TOPAZ1 cDNA ORF clone, Bos taurus(cattle)

The following TOPAZ1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TOPAZ1 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
OBa01281 NM_001252441.1
Latest version!
Bos taurus testis and ovary specific PAZ domain containing 1 (TOPAZ1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone 30% OFF
2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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)
    CloneID OBa01281
    Clone ID Related Accession (Same CDS sequence) NM_001252441.1
    Accession Version NM_001252441.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4962bp)
    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 2019-10-21
    Organism Bos taurus(cattle)
    Product protein TOPAZ1
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from BK008402.1. On or before Dec 7, 2011 this sequence version replaced XM_003583791.1, XM_003587613.1. ##Evidence-Data-START## Transcript exon combination :: BK008402.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMN03145491 [ECO:0000348] ##Evidence-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
    ATGCCGCGGG CTCCACCCTC GGGCCCCACG ACGGCCCCGG GGCGTGAAGA CGACGCTCGA 
    GGCCTGAGGA AGAGAAGCCG GCGGCCAGGG CTAGGCGAGG CAGGAGGCTG CGGCCCTGAG
    GCGGAGGGGC TCGAGGAGAG CAGGCAAAAG AGGAGGATGG TGGCTCGGGC GTCTGGGAGA
    GAAGAGGTGG AAAGTGACAA GTCAGCCAAG GAAAAAAGAA AAGTTACTGA AGCCTCAAGT
    GATGATCCAC AGCCAGGGAT TGACCTGGTA AGAAAGGAAT CATTAACCAG TTCGGAATCT
    TTCCCAACAG TGGAATGCAG TGAATTTCAA AGTATGGCTT TCTTGCAGTC TTTGGGTAAG
    GAAAGGTTGG TAGAAGGTAT TAAAAGAAGA ATTCGAATTA AAAAATGTAA AAGCTTAGAA
    AGCCCAGCTC TCAAAATGAC TGAAAATAAG GCTACACAAA ACAGTAAGGT TGAATTCCAA
    GATGAACTGT ACAAGAATAC TCTGAAATAT TCTTGTAACA GCTTGTCACC TGGAGTAGAA
    AATAATTCTG TTTTAAAATT ACATGATTGC AGTTGTCTCT CCCATTCCAA GGATTGTAAT
    GATGAAAATA ACCTTGCATA TAAACCTGAT GGAGGATGTA TGCATGTACC AGAAAATTCC
    TCAAAGTCAA AGAAAGAAAA CCCTAGGAGT CTCATAGATA AGACTGATCC AAGCAATATT
    CCTCAGCTTT TACAAACTGA AGAAAACGTA ATGCGAGTAA GTCAGTTATT GCTTGAAGAA
    AATGATTCGT ACCTAAGTAA AAATAATGGC TTATTTTCCT GCCTTCAAAG TGAAAAAACT
    AAACATTCAA TAGAGGAGAG CAGTATTGGG AGAAAATCCA GAAAAAGGAT GAAGGTGTCT
    GAAAAAGGAA ATGGAATGGT TATTGAGATG AAGTTTTCTA ATATGTGTAA CAAATCTGAG
    CTGATGTTAC AAGGAAACCA AACAGGTGCT GATGGTAAAG AAACAGAGAT TTTAGAAGCT
    AAAAAAAGTT CTTTGAAAGT TTTGAGAAAA GTAAATAATA ATACGCTGTC ACCAATGGAT
    CCTTTATTAA GTCTTCCAGA AACAGGGAAA AAAACAAGTC CTGAACATTG TGCAAATGCT
    GTGTTTCAGA AAGCCCTTGA GCAACTTTCA AAAGAAGAAA CAAAGAATGT TTCACAGCCT
    TTAGGATGTA CCAGCATGGA TCCACCAGAA GATTATTTTA AGTCAATGAA AAACTCATTA
    GTGAAGTCAC TTAGTGATTG CTTTCCTATT GAAAAGAGGT CTTCTAGGGA AAGCTTGAAG
    AATGAAGCTG AAGAATCTAA ATATAGCTGT CAAAGAACAA TACCAATGAC TGGCAAAAGA
    ACTTGGCCTT GTTATTCATG TGCTAGAATA TCTGCCCAGT GTTGGAAAAA AGCTTCCTTG
    CCACAAAGTT CTAGGCAGGA TGATTTTCTT AAACATCAAA TGAATCAAAC TCACTTAACT
    GACTCCAAAT TAATGCTACA AAGTTCTGTA ACAGAAACAA ACAGTGCATC TTCAAGTATA
    GAAAAATTGG ATTCTAATTT AAATTGTTTA CCTTCAGTCT CTACAGTGGA ACCTACTTCA
    GTGGTTATAA AGGAACCTAT AGTCAATGAT GATGAAAAAA TGAAGTCAGA GGAACTAAGC
    AGAAGTGCAT CAGAGGTAGT TTCTAATACT ACTGAAGATA CTTCATTGAC TAATATGACT
    CACAACTTAA CAGGAAGTAA AAAAAAAGAT AGAGGGAATT TAACAAAACT GAATTTGACG
    GTGGCTTCCC AGGATGGTCA GGAAGCAAAT AACTCTACAA GCAAAACTGT TCATCGAAAA
    GCATGCATTA CTAAGCAAGC ACTGGTTGTT CCAGACCTAG TTAAGATACT GAACACAGGA
    CGGCTGACTA ATTTTAAAAT TCCTTTACTT AAGAACAAAA CAGAAAAAAG AAAAGAAATT
    AATGCCAAGT CATCAGAGAG AGAAGTATAT AGTCCCCTAG AACTTCTTGA CAGTGTATCG
    GGAGCAGAGG TAAGGCAGAG TAGGACTAAA GAAAATGCTG TCACAGTAAC TTCAGGACCT
    CAATCTTTGA GTATACAACG TAGTGTAATT CCAGTGCAAG CTAGTTCTGA CTCATTCTGC
    AGTAAGAATT CCTGTATTAT TGCTCCGAGC TTTTTAAAGC AAGGTAATAA TAAACAACCA
    TCTAACCACA TCTCTGCATC AGGCCGTATT ATTTCTAATA ATGCAGCTGG TTCTCTCACA
    GTTGAAAATA ATACATTTTC TTGTGATCCT GGATGTATAG AGAAAAATCC CACCTTCTAT
    TCCAATGAAC AAGAACCATT CAAAGCAGTT TCCTCTGAAG TTAGTGGTAG AAAAATGACT
    GAGAACTTTT CAGAAATTAA AGTGGGGTTT CCAGATATTC TGAAAGCATA TGAAGATGAT
    GTCCTCTTAA TTGATGTAAT TCAAGATGAC CCAGACCTCT TTGGAGTCTC CAATGAAGGG
    GAACTCTCAT TTCCTTCAGA GGTTCCCATG ATAAGCCAGG AGCCCAATGT TGCTGAAGAG
    CATCAATCGA CAGACTCCAA GCACATGGAA CTTCCAGACA AAAAAGAACC AAGCAATGCC
    TTGAGGGAAC TGCCTGTACC GGATCCTGGA TCAATGAAGT CAGAGATCTG TGCTTCCTTG
    TCAGCAGCAA GTGAGATAAA ACATGATTCC AAAGATGCAA ACATTTCCTT AGGAGAAGTT
    ACTCATGAAA CTTCTTCAAA TGAAAAACCG AGAGGCCTAA GTGAACAGAC AAAAAGTTCA
    GACTTGGATG AAAAGTGTAG ATTTTCAGAC AAGGTAGCTA TTCGAGAAGA AAAAGAAACT
    ATTTCTGAAG TTTGCAGAAG GGATTCTAAA AATACAGAGA TTATGGTTGG TGAATGTCAC
    TTAGCAGCAC TGGTCTCCAA ACCTCTGTGC TTACCAGTGC CCTTGCCGCC TTTGAATCTT
    AATGCTCATC AGGAAGATAC ATTACTGAAT CCACAGATGA ATGATTTCAG ATTACCAGGG
    AAACATTCTG TCCTAAAGCT GCAGAATCCT GAAATTTGTG AAATATTTAA GAGGGAAAAA
    AATGTAGGGG TGTTCCAGAA GCCACTAGGG TTGATGATAC CCCACAGATA TTGCAAATTT
    CATTTTAATA CGTTACGTGG CTGTGAGCGA TCACAGTGCA AGTTTGGTCA CGTGCCTGAG
    CAAGGGGATG AAAAGGTTTG TATGGATGTG TTTAAGAAAT ATATAAGTAT CAATGAGCTG
    TGTTTGCTAC AACGTGCAGC AAACATGTTT ATGGAGTACT ACAGAAAGTT TCTTCCAGGT
    ATACACTTTG ATTTACAAGT ATTAAATGAC CTTCTAAGTT CTTTACTCAA ACACTGTTTA
    TTGAAAGAAG TATTTCAGGT CATGAACCTC TGCATAATGA TTAAGATGCT GCCTGCTCTG
    AAAATATTAC TAAAAATATT TGAGTATGTG GCAACTATGA AATTAAGGAA TGCTGTACCT
    GCTTTAATTA ATATCTTTTG CAAGCTCCTT GAAGCTGGGA TGGTACTTGA CCCAGAACAC
    TTTAACTATA TTGTTAAGCT TTTATACCAA GTACAGGCTT CCAAGCAAGA AATAACTGCA
    GTTCTGGAAA TGAAATCCAG GTTACACATG AGGCAATTTA AAAAGAACTG GAAATGTGAC
    TTAGAGGCAG CCTTGAATGA AATAGAGCAT TGTAAAGAAA AAGGTGACTG GACCAAACTG
    GGAAATGTAT ACCTTAACAT AAAAATGAGC TGTGAAAAAT TTGCAGATTT CCAGAGGTTT
    TGTGCTTGTA TTGCTGAAAC ACTAACAAAA GACTGTAAAG AAGAGCGACC AGGTGTTCCA
    TTTTGTGAAT TTGCTGAAAC AGTTAGCAAA GATCTGCAGA ATAGTGAAGT AGATAAAACT
    TTGCTGGGAA GAATCGGAAT CAGTGCTATG TACTTCTATC ACAAGCTGTT GCAGTGGTCC
    AAGGGAAGGA AGGTCTTAGA TAAACTATAT GAATTAAAAA TACATTTTAC AAGTTTAAAA
    GGACTTATAG GGCCTGAGAA GTTAGCACCA AGATGTCAAA TTGTGAATAT TGCAGCAGAA
    ATTTTTCTAA AAAGTGGAAG CCTAGATGGT GCCATTTGGG TATTAAGGGA GTCTGAGTGG
    ATCATTAATA CACCAGTATG GCCTTGCGAT CGACTGGATG TGCTCAATCG GCATAATCTG
    CTCTGTACAA TCGCACACGA AATCTTAGCG AAGAGTCTTT ACAGACAGAC ATTTGAAGTT
    TTGCAAAATC TACCAGGTTT TCAAAATTCT CAAGAAACTG TGGAGGTCTC ACAGTATAGC
    CTACTTTTTA ATAAACTTCT AGATGCCTGT ATAGAAAGCA ACAGCCTCGG TATGTCATCC
    TCTGTAGCAG AATTCATGAT TTCAAAGAGC ATCCCTATTG ATTTTTCCTT TCTTAGAAGA
    TTAATTACTT CTTTAGGAAG GAGTTGTTTA TGGCTCAAAG CCAGAGCCCA CTACAAAAGT
    GCTCTTTCAC TGGGTTGCTA CCCACCACTG GAAGGAAATT TGTACCGAAA ACTTCTCCTG
    ATTCCATCCT ATTTGTCTGA AATTGAAATG CTTTTAGCTA TTGAAATCTT CCTGGTATCT
    AATGCTAGTA GTATTCAGAG TCCTGGAACT TCTACACAGA TGCTGCAGAT AGTTTTAAAA
    AGATCTGAAG AAAACAAATC TCGGAGCAAG GATGATTATC AAGCTGCAGT GGAAAGATTA
    ATTACGGCTG CTCGTATATC AGATCCAAAG CTTTTCATTA AGCACATGAC TGTCAATGTT
    AATAAGGAAC AGGTTTATAG TTTGGAACAG TGTTCTGCCC TGAAATGGTT GAAAGAGAAT
    ATGAAGTGGG CCGGAAAGGT TTGGCTTTTC AATAACCATT AG

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

    RefSeq NP_001239370.1
    CDS1..4962
    Translation

    Target ORF information:

    RefSeq Version NM_001252441.1
    Organism Bos taurus(cattle)
    Definition Bos taurus testis and ovary specific PAZ domain containing 1 (TOPAZ1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001252441.1

    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
    ATGCCGCGGG CTCCACCCTC GGGCCCCACG ACGGCCCCGG GGCGTGAAGA CGACGCTCGA 
    GGCCTGAGGA AGAGAAGCCG GCGGCCAGGG CTAGGCGAGG CAGGAGGCTG CGGCCCTGAG
    GCGGAGGGGC TCGAGGAGAG CAGGCAAAAG AGGAGGATGG TGGCTCGGGC GTCTGGGAGA
    GAAGAGGTGG AAAGTGACAA GTCAGCCAAG GAAAAAAGAA AAGTTACTGA AGCCTCAAGT
    GATGATCCAC AGCCAGGGAT TGACCTGGTA AGAAAGGAAT CATTAACCAG TTCGGAATCT
    TTCCCAACAG TGGAATGCAG TGAATTTCAA AGTATGGCTT TCTTGCAGTC TTTGGGTAAG
    GAAAGGTTGG TAGAAGGTAT TAAAAGAAGA ATTCGAATTA AAAAATGTAA AAGCTTAGAA
    AGCCCAGCTC TCAAAATGAC TGAAAATAAG GCTACACAAA ACAGTAAGGT TGAATTCCAA
    GATGAACTGT ACAAGAATAC TCTGAAATAT TCTTGTAACA GCTTGTCACC TGGAGTAGAA
    AATAATTCTG TTTTAAAATT ACATGATTGC AGTTGTCTCT CCCATTCCAA GGATTGTAAT
    GATGAAAATA ACCTTGCATA TAAACCTGAT GGAGGATGTA TGCATGTACC AGAAAATTCC
    TCAAAGTCAA AGAAAGAAAA CCCTAGGAGT CTCATAGATA AGACTGATCC AAGCAATATT
    CCTCAGCTTT TACAAACTGA AGAAAACGTA ATGCGAGTAA GTCAGTTATT GCTTGAAGAA
    AATGATTCGT ACCTAAGTAA AAATAATGGC TTATTTTCCT GCCTTCAAAG TGAAAAAACT
    AAACATTCAA TAGAGGAGAG CAGTATTGGG AGAAAATCCA GAAAAAGGAT GAAGGTGTCT
    GAAAAAGGAA ATGGAATGGT TATTGAGATG AAGTTTTCTA ATATGTGTAA CAAATCTGAG
    CTGATGTTAC AAGGAAACCA AACAGGTGCT GATGGTAAAG AAACAGAGAT TTTAGAAGCT
    AAAAAAAGTT CTTTGAAAGT TTTGAGAAAA GTAAATAATA ATACGCTGTC ACCAATGGAT
    CCTTTATTAA GTCTTCCAGA AACAGGGAAA AAAACAAGTC CTGAACATTG TGCAAATGCT
    GTGTTTCAGA AAGCCCTTGA GCAACTTTCA AAAGAAGAAA CAAAGAATGT TTCACAGCCT
    TTAGGATGTA CCAGCATGGA TCCACCAGAA GATTATTTTA AGTCAATGAA AAACTCATTA
    GTGAAGTCAC TTAGTGATTG CTTTCCTATT GAAAAGAGGT CTTCTAGGGA AAGCTTGAAG
    AATGAAGCTG AAGAATCTAA ATATAGCTGT CAAAGAACAA TACCAATGAC TGGCAAAAGA
    ACTTGGCCTT GTTATTCATG TGCTAGAATA TCTGCCCAGT GTTGGAAAAA AGCTTCCTTG
    CCACAAAGTT CTAGGCAGGA TGATTTTCTT AAACATCAAA TGAATCAAAC TCACTTAACT
    GACTCCAAAT TAATGCTACA AAGTTCTGTA ACAGAAACAA ACAGTGCATC TTCAAGTATA
    GAAAAATTGG ATTCTAATTT AAATTGTTTA CCTTCAGTCT CTACAGTGGA ACCTACTTCA
    GTGGTTATAA AGGAACCTAT AGTCAATGAT GATGAAAAAA TGAAGTCAGA GGAACTAAGC
    AGAAGTGCAT CAGAGGTAGT TTCTAATACT ACTGAAGATA CTTCATTGAC TAATATGACT
    CACAACTTAA CAGGAAGTAA AAAAAAAGAT AGAGGGAATT TAACAAAACT GAATTTGACG
    GTGGCTTCCC AGGATGGTCA GGAAGCAAAT AACTCTACAA GCAAAACTGT TCATCGAAAA
    GCATGCATTA CTAAGCAAGC ACTGGTTGTT CCAGACCTAG TTAAGATACT GAACACAGGA
    CGGCTGACTA ATTTTAAAAT TCCTTTACTT AAGAACAAAA CAGAAAAAAG AAAAGAAATT
    AATGCCAAGT CATCAGAGAG AGAAGTATAT AGTCCCCTAG AACTTCTTGA CAGTGTATCG
    GGAGCAGAGG TAAGGCAGAG TAGGACTAAA GAAAATGCTG TCACAGTAAC TTCAGGACCT
    CAATCTTTGA GTATACAACG TAGTGTAATT CCAGTGCAAG CTAGTTCTGA CTCATTCTGC
    AGTAAGAATT CCTGTATTAT TGCTCCGAGC TTTTTAAAGC AAGGTAATAA TAAACAACCA
    TCTAACCACA TCTCTGCATC AGGCCGTATT ATTTCTAATA ATGCAGCTGG TTCTCTCACA
    GTTGAAAATA ATACATTTTC TTGTGATCCT GGATGTATAG AGAAAAATCC CACCTTCTAT
    TCCAATGAAC AAGAACCATT CAAAGCAGTT TCCTCTGAAG TTAGTGGTAG AAAAATGACT
    GAGAACTTTT CAGAAATTAA AGTGGGGTTT CCAGATATTC TGAAAGCATA TGAAGATGAT
    GTCCTCTTAA TTGATGTAAT TCAAGATGAC CCAGACCTCT TTGGAGTCTC CAATGAAGGG
    GAACTCTCAT TTCCTTCAGA GGTTCCCATG ATAAGCCAGG AGCCCAATGT TGCTGAAGAG
    CATCAATCGA CAGACTCCAA GCACATGGAA CTTCCAGACA AAAAAGAACC AAGCAATGCC
    TTGAGGGAAC TGCCTGTACC GGATCCTGGA TCAATGAAGT CAGAGATCTG TGCTTCCTTG
    TCAGCAGCAA GTGAGATAAA ACATGATTCC AAAGATGCAA ACATTTCCTT AGGAGAAGTT
    ACTCATGAAA CTTCTTCAAA TGAAAAACCG AGAGGCCTAA GTGAACAGAC AAAAAGTTCA
    GACTTGGATG AAAAGTGTAG ATTTTCAGAC AAGGTAGCTA TTCGAGAAGA AAAAGAAACT
    ATTTCTGAAG TTTGCAGAAG GGATTCTAAA AATACAGAGA TTATGGTTGG TGAATGTCAC
    TTAGCAGCAC TGGTCTCCAA ACCTCTGTGC TTACCAGTGC CCTTGCCGCC TTTGAATCTT
    AATGCTCATC AGGAAGATAC ATTACTGAAT CCACAGATGA ATGATTTCAG ATTACCAGGG
    AAACATTCTG TCCTAAAGCT GCAGAATCCT GAAATTTGTG AAATATTTAA GAGGGAAAAA
    AATGTAGGGG TGTTCCAGAA GCCACTAGGG TTGATGATAC CCCACAGATA TTGCAAATTT
    CATTTTAATA CGTTACGTGG CTGTGAGCGA TCACAGTGCA AGTTTGGTCA CGTGCCTGAG
    CAAGGGGATG AAAAGGTTTG TATGGATGTG TTTAAGAAAT ATATAAGTAT CAATGAGCTG
    TGTTTGCTAC AACGTGCAGC AAACATGTTT ATGGAGTACT ACAGAAAGTT TCTTCCAGGT
    ATACACTTTG ATTTACAAGT ATTAAATGAC CTTCTAAGTT CTTTACTCAA ACACTGTTTA
    TTGAAAGAAG TATTTCAGGT CATGAACCTC TGCATAATGA TTAAGATGCT GCCTGCTCTG
    AAAATATTAC TAAAAATATT TGAGTATGTG GCAACTATGA AATTAAGGAA TGCTGTACCT
    GCTTTAATTA ATATCTTTTG CAAGCTCCTT GAAGCTGGGA TGGTACTTGA CCCAGAACAC
    TTTAACTATA TTGTTAAGCT TTTATACCAA GTACAGGCTT CCAAGCAAGA AATAACTGCA
    GTTCTGGAAA TGAAATCCAG GTTACACATG AGGCAATTTA AAAAGAACTG GAAATGTGAC
    TTAGAGGCAG CCTTGAATGA AATAGAGCAT TGTAAAGAAA AAGGTGACTG GACCAAACTG
    GGAAATGTAT ACCTTAACAT AAAAATGAGC TGTGAAAAAT TTGCAGATTT CCAGAGGTTT
    TGTGCTTGTA TTGCTGAAAC ACTAACAAAA GACTGTAAAG AAGAGCGACC AGGTGTTCCA
    TTTTGTGAAT TTGCTGAAAC AGTTAGCAAA GATCTGCAGA ATAGTGAAGT AGATAAAACT
    TTGCTGGGAA GAATCGGAAT CAGTGCTATG TACTTCTATC ACAAGCTGTT GCAGTGGTCC
    AAGGGAAGGA AGGTCTTAGA TAAACTATAT GAATTAAAAA TACATTTTAC AAGTTTAAAA
    GGACTTATAG GGCCTGAGAA GTTAGCACCA AGATGTCAAA TTGTGAATAT TGCAGCAGAA
    ATTTTTCTAA AAAGTGGAAG CCTAGATGGT GCCATTTGGG TATTAAGGGA GTCTGAGTGG
    ATCATTAATA CACCAGTATG GCCTTGCGAT CGACTGGATG TGCTCAATCG GCATAATCTG
    CTCTGTACAA TCGCACACGA AATCTTAGCG AAGAGTCTTT ACAGACAGAC ATTTGAAGTT
    TTGCAAAATC TACCAGGTTT TCAAAATTCT CAAGAAACTG TGGAGGTCTC ACAGTATAGC
    CTACTTTTTA ATAAACTTCT AGATGCCTGT ATAGAAAGCA ACAGCCTCGG TATGTCATCC
    TCTGTAGCAG AATTCATGAT TTCAAAGAGC ATCCCTATTG ATTTTTCCTT TCTTAGAAGA
    TTAATTACTT CTTTAGGAAG GAGTTGTTTA TGGCTCAAAG CCAGAGCCCA CTACAAAAGT
    GCTCTTTCAC TGGGTTGCTA CCCACCACTG GAAGGAAATT TGTACCGAAA ACTTCTCCTG
    ATTCCATCCT ATTTGTCTGA AATTGAAATG CTTTTAGCTA TTGAAATCTT CCTGGTATCT
    AATGCTAGTA GTATTCAGAG TCCTGGAACT TCTACACAGA TGCTGCAGAT AGTTTTAAAA
    AGATCTGAAG AAAACAAATC TCGGAGCAAG GATGATTATC AAGCTGCAGT GGAAAGATTA
    ATTACGGCTG CTCGTATATC AGATCCAAAG CTTTTCATTA AGCACATGAC TGTCAATGTT
    AATAAGGAAC AGGTTTATAG TTTGGAACAG TGTTCTGCCC TGAAATGGTT GAAAGAGAAT
    ATGAAGTGGG CCGGAAAGGT TTGGCTTTTC AATAACCATT AG

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

  • PubMed

    TOPAZ1, a novel germ cell-specific expressed gene conserved during evolution across vertebrates.
    PloS one6(11)e26950(2011)
    Baillet A,Le Bouffant R,Volff JN,Luangpraseuth A,Poumerol E,Th?pot D,Pailhoux E,Livera G,Cotinot C,Mandon-P?pin B


    The genome sequence of taurine cattle: a window to ruminant biology and evolution.
    Science (New York, N.Y.)324(5926)522-8(2009 Apr)
    ,Elsik CG,Tellam RL,Worley KC,Gibbs RA,Muzny DM,Weinstock GM,Adelson DL,Eichler EE,Elnitski L,Guig? R,Hamernik DL,Kappes SM,Lewin HA,Lynn DJ,Nicholas FW,Reymond A,Rijnkels M,Skow LC,Zdobnov EM,Schook L,Womack J,Alioto T,Antonarakis SE,Astashyn A,Chapple CE,Chen HC,Chrast J,C?mara F,Ermolaeva O,Henrichsen CN,Hlavina W,Kapustin Y,Kiryutin B,Kitts P,Kokocinski F,Landrum M,Maglott D,Pruitt K,Sapojnikov V,Searle SM,Solovyev V,Souvorov A,Ucla C,Wyss C,Anzola JM,Gerlach D,Elhaik E,Graur D,Reese JT,Edgar RC,McEwan JC,Payne GM,Raison JM,Junier T,Kriventseva EV,Eyras E,Plass M,Donthu R,Larkin DM,Reecy J,Yang MQ,Chen L,Cheng Z,Chitko-McKown CG,Liu GE,Matukumalli LK,Song J,Zhu B,Bradley DG,Brinkman FS,Lau LP,Whiteside MD,Walker A,Wheeler TT,Casey T,German JB,Lemay DG,Maqbool NJ,Molenaar AJ,Seo S,Stothard P,Baldwin CL,Baxter R,Brinkmeyer-Langford CL,Brown WC,Childers CP,Connelley T,Ellis SA,Fritz K,Glass EJ,Herzig CT,Iivanainen A,Lahmers KK,Bennett AK,Dickens CM,Gilbert JG,Hagen DE,Salih H,Aerts J,Caetano AR,Dalrymple B,Garcia JF,Gill CA,Hiendleder SG,Memili E,Spurlock D,Williams JL,Alexander L,Brownstein MJ,Guan L,Holt RA,Jones SJ,Marra MA,Moore R,Moore SS,Roberts A,Taniguchi M,Waterman RC,Chacko J,Chandrabose MM,Cree A,Dao MD,Dinh HH,Gabisi RA,Hines S,Hume J,Jhangiani SN,Joshi V,Kovar CL,Lewis LR,Liu YS,Lopez J,Morgan MB,Nguyen NB,Okwuonu GO,Ruiz SJ,Santibanez J,Wright RA,Buhay C,Ding Y,Dugan-Rocha S,Herdandez J,Holder M,Sabo A,Egan A,Goodell J,Wilczek-Boney K,Fowler GR,Hitchens ME,Lozado RJ,Moen C,Steffen D,Warren JT,Zhang J,Chiu R,Schein JE,Durbin KJ,Havlak P,Jiang H,Liu Y,Qin X,Ren Y,Shen Y,Song H,Bell SN,Davis C,Johnson AJ,Lee S,Nazareth LV,Patel BM,Pu LL,Vattathil S,Williams RL Jr,Curry S,Hamilton C,Sodergren E,Wheeler DA,Barris W,Bennett GL,Eggen A,Green RD,Harhay GP,Hobbs M,Jann O,Keele JW,Kent MP,Lien S,McKay SD,McWilliam S,Ratnakumar A,Schnabel RD,Smith T,Snelling WM,Sonstegard TS,Stone RT,Sugimoto Y,Takasuga A,Taylor JF,Van Tassell CP,Macneil MD,Abatepaulo AR,Abbey CA,Ahola V,Almeida IG,Amadio AF,Anatriello E,Bahadue SM,Biase FH,Boldt CR,Carroll JA,Carvalho WA,Cervelatti EP,Chacko E,Chapin JE,Cheng Y,Choi J,Colley AJ,de Campos TA,De Donato M,Santos IK,de Oliveira CJ,Deobald H,Devinoy E,Donohue KE,Dovc P,Eberlein A,Fitzsimmons CJ,Franzin AM,Garcia GR,Genini S,Gladney CJ,Grant JR,Greaser ML,Green JA,Hadsell DL,Hakimov HA,Halgren R,Harrow JL,Hart EA,Hastings N,Hernandez M,Hu ZL,Ingham A,Iso-Touru T,Jamis C,Jensen K,Kapetis D,Kerr T,Khalil SS,Khatib H,Kolbehdari D,Kumar CG,Kumar D,Leach R,Lee JC,Li C,Logan KM,Malinverni R,Marques E,Martin WF,Martins NF,Maruyama SR,Mazza R,McLean KL,Medrano JF,Moreno BT,Mor? DD,Muntean CT,Nandakumar HP,Nogueira MF,Olsaker I,Pant SD,Panzitta F,Pastor RC,Poli MA,Poslusny N,Rachagani S,Ranganathan S,Razpet A,Riggs PK,Rincon G,Rodriguez-Osorio N,Rodriguez-Zas SL,Romero NE,Rosenwald A,Sando L,Schmutz SM,Shen L,Sherman L,Southey BR,Lutzow YS,Sweedler JV,Tammen I,Telugu BP,Urbanski JM,Utsunomiya YT,Verschoor CP,Waardenberg AJ,Wang Z,Ward R,Weikard R,Welsh TH Jr,White SN,Wilming LG,Wunderlich KR,Yang J,Zhao FQ