ORF » Species Summary » Homo sapiens » TDRD9 cDNA ORF clone

TDRD9 cDNA ORF clone, Homo sapiens(human)

  • Gene

  • Clones

  • gRNAs

The following TDRD9 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TDRD9 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
OHu84756 XM_017020955.2
Latest version!		 Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OHu107566 NM_153046.3
Latest version!		 Homo sapiens tudor domain containing 9 (TDRD9), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu75200 XM_011536401.3
Latest version!		 Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu75201 XM_011536402.2
Latest version!		 Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu75197 XM_011536398.3
Latest version!		 Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu31640 NM_153046.2
Latest version!		 Homo sapiens tudor domain containing 9 (TDRD9), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
OHu47506 XM_006720019.3
Latest version!		 Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
OHu47507 XM_006720020.3
Latest version!		 Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
OHu47508 XM_005267309.4
Latest version!		 Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
OHu75196 XM_011536397.2
Latest version!		 Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
OHu75199 XM_011536400.2
Latest version!		 Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
View Old Accession Versions >>
OHu84756 XM_017020955.1 Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OHu75200 XM_011536401.2 Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu75197 XM_011536398.2 Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu47508 XM_005267309.3 Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
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)
    TDRD9 ( XM_017020955.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016876444.1 Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OHu84756
    Clone ID Related Accession (Same CDS sequence) XM_017020955.1 , XM_017020955.2
    Accession Version XM_017020955.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2850bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    Product putative ATP-dependent RNA helicase TDRD9 isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000014.9) 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 :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
    ATGATTTGGA GCACATTCAT CATAGCAAGG AACAAGGCTT GGTCGGGGGC CCAGTTTGTG 
    TTGGAGCGAA GCAGTGTGTT GGTGTTTTTG CCAGGTCTGG GTGAAATAAA TTATATGCAT 
    GAACTTCTCA CAAGCCTGGT TCATAAAAGG TTGCAGGTCT ATCCACTCCA TTCAAGTGTG 
    GCTTTAGAAG AACAGAATAA TGTCTTTTTA AGTCCAGTCC CTGGGTACAG AAAGATTATT 
    CTGTCCACCA ATATTGCAGA GAGTTCTGTC ACAGTTCCAG ATGTCAAATA TGTTATAGAT 
    TTTTGTTTGA CTAGAACTTT GGTCTGTGAT GAAGATACAA ATTATCAGAG TCTGCGATTG 
    AGTTGGGCTT CTAAAACCAG CTGTAATCAG AGAAAAGGCC GTGCTGGACG AGTGTCTAGA 
    GGGTACTGTT ACCGGCTGGT ACACAAGGAT TTCTGGGACA ACTCCATCCC TGATCATGTT 
    GTTCCTGAGA TGTTGCGTTG TCCATTAGGA AGCACGATCT TGAAAGTGAA ATTACTTGAC 
    ATGGGTGAGC CGAGAGCTCT GCTGGCCACT GCCCTTTCCC CGCCTGGTCT GAGTGACATT 
    GAGCGCACCA TCCTTCTACT AAAGGAGGTT GGAGCACTTG CAGTGAGTGG GCAGAGAGAA 
    GATGAAAACC CCCATGATGG TGAATTGACC TTCTTAGGAA GAGTTTTAGC CCAACTTCCT 
    GTAAATCAGC AACTTGGTAA ACTCATAGTC CTTGGACATG TATTTGGATG TCTAGATGAA 
    TGTCTTATTA TAGCGGCAGC TCTTTCTTTG AAGAATTTTT TTGCAATGCC TTTCCGGCAG 
    CATCTCGATG GATATAGGAA CAAAGTGAAT TTCTCTGGCA GTAGCAAGAG TGACTGTATT 
    GCACTTGTTG AGGCATTTAA AACATGGAAG GCTTGCAGAC AGACAGGGGA GCTGCGGTAC 
    CCGAAGGATG AACTTAATTG GGGACGGTTA AATTACATTC AAATCAAGAG AATTAGAGAG 
    GTGGCTGAAT TATATGAAGA ATTGAAGACT AGAATCTCAC AGTTCAACAT GCATGTTGAT 
    TCTCGGCGAC CTGTCATGGA CCAAGAGTAT ATATATAAGC AGCGATTCAT CCTACAGGTT 
    GTATTGGCAG GTGCTTTCTA TCCAAATTAC TTTACTTTTG GACAGCCGGA TGAGGAGATG 
    GCGGTGAGGG AGCTGGCTGG CAAGGACCCC AAGACAACTG TCGTGTTGAA ACACATTCCT 
    CCCTATGGAT TTCTTTACTA TAAACAACTA CAGTCTCTCT TTAGACAGTG TGGTCAAGTC 
    AAATCCATTG TATTTGATGG TGCAAAAGCC TTTGTGGAAT TCTCACGAAA TCCAACAGAG 
    AGATTTAAAA CCCTTCCTGC AGTATATATG GCAATTAAGA TGTCTCAACT AAAAGTTTCA 
    CTTGAACTCA GCGTTCATTC TGCAGAGGAA ATTGAAGGGA AGGTGCAAGG CATGAACGTC 
    TCAAAGCTCA GGAACACAAG GGTGAATGTG GACTTCCAGA AGCAGACGGT AGATCCTATG 
    CAAGTCTCCT TTAACACATC AGACAGGTCC CAGACAGTTA CAGATCTCCT TCTAACTATT 
    GATGTCACAG AGGTGGTTGA AGTGGGACAC TTTTGGGGAT ACAGGATTGA TGAAAACAAC 
    TCAGAGATTC TGAAAAAGCT TACTGCTGAA ATCAACCAAC TGACGCTGGT GCCCTTGCCC 
    ACTCACCCAC ATCCAGACTT GGTCTGTCTG GCACCTTTTG CTGATTTTGA TAAACAACGC 
    TACTTTAGAG CTCAAGTCCT TTATGTTTCT GGAAATTCTG CTGAGGTATT CTTTGTAGAT 
    TATGGCAATA AGTCTCATGT AGATCTACAT CTTTTGATGG AGATTCCCTG TCAATTTCTT 
    GAACTTCCTT TCCAGGCTTT GGAATTTAAG ATTTGCAAAA TGAGACCATC AGCAAAGTCT 
    CTTGTTTGTG GCAAGCACTG GAGTGACGGG GCCAGCCAGT GGTTCGCCTC TCTGGTGAGC 
    GGCTGCACCC TCCTTGTGAA GGTCTTCTCT GTGGTGCACA GCGTCCTGCA CGTGGATGTG 
    TACCAGTACT CAGGGGTCCA GGATGCCATC AACATAAGAG ACGTCCTCAT CCAGCAGGGC 
    TATGCCGAGC TCACGGAGGA GTCCTACGAG TCCAAGGCAG AACTTCACGG GCCTTTTAAC 
    CCTTATGAAC TAAAGTGCCA TAGTTTGACC AGAATATCCA AATTCAGGTG TGTTTGGATT 
    GAGAAGGAGA GCATCAACTC TGTCATTATC AGTGACGCCC CTGAAGACCT TCACCAGAGA 
    ATGCTGGTTG CAGCTTCCCT TTCCATCAAT GCGACTGGAT CTACGATGCT GCTGAGAGAA 
    ACCTCTCTGA TGCCTCATAT CCCTGGCCTC CCGGCTCTCC TCAGCATGTT ATTCGCACCG 
    GTGATAGAGT TAAGGATTGA TCAGAATGGC AAGTACTATA CTGGAGTCCT TTGTGGTTTG 
    GGGTGGAATC CAGCTACAGG GGCTTCCATA CTGCCCGAGC ACGACATGGA GCTTGCGTTT 
    GACGTTCAAT TCAGCGTGGA GGATGTCGTC GAGGTTAATA TTCTCAGGGC TGCTATTAAC 
    AAGCTAGTCT GTGATGGACC AAATGGATGC AAGTGTCTTG GGCCAGAGAG AGTTGCGCAG 
    CTTCAAGACA TTGCCCGTCA GAAGCTTTTA GGTTTGTTCT GTCAGTCAAA ACCAAGGGAG 
    AAGATTGTTC CCAAGTGGCA TGAAAAGCCC TACGAGTGGA ATCAGTGTCT TCTATGTGAT 
    GTCCCGGCAA AGAGTCAGAC ACCAGGATAA

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

    RefSeq XP_016876444.1
    CDS1004..3853
    Translation

    Target ORF information:

    RefSeq Version XM_017020955.1
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017020955.1

    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
    ATGATTTGGA GCACATTCAT CATAGCAAGG AACAAGGCTT GGTCGGGGGC CCAGTTTGTG 
    TTGGAGCGAA GCAGTGTGTT GGTGTTTTTG CCAGGTCTGG GTGAAATAAA TTATATGCAT 
    GAACTTCTCA CAAGCCTGGT TCATAAAAGG TTGCAGGTCT ATCCACTCCA TTCAAGTGTG 
    GCTTTAGAAG AACAGAATAA TGTCTTTTTA AGTCCAGTCC CTGGGTACAG AAAGATTATT 
    CTGTCCACCA ATATTGCAGA GAGTTCTGTC ACAGTTCCAG ATGTCAAATA TGTTATAGAT 
    TTTTGTTTGA CTAGAACTTT GGTCTGTGAT GAAGATACAA ATTATCAGAG TCTGCGATTG 
    AGTTGGGCTT CTAAAACCAG CTGTAATCAG AGAAAAGGCC GTGCTGGACG AGTGTCTAGA 
    GGGTACTGTT ACCGGCTGGT ACACAAGGAT TTCTGGGACA ACTCCATCCC TGATCATGTT 
    GTTCCTGAGA TGTTGCGTTG TCCATTAGGA AGCACGATCT TGAAAGTGAA ATTACTTGAC 
    ATGGGTGAGC CGAGAGCTCT GCTGGCCACT GCCCTTTCCC CGCCTGGTCT GAGTGACATT 
    GAGCGCACCA TCCTTCTACT AAAGGAGGTT GGAGCACTTG CAGTGAGTGG GCAGAGAGAA 
    GATGAAAACC CCCATGATGG TGAATTGACC TTCTTAGGAA GAGTTTTAGC CCAACTTCCT 
    GTAAATCAGC AACTTGGTAA ACTCATAGTC CTTGGACATG TATTTGGATG TCTAGATGAA 
    TGTCTTATTA TAGCGGCAGC TCTTTCTTTG AAGAATTTTT TTGCAATGCC TTTCCGGCAG 
    CATCTCGATG GATATAGGAA CAAAGTGAAT TTCTCTGGCA GTAGCAAGAG TGACTGTATT 
    GCACTTGTTG AGGCATTTAA AACATGGAAG GCTTGCAGAC AGACAGGGGA GCTGCGGTAC 
    CCGAAGGATG AACTTAATTG GGGACGGTTA AATTACATTC AAATCAAGAG AATTAGAGAG 
    GTGGCTGAAT TATATGAAGA ATTGAAGACT AGAATCTCAC AGTTCAACAT GCATGTTGAT 
    TCTCGGCGAC CTGTCATGGA CCAAGAGTAT ATATATAAGC AGCGATTCAT CCTACAGGTT 
    GTATTGGCAG GTGCTTTCTA TCCAAATTAC TTTACTTTTG GACAGCCGGA TGAGGAGATG 
    GCGGTGAGGG AGCTGGCTGG CAAGGACCCC AAGACAACTG TCGTGTTGAA ACACATTCCT 
    CCCTATGGAT TTCTTTACTA TAAACAACTA CAGTCTCTCT TTAGACAGTG TGGTCAAGTC 
    AAATCCATTG TATTTGATGG TGCAAAAGCC TTTGTGGAAT TCTCACGAAA TCCAACAGAG 
    AGATTTAAAA CCCTTCCTGC AGTATATATG GCAATTAAGA TGTCTCAACT AAAAGTTTCA 
    CTTGAACTCA GCGTTCATTC TGCAGAGGAA ATTGAAGGGA AGGTGCAAGG CATGAACGTC 
    TCAAAGCTCA GGAACACAAG GGTGAATGTG GACTTCCAGA AGCAGACGGT AGATCCTATG 
    CAAGTCTCCT TTAACACATC AGACAGGTCC CAGACAGTTA CAGATCTCCT TCTAACTATT 
    GATGTCACAG AGGTGGTTGA AGTGGGACAC TTTTGGGGAT ACAGGATTGA TGAAAACAAC 
    TCAGAGATTC TGAAAAAGCT TACTGCTGAA ATCAACCAAC TGACGCTGGT GCCCTTGCCC 
    ACTCACCCAC ATCCAGACTT GGTCTGTCTG GCACCTTTTG CTGATTTTGA TAAACAACGC 
    TACTTTAGAG CTCAAGTCCT TTATGTTTCT GGAAATTCTG CTGAGGTATT CTTTGTAGAT 
    TATGGCAATA AGTCTCATGT AGATCTACAT CTTTTGATGG AGATTCCCTG TCAATTTCTT 
    GAACTTCCTT TCCAGGCTTT GGAATTTAAG ATTTGCAAAA TGAGACCATC AGCAAAGTCT 
    CTTGTTTGTG GCAAGCACTG GAGTGACGGG GCCAGCCAGT GGTTCGCCTC TCTGGTGAGC 
    GGCTGCACCC TCCTTGTGAA GGTCTTCTCT GTGGTGCACA GCGTCCTGCA CGTGGATGTG 
    TACCAGTACT CAGGGGTCCA GGATGCCATC AACATAAGAG ACGTCCTCAT CCAGCAGGGC 
    TATGCCGAGC TCACGGAGGA GTCCTACGAG TCCAAGGCAG AACTTCACGG GCCTTTTAAC 
    CCTTATGAAC TAAAGTGCCA TAGTTTGACC AGAATATCCA AATTCAGGTG TGTTTGGATT 
    GAGAAGGAGA GCATCAACTC TGTCATTATC AGTGACGCCC CTGAAGACCT TCACCAGAGA 
    ATGCTGGTTG CAGCTTCCCT TTCCATCAAT GCGACTGGAT CTACGATGCT GCTGAGAGAA 
    ACCTCTCTGA TGCCTCATAT CCCTGGCCTC CCGGCTCTCC TCAGCATGTT ATTCGCACCG 
    GTGATAGAGT TAAGGATTGA TCAGAATGGC AAGTACTATA CTGGAGTCCT TTGTGGTTTG 
    GGGTGGAATC CAGCTACAGG GGCTTCCATA CTGCCCGAGC ACGACATGGA GCTTGCGTTT 
    GACGTTCAAT TCAGCGTGGA GGATGTCGTC GAGGTTAATA TTCTCAGGGC TGCTATTAAC 
    AAGCTAGTCT GTGATGGACC AAATGGATGC AAGTGTCTTG GGCCAGAGAG AGTTGCGCAG 
    CTTCAAGACA TTGCCCGTCA GAAGCTTTTA GGTTTGTTCT GTCAGTCAAA ACCAAGGGAG 
    AAGATTGTTC CCAAGTGGCA TGAAAAGCCC TACGAGTGGA ATCAGTGTCT TCTATGTGAT 
    GTCCCGGCAA AGAGTCAGAC ACCAGGATAA

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

    TDRD9 ( XM_017020955.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016876444.1 Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OHu84756
    Clone ID Related Accession (Same CDS sequence) XM_017020955.1 , XM_017020955.2
    Accession Version XM_017020955.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2850bp)
    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 ATP-dependent RNA helicase TDRD9 isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000014.9) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017020955.1. ##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
    ATGATTTGGA GCACATTCAT CATAGCAAGG AACAAGGCTT GGTCGGGGGC CCAGTTTGTG 
    TTGGAGCGAA GCAGTGTGTT GGTGTTTTTG CCAGGTCTGG GTGAAATAAA TTATATGCAT 
    GAACTTCTCA CAAGCCTGGT TCATAAAAGG TTGCAGGTCT ATCCACTCCA TTCAAGTGTG 
    GCTTTAGAAG AACAGAATAA TGTCTTTTTA AGTCCAGTCC CTGGGTACAG AAAGATTATT 
    CTGTCCACCA ATATTGCAGA GAGTTCTGTC ACAGTTCCAG ATGTCAAATA TGTTATAGAT 
    TTTTGTTTGA CTAGAACTTT GGTCTGTGAT GAAGATACAA ATTATCAGAG TCTGCGATTG 
    AGTTGGGCTT CTAAAACCAG CTGTAATCAG AGAAAAGGCC GTGCTGGACG AGTGTCTAGA 
    GGGTACTGTT ACCGGCTGGT ACACAAGGAT TTCTGGGACA ACTCCATCCC TGATCATGTT 
    GTTCCTGAGA TGTTGCGTTG TCCATTAGGA AGCACGATCT TGAAAGTGAA ATTACTTGAC 
    ATGGGTGAGC CGAGAGCTCT GCTGGCCACT GCCCTTTCCC CGCCTGGTCT GAGTGACATT 
    GAGCGCACCA TCCTTCTACT AAAGGAGGTT GGAGCACTTG CAGTGAGTGG GCAGAGAGAA 
    GATGAAAACC CCCATGATGG TGAATTGACC TTCTTAGGAA GAGTTTTAGC CCAACTTCCT 
    GTAAATCAGC AACTTGGTAA ACTCATAGTC CTTGGACATG TATTTGGATG TCTAGATGAA 
    TGTCTTATTA TAGCGGCAGC TCTTTCTTTG AAGAATTTTT TTGCAATGCC TTTCCGGCAG 
    CATCTCGATG GATATAGGAA CAAAGTGAAT TTCTCTGGCA GTAGCAAGAG TGACTGTATT 
    GCACTTGTTG AGGCATTTAA AACATGGAAG GCTTGCAGAC AGACAGGGGA GCTGCGGTAC 
    CCGAAGGATG AACTTAATTG GGGACGGTTA AATTACATTC AAATCAAGAG AATTAGAGAG 
    GTGGCTGAAT TATATGAAGA ATTGAAGACT AGAATCTCAC AGTTCAACAT GCATGTTGAT 
    TCTCGGCGAC CTGTCATGGA CCAAGAGTAT ATATATAAGC AGCGATTCAT CCTACAGGTT 
    GTATTGGCAG GTGCTTTCTA TCCAAATTAC TTTACTTTTG GACAGCCGGA TGAGGAGATG 
    GCGGTGAGGG AGCTGGCTGG CAAGGACCCC AAGACAACTG TCGTGTTGAA ACACATTCCT 
    CCCTATGGAT TTCTTTACTA TAAACAACTA CAGTCTCTCT TTAGACAGTG TGGTCAAGTC 
    AAATCCATTG TATTTGATGG TGCAAAAGCC TTTGTGGAAT TCTCACGAAA TCCAACAGAG 
    AGATTTAAAA CCCTTCCTGC AGTATATATG GCAATTAAGA TGTCTCAACT AAAAGTTTCA 
    CTTGAACTCA GCGTTCATTC TGCAGAGGAA ATTGAAGGGA AGGTGCAAGG CATGAACGTC 
    TCAAAGCTCA GGAACACAAG GGTGAATGTG GACTTCCAGA AGCAGACGGT AGATCCTATG 
    CAAGTCTCCT TTAACACATC AGACAGGTCC CAGACAGTTA CAGATCTCCT TCTAACTATT 
    GATGTCACAG AGGTGGTTGA AGTGGGACAC TTTTGGGGAT ACAGGATTGA TGAAAACAAC 
    TCAGAGATTC TGAAAAAGCT TACTGCTGAA ATCAACCAAC TGACGCTGGT GCCCTTGCCC 
    ACTCACCCAC ATCCAGACTT GGTCTGTCTG GCACCTTTTG CTGATTTTGA TAAACAACGC 
    TACTTTAGAG CTCAAGTCCT TTATGTTTCT GGAAATTCTG CTGAGGTATT CTTTGTAGAT 
    TATGGCAATA AGTCTCATGT AGATCTACAT CTTTTGATGG AGATTCCCTG TCAATTTCTT 
    GAACTTCCTT TCCAGGCTTT GGAATTTAAG ATTTGCAAAA TGAGACCATC AGCAAAGTCT 
    CTTGTTTGTG GCAAGCACTG GAGTGACGGG GCCAGCCAGT GGTTCGCCTC TCTGGTGAGC 
    GGCTGCACCC TCCTTGTGAA GGTCTTCTCT GTGGTGCACA GCGTCCTGCA CGTGGATGTG 
    TACCAGTACT CAGGGGTCCA GGATGCCATC AACATAAGAG ACGTCCTCAT CCAGCAGGGC 
    TATGCCGAGC TCACGGAGGA GTCCTACGAG TCCAAGGCAG AACTTCACGG GCCTTTTAAC 
    CCTTATGAAC TAAAGTGCCA TAGTTTGACC AGAATATCCA AATTCAGGTG TGTTTGGATT 
    GAGAAGGAGA GCATCAACTC TGTCATTATC AGTGACGCCC CTGAAGACCT TCACCAGAGA 
    ATGCTGGTTG CAGCTTCCCT TTCCATCAAT GCGACTGGAT CTACGATGCT GCTGAGAGAA 
    ACCTCTCTGA TGCCTCATAT CCCTGGCCTC CCGGCTCTCC TCAGCATGTT ATTCGCACCG 
    GTGATAGAGT TAAGGATTGA TCAGAATGGC AAGTACTATA CTGGAGTCCT TTGTGGTTTG 
    GGGTGGAATC CAGCTACAGG GGCTTCCATA CTGCCCGAGC ACGACATGGA GCTTGCGTTT 
    GACGTTCAAT TCAGCGTGGA GGATGTCGTC GAGGTTAATA TTCTCAGGGC TGCTATTAAC 
    AAGCTAGTCT GTGATGGACC AAATGGATGC AAGTGTCTTG GGCCAGAGAG AGTTGCGCAG 
    CTTCAAGACA TTGCCCGTCA GAAGCTTTTA GGTTTGTTCT GTCAGTCAAA ACCAAGGGAG 
    AAGATTGTTC CCAAGTGGCA TGAAAAGCCC TACGAGTGGA ATCAGTGTCT TCTATGTGAT 
    GTCCCGGCAA AGAGTCAGAC ACCAGGATAA

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

    RefSeq XP_016876444.1
    CDS1004..3853
    Translation

    Target ORF information:

    RefSeq Version XM_017020955.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017020955.2

    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
    ATGATTTGGA GCACATTCAT CATAGCAAGG AACAAGGCTT GGTCGGGGGC CCAGTTTGTG 
    TTGGAGCGAA GCAGTGTGTT GGTGTTTTTG CCAGGTCTGG GTGAAATAAA TTATATGCAT 
    GAACTTCTCA CAAGCCTGGT TCATAAAAGG TTGCAGGTCT ATCCACTCCA TTCAAGTGTG 
    GCTTTAGAAG AACAGAATAA TGTCTTTTTA AGTCCAGTCC CTGGGTACAG AAAGATTATT 
    CTGTCCACCA ATATTGCAGA GAGTTCTGTC ACAGTTCCAG ATGTCAAATA TGTTATAGAT 
    TTTTGTTTGA CTAGAACTTT GGTCTGTGAT GAAGATACAA ATTATCAGAG TCTGCGATTG 
    AGTTGGGCTT CTAAAACCAG CTGTAATCAG AGAAAAGGCC GTGCTGGACG AGTGTCTAGA 
    GGGTACTGTT ACCGGCTGGT ACACAAGGAT TTCTGGGACA ACTCCATCCC TGATCATGTT 
    GTTCCTGAGA TGTTGCGTTG TCCATTAGGA AGCACGATCT TGAAAGTGAA ATTACTTGAC 
    ATGGGTGAGC CGAGAGCTCT GCTGGCCACT GCCCTTTCCC CGCCTGGTCT GAGTGACATT 
    GAGCGCACCA TCCTTCTACT AAAGGAGGTT GGAGCACTTG CAGTGAGTGG GCAGAGAGAA 
    GATGAAAACC CCCATGATGG TGAATTGACC TTCTTAGGAA GAGTTTTAGC CCAACTTCCT 
    GTAAATCAGC AACTTGGTAA ACTCATAGTC CTTGGACATG TATTTGGATG TCTAGATGAA 
    TGTCTTATTA TAGCGGCAGC TCTTTCTTTG AAGAATTTTT TTGCAATGCC TTTCCGGCAG 
    CATCTCGATG GATATAGGAA CAAAGTGAAT TTCTCTGGCA GTAGCAAGAG TGACTGTATT 
    GCACTTGTTG AGGCATTTAA AACATGGAAG GCTTGCAGAC AGACAGGGGA GCTGCGGTAC 
    CCGAAGGATG AACTTAATTG GGGACGGTTA AATTACATTC AAATCAAGAG AATTAGAGAG 
    GTGGCTGAAT TATATGAAGA ATTGAAGACT AGAATCTCAC AGTTCAACAT GCATGTTGAT 
    TCTCGGCGAC CTGTCATGGA CCAAGAGTAT ATATATAAGC AGCGATTCAT CCTACAGGTT 
    GTATTGGCAG GTGCTTTCTA TCCAAATTAC TTTACTTTTG GACAGCCGGA TGAGGAGATG 
    GCGGTGAGGG AGCTGGCTGG CAAGGACCCC AAGACAACTG TCGTGTTGAA ACACATTCCT 
    CCCTATGGAT TTCTTTACTA TAAACAACTA CAGTCTCTCT TTAGACAGTG TGGTCAAGTC 
    AAATCCATTG TATTTGATGG TGCAAAAGCC TTTGTGGAAT TCTCACGAAA TCCAACAGAG 
    AGATTTAAAA CCCTTCCTGC AGTATATATG GCAATTAAGA TGTCTCAACT AAAAGTTTCA 
    CTTGAACTCA GCGTTCATTC TGCAGAGGAA ATTGAAGGGA AGGTGCAAGG CATGAACGTC 
    TCAAAGCTCA GGAACACAAG GGTGAATGTG GACTTCCAGA AGCAGACGGT AGATCCTATG 
    CAAGTCTCCT TTAACACATC AGACAGGTCC CAGACAGTTA CAGATCTCCT TCTAACTATT 
    GATGTCACAG AGGTGGTTGA AGTGGGACAC TTTTGGGGAT ACAGGATTGA TGAAAACAAC 
    TCAGAGATTC TGAAAAAGCT TACTGCTGAA ATCAACCAAC TGACGCTGGT GCCCTTGCCC 
    ACTCACCCAC ATCCAGACTT GGTCTGTCTG GCACCTTTTG CTGATTTTGA TAAACAACGC 
    TACTTTAGAG CTCAAGTCCT TTATGTTTCT GGAAATTCTG CTGAGGTATT CTTTGTAGAT 
    TATGGCAATA AGTCTCATGT AGATCTACAT CTTTTGATGG AGATTCCCTG TCAATTTCTT 
    GAACTTCCTT TCCAGGCTTT GGAATTTAAG ATTTGCAAAA TGAGACCATC AGCAAAGTCT 
    CTTGTTTGTG GCAAGCACTG GAGTGACGGG GCCAGCCAGT GGTTCGCCTC TCTGGTGAGC 
    GGCTGCACCC TCCTTGTGAA GGTCTTCTCT GTGGTGCACA GCGTCCTGCA CGTGGATGTG 
    TACCAGTACT CAGGGGTCCA GGATGCCATC AACATAAGAG ACGTCCTCAT CCAGCAGGGC 
    TATGCCGAGC TCACGGAGGA GTCCTACGAG TCCAAGGCAG AACTTCACGG GCCTTTTAAC 
    CCTTATGAAC TAAAGTGCCA TAGTTTGACC AGAATATCCA AATTCAGGTG TGTTTGGATT 
    GAGAAGGAGA GCATCAACTC TGTCATTATC AGTGACGCCC CTGAAGACCT TCACCAGAGA 
    ATGCTGGTTG CAGCTTCCCT TTCCATCAAT GCGACTGGAT CTACGATGCT GCTGAGAGAA 
    ACCTCTCTGA TGCCTCATAT CCCTGGCCTC CCGGCTCTCC TCAGCATGTT ATTCGCACCG 
    GTGATAGAGT TAAGGATTGA TCAGAATGGC AAGTACTATA CTGGAGTCCT TTGTGGTTTG 
    GGGTGGAATC CAGCTACAGG GGCTTCCATA CTGCCCGAGC ACGACATGGA GCTTGCGTTT 
    GACGTTCAAT TCAGCGTGGA GGATGTCGTC GAGGTTAATA TTCTCAGGGC TGCTATTAAC 
    AAGCTAGTCT GTGATGGACC AAATGGATGC AAGTGTCTTG GGCCAGAGAG AGTTGCGCAG 
    CTTCAAGACA TTGCCCGTCA GAAGCTTTTA GGTTTGTTCT GTCAGTCAAA ACCAAGGGAG 
    AAGATTGTTC CCAAGTGGCA TGAAAAGCCC TACGAGTGGA ATCAGTGTCT TCTATGTGAT 
    GTCCCGGCAA AGAGTCAGAC ACCAGGATAA

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

    TDRD9 ( NM_153046.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_694591.2 Homo sapiens tudor domain containing 9 (TDRD9), mRNA.
    Price & Availability↑
    CloneID OHu107566
    Clone ID Related Accession (Same CDS sequence) NM_153046.3
    Accession Version NM_153046.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4149bp)
    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 2019-08-06
    Organism Homo sapiens(human)
    Product ATP-dependent RNA helicase TDRD9
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AL132712.4 and AL136001.6. On Nov 23, 2018 this sequence version replaced NM_153046.2. ##Evidence-Data-START## Transcript exon combination :: SRR1660809.193321.1, SRR1803615.197502.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2144120 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000409874.9/ ENSP00000387303.4 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
    ATGCTGCGGA AGCTCACCAT CGAGCAGATC AACGACTGGT TCACCATCGG CAAGACGGTG 
    ACCAATGTGG AGCTGCTGGG CGCGCCGCCC GCCTTCCCGG CAGGGGCGGC CAGGGAGGAG 
    GTGCAGCGCC AGGACGTGGC CCCCGGCGCT GGTCCCGCGG CCCAGGCTCC GGCTCTGGCC 
    CAAGCTCCGG CCCGGCCGGC CGCTGCGTTC GAAAGGTCAC TCAGCCAAAG GAGCTCAGAA 
    GTAGAGTATA TTAACAAATA CAGACAGCTC GAAGCACAAG AGCTTGATGT GTGTCGCAGT 
    GTCCAACCAA CCAGTGGGCC AGGTCCAAGG CCATCTTTGG CTAAATTAAG CAGTGTGACA 
    TGCATCCCAG GGACAACTTA TAAATATCCT GATTTGCCTA TAAGTCGATA CAAGGAAGAG 
    GTTGTGTCTT TGATAGAAAG TAATTCCGTG GTGATTATCC ATGGGGCCAC GGGAAGCGGT 
    AAAAGCACTC AGCTCCCGCA GTATATCTTG GACCACTACG TTCAGCGCTC CGCCTACTGC 
    AGCATTGTGG TCACCCAGCC CCGGAAGATA GGGGCAAGCA GCATCGCCAG GTGGATCAGT 
    AAAGAGCGTG CCTGGACCCT GGGAGGTGTG GTGGGCTACC AGGTAGGGCT AGAGAAAATA 
    GCAACAGAGG ACACCAGGCT AATTTATATG ACAACTGGAG TCCTGCTTCA GAAAATAGTT 
    AGTGCCAAGA GTTTGATGGA ATTCACACAT ATCATCATTG ATGAAGTACA CGAACGAACA 
    GAAGAAATGG ATTTCCTGCT ATTGGTAGTC CGCAAACTCT TAAGAACAAA TTCACGTTTT 
    GTGAAGGTGG TCCTGATGTC GGCTACCATC AGCTGTAAAG AGTTTGCAGA CTACTTTGCT 
    GTTCCTGTTC AAAACAAGAT GAATCCTGCA TATATTTTTG AAGTGGAAGG CAAGCCCCAT 
    TCAGTTGAAG AGTATTATCT TAATGATTTG GAGCACATTC ATCATAGCAA GCTCTCTCCT 
    CATCTCCTGG AGGAACCGGT GATAACTAAG GATATATATG AAGTTGCTGT CTCTCTCATT 
    CAGATGTTTG ATGACTTGGA TATGAAGGAG AGTGGGAACA AGGCTTGGTC GGGGGCCCAG 
    TTTGTGTTGG AGCGAAGCAG TGTGTTGGTG TTTTTGCCAG GTCTGGGTGA AATAAATTAT 
    ATGCATGAAC TTCTCACAAG CCTGGTTCAT AAAAGGTTGC AGGTCTATCC ACTCCATTCA 
    AGTGTGGCTT TAGAAGAACA GAATAATGTC TTTTTAAGTC CAGTCCCTGG GTACAGAAAG 
    ATTATTCTGT CCACCAATAT TGCAGAGAGT TCTGTCACAG TTCCAGATGT CAAATATGTT 
    ATAGATTTTT GTTTGACTAG AACTTTGGTC TGTGATGAAG ATACAAATTA TCAGAGTCTG 
    CGATTGAGTT GGGCTTCTAA AACCAGCTGT AATCAGAGAA AAGGCCGTGC TGGACGAGTG 
    TCTAGAGGGT ACTGTTACCG GCTGGTACAC AAGGATTTCT GGGACAACTC CATCCCTGAT 
    CATGTTGTTC CTGAGATGTT GCGTTGTCCA TTAGGAAGCA CGATCTTGAA AGTGAAATTA 
    CTTGACATGG GTGAGCCGAG AGCTCTGCTG GCCACTGCCC TTTCCCCGCC TGGTCTGAGT 
    GACATTGAGC GCACCATCCT TCTACTAAAG GAGGTTGGAG CACTTGCAGT GAGTGGGCAG 
    AGAGAAGATG AAAACCCCCA TGATGGTGAA TTGACCTTCT TAGGAAGAGT TTTAGCCCAA 
    CTTCCTGTAA ATCAGCAACT TGGTAAACTC ATAGTCCTTG GACATGTATT TGGATGTCTA 
    GATGAATGTC TTATTATAGC GGCAGCTCTT TCTTTGAAGA ATTTTTTTGC AATGCCTTTC 
    CGGCAGCATC TCGATGGATA TAGGAACAAA GTGAATTTCT CTGGCAGTAG CAAGAGTGAC 
    TGTATTGCAC TTGTTGAGGC ATTTAAAACA TGGAAGGCTT GCAGACAGAC AGGGGAGCTG 
    CGGTACCCGA AGGATGAACT TAATTGGGGA CGGTTAAATT ACATTCAAAT CAAGAGAATT 
    AGAGAGGTGG CTGAATTATA TGAAGAATTG AAGACTAGAA TCTCACAGTT CAACATGCAT 
    GTTGATTCTC GGCGACCTGT CATGGACCAA GAGTATATAT ATAAGCAGCG ATTCATCCTA 
    CAGGTTGTAT TGGCAGGTGC TTTCTATCCA AATTACTTTA CTTTTGGACA GCCGGATGAG 
    GAGATGGCGG TGAGGGAGCT GGCTGGCAAG GACCCCAAGA CAACTGTCGT GTTGAAACAC 
    ATTCCTCCCT ATGGATTTCT TTACTATAAA CAACTACAGT CTCTCTTTAG ACAGTGTGGT 
    CAAGTCAAAT CCATTGTATT TGATGGTGCA AAAGCCTTTG TGGAATTCTC ACGAAATCCA 
    ACAGAGAGAT TTAAAACCCT TCCTGCAGTA TATATGGCAA TTAAGATGTC TCAACTAAAA 
    GTTTCACTTG AACTCAGCGT TCATTCTGCA GAGGAAATTG AAGGGAAGGT GCAAGGCATG 
    AACGTCTCAA AGCTCAGGAA CACAAGGGTG AATGTGGACT TCCAGAAGCA GACGGTAGAT 
    CCTATGCAAG TCTCCTTTAA CACATCAGAC AGGTCCCAGA CAGTTACAGA TCTCCTTCTA 
    ACTATTGATG TCACAGAGGT GGTTGAAGTG GGACACTTTT GGGGATACAG GATTGATGAA 
    AACAACTCAG AGATTCTGAA AAAGCTTACT GCTGAAATCA ACCAACTGAC GCTGGTGCCC 
    TTGCCCACTC ACCCACATCC AGACTTGGTC TGTCTGGCAC CTTTTGCTGA TTTTGATAAA 
    CAACGCTACT TTAGAGCTCA AGTCCTTTAT GTTTCTGGAA ATTCTGCTGA GGTATTCTTT 
    GTAGATTATG GCAATAAGTC TCATGTAGAT CTACATCTTT TGATGGAGAT TCCCTGTCAA 
    TTTCTTGAAC TTCCTTTCCA GGCTTTGGAA TTTAAGATTT GCAAAATGAG ACCATCAGCA 
    AAGTCTCTTG TTTGTGGCAA GCACTGGAGT GACGGGGCCA GCCAGTGGTT CGCCTCTCTG 
    GTGAGCGGCT GCACCCTCCT TGTGAAGGTC TTCTCTGTGG TGCACAGCGT CCTGCACGTG 
    GATGTGTACC AGTACTCAGG GGTCCAGGAT GCCATCAACA TAAGAGACGT CCTCATCCAG 
    CAGGGCTATG CCGAGCTCAC GGAGGAGTCC TACGAGTCCA AGCAAAGCCA TGAAGTTCTC 
    AAGGGCCTCT TTTCCAAGTC AGTAGAAAAC ATGACAGATG GCTCTGTGCC CTTTCCCATG 
    AAAGACGACG AGAAATATCT CATCCGGATT TTGTTAGAGA GCTTTTCTAC CAATAAACTG 
    GGTACTCCAA ACTGTAAGGC AGAACTTCAC GGGCCTTTTA ACCCTTATGA ACTAAAGTGC 
    CATAGTTTGA CCAGAATATC CAAATTCAGG TGTGTTTGGA TTGAGAAGGA GAGCATCAAC 
    TCTGTCATTA TCAGTGACGC CCCTGAAGAC CTTCACCAGA GAATGCTGGT TGCAGCTTCC 
    CTTTCCATCA ATGCGACTGG ATCTACGATG CTGCTGAGAG AAACCTCTCT GATGCCTCAT 
    ATCCCTGGCC TCCCGGCTCT CCTCAGCATG TTATTCGCAC CGGTGATAGA GTTAAGGATT 
    GATCAGAATG GCAAGTACTA TACTGGAGTC CTTTGTGGTT TGGGGTGGAA TCCAGCTACA 
    GGGGCTTCCA TACTGCCCGA GCACGACATG GAGCTTGCGT TTGACGTTCA ATTCAGCGTG 
    GAGGATGTCG TCGAGGTTAA TATTCTCAGG GCTGCTATTA ACAAGCTAGT CTGTGATGGA 
    CCAAATGGAT GCAAGTGTCT TGGGCCAGAG AGAGTTGCGC AGCTTCAAGA CATTGCCCGT 
    CAGAAGCTTT TAGGTTTGTT CTGTCAGTCA AAACCAAGGG AGAAGATTGT TCCCAAGTGG 
    CATGAAAAGC CCTACGAGTG GAATCAGGTT GATCCAAAGC TGGTCATGGA GCAGGCCGAC 
    CGTGAGAGCA GCAGAGGGAA GAACACCTTT CTCTACCAGC TCCACAAACT GGTTGTGCTC 
    GGCACCTGA

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

    RefSeq NP_694591.2
    CDS55..4203
    Translation

    Target ORF information:

    RefSeq Version NM_153046.3
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 9 (TDRD9), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_153046.3

    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
    ATGCTGCGGA AGCTCACCAT CGAGCAGATC AACGACTGGT TCACCATCGG CAAGACGGTG 
    ACCAATGTGG AGCTGCTGGG CGCGCCGCCC GCCTTCCCGG CAGGGGCGGC CAGGGAGGAG 
    GTGCAGCGCC AGGACGTGGC CCCCGGCGCT GGTCCCGCGG CCCAGGCTCC GGCTCTGGCC 
    CAAGCTCCGG CCCGGCCGGC CGCTGCGTTC GAAAGGTCAC TCAGCCAAAG GAGCTCAGAA 
    GTAGAGTATA TTAACAAATA CAGACAGCTC GAAGCACAAG AGCTTGATGT GTGTCGCAGT 
    GTCCAACCAA CCAGTGGGCC AGGTCCAAGG CCATCTTTGG CTAAATTAAG CAGTGTGACA 
    TGCATCCCAG GGACAACTTA TAAATATCCT GATTTGCCTA TAAGTCGATA CAAGGAAGAG 
    GTTGTGTCTT TGATAGAAAG TAATTCCGTG GTGATTATCC ATGGGGCCAC GGGAAGCGGT 
    AAAAGCACTC AGCTCCCGCA GTATATCTTG GACCACTACG TTCAGCGCTC CGCCTACTGC 
    AGCATTGTGG TCACCCAGCC CCGGAAGATA GGGGCAAGCA GCATCGCCAG GTGGATCAGT 
    AAAGAGCGTG CCTGGACCCT GGGAGGTGTG GTGGGCTACC AGGTAGGGCT AGAGAAAATA 
    GCAACAGAGG ACACCAGGCT AATTTATATG ACAACTGGAG TCCTGCTTCA GAAAATAGTT 
    AGTGCCAAGA GTTTGATGGA ATTCACACAT ATCATCATTG ATGAAGTACA CGAACGAACA 
    GAAGAAATGG ATTTCCTGCT ATTGGTAGTC CGCAAACTCT TAAGAACAAA TTCACGTTTT 
    GTGAAGGTGG TCCTGATGTC GGCTACCATC AGCTGTAAAG AGTTTGCAGA CTACTTTGCT 
    GTTCCTGTTC AAAACAAGAT GAATCCTGCA TATATTTTTG AAGTGGAAGG CAAGCCCCAT 
    TCAGTTGAAG AGTATTATCT TAATGATTTG GAGCACATTC ATCATAGCAA GCTCTCTCCT 
    CATCTCCTGG AGGAACCGGT GATAACTAAG GATATATATG AAGTTGCTGT CTCTCTCATT 
    CAGATGTTTG ATGACTTGGA TATGAAGGAG AGTGGGAACA AGGCTTGGTC GGGGGCCCAG 
    TTTGTGTTGG AGCGAAGCAG TGTGTTGGTG TTTTTGCCAG GTCTGGGTGA AATAAATTAT 
    ATGCATGAAC TTCTCACAAG CCTGGTTCAT AAAAGGTTGC AGGTCTATCC ACTCCATTCA 
    AGTGTGGCTT TAGAAGAACA GAATAATGTC TTTTTAAGTC CAGTCCCTGG GTACAGAAAG 
    ATTATTCTGT CCACCAATAT TGCAGAGAGT TCTGTCACAG TTCCAGATGT CAAATATGTT 
    ATAGATTTTT GTTTGACTAG AACTTTGGTC TGTGATGAAG ATACAAATTA TCAGAGTCTG 
    CGATTGAGTT GGGCTTCTAA AACCAGCTGT AATCAGAGAA AAGGCCGTGC TGGACGAGTG 
    TCTAGAGGGT ACTGTTACCG GCTGGTACAC AAGGATTTCT GGGACAACTC CATCCCTGAT 
    CATGTTGTTC CTGAGATGTT GCGTTGTCCA TTAGGAAGCA CGATCTTGAA AGTGAAATTA 
    CTTGACATGG GTGAGCCGAG AGCTCTGCTG GCCACTGCCC TTTCCCCGCC TGGTCTGAGT 
    GACATTGAGC GCACCATCCT TCTACTAAAG GAGGTTGGAG CACTTGCAGT GAGTGGGCAG 
    AGAGAAGATG AAAACCCCCA TGATGGTGAA TTGACCTTCT TAGGAAGAGT TTTAGCCCAA 
    CTTCCTGTAA ATCAGCAACT TGGTAAACTC ATAGTCCTTG GACATGTATT TGGATGTCTA 
    GATGAATGTC TTATTATAGC GGCAGCTCTT TCTTTGAAGA ATTTTTTTGC AATGCCTTTC 
    CGGCAGCATC TCGATGGATA TAGGAACAAA GTGAATTTCT CTGGCAGTAG CAAGAGTGAC 
    TGTATTGCAC TTGTTGAGGC ATTTAAAACA TGGAAGGCTT GCAGACAGAC AGGGGAGCTG 
    CGGTACCCGA AGGATGAACT TAATTGGGGA CGGTTAAATT ACATTCAAAT CAAGAGAATT 
    AGAGAGGTGG CTGAATTATA TGAAGAATTG AAGACTAGAA TCTCACAGTT CAACATGCAT 
    GTTGATTCTC GGCGACCTGT CATGGACCAA GAGTATATAT ATAAGCAGCG ATTCATCCTA 
    CAGGTTGTAT TGGCAGGTGC TTTCTATCCA AATTACTTTA CTTTTGGACA GCCGGATGAG 
    GAGATGGCGG TGAGGGAGCT GGCTGGCAAG GACCCCAAGA CAACTGTCGT GTTGAAACAC 
    ATTCCTCCCT ATGGATTTCT TTACTATAAA CAACTACAGT CTCTCTTTAG ACAGTGTGGT 
    CAAGTCAAAT CCATTGTATT TGATGGTGCA AAAGCCTTTG TGGAATTCTC ACGAAATCCA 
    ACAGAGAGAT TTAAAACCCT TCCTGCAGTA TATATGGCAA TTAAGATGTC TCAACTAAAA 
    GTTTCACTTG AACTCAGCGT TCATTCTGCA GAGGAAATTG AAGGGAAGGT GCAAGGCATG 
    AACGTCTCAA AGCTCAGGAA CACAAGGGTG AATGTGGACT TCCAGAAGCA GACGGTAGAT 
    CCTATGCAAG TCTCCTTTAA CACATCAGAC AGGTCCCAGA CAGTTACAGA TCTCCTTCTA 
    ACTATTGATG TCACAGAGGT GGTTGAAGTG GGACACTTTT GGGGATACAG GATTGATGAA 
    AACAACTCAG AGATTCTGAA AAAGCTTACT GCTGAAATCA ACCAACTGAC GCTGGTGCCC 
    TTGCCCACTC ACCCACATCC AGACTTGGTC TGTCTGGCAC CTTTTGCTGA TTTTGATAAA 
    CAACGCTACT TTAGAGCTCA AGTCCTTTAT GTTTCTGGAA ATTCTGCTGA GGTATTCTTT 
    GTAGATTATG GCAATAAGTC TCATGTAGAT CTACATCTTT TGATGGAGAT TCCCTGTCAA 
    TTTCTTGAAC TTCCTTTCCA GGCTTTGGAA TTTAAGATTT GCAAAATGAG ACCATCAGCA 
    AAGTCTCTTG TTTGTGGCAA GCACTGGAGT GACGGGGCCA GCCAGTGGTT CGCCTCTCTG 
    GTGAGCGGCT GCACCCTCCT TGTGAAGGTC TTCTCTGTGG TGCACAGCGT CCTGCACGTG 
    GATGTGTACC AGTACTCAGG GGTCCAGGAT GCCATCAACA TAAGAGACGT CCTCATCCAG 
    CAGGGCTATG CCGAGCTCAC GGAGGAGTCC TACGAGTCCA AGCAAAGCCA TGAAGTTCTC 
    AAGGGCCTCT TTTCCAAGTC AGTAGAAAAC ATGACAGATG GCTCTGTGCC CTTTCCCATG 
    AAAGACGACG AGAAATATCT CATCCGGATT TTGTTAGAGA GCTTTTCTAC CAATAAACTG 
    GGTACTCCAA ACTGTAAGGC AGAACTTCAC GGGCCTTTTA ACCCTTATGA ACTAAAGTGC 
    CATAGTTTGA CCAGAATATC CAAATTCAGG TGTGTTTGGA TTGAGAAGGA GAGCATCAAC 
    TCTGTCATTA TCAGTGACGC CCCTGAAGAC CTTCACCAGA GAATGCTGGT TGCAGCTTCC 
    CTTTCCATCA ATGCGACTGG ATCTACGATG CTGCTGAGAG AAACCTCTCT GATGCCTCAT 
    ATCCCTGGCC TCCCGGCTCT CCTCAGCATG TTATTCGCAC CGGTGATAGA GTTAAGGATT 
    GATCAGAATG GCAAGTACTA TACTGGAGTC CTTTGTGGTT TGGGGTGGAA TCCAGCTACA 
    GGGGCTTCCA TACTGCCCGA GCACGACATG GAGCTTGCGT TTGACGTTCA ATTCAGCGTG 
    GAGGATGTCG TCGAGGTTAA TATTCTCAGG GCTGCTATTA ACAAGCTAGT CTGTGATGGA 
    CCAAATGGAT GCAAGTGTCT TGGGCCAGAG AGAGTTGCGC AGCTTCAAGA CATTGCCCGT 
    CAGAAGCTTT TAGGTTTGTT CTGTCAGTCA AAACCAAGGG AGAAGATTGT TCCCAAGTGG 
    CATGAAAAGC CCTACGAGTG GAATCAGGTT GATCCAAAGC TGGTCATGGA GCAGGCCGAC 
    CGTGAGAGCA GCAGAGGGAA GAACACCTTT CTCTACCAGC TCCACAAACT GGTTGTGCTC 
    GGCACCTGA

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

    TDRD9 ( XM_011536401.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011534703.1 Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OHu75200
    Clone ID Related Accession (Same CDS sequence) XM_011536401.3 , XM_011536401.2
    Accession Version XM_011536401.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3462bp)
    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 ATP-dependent RNA helicase TDRD9 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000014.9) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011536401.2. ##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
    ATGACAACTG GAGTCCTGCT TCAGAAAATA GTTAGTGCCA AGAGTTTGAT GGAATTCACA 
    CATATCATCA TTGATGAAGT ACACGAACGA ACAGAAGAAA TGGATTTCCT GCTATTGGTA 
    GTCCGCAAAC TCTTAAGAAC AAATTCACGT TTTGTGAAGG TGGTCCTGAT GTCGGCTACC 
    ATCAGCTGTA AAGAGTTTGC AGACTACTTT GCTGTTCCTG TTCAAAACAA GATGAATCCT 
    GCATATATTT TTGAAGTGGA AGGCAAGCCC CATTCAGTTG AAGAGTATTA TCTTAATGAT 
    TTGGAGCACA TTCATCATAG CAAGCTCTCT CCTCATCTCC TGGAGGAACC GGTGATAACT 
    AAGGATATAT ATGAAGTTGC TGTCTCTCTC ATTCAGATGT TTGATGACTT GGATATGAAG 
    GAGAGTGGGA ACAAGGCTTG GTCGGGGGCC CAGTTTGTGT TGGAGCGAAG CAGTGTGTTG 
    GTGTTTTTGC CAGGTCTGGG TGAAATAAAT TATATGCATG AACTTCTCAC AAGCCTGGTT 
    CATAAAAGGT TGCAGGTCTA TCCACTCCAT TCAAGTGTGG CTTTAGAAGA ACAGAATAAT 
    GTCTTTTTAA GTCCAGTCCC TGGGTACAGA AAGATTATTC TGTCCACCAA TATTGCAGAG 
    AGTTCTGTCA CAGTTCCAGA TGTCAAATAT GTTATAGATT TTTGTTTGAC TAGAACTTTG 
    GTCTGTGATG AAGATACAAA TTATCAGAGT CTGCGATTGA GTTGGGCTTC TAAAACCAGC 
    TGTAATCAGA GAAAAGGCCG TGCTGGACGA GTGTCTAGAG GGTACTGTTA CCGGCTGGTA 
    CACAAGGATT TCTGGGACAA CTCCATCCCT GATCATGTTG TTCCTGAGAT GTTGCGTTGT 
    CCATTAGGAA GCACGATCTT GAAAGTGAAA TTACTTGACA TGGGTGAGCC GAGAGCTCTG 
    CTGGCCACTG CCCTTTCCCC GCCTGGTCTG AGTGACATTG AGCGCACCAT CCTTCTACTA 
    AAGGAGGTTG GAGCACTTGC AGTGAGTGGG CAGAGAGAAG ATGAAAACCC CCATGATGGT 
    GAATTGACCT TCTTAGGAAG AGTTTTAGCC CAACTTCCTG TAAATCAGCA ACTTGGTAAA 
    CTCATAGTCC TTGGACATGT ATTTGGATGT CTAGATGAAT GTCTTATTAT AGCGGCAGCT 
    CTTTCTTTGA AGAATTTTTT TGCAATGCCT TTCCGGCAGC ATCTCGATGG ATATAGGAAC 
    AAAGTGAATT TCTCTGGCAG TAGCAAGAGT GACTGTATTG CACTTGTTGA GGCATTTAAA 
    ACATGGAAGG CTTGCAGACA GACAGGGGAG CTGCGGTACC CGAAGGATGA ACTTAATTGG 
    GGACGGTTAA ATTACATTCA AATCAAGAGA ATTAGAGAGG TGGCTGAATT ATATGAAGAA 
    TTGAAGACTA GAATCTCACA GTTCAACATG CATGTTGATT CTCGGCGACC TGTCATGGAC 
    CAAGAGTATA TATATAAGCA GCGATTCATC CTACAGGTTG TATTGGCAGG TGCTTTCTAT 
    CCAAATTACT TTACTTTTGG ACAGCCGGAT GAGGAGATGG CGGTGAGGGA GCTGGCTGGC 
    AAGGACCCCA AGACAACTGT CGTGTTGAAA CACATTCCTC CCTATGGATT TCTTTACTAT 
    AAACAACTAC AGTCTCTCTT TAGACAGTGT GGTCAAGTCA AATCCATTGT ATTTGATGGT 
    GCAAAAGCCT TTGTGGAATT CTCACGAAAT CCAACAGAGA GATTTAAAAC CCTTCCTGCA 
    GTATATATGG CAATTAAGAT GTCTCAACTA AAAGTTTCAC TTGAACTCAG CGTTCATTCT 
    GCAGAGGAAA TTGAAGGGAA GGTGCAAGGC ATGAACGTCT CAAAGCTCAG GAACACAAGG 
    GTGAATGTGG ACTTCCAGAA GCAGACGGTA GATCCTATGC AAGTCTCCTT TAACACATCA 
    GACAGGTCCC AGACAGTTAC AGATCTCCTT CTAACTATTG ATGTCACAGA GGTGGTTGAA 
    GTGGGACACT TTTGGGGATA CAGGATTGAT GAAAACAACT CAGAGATTCT GAAAAAGCTT 
    ACTGCTGAAA TCAACCAACT GACGCTGGTG CCCTTGCCCA CTCACCCACA TCCAGACTTG 
    GTCTGTCTGG CACCTTTTGC TGATTTTGAT AAACAACGCT ACTTTAGAGC TCAAGTCCTT 
    TATGTTTCTG GAAATTCTGC TGAGGTATTC TTTGTAGATT ATGGCAATAA GTCTCATGTA 
    GATCTACATC TTTTGATGGA GATTCCCTGT CAATTTCTTG AACTTCCTTT CCAGGCTTTG 
    GAATTTAAGA TTTGCAAAAT GAGACCATCA GCAAAGTCTC TTGTTTGTGG CAAGCACTGG 
    AGTGACGGGG CCAGCCAGTG GTTCGCCTCT CTGGTGAGCG GCTGCACCCT CCTTGTGAAG 
    GTCTTCTCTG TGGTGCACAG CGTCCTGCAC GTGGATGTGT ACCAGTACTC AGGGGTCCAG 
    GATGCCATCA ACATAAGAGA CGTCCTCATC CAGCAGGGCT ATGCCGAGCT CACGGAGGAG 
    TCCTACGAGT CCAAGCAAAG CCATGAAGTT CTCAAGGGCC TCTTTTCCAA GTCAGTAGAA 
    AACATGACAG ATGGCTCTGT GCCCTTTCCC ATGAAAGACG ACGAGAAATA TCTCATCCGG 
    ATTTTGTTAG AGAGCTTTTC TACCAATAAA CTGGGTACTC CAAACTGTAA GGCAGAACTT 
    CACGGGCCTT TTAACCCTTA TGAACTAAAG TGCCATAGTT TGACCAGAAT ATCCAAATTC 
    AGGTGTGTTT GGATTGAGAA GGAGAGCATC AACTCTGTCA TTATCAGTGA CGCCCCTGAA 
    GACCTTCACC AGAGAATGCT GGTTGCAGCT TCCCTTTCCA TCAATGCGAC TGGATCTACG 
    ATGCTGCTGA GAGAAACCTC TCTGATGCCT CATATCCCTG GCCTCCCGGC TCTCCTCAGC 
    ATGTTATTCG CACCGGTGAT AGAGTTAAGG ATTGATCAGA ATGGCAAGTA CTATACTGGA 
    GTCCTTTGTG GTTTGGGGTG GAATCCAGCT ACAGGGGCTT CCATACTGCC CGAGCACGAC 
    ATGGAGCTTG CGTTTGACGT TCAATTCAGC GTGGAGGATG TCGTCGAGGT TAATATTCTC 
    AGGGCTGCTA TTAACAAGCT AGTCTGTGAT GGACCAAATG GATGCAAGTG TCTTGGGCCA 
    GAGAGAGTTG CGCAGCTTCA AGACATTGCC CGTCAGAAGC TTTTAGGTTT GTTCTGTCAG 
    TCAAAACCAA GGGAGAAGAT TGTTCCCAAG TGGCATGAAA AGCCCTACGA GTGGAATCAG 
    GTTGATCCAA AGCTGGTCAT GGAGCAGGCC GACCGTGAGA GCAGCAGAGG GAAGAACACC 
    TTTCTCTACC AGCTCCACAA ACTGGTTGTG CTCGGCACCT GA

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

    RefSeq XP_011534703.1
    CDS588..4049
    Translation

    Target ORF information:

    RefSeq Version XM_011536401.3
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011536401.3

    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
    ATGACAACTG GAGTCCTGCT TCAGAAAATA GTTAGTGCCA AGAGTTTGAT GGAATTCACA 
    CATATCATCA TTGATGAAGT ACACGAACGA ACAGAAGAAA TGGATTTCCT GCTATTGGTA 
    GTCCGCAAAC TCTTAAGAAC AAATTCACGT TTTGTGAAGG TGGTCCTGAT GTCGGCTACC 
    ATCAGCTGTA AAGAGTTTGC AGACTACTTT GCTGTTCCTG TTCAAAACAA GATGAATCCT 
    GCATATATTT TTGAAGTGGA AGGCAAGCCC CATTCAGTTG AAGAGTATTA TCTTAATGAT 
    TTGGAGCACA TTCATCATAG CAAGCTCTCT CCTCATCTCC TGGAGGAACC GGTGATAACT 
    AAGGATATAT ATGAAGTTGC TGTCTCTCTC ATTCAGATGT TTGATGACTT GGATATGAAG 
    GAGAGTGGGA ACAAGGCTTG GTCGGGGGCC CAGTTTGTGT TGGAGCGAAG CAGTGTGTTG 
    GTGTTTTTGC CAGGTCTGGG TGAAATAAAT TATATGCATG AACTTCTCAC AAGCCTGGTT 
    CATAAAAGGT TGCAGGTCTA TCCACTCCAT TCAAGTGTGG CTTTAGAAGA ACAGAATAAT 
    GTCTTTTTAA GTCCAGTCCC TGGGTACAGA AAGATTATTC TGTCCACCAA TATTGCAGAG 
    AGTTCTGTCA CAGTTCCAGA TGTCAAATAT GTTATAGATT TTTGTTTGAC TAGAACTTTG 
    GTCTGTGATG AAGATACAAA TTATCAGAGT CTGCGATTGA GTTGGGCTTC TAAAACCAGC 
    TGTAATCAGA GAAAAGGCCG TGCTGGACGA GTGTCTAGAG GGTACTGTTA CCGGCTGGTA 
    CACAAGGATT TCTGGGACAA CTCCATCCCT GATCATGTTG TTCCTGAGAT GTTGCGTTGT 
    CCATTAGGAA GCACGATCTT GAAAGTGAAA TTACTTGACA TGGGTGAGCC GAGAGCTCTG 
    CTGGCCACTG CCCTTTCCCC GCCTGGTCTG AGTGACATTG AGCGCACCAT CCTTCTACTA 
    AAGGAGGTTG GAGCACTTGC AGTGAGTGGG CAGAGAGAAG ATGAAAACCC CCATGATGGT 
    GAATTGACCT TCTTAGGAAG AGTTTTAGCC CAACTTCCTG TAAATCAGCA ACTTGGTAAA 
    CTCATAGTCC TTGGACATGT ATTTGGATGT CTAGATGAAT GTCTTATTAT AGCGGCAGCT 
    CTTTCTTTGA AGAATTTTTT TGCAATGCCT TTCCGGCAGC ATCTCGATGG ATATAGGAAC 
    AAAGTGAATT TCTCTGGCAG TAGCAAGAGT GACTGTATTG CACTTGTTGA GGCATTTAAA 
    ACATGGAAGG CTTGCAGACA GACAGGGGAG CTGCGGTACC CGAAGGATGA ACTTAATTGG 
    GGACGGTTAA ATTACATTCA AATCAAGAGA ATTAGAGAGG TGGCTGAATT ATATGAAGAA 
    TTGAAGACTA GAATCTCACA GTTCAACATG CATGTTGATT CTCGGCGACC TGTCATGGAC 
    CAAGAGTATA TATATAAGCA GCGATTCATC CTACAGGTTG TATTGGCAGG TGCTTTCTAT 
    CCAAATTACT TTACTTTTGG ACAGCCGGAT GAGGAGATGG CGGTGAGGGA GCTGGCTGGC 
    AAGGACCCCA AGACAACTGT CGTGTTGAAA CACATTCCTC CCTATGGATT TCTTTACTAT 
    AAACAACTAC AGTCTCTCTT TAGACAGTGT GGTCAAGTCA AATCCATTGT ATTTGATGGT 
    GCAAAAGCCT TTGTGGAATT CTCACGAAAT CCAACAGAGA GATTTAAAAC CCTTCCTGCA 
    GTATATATGG CAATTAAGAT GTCTCAACTA AAAGTTTCAC TTGAACTCAG CGTTCATTCT 
    GCAGAGGAAA TTGAAGGGAA GGTGCAAGGC ATGAACGTCT CAAAGCTCAG GAACACAAGG 
    GTGAATGTGG ACTTCCAGAA GCAGACGGTA GATCCTATGC AAGTCTCCTT TAACACATCA 
    GACAGGTCCC AGACAGTTAC AGATCTCCTT CTAACTATTG ATGTCACAGA GGTGGTTGAA 
    GTGGGACACT TTTGGGGATA CAGGATTGAT GAAAACAACT CAGAGATTCT GAAAAAGCTT 
    ACTGCTGAAA TCAACCAACT GACGCTGGTG CCCTTGCCCA CTCACCCACA TCCAGACTTG 
    GTCTGTCTGG CACCTTTTGC TGATTTTGAT AAACAACGCT ACTTTAGAGC TCAAGTCCTT 
    TATGTTTCTG GAAATTCTGC TGAGGTATTC TTTGTAGATT ATGGCAATAA GTCTCATGTA 
    GATCTACATC TTTTGATGGA GATTCCCTGT CAATTTCTTG AACTTCCTTT CCAGGCTTTG 
    GAATTTAAGA TTTGCAAAAT GAGACCATCA GCAAAGTCTC TTGTTTGTGG CAAGCACTGG 
    AGTGACGGGG CCAGCCAGTG GTTCGCCTCT CTGGTGAGCG GCTGCACCCT CCTTGTGAAG 
    GTCTTCTCTG TGGTGCACAG CGTCCTGCAC GTGGATGTGT ACCAGTACTC AGGGGTCCAG 
    GATGCCATCA ACATAAGAGA CGTCCTCATC CAGCAGGGCT ATGCCGAGCT CACGGAGGAG 
    TCCTACGAGT CCAAGCAAAG CCATGAAGTT CTCAAGGGCC TCTTTTCCAA GTCAGTAGAA 
    AACATGACAG ATGGCTCTGT GCCCTTTCCC ATGAAAGACG ACGAGAAATA TCTCATCCGG 
    ATTTTGTTAG AGAGCTTTTC TACCAATAAA CTGGGTACTC CAAACTGTAA GGCAGAACTT 
    CACGGGCCTT TTAACCCTTA TGAACTAAAG TGCCATAGTT TGACCAGAAT ATCCAAATTC 
    AGGTGTGTTT GGATTGAGAA GGAGAGCATC AACTCTGTCA TTATCAGTGA CGCCCCTGAA 
    GACCTTCACC AGAGAATGCT GGTTGCAGCT TCCCTTTCCA TCAATGCGAC TGGATCTACG 
    ATGCTGCTGA GAGAAACCTC TCTGATGCCT CATATCCCTG GCCTCCCGGC TCTCCTCAGC 
    ATGTTATTCG CACCGGTGAT AGAGTTAAGG ATTGATCAGA ATGGCAAGTA CTATACTGGA 
    GTCCTTTGTG GTTTGGGGTG GAATCCAGCT ACAGGGGCTT CCATACTGCC CGAGCACGAC 
    ATGGAGCTTG CGTTTGACGT TCAATTCAGC GTGGAGGATG TCGTCGAGGT TAATATTCTC 
    AGGGCTGCTA TTAACAAGCT AGTCTGTGAT GGACCAAATG GATGCAAGTG TCTTGGGCCA 
    GAGAGAGTTG CGCAGCTTCA AGACATTGCC CGTCAGAAGC TTTTAGGTTT GTTCTGTCAG 
    TCAAAACCAA GGGAGAAGAT TGTTCCCAAG TGGCATGAAA AGCCCTACGA GTGGAATCAG 
    GTTGATCCAA AGCTGGTCAT GGAGCAGGCC GACCGTGAGA GCAGCAGAGG GAAGAACACC 
    TTTCTCTACC AGCTCCACAA ACTGGTTGTG CTCGGCACCT GA

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

    TDRD9 ( XM_011536401.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011534703.1 Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OHu75200
    Clone ID Related Accession (Same CDS sequence) XM_011536401.3 , XM_011536401.2
    Accession Version XM_011536401.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3462bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    Product putative ATP-dependent RNA helicase TDRD9 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000014.9) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011536401.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
    ATGACAACTG GAGTCCTGCT TCAGAAAATA GTTAGTGCCA AGAGTTTGAT GGAATTCACA 
    CATATCATCA TTGATGAAGT ACACGAACGA ACAGAAGAAA TGGATTTCCT GCTATTGGTA 
    GTCCGCAAAC TCTTAAGAAC AAATTCACGT TTTGTGAAGG TGGTCCTGAT GTCGGCTACC 
    ATCAGCTGTA AAGAGTTTGC AGACTACTTT GCTGTTCCTG TTCAAAACAA GATGAATCCT 
    GCATATATTT TTGAAGTGGA AGGCAAGCCC CATTCAGTTG AAGAGTATTA TCTTAATGAT 
    TTGGAGCACA TTCATCATAG CAAGCTCTCT CCTCATCTCC TGGAGGAACC GGTGATAACT 
    AAGGATATAT ATGAAGTTGC TGTCTCTCTC ATTCAGATGT TTGATGACTT GGATATGAAG 
    GAGAGTGGGA ACAAGGCTTG GTCGGGGGCC CAGTTTGTGT TGGAGCGAAG CAGTGTGTTG 
    GTGTTTTTGC CAGGTCTGGG TGAAATAAAT TATATGCATG AACTTCTCAC AAGCCTGGTT 
    CATAAAAGGT TGCAGGTCTA TCCACTCCAT TCAAGTGTGG CTTTAGAAGA ACAGAATAAT 
    GTCTTTTTAA GTCCAGTCCC TGGGTACAGA AAGATTATTC TGTCCACCAA TATTGCAGAG 
    AGTTCTGTCA CAGTTCCAGA TGTCAAATAT GTTATAGATT TTTGTTTGAC TAGAACTTTG 
    GTCTGTGATG AAGATACAAA TTATCAGAGT CTGCGATTGA GTTGGGCTTC TAAAACCAGC 
    TGTAATCAGA GAAAAGGCCG TGCTGGACGA GTGTCTAGAG GGTACTGTTA CCGGCTGGTA 
    CACAAGGATT TCTGGGACAA CTCCATCCCT GATCATGTTG TTCCTGAGAT GTTGCGTTGT 
    CCATTAGGAA GCACGATCTT GAAAGTGAAA TTACTTGACA TGGGTGAGCC GAGAGCTCTG 
    CTGGCCACTG CCCTTTCCCC GCCTGGTCTG AGTGACATTG AGCGCACCAT CCTTCTACTA 
    AAGGAGGTTG GAGCACTTGC AGTGAGTGGG CAGAGAGAAG ATGAAAACCC CCATGATGGT 
    GAATTGACCT TCTTAGGAAG AGTTTTAGCC CAACTTCCTG TAAATCAGCA ACTTGGTAAA 
    CTCATAGTCC TTGGACATGT ATTTGGATGT CTAGATGAAT GTCTTATTAT AGCGGCAGCT 
    CTTTCTTTGA AGAATTTTTT TGCAATGCCT TTCCGGCAGC ATCTCGATGG ATATAGGAAC 
    AAAGTGAATT TCTCTGGCAG TAGCAAGAGT GACTGTATTG CACTTGTTGA GGCATTTAAA 
    ACATGGAAGG CTTGCAGACA GACAGGGGAG CTGCGGTACC CGAAGGATGA ACTTAATTGG 
    GGACGGTTAA ATTACATTCA AATCAAGAGA ATTAGAGAGG TGGCTGAATT ATATGAAGAA 
    TTGAAGACTA GAATCTCACA GTTCAACATG CATGTTGATT CTCGGCGACC TGTCATGGAC 
    CAAGAGTATA TATATAAGCA GCGATTCATC CTACAGGTTG TATTGGCAGG TGCTTTCTAT 
    CCAAATTACT TTACTTTTGG ACAGCCGGAT GAGGAGATGG CGGTGAGGGA GCTGGCTGGC 
    AAGGACCCCA AGACAACTGT CGTGTTGAAA CACATTCCTC CCTATGGATT TCTTTACTAT 
    AAACAACTAC AGTCTCTCTT TAGACAGTGT GGTCAAGTCA AATCCATTGT ATTTGATGGT 
    GCAAAAGCCT TTGTGGAATT CTCACGAAAT CCAACAGAGA GATTTAAAAC CCTTCCTGCA 
    GTATATATGG CAATTAAGAT GTCTCAACTA AAAGTTTCAC TTGAACTCAG CGTTCATTCT 
    GCAGAGGAAA TTGAAGGGAA GGTGCAAGGC ATGAACGTCT CAAAGCTCAG GAACACAAGG 
    GTGAATGTGG ACTTCCAGAA GCAGACGGTA GATCCTATGC AAGTCTCCTT TAACACATCA 
    GACAGGTCCC AGACAGTTAC AGATCTCCTT CTAACTATTG ATGTCACAGA GGTGGTTGAA 
    GTGGGACACT TTTGGGGATA CAGGATTGAT GAAAACAACT CAGAGATTCT GAAAAAGCTT 
    ACTGCTGAAA TCAACCAACT GACGCTGGTG CCCTTGCCCA CTCACCCACA TCCAGACTTG 
    GTCTGTCTGG CACCTTTTGC TGATTTTGAT AAACAACGCT ACTTTAGAGC TCAAGTCCTT 
    TATGTTTCTG GAAATTCTGC TGAGGTATTC TTTGTAGATT ATGGCAATAA GTCTCATGTA 
    GATCTACATC TTTTGATGGA GATTCCCTGT CAATTTCTTG AACTTCCTTT CCAGGCTTTG 
    GAATTTAAGA TTTGCAAAAT GAGACCATCA GCAAAGTCTC TTGTTTGTGG CAAGCACTGG 
    AGTGACGGGG CCAGCCAGTG GTTCGCCTCT CTGGTGAGCG GCTGCACCCT CCTTGTGAAG 
    GTCTTCTCTG TGGTGCACAG CGTCCTGCAC GTGGATGTGT ACCAGTACTC AGGGGTCCAG 
    GATGCCATCA ACATAAGAGA CGTCCTCATC CAGCAGGGCT ATGCCGAGCT CACGGAGGAG 
    TCCTACGAGT CCAAGCAAAG CCATGAAGTT CTCAAGGGCC TCTTTTCCAA GTCAGTAGAA 
    AACATGACAG ATGGCTCTGT GCCCTTTCCC ATGAAAGACG ACGAGAAATA TCTCATCCGG 
    ATTTTGTTAG AGAGCTTTTC TACCAATAAA CTGGGTACTC CAAACTGTAA GGCAGAACTT 
    CACGGGCCTT TTAACCCTTA TGAACTAAAG TGCCATAGTT TGACCAGAAT ATCCAAATTC 
    AGGTGTGTTT GGATTGAGAA GGAGAGCATC AACTCTGTCA TTATCAGTGA CGCCCCTGAA 
    GACCTTCACC AGAGAATGCT GGTTGCAGCT TCCCTTTCCA TCAATGCGAC TGGATCTACG 
    ATGCTGCTGA GAGAAACCTC TCTGATGCCT CATATCCCTG GCCTCCCGGC TCTCCTCAGC 
    ATGTTATTCG CACCGGTGAT AGAGTTAAGG ATTGATCAGA ATGGCAAGTA CTATACTGGA 
    GTCCTTTGTG GTTTGGGGTG GAATCCAGCT ACAGGGGCTT CCATACTGCC CGAGCACGAC 
    ATGGAGCTTG CGTTTGACGT TCAATTCAGC GTGGAGGATG TCGTCGAGGT TAATATTCTC 
    AGGGCTGCTA TTAACAAGCT AGTCTGTGAT GGACCAAATG GATGCAAGTG TCTTGGGCCA 
    GAGAGAGTTG CGCAGCTTCA AGACATTGCC CGTCAGAAGC TTTTAGGTTT GTTCTGTCAG 
    TCAAAACCAA GGGAGAAGAT TGTTCCCAAG TGGCATGAAA AGCCCTACGA GTGGAATCAG 
    GTTGATCCAA AGCTGGTCAT GGAGCAGGCC GACCGTGAGA GCAGCAGAGG GAAGAACACC 
    TTTCTCTACC AGCTCCACAA ACTGGTTGTG CTCGGCACCT GA

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

    RefSeq XP_011534703.1
    CDS593..4054
    Translation

    Target ORF information:

    RefSeq Version XM_011536401.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011536401.2

    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
    ATGACAACTG GAGTCCTGCT TCAGAAAATA GTTAGTGCCA AGAGTTTGAT GGAATTCACA 
    CATATCATCA TTGATGAAGT ACACGAACGA ACAGAAGAAA TGGATTTCCT GCTATTGGTA 
    GTCCGCAAAC TCTTAAGAAC AAATTCACGT TTTGTGAAGG TGGTCCTGAT GTCGGCTACC 
    ATCAGCTGTA AAGAGTTTGC AGACTACTTT GCTGTTCCTG TTCAAAACAA GATGAATCCT 
    GCATATATTT TTGAAGTGGA AGGCAAGCCC CATTCAGTTG AAGAGTATTA TCTTAATGAT 
    TTGGAGCACA TTCATCATAG CAAGCTCTCT CCTCATCTCC TGGAGGAACC GGTGATAACT 
    AAGGATATAT ATGAAGTTGC TGTCTCTCTC ATTCAGATGT TTGATGACTT GGATATGAAG 
    GAGAGTGGGA ACAAGGCTTG GTCGGGGGCC CAGTTTGTGT TGGAGCGAAG CAGTGTGTTG 
    GTGTTTTTGC CAGGTCTGGG TGAAATAAAT TATATGCATG AACTTCTCAC AAGCCTGGTT 
    CATAAAAGGT TGCAGGTCTA TCCACTCCAT TCAAGTGTGG CTTTAGAAGA ACAGAATAAT 
    GTCTTTTTAA GTCCAGTCCC TGGGTACAGA AAGATTATTC TGTCCACCAA TATTGCAGAG 
    AGTTCTGTCA CAGTTCCAGA TGTCAAATAT GTTATAGATT TTTGTTTGAC TAGAACTTTG 
    GTCTGTGATG AAGATACAAA TTATCAGAGT CTGCGATTGA GTTGGGCTTC TAAAACCAGC 
    TGTAATCAGA GAAAAGGCCG TGCTGGACGA GTGTCTAGAG GGTACTGTTA CCGGCTGGTA 
    CACAAGGATT TCTGGGACAA CTCCATCCCT GATCATGTTG TTCCTGAGAT GTTGCGTTGT 
    CCATTAGGAA GCACGATCTT GAAAGTGAAA TTACTTGACA TGGGTGAGCC GAGAGCTCTG 
    CTGGCCACTG CCCTTTCCCC GCCTGGTCTG AGTGACATTG AGCGCACCAT CCTTCTACTA 
    AAGGAGGTTG GAGCACTTGC AGTGAGTGGG CAGAGAGAAG ATGAAAACCC CCATGATGGT 
    GAATTGACCT TCTTAGGAAG AGTTTTAGCC CAACTTCCTG TAAATCAGCA ACTTGGTAAA 
    CTCATAGTCC TTGGACATGT ATTTGGATGT CTAGATGAAT GTCTTATTAT AGCGGCAGCT 
    CTTTCTTTGA AGAATTTTTT TGCAATGCCT TTCCGGCAGC ATCTCGATGG ATATAGGAAC 
    AAAGTGAATT TCTCTGGCAG TAGCAAGAGT GACTGTATTG CACTTGTTGA GGCATTTAAA 
    ACATGGAAGG CTTGCAGACA GACAGGGGAG CTGCGGTACC CGAAGGATGA ACTTAATTGG 
    GGACGGTTAA ATTACATTCA AATCAAGAGA ATTAGAGAGG TGGCTGAATT ATATGAAGAA 
    TTGAAGACTA GAATCTCACA GTTCAACATG CATGTTGATT CTCGGCGACC TGTCATGGAC 
    CAAGAGTATA TATATAAGCA GCGATTCATC CTACAGGTTG TATTGGCAGG TGCTTTCTAT 
    CCAAATTACT TTACTTTTGG ACAGCCGGAT GAGGAGATGG CGGTGAGGGA GCTGGCTGGC 
    AAGGACCCCA AGACAACTGT CGTGTTGAAA CACATTCCTC CCTATGGATT TCTTTACTAT 
    AAACAACTAC AGTCTCTCTT TAGACAGTGT GGTCAAGTCA AATCCATTGT ATTTGATGGT 
    GCAAAAGCCT TTGTGGAATT CTCACGAAAT CCAACAGAGA GATTTAAAAC CCTTCCTGCA 
    GTATATATGG CAATTAAGAT GTCTCAACTA AAAGTTTCAC TTGAACTCAG CGTTCATTCT 
    GCAGAGGAAA TTGAAGGGAA GGTGCAAGGC ATGAACGTCT CAAAGCTCAG GAACACAAGG 
    GTGAATGTGG ACTTCCAGAA GCAGACGGTA GATCCTATGC AAGTCTCCTT TAACACATCA 
    GACAGGTCCC AGACAGTTAC AGATCTCCTT CTAACTATTG ATGTCACAGA GGTGGTTGAA 
    GTGGGACACT TTTGGGGATA CAGGATTGAT GAAAACAACT CAGAGATTCT GAAAAAGCTT 
    ACTGCTGAAA TCAACCAACT GACGCTGGTG CCCTTGCCCA CTCACCCACA TCCAGACTTG 
    GTCTGTCTGG CACCTTTTGC TGATTTTGAT AAACAACGCT ACTTTAGAGC TCAAGTCCTT 
    TATGTTTCTG GAAATTCTGC TGAGGTATTC TTTGTAGATT ATGGCAATAA GTCTCATGTA 
    GATCTACATC TTTTGATGGA GATTCCCTGT CAATTTCTTG AACTTCCTTT CCAGGCTTTG 
    GAATTTAAGA TTTGCAAAAT GAGACCATCA GCAAAGTCTC TTGTTTGTGG CAAGCACTGG 
    AGTGACGGGG CCAGCCAGTG GTTCGCCTCT CTGGTGAGCG GCTGCACCCT CCTTGTGAAG 
    GTCTTCTCTG TGGTGCACAG CGTCCTGCAC GTGGATGTGT ACCAGTACTC AGGGGTCCAG 
    GATGCCATCA ACATAAGAGA CGTCCTCATC CAGCAGGGCT ATGCCGAGCT CACGGAGGAG 
    TCCTACGAGT CCAAGCAAAG CCATGAAGTT CTCAAGGGCC TCTTTTCCAA GTCAGTAGAA 
    AACATGACAG ATGGCTCTGT GCCCTTTCCC ATGAAAGACG ACGAGAAATA TCTCATCCGG 
    ATTTTGTTAG AGAGCTTTTC TACCAATAAA CTGGGTACTC CAAACTGTAA GGCAGAACTT 
    CACGGGCCTT TTAACCCTTA TGAACTAAAG TGCCATAGTT TGACCAGAAT ATCCAAATTC 
    AGGTGTGTTT GGATTGAGAA GGAGAGCATC AACTCTGTCA TTATCAGTGA CGCCCCTGAA 
    GACCTTCACC AGAGAATGCT GGTTGCAGCT TCCCTTTCCA TCAATGCGAC TGGATCTACG 
    ATGCTGCTGA GAGAAACCTC TCTGATGCCT CATATCCCTG GCCTCCCGGC TCTCCTCAGC 
    ATGTTATTCG CACCGGTGAT AGAGTTAAGG ATTGATCAGA ATGGCAAGTA CTATACTGGA 
    GTCCTTTGTG GTTTGGGGTG GAATCCAGCT ACAGGGGCTT CCATACTGCC CGAGCACGAC 
    ATGGAGCTTG CGTTTGACGT TCAATTCAGC GTGGAGGATG TCGTCGAGGT TAATATTCTC 
    AGGGCTGCTA TTAACAAGCT AGTCTGTGAT GGACCAAATG GATGCAAGTG TCTTGGGCCA 
    GAGAGAGTTG CGCAGCTTCA AGACATTGCC CGTCAGAAGC TTTTAGGTTT GTTCTGTCAG 
    TCAAAACCAA GGGAGAAGAT TGTTCCCAAG TGGCATGAAA AGCCCTACGA GTGGAATCAG 
    GTTGATCCAA AGCTGGTCAT GGAGCAGGCC GACCGTGAGA GCAGCAGAGG GAAGAACACC 
    TTTCTCTACC AGCTCCACAA ACTGGTTGTG CTCGGCACCT GA

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

    TDRD9 ( XM_011536402.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011534704.1 Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OHu75201
    Clone ID Related Accession (Same CDS sequence) XM_011536402.2
    Accession Version XM_011536402.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3063bp)
    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 ATP-dependent RNA helicase TDRD9 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000014.9) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011536402.1. ##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
    ATGATTTGGA GCACATTCAT CATAGCAAGG AACAAGGCTT GGTCGGGGGC CCAGTTTGTG 
    TTGGAGCGAA GCAGTGTGTT GGTGTTTTTG CCAGGTCTGG GTGAAATAAA TTATATGCAT 
    GAACTTCTCA CAAGCCTGGT TCATAAAAGG TTGCAGGTCT ATCCACTCCA TTCAAGTGTG 
    GCTTTAGAAG AACAGAATAA TGTCTTTTTA AGTCCAGTCC CTGGGTACAG AAAGATTATT 
    CTGTCCACCA ATATTGCAGA GAGTTCTGTC ACAGTTCCAG ATGTCAAATA TGTTATAGAT 
    TTTTGTTTGA CTAGAACTTT GGTCTGTGAT GAAGATACAA ATTATCAGAG TCTGCGATTG 
    AGTTGGGCTT CTAAAACCAG CTGTAATCAG AGAAAAGGCC GTGCTGGACG AGTGTCTAGA 
    GGGTACTGTT ACCGGCTGGT ACACAAGGAT TTCTGGGACA ACTCCATCCC TGATCATGTT 
    GTTCCTGAGA TGTTGCGTTG TCCATTAGGA AGCACGATCT TGAAAGTGAA ATTACTTGAC 
    ATGGGTGAGC CGAGAGCTCT GCTGGCCACT GCCCTTTCCC CGCCTGGTCT GAGTGACATT 
    GAGCGCACCA TCCTTCTACT AAAGGAGGTT GGAGCACTTG CAGTGAGTGG GCAGAGAGAA 
    GATGAAAACC CCCATGATGG TGAATTGACC TTCTTAGGAA GAGTTTTAGC CCAACTTCCT 
    GTAAATCAGC AACTTGGTAA ACTCATAGTC CTTGGACATG TATTTGGATG TCTAGATGAA 
    TGTCTTATTA TAGCGGCAGC TCTTTCTTTG AAGAATTTTT TTGCAATGCC TTTCCGGCAG 
    CATCTCGATG GATATAGGAA CAAAGTGAAT TTCTCTGGCA GTAGCAAGAG TGACTGTATT 
    GCACTTGTTG AGGCATTTAA AACATGGAAG GCTTGCAGAC AGACAGGGGA GCTGCGGTAC 
    CCGAAGGATG AACTTAATTG GGGACGGTTA AATTACATTC AAATCAAGAG AATTAGAGAG 
    GTGGCTGAAT TATATGAAGA ATTGAAGACT AGAATCTCAC AGTTCAACAT GCATGTTGAT 
    TCTCGGCGAC CTGTCATGGA CCAAGAGTAT ATATATAAGC AGCGATTCAT CCTACAGGTT 
    GTATTGGCAG GTGCTTTCTA TCCAAATTAC TTTACTTTTG GACAGCCGGA TGAGGAGATG 
    GCGGTGAGGG AGCTGGCTGG CAAGGACCCC AAGACAACTG TCGTGTTGAA ACACATTCCT 
    CCCTATGGAT TTCTTTACTA TAAACAACTA CAGTCTCTCT TTAGACAGTG TGGTCAAGTC 
    AAATCCATTG TATTTGATGG TGCAAAAGCC TTTGTGGAAT TCTCACGAAA TCCAACAGAG 
    AGATTTAAAA CCCTTCCTGC AGTATATATG GCAATTAAGA TGTCTCAACT AAAAGTTTCA 
    CTTGAACTCA GCGTTCATTC TGCAGAGGAA ATTGAAGGGA AGGTGCAAGG CATGAACGTC 
    TCAAAGCTCA GGAACACAAG GGTGAATGTG GACTTCCAGA AGCAGACGGT AGATCCTATG 
    CAAGTCTCCT TTAACACATC AGACAGGTCC CAGACAGTTA CAGATCTCCT TCTAACTATT 
    GATGTCACAG AGGTGGTTGA AGTGGGACAC TTTTGGGGAT ACAGGATTGA TGAAAACAAC 
    TCAGAGATTC TGAAAAAGCT TACTGCTGAA ATCAACCAAC TGACGCTGGT GCCCTTGCCC 
    ACTCACCCAC ATCCAGACTT GGTCTGTCTG GCACCTTTTG CTGATTTTGA TAAACAACGC 
    TACTTTAGAG CTCAAGTCCT TTATGTTTCT GGAAATTCTG CTGAGGTATT CTTTGTAGAT 
    TATGGCAATA AGTCTCATGT AGATCTACAT CTTTTGATGG AGATTCCCTG TCAATTTCTT 
    GAACTTCCTT TCCAGGCTTT GGAATTTAAG ATTTGCAAAA TGAGACCATC AGCAAAGTCT 
    CTTGTTTGTG GCAAGCACTG GAGTGACGGG GCCAGCCAGT GGTTCGCCTC TCTGGTGAGC 
    GGCTGCACCC TCCTTGTGAA GGTCTTCTCT GTGGTGCACA GCGTCCTGCA CGTGGATGTG 
    TACCAGTACT CAGGGGTCCA GGATGCCATC AACATAAGAG ACGTCCTCAT CCAGCAGGGC 
    TATGCCGAGC TCACGGAGGA GTCCTACGAG TCCAAGCAAA GCCATGAAGT TCTCAAGGGC 
    CTCTTTTCCA AGTCAGTAGA AAACATGACA GATGGCTCTG TGCCCTTTCC CATGAAAGAC 
    GACGAGAAAT ATCTCATCCG GATTTTGTTA GAGAGCTTTT CTACCAATAA ACTGGGTACT 
    CCAAACTGTA AGGCAGAACT TCACGGGCCT TTTAACCCTT ATGAACTAAA GTGCCATAGT 
    TTGACCAGAA TATCCAAATT CAGGTGTGTT TGGATTGAGA AGGAGAGCAT CAACTCTGTC 
    ATTATCAGTG ACGCCCCTGA AGACCTTCAC CAGAGAATGC TGGTTGCAGC TTCCCTTTCC 
    ATCAATGCGA CTGGATCTAC GATGCTGCTG AGAGAAACCT CTCTGATGCC TCATATCCCT 
    GGCCTCCCGG CTCTCCTCAG CATGTTATTC GCACCGGTGA TAGAGTTAAG GATTGATCAG 
    AATGGCAAGT ACTATACTGG AGTCCTTTGT GGTTTGGGGT GGAATCCAGC TACAGGGGCT 
    TCCATACTGC CCGAGCACGA CATGGAGCTT GCGTTTGACG TTCAATTCAG CGTGGAGGAT 
    GTCGTCGAGG TTAATATTCT CAGGGCTGCT ATTAACAAGC TAGTCTGTGA TGGACCAAAT 
    GGATGCAAGT GTCTTGGGCC AGAGAGAGTT GCGCAGCTTC AAGACATTGC CCGTCAGAAG 
    CTTTTAGGTT TGTTCTGTCA GTCAAAACCA AGGGAGAAGA TTGTTCCCAA GTGGCATGAA 
    AAGCCCTACG AGTGGAATCA GGTTGATCCA AAGCTGGTCA TGGAGCAGGC CGACCGTGAG 
    AGCAGCAGAG GGAAGAACAC CTTTCTCTAC CAGCTCCACA AACTGGTTGT GCTCGGCACC 
    TGA

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

    RefSeq XP_011534704.1
    CDS90..3152
    Translation

    Target ORF information:

    RefSeq Version XM_011536402.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011536402.2

    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
    ATGATTTGGA GCACATTCAT CATAGCAAGG AACAAGGCTT GGTCGGGGGC CCAGTTTGTG 
    TTGGAGCGAA GCAGTGTGTT GGTGTTTTTG CCAGGTCTGG GTGAAATAAA TTATATGCAT 
    GAACTTCTCA CAAGCCTGGT TCATAAAAGG TTGCAGGTCT ATCCACTCCA TTCAAGTGTG 
    GCTTTAGAAG AACAGAATAA TGTCTTTTTA AGTCCAGTCC CTGGGTACAG AAAGATTATT 
    CTGTCCACCA ATATTGCAGA GAGTTCTGTC ACAGTTCCAG ATGTCAAATA TGTTATAGAT 
    TTTTGTTTGA CTAGAACTTT GGTCTGTGAT GAAGATACAA ATTATCAGAG TCTGCGATTG 
    AGTTGGGCTT CTAAAACCAG CTGTAATCAG AGAAAAGGCC GTGCTGGACG AGTGTCTAGA 
    GGGTACTGTT ACCGGCTGGT ACACAAGGAT TTCTGGGACA ACTCCATCCC TGATCATGTT 
    GTTCCTGAGA TGTTGCGTTG TCCATTAGGA AGCACGATCT TGAAAGTGAA ATTACTTGAC 
    ATGGGTGAGC CGAGAGCTCT GCTGGCCACT GCCCTTTCCC CGCCTGGTCT GAGTGACATT 
    GAGCGCACCA TCCTTCTACT AAAGGAGGTT GGAGCACTTG CAGTGAGTGG GCAGAGAGAA 
    GATGAAAACC CCCATGATGG TGAATTGACC TTCTTAGGAA GAGTTTTAGC CCAACTTCCT 
    GTAAATCAGC AACTTGGTAA ACTCATAGTC CTTGGACATG TATTTGGATG TCTAGATGAA 
    TGTCTTATTA TAGCGGCAGC TCTTTCTTTG AAGAATTTTT TTGCAATGCC TTTCCGGCAG 
    CATCTCGATG GATATAGGAA CAAAGTGAAT TTCTCTGGCA GTAGCAAGAG TGACTGTATT 
    GCACTTGTTG AGGCATTTAA AACATGGAAG GCTTGCAGAC AGACAGGGGA GCTGCGGTAC 
    CCGAAGGATG AACTTAATTG GGGACGGTTA AATTACATTC AAATCAAGAG AATTAGAGAG 
    GTGGCTGAAT TATATGAAGA ATTGAAGACT AGAATCTCAC AGTTCAACAT GCATGTTGAT 
    TCTCGGCGAC CTGTCATGGA CCAAGAGTAT ATATATAAGC AGCGATTCAT CCTACAGGTT 
    GTATTGGCAG GTGCTTTCTA TCCAAATTAC TTTACTTTTG GACAGCCGGA TGAGGAGATG 
    GCGGTGAGGG AGCTGGCTGG CAAGGACCCC AAGACAACTG TCGTGTTGAA ACACATTCCT 
    CCCTATGGAT TTCTTTACTA TAAACAACTA CAGTCTCTCT TTAGACAGTG TGGTCAAGTC 
    AAATCCATTG TATTTGATGG TGCAAAAGCC TTTGTGGAAT TCTCACGAAA TCCAACAGAG 
    AGATTTAAAA CCCTTCCTGC AGTATATATG GCAATTAAGA TGTCTCAACT AAAAGTTTCA 
    CTTGAACTCA GCGTTCATTC TGCAGAGGAA ATTGAAGGGA AGGTGCAAGG CATGAACGTC 
    TCAAAGCTCA GGAACACAAG GGTGAATGTG GACTTCCAGA AGCAGACGGT AGATCCTATG 
    CAAGTCTCCT TTAACACATC AGACAGGTCC CAGACAGTTA CAGATCTCCT TCTAACTATT 
    GATGTCACAG AGGTGGTTGA AGTGGGACAC TTTTGGGGAT ACAGGATTGA TGAAAACAAC 
    TCAGAGATTC TGAAAAAGCT TACTGCTGAA ATCAACCAAC TGACGCTGGT GCCCTTGCCC 
    ACTCACCCAC ATCCAGACTT GGTCTGTCTG GCACCTTTTG CTGATTTTGA TAAACAACGC 
    TACTTTAGAG CTCAAGTCCT TTATGTTTCT GGAAATTCTG CTGAGGTATT CTTTGTAGAT 
    TATGGCAATA AGTCTCATGT AGATCTACAT CTTTTGATGG AGATTCCCTG TCAATTTCTT 
    GAACTTCCTT TCCAGGCTTT GGAATTTAAG ATTTGCAAAA TGAGACCATC AGCAAAGTCT 
    CTTGTTTGTG GCAAGCACTG GAGTGACGGG GCCAGCCAGT GGTTCGCCTC TCTGGTGAGC 
    GGCTGCACCC TCCTTGTGAA GGTCTTCTCT GTGGTGCACA GCGTCCTGCA CGTGGATGTG 
    TACCAGTACT CAGGGGTCCA GGATGCCATC AACATAAGAG ACGTCCTCAT CCAGCAGGGC 
    TATGCCGAGC TCACGGAGGA GTCCTACGAG TCCAAGCAAA GCCATGAAGT TCTCAAGGGC 
    CTCTTTTCCA AGTCAGTAGA AAACATGACA GATGGCTCTG TGCCCTTTCC CATGAAAGAC 
    GACGAGAAAT ATCTCATCCG GATTTTGTTA GAGAGCTTTT CTACCAATAA ACTGGGTACT 
    CCAAACTGTA AGGCAGAACT TCACGGGCCT TTTAACCCTT ATGAACTAAA GTGCCATAGT 
    TTGACCAGAA TATCCAAATT CAGGTGTGTT TGGATTGAGA AGGAGAGCAT CAACTCTGTC 
    ATTATCAGTG ACGCCCCTGA AGACCTTCAC CAGAGAATGC TGGTTGCAGC TTCCCTTTCC 
    ATCAATGCGA CTGGATCTAC GATGCTGCTG AGAGAAACCT CTCTGATGCC TCATATCCCT 
    GGCCTCCCGG CTCTCCTCAG CATGTTATTC GCACCGGTGA TAGAGTTAAG GATTGATCAG 
    AATGGCAAGT ACTATACTGG AGTCCTTTGT GGTTTGGGGT GGAATCCAGC TACAGGGGCT 
    TCCATACTGC CCGAGCACGA CATGGAGCTT GCGTTTGACG TTCAATTCAG CGTGGAGGAT 
    GTCGTCGAGG TTAATATTCT CAGGGCTGCT ATTAACAAGC TAGTCTGTGA TGGACCAAAT 
    GGATGCAAGT GTCTTGGGCC AGAGAGAGTT GCGCAGCTTC AAGACATTGC CCGTCAGAAG 
    CTTTTAGGTT TGTTCTGTCA GTCAAAACCA AGGGAGAAGA TTGTTCCCAA GTGGCATGAA 
    AAGCCCTACG AGTGGAATCA GGTTGATCCA AAGCTGGTCA TGGAGCAGGC CGACCGTGAG 
    AGCAGCAGAG GGAAGAACAC CTTTCTCTAC CAGCTCCACA AACTGGTTGT GCTCGGCACC 
    TGA

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

    TDRD9 ( XM_011536398.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011534700.1 Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OHu75197
    Clone ID Related Accession (Same CDS sequence) XM_011536398.2 , XM_011536398.3
    Accession Version XM_011536398.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4035bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    Product putative ATP-dependent RNA helicase TDRD9 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000014.9) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011536398.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
    ATGAGAGATT TGAAATATCA TTGCTCGGAG GGGCCACATG GAAAGCATGA GAATGGAATA 
    TGGGCAGCTA GGAGCAAAGA CTGGATCCCA CTTGACAGCA GGTCACTCAG CCAAAGGAGC 
    TCAGAAGTAG AGTATATTAA CAAATACAGA CAGCTCGAAG CACAAGAGCT TGATGTGTGT 
    CGCAGTGTCC AACCAACCAG TGGGCCAGGT CCAAGGCCAT CTTTGGCTAA ATTAAGCAGT 
    GTGACATGCA TCCCAGGGAC AACTTATAAA TATCCTGATT TGCCTATAAG TCGATACAAG 
    GAAGAGGTTG TGTCTTTGAT AGAAAGTAAT TCCGTGGTGA TTATCCATGG GGCCACGGGA 
    AGCGGTAAAA GCACTCAGCT CCCGCAGTAT ATCTTGGACC ACTACGTTCA GCGCTCCGCC 
    TACTGCAGCA TTGTGGTCAC CCAGCCCCGG AAGATAGGGG CAAGCAGCAT CGCCAGGTGG 
    ATCAGTAAAG AGCGTGCCTG GACCCTGGGA GGTGTGGTGG GCTACCAGGT AGGGCTAGAG 
    AAAATAGCAA CAGAGGACAC CAGGCTAATT TATATGACAA CTGGAGTCCT GCTTCAGAAA 
    ATAGTTAGTG CCAAGAGTTT GATGGAATTC ACACATATCA TCATTGATGA AGTACACGAA 
    CGAACAGAAG AAATGGATTT CCTGCTATTG GTAGTCCGCA AACTCTTAAG AACAAATTCA 
    CGTTTTGTGA AGGTGGTCCT GATGTCGGCT ACCATCAGCT GTAAAGAGTT TGCAGACTAC 
    TTTGCTGTTC CTGTTCAAAA CAAGATGAAT CCTGCATATA TTTTTGAAGT GGAAGGCAAG 
    CCCCATTCAG TTGAAGAGTA TTATCTTAAT GATTTGGAGC ACATTCATCA TAGCAAGCTC 
    TCTCCTCATC TCCTGGAGGA ACCGGTGATA ACTAAGGATA TATATGAAGT TGCTGTCTCT 
    CTCATTCAGA TGTTTGATGA CTTGGATATG AAGGAGAGTG GGAACAAGGC TTGGTCGGGG 
    GCCCAGTTTG TGTTGGAGCG AAGCAGTGTG TTGGTGTTTT TGCCAGGTCT GGGTGAAATA 
    AATTATATGC ATGAACTTCT CACAAGCCTG GTTCATAAAA GGTTGCAGGT CTATCCACTC 
    CATTCAAGTG TGGCTTTAGA AGAACAGAAT AATGTCTTTT TAAGTCCAGT CCCTGGGTAC 
    AGAAAGATTA TTCTGTCCAC CAATATTGCA GAGAGTTCTG TCACAGTTCC AGATGTCAAA 
    TATGTTATAG ATTTTTGTTT GACTAGAACT TTGGTCTGTG ATGAAGATAC AAATTATCAG 
    AGTCTGCGAT TGAGTTGGGC TTCTAAAACC AGCTGTAATC AGAGAAAAGG CCGTGCTGGA 
    CGAGTGTCTA GAGGGTACTG TTACCGGCTG GTACACAAGG ATTTCTGGGA CAACTCCATC 
    CCTGATCATG TTGTTCCTGA GATGTTGCGT TGTCCATTAG GAAGCACGAT CTTGAAAGTG 
    AAATTACTTG ACATGGGTGA GCCGAGAGCT CTGCTGGCCA CTGCCCTTTC CCCGCCTGGT 
    CTGAGTGACA TTGAGCGCAC CATCCTTCTA CTAAAGGAGG TTGGAGCACT TGCAGTGAGT 
    GGGCAGAGAG AAGATGAAAA CCCCCATGAT GGTGAATTGA CCTTCTTAGG AAGAGTTTTA 
    GCCCAACTTC CTGTAAATCA GCAACTTGGT AAACTCATAG TCCTTGGACA TGTATTTGGA 
    TGTCTAGATG AATGTCTTAT TATAGCGGCA GCTCTTTCTT TGAAGAATTT TTTTGCAATG 
    CCTTTCCGGC AGCATCTCGA TGGATATAGG AACAAAGTGA ATTTCTCTGG CAGTAGCAAG 
    AGTGACTGTA TTGCACTTGT TGAGGCATTT AAAACATGGA AGGCTTGCAG ACAGACAGGG 
    GAGCTGCGGT ACCCGAAGGA TGAACTTAAT TGGGGACGGT TAAATTACAT TCAAATCAAG 
    AGAATTAGAG AGGTGGCTGA ATTATATGAA GAATTGAAGA CTAGAATCTC ACAGTTCAAC 
    ATGCATGTTG ATTCTCGGCG ACCTGTCATG GACCAAGAGT ATATATATAA GCAGCGATTC 
    ATCCTACAGG TTGTATTGGC AGGTGCTTTC TATCCAAATT ACTTTACTTT TGGACAGCCG 
    GATGAGGAGA TGGCGGTGAG GGAGCTGGCT GGCAAGGACC CCAAGACAAC TGTCGTGTTG 
    AAACACATTC CTCCCTATGG ATTTCTTTAC TATAAACAAC TACAGTCTCT CTTTAGACAG 
    TGTGGTCAAG TCAAATCCAT TGTATTTGAT GGTGCAAAAG CCTTTGTGGA ATTCTCACGA 
    AATCCAACAG AGAGATTTAA AACCCTTCCT GCAGTATATA TGGCAATTAA GATGTCTCAA 
    CTAAAAGTTT CACTTGAACT CAGCGTTCAT TCTGCAGAGG AAATTGAAGG GAAGGTGCAA 
    GGCATGAACG TCTCAAAGCT CAGGAACACA AGGGTGAATG TGGACTTCCA GAAGCAGACG 
    GTAGATCCTA TGCAAGTCTC CTTTAACACA TCAGACAGGT CCCAGACAGT TACAGATCTC 
    CTTCTAACTA TTGATGTCAC AGAGGTGGTT GAAGTGGGAC ACTTTTGGGG ATACAGGATT 
    GATGAAAACA ACTCAGAGAT TCTGAAAAAG CTTACTGCTG AAATCAACCA ACTGACGCTG 
    GTGCCCTTGC CCACTCACCC ACATCCAGAC TTGGTCTGTC TGGCACCTTT TGCTGATTTT 
    GATAAACAAC GCTACTTTAG AGCTCAAGTC CTTTATGTTT CTGGAAATTC TGCTGAGGTA 
    TTCTTTGTAG ATTATGGCAA TAAGTCTCAT GTAGATCTAC ATCTTTTGAT GGAGATTCCC 
    TGTCAATTTC TTGAACTTCC TTTCCAGGCT TTGGAATTTA AGATTTGCAA AATGAGACCA 
    TCAGCAAAGT CTCTTGTTTG TGGCAAGCAC TGGAGTGACG GGGCCAGCCA GTGGTTCGCC 
    TCTCTGGTGA GCGGCTGCAC CCTCCTTGTG AAGGTCTTCT CTGTGGTGCA CAGCGTCCTG 
    CACGTGGATG TGTACCAGTA CTCAGGGGTC CAGGATGCCA TCAACATAAG AGACGTCCTC 
    ATCCAGCAGG GCTATGCCGA GCTCACGGAG GAGTCCTACG AGTCCAAGCA AAGCCATGAA 
    GTTCTCAAGG GCCTCTTTTC CAAGTCAGTA GAAAACATGA CAGATGGCTC TGTGCCCTTT 
    CCCATGAAAG ACGACGAGAA ATATCTCATC CGGATTTTGT TAGAGAGCTT TTCTACCAAT 
    AAACTGGGTA CTCCAAACTG TAAGGCAGAA CTTCACGGGC CTTTTAACCC TTATGAACTA 
    AAGTGCCATA GTTTGACCAG AATATCCAAA TTCAGGTGTG TTTGGATTGA GAAGGAGAGC 
    ATCAACTCTG TCATTATCAG TGACGCCCCT GAAGACCTTC ACCAGAGAAT GCTGGTTGCA 
    GCTTCCCTTT CCATCAATGC GACTGGATCT ACGATGCTGC TGAGAGAAAC CTCTCTGATG 
    CCTCATATCC CTGGCCTCCC GGCTCTCCTC AGCATGTTAT TCGCACCGGT GATAGAGTTA 
    AGGATTGATC AGAATGGCAA GTACTATACT GGAGTCCTTT GTGGTTTGGG GTGGAATCCA 
    GCTACAGGGG CTTCCATACT GCCCGAGCAC GACATGGAGC TTGCGTTTGA CGTTCAATTC 
    AGCGTGGAGG ATGTCGTCGA GGTTAATATT CTCAGGGCTG CTATTAACAA GCTAGTCTGT 
    GATGGACCAA ATGGATGCAA GTGTCTTGGG CCAGAGAGAG TTGCGCAGCT TCAAGACATT 
    GCCCGTCAGA AGCTTTTAGG TTTGTTCTGT CAGTCAAAAC CAAGGGAGAA GATTGTTCCC 
    AAGTGGCATG AAAAGCCCTA CGAGTGGAAT CAGGTTGATC CAAAGCTGGT CATGGAGCAG 
    GCCGACCGTG AGAGCAGCAG AGGGAAGAAC ACCTTTCTCT ACCAGCTCCA CAAACTGGTT 
    GTGCTCGGCA CCTGA

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

    RefSeq XP_011534700.1
    CDS87..4121
    Translation

    Target ORF information:

    RefSeq Version XM_011536398.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011536398.2

    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
    ATGAGAGATT TGAAATATCA TTGCTCGGAG GGGCCACATG GAAAGCATGA GAATGGAATA 
    TGGGCAGCTA GGAGCAAAGA CTGGATCCCA CTTGACAGCA GGTCACTCAG CCAAAGGAGC 
    TCAGAAGTAG AGTATATTAA CAAATACAGA CAGCTCGAAG CACAAGAGCT TGATGTGTGT 
    CGCAGTGTCC AACCAACCAG TGGGCCAGGT CCAAGGCCAT CTTTGGCTAA ATTAAGCAGT 
    GTGACATGCA TCCCAGGGAC AACTTATAAA TATCCTGATT TGCCTATAAG TCGATACAAG 
    GAAGAGGTTG TGTCTTTGAT AGAAAGTAAT TCCGTGGTGA TTATCCATGG GGCCACGGGA 
    AGCGGTAAAA GCACTCAGCT CCCGCAGTAT ATCTTGGACC ACTACGTTCA GCGCTCCGCC 
    TACTGCAGCA TTGTGGTCAC CCAGCCCCGG AAGATAGGGG CAAGCAGCAT CGCCAGGTGG 
    ATCAGTAAAG AGCGTGCCTG GACCCTGGGA GGTGTGGTGG GCTACCAGGT AGGGCTAGAG 
    AAAATAGCAA CAGAGGACAC CAGGCTAATT TATATGACAA CTGGAGTCCT GCTTCAGAAA 
    ATAGTTAGTG CCAAGAGTTT GATGGAATTC ACACATATCA TCATTGATGA AGTACACGAA 
    CGAACAGAAG AAATGGATTT CCTGCTATTG GTAGTCCGCA AACTCTTAAG AACAAATTCA 
    CGTTTTGTGA AGGTGGTCCT GATGTCGGCT ACCATCAGCT GTAAAGAGTT TGCAGACTAC 
    TTTGCTGTTC CTGTTCAAAA CAAGATGAAT CCTGCATATA TTTTTGAAGT GGAAGGCAAG 
    CCCCATTCAG TTGAAGAGTA TTATCTTAAT GATTTGGAGC ACATTCATCA TAGCAAGCTC 
    TCTCCTCATC TCCTGGAGGA ACCGGTGATA ACTAAGGATA TATATGAAGT TGCTGTCTCT 
    CTCATTCAGA TGTTTGATGA CTTGGATATG AAGGAGAGTG GGAACAAGGC TTGGTCGGGG 
    GCCCAGTTTG TGTTGGAGCG AAGCAGTGTG TTGGTGTTTT TGCCAGGTCT GGGTGAAATA 
    AATTATATGC ATGAACTTCT CACAAGCCTG GTTCATAAAA GGTTGCAGGT CTATCCACTC 
    CATTCAAGTG TGGCTTTAGA AGAACAGAAT AATGTCTTTT TAAGTCCAGT CCCTGGGTAC 
    AGAAAGATTA TTCTGTCCAC CAATATTGCA GAGAGTTCTG TCACAGTTCC AGATGTCAAA 
    TATGTTATAG ATTTTTGTTT GACTAGAACT TTGGTCTGTG ATGAAGATAC AAATTATCAG 
    AGTCTGCGAT TGAGTTGGGC TTCTAAAACC AGCTGTAATC AGAGAAAAGG CCGTGCTGGA 
    CGAGTGTCTA GAGGGTACTG TTACCGGCTG GTACACAAGG ATTTCTGGGA CAACTCCATC 
    CCTGATCATG TTGTTCCTGA GATGTTGCGT TGTCCATTAG GAAGCACGAT CTTGAAAGTG 
    AAATTACTTG ACATGGGTGA GCCGAGAGCT CTGCTGGCCA CTGCCCTTTC CCCGCCTGGT 
    CTGAGTGACA TTGAGCGCAC CATCCTTCTA CTAAAGGAGG TTGGAGCACT TGCAGTGAGT 
    GGGCAGAGAG AAGATGAAAA CCCCCATGAT GGTGAATTGA CCTTCTTAGG AAGAGTTTTA 
    GCCCAACTTC CTGTAAATCA GCAACTTGGT AAACTCATAG TCCTTGGACA TGTATTTGGA 
    TGTCTAGATG AATGTCTTAT TATAGCGGCA GCTCTTTCTT TGAAGAATTT TTTTGCAATG 
    CCTTTCCGGC AGCATCTCGA TGGATATAGG AACAAAGTGA ATTTCTCTGG CAGTAGCAAG 
    AGTGACTGTA TTGCACTTGT TGAGGCATTT AAAACATGGA AGGCTTGCAG ACAGACAGGG 
    GAGCTGCGGT ACCCGAAGGA TGAACTTAAT TGGGGACGGT TAAATTACAT TCAAATCAAG 
    AGAATTAGAG AGGTGGCTGA ATTATATGAA GAATTGAAGA CTAGAATCTC ACAGTTCAAC 
    ATGCATGTTG ATTCTCGGCG ACCTGTCATG GACCAAGAGT ATATATATAA GCAGCGATTC 
    ATCCTACAGG TTGTATTGGC AGGTGCTTTC TATCCAAATT ACTTTACTTT TGGACAGCCG 
    GATGAGGAGA TGGCGGTGAG GGAGCTGGCT GGCAAGGACC CCAAGACAAC TGTCGTGTTG 
    AAACACATTC CTCCCTATGG ATTTCTTTAC TATAAACAAC TACAGTCTCT CTTTAGACAG 
    TGTGGTCAAG TCAAATCCAT TGTATTTGAT GGTGCAAAAG CCTTTGTGGA ATTCTCACGA 
    AATCCAACAG AGAGATTTAA AACCCTTCCT GCAGTATATA TGGCAATTAA GATGTCTCAA 
    CTAAAAGTTT CACTTGAACT CAGCGTTCAT TCTGCAGAGG AAATTGAAGG GAAGGTGCAA 
    GGCATGAACG TCTCAAAGCT CAGGAACACA AGGGTGAATG TGGACTTCCA GAAGCAGACG 
    GTAGATCCTA TGCAAGTCTC CTTTAACACA TCAGACAGGT CCCAGACAGT TACAGATCTC 
    CTTCTAACTA TTGATGTCAC AGAGGTGGTT GAAGTGGGAC ACTTTTGGGG ATACAGGATT 
    GATGAAAACA ACTCAGAGAT TCTGAAAAAG CTTACTGCTG AAATCAACCA ACTGACGCTG 
    GTGCCCTTGC CCACTCACCC ACATCCAGAC TTGGTCTGTC TGGCACCTTT TGCTGATTTT 
    GATAAACAAC GCTACTTTAG AGCTCAAGTC CTTTATGTTT CTGGAAATTC TGCTGAGGTA 
    TTCTTTGTAG ATTATGGCAA TAAGTCTCAT GTAGATCTAC ATCTTTTGAT GGAGATTCCC 
    TGTCAATTTC TTGAACTTCC TTTCCAGGCT TTGGAATTTA AGATTTGCAA AATGAGACCA 
    TCAGCAAAGT CTCTTGTTTG TGGCAAGCAC TGGAGTGACG GGGCCAGCCA GTGGTTCGCC 
    TCTCTGGTGA GCGGCTGCAC CCTCCTTGTG AAGGTCTTCT CTGTGGTGCA CAGCGTCCTG 
    CACGTGGATG TGTACCAGTA CTCAGGGGTC CAGGATGCCA TCAACATAAG AGACGTCCTC 
    ATCCAGCAGG GCTATGCCGA GCTCACGGAG GAGTCCTACG AGTCCAAGCA AAGCCATGAA 
    GTTCTCAAGG GCCTCTTTTC CAAGTCAGTA GAAAACATGA CAGATGGCTC TGTGCCCTTT 
    CCCATGAAAG ACGACGAGAA ATATCTCATC CGGATTTTGT TAGAGAGCTT TTCTACCAAT 
    AAACTGGGTA CTCCAAACTG TAAGGCAGAA CTTCACGGGC CTTTTAACCC TTATGAACTA 
    AAGTGCCATA GTTTGACCAG AATATCCAAA TTCAGGTGTG TTTGGATTGA GAAGGAGAGC 
    ATCAACTCTG TCATTATCAG TGACGCCCCT GAAGACCTTC ACCAGAGAAT GCTGGTTGCA 
    GCTTCCCTTT CCATCAATGC GACTGGATCT ACGATGCTGC TGAGAGAAAC CTCTCTGATG 
    CCTCATATCC CTGGCCTCCC GGCTCTCCTC AGCATGTTAT TCGCACCGGT GATAGAGTTA 
    AGGATTGATC AGAATGGCAA GTACTATACT GGAGTCCTTT GTGGTTTGGG GTGGAATCCA 
    GCTACAGGGG CTTCCATACT GCCCGAGCAC GACATGGAGC TTGCGTTTGA CGTTCAATTC 
    AGCGTGGAGG ATGTCGTCGA GGTTAATATT CTCAGGGCTG CTATTAACAA GCTAGTCTGT 
    GATGGACCAA ATGGATGCAA GTGTCTTGGG CCAGAGAGAG TTGCGCAGCT TCAAGACATT 
    GCCCGTCAGA AGCTTTTAGG TTTGTTCTGT CAGTCAAAAC CAAGGGAGAA GATTGTTCCC 
    AAGTGGCATG AAAAGCCCTA CGAGTGGAAT CAGGTTGATC CAAAGCTGGT CATGGAGCAG 
    GCCGACCGTG AGAGCAGCAG AGGGAAGAAC ACCTTTCTCT ACCAGCTCCA CAAACTGGTT 
    GTGCTCGGCA CCTGA

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

    TDRD9 ( XM_011536398.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011534700.1 Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OHu75197
    Clone ID Related Accession (Same CDS sequence) XM_011536398.2 , XM_011536398.3
    Accession Version XM_011536398.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4035bp)
    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 ATP-dependent RNA helicase TDRD9 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000014.9) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011536398.2. ##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
    ATGAGAGATT TGAAATATCA TTGCTCGGAG GGGCCACATG GAAAGCATGA GAATGGAATA 
    TGGGCAGCTA GGAGCAAAGA CTGGATCCCA CTTGACAGCA GGTCACTCAG CCAAAGGAGC 
    TCAGAAGTAG AGTATATTAA CAAATACAGA CAGCTCGAAG CACAAGAGCT TGATGTGTGT 
    CGCAGTGTCC AACCAACCAG TGGGCCAGGT CCAAGGCCAT CTTTGGCTAA ATTAAGCAGT 
    GTGACATGCA TCCCAGGGAC AACTTATAAA TATCCTGATT TGCCTATAAG TCGATACAAG 
    GAAGAGGTTG TGTCTTTGAT AGAAAGTAAT TCCGTGGTGA TTATCCATGG GGCCACGGGA 
    AGCGGTAAAA GCACTCAGCT CCCGCAGTAT ATCTTGGACC ACTACGTTCA GCGCTCCGCC 
    TACTGCAGCA TTGTGGTCAC CCAGCCCCGG AAGATAGGGG CAAGCAGCAT CGCCAGGTGG 
    ATCAGTAAAG AGCGTGCCTG GACCCTGGGA GGTGTGGTGG GCTACCAGGT AGGGCTAGAG 
    AAAATAGCAA CAGAGGACAC CAGGCTAATT TATATGACAA CTGGAGTCCT GCTTCAGAAA 
    ATAGTTAGTG CCAAGAGTTT GATGGAATTC ACACATATCA TCATTGATGA AGTACACGAA 
    CGAACAGAAG AAATGGATTT CCTGCTATTG GTAGTCCGCA AACTCTTAAG AACAAATTCA 
    CGTTTTGTGA AGGTGGTCCT GATGTCGGCT ACCATCAGCT GTAAAGAGTT TGCAGACTAC 
    TTTGCTGTTC CTGTTCAAAA CAAGATGAAT CCTGCATATA TTTTTGAAGT GGAAGGCAAG 
    CCCCATTCAG TTGAAGAGTA TTATCTTAAT GATTTGGAGC ACATTCATCA TAGCAAGCTC 
    TCTCCTCATC TCCTGGAGGA ACCGGTGATA ACTAAGGATA TATATGAAGT TGCTGTCTCT 
    CTCATTCAGA TGTTTGATGA CTTGGATATG AAGGAGAGTG GGAACAAGGC TTGGTCGGGG 
    GCCCAGTTTG TGTTGGAGCG AAGCAGTGTG TTGGTGTTTT TGCCAGGTCT GGGTGAAATA 
    AATTATATGC ATGAACTTCT CACAAGCCTG GTTCATAAAA GGTTGCAGGT CTATCCACTC 
    CATTCAAGTG TGGCTTTAGA AGAACAGAAT AATGTCTTTT TAAGTCCAGT CCCTGGGTAC 
    AGAAAGATTA TTCTGTCCAC CAATATTGCA GAGAGTTCTG TCACAGTTCC AGATGTCAAA 
    TATGTTATAG ATTTTTGTTT GACTAGAACT TTGGTCTGTG ATGAAGATAC AAATTATCAG 
    AGTCTGCGAT TGAGTTGGGC TTCTAAAACC AGCTGTAATC AGAGAAAAGG CCGTGCTGGA 
    CGAGTGTCTA GAGGGTACTG TTACCGGCTG GTACACAAGG ATTTCTGGGA CAACTCCATC 
    CCTGATCATG TTGTTCCTGA GATGTTGCGT TGTCCATTAG GAAGCACGAT CTTGAAAGTG 
    AAATTACTTG ACATGGGTGA GCCGAGAGCT CTGCTGGCCA CTGCCCTTTC CCCGCCTGGT 
    CTGAGTGACA TTGAGCGCAC CATCCTTCTA CTAAAGGAGG TTGGAGCACT TGCAGTGAGT 
    GGGCAGAGAG AAGATGAAAA CCCCCATGAT GGTGAATTGA CCTTCTTAGG AAGAGTTTTA 
    GCCCAACTTC CTGTAAATCA GCAACTTGGT AAACTCATAG TCCTTGGACA TGTATTTGGA 
    TGTCTAGATG AATGTCTTAT TATAGCGGCA GCTCTTTCTT TGAAGAATTT TTTTGCAATG 
    CCTTTCCGGC AGCATCTCGA TGGATATAGG AACAAAGTGA ATTTCTCTGG CAGTAGCAAG 
    AGTGACTGTA TTGCACTTGT TGAGGCATTT AAAACATGGA AGGCTTGCAG ACAGACAGGG 
    GAGCTGCGGT ACCCGAAGGA TGAACTTAAT TGGGGACGGT TAAATTACAT TCAAATCAAG 
    AGAATTAGAG AGGTGGCTGA ATTATATGAA GAATTGAAGA CTAGAATCTC ACAGTTCAAC 
    ATGCATGTTG ATTCTCGGCG ACCTGTCATG GACCAAGAGT ATATATATAA GCAGCGATTC 
    ATCCTACAGG TTGTATTGGC AGGTGCTTTC TATCCAAATT ACTTTACTTT TGGACAGCCG 
    GATGAGGAGA TGGCGGTGAG GGAGCTGGCT GGCAAGGACC CCAAGACAAC TGTCGTGTTG 
    AAACACATTC CTCCCTATGG ATTTCTTTAC TATAAACAAC TACAGTCTCT CTTTAGACAG 
    TGTGGTCAAG TCAAATCCAT TGTATTTGAT GGTGCAAAAG CCTTTGTGGA ATTCTCACGA 
    AATCCAACAG AGAGATTTAA AACCCTTCCT GCAGTATATA TGGCAATTAA GATGTCTCAA 
    CTAAAAGTTT CACTTGAACT CAGCGTTCAT TCTGCAGAGG AAATTGAAGG GAAGGTGCAA 
    GGCATGAACG TCTCAAAGCT CAGGAACACA AGGGTGAATG TGGACTTCCA GAAGCAGACG 
    GTAGATCCTA TGCAAGTCTC CTTTAACACA TCAGACAGGT CCCAGACAGT TACAGATCTC 
    CTTCTAACTA TTGATGTCAC AGAGGTGGTT GAAGTGGGAC ACTTTTGGGG ATACAGGATT 
    GATGAAAACA ACTCAGAGAT TCTGAAAAAG CTTACTGCTG AAATCAACCA ACTGACGCTG 
    GTGCCCTTGC CCACTCACCC ACATCCAGAC TTGGTCTGTC TGGCACCTTT TGCTGATTTT 
    GATAAACAAC GCTACTTTAG AGCTCAAGTC CTTTATGTTT CTGGAAATTC TGCTGAGGTA 
    TTCTTTGTAG ATTATGGCAA TAAGTCTCAT GTAGATCTAC ATCTTTTGAT GGAGATTCCC 
    TGTCAATTTC TTGAACTTCC TTTCCAGGCT TTGGAATTTA AGATTTGCAA AATGAGACCA 
    TCAGCAAAGT CTCTTGTTTG TGGCAAGCAC TGGAGTGACG GGGCCAGCCA GTGGTTCGCC 
    TCTCTGGTGA GCGGCTGCAC CCTCCTTGTG AAGGTCTTCT CTGTGGTGCA CAGCGTCCTG 
    CACGTGGATG TGTACCAGTA CTCAGGGGTC CAGGATGCCA TCAACATAAG AGACGTCCTC 
    ATCCAGCAGG GCTATGCCGA GCTCACGGAG GAGTCCTACG AGTCCAAGCA AAGCCATGAA 
    GTTCTCAAGG GCCTCTTTTC CAAGTCAGTA GAAAACATGA CAGATGGCTC TGTGCCCTTT 
    CCCATGAAAG ACGACGAGAA ATATCTCATC CGGATTTTGT TAGAGAGCTT TTCTACCAAT 
    AAACTGGGTA CTCCAAACTG TAAGGCAGAA CTTCACGGGC CTTTTAACCC TTATGAACTA 
    AAGTGCCATA GTTTGACCAG AATATCCAAA TTCAGGTGTG TTTGGATTGA GAAGGAGAGC 
    ATCAACTCTG TCATTATCAG TGACGCCCCT GAAGACCTTC ACCAGAGAAT GCTGGTTGCA 
    GCTTCCCTTT CCATCAATGC GACTGGATCT ACGATGCTGC TGAGAGAAAC CTCTCTGATG 
    CCTCATATCC CTGGCCTCCC GGCTCTCCTC AGCATGTTAT TCGCACCGGT GATAGAGTTA 
    AGGATTGATC AGAATGGCAA GTACTATACT GGAGTCCTTT GTGGTTTGGG GTGGAATCCA 
    GCTACAGGGG CTTCCATACT GCCCGAGCAC GACATGGAGC TTGCGTTTGA CGTTCAATTC 
    AGCGTGGAGG ATGTCGTCGA GGTTAATATT CTCAGGGCTG CTATTAACAA GCTAGTCTGT 
    GATGGACCAA ATGGATGCAA GTGTCTTGGG CCAGAGAGAG TTGCGCAGCT TCAAGACATT 
    GCCCGTCAGA AGCTTTTAGG TTTGTTCTGT CAGTCAAAAC CAAGGGAGAA GATTGTTCCC 
    AAGTGGCATG AAAAGCCCTA CGAGTGGAAT CAGGTTGATC CAAAGCTGGT CATGGAGCAG 
    GCCGACCGTG AGAGCAGCAG AGGGAAGAAC ACCTTTCTCT ACCAGCTCCA CAAACTGGTT 
    GTGCTCGGCA CCTGA

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

    RefSeq XP_011534700.1
    CDS88..4122
    Translation

    Target ORF information:

    RefSeq Version XM_011536398.3
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011536398.3

    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
    ATGAGAGATT TGAAATATCA TTGCTCGGAG GGGCCACATG GAAAGCATGA GAATGGAATA 
    TGGGCAGCTA GGAGCAAAGA CTGGATCCCA CTTGACAGCA GGTCACTCAG CCAAAGGAGC 
    TCAGAAGTAG AGTATATTAA CAAATACAGA CAGCTCGAAG CACAAGAGCT TGATGTGTGT 
    CGCAGTGTCC AACCAACCAG TGGGCCAGGT CCAAGGCCAT CTTTGGCTAA ATTAAGCAGT 
    GTGACATGCA TCCCAGGGAC AACTTATAAA TATCCTGATT TGCCTATAAG TCGATACAAG 
    GAAGAGGTTG TGTCTTTGAT AGAAAGTAAT TCCGTGGTGA TTATCCATGG GGCCACGGGA 
    AGCGGTAAAA GCACTCAGCT CCCGCAGTAT ATCTTGGACC ACTACGTTCA GCGCTCCGCC 
    TACTGCAGCA TTGTGGTCAC CCAGCCCCGG AAGATAGGGG CAAGCAGCAT CGCCAGGTGG 
    ATCAGTAAAG AGCGTGCCTG GACCCTGGGA GGTGTGGTGG GCTACCAGGT AGGGCTAGAG 
    AAAATAGCAA CAGAGGACAC CAGGCTAATT TATATGACAA CTGGAGTCCT GCTTCAGAAA 
    ATAGTTAGTG CCAAGAGTTT GATGGAATTC ACACATATCA TCATTGATGA AGTACACGAA 
    CGAACAGAAG AAATGGATTT CCTGCTATTG GTAGTCCGCA AACTCTTAAG AACAAATTCA 
    CGTTTTGTGA AGGTGGTCCT GATGTCGGCT ACCATCAGCT GTAAAGAGTT TGCAGACTAC 
    TTTGCTGTTC CTGTTCAAAA CAAGATGAAT CCTGCATATA TTTTTGAAGT GGAAGGCAAG 
    CCCCATTCAG TTGAAGAGTA TTATCTTAAT GATTTGGAGC ACATTCATCA TAGCAAGCTC 
    TCTCCTCATC TCCTGGAGGA ACCGGTGATA ACTAAGGATA TATATGAAGT TGCTGTCTCT 
    CTCATTCAGA TGTTTGATGA CTTGGATATG AAGGAGAGTG GGAACAAGGC TTGGTCGGGG 
    GCCCAGTTTG TGTTGGAGCG AAGCAGTGTG TTGGTGTTTT TGCCAGGTCT GGGTGAAATA 
    AATTATATGC ATGAACTTCT CACAAGCCTG GTTCATAAAA GGTTGCAGGT CTATCCACTC 
    CATTCAAGTG TGGCTTTAGA AGAACAGAAT AATGTCTTTT TAAGTCCAGT CCCTGGGTAC 
    AGAAAGATTA TTCTGTCCAC CAATATTGCA GAGAGTTCTG TCACAGTTCC AGATGTCAAA 
    TATGTTATAG ATTTTTGTTT GACTAGAACT TTGGTCTGTG ATGAAGATAC AAATTATCAG 
    AGTCTGCGAT TGAGTTGGGC TTCTAAAACC AGCTGTAATC AGAGAAAAGG CCGTGCTGGA 
    CGAGTGTCTA GAGGGTACTG TTACCGGCTG GTACACAAGG ATTTCTGGGA CAACTCCATC 
    CCTGATCATG TTGTTCCTGA GATGTTGCGT TGTCCATTAG GAAGCACGAT CTTGAAAGTG 
    AAATTACTTG ACATGGGTGA GCCGAGAGCT CTGCTGGCCA CTGCCCTTTC CCCGCCTGGT 
    CTGAGTGACA TTGAGCGCAC CATCCTTCTA CTAAAGGAGG TTGGAGCACT TGCAGTGAGT 
    GGGCAGAGAG AAGATGAAAA CCCCCATGAT GGTGAATTGA CCTTCTTAGG AAGAGTTTTA 
    GCCCAACTTC CTGTAAATCA GCAACTTGGT AAACTCATAG TCCTTGGACA TGTATTTGGA 
    TGTCTAGATG AATGTCTTAT TATAGCGGCA GCTCTTTCTT TGAAGAATTT TTTTGCAATG 
    CCTTTCCGGC AGCATCTCGA TGGATATAGG AACAAAGTGA ATTTCTCTGG CAGTAGCAAG 
    AGTGACTGTA TTGCACTTGT TGAGGCATTT AAAACATGGA AGGCTTGCAG ACAGACAGGG 
    GAGCTGCGGT ACCCGAAGGA TGAACTTAAT TGGGGACGGT TAAATTACAT TCAAATCAAG 
    AGAATTAGAG AGGTGGCTGA ATTATATGAA GAATTGAAGA CTAGAATCTC ACAGTTCAAC 
    ATGCATGTTG ATTCTCGGCG ACCTGTCATG GACCAAGAGT ATATATATAA GCAGCGATTC 
    ATCCTACAGG TTGTATTGGC AGGTGCTTTC TATCCAAATT ACTTTACTTT TGGACAGCCG 
    GATGAGGAGA TGGCGGTGAG GGAGCTGGCT GGCAAGGACC CCAAGACAAC TGTCGTGTTG 
    AAACACATTC CTCCCTATGG ATTTCTTTAC TATAAACAAC TACAGTCTCT CTTTAGACAG 
    TGTGGTCAAG TCAAATCCAT TGTATTTGAT GGTGCAAAAG CCTTTGTGGA ATTCTCACGA 
    AATCCAACAG AGAGATTTAA AACCCTTCCT GCAGTATATA TGGCAATTAA GATGTCTCAA 
    CTAAAAGTTT CACTTGAACT CAGCGTTCAT TCTGCAGAGG AAATTGAAGG GAAGGTGCAA 
    GGCATGAACG TCTCAAAGCT CAGGAACACA AGGGTGAATG TGGACTTCCA GAAGCAGACG 
    GTAGATCCTA TGCAAGTCTC CTTTAACACA TCAGACAGGT CCCAGACAGT TACAGATCTC 
    CTTCTAACTA TTGATGTCAC AGAGGTGGTT GAAGTGGGAC ACTTTTGGGG ATACAGGATT 
    GATGAAAACA ACTCAGAGAT TCTGAAAAAG CTTACTGCTG AAATCAACCA ACTGACGCTG 
    GTGCCCTTGC CCACTCACCC ACATCCAGAC TTGGTCTGTC TGGCACCTTT TGCTGATTTT 
    GATAAACAAC GCTACTTTAG AGCTCAAGTC CTTTATGTTT CTGGAAATTC TGCTGAGGTA 
    TTCTTTGTAG ATTATGGCAA TAAGTCTCAT GTAGATCTAC ATCTTTTGAT GGAGATTCCC 
    TGTCAATTTC TTGAACTTCC TTTCCAGGCT TTGGAATTTA AGATTTGCAA AATGAGACCA 
    TCAGCAAAGT CTCTTGTTTG TGGCAAGCAC TGGAGTGACG GGGCCAGCCA GTGGTTCGCC 
    TCTCTGGTGA GCGGCTGCAC CCTCCTTGTG AAGGTCTTCT CTGTGGTGCA CAGCGTCCTG 
    CACGTGGATG TGTACCAGTA CTCAGGGGTC CAGGATGCCA TCAACATAAG AGACGTCCTC 
    ATCCAGCAGG GCTATGCCGA GCTCACGGAG GAGTCCTACG AGTCCAAGCA AAGCCATGAA 
    GTTCTCAAGG GCCTCTTTTC CAAGTCAGTA GAAAACATGA CAGATGGCTC TGTGCCCTTT 
    CCCATGAAAG ACGACGAGAA ATATCTCATC CGGATTTTGT TAGAGAGCTT TTCTACCAAT 
    AAACTGGGTA CTCCAAACTG TAAGGCAGAA CTTCACGGGC CTTTTAACCC TTATGAACTA 
    AAGTGCCATA GTTTGACCAG AATATCCAAA TTCAGGTGTG TTTGGATTGA GAAGGAGAGC 
    ATCAACTCTG TCATTATCAG TGACGCCCCT GAAGACCTTC ACCAGAGAAT GCTGGTTGCA 
    GCTTCCCTTT CCATCAATGC GACTGGATCT ACGATGCTGC TGAGAGAAAC CTCTCTGATG 
    CCTCATATCC CTGGCCTCCC GGCTCTCCTC AGCATGTTAT TCGCACCGGT GATAGAGTTA 
    AGGATTGATC AGAATGGCAA GTACTATACT GGAGTCCTTT GTGGTTTGGG GTGGAATCCA 
    GCTACAGGGG CTTCCATACT GCCCGAGCAC GACATGGAGC TTGCGTTTGA CGTTCAATTC 
    AGCGTGGAGG ATGTCGTCGA GGTTAATATT CTCAGGGCTG CTATTAACAA GCTAGTCTGT 
    GATGGACCAA ATGGATGCAA GTGTCTTGGG CCAGAGAGAG TTGCGCAGCT TCAAGACATT 
    GCCCGTCAGA AGCTTTTAGG TTTGTTCTGT CAGTCAAAAC CAAGGGAGAA GATTGTTCCC 
    AAGTGGCATG AAAAGCCCTA CGAGTGGAAT CAGGTTGATC CAAAGCTGGT CATGGAGCAG 
    GCCGACCGTG AGAGCAGCAG AGGGAAGAAC ACCTTTCTCT ACCAGCTCCA CAAACTGGTT 
    GTGCTCGGCA CCTGA

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

    TDRD9 ( NM_153046.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_694591.2 Homo sapiens tudor domain containing 9 (TDRD9), mRNA.
    Price & Availability↑
    CloneID OHu31640
    Clone ID Related Accession (Same CDS sequence) NM_153046.2
    Accession Version NM_153046.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4149bp)
    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 2017-10-02
    Organism Homo sapiens(human)
    Product ATP-dependent RNA helicase TDRD9
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AL132712.4, BG719020.1, U56244.1, AL833915.1, BU430972.1, BC033662.1 and AK093483.1. On Feb 5, 2008 this sequence version replaced NM_153046.1. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2144120 [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
    ATGCTGCGGA AGCTCACCAT CGAGCAGATC AACGACTGGT TCACCATCGG CAAGACGGTG 
    ACCAATGTGG AGCTGCTGGG CGCGCCGCCC GCCTTCCCGG CAGGGGCGGC CAGGGAGGAG 
    GTGCAGCGCC AGGACGTGGC CCCCGGCGCT GGTCCCGCGG CCCAGGCTCC GGCTCTGGCC 
    CAAGCTCCGG CCCGGCCGGC CGCTGCGTTC GAAAGGTCAC TCAGCCAAAG GAGCTCAGAA 
    GTAGAGTATA TTAACAAATA CAGACAGCTC GAAGCACAAG AGCTTGATGT GTGTCGCAGT 
    GTCCAACCAA CCAGTGGGCC AGGTCCAAGG CCATCTTTGG CTAAATTAAG CAGTGTGACG 
    TGCATCCCAG GGACAACTTA TAAATATCCT GATTTGCCTA TAAGTCGATA CAAGGAAGAG 
    GTTGTGTCTT TGATAGAAAG TAATTCCGTG GTGATTATCC ATGGGGCCAC GGGAAGCGGT 
    AAAAGCACTC AGCTCCCGCA GTATATCTTG GACCACTACG TTCAGCGCTC CGCCTACTGC 
    AGCATTGTGG TCACCCAGCC CCGGAAGATA GGGGCAAGCA GCATCGCCAG GTGGATCAGT 
    AAAGAGCGTG CCTGGACCCT GGGAGGTGTG GTGGGCTACC AGGTAGGGCT AGAGAAAATA 
    GCAACAGAGG ACACCAGGCT AATTTATATG ACAACTGGAG TCCTGCTTCA GAAAATAGTT 
    AGTGCCAAGA GTTTGATGGA ATTCACACAT ATCATCATTG ATGAAGTACA CGAACGAACA 
    GAAGAAATGG ATTTCCTGCT ATTGGTAGTC CGCAAACTCT TAAGAACAAA TTCACGTTTT 
    GTGAAGGTGG TCCTGATGTC GGCTACCATC AGCTGTAAAG AGTTTGCAGA CTACTTTGCT 
    GTTCCTGTTC AAAACAAGAT GAATCCTGCA TATATTTTTG AAGTGGAAGG CAAGCCCCAT 
    TCAGTTGAAG AGTATTATCT TAATGATTTG GAGCACATTC ATCATAGCAA GCTCTCTCCT 
    CATCTCCTGG AGGAACCGGT GATAACTAAG GATATATATG AAGTTGCTGT CTCTCTCATT 
    CAGATGTTTG ATGACTTGGA TATGAAGGAG AGTGGGAACA AGGCTTGGTC GGGGGCCCAG 
    TTTGTGTTGG AGCGAAGCAG TGTGTTGGTG TTTTTGCCAG GTCTGGGTGA AATAAATTAT 
    ATGCATGAAC TTCTCACAAG CCTGGTTCAT AAAAGGTTGC AGGTCTATCC ACTCCATTCA 
    AGTGTGGCTT TAGAAGAACA GAATAATGTC TTTTTAAGTC CAGTCCCTGG GTACAGAAAG 
    ATTATTCTGT CCACCAATAT TGCAGAGAGT TCTGTCACAG TTCCAGATGT CAAATATGTT 
    ATAGATTTTT GTTTGACTAG AACTTTGGTC TGTGATGAAG ATACAAATTA TCAGAGTCTG 
    CGATTGAGTT GGGCTTCTAA AACCAGCTGT AATCAGAGAA AAGGCCGTGC TGGACGAGTG 
    TCTAGAGGGT ACTGTTACCG GCTGGTACAC AAGGATTTCT GGGACAACTC CATCCCTGAT 
    CATGTTGTTC CTGAGATGTT GCGTTGTCCA TTAGGAAGCA CGATCTTGAA AGTGAAATTA 
    CTTGACATGG GTGAGCCGAG AGCTCTGCTG GCCACTGCCC TTTCCCCGCC TGGTCTGAGT 
    GACATTGAGC GCACCATCCT TCTACTAAAG GAGGTTGGAG CACTTGCAGT GAGTGGGCAG 
    AGAGAAGATG AAAACCCCCA TGATGGTGAA TTGACCTTCT TAGGAAGAGT TTTAGCCCAA 
    CTTCCTGTAA ATCAGCAACT TGGTAAACTC ATAGTCCTTG GACATGTATT TGGATGTCTA 
    GATGAATGTC TTATTATAGC GGCAGCTCTT TCTTTGAAGA ATTTTTTTGC AATGCCTTTC 
    CGGCAGCATC TCGATGGATA TAGGAACAAA GTGAATTTCT CTGGCAGTAG CAAGAGTGAC 
    TGTATTGCAC TTGTTGAGGC ATTTAAAACA TGGAAGGCTT GCAGACAGAC AGGGGAGCTG 
    CGGTACCCGA AGGATGAACT TAATTGGGGA CGGTTAAATT ACATTCAAAT CAAGAGAATT 
    AGAGAGGTGG CTGAATTATA TGAAGAATTG AAGACTAGAA TCTCACAGTT CAACATGCAT 
    GTTGATTCTC GGCGACCTGT CATGGACCAA GAGTATATAT ATAAGCAGCG ATTCATCCTA 
    CAGGTTGTAT TGGCAGGTGC TTTCTATCCA AATTACTTTA CTTTTGGACA GCCGGATGAG 
    GAGATGGCGG TGAGGGAGCT GGCTGGCAAG GACCCCAAGA CAACTGTCGT GTTGAAACAC 
    ATTCCTCCCT ATGGATTTCT TTACTATAAA CAACTACAGT CTCTCTTTAG ACAGTGTGGT 
    CAAGTCAAAT CCATTGTATT TGATGGTGCA AAAGCCTTTG TGGAATTCTC ACGAAATCCA 
    ACAGAGAGAT TTAAAACCCT TCCTGCAGTA TATATGGCAA TTAAGATGTC TCAACTAAAA 
    GTTTCACTTG AACTCAGCGT TCATTCTGCA GAGGAAATTG AAGGGAAGGT GCAAGGCATG 
    AACGTCTCAA AGCTCAGGAA CACAAGGGTG AATGTGGACT TCCAGAAGCA GACGGTAGAT 
    CCTATGCAAG TCTCCTTTAA CACATCAGAC AGGTCCCAGA CAGTTACAGA TCTCCTTCTA 
    ACTATTGATG TCACAGAGGT GGTTGAAGTG GGACACTTTT GGGGATACAG GATTGATGAA 
    AACAACTCAG AGATTCTGAA AAAGCTTACT GCTGAAATCA ACCAACTGAC GCTGGTGCCC 
    TTGCCCACTC ACCCACATCC AGACTTGGTC TGTCTGGCAC CTTTTGCTGA TTTTGATAAA 
    CAACGCTACT TTAGAGCTCA AGTCCTTTAT GTTTCTGGAA ATTCTGCTGA GGTATTCTTT 
    GTAGATTATG GCAATAAGTC TCATGTAGAT CTACATCTTT TGATGGAGAT TCCCTGTCAA 
    TTTCTTGAAC TTCCTTTCCA GGCTTTGGAA TTTAAGATTT GCAAAATGAG ACCATCAGCA 
    AAGTCTCTTG TTTGTGGCAA GCACTGGAGT GACGGGGCCA GCCAGTGGTT CGCCTCTCTG 
    GTGAGCGGCT GCACCCTCCT TGTGAAGGTC TTCTCTGTGG TGCACAGCGT CCTGCACGTG 
    GATGTGTACC AGTACTCAGG GGTCCAGGAT GCCATCAACA TAAGAGACGT CCTCATCCAG 
    CAGGGCTATG CCGAGCTCAC GGAGGAGTCC TACGAGTCCA AGCAAAGCCA TGAAGTTCTC 
    AAGGGCCTCT TTTCCAAGTC AGTAGAAAAC ATGACAGATG GCTCTGTGCC CTTTCCCATG 
    AAAGACGACG AGAAATATCT CATCCGGATT TTGTTAGAGA GCTTTTCTAC CAATAAACTG 
    GGTACTCCAA ACTGTAAGGC AGAACTTCAC GGGCCTTTTA ACCCTTATGA ACTAAAGTGC 
    CATAGTTTGA CCAGAATATC CAAATTCAGG TGTGTTTGGA TTGAGAAGGA GAGCATCAAC 
    TCTGTCATTA TCAGTGACGC CCCTGAAGAC CTTCACCAGA GAATGCTGGT TGCAGCTTCC 
    CTTTCCATCA ATGCGACTGG ATCTACGATG CTGCTGAGAG AAACCTCTCT GATGCCTCAT 
    ATCCCTGGCC TCCCGGCTCT CCTCAGCATG TTATTCGCAC CGGTGATAGA GTTAAGGATT 
    GATCAGAATG GCAAGTACTA TACTGGAGTC CTTTGTGGTT TGGGGTGGAA TCCAGCTACA 
    GGGGCTTCCA TACTGCCCGA GCACGACATG GAGCTTGCGT TTGACGTTCA ATTCAGCGTG 
    GAGGATGTCG TCGAGGTTAA TATTCTCAGG GCTGCTATTA ACAAGCTAGT CTGTGATGGA 
    CCAAATGGAT GCAAGTGTCT TGGGCCAGAG AGAGTTGCGC AGCTTCAAGA CATTGCCCGT 
    CAGAAGCTTT TAGGTTTGTT CTGTCAGTCA AAACCAAGGG AGAAGATTGT TCCCAAGTGG 
    CATGAAAAGC CCTACGAGTG GAATCAGGTT GATCCAAAGC TGGTCATGGA GCAGGCCGAC 
    CGTGAGAGCA GCAGAGGGAA GAACACCTTT CTCTACCAGC TCCACAAACT GGTTGTGCTC 
    GGCACCTGA

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

    RefSeq NP_694591.2
    CDS31..4179
    Translation

    Target ORF information:

    RefSeq Version NM_153046.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 9 (TDRD9), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_153046.2

    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
    ATGCTGCGGA AGCTCACCAT CGAGCAGATC AACGACTGGT TCACCATCGG CAAGACGGTG 
    ACCAATGTGG AGCTGCTGGG CGCGCCGCCC GCCTTCCCGG CAGGGGCGGC CAGGGAGGAG 
    GTGCAGCGCC AGGACGTGGC CCCCGGCGCT GGTCCCGCGG CCCAGGCTCC GGCTCTGGCC 
    CAAGCTCCGG CCCGGCCGGC CGCTGCGTTC GAAAGGTCAC TCAGCCAAAG GAGCTCAGAA 
    GTAGAGTATA TTAACAAATA CAGACAGCTC GAAGCACAAG AGCTTGATGT GTGTCGCAGT 
    GTCCAACCAA CCAGTGGGCC AGGTCCAAGG CCATCTTTGG CTAAATTAAG CAGTGTGACG 
    TGCATCCCAG GGACAACTTA TAAATATCCT GATTTGCCTA TAAGTCGATA CAAGGAAGAG 
    GTTGTGTCTT TGATAGAAAG TAATTCCGTG GTGATTATCC ATGGGGCCAC GGGAAGCGGT 
    AAAAGCACTC AGCTCCCGCA GTATATCTTG GACCACTACG TTCAGCGCTC CGCCTACTGC 
    AGCATTGTGG TCACCCAGCC CCGGAAGATA GGGGCAAGCA GCATCGCCAG GTGGATCAGT 
    AAAGAGCGTG CCTGGACCCT GGGAGGTGTG GTGGGCTACC AGGTAGGGCT AGAGAAAATA 
    GCAACAGAGG ACACCAGGCT AATTTATATG ACAACTGGAG TCCTGCTTCA GAAAATAGTT 
    AGTGCCAAGA GTTTGATGGA ATTCACACAT ATCATCATTG ATGAAGTACA CGAACGAACA 
    GAAGAAATGG ATTTCCTGCT ATTGGTAGTC CGCAAACTCT TAAGAACAAA TTCACGTTTT 
    GTGAAGGTGG TCCTGATGTC GGCTACCATC AGCTGTAAAG AGTTTGCAGA CTACTTTGCT 
    GTTCCTGTTC AAAACAAGAT GAATCCTGCA TATATTTTTG AAGTGGAAGG CAAGCCCCAT 
    TCAGTTGAAG AGTATTATCT TAATGATTTG GAGCACATTC ATCATAGCAA GCTCTCTCCT 
    CATCTCCTGG AGGAACCGGT GATAACTAAG GATATATATG AAGTTGCTGT CTCTCTCATT 
    CAGATGTTTG ATGACTTGGA TATGAAGGAG AGTGGGAACA AGGCTTGGTC GGGGGCCCAG 
    TTTGTGTTGG AGCGAAGCAG TGTGTTGGTG TTTTTGCCAG GTCTGGGTGA AATAAATTAT 
    ATGCATGAAC TTCTCACAAG CCTGGTTCAT AAAAGGTTGC AGGTCTATCC ACTCCATTCA 
    AGTGTGGCTT TAGAAGAACA GAATAATGTC TTTTTAAGTC CAGTCCCTGG GTACAGAAAG 
    ATTATTCTGT CCACCAATAT TGCAGAGAGT TCTGTCACAG TTCCAGATGT CAAATATGTT 
    ATAGATTTTT GTTTGACTAG AACTTTGGTC TGTGATGAAG ATACAAATTA TCAGAGTCTG 
    CGATTGAGTT GGGCTTCTAA AACCAGCTGT AATCAGAGAA AAGGCCGTGC TGGACGAGTG 
    TCTAGAGGGT ACTGTTACCG GCTGGTACAC AAGGATTTCT GGGACAACTC CATCCCTGAT 
    CATGTTGTTC CTGAGATGTT GCGTTGTCCA TTAGGAAGCA CGATCTTGAA AGTGAAATTA 
    CTTGACATGG GTGAGCCGAG AGCTCTGCTG GCCACTGCCC TTTCCCCGCC TGGTCTGAGT 
    GACATTGAGC GCACCATCCT TCTACTAAAG GAGGTTGGAG CACTTGCAGT GAGTGGGCAG 
    AGAGAAGATG AAAACCCCCA TGATGGTGAA TTGACCTTCT TAGGAAGAGT TTTAGCCCAA 
    CTTCCTGTAA ATCAGCAACT TGGTAAACTC ATAGTCCTTG GACATGTATT TGGATGTCTA 
    GATGAATGTC TTATTATAGC GGCAGCTCTT TCTTTGAAGA ATTTTTTTGC AATGCCTTTC 
    CGGCAGCATC TCGATGGATA TAGGAACAAA GTGAATTTCT CTGGCAGTAG CAAGAGTGAC 
    TGTATTGCAC TTGTTGAGGC ATTTAAAACA TGGAAGGCTT GCAGACAGAC AGGGGAGCTG 
    CGGTACCCGA AGGATGAACT TAATTGGGGA CGGTTAAATT ACATTCAAAT CAAGAGAATT 
    AGAGAGGTGG CTGAATTATA TGAAGAATTG AAGACTAGAA TCTCACAGTT CAACATGCAT 
    GTTGATTCTC GGCGACCTGT CATGGACCAA GAGTATATAT ATAAGCAGCG ATTCATCCTA 
    CAGGTTGTAT TGGCAGGTGC TTTCTATCCA AATTACTTTA CTTTTGGACA GCCGGATGAG 
    GAGATGGCGG TGAGGGAGCT GGCTGGCAAG GACCCCAAGA CAACTGTCGT GTTGAAACAC 
    ATTCCTCCCT ATGGATTTCT TTACTATAAA CAACTACAGT CTCTCTTTAG ACAGTGTGGT 
    CAAGTCAAAT CCATTGTATT TGATGGTGCA AAAGCCTTTG TGGAATTCTC ACGAAATCCA 
    ACAGAGAGAT TTAAAACCCT TCCTGCAGTA TATATGGCAA TTAAGATGTC TCAACTAAAA 
    GTTTCACTTG AACTCAGCGT TCATTCTGCA GAGGAAATTG AAGGGAAGGT GCAAGGCATG 
    AACGTCTCAA AGCTCAGGAA CACAAGGGTG AATGTGGACT TCCAGAAGCA GACGGTAGAT 
    CCTATGCAAG TCTCCTTTAA CACATCAGAC AGGTCCCAGA CAGTTACAGA TCTCCTTCTA 
    ACTATTGATG TCACAGAGGT GGTTGAAGTG GGACACTTTT GGGGATACAG GATTGATGAA 
    AACAACTCAG AGATTCTGAA AAAGCTTACT GCTGAAATCA ACCAACTGAC GCTGGTGCCC 
    TTGCCCACTC ACCCACATCC AGACTTGGTC TGTCTGGCAC CTTTTGCTGA TTTTGATAAA 
    CAACGCTACT TTAGAGCTCA AGTCCTTTAT GTTTCTGGAA ATTCTGCTGA GGTATTCTTT 
    GTAGATTATG GCAATAAGTC TCATGTAGAT CTACATCTTT TGATGGAGAT TCCCTGTCAA 
    TTTCTTGAAC TTCCTTTCCA GGCTTTGGAA TTTAAGATTT GCAAAATGAG ACCATCAGCA 
    AAGTCTCTTG TTTGTGGCAA GCACTGGAGT GACGGGGCCA GCCAGTGGTT CGCCTCTCTG 
    GTGAGCGGCT GCACCCTCCT TGTGAAGGTC TTCTCTGTGG TGCACAGCGT CCTGCACGTG 
    GATGTGTACC AGTACTCAGG GGTCCAGGAT GCCATCAACA TAAGAGACGT CCTCATCCAG 
    CAGGGCTATG CCGAGCTCAC GGAGGAGTCC TACGAGTCCA AGCAAAGCCA TGAAGTTCTC 
    AAGGGCCTCT TTTCCAAGTC AGTAGAAAAC ATGACAGATG GCTCTGTGCC CTTTCCCATG 
    AAAGACGACG AGAAATATCT CATCCGGATT TTGTTAGAGA GCTTTTCTAC CAATAAACTG 
    GGTACTCCAA ACTGTAAGGC AGAACTTCAC GGGCCTTTTA ACCCTTATGA ACTAAAGTGC 
    CATAGTTTGA CCAGAATATC CAAATTCAGG TGTGTTTGGA TTGAGAAGGA GAGCATCAAC 
    TCTGTCATTA TCAGTGACGC CCCTGAAGAC CTTCACCAGA GAATGCTGGT TGCAGCTTCC 
    CTTTCCATCA ATGCGACTGG ATCTACGATG CTGCTGAGAG AAACCTCTCT GATGCCTCAT 
    ATCCCTGGCC TCCCGGCTCT CCTCAGCATG TTATTCGCAC CGGTGATAGA GTTAAGGATT 
    GATCAGAATG GCAAGTACTA TACTGGAGTC CTTTGTGGTT TGGGGTGGAA TCCAGCTACA 
    GGGGCTTCCA TACTGCCCGA GCACGACATG GAGCTTGCGT TTGACGTTCA ATTCAGCGTG 
    GAGGATGTCG TCGAGGTTAA TATTCTCAGG GCTGCTATTA ACAAGCTAGT CTGTGATGGA 
    CCAAATGGAT GCAAGTGTCT TGGGCCAGAG AGAGTTGCGC AGCTTCAAGA CATTGCCCGT 
    CAGAAGCTTT TAGGTTTGTT CTGTCAGTCA AAACCAAGGG AGAAGATTGT TCCCAAGTGG 
    CATGAAAAGC CCTACGAGTG GAATCAGGTT GATCCAAAGC TGGTCATGGA GCAGGCCGAC 
    CGTGAGAGCA GCAGAGGGAA GAACACCTTT CTCTACCAGC TCCACAAACT GGTTGTGCTC 
    GGCACCTGA

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

    TDRD9 ( XM_006720019.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_006720082.1 Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu47506
    Clone ID Related Accession (Same CDS sequence) XM_006720019.3
    Accession Version XM_006720019.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4092bp)
    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 ATP-dependent RNA helicase TDRD9 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000014.9) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_006720019.2. ##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
    ATGCTGCGGA AGCTCACCAT CGAGCAGATC AACGACTGGT TCACCATCGG CAAGACGGTG 
    ACCAATGTGG AGCTGCTGGG CGCGCCGCCC GCCTTCCCGG CAGGGGCGGC CAGGGAGGAG 
    GTGCAGCGCC AGGACGTGGC CCCCGGCGCT GGTCCCGCGG CCCAGGCTCC GGCTCTGGCC 
    CAAGCTCCGG CCCGGCCGGC CGCTGCGTTC GAAAGGTCAC TCAGCCAAAG GAGCTCAGAA 
    GTAGAGTATA TTAACAAATA CAGACAGCTC GAAGCACAAG AGCTTGATGT GTGTCGCAGT 
    GTCCAACCAA CCAGTGGGCC AGGTCCAAGG CCATCTTTGG CTAAATTAAG CAGTGTGACA 
    TGCATCCCAG GGACAACTTA TAAATATCCT GATTTGCCTA TAAGTCGATA CAAGGAAGAG 
    GTTGTGTCTT TGATAGAAAG TAATTCCGTG GTGATTATCC ATGGGGCCAC GGGAAGCGGT 
    AAAAGCACTC AGCTCCCGCA GTATATCTTG GACCACTACG TTCAGCGCTC CGCCTACTGC 
    AGCATTGTGG TCACCCAGCC CCGGAAGATA GGGGCAAGCA GCATCGCCAG GTGGATCAGT 
    AAAGAGCGTG CCTGGACCCT GGGAGGTGTG GTGGGCTACC AGGTAGGGCT AGAGAAAATA 
    GCAACAGAGG ACACCAGGCT AATTTATATG ACAACTGGAG TCCTGCTTCA GAAAATAGTT 
    AGTGCCAAGA GTTTGATGGA ATTCACACAT ATCATCATTG ATGAAGTACA CGAACGAACA 
    GAAGAAATGG ATTTCCTGCT ATTGGTAGTC CGCAAACTCT TAAGAACAAA TTCACGTTTT 
    GTGAAGGTGG TCCTGATGTC GGCTACCATC AGCTGTAAAG AGTTTGCAGA CTACTTTGCT 
    GTTCCTGTTC AAAACAAGAT GAATCCTGCA TATATTTTTG AAGTGGAAGG CAAGCCCCAT 
    TCAGTTGAAG AGTATTATCT TAATGATTTG GAGCACATTC ATCATAGCAA GCTCTCTCCT 
    CATCTCCTGG AGGAACCGGT GATAACTAAG GATATATATG AAGTTGCTGT CTCTCTCATT 
    CAGATGTTTG ATGACTTGGA TATGAAGGAG AGTGGGAACA AGGCTTGGTC GGGGGCCCAG 
    TTTGTGTTGG AGCGAAGCAG TGTGTTGGTG TTTTTGCCAG GTCTGGGTGA AATAAATTAT 
    ATGCATGAAC TTCTCACAAG CCTGGTTCAT AAAAGGTTGC AGGTCTATCC ACTCCATTCA 
    AGTGTGGCTT TAGAAGAACA GAATAATGTC TTTTTAAGTC CAGTCCCTGG GTACAGAAAG 
    ATTATTCTGT CCACCAATAT TGCAGAGAGT TCTGTCACAG TTCCAGATGT CAAATATGTT 
    ATAGATTTTT GTTTGACTAG AACTTTGGTC TGTGATGAAG ATACAAATTA TCAGAGTCTG 
    CGATTGAGTT GGGCTTCTAA AACCAGCTGT AATCAGAGAA AAGGCCGTGC TGGACGAGTG 
    TCTAGAGGGT ACTGTTACCG GCTGGTACAC AAGGATTTCT GGGACAACTC CATCCCTGAT 
    CATGTTGTTC CTGAGATGTT GCGTTGTCCA TTAGGAAGCA CGATCTTGAA AGTGAAATTA 
    CTTGACATGG GTGAGCCGAG AGCTCTGCTG GCCACTGCCC TTTCCCCGCC TGGTCTGAGT 
    GACATTGAGC GCACCATCCT TCTACTAAAG GAGGTTGGAG CACTTGCAGT GAGTGGGCAG 
    AGAGAAGATG AAAACCCCCA TGATGGTGAA TTGACCTTCT TAGGAAGAGT TTTAGCCCAA 
    CTTCCTGTAA ATCAGCAACT TGGTAAACTC ATAGTCCTTG GACATGTATT TGGATGTCTA 
    GATGAATGTC TTATTATAGC GGCAGCTCTT TCTTTGAAGA ATTTTTTTGC AATGCCTTTC 
    CGGCAGCATC TCGATGGATA TAGGAACAAA GTGAATTTCT CTGGCAGTAG CAAGAGTGAC 
    TGTATTGCAC TTGTTGAGGC ATTTAAAACA TGGAAGGCTT GCAGACAGAC AGGGGAGCTG 
    CGGTACCCGA AGGATGAACT TAATTGGGGA CGGTTAAATT ACATTCAAAT CAAGAGAATT 
    AGAGAGGTGG CTGAATTATA TGAAGAATTG AAGACTAGAA TCTCACAGTT CAACATGCAT 
    GTTGATTCTC GGCGACCTGT CATGGACCAA GAGTATATAT ATAAGCAGCG ATTCATCCTA 
    CAGGTTGTAT TGGCAGGTGC TTTCTATCCA AATTACTTTA CTTTTGGACA GCCGGATGAG 
    GAGATGGCGG TGAGGGAGCT GGCTGGCAAG GACCCCAAGA CAACTGTCGT GTTGAAACAC 
    ATTCCTCCCT ATGGATTTCT TTACTATAAA CAACTACAGT CTCTCTTTAG ACAGTGTGGT 
    CAAGTCAAAT CCATTGTATT TGATGGTGCA AAAGCCTTTG TGGAATTCTC ACGAAATCCA 
    ACAGAGAGAT TTAAAACCCT TCCTGCAGTA TATATGGCAA TTAAGATGTC TCAACTAAAA 
    GTTTCACTTG AACTCAGCGT TCATTCTGCA GAGGAAATTG AAGGGAAGGT GCAAGGCATG 
    AACGTCTCAA AGCTCAGGAA CACAAGGGTG AATGTGGACT TCCAGAAGCA GACGGTAGAT 
    CCTATGCAAG TCTCCTTTAA CACATCAGAC AGGTCCCAGA CAGTTACAGA TCTCCTTCTA 
    ACTATTGATG TCACAGAGGT GGTTGAAGTG GGACACTTTT GGGGATACAG GATTGATGAA 
    AACAACTCAG AGATTCTGAA AAAGCTTACT GCTGAAATCA ACCAACTGAC GCTGGTGCCC 
    TTGCCCACTC ACCCACATCC AGACTTGGTC TGTCTGGCAC CTTTTGCTGA TTTTGATAAA 
    CAACGCTACT TTAGAGCTCA AGTCCTTTAT GTTTCTGGAA ATTCTGCTGA GGTATTCTTT 
    GTAGATTATG GCAATAAGTC TCATGTAGAT CTACATCTTT TGATGGAGAT TCCCTGTCAA 
    TTTCTTGAAC TTCCTTTCCA GGCTTTGGAA TTTAAGATTT GCAAAATGAG ACCATCAGCA 
    AAGTCTCTTG TTTGTGGCAA GCACTGGAGT GACGGGGCCA GCCAGTGGTT CGCCTCTCTG 
    GTGAGCGGCT GCACCCTCCT TGTGAAGGTC TTCTCTGTGG TGCACAGCGT CCTGCACGTG 
    GATGTGTACC AGTACTCAGG GGTCCAGGAT GCCATCAACA TAAGAGACGT CCTCATCCAG 
    CAGGGCTATG CCGAGCTCAC GGAGGAGTCC TACGAGTCCA AGCAAAGCCA TGAAGTTCTC 
    AAGGGCCTCT TTTCCAAGTC AGTAGAAAAC ATGACAGATG GCTCTGTGCC CTTTCCCATG 
    AAAGACGACG AGAAATATCT CATCCGGATT TTGTTAGAGA GCTTTTCTAC CAATAAACTG 
    GGTACTCCAA ACTGTAAGGC AGAACTTCAC GGGCCTTTTA ACCCTTATGA ACTAAAGTGC 
    CATAGTTTGA CCAGAATATC CAAATTCAGG TGTGTTTGGA TTGAGAAGGA GAGCATCAAC 
    TCTGTCATTA TCAGTGACGC CCCTGAAGAC CTTCACCAGA GAATGCTGGT TGCAGCTTCC 
    CTTTCCATCA ATGCGACTGG ATCTACGATG CTGCTGAGAG AAACCTCTCT GATGCCTCAT 
    ATCCCTGGCC TCCCGGCTCT CCTCAGCATG TTATTCGCAC CGGTGATAGA GTTAAGGATT 
    GATCAGAATG GCAAGTACTA TACTGGAGTC CTTTGTGGTT TGGGGTGGAA TCCAGCTACA 
    GGGGCTTCCA TACTGCCCGA GCACGACATG GAGCTTGCGT TTGACGTTCA ATTCAGCGTG 
    GAGGATGTCG TCGAGGTTAA TATTCTCAGG GCTGCTATTA ACAAGCTAGT CTGTGATGGA 
    CCAAATGGAT GCAAGTGTCT TGGGCCAGAG AGAGTTGCGC AGCTTCAAGA CATTGCCCGT 
    CAGAAGCTTT TAGGTTTGTT CTGTCAGTCA AAACCAAGGG AGAAGATTGT TCCCAAGTGG 
    CATGAAAAGC CCTACGAGTG GAATCAGTGT CTTCTATGTG ATGTCCCGGC AAAGAGTCAG 
    ACACCAGGAT AA

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

    RefSeq XP_006720082.1
    CDS168..4259
    Translation

    Target ORF information:

    RefSeq Version XM_006720019.3
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_006720019.3

    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
    ATGCTGCGGA AGCTCACCAT CGAGCAGATC AACGACTGGT TCACCATCGG CAAGACGGTG 
    ACCAATGTGG AGCTGCTGGG CGCGCCGCCC GCCTTCCCGG CAGGGGCGGC CAGGGAGGAG 
    GTGCAGCGCC AGGACGTGGC CCCCGGCGCT GGTCCCGCGG CCCAGGCTCC GGCTCTGGCC 
    CAAGCTCCGG CCCGGCCGGC CGCTGCGTTC GAAAGGTCAC TCAGCCAAAG GAGCTCAGAA 
    GTAGAGTATA TTAACAAATA CAGACAGCTC GAAGCACAAG AGCTTGATGT GTGTCGCAGT 
    GTCCAACCAA CCAGTGGGCC AGGTCCAAGG CCATCTTTGG CTAAATTAAG CAGTGTGACA 
    TGCATCCCAG GGACAACTTA TAAATATCCT GATTTGCCTA TAAGTCGATA CAAGGAAGAG 
    GTTGTGTCTT TGATAGAAAG TAATTCCGTG GTGATTATCC ATGGGGCCAC GGGAAGCGGT 
    AAAAGCACTC AGCTCCCGCA GTATATCTTG GACCACTACG TTCAGCGCTC CGCCTACTGC 
    AGCATTGTGG TCACCCAGCC CCGGAAGATA GGGGCAAGCA GCATCGCCAG GTGGATCAGT 
    AAAGAGCGTG CCTGGACCCT GGGAGGTGTG GTGGGCTACC AGGTAGGGCT AGAGAAAATA 
    GCAACAGAGG ACACCAGGCT AATTTATATG ACAACTGGAG TCCTGCTTCA GAAAATAGTT 
    AGTGCCAAGA GTTTGATGGA ATTCACACAT ATCATCATTG ATGAAGTACA CGAACGAACA 
    GAAGAAATGG ATTTCCTGCT ATTGGTAGTC CGCAAACTCT TAAGAACAAA TTCACGTTTT 
    GTGAAGGTGG TCCTGATGTC GGCTACCATC AGCTGTAAAG AGTTTGCAGA CTACTTTGCT 
    GTTCCTGTTC AAAACAAGAT GAATCCTGCA TATATTTTTG AAGTGGAAGG CAAGCCCCAT 
    TCAGTTGAAG AGTATTATCT TAATGATTTG GAGCACATTC ATCATAGCAA GCTCTCTCCT 
    CATCTCCTGG AGGAACCGGT GATAACTAAG GATATATATG AAGTTGCTGT CTCTCTCATT 
    CAGATGTTTG ATGACTTGGA TATGAAGGAG AGTGGGAACA AGGCTTGGTC GGGGGCCCAG 
    TTTGTGTTGG AGCGAAGCAG TGTGTTGGTG TTTTTGCCAG GTCTGGGTGA AATAAATTAT 
    ATGCATGAAC TTCTCACAAG CCTGGTTCAT AAAAGGTTGC AGGTCTATCC ACTCCATTCA 
    AGTGTGGCTT TAGAAGAACA GAATAATGTC TTTTTAAGTC CAGTCCCTGG GTACAGAAAG 
    ATTATTCTGT CCACCAATAT TGCAGAGAGT TCTGTCACAG TTCCAGATGT CAAATATGTT 
    ATAGATTTTT GTTTGACTAG AACTTTGGTC TGTGATGAAG ATACAAATTA TCAGAGTCTG 
    CGATTGAGTT GGGCTTCTAA AACCAGCTGT AATCAGAGAA AAGGCCGTGC TGGACGAGTG 
    TCTAGAGGGT ACTGTTACCG GCTGGTACAC AAGGATTTCT GGGACAACTC CATCCCTGAT 
    CATGTTGTTC CTGAGATGTT GCGTTGTCCA TTAGGAAGCA CGATCTTGAA AGTGAAATTA 
    CTTGACATGG GTGAGCCGAG AGCTCTGCTG GCCACTGCCC TTTCCCCGCC TGGTCTGAGT 
    GACATTGAGC GCACCATCCT TCTACTAAAG GAGGTTGGAG CACTTGCAGT GAGTGGGCAG 
    AGAGAAGATG AAAACCCCCA TGATGGTGAA TTGACCTTCT TAGGAAGAGT TTTAGCCCAA 
    CTTCCTGTAA ATCAGCAACT TGGTAAACTC ATAGTCCTTG GACATGTATT TGGATGTCTA 
    GATGAATGTC TTATTATAGC GGCAGCTCTT TCTTTGAAGA ATTTTTTTGC AATGCCTTTC 
    CGGCAGCATC TCGATGGATA TAGGAACAAA GTGAATTTCT CTGGCAGTAG CAAGAGTGAC 
    TGTATTGCAC TTGTTGAGGC ATTTAAAACA TGGAAGGCTT GCAGACAGAC AGGGGAGCTG 
    CGGTACCCGA AGGATGAACT TAATTGGGGA CGGTTAAATT ACATTCAAAT CAAGAGAATT 
    AGAGAGGTGG CTGAATTATA TGAAGAATTG AAGACTAGAA TCTCACAGTT CAACATGCAT 
    GTTGATTCTC GGCGACCTGT CATGGACCAA GAGTATATAT ATAAGCAGCG ATTCATCCTA 
    CAGGTTGTAT TGGCAGGTGC TTTCTATCCA AATTACTTTA CTTTTGGACA GCCGGATGAG 
    GAGATGGCGG TGAGGGAGCT GGCTGGCAAG GACCCCAAGA CAACTGTCGT GTTGAAACAC 
    ATTCCTCCCT ATGGATTTCT TTACTATAAA CAACTACAGT CTCTCTTTAG ACAGTGTGGT 
    CAAGTCAAAT CCATTGTATT TGATGGTGCA AAAGCCTTTG TGGAATTCTC ACGAAATCCA 
    ACAGAGAGAT TTAAAACCCT TCCTGCAGTA TATATGGCAA TTAAGATGTC TCAACTAAAA 
    GTTTCACTTG AACTCAGCGT TCATTCTGCA GAGGAAATTG AAGGGAAGGT GCAAGGCATG 
    AACGTCTCAA AGCTCAGGAA CACAAGGGTG AATGTGGACT TCCAGAAGCA GACGGTAGAT 
    CCTATGCAAG TCTCCTTTAA CACATCAGAC AGGTCCCAGA CAGTTACAGA TCTCCTTCTA 
    ACTATTGATG TCACAGAGGT GGTTGAAGTG GGACACTTTT GGGGATACAG GATTGATGAA 
    AACAACTCAG AGATTCTGAA AAAGCTTACT GCTGAAATCA ACCAACTGAC GCTGGTGCCC 
    TTGCCCACTC ACCCACATCC AGACTTGGTC TGTCTGGCAC CTTTTGCTGA TTTTGATAAA 
    CAACGCTACT TTAGAGCTCA AGTCCTTTAT GTTTCTGGAA ATTCTGCTGA GGTATTCTTT 
    GTAGATTATG GCAATAAGTC TCATGTAGAT CTACATCTTT TGATGGAGAT TCCCTGTCAA 
    TTTCTTGAAC TTCCTTTCCA GGCTTTGGAA TTTAAGATTT GCAAAATGAG ACCATCAGCA 
    AAGTCTCTTG TTTGTGGCAA GCACTGGAGT GACGGGGCCA GCCAGTGGTT CGCCTCTCTG 
    GTGAGCGGCT GCACCCTCCT TGTGAAGGTC TTCTCTGTGG TGCACAGCGT CCTGCACGTG 
    GATGTGTACC AGTACTCAGG GGTCCAGGAT GCCATCAACA TAAGAGACGT CCTCATCCAG 
    CAGGGCTATG CCGAGCTCAC GGAGGAGTCC TACGAGTCCA AGCAAAGCCA TGAAGTTCTC 
    AAGGGCCTCT TTTCCAAGTC AGTAGAAAAC ATGACAGATG GCTCTGTGCC CTTTCCCATG 
    AAAGACGACG AGAAATATCT CATCCGGATT TTGTTAGAGA GCTTTTCTAC CAATAAACTG 
    GGTACTCCAA ACTGTAAGGC AGAACTTCAC GGGCCTTTTA ACCCTTATGA ACTAAAGTGC 
    CATAGTTTGA CCAGAATATC CAAATTCAGG TGTGTTTGGA TTGAGAAGGA GAGCATCAAC 
    TCTGTCATTA TCAGTGACGC CCCTGAAGAC CTTCACCAGA GAATGCTGGT TGCAGCTTCC 
    CTTTCCATCA ATGCGACTGG ATCTACGATG CTGCTGAGAG AAACCTCTCT GATGCCTCAT 
    ATCCCTGGCC TCCCGGCTCT CCTCAGCATG TTATTCGCAC CGGTGATAGA GTTAAGGATT 
    GATCAGAATG GCAAGTACTA TACTGGAGTC CTTTGTGGTT TGGGGTGGAA TCCAGCTACA 
    GGGGCTTCCA TACTGCCCGA GCACGACATG GAGCTTGCGT TTGACGTTCA ATTCAGCGTG 
    GAGGATGTCG TCGAGGTTAA TATTCTCAGG GCTGCTATTA ACAAGCTAGT CTGTGATGGA 
    CCAAATGGAT GCAAGTGTCT TGGGCCAGAG AGAGTTGCGC AGCTTCAAGA CATTGCCCGT 
    CAGAAGCTTT TAGGTTTGTT CTGTCAGTCA AAACCAAGGG AGAAGATTGT TCCCAAGTGG 
    CATGAAAAGC CCTACGAGTG GAATCAGTGT CTTCTATGTG ATGTCCCGGC AAAGAGTCAG 
    ACACCAGGAT AA

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

    TDRD9 ( XM_006720020.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_006720083.1 Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OHu47507
    Clone ID Related Accession (Same CDS sequence) XM_006720020.3
    Accession Version XM_006720020.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4068bp)
    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 ATP-dependent RNA helicase TDRD9 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000014.9) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_006720020.2. ##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
    ATGCTGCGGA AGCTCACCAT CGAGCAGATC AACGACTGGT TCACCATCGG CAAGACGGTG 
    ACCAATGTGG AGCTGCTGGG CGCGCCGCCC GCCTTCCCGG CAGGGGCGGC CAGGGAGGAG 
    GTGCAGCGCC AGGACGTGGC CCCCGGCGCT GGTCCCGCGG CCCAGGCTCC GGCTCTGGCC 
    CAAGCTCCGG CCCGGCCGGC CGCTGCGTTC GAAAGGTCAC TCAGCCAAAG GAGCTCAGAA 
    GTAGAGTATA TTAACAAATA CAGACAGCTC GAAGCACAAG AGCTTGATGT GTGTCGCAGT 
    GTCCAACCAA CCAGTGGGCC AGGTCCAAGG CCATCTTTGG CTAAATTAAG CAGTGTGACA 
    TGCATCCCAG GGACAACTTA TAAATATCCT GATTTGCCTA TAAGTCGATA CAAGGAAGAG 
    GTTGTGTCTT TGATAGAAAG TAATTCCGTG GTGATTATCC ATGGGGCCAC GGGAAGCGGT 
    AAAAGCACTC AGCTCCCGCA GTATATCTTG GACCACTACG TTCAGCGCTC CGCCTACTGC 
    AGCATTGTGG TCACCCAGCC CCGGAAGATA GGGGCAAGCA GCATCGCCAG GTGGATCAGT 
    AAAGAGCGTG CCTGGACCCT GGGAGGTGTG GTGGGCTACC AGGTAGGGCT AGAGAAAATA 
    GCAACAGAGG ACACCAGGCT AATTTATATG ACAACTGGAG TCCTGCTTCA GAAAATAGTT 
    AGTGCCAAGA GTTTGATGGA ATTCACACAT ATCATCATTG ATGAAGTGGT CCTGATGTCG 
    GCTACCATCA GCTGTAAAGA GTTTGCAGAC TACTTTGCTG TTCCTGTTCA AAACAAGATG 
    AATCCTGCAT ATATTTTTGA AGTGGAAGGC AAGCCCCATT CAGTTGAAGA GTATTATCTT 
    AATGATTTGG AGCACATTCA TCATAGCAAG CTCTCTCCTC ATCTCCTGGA GGAACCGGTG 
    ATAACTAAGG ATATATATGA AGTTGCTGTC TCTCTCATTC AGATGTTTGA TGACTTGGAT 
    ATGAAGGAGA GTGGGAACAA GGCTTGGTCG GGGGCCCAGT TTGTGTTGGA GCGAAGCAGT 
    GTGTTGGTGT TTTTGCCAGG TCTGGGTGAA ATAAATTATA TGCATGAACT TCTCACAAGC 
    CTGGTTCATA AAAGGTTGCA GGTCTATCCA CTCCATTCAA GTGTGGCTTT AGAAGAACAG 
    AATAATGTCT TTTTAAGTCC AGTCCCTGGG TACAGAAAGA TTATTCTGTC CACCAATATT 
    GCAGAGAGTT CTGTCACAGT TCCAGATGTC AAATATGTTA TAGATTTTTG TTTGACTAGA 
    ACTTTGGTCT GTGATGAAGA TACAAATTAT CAGAGTCTGC GATTGAGTTG GGCTTCTAAA 
    ACCAGCTGTA ATCAGAGAAA AGGCCGTGCT GGACGAGTGT CTAGAGGGTA CTGTTACCGG 
    CTGGTACACA AGGATTTCTG GGACAACTCC ATCCCTGATC ATGTTGTTCC TGAGATGTTG 
    CGTTGTCCAT TAGGAAGCAC GATCTTGAAA GTGAAATTAC TTGACATGGG TGAGCCGAGA 
    GCTCTGCTGG CCACTGCCCT TTCCCCGCCT GGTCTGAGTG ACATTGAGCG CACCATCCTT 
    CTACTAAAGG AGGTTGGAGC ACTTGCAGTG AGTGGGCAGA GAGAAGATGA AAACCCCCAT 
    GATGGTGAAT TGACCTTCTT AGGAAGAGTT TTAGCCCAAC TTCCTGTAAA TCAGCAACTT 
    GGTAAACTCA TAGTCCTTGG ACATGTATTT GGATGTCTAG ATGAATGTCT TATTATAGCG 
    GCAGCTCTTT CTTTGAAGAA TTTTTTTGCA ATGCCTTTCC GGCAGCATCT CGATGGATAT 
    AGGAACAAAG TGAATTTCTC TGGCAGTAGC AAGAGTGACT GTATTGCACT TGTTGAGGCA 
    TTTAAAACAT GGAAGGCTTG CAGACAGACA GGGGAGCTGC GGTACCCGAA GGATGAACTT 
    AATTGGGGAC GGTTAAATTA CATTCAAATC AAGAGAATTA GAGAGGTGGC TGAATTATAT 
    GAAGAATTGA AGACTAGAAT CTCACAGTTC AACATGCATG TTGATTCTCG GCGACCTGTC 
    ATGGACCAAG AGTATATATA TAAGCAGCGA TTCATCCTAC AGGTTGTATT GGCAGGTGCT 
    TTCTATCCAA ATTACTTTAC TTTTGGACAG CCGGATGAGG AGATGGCGGT GAGGGAGCTG 
    GCTGGCAAGG ACCCCAAGAC AACTGTCGTG TTGAAACACA TTCCTCCCTA TGGATTTCTT 
    TACTATAAAC AACTACAGTC TCTCTTTAGA CAGTGTGGTC AAGTCAAATC CATTGTATTT 
    GATGGTGCAA AAGCCTTTGT GGAATTCTCA CGAAATCCAA CAGAGAGATT TAAAACCCTT 
    CCTGCAGTAT ATATGGCAAT TAAGATGTCT CAACTAAAAG TTTCACTTGA ACTCAGCGTT 
    CATTCTGCAG AGGAAATTGA AGGGAAGGTG CAAGGCATGA ACGTCTCAAA GCTCAGGAAC 
    ACAAGGGTGA ATGTGGACTT CCAGAAGCAG ACGGTAGATC CTATGCAAGT CTCCTTTAAC 
    ACATCAGACA GGTCCCAGAC AGTTACAGAT CTCCTTCTAA CTATTGATGT CACAGAGGTG 
    GTTGAAGTGG GACACTTTTG GGGATACAGG ATTGATGAAA ACAACTCAGA GATTCTGAAA 
    AAGCTTACTG CTGAAATCAA CCAACTGACG CTGGTGCCCT TGCCCACTCA CCCACATCCA 
    GACTTGGTCT GTCTGGCACC TTTTGCTGAT TTTGATAAAC AACGCTACTT TAGAGCTCAA 
    GTCCTTTATG TTTCTGGAAA TTCTGCTGAG GTATTCTTTG TAGATTATGG CAATAAGTCT 
    CATGTAGATC TACATCTTTT GATGGAGATT CCCTGTCAAT TTCTTGAACT TCCTTTCCAG 
    GCTTTGGAAT TTAAGATTTG CAAAATGAGA CCATCAGCAA AGTCTCTTGT TTGTGGCAAG 
    CACTGGAGTG ACGGGGCCAG CCAGTGGTTC GCCTCTCTGG TGAGCGGCTG CACCCTCCTT 
    GTGAAGGTCT TCTCTGTGGT GCACAGCGTC CTGCACGTGG ATGTGTACCA GTACTCAGGG 
    GTCCAGGATG CCATCAACAT AAGAGACGTC CTCATCCAGC AGGGCTATGC CGAGCTCACG 
    GAGGAGTCCT ACGAGTCCAA GCAAAGCCAT GAAGTTCTCA AGGGCCTCTT TTCCAAGTCA 
    GTAGAAAACA TGACAGATGG CTCTGTGCCC TTTCCCATGA AAGACGACGA GAAATATCTC 
    ATCCGGATTT TGTTAGAGAG CTTTTCTACC AATAAACTGG GTACTCCAAA CTGTAAGGCA 
    GAACTTCACG GGCCTTTTAA CCCTTATGAA CTAAAGTGCC ATAGTTTGAC CAGAATATCC 
    AAATTCAGGT GTGTTTGGAT TGAGAAGGAG AGCATCAACT CTGTCATTAT CAGTGACGCC 
    CCTGAAGACC TTCACCAGAG AATGCTGGTT GCAGCTTCCC TTTCCATCAA TGCGACTGGA 
    TCTACGATGC TGCTGAGAGA AACCTCTCTG ATGCCTCATA TCCCTGGCCT CCCGGCTCTC 
    CTCAGCATGT TATTCGCACC GGTGATAGAG TTAAGGATTG ATCAGAATGG CAAGTACTAT 
    ACTGGAGTCC TTTGTGGTTT GGGGTGGAAT CCAGCTACAG GGGCTTCCAT ACTGCCCGAG 
    CACGACATGG AGCTTGCGTT TGACGTTCAA TTCAGCGTGG AGGATGTCGT CGAGGTTAAT 
    ATTCTCAGGG CTGCTATTAA CAAGCTAGTC TGTGATGGAC CAAATGGATG CAAGTGTCTT 
    GGGCCAGAGA GAGTTGCGCA GCTTCAAGAC ATTGCCCGTC AGAAGCTTTT AGGTTTGTTC 
    TGTCAGTCAA AACCAAGGGA GAAGATTGTT CCCAAGTGGC ATGAAAAGCC CTACGAGTGG 
    AATCAGGTTG ATCCAAAGCT GGTCATGGAG CAGGCCGACC GTGAGAGCAG CAGAGGGAAG 
    AACACCTTTC TCTACCAGCT CCACAAACTG GTTGTGCTCG GCACCTGA

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

    RefSeq XP_006720083.1
    CDS168..4235
    Translation

    Target ORF information:

    RefSeq Version XM_006720020.3
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_006720020.3

    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
    ATGCTGCGGA AGCTCACCAT CGAGCAGATC AACGACTGGT TCACCATCGG CAAGACGGTG 
    ACCAATGTGG AGCTGCTGGG CGCGCCGCCC GCCTTCCCGG CAGGGGCGGC CAGGGAGGAG 
    GTGCAGCGCC AGGACGTGGC CCCCGGCGCT GGTCCCGCGG CCCAGGCTCC GGCTCTGGCC 
    CAAGCTCCGG CCCGGCCGGC CGCTGCGTTC GAAAGGTCAC TCAGCCAAAG GAGCTCAGAA 
    GTAGAGTATA TTAACAAATA CAGACAGCTC GAAGCACAAG AGCTTGATGT GTGTCGCAGT 
    GTCCAACCAA CCAGTGGGCC AGGTCCAAGG CCATCTTTGG CTAAATTAAG CAGTGTGACA 
    TGCATCCCAG GGACAACTTA TAAATATCCT GATTTGCCTA TAAGTCGATA CAAGGAAGAG 
    GTTGTGTCTT TGATAGAAAG TAATTCCGTG GTGATTATCC ATGGGGCCAC GGGAAGCGGT 
    AAAAGCACTC AGCTCCCGCA GTATATCTTG GACCACTACG TTCAGCGCTC CGCCTACTGC 
    AGCATTGTGG TCACCCAGCC CCGGAAGATA GGGGCAAGCA GCATCGCCAG GTGGATCAGT 
    AAAGAGCGTG CCTGGACCCT GGGAGGTGTG GTGGGCTACC AGGTAGGGCT AGAGAAAATA 
    GCAACAGAGG ACACCAGGCT AATTTATATG ACAACTGGAG TCCTGCTTCA GAAAATAGTT 
    AGTGCCAAGA GTTTGATGGA ATTCACACAT ATCATCATTG ATGAAGTGGT CCTGATGTCG 
    GCTACCATCA GCTGTAAAGA GTTTGCAGAC TACTTTGCTG TTCCTGTTCA AAACAAGATG 
    AATCCTGCAT ATATTTTTGA AGTGGAAGGC AAGCCCCATT CAGTTGAAGA GTATTATCTT 
    AATGATTTGG AGCACATTCA TCATAGCAAG CTCTCTCCTC ATCTCCTGGA GGAACCGGTG 
    ATAACTAAGG ATATATATGA AGTTGCTGTC TCTCTCATTC AGATGTTTGA TGACTTGGAT 
    ATGAAGGAGA GTGGGAACAA GGCTTGGTCG GGGGCCCAGT TTGTGTTGGA GCGAAGCAGT 
    GTGTTGGTGT TTTTGCCAGG TCTGGGTGAA ATAAATTATA TGCATGAACT TCTCACAAGC 
    CTGGTTCATA AAAGGTTGCA GGTCTATCCA CTCCATTCAA GTGTGGCTTT AGAAGAACAG 
    AATAATGTCT TTTTAAGTCC AGTCCCTGGG TACAGAAAGA TTATTCTGTC CACCAATATT 
    GCAGAGAGTT CTGTCACAGT TCCAGATGTC AAATATGTTA TAGATTTTTG TTTGACTAGA 
    ACTTTGGTCT GTGATGAAGA TACAAATTAT CAGAGTCTGC GATTGAGTTG GGCTTCTAAA 
    ACCAGCTGTA ATCAGAGAAA AGGCCGTGCT GGACGAGTGT CTAGAGGGTA CTGTTACCGG 
    CTGGTACACA AGGATTTCTG GGACAACTCC ATCCCTGATC ATGTTGTTCC TGAGATGTTG 
    CGTTGTCCAT TAGGAAGCAC GATCTTGAAA GTGAAATTAC TTGACATGGG TGAGCCGAGA 
    GCTCTGCTGG CCACTGCCCT TTCCCCGCCT GGTCTGAGTG ACATTGAGCG CACCATCCTT 
    CTACTAAAGG AGGTTGGAGC ACTTGCAGTG AGTGGGCAGA GAGAAGATGA AAACCCCCAT 
    GATGGTGAAT TGACCTTCTT AGGAAGAGTT TTAGCCCAAC TTCCTGTAAA TCAGCAACTT 
    GGTAAACTCA TAGTCCTTGG ACATGTATTT GGATGTCTAG ATGAATGTCT TATTATAGCG 
    GCAGCTCTTT CTTTGAAGAA TTTTTTTGCA ATGCCTTTCC GGCAGCATCT CGATGGATAT 
    AGGAACAAAG TGAATTTCTC TGGCAGTAGC AAGAGTGACT GTATTGCACT TGTTGAGGCA 
    TTTAAAACAT GGAAGGCTTG CAGACAGACA GGGGAGCTGC GGTACCCGAA GGATGAACTT 
    AATTGGGGAC GGTTAAATTA CATTCAAATC AAGAGAATTA GAGAGGTGGC TGAATTATAT 
    GAAGAATTGA AGACTAGAAT CTCACAGTTC AACATGCATG TTGATTCTCG GCGACCTGTC 
    ATGGACCAAG AGTATATATA TAAGCAGCGA TTCATCCTAC AGGTTGTATT GGCAGGTGCT 
    TTCTATCCAA ATTACTTTAC TTTTGGACAG CCGGATGAGG AGATGGCGGT GAGGGAGCTG 
    GCTGGCAAGG ACCCCAAGAC AACTGTCGTG TTGAAACACA TTCCTCCCTA TGGATTTCTT 
    TACTATAAAC AACTACAGTC TCTCTTTAGA CAGTGTGGTC AAGTCAAATC CATTGTATTT 
    GATGGTGCAA AAGCCTTTGT GGAATTCTCA CGAAATCCAA CAGAGAGATT TAAAACCCTT 
    CCTGCAGTAT ATATGGCAAT TAAGATGTCT CAACTAAAAG TTTCACTTGA ACTCAGCGTT 
    CATTCTGCAG AGGAAATTGA AGGGAAGGTG CAAGGCATGA ACGTCTCAAA GCTCAGGAAC 
    ACAAGGGTGA ATGTGGACTT CCAGAAGCAG ACGGTAGATC CTATGCAAGT CTCCTTTAAC 
    ACATCAGACA GGTCCCAGAC AGTTACAGAT CTCCTTCTAA CTATTGATGT CACAGAGGTG 
    GTTGAAGTGG GACACTTTTG GGGATACAGG ATTGATGAAA ACAACTCAGA GATTCTGAAA 
    AAGCTTACTG CTGAAATCAA CCAACTGACG CTGGTGCCCT TGCCCACTCA CCCACATCCA 
    GACTTGGTCT GTCTGGCACC TTTTGCTGAT TTTGATAAAC AACGCTACTT TAGAGCTCAA 
    GTCCTTTATG TTTCTGGAAA TTCTGCTGAG GTATTCTTTG TAGATTATGG CAATAAGTCT 
    CATGTAGATC TACATCTTTT GATGGAGATT CCCTGTCAAT TTCTTGAACT TCCTTTCCAG 
    GCTTTGGAAT TTAAGATTTG CAAAATGAGA CCATCAGCAA AGTCTCTTGT TTGTGGCAAG 
    CACTGGAGTG ACGGGGCCAG CCAGTGGTTC GCCTCTCTGG TGAGCGGCTG CACCCTCCTT 
    GTGAAGGTCT TCTCTGTGGT GCACAGCGTC CTGCACGTGG ATGTGTACCA GTACTCAGGG 
    GTCCAGGATG CCATCAACAT AAGAGACGTC CTCATCCAGC AGGGCTATGC CGAGCTCACG 
    GAGGAGTCCT ACGAGTCCAA GCAAAGCCAT GAAGTTCTCA AGGGCCTCTT TTCCAAGTCA 
    GTAGAAAACA TGACAGATGG CTCTGTGCCC TTTCCCATGA AAGACGACGA GAAATATCTC 
    ATCCGGATTT TGTTAGAGAG CTTTTCTACC AATAAACTGG GTACTCCAAA CTGTAAGGCA 
    GAACTTCACG GGCCTTTTAA CCCTTATGAA CTAAAGTGCC ATAGTTTGAC CAGAATATCC 
    AAATTCAGGT GTGTTTGGAT TGAGAAGGAG AGCATCAACT CTGTCATTAT CAGTGACGCC 
    CCTGAAGACC TTCACCAGAG AATGCTGGTT GCAGCTTCCC TTTCCATCAA TGCGACTGGA 
    TCTACGATGC TGCTGAGAGA AACCTCTCTG ATGCCTCATA TCCCTGGCCT CCCGGCTCTC 
    CTCAGCATGT TATTCGCACC GGTGATAGAG TTAAGGATTG ATCAGAATGG CAAGTACTAT 
    ACTGGAGTCC TTTGTGGTTT GGGGTGGAAT CCAGCTACAG GGGCTTCCAT ACTGCCCGAG 
    CACGACATGG AGCTTGCGTT TGACGTTCAA TTCAGCGTGG AGGATGTCGT CGAGGTTAAT 
    ATTCTCAGGG CTGCTATTAA CAAGCTAGTC TGTGATGGAC CAAATGGATG CAAGTGTCTT 
    GGGCCAGAGA GAGTTGCGCA GCTTCAAGAC ATTGCCCGTC AGAAGCTTTT AGGTTTGTTC 
    TGTCAGTCAA AACCAAGGGA GAAGATTGTT CCCAAGTGGC ATGAAAAGCC CTACGAGTGG 
    AATCAGGTTG ATCCAAAGCT GGTCATGGAG CAGGCCGACC GTGAGAGCAG CAGAGGGAAG 
    AACACCTTTC TCTACCAGCT CCACAAACTG GTTGTGCTCG GCACCTGA

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

    TDRD9 ( XM_005267309.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_005267366.1 Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OHu47508
    Clone ID Related Accession (Same CDS sequence) XM_005267309.3 , XM_005267309.4
    Accession Version XM_005267309.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3993bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    Product putative ATP-dependent RNA helicase TDRD9 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000014.9) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_005267309.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
    ATGCTGCGGA AGCTCACCAT CGAGCAGATC AACGACTGGT TCACCATCGG CAAGACGGTG 
    ACCAATGTGG AGCTGCTGGG CGCGCCGCCC GCCTTCCCGG CAGGGGCGGC CAGGGAGGAG 
    GTGCAGCGCC AGGACGTGGC CCCCGGCGCT GGTCCCGCGG CCCAGGCTCC GGCTCTGGCC 
    CAAGCTCCGG CCCGGCCGGC CGCTGCGTTC GAAAGGTCAC TCAGCCAAAG GAGCTCAGAA 
    GTAGAGTATA TTAACAAATA CAGACAGCTC GAAGCACAAG AGCTTGATGT GTGTCGCAGT 
    GTCCAACCAA CCAGTGGGCC AGGTCCAAGG CCATCTTTGG CTAAATTAAG CAGTGTGACA 
    TGCATCCCAG GGACAACTTA TAAATATCCT GATTTGCCTA TAAGTCGATA CAAGGAAGAG 
    GTTGTGTCTT TGATAGAAAG TAATTCCGTG GTGATTATCC ATGGGGCCAC GGGAAGCGGT 
    AAAAGCACTC AGCTCCCGCA GTATATCTTG GACCACTACG TTCAGCGCTC CGCCTACTGC 
    AGCATTGTGG TCACCCAGCC CCGGAAGATA GGGGCAAGCA GCATCGCCAG GTGGATCAGT 
    AAAGAGCGTG CCTGGACCCT GGGAGGTGTG GTGGGCTACC AGGTAGGGCT AGAGAAAATA 
    GCAACAGAGG ACACCAGGCT AATTTATATG ACAACTGGAG TCCTGCTTCA GAAAATAGTT 
    AGTGCCAAGA GTTTGATGGA ATTCACACAT ATCATCATTG ATGAAGTACA CGAACGAACA 
    GAAGAAATGG ATTTCCTGCT ATTGGTAGTC CGCAAACTCT TAAGAACAAA TTCACGTTTT 
    GTGAAGGTGG TCCTGATGTC GGCTACCATC AGCTGTAAAG AGTTTGCAGA CTACTTTGCT 
    GTTCCTGTTC AAAACAAGAT GAATCCTGCA TATATTTTTG AAGTGGAAGG CAAGCCCCAT 
    TCAGTTGAAG AGTATTATCT TAATGATTTG GAGCACATTC ATCATAGCAA GCTCTCTCCT 
    CATCTCCTGG AGGAACCGGT GATAACTAAG GATATATATG AAGTTGCTGT CTCTCTCATT 
    CAGATGTTTG ATGACTTGGA TATGAAGGAG AGTGGGAACA AGGCTTGGTC GGGGGCCCAG 
    TTTGTGTTGG AGCGAAGCAG TGTGTTGGTG TTTTTGCCAG GTCTGGGTGA AATAAATTAT 
    ATGCATGAAC TTCTCACAAG CCTGGTTCAT AAAAGGTTGC AGGTCTATCC ACTCCATTCA 
    AGTGTGGCTT TAGAAGAACA GAATAATGTC TTTTTAAGTC CAGTCCCTGG GTACAGAAAG 
    ATTATTCTGT CCACCAATAT TGCAGAGAGT TCTGTCACAG TTCCAGATGT CAAATATGTT 
    ATAGATTTTT GTTTGACTAG AACTTTGGTC TGTGATGAAG ATACAAATTA TCAGAGTCTG 
    CGATTGAGTT GGGCTTCTAA AACCAGCTGT AATCAGAGAA AAGGCCGTGC TGGACGAGTG 
    TCTAGAGGGT ACTGTTACCG GCTGGTACAC AAGGATTTCT GGGACAACTC CATCCCTGAT 
    CATGTTGTTC CTGAGATGTT GCGTTGTCCA TTAGGAAGCA CGATCTTGAA AGTGAAATTA 
    CTTGACATGG GTGAGCCGAG AGCTCTGCTG GCCACTGCCC TTTCCCCGCC TGGTCTGAGT 
    GACATTGAGC GCACCATCCT TCTACTAAAG GAGGTTGGAG CACTTGCAGT GAGTGGGCAG 
    AGAGAAGATG AAAACCCCCA TGATGGTGAA TTGACCTTCT TAGGAAGAGT TTTAGCCCAA 
    CTTCCTGTAA ATCAGCAACT TGGTAAACTC ATAGTCCTTG GACATGTATT TGGATGTCTA 
    GATGAATGTC TTATTATAGC GGCAGCTCTT TCTTTGAAGA ATTTTTTTGC AATGCCTTTC 
    CGGCAGCATC TCGATGGATA TAGGAACAAA GTGAATTTCT CTGGCAGTAG CAAGAGTGAC 
    TGTATTGCAC TTGTTGAGGC ATTTAAAACA TGGAAGGCTT GCAGACAGAC AGGGGAGCTG 
    CGGTACCCGA AGGATGAACT TAATTGGGGA CGGTTAAATT ACATTCAAAT CAAGAGAATT 
    AGAGAGGTGG CTGAATTATA TGAAGAATTG AAGACTAGAA TCTCACAGTT CAACATGCAT 
    GTTGATTCTC GGCGACCTGT CATGGACCAA GAGTATATAT ATAAGCAGCG ATTCATCCTA 
    CAGGTTGTAT TGGCAGGTGC TTTCTATCCA AATTACTTTA CTTTTGGACA GCCGGATGAG 
    GAGATGGCGG TGAGGGAGCT GGCTGGCAAG GACCCCAAGA CAACTGTCGT GTTGAAACAC 
    ATTCCTCCCT ATGGATTTCT TTACTATAAA CAACTACAGT CTCTCTTTAG ACAGTGTGGT 
    CAAGTCAAAT CCATTGTATT TGATGGTGCA AAAGCCTTTG TGGAATTCTC ACGAAATCCA 
    ACAGAGAGAT TTAAAACCCT TCCTGCAGTA TATATGGCAA TTAAGATGTC TCAACTAAAA 
    GTTTCACTTG AACTCAGCGT TCATTCTGCA GAGGAAATTG AAGGGAAGGT GCAAGGCATG 
    AACGTCTCAA AGCTCAGGAA CACAAGGGTG AATGTGGACT TCCAGAAGCA GACGGTAGAT 
    CCTATGCAAG TCTCCTTTAA CACATCAGAC AGGTCCCAGA CAGTTACAGA TCTCCTTCTA 
    ACTATTGATG TCACAGAGGT GGTTGAAGTG GGACACTTTT GGGGATACAG GATTGATGAA 
    AACAACTCAG AGATTCTGAA AAAGCTTACT GCTGAAATCA ACCAACTGAC GCTGGTGCCC 
    TTGCCCACTC ACCCACATCC AGACTTGGTC TGTCTGGCAC CTTTTGCTGA TTTTGATAAA 
    CAACGCTACT TTAGAGCTCA AGTCCTTTAT GTTTCTGGAA ATTCTGCTGA GGTATTCTTT 
    GTAGATTATG GCAATAAGTC TCATGTAGAT CTACATCTTT TGATGGAGAT TCCCTGTCAA 
    TTTCTTGAAC TTCCTTTCCA GGCTTTGGAA TTTAAGATTT GCAAAATGAG ACCATCAGCA 
    AAGTCTCTTG TTTGTGGCAA GCACTGGAGT GACGGGGCCA GCCAGTGGTT CGCCTCTCTG 
    GTGAGCGGCT GCACCCTCCT TGTGAAGGTC TTCTCTGTGG TGCACAGCGT CCTGCACGTG 
    GATGTGTACC AGTACTCAGG GGTCCAGGAT GCCATCAACA TAAGAGACGT CCTCATCCAG 
    CAGGGCTATG CCGAGCTCAC GGAGGAGTCC TACGAGTCCA AGGCAGAACT TCACGGGCCT 
    TTTAACCCTT ATGAACTAAA GTGCCATAGT TTGACCAGAA TATCCAAATT CAGGTGTGTT 
    TGGATTGAGA AGGAGAGCAT CAACTCTGTC ATTATCAGTG ACGCCCCTGA AGACCTTCAC 
    CAGAGAATGC TGGTTGCAGC TTCCCTTTCC ATCAATGCGA CTGGATCTAC GATGCTGCTG 
    AGAGAAACCT CTCTGATGCC TCATATCCCT GGCCTCCCGG CTCTCCTCAG CATGTTATTC 
    GCACCGGTGA TAGAGTTAAG GATTGATCAG AATGGCAAGT ACTATACTGG AGTCCTTTGT 
    GGTTTGGGGT GGAATCCAGC TACAGGGGCT TCCATACTGC CCGAGCACGA CATGGAGCTT 
    GCGTTTGACG TTCAATTCAG CGTGGAGGAT GTCGTCGAGG TTAATATTCT CAGGGCTGCT 
    ATTAACAAGC TAGTCTGTGA TGGACCAAAT GGATGCAAGT GTCTTGGGCC AGAGAGAGTT 
    GCGCAGCTTC AAGACATTGC CCGTCAGAAG CTTTTAGGTT TGTTCTGTCA GTCAAAACCA 
    AGGGAGAAGA TTGTTCCCAA GTGGCATGAA AAGCCCTACG AGTGGAATCA GGTTGATCCA 
    AAGCTGGTCA TGGAGCAGGC CGACCGTGAG AGCAGCAGAG GGAAGAACAC CTTTCTCTAC 
    CAGCTCCACA AACTGGTTGT GCTCGGCACC TGA

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

    RefSeq XP_005267366.1
    CDS168..4160
    Translation

    Target ORF information:

    RefSeq Version XM_005267309.3
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005267309.3

    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
    ATGCTGCGGA AGCTCACCAT CGAGCAGATC AACGACTGGT TCACCATCGG CAAGACGGTG 
    ACCAATGTGG AGCTGCTGGG CGCGCCGCCC GCCTTCCCGG CAGGGGCGGC CAGGGAGGAG 
    GTGCAGCGCC AGGACGTGGC CCCCGGCGCT GGTCCCGCGG CCCAGGCTCC GGCTCTGGCC 
    CAAGCTCCGG CCCGGCCGGC CGCTGCGTTC GAAAGGTCAC TCAGCCAAAG GAGCTCAGAA 
    GTAGAGTATA TTAACAAATA CAGACAGCTC GAAGCACAAG AGCTTGATGT GTGTCGCAGT 
    GTCCAACCAA CCAGTGGGCC AGGTCCAAGG CCATCTTTGG CTAAATTAAG CAGTGTGACA 
    TGCATCCCAG GGACAACTTA TAAATATCCT GATTTGCCTA TAAGTCGATA CAAGGAAGAG 
    GTTGTGTCTT TGATAGAAAG TAATTCCGTG GTGATTATCC ATGGGGCCAC GGGAAGCGGT 
    AAAAGCACTC AGCTCCCGCA GTATATCTTG GACCACTACG TTCAGCGCTC CGCCTACTGC 
    AGCATTGTGG TCACCCAGCC CCGGAAGATA GGGGCAAGCA GCATCGCCAG GTGGATCAGT 
    AAAGAGCGTG CCTGGACCCT GGGAGGTGTG GTGGGCTACC AGGTAGGGCT AGAGAAAATA 
    GCAACAGAGG ACACCAGGCT AATTTATATG ACAACTGGAG TCCTGCTTCA GAAAATAGTT 
    AGTGCCAAGA GTTTGATGGA ATTCACACAT ATCATCATTG ATGAAGTACA CGAACGAACA 
    GAAGAAATGG ATTTCCTGCT ATTGGTAGTC CGCAAACTCT TAAGAACAAA TTCACGTTTT 
    GTGAAGGTGG TCCTGATGTC GGCTACCATC AGCTGTAAAG AGTTTGCAGA CTACTTTGCT 
    GTTCCTGTTC AAAACAAGAT GAATCCTGCA TATATTTTTG AAGTGGAAGG CAAGCCCCAT 
    TCAGTTGAAG AGTATTATCT TAATGATTTG GAGCACATTC ATCATAGCAA GCTCTCTCCT 
    CATCTCCTGG AGGAACCGGT GATAACTAAG GATATATATG AAGTTGCTGT CTCTCTCATT 
    CAGATGTTTG ATGACTTGGA TATGAAGGAG AGTGGGAACA AGGCTTGGTC GGGGGCCCAG 
    TTTGTGTTGG AGCGAAGCAG TGTGTTGGTG TTTTTGCCAG GTCTGGGTGA AATAAATTAT 
    ATGCATGAAC TTCTCACAAG CCTGGTTCAT AAAAGGTTGC AGGTCTATCC ACTCCATTCA 
    AGTGTGGCTT TAGAAGAACA GAATAATGTC TTTTTAAGTC CAGTCCCTGG GTACAGAAAG 
    ATTATTCTGT CCACCAATAT TGCAGAGAGT TCTGTCACAG TTCCAGATGT CAAATATGTT 
    ATAGATTTTT GTTTGACTAG AACTTTGGTC TGTGATGAAG ATACAAATTA TCAGAGTCTG 
    CGATTGAGTT GGGCTTCTAA AACCAGCTGT AATCAGAGAA AAGGCCGTGC TGGACGAGTG 
    TCTAGAGGGT ACTGTTACCG GCTGGTACAC AAGGATTTCT GGGACAACTC CATCCCTGAT 
    CATGTTGTTC CTGAGATGTT GCGTTGTCCA TTAGGAAGCA CGATCTTGAA AGTGAAATTA 
    CTTGACATGG GTGAGCCGAG AGCTCTGCTG GCCACTGCCC TTTCCCCGCC TGGTCTGAGT 
    GACATTGAGC GCACCATCCT TCTACTAAAG GAGGTTGGAG CACTTGCAGT GAGTGGGCAG 
    AGAGAAGATG AAAACCCCCA TGATGGTGAA TTGACCTTCT TAGGAAGAGT TTTAGCCCAA 
    CTTCCTGTAA ATCAGCAACT TGGTAAACTC ATAGTCCTTG GACATGTATT TGGATGTCTA 
    GATGAATGTC TTATTATAGC GGCAGCTCTT TCTTTGAAGA ATTTTTTTGC AATGCCTTTC 
    CGGCAGCATC TCGATGGATA TAGGAACAAA GTGAATTTCT CTGGCAGTAG CAAGAGTGAC 
    TGTATTGCAC TTGTTGAGGC ATTTAAAACA TGGAAGGCTT GCAGACAGAC AGGGGAGCTG 
    CGGTACCCGA AGGATGAACT TAATTGGGGA CGGTTAAATT ACATTCAAAT CAAGAGAATT 
    AGAGAGGTGG CTGAATTATA TGAAGAATTG AAGACTAGAA TCTCACAGTT CAACATGCAT 
    GTTGATTCTC GGCGACCTGT CATGGACCAA GAGTATATAT ATAAGCAGCG ATTCATCCTA 
    CAGGTTGTAT TGGCAGGTGC TTTCTATCCA AATTACTTTA CTTTTGGACA GCCGGATGAG 
    GAGATGGCGG TGAGGGAGCT GGCTGGCAAG GACCCCAAGA CAACTGTCGT GTTGAAACAC 
    ATTCCTCCCT ATGGATTTCT TTACTATAAA CAACTACAGT CTCTCTTTAG ACAGTGTGGT 
    CAAGTCAAAT CCATTGTATT TGATGGTGCA AAAGCCTTTG TGGAATTCTC ACGAAATCCA 
    ACAGAGAGAT TTAAAACCCT TCCTGCAGTA TATATGGCAA TTAAGATGTC TCAACTAAAA 
    GTTTCACTTG AACTCAGCGT TCATTCTGCA GAGGAAATTG AAGGGAAGGT GCAAGGCATG 
    AACGTCTCAA AGCTCAGGAA CACAAGGGTG AATGTGGACT TCCAGAAGCA GACGGTAGAT 
    CCTATGCAAG TCTCCTTTAA CACATCAGAC AGGTCCCAGA CAGTTACAGA TCTCCTTCTA 
    ACTATTGATG TCACAGAGGT GGTTGAAGTG GGACACTTTT GGGGATACAG GATTGATGAA 
    AACAACTCAG AGATTCTGAA AAAGCTTACT GCTGAAATCA ACCAACTGAC GCTGGTGCCC 
    TTGCCCACTC ACCCACATCC AGACTTGGTC TGTCTGGCAC CTTTTGCTGA TTTTGATAAA 
    CAACGCTACT TTAGAGCTCA AGTCCTTTAT GTTTCTGGAA ATTCTGCTGA GGTATTCTTT 
    GTAGATTATG GCAATAAGTC TCATGTAGAT CTACATCTTT TGATGGAGAT TCCCTGTCAA 
    TTTCTTGAAC TTCCTTTCCA GGCTTTGGAA TTTAAGATTT GCAAAATGAG ACCATCAGCA 
    AAGTCTCTTG TTTGTGGCAA GCACTGGAGT GACGGGGCCA GCCAGTGGTT CGCCTCTCTG 
    GTGAGCGGCT GCACCCTCCT TGTGAAGGTC TTCTCTGTGG TGCACAGCGT CCTGCACGTG 
    GATGTGTACC AGTACTCAGG GGTCCAGGAT GCCATCAACA TAAGAGACGT CCTCATCCAG 
    CAGGGCTATG CCGAGCTCAC GGAGGAGTCC TACGAGTCCA AGGCAGAACT TCACGGGCCT 
    TTTAACCCTT ATGAACTAAA GTGCCATAGT TTGACCAGAA TATCCAAATT CAGGTGTGTT 
    TGGATTGAGA AGGAGAGCAT CAACTCTGTC ATTATCAGTG ACGCCCCTGA AGACCTTCAC 
    CAGAGAATGC TGGTTGCAGC TTCCCTTTCC ATCAATGCGA CTGGATCTAC GATGCTGCTG 
    AGAGAAACCT CTCTGATGCC TCATATCCCT GGCCTCCCGG CTCTCCTCAG CATGTTATTC 
    GCACCGGTGA TAGAGTTAAG GATTGATCAG AATGGCAAGT ACTATACTGG AGTCCTTTGT 
    GGTTTGGGGT GGAATCCAGC TACAGGGGCT TCCATACTGC CCGAGCACGA CATGGAGCTT 
    GCGTTTGACG TTCAATTCAG CGTGGAGGAT GTCGTCGAGG TTAATATTCT CAGGGCTGCT 
    ATTAACAAGC TAGTCTGTGA TGGACCAAAT GGATGCAAGT GTCTTGGGCC AGAGAGAGTT 
    GCGCAGCTTC AAGACATTGC CCGTCAGAAG CTTTTAGGTT TGTTCTGTCA GTCAAAACCA 
    AGGGAGAAGA TTGTTCCCAA GTGGCATGAA AAGCCCTACG AGTGGAATCA GGTTGATCCA 
    AAGCTGGTCA TGGAGCAGGC CGACCGTGAG AGCAGCAGAG GGAAGAACAC CTTTCTCTAC 
    CAGCTCCACA AACTGGTTGT GCTCGGCACC TGA

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

    TDRD9 ( XM_005267309.4 ) cDNA ORF clone, Homo sapiens(human) -> XP_005267366.1 Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OHu47508
    Clone ID Related Accession (Same CDS sequence) XM_005267309.3 , XM_005267309.4
    Accession Version XM_005267309.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3993bp)
    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 ATP-dependent RNA helicase TDRD9 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000014.9) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_005267309.3. ##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
    ATGCTGCGGA AGCTCACCAT CGAGCAGATC AACGACTGGT TCACCATCGG CAAGACGGTG 
    ACCAATGTGG AGCTGCTGGG CGCGCCGCCC GCCTTCCCGG CAGGGGCGGC CAGGGAGGAG 
    GTGCAGCGCC AGGACGTGGC CCCCGGCGCT GGTCCCGCGG CCCAGGCTCC GGCTCTGGCC 
    CAAGCTCCGG CCCGGCCGGC CGCTGCGTTC GAAAGGTCAC TCAGCCAAAG GAGCTCAGAA 
    GTAGAGTATA TTAACAAATA CAGACAGCTC GAAGCACAAG AGCTTGATGT GTGTCGCAGT 
    GTCCAACCAA CCAGTGGGCC AGGTCCAAGG CCATCTTTGG CTAAATTAAG CAGTGTGACA 
    TGCATCCCAG GGACAACTTA TAAATATCCT GATTTGCCTA TAAGTCGATA CAAGGAAGAG 
    GTTGTGTCTT TGATAGAAAG TAATTCCGTG GTGATTATCC ATGGGGCCAC GGGAAGCGGT 
    AAAAGCACTC AGCTCCCGCA GTATATCTTG GACCACTACG TTCAGCGCTC CGCCTACTGC 
    AGCATTGTGG TCACCCAGCC CCGGAAGATA GGGGCAAGCA GCATCGCCAG GTGGATCAGT 
    AAAGAGCGTG CCTGGACCCT GGGAGGTGTG GTGGGCTACC AGGTAGGGCT AGAGAAAATA 
    GCAACAGAGG ACACCAGGCT AATTTATATG ACAACTGGAG TCCTGCTTCA GAAAATAGTT 
    AGTGCCAAGA GTTTGATGGA ATTCACACAT ATCATCATTG ATGAAGTACA CGAACGAACA 
    GAAGAAATGG ATTTCCTGCT ATTGGTAGTC CGCAAACTCT TAAGAACAAA TTCACGTTTT 
    GTGAAGGTGG TCCTGATGTC GGCTACCATC AGCTGTAAAG AGTTTGCAGA CTACTTTGCT 
    GTTCCTGTTC AAAACAAGAT GAATCCTGCA TATATTTTTG AAGTGGAAGG CAAGCCCCAT 
    TCAGTTGAAG AGTATTATCT TAATGATTTG GAGCACATTC ATCATAGCAA GCTCTCTCCT 
    CATCTCCTGG AGGAACCGGT GATAACTAAG GATATATATG AAGTTGCTGT CTCTCTCATT 
    CAGATGTTTG ATGACTTGGA TATGAAGGAG AGTGGGAACA AGGCTTGGTC GGGGGCCCAG 
    TTTGTGTTGG AGCGAAGCAG TGTGTTGGTG TTTTTGCCAG GTCTGGGTGA AATAAATTAT 
    ATGCATGAAC TTCTCACAAG CCTGGTTCAT AAAAGGTTGC AGGTCTATCC ACTCCATTCA 
    AGTGTGGCTT TAGAAGAACA GAATAATGTC TTTTTAAGTC CAGTCCCTGG GTACAGAAAG 
    ATTATTCTGT CCACCAATAT TGCAGAGAGT TCTGTCACAG TTCCAGATGT CAAATATGTT 
    ATAGATTTTT GTTTGACTAG AACTTTGGTC TGTGATGAAG ATACAAATTA TCAGAGTCTG 
    CGATTGAGTT GGGCTTCTAA AACCAGCTGT AATCAGAGAA AAGGCCGTGC TGGACGAGTG 
    TCTAGAGGGT ACTGTTACCG GCTGGTACAC AAGGATTTCT GGGACAACTC CATCCCTGAT 
    CATGTTGTTC CTGAGATGTT GCGTTGTCCA TTAGGAAGCA CGATCTTGAA AGTGAAATTA 
    CTTGACATGG GTGAGCCGAG AGCTCTGCTG GCCACTGCCC TTTCCCCGCC TGGTCTGAGT 
    GACATTGAGC GCACCATCCT TCTACTAAAG GAGGTTGGAG CACTTGCAGT GAGTGGGCAG 
    AGAGAAGATG AAAACCCCCA TGATGGTGAA TTGACCTTCT TAGGAAGAGT TTTAGCCCAA 
    CTTCCTGTAA ATCAGCAACT TGGTAAACTC ATAGTCCTTG GACATGTATT TGGATGTCTA 
    GATGAATGTC TTATTATAGC GGCAGCTCTT TCTTTGAAGA ATTTTTTTGC AATGCCTTTC 
    CGGCAGCATC TCGATGGATA TAGGAACAAA GTGAATTTCT CTGGCAGTAG CAAGAGTGAC 
    TGTATTGCAC TTGTTGAGGC ATTTAAAACA TGGAAGGCTT GCAGACAGAC AGGGGAGCTG 
    CGGTACCCGA AGGATGAACT TAATTGGGGA CGGTTAAATT ACATTCAAAT CAAGAGAATT 
    AGAGAGGTGG CTGAATTATA TGAAGAATTG AAGACTAGAA TCTCACAGTT CAACATGCAT 
    GTTGATTCTC GGCGACCTGT CATGGACCAA GAGTATATAT ATAAGCAGCG ATTCATCCTA 
    CAGGTTGTAT TGGCAGGTGC TTTCTATCCA AATTACTTTA CTTTTGGACA GCCGGATGAG 
    GAGATGGCGG TGAGGGAGCT GGCTGGCAAG GACCCCAAGA CAACTGTCGT GTTGAAACAC 
    ATTCCTCCCT ATGGATTTCT TTACTATAAA CAACTACAGT CTCTCTTTAG ACAGTGTGGT 
    CAAGTCAAAT CCATTGTATT TGATGGTGCA AAAGCCTTTG TGGAATTCTC ACGAAATCCA 
    ACAGAGAGAT TTAAAACCCT TCCTGCAGTA TATATGGCAA TTAAGATGTC TCAACTAAAA 
    GTTTCACTTG AACTCAGCGT TCATTCTGCA GAGGAAATTG AAGGGAAGGT GCAAGGCATG 
    AACGTCTCAA AGCTCAGGAA CACAAGGGTG AATGTGGACT TCCAGAAGCA GACGGTAGAT 
    CCTATGCAAG TCTCCTTTAA CACATCAGAC AGGTCCCAGA CAGTTACAGA TCTCCTTCTA 
    ACTATTGATG TCACAGAGGT GGTTGAAGTG GGACACTTTT GGGGATACAG GATTGATGAA 
    AACAACTCAG AGATTCTGAA AAAGCTTACT GCTGAAATCA ACCAACTGAC GCTGGTGCCC 
    TTGCCCACTC ACCCACATCC AGACTTGGTC TGTCTGGCAC CTTTTGCTGA TTTTGATAAA 
    CAACGCTACT TTAGAGCTCA AGTCCTTTAT GTTTCTGGAA ATTCTGCTGA GGTATTCTTT 
    GTAGATTATG GCAATAAGTC TCATGTAGAT CTACATCTTT TGATGGAGAT TCCCTGTCAA 
    TTTCTTGAAC TTCCTTTCCA GGCTTTGGAA TTTAAGATTT GCAAAATGAG ACCATCAGCA 
    AAGTCTCTTG TTTGTGGCAA GCACTGGAGT GACGGGGCCA GCCAGTGGTT CGCCTCTCTG 
    GTGAGCGGCT GCACCCTCCT TGTGAAGGTC TTCTCTGTGG TGCACAGCGT CCTGCACGTG 
    GATGTGTACC AGTACTCAGG GGTCCAGGAT GCCATCAACA TAAGAGACGT CCTCATCCAG 
    CAGGGCTATG CCGAGCTCAC GGAGGAGTCC TACGAGTCCA AGGCAGAACT TCACGGGCCT 
    TTTAACCCTT ATGAACTAAA GTGCCATAGT TTGACCAGAA TATCCAAATT CAGGTGTGTT 
    TGGATTGAGA AGGAGAGCAT CAACTCTGTC ATTATCAGTG ACGCCCCTGA AGACCTTCAC 
    CAGAGAATGC TGGTTGCAGC TTCCCTTTCC ATCAATGCGA CTGGATCTAC GATGCTGCTG 
    AGAGAAACCT CTCTGATGCC TCATATCCCT GGCCTCCCGG CTCTCCTCAG CATGTTATTC 
    GCACCGGTGA TAGAGTTAAG GATTGATCAG AATGGCAAGT ACTATACTGG AGTCCTTTGT 
    GGTTTGGGGT GGAATCCAGC TACAGGGGCT TCCATACTGC CCGAGCACGA CATGGAGCTT 
    GCGTTTGACG TTCAATTCAG CGTGGAGGAT GTCGTCGAGG TTAATATTCT CAGGGCTGCT 
    ATTAACAAGC TAGTCTGTGA TGGACCAAAT GGATGCAAGT GTCTTGGGCC AGAGAGAGTT 
    GCGCAGCTTC AAGACATTGC CCGTCAGAAG CTTTTAGGTT TGTTCTGTCA GTCAAAACCA 
    AGGGAGAAGA TTGTTCCCAA GTGGCATGAA AAGCCCTACG AGTGGAATCA GGTTGATCCA 
    AAGCTGGTCA TGGAGCAGGC CGACCGTGAG AGCAGCAGAG GGAAGAACAC CTTTCTCTAC 
    CAGCTCCACA AACTGGTTGT GCTCGGCACC TGA

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

    RefSeq XP_005267366.1
    CDS168..4160
    Translation

    Target ORF information:

    RefSeq Version XM_005267309.4
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005267309.4

    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
    ATGCTGCGGA AGCTCACCAT CGAGCAGATC AACGACTGGT TCACCATCGG CAAGACGGTG 
    ACCAATGTGG AGCTGCTGGG CGCGCCGCCC GCCTTCCCGG CAGGGGCGGC CAGGGAGGAG 
    GTGCAGCGCC AGGACGTGGC CCCCGGCGCT GGTCCCGCGG CCCAGGCTCC GGCTCTGGCC 
    CAAGCTCCGG CCCGGCCGGC CGCTGCGTTC GAAAGGTCAC TCAGCCAAAG GAGCTCAGAA 
    GTAGAGTATA TTAACAAATA CAGACAGCTC GAAGCACAAG AGCTTGATGT GTGTCGCAGT 
    GTCCAACCAA CCAGTGGGCC AGGTCCAAGG CCATCTTTGG CTAAATTAAG CAGTGTGACA 
    TGCATCCCAG GGACAACTTA TAAATATCCT GATTTGCCTA TAAGTCGATA CAAGGAAGAG 
    GTTGTGTCTT TGATAGAAAG TAATTCCGTG GTGATTATCC ATGGGGCCAC GGGAAGCGGT 
    AAAAGCACTC AGCTCCCGCA GTATATCTTG GACCACTACG TTCAGCGCTC CGCCTACTGC 
    AGCATTGTGG TCACCCAGCC CCGGAAGATA GGGGCAAGCA GCATCGCCAG GTGGATCAGT 
    AAAGAGCGTG CCTGGACCCT GGGAGGTGTG GTGGGCTACC AGGTAGGGCT AGAGAAAATA 
    GCAACAGAGG ACACCAGGCT AATTTATATG ACAACTGGAG TCCTGCTTCA GAAAATAGTT 
    AGTGCCAAGA GTTTGATGGA ATTCACACAT ATCATCATTG ATGAAGTACA CGAACGAACA 
    GAAGAAATGG ATTTCCTGCT ATTGGTAGTC CGCAAACTCT TAAGAACAAA TTCACGTTTT 
    GTGAAGGTGG TCCTGATGTC GGCTACCATC AGCTGTAAAG AGTTTGCAGA CTACTTTGCT 
    GTTCCTGTTC AAAACAAGAT GAATCCTGCA TATATTTTTG AAGTGGAAGG CAAGCCCCAT 
    TCAGTTGAAG AGTATTATCT TAATGATTTG GAGCACATTC ATCATAGCAA GCTCTCTCCT 
    CATCTCCTGG AGGAACCGGT GATAACTAAG GATATATATG AAGTTGCTGT CTCTCTCATT 
    CAGATGTTTG ATGACTTGGA TATGAAGGAG AGTGGGAACA AGGCTTGGTC GGGGGCCCAG 
    TTTGTGTTGG AGCGAAGCAG TGTGTTGGTG TTTTTGCCAG GTCTGGGTGA AATAAATTAT 
    ATGCATGAAC TTCTCACAAG CCTGGTTCAT AAAAGGTTGC AGGTCTATCC ACTCCATTCA 
    AGTGTGGCTT TAGAAGAACA GAATAATGTC TTTTTAAGTC CAGTCCCTGG GTACAGAAAG 
    ATTATTCTGT CCACCAATAT TGCAGAGAGT TCTGTCACAG TTCCAGATGT CAAATATGTT 
    ATAGATTTTT GTTTGACTAG AACTTTGGTC TGTGATGAAG ATACAAATTA TCAGAGTCTG 
    CGATTGAGTT GGGCTTCTAA AACCAGCTGT AATCAGAGAA AAGGCCGTGC TGGACGAGTG 
    TCTAGAGGGT ACTGTTACCG GCTGGTACAC AAGGATTTCT GGGACAACTC CATCCCTGAT 
    CATGTTGTTC CTGAGATGTT GCGTTGTCCA TTAGGAAGCA CGATCTTGAA AGTGAAATTA 
    CTTGACATGG GTGAGCCGAG AGCTCTGCTG GCCACTGCCC TTTCCCCGCC TGGTCTGAGT 
    GACATTGAGC GCACCATCCT TCTACTAAAG GAGGTTGGAG CACTTGCAGT GAGTGGGCAG 
    AGAGAAGATG AAAACCCCCA TGATGGTGAA TTGACCTTCT TAGGAAGAGT TTTAGCCCAA 
    CTTCCTGTAA ATCAGCAACT TGGTAAACTC ATAGTCCTTG GACATGTATT TGGATGTCTA 
    GATGAATGTC TTATTATAGC GGCAGCTCTT TCTTTGAAGA ATTTTTTTGC AATGCCTTTC 
    CGGCAGCATC TCGATGGATA TAGGAACAAA GTGAATTTCT CTGGCAGTAG CAAGAGTGAC 
    TGTATTGCAC TTGTTGAGGC ATTTAAAACA TGGAAGGCTT GCAGACAGAC AGGGGAGCTG 
    CGGTACCCGA AGGATGAACT TAATTGGGGA CGGTTAAATT ACATTCAAAT CAAGAGAATT 
    AGAGAGGTGG CTGAATTATA TGAAGAATTG AAGACTAGAA TCTCACAGTT CAACATGCAT 
    GTTGATTCTC GGCGACCTGT CATGGACCAA GAGTATATAT ATAAGCAGCG ATTCATCCTA 
    CAGGTTGTAT TGGCAGGTGC TTTCTATCCA AATTACTTTA CTTTTGGACA GCCGGATGAG 
    GAGATGGCGG TGAGGGAGCT GGCTGGCAAG GACCCCAAGA CAACTGTCGT GTTGAAACAC 
    ATTCCTCCCT ATGGATTTCT TTACTATAAA CAACTACAGT CTCTCTTTAG ACAGTGTGGT 
    CAAGTCAAAT CCATTGTATT TGATGGTGCA AAAGCCTTTG TGGAATTCTC ACGAAATCCA 
    ACAGAGAGAT TTAAAACCCT TCCTGCAGTA TATATGGCAA TTAAGATGTC TCAACTAAAA 
    GTTTCACTTG AACTCAGCGT TCATTCTGCA GAGGAAATTG AAGGGAAGGT GCAAGGCATG 
    AACGTCTCAA AGCTCAGGAA CACAAGGGTG AATGTGGACT TCCAGAAGCA GACGGTAGAT 
    CCTATGCAAG TCTCCTTTAA CACATCAGAC AGGTCCCAGA CAGTTACAGA TCTCCTTCTA 
    ACTATTGATG TCACAGAGGT GGTTGAAGTG GGACACTTTT GGGGATACAG GATTGATGAA 
    AACAACTCAG AGATTCTGAA AAAGCTTACT GCTGAAATCA ACCAACTGAC GCTGGTGCCC 
    TTGCCCACTC ACCCACATCC AGACTTGGTC TGTCTGGCAC CTTTTGCTGA TTTTGATAAA 
    CAACGCTACT TTAGAGCTCA AGTCCTTTAT GTTTCTGGAA ATTCTGCTGA GGTATTCTTT 
    GTAGATTATG GCAATAAGTC TCATGTAGAT CTACATCTTT TGATGGAGAT TCCCTGTCAA 
    TTTCTTGAAC TTCCTTTCCA GGCTTTGGAA TTTAAGATTT GCAAAATGAG ACCATCAGCA 
    AAGTCTCTTG TTTGTGGCAA GCACTGGAGT GACGGGGCCA GCCAGTGGTT CGCCTCTCTG 
    GTGAGCGGCT GCACCCTCCT TGTGAAGGTC TTCTCTGTGG TGCACAGCGT CCTGCACGTG 
    GATGTGTACC AGTACTCAGG GGTCCAGGAT GCCATCAACA TAAGAGACGT CCTCATCCAG 
    CAGGGCTATG CCGAGCTCAC GGAGGAGTCC TACGAGTCCA AGGCAGAACT TCACGGGCCT 
    TTTAACCCTT ATGAACTAAA GTGCCATAGT TTGACCAGAA TATCCAAATT CAGGTGTGTT 
    TGGATTGAGA AGGAGAGCAT CAACTCTGTC ATTATCAGTG ACGCCCCTGA AGACCTTCAC 
    CAGAGAATGC TGGTTGCAGC TTCCCTTTCC ATCAATGCGA CTGGATCTAC GATGCTGCTG 
    AGAGAAACCT CTCTGATGCC TCATATCCCT GGCCTCCCGG CTCTCCTCAG CATGTTATTC 
    GCACCGGTGA TAGAGTTAAG GATTGATCAG AATGGCAAGT ACTATACTGG AGTCCTTTGT 
    GGTTTGGGGT GGAATCCAGC TACAGGGGCT TCCATACTGC CCGAGCACGA CATGGAGCTT 
    GCGTTTGACG TTCAATTCAG CGTGGAGGAT GTCGTCGAGG TTAATATTCT CAGGGCTGCT 
    ATTAACAAGC TAGTCTGTGA TGGACCAAAT GGATGCAAGT GTCTTGGGCC AGAGAGAGTT 
    GCGCAGCTTC AAGACATTGC CCGTCAGAAG CTTTTAGGTT TGTTCTGTCA GTCAAAACCA 
    AGGGAGAAGA TTGTTCCCAA GTGGCATGAA AAGCCCTACG AGTGGAATCA GGTTGATCCA 
    AAGCTGGTCA TGGAGCAGGC CGACCGTGAG AGCAGCAGAG GGAAGAACAC CTTTCTCTAC 
    CAGCTCCACA AACTGGTTGT GCTCGGCACC TGA

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

    TDRD9 ( XM_011536397.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011534699.1 Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OHu75196
    Clone ID Related Accession (Same CDS sequence) XM_011536397.2
    Accession Version XM_011536397.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4044bp)
    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 ATP-dependent RNA helicase TDRD9 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000014.9) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011536397.1. ##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
    ATGCTGCGGA AGCTCACCAT CGAGCAGATC AACGACTGGT TCACCATCGG CAAGACGGTG 
    ACCAATGTGG AGCTGCTGGG CGCGCCGCCC GCCTTCCCGG CAGGGGCGGC CAGGGAGGAG 
    GTGCAGCGCC AGGACGTGGC CCCCGGCGCT GGTCCCGCGG CCCAGGCTCC GGCTCTGGCC 
    CAAGCTCCGG CCCGGCCGGC CGCTGCGTTC GAAAGGTCAC TCAGCCAAAG GAGCTCAGAA 
    GTAGAGTATA TTAACAAATA CAGACAGCTC GAAGCACAAG AGCTTGATGT GTGTCGCAGT 
    GTCCAACCAA CCAGTGGGCC AGGTCCAAGG CCATCTTTGG CTAAATTAAG CAGTGTGACA 
    TGCATCCCAG GGACAACTTA TAAATATCCT GATTTGCCTA TAAGTCGATA CAAGGAAGAG 
    GTTGTGTCTT TGATAGAAAG TAATTCCGTG GTGATTATCC ATGGGGCCAC GGGAAGCGGT 
    AAAAGCACTC AGCTCCCGCA GTATATCTTG GACCACTACG TTCAGCGCTC CGCCTACTGC 
    AGCATTGTGG TCACCCAGCC CCGGAAGATA GGGGCAAGCA GCATCGCCAG GTGGATCAGT 
    AAAGAGCGTG CCTGGACCCT GGGAGGTGTG GTGGGCTACC AGGTAGGGCT AGAGAAAATA 
    GCAACAGAGG ACACCAGGCT AATTTATATG ACAACTGGAG TCCTGCTTCA GAAAATAGTT 
    AGTGCCAAGA GTTTGATGGA ATTCACACAT ATCATCATTG ATGAAGTACA CGAACGAACA 
    GAAGAAATGG ATTTCCTGCT ATTGGTAGTC CGCAAACTCT TAAGAACAAA TTCACGTTTT 
    GTGAAGGTGG TCCTGATGTC GGCTACCATC AGCTGTAAAG AGTTTGCAGA CTACTTTGCT 
    GTTCCTGTTC AAAACAAGAT GAATCCTGCA TATATTTTTG AAGTGGAAGG CAAGCCCCAT 
    TCAGTTGAAG AGTATTATCT TAATGATTTG GAGCACATTC ATCATAGCAA GCTCTCTCCT 
    CATCTCCTGG AGGAACCGGT GATAACTAAG GATATATATG AAGTTGCTGT CTCTCTCATT 
    CAGATGTTTG ATGACTTGGA TATGAAGGAG AGTGGGAACA AGGCTTGGTC GGGGGCCCAG 
    TTTGTGTTGG AGCGAAGCAG TGTGTTGGTG TTTTTGCCAG GTCTGGGTGA AATAAATTAT 
    ATGCATGAAC TTCTCACAAG CCTGGTTCAT AAAAGGTTGC AGGTCTATCC ACTCCATTCA 
    AGTGTGGCTT TAGAAGAACA GAATAATGTC TTTTTAAGTC CAGTCCCTGG GTACAGAAAG 
    ATTATTCTGT CCACCAATAT TGCAGAGAGT TCTGTCACAG TTCCAGATGT CAAATATGGC 
    CGTGCTGGAC GAGTGTCTAG AGGGTACTGT TACCGGCTGG TACACAAGGA TTTCTGGGAC 
    AACTCCATCC CTGATCATGT TGTTCCTGAG ATGTTGCGTT GTCCATTAGG AAGCACGATC 
    TTGAAAGTGA AATTACTTGA CATGGGTGAG CCGAGAGCTC TGCTGGCCAC TGCCCTTTCC 
    CCGCCTGGTC TGAGTGACAT TGAGCGCACC ATCCTTCTAC TAAAGGAGGT TGGAGCACTT 
    GCAGTGAGTG GGCAGAGAGA AGATGAAAAC CCCCATGATG GTGAATTGAC CTTCTTAGGA 
    AGAGTTTTAG CCCAACTTCC TGTAAATCAG CAACTTGGTA AACTCATAGT CCTTGGACAT 
    GTATTTGGAT GTCTAGATGA ATGTCTTATT ATAGCGGCAG CTCTTTCTTT GAAGAATTTT 
    TTTGCAATGC CTTTCCGGCA GCATCTCGAT GGATATAGGA ACAAAGTGAA TTTCTCTGGC 
    AGTAGCAAGA GTGACTGTAT TGCACTTGTT GAGGCATTTA AAACATGGAA GGCTTGCAGA 
    CAGACAGGGG AGCTGCGGTA CCCGAAGGAT GAACTTAATT GGGGACGGTT AAATTACATT 
    CAAATCAAGA GAATTAGAGA GGTGGCTGAA TTATATGAAG AATTGAAGAC TAGAATCTCA 
    CAGTTCAACA TGCATGTTGA TTCTCGGCGA CCTGTCATGG ACCAAGAGTA TATATATAAG 
    CAGCGATTCA TCCTACAGGT TGTATTGGCA GGTGCTTTCT ATCCAAATTA CTTTACTTTT 
    GGACAGCCGG ATGAGGAGAT GGCGGTGAGG GAGCTGGCTG GCAAGGACCC CAAGACAACT 
    GTCGTGTTGA AACACATTCC TCCCTATGGA TTTCTTTACT ATAAACAACT ACAGTCTCTC 
    TTTAGACAGT GTGGTCAAGT CAAATCCATT GTATTTGATG GTGCAAAAGC CTTTGTGGAA 
    TTCTCACGAA ATCCAACAGA GAGATTTAAA ACCCTTCCTG CAGTATATAT GGCAATTAAG 
    ATGTCTCAAC TAAAAGTTTC ACTTGAACTC AGCGTTCATT CTGCAGAGGA AATTGAAGGG 
    AAGGTGCAAG GCATGAACGT CTCAAAGCTC AGGAACACAA GGGTGAATGT GGACTTCCAG 
    AAGCAGACGG TAGATCCTAT GCAAGTCTCC TTTAACACAT CAGACAGGTC CCAGACAGTT 
    ACAGATCTCC TTCTAACTAT TGATGTCACA GAGGTGGTTG AAGTGGGACA CTTTTGGGGA 
    TACAGGATTG ATGAAAACAA CTCAGAGATT CTGAAAAAGC TTACTGCTGA AATCAACCAA 
    CTGACGCTGG TGCCCTTGCC CACTCACCCA CATCCAGACT TGGTCTGTCT GGCACCTTTT 
    GCTGATTTTG ATAAACAACG CTACTTTAGA GCTCAAGTCC TTTATGTTTC TGGAAATTCT 
    GCTGAGGTAT TCTTTGTAGA TTATGGCAAT AAGTCTCATG TAGATCTACA TCTTTTGATG 
    GAGATTCCCT GTCAATTTCT TGAACTTCCT TTCCAGGCTT TGGAATTTAA GATTTGCAAA 
    ATGAGACCAT CAGCAAAGTC TCTTGTTTGT GGCAAGCACT GGAGTGACGG GGCCAGCCAG 
    TGGTTCGCCT CTCTGGTGAG CGGCTGCACC CTCCTTGTGA AGGTCTTCTC TGTGGTGCAC 
    AGCGTCCTGC ACGTGGATGT GTACCAGTAC TCAGGGGTCC AGGATGCCAT CAACATAAGA 
    GACGTCCTCA TCCAGCAGGG CTATGCCGAG CTCACGGAGG AGTCCTACGA GTCCAAGCAA 
    AGCCATGAAG TTCTCAAGGG CCTCTTTTCC AAGTCAGTAG AAAACATGAC AGATGGCTCT 
    GTGCCCTTTC CCATGAAAGA CGACGAGAAA TATCTCATCC GGATTTTGTT AGAGAGCTTT 
    TCTACCAATA AACTGGGTAC TCCAAACTGT AAGGCAGAAC TTCACGGGCC TTTTAACCCT 
    TATGAACTAA AGTGCCATAG TTTGACCAGA ATATCCAAAT TCAGGTGTGT TTGGATTGAG 
    AAGGAGAGCA TCAACTCTGT CATTATCAGT GACGCCCCTG AAGACCTTCA CCAGAGAATG 
    CTGGTTGCAG CTTCCCTTTC CATCAATGCG ACTGGATCTA CGATGCTGCT GAGAGAAACC 
    TCTCTGATGC CTCATATCCC TGGCCTCCCG GCTCTCCTCA GCATGTTATT CGCACCGGTG 
    ATAGAGTTAA GGATTGATCA GAATGGCAAG TACTATACTG GAGTCCTTTG TGGTTTGGGG 
    TGGAATCCAG CTACAGGGGC TTCCATACTG CCCGAGCACG ACATGGAGCT TGCGTTTGAC 
    GTTCAATTCA GCGTGGAGGA TGTCGTCGAG GTTAATATTC TCAGGGCTGC TATTAACAAG 
    CTAGTCTGTG ATGGACCAAA TGGATGCAAG TGTCTTGGGC CAGAGAGAGT TGCGCAGCTT 
    CAAGACATTG CCCGTCAGAA GCTTTTAGGT TTGTTCTGTC AGTCAAAACC AAGGGAGAAG 
    ATTGTTCCCA AGTGGCATGA AAAGCCCTAC GAGTGGAATC AGGTTGATCC AAAGCTGGTC 
    ATGGAGCAGG CCGACCGTGA GAGCAGCAGA GGGAAGAACA CCTTTCTCTA CCAGCTCCAC 
    AAACTGGTTG TGCTCGGCAC CTGA

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

    RefSeq XP_011534699.1
    CDS168..4211
    Translation

    Target ORF information:

    RefSeq Version XM_011536397.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011536397.2

    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
    ATGCTGCGGA AGCTCACCAT CGAGCAGATC AACGACTGGT TCACCATCGG CAAGACGGTG 
    ACCAATGTGG AGCTGCTGGG CGCGCCGCCC GCCTTCCCGG CAGGGGCGGC CAGGGAGGAG 
    GTGCAGCGCC AGGACGTGGC CCCCGGCGCT GGTCCCGCGG CCCAGGCTCC GGCTCTGGCC 
    CAAGCTCCGG CCCGGCCGGC CGCTGCGTTC GAAAGGTCAC TCAGCCAAAG GAGCTCAGAA 
    GTAGAGTATA TTAACAAATA CAGACAGCTC GAAGCACAAG AGCTTGATGT GTGTCGCAGT 
    GTCCAACCAA CCAGTGGGCC AGGTCCAAGG CCATCTTTGG CTAAATTAAG CAGTGTGACA 
    TGCATCCCAG GGACAACTTA TAAATATCCT GATTTGCCTA TAAGTCGATA CAAGGAAGAG 
    GTTGTGTCTT TGATAGAAAG TAATTCCGTG GTGATTATCC ATGGGGCCAC GGGAAGCGGT 
    AAAAGCACTC AGCTCCCGCA GTATATCTTG GACCACTACG TTCAGCGCTC CGCCTACTGC 
    AGCATTGTGG TCACCCAGCC CCGGAAGATA GGGGCAAGCA GCATCGCCAG GTGGATCAGT 
    AAAGAGCGTG CCTGGACCCT GGGAGGTGTG GTGGGCTACC AGGTAGGGCT AGAGAAAATA 
    GCAACAGAGG ACACCAGGCT AATTTATATG ACAACTGGAG TCCTGCTTCA GAAAATAGTT 
    AGTGCCAAGA GTTTGATGGA ATTCACACAT ATCATCATTG ATGAAGTACA CGAACGAACA 
    GAAGAAATGG ATTTCCTGCT ATTGGTAGTC CGCAAACTCT TAAGAACAAA TTCACGTTTT 
    GTGAAGGTGG TCCTGATGTC GGCTACCATC AGCTGTAAAG AGTTTGCAGA CTACTTTGCT 
    GTTCCTGTTC AAAACAAGAT GAATCCTGCA TATATTTTTG AAGTGGAAGG CAAGCCCCAT 
    TCAGTTGAAG AGTATTATCT TAATGATTTG GAGCACATTC ATCATAGCAA GCTCTCTCCT 
    CATCTCCTGG AGGAACCGGT GATAACTAAG GATATATATG AAGTTGCTGT CTCTCTCATT 
    CAGATGTTTG ATGACTTGGA TATGAAGGAG AGTGGGAACA AGGCTTGGTC GGGGGCCCAG 
    TTTGTGTTGG AGCGAAGCAG TGTGTTGGTG TTTTTGCCAG GTCTGGGTGA AATAAATTAT 
    ATGCATGAAC TTCTCACAAG CCTGGTTCAT AAAAGGTTGC AGGTCTATCC ACTCCATTCA 
    AGTGTGGCTT TAGAAGAACA GAATAATGTC TTTTTAAGTC CAGTCCCTGG GTACAGAAAG 
    ATTATTCTGT CCACCAATAT TGCAGAGAGT TCTGTCACAG TTCCAGATGT CAAATATGGC 
    CGTGCTGGAC GAGTGTCTAG AGGGTACTGT TACCGGCTGG TACACAAGGA TTTCTGGGAC 
    AACTCCATCC CTGATCATGT TGTTCCTGAG ATGTTGCGTT GTCCATTAGG AAGCACGATC 
    TTGAAAGTGA AATTACTTGA CATGGGTGAG CCGAGAGCTC TGCTGGCCAC TGCCCTTTCC 
    CCGCCTGGTC TGAGTGACAT TGAGCGCACC ATCCTTCTAC TAAAGGAGGT TGGAGCACTT 
    GCAGTGAGTG GGCAGAGAGA AGATGAAAAC CCCCATGATG GTGAATTGAC CTTCTTAGGA 
    AGAGTTTTAG CCCAACTTCC TGTAAATCAG CAACTTGGTA AACTCATAGT CCTTGGACAT 
    GTATTTGGAT GTCTAGATGA ATGTCTTATT ATAGCGGCAG CTCTTTCTTT GAAGAATTTT 
    TTTGCAATGC CTTTCCGGCA GCATCTCGAT GGATATAGGA ACAAAGTGAA TTTCTCTGGC 
    AGTAGCAAGA GTGACTGTAT TGCACTTGTT GAGGCATTTA AAACATGGAA GGCTTGCAGA 
    CAGACAGGGG AGCTGCGGTA CCCGAAGGAT GAACTTAATT GGGGACGGTT AAATTACATT 
    CAAATCAAGA GAATTAGAGA GGTGGCTGAA TTATATGAAG AATTGAAGAC TAGAATCTCA 
    CAGTTCAACA TGCATGTTGA TTCTCGGCGA CCTGTCATGG ACCAAGAGTA TATATATAAG 
    CAGCGATTCA TCCTACAGGT TGTATTGGCA GGTGCTTTCT ATCCAAATTA CTTTACTTTT 
    GGACAGCCGG ATGAGGAGAT GGCGGTGAGG GAGCTGGCTG GCAAGGACCC CAAGACAACT 
    GTCGTGTTGA AACACATTCC TCCCTATGGA TTTCTTTACT ATAAACAACT ACAGTCTCTC 
    TTTAGACAGT GTGGTCAAGT CAAATCCATT GTATTTGATG GTGCAAAAGC CTTTGTGGAA 
    TTCTCACGAA ATCCAACAGA GAGATTTAAA ACCCTTCCTG CAGTATATAT GGCAATTAAG 
    ATGTCTCAAC TAAAAGTTTC ACTTGAACTC AGCGTTCATT CTGCAGAGGA AATTGAAGGG 
    AAGGTGCAAG GCATGAACGT CTCAAAGCTC AGGAACACAA GGGTGAATGT GGACTTCCAG 
    AAGCAGACGG TAGATCCTAT GCAAGTCTCC TTTAACACAT CAGACAGGTC CCAGACAGTT 
    ACAGATCTCC TTCTAACTAT TGATGTCACA GAGGTGGTTG AAGTGGGACA CTTTTGGGGA 
    TACAGGATTG ATGAAAACAA CTCAGAGATT CTGAAAAAGC TTACTGCTGA AATCAACCAA 
    CTGACGCTGG TGCCCTTGCC CACTCACCCA CATCCAGACT TGGTCTGTCT GGCACCTTTT 
    GCTGATTTTG ATAAACAACG CTACTTTAGA GCTCAAGTCC TTTATGTTTC TGGAAATTCT 
    GCTGAGGTAT TCTTTGTAGA TTATGGCAAT AAGTCTCATG TAGATCTACA TCTTTTGATG 
    GAGATTCCCT GTCAATTTCT TGAACTTCCT TTCCAGGCTT TGGAATTTAA GATTTGCAAA 
    ATGAGACCAT CAGCAAAGTC TCTTGTTTGT GGCAAGCACT GGAGTGACGG GGCCAGCCAG 
    TGGTTCGCCT CTCTGGTGAG CGGCTGCACC CTCCTTGTGA AGGTCTTCTC TGTGGTGCAC 
    AGCGTCCTGC ACGTGGATGT GTACCAGTAC TCAGGGGTCC AGGATGCCAT CAACATAAGA 
    GACGTCCTCA TCCAGCAGGG CTATGCCGAG CTCACGGAGG AGTCCTACGA GTCCAAGCAA 
    AGCCATGAAG TTCTCAAGGG CCTCTTTTCC AAGTCAGTAG AAAACATGAC AGATGGCTCT 
    GTGCCCTTTC CCATGAAAGA CGACGAGAAA TATCTCATCC GGATTTTGTT AGAGAGCTTT 
    TCTACCAATA AACTGGGTAC TCCAAACTGT AAGGCAGAAC TTCACGGGCC TTTTAACCCT 
    TATGAACTAA AGTGCCATAG TTTGACCAGA ATATCCAAAT TCAGGTGTGT TTGGATTGAG 
    AAGGAGAGCA TCAACTCTGT CATTATCAGT GACGCCCCTG AAGACCTTCA CCAGAGAATG 
    CTGGTTGCAG CTTCCCTTTC CATCAATGCG ACTGGATCTA CGATGCTGCT GAGAGAAACC 
    TCTCTGATGC CTCATATCCC TGGCCTCCCG GCTCTCCTCA GCATGTTATT CGCACCGGTG 
    ATAGAGTTAA GGATTGATCA GAATGGCAAG TACTATACTG GAGTCCTTTG TGGTTTGGGG 
    TGGAATCCAG CTACAGGGGC TTCCATACTG CCCGAGCACG ACATGGAGCT TGCGTTTGAC 
    GTTCAATTCA GCGTGGAGGA TGTCGTCGAG GTTAATATTC TCAGGGCTGC TATTAACAAG 
    CTAGTCTGTG ATGGACCAAA TGGATGCAAG TGTCTTGGGC CAGAGAGAGT TGCGCAGCTT 
    CAAGACATTG CCCGTCAGAA GCTTTTAGGT TTGTTCTGTC AGTCAAAACC AAGGGAGAAG 
    ATTGTTCCCA AGTGGCATGA AAAGCCCTAC GAGTGGAATC AGGTTGATCC AAAGCTGGTC 
    ATGGAGCAGG CCGACCGTGA GAGCAGCAGA GGGAAGAACA CCTTTCTCTA CCAGCTCCAC 
    AAACTGGTTG TGCTCGGCAC CTGA

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

    TDRD9 ( XM_011536400.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011534702.1 Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OHu75199
    Clone ID Related Accession (Same CDS sequence) XM_011536400.2
    Accession Version XM_011536400.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3888bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product ATP-dependent RNA helicase TDRD9 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000014.9) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011536400.1. ##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
    ATGCTGCGGA AGCTCACCAT CGAGCAGATC AACGACTGGT TCACCATCGG CAAGACGGTG 
    ACCAATGTGG AGCTGCTGGG CGCGCCGCCC GCCTTCCCGG CAGGGGCGGC CAGGGAGGAG 
    GTGCAGCGCC AGGACGTGGC CCCCGGCGCT GGTCCCGCGG CCCAGGCTCC GGCTCTGGCC 
    CAAGCTCCGG CCCGGCCGGC CGCTGCGTTC GAAAGGTCAC TCAGCCAAAG GAGCTCAGAA 
    GTAGAGTATA TTAACAAATA CAGACAGCTC GAAGCACAAG AGCTTGATGT GTGTCGCAGT 
    GTCCAACCAA CCAGTGGGCC AGGTCCAAGG CCATCTTTGG CTAAATTAAG CAGTGTGACA 
    TGCATCCCAG GGACAACTTA TAAATATCCT GATTTGCCTA TAAGTCGATA CAAGGAAGAG 
    GTTGTGTCTT TGATAGAAAG TAATTCCGTG GTGATTATCC ATGGGGCCAC GGGAAGCGGT 
    AAAAGCACTC AGCTCCCGCA GTATATCTTG GACCACTACG TTCAGCGCTC CGCCTACTGC 
    AGCATTGTGG TCACCCAGCC CCGGAAGATA GGGGCAAGCA GCATCGCCAG GTGGATCAGT 
    AAAGAGCGTG CCTGGACCCT GGGAGGTGTG GTGGGCTACC AGGTAGGGCT AGAGAAAATA 
    GCAACAGAGG ACACCAGGCT AATTTATATG ACAACTGGAG TCCTGCTTCA GAAAATAGTT 
    AGTGCCAAGA GTTTGATGGA ATTCACACAT ATCATCATTG ATGAAGTACA CGAACGAACA 
    GAAGAAATGG ATTTCCTGCT ATTGGTAGTC CGCAAACTCT TAAGAACAAA TTCACGTTTT 
    GTGAAGGTGG TCCTGATGTC GGCTACCATC AGCTGTAAAG AGTTTGCAGA CTACTTTGCT 
    GTTCCTGTTC AAAACAAGAT GAATCCTGCA TATATTTTTG AAGTGGAAGG CAAGCCCCAT 
    TCAGTTGAAG AGTATTATCT TAATGATTTG GAGCACATTC ATCATAGCAA GCTCTCTCCT 
    CATCTCCTGG AGGAACCGGT GATAACTAAG GATATATATG AAGTTGCTGT CTCTCTCATT 
    CAGATGTTTG ATGACTTGGA TATGAAGGAG AGTGGGAACA AGGCTTGGTC GGGGGCCCAG 
    TTTGTGTTGG AGCGAAGCAG TGTGTTGGTG TTTTTGCCAG GTCTGGGTGA AATAAATTAT 
    ATGCATGAAC TTCTCACAAG CCTGGTTCAT AAAAGGTTGC AGGTCTATCC ACTCCATTCA 
    AGTGTGGCTT TAGAAGAACA GAATAATGTC TTTTTAAGTC CAGTCCCTGG GTACAGAAAG 
    CGTTGTCCAT TAGGAAGCAC GATCTTGAAA GTGAAATTAC TTGACATGGG TGAGCCGAGA 
    GCTCTGCTGG CCACTGCCCT TTCCCCGCCT GGTCTGAGTG ACATTGAGCG CACCATCCTT 
    CTACTAAAGG AGGTTGGAGC ACTTGCAGTG AGTGGGCAGA GAGAAGATGA AAACCCCCAT 
    GATGGTGAAT TGACCTTCTT AGGAAGAGTT TTAGCCCAAC TTCCTGTAAA TCAGCAACTT 
    GGTAAACTCA TAGTCCTTGG ACATGTATTT GGATGTCTAG ATGAATGTCT TATTATAGCG 
    GCAGCTCTTT CTTTGAAGAA TTTTTTTGCA ATGCCTTTCC GGCAGCATCT CGATGGATAT 
    AGGAACAAAG TGAATTTCTC TGGCAGTAGC AAGAGTGACT GTATTGCACT TGTTGAGGCA 
    TTTAAAACAT GGAAGGCTTG CAGACAGACA GGGGAGCTGC GGTACCCGAA GGATGAACTT 
    AATTGGGGAC GGTTAAATTA CATTCAAATC AAGAGAATTA GAGAGGTGGC TGAATTATAT 
    GAAGAATTGA AGACTAGAAT CTCACAGTTC AACATGCATG TTGATTCTCG GCGACCTGTC 
    ATGGACCAAG AGTATATATA TAAGCAGCGA TTCATCCTAC AGGTTGTATT GGCAGGTGCT 
    TTCTATCCAA ATTACTTTAC TTTTGGACAG CCGGATGAGG AGATGGCGGT GAGGGAGCTG 
    GCTGGCAAGG ACCCCAAGAC AACTGTCGTG TTGAAACACA TTCCTCCCTA TGGATTTCTT 
    TACTATAAAC AACTACAGTC TCTCTTTAGA CAGTGTGGTC AAGTCAAATC CATTGTATTT 
    GATGGTGCAA AAGCCTTTGT GGAATTCTCA CGAAATCCAA CAGAGAGATT TAAAACCCTT 
    CCTGCAGTAT ATATGGCAAT TAAGATGTCT CAACTAAAAG TTTCACTTGA ACTCAGCGTT 
    CATTCTGCAG AGGAAATTGA AGGGAAGGTG CAAGGCATGA ACGTCTCAAA GCTCAGGAAC 
    ACAAGGGTGA ATGTGGACTT CCAGAAGCAG ACGGTAGATC CTATGCAAGT CTCCTTTAAC 
    ACATCAGACA GGTCCCAGAC AGTTACAGAT CTCCTTCTAA CTATTGATGT CACAGAGGTG 
    GTTGAAGTGG GACACTTTTG GGGATACAGG ATTGATGAAA ACAACTCAGA GATTCTGAAA 
    AAGCTTACTG CTGAAATCAA CCAACTGACG CTGGTGCCCT TGCCCACTCA CCCACATCCA 
    GACTTGGTCT GTCTGGCACC TTTTGCTGAT TTTGATAAAC AACGCTACTT TAGAGCTCAA 
    GTCCTTTATG TTTCTGGAAA TTCTGCTGAG GTATTCTTTG TAGATTATGG CAATAAGTCT 
    CATGTAGATC TACATCTTTT GATGGAGATT CCCTGTCAAT TTCTTGAACT TCCTTTCCAG 
    GCTTTGGAAT TTAAGATTTG CAAAATGAGA CCATCAGCAA AGTCTCTTGT TTGTGGCAAG 
    CACTGGAGTG ACGGGGCCAG CCAGTGGTTC GCCTCTCTGG TGAGCGGCTG CACCCTCCTT 
    GTGAAGGTCT TCTCTGTGGT GCACAGCGTC CTGCACGTGG ATGTGTACCA GTACTCAGGG 
    GTCCAGGATG CCATCAACAT AAGAGACGTC CTCATCCAGC AGGGCTATGC CGAGCTCACG 
    GAGGAGTCCT ACGAGTCCAA GCAAAGCCAT GAAGTTCTCA AGGGCCTCTT TTCCAAGTCA 
    GTAGAAAACA TGACAGATGG CTCTGTGCCC TTTCCCATGA AAGACGACGA GAAATATCTC 
    ATCCGGATTT TGTTAGAGAG CTTTTCTACC AATAAACTGG GTACTCCAAA CTGTAAGGCA 
    GAACTTCACG GGCCTTTTAA CCCTTATGAA CTAAAGTGCC ATAGTTTGAC CAGAATATCC 
    AAATTCAGGT GTGTTTGGAT TGAGAAGGAG AGCATCAACT CTGTCATTAT CAGTGACGCC 
    CCTGAAGACC TTCACCAGAG AATGCTGGTT GCAGCTTCCC TTTCCATCAA TGCGACTGGA 
    TCTACGATGC TGCTGAGAGA AACCTCTCTG ATGCCTCATA TCCCTGGCCT CCCGGCTCTC 
    CTCAGCATGT TATTCGCACC GGTGATAGAG TTAAGGATTG ATCAGAATGG CAAGTACTAT 
    ACTGGAGTCC TTTGTGGTTT GGGGTGGAAT CCAGCTACAG GGGCTTCCAT ACTGCCCGAG 
    CACGACATGG AGCTTGCGTT TGACGTTCAA TTCAGCGTGG AGGATGTCGT CGAGGTTAAT 
    ATTCTCAGGG CTGCTATTAA CAAGCTAGTC TGTGATGGAC CAAATGGATG CAAGTGTCTT 
    GGGCCAGAGA GAGTTGCGCA GCTTCAAGAC ATTGCCCGTC AGAAGCTTTT AGGTTTGTTC 
    TGTCAGTCAA AACCAAGGGA GAAGATTGTT CCCAAGTGGC ATGAAAAGCC CTACGAGTGG 
    AATCAGGTTG ATCCAAAGCT GGTCATGGAG CAGGCCGACC GTGAGAGCAG CAGAGGGAAG 
    AACACCTTTC TCTACCAGCT CCACAAACTG GTTGTGCTCG GCACCTGA

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

    RefSeq XP_011534702.1
    CDS168..4055
    Translation

    Target ORF information:

    RefSeq Version XM_011536400.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 9 (TDRD9), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011536400.2

    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
    ATGCTGCGGA AGCTCACCAT CGAGCAGATC AACGACTGGT TCACCATCGG CAAGACGGTG 
    ACCAATGTGG AGCTGCTGGG CGCGCCGCCC GCCTTCCCGG CAGGGGCGGC CAGGGAGGAG 
    GTGCAGCGCC AGGACGTGGC CCCCGGCGCT GGTCCCGCGG CCCAGGCTCC GGCTCTGGCC 
    CAAGCTCCGG CCCGGCCGGC CGCTGCGTTC GAAAGGTCAC TCAGCCAAAG GAGCTCAGAA 
    GTAGAGTATA TTAACAAATA CAGACAGCTC GAAGCACAAG AGCTTGATGT GTGTCGCAGT 
    GTCCAACCAA CCAGTGGGCC AGGTCCAAGG CCATCTTTGG CTAAATTAAG CAGTGTGACA 
    TGCATCCCAG GGACAACTTA TAAATATCCT GATTTGCCTA TAAGTCGATA CAAGGAAGAG 
    GTTGTGTCTT TGATAGAAAG TAATTCCGTG GTGATTATCC ATGGGGCCAC GGGAAGCGGT 
    AAAAGCACTC AGCTCCCGCA GTATATCTTG GACCACTACG TTCAGCGCTC CGCCTACTGC 
    AGCATTGTGG TCACCCAGCC CCGGAAGATA GGGGCAAGCA GCATCGCCAG GTGGATCAGT 
    AAAGAGCGTG CCTGGACCCT GGGAGGTGTG GTGGGCTACC AGGTAGGGCT AGAGAAAATA 
    GCAACAGAGG ACACCAGGCT AATTTATATG ACAACTGGAG TCCTGCTTCA GAAAATAGTT 
    AGTGCCAAGA GTTTGATGGA ATTCACACAT ATCATCATTG ATGAAGTACA CGAACGAACA 
    GAAGAAATGG ATTTCCTGCT ATTGGTAGTC CGCAAACTCT TAAGAACAAA TTCACGTTTT 
    GTGAAGGTGG TCCTGATGTC GGCTACCATC AGCTGTAAAG AGTTTGCAGA CTACTTTGCT 
    GTTCCTGTTC AAAACAAGAT GAATCCTGCA TATATTTTTG AAGTGGAAGG CAAGCCCCAT 
    TCAGTTGAAG AGTATTATCT TAATGATTTG GAGCACATTC ATCATAGCAA GCTCTCTCCT 
    CATCTCCTGG AGGAACCGGT GATAACTAAG GATATATATG AAGTTGCTGT CTCTCTCATT 
    CAGATGTTTG ATGACTTGGA TATGAAGGAG AGTGGGAACA AGGCTTGGTC GGGGGCCCAG 
    TTTGTGTTGG AGCGAAGCAG TGTGTTGGTG TTTTTGCCAG GTCTGGGTGA AATAAATTAT 
    ATGCATGAAC TTCTCACAAG CCTGGTTCAT AAAAGGTTGC AGGTCTATCC ACTCCATTCA 
    AGTGTGGCTT TAGAAGAACA GAATAATGTC TTTTTAAGTC CAGTCCCTGG GTACAGAAAG 
    CGTTGTCCAT TAGGAAGCAC GATCTTGAAA GTGAAATTAC TTGACATGGG TGAGCCGAGA 
    GCTCTGCTGG CCACTGCCCT TTCCCCGCCT GGTCTGAGTG ACATTGAGCG CACCATCCTT 
    CTACTAAAGG AGGTTGGAGC ACTTGCAGTG AGTGGGCAGA GAGAAGATGA AAACCCCCAT 
    GATGGTGAAT TGACCTTCTT AGGAAGAGTT TTAGCCCAAC TTCCTGTAAA TCAGCAACTT 
    GGTAAACTCA TAGTCCTTGG ACATGTATTT GGATGTCTAG ATGAATGTCT TATTATAGCG 
    GCAGCTCTTT CTTTGAAGAA TTTTTTTGCA ATGCCTTTCC GGCAGCATCT CGATGGATAT 
    AGGAACAAAG TGAATTTCTC TGGCAGTAGC AAGAGTGACT GTATTGCACT TGTTGAGGCA 
    TTTAAAACAT GGAAGGCTTG CAGACAGACA GGGGAGCTGC GGTACCCGAA GGATGAACTT 
    AATTGGGGAC GGTTAAATTA CATTCAAATC AAGAGAATTA GAGAGGTGGC TGAATTATAT 
    GAAGAATTGA AGACTAGAAT CTCACAGTTC AACATGCATG TTGATTCTCG GCGACCTGTC 
    ATGGACCAAG AGTATATATA TAAGCAGCGA TTCATCCTAC AGGTTGTATT GGCAGGTGCT 
    TTCTATCCAA ATTACTTTAC TTTTGGACAG CCGGATGAGG AGATGGCGGT GAGGGAGCTG 
    GCTGGCAAGG ACCCCAAGAC AACTGTCGTG TTGAAACACA TTCCTCCCTA TGGATTTCTT 
    TACTATAAAC AACTACAGTC TCTCTTTAGA CAGTGTGGTC AAGTCAAATC CATTGTATTT 
    GATGGTGCAA AAGCCTTTGT GGAATTCTCA CGAAATCCAA CAGAGAGATT TAAAACCCTT 
    CCTGCAGTAT ATATGGCAAT TAAGATGTCT CAACTAAAAG TTTCACTTGA ACTCAGCGTT 
    CATTCTGCAG AGGAAATTGA AGGGAAGGTG CAAGGCATGA ACGTCTCAAA GCTCAGGAAC 
    ACAAGGGTGA ATGTGGACTT CCAGAAGCAG ACGGTAGATC CTATGCAAGT CTCCTTTAAC 
    ACATCAGACA GGTCCCAGAC AGTTACAGAT CTCCTTCTAA CTATTGATGT CACAGAGGTG 
    GTTGAAGTGG GACACTTTTG GGGATACAGG ATTGATGAAA ACAACTCAGA GATTCTGAAA 
    AAGCTTACTG CTGAAATCAA CCAACTGACG CTGGTGCCCT TGCCCACTCA CCCACATCCA 
    GACTTGGTCT GTCTGGCACC TTTTGCTGAT TTTGATAAAC AACGCTACTT TAGAGCTCAA 
    GTCCTTTATG TTTCTGGAAA TTCTGCTGAG GTATTCTTTG TAGATTATGG CAATAAGTCT 
    CATGTAGATC TACATCTTTT GATGGAGATT CCCTGTCAAT TTCTTGAACT TCCTTTCCAG 
    GCTTTGGAAT TTAAGATTTG CAAAATGAGA CCATCAGCAA AGTCTCTTGT TTGTGGCAAG 
    CACTGGAGTG ACGGGGCCAG CCAGTGGTTC GCCTCTCTGG TGAGCGGCTG CACCCTCCTT 
    GTGAAGGTCT TCTCTGTGGT GCACAGCGTC CTGCACGTGG ATGTGTACCA GTACTCAGGG 
    GTCCAGGATG CCATCAACAT AAGAGACGTC CTCATCCAGC AGGGCTATGC CGAGCTCACG 
    GAGGAGTCCT ACGAGTCCAA GCAAAGCCAT GAAGTTCTCA AGGGCCTCTT TTCCAAGTCA 
    GTAGAAAACA TGACAGATGG CTCTGTGCCC TTTCCCATGA AAGACGACGA GAAATATCTC 
    ATCCGGATTT TGTTAGAGAG CTTTTCTACC AATAAACTGG GTACTCCAAA CTGTAAGGCA 
    GAACTTCACG GGCCTTTTAA CCCTTATGAA CTAAAGTGCC ATAGTTTGAC CAGAATATCC 
    AAATTCAGGT GTGTTTGGAT TGAGAAGGAG AGCATCAACT CTGTCATTAT CAGTGACGCC 
    CCTGAAGACC TTCACCAGAG AATGCTGGTT GCAGCTTCCC TTTCCATCAA TGCGACTGGA 
    TCTACGATGC TGCTGAGAGA AACCTCTCTG ATGCCTCATA TCCCTGGCCT CCCGGCTCTC 
    CTCAGCATGT TATTCGCACC GGTGATAGAG TTAAGGATTG ATCAGAATGG CAAGTACTAT 
    ACTGGAGTCC TTTGTGGTTT GGGGTGGAAT CCAGCTACAG GGGCTTCCAT ACTGCCCGAG 
    CACGACATGG AGCTTGCGTT TGACGTTCAA TTCAGCGTGG AGGATGTCGT CGAGGTTAAT 
    ATTCTCAGGG CTGCTATTAA CAAGCTAGTC TGTGATGGAC CAAATGGATG CAAGTGTCTT 
    GGGCCAGAGA GAGTTGCGCA GCTTCAAGAC ATTGCCCGTC AGAAGCTTTT AGGTTTGTTC 
    TGTCAGTCAA AACCAAGGGA GAAGATTGTT CCCAAGTGGC ATGAAAAGCC CTACGAGTGG 
    AATCAGGTTG ATCCAAAGCT GGTCATGGAG CAGGCCGACC GTGAGAGCAG CAGAGGGAAG 
    AACACCTTTC TCTACCAGCT CCACAAACTG GTTGTGCTCG GCACCTGA

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

見積依頼

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