    TGCTGTGACC GCTGCCCCAA AGTGTATCAC CTTTCCTGCC ACGTGCCAGC CTTGCTCAGC 
    TTCCCAGGGG GAGAATGGGT GTGCACCCTG TGCCGCAGCC TGACGCAGCC TGAGATGGAG 
    TACGACTGTG AGAACGCGCG CTACAGTCAC CCTGGAGTGC GGGTACTTCC CGGCCTGAGC 
    ATGTATGACC AGAAGAAGTG TGAGAAGCTG GTCCTGTCCC TGTGCTGCAA CAGCCTCAGC 
    CTGCCCTTCC ATGAACCAGT CAGCCCCCTG GCCAGGCATT ATTACCAGAT TATCAAGAGG 
    CCCATGGACC TGTCAATCAT CCGGAGGAAA CTGCAAAAGA AAGACCCGGC TCATTACACC 
    ACTCCAGAGG AAGTGGTGTC AGATGTACGC CTCATGTTCT GGAACTGTGC TAAGTTCAAC 
    TATCCTGACT CGGAGGTTGC AGAGGCTGGC CGCTGTCTGG AAGTGTTCTT TGAAGGCTGG 
    CTAAAGGAGA TCTACCCAGA CAAATGCTTT GCCCAGCCCC AGCAAGAGGA TTCAGACTCT 
    GAGGACGTAT CTGGCGAGAG TGGCTGTTCC ACTCCTCAGG GCTTCCCATG GCCTCCCTAC 
    ATGCAGGAAG GCATCCAGCC CAAGAGGCGA CGGAGGCATA TGGAGAATGA GAAGACAAAG 
    AGAGTGTCGT TTCGTCTGGC CAACAGCATC TCGCAGGTGT GA

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

    RefSeq XP_029336003.1
    CDS542..3943
    Translation

    Target ORF information:

    RefSeq Version XM_029480143.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli tripartite motif containing 66 (Trim66), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029480143.1

    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
    ATGCTCCTGG AAAGTGTGAC TACCCAGGTG GCACATAAGA AATCCAGCCT ACAGACATCT 
    GCAAAGCAAA TCGAGGACAG GATTTTTGAA GTGAAGCATC AGCACCGGAA GGTGGAGAAC 
    CAGATTAAAA TGGCCAAGAT GGTCCTCATG AACGAGTTGA ACAAGCAGGC CAACGGGCTC 
    ATAGAGGAGC TTGAGGGCAT CACTAACGAG AGAAAGCGAA AGCTGGAGCA GCAGCTGCAG 
    AGCATCATGG TTCTCAACCG GCAGTTTGAG CACGTGCAGA ATTTCATCAA CTGGGCTGTC 
    TGCAGCAAAA GCAGCGTCCC TTTCCTTTTC AGCAAAGAGC TGATTGTGTT TCAGATGCAG 
    CGGTTGCTGG AGACGAGATG TAACACAGAT CCTGGCTCTC CTTGGAGTAT CAGATTCACC 
    TGGGAGCCCA ACTTCTGGAC CAAGCAGCTG GCTTCCCTTG GCTGCATATC CACTGAAGGT 
    GGACAGCTGA CCCGGGCAGA TGCTGCAGCT GCCTCTTATG GGAGTTTACA GGGGCAGCCA 
    TCTTTTTATC AGAGCCACCA GGCCCCCATG GCTCAGCAGG AGGCACTCAG CCACCCCTCA 
    CACAAGTTCC AGTCTCCAGC ACTGTGTTCC TCGTCCGTCT GCTGTTCCCA CTGCTCTCCA 
    GTCTCGCCTT CCCTCAAAGG TCAAGTCCCC CCACCCAGCA TCCACCCCGC TCACAGTTTC 
    CGACAGCCTT CTGAAATGGT GCCCCACCAG CTGGGGTCAC TGCAGTGTTC TACCCTGCTG 
    CCCAGGGAGA AAGAGCTGGC CTGCAGTCCT CATCCACCCA AACTGATGCA GCCCTGGTTG 
    GAACCACAAC CTCCTGCAGA ACAGGAGAGT ACATCCCAGC GGCCAGGACC GCAACTGGTT 
    TCCCAGCCTG TGTGCATCGT CCCTCCGCAA GATGTGCAGC CAGGAGCCCA TGCCCAGCCC 
    ACCATACAGA CACCCTCCAT CCAAGTTCAG CTGGGCCACC ATCAGAAGCT AAAGCTCAGC 
    CACTTTCAGC AGCAGCCGCA GCAGCAGCCA CCCCCACCAC CGCCACCTCC CCCACCCCCC 
    CAGCATGCAC CTCCACCCTT GCCTCCATCC CAGCACCTGG CTTCCAGTCA GCACGAGAGC 
    CCTCCTGGGC CTGCCTGTTC GCAGAATGTG GACATTATGC ACCACAAGTT TGAGCTGGAG 
    GAGATGCAGA AGGACTTGGA ACTTCTCCTG CAGGCCCAGC AGCCTAGCCT GCAATTGAGT 
    CAGACCAAGT CTCCTCAGCA TCTTCAGCAA ACCATCGTGG GGCAGATCAA CTACATCGTG 
    AGGCAGCCAG CACCCGTGCA GTCCCAGAGC CAGGAGGAGA CCCTGCAGGT TACAGAGGAG 
    CCACCAGCAC CTGAGGGCCC AAAGCCAGCT CTACCTGTTG ACAAGAATAC TGCTGCTCCC 
    TTGCCCCAGA CATCTGGGGA GGAAACCCCT CACAGTGTCC CTCCAGTGGA TGGCACCTCC 
    CAGCACTCTT CTCCAAATGT GGTGAGAAAG CATGCCACCT CAGTGAGCAT CATGGGCTTT 
    TCCAACACTG TGGAGATGGA GTTGTCATCT ACCAGGCTGG CGAGGACCAT AGAGCCACAG 
    ATCCACAGGG TGAGCAGCCT GACAGCTGCC CCCACCCACA CAATTCCAAG CTTGCTGAGT 
    GGCCCACCAC AAACTGTGTC CAGCATGATG AGTGTTTCAA ACCATGCCAT GCCAAGCCTG 
    ACAGCCAGTC ACCTGCAGCC CGTGCCAAAC CTTGTGCGTG GCACATTCCA GTCCACACCC 
    AACCTGAGGG GTGATTCCTC TCAAGCCATC ACAGGCCTGG CAAGTAATCA CTCACAAGCT 
    GGGCCCAGTC TAATGTCTGG GCACACCCAG GCTGCGCCGA GTCTGGCCAC TTGTCCTCTG 
    CAGGGAATGC CACCGGTTTC TGATGTGCAT GTGGAGCCAA GATCCGTATC CAGTCCTGGG 
    ACTTGCCCAG CTGCAGAAAG CCTGGGCACC AGGGATGGGG CTGAGTCCTC CCTGGGGAAT 
    GCCTTGTGTA AGATGGAAAG TGAGGATTGT ACCCGTTTCT CAGACTCAGT AGGACAAGGC 
    CCTACAGCCT CCAGTCTGGA TGGTCCCAAG GATTTGGCTA TTCCCTCAGA ACTGGAGGAA 
    CCAATTAACC TCTCTGTGAA AAAACCTTTC CTGGCACCAG TGATCAACAC ATCCACTGCT 
    CTGCAACAGT ACCGGAATCC AAAAGAATAT GAGAATTTTG AACAAGGAGC CCTAGAGCTG 
    GATACAAAGG AGAATTCAGA CATCAGAGCT ATCAGTAGTG AGCCCAAGAT CCCCTACGTG 
    CGACTGGAGC GGCTCAAGAT CTGTGCTGCC TCATCAGGAG AGATGCCTGT GTTTAAGCTG 
    AAGCCCCAGA AAAATAGCCA GGATGGAAGC TTCCTCCTGG TGATTGAGTG TGGCTCTGAG 
    TCCTCCAGCA TGTCCATTAA GGTCAGCCAG AACAGCCAGC CTGATGCCAC CCAGGGCCCA 
    GGTCTTGGGG GAAGAAAGGT CACTGTCACA TCTCTGACTG GACAGCGGCC ACAAGAGGTG 
    GAGAGCACAT CTGAGGAACA CAGACTCATC CCCCGAGCTC CAGGAGCCAA GAAGATGACC 
    CCAGCCCCCA TAGAGAATGA GGACTTCTGT GCGGTGTGCA TCAATGGTGG GGAGCTGCTA 
    TGCTGTGACC GCTGCCCCAA AGTGTATCAC CTTTCCTGCC ACGTGCCAGC CTTGCTCAGC 
    TTCCCAGGGG GAGAATGGGT GTGCACCCTG TGCCGCAGCC TGACGCAGCC TGAGATGGAG 
    TACGACTGTG AGAACGCGCG CTACAGTCAC CCTGGAGTGC GGGTACTTCC CGGCCTGAGC 
    ATGTATGACC AGAAGAAGTG TGAGAAGCTG GTCCTGTCCC TGTGCTGCAA CAGCCTCAGC 
    CTGCCCTTCC ATGAACCAGT CAGCCCCCTG GCCAGGCATT ATTACCAGAT TATCAAGAGG 
    CCCATGGACC TGTCAATCAT CCGGAGGAAA CTGCAAAAGA AAGACCCGGC TCATTACACC 
    ACTCCAGAGG AAGTGGTGTC AGATGTACGC CTCATGTTCT GGAACTGTGC TAAGTTCAAC 
    TATCCTGACT CGGAGGTTGC AGAGGCTGGC CGCTGTCTGG AAGTGTTCTT TGAAGGCTGG 
    CTAAAGGAGA TCTACCCAGA CAAATGCTTT GCCCAGCCCC AGCAAGAGGA TTCAGACTCT 
    GAGGACGTAT CTGGCGAGAG TGGCTGTTCC ACTCCTCAGG GCTTCCCATG GCCTCCCTAC 
    ATGCAGGAAG GCATCCAGCC CAAGAGGCGA CGGAGGCATA TGGAGAATGA GAAGACAAAG 
    AGAGTGTCGT TTCGTCTGGC CAACAGCATC TCGCAGGTGT GA

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

見積依頼

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050-3174-7589(受注専用)

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