ORF » Species Summary » Homo sapiens » TDRD15 cDNA ORF clone

TDRD15 cDNA ORF clone, Homo sapiens(human)

The following TDRD15 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TDRD15 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
OHu80940 NM_001306137.2
Latest version!		 Homo sapiens tudor domain containing 15 (TDRD15), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OHu80940 XM_011533212.1
Latest version!		 Homo sapiens tudor domain containing 15 (TDRD15), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $951.30
$1359.00
View Old Accession Versions >>
OHu80940 NM_001306137.1 Homo sapiens tudor domain containing 15 (TDRD15), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $951.30
$1359.00
Hide Old Accession Versions >>

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

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

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

  • Reference Sequences (Refseq)
    TDRD15 ( NM_001306137.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001293066.1 Homo sapiens tudor domain containing 15 (TDRD15), mRNA.
    Price & Availability↑
    CloneID OHu80940
    Clone ID Related Accession (Same CDS sequence) NM_001306137.1 , XM_011533212.1 , NM_001306137.2
    Accession Version NM_001306137.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5805bp)
    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 2019-11-21
    Organism Homo sapiens(human)
    Product tudor domain-containing protein 15
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC010872.8. On Nov 22, 2019 this sequence version replaced NM_001306137.1. ##Evidence-Data-START## Transcript exon combination :: EG328743.1, EG328744.1 [ECO:0000332] ##Evidence-Data-END## ##RefSeq-Attributes-START## RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    ATGGATTCTA CATCTTTCTT ACCAACATTT TTAGATGTGG ATCTGACAAT ATCACATATT 
    AAATGTCTTC CCAAGGATAT TCTGGTGAAA TTTCAAGGCA TAAAGAGTAA TGAATGTGAG 
    TTTGACTACC ATGTATTGCA GAGAGAAATA CAACATACTC CAAAAGTGAA AAATAATGTG 
    GAAATTGATG AATTTTGTTT GGTGGAAGAA AGAGTATCTG GAGAATGGCA GAGAGGAAGA 
    GTCATGGAAA AGAAAAATGA ACTCTATACA GTGCTCCTCA TAGATCGCGG AGAAGAACTA 
    AGAGTTGCTG GTCCACAGAT TGCTTCAGCC TGTGGCAATT TATTTGAGCT ACCGCCACGG 
    GTAGTATTTG GTATTTTTGC GAATATACTA CCAGTTGGGG AAAAATGGTC CCCTAAAGCT 
    TTGAATTATT TCAAGTCATT AGTAGGAATA CAAGTGAAAG GTTATGTGCA AGCTATTTTA 
    CCTCTGCAAA TGTTTCTTTT TGAAGTGCCA AAAATTATAT CTCAGGCTCT CGAGTTACAA 
    TTAGGAAGAC TTGTTGATGG AGATTCATTT CGTCTTATTG TGGAAATGTT AGAAGAATTC 
    CCTCAACAAA TGCCAGATTT ATTACAACAT AAAAGGCCTG AATTGTCATT AGGTAATAAA 
    GATACTTCAC TTGATATTCA GCATGTTCTG GATAAGTTGC AGCCATCTTT GTCAGTAGGA 
    AGTACTGAAA GTGTAAAGGT ATCATCTGCA TTGAGCCCAA GTAAATTTTA TTGTCAGTTA 
    ATTAAATGGA CTCCAGAGCT AGAAAACTTG ACAGCACATA TGACTTTGCA TTATGATACC 
    GTCTGTCAAG AAACTAGTCC CACGTGTGAT AATTTTGGAC TGCTTTGTGT TGCCAGAAGG 
    CGAAATGGAC AGTGGCATAG AGGAATTCTT CAGCAGCTCT TGCCCCCAAA TCAAGTAAAA 
    ATTTGGTTTA TGGATTATGG CAGTAGCGAG GCTATACCCT CAATTTATGT AAAGAAACTT 
    AAACAGGATT TTATTTTAGT ACCATTATTT TCATTTCCAT GTTCTCTGAC ATGTTTGCAC 
    AGTCCAGATA GAGATGCAAG AATATTTCAA CTGAGTATAT TTAAACAGGC CTTATTAGGA 
    CAAGTGGTAT ATGCACACAT TGATTGGTTC AATAAGGATG AGTGTTTGTA TTATGTGACA 
    TTACAAACTC AAGAGTCTAC AGTTAATTCT AAGTGTCTAC TGAAGACTGT AGGCACACAA 
    GTACTTTGTC CGATGTCTGA TTCAAAAATC TCCAATATCT TGAGTGAGAC AAGTGTGTCT 
    GATGTAAACA GCTTTGCAGT TGAGAGTTTT ATGGGAAATA TTGAATGGTC AATAGACTCT 
    CTAAATAAAA AAGGCATTTT AAAAGTAGGT TTTCCCATTA AAACAGTACA AATGGAGATA 
    GAGGCTGCCT ACATAGCTTT TATAGCATAT GTATTAAACC CATCAAATTT CTGGGTACGC 
    ACTAATGACC ATCGGAATGA ATTTCAAGAA ATAATGAAAA ACATAAACAA ATTTTATGAT 
    TTGTGTGAAA ACGATGAAAT GATTCTAAGA AAACCTGAAC CTGGATTATT TTGTTGTGCT 
    AGATATAGCA AGGACAGACG TTTTTACAGA GCTGTCATCA CTGAAATTAA TGGTTATAAG 
    ATTAATGTTT ATTTTTTGGA TTATGGTAAT ACTGATTCCA TACCATTTTT TGATGTAAAA 
    ATTTTGCTTC CAGAATTTTG TGAGTTGCCT GCCTTAGCGA TGTGCTGTTC ACTTGCACAT 
    ATATTTCCTG TTGAAGATTT ATGGACTAAG GCTGCAATTG ATTATTTTAA AAAATTAGTT 
    TTGAACAAAG CAATTTTGCT TCAGGTTATA GCAAAAAAAG ATGACAAGTA CACTGTAAAT 
    ATTCAAAGTG TTGAAGCCTC AGAAAATATT GATGTTATCT CTCTTATGTT ACAAGCTGGA 
    TATGCAGAAT ATTTTCAAGT AGAACTAGAA TATTTTCCAA AATCTGTAAG TGAATATTCA 
    ATGCTAAATT CAGAATCTAA AAACAAAGTT AATATTAAAA AAGTCATATC TGCCCTTCTT 
    GAAGGACCTA AATCTAAAAA GTACCATTCA AATAACCTGG TGGAAAATAA CTTGTCTTTG 
    CCAAAGTCCC TAGCTGTTAA TATCTCAGAA TTTAAAAATC CTTTCACCTT GTCTGTGGGA 
    CCTGAGTCAT CCTGGCCTTA TAAAGAATAT ATTTTTAGAC CAGGAACAGT TCTTGAAGTT 
    AAATGTTCCT GTTATTATGG CCCAGGTGAC TTTTCATGCC AGCTCCAATG TAAGTCAGAA 
    GACCTAAAAT TACTAATGGA GCAAATTCAG AATTACTATA GTATTCATTC TGATCCTTAT 
    GAGATTGGGC AGACTGCTTG TGTTGCTAAG TATTCTGGGA AGTGGTGTAG AGCTGCTGTT 
    TTGACTCAAG TATCAAAAGA AGTTGACATA GTGTTTGTTG ATTATGGTTA CCAAAAAAGG 
    GTTTTAATTG AAGATCTTTG TGCAATTAAC CCACGTTTTC TCTTGTTAGA AAGCCAAGCC 
    TTCAGATGTT GTCTTAACCA TTTTATTGAG CCTGTTAGTT GTAAATTATT CAGTTGGACA 
    AGAAAAGCAT TCAGAGACTT GTGGAATTTT ATCTCTTCAT CTAGAGGGTT ATTGACTTGT 
    ATCATCTATG CCTTAGTTAT TATACATCCA AACCATTTAT ATAACTTAGT GGATTTACAG 
    TCCTCATTTA CTAGTGCAAA AGAATTTCTT ATGAATCGTG GCTCTGCTCA GTATATCACA 
    TTATCAGAGA CATTCCCATC TTTATTTAGT CTTTACAGTT ACTGTTATTC TTCCTTTAAT 
    ATACAAATTG GAAGTGAAGA AGAAGTATAT ATATCTCACA TATATAGTCC CCAAAAGTTT 
    TATTGCCAGC TTGGCAGAAA TAATAAAGAT CTAGAGATGA TAGAAACAAA AATCACAGAG 
    AGTGTTAACC TCCAAAATTT TCCAAAATAT GATTCTAATA AAATGAGAGT GTGCATATCT 
    AAGTATGTAG AGGATGGTCT CTCATACAGA GCTTTAGCAA TACCAACAGA TTCATCATCT 
    GAGTTTCAAG TCTATTTTGT AGACTTTGGA AATAAGCAAT TAGTAGGAGA AAATATGTTG 
    AGGGCCATTT CAGCTCAGTT TCCAGAGTTG TTGTTTACAC CTATGCAAGC TATTAAGTGT 
    TTTTTGTCAG ATCTTAGGGA TGTAGATATT CCAGCAGAAA TCAGTAGTTG GTTTAAAGAC 
    AATTTCTTGG GAAGATCATT AAAGGCGATA ATATTGTCCC AGGAGTCAGA TGGACAGCTT 
    GGTATAGAAT TGTATGATGG ATCTCAATAT ATAAATGAGA AAATTAAAGT GTTGCTTCAT 
    GCTTATGGAA AAAGACATTG TGACCAAGCA TGCTGCATGG AAAAGAGTAA TAAAATAAAT 
    GAGAATAAGA GATTTACTAC TTCTTTGAAA GGCAAAACAG GAAACAACTA TCGCCATAAT 
    GTGATAAATA AACCTAGTCC AGTAACATAT TCCGAAAGAA AAATAGACCA ATTGATGCAT 
    CCCAAAAATA TACATGCCAG GTTTTTGAAG CCATCAGTTT GTTATAAAAT GGAACCTGTG 
    TCAAAAAACA AAATGAAGAC TTCTTTGAAT GATGGGCTTA AAGGTATAAA AATTGTCCCT 
    GGAGCTGCAC ATATTCTTGA GAACAGGCGT GTGGGCCAAA AATCAGTAAA GGTTGTATCA 
    CAGTCTTTTA TCAGAGCATT AAATCAAACA ACCTCACAAA ACCCATATGA CCTTATTAGG 
    CCACAGATCA AAGACCTTCC TCAACCGCAA ATTTATTTGA ATGCCAAAGT TAAAGGGTAT 
    GTATCTAATA TCAGTAATCC AGCGAATTTC CATATTCAGC TTGCTGAGAA TGAAAGTGTA 
    ATTATCAGAC TTGCTGATGC TCTAAATGCA ACAGCAAGGA GATTGAGAGA GAGAAAATCA 
    GTTAAACCTC TAGTGGGAGA TCTTGTAGTT GCAGAATATT CTGGTGACAA TGCCATTTAC 
    AGGGCAGTTA TTAAGAAAAT TTTGCCAGGA AATTCTTTTG AAGTAGAATT TATTGACTAT 
    GGTAACTCTG CAATAGTAAA CACATCTAAA ATTTACGAAC TTCAGAGGGA ATTTTTAACT 
    GTTCCTCAGC TAGGAATCCA TGCTTTTCTT AGTGGAGTAA AATGGAATGA GCCTGATGAA 
    ATATGGGATG ACAAAACTGT GGATTATTTT ACTTCGAAAG TACATAACAA AACAGTTTAT 
    TGTGAATTTT TGAAAAAGCA TGATCAGAAA TGGGAAGTAA ATATGATTTG TGATGAAAAA 
    TGTGTCATTA ATGAACTACT GAAATGGAAA GCATGTTCAA AACTGCAGAA GTCAGCATTG 
    CAGATGCCTC AGGTTCTCTC TCAAAAGGTG AGGCCAGGTG ATAATGAAAT GAAGAAAGGA 
    AAATCAAATG AGTCTGAAGG TTCTATGAAT TCAAACCAAC AGCTGTTTAA AATTCCTTTG 
    GAAGAATTCA AACTTGGACA ACTTGAAAAA GCTGAAATGC TTAATGTTTC AAAAAGTGGA 
    AGATTTTATG TGAAGTTATC CAAAAATAAA AAAATTTTAT CAGATTTAAT AGTATTAATT 
    ACGAAAGAAG AAAAAAAATC CCCTTTTTTA TCAATGGAAA GTATTGAAAA AGGTTTAGAA 
    TGCTTGGCAA AATCTAAAAA TACCTTGAAA TGGCATCGAT CAAAAGTAGA AGAAAAGTAT 
    GTTGATGATA AAGTACTTGT TTTTTTAGTA GATTGTGGTA TCTATGAAAT AGTACCTGTA 
    TGTAATACCA AGCTGCTTAG TAATGAAATA AGAAACATTC CTAGACAAGC TGTACCTTGT 
    AAATGGATTT GGTTTGAAAA TTCTAAGAAC ATATCATTTG AGTGCTTATT TGCTGATTTG 
    GAAATAAATA TTCTTTTCCT GAAATATTTA GATGCTGTTT GGGAAGTAGA AATTTTGGTA 
    GATGACCTGT TACTTTTGGA ATACTTAAAT TTGAATACAG TTCCTGTTGA AGAAAACAAA 
    CTTAGACTTG CAGAAATTGT TTACAACATT GAATCTAAGA CTCCTGTATC ATCATGCACA 
    ATAAAATCAT TTACTTGGGT TCAATTCCAA AATGATAGGC AGTATTCTGG TATTGCAACT 
    GCTGTTTCTG ATCCATCAGA CTTCAGTATT CAGTTAGAAG ATTTCTTTGA CATAATGAAA 
    TACCTTTTTA TGTTGCTTTC TGATCTACCA GAGACCTTAC AAACATTGCC TCAGGAGTTC 
    ATAATTCCCG GTTCTAGTTG TTTGTTCAAA TATAAATCGG AAGATCAGTG GAATAGAGTA 
    GAAATTTCTG AAGTCTCACC TCAGTCTTTA TGTCTTGTGT TGGTTGACTA TGGATTTTCT 
    TTTTATATAC GTTATTCAGA AATTATAAAT CTTAAAGTTG TTCCTGAGGA ACTTTTGAAT 
    TTGCCAAGGC TGAGTTATCC ATGTATTTTA TATGGTATCT TACCTGCTAA AGGAAAACAT 
    TGGAGTGAAG AAGCCAAAAT CTTTTTTCGA GATTTCCTAA GTAAACCAGA CTTAGTTTTT 
    CAGTTTAGGG AATATCATTC TGAAACAAAA CTGAAAGTAG ATGTCATTCA TGAGAAAAAC 
    AATTTGGCAG ATATATTAGT TGCATCTGGT CTCGCAACTT ATTCTAAAGA TTCACCTCAT 
    CTTGATGCAA TTACTGCTAC TGAATCTGCT AAAAATCCAA TATAA

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

    RefSeq NP_001293066.1
    CDS280..6084
    Translation

    Target ORF information:

    RefSeq Version NM_001306137.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 15 (TDRD15), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001306137.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    ATGGATTCTA CATCTTTCTT ACCAACATTT TTAGATGTGG ATCTGACAAT ATCACATATT 
    AAATGTCTTC CCAAGGATAT TCTGGTGAAA TTTCAAGGCA TAAAGAGTAA TGAATGTGAG 
    TTTGACTACC ATGTATTGCA GAGAGAAATA CAACATACTC CAAAAGTGAA AAATAATGTG 
    GAAATTGATG AATTTTGTTT GGTGGAAGAA AGAGTATCTG GAGAATGGCA GAGAGGAAGA 
    GTCATGGAAA AGAAAAATGA ACTCTATACA GTGCTCCTCA TAGATCGCGG AGAAGAACTA 
    AGAGTTGCTG GTCCACAGAT TGCTTCAGCC TGTGGCAATT TATTTGAGCT ACCGCCACGG 
    GTAGTATTTG GTATTTTTGC GAATATACTA CCAGTTGGGG AAAAATGGTC CCCTAAAGCT 
    TTGAATTATT TCAAGTCATT AGTAGGAATA CAAGTGAAAG GTTATGTGCA AGCTATTTTA 
    CCTCTGCAAA TGTTTCTTTT TGAAGTGCCA AAAATTATAT CTCAGGCTCT CGAGTTACAA 
    TTAGGAAGAC TTGTTGATGG AGATTCATTT CGTCTTATTG TGGAAATGTT AGAAGAATTC 
    CCTCAACAAA TGCCAGATTT ATTACAACAT AAAAGGCCTG AATTGTCATT AGGTAATAAA 
    GATACTTCAC TTGATATTCA GCATGTTCTG GATAAGTTGC AGCCATCTTT GTCAGTAGGA 
    AGTACTGAAA GTGTAAAGGT ATCATCTGCA TTGAGCCCAA GTAAATTTTA TTGTCAGTTA 
    ATTAAATGGA CTCCAGAGCT AGAAAACTTG ACAGCACATA TGACTTTGCA TTATGATACC 
    GTCTGTCAAG AAACTAGTCC CACGTGTGAT AATTTTGGAC TGCTTTGTGT TGCCAGAAGG 
    CGAAATGGAC AGTGGCATAG AGGAATTCTT CAGCAGCTCT TGCCCCCAAA TCAAGTAAAA 
    ATTTGGTTTA TGGATTATGG CAGTAGCGAG GCTATACCCT CAATTTATGT AAAGAAACTT 
    AAACAGGATT TTATTTTAGT ACCATTATTT TCATTTCCAT GTTCTCTGAC ATGTTTGCAC 
    AGTCCAGATA GAGATGCAAG AATATTTCAA CTGAGTATAT TTAAACAGGC CTTATTAGGA 
    CAAGTGGTAT ATGCACACAT TGATTGGTTC AATAAGGATG AGTGTTTGTA TTATGTGACA 
    TTACAAACTC AAGAGTCTAC AGTTAATTCT AAGTGTCTAC TGAAGACTGT AGGCACACAA 
    GTACTTTGTC CGATGTCTGA TTCAAAAATC TCCAATATCT TGAGTGAGAC AAGTGTGTCT 
    GATGTAAACA GCTTTGCAGT TGAGAGTTTT ATGGGAAATA TTGAATGGTC AATAGACTCT 
    CTAAATAAAA AAGGCATTTT AAAAGTAGGT TTTCCCATTA AAACAGTACA AATGGAGATA 
    GAGGCTGCCT ACATAGCTTT TATAGCATAT GTATTAAACC CATCAAATTT CTGGGTACGC 
    ACTAATGACC ATCGGAATGA ATTTCAAGAA ATAATGAAAA ACATAAACAA ATTTTATGAT 
    TTGTGTGAAA ACGATGAAAT GATTCTAAGA AAACCTGAAC CTGGATTATT TTGTTGTGCT 
    AGATATAGCA AGGACAGACG TTTTTACAGA GCTGTCATCA CTGAAATTAA TGGTTATAAG 
    ATTAATGTTT ATTTTTTGGA TTATGGTAAT ACTGATTCCA TACCATTTTT TGATGTAAAA 
    ATTTTGCTTC CAGAATTTTG TGAGTTGCCT GCCTTAGCGA TGTGCTGTTC ACTTGCACAT 
    ATATTTCCTG TTGAAGATTT ATGGACTAAG GCTGCAATTG ATTATTTTAA AAAATTAGTT 
    TTGAACAAAG CAATTTTGCT TCAGGTTATA GCAAAAAAAG ATGACAAGTA CACTGTAAAT 
    ATTCAAAGTG TTGAAGCCTC AGAAAATATT GATGTTATCT CTCTTATGTT ACAAGCTGGA 
    TATGCAGAAT ATTTTCAAGT AGAACTAGAA TATTTTCCAA AATCTGTAAG TGAATATTCA 
    ATGCTAAATT CAGAATCTAA AAACAAAGTT AATATTAAAA AAGTCATATC TGCCCTTCTT 
    GAAGGACCTA AATCTAAAAA GTACCATTCA AATAACCTGG TGGAAAATAA CTTGTCTTTG 
    CCAAAGTCCC TAGCTGTTAA TATCTCAGAA TTTAAAAATC CTTTCACCTT GTCTGTGGGA 
    CCTGAGTCAT CCTGGCCTTA TAAAGAATAT ATTTTTAGAC CAGGAACAGT TCTTGAAGTT 
    AAATGTTCCT GTTATTATGG CCCAGGTGAC TTTTCATGCC AGCTCCAATG TAAGTCAGAA 
    GACCTAAAAT TACTAATGGA GCAAATTCAG AATTACTATA GTATTCATTC TGATCCTTAT 
    GAGATTGGGC AGACTGCTTG TGTTGCTAAG TATTCTGGGA AGTGGTGTAG AGCTGCTGTT 
    TTGACTCAAG TATCAAAAGA AGTTGACATA GTGTTTGTTG ATTATGGTTA CCAAAAAAGG 
    GTTTTAATTG AAGATCTTTG TGCAATTAAC CCACGTTTTC TCTTGTTAGA AAGCCAAGCC 
    TTCAGATGTT GTCTTAACCA TTTTATTGAG CCTGTTAGTT GTAAATTATT CAGTTGGACA 
    AGAAAAGCAT TCAGAGACTT GTGGAATTTT ATCTCTTCAT CTAGAGGGTT ATTGACTTGT 
    ATCATCTATG CCTTAGTTAT TATACATCCA AACCATTTAT ATAACTTAGT GGATTTACAG 
    TCCTCATTTA CTAGTGCAAA AGAATTTCTT ATGAATCGTG GCTCTGCTCA GTATATCACA 
    TTATCAGAGA CATTCCCATC TTTATTTAGT CTTTACAGTT ACTGTTATTC TTCCTTTAAT 
    ATACAAATTG GAAGTGAAGA AGAAGTATAT ATATCTCACA TATATAGTCC CCAAAAGTTT 
    TATTGCCAGC TTGGCAGAAA TAATAAAGAT CTAGAGATGA TAGAAACAAA AATCACAGAG 
    AGTGTTAACC TCCAAAATTT TCCAAAATAT GATTCTAATA AAATGAGAGT GTGCATATCT 
    AAGTATGTAG AGGATGGTCT CTCATACAGA GCTTTAGCAA TACCAACAGA TTCATCATCT 
    GAGTTTCAAG TCTATTTTGT AGACTTTGGA AATAAGCAAT TAGTAGGAGA AAATATGTTG 
    AGGGCCATTT CAGCTCAGTT TCCAGAGTTG TTGTTTACAC CTATGCAAGC TATTAAGTGT 
    TTTTTGTCAG ATCTTAGGGA TGTAGATATT CCAGCAGAAA TCAGTAGTTG GTTTAAAGAC 
    AATTTCTTGG GAAGATCATT AAAGGCGATA ATATTGTCCC AGGAGTCAGA TGGACAGCTT 
    GGTATAGAAT TGTATGATGG ATCTCAATAT ATAAATGAGA AAATTAAAGT GTTGCTTCAT 
    GCTTATGGAA AAAGACATTG TGACCAAGCA TGCTGCATGG AAAAGAGTAA TAAAATAAAT 
    GAGAATAAGA GATTTACTAC TTCTTTGAAA GGCAAAACAG GAAACAACTA TCGCCATAAT 
    GTGATAAATA AACCTAGTCC AGTAACATAT TCCGAAAGAA AAATAGACCA ATTGATGCAT 
    CCCAAAAATA TACATGCCAG GTTTTTGAAG CCATCAGTTT GTTATAAAAT GGAACCTGTG 
    TCAAAAAACA AAATGAAGAC TTCTTTGAAT GATGGGCTTA AAGGTATAAA AATTGTCCCT 
    GGAGCTGCAC ATATTCTTGA GAACAGGCGT GTGGGCCAAA AATCAGTAAA GGTTGTATCA 
    CAGTCTTTTA TCAGAGCATT AAATCAAACA ACCTCACAAA ACCCATATGA CCTTATTAGG 
    CCACAGATCA AAGACCTTCC TCAACCGCAA ATTTATTTGA ATGCCAAAGT TAAAGGGTAT 
    GTATCTAATA TCAGTAATCC AGCGAATTTC CATATTCAGC TTGCTGAGAA TGAAAGTGTA 
    ATTATCAGAC TTGCTGATGC TCTAAATGCA ACAGCAAGGA GATTGAGAGA GAGAAAATCA 
    GTTAAACCTC TAGTGGGAGA TCTTGTAGTT GCAGAATATT CTGGTGACAA TGCCATTTAC 
    AGGGCAGTTA TTAAGAAAAT TTTGCCAGGA AATTCTTTTG AAGTAGAATT TATTGACTAT 
    GGTAACTCTG CAATAGTAAA CACATCTAAA ATTTACGAAC TTCAGAGGGA ATTTTTAACT 
    GTTCCTCAGC TAGGAATCCA TGCTTTTCTT AGTGGAGTAA AATGGAATGA GCCTGATGAA 
    ATATGGGATG ACAAAACTGT GGATTATTTT ACTTCGAAAG TACATAACAA AACAGTTTAT 
    TGTGAATTTT TGAAAAAGCA TGATCAGAAA TGGGAAGTAA ATATGATTTG TGATGAAAAA 
    TGTGTCATTA ATGAACTACT GAAATGGAAA GCATGTTCAA AACTGCAGAA GTCAGCATTG 
    CAGATGCCTC AGGTTCTCTC TCAAAAGGTG AGGCCAGGTG ATAATGAAAT GAAGAAAGGA 
    AAATCAAATG AGTCTGAAGG TTCTATGAAT TCAAACCAAC AGCTGTTTAA AATTCCTTTG 
    GAAGAATTCA AACTTGGACA ACTTGAAAAA GCTGAAATGC TTAATGTTTC AAAAAGTGGA 
    AGATTTTATG TGAAGTTATC CAAAAATAAA AAAATTTTAT CAGATTTAAT AGTATTAATT 
    ACGAAAGAAG AAAAAAAATC CCCTTTTTTA TCAATGGAAA GTATTGAAAA AGGTTTAGAA 
    TGCTTGGCAA AATCTAAAAA TACCTTGAAA TGGCATCGAT CAAAAGTAGA AGAAAAGTAT 
    GTTGATGATA AAGTACTTGT TTTTTTAGTA GATTGTGGTA TCTATGAAAT AGTACCTGTA 
    TGTAATACCA AGCTGCTTAG TAATGAAATA AGAAACATTC CTAGACAAGC TGTACCTTGT 
    AAATGGATTT GGTTTGAAAA TTCTAAGAAC ATATCATTTG AGTGCTTATT TGCTGATTTG 
    GAAATAAATA TTCTTTTCCT GAAATATTTA GATGCTGTTT GGGAAGTAGA AATTTTGGTA 
    GATGACCTGT TACTTTTGGA ATACTTAAAT TTGAATACAG TTCCTGTTGA AGAAAACAAA 
    CTTAGACTTG CAGAAATTGT TTACAACATT GAATCTAAGA CTCCTGTATC ATCATGCACA 
    ATAAAATCAT TTACTTGGGT TCAATTCCAA AATGATAGGC AGTATTCTGG TATTGCAACT 
    GCTGTTTCTG ATCCATCAGA CTTCAGTATT CAGTTAGAAG ATTTCTTTGA CATAATGAAA 
    TACCTTTTTA TGTTGCTTTC TGATCTACCA GAGACCTTAC AAACATTGCC TCAGGAGTTC 
    ATAATTCCCG GTTCTAGTTG TTTGTTCAAA TATAAATCGG AAGATCAGTG GAATAGAGTA 
    GAAATTTCTG AAGTCTCACC TCAGTCTTTA TGTCTTGTGT TGGTTGACTA TGGATTTTCT 
    TTTTATATAC GTTATTCAGA AATTATAAAT CTTAAAGTTG TTCCTGAGGA ACTTTTGAAT 
    TTGCCAAGGC TGAGTTATCC ATGTATTTTA TATGGTATCT TACCTGCTAA AGGAAAACAT 
    TGGAGTGAAG AAGCCAAAAT CTTTTTTCGA GATTTCCTAA GTAAACCAGA CTTAGTTTTT 
    CAGTTTAGGG AATATCATTC TGAAACAAAA CTGAAAGTAG ATGTCATTCA TGAGAAAAAC 
    AATTTGGCAG ATATATTAGT TGCATCTGGT CTCGCAACTT ATTCTAAAGA TTCACCTCAT 
    CTTGATGCAA TTACTGCTAC TGAATCTGCT AAAAATCCAA TATAA

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

    TDRD15 ( NM_001306137.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001293066.1 Homo sapiens tudor domain containing 15 (TDRD15), mRNA.
    Price & Availability↑
    CloneID OHu80940
    Clone ID Related Accession (Same CDS sequence) NM_001306137.1 , XM_011533212.1 , NM_001306137.2
    Accession Version NM_001306137.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5805bp)
    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 2019-04-30
    Organism Homo sapiens(human)
    Product tudor domain-containing protein 15
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from EG328744.1, EG328743.1, AC010872.8 and BU854412.1. On or before Apr 15, 2015 this sequence version replaced XM_011533211.1, XM_011513417.1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## Transcript exon combination :: EG328744.1, EG328743.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2148093 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    ATGGATTCTA CATCTTTCTT ACCAACATTT TTAGATGTGG ATCTGACAAT ATCACATATT 
    AAATGTCTTC CCAAGGATAT TCTGGTGAAA TTTCAAGGCA TAAAGAGTAA TGAATGTGAG 
    TTTGACTACC ATGTATTGCA GAGAGAAATA CAACATACTC CAAAAGTGAA AAATAATGTG 
    GAAATTGATG AATTTTGTTT GGTGGAAGAA AGAGTATCTG GAGAATGGCA GAGAGGAAGA 
    GTCATGGAAA AGAAAAATGA ACTCTATACA GTGCTCCTCA TAGATCGCGG AGAAGAACTA 
    AGAGTTGCTG GTCCACAGAT TGCTTCAGCC TGTGGCAATT TATTTGAGCT ACCGCCACGG 
    GTAGTATTTG GTATTTTTGC GAATATACTA CCAGTTGGGG AAAAATGGTC CCCTAAAGCT 
    TTGAATTATT TCAAGTCATT AGTAGGAATA CAAGTGAAAG GTTATGTGCA AGCTATTTTA 
    CCTCTGCAAA TGTTTCTTTT TGAAGTGCCA AAAATTATAT CTCAGGCTCT CGAGTTACAA 
    TTAGGAAGAC TTGTTGATGG AGATTCATTT CGTCTTATTG TGGAAATGTT AGAAGAATTC 
    CCTCAACAAA TGCCAGATTT ATTACAACAT AAAAGGCCTG AATTGTCATT AGGTAATAAA 
    GATACTTCAC TTGATATTCA GCATGTTCTG GATAAGTTGC AGCCATCTTT GTCAGTAGGA 
    AGTACTGAAA GTGTAAAGGT ATCATCTGCA TTGAGCCCAA GTAAATTTTA TTGTCAGTTA 
    ATTAAATGGA CTCCAGAGCT AGAAAACTTG ACAGCACATA TGACTTTGCA TTATGATACC 
    GTCTGTCAAG AAACTAGTCC CACGTGTGAT AATTTTGGAC TGCTTTGTGT TGCCAGAAGG 
    CGAAATGGAC AGTGGCATAG AGGAATTCTT CAGCAGCTCT TGCCCCCAAA TCAAGTAAAA 
    ATTTGGTTTA TGGATTATGG CAGTAGCGAG GCTATACCCT CAATTTATGT AAAGAAACTT 
    AAACAGGATT TTATTTTAGT ACCATTATTT TCATTTCCAT GTTCTCTGAC ATGTTTGCAC 
    AGTCCAGATA GAGATGCAAG AATATTTCAA CTGAGTATAT TTAAACAGGC CTTATTAGGA 
    CAAGTGGTAT ATGCACACAT TGATTGGTTC AATAAGGATG AGTGTTTGTA TTATGTGACA 
    TTACAAACTC AAGAGTCTAC AGTTAATTCT AAGTGTCTAC TGAAGACTGT AGGCACACAA 
    GTACTTTGTC CGATGTCTGA TTCAAAAATC TCCAATATCT TGAGTGAGAC AAGTGTGTCT 
    GATGTAAACA GCTTTGCAGT TGAGAGTTTT ATGGGAAATA TTGAATGGTC AATAGACTCT 
    CTAAATAAAA AAGGCATTTT AAAAGTAGGT TTTCCCATTA AAACAGTACA AATGGAGATA 
    GAGGCTGCCT ACATAGCTTT TATAGCATAT GTATTAAACC CATCAAATTT CTGGGTACGC 
    ACTAATGACC ATCGGAATGA ATTTCAAGAA ATAATGAAAA ACATAAACAA ATTTTATGAT 
    TTGTGTGAAA ACGATGAAAT GATTCTAAGA AAACCTGAAC CTGGATTATT TTGTTGTGCT 
    AGATATAGCA AGGACAGACG TTTTTACAGA GCTGTCATCA CTGAAATTAA TGGTTATAAG 
    ATTAATGTTT ATTTTTTGGA TTATGGTAAT ACTGATTCCA TACCATTTTT TGATGTAAAA 
    ATTTTGCTTC CAGAATTTTG TGAGTTGCCT GCCTTAGCGA TGTGCTGTTC ACTTGCACAT 
    ATATTTCCTG TTGAAGATTT ATGGACTAAG GCTGCAATTG ATTATTTTAA AAAATTAGTT 
    TTGAACAAAG CAATTTTGCT TCAGGTTATA GCAAAAAAAG ATGACAAGTA CACTGTAAAT 
    ATTCAAAGTG TTGAAGCCTC AGAAAATATT GATGTTATCT CTCTTATGTT ACAAGCTGGA 
    TATGCAGAAT ATTTTCAAGT AGAACTAGAA TATTTTCCAA AATCTGTAAG TGAATATTCA 
    ATGCTAAATT CAGAATCTAA AAACAAAGTT AATATTAAAA AAGTCATATC TGCCCTTCTT 
    GAAGGACCTA AATCTAAAAA GTACCATTCA AATAACCTGG TGGAAAATAA CTTGTCTTTG 
    CCAAAGTCCC TAGCTGTTAA TATCTCAGAA TTTAAAAATC CTTTCACCTT GTCTGTGGGA 
    CCTGAGTCAT CCTGGCCTTA TAAAGAATAT ATTTTTAGAC CAGGAACAGT TCTTGAAGTT 
    AAATGTTCCT GTTATTATGG CCCAGGTGAC TTTTCATGCC AGCTCCAATG TAAGTCAGAA 
    GACCTAAAAT TACTAATGGA GCAAATTCAG AATTACTATA GTATTCATTC TGATCCTTAT 
    GAGATTGGGC AGACTGCTTG TGTTGCTAAG TATTCTGGGA AGTGGTGTAG AGCTGCTGTT 
    TTGACTCAAG TATCAAAAGA AGTTGACATA GTGTTTGTTG ATTATGGTTA CCAAAAAAGG 
    GTTTTAATTG AAGATCTTTG TGCAATTAAC CCACGTTTTC TCTTGTTAGA AAGCCAAGCC 
    TTCAGATGTT GTCTTAACCA TTTTATTGAG CCTGTTAGTT GTAAATTATT CAGTTGGACA 
    AGAAAAGCAT TCAGAGACTT GTGGAATTTT ATCTCTTCAT CTAGAGGGTT ATTGACTTGT 
    ATCATCTATG CCTTAGTTAT TATACATCCA AACCATTTAT ATAACTTAGT GGATTTACAG 
    TCCTCATTTA CTAGTGCAAA AGAATTTCTT ATGAATCGTG GCTCTGCTCA GTATATCACA 
    TTATCAGAGA CATTCCCATC TTTATTTAGT CTTTACAGTT ACTGTTATTC TTCCTTTAAT 
    ATACAAATTG GAAGTGAAGA AGAAGTATAT ATATCTCACA TATATAGTCC CCAAAAGTTT 
    TATTGCCAGC TTGGCAGAAA TAATAAAGAT CTAGAGATGA TAGAAACAAA AATCACAGAG 
    AGTGTTAACC TCCAAAATTT TCCAAAATAT GATTCTAATA AAATGAGAGT GTGCATATCT 
    AAGTATGTAG AGGATGGTCT CTCATACAGA GCTTTAGCAA TACCAACAGA TTCATCATCT 
    GAGTTTCAAG TCTATTTTGT AGACTTTGGA AATAAGCAAT TAGTAGGAGA AAATATGTTG 
    AGGGCCATTT CAGCTCAGTT TCCAGAGTTG TTGTTTACAC CTATGCAAGC TATTAAGTGT 
    TTTTTGTCAG ATCTTAGGGA TGTAGATATT CCAGCAGAAA TCAGTAGTTG GTTTAAAGAC 
    AATTTCTTGG GAAGATCATT AAAGGCGATA ATATTGTCCC AGGAGTCAGA TGGACAGCTT 
    GGTATAGAAT TGTATGATGG ATCTCAATAT ATAAATGAGA AAATTAAAGT GTTGCTTCAT 
    GCTTATGGAA AAAGACATTG TGACCAAGCA TGCTGCATGG AAAAGAGTAA TAAAATAAAT 
    GAGAATAAGA GATTTACTAC TTCTTTGAAA GGCAAAACAG GAAACAACTA TCGCCATAAT 
    GTGATAAATA AACCTAGTCC AGTAACATAT TCCGAAAGAA AAATAGACCA ATTGATGCAT 
    CCCAAAAATA TACATGCCAG GTTTTTGAAG CCATCAGTTT GTTATAAAAT GGAACCTGTG 
    TCAAAAAACA AAATGAAGAC TTCTTTGAAT GATGGGCTTA AAGGTATAAA AATTGTCCCT 
    GGAGCTGCAC ATATTCTTGA GAACAGGCGT GTGGGCCAAA AATCAGTAAA GGTTGTATCA 
    CAGTCTTTTA TCAGAGCATT AAATCAAACA ACCTCACAAA ACCCATATGA CCTTATTAGG 
    CCACAGATCA AAGACCTTCC TCAACCGCAA ATTTATTTGA ATGCCAAAGT TAAAGGGTAT 
    GTATCTAATA TCAGTAATCC AGCGAATTTC CATATTCAGC TTGCTGAGAA TGAAAGTGTA 
    ATTATCAGAC TTGCTGATGC TCTAAATGCA ACAGCAAGGA GATTGAGAGA GAGAAAATCA 
    GTTAAACCTC TAGTGGGAGA TCTTGTAGTT GCAGAATATT CTGGTGACAA TGCCATTTAC 
    AGGGCAGTTA TTAAGAAAAT TTTGCCAGGA AATTCTTTTG AAGTAGAATT TATTGACTAT 
    GGTAACTCTG CAATAGTAAA CACATCTAAA ATTTACGAAC TTCAGAGGGA ATTTTTAACT 
    GTTCCTCAGC TAGGAATCCA TGCTTTTCTT AGTGGAGTAA AATGGAATGA GCCTGATGAA 
    ATATGGGATG ACAAAACTGT GGATTATTTT ACTTCGAAAG TACATAACAA AACAGTTTAT 
    TGTGAATTTT TGAAAAAGCA TGATCAGAAA TGGGAAGTAA ATATGATTTG TGATGAAAAA 
    TGTGTCATTA ATGAACTACT GAAATGGAAA GCATGTTCAA AACTGCAGAA GTCAGCATTG 
    CAGATGCCTC AGGTTCTCTC TCAAAAGGTG AGGCCAGGTG ATAATGAAAT GAAGAAAGGA 
    AAATCAAATG AGTCTGAAGG TTCTATGAAT TCAAACCAAC AGCTGTTTAA AATTCCTTTG 
    GAAGAATTCA AACTTGGACA ACTTGAAAAA GCTGAAATGC TTAATGTTTC AAAAAGTGGA 
    AGATTTTATG TGAAGTTATC CAAAAATAAA AAAATTTTAT CAGATTTAAT AGTATTAATT 
    ACGAAAGAAG AAAAAAAATC CCCTTTTTTA TCAATGGAAA GTATTGAAAA AGGTTTAGAA 
    TGCTTGGCAA AATCTAAAAA TACCTTGAAA TGGCATCGAT CAAAAGTAGA AGAAAAGTAT 
    GTTGATGATA AAGTACTTGT TTTTTTAGTA GATTGTGGTA TCTATGAAAT AGTACCTGTA 
    TGTAATACCA AGCTGCTTAG TAATGAAATA AGAAACATTC CTAGACAAGC TGTACCTTGT 
    AAATGGATTT GGTTTGAAAA TTCTAAGAAC ATATCATTTG AGTGCTTATT TGCTGATTTG 
    GAAATAAATA TTCTTTTCCT GAAATATTTA GATGCTGTTT GGGAAGTAGA AATTTTGGTA 
    GATGACCTGT TACTTTTGGA ATACTTAAAT TTGAATACAG TTCCTGTTGA AGAAAACAAA 
    CTTAGACTTG CAGAAATTGT TTACAACATT GAATCTAAGA CTCCTGTATC ATCATGCACA 
    ATAAAATCAT TTACTTGGGT TCAATTCCAA AATGATAGGC AGTATTCTGG TATTGCAACT 
    GCTGTTTCTG ATCCATCAGA CTTCAGTATT CAGTTAGAAG ATTTCTTTGA CATAATGAAA 
    TACCTTTTTA TGTTGCTTTC TGATCTACCA GAGACCTTAC AAACATTGCC TCAGGAGTTC 
    ATAATTCCCG GTTCTAGTTG TTTGTTCAAA TATAAATCGG AAGATCAGTG GAATAGAGTA 
    GAAATTTCTG AAGTCTCACC TCAGTCTTTA TGTCTTGTGT TGGTTGACTA TGGATTTTCT 
    TTTTATATAC GTTATTCAGA AATTATAAAT CTTAAAGTTG TTCCTGAGGA ACTTTTGAAT 
    TTGCCAAGGC TGAGTTATCC ATGTATTTTA TATGGTATCT TACCTGCTAA AGGAAAACAT 
    TGGAGTGAAG AAGCCAAAAT CTTTTTTCGA GATTTCCTAA GTAAACCAGA CTTAGTTTTT 
    CAGTTTAGGG AATATCATTC TGAAACAAAA CTGAAAGTAG ATGTCATTCA TGAGAAAAAC 
    AATTTGGCAG ATATATTAGT TGCATCTGGT CTCGCAACTT ATTCTAAAGA TTCACCTCAT 
    CTTGATGCAA TTACTGCTAC TGAATCTGCT AAAAATCCAA TATAA

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

    RefSeq NP_001293066.1
    CDS262..6066
    Translation

    Target ORF information:

    RefSeq Version NM_001306137.1
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 15 (TDRD15), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001306137.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    ATGGATTCTA CATCTTTCTT ACCAACATTT TTAGATGTGG ATCTGACAAT ATCACATATT 
    AAATGTCTTC CCAAGGATAT TCTGGTGAAA TTTCAAGGCA TAAAGAGTAA TGAATGTGAG 
    TTTGACTACC ATGTATTGCA GAGAGAAATA CAACATACTC CAAAAGTGAA AAATAATGTG 
    GAAATTGATG AATTTTGTTT GGTGGAAGAA AGAGTATCTG GAGAATGGCA GAGAGGAAGA 
    GTCATGGAAA AGAAAAATGA ACTCTATACA GTGCTCCTCA TAGATCGCGG AGAAGAACTA 
    AGAGTTGCTG GTCCACAGAT TGCTTCAGCC TGTGGCAATT TATTTGAGCT ACCGCCACGG 
    GTAGTATTTG GTATTTTTGC GAATATACTA CCAGTTGGGG AAAAATGGTC CCCTAAAGCT 
    TTGAATTATT TCAAGTCATT AGTAGGAATA CAAGTGAAAG GTTATGTGCA AGCTATTTTA 
    CCTCTGCAAA TGTTTCTTTT TGAAGTGCCA AAAATTATAT CTCAGGCTCT CGAGTTACAA 
    TTAGGAAGAC TTGTTGATGG AGATTCATTT CGTCTTATTG TGGAAATGTT AGAAGAATTC 
    CCTCAACAAA TGCCAGATTT ATTACAACAT AAAAGGCCTG AATTGTCATT AGGTAATAAA 
    GATACTTCAC TTGATATTCA GCATGTTCTG GATAAGTTGC AGCCATCTTT GTCAGTAGGA 
    AGTACTGAAA GTGTAAAGGT ATCATCTGCA TTGAGCCCAA GTAAATTTTA TTGTCAGTTA 
    ATTAAATGGA CTCCAGAGCT AGAAAACTTG ACAGCACATA TGACTTTGCA TTATGATACC 
    GTCTGTCAAG AAACTAGTCC CACGTGTGAT AATTTTGGAC TGCTTTGTGT TGCCAGAAGG 
    CGAAATGGAC AGTGGCATAG AGGAATTCTT CAGCAGCTCT TGCCCCCAAA TCAAGTAAAA 
    ATTTGGTTTA TGGATTATGG CAGTAGCGAG GCTATACCCT CAATTTATGT AAAGAAACTT 
    AAACAGGATT TTATTTTAGT ACCATTATTT TCATTTCCAT GTTCTCTGAC ATGTTTGCAC 
    AGTCCAGATA GAGATGCAAG AATATTTCAA CTGAGTATAT TTAAACAGGC CTTATTAGGA 
    CAAGTGGTAT ATGCACACAT TGATTGGTTC AATAAGGATG AGTGTTTGTA TTATGTGACA 
    TTACAAACTC AAGAGTCTAC AGTTAATTCT AAGTGTCTAC TGAAGACTGT AGGCACACAA 
    GTACTTTGTC CGATGTCTGA TTCAAAAATC TCCAATATCT TGAGTGAGAC AAGTGTGTCT 
    GATGTAAACA GCTTTGCAGT TGAGAGTTTT ATGGGAAATA TTGAATGGTC AATAGACTCT 
    CTAAATAAAA AAGGCATTTT AAAAGTAGGT TTTCCCATTA AAACAGTACA AATGGAGATA 
    GAGGCTGCCT ACATAGCTTT TATAGCATAT GTATTAAACC CATCAAATTT CTGGGTACGC 
    ACTAATGACC ATCGGAATGA ATTTCAAGAA ATAATGAAAA ACATAAACAA ATTTTATGAT 
    TTGTGTGAAA ACGATGAAAT GATTCTAAGA AAACCTGAAC CTGGATTATT TTGTTGTGCT 
    AGATATAGCA AGGACAGACG TTTTTACAGA GCTGTCATCA CTGAAATTAA TGGTTATAAG 
    ATTAATGTTT ATTTTTTGGA TTATGGTAAT ACTGATTCCA TACCATTTTT TGATGTAAAA 
    ATTTTGCTTC CAGAATTTTG TGAGTTGCCT GCCTTAGCGA TGTGCTGTTC ACTTGCACAT 
    ATATTTCCTG TTGAAGATTT ATGGACTAAG GCTGCAATTG ATTATTTTAA AAAATTAGTT 
    TTGAACAAAG CAATTTTGCT TCAGGTTATA GCAAAAAAAG ATGACAAGTA CACTGTAAAT 
    ATTCAAAGTG TTGAAGCCTC AGAAAATATT GATGTTATCT CTCTTATGTT ACAAGCTGGA 
    TATGCAGAAT ATTTTCAAGT AGAACTAGAA TATTTTCCAA AATCTGTAAG TGAATATTCA 
    ATGCTAAATT CAGAATCTAA AAACAAAGTT AATATTAAAA AAGTCATATC TGCCCTTCTT 
    GAAGGACCTA AATCTAAAAA GTACCATTCA AATAACCTGG TGGAAAATAA CTTGTCTTTG 
    CCAAAGTCCC TAGCTGTTAA TATCTCAGAA TTTAAAAATC CTTTCACCTT GTCTGTGGGA 
    CCTGAGTCAT CCTGGCCTTA TAAAGAATAT ATTTTTAGAC CAGGAACAGT TCTTGAAGTT 
    AAATGTTCCT GTTATTATGG CCCAGGTGAC TTTTCATGCC AGCTCCAATG TAAGTCAGAA 
    GACCTAAAAT TACTAATGGA GCAAATTCAG AATTACTATA GTATTCATTC TGATCCTTAT 
    GAGATTGGGC AGACTGCTTG TGTTGCTAAG TATTCTGGGA AGTGGTGTAG AGCTGCTGTT 
    TTGACTCAAG TATCAAAAGA AGTTGACATA GTGTTTGTTG ATTATGGTTA CCAAAAAAGG 
    GTTTTAATTG AAGATCTTTG TGCAATTAAC CCACGTTTTC TCTTGTTAGA AAGCCAAGCC 
    TTCAGATGTT GTCTTAACCA TTTTATTGAG CCTGTTAGTT GTAAATTATT CAGTTGGACA 
    AGAAAAGCAT TCAGAGACTT GTGGAATTTT ATCTCTTCAT CTAGAGGGTT ATTGACTTGT 
    ATCATCTATG CCTTAGTTAT TATACATCCA AACCATTTAT ATAACTTAGT GGATTTACAG 
    TCCTCATTTA CTAGTGCAAA AGAATTTCTT ATGAATCGTG GCTCTGCTCA GTATATCACA 
    TTATCAGAGA CATTCCCATC TTTATTTAGT CTTTACAGTT ACTGTTATTC TTCCTTTAAT 
    ATACAAATTG GAAGTGAAGA AGAAGTATAT ATATCTCACA TATATAGTCC CCAAAAGTTT 
    TATTGCCAGC TTGGCAGAAA TAATAAAGAT CTAGAGATGA TAGAAACAAA AATCACAGAG 
    AGTGTTAACC TCCAAAATTT TCCAAAATAT GATTCTAATA AAATGAGAGT GTGCATATCT 
    AAGTATGTAG AGGATGGTCT CTCATACAGA GCTTTAGCAA TACCAACAGA TTCATCATCT 
    GAGTTTCAAG TCTATTTTGT AGACTTTGGA AATAAGCAAT TAGTAGGAGA AAATATGTTG 
    AGGGCCATTT CAGCTCAGTT TCCAGAGTTG TTGTTTACAC CTATGCAAGC TATTAAGTGT 
    TTTTTGTCAG ATCTTAGGGA TGTAGATATT CCAGCAGAAA TCAGTAGTTG GTTTAAAGAC 
    AATTTCTTGG GAAGATCATT AAAGGCGATA ATATTGTCCC AGGAGTCAGA TGGACAGCTT 
    GGTATAGAAT TGTATGATGG ATCTCAATAT ATAAATGAGA AAATTAAAGT GTTGCTTCAT 
    GCTTATGGAA AAAGACATTG TGACCAAGCA TGCTGCATGG AAAAGAGTAA TAAAATAAAT 
    GAGAATAAGA GATTTACTAC TTCTTTGAAA GGCAAAACAG GAAACAACTA TCGCCATAAT 
    GTGATAAATA AACCTAGTCC AGTAACATAT TCCGAAAGAA AAATAGACCA ATTGATGCAT 
    CCCAAAAATA TACATGCCAG GTTTTTGAAG CCATCAGTTT GTTATAAAAT GGAACCTGTG 
    TCAAAAAACA AAATGAAGAC TTCTTTGAAT GATGGGCTTA AAGGTATAAA AATTGTCCCT 
    GGAGCTGCAC ATATTCTTGA GAACAGGCGT GTGGGCCAAA AATCAGTAAA GGTTGTATCA 
    CAGTCTTTTA TCAGAGCATT AAATCAAACA ACCTCACAAA ACCCATATGA CCTTATTAGG 
    CCACAGATCA AAGACCTTCC TCAACCGCAA ATTTATTTGA ATGCCAAAGT TAAAGGGTAT 
    GTATCTAATA TCAGTAATCC AGCGAATTTC CATATTCAGC TTGCTGAGAA TGAAAGTGTA 
    ATTATCAGAC TTGCTGATGC TCTAAATGCA ACAGCAAGGA GATTGAGAGA GAGAAAATCA 
    GTTAAACCTC TAGTGGGAGA TCTTGTAGTT GCAGAATATT CTGGTGACAA TGCCATTTAC 
    AGGGCAGTTA TTAAGAAAAT TTTGCCAGGA AATTCTTTTG AAGTAGAATT TATTGACTAT 
    GGTAACTCTG CAATAGTAAA CACATCTAAA ATTTACGAAC TTCAGAGGGA ATTTTTAACT 
    GTTCCTCAGC TAGGAATCCA TGCTTTTCTT AGTGGAGTAA AATGGAATGA GCCTGATGAA 
    ATATGGGATG ACAAAACTGT GGATTATTTT ACTTCGAAAG TACATAACAA AACAGTTTAT 
    TGTGAATTTT TGAAAAAGCA TGATCAGAAA TGGGAAGTAA ATATGATTTG TGATGAAAAA 
    TGTGTCATTA ATGAACTACT GAAATGGAAA GCATGTTCAA AACTGCAGAA GTCAGCATTG 
    CAGATGCCTC AGGTTCTCTC TCAAAAGGTG AGGCCAGGTG ATAATGAAAT GAAGAAAGGA 
    AAATCAAATG AGTCTGAAGG TTCTATGAAT TCAAACCAAC AGCTGTTTAA AATTCCTTTG 
    GAAGAATTCA AACTTGGACA ACTTGAAAAA GCTGAAATGC TTAATGTTTC AAAAAGTGGA 
    AGATTTTATG TGAAGTTATC CAAAAATAAA AAAATTTTAT CAGATTTAAT AGTATTAATT 
    ACGAAAGAAG AAAAAAAATC CCCTTTTTTA TCAATGGAAA GTATTGAAAA AGGTTTAGAA 
    TGCTTGGCAA AATCTAAAAA TACCTTGAAA TGGCATCGAT CAAAAGTAGA AGAAAAGTAT 
    GTTGATGATA AAGTACTTGT TTTTTTAGTA GATTGTGGTA TCTATGAAAT AGTACCTGTA 
    TGTAATACCA AGCTGCTTAG TAATGAAATA AGAAACATTC CTAGACAAGC TGTACCTTGT 
    AAATGGATTT GGTTTGAAAA TTCTAAGAAC ATATCATTTG AGTGCTTATT TGCTGATTTG 
    GAAATAAATA TTCTTTTCCT GAAATATTTA GATGCTGTTT GGGAAGTAGA AATTTTGGTA 
    GATGACCTGT TACTTTTGGA ATACTTAAAT TTGAATACAG TTCCTGTTGA AGAAAACAAA 
    CTTAGACTTG CAGAAATTGT TTACAACATT GAATCTAAGA CTCCTGTATC ATCATGCACA 
    ATAAAATCAT TTACTTGGGT TCAATTCCAA AATGATAGGC AGTATTCTGG TATTGCAACT 
    GCTGTTTCTG ATCCATCAGA CTTCAGTATT CAGTTAGAAG ATTTCTTTGA CATAATGAAA 
    TACCTTTTTA TGTTGCTTTC TGATCTACCA GAGACCTTAC AAACATTGCC TCAGGAGTTC 
    ATAATTCCCG GTTCTAGTTG TTTGTTCAAA TATAAATCGG AAGATCAGTG GAATAGAGTA 
    GAAATTTCTG AAGTCTCACC TCAGTCTTTA TGTCTTGTGT TGGTTGACTA TGGATTTTCT 
    TTTTATATAC GTTATTCAGA AATTATAAAT CTTAAAGTTG TTCCTGAGGA ACTTTTGAAT 
    TTGCCAAGGC TGAGTTATCC ATGTATTTTA TATGGTATCT TACCTGCTAA AGGAAAACAT 
    TGGAGTGAAG AAGCCAAAAT CTTTTTTCGA GATTTCCTAA GTAAACCAGA CTTAGTTTTT 
    CAGTTTAGGG AATATCATTC TGAAACAAAA CTGAAAGTAG ATGTCATTCA TGAGAAAAAC 
    AATTTGGCAG ATATATTAGT TGCATCTGGT CTCGCAACTT ATTCTAAAGA TTCACCTCAT 
    CTTGATGCAA TTACTGCTAC TGAATCTGCT AAAAATCCAA TATAA

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

    TDRD15 ( XM_011533212.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011531514.1 Homo sapiens tudor domain containing 15 (TDRD15), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu80940
    Clone ID Related Accession (Same CDS sequence) NM_001306137.1 , XM_011533212.1 , NM_001306137.2
    Accession Version XM_011533212.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5805bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product tudor domain-containing protein 15 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    ATGGATTCTA CATCTTTCTT ACCAACATTT TTAGATGTGG ATCTGACAAT ATCACATATT 
    AAATGTCTTC CCAAGGATAT TCTGGTGAAA TTTCAAGGCA TAAAGAGTAA TGAATGTGAG 
    TTTGACTACC ATGTATTGCA GAGAGAAATA CAACATACTC CAAAAGTGAA AAATAATGTG 
    GAAATTGATG AATTTTGTTT GGTGGAAGAA AGAGTATCTG GAGAATGGCA GAGAGGAAGA 
    GTCATGGAAA AGAAAAATGA ACTCTATACA GTGCTCCTCA TAGATCGCGG AGAAGAACTA 
    AGAGTTGCTG GTCCACAGAT TGCTTCAGCC TGTGGCAATT TATTTGAGCT ACCGCCACGG 
    GTAGTATTTG GTATTTTTGC GAATATACTA CCAGTTGGGG AAAAATGGTC CCCTAAAGCT 
    TTGAATTATT TCAAGTCATT AGTAGGAATA CAAGTGAAAG GTTATGTGCA AGCTATTTTA 
    CCTCTGCAAA TGTTTCTTTT TGAAGTGCCA AAAATTATAT CTCAGGCTCT CGAGTTACAA 
    TTAGGAAGAC TTGTTGATGG AGATTCATTT CGTCTTATTG TGGAAATGTT AGAAGAATTC 
    CCTCAACAAA TGCCAGATTT ATTACAACAT AAAAGGCCTG AATTGTCATT AGGTAATAAA 
    GATACTTCAC TTGATATTCA GCATGTTCTG GATAAGTTGC AGCCATCTTT GTCAGTAGGA 
    AGTACTGAAA GTGTAAAGGT ATCATCTGCA TTGAGCCCAA GTAAATTTTA TTGTCAGTTA 
    ATTAAATGGA CTCCAGAGCT AGAAAACTTG ACAGCACATA TGACTTTGCA TTATGATACC 
    GTCTGTCAAG AAACTAGTCC CACGTGTGAT AATTTTGGAC TGCTTTGTGT TGCCAGAAGG 
    CGAAATGGAC AGTGGCATAG AGGAATTCTT CAGCAGCTCT TGCCCCCAAA TCAAGTAAAA 
    ATTTGGTTTA TGGATTATGG CAGTAGCGAG GCTATACCCT CAATTTATGT AAAGAAACTT 
    AAACAGGATT TTATTTTAGT ACCATTATTT TCATTTCCAT GTTCTCTGAC ATGTTTGCAC 
    AGTCCAGATA GAGATGCAAG AATATTTCAA CTGAGTATAT TTAAACAGGC CTTATTAGGA 
    CAAGTGGTAT ATGCACACAT TGATTGGTTC AATAAGGATG AGTGTTTGTA TTATGTGACA 
    TTACAAACTC AAGAGTCTAC AGTTAATTCT AAGTGTCTAC TGAAGACTGT AGGCACACAA 
    GTACTTTGTC CGATGTCTGA TTCAAAAATC TCCAATATCT TGAGTGAGAC AAGTGTGTCT 
    GATGTAAACA GCTTTGCAGT TGAGAGTTTT ATGGGAAATA TTGAATGGTC AATAGACTCT 
    CTAAATAAAA AAGGCATTTT AAAAGTAGGT TTTCCCATTA AAACAGTACA AATGGAGATA 
    GAGGCTGCCT ACATAGCTTT TATAGCATAT GTATTAAACC CATCAAATTT CTGGGTACGC 
    ACTAATGACC ATCGGAATGA ATTTCAAGAA ATAATGAAAA ACATAAACAA ATTTTATGAT 
    TTGTGTGAAA ACGATGAAAT GATTCTAAGA AAACCTGAAC CTGGATTATT TTGTTGTGCT 
    AGATATAGCA AGGACAGACG TTTTTACAGA GCTGTCATCA CTGAAATTAA TGGTTATAAG 
    ATTAATGTTT ATTTTTTGGA TTATGGTAAT ACTGATTCCA TACCATTTTT TGATGTAAAA 
    ATTTTGCTTC CAGAATTTTG TGAGTTGCCT GCCTTAGCGA TGTGCTGTTC ACTTGCACAT 
    ATATTTCCTG TTGAAGATTT ATGGACTAAG GCTGCAATTG ATTATTTTAA AAAATTAGTT 
    TTGAACAAAG CAATTTTGCT TCAGGTTATA GCAAAAAAAG ATGACAAGTA CACTGTAAAT 
    ATTCAAAGTG TTGAAGCCTC AGAAAATATT GATGTTATCT CTCTTATGTT ACAAGCTGGA 
    TATGCAGAAT ATTTTCAAGT AGAACTAGAA TATTTTCCAA AATCTGTAAG TGAATATTCA 
    ATGCTAAATT CAGAATCTAA AAACAAAGTT AATATTAAAA AAGTCATATC TGCCCTTCTT 
    GAAGGACCTA AATCTAAAAA GTACCATTCA AATAACCTGG TGGAAAATAA CTTGTCTTTG 
    CCAAAGTCCC TAGCTGTTAA TATCTCAGAA TTTAAAAATC CTTTCACCTT GTCTGTGGGA 
    CCTGAGTCAT CCTGGCCTTA TAAAGAATAT ATTTTTAGAC CAGGAACAGT TCTTGAAGTT 
    AAATGTTCCT GTTATTATGG CCCAGGTGAC TTTTCATGCC AGCTCCAATG TAAGTCAGAA 
    GACCTAAAAT TACTAATGGA GCAAATTCAG AATTACTATA GTATTCATTC TGATCCTTAT 
    GAGATTGGGC AGACTGCTTG TGTTGCTAAG TATTCTGGGA AGTGGTGTAG AGCTGCTGTT 
    TTGACTCAAG TATCAAAAGA AGTTGACATA GTGTTTGTTG ATTATGGTTA CCAAAAAAGG 
    GTTTTAATTG AAGATCTTTG TGCAATTAAC CCACGTTTTC TCTTGTTAGA AAGCCAAGCC 
    TTCAGATGTT GTCTTAACCA TTTTATTGAG CCTGTTAGTT GTAAATTATT CAGTTGGACA 
    AGAAAAGCAT TCAGAGACTT GTGGAATTTT ATCTCTTCAT CTAGAGGGTT ATTGACTTGT 
    ATCATCTATG CCTTAGTTAT TATACATCCA AACCATTTAT ATAACTTAGT GGATTTACAG 
    TCCTCATTTA CTAGTGCAAA AGAATTTCTT ATGAATCGTG GCTCTGCTCA GTATATCACA 
    TTATCAGAGA CATTCCCATC TTTATTTAGT CTTTACAGTT ACTGTTATTC TTCCTTTAAT 
    ATACAAATTG GAAGTGAAGA AGAAGTATAT ATATCTCACA TATATAGTCC CCAAAAGTTT 
    TATTGCCAGC TTGGCAGAAA TAATAAAGAT CTAGAGATGA TAGAAACAAA AATCACAGAG 
    AGTGTTAACC TCCAAAATTT TCCAAAATAT GATTCTAATA AAATGAGAGT GTGCATATCT 
    AAGTATGTAG AGGATGGTCT CTCATACAGA GCTTTAGCAA TACCAACAGA TTCATCATCT 
    GAGTTTCAAG TCTATTTTGT AGACTTTGGA AATAAGCAAT TAGTAGGAGA AAATATGTTG 
    AGGGCCATTT CAGCTCAGTT TCCAGAGTTG TTGTTTACAC CTATGCAAGC TATTAAGTGT 
    TTTTTGTCAG ATCTTAGGGA TGTAGATATT CCAGCAGAAA TCAGTAGTTG GTTTAAAGAC 
    AATTTCTTGG GAAGATCATT AAAGGCGATA ATATTGTCCC AGGAGTCAGA TGGACAGCTT 
    GGTATAGAAT TGTATGATGG ATCTCAATAT ATAAATGAGA AAATTAAAGT GTTGCTTCAT 
    GCTTATGGAA AAAGACATTG TGACCAAGCA TGCTGCATGG AAAAGAGTAA TAAAATAAAT 
    GAGAATAAGA GATTTACTAC TTCTTTGAAA GGCAAAACAG GAAACAACTA TCGCCATAAT 
    GTGATAAATA AACCTAGTCC AGTAACATAT TCCGAAAGAA AAATAGACCA ATTGATGCAT 
    CCCAAAAATA TACATGCCAG GTTTTTGAAG CCATCAGTTT GTTATAAAAT GGAACCTGTG 
    TCAAAAAACA AAATGAAGAC TTCTTTGAAT GATGGGCTTA AAGGTATAAA AATTGTCCCT 
    GGAGCTGCAC ATATTCTTGA GAACAGGCGT GTGGGCCAAA AATCAGTAAA GGTTGTATCA 
    CAGTCTTTTA TCAGAGCATT AAATCAAACA ACCTCACAAA ACCCATATGA CCTTATTAGG 
    CCACAGATCA AAGACCTTCC TCAACCGCAA ATTTATTTGA ATGCCAAAGT TAAAGGGTAT 
    GTATCTAATA TCAGTAATCC AGCGAATTTC CATATTCAGC TTGCTGAGAA TGAAAGTGTA 
    ATTATCAGAC TTGCTGATGC TCTAAATGCA ACAGCAAGGA GATTGAGAGA GAGAAAATCA 
    GTTAAACCTC TAGTGGGAGA TCTTGTAGTT GCAGAATATT CTGGTGACAA TGCCATTTAC 
    AGGGCAGTTA TTAAGAAAAT TTTGCCAGGA AATTCTTTTG AAGTAGAATT TATTGACTAT 
    GGTAACTCTG CAATAGTAAA CACATCTAAA ATTTACGAAC TTCAGAGGGA ATTTTTAACT 
    GTTCCTCAGC TAGGAATCCA TGCTTTTCTT AGTGGAGTAA AATGGAATGA GCCTGATGAA 
    ATATGGGATG ACAAAACTGT GGATTATTTT ACTTCGAAAG TACATAACAA AACAGTTTAT 
    TGTGAATTTT TGAAAAAGCA TGATCAGAAA TGGGAAGTAA ATATGATTTG TGATGAAAAA 
    TGTGTCATTA ATGAACTACT GAAATGGAAA GCATGTTCAA AACTGCAGAA GTCAGCATTG 
    CAGATGCCTC AGGTTCTCTC TCAAAAGGTG AGGCCAGGTG ATAATGAAAT GAAGAAAGGA 
    AAATCAAATG AGTCTGAAGG TTCTATGAAT TCAAACCAAC AGCTGTTTAA AATTCCTTTG 
    GAAGAATTCA AACTTGGACA ACTTGAAAAA GCTGAAATGC TTAATGTTTC AAAAAGTGGA 
    AGATTTTATG TGAAGTTATC CAAAAATAAA AAAATTTTAT CAGATTTAAT AGTATTAATT 
    ACGAAAGAAG AAAAAAAATC CCCTTTTTTA TCAATGGAAA GTATTGAAAA AGGTTTAGAA 
    TGCTTGGCAA AATCTAAAAA TACCTTGAAA TGGCATCGAT CAAAAGTAGA AGAAAAGTAT 
    GTTGATGATA AAGTACTTGT TTTTTTAGTA GATTGTGGTA TCTATGAAAT AGTACCTGTA 
    TGTAATACCA AGCTGCTTAG TAATGAAATA AGAAACATTC CTAGACAAGC TGTACCTTGT 
    AAATGGATTT GGTTTGAAAA TTCTAAGAAC ATATCATTTG AGTGCTTATT TGCTGATTTG 
    GAAATAAATA TTCTTTTCCT GAAATATTTA GATGCTGTTT GGGAAGTAGA AATTTTGGTA 
    GATGACCTGT TACTTTTGGA ATACTTAAAT TTGAATACAG TTCCTGTTGA AGAAAACAAA 
    CTTAGACTTG CAGAAATTGT TTACAACATT GAATCTAAGA CTCCTGTATC ATCATGCACA 
    ATAAAATCAT TTACTTGGGT TCAATTCCAA AATGATAGGC AGTATTCTGG TATTGCAACT 
    GCTGTTTCTG ATCCATCAGA CTTCAGTATT CAGTTAGAAG ATTTCTTTGA CATAATGAAA 
    TACCTTTTTA TGTTGCTTTC TGATCTACCA GAGACCTTAC AAACATTGCC TCAGGAGTTC 
    ATAATTCCCG GTTCTAGTTG TTTGTTCAAA TATAAATCGG AAGATCAGTG GAATAGAGTA 
    GAAATTTCTG AAGTCTCACC TCAGTCTTTA TGTCTTGTGT TGGTTGACTA TGGATTTTCT 
    TTTTATATAC GTTATTCAGA AATTATAAAT CTTAAAGTTG TTCCTGAGGA ACTTTTGAAT 
    TTGCCAAGGC TGAGTTATCC ATGTATTTTA TATGGTATCT TACCTGCTAA AGGAAAACAT 
    TGGAGTGAAG AAGCCAAAAT CTTTTTTCGA GATTTCCTAA GTAAACCAGA CTTAGTTTTT 
    CAGTTTAGGG AATATCATTC TGAAACAAAA CTGAAAGTAG ATGTCATTCA TGAGAAAAAC 
    AATTTGGCAG ATATATTAGT TGCATCTGGT CTCGCAACTT ATTCTAAAGA TTCACCTCAT 
    CTTGATGCAA TTACTGCTAC TGAATCTGCT AAAAATCCAA TATAA

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

    RefSeq XP_011531514.1
    CDS357..6161
    Translation

    Target ORF information:

    RefSeq Version XM_011533212.1
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 15 (TDRD15), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011533212.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    ATGGATTCTA CATCTTTCTT ACCAACATTT TTAGATGTGG ATCTGACAAT ATCACATATT 
    AAATGTCTTC CCAAGGATAT TCTGGTGAAA TTTCAAGGCA TAAAGAGTAA TGAATGTGAG 
    TTTGACTACC ATGTATTGCA GAGAGAAATA CAACATACTC CAAAAGTGAA AAATAATGTG 
    GAAATTGATG AATTTTGTTT GGTGGAAGAA AGAGTATCTG GAGAATGGCA GAGAGGAAGA 
    GTCATGGAAA AGAAAAATGA ACTCTATACA GTGCTCCTCA TAGATCGCGG AGAAGAACTA 
    AGAGTTGCTG GTCCACAGAT TGCTTCAGCC TGTGGCAATT TATTTGAGCT ACCGCCACGG 
    GTAGTATTTG GTATTTTTGC GAATATACTA CCAGTTGGGG AAAAATGGTC CCCTAAAGCT 
    TTGAATTATT TCAAGTCATT AGTAGGAATA CAAGTGAAAG GTTATGTGCA AGCTATTTTA 
    CCTCTGCAAA TGTTTCTTTT TGAAGTGCCA AAAATTATAT CTCAGGCTCT CGAGTTACAA 
    TTAGGAAGAC TTGTTGATGG AGATTCATTT CGTCTTATTG TGGAAATGTT AGAAGAATTC 
    CCTCAACAAA TGCCAGATTT ATTACAACAT AAAAGGCCTG AATTGTCATT AGGTAATAAA 
    GATACTTCAC TTGATATTCA GCATGTTCTG GATAAGTTGC AGCCATCTTT GTCAGTAGGA 
    AGTACTGAAA GTGTAAAGGT ATCATCTGCA TTGAGCCCAA GTAAATTTTA TTGTCAGTTA 
    ATTAAATGGA CTCCAGAGCT AGAAAACTTG ACAGCACATA TGACTTTGCA TTATGATACC 
    GTCTGTCAAG AAACTAGTCC CACGTGTGAT AATTTTGGAC TGCTTTGTGT TGCCAGAAGG 
    CGAAATGGAC AGTGGCATAG AGGAATTCTT CAGCAGCTCT TGCCCCCAAA TCAAGTAAAA 
    ATTTGGTTTA TGGATTATGG CAGTAGCGAG GCTATACCCT CAATTTATGT AAAGAAACTT 
    AAACAGGATT TTATTTTAGT ACCATTATTT TCATTTCCAT GTTCTCTGAC ATGTTTGCAC 
    AGTCCAGATA GAGATGCAAG AATATTTCAA CTGAGTATAT TTAAACAGGC CTTATTAGGA 
    CAAGTGGTAT ATGCACACAT TGATTGGTTC AATAAGGATG AGTGTTTGTA TTATGTGACA 
    TTACAAACTC AAGAGTCTAC AGTTAATTCT AAGTGTCTAC TGAAGACTGT AGGCACACAA 
    GTACTTTGTC CGATGTCTGA TTCAAAAATC TCCAATATCT TGAGTGAGAC AAGTGTGTCT 
    GATGTAAACA GCTTTGCAGT TGAGAGTTTT ATGGGAAATA TTGAATGGTC AATAGACTCT 
    CTAAATAAAA AAGGCATTTT AAAAGTAGGT TTTCCCATTA AAACAGTACA AATGGAGATA 
    GAGGCTGCCT ACATAGCTTT TATAGCATAT GTATTAAACC CATCAAATTT CTGGGTACGC 
    ACTAATGACC ATCGGAATGA ATTTCAAGAA ATAATGAAAA ACATAAACAA ATTTTATGAT 
    TTGTGTGAAA ACGATGAAAT GATTCTAAGA AAACCTGAAC CTGGATTATT TTGTTGTGCT 
    AGATATAGCA AGGACAGACG TTTTTACAGA GCTGTCATCA CTGAAATTAA TGGTTATAAG 
    ATTAATGTTT ATTTTTTGGA TTATGGTAAT ACTGATTCCA TACCATTTTT TGATGTAAAA 
    ATTTTGCTTC CAGAATTTTG TGAGTTGCCT GCCTTAGCGA TGTGCTGTTC ACTTGCACAT 
    ATATTTCCTG TTGAAGATTT ATGGACTAAG GCTGCAATTG ATTATTTTAA AAAATTAGTT 
    TTGAACAAAG CAATTTTGCT TCAGGTTATA GCAAAAAAAG ATGACAAGTA CACTGTAAAT 
    ATTCAAAGTG TTGAAGCCTC AGAAAATATT GATGTTATCT CTCTTATGTT ACAAGCTGGA 
    TATGCAGAAT ATTTTCAAGT AGAACTAGAA TATTTTCCAA AATCTGTAAG TGAATATTCA 
    ATGCTAAATT CAGAATCTAA AAACAAAGTT AATATTAAAA AAGTCATATC TGCCCTTCTT 
    GAAGGACCTA AATCTAAAAA GTACCATTCA AATAACCTGG TGGAAAATAA CTTGTCTTTG 
    CCAAAGTCCC TAGCTGTTAA TATCTCAGAA TTTAAAAATC CTTTCACCTT GTCTGTGGGA 
    CCTGAGTCAT CCTGGCCTTA TAAAGAATAT ATTTTTAGAC CAGGAACAGT TCTTGAAGTT 
    AAATGTTCCT GTTATTATGG CCCAGGTGAC TTTTCATGCC AGCTCCAATG TAAGTCAGAA 
    GACCTAAAAT TACTAATGGA GCAAATTCAG AATTACTATA GTATTCATTC TGATCCTTAT 
    GAGATTGGGC AGACTGCTTG TGTTGCTAAG TATTCTGGGA AGTGGTGTAG AGCTGCTGTT 
    TTGACTCAAG TATCAAAAGA AGTTGACATA GTGTTTGTTG ATTATGGTTA CCAAAAAAGG 
    GTTTTAATTG AAGATCTTTG TGCAATTAAC CCACGTTTTC TCTTGTTAGA AAGCCAAGCC 
    TTCAGATGTT GTCTTAACCA TTTTATTGAG CCTGTTAGTT GTAAATTATT CAGTTGGACA 
    AGAAAAGCAT TCAGAGACTT GTGGAATTTT ATCTCTTCAT CTAGAGGGTT ATTGACTTGT 
    ATCATCTATG CCTTAGTTAT TATACATCCA AACCATTTAT ATAACTTAGT GGATTTACAG 
    TCCTCATTTA CTAGTGCAAA AGAATTTCTT ATGAATCGTG GCTCTGCTCA GTATATCACA 
    TTATCAGAGA CATTCCCATC TTTATTTAGT CTTTACAGTT ACTGTTATTC TTCCTTTAAT 
    ATACAAATTG GAAGTGAAGA AGAAGTATAT ATATCTCACA TATATAGTCC CCAAAAGTTT 
    TATTGCCAGC TTGGCAGAAA TAATAAAGAT CTAGAGATGA TAGAAACAAA AATCACAGAG 
    AGTGTTAACC TCCAAAATTT TCCAAAATAT GATTCTAATA AAATGAGAGT GTGCATATCT 
    AAGTATGTAG AGGATGGTCT CTCATACAGA GCTTTAGCAA TACCAACAGA TTCATCATCT 
    GAGTTTCAAG TCTATTTTGT AGACTTTGGA AATAAGCAAT TAGTAGGAGA AAATATGTTG 
    AGGGCCATTT CAGCTCAGTT TCCAGAGTTG TTGTTTACAC CTATGCAAGC TATTAAGTGT 
    TTTTTGTCAG ATCTTAGGGA TGTAGATATT CCAGCAGAAA TCAGTAGTTG GTTTAAAGAC 
    AATTTCTTGG GAAGATCATT AAAGGCGATA ATATTGTCCC AGGAGTCAGA TGGACAGCTT 
    GGTATAGAAT TGTATGATGG ATCTCAATAT ATAAATGAGA AAATTAAAGT GTTGCTTCAT 
    GCTTATGGAA AAAGACATTG TGACCAAGCA TGCTGCATGG AAAAGAGTAA TAAAATAAAT 
    GAGAATAAGA GATTTACTAC TTCTTTGAAA GGCAAAACAG GAAACAACTA TCGCCATAAT 
    GTGATAAATA AACCTAGTCC AGTAACATAT TCCGAAAGAA AAATAGACCA ATTGATGCAT 
    CCCAAAAATA TACATGCCAG GTTTTTGAAG CCATCAGTTT GTTATAAAAT GGAACCTGTG 
    TCAAAAAACA AAATGAAGAC TTCTTTGAAT GATGGGCTTA AAGGTATAAA AATTGTCCCT 
    GGAGCTGCAC ATATTCTTGA GAACAGGCGT GTGGGCCAAA AATCAGTAAA GGTTGTATCA 
    CAGTCTTTTA TCAGAGCATT AAATCAAACA ACCTCACAAA ACCCATATGA CCTTATTAGG 
    CCACAGATCA AAGACCTTCC TCAACCGCAA ATTTATTTGA ATGCCAAAGT TAAAGGGTAT 
    GTATCTAATA TCAGTAATCC AGCGAATTTC CATATTCAGC TTGCTGAGAA TGAAAGTGTA 
    ATTATCAGAC TTGCTGATGC TCTAAATGCA ACAGCAAGGA GATTGAGAGA GAGAAAATCA 
    GTTAAACCTC TAGTGGGAGA TCTTGTAGTT GCAGAATATT CTGGTGACAA TGCCATTTAC 
    AGGGCAGTTA TTAAGAAAAT TTTGCCAGGA AATTCTTTTG AAGTAGAATT TATTGACTAT 
    GGTAACTCTG CAATAGTAAA CACATCTAAA ATTTACGAAC TTCAGAGGGA ATTTTTAACT 
    GTTCCTCAGC TAGGAATCCA TGCTTTTCTT AGTGGAGTAA AATGGAATGA GCCTGATGAA 
    ATATGGGATG ACAAAACTGT GGATTATTTT ACTTCGAAAG TACATAACAA AACAGTTTAT 
    TGTGAATTTT TGAAAAAGCA TGATCAGAAA TGGGAAGTAA ATATGATTTG TGATGAAAAA 
    TGTGTCATTA ATGAACTACT GAAATGGAAA GCATGTTCAA AACTGCAGAA GTCAGCATTG 
    CAGATGCCTC AGGTTCTCTC TCAAAAGGTG AGGCCAGGTG ATAATGAAAT GAAGAAAGGA 
    AAATCAAATG AGTCTGAAGG TTCTATGAAT TCAAACCAAC AGCTGTTTAA AATTCCTTTG 
    GAAGAATTCA AACTTGGACA ACTTGAAAAA GCTGAAATGC TTAATGTTTC AAAAAGTGGA 
    AGATTTTATG TGAAGTTATC CAAAAATAAA AAAATTTTAT CAGATTTAAT AGTATTAATT 
    ACGAAAGAAG AAAAAAAATC CCCTTTTTTA TCAATGGAAA GTATTGAAAA AGGTTTAGAA 
    TGCTTGGCAA AATCTAAAAA TACCTTGAAA TGGCATCGAT CAAAAGTAGA AGAAAAGTAT 
    GTTGATGATA AAGTACTTGT TTTTTTAGTA GATTGTGGTA TCTATGAAAT AGTACCTGTA 
    TGTAATACCA AGCTGCTTAG TAATGAAATA AGAAACATTC CTAGACAAGC TGTACCTTGT 
    AAATGGATTT GGTTTGAAAA TTCTAAGAAC ATATCATTTG AGTGCTTATT TGCTGATTTG 
    GAAATAAATA TTCTTTTCCT GAAATATTTA GATGCTGTTT GGGAAGTAGA AATTTTGGTA 
    GATGACCTGT TACTTTTGGA ATACTTAAAT TTGAATACAG TTCCTGTTGA AGAAAACAAA 
    CTTAGACTTG CAGAAATTGT TTACAACATT GAATCTAAGA CTCCTGTATC ATCATGCACA 
    ATAAAATCAT TTACTTGGGT TCAATTCCAA AATGATAGGC AGTATTCTGG TATTGCAACT 
    GCTGTTTCTG ATCCATCAGA CTTCAGTATT CAGTTAGAAG ATTTCTTTGA CATAATGAAA 
    TACCTTTTTA TGTTGCTTTC TGATCTACCA GAGACCTTAC AAACATTGCC TCAGGAGTTC 
    ATAATTCCCG GTTCTAGTTG TTTGTTCAAA TATAAATCGG AAGATCAGTG GAATAGAGTA 
    GAAATTTCTG AAGTCTCACC TCAGTCTTTA TGTCTTGTGT TGGTTGACTA TGGATTTTCT 
    TTTTATATAC GTTATTCAGA AATTATAAAT CTTAAAGTTG TTCCTGAGGA ACTTTTGAAT 
    TTGCCAAGGC TGAGTTATCC ATGTATTTTA TATGGTATCT TACCTGCTAA AGGAAAACAT 
    TGGAGTGAAG AAGCCAAAAT CTTTTTTCGA GATTTCCTAA GTAAACCAGA CTTAGTTTTT 
    CAGTTTAGGG AATATCATTC TGAAACAAAA CTGAAAGTAG ATGTCATTCA TGAGAAAAAC 
    AATTTGGCAG ATATATTAGT TGCATCTGGT CTCGCAACTT ATTCTAAAGA TTCACCTCAT 
    CTTGATGCAA TTACTGCTAC TGAATCTGCT AAAAATCCAA TATAA

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

  • PubMed

    LDL-cholesterol concentrations: a genome-wide association study.
    Lancet (London, England)371(9611)483-91(2008 Feb)
    Sandhu MS,Waterworth DM,Debenham SL,Wheeler E,Papadakis K,Zhao JH,Song K,Yuan X,Johnson T,Ashford S,Inouye M,Luben R,Sims M,Hadley D,McArdle W,Barter P,Kes?niemi YA,Mahley RW,McPherson R,Grundy SM,,Bingham SA,Khaw KT,Loos RJ,Waeber G,Barroso I,Strachan DP,Deloukas P,Vollenweider P,Wareham NJ,Mooser V


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