ORF » Species Summary » Homo sapiens » TDRD1 cDNA ORF clone

TDRD1 cDNA ORF clone, Homo sapiens(human)

  • Gene

  • Clones

  • gRNAs

The following TDRD1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TDRD1 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
OHu91520 XM_017016415.2
Latest version!		 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OHu106872 NM_001365891.2
Latest version!		 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu91519 XM_017016414.2
Latest version!		 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OHu30450 NM_198795.1
Latest version!		 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu30450 XM_011539960.2
Latest version!		 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu30450 XM_011539962.1
Latest version!		 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu30450 XM_011539959.2
Latest version!		 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu30450 XM_005269978.2
Latest version!		 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu30450 XM_011539961.2
Latest version!		 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu44435 XM_005269979.3
Latest version!		 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu69964 XM_011539963.2
Latest version!		 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu69965 XM_011539964.2
Latest version!		 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu69967 XM_024448081.1
Latest version!		 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu69967 XM_011539966.1
Latest version!		 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
View Old Accession Versions >>
OHu69965 XM_011539964.1 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu91520 XM_017016415.1 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OHu106872 NM_001365891.1 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu69964 XM_011539963.1 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu91519 XM_017016414.1 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OHu44435 XM_005269979.2 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
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)
    TDRD1 ( XM_017016415.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016871904.1 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X10, mRNA.
    Price & Availability↑
    CloneID OHu91520
    Clone ID Related Accession (Same CDS sequence) XM_017016415.1 , XM_017016415.2
    Accession Version XM_017016415.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3000bp)
    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 tudor domain-containing protein 1 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and 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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GGCCATAAAG TGCTTTGTAG CCAATGTTAT CCCAGCAGAA 
    GGGAATTGGA GCAGTGATTG TATCAAAGCT ACTAAACCAC TGTTAATGGA GCAGTACTGC 
    TCCATAAAGA TTGTCGACAT CTTGGAAGAG GAAGTGGTTA CCTTTGCTGT AGAAGTTGAG 
    CTGCCAAATT CAGGAAAACT TTTAGACCAT GTGCTTATAG AAATGGGATA TGGCTTGAAA 
    CCCAGTGGAC AAGATTCTAA GAAGGAAAAT GCAGATCAAA GTGATCCTGA AGATGTTGGA 
    AAAATGACAA CTGAAAACAA CATTGTCGTA GACAAAAGTG ACCTAATCCC AAAAGTGTTA 
    ACTTTGAATG TAGGTGATGA GTTTTGTGGT GTGGTTGCCC ACATTCAAAC ACCAGAAGAC 
    TTCTTTTGTC AACAACTGCA AAGTGGCCGA AAGCTTGCTG AACTTCAGGC ATCCCTTAGC 
    AAGTACTGTG ATCAGTTGCC TCCACGCTCT GATTTTTATC CAGCCATTGG TGATATATGT 
    TGTGCTCAGT TCTCAGGAGT AAAGCCATCA TTAGGAATTT GGACTCCAGA AGCTATTTGT 
    CTCATGAAAA AACTTGTACA GAACAAAATA ATCACAGTGA AAGTGGTGGA CAAGTTGGAA 
    AACAGTTCCC TGGTGGAGCT TATTGATAAA TCCGAGACGC CTCATGTCAG TGTTAGCAAA 
    GTTCTCCTAG ATGCAGGCTT TGCTGTGGGA GAACAGAGTA TGGTGACAGA TAAACCCAGT 
    GACGTGAAAG AAACCAGTGT TCCCTTGGGT GTGGAAGGAA AAGTAAATCC ATTGGAGTGG 
    ACATGGGTTG AACTTGGTGT TGACCAAACA GTAGATGTTG TGGTCTGTGT GATATATAGT 
    CCTGGAGAAT TTTATTGCCA TGTGCTTAAA GAGGATGCTT TAAAGAAACT CAATGATTTG 
    AACAAGTCAT TAGCAGAACA CTGCCAGCAG AAGTTACCTA ATGGTTTCAA GGCAGAGATA 
    GGACAACCTT GTTGTGCTTT TTTTGCAGGT GATGGTAGTT GGTATCGTGC TTTAGTCAAG 
    GAAATCTTAC CAAATGGACA TGTTAAAGTA CATTTTGTGG ATTATGGAAA CATCGAAGAA 
    GTTACTGCAG ATGAACTCCG AATGATATCA TCAACATTTT TAAACCTTCC CTTTCAGGGA 
    ATACGGTGCC AGTTAGCAGA TATACAGTCT AGAAACAAAC ATTGGTCTGA AGAAGCCATA 
    ACAAGATTCC AGATGTGTGT TGCTGGGATA AAATTGCAAG CCAGAGTGGT TGAAGTCACT 
    GAAAATGGGA TAGGAGTTGA ACTCACCGAT CTCTCCACTT GTTATCCCAG AATAATTAGT 
    GATGTTCTGA TTGATGAACA TCTGGTTTTA AAATCTGCTT CACCACATAA AGACTTACCA 
    AATGACAGAC TTGTTAATAA ACATGAGCTT CAAGTTCATG TACAGGGACT TCAAGCTACC 
    TCTTCAGCTG AGCAATGGAA GACGATAGAA TTGCCAGTGG ATAAAACTAT ACAAGCAAAT 
    GTATTAGAAA TCATAAGCCC AAACTTGTTT TATGCTCTAC CAAAAGGGAT GCCAGAAAAT 
    CAGGAAAAGC TGTGCATGTT GACAGCTGAA TTATTAGAAT ACTGCAATGC TCCGAAAAGT 
    CGACCACCCT ATAGACCAAG AATTGGAGAC GCATGCTGTG CCAAATACAC AAGTGATGAT 
    TTTTGGTATC GTGCAGTTGT TCTGGGGACA TCAGACACTG ATGTGGAAGT GCTCTATGCA 
    GACTATGGAA ACATTGAAAC CCTGCCTCTT TGCAGAGTGC AACCAATCAC CTCTAGCCAC 
    CTGGCGCTTC CTTTCCAAAT TATTAGATGT TCACTTGAAG AAAAGATGTA TAGGATGAAT 
    TGCTGCTGCA CAGAGTTACA GAAACAAGTT GAAAAACATG AACATATTCT TCTCTTCCTC 
    TTAAACAATT CAACCAATCA AAATAAATTT ATTGAAATGA AAAAACTGTT AAAAAGTTAA

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

    RefSeq XP_016871904.1
    CDS168..3167
    Translation

    Target ORF information:

    RefSeq Version XM_017016415.1
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017016415.1

    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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GGCCATAAAG TGCTTTGTAG CCAATGTTAT CCCAGCAGAA 
    GGGAATTGGA GCAGTGATTG TATCAAAGCT ACTAAACCAC TGTTAATGGA GCAGTACTGC 
    TCCATAAAGA TTGTCGACAT CTTGGAAGAG GAAGTGGTTA CCTTTGCTGT AGAAGTTGAG 
    CTGCCAAATT CAGGAAAACT TTTAGACCAT GTGCTTATAG AAATGGGATA TGGCTTGAAA 
    CCCAGTGGAC AAGATTCTAA GAAGGAAAAT GCAGATCAAA GTGATCCTGA AGATGTTGGA 
    AAAATGACAA CTGAAAACAA CATTGTCGTA GACAAAAGTG ACCTAATCCC AAAAGTGTTA 
    ACTTTGAATG TAGGTGATGA GTTTTGTGGT GTGGTTGCCC ACATTCAAAC ACCAGAAGAC 
    TTCTTTTGTC AACAACTGCA AAGTGGCCGA AAGCTTGCTG AACTTCAGGC ATCCCTTAGC 
    AAGTACTGTG ATCAGTTGCC TCCACGCTCT GATTTTTATC CAGCCATTGG TGATATATGT 
    TGTGCTCAGT TCTCAGGAGT AAAGCCATCA TTAGGAATTT GGACTCCAGA AGCTATTTGT 
    CTCATGAAAA AACTTGTACA GAACAAAATA ATCACAGTGA AAGTGGTGGA CAAGTTGGAA 
    AACAGTTCCC TGGTGGAGCT TATTGATAAA TCCGAGACGC CTCATGTCAG TGTTAGCAAA 
    GTTCTCCTAG ATGCAGGCTT TGCTGTGGGA GAACAGAGTA TGGTGACAGA TAAACCCAGT 
    GACGTGAAAG AAACCAGTGT TCCCTTGGGT GTGGAAGGAA AAGTAAATCC ATTGGAGTGG 
    ACATGGGTTG AACTTGGTGT TGACCAAACA GTAGATGTTG TGGTCTGTGT GATATATAGT 
    CCTGGAGAAT TTTATTGCCA TGTGCTTAAA GAGGATGCTT TAAAGAAACT CAATGATTTG 
    AACAAGTCAT TAGCAGAACA CTGCCAGCAG AAGTTACCTA ATGGTTTCAA GGCAGAGATA 
    GGACAACCTT GTTGTGCTTT TTTTGCAGGT GATGGTAGTT GGTATCGTGC TTTAGTCAAG 
    GAAATCTTAC CAAATGGACA TGTTAAAGTA CATTTTGTGG ATTATGGAAA CATCGAAGAA 
    GTTACTGCAG ATGAACTCCG AATGATATCA TCAACATTTT TAAACCTTCC CTTTCAGGGA 
    ATACGGTGCC AGTTAGCAGA TATACAGTCT AGAAACAAAC ATTGGTCTGA AGAAGCCATA 
    ACAAGATTCC AGATGTGTGT TGCTGGGATA AAATTGCAAG CCAGAGTGGT TGAAGTCACT 
    GAAAATGGGA TAGGAGTTGA ACTCACCGAT CTCTCCACTT GTTATCCCAG AATAATTAGT 
    GATGTTCTGA TTGATGAACA TCTGGTTTTA AAATCTGCTT CACCACATAA AGACTTACCA 
    AATGACAGAC TTGTTAATAA ACATGAGCTT CAAGTTCATG TACAGGGACT TCAAGCTACC 
    TCTTCAGCTG AGCAATGGAA GACGATAGAA TTGCCAGTGG ATAAAACTAT ACAAGCAAAT 
    GTATTAGAAA TCATAAGCCC AAACTTGTTT TATGCTCTAC CAAAAGGGAT GCCAGAAAAT 
    CAGGAAAAGC TGTGCATGTT GACAGCTGAA TTATTAGAAT ACTGCAATGC TCCGAAAAGT 
    CGACCACCCT ATAGACCAAG AATTGGAGAC GCATGCTGTG CCAAATACAC AAGTGATGAT 
    TTTTGGTATC GTGCAGTTGT TCTGGGGACA TCAGACACTG ATGTGGAAGT GCTCTATGCA 
    GACTATGGAA ACATTGAAAC CCTGCCTCTT TGCAGAGTGC AACCAATCAC CTCTAGCCAC 
    CTGGCGCTTC CTTTCCAAAT TATTAGATGT TCACTTGAAG AAAAGATGTA TAGGATGAAT 
    TGCTGCTGCA CAGAGTTACA GAAACAAGTT GAAAAACATG AACATATTCT TCTCTTCCTC 
    TTAAACAATT CAACCAATCA AAATAAATTT ATTGAAATGA AAAAACTGTT AAAAAGTTAA

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

    TDRD1 ( XM_017016415.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016871904.1 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X10, mRNA.
    Price & Availability↑
    CloneID OHu91520
    Clone ID Related Accession (Same CDS sequence) XM_017016415.1 , XM_017016415.2
    Accession Version XM_017016415.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3000bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product tudor domain-containing protein 1 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017016415.1. ##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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GGCCATAAAG TGCTTTGTAG CCAATGTTAT CCCAGCAGAA 
    GGGAATTGGA GCAGTGATTG TATCAAAGCT ACTAAACCAC TGTTAATGGA GCAGTACTGC 
    TCCATAAAGA TTGTCGACAT CTTGGAAGAG GAAGTGGTTA CCTTTGCTGT AGAAGTTGAG 
    CTGCCAAATT CAGGAAAACT TTTAGACCAT GTGCTTATAG AAATGGGATA TGGCTTGAAA 
    CCCAGTGGAC AAGATTCTAA GAAGGAAAAT GCAGATCAAA GTGATCCTGA AGATGTTGGA 
    AAAATGACAA CTGAAAACAA CATTGTCGTA GACAAAAGTG ACCTAATCCC AAAAGTGTTA 
    ACTTTGAATG TAGGTGATGA GTTTTGTGGT GTGGTTGCCC ACATTCAAAC ACCAGAAGAC 
    TTCTTTTGTC AACAACTGCA AAGTGGCCGA AAGCTTGCTG AACTTCAGGC ATCCCTTAGC 
    AAGTACTGTG ATCAGTTGCC TCCACGCTCT GATTTTTATC CAGCCATTGG TGATATATGT 
    TGTGCTCAGT TCTCAGGAGT AAAGCCATCA TTAGGAATTT GGACTCCAGA AGCTATTTGT 
    CTCATGAAAA AACTTGTACA GAACAAAATA ATCACAGTGA AAGTGGTGGA CAAGTTGGAA 
    AACAGTTCCC TGGTGGAGCT TATTGATAAA TCCGAGACGC CTCATGTCAG TGTTAGCAAA 
    GTTCTCCTAG ATGCAGGCTT TGCTGTGGGA GAACAGAGTA TGGTGACAGA TAAACCCAGT 
    GACGTGAAAG AAACCAGTGT TCCCTTGGGT GTGGAAGGAA AAGTAAATCC ATTGGAGTGG 
    ACATGGGTTG AACTTGGTGT TGACCAAACA GTAGATGTTG TGGTCTGTGT GATATATAGT 
    CCTGGAGAAT TTTATTGCCA TGTGCTTAAA GAGGATGCTT TAAAGAAACT CAATGATTTG 
    AACAAGTCAT TAGCAGAACA CTGCCAGCAG AAGTTACCTA ATGGTTTCAA GGCAGAGATA 
    GGACAACCTT GTTGTGCTTT TTTTGCAGGT GATGGTAGTT GGTATCGTGC TTTAGTCAAG 
    GAAATCTTAC CAAATGGACA TGTTAAAGTA CATTTTGTGG ATTATGGAAA CATCGAAGAA 
    GTTACTGCAG ATGAACTCCG AATGATATCA TCAACATTTT TAAACCTTCC CTTTCAGGGA 
    ATACGGTGCC AGTTAGCAGA TATACAGTCT AGAAACAAAC ATTGGTCTGA AGAAGCCATA 
    ACAAGATTCC AGATGTGTGT TGCTGGGATA AAATTGCAAG CCAGAGTGGT TGAAGTCACT 
    GAAAATGGGA TAGGAGTTGA ACTCACCGAT CTCTCCACTT GTTATCCCAG AATAATTAGT 
    GATGTTCTGA TTGATGAACA TCTGGTTTTA AAATCTGCTT CACCACATAA AGACTTACCA 
    AATGACAGAC TTGTTAATAA ACATGAGCTT CAAGTTCATG TACAGGGACT TCAAGCTACC 
    TCTTCAGCTG AGCAATGGAA GACGATAGAA TTGCCAGTGG ATAAAACTAT ACAAGCAAAT 
    GTATTAGAAA TCATAAGCCC AAACTTGTTT TATGCTCTAC CAAAAGGGAT GCCAGAAAAT 
    CAGGAAAAGC TGTGCATGTT GACAGCTGAA TTATTAGAAT ACTGCAATGC TCCGAAAAGT 
    CGACCACCCT ATAGACCAAG AATTGGAGAC GCATGCTGTG CCAAATACAC AAGTGATGAT 
    TTTTGGTATC GTGCAGTTGT TCTGGGGACA TCAGACACTG ATGTGGAAGT GCTCTATGCA 
    GACTATGGAA ACATTGAAAC CCTGCCTCTT TGCAGAGTGC AACCAATCAC CTCTAGCCAC 
    CTGGCGCTTC CTTTCCAAAT TATTAGATGT TCACTTGAAG AAAAGATGTA TAGGATGAAT 
    TGCTGCTGCA CAGAGTTACA GAAACAAGTT GAAAAACATG AACATATTCT TCTCTTCCTC 
    TTAAACAATT CAACCAATCA AAATAAATTT ATTGAAATGA AAAAACTGTT AAAAAGTTAA

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

    RefSeq XP_016871904.1
    CDS164..3163
    Translation

    Target ORF information:

    RefSeq Version XM_017016415.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017016415.2

    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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GGCCATAAAG TGCTTTGTAG CCAATGTTAT CCCAGCAGAA 
    GGGAATTGGA GCAGTGATTG TATCAAAGCT ACTAAACCAC TGTTAATGGA GCAGTACTGC 
    TCCATAAAGA TTGTCGACAT CTTGGAAGAG GAAGTGGTTA CCTTTGCTGT AGAAGTTGAG 
    CTGCCAAATT CAGGAAAACT TTTAGACCAT GTGCTTATAG AAATGGGATA TGGCTTGAAA 
    CCCAGTGGAC AAGATTCTAA GAAGGAAAAT GCAGATCAAA GTGATCCTGA AGATGTTGGA 
    AAAATGACAA CTGAAAACAA CATTGTCGTA GACAAAAGTG ACCTAATCCC AAAAGTGTTA 
    ACTTTGAATG TAGGTGATGA GTTTTGTGGT GTGGTTGCCC ACATTCAAAC ACCAGAAGAC 
    TTCTTTTGTC AACAACTGCA AAGTGGCCGA AAGCTTGCTG AACTTCAGGC ATCCCTTAGC 
    AAGTACTGTG ATCAGTTGCC TCCACGCTCT GATTTTTATC CAGCCATTGG TGATATATGT 
    TGTGCTCAGT TCTCAGGAGT AAAGCCATCA TTAGGAATTT GGACTCCAGA AGCTATTTGT 
    CTCATGAAAA AACTTGTACA GAACAAAATA ATCACAGTGA AAGTGGTGGA CAAGTTGGAA 
    AACAGTTCCC TGGTGGAGCT TATTGATAAA TCCGAGACGC CTCATGTCAG TGTTAGCAAA 
    GTTCTCCTAG ATGCAGGCTT TGCTGTGGGA GAACAGAGTA TGGTGACAGA TAAACCCAGT 
    GACGTGAAAG AAACCAGTGT TCCCTTGGGT GTGGAAGGAA AAGTAAATCC ATTGGAGTGG 
    ACATGGGTTG AACTTGGTGT TGACCAAACA GTAGATGTTG TGGTCTGTGT GATATATAGT 
    CCTGGAGAAT TTTATTGCCA TGTGCTTAAA GAGGATGCTT TAAAGAAACT CAATGATTTG 
    AACAAGTCAT TAGCAGAACA CTGCCAGCAG AAGTTACCTA ATGGTTTCAA GGCAGAGATA 
    GGACAACCTT GTTGTGCTTT TTTTGCAGGT GATGGTAGTT GGTATCGTGC TTTAGTCAAG 
    GAAATCTTAC CAAATGGACA TGTTAAAGTA CATTTTGTGG ATTATGGAAA CATCGAAGAA 
    GTTACTGCAG ATGAACTCCG AATGATATCA TCAACATTTT TAAACCTTCC CTTTCAGGGA 
    ATACGGTGCC AGTTAGCAGA TATACAGTCT AGAAACAAAC ATTGGTCTGA AGAAGCCATA 
    ACAAGATTCC AGATGTGTGT TGCTGGGATA AAATTGCAAG CCAGAGTGGT TGAAGTCACT 
    GAAAATGGGA TAGGAGTTGA ACTCACCGAT CTCTCCACTT GTTATCCCAG AATAATTAGT 
    GATGTTCTGA TTGATGAACA TCTGGTTTTA AAATCTGCTT CACCACATAA AGACTTACCA 
    AATGACAGAC TTGTTAATAA ACATGAGCTT CAAGTTCATG TACAGGGACT TCAAGCTACC 
    TCTTCAGCTG AGCAATGGAA GACGATAGAA TTGCCAGTGG ATAAAACTAT ACAAGCAAAT 
    GTATTAGAAA TCATAAGCCC AAACTTGTTT TATGCTCTAC CAAAAGGGAT GCCAGAAAAT 
    CAGGAAAAGC TGTGCATGTT GACAGCTGAA TTATTAGAAT ACTGCAATGC TCCGAAAAGT 
    CGACCACCCT ATAGACCAAG AATTGGAGAC GCATGCTGTG CCAAATACAC AAGTGATGAT 
    TTTTGGTATC GTGCAGTTGT TCTGGGGACA TCAGACACTG ATGTGGAAGT GCTCTATGCA 
    GACTATGGAA ACATTGAAAC CCTGCCTCTT TGCAGAGTGC AACCAATCAC CTCTAGCCAC 
    CTGGCGCTTC CTTTCCAAAT TATTAGATGT TCACTTGAAG AAAAGATGTA TAGGATGAAT 
    TGCTGCTGCA CAGAGTTACA GAAACAAGTT GAAAAACATG AACATATTCT TCTCTTCCTC 
    TTAAACAATT CAACCAATCA AAATAAATTT ATTGAAATGA AAAAACTGTT AAAAAGTTAA

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

    TDRD1 ( NM_001365891.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001352820.1 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant 2, mRNA.
    Price & Availability↑
    CloneID OHu106872
    Clone ID Related Accession (Same CDS sequence) NM_001365891.2 , NM_001365891.1
    Accession Version NM_001365891.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3531bp)
    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 tudor domain-containing protein 1 isoform 2
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from BX648664.1 and AC022023.7. On Jun 2, 2019 this sequence version replaced NM_001365891.1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## Transcript exon combination :: BX648664.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968968 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GACCTGGAAC AGAGCAATCA TACAAAACGT TGATGTGCAG 
    CAAAAGAAGG CACATGTCTT ATATATTGAT TATGGAAATG AAGAAATAAT TCCATTAAAC 
    AGAATTTACC ACCTCAACAG GAACATTGAC TTGTTTCCTC CTTGTGCCAT AAAGTGCTTT 
    GTAGCCAATG TTATCCCAGC AGAAGGGAAT TGGAGCAGTG ATTGTATCAA AGCTACTAAA 
    CCACTGTTAA TGGAGCAGTA CTGCTCCATA AAGATTGTCG ACATCTTGGA AGAGGAAGTG 
    GTTACCTTTG CTGTAGAAGT TGAGCTGCCA AATTCAGGAA AACTTTTAGA CCATGTGCTT 
    ATAGAAATGG GATATGGCTT GAAACCCAGT GGACAAGATT CTAAGAAGGA AAATGCAGAT 
    CAAAGTGATC CTGAAGATGT TGGAAAAATG ACAACTGAAA ACAACATTGT CGTAGACAAA 
    AGTGACCTAA TCCCAAAAGT GTTAACTTTG AATGTAGGTG ATGAGTTTTG TGGTGTGGTT 
    GCCCACATTC AAACACCAGA AGACTTCTTT TGTCAACAAC TGCAAAGTGG CCGAAAGCTT 
    GCTGAACTTC AGGCATCCCT TAGCAAGTAC TGTGATCAGT TGCCTCCACG CTCTGATTTT 
    TATCCAGCCA TTGGTGATAT ATGTTGTGCT CAGTTCTCAG AGGATGATCA GTGGTACCGT 
    GCCTCTGTTT TGGCTTACGC TTCTGAAGAA TCTGTACTGG TCGGATATGT AGATTATGGA 
    AACTTTGAAA TCCTTAGTTT GATGAGACTT TGTCCCATAA TCCCAAAGTT GTTGGAATTG 
    CCAATGCAAG CTATAAAGTG TGTACTAGCA GGAGTAAAGC CATCATTAGG AATTTGGACT 
    CCAGAAGCTA TTTGTCTCAT GAAAAAACTT GTACAGAACA AAATAATCAC AGTGAAAGTG 
    GTGGACAAGT TGGAAAACAG TTCCCTGGTG GAGCTTATTG ATAAATCCGA GACGCCTCAT 
    GTCAGTGTTA GCAAAGTTCT CCTAGATGCA GGCTTTGCTG TGGGAGAACA GAGTATGGTG 
    ACAGATAAAC CCAGTGACGT GAAAGAAACC AGTGTTCCCT TGGGTGTGGA AGGAAAAGTA 
    AATCCATTGG AGTGGACATG GGTTGAACTT GGTGTTGACC AAACAGTAGA TGTTGTGGTC 
    TGTGTGATAT ATAGTCCTGG AGAATTTTAT TGCCATGTGC TTAAAGAGGA TGCTTTAAAG 
    AAACTCAATG ATTTGAACAA GTCATTAGCA GAACACTGCC AGCAGAAGTT ACCTAATGGT 
    TTCAAGGCAG AGATAGGACA ACCTTGTTGT GCTTTTTTTG CAGGTGATGG TAGTTGGTAT 
    CGTGCTTTAG TCAAGGAAAT CTTACCAAAT GGACATGTTA AAGTACATTT TGTGGATTAT 
    GGAAACATCG AAGAAGTTAC TGCAGATGAA CTCCGAATGA TATCATCAAC ATTTTTAAAC 
    CTTCCCTTTC AGGGAATACG GTGCCAGTTA GCAGATATAC AGTCTAGAAA CAAACATTGG 
    TCTGAAGAAG CCATAACAAG ATTCCAGATG TGTGTTGCTG GGATAAAATT GCAAGCCAGA 
    GTGGTTGAAG TCACTGAAAA TGGGATAGGA GTTGAACTCA CCGATCTCTC CACTTGTTAT 
    CCCAGAATAA TTAGTGATGT TCTGATTGAT GAACATCTGG TTTTAAAATC TGCTTCACCA 
    CATAAAGACT TACCAAATGA CAGACTTGTT AATAAACATG AGCTTCAAGT TCATGTACAG 
    GGACTTCAAG CTGAGCAATG GAAGACGATA GAATTGCCAG TGGATAAAAC TATACAAGCA 
    AATGTATTAG AAATCATAAG CCCAAACTTG TTTTATGCTC TACCAAAAGG GATGCCAGAA 
    AATCAGGAAA AGCTGTGCAT GTTGACAGCT GAATTATTAG AATACTGCAA TGCTCCGAAA 
    AGTCGACCAC CCTATAGACC AAGAATTGGA GACGCATGCT GTGCCAAATA CACAAGTGAT 
    GATTTTTGGT ATCGTGCAGT TGTTCTGGGG ACATCAGACA CTGATGTGGA AGTGCTCTAT 
    GCAGACTATG GAAACATTGA AACCCTGCCT CTTTGCAGAG TGCAACCAAT CACCTCTAGC 
    CACCTGGCGC TTCCTTTCCA AATTATTAGA TGTTCACTTG AAGGATTAAT GGAATTGAAT 
    GGAAGCTCTT CTCAATTAAT AATAATGCTA TTAAAAAATT TCATGTTGAA TCAGAATGTA 
    ATGCTTTCTG TGAAAGGAAT TACAAAGAAT GTCCATACAG TGTCAGTTGA GAAATGTTCT 
    GAGAATGGGA CTGTCGATGT AGCTGATAAG CTAGTGACAT TTGGTCTGGC AAAAAACATC 
    ACACCTCAAA GGCAGAGTGC TTTAAATACA GAAAAGATGT ATAGGATGAA TTGCTGCTGC 
    ACAGAGTTAC AGAAACAAGT TGAAAAACAT GAACATATTC TTCTCTTCCT CTTAAACAAT 
    TCAACCAATC AAAATAAATT TATTGAAATG AAAAAACTGT TAAAAAGTTA A

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

    RefSeq NP_001352820.1
    CDS38..3568
    Translation

    Target ORF information:

    RefSeq Version NM_001365891.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 1 (TDRD1), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001365891.2

    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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GACCTGGAAC AGAGCAATCA TACAAAACGT TGATGTGCAG 
    CAAAAGAAGG CACATGTCTT ATATATTGAT TATGGAAATG AAGAAATAAT TCCATTAAAC 
    AGAATTTACC ACCTCAACAG GAACATTGAC TTGTTTCCTC CTTGTGCCAT AAAGTGCTTT 
    GTAGCCAATG TTATCCCAGC AGAAGGGAAT TGGAGCAGTG ATTGTATCAA AGCTACTAAA 
    CCACTGTTAA TGGAGCAGTA CTGCTCCATA AAGATTGTCG ACATCTTGGA AGAGGAAGTG 
    GTTACCTTTG CTGTAGAAGT TGAGCTGCCA AATTCAGGAA AACTTTTAGA CCATGTGCTT 
    ATAGAAATGG GATATGGCTT GAAACCCAGT GGACAAGATT CTAAGAAGGA AAATGCAGAT 
    CAAAGTGATC CTGAAGATGT TGGAAAAATG ACAACTGAAA ACAACATTGT CGTAGACAAA 
    AGTGACCTAA TCCCAAAAGT GTTAACTTTG AATGTAGGTG ATGAGTTTTG TGGTGTGGTT 
    GCCCACATTC AAACACCAGA AGACTTCTTT TGTCAACAAC TGCAAAGTGG CCGAAAGCTT 
    GCTGAACTTC AGGCATCCCT TAGCAAGTAC TGTGATCAGT TGCCTCCACG CTCTGATTTT 
    TATCCAGCCA TTGGTGATAT ATGTTGTGCT CAGTTCTCAG AGGATGATCA GTGGTACCGT 
    GCCTCTGTTT TGGCTTACGC TTCTGAAGAA TCTGTACTGG TCGGATATGT AGATTATGGA 
    AACTTTGAAA TCCTTAGTTT GATGAGACTT TGTCCCATAA TCCCAAAGTT GTTGGAATTG 
    CCAATGCAAG CTATAAAGTG TGTACTAGCA GGAGTAAAGC CATCATTAGG AATTTGGACT 
    CCAGAAGCTA TTTGTCTCAT GAAAAAACTT GTACAGAACA AAATAATCAC AGTGAAAGTG 
    GTGGACAAGT TGGAAAACAG TTCCCTGGTG GAGCTTATTG ATAAATCCGA GACGCCTCAT 
    GTCAGTGTTA GCAAAGTTCT CCTAGATGCA GGCTTTGCTG TGGGAGAACA GAGTATGGTG 
    ACAGATAAAC CCAGTGACGT GAAAGAAACC AGTGTTCCCT TGGGTGTGGA AGGAAAAGTA 
    AATCCATTGG AGTGGACATG GGTTGAACTT GGTGTTGACC AAACAGTAGA TGTTGTGGTC 
    TGTGTGATAT ATAGTCCTGG AGAATTTTAT TGCCATGTGC TTAAAGAGGA TGCTTTAAAG 
    AAACTCAATG ATTTGAACAA GTCATTAGCA GAACACTGCC AGCAGAAGTT ACCTAATGGT 
    TTCAAGGCAG AGATAGGACA ACCTTGTTGT GCTTTTTTTG CAGGTGATGG TAGTTGGTAT 
    CGTGCTTTAG TCAAGGAAAT CTTACCAAAT GGACATGTTA AAGTACATTT TGTGGATTAT 
    GGAAACATCG AAGAAGTTAC TGCAGATGAA CTCCGAATGA TATCATCAAC ATTTTTAAAC 
    CTTCCCTTTC AGGGAATACG GTGCCAGTTA GCAGATATAC AGTCTAGAAA CAAACATTGG 
    TCTGAAGAAG CCATAACAAG ATTCCAGATG TGTGTTGCTG GGATAAAATT GCAAGCCAGA 
    GTGGTTGAAG TCACTGAAAA TGGGATAGGA GTTGAACTCA CCGATCTCTC CACTTGTTAT 
    CCCAGAATAA TTAGTGATGT TCTGATTGAT GAACATCTGG TTTTAAAATC TGCTTCACCA 
    CATAAAGACT TACCAAATGA CAGACTTGTT AATAAACATG AGCTTCAAGT TCATGTACAG 
    GGACTTCAAG CTGAGCAATG GAAGACGATA GAATTGCCAG TGGATAAAAC TATACAAGCA 
    AATGTATTAG AAATCATAAG CCCAAACTTG TTTTATGCTC TACCAAAAGG GATGCCAGAA 
    AATCAGGAAA AGCTGTGCAT GTTGACAGCT GAATTATTAG AATACTGCAA TGCTCCGAAA 
    AGTCGACCAC CCTATAGACC AAGAATTGGA GACGCATGCT GTGCCAAATA CACAAGTGAT 
    GATTTTTGGT ATCGTGCAGT TGTTCTGGGG ACATCAGACA CTGATGTGGA AGTGCTCTAT 
    GCAGACTATG GAAACATTGA AACCCTGCCT CTTTGCAGAG TGCAACCAAT CACCTCTAGC 
    CACCTGGCGC TTCCTTTCCA AATTATTAGA TGTTCACTTG AAGGATTAAT GGAATTGAAT 
    GGAAGCTCTT CTCAATTAAT AATAATGCTA TTAAAAAATT TCATGTTGAA TCAGAATGTA 
    ATGCTTTCTG TGAAAGGAAT TACAAAGAAT GTCCATACAG TGTCAGTTGA GAAATGTTCT 
    GAGAATGGGA CTGTCGATGT AGCTGATAAG CTAGTGACAT TTGGTCTGGC AAAAAACATC 
    ACACCTCAAA GGCAGAGTGC TTTAAATACA GAAAAGATGT ATAGGATGAA TTGCTGCTGC 
    ACAGAGTTAC AGAAACAAGT TGAAAAACAT GAACATATTC TTCTCTTCCT CTTAAACAAT 
    TCAACCAATC AAAATAAATT TATTGAAATG AAAAAACTGT TAAAAAGTTA A

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

    TDRD1 ( NM_001365891.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001352820.1 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant 2, mRNA.
    Price & Availability↑
    CloneID OHu106872
    Clone ID Related Accession (Same CDS sequence) NM_001365891.2 , NM_001365891.1
    Accession Version NM_001365891.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3531bp)
    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 2018-09-14
    Organism Homo sapiens(human)
    Product tudor domain-containing protein 1 isoform 2
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from BX648664.1 and AC022023.7. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## Transcript exon combination :: BX648664.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GACCTGGAAC AGAGCAATCA TACAAAACGT TGATGTGCAG 
    CAAAAGAAGG CACATGTCTT ATATATTGAT TATGGAAATG AAGAAATAAT TCCATTAAAC 
    AGAATTTACC ACCTCAACAG GAACATTGAC TTGTTTCCTC CTTGTGCCAT AAAGTGCTTT 
    GTAGCCAATG TTATCCCAGC AGAAGGGAAT TGGAGCAGTG ATTGTATCAA AGCTACTAAA 
    CCACTGTTAA TGGAGCAGTA CTGCTCCATA AAGATTGTCG ACATCTTGGA AGAGGAAGTG 
    GTTACCTTTG CTGTAGAAGT TGAGCTGCCA AATTCAGGAA AACTTTTAGA CCATGTGCTT 
    ATAGAAATGG GATATGGCTT GAAACCCAGT GGACAAGATT CTAAGAAGGA AAATGCAGAT 
    CAAAGTGATC CTGAAGATGT TGGAAAAATG ACAACTGAAA ACAACATTGT CGTAGACAAA 
    AGTGACCTAA TCCCAAAAGT GTTAACTTTG AATGTAGGTG ATGAGTTTTG TGGTGTGGTT 
    GCCCACATTC AAACACCAGA AGACTTCTTT TGTCAACAAC TGCAAAGTGG CCGAAAGCTT 
    GCTGAACTTC AGGCATCCCT TAGCAAGTAC TGTGATCAGT TGCCTCCACG CTCTGATTTT 
    TATCCAGCCA TTGGTGATAT ATGTTGTGCT CAGTTCTCAG AGGATGATCA GTGGTACCGT 
    GCCTCTGTTT TGGCTTACGC TTCTGAAGAA TCTGTACTGG TCGGATATGT AGATTATGGA 
    AACTTTGAAA TCCTTAGTTT GATGAGACTT TGTCCCATAA TCCCAAAGTT GTTGGAATTG 
    CCAATGCAAG CTATAAAGTG TGTACTAGCA GGAGTAAAGC CATCATTAGG AATTTGGACT 
    CCAGAAGCTA TTTGTCTCAT GAAAAAACTT GTACAGAACA AAATAATCAC AGTGAAAGTG 
    GTGGACAAGT TGGAAAACAG TTCCCTGGTG GAGCTTATTG ATAAATCCGA GACGCCTCAT 
    GTCAGTGTTA GCAAAGTTCT CCTAGATGCA GGCTTTGCTG TGGGAGAACA GAGTATGGTG 
    ACAGATAAAC CCAGTGACGT GAAAGAAACC AGTGTTCCCT TGGGTGTGGA AGGAAAAGTA 
    AATCCATTGG AGTGGACATG GGTTGAACTT GGTGTTGACC AAACAGTAGA TGTTGTGGTC 
    TGTGTGATAT ATAGTCCTGG AGAATTTTAT TGCCATGTGC TTAAAGAGGA TGCTTTAAAG 
    AAACTCAATG ATTTGAACAA GTCATTAGCA GAACACTGCC AGCAGAAGTT ACCTAATGGT 
    TTCAAGGCAG AGATAGGACA ACCTTGTTGT GCTTTTTTTG CAGGTGATGG TAGTTGGTAT 
    CGTGCTTTAG TCAAGGAAAT CTTACCAAAT GGACATGTTA AAGTACATTT TGTGGATTAT 
    GGAAACATCG AAGAAGTTAC TGCAGATGAA CTCCGAATGA TATCATCAAC ATTTTTAAAC 
    CTTCCCTTTC AGGGAATACG GTGCCAGTTA GCAGATATAC AGTCTAGAAA CAAACATTGG 
    TCTGAAGAAG CCATAACAAG ATTCCAGATG TGTGTTGCTG GGATAAAATT GCAAGCCAGA 
    GTGGTTGAAG TCACTGAAAA TGGGATAGGA GTTGAACTCA CCGATCTCTC CACTTGTTAT 
    CCCAGAATAA TTAGTGATGT TCTGATTGAT GAACATCTGG TTTTAAAATC TGCTTCACCA 
    CATAAAGACT TACCAAATGA CAGACTTGTT AATAAACATG AGCTTCAAGT TCATGTACAG 
    GGACTTCAAG CTGAGCAATG GAAGACGATA GAATTGCCAG TGGATAAAAC TATACAAGCA 
    AATGTATTAG AAATCATAAG CCCAAACTTG TTTTATGCTC TACCAAAAGG GATGCCAGAA 
    AATCAGGAAA AGCTGTGCAT GTTGACAGCT GAATTATTAG AATACTGCAA TGCTCCGAAA 
    AGTCGACCAC CCTATAGACC AAGAATTGGA GACGCATGCT GTGCCAAATA CACAAGTGAT 
    GATTTTTGGT ATCGTGCAGT TGTTCTGGGG ACATCAGACA CTGATGTGGA AGTGCTCTAT 
    GCAGACTATG GAAACATTGA AACCCTGCCT CTTTGCAGAG TGCAACCAAT CACCTCTAGC 
    CACCTGGCGC TTCCTTTCCA AATTATTAGA TGTTCACTTG AAGGATTAAT GGAATTGAAT 
    GGAAGCTCTT CTCAATTAAT AATAATGCTA TTAAAAAATT TCATGTTGAA TCAGAATGTA 
    ATGCTTTCTG TGAAAGGAAT TACAAAGAAT GTCCATACAG TGTCAGTTGA GAAATGTTCT 
    GAGAATGGGA CTGTCGATGT AGCTGATAAG CTAGTGACAT TTGGTCTGGC AAAAAACATC 
    ACACCTCAAA GGCAGAGTGC TTTAAATACA GAAAAGATGT ATAGGATGAA TTGCTGCTGC 
    ACAGAGTTAC AGAAACAAGT TGAAAAACAT GAACATATTC TTCTCTTCCT CTTAAACAAT 
    TCAACCAATC AAAATAAATT TATTGAAATG AAAAAACTGT TAAAAAGTTA A

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

    RefSeq NP_001352820.1
    CDS38..3568
    Translation

    Target ORF information:

    RefSeq Version NM_001365891.1
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 1 (TDRD1), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001365891.1

    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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GACCTGGAAC AGAGCAATCA TACAAAACGT TGATGTGCAG 
    CAAAAGAAGG CACATGTCTT ATATATTGAT TATGGAAATG AAGAAATAAT TCCATTAAAC 
    AGAATTTACC ACCTCAACAG GAACATTGAC TTGTTTCCTC CTTGTGCCAT AAAGTGCTTT 
    GTAGCCAATG TTATCCCAGC AGAAGGGAAT TGGAGCAGTG ATTGTATCAA AGCTACTAAA 
    CCACTGTTAA TGGAGCAGTA CTGCTCCATA AAGATTGTCG ACATCTTGGA AGAGGAAGTG 
    GTTACCTTTG CTGTAGAAGT TGAGCTGCCA AATTCAGGAA AACTTTTAGA CCATGTGCTT 
    ATAGAAATGG GATATGGCTT GAAACCCAGT GGACAAGATT CTAAGAAGGA AAATGCAGAT 
    CAAAGTGATC CTGAAGATGT TGGAAAAATG ACAACTGAAA ACAACATTGT CGTAGACAAA 
    AGTGACCTAA TCCCAAAAGT GTTAACTTTG AATGTAGGTG ATGAGTTTTG TGGTGTGGTT 
    GCCCACATTC AAACACCAGA AGACTTCTTT TGTCAACAAC TGCAAAGTGG CCGAAAGCTT 
    GCTGAACTTC AGGCATCCCT TAGCAAGTAC TGTGATCAGT TGCCTCCACG CTCTGATTTT 
    TATCCAGCCA TTGGTGATAT ATGTTGTGCT CAGTTCTCAG AGGATGATCA GTGGTACCGT 
    GCCTCTGTTT TGGCTTACGC TTCTGAAGAA TCTGTACTGG TCGGATATGT AGATTATGGA 
    AACTTTGAAA TCCTTAGTTT GATGAGACTT TGTCCCATAA TCCCAAAGTT GTTGGAATTG 
    CCAATGCAAG CTATAAAGTG TGTACTAGCA GGAGTAAAGC CATCATTAGG AATTTGGACT 
    CCAGAAGCTA TTTGTCTCAT GAAAAAACTT GTACAGAACA AAATAATCAC AGTGAAAGTG 
    GTGGACAAGT TGGAAAACAG TTCCCTGGTG GAGCTTATTG ATAAATCCGA GACGCCTCAT 
    GTCAGTGTTA GCAAAGTTCT CCTAGATGCA GGCTTTGCTG TGGGAGAACA GAGTATGGTG 
    ACAGATAAAC CCAGTGACGT GAAAGAAACC AGTGTTCCCT TGGGTGTGGA AGGAAAAGTA 
    AATCCATTGG AGTGGACATG GGTTGAACTT GGTGTTGACC AAACAGTAGA TGTTGTGGTC 
    TGTGTGATAT ATAGTCCTGG AGAATTTTAT TGCCATGTGC TTAAAGAGGA TGCTTTAAAG 
    AAACTCAATG ATTTGAACAA GTCATTAGCA GAACACTGCC AGCAGAAGTT ACCTAATGGT 
    TTCAAGGCAG AGATAGGACA ACCTTGTTGT GCTTTTTTTG CAGGTGATGG TAGTTGGTAT 
    CGTGCTTTAG TCAAGGAAAT CTTACCAAAT GGACATGTTA AAGTACATTT TGTGGATTAT 
    GGAAACATCG AAGAAGTTAC TGCAGATGAA CTCCGAATGA TATCATCAAC ATTTTTAAAC 
    CTTCCCTTTC AGGGAATACG GTGCCAGTTA GCAGATATAC AGTCTAGAAA CAAACATTGG 
    TCTGAAGAAG CCATAACAAG ATTCCAGATG TGTGTTGCTG GGATAAAATT GCAAGCCAGA 
    GTGGTTGAAG TCACTGAAAA TGGGATAGGA GTTGAACTCA CCGATCTCTC CACTTGTTAT 
    CCCAGAATAA TTAGTGATGT TCTGATTGAT GAACATCTGG TTTTAAAATC TGCTTCACCA 
    CATAAAGACT TACCAAATGA CAGACTTGTT AATAAACATG AGCTTCAAGT TCATGTACAG 
    GGACTTCAAG CTGAGCAATG GAAGACGATA GAATTGCCAG TGGATAAAAC TATACAAGCA 
    AATGTATTAG AAATCATAAG CCCAAACTTG TTTTATGCTC TACCAAAAGG GATGCCAGAA 
    AATCAGGAAA AGCTGTGCAT GTTGACAGCT GAATTATTAG AATACTGCAA TGCTCCGAAA 
    AGTCGACCAC CCTATAGACC AAGAATTGGA GACGCATGCT GTGCCAAATA CACAAGTGAT 
    GATTTTTGGT ATCGTGCAGT TGTTCTGGGG ACATCAGACA CTGATGTGGA AGTGCTCTAT 
    GCAGACTATG GAAACATTGA AACCCTGCCT CTTTGCAGAG TGCAACCAAT CACCTCTAGC 
    CACCTGGCGC TTCCTTTCCA AATTATTAGA TGTTCACTTG AAGGATTAAT GGAATTGAAT 
    GGAAGCTCTT CTCAATTAAT AATAATGCTA TTAAAAAATT TCATGTTGAA TCAGAATGTA 
    ATGCTTTCTG TGAAAGGAAT TACAAAGAAT GTCCATACAG TGTCAGTTGA GAAATGTTCT 
    GAGAATGGGA CTGTCGATGT AGCTGATAAG CTAGTGACAT TTGGTCTGGC AAAAAACATC 
    ACACCTCAAA GGCAGAGTGC TTTAAATACA GAAAAGATGT ATAGGATGAA TTGCTGCTGC 
    ACAGAGTTAC AGAAACAAGT TGAAAAACAT GAACATATTC TTCTCTTCCT CTTAAACAAT 
    TCAACCAATC AAAATAAATT TATTGAAATG AAAAAACTGT TAAAAAGTTA A

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

    TDRD1 ( XM_017016414.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016871903.1 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OHu91519
    Clone ID Related Accession (Same CDS sequence) XM_017016414.2 , XM_017016414.1
    Accession Version XM_017016414.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3426bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product tudor domain-containing protein 1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017016414.1. ##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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GGCCATAAAG TGCTTTGTAG CCAATGTTAT CCCAGCAGAA 
    GGGAATTGGA GCAGTGATTG TATCAAAGCT ACTAAACCAC TGTTAATGGA GCAGTACTGC 
    TCCATAAAGA TTGTCGACAT CTTGGAAGAG GAAGTGGTTA CCTTTGCTGT AGAAGTTGAG 
    CTGCCAAATT CAGGAAAACT TTTAGACCAT GTGCTTATAG AAATGGGATA TGGCTTGAAA 
    CCCAGTGGAC AAGATTCTAA GAAGGAAAAT GCAGATCAAA GTGATCCTGA AGATGTTGGA 
    AAAATGACAA CTGAAAACAA CATTGTCGTA GACAAAAGTG ACCTAATCCC AAAAGTGTTA 
    ACTTTGAATG TAGGTGATGA GTTTTGTGGT GTGGTTGCCC ACATTCAAAC ACCAGAAGAC 
    TTCTTTTGTC AACAACTGCA AAGTGGCCGA AAGCTTGCTG AACTTCAGGC ATCCCTTAGC 
    AAGTACTGTG ATCAGTTGCC TCCACGCTCT GATTTTTATC CAGCCATTGG TGATATATGT 
    TGTGCTCAGT TCTCAGAGGA TGATCAGTGG TACCGTGCCT CTGTTTTGGC TTACGCTTCT 
    GAAGAATCTG TACTGGTCGG ATATGTAGAT TATGGAAACT TTGAAATCCT TAGTTTGATG 
    AGACTTTGTC CCATAATCCC AAAGTTGTTG GAATTGCCAA TGCAAGCTAT AAAGTGTGTA 
    CTAGCAGGAG TAAAGCCATC ATTAGGAATT TGGACTCCAG AAGCTATTTG TCTCATGAAA 
    AAACTTGTAC AGAACAAAAT AATCACAGTG AAAGTGGTGG ACAAGTTGGA AAACAGTTCC 
    CTGGTGGAGC TTATTGATAA ATCCGAGACG CCTCATGTCA GTGTTAGCAA AGTTCTCCTA 
    GATGCAGGCT TTGCTGTGGG AGAACAGAGT ATGGTGACAG ATAAACCCAG TGACGTGAAA 
    GAAACCAGTG TTCCCTTGGG TGTGGAAGGA AAAGTAAATC CATTGGAGTG GACATGGGTT 
    GAACTTGGTG TTGACCAAAC AGTAGATGTT GTGGTCTGTG TGATATATAG TCCTGGAGAA 
    TTTTATTGCC ATGTGCTTAA AGAGGATGCT TTAAAGAAAC TCAATGATTT GAACAAGTCA 
    TTAGCAGAAC ACTGCCAGCA GAAGTTACCT AATGGTTTCA AGGCAGAGAT AGGACAACCT 
    TGTTGTGCTT TTTTTGCAGG TGATGGTAGT TGGTATCGTG CTTTAGTCAA GGAAATCTTA 
    CCAAATGGAC ATGTTAAAGT ACATTTTGTG GATTATGGAA ACATCGAAGA AGTTACTGCA 
    GATGAACTCC GAATGATATC ATCAACATTT TTAAACCTTC CCTTTCAGGG AATACGGTGC 
    CAGTTAGCAG ATATACAGTC TAGAAACAAA CATTGGTCTG AAGAAGCCAT AACAAGATTC 
    CAGATGTGTG TTGCTGGGAT AAAATTGCAA GCCAGAGTGG TTGAAGTCAC TGAAAATGGG 
    ATAGGAGTTG AACTCACCGA TCTCTCCACT TGTTATCCCA GAATAATTAG TGATGTTCTG 
    ATTGATGAAC ATCTGGTTTT AAAATCTGCT TCACCACATA AAGACTTACC AAATGACAGA 
    CTTGTTAATA AACATGAGCT TCAAGTTCAT GTACAGGGAC TTCAAGCTAC CTCTTCAGCT 
    GAGCAATGGA AGACGATAGA ATTGCCAGTG GATAAAACTA TACAAGCAAA TGTATTAGAA 
    ATCATAAGCC CAAACTTGTT TTATGCTCTA CCAAAAGGGA TGCCAGAAAA TCAGGAAAAG 
    CTGTGCATGT TGACAGCTGA ATTATTAGAA TACTGCAATG CTCCGAAAAG TCGACCACCC 
    TATAGACCAA GAATTGGAGA CGCATGCTGT GCCAAATACA CAAGTGATGA TTTTTGGTAT 
    CGTGCAGTTG TTCTGGGGAC ATCAGACACT GATGTGGAAG TGCTCTATGC AGACTATGGA 
    AACATTGAAA CCCTGCCTCT TTGCAGAGTG CAACCAATCA CCTCTAGCCA CCTGGCGCTT 
    CCTTTCCAAA TTATTAGATG TTCACTTGAA GGATTAATGG AATTGAATGG AAGCTCTTCT 
    CAATTAATAA TAATGCTATT AAAAAATTTC ATGTTGAATC AGAATGTAAT GCTTTCTGTG 
    AAAGGAATTA CAAAGAATGT CCATACAGTG TCAGTTGAGA AATGTTCTGA GAATGGGACT 
    GTCGATGTAG CTGATAAGCT AGTGACATTT GGTCTGGCAA AAAACATCAC ACCTCAAAGG 
    CAGAGTGCTT TAAATACAGA AAAGATGTAT AGGATGAATT GCTGCTGCAC AGAGTTACAG 
    AAACAAGTTG AAAAACATGA ACATATTCTT CTCTTCCTCT TAAACAATTC AACCAATCAA 
    AATAAATTTA TTGAAATGAA AAAACTGTTA AAAAAAACAG CATCTCTTGG AGGTAAACCC 
    TTATGA

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

    RefSeq XP_016871903.1
    CDS164..3589
    Translation

    Target ORF information:

    RefSeq Version XM_017016414.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017016414.2

    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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GGCCATAAAG TGCTTTGTAG CCAATGTTAT CCCAGCAGAA 
    GGGAATTGGA GCAGTGATTG TATCAAAGCT ACTAAACCAC TGTTAATGGA GCAGTACTGC 
    TCCATAAAGA TTGTCGACAT CTTGGAAGAG GAAGTGGTTA CCTTTGCTGT AGAAGTTGAG 
    CTGCCAAATT CAGGAAAACT TTTAGACCAT GTGCTTATAG AAATGGGATA TGGCTTGAAA 
    CCCAGTGGAC AAGATTCTAA GAAGGAAAAT GCAGATCAAA GTGATCCTGA AGATGTTGGA 
    AAAATGACAA CTGAAAACAA CATTGTCGTA GACAAAAGTG ACCTAATCCC AAAAGTGTTA 
    ACTTTGAATG TAGGTGATGA GTTTTGTGGT GTGGTTGCCC ACATTCAAAC ACCAGAAGAC 
    TTCTTTTGTC AACAACTGCA AAGTGGCCGA AAGCTTGCTG AACTTCAGGC ATCCCTTAGC 
    AAGTACTGTG ATCAGTTGCC TCCACGCTCT GATTTTTATC CAGCCATTGG TGATATATGT 
    TGTGCTCAGT TCTCAGAGGA TGATCAGTGG TACCGTGCCT CTGTTTTGGC TTACGCTTCT 
    GAAGAATCTG TACTGGTCGG ATATGTAGAT TATGGAAACT TTGAAATCCT TAGTTTGATG 
    AGACTTTGTC CCATAATCCC AAAGTTGTTG GAATTGCCAA TGCAAGCTAT AAAGTGTGTA 
    CTAGCAGGAG TAAAGCCATC ATTAGGAATT TGGACTCCAG AAGCTATTTG TCTCATGAAA 
    AAACTTGTAC AGAACAAAAT AATCACAGTG AAAGTGGTGG ACAAGTTGGA AAACAGTTCC 
    CTGGTGGAGC TTATTGATAA ATCCGAGACG CCTCATGTCA GTGTTAGCAA AGTTCTCCTA 
    GATGCAGGCT TTGCTGTGGG AGAACAGAGT ATGGTGACAG ATAAACCCAG TGACGTGAAA 
    GAAACCAGTG TTCCCTTGGG TGTGGAAGGA AAAGTAAATC CATTGGAGTG GACATGGGTT 
    GAACTTGGTG TTGACCAAAC AGTAGATGTT GTGGTCTGTG TGATATATAG TCCTGGAGAA 
    TTTTATTGCC ATGTGCTTAA AGAGGATGCT TTAAAGAAAC TCAATGATTT GAACAAGTCA 
    TTAGCAGAAC ACTGCCAGCA GAAGTTACCT AATGGTTTCA AGGCAGAGAT AGGACAACCT 
    TGTTGTGCTT TTTTTGCAGG TGATGGTAGT TGGTATCGTG CTTTAGTCAA GGAAATCTTA 
    CCAAATGGAC ATGTTAAAGT ACATTTTGTG GATTATGGAA ACATCGAAGA AGTTACTGCA 
    GATGAACTCC GAATGATATC ATCAACATTT TTAAACCTTC CCTTTCAGGG AATACGGTGC 
    CAGTTAGCAG ATATACAGTC TAGAAACAAA CATTGGTCTG AAGAAGCCAT AACAAGATTC 
    CAGATGTGTG TTGCTGGGAT AAAATTGCAA GCCAGAGTGG TTGAAGTCAC TGAAAATGGG 
    ATAGGAGTTG AACTCACCGA TCTCTCCACT TGTTATCCCA GAATAATTAG TGATGTTCTG 
    ATTGATGAAC ATCTGGTTTT AAAATCTGCT TCACCACATA AAGACTTACC AAATGACAGA 
    CTTGTTAATA AACATGAGCT TCAAGTTCAT GTACAGGGAC TTCAAGCTAC CTCTTCAGCT 
    GAGCAATGGA AGACGATAGA ATTGCCAGTG GATAAAACTA TACAAGCAAA TGTATTAGAA 
    ATCATAAGCC CAAACTTGTT TTATGCTCTA CCAAAAGGGA TGCCAGAAAA TCAGGAAAAG 
    CTGTGCATGT TGACAGCTGA ATTATTAGAA TACTGCAATG CTCCGAAAAG TCGACCACCC 
    TATAGACCAA GAATTGGAGA CGCATGCTGT GCCAAATACA CAAGTGATGA TTTTTGGTAT 
    CGTGCAGTTG TTCTGGGGAC ATCAGACACT GATGTGGAAG TGCTCTATGC AGACTATGGA 
    AACATTGAAA CCCTGCCTCT TTGCAGAGTG CAACCAATCA CCTCTAGCCA CCTGGCGCTT 
    CCTTTCCAAA TTATTAGATG TTCACTTGAA GGATTAATGG AATTGAATGG AAGCTCTTCT 
    CAATTAATAA TAATGCTATT AAAAAATTTC ATGTTGAATC AGAATGTAAT GCTTTCTGTG 
    AAAGGAATTA CAAAGAATGT CCATACAGTG TCAGTTGAGA AATGTTCTGA GAATGGGACT 
    GTCGATGTAG CTGATAAGCT AGTGACATTT GGTCTGGCAA AAAACATCAC ACCTCAAAGG 
    CAGAGTGCTT TAAATACAGA AAAGATGTAT AGGATGAATT GCTGCTGCAC AGAGTTACAG 
    AAACAAGTTG AAAAACATGA ACATATTCTT CTCTTCCTCT TAAACAATTC AACCAATCAA 
    AATAAATTTA TTGAAATGAA AAAACTGTTA AAAAAAACAG CATCTCTTGG AGGTAAACCC 
    TTATGA

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

    TDRD1 ( XM_017016414.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016871903.1 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OHu91519
    Clone ID Related Accession (Same CDS sequence) XM_017016414.2 , XM_017016414.1
    Accession Version XM_017016414.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3426bp)
    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 tudor domain-containing protein 1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and 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
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GGCCATAAAG TGCTTTGTAG CCAATGTTAT CCCAGCAGAA 
    GGGAATTGGA GCAGTGATTG TATCAAAGCT ACTAAACCAC TGTTAATGGA GCAGTACTGC 
    TCCATAAAGA TTGTCGACAT CTTGGAAGAG GAAGTGGTTA CCTTTGCTGT AGAAGTTGAG 
    CTGCCAAATT CAGGAAAACT TTTAGACCAT GTGCTTATAG AAATGGGATA TGGCTTGAAA 
    CCCAGTGGAC AAGATTCTAA GAAGGAAAAT GCAGATCAAA GTGATCCTGA AGATGTTGGA 
    AAAATGACAA CTGAAAACAA CATTGTCGTA GACAAAAGTG ACCTAATCCC AAAAGTGTTA 
    ACTTTGAATG TAGGTGATGA GTTTTGTGGT GTGGTTGCCC ACATTCAAAC ACCAGAAGAC 
    TTCTTTTGTC AACAACTGCA AAGTGGCCGA AAGCTTGCTG AACTTCAGGC ATCCCTTAGC 
    AAGTACTGTG ATCAGTTGCC TCCACGCTCT GATTTTTATC CAGCCATTGG TGATATATGT 
    TGTGCTCAGT TCTCAGAGGA TGATCAGTGG TACCGTGCCT CTGTTTTGGC TTACGCTTCT 
    GAAGAATCTG TACTGGTCGG ATATGTAGAT TATGGAAACT TTGAAATCCT TAGTTTGATG 
    AGACTTTGTC CCATAATCCC AAAGTTGTTG GAATTGCCAA TGCAAGCTAT AAAGTGTGTA 
    CTAGCAGGAG TAAAGCCATC ATTAGGAATT TGGACTCCAG AAGCTATTTG TCTCATGAAA 
    AAACTTGTAC AGAACAAAAT AATCACAGTG AAAGTGGTGG ACAAGTTGGA AAACAGTTCC 
    CTGGTGGAGC TTATTGATAA ATCCGAGACG CCTCATGTCA GTGTTAGCAA AGTTCTCCTA 
    GATGCAGGCT TTGCTGTGGG AGAACAGAGT ATGGTGACAG ATAAACCCAG TGACGTGAAA 
    GAAACCAGTG TTCCCTTGGG TGTGGAAGGA AAAGTAAATC CATTGGAGTG GACATGGGTT 
    GAACTTGGTG TTGACCAAAC AGTAGATGTT GTGGTCTGTG TGATATATAG TCCTGGAGAA 
    TTTTATTGCC ATGTGCTTAA AGAGGATGCT TTAAAGAAAC TCAATGATTT GAACAAGTCA 
    TTAGCAGAAC ACTGCCAGCA GAAGTTACCT AATGGTTTCA AGGCAGAGAT AGGACAACCT 
    TGTTGTGCTT TTTTTGCAGG TGATGGTAGT TGGTATCGTG CTTTAGTCAA GGAAATCTTA 
    CCAAATGGAC ATGTTAAAGT ACATTTTGTG GATTATGGAA ACATCGAAGA AGTTACTGCA 
    GATGAACTCC GAATGATATC ATCAACATTT TTAAACCTTC CCTTTCAGGG AATACGGTGC 
    CAGTTAGCAG ATATACAGTC TAGAAACAAA CATTGGTCTG AAGAAGCCAT AACAAGATTC 
    CAGATGTGTG TTGCTGGGAT AAAATTGCAA GCCAGAGTGG TTGAAGTCAC TGAAAATGGG 
    ATAGGAGTTG AACTCACCGA TCTCTCCACT TGTTATCCCA GAATAATTAG TGATGTTCTG 
    ATTGATGAAC ATCTGGTTTT AAAATCTGCT TCACCACATA AAGACTTACC AAATGACAGA 
    CTTGTTAATA AACATGAGCT TCAAGTTCAT GTACAGGGAC TTCAAGCTAC CTCTTCAGCT 
    GAGCAATGGA AGACGATAGA ATTGCCAGTG GATAAAACTA TACAAGCAAA TGTATTAGAA 
    ATCATAAGCC CAAACTTGTT TTATGCTCTA CCAAAAGGGA TGCCAGAAAA TCAGGAAAAG 
    CTGTGCATGT TGACAGCTGA ATTATTAGAA TACTGCAATG CTCCGAAAAG TCGACCACCC 
    TATAGACCAA GAATTGGAGA CGCATGCTGT GCCAAATACA CAAGTGATGA TTTTTGGTAT 
    CGTGCAGTTG TTCTGGGGAC ATCAGACACT GATGTGGAAG TGCTCTATGC AGACTATGGA 
    AACATTGAAA CCCTGCCTCT TTGCAGAGTG CAACCAATCA CCTCTAGCCA CCTGGCGCTT 
    CCTTTCCAAA TTATTAGATG TTCACTTGAA GGATTAATGG AATTGAATGG AAGCTCTTCT 
    CAATTAATAA TAATGCTATT AAAAAATTTC ATGTTGAATC AGAATGTAAT GCTTTCTGTG 
    AAAGGAATTA CAAAGAATGT CCATACAGTG TCAGTTGAGA AATGTTCTGA GAATGGGACT 
    GTCGATGTAG CTGATAAGCT AGTGACATTT GGTCTGGCAA AAAACATCAC ACCTCAAAGG 
    CAGAGTGCTT TAAATACAGA AAAGATGTAT AGGATGAATT GCTGCTGCAC AGAGTTACAG 
    AAACAAGTTG AAAAACATGA ACATATTCTT CTCTTCCTCT TAAACAATTC AACCAATCAA 
    AATAAATTTA TTGAAATGAA AAAACTGTTA AAAAAAACAG CATCTCTTGG AGGTAAACCC 
    TTATGA

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

    RefSeq XP_016871903.1
    CDS168..3593
    Translation

    Target ORF information:

    RefSeq Version XM_017016414.1
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017016414.1

    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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GGCCATAAAG TGCTTTGTAG CCAATGTTAT CCCAGCAGAA 
    GGGAATTGGA GCAGTGATTG TATCAAAGCT ACTAAACCAC TGTTAATGGA GCAGTACTGC 
    TCCATAAAGA TTGTCGACAT CTTGGAAGAG GAAGTGGTTA CCTTTGCTGT AGAAGTTGAG 
    CTGCCAAATT CAGGAAAACT TTTAGACCAT GTGCTTATAG AAATGGGATA TGGCTTGAAA 
    CCCAGTGGAC AAGATTCTAA GAAGGAAAAT GCAGATCAAA GTGATCCTGA AGATGTTGGA 
    AAAATGACAA CTGAAAACAA CATTGTCGTA GACAAAAGTG ACCTAATCCC AAAAGTGTTA 
    ACTTTGAATG TAGGTGATGA GTTTTGTGGT GTGGTTGCCC ACATTCAAAC ACCAGAAGAC 
    TTCTTTTGTC AACAACTGCA AAGTGGCCGA AAGCTTGCTG AACTTCAGGC ATCCCTTAGC 
    AAGTACTGTG ATCAGTTGCC TCCACGCTCT GATTTTTATC CAGCCATTGG TGATATATGT 
    TGTGCTCAGT TCTCAGAGGA TGATCAGTGG TACCGTGCCT CTGTTTTGGC TTACGCTTCT 
    GAAGAATCTG TACTGGTCGG ATATGTAGAT TATGGAAACT TTGAAATCCT TAGTTTGATG 
    AGACTTTGTC CCATAATCCC AAAGTTGTTG GAATTGCCAA TGCAAGCTAT AAAGTGTGTA 
    CTAGCAGGAG TAAAGCCATC ATTAGGAATT TGGACTCCAG AAGCTATTTG TCTCATGAAA 
    AAACTTGTAC AGAACAAAAT AATCACAGTG AAAGTGGTGG ACAAGTTGGA AAACAGTTCC 
    CTGGTGGAGC TTATTGATAA ATCCGAGACG CCTCATGTCA GTGTTAGCAA AGTTCTCCTA 
    GATGCAGGCT TTGCTGTGGG AGAACAGAGT ATGGTGACAG ATAAACCCAG TGACGTGAAA 
    GAAACCAGTG TTCCCTTGGG TGTGGAAGGA AAAGTAAATC CATTGGAGTG GACATGGGTT 
    GAACTTGGTG TTGACCAAAC AGTAGATGTT GTGGTCTGTG TGATATATAG TCCTGGAGAA 
    TTTTATTGCC ATGTGCTTAA AGAGGATGCT TTAAAGAAAC TCAATGATTT GAACAAGTCA 
    TTAGCAGAAC ACTGCCAGCA GAAGTTACCT AATGGTTTCA AGGCAGAGAT AGGACAACCT 
    TGTTGTGCTT TTTTTGCAGG TGATGGTAGT TGGTATCGTG CTTTAGTCAA GGAAATCTTA 
    CCAAATGGAC ATGTTAAAGT ACATTTTGTG GATTATGGAA ACATCGAAGA AGTTACTGCA 
    GATGAACTCC GAATGATATC ATCAACATTT TTAAACCTTC CCTTTCAGGG AATACGGTGC 
    CAGTTAGCAG ATATACAGTC TAGAAACAAA CATTGGTCTG AAGAAGCCAT AACAAGATTC 
    CAGATGTGTG TTGCTGGGAT AAAATTGCAA GCCAGAGTGG TTGAAGTCAC TGAAAATGGG 
    ATAGGAGTTG AACTCACCGA TCTCTCCACT TGTTATCCCA GAATAATTAG TGATGTTCTG 
    ATTGATGAAC ATCTGGTTTT AAAATCTGCT TCACCACATA AAGACTTACC AAATGACAGA 
    CTTGTTAATA AACATGAGCT TCAAGTTCAT GTACAGGGAC TTCAAGCTAC CTCTTCAGCT 
    GAGCAATGGA AGACGATAGA ATTGCCAGTG GATAAAACTA TACAAGCAAA TGTATTAGAA 
    ATCATAAGCC CAAACTTGTT TTATGCTCTA CCAAAAGGGA TGCCAGAAAA TCAGGAAAAG 
    CTGTGCATGT TGACAGCTGA ATTATTAGAA TACTGCAATG CTCCGAAAAG TCGACCACCC 
    TATAGACCAA GAATTGGAGA CGCATGCTGT GCCAAATACA CAAGTGATGA TTTTTGGTAT 
    CGTGCAGTTG TTCTGGGGAC ATCAGACACT GATGTGGAAG TGCTCTATGC AGACTATGGA 
    AACATTGAAA CCCTGCCTCT TTGCAGAGTG CAACCAATCA CCTCTAGCCA CCTGGCGCTT 
    CCTTTCCAAA TTATTAGATG TTCACTTGAA GGATTAATGG AATTGAATGG AAGCTCTTCT 
    CAATTAATAA TAATGCTATT AAAAAATTTC ATGTTGAATC AGAATGTAAT GCTTTCTGTG 
    AAAGGAATTA CAAAGAATGT CCATACAGTG TCAGTTGAGA AATGTTCTGA GAATGGGACT 
    GTCGATGTAG CTGATAAGCT AGTGACATTT GGTCTGGCAA AAAACATCAC ACCTCAAAGG 
    CAGAGTGCTT TAAATACAGA AAAGATGTAT AGGATGAATT GCTGCTGCAC AGAGTTACAG 
    AAACAAGTTG AAAAACATGA ACATATTCTT CTCTTCCTCT TAAACAATTC AACCAATCAA 
    AATAAATTTA TTGAAATGAA AAAACTGTTA AAAAAAACAG CATCTCTTGG AGGTAAACCC 
    TTATGA

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

    TDRD1 ( NM_198795.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_942090.1 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant 1, mRNA.
    Price & Availability↑
    CloneID OHu30450
    Clone ID Related Accession (Same CDS sequence) XM_005269978.2 , XM_011539959.2 , XM_011539960.2 , XM_011539962.1 , NM_198795.1 , XM_011539961.2
    Accession Version NM_198795.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3570bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-04-30
    Organism Homo sapiens(human)
    Product tudor domain-containing protein 1 isoform 1
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AK122916.1, BC035010.2, BX648664.1, BQ882979.1 and CB136029.1. On Jan 27, 2004 this sequence version replaced XM_373425.1. ##Evidence-Data-START## Transcript exon combination :: HM005506.1, AK122916.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2148093 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END## COMPLETENESS: complete on the 3' 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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GACCTGGAAC AGAGCAATCA TACAAAACGT TGATGTGCAG 
    CAAAAGAAGG CACATGTCTT ATATATTGAT TATGGAAATG AAGAAATAAT TCCATTAAAC 
    AGAATTTACC ACCTCAACAG GAACATTGAC TTGTTTCCTC CTTGTGCCAT AAAGTGCTTT 
    GTAGCCAATG TTATCCCAGC AGAAGGGAAT TGGAGCAGTG ATTGTATCAA AGCTACTAAA 
    CCACTGTTAA TGGAGCAGTA CTGCTCCATA AAGATTGTCG ACATCTTGGA AGAGGAAGTG 
    GTTACCTTTG CTGTAGAAGT TGAGCTGCCA AATTCAGGAA AACTTTTAGA CCATGTGCTT 
    ATAGAAATGG GATATGGCTT GAAACCCAGT GGACAAGATT CTAAGAAGGA AAATGCAGAT 
    CAAAGTGATC CTGAAGATGT TGGAAAAATG ACAACTGAAA ACAACATTGT CGTAGACAAA 
    AGTGACCTAA TCCCAAAAGT GTTAACTTTG AATGTAGGTG ATGAGTTTTG TGGTGTGGTT 
    GCCCACATTC AAACACCAGA AGACTTCTTT TGTCAACAAC TGCAAAGTGG CCGAAAGCTT 
    GCTGAACTTC AGGCATCCCT TAGCAAGTAC TGTGATCAGT TGCCTCCACG CTCTGATTTT 
    TATCCAGCCA TTGGTGATAT ATGTTGTGCT CAGTTCTCAG AGGATGATCA GTGGTACCGT 
    GCCTCTGTTT TGGCTTACGC TTCTGAAGAA TCTGTACTGG TCGGATATGT AGATTATGGA 
    AACTTTGAAA TCCTTAGTTT GATGAGACTT TGTCCCATAA TCCCAAAGTT GTTGGAATTG 
    CCAATGCAAG CTATAAAGTG TGTACTAGCA GGAGTAAAGC CATCATTAGG AATTTGGACT 
    CCAGAAGCTA TTTGTCTCAT GAAAAAACTT GTACAGAACA AAATAATCAC AGTGAAAGTG 
    GTGGACAAGT TGGAAAACAG TTCCCTGGTG GAGCTTATTG ATAAATCCGA GACGCCTCAT 
    GTCAGTGTTA GCAAAGTTCT CCTAGATGCA GGCTTTGCTG TGGGAGAACA GAGTATGGTG 
    ACAGATAAAC CCAGTGACGT GAAAGAAACC AGTGTTCCCT TGGGTGTGGA AGGAAAAGTA 
    AATCCATTGG AGTGGACATG GGTTGAACTT GGTGTTGACC AAACAGTAGA TGTTGTGGTC 
    TGTGTGATAT ATAGTCCTGG AGAATTTTAT TGCCATGTGC TTAAAGAGGA TGCTTTAAAG 
    AAACTCAATG ATTTGAACAA GTCATTAGCA GAACACTGCC AGCAGAAGTT ACCTAATGGT 
    TTCAAGGCAG AGATAGGACA ACCTTGTTGT GCTTTTTTTG CAGGTGATGG TAGTTGGTAT 
    CGTGCTTTAG TCAAGGAAAT CTTACCAAAT GGACATGTTA AAGTACATTT TGTGGATTAT 
    GGAAACATCG AAGAAGTTAC TGCAGATGAA CTCCGAATGA TATCATCAAC ATTTTTAAAC 
    CTTCCCTTTC AGGGAATACG GTGCCAGTTA GCAGATATAC AGTCTAGAAA CAAACATTGG 
    TCTGAAGAAG CCATAACAAG ATTCCAGATG TGTGTTGCTG GGATAAAATT GCAAGCCAGA 
    GTGGTTGAAG TCACTGAAAA TGGGATAGGA GTTGAACTCA CCGATCTCTC CACTTGTTAT 
    CCCAGAATAA TTAGTGATGT TCTGATTGAT GAACATCTGG TTTTAAAATC TGCTTCACCA 
    CATAAAGACT TACCAAATGA CAGACTTGTT AATAAACATG AGCTTCAAGT TCATGTACAG 
    GGACTTCAAG CTACCTCTTC AGCTGAGCAA TGGAAGACGA TAGAATTGCC AGTGGATAAA 
    ACTATACAAG CAAATGTATT AGAAATCATA AGCCCAAACT TGTTTTATGC TCTACCAAAA 
    GGGATGCCAG AAAATCAGGA AAAGCTGTGC ATGTTGACAG CTGAATTATT AGAATACTGC 
    AATGCTCCGA AAAGTCGACC ACCCTATAGA CCAAGAATTG GAGACGCATG CTGTGCCAAA 
    TACACAAGTG ATGATTTTTG GTATCGTGCA GTTGTTCTGG GGACATCAGA CACTGATGTG 
    GAAGTGCTCT ATGCAGACTA TGGAAACATT GAAACCCTGC CTCTTTGCAG AGTGCAACCA 
    ATCACCTCTA GCCACCTGGC GCTTCCTTTC CAAATTATTA GATGTTCACT TGAAGGATTA 
    ATGGAATTGA ATGGAAGCTC TTCTCAATTA ATAATAATGC TATTAAAAAA TTTCATGTTG 
    AATCAGAATG TAATGCTTTC TGTGAAAGGA ATTACAAAGA ATGTCCATAC AGTGTCAGTT 
    GAGAAATGTT CTGAGAATGG GACTGTCGAT GTAGCTGATA AGCTAGTGAC ATTTGGTCTG 
    GCAAAAAACA TCACACCTCA AAGGCAGAGT GCTTTAAATA CAGAAAAGAT GTATAGGATG 
    AATTGCTGCT GCACAGAGTT ACAGAAACAA GTTGAAAAAC ATGAACATAT TCTTCTCTTC 
    CTCTTAAACA ATTCAACCAA TCAAAATAAA TTTATTGAAA TGAAAAAACT GTTAAAAAAA 
    ACAGCATCTC TTGGAGGTAA ACCCTTATGA

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

    RefSeq NP_942090.1
    CDS154..3723
    Translation

    Target ORF information:

    RefSeq Version NM_198795.1
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 1 (TDRD1), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_198795.1

    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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GACCTGGAAC AGAGCAATCA TACAAAACGT TGATGTGCAG 
    CAAAAGAAGG CACATGTCTT ATATATTGAT TATGGAAATG AAGAAATAAT TCCATTAAAC 
    AGAATTTACC ACCTCAACAG GAACATTGAC TTGTTTCCTC CTTGTGCCAT AAAGTGCTTT 
    GTAGCCAATG TTATCCCAGC AGAAGGGAAT TGGAGCAGTG ATTGTATCAA AGCTACTAAA 
    CCACTGTTAA TGGAGCAGTA CTGCTCCATA AAGATTGTCG ACATCTTGGA AGAGGAAGTG 
    GTTACCTTTG CTGTAGAAGT TGAGCTGCCA AATTCAGGAA AACTTTTAGA CCATGTGCTT 
    ATAGAAATGG GATATGGCTT GAAACCCAGT GGACAAGATT CTAAGAAGGA AAATGCAGAT 
    CAAAGTGATC CTGAAGATGT TGGAAAAATG ACAACTGAAA ACAACATTGT CGTAGACAAA 
    AGTGACCTAA TCCCAAAAGT GTTAACTTTG AATGTAGGTG ATGAGTTTTG TGGTGTGGTT 
    GCCCACATTC AAACACCAGA AGACTTCTTT TGTCAACAAC TGCAAAGTGG CCGAAAGCTT 
    GCTGAACTTC AGGCATCCCT TAGCAAGTAC TGTGATCAGT TGCCTCCACG CTCTGATTTT 
    TATCCAGCCA TTGGTGATAT ATGTTGTGCT CAGTTCTCAG AGGATGATCA GTGGTACCGT 
    GCCTCTGTTT TGGCTTACGC TTCTGAAGAA TCTGTACTGG TCGGATATGT AGATTATGGA 
    AACTTTGAAA TCCTTAGTTT GATGAGACTT TGTCCCATAA TCCCAAAGTT GTTGGAATTG 
    CCAATGCAAG CTATAAAGTG TGTACTAGCA GGAGTAAAGC CATCATTAGG AATTTGGACT 
    CCAGAAGCTA TTTGTCTCAT GAAAAAACTT GTACAGAACA AAATAATCAC AGTGAAAGTG 
    GTGGACAAGT TGGAAAACAG TTCCCTGGTG GAGCTTATTG ATAAATCCGA GACGCCTCAT 
    GTCAGTGTTA GCAAAGTTCT CCTAGATGCA GGCTTTGCTG TGGGAGAACA GAGTATGGTG 
    ACAGATAAAC CCAGTGACGT GAAAGAAACC AGTGTTCCCT TGGGTGTGGA AGGAAAAGTA 
    AATCCATTGG AGTGGACATG GGTTGAACTT GGTGTTGACC AAACAGTAGA TGTTGTGGTC 
    TGTGTGATAT ATAGTCCTGG AGAATTTTAT TGCCATGTGC TTAAAGAGGA TGCTTTAAAG 
    AAACTCAATG ATTTGAACAA GTCATTAGCA GAACACTGCC AGCAGAAGTT ACCTAATGGT 
    TTCAAGGCAG AGATAGGACA ACCTTGTTGT GCTTTTTTTG CAGGTGATGG TAGTTGGTAT 
    CGTGCTTTAG TCAAGGAAAT CTTACCAAAT GGACATGTTA AAGTACATTT TGTGGATTAT 
    GGAAACATCG AAGAAGTTAC TGCAGATGAA CTCCGAATGA TATCATCAAC ATTTTTAAAC 
    CTTCCCTTTC AGGGAATACG GTGCCAGTTA GCAGATATAC AGTCTAGAAA CAAACATTGG 
    TCTGAAGAAG CCATAACAAG ATTCCAGATG TGTGTTGCTG GGATAAAATT GCAAGCCAGA 
    GTGGTTGAAG TCACTGAAAA TGGGATAGGA GTTGAACTCA CCGATCTCTC CACTTGTTAT 
    CCCAGAATAA TTAGTGATGT TCTGATTGAT GAACATCTGG TTTTAAAATC TGCTTCACCA 
    CATAAAGACT TACCAAATGA CAGACTTGTT AATAAACATG AGCTTCAAGT TCATGTACAG 
    GGACTTCAAG CTACCTCTTC AGCTGAGCAA TGGAAGACGA TAGAATTGCC AGTGGATAAA 
    ACTATACAAG CAAATGTATT AGAAATCATA AGCCCAAACT TGTTTTATGC TCTACCAAAA 
    GGGATGCCAG AAAATCAGGA AAAGCTGTGC ATGTTGACAG CTGAATTATT AGAATACTGC 
    AATGCTCCGA AAAGTCGACC ACCCTATAGA CCAAGAATTG GAGACGCATG CTGTGCCAAA 
    TACACAAGTG ATGATTTTTG GTATCGTGCA GTTGTTCTGG GGACATCAGA CACTGATGTG 
    GAAGTGCTCT ATGCAGACTA TGGAAACATT GAAACCCTGC CTCTTTGCAG AGTGCAACCA 
    ATCACCTCTA GCCACCTGGC GCTTCCTTTC CAAATTATTA GATGTTCACT TGAAGGATTA 
    ATGGAATTGA ATGGAAGCTC TTCTCAATTA ATAATAATGC TATTAAAAAA TTTCATGTTG 
    AATCAGAATG TAATGCTTTC TGTGAAAGGA ATTACAAAGA ATGTCCATAC AGTGTCAGTT 
    GAGAAATGTT CTGAGAATGG GACTGTCGAT GTAGCTGATA AGCTAGTGAC ATTTGGTCTG 
    GCAAAAAACA TCACACCTCA AAGGCAGAGT GCTTTAAATA CAGAAAAGAT GTATAGGATG 
    AATTGCTGCT GCACAGAGTT ACAGAAACAA GTTGAAAAAC ATGAACATAT TCTTCTCTTC 
    CTCTTAAACA ATTCAACCAA TCAAAATAAA TTTATTGAAA TGAAAAAACT GTTAAAAAAA 
    ACAGCATCTC TTGGAGGTAA ACCCTTATGA

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

    TDRD1 ( XM_005269978.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_005270035.1 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu30450
    Clone ID Related Accession (Same CDS sequence) XM_005269978.2 , XM_011539959.2 , XM_011539960.2 , XM_011539962.1 , NM_198795.1 , XM_011539961.2
    Accession Version XM_005269978.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3570bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product tudor domain-containing protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 12, 2015 this sequence version replaced XM_005269978.1. ##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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GACCTGGAAC AGAGCAATCA TACAAAACGT TGATGTGCAG 
    CAAAAGAAGG CACATGTCTT ATATATTGAT TATGGAAATG AAGAAATAAT TCCATTAAAC 
    AGAATTTACC ACCTCAACAG GAACATTGAC TTGTTTCCTC CTTGTGCCAT AAAGTGCTTT 
    GTAGCCAATG TTATCCCAGC AGAAGGGAAT TGGAGCAGTG ATTGTATCAA AGCTACTAAA 
    CCACTGTTAA TGGAGCAGTA CTGCTCCATA AAGATTGTCG ACATCTTGGA AGAGGAAGTG 
    GTTACCTTTG CTGTAGAAGT TGAGCTGCCA AATTCAGGAA AACTTTTAGA CCATGTGCTT 
    ATAGAAATGG GATATGGCTT GAAACCCAGT GGACAAGATT CTAAGAAGGA AAATGCAGAT 
    CAAAGTGATC CTGAAGATGT TGGAAAAATG ACAACTGAAA ACAACATTGT CGTAGACAAA 
    AGTGACCTAA TCCCAAAAGT GTTAACTTTG AATGTAGGTG ATGAGTTTTG TGGTGTGGTT 
    GCCCACATTC AAACACCAGA AGACTTCTTT TGTCAACAAC TGCAAAGTGG CCGAAAGCTT 
    GCTGAACTTC AGGCATCCCT TAGCAAGTAC TGTGATCAGT TGCCTCCACG CTCTGATTTT 
    TATCCAGCCA TTGGTGATAT ATGTTGTGCT CAGTTCTCAG AGGATGATCA GTGGTACCGT 
    GCCTCTGTTT TGGCTTACGC TTCTGAAGAA TCTGTACTGG TCGGATATGT AGATTATGGA 
    AACTTTGAAA TCCTTAGTTT GATGAGACTT TGTCCCATAA TCCCAAAGTT GTTGGAATTG 
    CCAATGCAAG CTATAAAGTG TGTACTAGCA GGAGTAAAGC CATCATTAGG AATTTGGACT 
    CCAGAAGCTA TTTGTCTCAT GAAAAAACTT GTACAGAACA AAATAATCAC AGTGAAAGTG 
    GTGGACAAGT TGGAAAACAG TTCCCTGGTG GAGCTTATTG ATAAATCCGA GACGCCTCAT 
    GTCAGTGTTA GCAAAGTTCT CCTAGATGCA GGCTTTGCTG TGGGAGAACA GAGTATGGTG 
    ACAGATAAAC CCAGTGACGT GAAAGAAACC AGTGTTCCCT TGGGTGTGGA AGGAAAAGTA 
    AATCCATTGG AGTGGACATG GGTTGAACTT GGTGTTGACC AAACAGTAGA TGTTGTGGTC 
    TGTGTGATAT ATAGTCCTGG AGAATTTTAT TGCCATGTGC TTAAAGAGGA TGCTTTAAAG 
    AAACTCAATG ATTTGAACAA GTCATTAGCA GAACACTGCC AGCAGAAGTT ACCTAATGGT 
    TTCAAGGCAG AGATAGGACA ACCTTGTTGT GCTTTTTTTG CAGGTGATGG TAGTTGGTAT 
    CGTGCTTTAG TCAAGGAAAT CTTACCAAAT GGACATGTTA AAGTACATTT TGTGGATTAT 
    GGAAACATCG AAGAAGTTAC TGCAGATGAA CTCCGAATGA TATCATCAAC ATTTTTAAAC 
    CTTCCCTTTC AGGGAATACG GTGCCAGTTA GCAGATATAC AGTCTAGAAA CAAACATTGG 
    TCTGAAGAAG CCATAACAAG ATTCCAGATG TGTGTTGCTG GGATAAAATT GCAAGCCAGA 
    GTGGTTGAAG TCACTGAAAA TGGGATAGGA GTTGAACTCA CCGATCTCTC CACTTGTTAT 
    CCCAGAATAA TTAGTGATGT TCTGATTGAT GAACATCTGG TTTTAAAATC TGCTTCACCA 
    CATAAAGACT TACCAAATGA CAGACTTGTT AATAAACATG AGCTTCAAGT TCATGTACAG 
    GGACTTCAAG CTACCTCTTC AGCTGAGCAA TGGAAGACGA TAGAATTGCC AGTGGATAAA 
    ACTATACAAG CAAATGTATT AGAAATCATA AGCCCAAACT TGTTTTATGC TCTACCAAAA 
    GGGATGCCAG AAAATCAGGA AAAGCTGTGC ATGTTGACAG CTGAATTATT AGAATACTGC 
    AATGCTCCGA AAAGTCGACC ACCCTATAGA CCAAGAATTG GAGACGCATG CTGTGCCAAA 
    TACACAAGTG ATGATTTTTG GTATCGTGCA GTTGTTCTGG GGACATCAGA CACTGATGTG 
    GAAGTGCTCT ATGCAGACTA TGGAAACATT GAAACCCTGC CTCTTTGCAG AGTGCAACCA 
    ATCACCTCTA GCCACCTGGC GCTTCCTTTC CAAATTATTA GATGTTCACT TGAAGGATTA 
    ATGGAATTGA ATGGAAGCTC TTCTCAATTA ATAATAATGC TATTAAAAAA TTTCATGTTG 
    AATCAGAATG TAATGCTTTC TGTGAAAGGA ATTACAAAGA ATGTCCATAC AGTGTCAGTT 
    GAGAAATGTT CTGAGAATGG GACTGTCGAT GTAGCTGATA AGCTAGTGAC ATTTGGTCTG 
    GCAAAAAACA TCACACCTCA AAGGCAGAGT GCTTTAAATA CAGAAAAGAT GTATAGGATG 
    AATTGCTGCT GCACAGAGTT ACAGAAACAA GTTGAAAAAC ATGAACATAT TCTTCTCTTC 
    CTCTTAAACA ATTCAACCAA TCAAAATAAA TTTATTGAAA TGAAAAAACT GTTAAAAAAA 
    ACAGCATCTC TTGGAGGTAA ACCCTTATGA

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

    RefSeq XP_005270035.1
    CDS135..3704
    Translation

    Target ORF information:

    RefSeq Version XM_005269978.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005269978.2

    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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GACCTGGAAC AGAGCAATCA TACAAAACGT TGATGTGCAG 
    CAAAAGAAGG CACATGTCTT ATATATTGAT TATGGAAATG AAGAAATAAT TCCATTAAAC 
    AGAATTTACC ACCTCAACAG GAACATTGAC TTGTTTCCTC CTTGTGCCAT AAAGTGCTTT 
    GTAGCCAATG TTATCCCAGC AGAAGGGAAT TGGAGCAGTG ATTGTATCAA AGCTACTAAA 
    CCACTGTTAA TGGAGCAGTA CTGCTCCATA AAGATTGTCG ACATCTTGGA AGAGGAAGTG 
    GTTACCTTTG CTGTAGAAGT TGAGCTGCCA AATTCAGGAA AACTTTTAGA CCATGTGCTT 
    ATAGAAATGG GATATGGCTT GAAACCCAGT GGACAAGATT CTAAGAAGGA AAATGCAGAT 
    CAAAGTGATC CTGAAGATGT TGGAAAAATG ACAACTGAAA ACAACATTGT CGTAGACAAA 
    AGTGACCTAA TCCCAAAAGT GTTAACTTTG AATGTAGGTG ATGAGTTTTG TGGTGTGGTT 
    GCCCACATTC AAACACCAGA AGACTTCTTT TGTCAACAAC TGCAAAGTGG CCGAAAGCTT 
    GCTGAACTTC AGGCATCCCT TAGCAAGTAC TGTGATCAGT TGCCTCCACG CTCTGATTTT 
    TATCCAGCCA TTGGTGATAT ATGTTGTGCT CAGTTCTCAG AGGATGATCA GTGGTACCGT 
    GCCTCTGTTT TGGCTTACGC TTCTGAAGAA TCTGTACTGG TCGGATATGT AGATTATGGA 
    AACTTTGAAA TCCTTAGTTT GATGAGACTT TGTCCCATAA TCCCAAAGTT GTTGGAATTG 
    CCAATGCAAG CTATAAAGTG TGTACTAGCA GGAGTAAAGC CATCATTAGG AATTTGGACT 
    CCAGAAGCTA TTTGTCTCAT GAAAAAACTT GTACAGAACA AAATAATCAC AGTGAAAGTG 
    GTGGACAAGT TGGAAAACAG TTCCCTGGTG GAGCTTATTG ATAAATCCGA GACGCCTCAT 
    GTCAGTGTTA GCAAAGTTCT CCTAGATGCA GGCTTTGCTG TGGGAGAACA GAGTATGGTG 
    ACAGATAAAC CCAGTGACGT GAAAGAAACC AGTGTTCCCT TGGGTGTGGA AGGAAAAGTA 
    AATCCATTGG AGTGGACATG GGTTGAACTT GGTGTTGACC AAACAGTAGA TGTTGTGGTC 
    TGTGTGATAT ATAGTCCTGG AGAATTTTAT TGCCATGTGC TTAAAGAGGA TGCTTTAAAG 
    AAACTCAATG ATTTGAACAA GTCATTAGCA GAACACTGCC AGCAGAAGTT ACCTAATGGT 
    TTCAAGGCAG AGATAGGACA ACCTTGTTGT GCTTTTTTTG CAGGTGATGG TAGTTGGTAT 
    CGTGCTTTAG TCAAGGAAAT CTTACCAAAT GGACATGTTA AAGTACATTT TGTGGATTAT 
    GGAAACATCG AAGAAGTTAC TGCAGATGAA CTCCGAATGA TATCATCAAC ATTTTTAAAC 
    CTTCCCTTTC AGGGAATACG GTGCCAGTTA GCAGATATAC AGTCTAGAAA CAAACATTGG 
    TCTGAAGAAG CCATAACAAG ATTCCAGATG TGTGTTGCTG GGATAAAATT GCAAGCCAGA 
    GTGGTTGAAG TCACTGAAAA TGGGATAGGA GTTGAACTCA CCGATCTCTC CACTTGTTAT 
    CCCAGAATAA TTAGTGATGT TCTGATTGAT GAACATCTGG TTTTAAAATC TGCTTCACCA 
    CATAAAGACT TACCAAATGA CAGACTTGTT AATAAACATG AGCTTCAAGT TCATGTACAG 
    GGACTTCAAG CTACCTCTTC AGCTGAGCAA TGGAAGACGA TAGAATTGCC AGTGGATAAA 
    ACTATACAAG CAAATGTATT AGAAATCATA AGCCCAAACT TGTTTTATGC TCTACCAAAA 
    GGGATGCCAG AAAATCAGGA AAAGCTGTGC ATGTTGACAG CTGAATTATT AGAATACTGC 
    AATGCTCCGA AAAGTCGACC ACCCTATAGA CCAAGAATTG GAGACGCATG CTGTGCCAAA 
    TACACAAGTG ATGATTTTTG GTATCGTGCA GTTGTTCTGG GGACATCAGA CACTGATGTG 
    GAAGTGCTCT ATGCAGACTA TGGAAACATT GAAACCCTGC CTCTTTGCAG AGTGCAACCA 
    ATCACCTCTA GCCACCTGGC GCTTCCTTTC CAAATTATTA GATGTTCACT TGAAGGATTA 
    ATGGAATTGA ATGGAAGCTC TTCTCAATTA ATAATAATGC TATTAAAAAA TTTCATGTTG 
    AATCAGAATG TAATGCTTTC TGTGAAAGGA ATTACAAAGA ATGTCCATAC AGTGTCAGTT 
    GAGAAATGTT CTGAGAATGG GACTGTCGAT GTAGCTGATA AGCTAGTGAC ATTTGGTCTG 
    GCAAAAAACA TCACACCTCA AAGGCAGAGT GCTTTAAATA CAGAAAAGAT GTATAGGATG 
    AATTGCTGCT GCACAGAGTT ACAGAAACAA GTTGAAAAAC ATGAACATAT TCTTCTCTTC 
    CTCTTAAACA ATTCAACCAA TCAAAATAAA TTTATTGAAA TGAAAAAACT GTTAAAAAAA 
    ACAGCATCTC TTGGAGGTAA ACCCTTATGA

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

    TDRD1 ( XM_011539959.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538261.1 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OHu30450
    Clone ID Related Accession (Same CDS sequence) XM_005269978.2 , XM_011539959.2 , XM_011539960.2 , XM_011539962.1 , NM_198795.1 , XM_011539961.2
    Accession Version XM_011539959.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3570bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product tudor domain-containing protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011539959.1. ##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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GACCTGGAAC AGAGCAATCA TACAAAACGT TGATGTGCAG 
    CAAAAGAAGG CACATGTCTT ATATATTGAT TATGGAAATG AAGAAATAAT TCCATTAAAC 
    AGAATTTACC ACCTCAACAG GAACATTGAC TTGTTTCCTC CTTGTGCCAT AAAGTGCTTT 
    GTAGCCAATG TTATCCCAGC AGAAGGGAAT TGGAGCAGTG ATTGTATCAA AGCTACTAAA 
    CCACTGTTAA TGGAGCAGTA CTGCTCCATA AAGATTGTCG ACATCTTGGA AGAGGAAGTG 
    GTTACCTTTG CTGTAGAAGT TGAGCTGCCA AATTCAGGAA AACTTTTAGA CCATGTGCTT 
    ATAGAAATGG GATATGGCTT GAAACCCAGT GGACAAGATT CTAAGAAGGA AAATGCAGAT 
    CAAAGTGATC CTGAAGATGT TGGAAAAATG ACAACTGAAA ACAACATTGT CGTAGACAAA 
    AGTGACCTAA TCCCAAAAGT GTTAACTTTG AATGTAGGTG ATGAGTTTTG TGGTGTGGTT 
    GCCCACATTC AAACACCAGA AGACTTCTTT TGTCAACAAC TGCAAAGTGG CCGAAAGCTT 
    GCTGAACTTC AGGCATCCCT TAGCAAGTAC TGTGATCAGT TGCCTCCACG CTCTGATTTT 
    TATCCAGCCA TTGGTGATAT ATGTTGTGCT CAGTTCTCAG AGGATGATCA GTGGTACCGT 
    GCCTCTGTTT TGGCTTACGC TTCTGAAGAA TCTGTACTGG TCGGATATGT AGATTATGGA 
    AACTTTGAAA TCCTTAGTTT GATGAGACTT TGTCCCATAA TCCCAAAGTT GTTGGAATTG 
    CCAATGCAAG CTATAAAGTG TGTACTAGCA GGAGTAAAGC CATCATTAGG AATTTGGACT 
    CCAGAAGCTA TTTGTCTCAT GAAAAAACTT GTACAGAACA AAATAATCAC AGTGAAAGTG 
    GTGGACAAGT TGGAAAACAG TTCCCTGGTG GAGCTTATTG ATAAATCCGA GACGCCTCAT 
    GTCAGTGTTA GCAAAGTTCT CCTAGATGCA GGCTTTGCTG TGGGAGAACA GAGTATGGTG 
    ACAGATAAAC CCAGTGACGT GAAAGAAACC AGTGTTCCCT TGGGTGTGGA AGGAAAAGTA 
    AATCCATTGG AGTGGACATG GGTTGAACTT GGTGTTGACC AAACAGTAGA TGTTGTGGTC 
    TGTGTGATAT ATAGTCCTGG AGAATTTTAT TGCCATGTGC TTAAAGAGGA TGCTTTAAAG 
    AAACTCAATG ATTTGAACAA GTCATTAGCA GAACACTGCC AGCAGAAGTT ACCTAATGGT 
    TTCAAGGCAG AGATAGGACA ACCTTGTTGT GCTTTTTTTG CAGGTGATGG TAGTTGGTAT 
    CGTGCTTTAG TCAAGGAAAT CTTACCAAAT GGACATGTTA AAGTACATTT TGTGGATTAT 
    GGAAACATCG AAGAAGTTAC TGCAGATGAA CTCCGAATGA TATCATCAAC ATTTTTAAAC 
    CTTCCCTTTC AGGGAATACG GTGCCAGTTA GCAGATATAC AGTCTAGAAA CAAACATTGG 
    TCTGAAGAAG CCATAACAAG ATTCCAGATG TGTGTTGCTG GGATAAAATT GCAAGCCAGA 
    GTGGTTGAAG TCACTGAAAA TGGGATAGGA GTTGAACTCA CCGATCTCTC CACTTGTTAT 
    CCCAGAATAA TTAGTGATGT TCTGATTGAT GAACATCTGG TTTTAAAATC TGCTTCACCA 
    CATAAAGACT TACCAAATGA CAGACTTGTT AATAAACATG AGCTTCAAGT TCATGTACAG 
    GGACTTCAAG CTACCTCTTC AGCTGAGCAA TGGAAGACGA TAGAATTGCC AGTGGATAAA 
    ACTATACAAG CAAATGTATT AGAAATCATA AGCCCAAACT TGTTTTATGC TCTACCAAAA 
    GGGATGCCAG AAAATCAGGA AAAGCTGTGC ATGTTGACAG CTGAATTATT AGAATACTGC 
    AATGCTCCGA AAAGTCGACC ACCCTATAGA CCAAGAATTG GAGACGCATG CTGTGCCAAA 
    TACACAAGTG ATGATTTTTG GTATCGTGCA GTTGTTCTGG GGACATCAGA CACTGATGTG 
    GAAGTGCTCT ATGCAGACTA TGGAAACATT GAAACCCTGC CTCTTTGCAG AGTGCAACCA 
    ATCACCTCTA GCCACCTGGC GCTTCCTTTC CAAATTATTA GATGTTCACT TGAAGGATTA 
    ATGGAATTGA ATGGAAGCTC TTCTCAATTA ATAATAATGC TATTAAAAAA TTTCATGTTG 
    AATCAGAATG TAATGCTTTC TGTGAAAGGA ATTACAAAGA ATGTCCATAC AGTGTCAGTT 
    GAGAAATGTT CTGAGAATGG GACTGTCGAT GTAGCTGATA AGCTAGTGAC ATTTGGTCTG 
    GCAAAAAACA TCACACCTCA AAGGCAGAGT GCTTTAAATA CAGAAAAGAT GTATAGGATG 
    AATTGCTGCT GCACAGAGTT ACAGAAACAA GTTGAAAAAC ATGAACATAT TCTTCTCTTC 
    CTCTTAAACA ATTCAACCAA TCAAAATAAA TTTATTGAAA TGAAAAAACT GTTAAAAAAA 
    ACAGCATCTC TTGGAGGTAA ACCCTTATGA

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

    RefSeq XP_011538261.1
    CDS507..4076
    Translation

    Target ORF information:

    RefSeq Version XM_011539959.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011539959.2

    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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GACCTGGAAC AGAGCAATCA TACAAAACGT TGATGTGCAG 
    CAAAAGAAGG CACATGTCTT ATATATTGAT TATGGAAATG AAGAAATAAT TCCATTAAAC 
    AGAATTTACC ACCTCAACAG GAACATTGAC TTGTTTCCTC CTTGTGCCAT AAAGTGCTTT 
    GTAGCCAATG TTATCCCAGC AGAAGGGAAT TGGAGCAGTG ATTGTATCAA AGCTACTAAA 
    CCACTGTTAA TGGAGCAGTA CTGCTCCATA AAGATTGTCG ACATCTTGGA AGAGGAAGTG 
    GTTACCTTTG CTGTAGAAGT TGAGCTGCCA AATTCAGGAA AACTTTTAGA CCATGTGCTT 
    ATAGAAATGG GATATGGCTT GAAACCCAGT GGACAAGATT CTAAGAAGGA AAATGCAGAT 
    CAAAGTGATC CTGAAGATGT TGGAAAAATG ACAACTGAAA ACAACATTGT CGTAGACAAA 
    AGTGACCTAA TCCCAAAAGT GTTAACTTTG AATGTAGGTG ATGAGTTTTG TGGTGTGGTT 
    GCCCACATTC AAACACCAGA AGACTTCTTT TGTCAACAAC TGCAAAGTGG CCGAAAGCTT 
    GCTGAACTTC AGGCATCCCT TAGCAAGTAC TGTGATCAGT TGCCTCCACG CTCTGATTTT 
    TATCCAGCCA TTGGTGATAT ATGTTGTGCT CAGTTCTCAG AGGATGATCA GTGGTACCGT 
    GCCTCTGTTT TGGCTTACGC TTCTGAAGAA TCTGTACTGG TCGGATATGT AGATTATGGA 
    AACTTTGAAA TCCTTAGTTT GATGAGACTT TGTCCCATAA TCCCAAAGTT GTTGGAATTG 
    CCAATGCAAG CTATAAAGTG TGTACTAGCA GGAGTAAAGC CATCATTAGG AATTTGGACT 
    CCAGAAGCTA TTTGTCTCAT GAAAAAACTT GTACAGAACA AAATAATCAC AGTGAAAGTG 
    GTGGACAAGT TGGAAAACAG TTCCCTGGTG GAGCTTATTG ATAAATCCGA GACGCCTCAT 
    GTCAGTGTTA GCAAAGTTCT CCTAGATGCA GGCTTTGCTG TGGGAGAACA GAGTATGGTG 
    ACAGATAAAC CCAGTGACGT GAAAGAAACC AGTGTTCCCT TGGGTGTGGA AGGAAAAGTA 
    AATCCATTGG AGTGGACATG GGTTGAACTT GGTGTTGACC AAACAGTAGA TGTTGTGGTC 
    TGTGTGATAT ATAGTCCTGG AGAATTTTAT TGCCATGTGC TTAAAGAGGA TGCTTTAAAG 
    AAACTCAATG ATTTGAACAA GTCATTAGCA GAACACTGCC AGCAGAAGTT ACCTAATGGT 
    TTCAAGGCAG AGATAGGACA ACCTTGTTGT GCTTTTTTTG CAGGTGATGG TAGTTGGTAT 
    CGTGCTTTAG TCAAGGAAAT CTTACCAAAT GGACATGTTA AAGTACATTT TGTGGATTAT 
    GGAAACATCG AAGAAGTTAC TGCAGATGAA CTCCGAATGA TATCATCAAC ATTTTTAAAC 
    CTTCCCTTTC AGGGAATACG GTGCCAGTTA GCAGATATAC AGTCTAGAAA CAAACATTGG 
    TCTGAAGAAG CCATAACAAG ATTCCAGATG TGTGTTGCTG GGATAAAATT GCAAGCCAGA 
    GTGGTTGAAG TCACTGAAAA TGGGATAGGA GTTGAACTCA CCGATCTCTC CACTTGTTAT 
    CCCAGAATAA TTAGTGATGT TCTGATTGAT GAACATCTGG TTTTAAAATC TGCTTCACCA 
    CATAAAGACT TACCAAATGA CAGACTTGTT AATAAACATG AGCTTCAAGT TCATGTACAG 
    GGACTTCAAG CTACCTCTTC AGCTGAGCAA TGGAAGACGA TAGAATTGCC AGTGGATAAA 
    ACTATACAAG CAAATGTATT AGAAATCATA AGCCCAAACT TGTTTTATGC TCTACCAAAA 
    GGGATGCCAG AAAATCAGGA AAAGCTGTGC ATGTTGACAG CTGAATTATT AGAATACTGC 
    AATGCTCCGA AAAGTCGACC ACCCTATAGA CCAAGAATTG GAGACGCATG CTGTGCCAAA 
    TACACAAGTG ATGATTTTTG GTATCGTGCA GTTGTTCTGG GGACATCAGA CACTGATGTG 
    GAAGTGCTCT ATGCAGACTA TGGAAACATT GAAACCCTGC CTCTTTGCAG AGTGCAACCA 
    ATCACCTCTA GCCACCTGGC GCTTCCTTTC CAAATTATTA GATGTTCACT TGAAGGATTA 
    ATGGAATTGA ATGGAAGCTC TTCTCAATTA ATAATAATGC TATTAAAAAA TTTCATGTTG 
    AATCAGAATG TAATGCTTTC TGTGAAAGGA ATTACAAAGA ATGTCCATAC AGTGTCAGTT 
    GAGAAATGTT CTGAGAATGG GACTGTCGAT GTAGCTGATA AGCTAGTGAC ATTTGGTCTG 
    GCAAAAAACA TCACACCTCA AAGGCAGAGT GCTTTAAATA CAGAAAAGAT GTATAGGATG 
    AATTGCTGCT GCACAGAGTT ACAGAAACAA GTTGAAAAAC ATGAACATAT TCTTCTCTTC 
    CTCTTAAACA ATTCAACCAA TCAAAATAAA TTTATTGAAA TGAAAAAACT GTTAAAAAAA 
    ACAGCATCTC TTGGAGGTAA ACCCTTATGA

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

    TDRD1 ( XM_011539960.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538262.1 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OHu30450
    Clone ID Related Accession (Same CDS sequence) XM_005269978.2 , XM_011539959.2 , XM_011539960.2 , XM_011539962.1 , NM_198795.1 , XM_011539961.2
    Accession Version XM_011539960.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3570bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product tudor domain-containing protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011539960.1. ##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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GACCTGGAAC AGAGCAATCA TACAAAACGT TGATGTGCAG 
    CAAAAGAAGG CACATGTCTT ATATATTGAT TATGGAAATG AAGAAATAAT TCCATTAAAC 
    AGAATTTACC ACCTCAACAG GAACATTGAC TTGTTTCCTC CTTGTGCCAT AAAGTGCTTT 
    GTAGCCAATG TTATCCCAGC AGAAGGGAAT TGGAGCAGTG ATTGTATCAA AGCTACTAAA 
    CCACTGTTAA TGGAGCAGTA CTGCTCCATA AAGATTGTCG ACATCTTGGA AGAGGAAGTG 
    GTTACCTTTG CTGTAGAAGT TGAGCTGCCA AATTCAGGAA AACTTTTAGA CCATGTGCTT 
    ATAGAAATGG GATATGGCTT GAAACCCAGT GGACAAGATT CTAAGAAGGA AAATGCAGAT 
    CAAAGTGATC CTGAAGATGT TGGAAAAATG ACAACTGAAA ACAACATTGT CGTAGACAAA 
    AGTGACCTAA TCCCAAAAGT GTTAACTTTG AATGTAGGTG ATGAGTTTTG TGGTGTGGTT 
    GCCCACATTC AAACACCAGA AGACTTCTTT TGTCAACAAC TGCAAAGTGG CCGAAAGCTT 
    GCTGAACTTC AGGCATCCCT TAGCAAGTAC TGTGATCAGT TGCCTCCACG CTCTGATTTT 
    TATCCAGCCA TTGGTGATAT ATGTTGTGCT CAGTTCTCAG AGGATGATCA GTGGTACCGT 
    GCCTCTGTTT TGGCTTACGC TTCTGAAGAA TCTGTACTGG TCGGATATGT AGATTATGGA 
    AACTTTGAAA TCCTTAGTTT GATGAGACTT TGTCCCATAA TCCCAAAGTT GTTGGAATTG 
    CCAATGCAAG CTATAAAGTG TGTACTAGCA GGAGTAAAGC CATCATTAGG AATTTGGACT 
    CCAGAAGCTA TTTGTCTCAT GAAAAAACTT GTACAGAACA AAATAATCAC AGTGAAAGTG 
    GTGGACAAGT TGGAAAACAG TTCCCTGGTG GAGCTTATTG ATAAATCCGA GACGCCTCAT 
    GTCAGTGTTA GCAAAGTTCT CCTAGATGCA GGCTTTGCTG TGGGAGAACA GAGTATGGTG 
    ACAGATAAAC CCAGTGACGT GAAAGAAACC AGTGTTCCCT TGGGTGTGGA AGGAAAAGTA 
    AATCCATTGG AGTGGACATG GGTTGAACTT GGTGTTGACC AAACAGTAGA TGTTGTGGTC 
    TGTGTGATAT ATAGTCCTGG AGAATTTTAT TGCCATGTGC TTAAAGAGGA TGCTTTAAAG 
    AAACTCAATG ATTTGAACAA GTCATTAGCA GAACACTGCC AGCAGAAGTT ACCTAATGGT 
    TTCAAGGCAG AGATAGGACA ACCTTGTTGT GCTTTTTTTG CAGGTGATGG TAGTTGGTAT 
    CGTGCTTTAG TCAAGGAAAT CTTACCAAAT GGACATGTTA AAGTACATTT TGTGGATTAT 
    GGAAACATCG AAGAAGTTAC TGCAGATGAA CTCCGAATGA TATCATCAAC ATTTTTAAAC 
    CTTCCCTTTC AGGGAATACG GTGCCAGTTA GCAGATATAC AGTCTAGAAA CAAACATTGG 
    TCTGAAGAAG CCATAACAAG ATTCCAGATG TGTGTTGCTG GGATAAAATT GCAAGCCAGA 
    GTGGTTGAAG TCACTGAAAA TGGGATAGGA GTTGAACTCA CCGATCTCTC CACTTGTTAT 
    CCCAGAATAA TTAGTGATGT TCTGATTGAT GAACATCTGG TTTTAAAATC TGCTTCACCA 
    CATAAAGACT TACCAAATGA CAGACTTGTT AATAAACATG AGCTTCAAGT TCATGTACAG 
    GGACTTCAAG CTACCTCTTC AGCTGAGCAA TGGAAGACGA TAGAATTGCC AGTGGATAAA 
    ACTATACAAG CAAATGTATT AGAAATCATA AGCCCAAACT TGTTTTATGC TCTACCAAAA 
    GGGATGCCAG AAAATCAGGA AAAGCTGTGC ATGTTGACAG CTGAATTATT AGAATACTGC 
    AATGCTCCGA AAAGTCGACC ACCCTATAGA CCAAGAATTG GAGACGCATG CTGTGCCAAA 
    TACACAAGTG ATGATTTTTG GTATCGTGCA GTTGTTCTGG GGACATCAGA CACTGATGTG 
    GAAGTGCTCT ATGCAGACTA TGGAAACATT GAAACCCTGC CTCTTTGCAG AGTGCAACCA 
    ATCACCTCTA GCCACCTGGC GCTTCCTTTC CAAATTATTA GATGTTCACT TGAAGGATTA 
    ATGGAATTGA ATGGAAGCTC TTCTCAATTA ATAATAATGC TATTAAAAAA TTTCATGTTG 
    AATCAGAATG TAATGCTTTC TGTGAAAGGA ATTACAAAGA ATGTCCATAC AGTGTCAGTT 
    GAGAAATGTT CTGAGAATGG GACTGTCGAT GTAGCTGATA AGCTAGTGAC ATTTGGTCTG 
    GCAAAAAACA TCACACCTCA AAGGCAGAGT GCTTTAAATA CAGAAAAGAT GTATAGGATG 
    AATTGCTGCT GCACAGAGTT ACAGAAACAA GTTGAAAAAC ATGAACATAT TCTTCTCTTC 
    CTCTTAAACA ATTCAACCAA TCAAAATAAA TTTATTGAAA TGAAAAAACT GTTAAAAAAA 
    ACAGCATCTC TTGGAGGTAA ACCCTTATGA

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

    RefSeq XP_011538262.1
    CDS97..3666
    Translation

    Target ORF information:

    RefSeq Version XM_011539960.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011539960.2

    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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GACCTGGAAC AGAGCAATCA TACAAAACGT TGATGTGCAG 
    CAAAAGAAGG CACATGTCTT ATATATTGAT TATGGAAATG AAGAAATAAT TCCATTAAAC 
    AGAATTTACC ACCTCAACAG GAACATTGAC TTGTTTCCTC CTTGTGCCAT AAAGTGCTTT 
    GTAGCCAATG TTATCCCAGC AGAAGGGAAT TGGAGCAGTG ATTGTATCAA AGCTACTAAA 
    CCACTGTTAA TGGAGCAGTA CTGCTCCATA AAGATTGTCG ACATCTTGGA AGAGGAAGTG 
    GTTACCTTTG CTGTAGAAGT TGAGCTGCCA AATTCAGGAA AACTTTTAGA CCATGTGCTT 
    ATAGAAATGG GATATGGCTT GAAACCCAGT GGACAAGATT CTAAGAAGGA AAATGCAGAT 
    CAAAGTGATC CTGAAGATGT TGGAAAAATG ACAACTGAAA ACAACATTGT CGTAGACAAA 
    AGTGACCTAA TCCCAAAAGT GTTAACTTTG AATGTAGGTG ATGAGTTTTG TGGTGTGGTT 
    GCCCACATTC AAACACCAGA AGACTTCTTT TGTCAACAAC TGCAAAGTGG CCGAAAGCTT 
    GCTGAACTTC AGGCATCCCT TAGCAAGTAC TGTGATCAGT TGCCTCCACG CTCTGATTTT 
    TATCCAGCCA TTGGTGATAT ATGTTGTGCT CAGTTCTCAG AGGATGATCA GTGGTACCGT 
    GCCTCTGTTT TGGCTTACGC TTCTGAAGAA TCTGTACTGG TCGGATATGT AGATTATGGA 
    AACTTTGAAA TCCTTAGTTT GATGAGACTT TGTCCCATAA TCCCAAAGTT GTTGGAATTG 
    CCAATGCAAG CTATAAAGTG TGTACTAGCA GGAGTAAAGC CATCATTAGG AATTTGGACT 
    CCAGAAGCTA TTTGTCTCAT GAAAAAACTT GTACAGAACA AAATAATCAC AGTGAAAGTG 
    GTGGACAAGT TGGAAAACAG TTCCCTGGTG GAGCTTATTG ATAAATCCGA GACGCCTCAT 
    GTCAGTGTTA GCAAAGTTCT CCTAGATGCA GGCTTTGCTG TGGGAGAACA GAGTATGGTG 
    ACAGATAAAC CCAGTGACGT GAAAGAAACC AGTGTTCCCT TGGGTGTGGA AGGAAAAGTA 
    AATCCATTGG AGTGGACATG GGTTGAACTT GGTGTTGACC AAACAGTAGA TGTTGTGGTC 
    TGTGTGATAT ATAGTCCTGG AGAATTTTAT TGCCATGTGC TTAAAGAGGA TGCTTTAAAG 
    AAACTCAATG ATTTGAACAA GTCATTAGCA GAACACTGCC AGCAGAAGTT ACCTAATGGT 
    TTCAAGGCAG AGATAGGACA ACCTTGTTGT GCTTTTTTTG CAGGTGATGG TAGTTGGTAT 
    CGTGCTTTAG TCAAGGAAAT CTTACCAAAT GGACATGTTA AAGTACATTT TGTGGATTAT 
    GGAAACATCG AAGAAGTTAC TGCAGATGAA CTCCGAATGA TATCATCAAC ATTTTTAAAC 
    CTTCCCTTTC AGGGAATACG GTGCCAGTTA GCAGATATAC AGTCTAGAAA CAAACATTGG 
    TCTGAAGAAG CCATAACAAG ATTCCAGATG TGTGTTGCTG GGATAAAATT GCAAGCCAGA 
    GTGGTTGAAG TCACTGAAAA TGGGATAGGA GTTGAACTCA CCGATCTCTC CACTTGTTAT 
    CCCAGAATAA TTAGTGATGT TCTGATTGAT GAACATCTGG TTTTAAAATC TGCTTCACCA 
    CATAAAGACT TACCAAATGA CAGACTTGTT AATAAACATG AGCTTCAAGT TCATGTACAG 
    GGACTTCAAG CTACCTCTTC AGCTGAGCAA TGGAAGACGA TAGAATTGCC AGTGGATAAA 
    ACTATACAAG CAAATGTATT AGAAATCATA AGCCCAAACT TGTTTTATGC TCTACCAAAA 
    GGGATGCCAG AAAATCAGGA AAAGCTGTGC ATGTTGACAG CTGAATTATT AGAATACTGC 
    AATGCTCCGA AAAGTCGACC ACCCTATAGA CCAAGAATTG GAGACGCATG CTGTGCCAAA 
    TACACAAGTG ATGATTTTTG GTATCGTGCA GTTGTTCTGG GGACATCAGA CACTGATGTG 
    GAAGTGCTCT ATGCAGACTA TGGAAACATT GAAACCCTGC CTCTTTGCAG AGTGCAACCA 
    ATCACCTCTA GCCACCTGGC GCTTCCTTTC CAAATTATTA GATGTTCACT TGAAGGATTA 
    ATGGAATTGA ATGGAAGCTC TTCTCAATTA ATAATAATGC TATTAAAAAA TTTCATGTTG 
    AATCAGAATG TAATGCTTTC TGTGAAAGGA ATTACAAAGA ATGTCCATAC AGTGTCAGTT 
    GAGAAATGTT CTGAGAATGG GACTGTCGAT GTAGCTGATA AGCTAGTGAC ATTTGGTCTG 
    GCAAAAAACA TCACACCTCA AAGGCAGAGT GCTTTAAATA CAGAAAAGAT GTATAGGATG 
    AATTGCTGCT GCACAGAGTT ACAGAAACAA GTTGAAAAAC ATGAACATAT TCTTCTCTTC 
    CTCTTAAACA ATTCAACCAA TCAAAATAAA TTTATTGAAA TGAAAAAACT GTTAAAAAAA 
    ACAGCATCTC TTGGAGGTAA ACCCTTATGA

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

    TDRD1 ( XM_011539962.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538264.1 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OHu30450
    Clone ID Related Accession (Same CDS sequence) XM_005269978.2 , XM_011539959.2 , XM_011539960.2 , XM_011539962.1 , NM_198795.1 , XM_011539961.2
    Accession Version XM_011539962.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3570bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product tudor domain-containing protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and 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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GACCTGGAAC AGAGCAATCA TACAAAACGT TGATGTGCAG 
    CAAAAGAAGG CACATGTCTT ATATATTGAT TATGGAAATG AAGAAATAAT TCCATTAAAC 
    AGAATTTACC ACCTCAACAG GAACATTGAC TTGTTTCCTC CTTGTGCCAT AAAGTGCTTT 
    GTAGCCAATG TTATCCCAGC AGAAGGGAAT TGGAGCAGTG ATTGTATCAA AGCTACTAAA 
    CCACTGTTAA TGGAGCAGTA CTGCTCCATA AAGATTGTCG ACATCTTGGA AGAGGAAGTG 
    GTTACCTTTG CTGTAGAAGT TGAGCTGCCA AATTCAGGAA AACTTTTAGA CCATGTGCTT 
    ATAGAAATGG GATATGGCTT GAAACCCAGT GGACAAGATT CTAAGAAGGA AAATGCAGAT 
    CAAAGTGATC CTGAAGATGT TGGAAAAATG ACAACTGAAA ACAACATTGT CGTAGACAAA 
    AGTGACCTAA TCCCAAAAGT GTTAACTTTG AATGTAGGTG ATGAGTTTTG TGGTGTGGTT 
    GCCCACATTC AAACACCAGA AGACTTCTTT TGTCAACAAC TGCAAAGTGG CCGAAAGCTT 
    GCTGAACTTC AGGCATCCCT TAGCAAGTAC TGTGATCAGT TGCCTCCACG CTCTGATTTT 
    TATCCAGCCA TTGGTGATAT ATGTTGTGCT CAGTTCTCAG AGGATGATCA GTGGTACCGT 
    GCCTCTGTTT TGGCTTACGC TTCTGAAGAA TCTGTACTGG TCGGATATGT AGATTATGGA 
    AACTTTGAAA TCCTTAGTTT GATGAGACTT TGTCCCATAA TCCCAAAGTT GTTGGAATTG 
    CCAATGCAAG CTATAAAGTG TGTACTAGCA GGAGTAAAGC CATCATTAGG AATTTGGACT 
    CCAGAAGCTA TTTGTCTCAT GAAAAAACTT GTACAGAACA AAATAATCAC AGTGAAAGTG 
    GTGGACAAGT TGGAAAACAG TTCCCTGGTG GAGCTTATTG ATAAATCCGA GACGCCTCAT 
    GTCAGTGTTA GCAAAGTTCT CCTAGATGCA GGCTTTGCTG TGGGAGAACA GAGTATGGTG 
    ACAGATAAAC CCAGTGACGT GAAAGAAACC AGTGTTCCCT TGGGTGTGGA AGGAAAAGTA 
    AATCCATTGG AGTGGACATG GGTTGAACTT GGTGTTGACC AAACAGTAGA TGTTGTGGTC 
    TGTGTGATAT ATAGTCCTGG AGAATTTTAT TGCCATGTGC TTAAAGAGGA TGCTTTAAAG 
    AAACTCAATG ATTTGAACAA GTCATTAGCA GAACACTGCC AGCAGAAGTT ACCTAATGGT 
    TTCAAGGCAG AGATAGGACA ACCTTGTTGT GCTTTTTTTG CAGGTGATGG TAGTTGGTAT 
    CGTGCTTTAG TCAAGGAAAT CTTACCAAAT GGACATGTTA AAGTACATTT TGTGGATTAT 
    GGAAACATCG AAGAAGTTAC TGCAGATGAA CTCCGAATGA TATCATCAAC ATTTTTAAAC 
    CTTCCCTTTC AGGGAATACG GTGCCAGTTA GCAGATATAC AGTCTAGAAA CAAACATTGG 
    TCTGAAGAAG CCATAACAAG ATTCCAGATG TGTGTTGCTG GGATAAAATT GCAAGCCAGA 
    GTGGTTGAAG TCACTGAAAA TGGGATAGGA GTTGAACTCA CCGATCTCTC CACTTGTTAT 
    CCCAGAATAA TTAGTGATGT TCTGATTGAT GAACATCTGG TTTTAAAATC TGCTTCACCA 
    CATAAAGACT TACCAAATGA CAGACTTGTT AATAAACATG AGCTTCAAGT TCATGTACAG 
    GGACTTCAAG CTACCTCTTC AGCTGAGCAA TGGAAGACGA TAGAATTGCC AGTGGATAAA 
    ACTATACAAG CAAATGTATT AGAAATCATA AGCCCAAACT TGTTTTATGC TCTACCAAAA 
    GGGATGCCAG AAAATCAGGA AAAGCTGTGC ATGTTGACAG CTGAATTATT AGAATACTGC 
    AATGCTCCGA AAAGTCGACC ACCCTATAGA CCAAGAATTG GAGACGCATG CTGTGCCAAA 
    TACACAAGTG ATGATTTTTG GTATCGTGCA GTTGTTCTGG GGACATCAGA CACTGATGTG 
    GAAGTGCTCT ATGCAGACTA TGGAAACATT GAAACCCTGC CTCTTTGCAG AGTGCAACCA 
    ATCACCTCTA GCCACCTGGC GCTTCCTTTC CAAATTATTA GATGTTCACT TGAAGGATTA 
    ATGGAATTGA ATGGAAGCTC TTCTCAATTA ATAATAATGC TATTAAAAAA TTTCATGTTG 
    AATCAGAATG TAATGCTTTC TGTGAAAGGA ATTACAAAGA ATGTCCATAC AGTGTCAGTT 
    GAGAAATGTT CTGAGAATGG GACTGTCGAT GTAGCTGATA AGCTAGTGAC ATTTGGTCTG 
    GCAAAAAACA TCACACCTCA AAGGCAGAGT GCTTTAAATA CAGAAAAGAT GTATAGGATG 
    AATTGCTGCT GCACAGAGTT ACAGAAACAA GTTGAAAAAC ATGAACATAT TCTTCTCTTC 
    CTCTTAAACA ATTCAACCAA TCAAAATAAA TTTATTGAAA TGAAAAAACT GTTAAAAAAA 
    ACAGCATCTC TTGGAGGTAA ACCCTTATGA

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

    RefSeq XP_011538264.1
    CDS461..4030
    Translation

    Target ORF information:

    RefSeq Version XM_011539962.1
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011539962.1

    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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GACCTGGAAC AGAGCAATCA TACAAAACGT TGATGTGCAG 
    CAAAAGAAGG CACATGTCTT ATATATTGAT TATGGAAATG AAGAAATAAT TCCATTAAAC 
    AGAATTTACC ACCTCAACAG GAACATTGAC TTGTTTCCTC CTTGTGCCAT AAAGTGCTTT 
    GTAGCCAATG TTATCCCAGC AGAAGGGAAT TGGAGCAGTG ATTGTATCAA AGCTACTAAA 
    CCACTGTTAA TGGAGCAGTA CTGCTCCATA AAGATTGTCG ACATCTTGGA AGAGGAAGTG 
    GTTACCTTTG CTGTAGAAGT TGAGCTGCCA AATTCAGGAA AACTTTTAGA CCATGTGCTT 
    ATAGAAATGG GATATGGCTT GAAACCCAGT GGACAAGATT CTAAGAAGGA AAATGCAGAT 
    CAAAGTGATC CTGAAGATGT TGGAAAAATG ACAACTGAAA ACAACATTGT CGTAGACAAA 
    AGTGACCTAA TCCCAAAAGT GTTAACTTTG AATGTAGGTG ATGAGTTTTG TGGTGTGGTT 
    GCCCACATTC AAACACCAGA AGACTTCTTT TGTCAACAAC TGCAAAGTGG CCGAAAGCTT 
    GCTGAACTTC AGGCATCCCT TAGCAAGTAC TGTGATCAGT TGCCTCCACG CTCTGATTTT 
    TATCCAGCCA TTGGTGATAT ATGTTGTGCT CAGTTCTCAG AGGATGATCA GTGGTACCGT 
    GCCTCTGTTT TGGCTTACGC TTCTGAAGAA TCTGTACTGG TCGGATATGT AGATTATGGA 
    AACTTTGAAA TCCTTAGTTT GATGAGACTT TGTCCCATAA TCCCAAAGTT GTTGGAATTG 
    CCAATGCAAG CTATAAAGTG TGTACTAGCA GGAGTAAAGC CATCATTAGG AATTTGGACT 
    CCAGAAGCTA TTTGTCTCAT GAAAAAACTT GTACAGAACA AAATAATCAC AGTGAAAGTG 
    GTGGACAAGT TGGAAAACAG TTCCCTGGTG GAGCTTATTG ATAAATCCGA GACGCCTCAT 
    GTCAGTGTTA GCAAAGTTCT CCTAGATGCA GGCTTTGCTG TGGGAGAACA GAGTATGGTG 
    ACAGATAAAC CCAGTGACGT GAAAGAAACC AGTGTTCCCT TGGGTGTGGA AGGAAAAGTA 
    AATCCATTGG AGTGGACATG GGTTGAACTT GGTGTTGACC AAACAGTAGA TGTTGTGGTC 
    TGTGTGATAT ATAGTCCTGG AGAATTTTAT TGCCATGTGC TTAAAGAGGA TGCTTTAAAG 
    AAACTCAATG ATTTGAACAA GTCATTAGCA GAACACTGCC AGCAGAAGTT ACCTAATGGT 
    TTCAAGGCAG AGATAGGACA ACCTTGTTGT GCTTTTTTTG CAGGTGATGG TAGTTGGTAT 
    CGTGCTTTAG TCAAGGAAAT CTTACCAAAT GGACATGTTA AAGTACATTT TGTGGATTAT 
    GGAAACATCG AAGAAGTTAC TGCAGATGAA CTCCGAATGA TATCATCAAC ATTTTTAAAC 
    CTTCCCTTTC AGGGAATACG GTGCCAGTTA GCAGATATAC AGTCTAGAAA CAAACATTGG 
    TCTGAAGAAG CCATAACAAG ATTCCAGATG TGTGTTGCTG GGATAAAATT GCAAGCCAGA 
    GTGGTTGAAG TCACTGAAAA TGGGATAGGA GTTGAACTCA CCGATCTCTC CACTTGTTAT 
    CCCAGAATAA TTAGTGATGT TCTGATTGAT GAACATCTGG TTTTAAAATC TGCTTCACCA 
    CATAAAGACT TACCAAATGA CAGACTTGTT AATAAACATG AGCTTCAAGT TCATGTACAG 
    GGACTTCAAG CTACCTCTTC AGCTGAGCAA TGGAAGACGA TAGAATTGCC AGTGGATAAA 
    ACTATACAAG CAAATGTATT AGAAATCATA AGCCCAAACT TGTTTTATGC TCTACCAAAA 
    GGGATGCCAG AAAATCAGGA AAAGCTGTGC ATGTTGACAG CTGAATTATT AGAATACTGC 
    AATGCTCCGA AAAGTCGACC ACCCTATAGA CCAAGAATTG GAGACGCATG CTGTGCCAAA 
    TACACAAGTG ATGATTTTTG GTATCGTGCA GTTGTTCTGG GGACATCAGA CACTGATGTG 
    GAAGTGCTCT ATGCAGACTA TGGAAACATT GAAACCCTGC CTCTTTGCAG AGTGCAACCA 
    ATCACCTCTA GCCACCTGGC GCTTCCTTTC CAAATTATTA GATGTTCACT TGAAGGATTA 
    ATGGAATTGA ATGGAAGCTC TTCTCAATTA ATAATAATGC TATTAAAAAA TTTCATGTTG 
    AATCAGAATG TAATGCTTTC TGTGAAAGGA ATTACAAAGA ATGTCCATAC AGTGTCAGTT 
    GAGAAATGTT CTGAGAATGG GACTGTCGAT GTAGCTGATA AGCTAGTGAC ATTTGGTCTG 
    GCAAAAAACA TCACACCTCA AAGGCAGAGT GCTTTAAATA CAGAAAAGAT GTATAGGATG 
    AATTGCTGCT GCACAGAGTT ACAGAAACAA GTTGAAAAAC ATGAACATAT TCTTCTCTTC 
    CTCTTAAACA ATTCAACCAA TCAAAATAAA TTTATTGAAA TGAAAAAACT GTTAAAAAAA 
    ACAGCATCTC TTGGAGGTAA ACCCTTATGA

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

    TDRD1 ( XM_011539961.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538263.1 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OHu30450
    Clone ID Related Accession (Same CDS sequence) XM_005269978.2 , XM_011539959.2 , XM_011539960.2 , XM_011539962.1 , NM_198795.1 , XM_011539961.2
    Accession Version XM_011539961.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3570bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product tudor domain-containing protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011539961.1. ##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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GACCTGGAAC AGAGCAATCA TACAAAACGT TGATGTGCAG 
    CAAAAGAAGG CACATGTCTT ATATATTGAT TATGGAAATG AAGAAATAAT TCCATTAAAC 
    AGAATTTACC ACCTCAACAG GAACATTGAC TTGTTTCCTC CTTGTGCCAT AAAGTGCTTT 
    GTAGCCAATG TTATCCCAGC AGAAGGGAAT TGGAGCAGTG ATTGTATCAA AGCTACTAAA 
    CCACTGTTAA TGGAGCAGTA CTGCTCCATA AAGATTGTCG ACATCTTGGA AGAGGAAGTG 
    GTTACCTTTG CTGTAGAAGT TGAGCTGCCA AATTCAGGAA AACTTTTAGA CCATGTGCTT 
    ATAGAAATGG GATATGGCTT GAAACCCAGT GGACAAGATT CTAAGAAGGA AAATGCAGAT 
    CAAAGTGATC CTGAAGATGT TGGAAAAATG ACAACTGAAA ACAACATTGT CGTAGACAAA 
    AGTGACCTAA TCCCAAAAGT GTTAACTTTG AATGTAGGTG ATGAGTTTTG TGGTGTGGTT 
    GCCCACATTC AAACACCAGA AGACTTCTTT TGTCAACAAC TGCAAAGTGG CCGAAAGCTT 
    GCTGAACTTC AGGCATCCCT TAGCAAGTAC TGTGATCAGT TGCCTCCACG CTCTGATTTT 
    TATCCAGCCA TTGGTGATAT ATGTTGTGCT CAGTTCTCAG AGGATGATCA GTGGTACCGT 
    GCCTCTGTTT TGGCTTACGC TTCTGAAGAA TCTGTACTGG TCGGATATGT AGATTATGGA 
    AACTTTGAAA TCCTTAGTTT GATGAGACTT TGTCCCATAA TCCCAAAGTT GTTGGAATTG 
    CCAATGCAAG CTATAAAGTG TGTACTAGCA GGAGTAAAGC CATCATTAGG AATTTGGACT 
    CCAGAAGCTA TTTGTCTCAT GAAAAAACTT GTACAGAACA AAATAATCAC AGTGAAAGTG 
    GTGGACAAGT TGGAAAACAG TTCCCTGGTG GAGCTTATTG ATAAATCCGA GACGCCTCAT 
    GTCAGTGTTA GCAAAGTTCT CCTAGATGCA GGCTTTGCTG TGGGAGAACA GAGTATGGTG 
    ACAGATAAAC CCAGTGACGT GAAAGAAACC AGTGTTCCCT TGGGTGTGGA AGGAAAAGTA 
    AATCCATTGG AGTGGACATG GGTTGAACTT GGTGTTGACC AAACAGTAGA TGTTGTGGTC 
    TGTGTGATAT ATAGTCCTGG AGAATTTTAT TGCCATGTGC TTAAAGAGGA TGCTTTAAAG 
    AAACTCAATG ATTTGAACAA GTCATTAGCA GAACACTGCC AGCAGAAGTT ACCTAATGGT 
    TTCAAGGCAG AGATAGGACA ACCTTGTTGT GCTTTTTTTG CAGGTGATGG TAGTTGGTAT 
    CGTGCTTTAG TCAAGGAAAT CTTACCAAAT GGACATGTTA AAGTACATTT TGTGGATTAT 
    GGAAACATCG AAGAAGTTAC TGCAGATGAA CTCCGAATGA TATCATCAAC ATTTTTAAAC 
    CTTCCCTTTC AGGGAATACG GTGCCAGTTA GCAGATATAC AGTCTAGAAA CAAACATTGG 
    TCTGAAGAAG CCATAACAAG ATTCCAGATG TGTGTTGCTG GGATAAAATT GCAAGCCAGA 
    GTGGTTGAAG TCACTGAAAA TGGGATAGGA GTTGAACTCA CCGATCTCTC CACTTGTTAT 
    CCCAGAATAA TTAGTGATGT TCTGATTGAT GAACATCTGG TTTTAAAATC TGCTTCACCA 
    CATAAAGACT TACCAAATGA CAGACTTGTT AATAAACATG AGCTTCAAGT TCATGTACAG 
    GGACTTCAAG CTACCTCTTC AGCTGAGCAA TGGAAGACGA TAGAATTGCC AGTGGATAAA 
    ACTATACAAG CAAATGTATT AGAAATCATA AGCCCAAACT TGTTTTATGC TCTACCAAAA 
    GGGATGCCAG AAAATCAGGA AAAGCTGTGC ATGTTGACAG CTGAATTATT AGAATACTGC 
    AATGCTCCGA AAAGTCGACC ACCCTATAGA CCAAGAATTG GAGACGCATG CTGTGCCAAA 
    TACACAAGTG ATGATTTTTG GTATCGTGCA GTTGTTCTGG GGACATCAGA CACTGATGTG 
    GAAGTGCTCT ATGCAGACTA TGGAAACATT GAAACCCTGC CTCTTTGCAG AGTGCAACCA 
    ATCACCTCTA GCCACCTGGC GCTTCCTTTC CAAATTATTA GATGTTCACT TGAAGGATTA 
    ATGGAATTGA ATGGAAGCTC TTCTCAATTA ATAATAATGC TATTAAAAAA TTTCATGTTG 
    AATCAGAATG TAATGCTTTC TGTGAAAGGA ATTACAAAGA ATGTCCATAC AGTGTCAGTT 
    GAGAAATGTT CTGAGAATGG GACTGTCGAT GTAGCTGATA AGCTAGTGAC ATTTGGTCTG 
    GCAAAAAACA TCACACCTCA AAGGCAGAGT GCTTTAAATA CAGAAAAGAT GTATAGGATG 
    AATTGCTGCT GCACAGAGTT ACAGAAACAA GTTGAAAAAC ATGAACATAT TCTTCTCTTC 
    CTCTTAAACA ATTCAACCAA TCAAAATAAA TTTATTGAAA TGAAAAAACT GTTAAAAAAA 
    ACAGCATCTC TTGGAGGTAA ACCCTTATGA

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

    RefSeq XP_011538263.1
    CDS79..3648
    Translation

    Target ORF information:

    RefSeq Version XM_011539961.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011539961.2

    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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GACCTGGAAC AGAGCAATCA TACAAAACGT TGATGTGCAG 
    CAAAAGAAGG CACATGTCTT ATATATTGAT TATGGAAATG AAGAAATAAT TCCATTAAAC 
    AGAATTTACC ACCTCAACAG GAACATTGAC TTGTTTCCTC CTTGTGCCAT AAAGTGCTTT 
    GTAGCCAATG TTATCCCAGC AGAAGGGAAT TGGAGCAGTG ATTGTATCAA AGCTACTAAA 
    CCACTGTTAA TGGAGCAGTA CTGCTCCATA AAGATTGTCG ACATCTTGGA AGAGGAAGTG 
    GTTACCTTTG CTGTAGAAGT TGAGCTGCCA AATTCAGGAA AACTTTTAGA CCATGTGCTT 
    ATAGAAATGG GATATGGCTT GAAACCCAGT GGACAAGATT CTAAGAAGGA AAATGCAGAT 
    CAAAGTGATC CTGAAGATGT TGGAAAAATG ACAACTGAAA ACAACATTGT CGTAGACAAA 
    AGTGACCTAA TCCCAAAAGT GTTAACTTTG AATGTAGGTG ATGAGTTTTG TGGTGTGGTT 
    GCCCACATTC AAACACCAGA AGACTTCTTT TGTCAACAAC TGCAAAGTGG CCGAAAGCTT 
    GCTGAACTTC AGGCATCCCT TAGCAAGTAC TGTGATCAGT TGCCTCCACG CTCTGATTTT 
    TATCCAGCCA TTGGTGATAT ATGTTGTGCT CAGTTCTCAG AGGATGATCA GTGGTACCGT 
    GCCTCTGTTT TGGCTTACGC TTCTGAAGAA TCTGTACTGG TCGGATATGT AGATTATGGA 
    AACTTTGAAA TCCTTAGTTT GATGAGACTT TGTCCCATAA TCCCAAAGTT GTTGGAATTG 
    CCAATGCAAG CTATAAAGTG TGTACTAGCA GGAGTAAAGC CATCATTAGG AATTTGGACT 
    CCAGAAGCTA TTTGTCTCAT GAAAAAACTT GTACAGAACA AAATAATCAC AGTGAAAGTG 
    GTGGACAAGT TGGAAAACAG TTCCCTGGTG GAGCTTATTG ATAAATCCGA GACGCCTCAT 
    GTCAGTGTTA GCAAAGTTCT CCTAGATGCA GGCTTTGCTG TGGGAGAACA GAGTATGGTG 
    ACAGATAAAC CCAGTGACGT GAAAGAAACC AGTGTTCCCT TGGGTGTGGA AGGAAAAGTA 
    AATCCATTGG AGTGGACATG GGTTGAACTT GGTGTTGACC AAACAGTAGA TGTTGTGGTC 
    TGTGTGATAT ATAGTCCTGG AGAATTTTAT TGCCATGTGC TTAAAGAGGA TGCTTTAAAG 
    AAACTCAATG ATTTGAACAA GTCATTAGCA GAACACTGCC AGCAGAAGTT ACCTAATGGT 
    TTCAAGGCAG AGATAGGACA ACCTTGTTGT GCTTTTTTTG CAGGTGATGG TAGTTGGTAT 
    CGTGCTTTAG TCAAGGAAAT CTTACCAAAT GGACATGTTA AAGTACATTT TGTGGATTAT 
    GGAAACATCG AAGAAGTTAC TGCAGATGAA CTCCGAATGA TATCATCAAC ATTTTTAAAC 
    CTTCCCTTTC AGGGAATACG GTGCCAGTTA GCAGATATAC AGTCTAGAAA CAAACATTGG 
    TCTGAAGAAG CCATAACAAG ATTCCAGATG TGTGTTGCTG GGATAAAATT GCAAGCCAGA 
    GTGGTTGAAG TCACTGAAAA TGGGATAGGA GTTGAACTCA CCGATCTCTC CACTTGTTAT 
    CCCAGAATAA TTAGTGATGT TCTGATTGAT GAACATCTGG TTTTAAAATC TGCTTCACCA 
    CATAAAGACT TACCAAATGA CAGACTTGTT AATAAACATG AGCTTCAAGT TCATGTACAG 
    GGACTTCAAG CTACCTCTTC AGCTGAGCAA TGGAAGACGA TAGAATTGCC AGTGGATAAA 
    ACTATACAAG CAAATGTATT AGAAATCATA AGCCCAAACT TGTTTTATGC TCTACCAAAA 
    GGGATGCCAG AAAATCAGGA AAAGCTGTGC ATGTTGACAG CTGAATTATT AGAATACTGC 
    AATGCTCCGA AAAGTCGACC ACCCTATAGA CCAAGAATTG GAGACGCATG CTGTGCCAAA 
    TACACAAGTG ATGATTTTTG GTATCGTGCA GTTGTTCTGG GGACATCAGA CACTGATGTG 
    GAAGTGCTCT ATGCAGACTA TGGAAACATT GAAACCCTGC CTCTTTGCAG AGTGCAACCA 
    ATCACCTCTA GCCACCTGGC GCTTCCTTTC CAAATTATTA GATGTTCACT TGAAGGATTA 
    ATGGAATTGA ATGGAAGCTC TTCTCAATTA ATAATAATGC TATTAAAAAA TTTCATGTTG 
    AATCAGAATG TAATGCTTTC TGTGAAAGGA ATTACAAAGA ATGTCCATAC AGTGTCAGTT 
    GAGAAATGTT CTGAGAATGG GACTGTCGAT GTAGCTGATA AGCTAGTGAC ATTTGGTCTG 
    GCAAAAAACA TCACACCTCA AAGGCAGAGT GCTTTAAATA CAGAAAAGAT GTATAGGATG 
    AATTGCTGCT GCACAGAGTT ACAGAAACAA GTTGAAAAAC ATGAACATAT TCTTCTCTTC 
    CTCTTAAACA ATTCAACCAA TCAAAATAAA TTTATTGAAA TGAAAAAACT GTTAAAAAAA 
    ACAGCATCTC TTGGAGGTAA ACCCTTATGA

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

    TDRD1 ( XM_005269979.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_005270036.1 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OHu44435
    Clone ID Related Accession (Same CDS sequence) XM_005269979.3 , XM_005269979.2
    Accession Version XM_005269979.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3342bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product tudor domain-containing protein 1 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) 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_005269979.2. ##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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GACCTGGAAC AGAGCAATCA TACAAAACGT TGATGTGCAG 
    CAAAAGAAGG CACATGTCTT ATATATTGAT TATGGAAATG AAGAAATAAT TCCATTAAAC 
    AGAATTTACC ACCTCAACAG GAACATTGAC TTGTTTCCTC CTTGTGCCAT AAAGTGCTTT 
    GTAGCCAATG TTATCCCAGC AGAAGGGAAT TGGAGCAGTG ATTGTATCAA AGCTACTAAA 
    CCACTGTTAA TGGAGCAGTA CTGCTCCATA AAGATTGTCG ACATCTTGGA AGAGGAAGTG 
    GTTACCTTTG CTGTAGAAGT TGAGCTGCCA AATTCAGGAA AACTTTTAGA CCATGTGCTT 
    ATAGAAATGG GATATGGCTT GAAACCCAGT GGACAAGATT CTAAGAAGGA AAATGCAGAT 
    CAAAGTGATC CTGAAGATGT TGGAAAAATG ACAACTGAAA ACAACATTGT CGTAGACAAA 
    AGTGACCTAA TCCCAAAAGT GTTAACTTTG AATGTAGGTG ATGAGTTTTG TGGTGTGGTT 
    GCCCACATTC AAACACCAGA AGACTTCTTT TGTCAACAAC TGCAAAGTGG CCGAAAGCTT 
    GCTGAACTTC AGGCATCCCT TAGCAAGTAC TGTGATCAGT TGCCTCCACG CTCTGATTTT 
    TATCCAGCCA TTGGTGATAT ATGTTGTGCT CAGTTCTCAG AGGATGATCA GTGGTACCGT 
    GCCTCTGTTT TGGCTTACGC TTCTGAAGAA TCTGTACTGG TCGGATATGT AGATTATGGA 
    AACTTTGAAA TCCTTAGTTT GATGAGACTT TGTCCCATAA TCCCAAAGTT GTTGGAATTG 
    CCAATGCAAG CTATAAAGTG TGTACTAGCA GGAGTAAAGC CATCATTAGG AATTTGGACT 
    CCAGAAGCTA TTTGTCTCAT GAAAAAACTT GTACAGAACA AAATAATCAC AGTGAAAGTG 
    GTGGACAAGT TGGAAAACAG TTCCCTGGTG GAGCTTATTG ATAAATCCGA GACGCCTCAT 
    GTCAGTGTTA GCAAAGTTCT CCTAGATGCA GGCTTTGCTG TGGGAGAACA GAGTATGGTG 
    ACAGATAAAC CCAGTGACGT GAAAGAAACC AGTGTTCCCT TGGGTGTGGA AGGAAAAGTA 
    AATCCATTGG AGTGGACATG GGTTGAACTT GGTGTTGACC AAACAGTAGA TGTTGTGGTC 
    TGTGTGATAT ATAGTCCTGG AGAATTTTAT TGCCATGTGC TTAAAGAGGA TGCTTTAAAG 
    AAACTCAATG ATTTGAACAA GTCATTAGCA GAACACTGCC AGCAGAAGTT ACCTAATGGT 
    TTCAAGGCAG AGATAGGACA ACCTTGTTGT GCTTTTTTTG CAGGTGATGG TAGTTGGTAT 
    CGTGCTTTAG TCAAGGAAAT CTTACCAAAT GGACATGTTA AAGTACATTT TGTGGATTAT 
    GGAAACATCG AAGAAGTTAC TGCAGATGAA CTCCGAATGA TATCATCAAC ATTTTTAAAC 
    CTTCCCTTTC AGGGAATACG GTGCCAGTTA GCAGATATAC AGTCTAGAAA CAAACATTGG 
    TCTGAAGAAG CCATAACAAG ATTCCAGATG TGTGTTGCTG GGATAAAATT GCAAGCCAGA 
    GTGGTTGAAG TCACTGAAAA TGGGATAGGA GTTGAACTCA CCGATCTCTC CACTTGTTAT 
    CCCAGAATAA TTAGTGATGT TCTGATTGAT GAACATCTGG TTTTAAAATC TGCTTCACCA 
    CATAAAGACT TACCAAATGA CAGACTTGTT AATAAACATG AGCTTCAAGT TCATGTACAG 
    GGACTTCAAG CTACCTCTTC AGCTGAGCAA TGGAAGACGA TAGAATTGCC AGTGGATAAA 
    ACTATACAAG CAAATGTATT AGAAATCATA AGCCCAAACT TGTTTTATGC TCTACCAAAA 
    GGGATGCCAG AAAATCAGGA AAAGCTGTGC ATGTTGACAG CTGAATTATT AGAATACTGC 
    AATGCTCCGA AAAGTCGACC ACCCTATAGA CCAAGAATTG GAGACGCATG CTGTGCCAAA 
    TACACAAGTG ATGATTTTTG GTATCGTGCA GTTGTTCTGG GGACATCAGA CACTGATGTG 
    GAAGTGCTCT ATGCAGACTA TGGAAACATT GAAACCCTGC CTCTTTGCAG AGTGCAACCA 
    ATCACCTCTA GCCACCTGGC GCTTCCTTTC CAAATTATTA GATGTTCACT TGAAGAAAAG 
    ATGTATAGGA TGAATTGCTG CTGCACAGAG TTACAGAAAC AAGTTGAAAA ACATGAACAT 
    ATTCTTCTCT TCCTCTTAAA CAATTCAACC AATCAAAATA AATTTATTGA AATGAAAAAA 
    CTGTTAAAAA AAACAGCATC TCTTGGAGGT AAACCCTTAT GA

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

    RefSeq XP_005270036.1
    CDS164..3505
    Translation

    Target ORF information:

    RefSeq Version XM_005269979.3
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005269979.3

    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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GACCTGGAAC AGAGCAATCA TACAAAACGT TGATGTGCAG 
    CAAAAGAAGG CACATGTCTT ATATATTGAT TATGGAAATG AAGAAATAAT TCCATTAAAC 
    AGAATTTACC ACCTCAACAG GAACATTGAC TTGTTTCCTC CTTGTGCCAT AAAGTGCTTT 
    GTAGCCAATG TTATCCCAGC AGAAGGGAAT TGGAGCAGTG ATTGTATCAA AGCTACTAAA 
    CCACTGTTAA TGGAGCAGTA CTGCTCCATA AAGATTGTCG ACATCTTGGA AGAGGAAGTG 
    GTTACCTTTG CTGTAGAAGT TGAGCTGCCA AATTCAGGAA AACTTTTAGA CCATGTGCTT 
    ATAGAAATGG GATATGGCTT GAAACCCAGT GGACAAGATT CTAAGAAGGA AAATGCAGAT 
    CAAAGTGATC CTGAAGATGT TGGAAAAATG ACAACTGAAA ACAACATTGT CGTAGACAAA 
    AGTGACCTAA TCCCAAAAGT GTTAACTTTG AATGTAGGTG ATGAGTTTTG TGGTGTGGTT 
    GCCCACATTC AAACACCAGA AGACTTCTTT TGTCAACAAC TGCAAAGTGG CCGAAAGCTT 
    GCTGAACTTC AGGCATCCCT TAGCAAGTAC TGTGATCAGT TGCCTCCACG CTCTGATTTT 
    TATCCAGCCA TTGGTGATAT ATGTTGTGCT CAGTTCTCAG AGGATGATCA GTGGTACCGT 
    GCCTCTGTTT TGGCTTACGC TTCTGAAGAA TCTGTACTGG TCGGATATGT AGATTATGGA 
    AACTTTGAAA TCCTTAGTTT GATGAGACTT TGTCCCATAA TCCCAAAGTT GTTGGAATTG 
    CCAATGCAAG CTATAAAGTG TGTACTAGCA GGAGTAAAGC CATCATTAGG AATTTGGACT 
    CCAGAAGCTA TTTGTCTCAT GAAAAAACTT GTACAGAACA AAATAATCAC AGTGAAAGTG 
    GTGGACAAGT TGGAAAACAG TTCCCTGGTG GAGCTTATTG ATAAATCCGA GACGCCTCAT 
    GTCAGTGTTA GCAAAGTTCT CCTAGATGCA GGCTTTGCTG TGGGAGAACA GAGTATGGTG 
    ACAGATAAAC CCAGTGACGT GAAAGAAACC AGTGTTCCCT TGGGTGTGGA AGGAAAAGTA 
    AATCCATTGG AGTGGACATG GGTTGAACTT GGTGTTGACC AAACAGTAGA TGTTGTGGTC 
    TGTGTGATAT ATAGTCCTGG AGAATTTTAT TGCCATGTGC TTAAAGAGGA TGCTTTAAAG 
    AAACTCAATG ATTTGAACAA GTCATTAGCA GAACACTGCC AGCAGAAGTT ACCTAATGGT 
    TTCAAGGCAG AGATAGGACA ACCTTGTTGT GCTTTTTTTG CAGGTGATGG TAGTTGGTAT 
    CGTGCTTTAG TCAAGGAAAT CTTACCAAAT GGACATGTTA AAGTACATTT TGTGGATTAT 
    GGAAACATCG AAGAAGTTAC TGCAGATGAA CTCCGAATGA TATCATCAAC ATTTTTAAAC 
    CTTCCCTTTC AGGGAATACG GTGCCAGTTA GCAGATATAC AGTCTAGAAA CAAACATTGG 
    TCTGAAGAAG CCATAACAAG ATTCCAGATG TGTGTTGCTG GGATAAAATT GCAAGCCAGA 
    GTGGTTGAAG TCACTGAAAA TGGGATAGGA GTTGAACTCA CCGATCTCTC CACTTGTTAT 
    CCCAGAATAA TTAGTGATGT TCTGATTGAT GAACATCTGG TTTTAAAATC TGCTTCACCA 
    CATAAAGACT TACCAAATGA CAGACTTGTT AATAAACATG AGCTTCAAGT TCATGTACAG 
    GGACTTCAAG CTACCTCTTC AGCTGAGCAA TGGAAGACGA TAGAATTGCC AGTGGATAAA 
    ACTATACAAG CAAATGTATT AGAAATCATA AGCCCAAACT TGTTTTATGC TCTACCAAAA 
    GGGATGCCAG AAAATCAGGA AAAGCTGTGC ATGTTGACAG CTGAATTATT AGAATACTGC 
    AATGCTCCGA AAAGTCGACC ACCCTATAGA CCAAGAATTG GAGACGCATG CTGTGCCAAA 
    TACACAAGTG ATGATTTTTG GTATCGTGCA GTTGTTCTGG GGACATCAGA CACTGATGTG 
    GAAGTGCTCT ATGCAGACTA TGGAAACATT GAAACCCTGC CTCTTTGCAG AGTGCAACCA 
    ATCACCTCTA GCCACCTGGC GCTTCCTTTC CAAATTATTA GATGTTCACT TGAAGAAAAG 
    ATGTATAGGA TGAATTGCTG CTGCACAGAG TTACAGAAAC AAGTTGAAAA ACATGAACAT 
    ATTCTTCTCT TCCTCTTAAA CAATTCAACC AATCAAAATA AATTTATTGA AATGAAAAAA 
    CTGTTAAAAA AAACAGCATC TCTTGGAGGT AAACCCTTAT GA

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

    TDRD1 ( XM_005269979.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_005270036.1 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OHu44435
    Clone ID Related Accession (Same CDS sequence) XM_005269979.3 , XM_005269979.2
    Accession Version XM_005269979.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3342bp)
    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 tudor domain-containing protein 1 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 12, 2015 this sequence version replaced XM_005269979.1. ##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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GACCTGGAAC AGAGCAATCA TACAAAACGT TGATGTGCAG 
    CAAAAGAAGG CACATGTCTT ATATATTGAT TATGGAAATG AAGAAATAAT TCCATTAAAC 
    AGAATTTACC ACCTCAACAG GAACATTGAC TTGTTTCCTC CTTGTGCCAT AAAGTGCTTT 
    GTAGCCAATG TTATCCCAGC AGAAGGGAAT TGGAGCAGTG ATTGTATCAA AGCTACTAAA 
    CCACTGTTAA TGGAGCAGTA CTGCTCCATA AAGATTGTCG ACATCTTGGA AGAGGAAGTG 
    GTTACCTTTG CTGTAGAAGT TGAGCTGCCA AATTCAGGAA AACTTTTAGA CCATGTGCTT 
    ATAGAAATGG GATATGGCTT GAAACCCAGT GGACAAGATT CTAAGAAGGA AAATGCAGAT 
    CAAAGTGATC CTGAAGATGT TGGAAAAATG ACAACTGAAA ACAACATTGT CGTAGACAAA 
    AGTGACCTAA TCCCAAAAGT GTTAACTTTG AATGTAGGTG ATGAGTTTTG TGGTGTGGTT 
    GCCCACATTC AAACACCAGA AGACTTCTTT TGTCAACAAC TGCAAAGTGG CCGAAAGCTT 
    GCTGAACTTC AGGCATCCCT TAGCAAGTAC TGTGATCAGT TGCCTCCACG CTCTGATTTT 
    TATCCAGCCA TTGGTGATAT ATGTTGTGCT CAGTTCTCAG AGGATGATCA GTGGTACCGT 
    GCCTCTGTTT TGGCTTACGC TTCTGAAGAA TCTGTACTGG TCGGATATGT AGATTATGGA 
    AACTTTGAAA TCCTTAGTTT GATGAGACTT TGTCCCATAA TCCCAAAGTT GTTGGAATTG 
    CCAATGCAAG CTATAAAGTG TGTACTAGCA GGAGTAAAGC CATCATTAGG AATTTGGACT 
    CCAGAAGCTA TTTGTCTCAT GAAAAAACTT GTACAGAACA AAATAATCAC AGTGAAAGTG 
    GTGGACAAGT TGGAAAACAG TTCCCTGGTG GAGCTTATTG ATAAATCCGA GACGCCTCAT 
    GTCAGTGTTA GCAAAGTTCT CCTAGATGCA GGCTTTGCTG TGGGAGAACA GAGTATGGTG 
    ACAGATAAAC CCAGTGACGT GAAAGAAACC AGTGTTCCCT TGGGTGTGGA AGGAAAAGTA 
    AATCCATTGG AGTGGACATG GGTTGAACTT GGTGTTGACC AAACAGTAGA TGTTGTGGTC 
    TGTGTGATAT ATAGTCCTGG AGAATTTTAT TGCCATGTGC TTAAAGAGGA TGCTTTAAAG 
    AAACTCAATG ATTTGAACAA GTCATTAGCA GAACACTGCC AGCAGAAGTT ACCTAATGGT 
    TTCAAGGCAG AGATAGGACA ACCTTGTTGT GCTTTTTTTG CAGGTGATGG TAGTTGGTAT 
    CGTGCTTTAG TCAAGGAAAT CTTACCAAAT GGACATGTTA AAGTACATTT TGTGGATTAT 
    GGAAACATCG AAGAAGTTAC TGCAGATGAA CTCCGAATGA TATCATCAAC ATTTTTAAAC 
    CTTCCCTTTC AGGGAATACG GTGCCAGTTA GCAGATATAC AGTCTAGAAA CAAACATTGG 
    TCTGAAGAAG CCATAACAAG ATTCCAGATG TGTGTTGCTG GGATAAAATT GCAAGCCAGA 
    GTGGTTGAAG TCACTGAAAA TGGGATAGGA GTTGAACTCA CCGATCTCTC CACTTGTTAT 
    CCCAGAATAA TTAGTGATGT TCTGATTGAT GAACATCTGG TTTTAAAATC TGCTTCACCA 
    CATAAAGACT TACCAAATGA CAGACTTGTT AATAAACATG AGCTTCAAGT TCATGTACAG 
    GGACTTCAAG CTACCTCTTC AGCTGAGCAA TGGAAGACGA TAGAATTGCC AGTGGATAAA 
    ACTATACAAG CAAATGTATT AGAAATCATA AGCCCAAACT TGTTTTATGC TCTACCAAAA 
    GGGATGCCAG AAAATCAGGA AAAGCTGTGC ATGTTGACAG CTGAATTATT AGAATACTGC 
    AATGCTCCGA AAAGTCGACC ACCCTATAGA CCAAGAATTG GAGACGCATG CTGTGCCAAA 
    TACACAAGTG ATGATTTTTG GTATCGTGCA GTTGTTCTGG GGACATCAGA CACTGATGTG 
    GAAGTGCTCT ATGCAGACTA TGGAAACATT GAAACCCTGC CTCTTTGCAG AGTGCAACCA 
    ATCACCTCTA GCCACCTGGC GCTTCCTTTC CAAATTATTA GATGTTCACT TGAAGAAAAG 
    ATGTATAGGA TGAATTGCTG CTGCACAGAG TTACAGAAAC AAGTTGAAAA ACATGAACAT 
    ATTCTTCTCT TCCTCTTAAA CAATTCAACC AATCAAAATA AATTTATTGA AATGAAAAAA 
    CTGTTAAAAA AAACAGCATC TCTTGGAGGT AAACCCTTAT GA

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

    RefSeq XP_005270036.1
    CDS168..3509
    Translation

    Target ORF information:

    RefSeq Version XM_005269979.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005269979.2

    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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GACCTGGAAC AGAGCAATCA TACAAAACGT TGATGTGCAG 
    CAAAAGAAGG CACATGTCTT ATATATTGAT TATGGAAATG AAGAAATAAT TCCATTAAAC 
    AGAATTTACC ACCTCAACAG GAACATTGAC TTGTTTCCTC CTTGTGCCAT AAAGTGCTTT 
    GTAGCCAATG TTATCCCAGC AGAAGGGAAT TGGAGCAGTG ATTGTATCAA AGCTACTAAA 
    CCACTGTTAA TGGAGCAGTA CTGCTCCATA AAGATTGTCG ACATCTTGGA AGAGGAAGTG 
    GTTACCTTTG CTGTAGAAGT TGAGCTGCCA AATTCAGGAA AACTTTTAGA CCATGTGCTT 
    ATAGAAATGG GATATGGCTT GAAACCCAGT GGACAAGATT CTAAGAAGGA AAATGCAGAT 
    CAAAGTGATC CTGAAGATGT TGGAAAAATG ACAACTGAAA ACAACATTGT CGTAGACAAA 
    AGTGACCTAA TCCCAAAAGT GTTAACTTTG AATGTAGGTG ATGAGTTTTG TGGTGTGGTT 
    GCCCACATTC AAACACCAGA AGACTTCTTT TGTCAACAAC TGCAAAGTGG CCGAAAGCTT 
    GCTGAACTTC AGGCATCCCT TAGCAAGTAC TGTGATCAGT TGCCTCCACG CTCTGATTTT 
    TATCCAGCCA TTGGTGATAT ATGTTGTGCT CAGTTCTCAG AGGATGATCA GTGGTACCGT 
    GCCTCTGTTT TGGCTTACGC TTCTGAAGAA TCTGTACTGG TCGGATATGT AGATTATGGA 
    AACTTTGAAA TCCTTAGTTT GATGAGACTT TGTCCCATAA TCCCAAAGTT GTTGGAATTG 
    CCAATGCAAG CTATAAAGTG TGTACTAGCA GGAGTAAAGC CATCATTAGG AATTTGGACT 
    CCAGAAGCTA TTTGTCTCAT GAAAAAACTT GTACAGAACA AAATAATCAC AGTGAAAGTG 
    GTGGACAAGT TGGAAAACAG TTCCCTGGTG GAGCTTATTG ATAAATCCGA GACGCCTCAT 
    GTCAGTGTTA GCAAAGTTCT CCTAGATGCA GGCTTTGCTG TGGGAGAACA GAGTATGGTG 
    ACAGATAAAC CCAGTGACGT GAAAGAAACC AGTGTTCCCT TGGGTGTGGA AGGAAAAGTA 
    AATCCATTGG AGTGGACATG GGTTGAACTT GGTGTTGACC AAACAGTAGA TGTTGTGGTC 
    TGTGTGATAT ATAGTCCTGG AGAATTTTAT TGCCATGTGC TTAAAGAGGA TGCTTTAAAG 
    AAACTCAATG ATTTGAACAA GTCATTAGCA GAACACTGCC AGCAGAAGTT ACCTAATGGT 
    TTCAAGGCAG AGATAGGACA ACCTTGTTGT GCTTTTTTTG CAGGTGATGG TAGTTGGTAT 
    CGTGCTTTAG TCAAGGAAAT CTTACCAAAT GGACATGTTA AAGTACATTT TGTGGATTAT 
    GGAAACATCG AAGAAGTTAC TGCAGATGAA CTCCGAATGA TATCATCAAC ATTTTTAAAC 
    CTTCCCTTTC AGGGAATACG GTGCCAGTTA GCAGATATAC AGTCTAGAAA CAAACATTGG 
    TCTGAAGAAG CCATAACAAG ATTCCAGATG TGTGTTGCTG GGATAAAATT GCAAGCCAGA 
    GTGGTTGAAG TCACTGAAAA TGGGATAGGA GTTGAACTCA CCGATCTCTC CACTTGTTAT 
    CCCAGAATAA TTAGTGATGT TCTGATTGAT GAACATCTGG TTTTAAAATC TGCTTCACCA 
    CATAAAGACT TACCAAATGA CAGACTTGTT AATAAACATG AGCTTCAAGT TCATGTACAG 
    GGACTTCAAG CTACCTCTTC AGCTGAGCAA TGGAAGACGA TAGAATTGCC AGTGGATAAA 
    ACTATACAAG CAAATGTATT AGAAATCATA AGCCCAAACT TGTTTTATGC TCTACCAAAA 
    GGGATGCCAG AAAATCAGGA AAAGCTGTGC ATGTTGACAG CTGAATTATT AGAATACTGC 
    AATGCTCCGA AAAGTCGACC ACCCTATAGA CCAAGAATTG GAGACGCATG CTGTGCCAAA 
    TACACAAGTG ATGATTTTTG GTATCGTGCA GTTGTTCTGG GGACATCAGA CACTGATGTG 
    GAAGTGCTCT ATGCAGACTA TGGAAACATT GAAACCCTGC CTCTTTGCAG AGTGCAACCA 
    ATCACCTCTA GCCACCTGGC GCTTCCTTTC CAAATTATTA GATGTTCACT TGAAGAAAAG 
    ATGTATAGGA TGAATTGCTG CTGCACAGAG TTACAGAAAC AAGTTGAAAA ACATGAACAT 
    ATTCTTCTCT TCCTCTTAAA CAATTCAACC AATCAAAATA AATTTATTGA AATGAAAAAA 
    CTGTTAAAAA AAACAGCATC TCTTGGAGGT AAACCCTTAT GA

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

    TDRD1 ( XM_011539963.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538265.1 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OHu69964
    Clone ID Related Accession (Same CDS sequence) XM_011539963.2 , XM_011539963.1
    Accession Version XM_011539963.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3543bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product tudor domain-containing protein 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011539963.1. ##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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GACCTGGAAC AGAGCAATCA TACAAAACGT TGATGTGCAG 
    CAAAAGAAGG CACATGTCTT ATATATTGAT TATGGAAATG AAGAAATAAT TCCATTAAAC 
    AGAATTTACC ACCTCAACAG GAACATTGAC TTGTTTCCTC CTTGTGCCAT AAAGTGCTTT 
    GTAGCCAATG TTATCCCAGC AGAAGGGAAT TGGAGCAGTG ATTGTATCAA AGCTACTAAA 
    CCACTGTTAA TGGAGCAGTA CTGCTCCATA AAGATTGTCG ACATCTTGGA AGAGGAAGTG 
    GTTACCTTTG CTGTAGAAGT TGAGCTGCCA AATTCAGGAA AACTTTTAGA CCATGTGCTT 
    ATAGAAATGG GATATGGCTT GAAACCCAGT GGACAAGATT CTAAGAAGGA AAATGCAGAT 
    CAAAGTGATC CTGAAGATGT TGGAAAAATG ACAACTGAAA ACAACATTGT CGTAGACAAA 
    AGTGACCTAA TCCCAAAAGT GTTAACTTTG AATGTAGGTG ATGAGTTTTG TGGTGTGGTT 
    GCCCACATTC AAACACCAGA AGACTTCTTT TGTCAACAAC TGCAAAGTGG CCGAAAGCTT 
    GCTGAACTTC AGGCATCCCT TAGCAAGTAC TGTGATCAGT TGCCTCCACG CTCTGATTTT 
    TATCCAGCCA TTGGTGATAT ATGTTGTGCT CAGTTCTCAG AGGATGATCA GTGGTACCGT 
    GCCTCTGTTT TGGCTTACGC TTCTGAAGAA TCTGTACTGG TCGGATATGT AGATTATGGA 
    AACTTTGAAA TCCTTAGTTT GATGAGACTT TGTCCCATAA TCCCAAAGTT GTTGGAATTG 
    CCAATGCAAG CTATAAAGTG TGTACTAGCA GGAGTAAAGC CATCATTAGG AATTTGGACT 
    CCAGAAGCTA TTTGTCTCAT GAAAAAACTT GTACAGAACA AAATAATCAC AGTGAAAGTG 
    GTGGACAAGT TGGAAAACAG TTCCCTGGTG GAGCTTATTG ATAAATCCGA GACGCCTCAT 
    GTCAGTGTTA GCAAAGTTCT CCTAGATGCA GGCTTTGCTG TGGGAGAACA GAGTATGGTG 
    ACAGATAAAC CCAGTGACGT GAAAGAAACC AGTGTTCCCT TGGGTGTGGA AGGAAAAGTA 
    AATCCATTGG AGTGGACATG GGTTGAACTT GGTGTTGACC AAACAGTAGA TGTTGTGGTC 
    TGTGTGATAT ATAGTCCTGG AGAATTTTAT TGCCATGTGC TTAAAGAGGA TGCTTTAAAG 
    AAACTCAATG ATTTGAACAA GTCATTAGCA GAACACTGCC AGCAGAAGTT ACCTAATGGT 
    TTCAAGGCAG AGATAGGACA ACCTTGTTGT GCTTTTTTTG CAGGTGATGG TAGTTGGTAT 
    CGTGCTTTAG TCAAGGAAAT CTTACCAAAT GGACATGTTA AAGTACATTT TGTGGATTAT 
    GGAAACATCG AAGAAGTTAC TGCAGATGAA CTCCGAATGA TATCATCAAC ATTTTTAAAC 
    CTTCCCTTTC AGGGAATACG GTGCCAGTTA GCAGATATAC AGTCTAGAAA CAAACATTGG 
    TCTGAAGAAG CCATAACAAG ATTCCAGATG TGTGTTGCTG GGATAAAATT GCAAGCCAGA 
    GTGGTTGAAG TCACTGAAAA TGGGATAGGA GTTGAACTCA CCGATCTCTC CACTTGTTAT 
    CCCAGAATAA TTAGTGATGT TCTGATTGAT GAACATCTGG TTTTAAAATC TGCTTCACCA 
    CATAAAGACT TACCAAATGA CAGACTTGTT AATAAACATG AGCTTCAAGT TCATGTACAG 
    GGACTTCAAG CTACCTCTTC AGCTGAGCAA TGGAAGACGA TAGAATTGCC AGTGGATAAA 
    ACTATACAAG CAAATGTATT AGAAATCATA AGCCCAAACT TGTTTTATGC TCTACCAAAA 
    GGGATGCCAG AAAATCAGGA AAAGCTGTGC ATGTTGACAG CTGAATTATT AGAATACTGC 
    AATGCTCCGA AAAGTCGACC ACCCTATAGA CCAAGAATTG GAGACGCATG CTGTGCCAAA 
    TACACAAGTG ATGATTTTTG GTATCGTGCA GTTGTTCTGG GGACATCAGA CACTGATGTG 
    GAAGTGCTCT ATGCAGACTA TGGAAACATT GAAACCCTGC CTCTTTGCAG AGTGCAACCA 
    ATCACCTCTA GCCACCTGGC GCTTCCTTTC CAAATTATTA GATGTTCACT TGAAGGATTA 
    ATGGAATTGA ATGGAAGCTC TTCTCAATTA ATAATAATGC TATTAAAAAA TTTCATGTTG 
    AATCAGAATG TAATGCTTTC TGTGAAAGGA ATTACAAAGA ATGTCCATAC AGTGTCAGTT 
    GAGAAATGTT CTGAGAATGG GACTGTCGAT GTAGCTGATA AGCTAGTGAC ATTTGGTCTG 
    GCAAAAAACA TCACACCTCA AAGGCAGAGT GCTTTAAATA CAGAAAAGAT GTATAGGATG 
    AATTGCTGCT GCACAGAGTT ACAGAAACAA GTTGAAAAAC ATGAACATAT TCTTCTCTTC 
    CTCTTAAACA ATTCAACCAA TCAAAATAAA TTTATTGAAA TGAAAAAACT GTTAAAAAGT 
    TAA

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

    RefSeq XP_011538265.1
    CDS164..3706
    Translation

    Target ORF information:

    RefSeq Version XM_011539963.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011539963.2

    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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GACCTGGAAC AGAGCAATCA TACAAAACGT TGATGTGCAG 
    CAAAAGAAGG CACATGTCTT ATATATTGAT TATGGAAATG AAGAAATAAT TCCATTAAAC 
    AGAATTTACC ACCTCAACAG GAACATTGAC TTGTTTCCTC CTTGTGCCAT AAAGTGCTTT 
    GTAGCCAATG TTATCCCAGC AGAAGGGAAT TGGAGCAGTG ATTGTATCAA AGCTACTAAA 
    CCACTGTTAA TGGAGCAGTA CTGCTCCATA AAGATTGTCG ACATCTTGGA AGAGGAAGTG 
    GTTACCTTTG CTGTAGAAGT TGAGCTGCCA AATTCAGGAA AACTTTTAGA CCATGTGCTT 
    ATAGAAATGG GATATGGCTT GAAACCCAGT GGACAAGATT CTAAGAAGGA AAATGCAGAT 
    CAAAGTGATC CTGAAGATGT TGGAAAAATG ACAACTGAAA ACAACATTGT CGTAGACAAA 
    AGTGACCTAA TCCCAAAAGT GTTAACTTTG AATGTAGGTG ATGAGTTTTG TGGTGTGGTT 
    GCCCACATTC AAACACCAGA AGACTTCTTT TGTCAACAAC TGCAAAGTGG CCGAAAGCTT 
    GCTGAACTTC AGGCATCCCT TAGCAAGTAC TGTGATCAGT TGCCTCCACG CTCTGATTTT 
    TATCCAGCCA TTGGTGATAT ATGTTGTGCT CAGTTCTCAG AGGATGATCA GTGGTACCGT 
    GCCTCTGTTT TGGCTTACGC TTCTGAAGAA TCTGTACTGG TCGGATATGT AGATTATGGA 
    AACTTTGAAA TCCTTAGTTT GATGAGACTT TGTCCCATAA TCCCAAAGTT GTTGGAATTG 
    CCAATGCAAG CTATAAAGTG TGTACTAGCA GGAGTAAAGC CATCATTAGG AATTTGGACT 
    CCAGAAGCTA TTTGTCTCAT GAAAAAACTT GTACAGAACA AAATAATCAC AGTGAAAGTG 
    GTGGACAAGT TGGAAAACAG TTCCCTGGTG GAGCTTATTG ATAAATCCGA GACGCCTCAT 
    GTCAGTGTTA GCAAAGTTCT CCTAGATGCA GGCTTTGCTG TGGGAGAACA GAGTATGGTG 
    ACAGATAAAC CCAGTGACGT GAAAGAAACC AGTGTTCCCT TGGGTGTGGA AGGAAAAGTA 
    AATCCATTGG AGTGGACATG GGTTGAACTT GGTGTTGACC AAACAGTAGA TGTTGTGGTC 
    TGTGTGATAT ATAGTCCTGG AGAATTTTAT TGCCATGTGC TTAAAGAGGA TGCTTTAAAG 
    AAACTCAATG ATTTGAACAA GTCATTAGCA GAACACTGCC AGCAGAAGTT ACCTAATGGT 
    TTCAAGGCAG AGATAGGACA ACCTTGTTGT GCTTTTTTTG CAGGTGATGG TAGTTGGTAT 
    CGTGCTTTAG TCAAGGAAAT CTTACCAAAT GGACATGTTA AAGTACATTT TGTGGATTAT 
    GGAAACATCG AAGAAGTTAC TGCAGATGAA CTCCGAATGA TATCATCAAC ATTTTTAAAC 
    CTTCCCTTTC AGGGAATACG GTGCCAGTTA GCAGATATAC AGTCTAGAAA CAAACATTGG 
    TCTGAAGAAG CCATAACAAG ATTCCAGATG TGTGTTGCTG GGATAAAATT GCAAGCCAGA 
    GTGGTTGAAG TCACTGAAAA TGGGATAGGA GTTGAACTCA CCGATCTCTC CACTTGTTAT 
    CCCAGAATAA TTAGTGATGT TCTGATTGAT GAACATCTGG TTTTAAAATC TGCTTCACCA 
    CATAAAGACT TACCAAATGA CAGACTTGTT AATAAACATG AGCTTCAAGT TCATGTACAG 
    GGACTTCAAG CTACCTCTTC AGCTGAGCAA TGGAAGACGA TAGAATTGCC AGTGGATAAA 
    ACTATACAAG CAAATGTATT AGAAATCATA AGCCCAAACT TGTTTTATGC TCTACCAAAA 
    GGGATGCCAG AAAATCAGGA AAAGCTGTGC ATGTTGACAG CTGAATTATT AGAATACTGC 
    AATGCTCCGA AAAGTCGACC ACCCTATAGA CCAAGAATTG GAGACGCATG CTGTGCCAAA 
    TACACAAGTG ATGATTTTTG GTATCGTGCA GTTGTTCTGG GGACATCAGA CACTGATGTG 
    GAAGTGCTCT ATGCAGACTA TGGAAACATT GAAACCCTGC CTCTTTGCAG AGTGCAACCA 
    ATCACCTCTA GCCACCTGGC GCTTCCTTTC CAAATTATTA GATGTTCACT TGAAGGATTA 
    ATGGAATTGA ATGGAAGCTC TTCTCAATTA ATAATAATGC TATTAAAAAA TTTCATGTTG 
    AATCAGAATG TAATGCTTTC TGTGAAAGGA ATTACAAAGA ATGTCCATAC AGTGTCAGTT 
    GAGAAATGTT CTGAGAATGG GACTGTCGAT GTAGCTGATA AGCTAGTGAC ATTTGGTCTG 
    GCAAAAAACA TCACACCTCA AAGGCAGAGT GCTTTAAATA CAGAAAAGAT GTATAGGATG 
    AATTGCTGCT GCACAGAGTT ACAGAAACAA GTTGAAAAAC ATGAACATAT TCTTCTCTTC 
    CTCTTAAACA ATTCAACCAA TCAAAATAAA TTTATTGAAA TGAAAAAACT GTTAAAAAGT 
    TAA

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

    TDRD1 ( XM_011539963.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538265.1 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OHu69964
    Clone ID Related Accession (Same CDS sequence) XM_011539963.2 , XM_011539963.1
    Accession Version XM_011539963.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3543bp)
    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 tudor domain-containing protein 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by mRNA and 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
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GACCTGGAAC AGAGCAATCA TACAAAACGT TGATGTGCAG 
    CAAAAGAAGG CACATGTCTT ATATATTGAT TATGGAAATG AAGAAATAAT TCCATTAAAC 
    AGAATTTACC ACCTCAACAG GAACATTGAC TTGTTTCCTC CTTGTGCCAT AAAGTGCTTT 
    GTAGCCAATG TTATCCCAGC AGAAGGGAAT TGGAGCAGTG ATTGTATCAA AGCTACTAAA 
    CCACTGTTAA TGGAGCAGTA CTGCTCCATA AAGATTGTCG ACATCTTGGA AGAGGAAGTG 
    GTTACCTTTG CTGTAGAAGT TGAGCTGCCA AATTCAGGAA AACTTTTAGA CCATGTGCTT 
    ATAGAAATGG GATATGGCTT GAAACCCAGT GGACAAGATT CTAAGAAGGA AAATGCAGAT 
    CAAAGTGATC CTGAAGATGT TGGAAAAATG ACAACTGAAA ACAACATTGT CGTAGACAAA 
    AGTGACCTAA TCCCAAAAGT GTTAACTTTG AATGTAGGTG ATGAGTTTTG TGGTGTGGTT 
    GCCCACATTC AAACACCAGA AGACTTCTTT TGTCAACAAC TGCAAAGTGG CCGAAAGCTT 
    GCTGAACTTC AGGCATCCCT TAGCAAGTAC TGTGATCAGT TGCCTCCACG CTCTGATTTT 
    TATCCAGCCA TTGGTGATAT ATGTTGTGCT CAGTTCTCAG AGGATGATCA GTGGTACCGT 
    GCCTCTGTTT TGGCTTACGC TTCTGAAGAA TCTGTACTGG TCGGATATGT AGATTATGGA 
    AACTTTGAAA TCCTTAGTTT GATGAGACTT TGTCCCATAA TCCCAAAGTT GTTGGAATTG 
    CCAATGCAAG CTATAAAGTG TGTACTAGCA GGAGTAAAGC CATCATTAGG AATTTGGACT 
    CCAGAAGCTA TTTGTCTCAT GAAAAAACTT GTACAGAACA AAATAATCAC AGTGAAAGTG 
    GTGGACAAGT TGGAAAACAG TTCCCTGGTG GAGCTTATTG ATAAATCCGA GACGCCTCAT 
    GTCAGTGTTA GCAAAGTTCT CCTAGATGCA GGCTTTGCTG TGGGAGAACA GAGTATGGTG 
    ACAGATAAAC CCAGTGACGT GAAAGAAACC AGTGTTCCCT TGGGTGTGGA AGGAAAAGTA 
    AATCCATTGG AGTGGACATG GGTTGAACTT GGTGTTGACC AAACAGTAGA TGTTGTGGTC 
    TGTGTGATAT ATAGTCCTGG AGAATTTTAT TGCCATGTGC TTAAAGAGGA TGCTTTAAAG 
    AAACTCAATG ATTTGAACAA GTCATTAGCA GAACACTGCC AGCAGAAGTT ACCTAATGGT 
    TTCAAGGCAG AGATAGGACA ACCTTGTTGT GCTTTTTTTG CAGGTGATGG TAGTTGGTAT 
    CGTGCTTTAG TCAAGGAAAT CTTACCAAAT GGACATGTTA AAGTACATTT TGTGGATTAT 
    GGAAACATCG AAGAAGTTAC TGCAGATGAA CTCCGAATGA TATCATCAAC ATTTTTAAAC 
    CTTCCCTTTC AGGGAATACG GTGCCAGTTA GCAGATATAC AGTCTAGAAA CAAACATTGG 
    TCTGAAGAAG CCATAACAAG ATTCCAGATG TGTGTTGCTG GGATAAAATT GCAAGCCAGA 
    GTGGTTGAAG TCACTGAAAA TGGGATAGGA GTTGAACTCA CCGATCTCTC CACTTGTTAT 
    CCCAGAATAA TTAGTGATGT TCTGATTGAT GAACATCTGG TTTTAAAATC TGCTTCACCA 
    CATAAAGACT TACCAAATGA CAGACTTGTT AATAAACATG AGCTTCAAGT TCATGTACAG 
    GGACTTCAAG CTACCTCTTC AGCTGAGCAA TGGAAGACGA TAGAATTGCC AGTGGATAAA 
    ACTATACAAG CAAATGTATT AGAAATCATA AGCCCAAACT TGTTTTATGC TCTACCAAAA 
    GGGATGCCAG AAAATCAGGA AAAGCTGTGC ATGTTGACAG CTGAATTATT AGAATACTGC 
    AATGCTCCGA AAAGTCGACC ACCCTATAGA CCAAGAATTG GAGACGCATG CTGTGCCAAA 
    TACACAAGTG ATGATTTTTG GTATCGTGCA GTTGTTCTGG GGACATCAGA CACTGATGTG 
    GAAGTGCTCT ATGCAGACTA TGGAAACATT GAAACCCTGC CTCTTTGCAG AGTGCAACCA 
    ATCACCTCTA GCCACCTGGC GCTTCCTTTC CAAATTATTA GATGTTCACT TGAAGGATTA 
    ATGGAATTGA ATGGAAGCTC TTCTCAATTA ATAATAATGC TATTAAAAAA TTTCATGTTG 
    AATCAGAATG TAATGCTTTC TGTGAAAGGA ATTACAAAGA ATGTCCATAC AGTGTCAGTT 
    GAGAAATGTT CTGAGAATGG GACTGTCGAT GTAGCTGATA AGCTAGTGAC ATTTGGTCTG 
    GCAAAAAACA TCACACCTCA AAGGCAGAGT GCTTTAAATA CAGAAAAGAT GTATAGGATG 
    AATTGCTGCT GCACAGAGTT ACAGAAACAA GTTGAAAAAC ATGAACATAT TCTTCTCTTC 
    CTCTTAAACA ATTCAACCAA TCAAAATAAA TTTATTGAAA TGAAAAAACT GTTAAAAAGT 
    TAA

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

    RefSeq XP_011538265.1
    CDS168..3710
    Translation

    Target ORF information:

    RefSeq Version XM_011539963.1
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011539963.1

    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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GACCTGGAAC AGAGCAATCA TACAAAACGT TGATGTGCAG 
    CAAAAGAAGG CACATGTCTT ATATATTGAT TATGGAAATG AAGAAATAAT TCCATTAAAC 
    AGAATTTACC ACCTCAACAG GAACATTGAC TTGTTTCCTC CTTGTGCCAT AAAGTGCTTT 
    GTAGCCAATG TTATCCCAGC AGAAGGGAAT TGGAGCAGTG ATTGTATCAA AGCTACTAAA 
    CCACTGTTAA TGGAGCAGTA CTGCTCCATA AAGATTGTCG ACATCTTGGA AGAGGAAGTG 
    GTTACCTTTG CTGTAGAAGT TGAGCTGCCA AATTCAGGAA AACTTTTAGA CCATGTGCTT 
    ATAGAAATGG GATATGGCTT GAAACCCAGT GGACAAGATT CTAAGAAGGA AAATGCAGAT 
    CAAAGTGATC CTGAAGATGT TGGAAAAATG ACAACTGAAA ACAACATTGT CGTAGACAAA 
    AGTGACCTAA TCCCAAAAGT GTTAACTTTG AATGTAGGTG ATGAGTTTTG TGGTGTGGTT 
    GCCCACATTC AAACACCAGA AGACTTCTTT TGTCAACAAC TGCAAAGTGG CCGAAAGCTT 
    GCTGAACTTC AGGCATCCCT TAGCAAGTAC TGTGATCAGT TGCCTCCACG CTCTGATTTT 
    TATCCAGCCA TTGGTGATAT ATGTTGTGCT CAGTTCTCAG AGGATGATCA GTGGTACCGT 
    GCCTCTGTTT TGGCTTACGC TTCTGAAGAA TCTGTACTGG TCGGATATGT AGATTATGGA 
    AACTTTGAAA TCCTTAGTTT GATGAGACTT TGTCCCATAA TCCCAAAGTT GTTGGAATTG 
    CCAATGCAAG CTATAAAGTG TGTACTAGCA GGAGTAAAGC CATCATTAGG AATTTGGACT 
    CCAGAAGCTA TTTGTCTCAT GAAAAAACTT GTACAGAACA AAATAATCAC AGTGAAAGTG 
    GTGGACAAGT TGGAAAACAG TTCCCTGGTG GAGCTTATTG ATAAATCCGA GACGCCTCAT 
    GTCAGTGTTA GCAAAGTTCT CCTAGATGCA GGCTTTGCTG TGGGAGAACA GAGTATGGTG 
    ACAGATAAAC CCAGTGACGT GAAAGAAACC AGTGTTCCCT TGGGTGTGGA AGGAAAAGTA 
    AATCCATTGG AGTGGACATG GGTTGAACTT GGTGTTGACC AAACAGTAGA TGTTGTGGTC 
    TGTGTGATAT ATAGTCCTGG AGAATTTTAT TGCCATGTGC TTAAAGAGGA TGCTTTAAAG 
    AAACTCAATG ATTTGAACAA GTCATTAGCA GAACACTGCC AGCAGAAGTT ACCTAATGGT 
    TTCAAGGCAG AGATAGGACA ACCTTGTTGT GCTTTTTTTG CAGGTGATGG TAGTTGGTAT 
    CGTGCTTTAG TCAAGGAAAT CTTACCAAAT GGACATGTTA AAGTACATTT TGTGGATTAT 
    GGAAACATCG AAGAAGTTAC TGCAGATGAA CTCCGAATGA TATCATCAAC ATTTTTAAAC 
    CTTCCCTTTC AGGGAATACG GTGCCAGTTA GCAGATATAC AGTCTAGAAA CAAACATTGG 
    TCTGAAGAAG CCATAACAAG ATTCCAGATG TGTGTTGCTG GGATAAAATT GCAAGCCAGA 
    GTGGTTGAAG TCACTGAAAA TGGGATAGGA GTTGAACTCA CCGATCTCTC CACTTGTTAT 
    CCCAGAATAA TTAGTGATGT TCTGATTGAT GAACATCTGG TTTTAAAATC TGCTTCACCA 
    CATAAAGACT TACCAAATGA CAGACTTGTT AATAAACATG AGCTTCAAGT TCATGTACAG 
    GGACTTCAAG CTACCTCTTC AGCTGAGCAA TGGAAGACGA TAGAATTGCC AGTGGATAAA 
    ACTATACAAG CAAATGTATT AGAAATCATA AGCCCAAACT TGTTTTATGC TCTACCAAAA 
    GGGATGCCAG AAAATCAGGA AAAGCTGTGC ATGTTGACAG CTGAATTATT AGAATACTGC 
    AATGCTCCGA AAAGTCGACC ACCCTATAGA CCAAGAATTG GAGACGCATG CTGTGCCAAA 
    TACACAAGTG ATGATTTTTG GTATCGTGCA GTTGTTCTGG GGACATCAGA CACTGATGTG 
    GAAGTGCTCT ATGCAGACTA TGGAAACATT GAAACCCTGC CTCTTTGCAG AGTGCAACCA 
    ATCACCTCTA GCCACCTGGC GCTTCCTTTC CAAATTATTA GATGTTCACT TGAAGGATTA 
    ATGGAATTGA ATGGAAGCTC TTCTCAATTA ATAATAATGC TATTAAAAAA TTTCATGTTG 
    AATCAGAATG TAATGCTTTC TGTGAAAGGA ATTACAAAGA ATGTCCATAC AGTGTCAGTT 
    GAGAAATGTT CTGAGAATGG GACTGTCGAT GTAGCTGATA AGCTAGTGAC ATTTGGTCTG 
    GCAAAAAACA TCACACCTCA AAGGCAGAGT GCTTTAAATA CAGAAAAGAT GTATAGGATG 
    AATTGCTGCT GCACAGAGTT ACAGAAACAA GTTGAAAAAC ATGAACATAT TCTTCTCTTC 
    CTCTTAAACA ATTCAACCAA TCAAAATAAA TTTATTGAAA TGAAAAAACT GTTAAAAAGT 
    TAA

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

    TDRD1 ( XM_011539964.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538266.1 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OHu69965
    Clone ID Related Accession (Same CDS sequence) XM_011539964.1 , XM_011539964.2
    Accession Version XM_011539964.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3399bp)
    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 tudor domain-containing protein 1 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) 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
    3061
    3121
    3181
    3241
    3301
    3361
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GACCTGGAAC AGAGCAATCA TACAAAACGT TGATGTGCAG 
    CAAAAGAAGG CACATGTCTT ATATATTGAT TATGGAAATG AAGAAATAAT TCCATTAAAC 
    AGAATTTACC ACCTCAACAG GAACATTGAC TTGTTTCCTC CTTGTGCCAT AAAGTGCTTT 
    GTAGCCAATG TTATCCCAGC AGAAGGGAAT TGGAGCAGTG ATTGTATCAA AGCTACTAAA 
    CCACTGTTAA TGGAGCAGTA CTGCTCCATA AAGATTGTCG ACATCTTGGA AGAGGAAGTG 
    GTTACCTTTG CTGTAGAAGT TGAGCTGCCA AATTCAGGAA AACTTTTAGA CCATGTGCTT 
    ATAGAAATGG GATATGGCTT GAAACCCAGT GGACAAGATT CTAAGAAGGA AAATGCAGAT 
    CAAAGTGATC CTGAAGATGT TGGAAAAATG ACAACTGAAA ACAACATTGT CGTAGACAAA 
    AGTGACCTAA TCCCAAAAGT GTTAACTTTG AATGTAGGTG ATGAGTTTTG TGGTGTGGTT 
    GCCCACATTC AAACACCAGA AGACTTCTTT TGTCAACAAC TGCAAAGTGG CCGAAAGCTT 
    GCTGAACTTC AGGCATCCCT TAGCAAGTAC TGTGATCAGT TGCCTCCACG CTCTGATTTT 
    TATCCAGCCA TTGGTGATAT ATGTTGTGCT CAGTTCTCAG GAGTAAAGCC ATCATTAGGA 
    ATTTGGACTC CAGAAGCTAT TTGTCTCATG AAAAAACTTG TACAGAACAA AATAATCACA 
    GTGAAAGTGG TGGACAAGTT GGAAAACAGT TCCCTGGTGG AGCTTATTGA TAAATCCGAG 
    ACGCCTCATG TCAGTGTTAG CAAAGTTCTC CTAGATGCAG GCTTTGCTGT GGGAGAACAG 
    AGTATGGTGA CAGATAAACC CAGTGACGTG AAAGAAACCA GTGTTCCCTT GGGTGTGGAA 
    GGAAAAGTAA ATCCATTGGA GTGGACATGG GTTGAACTTG GTGTTGACCA AACAGTAGAT 
    GTTGTGGTCT GTGTGATATA TAGTCCTGGA GAATTTTATT GCCATGTGCT TAAAGAGGAT 
    GCTTTAAAGA AACTCAATGA TTTGAACAAG TCATTAGCAG AACACTGCCA GCAGAAGTTA 
    CCTAATGGTT TCAAGGCAGA GATAGGACAA CCTTGTTGTG CTTTTTTTGC AGGTGATGGT 
    AGTTGGTATC GTGCTTTAGT CAAGGAAATC TTACCAAATG GACATGTTAA AGTACATTTT 
    GTGGATTATG GAAACATCGA AGAAGTTACT GCAGATGAAC TCCGAATGAT ATCATCAACA 
    TTTTTAAACC TTCCCTTTCA GGGAATACGG TGCCAGTTAG CAGATATACA GTCTAGAAAC 
    AAACATTGGT CTGAAGAAGC CATAACAAGA TTCCAGATGT GTGTTGCTGG GATAAAATTG 
    CAAGCCAGAG TGGTTGAAGT CACTGAAAAT GGGATAGGAG TTGAACTCAC CGATCTCTCC 
    ACTTGTTATC CCAGAATAAT TAGTGATGTT CTGATTGATG AACATCTGGT TTTAAAATCT 
    GCTTCACCAC ATAAAGACTT ACCAAATGAC AGACTTGTTA ATAAACATGA GCTTCAAGTT 
    CATGTACAGG GACTTCAAGC TACCTCTTCA GCTGAGCAAT GGAAGACGAT AGAATTGCCA 
    GTGGATAAAA CTATACAAGC AAATGTATTA GAAATCATAA GCCCAAACTT GTTTTATGCT 
    CTACCAAAAG GGATGCCAGA AAATCAGGAA AAGCTGTGCA TGTTGACAGC TGAATTATTA 
    GAATACTGCA ATGCTCCGAA AAGTCGACCA CCCTATAGAC CAAGAATTGG AGACGCATGC 
    TGTGCCAAAT ACACAAGTGA TGATTTTTGG TATCGTGCAG TTGTTCTGGG GACATCAGAC 
    ACTGATGTGG AAGTGCTCTA TGCAGACTAT GGAAACATTG AAACCCTGCC TCTTTGCAGA 
    GTGCAACCAA TCACCTCTAG CCACCTGGCG CTTCCTTTCC AAATTATTAG ATGTTCACTT 
    GAAGGATTAA TGGAATTGAA TGGAAGCTCT TCTCAATTAA TAATAATGCT ATTAAAAAAT 
    TTCATGTTGA ATCAGAATGT AATGCTTTCT GTGAAAGGAA TTACAAAGAA TGTCCATACA 
    GTGTCAGTTG AGAAATGTTC TGAGAATGGG ACTGTCGATG TAGCTGATAA GCTAGTGACA 
    TTTGGTCTGG CAAAAAACAT CACACCTCAA AGGCAGAGTG CTTTAAATAC AGAAAAGATG 
    TATAGGATGA ATTGCTGCTG CACAGAGTTA CAGAAACAAG TTGAAAAACA TGAACATATT 
    CTTCTCTTCC TCTTAAACAA TTCAACCAAT CAAAATAAAT TTATTGAAAT GAAAAAACTG 
    TTAAAAAAAA CAGCATCTCT TGGAGGTAAA CCCTTATGA

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

    RefSeq XP_011538266.1
    CDS168..3566
    Translation

    Target ORF information:

    RefSeq Version XM_011539964.1
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011539964.1

    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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GACCTGGAAC AGAGCAATCA TACAAAACGT TGATGTGCAG 
    CAAAAGAAGG CACATGTCTT ATATATTGAT TATGGAAATG AAGAAATAAT TCCATTAAAC 
    AGAATTTACC ACCTCAACAG GAACATTGAC TTGTTTCCTC CTTGTGCCAT AAAGTGCTTT 
    GTAGCCAATG TTATCCCAGC AGAAGGGAAT TGGAGCAGTG ATTGTATCAA AGCTACTAAA 
    CCACTGTTAA TGGAGCAGTA CTGCTCCATA AAGATTGTCG ACATCTTGGA AGAGGAAGTG 
    GTTACCTTTG CTGTAGAAGT TGAGCTGCCA AATTCAGGAA AACTTTTAGA CCATGTGCTT 
    ATAGAAATGG GATATGGCTT GAAACCCAGT GGACAAGATT CTAAGAAGGA AAATGCAGAT 
    CAAAGTGATC CTGAAGATGT TGGAAAAATG ACAACTGAAA ACAACATTGT CGTAGACAAA 
    AGTGACCTAA TCCCAAAAGT GTTAACTTTG AATGTAGGTG ATGAGTTTTG TGGTGTGGTT 
    GCCCACATTC AAACACCAGA AGACTTCTTT TGTCAACAAC TGCAAAGTGG CCGAAAGCTT 
    GCTGAACTTC AGGCATCCCT TAGCAAGTAC TGTGATCAGT TGCCTCCACG CTCTGATTTT 
    TATCCAGCCA TTGGTGATAT ATGTTGTGCT CAGTTCTCAG GAGTAAAGCC ATCATTAGGA 
    ATTTGGACTC CAGAAGCTAT TTGTCTCATG AAAAAACTTG TACAGAACAA AATAATCACA 
    GTGAAAGTGG TGGACAAGTT GGAAAACAGT TCCCTGGTGG AGCTTATTGA TAAATCCGAG 
    ACGCCTCATG TCAGTGTTAG CAAAGTTCTC CTAGATGCAG GCTTTGCTGT GGGAGAACAG 
    AGTATGGTGA CAGATAAACC CAGTGACGTG AAAGAAACCA GTGTTCCCTT GGGTGTGGAA 
    GGAAAAGTAA ATCCATTGGA GTGGACATGG GTTGAACTTG GTGTTGACCA AACAGTAGAT 
    GTTGTGGTCT GTGTGATATA TAGTCCTGGA GAATTTTATT GCCATGTGCT TAAAGAGGAT 
    GCTTTAAAGA AACTCAATGA TTTGAACAAG TCATTAGCAG AACACTGCCA GCAGAAGTTA 
    CCTAATGGTT TCAAGGCAGA GATAGGACAA CCTTGTTGTG CTTTTTTTGC AGGTGATGGT 
    AGTTGGTATC GTGCTTTAGT CAAGGAAATC TTACCAAATG GACATGTTAA AGTACATTTT 
    GTGGATTATG GAAACATCGA AGAAGTTACT GCAGATGAAC TCCGAATGAT ATCATCAACA 
    TTTTTAAACC TTCCCTTTCA GGGAATACGG TGCCAGTTAG CAGATATACA GTCTAGAAAC 
    AAACATTGGT CTGAAGAAGC CATAACAAGA TTCCAGATGT GTGTTGCTGG GATAAAATTG 
    CAAGCCAGAG TGGTTGAAGT CACTGAAAAT GGGATAGGAG TTGAACTCAC CGATCTCTCC 
    ACTTGTTATC CCAGAATAAT TAGTGATGTT CTGATTGATG AACATCTGGT TTTAAAATCT 
    GCTTCACCAC ATAAAGACTT ACCAAATGAC AGACTTGTTA ATAAACATGA GCTTCAAGTT 
    CATGTACAGG GACTTCAAGC TACCTCTTCA GCTGAGCAAT GGAAGACGAT AGAATTGCCA 
    GTGGATAAAA CTATACAAGC AAATGTATTA GAAATCATAA GCCCAAACTT GTTTTATGCT 
    CTACCAAAAG GGATGCCAGA AAATCAGGAA AAGCTGTGCA TGTTGACAGC TGAATTATTA 
    GAATACTGCA ATGCTCCGAA AAGTCGACCA CCCTATAGAC CAAGAATTGG AGACGCATGC 
    TGTGCCAAAT ACACAAGTGA TGATTTTTGG TATCGTGCAG TTGTTCTGGG GACATCAGAC 
    ACTGATGTGG AAGTGCTCTA TGCAGACTAT GGAAACATTG AAACCCTGCC TCTTTGCAGA 
    GTGCAACCAA TCACCTCTAG CCACCTGGCG CTTCCTTTCC AAATTATTAG ATGTTCACTT 
    GAAGGATTAA TGGAATTGAA TGGAAGCTCT TCTCAATTAA TAATAATGCT ATTAAAAAAT 
    TTCATGTTGA ATCAGAATGT AATGCTTTCT GTGAAAGGAA TTACAAAGAA TGTCCATACA 
    GTGTCAGTTG AGAAATGTTC TGAGAATGGG ACTGTCGATG TAGCTGATAA GCTAGTGACA 
    TTTGGTCTGG CAAAAAACAT CACACCTCAA AGGCAGAGTG CTTTAAATAC AGAAAAGATG 
    TATAGGATGA ATTGCTGCTG CACAGAGTTA CAGAAACAAG TTGAAAAACA TGAACATATT 
    CTTCTCTTCC TCTTAAACAA TTCAACCAAT CAAAATAAAT TTATTGAAAT GAAAAAACTG 
    TTAAAAAAAA CAGCATCTCT TGGAGGTAAA CCCTTATGA

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

    TDRD1 ( XM_011539964.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538266.1 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OHu69965
    Clone ID Related Accession (Same CDS sequence) XM_011539964.1 , XM_011539964.2
    Accession Version XM_011539964.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3399bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product tudor domain-containing protein 1 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) 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_011539964.1. ##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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GACCTGGAAC AGAGCAATCA TACAAAACGT TGATGTGCAG 
    CAAAAGAAGG CACATGTCTT ATATATTGAT TATGGAAATG AAGAAATAAT TCCATTAAAC 
    AGAATTTACC ACCTCAACAG GAACATTGAC TTGTTTCCTC CTTGTGCCAT AAAGTGCTTT 
    GTAGCCAATG TTATCCCAGC AGAAGGGAAT TGGAGCAGTG ATTGTATCAA AGCTACTAAA 
    CCACTGTTAA TGGAGCAGTA CTGCTCCATA AAGATTGTCG ACATCTTGGA AGAGGAAGTG 
    GTTACCTTTG CTGTAGAAGT TGAGCTGCCA AATTCAGGAA AACTTTTAGA CCATGTGCTT 
    ATAGAAATGG GATATGGCTT GAAACCCAGT GGACAAGATT CTAAGAAGGA AAATGCAGAT 
    CAAAGTGATC CTGAAGATGT TGGAAAAATG ACAACTGAAA ACAACATTGT CGTAGACAAA 
    AGTGACCTAA TCCCAAAAGT GTTAACTTTG AATGTAGGTG ATGAGTTTTG TGGTGTGGTT 
    GCCCACATTC AAACACCAGA AGACTTCTTT TGTCAACAAC TGCAAAGTGG CCGAAAGCTT 
    GCTGAACTTC AGGCATCCCT TAGCAAGTAC TGTGATCAGT TGCCTCCACG CTCTGATTTT 
    TATCCAGCCA TTGGTGATAT ATGTTGTGCT CAGTTCTCAG GAGTAAAGCC ATCATTAGGA 
    ATTTGGACTC CAGAAGCTAT TTGTCTCATG AAAAAACTTG TACAGAACAA AATAATCACA 
    GTGAAAGTGG TGGACAAGTT GGAAAACAGT TCCCTGGTGG AGCTTATTGA TAAATCCGAG 
    ACGCCTCATG TCAGTGTTAG CAAAGTTCTC CTAGATGCAG GCTTTGCTGT GGGAGAACAG 
    AGTATGGTGA CAGATAAACC CAGTGACGTG AAAGAAACCA GTGTTCCCTT GGGTGTGGAA 
    GGAAAAGTAA ATCCATTGGA GTGGACATGG GTTGAACTTG GTGTTGACCA AACAGTAGAT 
    GTTGTGGTCT GTGTGATATA TAGTCCTGGA GAATTTTATT GCCATGTGCT TAAAGAGGAT 
    GCTTTAAAGA AACTCAATGA TTTGAACAAG TCATTAGCAG AACACTGCCA GCAGAAGTTA 
    CCTAATGGTT TCAAGGCAGA GATAGGACAA CCTTGTTGTG CTTTTTTTGC AGGTGATGGT 
    AGTTGGTATC GTGCTTTAGT CAAGGAAATC TTACCAAATG GACATGTTAA AGTACATTTT 
    GTGGATTATG GAAACATCGA AGAAGTTACT GCAGATGAAC TCCGAATGAT ATCATCAACA 
    TTTTTAAACC TTCCCTTTCA GGGAATACGG TGCCAGTTAG CAGATATACA GTCTAGAAAC 
    AAACATTGGT CTGAAGAAGC CATAACAAGA TTCCAGATGT GTGTTGCTGG GATAAAATTG 
    CAAGCCAGAG TGGTTGAAGT CACTGAAAAT GGGATAGGAG TTGAACTCAC CGATCTCTCC 
    ACTTGTTATC CCAGAATAAT TAGTGATGTT CTGATTGATG AACATCTGGT TTTAAAATCT 
    GCTTCACCAC ATAAAGACTT ACCAAATGAC AGACTTGTTA ATAAACATGA GCTTCAAGTT 
    CATGTACAGG GACTTCAAGC TACCTCTTCA GCTGAGCAAT GGAAGACGAT AGAATTGCCA 
    GTGGATAAAA CTATACAAGC AAATGTATTA GAAATCATAA GCCCAAACTT GTTTTATGCT 
    CTACCAAAAG GGATGCCAGA AAATCAGGAA AAGCTGTGCA TGTTGACAGC TGAATTATTA 
    GAATACTGCA ATGCTCCGAA AAGTCGACCA CCCTATAGAC CAAGAATTGG AGACGCATGC 
    TGTGCCAAAT ACACAAGTGA TGATTTTTGG TATCGTGCAG TTGTTCTGGG GACATCAGAC 
    ACTGATGTGG AAGTGCTCTA TGCAGACTAT GGAAACATTG AAACCCTGCC TCTTTGCAGA 
    GTGCAACCAA TCACCTCTAG CCACCTGGCG CTTCCTTTCC AAATTATTAG ATGTTCACTT 
    GAAGGATTAA TGGAATTGAA TGGAAGCTCT TCTCAATTAA TAATAATGCT ATTAAAAAAT 
    TTCATGTTGA ATCAGAATGT AATGCTTTCT GTGAAAGGAA TTACAAAGAA TGTCCATACA 
    GTGTCAGTTG AGAAATGTTC TGAGAATGGG ACTGTCGATG TAGCTGATAA GCTAGTGACA 
    TTTGGTCTGG CAAAAAACAT CACACCTCAA AGGCAGAGTG CTTTAAATAC AGAAAAGATG 
    TATAGGATGA ATTGCTGCTG CACAGAGTTA CAGAAACAAG TTGAAAAACA TGAACATATT 
    CTTCTCTTCC TCTTAAACAA TTCAACCAAT CAAAATAAAT TTATTGAAAT GAAAAAACTG 
    TTAAAAAAAA CAGCATCTCT TGGAGGTAAA CCCTTATGA

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

    RefSeq XP_011538266.1
    CDS164..3562
    Translation

    Target ORF information:

    RefSeq Version XM_011539964.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011539964.2

    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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GACCTGGAAC AGAGCAATCA TACAAAACGT TGATGTGCAG 
    CAAAAGAAGG CACATGTCTT ATATATTGAT TATGGAAATG AAGAAATAAT TCCATTAAAC 
    AGAATTTACC ACCTCAACAG GAACATTGAC TTGTTTCCTC CTTGTGCCAT AAAGTGCTTT 
    GTAGCCAATG TTATCCCAGC AGAAGGGAAT TGGAGCAGTG ATTGTATCAA AGCTACTAAA 
    CCACTGTTAA TGGAGCAGTA CTGCTCCATA AAGATTGTCG ACATCTTGGA AGAGGAAGTG 
    GTTACCTTTG CTGTAGAAGT TGAGCTGCCA AATTCAGGAA AACTTTTAGA CCATGTGCTT 
    ATAGAAATGG GATATGGCTT GAAACCCAGT GGACAAGATT CTAAGAAGGA AAATGCAGAT 
    CAAAGTGATC CTGAAGATGT TGGAAAAATG ACAACTGAAA ACAACATTGT CGTAGACAAA 
    AGTGACCTAA TCCCAAAAGT GTTAACTTTG AATGTAGGTG ATGAGTTTTG TGGTGTGGTT 
    GCCCACATTC AAACACCAGA AGACTTCTTT TGTCAACAAC TGCAAAGTGG CCGAAAGCTT 
    GCTGAACTTC AGGCATCCCT TAGCAAGTAC TGTGATCAGT TGCCTCCACG CTCTGATTTT 
    TATCCAGCCA TTGGTGATAT ATGTTGTGCT CAGTTCTCAG GAGTAAAGCC ATCATTAGGA 
    ATTTGGACTC CAGAAGCTAT TTGTCTCATG AAAAAACTTG TACAGAACAA AATAATCACA 
    GTGAAAGTGG TGGACAAGTT GGAAAACAGT TCCCTGGTGG AGCTTATTGA TAAATCCGAG 
    ACGCCTCATG TCAGTGTTAG CAAAGTTCTC CTAGATGCAG GCTTTGCTGT GGGAGAACAG 
    AGTATGGTGA CAGATAAACC CAGTGACGTG AAAGAAACCA GTGTTCCCTT GGGTGTGGAA 
    GGAAAAGTAA ATCCATTGGA GTGGACATGG GTTGAACTTG GTGTTGACCA AACAGTAGAT 
    GTTGTGGTCT GTGTGATATA TAGTCCTGGA GAATTTTATT GCCATGTGCT TAAAGAGGAT 
    GCTTTAAAGA AACTCAATGA TTTGAACAAG TCATTAGCAG AACACTGCCA GCAGAAGTTA 
    CCTAATGGTT TCAAGGCAGA GATAGGACAA CCTTGTTGTG CTTTTTTTGC AGGTGATGGT 
    AGTTGGTATC GTGCTTTAGT CAAGGAAATC TTACCAAATG GACATGTTAA AGTACATTTT 
    GTGGATTATG GAAACATCGA AGAAGTTACT GCAGATGAAC TCCGAATGAT ATCATCAACA 
    TTTTTAAACC TTCCCTTTCA GGGAATACGG TGCCAGTTAG CAGATATACA GTCTAGAAAC 
    AAACATTGGT CTGAAGAAGC CATAACAAGA TTCCAGATGT GTGTTGCTGG GATAAAATTG 
    CAAGCCAGAG TGGTTGAAGT CACTGAAAAT GGGATAGGAG TTGAACTCAC CGATCTCTCC 
    ACTTGTTATC CCAGAATAAT TAGTGATGTT CTGATTGATG AACATCTGGT TTTAAAATCT 
    GCTTCACCAC ATAAAGACTT ACCAAATGAC AGACTTGTTA ATAAACATGA GCTTCAAGTT 
    CATGTACAGG GACTTCAAGC TACCTCTTCA GCTGAGCAAT GGAAGACGAT AGAATTGCCA 
    GTGGATAAAA CTATACAAGC AAATGTATTA GAAATCATAA GCCCAAACTT GTTTTATGCT 
    CTACCAAAAG GGATGCCAGA AAATCAGGAA AAGCTGTGCA TGTTGACAGC TGAATTATTA 
    GAATACTGCA ATGCTCCGAA AAGTCGACCA CCCTATAGAC CAAGAATTGG AGACGCATGC 
    TGTGCCAAAT ACACAAGTGA TGATTTTTGG TATCGTGCAG TTGTTCTGGG GACATCAGAC 
    ACTGATGTGG AAGTGCTCTA TGCAGACTAT GGAAACATTG AAACCCTGCC TCTTTGCAGA 
    GTGCAACCAA TCACCTCTAG CCACCTGGCG CTTCCTTTCC AAATTATTAG ATGTTCACTT 
    GAAGGATTAA TGGAATTGAA TGGAAGCTCT TCTCAATTAA TAATAATGCT ATTAAAAAAT 
    TTCATGTTGA ATCAGAATGT AATGCTTTCT GTGAAAGGAA TTACAAAGAA TGTCCATACA 
    GTGTCAGTTG AGAAATGTTC TGAGAATGGG ACTGTCGATG TAGCTGATAA GCTAGTGACA 
    TTTGGTCTGG CAAAAAACAT CACACCTCAA AGGCAGAGTG CTTTAAATAC AGAAAAGATG 
    TATAGGATGA ATTGCTGCTG CACAGAGTTA CAGAAACAAG TTGAAAAACA TGAACATATT 
    CTTCTCTTCC TCTTAAACAA TTCAACCAAT CAAAATAAAT TTATTGAAAT GAAAAAACTG 
    TTAAAAAAAA CAGCATCTCT TGGAGGTAAA CCCTTATGA

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

    TDRD1 ( XM_011539966.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011538268.1 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X11, mRNA.
    Price & Availability↑
    CloneID OHu69967
    Clone ID Related Accession (Same CDS sequence) XM_011539966.1 , XM_024448081.1
    Accession Version XM_011539966.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3372bp)
    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 tudor domain-containing protein 1 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) 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
    3061
    3121
    3181
    3241
    3301
    3361
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GACCTGGAAC AGAGCAATCA TACAAAACGT TGATGTGCAG 
    CAAAAGAAGG CACATGTCTT ATATATTGAT TATGGAAATG AAGAAATAAT TCCATTAAAC 
    AGAATTTACC ACCTCAACAG GAACATTGAC TTGTTTCCTC CTTGTGCCAT AAAGTGCTTT 
    GTAGCCAATG TTATCCCAGC AGAAGGGAAT TGGAGCAGTG ATTGTATCAA AGCTACTAAA 
    CCACTGTTAA TGGAGCAGTA CTGCTCCATA AAGATTGTCG ACATCTTGGA AGAGGAAGTG 
    GTTACCTTTG CTGTAGAAGT TGAGCTGCCA AATTCAGGAA AACTTTTAGA CCATGTGCTT 
    ATAGAAATGG GATATGGCTT GAAACCCAGT GGACAAGATT CTAAGAAGGA AAATGCAGAT 
    CAAAGTGATC CTGAAGATGT TGGAAAAATG ACAACTGAAA ACAACATTGT CGTAGACAAA 
    AGTGACCTAA TCCCAAAAGT GTTAACTTTG AATGTAGGTG ATGAGTTTTG TGGTGTGGTT 
    GCCCACATTC AAACACCAGA AGACTTCTTT TGTCAACAAC TGCAAAGTGG CCGAAAGCTT 
    GCTGAACTTC AGGCATCCCT TAGCAAGTAC TGTGATCAGT TGCCTCCACG CTCTGATTTT 
    TATCCAGCCA TTGGTGATAT ATGTTGTGCT CAGTTCTCAG GAGTAAAGCC ATCATTAGGA 
    ATTTGGACTC CAGAAGCTAT TTGTCTCATG AAAAAACTTG TACAGAACAA AATAATCACA 
    GTGAAAGTGG TGGACAAGTT GGAAAACAGT TCCCTGGTGG AGCTTATTGA TAAATCCGAG 
    ACGCCTCATG TCAGTGTTAG CAAAGTTCTC CTAGATGCAG GCTTTGCTGT GGGAGAACAG 
    AGTATGGTGA CAGATAAACC CAGTGACGTG AAAGAAACCA GTGTTCCCTT GGGTGTGGAA 
    GGAAAAGTAA ATCCATTGGA GTGGACATGG GTTGAACTTG GTGTTGACCA AACAGTAGAT 
    GTTGTGGTCT GTGTGATATA TAGTCCTGGA GAATTTTATT GCCATGTGCT TAAAGAGGAT 
    GCTTTAAAGA AACTCAATGA TTTGAACAAG TCATTAGCAG AACACTGCCA GCAGAAGTTA 
    CCTAATGGTT TCAAGGCAGA GATAGGACAA CCTTGTTGTG CTTTTTTTGC AGGTGATGGT 
    AGTTGGTATC GTGCTTTAGT CAAGGAAATC TTACCAAATG GACATGTTAA AGTACATTTT 
    GTGGATTATG GAAACATCGA AGAAGTTACT GCAGATGAAC TCCGAATGAT ATCATCAACA 
    TTTTTAAACC TTCCCTTTCA GGGAATACGG TGCCAGTTAG CAGATATACA GTCTAGAAAC 
    AAACATTGGT CTGAAGAAGC CATAACAAGA TTCCAGATGT GTGTTGCTGG GATAAAATTG 
    CAAGCCAGAG TGGTTGAAGT CACTGAAAAT GGGATAGGAG TTGAACTCAC CGATCTCTCC 
    ACTTGTTATC CCAGAATAAT TAGTGATGTT CTGATTGATG AACATCTGGT TTTAAAATCT 
    GCTTCACCAC ATAAAGACTT ACCAAATGAC AGACTTGTTA ATAAACATGA GCTTCAAGTT 
    CATGTACAGG GACTTCAAGC TACCTCTTCA GCTGAGCAAT GGAAGACGAT AGAATTGCCA 
    GTGGATAAAA CTATACAAGC AAATGTATTA GAAATCATAA GCCCAAACTT GTTTTATGCT 
    CTACCAAAAG GGATGCCAGA AAATCAGGAA AAGCTGTGCA TGTTGACAGC TGAATTATTA 
    GAATACTGCA ATGCTCCGAA AAGTCGACCA CCCTATAGAC CAAGAATTGG AGACGCATGC 
    TGTGCCAAAT ACACAAGTGA TGATTTTTGG TATCGTGCAG TTGTTCTGGG GACATCAGAC 
    ACTGATGTGG AAGTGCTCTA TGCAGACTAT GGAAACATTG AAACCCTGCC TCTTTGCAGA 
    GTGCAACCAA TCACCTCTAG CCACCTGGCG CTTCCTTTCC AAATTATTAG ATGTTCACTT 
    GAAGGATTAA TGGAATTGAA TGGAAGCTCT TCTCAATTAA TAATAATGCT ATTAAAAAAT 
    TTCATGTTGA ATCAGAATGT AATGCTTTCT GTGAAAGGAA TTACAAAGAA TGTCCATACA 
    GTGTCAGTTG AGAAATGTTC TGAGAATGGG ACTGTCGATG TAGCTGATAA GCTAGTGACA 
    TTTGGTCTGG CAAAAAACAT CACACCTCAA AGGCAGAGTG CTTTAAATAC AGAAAAGATG 
    TATAGGATGA ATTGCTGCTG CACAGAGTTA CAGAAACAAG TTGAAAAACA TGAACATATT 
    CTTCTCTTCC TCTTAAACAA TTCAACCAAT CAAAATAAAT TTATTGAAAT GAAAAAACTG 
    TTAAAAAGTT AA

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

    RefSeq XP_011538268.1
    CDS168..3539
    Translation

    Target ORF information:

    RefSeq Version XM_011539966.1
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011539966.1

    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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GACCTGGAAC AGAGCAATCA TACAAAACGT TGATGTGCAG 
    CAAAAGAAGG CACATGTCTT ATATATTGAT TATGGAAATG AAGAAATAAT TCCATTAAAC 
    AGAATTTACC ACCTCAACAG GAACATTGAC TTGTTTCCTC CTTGTGCCAT AAAGTGCTTT 
    GTAGCCAATG TTATCCCAGC AGAAGGGAAT TGGAGCAGTG ATTGTATCAA AGCTACTAAA 
    CCACTGTTAA TGGAGCAGTA CTGCTCCATA AAGATTGTCG ACATCTTGGA AGAGGAAGTG 
    GTTACCTTTG CTGTAGAAGT TGAGCTGCCA AATTCAGGAA AACTTTTAGA CCATGTGCTT 
    ATAGAAATGG GATATGGCTT GAAACCCAGT GGACAAGATT CTAAGAAGGA AAATGCAGAT 
    CAAAGTGATC CTGAAGATGT TGGAAAAATG ACAACTGAAA ACAACATTGT CGTAGACAAA 
    AGTGACCTAA TCCCAAAAGT GTTAACTTTG AATGTAGGTG ATGAGTTTTG TGGTGTGGTT 
    GCCCACATTC AAACACCAGA AGACTTCTTT TGTCAACAAC TGCAAAGTGG CCGAAAGCTT 
    GCTGAACTTC AGGCATCCCT TAGCAAGTAC TGTGATCAGT TGCCTCCACG CTCTGATTTT 
    TATCCAGCCA TTGGTGATAT ATGTTGTGCT CAGTTCTCAG GAGTAAAGCC ATCATTAGGA 
    ATTTGGACTC CAGAAGCTAT TTGTCTCATG AAAAAACTTG TACAGAACAA AATAATCACA 
    GTGAAAGTGG TGGACAAGTT GGAAAACAGT TCCCTGGTGG AGCTTATTGA TAAATCCGAG 
    ACGCCTCATG TCAGTGTTAG CAAAGTTCTC CTAGATGCAG GCTTTGCTGT GGGAGAACAG 
    AGTATGGTGA CAGATAAACC CAGTGACGTG AAAGAAACCA GTGTTCCCTT GGGTGTGGAA 
    GGAAAAGTAA ATCCATTGGA GTGGACATGG GTTGAACTTG GTGTTGACCA AACAGTAGAT 
    GTTGTGGTCT GTGTGATATA TAGTCCTGGA GAATTTTATT GCCATGTGCT TAAAGAGGAT 
    GCTTTAAAGA AACTCAATGA TTTGAACAAG TCATTAGCAG AACACTGCCA GCAGAAGTTA 
    CCTAATGGTT TCAAGGCAGA GATAGGACAA CCTTGTTGTG CTTTTTTTGC AGGTGATGGT 
    AGTTGGTATC GTGCTTTAGT CAAGGAAATC TTACCAAATG GACATGTTAA AGTACATTTT 
    GTGGATTATG GAAACATCGA AGAAGTTACT GCAGATGAAC TCCGAATGAT ATCATCAACA 
    TTTTTAAACC TTCCCTTTCA GGGAATACGG TGCCAGTTAG CAGATATACA GTCTAGAAAC 
    AAACATTGGT CTGAAGAAGC CATAACAAGA TTCCAGATGT GTGTTGCTGG GATAAAATTG 
    CAAGCCAGAG TGGTTGAAGT CACTGAAAAT GGGATAGGAG TTGAACTCAC CGATCTCTCC 
    ACTTGTTATC CCAGAATAAT TAGTGATGTT CTGATTGATG AACATCTGGT TTTAAAATCT 
    GCTTCACCAC ATAAAGACTT ACCAAATGAC AGACTTGTTA ATAAACATGA GCTTCAAGTT 
    CATGTACAGG GACTTCAAGC TACCTCTTCA GCTGAGCAAT GGAAGACGAT AGAATTGCCA 
    GTGGATAAAA CTATACAAGC AAATGTATTA GAAATCATAA GCCCAAACTT GTTTTATGCT 
    CTACCAAAAG GGATGCCAGA AAATCAGGAA AAGCTGTGCA TGTTGACAGC TGAATTATTA 
    GAATACTGCA ATGCTCCGAA AAGTCGACCA CCCTATAGAC CAAGAATTGG AGACGCATGC 
    TGTGCCAAAT ACACAAGTGA TGATTTTTGG TATCGTGCAG TTGTTCTGGG GACATCAGAC 
    ACTGATGTGG AAGTGCTCTA TGCAGACTAT GGAAACATTG AAACCCTGCC TCTTTGCAGA 
    GTGCAACCAA TCACCTCTAG CCACCTGGCG CTTCCTTTCC AAATTATTAG ATGTTCACTT 
    GAAGGATTAA TGGAATTGAA TGGAAGCTCT TCTCAATTAA TAATAATGCT ATTAAAAAAT 
    TTCATGTTGA ATCAGAATGT AATGCTTTCT GTGAAAGGAA TTACAAAGAA TGTCCATACA 
    GTGTCAGTTG AGAAATGTTC TGAGAATGGG ACTGTCGATG TAGCTGATAA GCTAGTGACA 
    TTTGGTCTGG CAAAAAACAT CACACCTCAA AGGCAGAGTG CTTTAAATAC AGAAAAGATG 
    TATAGGATGA ATTGCTGCTG CACAGAGTTA CAGAAACAAG TTGAAAAACA TGAACATATT 
    CTTCTCTTCC TCTTAAACAA TTCAACCAAT CAAAATAAAT TTATTGAAAT GAAAAAACTG 
    TTAAAAAGTT AA

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

    TDRD1 ( XM_024448081.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024303849.1 Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X11, mRNA.
    Price & Availability↑
    CloneID OHu69967
    Clone ID Related Accession (Same CDS sequence) XM_011539966.1 , XM_024448081.1
    Accession Version XM_024448081.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3372bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product tudor domain-containing protein 1 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) 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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GACCTGGAAC AGAGCAATCA TACAAAACGT TGATGTGCAG 
    CAAAAGAAGG CACATGTCTT ATATATTGAT TATGGAAATG AAGAAATAAT TCCATTAAAC 
    AGAATTTACC ACCTCAACAG GAACATTGAC TTGTTTCCTC CTTGTGCCAT AAAGTGCTTT 
    GTAGCCAATG TTATCCCAGC AGAAGGGAAT TGGAGCAGTG ATTGTATCAA AGCTACTAAA 
    CCACTGTTAA TGGAGCAGTA CTGCTCCATA AAGATTGTCG ACATCTTGGA AGAGGAAGTG 
    GTTACCTTTG CTGTAGAAGT TGAGCTGCCA AATTCAGGAA AACTTTTAGA CCATGTGCTT 
    ATAGAAATGG GATATGGCTT GAAACCCAGT GGACAAGATT CTAAGAAGGA AAATGCAGAT 
    CAAAGTGATC CTGAAGATGT TGGAAAAATG ACAACTGAAA ACAACATTGT CGTAGACAAA 
    AGTGACCTAA TCCCAAAAGT GTTAACTTTG AATGTAGGTG ATGAGTTTTG TGGTGTGGTT 
    GCCCACATTC AAACACCAGA AGACTTCTTT TGTCAACAAC TGCAAAGTGG CCGAAAGCTT 
    GCTGAACTTC AGGCATCCCT TAGCAAGTAC TGTGATCAGT TGCCTCCACG CTCTGATTTT 
    TATCCAGCCA TTGGTGATAT ATGTTGTGCT CAGTTCTCAG GAGTAAAGCC ATCATTAGGA 
    ATTTGGACTC CAGAAGCTAT TTGTCTCATG AAAAAACTTG TACAGAACAA AATAATCACA 
    GTGAAAGTGG TGGACAAGTT GGAAAACAGT TCCCTGGTGG AGCTTATTGA TAAATCCGAG 
    ACGCCTCATG TCAGTGTTAG CAAAGTTCTC CTAGATGCAG GCTTTGCTGT GGGAGAACAG 
    AGTATGGTGA CAGATAAACC CAGTGACGTG AAAGAAACCA GTGTTCCCTT GGGTGTGGAA 
    GGAAAAGTAA ATCCATTGGA GTGGACATGG GTTGAACTTG GTGTTGACCA AACAGTAGAT 
    GTTGTGGTCT GTGTGATATA TAGTCCTGGA GAATTTTATT GCCATGTGCT TAAAGAGGAT 
    GCTTTAAAGA AACTCAATGA TTTGAACAAG TCATTAGCAG AACACTGCCA GCAGAAGTTA 
    CCTAATGGTT TCAAGGCAGA GATAGGACAA CCTTGTTGTG CTTTTTTTGC AGGTGATGGT 
    AGTTGGTATC GTGCTTTAGT CAAGGAAATC TTACCAAATG GACATGTTAA AGTACATTTT 
    GTGGATTATG GAAACATCGA AGAAGTTACT GCAGATGAAC TCCGAATGAT ATCATCAACA 
    TTTTTAAACC TTCCCTTTCA GGGAATACGG TGCCAGTTAG CAGATATACA GTCTAGAAAC 
    AAACATTGGT CTGAAGAAGC CATAACAAGA TTCCAGATGT GTGTTGCTGG GATAAAATTG 
    CAAGCCAGAG TGGTTGAAGT CACTGAAAAT GGGATAGGAG TTGAACTCAC CGATCTCTCC 
    ACTTGTTATC CCAGAATAAT TAGTGATGTT CTGATTGATG AACATCTGGT TTTAAAATCT 
    GCTTCACCAC ATAAAGACTT ACCAAATGAC AGACTTGTTA ATAAACATGA GCTTCAAGTT 
    CATGTACAGG GACTTCAAGC TACCTCTTCA GCTGAGCAAT GGAAGACGAT AGAATTGCCA 
    GTGGATAAAA CTATACAAGC AAATGTATTA GAAATCATAA GCCCAAACTT GTTTTATGCT 
    CTACCAAAAG GGATGCCAGA AAATCAGGAA AAGCTGTGCA TGTTGACAGC TGAATTATTA 
    GAATACTGCA ATGCTCCGAA AAGTCGACCA CCCTATAGAC CAAGAATTGG AGACGCATGC 
    TGTGCCAAAT ACACAAGTGA TGATTTTTGG TATCGTGCAG TTGTTCTGGG GACATCAGAC 
    ACTGATGTGG AAGTGCTCTA TGCAGACTAT GGAAACATTG AAACCCTGCC TCTTTGCAGA 
    GTGCAACCAA TCACCTCTAG CCACCTGGCG CTTCCTTTCC AAATTATTAG ATGTTCACTT 
    GAAGGATTAA TGGAATTGAA TGGAAGCTCT TCTCAATTAA TAATAATGCT ATTAAAAAAT 
    TTCATGTTGA ATCAGAATGT AATGCTTTCT GTGAAAGGAA TTACAAAGAA TGTCCATACA 
    GTGTCAGTTG AGAAATGTTC TGAGAATGGG ACTGTCGATG TAGCTGATAA GCTAGTGACA 
    TTTGGTCTGG CAAAAAACAT CACACCTCAA AGGCAGAGTG CTTTAAATAC AGAAAAGATG 
    TATAGGATGA ATTGCTGCTG CACAGAGTTA CAGAAACAAG TTGAAAAACA TGAACATATT 
    CTTCTCTTCC TCTTAAACAA TTCAACCAAT CAAAATAAAT TTATTGAAAT GAAAAAACTG 
    TTAAAAAGTT AA

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

    RefSeq XP_024303849.1
    CDS164..3535
    Translation

    Target ORF information:

    RefSeq Version XM_024448081.1
    Organism Homo sapiens(human)
    Definition Homo sapiens tudor domain containing 1 (TDRD1), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024448081.1

    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
    ATGAGTGTTA AATCGCCATT TAATGTGATG TCAAGAAATA ATTTGGAAGC ACCTCCTTGT 
    AAGATGACAG AGCCATTTAA TTTTGAGAAA AATGAAAACA AGCTTCCACC ACATGAGTCT 
    TTAAGAAGTC CTGGAACACT TCCTAACCAC CCTAATTTCA GGCTGAAAAG CTCAGAGAAT 
    GGAAATAAAA AGAACAATTT TTTGCTTTGT GAGCAAACCA AACAATATTT GGCTAGTCAG 
    GAAGACAATT CAGTTTCTTC AAACCCGAAT GGCATCAACG GAGAAGTAGT TGGCTCCAAA 
    GGAGACAGGA AAAAATTGCC AGCAGGAAAC TCAGTGTCAC CACCAAGTGC TGAAAGTAAT 
    TCACCACCCA AAGAAGTGAA TATTAAGCCT GGAAATAATG TACGTCCTGC AAAATCAAAA 
    AAACTAAACA AGTTGGTCGA GAATTCCTTG TCCATAAGTA ATCCAGGGCT CTTCACCTCC 
    TTAGGACCTC CTCTTCGGTC CACAACTTGC CATCGCTGTG GCCTATTTGG ATCGCTGAGG 
    TGCTCTCAGT GCAAGCAGAC CTACTATTGC TCCACAGCAT GTCAAAGAAG AGACTGGTCT 
    GCACACAGCA TCGTGTGCAG GCCTGTTCAG CCAAATTTCC ACAAACTTGA AAATAAATCA 
    TCTATTGAAA CAAAGGATGT GGAGGTAAAC AATAAGAGTG ACTGTCCACT TGGAGTTACT 
    AAGGAAATAG CCATTTGGGC TGAGAGAATA ATGTTTTCTG ATTTGAGAAG TCTACAACTC 
    AAGAAAACCA TGGAAATAAA GGGTACGGTT ACCGAATTCA AACACCCAGG GGACTTCTAC 
    GTGCAGTTAT ATTCTTCAGA AGTTTTAGAA TACATGAACC AACTCTCTGC CAGCTTAAAA 
    GAAACATATG CAAATGTGCA TGAAAAAGAC TATATTCCTG TTAAGGGGGA AGTTTGTATT 
    GCCAAGTACA CTGTTGATCA GACCTGGAAC AGAGCAATCA TACAAAACGT TGATGTGCAG 
    CAAAAGAAGG CACATGTCTT ATATATTGAT TATGGAAATG AAGAAATAAT TCCATTAAAC 
    AGAATTTACC ACCTCAACAG GAACATTGAC TTGTTTCCTC CTTGTGCCAT AAAGTGCTTT 
    GTAGCCAATG TTATCCCAGC AGAAGGGAAT TGGAGCAGTG ATTGTATCAA AGCTACTAAA 
    CCACTGTTAA TGGAGCAGTA CTGCTCCATA AAGATTGTCG ACATCTTGGA AGAGGAAGTG 
    GTTACCTTTG CTGTAGAAGT TGAGCTGCCA AATTCAGGAA AACTTTTAGA CCATGTGCTT 
    ATAGAAATGG GATATGGCTT GAAACCCAGT GGACAAGATT CTAAGAAGGA AAATGCAGAT 
    CAAAGTGATC CTGAAGATGT TGGAAAAATG ACAACTGAAA ACAACATTGT CGTAGACAAA 
    AGTGACCTAA TCCCAAAAGT GTTAACTTTG AATGTAGGTG ATGAGTTTTG TGGTGTGGTT 
    GCCCACATTC AAACACCAGA AGACTTCTTT TGTCAACAAC TGCAAAGTGG CCGAAAGCTT 
    GCTGAACTTC AGGCATCCCT TAGCAAGTAC TGTGATCAGT TGCCTCCACG CTCTGATTTT 
    TATCCAGCCA TTGGTGATAT ATGTTGTGCT CAGTTCTCAG GAGTAAAGCC ATCATTAGGA 
    ATTTGGACTC CAGAAGCTAT TTGTCTCATG AAAAAACTTG TACAGAACAA AATAATCACA 
    GTGAAAGTGG TGGACAAGTT GGAAAACAGT TCCCTGGTGG AGCTTATTGA TAAATCCGAG 
    ACGCCTCATG TCAGTGTTAG CAAAGTTCTC CTAGATGCAG GCTTTGCTGT GGGAGAACAG 
    AGTATGGTGA CAGATAAACC CAGTGACGTG AAAGAAACCA GTGTTCCCTT GGGTGTGGAA 
    GGAAAAGTAA ATCCATTGGA GTGGACATGG GTTGAACTTG GTGTTGACCA AACAGTAGAT 
    GTTGTGGTCT GTGTGATATA TAGTCCTGGA GAATTTTATT GCCATGTGCT TAAAGAGGAT 
    GCTTTAAAGA AACTCAATGA TTTGAACAAG TCATTAGCAG AACACTGCCA GCAGAAGTTA 
    CCTAATGGTT TCAAGGCAGA GATAGGACAA CCTTGTTGTG CTTTTTTTGC AGGTGATGGT 
    AGTTGGTATC GTGCTTTAGT CAAGGAAATC TTACCAAATG GACATGTTAA AGTACATTTT 
    GTGGATTATG GAAACATCGA AGAAGTTACT GCAGATGAAC TCCGAATGAT ATCATCAACA 
    TTTTTAAACC TTCCCTTTCA GGGAATACGG TGCCAGTTAG CAGATATACA GTCTAGAAAC 
    AAACATTGGT CTGAAGAAGC CATAACAAGA TTCCAGATGT GTGTTGCTGG GATAAAATTG 
    CAAGCCAGAG TGGTTGAAGT CACTGAAAAT GGGATAGGAG TTGAACTCAC CGATCTCTCC 
    ACTTGTTATC CCAGAATAAT TAGTGATGTT CTGATTGATG AACATCTGGT TTTAAAATCT 
    GCTTCACCAC ATAAAGACTT ACCAAATGAC AGACTTGTTA ATAAACATGA GCTTCAAGTT 
    CATGTACAGG GACTTCAAGC TACCTCTTCA GCTGAGCAAT GGAAGACGAT AGAATTGCCA 
    GTGGATAAAA CTATACAAGC AAATGTATTA GAAATCATAA GCCCAAACTT GTTTTATGCT 
    CTACCAAAAG GGATGCCAGA AAATCAGGAA AAGCTGTGCA TGTTGACAGC TGAATTATTA 
    GAATACTGCA ATGCTCCGAA AAGTCGACCA CCCTATAGAC CAAGAATTGG AGACGCATGC 
    TGTGCCAAAT ACACAAGTGA TGATTTTTGG TATCGTGCAG TTGTTCTGGG GACATCAGAC 
    ACTGATGTGG AAGTGCTCTA TGCAGACTAT GGAAACATTG AAACCCTGCC TCTTTGCAGA 
    GTGCAACCAA TCACCTCTAG CCACCTGGCG CTTCCTTTCC AAATTATTAG ATGTTCACTT 
    GAAGGATTAA TGGAATTGAA TGGAAGCTCT TCTCAATTAA TAATAATGCT ATTAAAAAAT 
    TTCATGTTGA ATCAGAATGT AATGCTTTCT GTGAAAGGAA TTACAAAGAA TGTCCATACA 
    GTGTCAGTTG AGAAATGTTC TGAGAATGGG ACTGTCGATG TAGCTGATAA GCTAGTGACA 
    TTTGGTCTGG CAAAAAACAT CACACCTCAA AGGCAGAGTG CTTTAAATAC AGAAAAGATG 
    TATAGGATGA ATTGCTGCTG CACAGAGTTA CAGAAACAAG TTGAAAAACA TGAACATATT 
    CTTCTCTTCC TCTTAAACAA TTCAACCAAT CAAAATAAAT TTATTGAAAT GAAAAAACTG 
    TTAAAAAGTT AA

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

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