ORF » Species Summary » Homo sapiens » TDRD12 cDNA ORF clone

TDRD12 cDNA ORF clone, Homo sapiens(human)

The following TDRD12 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TDRD12 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
OHu29975 NM_001110822.2
Latest version!		 Homo sapiens tudor domain containing 12 (TDRD12), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 7-9 $230.30
$329.00
OHu88808 XM_017027458.1
Latest version!		 Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu88809 XM_017027459.2
Latest version!		 Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OHu74354 NM_001366102.1
Latest version!		 Homo sapiens tudor domain containing 12 (TDRD12), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu74354 XM_011527472.2
Latest version!		 Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu74355 XM_011527473.3
Latest version!		 Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu74356 XM_011527474.3
Latest version!		 Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu74357 XM_011527475.2
Latest version!		 Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu74358 XM_011527476.2
Latest version!		 Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu74353 XM_011527471.3
Latest version!		 Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
View Old Accession Versions >>
OHu74356 XM_011527474.2 Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu88809 XM_017027459.1 Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OHu74355 XM_011527473.2 Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu74353 XM_011527471.2 Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu29975 NM_001110822.1 Homo sapiens tudor domain containing 12 (TDRD12), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 7-9 $230.30
$329.00
Hide Old Accession Versions >>

ORF Online Only Promotion

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

*Business Day

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

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

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

  • Reference Sequences (Refseq)
    TDRD12 ( NM_001110822.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001104292.1 Homo sapiens tudor domain containing 12 (TDRD12), transcript variant 2, mRNA.
    Price & Availability↑
    CloneID OHu29975
    Clone ID Related Accession (Same CDS sequence) NM_001110822.1 , NM_001110822.2
    Accession Version NM_001110822.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1188bp)
    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 2018-09-21
    Organism Homo sapiens(human)
    Product putative ATP-dependent RNA helicase TDRD12 isoform 2
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from BC049000.1, AC008736.6 and AB211063.1. On or before Mar 29, 2008 this sequence version replaced XM_001713629.1, XM_001713630.1, XM_001713631.1. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2148093 [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
    ATGCTCCAGC TCCTGGTGCT GAAGATTGAA GATCCAGGTT GCTTCTGGGT TATTATAAAA 
    GGGTGTAGTC CCTTTTTAGA TCATGATGTC GATTATCAAA AATTAAATAG TGCCATGAAT 
    GACTTCTACA ACAGCACGTG TCAAGATATA GAAATAAAAC CCTTAACATT GGAAGAAGGA 
    CAGGTGTGTG TGGTCTATTG TGAGGAGCTA AAGTGCTGGT GCAGGGCCAT TGTCAAATCA 
    ATTACGTCTT CCGCAGACCA GTACCTGGCA GAATGTTTCC TTGTGGACTT TGCCAAGAAC 
    ATTCCAGTCA AATCTAAAAA CATCCGAGTT GTAGTAGAAT CGTTTATGCA GCTTCCCTAT 
    AGAGCAAAAA AATTCAGCCT GTACTGCACA AAGCCTGTCA CATTACACAT TGACTTCTGC 
    CGAGACAGTA CTGACATTGT ACCTGCCAAG AAGTGGGACA ATGCAGCTAT TCAGTACTTT 
    CAGAACCTTC TGAAAGCAAC TACCCAGGTG GAAGCCAGAT TATGTGCTGT GGAAGAAGAT 
    ACATTTGAGG TTTACCTTTA TGTAACTATA AAAGATGAAA AAGTTTGTGT TAATGATGAT 
    CTTGTTGCAA AGAACTATGC TTGTTATATG TCACCTACAA AGAATAAAAA CCTTGATTAT 
    TTAGAAAAAC CAAGATTGAA TATAAAATCA GCACCCTCCT TCAATAAACT CAATCCAGCA 
    CTTACACTCT GGCCAATGTT TTTGCAAGGA AAAGATGTTC AAGGAATGGA AGATTCACAT 
    GGTGTAAATT TTCCGGCACA ATCTCTGCAA CATACATGGT GCAAGGGTAT TGTCGGTGAC 
    CTCAGGCCAA CAGCCACAGC ACAGGACAAA GCTGTAAAAT GTAATATGGA TTCATTGAGA 
    GATTCACCTA AAGACAAATC TGAAAAGAAA CACCATTGCA TCTCTTTAAA AGATACAAAT 
    AAGCGTGTTG AATCCTCAGT GTACTGGCCA GCAAAAAGAG GCATAACCAT ATATGCTGAT 
    CCAGATGTAC CAGAAGCAAG TGCTTTAAGT CAGAAGTCAA ATGAGAAACC TCTTAGATTG 
    ACTGAGAAGA AAGAATATGA TGAGAAGAAT AGCTGTGTGA AATTACTGCA GTTTTTAAAT 
    CCTGATCCTT TGAGAGCTGA CGGAATCTCT GATCTCCAGC AGACTTGA

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

    RefSeq NP_001104292.1
    CDS301..1488
    Translation

    Target ORF information:

    RefSeq Version NM_001110822.1
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 12 (TDRD12), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001110822.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    ATGCTCCAGC TCCTGGTGCT GAAGATTGAA GATCCAGGTT GCTTCTGGGT TATTATAAAA 
    GGGTGTAGTC CCTTTTTAGA TCATGATGTC GATTATCAAA AATTAAATAG TGCCATGAAT 
    GACTTCTACA ACAGCACGTG TCAAGATATA GAAATAAAAC CCTTAACATT GGAAGAAGGA 
    CAGGTGTGTG TGGTCTATTG TGAGGAGCTA AAGTGCTGGT GCAGGGCCAT TGTCAAATCA 
    ATTACGTCTT CCGCAGACCA GTACCTGGCA GAATGTTTCC TTGTGGACTT TGCCAAGAAC 
    ATTCCAGTCA AATCTAAAAA CATCCGAGTT GTAGTAGAAT CGTTTATGCA GCTTCCCTAT 
    AGAGCAAAAA AATTCAGCCT GTACTGCACA AAGCCTGTCA CATTACACAT TGACTTCTGC 
    CGAGACAGTA CTGACATTGT ACCTGCCAAG AAGTGGGACA ATGCAGCTAT TCAGTACTTT 
    CAGAACCTTC TGAAAGCAAC TACCCAGGTG GAAGCCAGAT TATGTGCTGT GGAAGAAGAT 
    ACATTTGAGG TTTACCTTTA TGTAACTATA AAAGATGAAA AAGTTTGTGT TAATGATGAT 
    CTTGTTGCAA AGAACTATGC TTGTTATATG TCACCTACAA AGAATAAAAA CCTTGATTAT 
    TTAGAAAAAC CAAGATTGAA TATAAAATCA GCACCCTCCT TCAATAAACT CAATCCAGCA 
    CTTACACTCT GGCCAATGTT TTTGCAAGGA AAAGATGTTC AAGGAATGGA AGATTCACAT 
    GGTGTAAATT TTCCGGCACA ATCTCTGCAA CATACATGGT GCAAGGGTAT TGTCGGTGAC 
    CTCAGGCCAA CAGCCACAGC ACAGGACAAA GCTGTAAAAT GTAATATGGA TTCATTGAGA 
    GATTCACCTA AAGACAAATC TGAAAAGAAA CACCATTGCA TCTCTTTAAA AGATACAAAT 
    AAGCGTGTTG AATCCTCAGT GTACTGGCCA GCAAAAAGAG GCATAACCAT ATATGCTGAT 
    CCAGATGTAC CAGAAGCAAG TGCTTTAAGT CAGAAGTCAA ATGAGAAACC TCTTAGATTG 
    ACTGAGAAGA AAGAATATGA TGAGAAGAAT AGCTGTGTGA AATTACTGCA GTTTTTAAAT 
    CCTGATCCTT TGAGAGCTGA CGGAATCTCT GATCTCCAGC AGACTTGA

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

    TDRD12 ( NM_001110822.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001104292.1 Homo sapiens tudor domain containing 12 (TDRD12), transcript variant 2, mRNA.
    Price & Availability↑
    CloneID OHu29975
    Clone ID Related Accession (Same CDS sequence) NM_001110822.1 , NM_001110822.2
    Accession Version NM_001110822.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1188bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-01
    Organism Homo sapiens(human)
    Product putative ATP-dependent RNA helicase TDRD12 isoform 2
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC008736.6, BC049000.1 and AB211063.1. On Jun 2, 2019 this sequence version replaced NM_001110822.1. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2148093 [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
    ATGCTCCAGC TCCTGGTGCT GAAGATTGAA GATCCAGGTT GCTTCTGGGT TATTATAAAA 
    GGGTGTAGTC CCTTTTTAGA TCATGATGTC GATTATCAAA AATTAAATAG TGCCATGAAT 
    GACTTCTACA ACAGCACGTG TCAAGATATA GAAATAAAAC CCTTAACATT GGAAGAAGGA 
    CAGGTGTGTG TGGTCTATTG TGAGGAGCTA AAGTGCTGGT GCAGGGCCAT TGTCAAATCA 
    ATTACGTCTT CCGCAGACCA GTACCTGGCA GAATGTTTCC TTGTGGACTT TGCCAAGAAC 
    ATTCCAGTCA AATCTAAAAA CATCCGAGTT GTAGTAGAAT CGTTTATGCA GCTTCCCTAT 
    AGAGCAAAAA AATTCAGCCT GTACTGCACA AAGCCTGTCA CATTACACAT TGACTTCTGC 
    CGAGACAGTA CTGACATTGT ACCTGCCAAG AAGTGGGACA ATGCAGCTAT TCAGTACTTT 
    CAGAACCTTC TGAAAGCAAC TACCCAGGTG GAAGCCAGAT TATGTGCTGT GGAAGAAGAT 
    ACATTTGAGG TTTACCTTTA TGTAACTATA AAAGATGAAA AAGTTTGTGT TAATGATGAT 
    CTTGTTGCAA AGAACTATGC TTGTTATATG TCACCTACAA AGAATAAAAA CCTTGATTAT 
    TTAGAAAAAC CAAGATTGAA TATAAAATCA GCACCCTCCT TCAATAAACT CAATCCAGCA 
    CTTACACTCT GGCCAATGTT TTTGCAAGGA AAAGATGTTC AAGGAATGGA AGATTCACAT 
    GGTGTAAATT TTCCGGCACA ATCTCTGCAA CATACATGGT GCAAGGGTAT TGTCGGTGAC 
    CTCAGGCCAA CAGCCACAGC ACAGGACAAA GCTGTAAAAT GTAATATGGA TTCATTGAGA 
    GATTCACCTA AAGACAAATC TGAAAAGAAA CACCATTGCA TCTCTTTAAA AGATACAAAT 
    AAGCGTGTTG AATCCTCAGT GTACTGGCCA GCAAAAAGAG GCATAACCAT ATATGCTGAT 
    CCAGATGTAC CAGAAGCAAG TGCTTTAAGT CAGAAGTCAA ATGAGAAACC TCTTAGATTG 
    ACTGAGAAGA AAGAATATGA TGAGAAGAAT AGCTGTGTGA AATTACTGCA GTTTTTAAAT 
    CCTGATCCTT TGAGAGCTGA CGGAATCTCT GATCTCCAGC AGACTTGA

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

    RefSeq NP_001104292.1
    CDS307..1494
    Translation

    Target ORF information:

    RefSeq Version NM_001110822.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 12 (TDRD12), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001110822.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    ATGCTCCAGC TCCTGGTGCT GAAGATTGAA GATCCAGGTT GCTTCTGGGT TATTATAAAA 
    GGGTGTAGTC CCTTTTTAGA TCATGATGTC GATTATCAAA AATTAAATAG TGCCATGAAT 
    GACTTCTACA ACAGCACGTG TCAAGATATA GAAATAAAAC CCTTAACATT GGAAGAAGGA 
    CAGGTGTGTG TGGTCTATTG TGAGGAGCTA AAGTGCTGGT GCAGGGCCAT TGTCAAATCA 
    ATTACGTCTT CCGCAGACCA GTACCTGGCA GAATGTTTCC TTGTGGACTT TGCCAAGAAC 
    ATTCCAGTCA AATCTAAAAA CATCCGAGTT GTAGTAGAAT CGTTTATGCA GCTTCCCTAT 
    AGAGCAAAAA AATTCAGCCT GTACTGCACA AAGCCTGTCA CATTACACAT TGACTTCTGC 
    CGAGACAGTA CTGACATTGT ACCTGCCAAG AAGTGGGACA ATGCAGCTAT TCAGTACTTT 
    CAGAACCTTC TGAAAGCAAC TACCCAGGTG GAAGCCAGAT TATGTGCTGT GGAAGAAGAT 
    ACATTTGAGG TTTACCTTTA TGTAACTATA AAAGATGAAA AAGTTTGTGT TAATGATGAT 
    CTTGTTGCAA AGAACTATGC TTGTTATATG TCACCTACAA AGAATAAAAA CCTTGATTAT 
    TTAGAAAAAC CAAGATTGAA TATAAAATCA GCACCCTCCT TCAATAAACT CAATCCAGCA 
    CTTACACTCT GGCCAATGTT TTTGCAAGGA AAAGATGTTC AAGGAATGGA AGATTCACAT 
    GGTGTAAATT TTCCGGCACA ATCTCTGCAA CATACATGGT GCAAGGGTAT TGTCGGTGAC 
    CTCAGGCCAA CAGCCACAGC ACAGGACAAA GCTGTAAAAT GTAATATGGA TTCATTGAGA 
    GATTCACCTA AAGACAAATC TGAAAAGAAA CACCATTGCA TCTCTTTAAA AGATACAAAT 
    AAGCGTGTTG AATCCTCAGT GTACTGGCCA GCAAAAAGAG GCATAACCAT ATATGCTGAT 
    CCAGATGTAC CAGAAGCAAG TGCTTTAAGT CAGAAGTCAA ATGAGAAACC TCTTAGATTG 
    ACTGAGAAGA AAGAATATGA TGAGAAGAAT AGCTGTGTGA AATTACTGCA GTTTTTAAAT 
    CCTGATCCTT TGAGAGCTGA CGGAATCTCT GATCTCCAGC AGACTTGA

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

    TDRD12 ( XM_017027458.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016882947.1 Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OHu88808
    Clone ID Related Accession (Same CDS sequence) XM_017027458.1
    Accession Version XM_017027458.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3840bp)
    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 putative ATP-dependent RNA helicase TDRD12 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000019.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGCTCCAGC TCCTGGTGCT GAAGATTGAA GATCCAGGTT GCTTCTGGGT TATTATAAAA 
    GGGTGTAGTC CCTTTTTAGA TCATGATGTC GATTATCAAA AATTAAATAG TGCCATGAAT 
    GACTTCTACA ACAGCACGTG TCAAGATATA GAAATAAAAC CCTTAACATT GGAAGAAGGA 
    CAGGTGTGTG TGGTCTATTG TGAGGAGCTA AAGTGCTGGT GCAGGGCCAT TGTCAAATCA 
    ATTACGTCTT CCGCAGACCA GTACCTGGCA GAATGTTTCC TTGTGGACTT TGCCAAGAAC 
    ATTCCAGTCA AATCTAAAAA CATCCGAGTT GTAGTAGAAT CGTTTATGCA GCTTCCCTAT 
    AGAGCAAAAA AATTCAGCCT GTACTGCACA AAGCCTGTCA CATTACACAT TGACTTCTGC 
    CGAGACAGTA CTGACATTGT ACCTGCCAAG AAGTGGGACA ATGCAGCTAT TCAGTACTTT 
    CAGAACCTTC TGAAAGCAAC TACCCAGGTG GAAGCCAGAT TATGTGCTGT GGAAGAAGAT 
    ACATTTGAGG TTTACCTTTA TGTAACTATA AAAGATGAAA AAGTTTGTGT TAATGATGAT 
    CTTGTTGCAA AGAACTATGC TTGTTATATG TCACCTACAA AGAATAAAAA CCTTGATTAT 
    TTAGAAAAAC CAAGATTGAA TATAAAATCA GCACCCTCCT TCAATAAACT CAATCCAGCA 
    CTTACACTCT GGCCAATGTT TTTGCAAGGA AAAGATGTTC AAGGAATGGA AGATTCACAT 
    GGTGTAAATT TTCCGGCACA ATCTCTGCAA CATACATGGT GCAAGGGTAT TGTCGGTGAC 
    CTCAGGCCAA CAGCCACAGC ACAGGACAAA GCTGTAAAAT GTAATATGGA TTCATTGAGA 
    GATTCACCTA AAGACAAATC TGAAAAGAAA CACCATTGCA TCTCTTTAAA AGATACAAAT 
    AAGCGTGTTG AATCCTCAGT GTACTGGCCA GCAAAAAGAG GCATAACCAT ATATGCTGAT 
    CCAGATGTAC CAGAAGCAAG TGCTTTAAGT CAGAAGTCAA ATGAGAAACC TCTTAGATTG 
    ACTGAGAAGA AAGAATATGA TGAGAAGAAT AGCTGTGTGA AATTACTGCA GTTTTTAAAT 
    CCTGATCCTT TGAGAGCTGA CGGAATCTCT GATCTCCAGC AGTTGCAGAA GCTGAAGGGC 
    CTGCAGCCGC CCGTGGTAGT GCTCCGGAAC AAGATCAAGC CCTGCTTAAC CATTGACTCG 
    TCGCCGCTGT CAGCAGACCT GAAGAAGGCT CTTCAAAGAA ATAAGTTTCC GGGCCCCAGC 
    CACACTGAAT CTTACTCTTG GCCTCCCATA GCGCGTGGCT GTGATGTGGT TGTCATTTCT 
    CACTGTGAAA GCAACCCTTT GCTCTACCTC CTACCAGTGT TGACAGTTTT GCAAACAGGA 
    GCCTGCTACA AGTCATTACC AAGTAGAAAT GGACCTCTCG CAGTCATCGT GTGCCCTGGG 
    TGGAAGAAGG CCCAATTTAT TTTTGAATTA TTGGGAGAAT ATAGCATGTC CTCCAGGCCT 
    CTTCATCCTG TGCTATTAAC AATTGGGCTC CATAAAGAGG AAGCCAAAAA TACAAAGCTT 
    CCAAGGGGCT GTGATGTGAT TGTTACGACC CCATACAGCC TGCTGAGGCT TCTCGCCTGT 
    CAGAGCCTGC TGTTCCTCAG GCTCTGCCAC CTGATCCTGG ATGAGGTAGA GGTGCTATTC 
    TTGGAAGCCA ATGAACAGAT GTTTGCTATA TTAGATAACT TTAAAAAAAA TATTGAAGTT 
    GAAGAAAGGG AATCTGCACC ACATCAGATT GTTGCAGTTG GAGTTCATTG GAACAAACAT 
    ATAGAACATC TCATCAAAGA GTTCATGAAT GATCCCTACA TTGTGATCAC AGCCATGGAA 
    GAGGCTGCTC TCTATGGCAA TGTCCAACAG GTAGTACATC TTTGCCTAGA ATGTGAAAAA 
    ACTTCTTCTT TACTCCAAGC TCTTGATTTT ATTCCAAGTC AGGCACAAAA GACCTTGATC 
    TTCACCTGCT CTGTAGCTGA AACAGAAATA GTGTGTAAGG TAGTAGAAAG CAGTTCAATA 
    TTTTGCTTGA AGATGCATAA AGAAATGATT TTTAACTTAC AAAATGTTTT AGAACAGTGG 
    AAGAAGAAGT TAAGTTCTGG CTCTCAAATT ATATTAGCCC TCACAGACGA CTGCGTCCCA 
    CTCTTGGCCA TCACCGATGC CACGTGTGTG ATTCACTTCA GTTTCCCTGC CTCACCAAAA 
    GTTTTTGGTG GACGCCTGTA TTGCATGTCT GATCATTTTC ACGCTGAACA GGGTTCTCCT 
    GCAGAACAGG GAGATAAGAA AGCCAAATCT GTCTTGCTGC TGACGGAGAA AGATGCGAGC 
    CATGCGGTGG GCGTCCTGCG CTACTTGGAG CGAGCGGACG CCAAGGTCCC CGCAGAGCTG 
    TACGAGTTCA CCGCAGGAGT TCTGGAAGCC AAAGAAGATA AGAAAGCCGG AAGGCCTCTT 
    TGTCCATATC TGAAGGCTTT TGGTTTTTGC AATCATTTCA TTTTCAGAGA CAAAAGGATC 
    TGTCCTGACC GACACCGTAT TAATCCAGAA ACGGACTTGC CCAGGAAACT GTCCAGCCAA 
    GCCCTACCTT CATTTGGATA CATTAAAATA ATACCTTTTT ATATTTTGAA TGCAACAAAT 
    TACTTTGGCC GTATAGTTGA TAAACACATG GATCTTTATG CAACTCTCAA TGCTGAAATG 
    AATGAGTATT TTAAGGATTC TAATAAAACA ACTGTGGAAA AGGTGGAGAA GTTTGGATTG 
    TATGGATTAG CAGAAAAAAC GCTTTTTCAC AGGGTTCAGG TGTTGGAAGT GAACCAAAAA 
    GAAGACGCCT GGGCCCTGGA TGACATCCTT GTAGAGTTCA TCGATGAAGG CAGGACGGGG 
    CTCGTCACAA GGGACCAGCT GCTGCATCTC CCAGAACATT TCCACACACT TCCCCCGCAG 
    GCTGTGGAGT TTATTGTCTG TAGGGTGAAA CCTGCTGACA ACGAAATAGA ATGGAATCCG 
    AAGGTTACTA GGTACATTCA TCATAAAATT GTTGGAAAAT TGCATGATGC AAAAGTGATC 
    CTGGCTTTGG GAAATACAGT TTGGATTGAT CCAATGGTGC ACATTACAAA CCTTTCCAGT 
    TTAAAAACCT CTGTCATTGA TTATAATGTT CGAGCTGAAA TTTTGTCCAT GGGCATGGGC 
    ATTGATAATC CAGAACACAT AGAACAACTG AAAAAATTAC GCGAAGATGC TAAGATACCA 
    GCTTGTGAAG AAAGCCTAAG CCAGACCCCG CCGAGGGTGA CAGGGACCAG TCCTGCTCAA 
    GACCAGGATC ATCCATCCGA GGAGCAGGGG GGGCAGGGGA CGCCTCCAGC AGAAGATGCT 
    GCTTGCCTGC AGAGCCCCCA GCCTGAGGAC ACGGGTGCAG AAGGAGGGGC TGAGTCCAAG 
    ACGAGCTCAG AAAACCAGAA GCCTGAAACT TTATCTGGAA ACACTGAAGG TGCCTTCATT 
    AGCAGAACTG CACAGCCGCC TCTGAAAAGC TTCCACCCAC AAATAAAATG GTTCCAAAAA 
    GAAGATGTCG TCATCTTAAA GATAAGAATA AGGAATGTAA AGGACTACAA GTGTCAGTAT 
    TTAAGGGATA GAGTCGTTTT CAGTGCTTGG GTGGGAGACA AATTTTACCT GGCTGATCTG 
    GAGCTGCGGG GCAACATAAG GAAAGATGAC TGCCAATGTG TGATTAGAAA CGATGAACCT 
    GTAATCACTC TGGCCAAAGA GAGAAGGGAG GCATGGTGTC ACCTACTCAG ACAGAGGTGA

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

    RefSeq XP_016882947.1
    CDS61..3900
    Translation

    Target ORF information:

    RefSeq Version XM_017027458.1
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017027458.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGCTCCAGC TCCTGGTGCT GAAGATTGAA GATCCAGGTT GCTTCTGGGT TATTATAAAA 
    GGGTGTAGTC CCTTTTTAGA TCATGATGTC GATTATCAAA AATTAAATAG TGCCATGAAT 
    GACTTCTACA ACAGCACGTG TCAAGATATA GAAATAAAAC CCTTAACATT GGAAGAAGGA 
    CAGGTGTGTG TGGTCTATTG TGAGGAGCTA AAGTGCTGGT GCAGGGCCAT TGTCAAATCA 
    ATTACGTCTT CCGCAGACCA GTACCTGGCA GAATGTTTCC TTGTGGACTT TGCCAAGAAC 
    ATTCCAGTCA AATCTAAAAA CATCCGAGTT GTAGTAGAAT CGTTTATGCA GCTTCCCTAT 
    AGAGCAAAAA AATTCAGCCT GTACTGCACA AAGCCTGTCA CATTACACAT TGACTTCTGC 
    CGAGACAGTA CTGACATTGT ACCTGCCAAG AAGTGGGACA ATGCAGCTAT TCAGTACTTT 
    CAGAACCTTC TGAAAGCAAC TACCCAGGTG GAAGCCAGAT TATGTGCTGT GGAAGAAGAT 
    ACATTTGAGG TTTACCTTTA TGTAACTATA AAAGATGAAA AAGTTTGTGT TAATGATGAT 
    CTTGTTGCAA AGAACTATGC TTGTTATATG TCACCTACAA AGAATAAAAA CCTTGATTAT 
    TTAGAAAAAC CAAGATTGAA TATAAAATCA GCACCCTCCT TCAATAAACT CAATCCAGCA 
    CTTACACTCT GGCCAATGTT TTTGCAAGGA AAAGATGTTC AAGGAATGGA AGATTCACAT 
    GGTGTAAATT TTCCGGCACA ATCTCTGCAA CATACATGGT GCAAGGGTAT TGTCGGTGAC 
    CTCAGGCCAA CAGCCACAGC ACAGGACAAA GCTGTAAAAT GTAATATGGA TTCATTGAGA 
    GATTCACCTA AAGACAAATC TGAAAAGAAA CACCATTGCA TCTCTTTAAA AGATACAAAT 
    AAGCGTGTTG AATCCTCAGT GTACTGGCCA GCAAAAAGAG GCATAACCAT ATATGCTGAT 
    CCAGATGTAC CAGAAGCAAG TGCTTTAAGT CAGAAGTCAA ATGAGAAACC TCTTAGATTG 
    ACTGAGAAGA AAGAATATGA TGAGAAGAAT AGCTGTGTGA AATTACTGCA GTTTTTAAAT 
    CCTGATCCTT TGAGAGCTGA CGGAATCTCT GATCTCCAGC AGTTGCAGAA GCTGAAGGGC 
    CTGCAGCCGC CCGTGGTAGT GCTCCGGAAC AAGATCAAGC CCTGCTTAAC CATTGACTCG 
    TCGCCGCTGT CAGCAGACCT GAAGAAGGCT CTTCAAAGAA ATAAGTTTCC GGGCCCCAGC 
    CACACTGAAT CTTACTCTTG GCCTCCCATA GCGCGTGGCT GTGATGTGGT TGTCATTTCT 
    CACTGTGAAA GCAACCCTTT GCTCTACCTC CTACCAGTGT TGACAGTTTT GCAAACAGGA 
    GCCTGCTACA AGTCATTACC AAGTAGAAAT GGACCTCTCG CAGTCATCGT GTGCCCTGGG 
    TGGAAGAAGG CCCAATTTAT TTTTGAATTA TTGGGAGAAT ATAGCATGTC CTCCAGGCCT 
    CTTCATCCTG TGCTATTAAC AATTGGGCTC CATAAAGAGG AAGCCAAAAA TACAAAGCTT 
    CCAAGGGGCT GTGATGTGAT TGTTACGACC CCATACAGCC TGCTGAGGCT TCTCGCCTGT 
    CAGAGCCTGC TGTTCCTCAG GCTCTGCCAC CTGATCCTGG ATGAGGTAGA GGTGCTATTC 
    TTGGAAGCCA ATGAACAGAT GTTTGCTATA TTAGATAACT TTAAAAAAAA TATTGAAGTT 
    GAAGAAAGGG AATCTGCACC ACATCAGATT GTTGCAGTTG GAGTTCATTG GAACAAACAT 
    ATAGAACATC TCATCAAAGA GTTCATGAAT GATCCCTACA TTGTGATCAC AGCCATGGAA 
    GAGGCTGCTC TCTATGGCAA TGTCCAACAG GTAGTACATC TTTGCCTAGA ATGTGAAAAA 
    ACTTCTTCTT TACTCCAAGC TCTTGATTTT ATTCCAAGTC AGGCACAAAA GACCTTGATC 
    TTCACCTGCT CTGTAGCTGA AACAGAAATA GTGTGTAAGG TAGTAGAAAG CAGTTCAATA 
    TTTTGCTTGA AGATGCATAA AGAAATGATT TTTAACTTAC AAAATGTTTT AGAACAGTGG 
    AAGAAGAAGT TAAGTTCTGG CTCTCAAATT ATATTAGCCC TCACAGACGA CTGCGTCCCA 
    CTCTTGGCCA TCACCGATGC CACGTGTGTG ATTCACTTCA GTTTCCCTGC CTCACCAAAA 
    GTTTTTGGTG GACGCCTGTA TTGCATGTCT GATCATTTTC ACGCTGAACA GGGTTCTCCT 
    GCAGAACAGG GAGATAAGAA AGCCAAATCT GTCTTGCTGC TGACGGAGAA AGATGCGAGC 
    CATGCGGTGG GCGTCCTGCG CTACTTGGAG CGAGCGGACG CCAAGGTCCC CGCAGAGCTG 
    TACGAGTTCA CCGCAGGAGT TCTGGAAGCC AAAGAAGATA AGAAAGCCGG AAGGCCTCTT 
    TGTCCATATC TGAAGGCTTT TGGTTTTTGC AATCATTTCA TTTTCAGAGA CAAAAGGATC 
    TGTCCTGACC GACACCGTAT TAATCCAGAA ACGGACTTGC CCAGGAAACT GTCCAGCCAA 
    GCCCTACCTT CATTTGGATA CATTAAAATA ATACCTTTTT ATATTTTGAA TGCAACAAAT 
    TACTTTGGCC GTATAGTTGA TAAACACATG GATCTTTATG CAACTCTCAA TGCTGAAATG 
    AATGAGTATT TTAAGGATTC TAATAAAACA ACTGTGGAAA AGGTGGAGAA GTTTGGATTG 
    TATGGATTAG CAGAAAAAAC GCTTTTTCAC AGGGTTCAGG TGTTGGAAGT GAACCAAAAA 
    GAAGACGCCT GGGCCCTGGA TGACATCCTT GTAGAGTTCA TCGATGAAGG CAGGACGGGG 
    CTCGTCACAA GGGACCAGCT GCTGCATCTC CCAGAACATT TCCACACACT TCCCCCGCAG 
    GCTGTGGAGT TTATTGTCTG TAGGGTGAAA CCTGCTGACA ACGAAATAGA ATGGAATCCG 
    AAGGTTACTA GGTACATTCA TCATAAAATT GTTGGAAAAT TGCATGATGC AAAAGTGATC 
    CTGGCTTTGG GAAATACAGT TTGGATTGAT CCAATGGTGC ACATTACAAA CCTTTCCAGT 
    TTAAAAACCT CTGTCATTGA TTATAATGTT CGAGCTGAAA TTTTGTCCAT GGGCATGGGC 
    ATTGATAATC CAGAACACAT AGAACAACTG AAAAAATTAC GCGAAGATGC TAAGATACCA 
    GCTTGTGAAG AAAGCCTAAG CCAGACCCCG CCGAGGGTGA CAGGGACCAG TCCTGCTCAA 
    GACCAGGATC ATCCATCCGA GGAGCAGGGG GGGCAGGGGA CGCCTCCAGC AGAAGATGCT 
    GCTTGCCTGC AGAGCCCCCA GCCTGAGGAC ACGGGTGCAG AAGGAGGGGC TGAGTCCAAG 
    ACGAGCTCAG AAAACCAGAA GCCTGAAACT TTATCTGGAA ACACTGAAGG TGCCTTCATT 
    AGCAGAACTG CACAGCCGCC TCTGAAAAGC TTCCACCCAC AAATAAAATG GTTCCAAAAA 
    GAAGATGTCG TCATCTTAAA GATAAGAATA AGGAATGTAA AGGACTACAA GTGTCAGTAT 
    TTAAGGGATA GAGTCGTTTT CAGTGCTTGG GTGGGAGACA AATTTTACCT GGCTGATCTG 
    GAGCTGCGGG GCAACATAAG GAAAGATGAC TGCCAATGTG TGATTAGAAA CGATGAACCT 
    GTAATCACTC TGGCCAAAGA GAGAAGGGAG GCATGGTGTC ACCTACTCAG ACAGAGGTGA

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

    TDRD12 ( XM_017027459.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016882948.1 Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OHu88809
    Clone ID Related Accession (Same CDS sequence) XM_017027459.2 , XM_017027459.1
    Accession Version XM_017027459.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3036bp)
    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 putative ATP-dependent RNA helicase TDRD12 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000019.10) 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_017027459.1. ##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
    ATGATTTTTG TGGGGGAGTT TTCTTCTCCC TACACTGTTT CTTTTTTTGC AGGGTGCATT 
    ACTCGGTTTT TAAGGCTGGA GGCTTTCCTT AGATGTCATG CAGTCCTTGA TTGTCTGCCT 
    GTATTTCAAC GTAGAGGCCC AGTGAGCCGA TTACTGCAGT TTTTAAATCC TGATCCTTTG 
    AGAGCTGACG GAATCTCTGA TCTCCAGCAG TTGCAGAAGC TGAAGGGCCT GCAGCCGCCC 
    GTGGTAGTGC TCCGGAACAA GATCAAGCCC TGCTTAACCA TTGACTCGTC GCCGCTGTCA 
    GCAGACCTGA AGAAGGCTCT TCAAAGAAAT AAGTTTCCGG GCCCCAGCCA CACTGAATCT 
    TACTCTTGGC CTCCCATAGC GCGTGGCTGT GATGTGGTTG TCATTTCTCA CTGTGAAAGC 
    AACCCTTTGC TCTACCTCCT ACCAGTGTTG ACAGTTTTGC AAACAGGAGC CTGCTACAAG 
    TCATTACCAA GTAGAAATGG ACCTCTCGCA GTCATCGTGT GCCCTGGGTG GAAGAAGGCC 
    CAATTTATTT TTGAATTATT GGGAGAATAT AGCATGTCCT CCAGGCCTCT TCATCCTGTG 
    CTATTAACAA TTGGGCTCCA TAAAGAGGAA GCCAAAAATA CAAAGCTTCC AAGGGGCTGT 
    GATGTGATTG TTACGACCCC ATACAGCCTG CTGAGGCTTC TCGCCTGTCA GAGCCTGCTG 
    TTCCTCAGGC TCTGCCACCT GATCCTGGAT GAGGTAGAGG TGCTATTCTT GGAAGCCAAT 
    GAACAGATGT TTGCTATATT AGATAACTTT AAAAAAAATA TTGAAGTTGA AGAAAGGGAA 
    TCTGCACCAC ATCAGATTGT TGCAGTTGGA GTTCATTGGA ACAAACATAT AGAACATCTC 
    ATCAAAGAGT TCATGAATGA TCCCTACATT GTGATCACAG CCATGGAAGA GGCTGCTCTC 
    TATGGCAATG TCCAACAGGT AGTACATCTT TGCCTAGAAT GTGAAAAAAC TTCTTCTTTA 
    CTCCAAGCTC TTGATTTTAT TCCAAGTCAG GCACAAAAGA CCTTGATCTT CACCTGCTCT 
    GTAGCTGAAA CAGAAATAGT GTGTAAGGTA GTAGAAAGCA GTTCAATATT TTGCTTGAAG 
    ATGCATAAAG AAATGATTTT TAACTTACAA AATGTTTTAG AACAGTGGAA GAAGAAGTTA 
    AGTTCTGGCT CTCAAATTAT ATTAGCCCTC ACAGACGACT GCGTCCCACT CTTGGCCATC 
    ACCGATGCCA CGTGTGTGAT TCACTTCAGT TTCCCTGCCT CACCAAAAGT TTTTGGTGGA 
    CGCCTGTATT GCATGTCTGA TCATTTTCAC GCTGAACAGG GTTCTCCTGC AGAACAGGGA 
    GATAAGAAAG CCAAATCTGT CTTGCTGCTG ACGGAGAAAG ATGCGAGCCA TGCGGTGGGC 
    GTCCTGCGCT ACTTGGAGCG AGCGGACGCC AAGGTCCCCG CAGAGCTGTA CGAGTTCACC 
    GCAGGAGTTC TGGAAGCCAA AGAAGATAAG AAAGCCGGAA GGCCTCTTTG TCCATATCTG 
    AAGGCTTTTG GTTTTTGCAA TCATTTCATT TTCAGAGACA AAAGGATCTG TCCTGACCGA 
    CACCGTATTA ATCCAGAAAC GGACTTGCCC AGGAAACTGT CCAGCCAAGC CCTACCTTCA 
    TTTGGATACA TTAAAATAAT ACCTTTTTAT ATTTTGAATG CAACAAATTA CTTTGGCCGT 
    ATAGTTGATA AACACATGGA TCTTTATGCA ACTCTCAATG CTGAAATGAA TGAGTATTTT 
    AAGGATTCTA ATAAAACAAC TGTGGAAAAG GTGGAGAAGT TTGGATTGTA TGGATTAGCA 
    GAAAAAACGC TTTTTCACAG GGTTCAGGTG TTGGAAGTGA ACCAAAAAGA AGACGCCTGG 
    GCCCTGGATG ACATCCTTGT AGAGTTCATC GATGAAGGCA GGACGGGGCT CGTCACAAGG 
    GACCAGCTGC TGCATCTCCC AGAACATTTC CACACACTTC CCCCGCAGGC TGTGGAGTTT 
    ATTGTCTGTA GGGTGAAACC TGCTGACAAC GAAATAGAAT GGAATCCGAA GGTTACTAGG 
    TACATTCATC ATAAAATTGT TGGAAAATTG CATGATGCAA AAGTGATCCT GGCTTTGGGA 
    AATACAGTTT GGATTGATCC AATGGTGCAC ATTACAAACC TTTCCAGTTT AAAAACCTCT 
    GTCATTGATT ATAATGTTCG AGCTGAAATT TTGTCCATGG GCATGGGCAT TGATAATCCA 
    GAACACATAG AACAACTGAA AAAATTACGC GAAGATGCTA AGATACCAGC TTGTGAAGAA 
    AGCCTAAGCC AGACCCCGCC GAGGGTGACA GGGACCAGTC CTGCTCAAGA CCAGGATCAT 
    CCATCCGAGG AGCAGGGGGG GCAGGGGACG CCTCCAGCAG AAGATGCTGC TTGCCTGCAG 
    AGCCCCCAGC CTGAGGACAC GGGTGCAGAA GGAGGGGCTG AGTCCAAGAC GAGCTCAGAA 
    AACCAGAAGC CTGAAACTTT ATCTGGAAAC ACTGAAGGTG CCTTCATTAG CAGAACTGCA 
    CAGCCGCCTC TGAAAAGCTT CCACCCACAA ATAAAATGGT TCCAAAAAGA AGATGTCGTC 
    ATCTTAAAGA TAAGAATAAG GAATGTAAAG GACTACAAGT GTCAGTATTT AAGGGATAGA 
    GTCGTTTTCA GTGCTTGGGT GGGAGACAAA TTTTACCTGG CTGATCTGGA GCTGCGGGGC 
    AACATAAGGA AAGATGACTG CCAATGTGTG ATTAGAAACG ATGAACCTGT AATCACTCTG 
    GCCAAAGAGA GAAGGGAGGC ATGGTGTCAC CTACTCAGAC AGAGGAACCC CAACGTGGCT 
    TTTGATTTTG ATCACTGGGA AGACTGTGAA GAGGACAGCC ACTTCCCCAA GGTAGTGAAT 
    TCTAAAAACC TGCCGTACAC AGTGACAGAG GTGGTTGAAG ACAGTAGCAG CACTTCAGAG 
    GATGACGACA GTGAGAGTGA AAGAGAAGGT GAATGA

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

    RefSeq XP_016882948.1
    CDS16..3051
    Translation

    Target ORF information:

    RefSeq Version XM_017027459.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017027459.2

    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
    ATGATTTTTG TGGGGGAGTT TTCTTCTCCC TACACTGTTT CTTTTTTTGC AGGGTGCATT 
    ACTCGGTTTT TAAGGCTGGA GGCTTTCCTT AGATGTCATG CAGTCCTTGA TTGTCTGCCT 
    GTATTTCAAC GTAGAGGCCC AGTGAGCCGA TTACTGCAGT TTTTAAATCC TGATCCTTTG 
    AGAGCTGACG GAATCTCTGA TCTCCAGCAG TTGCAGAAGC TGAAGGGCCT GCAGCCGCCC 
    GTGGTAGTGC TCCGGAACAA GATCAAGCCC TGCTTAACCA TTGACTCGTC GCCGCTGTCA 
    GCAGACCTGA AGAAGGCTCT TCAAAGAAAT AAGTTTCCGG GCCCCAGCCA CACTGAATCT 
    TACTCTTGGC CTCCCATAGC GCGTGGCTGT GATGTGGTTG TCATTTCTCA CTGTGAAAGC 
    AACCCTTTGC TCTACCTCCT ACCAGTGTTG ACAGTTTTGC AAACAGGAGC CTGCTACAAG 
    TCATTACCAA GTAGAAATGG ACCTCTCGCA GTCATCGTGT GCCCTGGGTG GAAGAAGGCC 
    CAATTTATTT TTGAATTATT GGGAGAATAT AGCATGTCCT CCAGGCCTCT TCATCCTGTG 
    CTATTAACAA TTGGGCTCCA TAAAGAGGAA GCCAAAAATA CAAAGCTTCC AAGGGGCTGT 
    GATGTGATTG TTACGACCCC ATACAGCCTG CTGAGGCTTC TCGCCTGTCA GAGCCTGCTG 
    TTCCTCAGGC TCTGCCACCT GATCCTGGAT GAGGTAGAGG TGCTATTCTT GGAAGCCAAT 
    GAACAGATGT TTGCTATATT AGATAACTTT AAAAAAAATA TTGAAGTTGA AGAAAGGGAA 
    TCTGCACCAC ATCAGATTGT TGCAGTTGGA GTTCATTGGA ACAAACATAT AGAACATCTC 
    ATCAAAGAGT TCATGAATGA TCCCTACATT GTGATCACAG CCATGGAAGA GGCTGCTCTC 
    TATGGCAATG TCCAACAGGT AGTACATCTT TGCCTAGAAT GTGAAAAAAC TTCTTCTTTA 
    CTCCAAGCTC TTGATTTTAT TCCAAGTCAG GCACAAAAGA CCTTGATCTT CACCTGCTCT 
    GTAGCTGAAA CAGAAATAGT GTGTAAGGTA GTAGAAAGCA GTTCAATATT TTGCTTGAAG 
    ATGCATAAAG AAATGATTTT TAACTTACAA AATGTTTTAG AACAGTGGAA GAAGAAGTTA 
    AGTTCTGGCT CTCAAATTAT ATTAGCCCTC ACAGACGACT GCGTCCCACT CTTGGCCATC 
    ACCGATGCCA CGTGTGTGAT TCACTTCAGT TTCCCTGCCT CACCAAAAGT TTTTGGTGGA 
    CGCCTGTATT GCATGTCTGA TCATTTTCAC GCTGAACAGG GTTCTCCTGC AGAACAGGGA 
    GATAAGAAAG CCAAATCTGT CTTGCTGCTG ACGGAGAAAG ATGCGAGCCA TGCGGTGGGC 
    GTCCTGCGCT ACTTGGAGCG AGCGGACGCC AAGGTCCCCG CAGAGCTGTA CGAGTTCACC 
    GCAGGAGTTC TGGAAGCCAA AGAAGATAAG AAAGCCGGAA GGCCTCTTTG TCCATATCTG 
    AAGGCTTTTG GTTTTTGCAA TCATTTCATT TTCAGAGACA AAAGGATCTG TCCTGACCGA 
    CACCGTATTA ATCCAGAAAC GGACTTGCCC AGGAAACTGT CCAGCCAAGC CCTACCTTCA 
    TTTGGATACA TTAAAATAAT ACCTTTTTAT ATTTTGAATG CAACAAATTA CTTTGGCCGT 
    ATAGTTGATA AACACATGGA TCTTTATGCA ACTCTCAATG CTGAAATGAA TGAGTATTTT 
    AAGGATTCTA ATAAAACAAC TGTGGAAAAG GTGGAGAAGT TTGGATTGTA TGGATTAGCA 
    GAAAAAACGC TTTTTCACAG GGTTCAGGTG TTGGAAGTGA ACCAAAAAGA AGACGCCTGG 
    GCCCTGGATG ACATCCTTGT AGAGTTCATC GATGAAGGCA GGACGGGGCT CGTCACAAGG 
    GACCAGCTGC TGCATCTCCC AGAACATTTC CACACACTTC CCCCGCAGGC TGTGGAGTTT 
    ATTGTCTGTA GGGTGAAACC TGCTGACAAC GAAATAGAAT GGAATCCGAA GGTTACTAGG 
    TACATTCATC ATAAAATTGT TGGAAAATTG CATGATGCAA AAGTGATCCT GGCTTTGGGA 
    AATACAGTTT GGATTGATCC AATGGTGCAC ATTACAAACC TTTCCAGTTT AAAAACCTCT 
    GTCATTGATT ATAATGTTCG AGCTGAAATT TTGTCCATGG GCATGGGCAT TGATAATCCA 
    GAACACATAG AACAACTGAA AAAATTACGC GAAGATGCTA AGATACCAGC TTGTGAAGAA 
    AGCCTAAGCC AGACCCCGCC GAGGGTGACA GGGACCAGTC CTGCTCAAGA CCAGGATCAT 
    CCATCCGAGG AGCAGGGGGG GCAGGGGACG CCTCCAGCAG AAGATGCTGC TTGCCTGCAG 
    AGCCCCCAGC CTGAGGACAC GGGTGCAGAA GGAGGGGCTG AGTCCAAGAC GAGCTCAGAA 
    AACCAGAAGC CTGAAACTTT ATCTGGAAAC ACTGAAGGTG CCTTCATTAG CAGAACTGCA 
    CAGCCGCCTC TGAAAAGCTT CCACCCACAA ATAAAATGGT TCCAAAAAGA AGATGTCGTC 
    ATCTTAAAGA TAAGAATAAG GAATGTAAAG GACTACAAGT GTCAGTATTT AAGGGATAGA 
    GTCGTTTTCA GTGCTTGGGT GGGAGACAAA TTTTACCTGG CTGATCTGGA GCTGCGGGGC 
    AACATAAGGA AAGATGACTG CCAATGTGTG ATTAGAAACG ATGAACCTGT AATCACTCTG 
    GCCAAAGAGA GAAGGGAGGC ATGGTGTCAC CTACTCAGAC AGAGGAACCC CAACGTGGCT 
    TTTGATTTTG ATCACTGGGA AGACTGTGAA GAGGACAGCC ACTTCCCCAA GGTAGTGAAT 
    TCTAAAAACC TGCCGTACAC AGTGACAGAG GTGGTTGAAG ACAGTAGCAG CACTTCAGAG 
    GATGACGACA GTGAGAGTGA AAGAGAAGGT GAATGA

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

    TDRD12 ( XM_017027459.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016882948.1 Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OHu88809
    Clone ID Related Accession (Same CDS sequence) XM_017027459.2 , XM_017027459.1
    Accession Version XM_017027459.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3036bp)
    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 TDRD12 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000019.10) 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
    2881
    2941
    3001
    ATGATTTTTG TGGGGGAGTT TTCTTCTCCC TACACTGTTT CTTTTTTTGC AGGGTGCATT 
    ACTCGGTTTT TAAGGCTGGA GGCTTTCCTT AGATGTCATG CAGTCCTTGA TTGTCTGCCT 
    GTATTTCAAC GTAGAGGCCC AGTGAGCCGA TTACTGCAGT TTTTAAATCC TGATCCTTTG 
    AGAGCTGACG GAATCTCTGA TCTCCAGCAG TTGCAGAAGC TGAAGGGCCT GCAGCCGCCC 
    GTGGTAGTGC TCCGGAACAA GATCAAGCCC TGCTTAACCA TTGACTCGTC GCCGCTGTCA 
    GCAGACCTGA AGAAGGCTCT TCAAAGAAAT AAGTTTCCGG GCCCCAGCCA CACTGAATCT 
    TACTCTTGGC CTCCCATAGC GCGTGGCTGT GATGTGGTTG TCATTTCTCA CTGTGAAAGC 
    AACCCTTTGC TCTACCTCCT ACCAGTGTTG ACAGTTTTGC AAACAGGAGC CTGCTACAAG 
    TCATTACCAA GTAGAAATGG ACCTCTCGCA GTCATCGTGT GCCCTGGGTG GAAGAAGGCC 
    CAATTTATTT TTGAATTATT GGGAGAATAT AGCATGTCCT CCAGGCCTCT TCATCCTGTG 
    CTATTAACAA TTGGGCTCCA TAAAGAGGAA GCCAAAAATA CAAAGCTTCC AAGGGGCTGT 
    GATGTGATTG TTACGACCCC ATACAGCCTG CTGAGGCTTC TCGCCTGTCA GAGCCTGCTG 
    TTCCTCAGGC TCTGCCACCT GATCCTGGAT GAGGTAGAGG TGCTATTCTT GGAAGCCAAT 
    GAACAGATGT TTGCTATATT AGATAACTTT AAAAAAAATA TTGAAGTTGA AGAAAGGGAA 
    TCTGCACCAC ATCAGATTGT TGCAGTTGGA GTTCATTGGA ACAAACATAT AGAACATCTC 
    ATCAAAGAGT TCATGAATGA TCCCTACATT GTGATCACAG CCATGGAAGA GGCTGCTCTC 
    TATGGCAATG TCCAACAGGT AGTACATCTT TGCCTAGAAT GTGAAAAAAC TTCTTCTTTA 
    CTCCAAGCTC TTGATTTTAT TCCAAGTCAG GCACAAAAGA CCTTGATCTT CACCTGCTCT 
    GTAGCTGAAA CAGAAATAGT GTGTAAGGTA GTAGAAAGCA GTTCAATATT TTGCTTGAAG 
    ATGCATAAAG AAATGATTTT TAACTTACAA AATGTTTTAG AACAGTGGAA GAAGAAGTTA 
    AGTTCTGGCT CTCAAATTAT ATTAGCCCTC ACAGACGACT GCGTCCCACT CTTGGCCATC 
    ACCGATGCCA CGTGTGTGAT TCACTTCAGT TTCCCTGCCT CACCAAAAGT TTTTGGTGGA 
    CGCCTGTATT GCATGTCTGA TCATTTTCAC GCTGAACAGG GTTCTCCTGC AGAACAGGGA 
    GATAAGAAAG CCAAATCTGT CTTGCTGCTG ACGGAGAAAG ATGCGAGCCA TGCGGTGGGC 
    GTCCTGCGCT ACTTGGAGCG AGCGGACGCC AAGGTCCCCG CAGAGCTGTA CGAGTTCACC 
    GCAGGAGTTC TGGAAGCCAA AGAAGATAAG AAAGCCGGAA GGCCTCTTTG TCCATATCTG 
    AAGGCTTTTG GTTTTTGCAA TCATTTCATT TTCAGAGACA AAAGGATCTG TCCTGACCGA 
    CACCGTATTA ATCCAGAAAC GGACTTGCCC AGGAAACTGT CCAGCCAAGC CCTACCTTCA 
    TTTGGATACA TTAAAATAAT ACCTTTTTAT ATTTTGAATG CAACAAATTA CTTTGGCCGT 
    ATAGTTGATA AACACATGGA TCTTTATGCA ACTCTCAATG CTGAAATGAA TGAGTATTTT 
    AAGGATTCTA ATAAAACAAC TGTGGAAAAG GTGGAGAAGT TTGGATTGTA TGGATTAGCA 
    GAAAAAACGC TTTTTCACAG GGTTCAGGTG TTGGAAGTGA ACCAAAAAGA AGACGCCTGG 
    GCCCTGGATG ACATCCTTGT AGAGTTCATC GATGAAGGCA GGACGGGGCT CGTCACAAGG 
    GACCAGCTGC TGCATCTCCC AGAACATTTC CACACACTTC CCCCGCAGGC TGTGGAGTTT 
    ATTGTCTGTA GGGTGAAACC TGCTGACAAC GAAATAGAAT GGAATCCGAA GGTTACTAGG 
    TACATTCATC ATAAAATTGT TGGAAAATTG CATGATGCAA AAGTGATCCT GGCTTTGGGA 
    AATACAGTTT GGATTGATCC AATGGTGCAC ATTACAAACC TTTCCAGTTT AAAAACCTCT 
    GTCATTGATT ATAATGTTCG AGCTGAAATT TTGTCCATGG GCATGGGCAT TGATAATCCA 
    GAACACATAG AACAACTGAA AAAATTACGC GAAGATGCTA AGATACCAGC TTGTGAAGAA 
    AGCCTAAGCC AGACCCCGCC GAGGGTGACA GGGACCAGTC CTGCTCAAGA CCAGGATCAT 
    CCATCCGAGG AGCAGGGGGG GCAGGGGACG CCTCCAGCAG AAGATGCTGC TTGCCTGCAG 
    AGCCCCCAGC CTGAGGACAC GGGTGCAGAA GGAGGGGCTG AGTCCAAGAC GAGCTCAGAA 
    AACCAGAAGC CTGAAACTTT ATCTGGAAAC ACTGAAGGTG CCTTCATTAG CAGAACTGCA 
    CAGCCGCCTC TGAAAAGCTT CCACCCACAA ATAAAATGGT TCCAAAAAGA AGATGTCGTC 
    ATCTTAAAGA TAAGAATAAG GAATGTAAAG GACTACAAGT GTCAGTATTT AAGGGATAGA 
    GTCGTTTTCA GTGCTTGGGT GGGAGACAAA TTTTACCTGG CTGATCTGGA GCTGCGGGGC 
    AACATAAGGA AAGATGACTG CCAATGTGTG ATTAGAAACG ATGAACCTGT AATCACTCTG 
    GCCAAAGAGA GAAGGGAGGC ATGGTGTCAC CTACTCAGAC AGAGGAACCC CAACGTGGCT 
    TTTGATTTTG ATCACTGGGA AGACTGTGAA GAGGACAGCC ACTTCCCCAA GGTAGTGAAT 
    TCTAAAAACC TGCCGTACAC AGTGACAGAG GTGGTTGAAG ACAGTAGCAG CACTTCAGAG 
    GATGACGACA GTGAGAGTGA AAGAGAAGGT GAATGA

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

    RefSeq XP_016882948.1
    CDS16..3051
    Translation

    Target ORF information:

    RefSeq Version XM_017027459.1
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017027459.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    ATGATTTTTG TGGGGGAGTT TTCTTCTCCC TACACTGTTT CTTTTTTTGC AGGGTGCATT 
    ACTCGGTTTT TAAGGCTGGA GGCTTTCCTT AGATGTCATG CAGTCCTTGA TTGTCTGCCT 
    GTATTTCAAC GTAGAGGCCC AGTGAGCCGA TTACTGCAGT TTTTAAATCC TGATCCTTTG 
    AGAGCTGACG GAATCTCTGA TCTCCAGCAG TTGCAGAAGC TGAAGGGCCT GCAGCCGCCC 
    GTGGTAGTGC TCCGGAACAA GATCAAGCCC TGCTTAACCA TTGACTCGTC GCCGCTGTCA 
    GCAGACCTGA AGAAGGCTCT TCAAAGAAAT AAGTTTCCGG GCCCCAGCCA CACTGAATCT 
    TACTCTTGGC CTCCCATAGC GCGTGGCTGT GATGTGGTTG TCATTTCTCA CTGTGAAAGC 
    AACCCTTTGC TCTACCTCCT ACCAGTGTTG ACAGTTTTGC AAACAGGAGC CTGCTACAAG 
    TCATTACCAA GTAGAAATGG ACCTCTCGCA GTCATCGTGT GCCCTGGGTG GAAGAAGGCC 
    CAATTTATTT TTGAATTATT GGGAGAATAT AGCATGTCCT CCAGGCCTCT TCATCCTGTG 
    CTATTAACAA TTGGGCTCCA TAAAGAGGAA GCCAAAAATA CAAAGCTTCC AAGGGGCTGT 
    GATGTGATTG TTACGACCCC ATACAGCCTG CTGAGGCTTC TCGCCTGTCA GAGCCTGCTG 
    TTCCTCAGGC TCTGCCACCT GATCCTGGAT GAGGTAGAGG TGCTATTCTT GGAAGCCAAT 
    GAACAGATGT TTGCTATATT AGATAACTTT AAAAAAAATA TTGAAGTTGA AGAAAGGGAA 
    TCTGCACCAC ATCAGATTGT TGCAGTTGGA GTTCATTGGA ACAAACATAT AGAACATCTC 
    ATCAAAGAGT TCATGAATGA TCCCTACATT GTGATCACAG CCATGGAAGA GGCTGCTCTC 
    TATGGCAATG TCCAACAGGT AGTACATCTT TGCCTAGAAT GTGAAAAAAC TTCTTCTTTA 
    CTCCAAGCTC TTGATTTTAT TCCAAGTCAG GCACAAAAGA CCTTGATCTT CACCTGCTCT 
    GTAGCTGAAA CAGAAATAGT GTGTAAGGTA GTAGAAAGCA GTTCAATATT TTGCTTGAAG 
    ATGCATAAAG AAATGATTTT TAACTTACAA AATGTTTTAG AACAGTGGAA GAAGAAGTTA 
    AGTTCTGGCT CTCAAATTAT ATTAGCCCTC ACAGACGACT GCGTCCCACT CTTGGCCATC 
    ACCGATGCCA CGTGTGTGAT TCACTTCAGT TTCCCTGCCT CACCAAAAGT TTTTGGTGGA 
    CGCCTGTATT GCATGTCTGA TCATTTTCAC GCTGAACAGG GTTCTCCTGC AGAACAGGGA 
    GATAAGAAAG CCAAATCTGT CTTGCTGCTG ACGGAGAAAG ATGCGAGCCA TGCGGTGGGC 
    GTCCTGCGCT ACTTGGAGCG AGCGGACGCC AAGGTCCCCG CAGAGCTGTA CGAGTTCACC 
    GCAGGAGTTC TGGAAGCCAA AGAAGATAAG AAAGCCGGAA GGCCTCTTTG TCCATATCTG 
    AAGGCTTTTG GTTTTTGCAA TCATTTCATT TTCAGAGACA AAAGGATCTG TCCTGACCGA 
    CACCGTATTA ATCCAGAAAC GGACTTGCCC AGGAAACTGT CCAGCCAAGC CCTACCTTCA 
    TTTGGATACA TTAAAATAAT ACCTTTTTAT ATTTTGAATG CAACAAATTA CTTTGGCCGT 
    ATAGTTGATA AACACATGGA TCTTTATGCA ACTCTCAATG CTGAAATGAA TGAGTATTTT 
    AAGGATTCTA ATAAAACAAC TGTGGAAAAG GTGGAGAAGT TTGGATTGTA TGGATTAGCA 
    GAAAAAACGC TTTTTCACAG GGTTCAGGTG TTGGAAGTGA ACCAAAAAGA AGACGCCTGG 
    GCCCTGGATG ACATCCTTGT AGAGTTCATC GATGAAGGCA GGACGGGGCT CGTCACAAGG 
    GACCAGCTGC TGCATCTCCC AGAACATTTC CACACACTTC CCCCGCAGGC TGTGGAGTTT 
    ATTGTCTGTA GGGTGAAACC TGCTGACAAC GAAATAGAAT GGAATCCGAA GGTTACTAGG 
    TACATTCATC ATAAAATTGT TGGAAAATTG CATGATGCAA AAGTGATCCT GGCTTTGGGA 
    AATACAGTTT GGATTGATCC AATGGTGCAC ATTACAAACC TTTCCAGTTT AAAAACCTCT 
    GTCATTGATT ATAATGTTCG AGCTGAAATT TTGTCCATGG GCATGGGCAT TGATAATCCA 
    GAACACATAG AACAACTGAA AAAATTACGC GAAGATGCTA AGATACCAGC TTGTGAAGAA 
    AGCCTAAGCC AGACCCCGCC GAGGGTGACA GGGACCAGTC CTGCTCAAGA CCAGGATCAT 
    CCATCCGAGG AGCAGGGGGG GCAGGGGACG CCTCCAGCAG AAGATGCTGC TTGCCTGCAG 
    AGCCCCCAGC CTGAGGACAC GGGTGCAGAA GGAGGGGCTG AGTCCAAGAC GAGCTCAGAA 
    AACCAGAAGC CTGAAACTTT ATCTGGAAAC ACTGAAGGTG CCTTCATTAG CAGAACTGCA 
    CAGCCGCCTC TGAAAAGCTT CCACCCACAA ATAAAATGGT TCCAAAAAGA AGATGTCGTC 
    ATCTTAAAGA TAAGAATAAG GAATGTAAAG GACTACAAGT GTCAGTATTT AAGGGATAGA 
    GTCGTTTTCA GTGCTTGGGT GGGAGACAAA TTTTACCTGG CTGATCTGGA GCTGCGGGGC 
    AACATAAGGA AAGATGACTG CCAATGTGTG ATTAGAAACG ATGAACCTGT AATCACTCTG 
    GCCAAAGAGA GAAGGGAGGC ATGGTGTCAC CTACTCAGAC AGAGGAACCC CAACGTGGCT 
    TTTGATTTTG ATCACTGGGA AGACTGTGAA GAGGACAGCC ACTTCCCCAA GGTAGTGAAT 
    TCTAAAAACC TGCCGTACAC AGTGACAGAG GTGGTTGAAG ACAGTAGCAG CACTTCAGAG 
    GATGACGACA GTGAGAGTGA AAGAGAAGGT GAATGA

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

    TDRD12 ( NM_001366102.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001353031.1 Homo sapiens tudor domain containing 12 (TDRD12), transcript variant 1, mRNA.
    Price & Availability↑
    CloneID OHu74354
    Clone ID Related Accession (Same CDS sequence) NM_001366102.1 , XM_011527472.2
    Accession Version NM_001366102.1 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 2019-04-30
    Organism Homo sapiens(human)
    Product putative ATP-dependent RNA helicase TDRD12 isoform 1
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC008736.6 and AC008805.8. On Sep 22, 2018 this sequence version replaced XM_011527472.3. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2145245 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## inferred exon combination :: based on alignments, homology RefSeq Select criteria :: based on conservation, expression ##RefSeq-Attributes-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGCTCCAGC TCCTGGTGCT GAAGATTGAA GATCCAGGTT GCTTCTGGGT TATTATAAAA 
    GGGTGTAGTC CCTTTTTAGA TCATGATGTC GATTATCAAA AATTAAATAG TGCCATGAAT 
    GACTTCTACA ACAGCACGTG TCAAGATATA GAAATAAAAC CCTTAACATT GGAAGAAGGA 
    CAGGTGTGTG TGGTCTATTG TGAGGAGCTA AAGTGCTGGT GCAGGGCCAT TGTCAAATCA 
    ATTACGTCTT CCGCAGACCA GTACCTGGCA GAATGTTTCC TTGTGGACTT TGCCAAGAAC 
    ATTCCAGTCA AATCTAAAAA CATCCGAGTT GTAGTAGAAT CGTTTATGCA GCTTCCCTAT 
    AGAGCAAAAA AATTCAGCCT GTACTGCACA AAGCCTGTCA CATTACACAT TGACTTCTGC 
    CGAGACAGTA CTGACATTGT ACCTGCCAAG AAGTGGGACA ATGCAGCTAT TCAGTACTTT 
    CAGAACCTTC TGAAAGCAAC TACCCAGGTG GAAGCCAGAT TATGTGCTGT GGAAGAAGAT 
    ACATTTGAGG TTTACCTTTA TGTAACTATA AAAGATGAAA AAGTTTGTGT TAATGATGAT 
    CTTGTTGCAA AGAACTATGC TTGTTATATG TCACCTACAA AGAATAAAAA CCTTGATTAT 
    TTAGAAAAAC CAAGATTGAA TATAAAATCA GCACCCTCCT TCAATAAACT CAATCCAGCA 
    CTTACACTCT GGCCAATGTT TTTGCAAGGA AAAGATGTTC AAGGAATGGA AGATTCACAT 
    GGTGTAAATT TTCCGGCACA ATCTCTGCAA CATACATGGT GCAAGGGTAT TGTCGGTGAC 
    CTCAGGCCAA CAGCCACAGC ACAGGACAAA GCTGTAAAAT GTAATATGGA TTCATTGAGA 
    GATTCACCTA AAGACAAATC TGAAAAGAAA CACCATTGCA TCTCTTTAAA AGATACAAAT 
    AAGCGTGTTG AATCCTCAGT GTACTGGCCA GCAAAAAGAG GCATAACCAT ATATGCTGAT 
    CCAGATGTAC CAGAAGCAAG TGCTTTAAGT CAGAAGTCAA ATGAGAAACC TCTTAGATTG 
    ACTGAGAAGA AAGAATATGA TGAGAAGAAT AGCTGTGTGA AATTACTGCA GTTTTTAAAT 
    CCTGATCCTT TGAGAGCTGA CGGAATCTCT GATCTCCAGC AGTTGCAGAA GCTGAAGGGC 
    CTGCAGCCGC CCGTGGTAGT GCTCCGGAAC AAGATCAAGC CCTGCTTAAC CATTGACTCG 
    TCGCCGCTGT CAGCAGACCT GAAGAAGGCT CTTCAAAGAA ATAAGTTTCC GGGCCCCAGC 
    CACACTGAAT CTTACTCTTG GCCTCCCATA GCGCGTGGCT GTGATGTGGT TGTCATTTCT 
    CACTGTGAAA GCAACCCTTT GCTCTACCTC CTACCAGTGT TGACAGTTTT GCAAACAGGA 
    GCCTGCTACA AGTCATTACC AAGTAGAAAT GGACCTCTCG CAGTCATCGT GTGCCCTGGG 
    TGGAAGAAGG CCCAATTTAT TTTTGAATTA TTGGGAGAAT ATAGCATGTC CTCCAGGCCT 
    CTTCATCCTG TGCTATTAAC AATTGGGCTC CATAAAGAGG AAGCCAAAAA TACAAAGCTT 
    CCAAGGGGCT GTGATGTGAT TGTTACGACC CCATACAGCC TGCTGAGGCT TCTCGCCTGT 
    CAGAGCCTGC TGTTCCTCAG GCTCTGCCAC CTGATCCTGG ATGAGGTAGA GGTGCTATTC 
    TTGGAAGCCA ATGAACAGAT GTTTGCTATA TTAGATAACT TTAAAAAAAA TATTGAAGTT 
    GAAGAAAGGG AATCTGCACC ACATCAGATT GTTGCAGTTG GAGTTCATTG GAACAAACAT 
    ATAGAACATC TCATCAAAGA GTTCATGAAT GATCCCTACA TTGTGATCAC AGCCATGGAA 
    GAGGCTGCTC TCTATGGCAA TGTCCAACAG GTAGTACATC TTTGCCTAGA ATGTGAAAAA 
    ACTTCTTCTT TACTCCAAGC TCTTGATTTT ATTCCAAGTC AGGCACAAAA GACCTTGATC 
    TTCACCTGCT CTGTAGCTGA AACAGAAATA GTGTGTAAGG TAGTAGAAAG CAGTTCAATA 
    TTTTGCTTGA AGATGCATAA AGAAATGATT TTTAACTTAC AAAATGTTTT AGAACAGTGG 
    AAGAAGAAGT TAAGTTCTGG CTCTCAAATT ATATTAGCCC TCACAGACGA CTGCGTCCCA 
    CTCTTGGCCA TCACCGATGC CACGTGTGTG ATTCACTTCA GTTTCCCTGC CTCACCAAAA 
    GTTTTTGGTG GACGCCTGTA TTGCATGTCT GATCATTTTC ACGCTGAACA GGGTTCTCCT 
    GCAGAACAGG GAGATAAGAA AGCCAAATCT GTCTTGCTGC TGACGGAGAA AGATGCGAGC 
    CATGCGGTGG GCGTCCTGCG CTACTTGGAG CGAGCGGACG CCAAGGTCCC CGCAGAGCTG 
    TACGAGTTCA CCGCAGGAGT TCTGGAAGCC AAAGAAGATA AGAAAGCCGG AAGGCCTCTT 
    TGTCCATATC TGAAGGCTTT TGGTTTTTGC AAAGACAAAA GGATCTGTCC TGACCGACAC 
    CGTATTAATC CAGAAACGGA CTTGCCCAGG AAACTGTCCA GCCAAGCCCT ACCTTCATTT 
    GGATACATTA AAATAATACC TTTTTATATT TTGAATGCAA CAAATTACTT TGGCCGTATA 
    GTTGATAAAC ACATGGATCT TTATGCAACT CTCAATGCTG AAATGAATGA GTATTTTAAG 
    GATTCTAATA AAACAACTGT GGAAAAGGTG GAGAAGTTTG GATTGTATGG ATTAGCAGAA 
    AAAACGCTTT TTCACAGGGT TCAGGTGTTG GAAGTGAACC AAAAAGAAGA CGCCTGGGCC 
    CTGGATGACA TCCTTGTAGA GTTCATCGAT GAAGGCAGGA CGGGGCTCGT CACAAGGGAC 
    CAGCTGCTGC ATCTCCCAGA ACATTTCCAC ACACTTCCCC CGCAGGCTGT GGAGTTTATT 
    GTCTGTAGGG TGAAACCTGC TGACAACGAA ATAGAATGGA ATCCGAAGGT TACTAGGTAC 
    ATTCATCATA AAATTGTTGG AAAATTGCAT GATGCAAAAG TGATCCTGGC TTTGGGAAAT 
    ACAGTTTGGA TTGATCCAAT GGTGCACATT ACAAACCTTT CCAGTTTAAA AACCTCTGTC 
    ATTGATTATA ATGTTCGAGC TGAAATTTTG TCCATGGGCA TGGGCATTGA TAATCCAGAA 
    CACATAGAAC AACTGAAAAA ATTACGCGAA GATGCTAAGA TACCAGCTTG TGAAGAAAGC 
    CTAAGCCAGA CCCCGCCGAG GGTGACAGGG ACCAGTCCTG CTCAAGACCA GGATCATCCA 
    TCCGAGGAGC AGGGGGGGCA GGGGACGCCT CCAGCAGAAG ATGCTGCTTG CCTGCAGAGC 
    CCCCAGCCTG AGGACACGGG TGCAGAAGGA GGGGCTGAGT CCAAGACGAG CTCAGAAAAC 
    CAGAAGCCTG AAACTTTATC TGGAAACACT GAAGGTGCCT TCATTAGCAG AACTGCACAG 
    CCGCCTCTGA AAAGCTTCCA CCCACAAATA AAATGGTTCC AAAAAGAAGA TGTCGTCATC 
    TTAAAGATAA GAATAAGGAA TGTAAAGGAC TACAAGTGTC AGTATTTAAG GGATAGAGTC 
    GTTTTCAGTG CTTGGGTGGG AGACAAATTT TACCTGGCTG ATCTGGAGCT GCGGGGCAAC 
    ATAAGGAAAG ATGACTGCCA ATGTGTGATT AGAAACGATG AACCTGTAAT CACTCTGGCC 
    AAAGAGAGAA GGGAGGCATG GTGTCACCTA CTCAGACAGA GGAACCCCAA CGTGGCTTTT 
    GATTTTGATC ACTGGGAAGA CTGTGAAGAG GACAGCCACT TCCCCAAGGT AGTGAATTCT 
    AAAAACCTGC CGTACACAGT GACAGAGGTG GTTGAAGACA GTAGCAGCAC TTCAGAGGAT 
    GACGACAGTG AGAGTGAAAG AGAAGGTGAA TGA

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

    RefSeq NP_001353031.1
    CDS307..4299
    Translation

    Target ORF information:

    RefSeq Version NM_001366102.1
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 12 (TDRD12), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001366102.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGCTCCAGC TCCTGGTGCT GAAGATTGAA GATCCAGGTT GCTTCTGGGT TATTATAAAA 
    GGGTGTAGTC CCTTTTTAGA TCATGATGTC GATTATCAAA AATTAAATAG TGCCATGAAT 
    GACTTCTACA ACAGCACGTG TCAAGATATA GAAATAAAAC CCTTAACATT GGAAGAAGGA 
    CAGGTGTGTG TGGTCTATTG TGAGGAGCTA AAGTGCTGGT GCAGGGCCAT TGTCAAATCA 
    ATTACGTCTT CCGCAGACCA GTACCTGGCA GAATGTTTCC TTGTGGACTT TGCCAAGAAC 
    ATTCCAGTCA AATCTAAAAA CATCCGAGTT GTAGTAGAAT CGTTTATGCA GCTTCCCTAT 
    AGAGCAAAAA AATTCAGCCT GTACTGCACA AAGCCTGTCA CATTACACAT TGACTTCTGC 
    CGAGACAGTA CTGACATTGT ACCTGCCAAG AAGTGGGACA ATGCAGCTAT TCAGTACTTT 
    CAGAACCTTC TGAAAGCAAC TACCCAGGTG GAAGCCAGAT TATGTGCTGT GGAAGAAGAT 
    ACATTTGAGG TTTACCTTTA TGTAACTATA AAAGATGAAA AAGTTTGTGT TAATGATGAT 
    CTTGTTGCAA AGAACTATGC TTGTTATATG TCACCTACAA AGAATAAAAA CCTTGATTAT 
    TTAGAAAAAC CAAGATTGAA TATAAAATCA GCACCCTCCT TCAATAAACT CAATCCAGCA 
    CTTACACTCT GGCCAATGTT TTTGCAAGGA AAAGATGTTC AAGGAATGGA AGATTCACAT 
    GGTGTAAATT TTCCGGCACA ATCTCTGCAA CATACATGGT GCAAGGGTAT TGTCGGTGAC 
    CTCAGGCCAA CAGCCACAGC ACAGGACAAA GCTGTAAAAT GTAATATGGA TTCATTGAGA 
    GATTCACCTA AAGACAAATC TGAAAAGAAA CACCATTGCA TCTCTTTAAA AGATACAAAT 
    AAGCGTGTTG AATCCTCAGT GTACTGGCCA GCAAAAAGAG GCATAACCAT ATATGCTGAT 
    CCAGATGTAC CAGAAGCAAG TGCTTTAAGT CAGAAGTCAA ATGAGAAACC TCTTAGATTG 
    ACTGAGAAGA AAGAATATGA TGAGAAGAAT AGCTGTGTGA AATTACTGCA GTTTTTAAAT 
    CCTGATCCTT TGAGAGCTGA CGGAATCTCT GATCTCCAGC AGTTGCAGAA GCTGAAGGGC 
    CTGCAGCCGC CCGTGGTAGT GCTCCGGAAC AAGATCAAGC CCTGCTTAAC CATTGACTCG 
    TCGCCGCTGT CAGCAGACCT GAAGAAGGCT CTTCAAAGAA ATAAGTTTCC GGGCCCCAGC 
    CACACTGAAT CTTACTCTTG GCCTCCCATA GCGCGTGGCT GTGATGTGGT TGTCATTTCT 
    CACTGTGAAA GCAACCCTTT GCTCTACCTC CTACCAGTGT TGACAGTTTT GCAAACAGGA 
    GCCTGCTACA AGTCATTACC AAGTAGAAAT GGACCTCTCG CAGTCATCGT GTGCCCTGGG 
    TGGAAGAAGG CCCAATTTAT TTTTGAATTA TTGGGAGAAT ATAGCATGTC CTCCAGGCCT 
    CTTCATCCTG TGCTATTAAC AATTGGGCTC CATAAAGAGG AAGCCAAAAA TACAAAGCTT 
    CCAAGGGGCT GTGATGTGAT TGTTACGACC CCATACAGCC TGCTGAGGCT TCTCGCCTGT 
    CAGAGCCTGC TGTTCCTCAG GCTCTGCCAC CTGATCCTGG ATGAGGTAGA GGTGCTATTC 
    TTGGAAGCCA ATGAACAGAT GTTTGCTATA TTAGATAACT TTAAAAAAAA TATTGAAGTT 
    GAAGAAAGGG AATCTGCACC ACATCAGATT GTTGCAGTTG GAGTTCATTG GAACAAACAT 
    ATAGAACATC TCATCAAAGA GTTCATGAAT GATCCCTACA TTGTGATCAC AGCCATGGAA 
    GAGGCTGCTC TCTATGGCAA TGTCCAACAG GTAGTACATC TTTGCCTAGA ATGTGAAAAA 
    ACTTCTTCTT TACTCCAAGC TCTTGATTTT ATTCCAAGTC AGGCACAAAA GACCTTGATC 
    TTCACCTGCT CTGTAGCTGA AACAGAAATA GTGTGTAAGG TAGTAGAAAG CAGTTCAATA 
    TTTTGCTTGA AGATGCATAA AGAAATGATT TTTAACTTAC AAAATGTTTT AGAACAGTGG 
    AAGAAGAAGT TAAGTTCTGG CTCTCAAATT ATATTAGCCC TCACAGACGA CTGCGTCCCA 
    CTCTTGGCCA TCACCGATGC CACGTGTGTG ATTCACTTCA GTTTCCCTGC CTCACCAAAA 
    GTTTTTGGTG GACGCCTGTA TTGCATGTCT GATCATTTTC ACGCTGAACA GGGTTCTCCT 
    GCAGAACAGG GAGATAAGAA AGCCAAATCT GTCTTGCTGC TGACGGAGAA AGATGCGAGC 
    CATGCGGTGG GCGTCCTGCG CTACTTGGAG CGAGCGGACG CCAAGGTCCC CGCAGAGCTG 
    TACGAGTTCA CCGCAGGAGT TCTGGAAGCC AAAGAAGATA AGAAAGCCGG AAGGCCTCTT 
    TGTCCATATC TGAAGGCTTT TGGTTTTTGC AAAGACAAAA GGATCTGTCC TGACCGACAC 
    CGTATTAATC CAGAAACGGA CTTGCCCAGG AAACTGTCCA GCCAAGCCCT ACCTTCATTT 
    GGATACATTA AAATAATACC TTTTTATATT TTGAATGCAA CAAATTACTT TGGCCGTATA 
    GTTGATAAAC ACATGGATCT TTATGCAACT CTCAATGCTG AAATGAATGA GTATTTTAAG 
    GATTCTAATA AAACAACTGT GGAAAAGGTG GAGAAGTTTG GATTGTATGG ATTAGCAGAA 
    AAAACGCTTT TTCACAGGGT TCAGGTGTTG GAAGTGAACC AAAAAGAAGA CGCCTGGGCC 
    CTGGATGACA TCCTTGTAGA GTTCATCGAT GAAGGCAGGA CGGGGCTCGT CACAAGGGAC 
    CAGCTGCTGC ATCTCCCAGA ACATTTCCAC ACACTTCCCC CGCAGGCTGT GGAGTTTATT 
    GTCTGTAGGG TGAAACCTGC TGACAACGAA ATAGAATGGA ATCCGAAGGT TACTAGGTAC 
    ATTCATCATA AAATTGTTGG AAAATTGCAT GATGCAAAAG TGATCCTGGC TTTGGGAAAT 
    ACAGTTTGGA TTGATCCAAT GGTGCACATT ACAAACCTTT CCAGTTTAAA AACCTCTGTC 
    ATTGATTATA ATGTTCGAGC TGAAATTTTG TCCATGGGCA TGGGCATTGA TAATCCAGAA 
    CACATAGAAC AACTGAAAAA ATTACGCGAA GATGCTAAGA TACCAGCTTG TGAAGAAAGC 
    CTAAGCCAGA CCCCGCCGAG GGTGACAGGG ACCAGTCCTG CTCAAGACCA GGATCATCCA 
    TCCGAGGAGC AGGGGGGGCA GGGGACGCCT CCAGCAGAAG ATGCTGCTTG CCTGCAGAGC 
    CCCCAGCCTG AGGACACGGG TGCAGAAGGA GGGGCTGAGT CCAAGACGAG CTCAGAAAAC 
    CAGAAGCCTG AAACTTTATC TGGAAACACT GAAGGTGCCT TCATTAGCAG AACTGCACAG 
    CCGCCTCTGA AAAGCTTCCA CCCACAAATA AAATGGTTCC AAAAAGAAGA TGTCGTCATC 
    TTAAAGATAA GAATAAGGAA TGTAAAGGAC TACAAGTGTC AGTATTTAAG GGATAGAGTC 
    GTTTTCAGTG CTTGGGTGGG AGACAAATTT TACCTGGCTG ATCTGGAGCT GCGGGGCAAC 
    ATAAGGAAAG ATGACTGCCA ATGTGTGATT AGAAACGATG AACCTGTAAT CACTCTGGCC 
    AAAGAGAGAA GGGAGGCATG GTGTCACCTA CTCAGACAGA GGAACCCCAA CGTGGCTTTT 
    GATTTTGATC ACTGGGAAGA CTGTGAAGAG GACAGCCACT TCCCCAAGGT AGTGAATTCT 
    AAAAACCTGC CGTACACAGT GACAGAGGTG GTTGAAGACA GTAGCAGCAC TTCAGAGGAT 
    GACGACAGTG AGAGTGAAAG AGAAGGTGAA TGA

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

    TDRD12 ( XM_011527472.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011525774.1 Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OHu74354
    Clone ID Related Accession (Same CDS sequence) NM_001366102.1 , XM_011527472.2
    Accession Version XM_011527472.2 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 2016-06-05
    Organism Homo sapiens(human)
    Product putative ATP-dependent RNA helicase TDRD12 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000019.10) 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_011527472.1. ##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
    ATGCTCCAGC TCCTGGTGCT GAAGATTGAA GATCCAGGTT GCTTCTGGGT TATTATAAAA 
    GGGTGTAGTC CCTTTTTAGA TCATGATGTC GATTATCAAA AATTAAATAG TGCCATGAAT 
    GACTTCTACA ACAGCACGTG TCAAGATATA GAAATAAAAC CCTTAACATT GGAAGAAGGA 
    CAGGTGTGTG TGGTCTATTG TGAGGAGCTA AAGTGCTGGT GCAGGGCCAT TGTCAAATCA 
    ATTACGTCTT CCGCAGACCA GTACCTGGCA GAATGTTTCC TTGTGGACTT TGCCAAGAAC 
    ATTCCAGTCA AATCTAAAAA CATCCGAGTT GTAGTAGAAT CGTTTATGCA GCTTCCCTAT 
    AGAGCAAAAA AATTCAGCCT GTACTGCACA AAGCCTGTCA CATTACACAT TGACTTCTGC 
    CGAGACAGTA CTGACATTGT ACCTGCCAAG AAGTGGGACA ATGCAGCTAT TCAGTACTTT 
    CAGAACCTTC TGAAAGCAAC TACCCAGGTG GAAGCCAGAT TATGTGCTGT GGAAGAAGAT 
    ACATTTGAGG TTTACCTTTA TGTAACTATA AAAGATGAAA AAGTTTGTGT TAATGATGAT 
    CTTGTTGCAA AGAACTATGC TTGTTATATG TCACCTACAA AGAATAAAAA CCTTGATTAT 
    TTAGAAAAAC CAAGATTGAA TATAAAATCA GCACCCTCCT TCAATAAACT CAATCCAGCA 
    CTTACACTCT GGCCAATGTT TTTGCAAGGA AAAGATGTTC AAGGAATGGA AGATTCACAT 
    GGTGTAAATT TTCCGGCACA ATCTCTGCAA CATACATGGT GCAAGGGTAT TGTCGGTGAC 
    CTCAGGCCAA CAGCCACAGC ACAGGACAAA GCTGTAAAAT GTAATATGGA TTCATTGAGA 
    GATTCACCTA AAGACAAATC TGAAAAGAAA CACCATTGCA TCTCTTTAAA AGATACAAAT 
    AAGCGTGTTG AATCCTCAGT GTACTGGCCA GCAAAAAGAG GCATAACCAT ATATGCTGAT 
    CCAGATGTAC CAGAAGCAAG TGCTTTAAGT CAGAAGTCAA ATGAGAAACC TCTTAGATTG 
    ACTGAGAAGA AAGAATATGA TGAGAAGAAT AGCTGTGTGA AATTACTGCA GTTTTTAAAT 
    CCTGATCCTT TGAGAGCTGA CGGAATCTCT GATCTCCAGC AGTTGCAGAA GCTGAAGGGC 
    CTGCAGCCGC CCGTGGTAGT GCTCCGGAAC AAGATCAAGC CCTGCTTAAC CATTGACTCG 
    TCGCCGCTGT CAGCAGACCT GAAGAAGGCT CTTCAAAGAA ATAAGTTTCC GGGCCCCAGC 
    CACACTGAAT CTTACTCTTG GCCTCCCATA GCGCGTGGCT GTGATGTGGT TGTCATTTCT 
    CACTGTGAAA GCAACCCTTT GCTCTACCTC CTACCAGTGT TGACAGTTTT GCAAACAGGA 
    GCCTGCTACA AGTCATTACC AAGTAGAAAT GGACCTCTCG CAGTCATCGT GTGCCCTGGG 
    TGGAAGAAGG CCCAATTTAT TTTTGAATTA TTGGGAGAAT ATAGCATGTC CTCCAGGCCT 
    CTTCATCCTG TGCTATTAAC AATTGGGCTC CATAAAGAGG AAGCCAAAAA TACAAAGCTT 
    CCAAGGGGCT GTGATGTGAT TGTTACGACC CCATACAGCC TGCTGAGGCT TCTCGCCTGT 
    CAGAGCCTGC TGTTCCTCAG GCTCTGCCAC CTGATCCTGG ATGAGGTAGA GGTGCTATTC 
    TTGGAAGCCA ATGAACAGAT GTTTGCTATA TTAGATAACT TTAAAAAAAA TATTGAAGTT 
    GAAGAAAGGG AATCTGCACC ACATCAGATT GTTGCAGTTG GAGTTCATTG GAACAAACAT 
    ATAGAACATC TCATCAAAGA GTTCATGAAT GATCCCTACA TTGTGATCAC AGCCATGGAA 
    GAGGCTGCTC TCTATGGCAA TGTCCAACAG GTAGTACATC TTTGCCTAGA ATGTGAAAAA 
    ACTTCTTCTT TACTCCAAGC TCTTGATTTT ATTCCAAGTC AGGCACAAAA GACCTTGATC 
    TTCACCTGCT CTGTAGCTGA AACAGAAATA GTGTGTAAGG TAGTAGAAAG CAGTTCAATA 
    TTTTGCTTGA AGATGCATAA AGAAATGATT TTTAACTTAC AAAATGTTTT AGAACAGTGG 
    AAGAAGAAGT TAAGTTCTGG CTCTCAAATT ATATTAGCCC TCACAGACGA CTGCGTCCCA 
    CTCTTGGCCA TCACCGATGC CACGTGTGTG ATTCACTTCA GTTTCCCTGC CTCACCAAAA 
    GTTTTTGGTG GACGCCTGTA TTGCATGTCT GATCATTTTC ACGCTGAACA GGGTTCTCCT 
    GCAGAACAGG GAGATAAGAA AGCCAAATCT GTCTTGCTGC TGACGGAGAA AGATGCGAGC 
    CATGCGGTGG GCGTCCTGCG CTACTTGGAG CGAGCGGACG CCAAGGTCCC CGCAGAGCTG 
    TACGAGTTCA CCGCAGGAGT TCTGGAAGCC AAAGAAGATA AGAAAGCCGG AAGGCCTCTT 
    TGTCCATATC TGAAGGCTTT TGGTTTTTGC AAAGACAAAA GGATCTGTCC TGACCGACAC 
    CGTATTAATC CAGAAACGGA CTTGCCCAGG AAACTGTCCA GCCAAGCCCT ACCTTCATTT 
    GGATACATTA AAATAATACC TTTTTATATT TTGAATGCAA CAAATTACTT TGGCCGTATA 
    GTTGATAAAC ACATGGATCT TTATGCAACT CTCAATGCTG AAATGAATGA GTATTTTAAG 
    GATTCTAATA AAACAACTGT GGAAAAGGTG GAGAAGTTTG GATTGTATGG ATTAGCAGAA 
    AAAACGCTTT TTCACAGGGT TCAGGTGTTG GAAGTGAACC AAAAAGAAGA CGCCTGGGCC 
    CTGGATGACA TCCTTGTAGA GTTCATCGAT GAAGGCAGGA CGGGGCTCGT CACAAGGGAC 
    CAGCTGCTGC ATCTCCCAGA ACATTTCCAC ACACTTCCCC CGCAGGCTGT GGAGTTTATT 
    GTCTGTAGGG TGAAACCTGC TGACAACGAA ATAGAATGGA ATCCGAAGGT TACTAGGTAC 
    ATTCATCATA AAATTGTTGG AAAATTGCAT GATGCAAAAG TGATCCTGGC TTTGGGAAAT 
    ACAGTTTGGA TTGATCCAAT GGTGCACATT ACAAACCTTT CCAGTTTAAA AACCTCTGTC 
    ATTGATTATA ATGTTCGAGC TGAAATTTTG TCCATGGGCA TGGGCATTGA TAATCCAGAA 
    CACATAGAAC AACTGAAAAA ATTACGCGAA GATGCTAAGA TACCAGCTTG TGAAGAAAGC 
    CTAAGCCAGA CCCCGCCGAG GGTGACAGGG ACCAGTCCTG CTCAAGACCA GGATCATCCA 
    TCCGAGGAGC AGGGGGGGCA GGGGACGCCT CCAGCAGAAG ATGCTGCTTG CCTGCAGAGC 
    CCCCAGCCTG AGGACACGGG TGCAGAAGGA GGGGCTGAGT CCAAGACGAG CTCAGAAAAC 
    CAGAAGCCTG AAACTTTATC TGGAAACACT GAAGGTGCCT TCATTAGCAG AACTGCACAG 
    CCGCCTCTGA AAAGCTTCCA CCCACAAATA AAATGGTTCC AAAAAGAAGA TGTCGTCATC 
    TTAAAGATAA GAATAAGGAA TGTAAAGGAC TACAAGTGTC AGTATTTAAG GGATAGAGTC 
    GTTTTCAGTG CTTGGGTGGG AGACAAATTT TACCTGGCTG ATCTGGAGCT GCGGGGCAAC 
    ATAAGGAAAG ATGACTGCCA ATGTGTGATT AGAAACGATG AACCTGTAAT CACTCTGGCC 
    AAAGAGAGAA GGGAGGCATG GTGTCACCTA CTCAGACAGA GGAACCCCAA CGTGGCTTTT 
    GATTTTGATC ACTGGGAAGA CTGTGAAGAG GACAGCCACT TCCCCAAGGT AGTGAATTCT 
    AAAAACCTGC CGTACACAGT GACAGAGGTG GTTGAAGACA GTAGCAGCAC TTCAGAGGAT 
    GACGACAGTG AGAGTGAAAG AGAAGGTGAA TGA

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

    RefSeq XP_011525774.1
    CDS61..4053
    Translation

    Target ORF information:

    RefSeq Version XM_011527472.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011527472.2

    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
    ATGCTCCAGC TCCTGGTGCT GAAGATTGAA GATCCAGGTT GCTTCTGGGT TATTATAAAA 
    GGGTGTAGTC CCTTTTTAGA TCATGATGTC GATTATCAAA AATTAAATAG TGCCATGAAT 
    GACTTCTACA ACAGCACGTG TCAAGATATA GAAATAAAAC CCTTAACATT GGAAGAAGGA 
    CAGGTGTGTG TGGTCTATTG TGAGGAGCTA AAGTGCTGGT GCAGGGCCAT TGTCAAATCA 
    ATTACGTCTT CCGCAGACCA GTACCTGGCA GAATGTTTCC TTGTGGACTT TGCCAAGAAC 
    ATTCCAGTCA AATCTAAAAA CATCCGAGTT GTAGTAGAAT CGTTTATGCA GCTTCCCTAT 
    AGAGCAAAAA AATTCAGCCT GTACTGCACA AAGCCTGTCA CATTACACAT TGACTTCTGC 
    CGAGACAGTA CTGACATTGT ACCTGCCAAG AAGTGGGACA ATGCAGCTAT TCAGTACTTT 
    CAGAACCTTC TGAAAGCAAC TACCCAGGTG GAAGCCAGAT TATGTGCTGT GGAAGAAGAT 
    ACATTTGAGG TTTACCTTTA TGTAACTATA AAAGATGAAA AAGTTTGTGT TAATGATGAT 
    CTTGTTGCAA AGAACTATGC TTGTTATATG TCACCTACAA AGAATAAAAA CCTTGATTAT 
    TTAGAAAAAC CAAGATTGAA TATAAAATCA GCACCCTCCT TCAATAAACT CAATCCAGCA 
    CTTACACTCT GGCCAATGTT TTTGCAAGGA AAAGATGTTC AAGGAATGGA AGATTCACAT 
    GGTGTAAATT TTCCGGCACA ATCTCTGCAA CATACATGGT GCAAGGGTAT TGTCGGTGAC 
    CTCAGGCCAA CAGCCACAGC ACAGGACAAA GCTGTAAAAT GTAATATGGA TTCATTGAGA 
    GATTCACCTA AAGACAAATC TGAAAAGAAA CACCATTGCA TCTCTTTAAA AGATACAAAT 
    AAGCGTGTTG AATCCTCAGT GTACTGGCCA GCAAAAAGAG GCATAACCAT ATATGCTGAT 
    CCAGATGTAC CAGAAGCAAG TGCTTTAAGT CAGAAGTCAA ATGAGAAACC TCTTAGATTG 
    ACTGAGAAGA AAGAATATGA TGAGAAGAAT AGCTGTGTGA AATTACTGCA GTTTTTAAAT 
    CCTGATCCTT TGAGAGCTGA CGGAATCTCT GATCTCCAGC AGTTGCAGAA GCTGAAGGGC 
    CTGCAGCCGC CCGTGGTAGT GCTCCGGAAC AAGATCAAGC CCTGCTTAAC CATTGACTCG 
    TCGCCGCTGT CAGCAGACCT GAAGAAGGCT CTTCAAAGAA ATAAGTTTCC GGGCCCCAGC 
    CACACTGAAT CTTACTCTTG GCCTCCCATA GCGCGTGGCT GTGATGTGGT TGTCATTTCT 
    CACTGTGAAA GCAACCCTTT GCTCTACCTC CTACCAGTGT TGACAGTTTT GCAAACAGGA 
    GCCTGCTACA AGTCATTACC AAGTAGAAAT GGACCTCTCG CAGTCATCGT GTGCCCTGGG 
    TGGAAGAAGG CCCAATTTAT TTTTGAATTA TTGGGAGAAT ATAGCATGTC CTCCAGGCCT 
    CTTCATCCTG TGCTATTAAC AATTGGGCTC CATAAAGAGG AAGCCAAAAA TACAAAGCTT 
    CCAAGGGGCT GTGATGTGAT TGTTACGACC CCATACAGCC TGCTGAGGCT TCTCGCCTGT 
    CAGAGCCTGC TGTTCCTCAG GCTCTGCCAC CTGATCCTGG ATGAGGTAGA GGTGCTATTC 
    TTGGAAGCCA ATGAACAGAT GTTTGCTATA TTAGATAACT TTAAAAAAAA TATTGAAGTT 
    GAAGAAAGGG AATCTGCACC ACATCAGATT GTTGCAGTTG GAGTTCATTG GAACAAACAT 
    ATAGAACATC TCATCAAAGA GTTCATGAAT GATCCCTACA TTGTGATCAC AGCCATGGAA 
    GAGGCTGCTC TCTATGGCAA TGTCCAACAG GTAGTACATC TTTGCCTAGA ATGTGAAAAA 
    ACTTCTTCTT TACTCCAAGC TCTTGATTTT ATTCCAAGTC AGGCACAAAA GACCTTGATC 
    TTCACCTGCT CTGTAGCTGA AACAGAAATA GTGTGTAAGG TAGTAGAAAG CAGTTCAATA 
    TTTTGCTTGA AGATGCATAA AGAAATGATT TTTAACTTAC AAAATGTTTT AGAACAGTGG 
    AAGAAGAAGT TAAGTTCTGG CTCTCAAATT ATATTAGCCC TCACAGACGA CTGCGTCCCA 
    CTCTTGGCCA TCACCGATGC CACGTGTGTG ATTCACTTCA GTTTCCCTGC CTCACCAAAA 
    GTTTTTGGTG GACGCCTGTA TTGCATGTCT GATCATTTTC ACGCTGAACA GGGTTCTCCT 
    GCAGAACAGG GAGATAAGAA AGCCAAATCT GTCTTGCTGC TGACGGAGAA AGATGCGAGC 
    CATGCGGTGG GCGTCCTGCG CTACTTGGAG CGAGCGGACG CCAAGGTCCC CGCAGAGCTG 
    TACGAGTTCA CCGCAGGAGT TCTGGAAGCC AAAGAAGATA AGAAAGCCGG AAGGCCTCTT 
    TGTCCATATC TGAAGGCTTT TGGTTTTTGC AAAGACAAAA GGATCTGTCC TGACCGACAC 
    CGTATTAATC CAGAAACGGA CTTGCCCAGG AAACTGTCCA GCCAAGCCCT ACCTTCATTT 
    GGATACATTA AAATAATACC TTTTTATATT TTGAATGCAA CAAATTACTT TGGCCGTATA 
    GTTGATAAAC ACATGGATCT TTATGCAACT CTCAATGCTG AAATGAATGA GTATTTTAAG 
    GATTCTAATA AAACAACTGT GGAAAAGGTG GAGAAGTTTG GATTGTATGG ATTAGCAGAA 
    AAAACGCTTT TTCACAGGGT TCAGGTGTTG GAAGTGAACC AAAAAGAAGA CGCCTGGGCC 
    CTGGATGACA TCCTTGTAGA GTTCATCGAT GAAGGCAGGA CGGGGCTCGT CACAAGGGAC 
    CAGCTGCTGC ATCTCCCAGA ACATTTCCAC ACACTTCCCC CGCAGGCTGT GGAGTTTATT 
    GTCTGTAGGG TGAAACCTGC TGACAACGAA ATAGAATGGA ATCCGAAGGT TACTAGGTAC 
    ATTCATCATA AAATTGTTGG AAAATTGCAT GATGCAAAAG TGATCCTGGC TTTGGGAAAT 
    ACAGTTTGGA TTGATCCAAT GGTGCACATT ACAAACCTTT CCAGTTTAAA AACCTCTGTC 
    ATTGATTATA ATGTTCGAGC TGAAATTTTG TCCATGGGCA TGGGCATTGA TAATCCAGAA 
    CACATAGAAC AACTGAAAAA ATTACGCGAA GATGCTAAGA TACCAGCTTG TGAAGAAAGC 
    CTAAGCCAGA CCCCGCCGAG GGTGACAGGG ACCAGTCCTG CTCAAGACCA GGATCATCCA 
    TCCGAGGAGC AGGGGGGGCA GGGGACGCCT CCAGCAGAAG ATGCTGCTTG CCTGCAGAGC 
    CCCCAGCCTG AGGACACGGG TGCAGAAGGA GGGGCTGAGT CCAAGACGAG CTCAGAAAAC 
    CAGAAGCCTG AAACTTTATC TGGAAACACT GAAGGTGCCT TCATTAGCAG AACTGCACAG 
    CCGCCTCTGA AAAGCTTCCA CCCACAAATA AAATGGTTCC AAAAAGAAGA TGTCGTCATC 
    TTAAAGATAA GAATAAGGAA TGTAAAGGAC TACAAGTGTC AGTATTTAAG GGATAGAGTC 
    GTTTTCAGTG CTTGGGTGGG AGACAAATTT TACCTGGCTG ATCTGGAGCT GCGGGGCAAC 
    ATAAGGAAAG ATGACTGCCA ATGTGTGATT AGAAACGATG AACCTGTAAT CACTCTGGCC 
    AAAGAGAGAA GGGAGGCATG GTGTCACCTA CTCAGACAGA GGAACCCCAA CGTGGCTTTT 
    GATTTTGATC ACTGGGAAGA CTGTGAAGAG GACAGCCACT TCCCCAAGGT AGTGAATTCT 
    AAAAACCTGC CGTACACAGT GACAGAGGTG GTTGAAGACA GTAGCAGCAC TTCAGAGGAT 
    GACGACAGTG AGAGTGAAAG AGAAGGTGAA TGA

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

    TDRD12 ( XM_011527473.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011525775.1 Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OHu74355
    Clone ID Related Accession (Same CDS sequence) XM_011527473.2 , XM_011527473.3
    Accession Version XM_011527473.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3978bp)
    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 TDRD12 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000019.10) 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_011527473.1. ##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
    ATGCTCCAGC TCCTGGTGCT GAAGATTGAA GATCCAGGTT GCTTCTGGGT TATTATAAAA 
    GGGTGTAGTC CCTTTTTAGA TCATGATGTC GATTATCAAA AATTAAATAG TGCCATGAAT 
    GACTTCTACA ACAGCACGTG TCAAGATATA GAAATAAAAC CCTTAACATT GGAAGAAGGA 
    CAGGTGTGTG TGGTCTATTG TGAGGAGCTA AAGTGCTGGT GCAGGGCCAT TGTCAAATCA 
    ATTACGTCTT CCGCAGACCA GTACCTGGCA GAATGTTTCC TTGTGGACTT TGCCAAGAAC 
    ATTCCAGTCA AATCTAAAAA CATCCGAGTT GTAGTAGAAT CGTTTATGCA GCTTCCCTAT 
    AGAGCAAAAA AATTCAGCCT GTACTGCACA AAGCCTGTCA CATTACACAT TGACTTCTGC 
    CGAGACAGTA CTGACATTGT ACCTGCCAAG AAGTGGGACA ATGCAGCTAT TCAGTACTTT 
    CAGAACCTTC TGAAAGCAAC TACCCAGGTG GAAGCCAGAT TATGTGCTGT GGAAGAAGAT 
    ACATTTGAGG TTTACCTTTA TGTAACTATA AAAGATGAAA AAGTTTGTGT TAATGATGAT 
    CTTGTTGCAA AGAACTATGC TTGTTATATG TCACCTACAA AGAATAAAAA CCTTGATTAT 
    TTAGAAAAAC CAAGATTGAA TATAAAATCA GCACCCTCCT TCAATAAACT CAATCCAGCA 
    CTTACACTCT GGCCAATGTT TTTGCAAGGA AAAGATGTTC AAGGAATGGA AGATTCACAT 
    GGTGTAAATT TTCCGGCACA ATCTCTGCAA CATACATGGT GCAAGGGTAT TGTCGGTGAC 
    CTCAGGCCAA CAGCCACAGC ACAGGACAAA GCTGTAAAAT GTAATATGGA TTCATTGAGA 
    GATTCACCTA AAGACAAATC TGAAAAGAAA CACCATTGCA TCTCTTTAAA AGATACAAAT 
    AAGCGTGTTG AATCCTCAGT GTACTGGCCA GCAAAAAGAG GCATAACCAT ATATGCTGAT 
    CCAGATGTAC CAGAAGCAAG TGCTTTAAGT CAGAAGTCAA ATGAGAAACC TCTTAGATTG 
    ACTGAGAAGA AAGAATATGA TGAGAAGAAT AGCTGTGTGA AATTACTGCA GTTTTTAAAT 
    CCTGATCCTT TGAGAGCTGA CGGAATCTCT GATCTCCAGC AGTTGCAGAA GCTGAAGGGC 
    CTGCAGCCGC CCGTGGTAGT GCTCCGGAAC AAGATCAAGC CCTGCTTAAC CATTGACTCG 
    TCGCCGCTGT CAGCAGACCT GAAGAAGGCT CTTCAAAGAA ATAAGTTTCC GGGCCCCAGC 
    CACACTGAAT CTTACTCTTG GCCTCCCATA GCGCGTGGCT GTGATGTGGT TGTCATTTCT 
    CACTGTGAAA GCAACCCTTT GCTCTACCTC CTACCAGTGT TGACAGTTTT GCAAACAGGA 
    GCCTGCTACA AGTCATTACC AAGTAGAAAT GGACCTCTCG CAGTCATCGT GTGCCCTGGG 
    TGGAAGAAGG CCCAATTTAT TTTTGAATTA TTGGGAGAAT ATAGCATGTC CTCCAGGCCT 
    CTTCATCCTG TGCTATTAAC AATTGGGCTC CATAAAGAGG AAGCCAAAAA TACAAAGCTT 
    CCAAGGGGCT GTGATGTGAT TGTTACGACC CCATACAGCC TGCTGAGGCT TCTCGCCTGT 
    CAGAGCCTGC TGTTCCTCAG GCTCTGCCAC CTGATCCTGG ATGAGGTAGA GGTGCTATTC 
    TTGGAAGCCA ATGAACAGAT GTTTGCTATA TTAGATAACT TTAAAAAAAA TATTGAAGTT 
    GAAGAAAGGG AATCTGCACC ACATCAGATT GTTGCAGTTG GAGTTCATTG GAACAAACAT 
    ATAGAACATC TCATCAAAGA GTTCATGAAT GATCCCTACA TTGTGATCAC AGCCATGGAA 
    GAGGCTGCTC TCTATGGCAA TGTCCAACAG GTAGTACATC TTTGCCTAGA ATGTGAAAAA 
    ACTTCTTCTT TACTCCAAGC TCTTGATTTT ATTCCAAGTC AGGCACAAAA GACCTTGATC 
    TTCACCTGCT CTGTAGCTGA AACAGAAATA GTGTGTAAGG TAGTAGAAAG CAGTTCAATA 
    TTTTGCTTGA AGATGCATAA AGAAATGATT TTTAACTTAC AAAATGTTTT AGAACAGTGG 
    AAGAAGAAGT TAAGTTCTGG CTCTCAAATT ATATTAGCCC TCACAGACGA CTGCGTCCCA 
    CTCTTGGCCA TCACCGATGC CACGTGTGTG ATTCACTTCA GTTTCCCTGC CTCACCAAAA 
    GTTTTTGGTG GACGCCTGTA TTGCATGTCT GATCATTTTC ACGCTGAACA GGGTTCTCCT 
    GCAGAACAGG GAGATAAGAA AGCCAAATCT GTCTTGCTGC TGACGGAGAA AGATGCGAGC 
    CATGCGGTGG GCGTCCTGCG CTACTTGGAG CGAGCGGACG CCAAGGTCCC CGCAGAGCTG 
    TACGAGTTCA CCGCAGGAGT TCTGGAAGCC AAAGAAGATA AGAAAGCCGG AAGGCCTCTT 
    TGTCCATATC TGAAGGCTTT TGGTTTTTGC AATCATTTCA TTTTCAGAGA CAAAAGGATC 
    TGTCCTGACC GACACCGTAT TAATCCAGAA ACGGACTTGC CCAGGAAACT GTCCAGCCAA 
    GCCCTACCTT CATTTGGATA CATTAAAATA ATACCTTTTT ATATTTTGAA TGCAACAAAT 
    TACTTTGGCC GTATAGTTGA TAAACACATG GATCTTTATG CAACTCTCAA TGCTGAAATG 
    AATGAGTATT TTAAGGATTC TAATAAAACA ACTGTGGAAA AGGTGGAGAA GTTTGGATTG 
    TATGGATTAG CAGAAAAAAC GCTTTTTCAC AGGGTTCAGG TGTTGGAAGT GAACCAAAAA 
    GAAGACGCCT GGGCCCTGGA TGACATCCTT GTAGAGTTCA TCGATGAAGG CAGGACGGGG 
    CTCGTCACAA GGGACCAGCT GCTGCATCTC CCAGAACATT TCCACACACT TCCCCCGCAG 
    GCTGTGGAGT TTATTGTCTG TAGGGTGAAA CCTGCTGACA ACGAAATAGA ATGGAATCCG 
    AAGGTTACTA GGTACATTCA TCATAAAATT GTTGGAAAAT TGCATGATGC AAAAGTGATC 
    CTGGCTTTGG GAAATACAGT TTGGATTGAT CCAATGGTGC ACATTACAAA CCTTTCCAGT 
    TTAAAAACCT CTGTCATTGA TTATAATGTT CGAGCTGAAA TTTTGTCCAT GGGCATGGGC 
    ATTGATAATC CAGAACACAT AGAACAACTG AAAAAATTAC GCGAAGATGC TAAGATACCA 
    GCTTGTGAAG AAAGCCTAAG CCAGACCCCG CCGAGGGTGA CAGGGACCAG TCCTGCTCAA 
    GACCAGGATC ATCCATCCGA GGAGCAGGGG GGGCAGGGGA CGCCTCCAGC AGAAGATGCT 
    GCTTGCCTGC AGAGCCCCCA GCCTGAGGAC ACGGGTGCAG AAGGAGGGGC TGAGTCCAAG 
    ACGAGCTCAG AAAACCAGAA GCCTGAAACT TTATCTGGAA ACACTGAAGG TGCCTTCATT 
    AGCAGAACTG CACAGCCGCC TCTGAAAAGC TTCCACCCAC AAATAAAATG GTTCCAAAAA 
    GAAGATGTCG TCATCTTAAA GATAAGAATA AGGAATGTAA AGGACTACAA GTGTCAGTAT 
    TTAAGGGATA GAGTCGTTTT CAGTGCTTGG GTGGGAGACA AATTTTACCT GGCTGATCTG 
    GAGCTGCGGG GCAACATAAG GAAAGATGAC TGCCAATGTG TGATTAGAAA CGATGAACCT 
    GTAATCACTC TGGCCAAAGA GAGAAGGGAG GCATGGTGTC ACCTACTCAG ACAGAGGAAC 
    CCCAACGTGG CTTTTGATTT TGATCACTGG GAAGACTGTG AAGAGGACAG CCACTTCCCC 
    AAGGTGACAG AGGTGGTTGA AGACAGTAGC AGCACTTCAG AGGATGACGA CAGTGAGAGT 
    GAAAGAGAAG GTGAATGA

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

    RefSeq XP_011525775.1
    CDS61..4038
    Translation

    Target ORF information:

    RefSeq Version XM_011527473.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011527473.2

    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
    ATGCTCCAGC TCCTGGTGCT GAAGATTGAA GATCCAGGTT GCTTCTGGGT TATTATAAAA 
    GGGTGTAGTC CCTTTTTAGA TCATGATGTC GATTATCAAA AATTAAATAG TGCCATGAAT 
    GACTTCTACA ACAGCACGTG TCAAGATATA GAAATAAAAC CCTTAACATT GGAAGAAGGA 
    CAGGTGTGTG TGGTCTATTG TGAGGAGCTA AAGTGCTGGT GCAGGGCCAT TGTCAAATCA 
    ATTACGTCTT CCGCAGACCA GTACCTGGCA GAATGTTTCC TTGTGGACTT TGCCAAGAAC 
    ATTCCAGTCA AATCTAAAAA CATCCGAGTT GTAGTAGAAT CGTTTATGCA GCTTCCCTAT 
    AGAGCAAAAA AATTCAGCCT GTACTGCACA AAGCCTGTCA CATTACACAT TGACTTCTGC 
    CGAGACAGTA CTGACATTGT ACCTGCCAAG AAGTGGGACA ATGCAGCTAT TCAGTACTTT 
    CAGAACCTTC TGAAAGCAAC TACCCAGGTG GAAGCCAGAT TATGTGCTGT GGAAGAAGAT 
    ACATTTGAGG TTTACCTTTA TGTAACTATA AAAGATGAAA AAGTTTGTGT TAATGATGAT 
    CTTGTTGCAA AGAACTATGC TTGTTATATG TCACCTACAA AGAATAAAAA CCTTGATTAT 
    TTAGAAAAAC CAAGATTGAA TATAAAATCA GCACCCTCCT TCAATAAACT CAATCCAGCA 
    CTTACACTCT GGCCAATGTT TTTGCAAGGA AAAGATGTTC AAGGAATGGA AGATTCACAT 
    GGTGTAAATT TTCCGGCACA ATCTCTGCAA CATACATGGT GCAAGGGTAT TGTCGGTGAC 
    CTCAGGCCAA CAGCCACAGC ACAGGACAAA GCTGTAAAAT GTAATATGGA TTCATTGAGA 
    GATTCACCTA AAGACAAATC TGAAAAGAAA CACCATTGCA TCTCTTTAAA AGATACAAAT 
    AAGCGTGTTG AATCCTCAGT GTACTGGCCA GCAAAAAGAG GCATAACCAT ATATGCTGAT 
    CCAGATGTAC CAGAAGCAAG TGCTTTAAGT CAGAAGTCAA ATGAGAAACC TCTTAGATTG 
    ACTGAGAAGA AAGAATATGA TGAGAAGAAT AGCTGTGTGA AATTACTGCA GTTTTTAAAT 
    CCTGATCCTT TGAGAGCTGA CGGAATCTCT GATCTCCAGC AGTTGCAGAA GCTGAAGGGC 
    CTGCAGCCGC CCGTGGTAGT GCTCCGGAAC AAGATCAAGC CCTGCTTAAC CATTGACTCG 
    TCGCCGCTGT CAGCAGACCT GAAGAAGGCT CTTCAAAGAA ATAAGTTTCC GGGCCCCAGC 
    CACACTGAAT CTTACTCTTG GCCTCCCATA GCGCGTGGCT GTGATGTGGT TGTCATTTCT 
    CACTGTGAAA GCAACCCTTT GCTCTACCTC CTACCAGTGT TGACAGTTTT GCAAACAGGA 
    GCCTGCTACA AGTCATTACC AAGTAGAAAT GGACCTCTCG CAGTCATCGT GTGCCCTGGG 
    TGGAAGAAGG CCCAATTTAT TTTTGAATTA TTGGGAGAAT ATAGCATGTC CTCCAGGCCT 
    CTTCATCCTG TGCTATTAAC AATTGGGCTC CATAAAGAGG AAGCCAAAAA TACAAAGCTT 
    CCAAGGGGCT GTGATGTGAT TGTTACGACC CCATACAGCC TGCTGAGGCT TCTCGCCTGT 
    CAGAGCCTGC TGTTCCTCAG GCTCTGCCAC CTGATCCTGG ATGAGGTAGA GGTGCTATTC 
    TTGGAAGCCA ATGAACAGAT GTTTGCTATA TTAGATAACT TTAAAAAAAA TATTGAAGTT 
    GAAGAAAGGG AATCTGCACC ACATCAGATT GTTGCAGTTG GAGTTCATTG GAACAAACAT 
    ATAGAACATC TCATCAAAGA GTTCATGAAT GATCCCTACA TTGTGATCAC AGCCATGGAA 
    GAGGCTGCTC TCTATGGCAA TGTCCAACAG GTAGTACATC TTTGCCTAGA ATGTGAAAAA 
    ACTTCTTCTT TACTCCAAGC TCTTGATTTT ATTCCAAGTC AGGCACAAAA GACCTTGATC 
    TTCACCTGCT CTGTAGCTGA AACAGAAATA GTGTGTAAGG TAGTAGAAAG CAGTTCAATA 
    TTTTGCTTGA AGATGCATAA AGAAATGATT TTTAACTTAC AAAATGTTTT AGAACAGTGG 
    AAGAAGAAGT TAAGTTCTGG CTCTCAAATT ATATTAGCCC TCACAGACGA CTGCGTCCCA 
    CTCTTGGCCA TCACCGATGC CACGTGTGTG ATTCACTTCA GTTTCCCTGC CTCACCAAAA 
    GTTTTTGGTG GACGCCTGTA TTGCATGTCT GATCATTTTC ACGCTGAACA GGGTTCTCCT 
    GCAGAACAGG GAGATAAGAA AGCCAAATCT GTCTTGCTGC TGACGGAGAA AGATGCGAGC 
    CATGCGGTGG GCGTCCTGCG CTACTTGGAG CGAGCGGACG CCAAGGTCCC CGCAGAGCTG 
    TACGAGTTCA CCGCAGGAGT TCTGGAAGCC AAAGAAGATA AGAAAGCCGG AAGGCCTCTT 
    TGTCCATATC TGAAGGCTTT TGGTTTTTGC AATCATTTCA TTTTCAGAGA CAAAAGGATC 
    TGTCCTGACC GACACCGTAT TAATCCAGAA ACGGACTTGC CCAGGAAACT GTCCAGCCAA 
    GCCCTACCTT CATTTGGATA CATTAAAATA ATACCTTTTT ATATTTTGAA TGCAACAAAT 
    TACTTTGGCC GTATAGTTGA TAAACACATG GATCTTTATG CAACTCTCAA TGCTGAAATG 
    AATGAGTATT TTAAGGATTC TAATAAAACA ACTGTGGAAA AGGTGGAGAA GTTTGGATTG 
    TATGGATTAG CAGAAAAAAC GCTTTTTCAC AGGGTTCAGG TGTTGGAAGT GAACCAAAAA 
    GAAGACGCCT GGGCCCTGGA TGACATCCTT GTAGAGTTCA TCGATGAAGG CAGGACGGGG 
    CTCGTCACAA GGGACCAGCT GCTGCATCTC CCAGAACATT TCCACACACT TCCCCCGCAG 
    GCTGTGGAGT TTATTGTCTG TAGGGTGAAA CCTGCTGACA ACGAAATAGA ATGGAATCCG 
    AAGGTTACTA GGTACATTCA TCATAAAATT GTTGGAAAAT TGCATGATGC AAAAGTGATC 
    CTGGCTTTGG GAAATACAGT TTGGATTGAT CCAATGGTGC ACATTACAAA CCTTTCCAGT 
    TTAAAAACCT CTGTCATTGA TTATAATGTT CGAGCTGAAA TTTTGTCCAT GGGCATGGGC 
    ATTGATAATC CAGAACACAT AGAACAACTG AAAAAATTAC GCGAAGATGC TAAGATACCA 
    GCTTGTGAAG AAAGCCTAAG CCAGACCCCG CCGAGGGTGA CAGGGACCAG TCCTGCTCAA 
    GACCAGGATC ATCCATCCGA GGAGCAGGGG GGGCAGGGGA CGCCTCCAGC AGAAGATGCT 
    GCTTGCCTGC AGAGCCCCCA GCCTGAGGAC ACGGGTGCAG AAGGAGGGGC TGAGTCCAAG 
    ACGAGCTCAG AAAACCAGAA GCCTGAAACT TTATCTGGAA ACACTGAAGG TGCCTTCATT 
    AGCAGAACTG CACAGCCGCC TCTGAAAAGC TTCCACCCAC AAATAAAATG GTTCCAAAAA 
    GAAGATGTCG TCATCTTAAA GATAAGAATA AGGAATGTAA AGGACTACAA GTGTCAGTAT 
    TTAAGGGATA GAGTCGTTTT CAGTGCTTGG GTGGGAGACA AATTTTACCT GGCTGATCTG 
    GAGCTGCGGG GCAACATAAG GAAAGATGAC TGCCAATGTG TGATTAGAAA CGATGAACCT 
    GTAATCACTC TGGCCAAAGA GAGAAGGGAG GCATGGTGTC ACCTACTCAG ACAGAGGAAC 
    CCCAACGTGG CTTTTGATTT TGATCACTGG GAAGACTGTG AAGAGGACAG CCACTTCCCC 
    AAGGTGACAG AGGTGGTTGA AGACAGTAGC AGCACTTCAG AGGATGACGA CAGTGAGAGT 
    GAAAGAGAAG GTGAATGA

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

    TDRD12 ( XM_011527473.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011525775.1 Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OHu74355
    Clone ID Related Accession (Same CDS sequence) XM_011527473.2 , XM_011527473.3
    Accession Version XM_011527473.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3978bp)
    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 putative ATP-dependent RNA helicase TDRD12 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000019.10) 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_011527473.2. ##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
    ATGCTCCAGC TCCTGGTGCT GAAGATTGAA GATCCAGGTT GCTTCTGGGT TATTATAAAA 
    GGGTGTAGTC CCTTTTTAGA TCATGATGTC GATTATCAAA AATTAAATAG TGCCATGAAT 
    GACTTCTACA ACAGCACGTG TCAAGATATA GAAATAAAAC CCTTAACATT GGAAGAAGGA 
    CAGGTGTGTG TGGTCTATTG TGAGGAGCTA AAGTGCTGGT GCAGGGCCAT TGTCAAATCA 
    ATTACGTCTT CCGCAGACCA GTACCTGGCA GAATGTTTCC TTGTGGACTT TGCCAAGAAC 
    ATTCCAGTCA AATCTAAAAA CATCCGAGTT GTAGTAGAAT CGTTTATGCA GCTTCCCTAT 
    AGAGCAAAAA AATTCAGCCT GTACTGCACA AAGCCTGTCA CATTACACAT TGACTTCTGC 
    CGAGACAGTA CTGACATTGT ACCTGCCAAG AAGTGGGACA ATGCAGCTAT TCAGTACTTT 
    CAGAACCTTC TGAAAGCAAC TACCCAGGTG GAAGCCAGAT TATGTGCTGT GGAAGAAGAT 
    ACATTTGAGG TTTACCTTTA TGTAACTATA AAAGATGAAA AAGTTTGTGT TAATGATGAT 
    CTTGTTGCAA AGAACTATGC TTGTTATATG TCACCTACAA AGAATAAAAA CCTTGATTAT 
    TTAGAAAAAC CAAGATTGAA TATAAAATCA GCACCCTCCT TCAATAAACT CAATCCAGCA 
    CTTACACTCT GGCCAATGTT TTTGCAAGGA AAAGATGTTC AAGGAATGGA AGATTCACAT 
    GGTGTAAATT TTCCGGCACA ATCTCTGCAA CATACATGGT GCAAGGGTAT TGTCGGTGAC 
    CTCAGGCCAA CAGCCACAGC ACAGGACAAA GCTGTAAAAT GTAATATGGA TTCATTGAGA 
    GATTCACCTA AAGACAAATC TGAAAAGAAA CACCATTGCA TCTCTTTAAA AGATACAAAT 
    AAGCGTGTTG AATCCTCAGT GTACTGGCCA GCAAAAAGAG GCATAACCAT ATATGCTGAT 
    CCAGATGTAC CAGAAGCAAG TGCTTTAAGT CAGAAGTCAA ATGAGAAACC TCTTAGATTG 
    ACTGAGAAGA AAGAATATGA TGAGAAGAAT AGCTGTGTGA AATTACTGCA GTTTTTAAAT 
    CCTGATCCTT TGAGAGCTGA CGGAATCTCT GATCTCCAGC AGTTGCAGAA GCTGAAGGGC 
    CTGCAGCCGC CCGTGGTAGT GCTCCGGAAC AAGATCAAGC CCTGCTTAAC CATTGACTCG 
    TCGCCGCTGT CAGCAGACCT GAAGAAGGCT CTTCAAAGAA ATAAGTTTCC GGGCCCCAGC 
    CACACTGAAT CTTACTCTTG GCCTCCCATA GCGCGTGGCT GTGATGTGGT TGTCATTTCT 
    CACTGTGAAA GCAACCCTTT GCTCTACCTC CTACCAGTGT TGACAGTTTT GCAAACAGGA 
    GCCTGCTACA AGTCATTACC AAGTAGAAAT GGACCTCTCG CAGTCATCGT GTGCCCTGGG 
    TGGAAGAAGG CCCAATTTAT TTTTGAATTA TTGGGAGAAT ATAGCATGTC CTCCAGGCCT 
    CTTCATCCTG TGCTATTAAC AATTGGGCTC CATAAAGAGG AAGCCAAAAA TACAAAGCTT 
    CCAAGGGGCT GTGATGTGAT TGTTACGACC CCATACAGCC TGCTGAGGCT TCTCGCCTGT 
    CAGAGCCTGC TGTTCCTCAG GCTCTGCCAC CTGATCCTGG ATGAGGTAGA GGTGCTATTC 
    TTGGAAGCCA ATGAACAGAT GTTTGCTATA TTAGATAACT TTAAAAAAAA TATTGAAGTT 
    GAAGAAAGGG AATCTGCACC ACATCAGATT GTTGCAGTTG GAGTTCATTG GAACAAACAT 
    ATAGAACATC TCATCAAAGA GTTCATGAAT GATCCCTACA TTGTGATCAC AGCCATGGAA 
    GAGGCTGCTC TCTATGGCAA TGTCCAACAG GTAGTACATC TTTGCCTAGA ATGTGAAAAA 
    ACTTCTTCTT TACTCCAAGC TCTTGATTTT ATTCCAAGTC AGGCACAAAA GACCTTGATC 
    TTCACCTGCT CTGTAGCTGA AACAGAAATA GTGTGTAAGG TAGTAGAAAG CAGTTCAATA 
    TTTTGCTTGA AGATGCATAA AGAAATGATT TTTAACTTAC AAAATGTTTT AGAACAGTGG 
    AAGAAGAAGT TAAGTTCTGG CTCTCAAATT ATATTAGCCC TCACAGACGA CTGCGTCCCA 
    CTCTTGGCCA TCACCGATGC CACGTGTGTG ATTCACTTCA GTTTCCCTGC CTCACCAAAA 
    GTTTTTGGTG GACGCCTGTA TTGCATGTCT GATCATTTTC ACGCTGAACA GGGTTCTCCT 
    GCAGAACAGG GAGATAAGAA AGCCAAATCT GTCTTGCTGC TGACGGAGAA AGATGCGAGC 
    CATGCGGTGG GCGTCCTGCG CTACTTGGAG CGAGCGGACG CCAAGGTCCC CGCAGAGCTG 
    TACGAGTTCA CCGCAGGAGT TCTGGAAGCC AAAGAAGATA AGAAAGCCGG AAGGCCTCTT 
    TGTCCATATC TGAAGGCTTT TGGTTTTTGC AATCATTTCA TTTTCAGAGA CAAAAGGATC 
    TGTCCTGACC GACACCGTAT TAATCCAGAA ACGGACTTGC CCAGGAAACT GTCCAGCCAA 
    GCCCTACCTT CATTTGGATA CATTAAAATA ATACCTTTTT ATATTTTGAA TGCAACAAAT 
    TACTTTGGCC GTATAGTTGA TAAACACATG GATCTTTATG CAACTCTCAA TGCTGAAATG 
    AATGAGTATT TTAAGGATTC TAATAAAACA ACTGTGGAAA AGGTGGAGAA GTTTGGATTG 
    TATGGATTAG CAGAAAAAAC GCTTTTTCAC AGGGTTCAGG TGTTGGAAGT GAACCAAAAA 
    GAAGACGCCT GGGCCCTGGA TGACATCCTT GTAGAGTTCA TCGATGAAGG CAGGACGGGG 
    CTCGTCACAA GGGACCAGCT GCTGCATCTC CCAGAACATT TCCACACACT TCCCCCGCAG 
    GCTGTGGAGT TTATTGTCTG TAGGGTGAAA CCTGCTGACA ACGAAATAGA ATGGAATCCG 
    AAGGTTACTA GGTACATTCA TCATAAAATT GTTGGAAAAT TGCATGATGC AAAAGTGATC 
    CTGGCTTTGG GAAATACAGT TTGGATTGAT CCAATGGTGC ACATTACAAA CCTTTCCAGT 
    TTAAAAACCT CTGTCATTGA TTATAATGTT CGAGCTGAAA TTTTGTCCAT GGGCATGGGC 
    ATTGATAATC CAGAACACAT AGAACAACTG AAAAAATTAC GCGAAGATGC TAAGATACCA 
    GCTTGTGAAG AAAGCCTAAG CCAGACCCCG CCGAGGGTGA CAGGGACCAG TCCTGCTCAA 
    GACCAGGATC ATCCATCCGA GGAGCAGGGG GGGCAGGGGA CGCCTCCAGC AGAAGATGCT 
    GCTTGCCTGC AGAGCCCCCA GCCTGAGGAC ACGGGTGCAG AAGGAGGGGC TGAGTCCAAG 
    ACGAGCTCAG AAAACCAGAA GCCTGAAACT TTATCTGGAA ACACTGAAGG TGCCTTCATT 
    AGCAGAACTG CACAGCCGCC TCTGAAAAGC TTCCACCCAC AAATAAAATG GTTCCAAAAA 
    GAAGATGTCG TCATCTTAAA GATAAGAATA AGGAATGTAA AGGACTACAA GTGTCAGTAT 
    TTAAGGGATA GAGTCGTTTT CAGTGCTTGG GTGGGAGACA AATTTTACCT GGCTGATCTG 
    GAGCTGCGGG GCAACATAAG GAAAGATGAC TGCCAATGTG TGATTAGAAA CGATGAACCT 
    GTAATCACTC TGGCCAAAGA GAGAAGGGAG GCATGGTGTC ACCTACTCAG ACAGAGGAAC 
    CCCAACGTGG CTTTTGATTT TGATCACTGG GAAGACTGTG AAGAGGACAG CCACTTCCCC 
    AAGGTGACAG AGGTGGTTGA AGACAGTAGC AGCACTTCAG AGGATGACGA CAGTGAGAGT 
    GAAAGAGAAG GTGAATGA

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

    RefSeq XP_011525775.1
    CDS61..4038
    Translation

    Target ORF information:

    RefSeq Version XM_011527473.3
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011527473.3

    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
    ATGCTCCAGC TCCTGGTGCT GAAGATTGAA GATCCAGGTT GCTTCTGGGT TATTATAAAA 
    GGGTGTAGTC CCTTTTTAGA TCATGATGTC GATTATCAAA AATTAAATAG TGCCATGAAT 
    GACTTCTACA ACAGCACGTG TCAAGATATA GAAATAAAAC CCTTAACATT GGAAGAAGGA 
    CAGGTGTGTG TGGTCTATTG TGAGGAGCTA AAGTGCTGGT GCAGGGCCAT TGTCAAATCA 
    ATTACGTCTT CCGCAGACCA GTACCTGGCA GAATGTTTCC TTGTGGACTT TGCCAAGAAC 
    ATTCCAGTCA AATCTAAAAA CATCCGAGTT GTAGTAGAAT CGTTTATGCA GCTTCCCTAT 
    AGAGCAAAAA AATTCAGCCT GTACTGCACA AAGCCTGTCA CATTACACAT TGACTTCTGC 
    CGAGACAGTA CTGACATTGT ACCTGCCAAG AAGTGGGACA ATGCAGCTAT TCAGTACTTT 
    CAGAACCTTC TGAAAGCAAC TACCCAGGTG GAAGCCAGAT TATGTGCTGT GGAAGAAGAT 
    ACATTTGAGG TTTACCTTTA TGTAACTATA AAAGATGAAA AAGTTTGTGT TAATGATGAT 
    CTTGTTGCAA AGAACTATGC TTGTTATATG TCACCTACAA AGAATAAAAA CCTTGATTAT 
    TTAGAAAAAC CAAGATTGAA TATAAAATCA GCACCCTCCT TCAATAAACT CAATCCAGCA 
    CTTACACTCT GGCCAATGTT TTTGCAAGGA AAAGATGTTC AAGGAATGGA AGATTCACAT 
    GGTGTAAATT TTCCGGCACA ATCTCTGCAA CATACATGGT GCAAGGGTAT TGTCGGTGAC 
    CTCAGGCCAA CAGCCACAGC ACAGGACAAA GCTGTAAAAT GTAATATGGA TTCATTGAGA 
    GATTCACCTA AAGACAAATC TGAAAAGAAA CACCATTGCA TCTCTTTAAA AGATACAAAT 
    AAGCGTGTTG AATCCTCAGT GTACTGGCCA GCAAAAAGAG GCATAACCAT ATATGCTGAT 
    CCAGATGTAC CAGAAGCAAG TGCTTTAAGT CAGAAGTCAA ATGAGAAACC TCTTAGATTG 
    ACTGAGAAGA AAGAATATGA TGAGAAGAAT AGCTGTGTGA AATTACTGCA GTTTTTAAAT 
    CCTGATCCTT TGAGAGCTGA CGGAATCTCT GATCTCCAGC AGTTGCAGAA GCTGAAGGGC 
    CTGCAGCCGC CCGTGGTAGT GCTCCGGAAC AAGATCAAGC CCTGCTTAAC CATTGACTCG 
    TCGCCGCTGT CAGCAGACCT GAAGAAGGCT CTTCAAAGAA ATAAGTTTCC GGGCCCCAGC 
    CACACTGAAT CTTACTCTTG GCCTCCCATA GCGCGTGGCT GTGATGTGGT TGTCATTTCT 
    CACTGTGAAA GCAACCCTTT GCTCTACCTC CTACCAGTGT TGACAGTTTT GCAAACAGGA 
    GCCTGCTACA AGTCATTACC AAGTAGAAAT GGACCTCTCG CAGTCATCGT GTGCCCTGGG 
    TGGAAGAAGG CCCAATTTAT TTTTGAATTA TTGGGAGAAT ATAGCATGTC CTCCAGGCCT 
    CTTCATCCTG TGCTATTAAC AATTGGGCTC CATAAAGAGG AAGCCAAAAA TACAAAGCTT 
    CCAAGGGGCT GTGATGTGAT TGTTACGACC CCATACAGCC TGCTGAGGCT TCTCGCCTGT 
    CAGAGCCTGC TGTTCCTCAG GCTCTGCCAC CTGATCCTGG ATGAGGTAGA GGTGCTATTC 
    TTGGAAGCCA ATGAACAGAT GTTTGCTATA TTAGATAACT TTAAAAAAAA TATTGAAGTT 
    GAAGAAAGGG AATCTGCACC ACATCAGATT GTTGCAGTTG GAGTTCATTG GAACAAACAT 
    ATAGAACATC TCATCAAAGA GTTCATGAAT GATCCCTACA TTGTGATCAC AGCCATGGAA 
    GAGGCTGCTC TCTATGGCAA TGTCCAACAG GTAGTACATC TTTGCCTAGA ATGTGAAAAA 
    ACTTCTTCTT TACTCCAAGC TCTTGATTTT ATTCCAAGTC AGGCACAAAA GACCTTGATC 
    TTCACCTGCT CTGTAGCTGA AACAGAAATA GTGTGTAAGG TAGTAGAAAG CAGTTCAATA 
    TTTTGCTTGA AGATGCATAA AGAAATGATT TTTAACTTAC AAAATGTTTT AGAACAGTGG 
    AAGAAGAAGT TAAGTTCTGG CTCTCAAATT ATATTAGCCC TCACAGACGA CTGCGTCCCA 
    CTCTTGGCCA TCACCGATGC CACGTGTGTG ATTCACTTCA GTTTCCCTGC CTCACCAAAA 
    GTTTTTGGTG GACGCCTGTA TTGCATGTCT GATCATTTTC ACGCTGAACA GGGTTCTCCT 
    GCAGAACAGG GAGATAAGAA AGCCAAATCT GTCTTGCTGC TGACGGAGAA AGATGCGAGC 
    CATGCGGTGG GCGTCCTGCG CTACTTGGAG CGAGCGGACG CCAAGGTCCC CGCAGAGCTG 
    TACGAGTTCA CCGCAGGAGT TCTGGAAGCC AAAGAAGATA AGAAAGCCGG AAGGCCTCTT 
    TGTCCATATC TGAAGGCTTT TGGTTTTTGC AATCATTTCA TTTTCAGAGA CAAAAGGATC 
    TGTCCTGACC GACACCGTAT TAATCCAGAA ACGGACTTGC CCAGGAAACT GTCCAGCCAA 
    GCCCTACCTT CATTTGGATA CATTAAAATA ATACCTTTTT ATATTTTGAA TGCAACAAAT 
    TACTTTGGCC GTATAGTTGA TAAACACATG GATCTTTATG CAACTCTCAA TGCTGAAATG 
    AATGAGTATT TTAAGGATTC TAATAAAACA ACTGTGGAAA AGGTGGAGAA GTTTGGATTG 
    TATGGATTAG CAGAAAAAAC GCTTTTTCAC AGGGTTCAGG TGTTGGAAGT GAACCAAAAA 
    GAAGACGCCT GGGCCCTGGA TGACATCCTT GTAGAGTTCA TCGATGAAGG CAGGACGGGG 
    CTCGTCACAA GGGACCAGCT GCTGCATCTC CCAGAACATT TCCACACACT TCCCCCGCAG 
    GCTGTGGAGT TTATTGTCTG TAGGGTGAAA CCTGCTGACA ACGAAATAGA ATGGAATCCG 
    AAGGTTACTA GGTACATTCA TCATAAAATT GTTGGAAAAT TGCATGATGC AAAAGTGATC 
    CTGGCTTTGG GAAATACAGT TTGGATTGAT CCAATGGTGC ACATTACAAA CCTTTCCAGT 
    TTAAAAACCT CTGTCATTGA TTATAATGTT CGAGCTGAAA TTTTGTCCAT GGGCATGGGC 
    ATTGATAATC CAGAACACAT AGAACAACTG AAAAAATTAC GCGAAGATGC TAAGATACCA 
    GCTTGTGAAG AAAGCCTAAG CCAGACCCCG CCGAGGGTGA CAGGGACCAG TCCTGCTCAA 
    GACCAGGATC ATCCATCCGA GGAGCAGGGG GGGCAGGGGA CGCCTCCAGC AGAAGATGCT 
    GCTTGCCTGC AGAGCCCCCA GCCTGAGGAC ACGGGTGCAG AAGGAGGGGC TGAGTCCAAG 
    ACGAGCTCAG AAAACCAGAA GCCTGAAACT TTATCTGGAA ACACTGAAGG TGCCTTCATT 
    AGCAGAACTG CACAGCCGCC TCTGAAAAGC TTCCACCCAC AAATAAAATG GTTCCAAAAA 
    GAAGATGTCG TCATCTTAAA GATAAGAATA AGGAATGTAA AGGACTACAA GTGTCAGTAT 
    TTAAGGGATA GAGTCGTTTT CAGTGCTTGG GTGGGAGACA AATTTTACCT GGCTGATCTG 
    GAGCTGCGGG GCAACATAAG GAAAGATGAC TGCCAATGTG TGATTAGAAA CGATGAACCT 
    GTAATCACTC TGGCCAAAGA GAGAAGGGAG GCATGGTGTC ACCTACTCAG ACAGAGGAAC 
    CCCAACGTGG CTTTTGATTT TGATCACTGG GAAGACTGTG AAGAGGACAG CCACTTCCCC 
    AAGGTGACAG AGGTGGTTGA AGACAGTAGC AGCACTTCAG AGGATGACGA CAGTGAGAGT 
    GAAAGAGAAG GTGAATGA

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

    TDRD12 ( XM_011527474.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011525776.1 Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OHu74356
    Clone ID Related Accession (Same CDS sequence) XM_011527474.3 , XM_011527474.2
    Accession Version XM_011527474.3 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 putative ATP-dependent RNA helicase TDRD12 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000019.10) 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_011527474.2. ##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
    ATGCTCCAGC TCCTGGTGCT GAAGATTGAA GATCCAGGTT GCTTCTGGGT TATTATAAAA 
    GGGTGTAGTC CCTTTTTAGA TCATGATGTC GATTATCAAA AATTAAATAG TGCCATGAAT 
    GACTTCTACA ACAGCACGTG TCAAGATATA GAAATAAAAC CCTTAACATT GGAAGAAGGA 
    CAGGTGTGTG TGGTCTATTG TGAGGAGCTA AAGTGCTGGT GCAGGGCCAT TGTCAAATCA 
    ATTACGTCTT CCGCAGACCA GTACCTGGCA GAATGTTTCC TTGTGGACTT TGCCAAGAAC 
    ATTCCAGTCA AATCTAAAAA ACCTGCCAAG AAGTGGGACA ATGCAGCTAT TCAGTACTTT 
    CAGAACCTTC TGAAAGCAAC TACCCAGGTG GAAGCCAGAT TATGTGCTGT GGAAGAAGAT 
    ACATTTGAGG TTTACCTTTA TGTAACTATA AAAGATGAAA AAGTTTGTGT TAATGATGAT 
    CTTGTTGCAA AGAACTATGC TTGTTATATG TCACCTACAA AGAATAAAAA CCTTGATTAT 
    TTAGAAAAAC CAAGATTGAA TATAAAATCA GCACCCTCCT TCAATAAACT CAATCCAGCA 
    CTTACACTCT GGCCAATGTT TTTGCAAGGA AAAGATGTTC AAGGAATGGA AGATTCACAT 
    GGTGTAAATT TTCCGGCACA ATCTCTGCAA CATACATGGT GCAAGGGTAT TGTCGGTGAC 
    CTCAGGCCAA CAGCCACAGC ACAGGACAAA GCTGTAAAAT GTAATATGGA TTCATTGAGA 
    GATTCACCTA AAGACAAATC TGAAAAGAAA CACCATTGCA TCTCTTTAAA AGATACAAAT 
    AAGCGTGTTG AATCCTCAGT GTACTGGCCA GCAAAAAGAG GCATAACCAT ATATGCTGAT 
    CCAGATGTAC CAGAAGCAAG TGCTTTAAGT CAGAAGTCAA ATGAGAAACC TCTTAGATTG 
    ACTGAGAAGA AAGAATATGA TGAGAAGAAT AGCTGTGTGA AATTACTGCA GTTTTTAAAT 
    CCTGATCCTT TGAGAGCTGA CGGAATCTCT GATCTCCAGC AGTTGCAGAA GCTGAAGGGC 
    CTGCAGCCGC CCGTGGTAGT GCTCCGGAAC AAGATCAAGC CCTGCTTAAC CATTGACTCG 
    TCGCCGCTGT CAGCAGACCT GAAGAAGGCT CTTCAAAGAA ATAAGTTTCC GGGCCCCAGC 
    CACACTGAAT CTTACTCTTG GCCTCCCATA GCGCGTGGCT GTGATGTGGT TGTCATTTCT 
    CACTGTGAAA GCAACCCTTT GCTCTACCTC CTACCAGTGT TGACAGTTTT GCAAACAGGA 
    GCCTGCTACA AGTCATTACC AAGTAGAAAT GGACCTCTCG CAGTCATCGT GTGCCCTGGG 
    TGGAAGAAGG CCCAATTTAT TTTTGAATTA TTGGGAGAAT ATAGCATGTC CTCCAGGCCT 
    CTTCATCCTG TGCTATTAAC AATTGGGCTC CATAAAGAGG AAGCCAAAAA TACAAAGCTT 
    CCAAGGGGCT GTGATGTGAT TGTTACGACC CCATACAGCC TGCTGAGGCT TCTCGCCTGT 
    CAGAGCCTGC TGTTCCTCAG GCTCTGCCAC CTGATCCTGG ATGAGGTAGA GGTGCTATTC 
    TTGGAAGCCA ATGAACAGAT GTTTGCTATA TTAGATAACT TTAAAAAAAA TATTGAAGTT 
    GAAGAAAGGG AATCTGCACC ACATCAGATT GTTGCAGTTG GAGTTCATTG GAACAAACAT 
    ATAGAACATC TCATCAAAGA GTTCATGAAT GATCCCTACA TTGTGATCAC AGCCATGGAA 
    GAGGCTGCTC TCTATGGCAA TGTCCAACAG GTAGTACATC TTTGCCTAGA ATGTGAAAAA 
    ACTTCTTCTT TACTCCAAGC TCTTGATTTT ATTCCAAGTC AGGCACAAAA GACCTTGATC 
    TTCACCTGCT CTGTAGCTGA AACAGAAATA GTGTGTAAGG TAGTAGAAAG CAGTTCAATA 
    TTTTGCTTGA AGATGCATAA AGAAATGATT TTTAACTTAC AAAATGTTTT AGAACAGTGG 
    AAGAAGAAGT TAAGTTCTGG CTCTCAAATT ATATTAGCCC TCACAGACGA CTGCGTCCCA 
    CTCTTGGCCA TCACCGATGC CACGTGTGTG ATTCACTTCA GTTTCCCTGC CTCACCAAAA 
    GTTTTTGGTG GACGCCTGTA TTGCATGTCT GATCATTTTC ACGCTGAACA GGGTTCTCCT 
    GCAGAACAGG GAGATAAGAA AGCCAAATCT GTCTTGCTGC TGACGGAGAA AGATGCGAGC 
    CATGCGGTGG GCGTCCTGCG CTACTTGGAG CGAGCGGACG CCAAGGTCCC CGCAGAGCTG 
    TACGAGTTCA CCGCAGGAGT TCTGGAAGCC AAAGAAGATA AGAAAGCCGG AAGGCCTCTT 
    TGTCCATATC TGAAGGCTTT TGGTTTTTGC AATCATTTCA TTTTCAGAGA CAAAAGGATC 
    TGTCCTGACC GACACCGTAT TAATCCAGAA ACGGACTTGC CCAGGAAACT GTCCAGCCAA 
    GCCCTACCTT CATTTGGATA CATTAAAATA ATACCTTTTT ATATTTTGAA TGCAACAAAT 
    TACTTTGGCC GTATAGTTGA TAAACACATG GATCTTTATG CAACTCTCAA TGCTGAAATG 
    AATGAGTATT TTAAGGATTC TAATAAAACA ACTGTGGAAA AGGTGGAGAA GTTTGGATTG 
    TATGGATTAG CAGAAAAAAC GCTTTTTCAC AGGGTTCAGG TGTTGGAAGT GAACCAAAAA 
    GAAGACGCCT GGGCCCTGGA TGACATCCTT GTAGAGTTCA TCGATGAAGG CAGGACGGGG 
    CTCGTCACAA GGGACCAGCT GCTGCATCTC CCAGAACATT TCCACACACT TCCCCCGCAG 
    GCTGTGGAGT TTATTGTCTG TAGGGTGAAA CCTGCTGACA ACGAAATAGA ATGGAATCCG 
    AAGGTTACTA GGTACATTCA TCATAAAATT GTTGGAAAAT TGCATGATGC AAAAGTGATC 
    CTGGCTTTGG GAAATACAGT TTGGATTGAT CCAATGGTGC ACATTACAAA CCTTTCCAGT 
    TTAAAAACCT CTGTCATTGA TTATAATGTT CGAGCTGAAA TTTTGTCCAT GGGCATGGGC 
    ATTGATAATC CAGAACACAT AGAACAACTG AAAAAATTAC GCGAAGATGC TAAGATACCA 
    GCTTGTGAAG AAAGCCTAAG CCAGACCCCG CCGAGGGTGA CAGGGACCAG TCCTGCTCAA 
    GACCAGGATC ATCCATCCGA GGAGCAGGGG GGGCAGGGGA CGCCTCCAGC AGAAGATGCT 
    GCTTGCCTGC AGAGCCCCCA GCCTGAGGAC ACGGGTGCAG AAGGAGGGGC TGAGTCCAAG 
    ACGAGCTCAG AAAACCAGAA GCCTGAAACT TTATCTGGAA ACACTGAAGG TGCCTTCATT 
    AGCAGAACTG CACAGCCGCC TCTGAAAAGC TTCCACCCAC AAATAAAATG GTTCCAAAAA 
    GAAGATGTCG TCATCTTAAA GATAAGAATA AGGAATGTAA AGGACTACAA GTGTCAGTAT 
    TTAAGGGATA GAGTCGTTTT CAGTGCTTGG GTGGGAGACA AATTTTACCT GGCTGATCTG 
    GAGCTGCGGG GCAACATAAG GAAAGATGAC TGCCAATGTG TGATTAGAAA CGATGAACCT 
    GTAATCACTC TGGCCAAAGA GAGAAGGGAG GCATGGTGTC ACCTACTCAG ACAGAGGAAC 
    CCCAACGTGG CTTTTGATTT TGATCACTGG GAAGACTGTG AAGAGGACAG CCACTTCCCC 
    AAGGTAGTGA ATTCTAAAAA CCTGCCGTAC ACAGTGACAG AGGTGGTTGA AGACAGTAGC 
    AGCACTTCAG AGGATGACGA CAGTGAGAGT GAAAGAGAAG GTGAATGA

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

    RefSeq XP_011525776.1
    CDS61..3948
    Translation

    Target ORF information:

    RefSeq Version XM_011527474.3
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011527474.3

    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
    ATGCTCCAGC TCCTGGTGCT GAAGATTGAA GATCCAGGTT GCTTCTGGGT TATTATAAAA 
    GGGTGTAGTC CCTTTTTAGA TCATGATGTC GATTATCAAA AATTAAATAG TGCCATGAAT 
    GACTTCTACA ACAGCACGTG TCAAGATATA GAAATAAAAC CCTTAACATT GGAAGAAGGA 
    CAGGTGTGTG TGGTCTATTG TGAGGAGCTA AAGTGCTGGT GCAGGGCCAT TGTCAAATCA 
    ATTACGTCTT CCGCAGACCA GTACCTGGCA GAATGTTTCC TTGTGGACTT TGCCAAGAAC 
    ATTCCAGTCA AATCTAAAAA ACCTGCCAAG AAGTGGGACA ATGCAGCTAT TCAGTACTTT 
    CAGAACCTTC TGAAAGCAAC TACCCAGGTG GAAGCCAGAT TATGTGCTGT GGAAGAAGAT 
    ACATTTGAGG TTTACCTTTA TGTAACTATA AAAGATGAAA AAGTTTGTGT TAATGATGAT 
    CTTGTTGCAA AGAACTATGC TTGTTATATG TCACCTACAA AGAATAAAAA CCTTGATTAT 
    TTAGAAAAAC CAAGATTGAA TATAAAATCA GCACCCTCCT TCAATAAACT CAATCCAGCA 
    CTTACACTCT GGCCAATGTT TTTGCAAGGA AAAGATGTTC AAGGAATGGA AGATTCACAT 
    GGTGTAAATT TTCCGGCACA ATCTCTGCAA CATACATGGT GCAAGGGTAT TGTCGGTGAC 
    CTCAGGCCAA CAGCCACAGC ACAGGACAAA GCTGTAAAAT GTAATATGGA TTCATTGAGA 
    GATTCACCTA AAGACAAATC TGAAAAGAAA CACCATTGCA TCTCTTTAAA AGATACAAAT 
    AAGCGTGTTG AATCCTCAGT GTACTGGCCA GCAAAAAGAG GCATAACCAT ATATGCTGAT 
    CCAGATGTAC CAGAAGCAAG TGCTTTAAGT CAGAAGTCAA ATGAGAAACC TCTTAGATTG 
    ACTGAGAAGA AAGAATATGA TGAGAAGAAT AGCTGTGTGA AATTACTGCA GTTTTTAAAT 
    CCTGATCCTT TGAGAGCTGA CGGAATCTCT GATCTCCAGC AGTTGCAGAA GCTGAAGGGC 
    CTGCAGCCGC CCGTGGTAGT GCTCCGGAAC AAGATCAAGC CCTGCTTAAC CATTGACTCG 
    TCGCCGCTGT CAGCAGACCT GAAGAAGGCT CTTCAAAGAA ATAAGTTTCC GGGCCCCAGC 
    CACACTGAAT CTTACTCTTG GCCTCCCATA GCGCGTGGCT GTGATGTGGT TGTCATTTCT 
    CACTGTGAAA GCAACCCTTT GCTCTACCTC CTACCAGTGT TGACAGTTTT GCAAACAGGA 
    GCCTGCTACA AGTCATTACC AAGTAGAAAT GGACCTCTCG CAGTCATCGT GTGCCCTGGG 
    TGGAAGAAGG CCCAATTTAT TTTTGAATTA TTGGGAGAAT ATAGCATGTC CTCCAGGCCT 
    CTTCATCCTG TGCTATTAAC AATTGGGCTC CATAAAGAGG AAGCCAAAAA TACAAAGCTT 
    CCAAGGGGCT GTGATGTGAT TGTTACGACC CCATACAGCC TGCTGAGGCT TCTCGCCTGT 
    CAGAGCCTGC TGTTCCTCAG GCTCTGCCAC CTGATCCTGG ATGAGGTAGA GGTGCTATTC 
    TTGGAAGCCA ATGAACAGAT GTTTGCTATA TTAGATAACT TTAAAAAAAA TATTGAAGTT 
    GAAGAAAGGG AATCTGCACC ACATCAGATT GTTGCAGTTG GAGTTCATTG GAACAAACAT 
    ATAGAACATC TCATCAAAGA GTTCATGAAT GATCCCTACA TTGTGATCAC AGCCATGGAA 
    GAGGCTGCTC TCTATGGCAA TGTCCAACAG GTAGTACATC TTTGCCTAGA ATGTGAAAAA 
    ACTTCTTCTT TACTCCAAGC TCTTGATTTT ATTCCAAGTC AGGCACAAAA GACCTTGATC 
    TTCACCTGCT CTGTAGCTGA AACAGAAATA GTGTGTAAGG TAGTAGAAAG CAGTTCAATA 
    TTTTGCTTGA AGATGCATAA AGAAATGATT TTTAACTTAC AAAATGTTTT AGAACAGTGG 
    AAGAAGAAGT TAAGTTCTGG CTCTCAAATT ATATTAGCCC TCACAGACGA CTGCGTCCCA 
    CTCTTGGCCA TCACCGATGC CACGTGTGTG ATTCACTTCA GTTTCCCTGC CTCACCAAAA 
    GTTTTTGGTG GACGCCTGTA TTGCATGTCT GATCATTTTC ACGCTGAACA GGGTTCTCCT 
    GCAGAACAGG GAGATAAGAA AGCCAAATCT GTCTTGCTGC TGACGGAGAA AGATGCGAGC 
    CATGCGGTGG GCGTCCTGCG CTACTTGGAG CGAGCGGACG CCAAGGTCCC CGCAGAGCTG 
    TACGAGTTCA CCGCAGGAGT TCTGGAAGCC AAAGAAGATA AGAAAGCCGG AAGGCCTCTT 
    TGTCCATATC TGAAGGCTTT TGGTTTTTGC AATCATTTCA TTTTCAGAGA CAAAAGGATC 
    TGTCCTGACC GACACCGTAT TAATCCAGAA ACGGACTTGC CCAGGAAACT GTCCAGCCAA 
    GCCCTACCTT CATTTGGATA CATTAAAATA ATACCTTTTT ATATTTTGAA TGCAACAAAT 
    TACTTTGGCC GTATAGTTGA TAAACACATG GATCTTTATG CAACTCTCAA TGCTGAAATG 
    AATGAGTATT TTAAGGATTC TAATAAAACA ACTGTGGAAA AGGTGGAGAA GTTTGGATTG 
    TATGGATTAG CAGAAAAAAC GCTTTTTCAC AGGGTTCAGG TGTTGGAAGT GAACCAAAAA 
    GAAGACGCCT GGGCCCTGGA TGACATCCTT GTAGAGTTCA TCGATGAAGG CAGGACGGGG 
    CTCGTCACAA GGGACCAGCT GCTGCATCTC CCAGAACATT TCCACACACT TCCCCCGCAG 
    GCTGTGGAGT TTATTGTCTG TAGGGTGAAA CCTGCTGACA ACGAAATAGA ATGGAATCCG 
    AAGGTTACTA GGTACATTCA TCATAAAATT GTTGGAAAAT TGCATGATGC AAAAGTGATC 
    CTGGCTTTGG GAAATACAGT TTGGATTGAT CCAATGGTGC ACATTACAAA CCTTTCCAGT 
    TTAAAAACCT CTGTCATTGA TTATAATGTT CGAGCTGAAA TTTTGTCCAT GGGCATGGGC 
    ATTGATAATC CAGAACACAT AGAACAACTG AAAAAATTAC GCGAAGATGC TAAGATACCA 
    GCTTGTGAAG AAAGCCTAAG CCAGACCCCG CCGAGGGTGA CAGGGACCAG TCCTGCTCAA 
    GACCAGGATC ATCCATCCGA GGAGCAGGGG GGGCAGGGGA CGCCTCCAGC AGAAGATGCT 
    GCTTGCCTGC AGAGCCCCCA GCCTGAGGAC ACGGGTGCAG AAGGAGGGGC TGAGTCCAAG 
    ACGAGCTCAG AAAACCAGAA GCCTGAAACT TTATCTGGAA ACACTGAAGG TGCCTTCATT 
    AGCAGAACTG CACAGCCGCC TCTGAAAAGC TTCCACCCAC AAATAAAATG GTTCCAAAAA 
    GAAGATGTCG TCATCTTAAA GATAAGAATA AGGAATGTAA AGGACTACAA GTGTCAGTAT 
    TTAAGGGATA GAGTCGTTTT CAGTGCTTGG GTGGGAGACA AATTTTACCT GGCTGATCTG 
    GAGCTGCGGG GCAACATAAG GAAAGATGAC TGCCAATGTG TGATTAGAAA CGATGAACCT 
    GTAATCACTC TGGCCAAAGA GAGAAGGGAG GCATGGTGTC ACCTACTCAG ACAGAGGAAC 
    CCCAACGTGG CTTTTGATTT TGATCACTGG GAAGACTGTG AAGAGGACAG CCACTTCCCC 
    AAGGTAGTGA ATTCTAAAAA CCTGCCGTAC ACAGTGACAG AGGTGGTTGA AGACAGTAGC 
    AGCACTTCAG AGGATGACGA CAGTGAGAGT GAAAGAGAAG GTGAATGA

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

    TDRD12 ( XM_011527474.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011525776.1 Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OHu74356
    Clone ID Related Accession (Same CDS sequence) XM_011527474.3 , XM_011527474.2
    Accession Version XM_011527474.2 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 2016-06-05
    Organism Homo sapiens(human)
    Product putative ATP-dependent RNA helicase TDRD12 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000019.10) 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_011527474.1. ##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
    ATGCTCCAGC TCCTGGTGCT GAAGATTGAA GATCCAGGTT GCTTCTGGGT TATTATAAAA 
    GGGTGTAGTC CCTTTTTAGA TCATGATGTC GATTATCAAA AATTAAATAG TGCCATGAAT 
    GACTTCTACA ACAGCACGTG TCAAGATATA GAAATAAAAC CCTTAACATT GGAAGAAGGA 
    CAGGTGTGTG TGGTCTATTG TGAGGAGCTA AAGTGCTGGT GCAGGGCCAT TGTCAAATCA 
    ATTACGTCTT CCGCAGACCA GTACCTGGCA GAATGTTTCC TTGTGGACTT TGCCAAGAAC 
    ATTCCAGTCA AATCTAAAAA ACCTGCCAAG AAGTGGGACA ATGCAGCTAT TCAGTACTTT 
    CAGAACCTTC TGAAAGCAAC TACCCAGGTG GAAGCCAGAT TATGTGCTGT GGAAGAAGAT 
    ACATTTGAGG TTTACCTTTA TGTAACTATA AAAGATGAAA AAGTTTGTGT TAATGATGAT 
    CTTGTTGCAA AGAACTATGC TTGTTATATG TCACCTACAA AGAATAAAAA CCTTGATTAT 
    TTAGAAAAAC CAAGATTGAA TATAAAATCA GCACCCTCCT TCAATAAACT CAATCCAGCA 
    CTTACACTCT GGCCAATGTT TTTGCAAGGA AAAGATGTTC AAGGAATGGA AGATTCACAT 
    GGTGTAAATT TTCCGGCACA ATCTCTGCAA CATACATGGT GCAAGGGTAT TGTCGGTGAC 
    CTCAGGCCAA CAGCCACAGC ACAGGACAAA GCTGTAAAAT GTAATATGGA TTCATTGAGA 
    GATTCACCTA AAGACAAATC TGAAAAGAAA CACCATTGCA TCTCTTTAAA AGATACAAAT 
    AAGCGTGTTG AATCCTCAGT GTACTGGCCA GCAAAAAGAG GCATAACCAT ATATGCTGAT 
    CCAGATGTAC CAGAAGCAAG TGCTTTAAGT CAGAAGTCAA ATGAGAAACC TCTTAGATTG 
    ACTGAGAAGA AAGAATATGA TGAGAAGAAT AGCTGTGTGA AATTACTGCA GTTTTTAAAT 
    CCTGATCCTT TGAGAGCTGA CGGAATCTCT GATCTCCAGC AGTTGCAGAA GCTGAAGGGC 
    CTGCAGCCGC CCGTGGTAGT GCTCCGGAAC AAGATCAAGC CCTGCTTAAC CATTGACTCG 
    TCGCCGCTGT CAGCAGACCT GAAGAAGGCT CTTCAAAGAA ATAAGTTTCC GGGCCCCAGC 
    CACACTGAAT CTTACTCTTG GCCTCCCATA GCGCGTGGCT GTGATGTGGT TGTCATTTCT 
    CACTGTGAAA GCAACCCTTT GCTCTACCTC CTACCAGTGT TGACAGTTTT GCAAACAGGA 
    GCCTGCTACA AGTCATTACC AAGTAGAAAT GGACCTCTCG CAGTCATCGT GTGCCCTGGG 
    TGGAAGAAGG CCCAATTTAT TTTTGAATTA TTGGGAGAAT ATAGCATGTC CTCCAGGCCT 
    CTTCATCCTG TGCTATTAAC AATTGGGCTC CATAAAGAGG AAGCCAAAAA TACAAAGCTT 
    CCAAGGGGCT GTGATGTGAT TGTTACGACC CCATACAGCC TGCTGAGGCT TCTCGCCTGT 
    CAGAGCCTGC TGTTCCTCAG GCTCTGCCAC CTGATCCTGG ATGAGGTAGA GGTGCTATTC 
    TTGGAAGCCA ATGAACAGAT GTTTGCTATA TTAGATAACT TTAAAAAAAA TATTGAAGTT 
    GAAGAAAGGG AATCTGCACC ACATCAGATT GTTGCAGTTG GAGTTCATTG GAACAAACAT 
    ATAGAACATC TCATCAAAGA GTTCATGAAT GATCCCTACA TTGTGATCAC AGCCATGGAA 
    GAGGCTGCTC TCTATGGCAA TGTCCAACAG GTAGTACATC TTTGCCTAGA ATGTGAAAAA 
    ACTTCTTCTT TACTCCAAGC TCTTGATTTT ATTCCAAGTC AGGCACAAAA GACCTTGATC 
    TTCACCTGCT CTGTAGCTGA AACAGAAATA GTGTGTAAGG TAGTAGAAAG CAGTTCAATA 
    TTTTGCTTGA AGATGCATAA AGAAATGATT TTTAACTTAC AAAATGTTTT AGAACAGTGG 
    AAGAAGAAGT TAAGTTCTGG CTCTCAAATT ATATTAGCCC TCACAGACGA CTGCGTCCCA 
    CTCTTGGCCA TCACCGATGC CACGTGTGTG ATTCACTTCA GTTTCCCTGC CTCACCAAAA 
    GTTTTTGGTG GACGCCTGTA TTGCATGTCT GATCATTTTC ACGCTGAACA GGGTTCTCCT 
    GCAGAACAGG GAGATAAGAA AGCCAAATCT GTCTTGCTGC TGACGGAGAA AGATGCGAGC 
    CATGCGGTGG GCGTCCTGCG CTACTTGGAG CGAGCGGACG CCAAGGTCCC CGCAGAGCTG 
    TACGAGTTCA CCGCAGGAGT TCTGGAAGCC AAAGAAGATA AGAAAGCCGG AAGGCCTCTT 
    TGTCCATATC TGAAGGCTTT TGGTTTTTGC AATCATTTCA TTTTCAGAGA CAAAAGGATC 
    TGTCCTGACC GACACCGTAT TAATCCAGAA ACGGACTTGC CCAGGAAACT GTCCAGCCAA 
    GCCCTACCTT CATTTGGATA CATTAAAATA ATACCTTTTT ATATTTTGAA TGCAACAAAT 
    TACTTTGGCC GTATAGTTGA TAAACACATG GATCTTTATG CAACTCTCAA TGCTGAAATG 
    AATGAGTATT TTAAGGATTC TAATAAAACA ACTGTGGAAA AGGTGGAGAA GTTTGGATTG 
    TATGGATTAG CAGAAAAAAC GCTTTTTCAC AGGGTTCAGG TGTTGGAAGT GAACCAAAAA 
    GAAGACGCCT GGGCCCTGGA TGACATCCTT GTAGAGTTCA TCGATGAAGG CAGGACGGGG 
    CTCGTCACAA GGGACCAGCT GCTGCATCTC CCAGAACATT TCCACACACT TCCCCCGCAG 
    GCTGTGGAGT TTATTGTCTG TAGGGTGAAA CCTGCTGACA ACGAAATAGA ATGGAATCCG 
    AAGGTTACTA GGTACATTCA TCATAAAATT GTTGGAAAAT TGCATGATGC AAAAGTGATC 
    CTGGCTTTGG GAAATACAGT TTGGATTGAT CCAATGGTGC ACATTACAAA CCTTTCCAGT 
    TTAAAAACCT CTGTCATTGA TTATAATGTT CGAGCTGAAA TTTTGTCCAT GGGCATGGGC 
    ATTGATAATC CAGAACACAT AGAACAACTG AAAAAATTAC GCGAAGATGC TAAGATACCA 
    GCTTGTGAAG AAAGCCTAAG CCAGACCCCG CCGAGGGTGA CAGGGACCAG TCCTGCTCAA 
    GACCAGGATC ATCCATCCGA GGAGCAGGGG GGGCAGGGGA CGCCTCCAGC AGAAGATGCT 
    GCTTGCCTGC AGAGCCCCCA GCCTGAGGAC ACGGGTGCAG AAGGAGGGGC TGAGTCCAAG 
    ACGAGCTCAG AAAACCAGAA GCCTGAAACT TTATCTGGAA ACACTGAAGG TGCCTTCATT 
    AGCAGAACTG CACAGCCGCC TCTGAAAAGC TTCCACCCAC AAATAAAATG GTTCCAAAAA 
    GAAGATGTCG TCATCTTAAA GATAAGAATA AGGAATGTAA AGGACTACAA GTGTCAGTAT 
    TTAAGGGATA GAGTCGTTTT CAGTGCTTGG GTGGGAGACA AATTTTACCT GGCTGATCTG 
    GAGCTGCGGG GCAACATAAG GAAAGATGAC TGCCAATGTG TGATTAGAAA CGATGAACCT 
    GTAATCACTC TGGCCAAAGA GAGAAGGGAG GCATGGTGTC ACCTACTCAG ACAGAGGAAC 
    CCCAACGTGG CTTTTGATTT TGATCACTGG GAAGACTGTG AAGAGGACAG CCACTTCCCC 
    AAGGTAGTGA ATTCTAAAAA CCTGCCGTAC ACAGTGACAG AGGTGGTTGA AGACAGTAGC 
    AGCACTTCAG AGGATGACGA CAGTGAGAGT GAAAGAGAAG GTGAATGA

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

    RefSeq XP_011525776.1
    CDS61..3948
    Translation

    Target ORF information:

    RefSeq Version XM_011527474.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011527474.2

    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
    ATGCTCCAGC TCCTGGTGCT GAAGATTGAA GATCCAGGTT GCTTCTGGGT TATTATAAAA 
    GGGTGTAGTC CCTTTTTAGA TCATGATGTC GATTATCAAA AATTAAATAG TGCCATGAAT 
    GACTTCTACA ACAGCACGTG TCAAGATATA GAAATAAAAC CCTTAACATT GGAAGAAGGA 
    CAGGTGTGTG TGGTCTATTG TGAGGAGCTA AAGTGCTGGT GCAGGGCCAT TGTCAAATCA 
    ATTACGTCTT CCGCAGACCA GTACCTGGCA GAATGTTTCC TTGTGGACTT TGCCAAGAAC 
    ATTCCAGTCA AATCTAAAAA ACCTGCCAAG AAGTGGGACA ATGCAGCTAT TCAGTACTTT 
    CAGAACCTTC TGAAAGCAAC TACCCAGGTG GAAGCCAGAT TATGTGCTGT GGAAGAAGAT 
    ACATTTGAGG TTTACCTTTA TGTAACTATA AAAGATGAAA AAGTTTGTGT TAATGATGAT 
    CTTGTTGCAA AGAACTATGC TTGTTATATG TCACCTACAA AGAATAAAAA CCTTGATTAT 
    TTAGAAAAAC CAAGATTGAA TATAAAATCA GCACCCTCCT TCAATAAACT CAATCCAGCA 
    CTTACACTCT GGCCAATGTT TTTGCAAGGA AAAGATGTTC AAGGAATGGA AGATTCACAT 
    GGTGTAAATT TTCCGGCACA ATCTCTGCAA CATACATGGT GCAAGGGTAT TGTCGGTGAC 
    CTCAGGCCAA CAGCCACAGC ACAGGACAAA GCTGTAAAAT GTAATATGGA TTCATTGAGA 
    GATTCACCTA AAGACAAATC TGAAAAGAAA CACCATTGCA TCTCTTTAAA AGATACAAAT 
    AAGCGTGTTG AATCCTCAGT GTACTGGCCA GCAAAAAGAG GCATAACCAT ATATGCTGAT 
    CCAGATGTAC CAGAAGCAAG TGCTTTAAGT CAGAAGTCAA ATGAGAAACC TCTTAGATTG 
    ACTGAGAAGA AAGAATATGA TGAGAAGAAT AGCTGTGTGA AATTACTGCA GTTTTTAAAT 
    CCTGATCCTT TGAGAGCTGA CGGAATCTCT GATCTCCAGC AGTTGCAGAA GCTGAAGGGC 
    CTGCAGCCGC CCGTGGTAGT GCTCCGGAAC AAGATCAAGC CCTGCTTAAC CATTGACTCG 
    TCGCCGCTGT CAGCAGACCT GAAGAAGGCT CTTCAAAGAA ATAAGTTTCC GGGCCCCAGC 
    CACACTGAAT CTTACTCTTG GCCTCCCATA GCGCGTGGCT GTGATGTGGT TGTCATTTCT 
    CACTGTGAAA GCAACCCTTT GCTCTACCTC CTACCAGTGT TGACAGTTTT GCAAACAGGA 
    GCCTGCTACA AGTCATTACC AAGTAGAAAT GGACCTCTCG CAGTCATCGT GTGCCCTGGG 
    TGGAAGAAGG CCCAATTTAT TTTTGAATTA TTGGGAGAAT ATAGCATGTC CTCCAGGCCT 
    CTTCATCCTG TGCTATTAAC AATTGGGCTC CATAAAGAGG AAGCCAAAAA TACAAAGCTT 
    CCAAGGGGCT GTGATGTGAT TGTTACGACC CCATACAGCC TGCTGAGGCT TCTCGCCTGT 
    CAGAGCCTGC TGTTCCTCAG GCTCTGCCAC CTGATCCTGG ATGAGGTAGA GGTGCTATTC 
    TTGGAAGCCA ATGAACAGAT GTTTGCTATA TTAGATAACT TTAAAAAAAA TATTGAAGTT 
    GAAGAAAGGG AATCTGCACC ACATCAGATT GTTGCAGTTG GAGTTCATTG GAACAAACAT 
    ATAGAACATC TCATCAAAGA GTTCATGAAT GATCCCTACA TTGTGATCAC AGCCATGGAA 
    GAGGCTGCTC TCTATGGCAA TGTCCAACAG GTAGTACATC TTTGCCTAGA ATGTGAAAAA 
    ACTTCTTCTT TACTCCAAGC TCTTGATTTT ATTCCAAGTC AGGCACAAAA GACCTTGATC 
    TTCACCTGCT CTGTAGCTGA AACAGAAATA GTGTGTAAGG TAGTAGAAAG CAGTTCAATA 
    TTTTGCTTGA AGATGCATAA AGAAATGATT TTTAACTTAC AAAATGTTTT AGAACAGTGG 
    AAGAAGAAGT TAAGTTCTGG CTCTCAAATT ATATTAGCCC TCACAGACGA CTGCGTCCCA 
    CTCTTGGCCA TCACCGATGC CACGTGTGTG ATTCACTTCA GTTTCCCTGC CTCACCAAAA 
    GTTTTTGGTG GACGCCTGTA TTGCATGTCT GATCATTTTC ACGCTGAACA GGGTTCTCCT 
    GCAGAACAGG GAGATAAGAA AGCCAAATCT GTCTTGCTGC TGACGGAGAA AGATGCGAGC 
    CATGCGGTGG GCGTCCTGCG CTACTTGGAG CGAGCGGACG CCAAGGTCCC CGCAGAGCTG 
    TACGAGTTCA CCGCAGGAGT TCTGGAAGCC AAAGAAGATA AGAAAGCCGG AAGGCCTCTT 
    TGTCCATATC TGAAGGCTTT TGGTTTTTGC AATCATTTCA TTTTCAGAGA CAAAAGGATC 
    TGTCCTGACC GACACCGTAT TAATCCAGAA ACGGACTTGC CCAGGAAACT GTCCAGCCAA 
    GCCCTACCTT CATTTGGATA CATTAAAATA ATACCTTTTT ATATTTTGAA TGCAACAAAT 
    TACTTTGGCC GTATAGTTGA TAAACACATG GATCTTTATG CAACTCTCAA TGCTGAAATG 
    AATGAGTATT TTAAGGATTC TAATAAAACA ACTGTGGAAA AGGTGGAGAA GTTTGGATTG 
    TATGGATTAG CAGAAAAAAC GCTTTTTCAC AGGGTTCAGG TGTTGGAAGT GAACCAAAAA 
    GAAGACGCCT GGGCCCTGGA TGACATCCTT GTAGAGTTCA TCGATGAAGG CAGGACGGGG 
    CTCGTCACAA GGGACCAGCT GCTGCATCTC CCAGAACATT TCCACACACT TCCCCCGCAG 
    GCTGTGGAGT TTATTGTCTG TAGGGTGAAA CCTGCTGACA ACGAAATAGA ATGGAATCCG 
    AAGGTTACTA GGTACATTCA TCATAAAATT GTTGGAAAAT TGCATGATGC AAAAGTGATC 
    CTGGCTTTGG GAAATACAGT TTGGATTGAT CCAATGGTGC ACATTACAAA CCTTTCCAGT 
    TTAAAAACCT CTGTCATTGA TTATAATGTT CGAGCTGAAA TTTTGTCCAT GGGCATGGGC 
    ATTGATAATC CAGAACACAT AGAACAACTG AAAAAATTAC GCGAAGATGC TAAGATACCA 
    GCTTGTGAAG AAAGCCTAAG CCAGACCCCG CCGAGGGTGA CAGGGACCAG TCCTGCTCAA 
    GACCAGGATC ATCCATCCGA GGAGCAGGGG GGGCAGGGGA CGCCTCCAGC AGAAGATGCT 
    GCTTGCCTGC AGAGCCCCCA GCCTGAGGAC ACGGGTGCAG AAGGAGGGGC TGAGTCCAAG 
    ACGAGCTCAG AAAACCAGAA GCCTGAAACT TTATCTGGAA ACACTGAAGG TGCCTTCATT 
    AGCAGAACTG CACAGCCGCC TCTGAAAAGC TTCCACCCAC AAATAAAATG GTTCCAAAAA 
    GAAGATGTCG TCATCTTAAA GATAAGAATA AGGAATGTAA AGGACTACAA GTGTCAGTAT 
    TTAAGGGATA GAGTCGTTTT CAGTGCTTGG GTGGGAGACA AATTTTACCT GGCTGATCTG 
    GAGCTGCGGG GCAACATAAG GAAAGATGAC TGCCAATGTG TGATTAGAAA CGATGAACCT 
    GTAATCACTC TGGCCAAAGA GAGAAGGGAG GCATGGTGTC ACCTACTCAG ACAGAGGAAC 
    CCCAACGTGG CTTTTGATTT TGATCACTGG GAAGACTGTG AAGAGGACAG CCACTTCCCC 
    AAGGTAGTGA ATTCTAAAAA CCTGCCGTAC ACAGTGACAG AGGTGGTTGA AGACAGTAGC 
    AGCACTTCAG AGGATGACGA CAGTGAGAGT GAAAGAGAAG GTGAATGA

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

    TDRD12 ( XM_011527475.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011525777.1 Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OHu74357
    Clone ID Related Accession (Same CDS sequence) XM_011527475.2
    Accession Version XM_011527475.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3840bp)
    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 putative ATP-dependent RNA helicase TDRD12 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000019.10) 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_011527475.1. ##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
    ATGCTCCAGC TCCTGGTGCT GAAGATTGAA GATCCAGGTT GCTTCTGGGT TATTATAAAA 
    GGGTGTAGTC CCTTTTTAGA TCATGATGTC GATTATCAAA AATTAAATAG TGCCATGAAT 
    GACTTCTACA ACAGCACGTG TCAAGATATA GAAATAAAAC CCTTAACATT GGAAGAAGGA 
    CAGGTGTGTG TGGTCTATTG TGAGGAGCTA AAGTGCTGGT GCAGGGCCAT TGTCAAATCA 
    ATTACGTCTT CCGCAGACCA GTACCTGGCA GAATGTTTCC TTGTGGACTT TGCCAAGAAC 
    ATTCCAGTCA AATCTAAAAA CATCCGAGTT GTAGTAGAAT CGTTTATGCA GCTTCCCTAT 
    AGAGCAAAAA AATTCAGCCT GTACTGCACA AAGCCTGTCA CATTACACAT TGACTTCTGC 
    CGAGACAGTA CTGACATTGT ACCTGCCAAG AAGTGGGACA ATGCAGCTAT TCAGTACTTT 
    CAGAACCTTC TGAAAGCAAC TACCCAGGTG GAAGCCAGAT TATGTGCTGT GGAAGAAGAT 
    ACATTTGAGG TTTACCTTTA TGTAACTATA AAAGATGAAA AAGTTTGTGT TAATGATGAT 
    CTTGTTGCAA AGAACTATGC TTGTTATATG TCACCTACAA AGAATAAAAA CCTTGATTAT 
    TTAGAAAAAC CAAGATTGAA TATAAAATCA GCACCCTCCT TCAATAAACT CAATCCAGCA 
    CTTACACTCT GGCCAATGTT TTTGCAAGGA AAAGATGTTC AAGGAATGGA AGATTCACAT 
    GGTGTAAATT TTCCGGCACA ATCTCTGCAA CATACATGGT GCAAGGGTAT TGTCGGTGAC 
    CTCAGGCCAA CAGCCACAGC ACAGGACAAA GCTGTAAAAT GTAATATGGA TTCATTGAGA 
    GATTCACCTA AAGACAAATC TGAAAAGAAA CACCATTGCA TCTCTTTAAA AGATACAAAT 
    AAGCGTGTTG AATCCTCAGT GTACTGGCCA GCAAAAAGAG GCATAACCAT ATATGCTGAT 
    CCAGATGTAC CAGAAGCAAG TGCTTTAAGT CAGAAGTCAA ATGAGAAACC TCTTAGATTG 
    ACTGAGAAGA AAGAATATGA TGAGAAGAAT AGCTGTGTGA AATTACTGCA GTTTTTAAAT 
    CCTGATCCTT TGAGAGCTGA CGGAATCTCT GATCTCCAGC AGTTGCAGAA GCTGAAGGGC 
    CTGCAGCCGC CCGTGGTAGT GCTCCGGAAC AAGATCAAGC CCTGCTTAAC CATTGACTCG 
    TCGCCGCTGT CAGCAGACCT GAAGAAGGCT CTTCAAAGAA ATAAGTTTCC GGGCCCCAGC 
    CACACTGAAT CTTACTCTTG GCCTCCCATA GCGCGTGGCT GTGATGTGGT TGTCATTTCT 
    CACTGTGAAA GCAACCCTTT GCTCTACCTC CTACCAGTGT TGACAGTTTT GCAAACAGGA 
    GCCTGCTACA AGTCATTACC AAGTAGAAAT GGACCTCTCG CAGTCATCGT GTGCCCTGGG 
    TGGAAGAAGG CCCAATTTAT TTTTGAATTA TTGGGAGAAT ATAGCATGTC CTCCAGGCCT 
    CTTCATCCTG TGCTATTAAC AATTGGGCTC CATAAAGAGG AAGCCAAAAA TACAAAGCTT 
    CCAAGGGGCT GTGATGTGAT TGTTACGACC CCATACAGCC TGCTGAGGCT TCTCGCCTGT 
    CAGAGCCTGC TGTTCCTCAG GCTCTGCCAC CTGATCCTGG ATGAGGTAGA GGTGCTATTC 
    TTGGAAGCCA ATGAACAGAT GTTTGCTATA TTAGATAACT TTAAAAAAAA TATTGAAGTT 
    GAAGAAAGGG AATCTGCACC ACATCAGATT GTTGCAGTTG GAGTTCATTG GAACAAACAT 
    ATAGAACATC TCATCAAAGA GTTCATGAAT GATCCCTACA TTGTGATCAC AGCCATGGAA 
    GAGGCTGCTC TCTATGGCAA TGTCCAACAG GTAGTACATC TTTGCCTAGA ATGTGAAAAA 
    ACTTCTTCTT TACTCCAAGC TCTTGATTTT ATTCCAAGTC AGGCACAAAA GACCTTGATC 
    TTCACCTGCT CTGTAGCTGA AACAGAAATA GTGTGTAAGG TAGTAGAAAG CAGTTCAATA 
    TTTTGCTTGA AGATGCATAA AGAAATGATT TTTAACTTAC AAAATGTTTT AGAACAGTGG 
    AAGAAGAAGT TAAGTTCTGG CTCTCAAATT ATATTAGCCC TCACAGACGA CTGCGTCCCA 
    CTCTTGGCCA TCACCGATGC CACGTGTGTG ATTCACTTCA GTTTCCCTGC CTCACCAAAA 
    GTTTTTGGTG GACGCCTGTA TTGCATGTCT GATCATTTTC ACGCTGAACA GGGTTCTCCT 
    GCAGAACAGG GAGATAAGAA AGCCAAATCT GTCTTGCTGC TGACGGAGAA AGATGCGAGC 
    CATGCGGTGG GCGTCCTGCG CTACTTGGAG CGAGCGGACG CCAAGGTCCC CGCAGAGCTG 
    TACGAGTTCA CCGCAGGAGT TCTGGAAGCC AAAGAAGATA AGAAAGCCGG AAGGCCTCTT 
    TGTCCATATC TGAAGGCTTT TGGTTTTTGC AATCATTTCA TTTTCAGAGA CAAAAGGATC 
    TGTCCTGACC GACACCGTAT TAATCCAGAA ACGGACTTGC CCAGGAAACT GTCCAGCCAA 
    GCCCTACCTT CATTTGGATA CATTAAAATA ATACCTTTTT ATATTTTGAA TGCAACAAAT 
    TACTTTGGCC GTATAGTTGA TAAACACATG GATCTTTATG CAACTCTCAA TGCTGAAATG 
    AATGAGTATT TTAAGGATTC TAATAAAACA ACTGTGGAAA AGGTGGAGAA GTTTGGATTG 
    TATGGATTAG CAGAAAAAAC GCTTTTTCAC AGGGTTCAGG TGTTGGAAGT GAACCAAAAA 
    GAAGACGCCT GGGCCCTGGA TGACATCCTT GTAGAGTTCA TCGATGAAGG CAGGACGGGG 
    CTCGTCACAA GGGACCAGCT GCTGCATCTC CCAGAACATT TCCACACACT TCCCCCGCAG 
    GCTGTGGAGT TTATTGTCTG TAGGGTGAAA CCTGCTGACA ACGAAATAGA ATGGAATCCG 
    AAGGTTACTA GGTACATTCA TCATAAAATT GTTGGAAAAT TGCATGATGC AAAAGTGATC 
    CTGGCTTTGG GAAATACAGT TTGGATTGAT CCAATGGTGC ACATTACAAA CCTTTCCAGT 
    TTAAAAACCT CTGTCATTGA TTATAATGTT CGAGCTGAAA TTTTGTCCAT GGGCATGGGC 
    ATTGATAATC CAGAACACAT AGAACAACTG AAAAAATTAC GCGAAGATGC TAAGATACCA 
    GCTTGTGAAG AAAGCCTAAG CCAGACCCCG CCGAGGGTGA CAGGGACCAG TCCTGCTCAA 
    GACCAGGATC ATCCATCCGA GGAGCAGGGG GGGCAGGGGA CGCCTCCAGC AGAAGATGCT 
    GCTTGCCTGC AGAGCCCCCA GCCTGAGGAC ACGGGTGCAG AAGGAGGGGC TGAGTCCAAG 
    ACGAGCTCAG AAAACCAGAA GCCTGAAACT TTATCTGGAA ACACTGAAGG TGCCTTCATT 
    AGCAGAACTG CACAGCCGCC TCTGAAAAGC TTCCACCCAC AAATAAAATG GTTCCAAAAA 
    GAAGATGTCG TCATCTTAAA GATAAGAATA AGGAATGTAA AGGACTACAA GTGTCAGTAT 
    TTAAGGGATA GAGTCGTTTT CAGTGCTTGG GTGGGAGACA AATTTTACCT GGCTGATCTG 
    GAGCTGCGGG GCAACATAAG GAAAGATGAC TGCCAATGTG TGATTAGAAA CGATGAACCT 
    GTAATCACTC TGGCCAAAGA GAGAAGGGAG GCATGGTGTC ACCTACTCAG ACAGAGGTAG

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

    RefSeq XP_011525777.1
    CDS61..3900
    Translation

    Target ORF information:

    RefSeq Version XM_011527475.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011527475.2

    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
    ATGCTCCAGC TCCTGGTGCT GAAGATTGAA GATCCAGGTT GCTTCTGGGT TATTATAAAA 
    GGGTGTAGTC CCTTTTTAGA TCATGATGTC GATTATCAAA AATTAAATAG TGCCATGAAT 
    GACTTCTACA ACAGCACGTG TCAAGATATA GAAATAAAAC CCTTAACATT GGAAGAAGGA 
    CAGGTGTGTG TGGTCTATTG TGAGGAGCTA AAGTGCTGGT GCAGGGCCAT TGTCAAATCA 
    ATTACGTCTT CCGCAGACCA GTACCTGGCA GAATGTTTCC TTGTGGACTT TGCCAAGAAC 
    ATTCCAGTCA AATCTAAAAA CATCCGAGTT GTAGTAGAAT CGTTTATGCA GCTTCCCTAT 
    AGAGCAAAAA AATTCAGCCT GTACTGCACA AAGCCTGTCA CATTACACAT TGACTTCTGC 
    CGAGACAGTA CTGACATTGT ACCTGCCAAG AAGTGGGACA ATGCAGCTAT TCAGTACTTT 
    CAGAACCTTC TGAAAGCAAC TACCCAGGTG GAAGCCAGAT TATGTGCTGT GGAAGAAGAT 
    ACATTTGAGG TTTACCTTTA TGTAACTATA AAAGATGAAA AAGTTTGTGT TAATGATGAT 
    CTTGTTGCAA AGAACTATGC TTGTTATATG TCACCTACAA AGAATAAAAA CCTTGATTAT 
    TTAGAAAAAC CAAGATTGAA TATAAAATCA GCACCCTCCT TCAATAAACT CAATCCAGCA 
    CTTACACTCT GGCCAATGTT TTTGCAAGGA AAAGATGTTC AAGGAATGGA AGATTCACAT 
    GGTGTAAATT TTCCGGCACA ATCTCTGCAA CATACATGGT GCAAGGGTAT TGTCGGTGAC 
    CTCAGGCCAA CAGCCACAGC ACAGGACAAA GCTGTAAAAT GTAATATGGA TTCATTGAGA 
    GATTCACCTA AAGACAAATC TGAAAAGAAA CACCATTGCA TCTCTTTAAA AGATACAAAT 
    AAGCGTGTTG AATCCTCAGT GTACTGGCCA GCAAAAAGAG GCATAACCAT ATATGCTGAT 
    CCAGATGTAC CAGAAGCAAG TGCTTTAAGT CAGAAGTCAA ATGAGAAACC TCTTAGATTG 
    ACTGAGAAGA AAGAATATGA TGAGAAGAAT AGCTGTGTGA AATTACTGCA GTTTTTAAAT 
    CCTGATCCTT TGAGAGCTGA CGGAATCTCT GATCTCCAGC AGTTGCAGAA GCTGAAGGGC 
    CTGCAGCCGC CCGTGGTAGT GCTCCGGAAC AAGATCAAGC CCTGCTTAAC CATTGACTCG 
    TCGCCGCTGT CAGCAGACCT GAAGAAGGCT CTTCAAAGAA ATAAGTTTCC GGGCCCCAGC 
    CACACTGAAT CTTACTCTTG GCCTCCCATA GCGCGTGGCT GTGATGTGGT TGTCATTTCT 
    CACTGTGAAA GCAACCCTTT GCTCTACCTC CTACCAGTGT TGACAGTTTT GCAAACAGGA 
    GCCTGCTACA AGTCATTACC AAGTAGAAAT GGACCTCTCG CAGTCATCGT GTGCCCTGGG 
    TGGAAGAAGG CCCAATTTAT TTTTGAATTA TTGGGAGAAT ATAGCATGTC CTCCAGGCCT 
    CTTCATCCTG TGCTATTAAC AATTGGGCTC CATAAAGAGG AAGCCAAAAA TACAAAGCTT 
    CCAAGGGGCT GTGATGTGAT TGTTACGACC CCATACAGCC TGCTGAGGCT TCTCGCCTGT 
    CAGAGCCTGC TGTTCCTCAG GCTCTGCCAC CTGATCCTGG ATGAGGTAGA GGTGCTATTC 
    TTGGAAGCCA ATGAACAGAT GTTTGCTATA TTAGATAACT TTAAAAAAAA TATTGAAGTT 
    GAAGAAAGGG AATCTGCACC ACATCAGATT GTTGCAGTTG GAGTTCATTG GAACAAACAT 
    ATAGAACATC TCATCAAAGA GTTCATGAAT GATCCCTACA TTGTGATCAC AGCCATGGAA 
    GAGGCTGCTC TCTATGGCAA TGTCCAACAG GTAGTACATC TTTGCCTAGA ATGTGAAAAA 
    ACTTCTTCTT TACTCCAAGC TCTTGATTTT ATTCCAAGTC AGGCACAAAA GACCTTGATC 
    TTCACCTGCT CTGTAGCTGA AACAGAAATA GTGTGTAAGG TAGTAGAAAG CAGTTCAATA 
    TTTTGCTTGA AGATGCATAA AGAAATGATT TTTAACTTAC AAAATGTTTT AGAACAGTGG 
    AAGAAGAAGT TAAGTTCTGG CTCTCAAATT ATATTAGCCC TCACAGACGA CTGCGTCCCA 
    CTCTTGGCCA TCACCGATGC CACGTGTGTG ATTCACTTCA GTTTCCCTGC CTCACCAAAA 
    GTTTTTGGTG GACGCCTGTA TTGCATGTCT GATCATTTTC ACGCTGAACA GGGTTCTCCT 
    GCAGAACAGG GAGATAAGAA AGCCAAATCT GTCTTGCTGC TGACGGAGAA AGATGCGAGC 
    CATGCGGTGG GCGTCCTGCG CTACTTGGAG CGAGCGGACG CCAAGGTCCC CGCAGAGCTG 
    TACGAGTTCA CCGCAGGAGT TCTGGAAGCC AAAGAAGATA AGAAAGCCGG AAGGCCTCTT 
    TGTCCATATC TGAAGGCTTT TGGTTTTTGC AATCATTTCA TTTTCAGAGA CAAAAGGATC 
    TGTCCTGACC GACACCGTAT TAATCCAGAA ACGGACTTGC CCAGGAAACT GTCCAGCCAA 
    GCCCTACCTT CATTTGGATA CATTAAAATA ATACCTTTTT ATATTTTGAA TGCAACAAAT 
    TACTTTGGCC GTATAGTTGA TAAACACATG GATCTTTATG CAACTCTCAA TGCTGAAATG 
    AATGAGTATT TTAAGGATTC TAATAAAACA ACTGTGGAAA AGGTGGAGAA GTTTGGATTG 
    TATGGATTAG CAGAAAAAAC GCTTTTTCAC AGGGTTCAGG TGTTGGAAGT GAACCAAAAA 
    GAAGACGCCT GGGCCCTGGA TGACATCCTT GTAGAGTTCA TCGATGAAGG CAGGACGGGG 
    CTCGTCACAA GGGACCAGCT GCTGCATCTC CCAGAACATT TCCACACACT TCCCCCGCAG 
    GCTGTGGAGT TTATTGTCTG TAGGGTGAAA CCTGCTGACA ACGAAATAGA ATGGAATCCG 
    AAGGTTACTA GGTACATTCA TCATAAAATT GTTGGAAAAT TGCATGATGC AAAAGTGATC 
    CTGGCTTTGG GAAATACAGT TTGGATTGAT CCAATGGTGC ACATTACAAA CCTTTCCAGT 
    TTAAAAACCT CTGTCATTGA TTATAATGTT CGAGCTGAAA TTTTGTCCAT GGGCATGGGC 
    ATTGATAATC CAGAACACAT AGAACAACTG AAAAAATTAC GCGAAGATGC TAAGATACCA 
    GCTTGTGAAG AAAGCCTAAG CCAGACCCCG CCGAGGGTGA CAGGGACCAG TCCTGCTCAA 
    GACCAGGATC ATCCATCCGA GGAGCAGGGG GGGCAGGGGA CGCCTCCAGC AGAAGATGCT 
    GCTTGCCTGC AGAGCCCCCA GCCTGAGGAC ACGGGTGCAG AAGGAGGGGC TGAGTCCAAG 
    ACGAGCTCAG AAAACCAGAA GCCTGAAACT TTATCTGGAA ACACTGAAGG TGCCTTCATT 
    AGCAGAACTG CACAGCCGCC TCTGAAAAGC TTCCACCCAC AAATAAAATG GTTCCAAAAA 
    GAAGATGTCG TCATCTTAAA GATAAGAATA AGGAATGTAA AGGACTACAA GTGTCAGTAT 
    TTAAGGGATA GAGTCGTTTT CAGTGCTTGG GTGGGAGACA AATTTTACCT GGCTGATCTG 
    GAGCTGCGGG GCAACATAAG GAAAGATGAC TGCCAATGTG TGATTAGAAA CGATGAACCT 
    GTAATCACTC TGGCCAAAGA GAGAAGGGAG GCATGGTGTC ACCTACTCAG ACAGAGGTAG

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

    TDRD12 ( XM_011527476.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011525778.1 Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OHu74358
    Clone ID Related Accession (Same CDS sequence) XM_011527476.2
    Accession Version XM_011527476.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3522bp)
    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 putative ATP-dependent RNA helicase TDRD12 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000019.10) 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_011527476.1. ##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
    ATGCTCCAGC TCCTGGTGCT GAAGATTGAA GATCCAGGTT GCTTCTGGGT TATTATAAAA 
    GGGTGTAGTC CCTTTTTAGA TCATGATGTC GATTATCAAA AATTAAATAG TGCCATGAAT 
    GACTTCTACA ACAGCACGTG TCAAGATATA GAAATAAAAC CCTTAACATT GGAAGAAGGA 
    CAGGTGTGTG TGGTCTATTG TGAGGAGCTA AAGTGCTGGT GCAGGGCCAT TGTCAAATCA 
    ATTACGTCTT CCGCAGACCA GTACCTGGCA GAATGTTTCC TTGTGGACTT TGCCAAGAAC 
    ATTCCAGTCA AATCTAAAAA CATCCGAGTT GTAGTAGAAT CGTTTATGCA GCTTCCCTAT 
    AGAGCAAAAA AATTCAGCCT GTACTGCACA AAGCCTGTCA CATTACACAT TGACTTCTGC 
    CGAGACAGTA CTGACATTGT ACCTGCCAAG AAGTGGGACA ATGCAGCTAT TCAGTACTTT 
    CAGAACCTTC TGAAAGCAAC TACCCAGGTG GAAGCCAGAT TATGTGCTGT GGAAGAAGAT 
    ACATTTGAGG TTTACCTTTA TGTAACTATA AAAGATGAAA AAGTTTGTGT TAATGATGAT 
    CTTGTTGCAA AGAACTATGC TTGTTATATG TCACCTACAA AGAATAAAAA CCTTGATTAT 
    TTAGAAAAAC CAAGATTGAA TATAAAATCA GCACCCTCCT TCAATAAACT CAATCCAGCA 
    CTTACACTCT GGCCAATGTT TTTGCAAGGA AAAGATGTTC AAGGAATGGA AGATTCACAT 
    GGTGTAAATT TTCCGGCACA ATCTCTGCAA CATACATGGT GCAAGGGTAT TGTCGGTGAC 
    CTCAGGCCAA CAGCCACAGC ACAGGACAAA GCTGTAAAAT GTAATATGGA TTCATTGAGA 
    GATTCACCTA AAGACAAATC TGAAAAGAAA CACCATTGCA TCTCTTTAAA AGATACAAAT 
    AAGCGTGTTG AATCCTCAGT GTACTGGCCA GCAAAAAGAG GCATAACCAT ATATGCTGAT 
    CCAGATGTAC CAGAAGCAAG TGCTTTAAGT CAGAAGTCAA ATGAGAAACC TCTTAGATTG 
    ACTGAGAAGA AAGAATATGA TGAGAAGAAT AGCTGTGTGA AATTACTGCA GTTTTTAAAT 
    CCTGATCCTT TGAGAGCTGA CGGAATCTCT GATCTCCAGC AGTTGCAGAA GCTGAAGGGC 
    CTGCAGCCGC CCGTGGTAGT GCTCCGGAAC AAGATCAAGC CCTGCTTAAC CATTGACTCG 
    TCGCCGCTGT CAGCAGACCT GAAGAAGGCT CTTCAAAGAA ATAAGTTTCC GGGCCCCAGC 
    CACACTGAAT CTTACTCTTG GCCTCCCATA GCGCGTGGCT GTGATGTGGT TGTCATTTCT 
    CACTGTGAAA GCAACCCTTT GCTCTACCTC CTACCAGTGT TGACAGTTTT GCAAACAGGA 
    GCCTGCTACA AGTCATTACC AAGTAGAAAT GGACCTCTCG CAGTCATCGT GTGCCCTGGG 
    TGGAAGAAGG CCCAATTTAT TTTTGAATTA TTGGGAGAAT ATAGCATGTC CTCCAGGCCT 
    CTTCATCCTG TGCTATTAAC AATTGGGCTC CATAAAGAGG AAGCCAAAAA TACAAAGCTT 
    CCAAGGGGCT GTGATGTGAT TGTTACGACC CCATACAGCC TGCTGAGGCT TCTCGCCTGT 
    CAGAGCCTGC TGTTCCTCAG GCTCTGCCAC CTGATCCTGG ATGAGGTAGA GGTGCTATTC 
    TTGGAAGCCA ATGAACAGAT GTTTGCTATA TTAGATAACT TTAAAAAAAA TATTGAAGTT 
    GAAGAAAGGG AATCTGCACC ACATCAGATT GTTGCAGTTG GAGTTCATTG GAACAAACAT 
    ATAGAACATC TCATCAAAGA GTTCATGAAT GATCCCTACA TTGTGATCAC AGCCATGGAA 
    GAGGCTGCTC TCTATGGCAA TGTCCAACAG GTAGTACATC TTTGCCTAGA ATGTGAAAAA 
    ACTTCTTCTT TACTCCAAGC TCTTGATTTT ATTCCAAGTC AGGCACAAAA GACCTTGATC 
    TTCACCTGCT CTGTAGCTGA AACAGAAATA GTGTGTAAGG TAGTAGAAAG CAGTTCAATA 
    TTTTGCTTGA AGATGCATAA AGAAATGATT TTTAACTTAC AAAATGTTTT AGAACAGTGG 
    AAGAAGAAGT TAAGTTCTGG CTCTCAAATT ATATTAGCCC TCACAGACGA CTGCGTCCCA 
    CTCTTGGCCA TCACCGATGC CACGTGTGTG ATTCACTTCA GTTTCCCTGC CTCACCAAAA 
    GTTTTTGGTG GACGCCTGTA TTGCATGTCT GATCATTTTC ACGCTGAACA GGGTTCTCCT 
    GCAGAACAGG GAGATAAGAA AGCCAAATCT GTCTTGCTGC TGACGGAGAA AGATGCGAGC 
    CATGCGGTGG GCGTCCTGCG CTACTTGGAG CGAGCGGACG CCAAGGTCCC CGCAGAGCTG 
    TACGAGTTCA CCGCAGGAGT TCTGGAAGCC AAAGAAGATA AGAAAGCCGG AAGGCCTCTT 
    TGTCCATATC TGAAGGCTTT TGGTTTTTGC AATCATTTCA TTTTCAGAGA CAAAAGGATC 
    TGTCCTGACC GACACCGTAT TAATCCAGAA ACGGACTTGC CCAGGAAACT GTCCAGCCAA 
    GCCCTACCTT CATTTGGATA CATTAAAATA ATACCTTTTT ATATTTTGAA TGCAACAAAT 
    TACTTTGGCC GTATAGTTGA TAAACACATG GATCTTTATG CAACTCTCAA TGCTGAAATG 
    AATGAGTATT TTAAGGATTC TAATAAAACA ACTGTGGAAA AGGTGGAGAA GTTTGGATTG 
    TATGGATTAG CAGAAAAAAC GCTTTTTCAC AGGGTTCAGG TGTTGGAAGT GAACCAAAAA 
    GAAGACGCCT GGGCCCTGGA TGACATCCTT GTAGAGTTCA TCGATGAAGG CAGGACGGGG 
    CTCGTCACAA GGGACCAGCT GCTGCATCTC CCAGAACATT TCCACACACT TCCCCCGCAG 
    GCTGTGGAGT TTATTGTCTG TAGGGTGAAA CCTGCTGACA ACGAAATAGA ATGGAATCCG 
    AAGGTTACTA GGTACATTCA TCATAAAATT GTTGGAAAAT TGCATGATGC AAAAGTGATC 
    CTGGCTTTGG GAAATACAGT TTGGATTGAT CCAATGGTGC ACATTACAAA CCTTTCCAGT 
    TTAAAAACCT CTGTCATTGA TTATAATGTT CGAGCTGAAA TTTTGTCCAT GGGCATGGGC 
    ATTGATAATC CAGAACACAT AGAACAACTG AAAAAATTAC GCGAAGATGC TAAGATACCA 
    GCTTGTGAAG AAAGCCTAAG CCAGACCCCG CCGAGGGTGA CAGGGACCAG TCCTGCTCAA 
    GACCAGGATC ATCCATCCGA GGAGCAGGGG GGGCAGGGGA CGCCTCCAGC AGAAGATGCT 
    GCTTGCCTGC AGAGCCCCCA GCCTGAGGAC ACGGGTGCAG AAGGAGGGGC TGAGTCCAAG 
    ACGAGCTCAG AAAACCAGAA GCCTGCTTCC ACCCACAAAT AA

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

    RefSeq XP_011525778.1
    CDS61..3582
    Translation

    Target ORF information:

    RefSeq Version XM_011527476.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011527476.2

    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
    ATGCTCCAGC TCCTGGTGCT GAAGATTGAA GATCCAGGTT GCTTCTGGGT TATTATAAAA 
    GGGTGTAGTC CCTTTTTAGA TCATGATGTC GATTATCAAA AATTAAATAG TGCCATGAAT 
    GACTTCTACA ACAGCACGTG TCAAGATATA GAAATAAAAC CCTTAACATT GGAAGAAGGA 
    CAGGTGTGTG TGGTCTATTG TGAGGAGCTA AAGTGCTGGT GCAGGGCCAT TGTCAAATCA 
    ATTACGTCTT CCGCAGACCA GTACCTGGCA GAATGTTTCC TTGTGGACTT TGCCAAGAAC 
    ATTCCAGTCA AATCTAAAAA CATCCGAGTT GTAGTAGAAT CGTTTATGCA GCTTCCCTAT 
    AGAGCAAAAA AATTCAGCCT GTACTGCACA AAGCCTGTCA CATTACACAT TGACTTCTGC 
    CGAGACAGTA CTGACATTGT ACCTGCCAAG AAGTGGGACA ATGCAGCTAT TCAGTACTTT 
    CAGAACCTTC TGAAAGCAAC TACCCAGGTG GAAGCCAGAT TATGTGCTGT GGAAGAAGAT 
    ACATTTGAGG TTTACCTTTA TGTAACTATA AAAGATGAAA AAGTTTGTGT TAATGATGAT 
    CTTGTTGCAA AGAACTATGC TTGTTATATG TCACCTACAA AGAATAAAAA CCTTGATTAT 
    TTAGAAAAAC CAAGATTGAA TATAAAATCA GCACCCTCCT TCAATAAACT CAATCCAGCA 
    CTTACACTCT GGCCAATGTT TTTGCAAGGA AAAGATGTTC AAGGAATGGA AGATTCACAT 
    GGTGTAAATT TTCCGGCACA ATCTCTGCAA CATACATGGT GCAAGGGTAT TGTCGGTGAC 
    CTCAGGCCAA CAGCCACAGC ACAGGACAAA GCTGTAAAAT GTAATATGGA TTCATTGAGA 
    GATTCACCTA AAGACAAATC TGAAAAGAAA CACCATTGCA TCTCTTTAAA AGATACAAAT 
    AAGCGTGTTG AATCCTCAGT GTACTGGCCA GCAAAAAGAG GCATAACCAT ATATGCTGAT 
    CCAGATGTAC CAGAAGCAAG TGCTTTAAGT CAGAAGTCAA ATGAGAAACC TCTTAGATTG 
    ACTGAGAAGA AAGAATATGA TGAGAAGAAT AGCTGTGTGA AATTACTGCA GTTTTTAAAT 
    CCTGATCCTT TGAGAGCTGA CGGAATCTCT GATCTCCAGC AGTTGCAGAA GCTGAAGGGC 
    CTGCAGCCGC CCGTGGTAGT GCTCCGGAAC AAGATCAAGC CCTGCTTAAC CATTGACTCG 
    TCGCCGCTGT CAGCAGACCT GAAGAAGGCT CTTCAAAGAA ATAAGTTTCC GGGCCCCAGC 
    CACACTGAAT CTTACTCTTG GCCTCCCATA GCGCGTGGCT GTGATGTGGT TGTCATTTCT 
    CACTGTGAAA GCAACCCTTT GCTCTACCTC CTACCAGTGT TGACAGTTTT GCAAACAGGA 
    GCCTGCTACA AGTCATTACC AAGTAGAAAT GGACCTCTCG CAGTCATCGT GTGCCCTGGG 
    TGGAAGAAGG CCCAATTTAT TTTTGAATTA TTGGGAGAAT ATAGCATGTC CTCCAGGCCT 
    CTTCATCCTG TGCTATTAAC AATTGGGCTC CATAAAGAGG AAGCCAAAAA TACAAAGCTT 
    CCAAGGGGCT GTGATGTGAT TGTTACGACC CCATACAGCC TGCTGAGGCT TCTCGCCTGT 
    CAGAGCCTGC TGTTCCTCAG GCTCTGCCAC CTGATCCTGG ATGAGGTAGA GGTGCTATTC 
    TTGGAAGCCA ATGAACAGAT GTTTGCTATA TTAGATAACT TTAAAAAAAA TATTGAAGTT 
    GAAGAAAGGG AATCTGCACC ACATCAGATT GTTGCAGTTG GAGTTCATTG GAACAAACAT 
    ATAGAACATC TCATCAAAGA GTTCATGAAT GATCCCTACA TTGTGATCAC AGCCATGGAA 
    GAGGCTGCTC TCTATGGCAA TGTCCAACAG GTAGTACATC TTTGCCTAGA ATGTGAAAAA 
    ACTTCTTCTT TACTCCAAGC TCTTGATTTT ATTCCAAGTC AGGCACAAAA GACCTTGATC 
    TTCACCTGCT CTGTAGCTGA AACAGAAATA GTGTGTAAGG TAGTAGAAAG CAGTTCAATA 
    TTTTGCTTGA AGATGCATAA AGAAATGATT TTTAACTTAC AAAATGTTTT AGAACAGTGG 
    AAGAAGAAGT TAAGTTCTGG CTCTCAAATT ATATTAGCCC TCACAGACGA CTGCGTCCCA 
    CTCTTGGCCA TCACCGATGC CACGTGTGTG ATTCACTTCA GTTTCCCTGC CTCACCAAAA 
    GTTTTTGGTG GACGCCTGTA TTGCATGTCT GATCATTTTC ACGCTGAACA GGGTTCTCCT 
    GCAGAACAGG GAGATAAGAA AGCCAAATCT GTCTTGCTGC TGACGGAGAA AGATGCGAGC 
    CATGCGGTGG GCGTCCTGCG CTACTTGGAG CGAGCGGACG CCAAGGTCCC CGCAGAGCTG 
    TACGAGTTCA CCGCAGGAGT TCTGGAAGCC AAAGAAGATA AGAAAGCCGG AAGGCCTCTT 
    TGTCCATATC TGAAGGCTTT TGGTTTTTGC AATCATTTCA TTTTCAGAGA CAAAAGGATC 
    TGTCCTGACC GACACCGTAT TAATCCAGAA ACGGACTTGC CCAGGAAACT GTCCAGCCAA 
    GCCCTACCTT CATTTGGATA CATTAAAATA ATACCTTTTT ATATTTTGAA TGCAACAAAT 
    TACTTTGGCC GTATAGTTGA TAAACACATG GATCTTTATG CAACTCTCAA TGCTGAAATG 
    AATGAGTATT TTAAGGATTC TAATAAAACA ACTGTGGAAA AGGTGGAGAA GTTTGGATTG 
    TATGGATTAG CAGAAAAAAC GCTTTTTCAC AGGGTTCAGG TGTTGGAAGT GAACCAAAAA 
    GAAGACGCCT GGGCCCTGGA TGACATCCTT GTAGAGTTCA TCGATGAAGG CAGGACGGGG 
    CTCGTCACAA GGGACCAGCT GCTGCATCTC CCAGAACATT TCCACACACT TCCCCCGCAG 
    GCTGTGGAGT TTATTGTCTG TAGGGTGAAA CCTGCTGACA ACGAAATAGA ATGGAATCCG 
    AAGGTTACTA GGTACATTCA TCATAAAATT GTTGGAAAAT TGCATGATGC AAAAGTGATC 
    CTGGCTTTGG GAAATACAGT TTGGATTGAT CCAATGGTGC ACATTACAAA CCTTTCCAGT 
    TTAAAAACCT CTGTCATTGA TTATAATGTT CGAGCTGAAA TTTTGTCCAT GGGCATGGGC 
    ATTGATAATC CAGAACACAT AGAACAACTG AAAAAATTAC GCGAAGATGC TAAGATACCA 
    GCTTGTGAAG AAAGCCTAAG CCAGACCCCG CCGAGGGTGA CAGGGACCAG TCCTGCTCAA 
    GACCAGGATC ATCCATCCGA GGAGCAGGGG GGGCAGGGGA CGCCTCCAGC AGAAGATGCT 
    GCTTGCCTGC AGAGCCCCCA GCCTGAGGAC ACGGGTGCAG AAGGAGGGGC TGAGTCCAAG 
    ACGAGCTCAG AAAACCAGAA GCCTGCTTCC ACCCACAAAT AA

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

    TDRD12 ( XM_011527471.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011525773.1 Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu74353
    Clone ID Related Accession (Same CDS sequence) XM_011527471.2 , XM_011527471.3
    Accession Version XM_011527471.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4008bp)
    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 TDRD12 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000019.10) 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_011527471.1. ##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
    ATGCTCCAGC TCCTGGTGCT GAAGATTGAA GATCCAGGTT GCTTCTGGGT TATTATAAAA 
    GGGTGTAGTC CCTTTTTAGA TCATGATGTC GATTATCAAA AATTAAATAG TGCCATGAAT 
    GACTTCTACA ACAGCACGTG TCAAGATATA GAAATAAAAC CCTTAACATT GGAAGAAGGA 
    CAGGTGTGTG TGGTCTATTG TGAGGAGCTA AAGTGCTGGT GCAGGGCCAT TGTCAAATCA 
    ATTACGTCTT CCGCAGACCA GTACCTGGCA GAATGTTTCC TTGTGGACTT TGCCAAGAAC 
    ATTCCAGTCA AATCTAAAAA CATCCGAGTT GTAGTAGAAT CGTTTATGCA GCTTCCCTAT 
    AGAGCAAAAA AATTCAGCCT GTACTGCACA AAGCCTGTCA CATTACACAT TGACTTCTGC 
    CGAGACAGTA CTGACATTGT ACCTGCCAAG AAGTGGGACA ATGCAGCTAT TCAGTACTTT 
    CAGAACCTTC TGAAAGCAAC TACCCAGGTG GAAGCCAGAT TATGTGCTGT GGAAGAAGAT 
    ACATTTGAGG TTTACCTTTA TGTAACTATA AAAGATGAAA AAGTTTGTGT TAATGATGAT 
    CTTGTTGCAA AGAACTATGC TTGTTATATG TCACCTACAA AGAATAAAAA CCTTGATTAT 
    TTAGAAAAAC CAAGATTGAA TATAAAATCA GCACCCTCCT TCAATAAACT CAATCCAGCA 
    CTTACACTCT GGCCAATGTT TTTGCAAGGA AAAGATGTTC AAGGAATGGA AGATTCACAT 
    GGTGTAAATT TTCCGGCACA ATCTCTGCAA CATACATGGT GCAAGGGTAT TGTCGGTGAC 
    CTCAGGCCAA CAGCCACAGC ACAGGACAAA GCTGTAAAAT GTAATATGGA TTCATTGAGA 
    GATTCACCTA AAGACAAATC TGAAAAGAAA CACCATTGCA TCTCTTTAAA AGATACAAAT 
    AAGCGTGTTG AATCCTCAGT GTACTGGCCA GCAAAAAGAG GCATAACCAT ATATGCTGAT 
    CCAGATGTAC CAGAAGCAAG TGCTTTAAGT CAGAAGTCAA ATGAGAAACC TCTTAGATTG 
    ACTGAGAAGA AAGAATATGA TGAGAAGAAT AGCTGTGTGA AATTACTGCA GTTTTTAAAT 
    CCTGATCCTT TGAGAGCTGA CGGAATCTCT GATCTCCAGC AGTTGCAGAA GCTGAAGGGC 
    CTGCAGCCGC CCGTGGTAGT GCTCCGGAAC AAGATCAAGC CCTGCTTAAC CATTGACTCG 
    TCGCCGCTGT CAGCAGACCT GAAGAAGGCT CTTCAAAGAA ATAAGTTTCC GGGCCCCAGC 
    CACACTGAAT CTTACTCTTG GCCTCCCATA GCGCGTGGCT GTGATGTGGT TGTCATTTCT 
    CACTGTGAAA GCAACCCTTT GCTCTACCTC CTACCAGTGT TGACAGTTTT GCAAACAGGA 
    GCCTGCTACA AGTCATTACC AAGTAGAAAT GGACCTCTCG CAGTCATCGT GTGCCCTGGG 
    TGGAAGAAGG CCCAATTTAT TTTTGAATTA TTGGGAGAAT ATAGCATGTC CTCCAGGCCT 
    CTTCATCCTG TGCTATTAAC AATTGGGCTC CATAAAGAGG AAGCCAAAAA TACAAAGCTT 
    CCAAGGGGCT GTGATGTGAT TGTTACGACC CCATACAGCC TGCTGAGGCT TCTCGCCTGT 
    CAGAGCCTGC TGTTCCTCAG GCTCTGCCAC CTGATCCTGG ATGAGGTAGA GGTGCTATTC 
    TTGGAAGCCA ATGAACAGAT GTTTGCTATA TTAGATAACT TTAAAAAAAA TATTGAAGTT 
    GAAGAAAGGG AATCTGCACC ACATCAGATT GTTGCAGTTG GAGTTCATTG GAACAAACAT 
    ATAGAACATC TCATCAAAGA GTTCATGAAT GATCCCTACA TTGTGATCAC AGCCATGGAA 
    GAGGCTGCTC TCTATGGCAA TGTCCAACAG GTAGTACATC TTTGCCTAGA ATGTGAAAAA 
    ACTTCTTCTT TACTCCAAGC TCTTGATTTT ATTCCAAGTC AGGCACAAAA GACCTTGATC 
    TTCACCTGCT CTGTAGCTGA AACAGAAATA GTGTGTAAGG TAGTAGAAAG CAGTTCAATA 
    TTTTGCTTGA AGATGCATAA AGAAATGATT TTTAACTTAC AAAATGTTTT AGAACAGTGG 
    AAGAAGAAGT TAAGTTCTGG CTCTCAAATT ATATTAGCCC TCACAGACGA CTGCGTCCCA 
    CTCTTGGCCA TCACCGATGC CACGTGTGTG ATTCACTTCA GTTTCCCTGC CTCACCAAAA 
    GTTTTTGGTG GACGCCTGTA TTGCATGTCT GATCATTTTC ACGCTGAACA GGGTTCTCCT 
    GCAGAACAGG GAGATAAGAA AGCCAAATCT GTCTTGCTGC TGACGGAGAA AGATGCGAGC 
    CATGCGGTGG GCGTCCTGCG CTACTTGGAG CGAGCGGACG CCAAGGTCCC CGCAGAGCTG 
    TACGAGTTCA CCGCAGGAGT TCTGGAAGCC AAAGAAGATA AGAAAGCCGG AAGGCCTCTT 
    TGTCCATATC TGAAGGCTTT TGGTTTTTGC AATCATTTCA TTTTCAGAGA CAAAAGGATC 
    TGTCCTGACC GACACCGTAT TAATCCAGAA ACGGACTTGC CCAGGAAACT GTCCAGCCAA 
    GCCCTACCTT CATTTGGATA CATTAAAATA ATACCTTTTT ATATTTTGAA TGCAACAAAT 
    TACTTTGGCC GTATAGTTGA TAAACACATG GATCTTTATG CAACTCTCAA TGCTGAAATG 
    AATGAGTATT TTAAGGATTC TAATAAAACA ACTGTGGAAA AGGTGGAGAA GTTTGGATTG 
    TATGGATTAG CAGAAAAAAC GCTTTTTCAC AGGGTTCAGG TGTTGGAAGT GAACCAAAAA 
    GAAGACGCCT GGGCCCTGGA TGACATCCTT GTAGAGTTCA TCGATGAAGG CAGGACGGGG 
    CTCGTCACAA GGGACCAGCT GCTGCATCTC CCAGAACATT TCCACACACT TCCCCCGCAG 
    GCTGTGGAGT TTATTGTCTG TAGGGTGAAA CCTGCTGACA ACGAAATAGA ATGGAATCCG 
    AAGGTTACTA GGTACATTCA TCATAAAATT GTTGGAAAAT TGCATGATGC AAAAGTGATC 
    CTGGCTTTGG GAAATACAGT TTGGATTGAT CCAATGGTGC ACATTACAAA CCTTTCCAGT 
    TTAAAAACCT CTGTCATTGA TTATAATGTT CGAGCTGAAA TTTTGTCCAT GGGCATGGGC 
    ATTGATAATC CAGAACACAT AGAACAACTG AAAAAATTAC GCGAAGATGC TAAGATACCA 
    GCTTGTGAAG AAAGCCTAAG CCAGACCCCG CCGAGGGTGA CAGGGACCAG TCCTGCTCAA 
    GACCAGGATC ATCCATCCGA GGAGCAGGGG GGGCAGGGGA CGCCTCCAGC AGAAGATGCT 
    GCTTGCCTGC AGAGCCCCCA GCCTGAGGAC ACGGGTGCAG AAGGAGGGGC TGAGTCCAAG 
    ACGAGCTCAG AAAACCAGAA GCCTGAAACT TTATCTGGAA ACACTGAAGG TGCCTTCATT 
    AGCAGAACTG CACAGCCGCC TCTGAAAAGC TTCCACCCAC AAATAAAATG GTTCCAAAAA 
    GAAGATGTCG TCATCTTAAA GATAAGAATA AGGAATGTAA AGGACTACAA GTGTCAGTAT 
    TTAAGGGATA GAGTCGTTTT CAGTGCTTGG GTGGGAGACA AATTTTACCT GGCTGATCTG 
    GAGCTGCGGG GCAACATAAG GAAAGATGAC TGCCAATGTG TGATTAGAAA CGATGAACCT 
    GTAATCACTC TGGCCAAAGA GAGAAGGGAG GCATGGTGTC ACCTACTCAG ACAGAGGAAC 
    CCCAACGTGG CTTTTGATTT TGATCACTGG GAAGACTGTG AAGAGGACAG CCACTTCCCC 
    AAGGTAGTGA ATTCTAAAAA CCTGCCGTAC ACAGTGACAG AGGTGGTTGA AGACAGTAGC 
    AGCACTTCAG AGGATGACGA CAGTGAGAGT GAAAGAGAAG GTGAATGA

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

    RefSeq XP_011525773.1
    CDS61..4068
    Translation

    Target ORF information:

    RefSeq Version XM_011527471.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011527471.2

    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
    ATGCTCCAGC TCCTGGTGCT GAAGATTGAA GATCCAGGTT GCTTCTGGGT TATTATAAAA 
    GGGTGTAGTC CCTTTTTAGA TCATGATGTC GATTATCAAA AATTAAATAG TGCCATGAAT 
    GACTTCTACA ACAGCACGTG TCAAGATATA GAAATAAAAC CCTTAACATT GGAAGAAGGA 
    CAGGTGTGTG TGGTCTATTG TGAGGAGCTA AAGTGCTGGT GCAGGGCCAT TGTCAAATCA 
    ATTACGTCTT CCGCAGACCA GTACCTGGCA GAATGTTTCC TTGTGGACTT TGCCAAGAAC 
    ATTCCAGTCA AATCTAAAAA CATCCGAGTT GTAGTAGAAT CGTTTATGCA GCTTCCCTAT 
    AGAGCAAAAA AATTCAGCCT GTACTGCACA AAGCCTGTCA CATTACACAT TGACTTCTGC 
    CGAGACAGTA CTGACATTGT ACCTGCCAAG AAGTGGGACA ATGCAGCTAT TCAGTACTTT 
    CAGAACCTTC TGAAAGCAAC TACCCAGGTG GAAGCCAGAT TATGTGCTGT GGAAGAAGAT 
    ACATTTGAGG TTTACCTTTA TGTAACTATA AAAGATGAAA AAGTTTGTGT TAATGATGAT 
    CTTGTTGCAA AGAACTATGC TTGTTATATG TCACCTACAA AGAATAAAAA CCTTGATTAT 
    TTAGAAAAAC CAAGATTGAA TATAAAATCA GCACCCTCCT TCAATAAACT CAATCCAGCA 
    CTTACACTCT GGCCAATGTT TTTGCAAGGA AAAGATGTTC AAGGAATGGA AGATTCACAT 
    GGTGTAAATT TTCCGGCACA ATCTCTGCAA CATACATGGT GCAAGGGTAT TGTCGGTGAC 
    CTCAGGCCAA CAGCCACAGC ACAGGACAAA GCTGTAAAAT GTAATATGGA TTCATTGAGA 
    GATTCACCTA AAGACAAATC TGAAAAGAAA CACCATTGCA TCTCTTTAAA AGATACAAAT 
    AAGCGTGTTG AATCCTCAGT GTACTGGCCA GCAAAAAGAG GCATAACCAT ATATGCTGAT 
    CCAGATGTAC CAGAAGCAAG TGCTTTAAGT CAGAAGTCAA ATGAGAAACC TCTTAGATTG 
    ACTGAGAAGA AAGAATATGA TGAGAAGAAT AGCTGTGTGA AATTACTGCA GTTTTTAAAT 
    CCTGATCCTT TGAGAGCTGA CGGAATCTCT GATCTCCAGC AGTTGCAGAA GCTGAAGGGC 
    CTGCAGCCGC CCGTGGTAGT GCTCCGGAAC AAGATCAAGC CCTGCTTAAC CATTGACTCG 
    TCGCCGCTGT CAGCAGACCT GAAGAAGGCT CTTCAAAGAA ATAAGTTTCC GGGCCCCAGC 
    CACACTGAAT CTTACTCTTG GCCTCCCATA GCGCGTGGCT GTGATGTGGT TGTCATTTCT 
    CACTGTGAAA GCAACCCTTT GCTCTACCTC CTACCAGTGT TGACAGTTTT GCAAACAGGA 
    GCCTGCTACA AGTCATTACC AAGTAGAAAT GGACCTCTCG CAGTCATCGT GTGCCCTGGG 
    TGGAAGAAGG CCCAATTTAT TTTTGAATTA TTGGGAGAAT ATAGCATGTC CTCCAGGCCT 
    CTTCATCCTG TGCTATTAAC AATTGGGCTC CATAAAGAGG AAGCCAAAAA TACAAAGCTT 
    CCAAGGGGCT GTGATGTGAT TGTTACGACC CCATACAGCC TGCTGAGGCT TCTCGCCTGT 
    CAGAGCCTGC TGTTCCTCAG GCTCTGCCAC CTGATCCTGG ATGAGGTAGA GGTGCTATTC 
    TTGGAAGCCA ATGAACAGAT GTTTGCTATA TTAGATAACT TTAAAAAAAA TATTGAAGTT 
    GAAGAAAGGG AATCTGCACC ACATCAGATT GTTGCAGTTG GAGTTCATTG GAACAAACAT 
    ATAGAACATC TCATCAAAGA GTTCATGAAT GATCCCTACA TTGTGATCAC AGCCATGGAA 
    GAGGCTGCTC TCTATGGCAA TGTCCAACAG GTAGTACATC TTTGCCTAGA ATGTGAAAAA 
    ACTTCTTCTT TACTCCAAGC TCTTGATTTT ATTCCAAGTC AGGCACAAAA GACCTTGATC 
    TTCACCTGCT CTGTAGCTGA AACAGAAATA GTGTGTAAGG TAGTAGAAAG CAGTTCAATA 
    TTTTGCTTGA AGATGCATAA AGAAATGATT TTTAACTTAC AAAATGTTTT AGAACAGTGG 
    AAGAAGAAGT TAAGTTCTGG CTCTCAAATT ATATTAGCCC TCACAGACGA CTGCGTCCCA 
    CTCTTGGCCA TCACCGATGC CACGTGTGTG ATTCACTTCA GTTTCCCTGC CTCACCAAAA 
    GTTTTTGGTG GACGCCTGTA TTGCATGTCT GATCATTTTC ACGCTGAACA GGGTTCTCCT 
    GCAGAACAGG GAGATAAGAA AGCCAAATCT GTCTTGCTGC TGACGGAGAA AGATGCGAGC 
    CATGCGGTGG GCGTCCTGCG CTACTTGGAG CGAGCGGACG CCAAGGTCCC CGCAGAGCTG 
    TACGAGTTCA CCGCAGGAGT TCTGGAAGCC AAAGAAGATA AGAAAGCCGG AAGGCCTCTT 
    TGTCCATATC TGAAGGCTTT TGGTTTTTGC AATCATTTCA TTTTCAGAGA CAAAAGGATC 
    TGTCCTGACC GACACCGTAT TAATCCAGAA ACGGACTTGC CCAGGAAACT GTCCAGCCAA 
    GCCCTACCTT CATTTGGATA CATTAAAATA ATACCTTTTT ATATTTTGAA TGCAACAAAT 
    TACTTTGGCC GTATAGTTGA TAAACACATG GATCTTTATG CAACTCTCAA TGCTGAAATG 
    AATGAGTATT TTAAGGATTC TAATAAAACA ACTGTGGAAA AGGTGGAGAA GTTTGGATTG 
    TATGGATTAG CAGAAAAAAC GCTTTTTCAC AGGGTTCAGG TGTTGGAAGT GAACCAAAAA 
    GAAGACGCCT GGGCCCTGGA TGACATCCTT GTAGAGTTCA TCGATGAAGG CAGGACGGGG 
    CTCGTCACAA GGGACCAGCT GCTGCATCTC CCAGAACATT TCCACACACT TCCCCCGCAG 
    GCTGTGGAGT TTATTGTCTG TAGGGTGAAA CCTGCTGACA ACGAAATAGA ATGGAATCCG 
    AAGGTTACTA GGTACATTCA TCATAAAATT GTTGGAAAAT TGCATGATGC AAAAGTGATC 
    CTGGCTTTGG GAAATACAGT TTGGATTGAT CCAATGGTGC ACATTACAAA CCTTTCCAGT 
    TTAAAAACCT CTGTCATTGA TTATAATGTT CGAGCTGAAA TTTTGTCCAT GGGCATGGGC 
    ATTGATAATC CAGAACACAT AGAACAACTG AAAAAATTAC GCGAAGATGC TAAGATACCA 
    GCTTGTGAAG AAAGCCTAAG CCAGACCCCG CCGAGGGTGA CAGGGACCAG TCCTGCTCAA 
    GACCAGGATC ATCCATCCGA GGAGCAGGGG GGGCAGGGGA CGCCTCCAGC AGAAGATGCT 
    GCTTGCCTGC AGAGCCCCCA GCCTGAGGAC ACGGGTGCAG AAGGAGGGGC TGAGTCCAAG 
    ACGAGCTCAG AAAACCAGAA GCCTGAAACT TTATCTGGAA ACACTGAAGG TGCCTTCATT 
    AGCAGAACTG CACAGCCGCC TCTGAAAAGC TTCCACCCAC AAATAAAATG GTTCCAAAAA 
    GAAGATGTCG TCATCTTAAA GATAAGAATA AGGAATGTAA AGGACTACAA GTGTCAGTAT 
    TTAAGGGATA GAGTCGTTTT CAGTGCTTGG GTGGGAGACA AATTTTACCT GGCTGATCTG 
    GAGCTGCGGG GCAACATAAG GAAAGATGAC TGCCAATGTG TGATTAGAAA CGATGAACCT 
    GTAATCACTC TGGCCAAAGA GAGAAGGGAG GCATGGTGTC ACCTACTCAG ACAGAGGAAC 
    CCCAACGTGG CTTTTGATTT TGATCACTGG GAAGACTGTG AAGAGGACAG CCACTTCCCC 
    AAGGTAGTGA ATTCTAAAAA CCTGCCGTAC ACAGTGACAG AGGTGGTTGA AGACAGTAGC 
    AGCACTTCAG AGGATGACGA CAGTGAGAGT GAAAGAGAAG GTGAATGA

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

    TDRD12 ( XM_011527471.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011525773.1 Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu74353
    Clone ID Related Accession (Same CDS sequence) XM_011527471.2 , XM_011527471.3
    Accession Version XM_011527471.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4008bp)
    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 putative ATP-dependent RNA helicase TDRD12 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000019.10) 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_011527471.2. ##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
    ATGCTCCAGC TCCTGGTGCT GAAGATTGAA GATCCAGGTT GCTTCTGGGT TATTATAAAA 
    GGGTGTAGTC CCTTTTTAGA TCATGATGTC GATTATCAAA AATTAAATAG TGCCATGAAT 
    GACTTCTACA ACAGCACGTG TCAAGATATA GAAATAAAAC CCTTAACATT GGAAGAAGGA 
    CAGGTGTGTG TGGTCTATTG TGAGGAGCTA AAGTGCTGGT GCAGGGCCAT TGTCAAATCA 
    ATTACGTCTT CCGCAGACCA GTACCTGGCA GAATGTTTCC TTGTGGACTT TGCCAAGAAC 
    ATTCCAGTCA AATCTAAAAA CATCCGAGTT GTAGTAGAAT CGTTTATGCA GCTTCCCTAT 
    AGAGCAAAAA AATTCAGCCT GTACTGCACA AAGCCTGTCA CATTACACAT TGACTTCTGC 
    CGAGACAGTA CTGACATTGT ACCTGCCAAG AAGTGGGACA ATGCAGCTAT TCAGTACTTT 
    CAGAACCTTC TGAAAGCAAC TACCCAGGTG GAAGCCAGAT TATGTGCTGT GGAAGAAGAT 
    ACATTTGAGG TTTACCTTTA TGTAACTATA AAAGATGAAA AAGTTTGTGT TAATGATGAT 
    CTTGTTGCAA AGAACTATGC TTGTTATATG TCACCTACAA AGAATAAAAA CCTTGATTAT 
    TTAGAAAAAC CAAGATTGAA TATAAAATCA GCACCCTCCT TCAATAAACT CAATCCAGCA 
    CTTACACTCT GGCCAATGTT TTTGCAAGGA AAAGATGTTC AAGGAATGGA AGATTCACAT 
    GGTGTAAATT TTCCGGCACA ATCTCTGCAA CATACATGGT GCAAGGGTAT TGTCGGTGAC 
    CTCAGGCCAA CAGCCACAGC ACAGGACAAA GCTGTAAAAT GTAATATGGA TTCATTGAGA 
    GATTCACCTA AAGACAAATC TGAAAAGAAA CACCATTGCA TCTCTTTAAA AGATACAAAT 
    AAGCGTGTTG AATCCTCAGT GTACTGGCCA GCAAAAAGAG GCATAACCAT ATATGCTGAT 
    CCAGATGTAC CAGAAGCAAG TGCTTTAAGT CAGAAGTCAA ATGAGAAACC TCTTAGATTG 
    ACTGAGAAGA AAGAATATGA TGAGAAGAAT AGCTGTGTGA AATTACTGCA GTTTTTAAAT 
    CCTGATCCTT TGAGAGCTGA CGGAATCTCT GATCTCCAGC AGTTGCAGAA GCTGAAGGGC 
    CTGCAGCCGC CCGTGGTAGT GCTCCGGAAC AAGATCAAGC CCTGCTTAAC CATTGACTCG 
    TCGCCGCTGT CAGCAGACCT GAAGAAGGCT CTTCAAAGAA ATAAGTTTCC GGGCCCCAGC 
    CACACTGAAT CTTACTCTTG GCCTCCCATA GCGCGTGGCT GTGATGTGGT TGTCATTTCT 
    CACTGTGAAA GCAACCCTTT GCTCTACCTC CTACCAGTGT TGACAGTTTT GCAAACAGGA 
    GCCTGCTACA AGTCATTACC AAGTAGAAAT GGACCTCTCG CAGTCATCGT GTGCCCTGGG 
    TGGAAGAAGG CCCAATTTAT TTTTGAATTA TTGGGAGAAT ATAGCATGTC CTCCAGGCCT 
    CTTCATCCTG TGCTATTAAC AATTGGGCTC CATAAAGAGG AAGCCAAAAA TACAAAGCTT 
    CCAAGGGGCT GTGATGTGAT TGTTACGACC CCATACAGCC TGCTGAGGCT TCTCGCCTGT 
    CAGAGCCTGC TGTTCCTCAG GCTCTGCCAC CTGATCCTGG ATGAGGTAGA GGTGCTATTC 
    TTGGAAGCCA ATGAACAGAT GTTTGCTATA TTAGATAACT TTAAAAAAAA TATTGAAGTT 
    GAAGAAAGGG AATCTGCACC ACATCAGATT GTTGCAGTTG GAGTTCATTG GAACAAACAT 
    ATAGAACATC TCATCAAAGA GTTCATGAAT GATCCCTACA TTGTGATCAC AGCCATGGAA 
    GAGGCTGCTC TCTATGGCAA TGTCCAACAG GTAGTACATC TTTGCCTAGA ATGTGAAAAA 
    ACTTCTTCTT TACTCCAAGC TCTTGATTTT ATTCCAAGTC AGGCACAAAA GACCTTGATC 
    TTCACCTGCT CTGTAGCTGA AACAGAAATA GTGTGTAAGG TAGTAGAAAG CAGTTCAATA 
    TTTTGCTTGA AGATGCATAA AGAAATGATT TTTAACTTAC AAAATGTTTT AGAACAGTGG 
    AAGAAGAAGT TAAGTTCTGG CTCTCAAATT ATATTAGCCC TCACAGACGA CTGCGTCCCA 
    CTCTTGGCCA TCACCGATGC CACGTGTGTG ATTCACTTCA GTTTCCCTGC CTCACCAAAA 
    GTTTTTGGTG GACGCCTGTA TTGCATGTCT GATCATTTTC ACGCTGAACA GGGTTCTCCT 
    GCAGAACAGG GAGATAAGAA AGCCAAATCT GTCTTGCTGC TGACGGAGAA AGATGCGAGC 
    CATGCGGTGG GCGTCCTGCG CTACTTGGAG CGAGCGGACG CCAAGGTCCC CGCAGAGCTG 
    TACGAGTTCA CCGCAGGAGT TCTGGAAGCC AAAGAAGATA AGAAAGCCGG AAGGCCTCTT 
    TGTCCATATC TGAAGGCTTT TGGTTTTTGC AATCATTTCA TTTTCAGAGA CAAAAGGATC 
    TGTCCTGACC GACACCGTAT TAATCCAGAA ACGGACTTGC CCAGGAAACT GTCCAGCCAA 
    GCCCTACCTT CATTTGGATA CATTAAAATA ATACCTTTTT ATATTTTGAA TGCAACAAAT 
    TACTTTGGCC GTATAGTTGA TAAACACATG GATCTTTATG CAACTCTCAA TGCTGAAATG 
    AATGAGTATT TTAAGGATTC TAATAAAACA ACTGTGGAAA AGGTGGAGAA GTTTGGATTG 
    TATGGATTAG CAGAAAAAAC GCTTTTTCAC AGGGTTCAGG TGTTGGAAGT GAACCAAAAA 
    GAAGACGCCT GGGCCCTGGA TGACATCCTT GTAGAGTTCA TCGATGAAGG CAGGACGGGG 
    CTCGTCACAA GGGACCAGCT GCTGCATCTC CCAGAACATT TCCACACACT TCCCCCGCAG 
    GCTGTGGAGT TTATTGTCTG TAGGGTGAAA CCTGCTGACA ACGAAATAGA ATGGAATCCG 
    AAGGTTACTA GGTACATTCA TCATAAAATT GTTGGAAAAT TGCATGATGC AAAAGTGATC 
    CTGGCTTTGG GAAATACAGT TTGGATTGAT CCAATGGTGC ACATTACAAA CCTTTCCAGT 
    TTAAAAACCT CTGTCATTGA TTATAATGTT CGAGCTGAAA TTTTGTCCAT GGGCATGGGC 
    ATTGATAATC CAGAACACAT AGAACAACTG AAAAAATTAC GCGAAGATGC TAAGATACCA 
    GCTTGTGAAG AAAGCCTAAG CCAGACCCCG CCGAGGGTGA CAGGGACCAG TCCTGCTCAA 
    GACCAGGATC ATCCATCCGA GGAGCAGGGG GGGCAGGGGA CGCCTCCAGC AGAAGATGCT 
    GCTTGCCTGC AGAGCCCCCA GCCTGAGGAC ACGGGTGCAG AAGGAGGGGC TGAGTCCAAG 
    ACGAGCTCAG AAAACCAGAA GCCTGAAACT TTATCTGGAA ACACTGAAGG TGCCTTCATT 
    AGCAGAACTG CACAGCCGCC TCTGAAAAGC TTCCACCCAC AAATAAAATG GTTCCAAAAA 
    GAAGATGTCG TCATCTTAAA GATAAGAATA AGGAATGTAA AGGACTACAA GTGTCAGTAT 
    TTAAGGGATA GAGTCGTTTT CAGTGCTTGG GTGGGAGACA AATTTTACCT GGCTGATCTG 
    GAGCTGCGGG GCAACATAAG GAAAGATGAC TGCCAATGTG TGATTAGAAA CGATGAACCT 
    GTAATCACTC TGGCCAAAGA GAGAAGGGAG GCATGGTGTC ACCTACTCAG ACAGAGGAAC 
    CCCAACGTGG CTTTTGATTT TGATCACTGG GAAGACTGTG AAGAGGACAG CCACTTCCCC 
    AAGGTAGTGA ATTCTAAAAA CCTGCCGTAC ACAGTGACAG AGGTGGTTGA AGACAGTAGC 
    AGCACTTCAG AGGATGACGA CAGTGAGAGT GAAAGAGAAG GTGAATGA

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

    RefSeq XP_011525773.1
    CDS61..4068
    Translation

    Target ORF information:

    RefSeq Version XM_011527471.3
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 12 (TDRD12), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011527471.3

    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
    ATGCTCCAGC TCCTGGTGCT GAAGATTGAA GATCCAGGTT GCTTCTGGGT TATTATAAAA 
    GGGTGTAGTC CCTTTTTAGA TCATGATGTC GATTATCAAA AATTAAATAG TGCCATGAAT 
    GACTTCTACA ACAGCACGTG TCAAGATATA GAAATAAAAC CCTTAACATT GGAAGAAGGA 
    CAGGTGTGTG TGGTCTATTG TGAGGAGCTA AAGTGCTGGT GCAGGGCCAT TGTCAAATCA 
    ATTACGTCTT CCGCAGACCA GTACCTGGCA GAATGTTTCC TTGTGGACTT TGCCAAGAAC 
    ATTCCAGTCA AATCTAAAAA CATCCGAGTT GTAGTAGAAT CGTTTATGCA GCTTCCCTAT 
    AGAGCAAAAA AATTCAGCCT GTACTGCACA AAGCCTGTCA CATTACACAT TGACTTCTGC 
    CGAGACAGTA CTGACATTGT ACCTGCCAAG AAGTGGGACA ATGCAGCTAT TCAGTACTTT 
    CAGAACCTTC TGAAAGCAAC TACCCAGGTG GAAGCCAGAT TATGTGCTGT GGAAGAAGAT 
    ACATTTGAGG TTTACCTTTA TGTAACTATA AAAGATGAAA AAGTTTGTGT TAATGATGAT 
    CTTGTTGCAA AGAACTATGC TTGTTATATG TCACCTACAA AGAATAAAAA CCTTGATTAT 
    TTAGAAAAAC CAAGATTGAA TATAAAATCA GCACCCTCCT TCAATAAACT CAATCCAGCA 
    CTTACACTCT GGCCAATGTT TTTGCAAGGA AAAGATGTTC AAGGAATGGA AGATTCACAT 
    GGTGTAAATT TTCCGGCACA ATCTCTGCAA CATACATGGT GCAAGGGTAT TGTCGGTGAC 
    CTCAGGCCAA CAGCCACAGC ACAGGACAAA GCTGTAAAAT GTAATATGGA TTCATTGAGA 
    GATTCACCTA AAGACAAATC TGAAAAGAAA CACCATTGCA TCTCTTTAAA AGATACAAAT 
    AAGCGTGTTG AATCCTCAGT GTACTGGCCA GCAAAAAGAG GCATAACCAT ATATGCTGAT 
    CCAGATGTAC CAGAAGCAAG TGCTTTAAGT CAGAAGTCAA ATGAGAAACC TCTTAGATTG 
    ACTGAGAAGA AAGAATATGA TGAGAAGAAT AGCTGTGTGA AATTACTGCA GTTTTTAAAT 
    CCTGATCCTT TGAGAGCTGA CGGAATCTCT GATCTCCAGC AGTTGCAGAA GCTGAAGGGC 
    CTGCAGCCGC CCGTGGTAGT GCTCCGGAAC AAGATCAAGC CCTGCTTAAC CATTGACTCG 
    TCGCCGCTGT CAGCAGACCT GAAGAAGGCT CTTCAAAGAA ATAAGTTTCC GGGCCCCAGC 
    CACACTGAAT CTTACTCTTG GCCTCCCATA GCGCGTGGCT GTGATGTGGT TGTCATTTCT 
    CACTGTGAAA GCAACCCTTT GCTCTACCTC CTACCAGTGT TGACAGTTTT GCAAACAGGA 
    GCCTGCTACA AGTCATTACC AAGTAGAAAT GGACCTCTCG CAGTCATCGT GTGCCCTGGG 
    TGGAAGAAGG CCCAATTTAT TTTTGAATTA TTGGGAGAAT ATAGCATGTC CTCCAGGCCT 
    CTTCATCCTG TGCTATTAAC AATTGGGCTC CATAAAGAGG AAGCCAAAAA TACAAAGCTT 
    CCAAGGGGCT GTGATGTGAT TGTTACGACC CCATACAGCC TGCTGAGGCT TCTCGCCTGT 
    CAGAGCCTGC TGTTCCTCAG GCTCTGCCAC CTGATCCTGG ATGAGGTAGA GGTGCTATTC 
    TTGGAAGCCA ATGAACAGAT GTTTGCTATA TTAGATAACT TTAAAAAAAA TATTGAAGTT 
    GAAGAAAGGG AATCTGCACC ACATCAGATT GTTGCAGTTG GAGTTCATTG GAACAAACAT 
    ATAGAACATC TCATCAAAGA GTTCATGAAT GATCCCTACA TTGTGATCAC AGCCATGGAA 
    GAGGCTGCTC TCTATGGCAA TGTCCAACAG GTAGTACATC TTTGCCTAGA ATGTGAAAAA 
    ACTTCTTCTT TACTCCAAGC TCTTGATTTT ATTCCAAGTC AGGCACAAAA GACCTTGATC 
    TTCACCTGCT CTGTAGCTGA AACAGAAATA GTGTGTAAGG TAGTAGAAAG CAGTTCAATA 
    TTTTGCTTGA AGATGCATAA AGAAATGATT TTTAACTTAC AAAATGTTTT AGAACAGTGG 
    AAGAAGAAGT TAAGTTCTGG CTCTCAAATT ATATTAGCCC TCACAGACGA CTGCGTCCCA 
    CTCTTGGCCA TCACCGATGC CACGTGTGTG ATTCACTTCA GTTTCCCTGC CTCACCAAAA 
    GTTTTTGGTG GACGCCTGTA TTGCATGTCT GATCATTTTC ACGCTGAACA GGGTTCTCCT 
    GCAGAACAGG GAGATAAGAA AGCCAAATCT GTCTTGCTGC TGACGGAGAA AGATGCGAGC 
    CATGCGGTGG GCGTCCTGCG CTACTTGGAG CGAGCGGACG CCAAGGTCCC CGCAGAGCTG 
    TACGAGTTCA CCGCAGGAGT TCTGGAAGCC AAAGAAGATA AGAAAGCCGG AAGGCCTCTT 
    TGTCCATATC TGAAGGCTTT TGGTTTTTGC AATCATTTCA TTTTCAGAGA CAAAAGGATC 
    TGTCCTGACC GACACCGTAT TAATCCAGAA ACGGACTTGC CCAGGAAACT GTCCAGCCAA 
    GCCCTACCTT CATTTGGATA CATTAAAATA ATACCTTTTT ATATTTTGAA TGCAACAAAT 
    TACTTTGGCC GTATAGTTGA TAAACACATG GATCTTTATG CAACTCTCAA TGCTGAAATG 
    AATGAGTATT TTAAGGATTC TAATAAAACA ACTGTGGAAA AGGTGGAGAA GTTTGGATTG 
    TATGGATTAG CAGAAAAAAC GCTTTTTCAC AGGGTTCAGG TGTTGGAAGT GAACCAAAAA 
    GAAGACGCCT GGGCCCTGGA TGACATCCTT GTAGAGTTCA TCGATGAAGG CAGGACGGGG 
    CTCGTCACAA GGGACCAGCT GCTGCATCTC CCAGAACATT TCCACACACT TCCCCCGCAG 
    GCTGTGGAGT TTATTGTCTG TAGGGTGAAA CCTGCTGACA ACGAAATAGA ATGGAATCCG 
    AAGGTTACTA GGTACATTCA TCATAAAATT GTTGGAAAAT TGCATGATGC AAAAGTGATC 
    CTGGCTTTGG GAAATACAGT TTGGATTGAT CCAATGGTGC ACATTACAAA CCTTTCCAGT 
    TTAAAAACCT CTGTCATTGA TTATAATGTT CGAGCTGAAA TTTTGTCCAT GGGCATGGGC 
    ATTGATAATC CAGAACACAT AGAACAACTG AAAAAATTAC GCGAAGATGC TAAGATACCA 
    GCTTGTGAAG AAAGCCTAAG CCAGACCCCG CCGAGGGTGA CAGGGACCAG TCCTGCTCAA 
    GACCAGGATC ATCCATCCGA GGAGCAGGGG GGGCAGGGGA CGCCTCCAGC AGAAGATGCT 
    GCTTGCCTGC AGAGCCCCCA GCCTGAGGAC ACGGGTGCAG AAGGAGGGGC TGAGTCCAAG 
    ACGAGCTCAG AAAACCAGAA GCCTGAAACT TTATCTGGAA ACACTGAAGG TGCCTTCATT 
    AGCAGAACTG CACAGCCGCC TCTGAAAAGC TTCCACCCAC AAATAAAATG GTTCCAAAAA 
    GAAGATGTCG TCATCTTAAA GATAAGAATA AGGAATGTAA AGGACTACAA GTGTCAGTAT 
    TTAAGGGATA GAGTCGTTTT CAGTGCTTGG GTGGGAGACA AATTTTACCT GGCTGATCTG 
    GAGCTGCGGG GCAACATAAG GAAAGATGAC TGCCAATGTG TGATTAGAAA CGATGAACCT 
    GTAATCACTC TGGCCAAAGA GAGAAGGGAG GCATGGTGTC ACCTACTCAG ACAGAGGAAC 
    CCCAACGTGG CTTTTGATTT TGATCACTGG GAAGACTGTG AAGAGGACAG CCACTTCCCC 
    AAGGTAGTGA ATTCTAAAAA CCTGCCGTAC ACAGTGACAG AGGTGGTTGA AGACAGTAGC 
    AGCACTTCAG AGGATGACGA CAGTGAGAGT GAAAGAGAAG GTGAATGA

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

  • PubMed

    High-content genome-wide RNAi screens identify regulators of parkin upstream of mitophagy.
    Nature504(7479)291-5(2013 Dec)
    Hasson SA,Kane LA,Yamano K,Huang CH,Sliter DA,Buehler E,Wang C,Heman-Ackah SM,Hessa T,Guha R,Martin SE,Youle RJ


    New loci associated with kidney function and chronic kidney disease.
    Nature genetics42(5)376-84(2010 May)
    K?ttgen A,Pattaro C,B?ger CA,Fuchsberger C,Olden M,Glazer NL,Parsa A,Gao X,Yang Q,Smith AV,O'Connell JR,Li M,Schmidt H,Tanaka T,Isaacs A,Ketkar S,Hwang SJ,Johnson AD,Dehghan A,Teumer A,Par? G,Atkinson EJ,Zeller T,Lohman K,Cornelis MC,Probst-Hensch NM,Kronenberg F,T?njes A,Hayward C,Aspelund T,Eiriksdottir G,Launer LJ,Harris TB,Rampersaud E,Mitchell BD,Arking DE,Boerwinkle E,Struchalin M,Cavalieri M,Singleton A,Giallauria F,Metter J,de Boer IH,Haritunians T,Lumley T,Siscovick D,Psaty BM,Zillikens MC,Oostra BA,Feitosa M,Province M,de Andrade M,Turner ST,Schillert A,Ziegler A,Wild PS,Schnabel RB,Wilde S,Munzel TF,Leak TS,Illig T,Klopp N,Meisinger C,Wichmann HE,Koenig W,Zgaga L,Zemunik T,Kolcic I,Minelli C,Hu FB,Johansson A,Igl W,Zaboli G,Wild SH,Wright AF,Campbell H,Ellinghaus D,Schreiber S,Aulchenko YS,Felix JF,Rivadeneira F,Uitterlinden AG,Hofman A,Imboden M,Nitsch D,Brandst?tter A,Kollerits B,Kedenko L,M?gi R,Stumvoll M,Kovacs P,Boban M,Campbell S,Endlich K,V?lzke H,Kroemer HK,Nauck M,V?lker U,Polasek O,Vitart V,Badola S,Parker AN,Ridker PM,Kardia SL,Blankenberg S,Liu Y,Curhan GC,Franke A,Rochat T,Paulweber B,Prokopenko I,Wang W,Gudnason V,Shuldiner AR,Coresh J,Schmidt R,Ferrucci L,Shlipak MG,van Duijn CM,Borecki I,Kr?mer BK,Rudan I,Gyllensten U,Wilson JF,Witteman JC,Pramstaller PP,Rettig R,Hastie N,Chasman DI,Kao WH,Heid IM,Fox CS


    The homeoprotein Nanog is required for maintenance of pluripotency in mouse epiblast and ES cells.
    Cell113(5)631-42(2003 May)
    Mitsui K,Tokuzawa Y,Itoh H,Segawa K,Murakami M,Takahashi K,Maruyama M,Maeda M,Yamanaka S


見積依頼

Eメール

japanmarket@genscript.com

電話

03-6811-6572

FAX

03-6811-6573
050-3174-7589(受注専用)

オンラインフォーム

オンライン注文