tdrd9 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following tdrd9 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the tdrd9 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OXa63832 XM_012968700.3
Latest version!
Xenopus tropicalis tudor domain containing 9 (tdrd9), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa20966 NM_001251817.1
Latest version!
Xenopus tropicalis tudor domain containing 9 (tdrd9), mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00
OXa29728 XM_012968701.2
Latest version!
Xenopus tropicalis tudor domain containing 9 (tdrd9), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OXa29727 XM_012968700.2
Latest version!
Xenopus tropicalis tudor domain containing 9 (tdrd9), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00

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

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

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

  • Reference Sequences (Refseq)
    CloneID OXa63832
    Clone ID Related Accession (Same CDS sequence) XM_012968700.3
    Accession Version XM_012968700.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4041bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product ATP-dependent RNA helicase TDRD9 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030684.2) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012968700.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGCTGCGGA AACTCACCGT AGACCAGATT AATGACTGGT TCACCATTGG CAAAGATGTA 
    ACTGATGTGA AGTTGCTGGG TTCTTGGTCG GAACCTAGCT CAGTTGCTAC TGGAGGCCGT
    GAAGCCGAGG AAAGTGAAAG GCGGTACCGC GGGCTTCAGT CTGAAAATGC ATACGTCAAG
    GAATTCAGAC TTGTGGAGGA ACGAGAGCTT GAGAAGTACA AGAGTTGTTC TGCTAACACA
    GCACGTACAA GAAAAATCTC AACATTTGAT GCATTAACAA TGCCGGAATT TGACCCCAAA
    TACCCAGAAT TGCCTATATT AAAGAGCAGA GAAGAGTTGA TTGCACTGAT TGAAAATAAT
    TCAGTTGTAG TAATACATGG TGCAACTGGC AGTGGTAAAA GTACTCAATT ACCGCAGTTC
    ATTTTGGATT ATCTAAGGCA ACATGGACAA TACTGTAATA TTGTTGTTAC TCAGCCTCGA
    AAAATAGCTG CCCGTAGCAT TGCTACATGG ATAAGTAATC AGCGATGTTG GACTCTCGGT
    GGCAGAGTGG GATACCAGGT GGGTTTGGAA AAGGTAGCAT CAGAGGAAAC TCAACTAATT
    TATATGACAA CAGGGGTCCT CCTGCAGAAG ATTGTTTCTG CTAAGAGCTT GTTGGAATTC
    ACACACATCT TTATAGATGA AGTCCATGAA CGTACAGAGG AAATGGACTT CCTACTAATG
    GTGGTGCGCA AGCTGCTTTG TACAAACTCC CGATTTGTGA AGGTGATATT AATGTCTGCT
    ACCATCAACT GCAAAGAATT TGCAGATTAT TTTGCAGTCC CTGTGTTAAA TAAGATGACA
    CCAGCTTACA TTTTTGAGGT AGAAGGTAAA CCTCATGACA TTGAGGTGTT TTATTTGGAT
    GACTTAAAGG ACATTCCTCA GGCAAAGATT GCTGCTCATT ATTCTGATGA ACCTTTAATA
    AGCAAGGAGA TGTACGAAGT TGCCACATCT TTGATACATT TATTTGATGA AATGGAAAAG
    GAAGAATTAA AGAAAGGAAA AATGAGTCAT AAAGCCTACA TTGAATCCAA CAGTGTATTG
    GTTTTCTTGC CAGGTTTGAT GGAGATCAAC TACATGCATG AACTTTTTAC AAATATGGTA
    CAGAAAAGAT TGCATGTGTA TCCTCTTCAT TCAAGCATCA CTCTTGATGA ACAAAACCTT
    GTGTTTATGC CTCCAGTTAT TGGATACAGA AAGGTCATTT TGTCAACAAA TATTGCTGAG
    AGCTCTATAA CTGTTCCAGA TGTAAAATAC GTCATAGACT TTTGCTTGAC TAAAACCCTT
    GTTTGTGATG AAGAAACAAA TTATCAGAGT TTGAGATTGA GCTGGGCATC AAAGACAAAT
    TGTGATCAAA GAAAAGGACG AGCTGGACGT GTTTCCAAGG GCTATTGTTA TCGATTTGTT
    CAGAAAGACT TTTGGAAAAA TATTATCCCT GAAAATGTTA TCCCTGAGAT GCTGCGTAGC
    CCTCTGGGAA GCACAATCTT AAAAGTGAAG CTTCTTGATA TGGGTGAGCC TAGAGCTTTG
    CTGGCAACTG CATTGTCTCC TCCTAATATC ACTGATATTG AACGGACTAT ACTCTTACTT
    AAGGAGCTAG GAGCACTTGC AGTTAGTGGG AAACGAGAAA ATGAAAATCC ATATGATGGA
    GAGCTCACTT TCTTGGGGAA AGTCCTTGCA CAATTACCTG TGGATTTACA ACTTGGAAAA
    CTGATTGTTC TTGGTCATGT CTTTGGATGC CTGGAGGAGT GCATTATTAT TGCTGCTGCA
    CTTTCACTAA AAAACTTTTT TGCTATGCCT TTTAGGCATC TTCTAGATGG ATACAGGAGC
    AAACTTAGTT TCTCTGGCAG TAGCAGAAGT GACTGCATTG CTCTTGTTGA TGCTTTTAAG
    TCCTGGCAGT CCTGTAAAGA GAGAGGCGAG CTTAGACTTT CCAAGGATGA GCTGGAATGG
    GGCAAGAGAA ATTACTTTCA GATCAAAAGA ATCAGAGAGG TGGCTGCTTT GTACGATGAT
    TTGAAAAAAA GAATTTCCCA CTTTAATATG CATGTTACTC AGCCAGCCAG GGATCCAGAT
    TACAATTTTA AGCAACGGTT TATTCTTCAG ATAGTTATGG CTGGTGCCTT TTATCCAAAC
    TATTTTACTT TTGGGCAATC TGATGAAAGA AGTGCTGTCC GTGACCTGTC TGCAAAAGAC
    CCCAGAACCA CTGTTGTGCT GAAGAATGTG CCAAATTACA GCTTCTTGTA CTATAAACAA
    ATACAGTCTC TCTTTAGACA GTGTGGACAA GTGAAATCCA TTTTATTTGA TGGCTCAAGA
    GCATTTGTTG AGTTTTCCCG TAACCCAACA GAAAGGTTCA AAACTCTTAC AGCGGTGTAC
    TTGGCACTTA AGATGGCACA GTTAAAAATA CCTCTTATAC TGAATGTTCA TCCTACTGAG
    GATATAGAGA AGGCTGATGA CACCATTACC AGTTTAAAAC TTTCAAGAAT AAATGTGGAC
    TGCCAAACAC AAACCTTTGA ATCGGTACAT GTCGCCAAGA CAATGGAAAA ACATTTAGAA
    ACATTGGATG GTCTTACATT ATCTGTAAAT ATCACAGAGG TTGTGGAAGT GGGTCATTTT
    TGGGGATTCA GCATTGATAC GAAAAGTATG GCCATTTTGG AAGAGCTAGC AACAAATATC
    AGACAGCAGC AATTGGTTCC CCTTACAGAA AGACCACACT CAAACATGAT GTGCTTGGCG
    CCTTTTACAA ACAAAGATAG TGAAAGTTAT TACAGGGCTC AGATCTTATA CATTTCTGGA
    AGTACTGCTA TGGTTTTTTT TGTGGATTAT GGTAACAAGT CACAGGTGGA ATTGACGCTC
    TTAAGGATGA TTCATGAAAC AATTCTAAAT ATTCCTTTTC AGGCACTCGA GTTCAAGATT
    TGCAAGATGC GTCCTTCTGC AAAATCTTTG ATTTGTGGAG AACAGTGGTG TCGCAGTGCT
    AGTGAGAGGT TTGATGCCTT GGTTAATGGA TGTGCCCTTA TGGTGAAGGT TCATTCTATA
    GTTCACGATA TTCTTCATGT TGACGTGTAC CGACATTTTG AAAATCTTGA AGAAAAAAGT
    ATAAGAGATT TGCTTATTGC TGATGGATAT GCAGAGCCAG CTGAAGAATC CTATGAATCC
    AATCAAAGCA ATGAAGTTTT GAAGGAACTG TTCCTGCCAG AGTGTAATAA AAAGCCATAC
    AAGCAAGGTT TTGCAAAAGA GGATGAAAAA AATCAGATTG AGAAAATGCT AGACAAATTT
    ACTCAAAATA AACTTGGGAT CCAACAGTGT AAGGCTGTGC TACATGGTCC ATTTAGTCCC
    TATGAAGTGA AATTTCATAG CCTGATGAGA GTTTCCAAAT TCAGATCAGT TTGGATTGAA
    AAGGAAAGCA TTAATTCAGT GGTACTTAAT GAAGCCCCAG AAGCACCTCA CCAGAGAATA
    TTTGTTGCTG CATCTGTTTC TGTAAATGCA TCTGGTTCTG TGATAATGCT ACGTGAGACA
    TCTTTGCTCC CTCCAATTCC AGGATTGCCA GCACTTATCA GCATGTTGTT TGCTCCAGTA
    ATAGAATTAA GAGTTGATGG CGCTAGAAAA CATTATACAG GTGTACTGTT TGGTTTAGGT
    TGGCACCATG AAAGTGGTAC TTCAATATGG CCTGAGCATG ACATTGAGCT AGCTTTTGAT
    GTTCATTTCT CTGTGGATGA CCTGGTAAAG ATTAATCTCC TAAGATCAAC AATAAACAAG
    GTCTTACGTC AGAACTATAA TGGTTCTCTA AACTCATCAT ATGAACGGCC TGGATTTTTT
    CAAGAGGATA TTCGTGAAAA GCTTCTGAAT TTAATTCAAA AGGATAAACC TCGAGAGGTG
    ATAACTCCAA AGTGGTATGA AAAATTGTAT CAGTGGAATC AGGTAGATCC AAAGTGGCTC
    ATTGACCAGT CTGATAGAAC TGACGAAGAA AGAAAAGCTG ATGTTTATCA GTTGCATACA
    TTTGTAATGC TGAATCCTTA A

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

    RefSeq XP_012824154.2
    CDS228..4268
    Translation

    Target ORF information:

    RefSeq Version XM_012968700.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis tudor domain containing 9 (tdrd9), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012968700.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGCTGCGGA AACTCACCGT AGACCAGATT AATGACTGGT TCACCATTGG CAAAGATGTA 
    ACTGATGTGA AGTTGCTGGG TTCTTGGTCG GAACCTAGCT CAGTTGCTAC TGGAGGCCGT
    GAAGCCGAGG AAAGTGAAAG GCGGTACCGC GGGCTTCAGT CTGAAAATGC ATACGTCAAG
    GAATTCAGAC TTGTGGAGGA ACGAGAGCTT GAGAAGTACA AGAGTTGTTC TGCTAACACA
    GCACGTACAA GAAAAATCTC AACATTTGAT GCATTAACAA TGCCGGAATT TGACCCCAAA
    TACCCAGAAT TGCCTATATT AAAGAGCAGA GAAGAGTTGA TTGCACTGAT TGAAAATAAT
    TCAGTTGTAG TAATACATGG TGCAACTGGC AGTGGTAAAA GTACTCAATT ACCGCAGTTC
    ATTTTGGATT ATCTAAGGCA ACATGGACAA TACTGTAATA TTGTTGTTAC TCAGCCTCGA
    AAAATAGCTG CCCGTAGCAT TGCTACATGG ATAAGTAATC AGCGATGTTG GACTCTCGGT
    GGCAGAGTGG GATACCAGGT GGGTTTGGAA AAGGTAGCAT CAGAGGAAAC TCAACTAATT
    TATATGACAA CAGGGGTCCT CCTGCAGAAG ATTGTTTCTG CTAAGAGCTT GTTGGAATTC
    ACACACATCT TTATAGATGA AGTCCATGAA CGTACAGAGG AAATGGACTT CCTACTAATG
    GTGGTGCGCA AGCTGCTTTG TACAAACTCC CGATTTGTGA AGGTGATATT AATGTCTGCT
    ACCATCAACT GCAAAGAATT TGCAGATTAT TTTGCAGTCC CTGTGTTAAA TAAGATGACA
    CCAGCTTACA TTTTTGAGGT AGAAGGTAAA CCTCATGACA TTGAGGTGTT TTATTTGGAT
    GACTTAAAGG ACATTCCTCA GGCAAAGATT GCTGCTCATT ATTCTGATGA ACCTTTAATA
    AGCAAGGAGA TGTACGAAGT TGCCACATCT TTGATACATT TATTTGATGA AATGGAAAAG
    GAAGAATTAA AGAAAGGAAA AATGAGTCAT AAAGCCTACA TTGAATCCAA CAGTGTATTG
    GTTTTCTTGC CAGGTTTGAT GGAGATCAAC TACATGCATG AACTTTTTAC AAATATGGTA
    CAGAAAAGAT TGCATGTGTA TCCTCTTCAT TCAAGCATCA CTCTTGATGA ACAAAACCTT
    GTGTTTATGC CTCCAGTTAT TGGATACAGA AAGGTCATTT TGTCAACAAA TATTGCTGAG
    AGCTCTATAA CTGTTCCAGA TGTAAAATAC GTCATAGACT TTTGCTTGAC TAAAACCCTT
    GTTTGTGATG AAGAAACAAA TTATCAGAGT TTGAGATTGA GCTGGGCATC AAAGACAAAT
    TGTGATCAAA GAAAAGGACG AGCTGGACGT GTTTCCAAGG GCTATTGTTA TCGATTTGTT
    CAGAAAGACT TTTGGAAAAA TATTATCCCT GAAAATGTTA TCCCTGAGAT GCTGCGTAGC
    CCTCTGGGAA GCACAATCTT AAAAGTGAAG CTTCTTGATA TGGGTGAGCC TAGAGCTTTG
    CTGGCAACTG CATTGTCTCC TCCTAATATC ACTGATATTG AACGGACTAT ACTCTTACTT
    AAGGAGCTAG GAGCACTTGC AGTTAGTGGG AAACGAGAAA ATGAAAATCC ATATGATGGA
    GAGCTCACTT TCTTGGGGAA AGTCCTTGCA CAATTACCTG TGGATTTACA ACTTGGAAAA
    CTGATTGTTC TTGGTCATGT CTTTGGATGC CTGGAGGAGT GCATTATTAT TGCTGCTGCA
    CTTTCACTAA AAAACTTTTT TGCTATGCCT TTTAGGCATC TTCTAGATGG ATACAGGAGC
    AAACTTAGTT TCTCTGGCAG TAGCAGAAGT GACTGCATTG CTCTTGTTGA TGCTTTTAAG
    TCCTGGCAGT CCTGTAAAGA GAGAGGCGAG CTTAGACTTT CCAAGGATGA GCTGGAATGG
    GGCAAGAGAA ATTACTTTCA GATCAAAAGA ATCAGAGAGG TGGCTGCTTT GTACGATGAT
    TTGAAAAAAA GAATTTCCCA CTTTAATATG CATGTTACTC AGCCAGCCAG GGATCCAGAT
    TACAATTTTA AGCAACGGTT TATTCTTCAG ATAGTTATGG CTGGTGCCTT TTATCCAAAC
    TATTTTACTT TTGGGCAATC TGATGAAAGA AGTGCTGTCC GTGACCTGTC TGCAAAAGAC
    CCCAGAACCA CTGTTGTGCT GAAGAATGTG CCAAATTACA GCTTCTTGTA CTATAAACAA
    ATACAGTCTC TCTTTAGACA GTGTGGACAA GTGAAATCCA TTTTATTTGA TGGCTCAAGA
    GCATTTGTTG AGTTTTCCCG TAACCCAACA GAAAGGTTCA AAACTCTTAC AGCGGTGTAC
    TTGGCACTTA AGATGGCACA GTTAAAAATA CCTCTTATAC TGAATGTTCA TCCTACTGAG
    GATATAGAGA AGGCTGATGA CACCATTACC AGTTTAAAAC TTTCAAGAAT AAATGTGGAC
    TGCCAAACAC AAACCTTTGA ATCGGTACAT GTCGCCAAGA CAATGGAAAA ACATTTAGAA
    ACATTGGATG GTCTTACATT ATCTGTAAAT ATCACAGAGG TTGTGGAAGT GGGTCATTTT
    TGGGGATTCA GCATTGATAC GAAAAGTATG GCCATTTTGG AAGAGCTAGC AACAAATATC
    AGACAGCAGC AATTGGTTCC CCTTACAGAA AGACCACACT CAAACATGAT GTGCTTGGCG
    CCTTTTACAA ACAAAGATAG TGAAAGTTAT TACAGGGCTC AGATCTTATA CATTTCTGGA
    AGTACTGCTA TGGTTTTTTT TGTGGATTAT GGTAACAAGT CACAGGTGGA ATTGACGCTC
    TTAAGGATGA TTCATGAAAC AATTCTAAAT ATTCCTTTTC AGGCACTCGA GTTCAAGATT
    TGCAAGATGC GTCCTTCTGC AAAATCTTTG ATTTGTGGAG AACAGTGGTG TCGCAGTGCT
    AGTGAGAGGT TTGATGCCTT GGTTAATGGA TGTGCCCTTA TGGTGAAGGT TCATTCTATA
    GTTCACGATA TTCTTCATGT TGACGTGTAC CGACATTTTG AAAATCTTGA AGAAAAAAGT
    ATAAGAGATT TGCTTATTGC TGATGGATAT GCAGAGCCAG CTGAAGAATC CTATGAATCC
    AATCAAAGCA ATGAAGTTTT GAAGGAACTG TTCCTGCCAG AGTGTAATAA AAAGCCATAC
    AAGCAAGGTT TTGCAAAAGA GGATGAAAAA AATCAGATTG AGAAAATGCT AGACAAATTT
    ACTCAAAATA AACTTGGGAT CCAACAGTGT AAGGCTGTGC TACATGGTCC ATTTAGTCCC
    TATGAAGTGA AATTTCATAG CCTGATGAGA GTTTCCAAAT TCAGATCAGT TTGGATTGAA
    AAGGAAAGCA TTAATTCAGT GGTACTTAAT GAAGCCCCAG AAGCACCTCA CCAGAGAATA
    TTTGTTGCTG CATCTGTTTC TGTAAATGCA TCTGGTTCTG TGATAATGCT ACGTGAGACA
    TCTTTGCTCC CTCCAATTCC AGGATTGCCA GCACTTATCA GCATGTTGTT TGCTCCAGTA
    ATAGAATTAA GAGTTGATGG CGCTAGAAAA CATTATACAG GTGTACTGTT TGGTTTAGGT
    TGGCACCATG AAAGTGGTAC TTCAATATGG CCTGAGCATG ACATTGAGCT AGCTTTTGAT
    GTTCATTTCT CTGTGGATGA CCTGGTAAAG ATTAATCTCC TAAGATCAAC AATAAACAAG
    GTCTTACGTC AGAACTATAA TGGTTCTCTA AACTCATCAT ATGAACGGCC TGGATTTTTT
    CAAGAGGATA TTCGTGAAAA GCTTCTGAAT TTAATTCAAA AGGATAAACC TCGAGAGGTG
    ATAACTCCAA AGTGGTATGA AAAATTGTAT CAGTGGAATC AGGTAGATCC AAAGTGGCTC
    ATTGACCAGT CTGATAGAAC TGACGAAGAA AGAAAAGCTG ATGTTTATCA GTTGCATACA
    TTTGTAATGC TGAATCCTTA A

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

    CloneID OXa20966
    Clone ID Related Accession (Same CDS sequence) NM_001251817.1
    Accession Version NM_001251817.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3324bp)
    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 2019-12-21
    Organism Xenopus tropicalis(tropical clawed frog)
    Product ATP-dependent RNA helicase TDRD9
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from BC125754.1. ##Evidence-Data-START## CDS exon combination :: BC125754.1 [ECO:0000331] RNAseq introns :: single sample supports all introns SAMD00028290, SAMD00028305 [ECO:0000348] ##Evidence-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    ATGGTGGTGC GCAAGCTGCT TTGTACAAAC TCCCGATTTG TGAAGGTGAT ATTAATGTCT 
    GCTACCATCA ACTGCAAAGA ATTTGCAGAT TATTTTGCAG TCCCTGTGTT AAATAAGATG
    ACACCAGCTT ACATTTTTGA GGTAGAAGGT AAACCTCATG ACATTGAGGT GTTTTATTTG
    GATGACTTAA AGGACATTCC TCAGGCAAAG ATTGCTGCTC ATTATTCTGA TGAACCTTTA
    ATAAGCAAGG AGATGTACGA AGTTGCCACA TCTTTGATAC ATTTATTTGA TGAAATGGAA
    AAGGAAGAAT TAAAGAAAGG AAAAATGAGT CATAAAGCCT ACATTGAATC CAACAGTGTA
    TTGGTTTTCT TGCCAGGTTT GATGGAGATC AACTACATGC ATGAACTTTT TACAAATATG
    GTACAGAAAA GATTGCATGT GTATCCTCTT CATTCAAGCA TCACTCTTGA TGAACAAAAC
    CTTGTGTTTA TGCCTCCAGT TATTGGATAC AGAAAGGTCA TTTTGTCAAC AAATATTGCT
    GAGAGCTCTA TAACTGTTCC AGATGTAAAA TACGTCATAG ACTTTTGCTT GACTAAAACC
    CTTGTTTGTG ATGAAGAAAC AAATTATCAG AGTTTGAGAT TGAGCTGGGC ATCAAAGACA
    AATTGTGATC AAAGAAAAGG ACGAGCTGGA CGTGTTTCCA AGGGCTATTG TTATCGATTT
    GTTCAGAAAG ACTTTTGGAA AAATATTATC CCTGAAAATG TTATCCCTGA GATGCTGCGT
    AGCCCTCTGG GAAGCACAAT CTTAAAAGTG AAGCTTCTTG ATATGGGTGA GCCTAGAGCT
    TTGCTGGCAA CTGCATTGTC TCCTCCTAAT ATCACTGATA TTGAACGGAC TATACTCTTA
    CTTAAGGAGC TAGGAGCACT TGCAGTTAGT GGGAAACGAG AAAATGAAAA TCCATATGAT
    GGAGAGCTCA CTTTCTTGGG GAAAGTCCTT GCACAATTAC CTGTGGATTT ACAACTTGGA
    AAACTGATTG TTCTTGGTCA TGTCTTTGGA TGCCTGGAGG AGTGCATTAT TATTGCTGCT
    GCACTTTCAC TAAAAAACTT TTTTGCTATG CCTTTTAGGC ATCTTCTAGA TGGATACAGG
    AGCAAACTTA GTTTCTCTGG CAGTAGCAGA AGTGACTGCA TTGCTCTTGT TGATGCTTTT
    AAGTCCTGGC AGTCCTGTAA AGAGAGAGGC GAGCTTAGAC TTTCCAAGGA TGAGCTGGAA
    TGGGGCAAGA GAAATTACTT TCAGATCAAA AGAATCAGAG AGGTGGCTGC TTTGTACGAT
    GATTTGAAAA AAAGAATTTC CCACTTTAAT ATGCATGTTA CTCAGCCAGC CAGGGATCCA
    GATTACAATT TTAAGCAACG GTTTATTCTT CAGATAGTTA TGGCTGGTGC CTTTTATCCA
    AACTATTTTA CTTTTGGGCA ATCTGATGAA AGAAGTGCTG TCCGTGACCT GTCTGCAAAA
    GACCCCAGAA CCACTGTTGT GCTGAAGAAT GTGCCAAATT ACAGCTTCTT GTACTATAAA
    CAAATACAGT CTCTCTTTAG ACAGTGTGGA CAAGTGAAAT CCATTTTATT TGATGGCTCA
    AGAGCATTTG TTGAGTTTTC CCGTAACCCA ACAGAAAGGT TCAAAACTCT TACAGCGGTG
    TACTTGGCAC TTAAGATGGC ACAGTTAAAA ATACCTCTTA TACTGAATGT TCATCCTACT
    GAGGATATAG AGAAGGCTGA TGACACCATT ACCAGTTTAA AACTTTCAAG AATAAATGTG
    GACTGCCAAA CACAAACCTT TGAATCGGTA CATGTCGCCA AGACAATGGA AAAACATTTA
    GAAACATTGG ATGGTCTTAC ATTATCTGTA AATATCACAG AGGTTGTGGA AGTGGGTCAT
    TTTTGGGGAT TCAGCATTGA TACGAAAAGT ATGGCCATTT TGGAAGAGCT AGCAACAAAT
    ATCAGACAGC AGCAATTGGT TCCCCTTACA GAAAGACCAC ACTCAAACAT GATGTGCTTG
    GCGCCTTTTA CAAACAAAGA TAGTGAAAGT TATTACAGGG CTCAGATCTT ATACATTTCT
    GGAAGTACTG CTATGGTTTT TTTTGTGGAT TATGGTAACA AGTCACAGGT GGAATTGACG
    CTCTTAAGGA TGATTCATGA AACAATTCTA AATATTCCTT TTCAGGCACT CGAGTTCAAG
    ATTTGCAAGA TGCGTCCTTC TGCAAAATCT TTGATTTGTG GAGAACAGTG GTGTCGCAGT
    GCTAGTGAGA GGTTTGATGC CTTGGTTAAT GGATGTGCCC TTATGGTGAA GGTTCATTCT
    ATAGTTCACG ATATTCTTCA TGTTGACGTG TACCGACATT TTGAAAATCT TGAAGAAAAA
    AGTATAAGAG ATTTGCTTAT TGCTGATGGA TATGCAGAGC CAGCTGAAGA ATCCTATGAA
    TCCAATCAAA GCAATGAAGT TTTGAAGGAA CTGTTCCTGC CAGAGTGTAA TAAAAAGCCA
    TACAAGCAAG GTTTTGCAAA AGAGGATGAA AAAAATCAGA TTGAGAAAAT GCTAGACAAA
    TTTACTCAAA ATAAACTTGG GATCCAACAG TGTAAGGCTG TGCTACATGG TCCATTTAGT
    CCCTATGAAG TGAAATTTCA TAGCCTGATG AGAGTTTCCA AATTCAGATC AGTTTGGATT
    GAAAAGGAAA GCATTAATTC AGTGGTACTT AATGAAGCCC CAGAAGCACC TCACCAGAGA
    ATATTTGTTG CTGCATCTGT TTCTGTAAAT GCATCTGGTT CTGTGATAAT GCTACGTGAG
    ACATCTTTGC TCCCTCCAAT TCCAGGATTG CCAGCACTTA TCAGCATGTT GTTTGCTCCA
    GTAATAGAAT TAAGAGTTGA TGGCGCTAGA AAACATTATA CAGGTGTACT GTTTGGTTTA
    GGTTGGCACC ATGAAAGTGG TACTTCAATA TGGCCTGAGC ATGACATTGA GCTAGCTTTT
    GATGTTCATT TCTCTGTGGA TGACCTGGTA AAGATTAATC TCCTAAGATC AACAATAAAC
    AAGGTCTTAC GTCAGAACTA TAATGGTTCT CTAAACTCAT CATATGAACG GCCTGGATTT
    TTTCAAGAGG ATATTCGTGA AAAGCTTCTG AATTTAATTC AAAAGGATAA ACCTCGAGAG
    GTGATAACTC CAAAGTGGTA TGAAAAATTG TATCAGTGGA ATCAGGTAGA TCCAAAGTGG
    CTCATTGACC AGTCTGATAG AACTGACGAA GAAAGAAAAG CTGATGTTTA TCAGTTGCAT
    ACATTTGTAA TGCTGAATCC TTAA

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

    RefSeq NP_001238746.1
    CDS293..3616
    Translation

    Target ORF information:

    RefSeq Version NM_001251817.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis tudor domain containing 9 (tdrd9), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001251817.1

    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
    ATGGTGGTGC GCAAGCTGCT TTGTACAAAC TCCCGATTTG TGAAGGTGAT ATTAATGTCT 
    GCTACCATCA ACTGCAAAGA ATTTGCAGAT TATTTTGCAG TCCCTGTGTT AAATAAGATG
    ACACCAGCTT ACATTTTTGA GGTAGAAGGT AAACCTCATG ACATTGAGGT GTTTTATTTG
    GATGACTTAA AGGACATTCC TCAGGCAAAG ATTGCTGCTC ATTATTCTGA TGAACCTTTA
    ATAAGCAAGG AGATGTACGA AGTTGCCACA TCTTTGATAC ATTTATTTGA TGAAATGGAA
    AAGGAAGAAT TAAAGAAAGG AAAAATGAGT CATAAAGCCT ACATTGAATC CAACAGTGTA
    TTGGTTTTCT TGCCAGGTTT GATGGAGATC AACTACATGC ATGAACTTTT TACAAATATG
    GTACAGAAAA GATTGCATGT GTATCCTCTT CATTCAAGCA TCACTCTTGA TGAACAAAAC
    CTTGTGTTTA TGCCTCCAGT TATTGGATAC AGAAAGGTCA TTTTGTCAAC AAATATTGCT
    GAGAGCTCTA TAACTGTTCC AGATGTAAAA TACGTCATAG ACTTTTGCTT GACTAAAACC
    CTTGTTTGTG ATGAAGAAAC AAATTATCAG AGTTTGAGAT TGAGCTGGGC ATCAAAGACA
    AATTGTGATC AAAGAAAAGG ACGAGCTGGA CGTGTTTCCA AGGGCTATTG TTATCGATTT
    GTTCAGAAAG ACTTTTGGAA AAATATTATC CCTGAAAATG TTATCCCTGA GATGCTGCGT
    AGCCCTCTGG GAAGCACAAT CTTAAAAGTG AAGCTTCTTG ATATGGGTGA GCCTAGAGCT
    TTGCTGGCAA CTGCATTGTC TCCTCCTAAT ATCACTGATA TTGAACGGAC TATACTCTTA
    CTTAAGGAGC TAGGAGCACT TGCAGTTAGT GGGAAACGAG AAAATGAAAA TCCATATGAT
    GGAGAGCTCA CTTTCTTGGG GAAAGTCCTT GCACAATTAC CTGTGGATTT ACAACTTGGA
    AAACTGATTG TTCTTGGTCA TGTCTTTGGA TGCCTGGAGG AGTGCATTAT TATTGCTGCT
    GCACTTTCAC TAAAAAACTT TTTTGCTATG CCTTTTAGGC ATCTTCTAGA TGGATACAGG
    AGCAAACTTA GTTTCTCTGG CAGTAGCAGA AGTGACTGCA TTGCTCTTGT TGATGCTTTT
    AAGTCCTGGC AGTCCTGTAA AGAGAGAGGC GAGCTTAGAC TTTCCAAGGA TGAGCTGGAA
    TGGGGCAAGA GAAATTACTT TCAGATCAAA AGAATCAGAG AGGTGGCTGC TTTGTACGAT
    GATTTGAAAA AAAGAATTTC CCACTTTAAT ATGCATGTTA CTCAGCCAGC CAGGGATCCA
    GATTACAATT TTAAGCAACG GTTTATTCTT CAGATAGTTA TGGCTGGTGC CTTTTATCCA
    AACTATTTTA CTTTTGGGCA ATCTGATGAA AGAAGTGCTG TCCGTGACCT GTCTGCAAAA
    GACCCCAGAA CCACTGTTGT GCTGAAGAAT GTGCCAAATT ACAGCTTCTT GTACTATAAA
    CAAATACAGT CTCTCTTTAG ACAGTGTGGA CAAGTGAAAT CCATTTTATT TGATGGCTCA
    AGAGCATTTG TTGAGTTTTC CCGTAACCCA ACAGAAAGGT TCAAAACTCT TACAGCGGTG
    TACTTGGCAC TTAAGATGGC ACAGTTAAAA ATACCTCTTA TACTGAATGT TCATCCTACT
    GAGGATATAG AGAAGGCTGA TGACACCATT ACCAGTTTAA AACTTTCAAG AATAAATGTG
    GACTGCCAAA CACAAACCTT TGAATCGGTA CATGTCGCCA AGACAATGGA AAAACATTTA
    GAAACATTGG ATGGTCTTAC ATTATCTGTA AATATCACAG AGGTTGTGGA AGTGGGTCAT
    TTTTGGGGAT TCAGCATTGA TACGAAAAGT ATGGCCATTT TGGAAGAGCT AGCAACAAAT
    ATCAGACAGC AGCAATTGGT TCCCCTTACA GAAAGACCAC ACTCAAACAT GATGTGCTTG
    GCGCCTTTTA CAAACAAAGA TAGTGAAAGT TATTACAGGG CTCAGATCTT ATACATTTCT
    GGAAGTACTG CTATGGTTTT TTTTGTGGAT TATGGTAACA AGTCACAGGT GGAATTGACG
    CTCTTAAGGA TGATTCATGA AACAATTCTA AATATTCCTT TTCAGGCACT CGAGTTCAAG
    ATTTGCAAGA TGCGTCCTTC TGCAAAATCT TTGATTTGTG GAGAACAGTG GTGTCGCAGT
    GCTAGTGAGA GGTTTGATGC CTTGGTTAAT GGATGTGCCC TTATGGTGAA GGTTCATTCT
    ATAGTTCACG ATATTCTTCA TGTTGACGTG TACCGACATT TTGAAAATCT TGAAGAAAAA
    AGTATAAGAG ATTTGCTTAT TGCTGATGGA TATGCAGAGC CAGCTGAAGA ATCCTATGAA
    TCCAATCAAA GCAATGAAGT TTTGAAGGAA CTGTTCCTGC CAGAGTGTAA TAAAAAGCCA
    TACAAGCAAG GTTTTGCAAA AGAGGATGAA AAAAATCAGA TTGAGAAAAT GCTAGACAAA
    TTTACTCAAA ATAAACTTGG GATCCAACAG TGTAAGGCTG TGCTACATGG TCCATTTAGT
    CCCTATGAAG TGAAATTTCA TAGCCTGATG AGAGTTTCCA AATTCAGATC AGTTTGGATT
    GAAAAGGAAA GCATTAATTC AGTGGTACTT AATGAAGCCC CAGAAGCACC TCACCAGAGA
    ATATTTGTTG CTGCATCTGT TTCTGTAAAT GCATCTGGTT CTGTGATAAT GCTACGTGAG
    ACATCTTTGC TCCCTCCAAT TCCAGGATTG CCAGCACTTA TCAGCATGTT GTTTGCTCCA
    GTAATAGAAT TAAGAGTTGA TGGCGCTAGA AAACATTATA CAGGTGTACT GTTTGGTTTA
    GGTTGGCACC ATGAAAGTGG TACTTCAATA TGGCCTGAGC ATGACATTGA GCTAGCTTTT
    GATGTTCATT TCTCTGTGGA TGACCTGGTA AAGATTAATC TCCTAAGATC AACAATAAAC
    AAGGTCTTAC GTCAGAACTA TAATGGTTCT CTAAACTCAT CATATGAACG GCCTGGATTT
    TTTCAAGAGG ATATTCGTGA AAAGCTTCTG AATTTAATTC AAAAGGATAA ACCTCGAGAG
    GTGATAACTC CAAAGTGGTA TGAAAAATTG TATCAGTGGA ATCAGGTAGA TCCAAAGTGG
    CTCATTGACC AGTCTGATAG AACTGACGAA GAAAGAAAAG CTGATGTTTA TCAGTTGCAT
    ACATTTGTAA TGCTGAATCC TTAA

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

    CloneID OXa29728
    Clone ID Related Accession (Same CDS sequence) XM_012968701.2
    Accession Version XM_012968701.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3909bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product putative ATP-dependent RNA helicase TDRD9 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030684.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012968701.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCTGCGGA AACTCACCGT AGACCAGATT AATGACTGGT TCACCATTGG CAAAGATGTA 
    ACTGATGTGA AGTTGCTGGG TTCTTGGTCG GAACCTAGCT CAGTTGCTAC TGGAGGCCGT
    GAAGCCGAGG AAAGTGAAAG GCGGTACCGC GGGCTTCAGT CTGAAAATGC ATACGTCAAG
    GAATTCAGAC TTGTGGAGGA ACGAGAGCTT GAGAAGTACA AGAGTTGTTC TGCTAACACA
    GCACGTACAA GAAAAATCTC AACATTTGAT GCATTAACAA TGCCGGAATT TGACCCCAAA
    TACCCAGAAT TGCCTATATT AAAGAGCAGA GAAGAGTTGA TTGCACTGAT TGAAAATAAT
    TCAGTTGTAG TAATACATGG TGCAACTGGC AGTGGTAAAA GTACTCAATT ACCGCAGTTC
    ATTTTGGATT ATCTAAGGCA ACATGGACAA TACTGTAATA TTGTTGTTAC TCAGCCTCGA
    AAAATAGCTG CCCGTAGCAT TGCTACATGG ATAAGTAATC AGCGATGTTG GACTCTCGGT
    GGCAGAGTGG GATACCAGGT GGGTTTGGAA AAGGTAGCAT CAGAGGAAAC TCAACTAATT
    TATATGACAA CAGGGGTCCT CCTGCAGAAG ATTGTTTCTG CTAAGAGCTT GTTGGAATTC
    ACACACATCT TTATAGATGA AGTCCATGAA CGTACAGAGG AAATGGACTT CCTACTAATG
    GTGGTGCGCA AGCTGCTTTG TACAAACTCC CGATTTGTGA AGGTGATATT AATGTCTGCT
    ACCATCAACT GCAAAGAATT TGCAGATTAT TTTGCAGTCC CTGTGTTAAA TAAGATGACA
    CCAGCTTACA TTTTTGAGGT AGAAGGTAAA CCTCATGACA TTGAGGTGTT TTATTTGGAT
    GACTTAAAGG ACATTCCTCA GGCAAAGATT GCTGCTCATT ATTCTGATGA ACCTTTAATA
    AGCAAGGAGA TGTACGAAGT TGCCACATCT TTGATACATT TATTTGATGA AATGGAAAAG
    GAAGAATTAA AGAAAGGAAA AATGAGTCAT AAAGCCTACA TTGAATCCAA CAGTGTATTG
    GTTTTCTTGC CAGGTTTGAT GGAGATCAAC TACATGCATG AACTTTTTAC AAATATGGTA
    CAGAAAAGAT TGCATGTGTA TCCTCTTCAT TCAAGCATCA CTCTTGATGA ACAAAACCTT
    GTGTTTATGC CTCCAGTTAT TGGATACAGA AAGGTCATTT TGTCAACAAA TATTGCTGAG
    AGCTCTATAA CTGTTCCAGA TGTAAAATAC GTCATAGACT TTTGCTTGAC TAAAACCCTT
    GTTTGTGATG AAGAAACAAA TTATCAGAGT TTGAGATTGA GCTGGGCATC AAAGACAAAT
    TGTGATCAAA GAAAAGGACG AGCTGGACGT GTTTCCAAGG GCTATTGTTA TCGATTTGTT
    CAGAAAGACT TTTGGAAAAA TATTATCCCT GAAAATGTTA TCCCTGAGAT GCTGCTAGGA
    GCACTTGCAG TTAGTGGGAA ACGAGAAAAT GAAAATCCAT ATGATGGAGA GCTCACTTTC
    TTGGGGAAAG TCCTTGCACA ATTACCTGTG GATTTACAAC TTGGAAAACT GATTGTTCTT
    GGTCATGTCT TTGGATGCCT GGAGGAGTGC ATTATTATTG CTGCTGCACT TTCACTAAAA
    AACTTTTTTG CTATGCCTTT TAGGCATCTT CTAGATGGAT ACAGGAGCAA ACTTAGTTTC
    TCTGGCAGTA GCAGAAGTGA CTGCATTGCT CTTGTTGATG CTTTTAAGTC CTGGCAGTCC
    TGTAAAGAGA GAGGCGAGCT TAGACTTTCC AAGGATGAGC TGGAATGGGG CAAGAGAAAT
    TACTTTCAGA TCAAAAGAAT CAGAGAGGTG GCTGCTTTGT ACGATGATTT GAAAAAAAGA
    ATTTCCCACT TTAATATGCA TGTTACTCAG CCAGCCAGGG ATCCAGATTA CAATTTTAAG
    CAACGGTTTA TTCTTCAGAT AGTTATGGCT GGTGCCTTTT ATCCAAACTA TTTTACTTTT
    GGGCAATCTG ATGAAAGAAG TGCTGTCCGT GACCTGTCTG CAAAAGACCC CAGAACCACT
    GTTGTGCTGA AGAATGTGCC AAATTACAGC TTCTTGTACT ATAAACAAAT ACAGTCTCTC
    TTTAGACAGT GTGGACAAGT GAAATCCATT TTATTTGATG GCTCAAGAGC ATTTGTTGAG
    TTTTCCCGTA ACCCAACAGA AAGGTTCAAA ACTCTTACAG CGGTGTACTT GGCACTTAAG
    ATGGCACAGT TAAAAATACC TCTTATACTG AATGTTCATC CTACTGAGGA TATAGAGAAG
    GCTGATGACA CCATTACCAG TTTAAAACTT TCAAGAATAA ATGTGGACTG CCAAACACAA
    ACCTTTGAAT CGGTACATGT CGCCAAGACA ATGGAAAAAC ATTTAGAAAC ATTGGATGGT
    CTTACATTAT CTGTAAATAT CACAGAGGTT GTGGAAGTGG GTCATTTTTG GGGATTCAGC
    ATTGATACGA AAAGTATGGC CATTTTGGAA GAGCTAGCAA CAAATATCAG ACAGCAGCAA
    TTGGTTCCCC TTACAGAAAG ACCACACTCA AACATGATGT GCTTGGCGCC TTTTACAAAC
    AAAGATAGTG AAAGTTATTA CAGGGCTCAG ATCTTATACA TTTCTGGAAG TACTGCTATG
    GTTTTTTTTG TGGATTATGG TAACAAGTCA CAGGTGGAAT TGACGCTCTT AAGGATGATT
    CATGAAACAA TTCTAAATAT TCCTTTTCAG GCACTCGAGT TCAAGATTTG CAAGATGCGT
    CCTTCTGCAA AATCTTTGAT TTGTGGAGAA CAGTGGTGTC GCAGTGCTAG TGAGAGGTTT
    GATGCCTTGG TTAATGGATG TGCCCTTATG GTGAAGGTTC ATTCTATAGT TCACGATATT
    CTTCATGTTG ACGTGTACCG ACATTTTGAA AATCTTGAAG AAAAAAGTAT AAGAGATTTG
    CTTATTGCTG ATGGATATGC AGAGCCAGCT GAAGAATCCT ATGAATCCAA TCAAAGCAAT
    GAAGTTTTGA AGGAACTGTT CCTGCCAGAG TGTAATAAAA AGCCATACAA GCAAGGTTTT
    GCAAAAGATG ATGAAAAAAA TCAGATTGAG AAAATGCTAG ACAAATTTAC TCAAAATAAA
    CTTGGGATCC AACAGTGTAA GGCTGTGCTA CATGGTCCAT TTAGTCCCTA TGAAGTGAAA
    TTTCATAGCC TGATGAGAGT TTCCAAATTC AGATCAGTTT GGATTGAAAA GGAAAGCATT
    AATTCAGTGG TACTTAATGA AGCCCCAGAA GCACCTCACC AGAGAATATT TGTTGCTGCA
    TCTGTTTCTG TAAATGCATC TGGTTCTGTG ATAATGCTAC GTGAGACATC TTTGCTCCCT
    CCAATTCCAG GATTGCCAGC ACTTATCAGC ATGTTGTTTG CTCCAGTAAT AGAATTAAGA
    GTTGATGGCG CTAGAAAACA TTATACAGGT GTACTGTTTG GTTTAGGTTG GCACCATGAA
    AGTGGTACTT CAATATGGCC TGAGCATGAC ATTGAGCTAG CTTTTGATGT TCATTTCTCT
    GTGGATGACC TGGTAAAGAT TAATCTCCTA AGATCAACAA TAAACAAGGT CTTACGTCAG
    AACTATAATG GTTCTCTAAA CTCATCATAT GAACGGCCTG GATTTTTTCA AGAGGATATT
    CGTGAAAAGC TTCTGAATTT AATTCAAAAG GATAAACCTC GAGAGGTGAT AACTCCAAAG
    TGGTATGAAA AATTGTATCA GTGGAATCAG GTAGATCCAA AGTGGCTCAT TGACCAGTCT
    GATAGAACTG ACGAAGAAAG AAAAGCTGAT GTTTATCAGT TGCATACATT TGTAATGCTG
    AATCCTTAA

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

    RefSeq XP_012824155.1
    CDS107..4015
    Translation

    Target ORF information:

    RefSeq Version XM_012968701.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis tudor domain containing 9 (tdrd9), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012968701.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCTGCGGA AACTCACCGT AGACCAGATT AATGACTGGT TCACCATTGG CAAAGATGTA 
    ACTGATGTGA AGTTGCTGGG TTCTTGGTCG GAACCTAGCT CAGTTGCTAC TGGAGGCCGT
    GAAGCCGAGG AAAGTGAAAG GCGGTACCGC GGGCTTCAGT CTGAAAATGC ATACGTCAAG
    GAATTCAGAC TTGTGGAGGA ACGAGAGCTT GAGAAGTACA AGAGTTGTTC TGCTAACACA
    GCACGTACAA GAAAAATCTC AACATTTGAT GCATTAACAA TGCCGGAATT TGACCCCAAA
    TACCCAGAAT TGCCTATATT AAAGAGCAGA GAAGAGTTGA TTGCACTGAT TGAAAATAAT
    TCAGTTGTAG TAATACATGG TGCAACTGGC AGTGGTAAAA GTACTCAATT ACCGCAGTTC
    ATTTTGGATT ATCTAAGGCA ACATGGACAA TACTGTAATA TTGTTGTTAC TCAGCCTCGA
    AAAATAGCTG CCCGTAGCAT TGCTACATGG ATAAGTAATC AGCGATGTTG GACTCTCGGT
    GGCAGAGTGG GATACCAGGT GGGTTTGGAA AAGGTAGCAT CAGAGGAAAC TCAACTAATT
    TATATGACAA CAGGGGTCCT CCTGCAGAAG ATTGTTTCTG CTAAGAGCTT GTTGGAATTC
    ACACACATCT TTATAGATGA AGTCCATGAA CGTACAGAGG AAATGGACTT CCTACTAATG
    GTGGTGCGCA AGCTGCTTTG TACAAACTCC CGATTTGTGA AGGTGATATT AATGTCTGCT
    ACCATCAACT GCAAAGAATT TGCAGATTAT TTTGCAGTCC CTGTGTTAAA TAAGATGACA
    CCAGCTTACA TTTTTGAGGT AGAAGGTAAA CCTCATGACA TTGAGGTGTT TTATTTGGAT
    GACTTAAAGG ACATTCCTCA GGCAAAGATT GCTGCTCATT ATTCTGATGA ACCTTTAATA
    AGCAAGGAGA TGTACGAAGT TGCCACATCT TTGATACATT TATTTGATGA AATGGAAAAG
    GAAGAATTAA AGAAAGGAAA AATGAGTCAT AAAGCCTACA TTGAATCCAA CAGTGTATTG
    GTTTTCTTGC CAGGTTTGAT GGAGATCAAC TACATGCATG AACTTTTTAC AAATATGGTA
    CAGAAAAGAT TGCATGTGTA TCCTCTTCAT TCAAGCATCA CTCTTGATGA ACAAAACCTT
    GTGTTTATGC CTCCAGTTAT TGGATACAGA AAGGTCATTT TGTCAACAAA TATTGCTGAG
    AGCTCTATAA CTGTTCCAGA TGTAAAATAC GTCATAGACT TTTGCTTGAC TAAAACCCTT
    GTTTGTGATG AAGAAACAAA TTATCAGAGT TTGAGATTGA GCTGGGCATC AAAGACAAAT
    TGTGATCAAA GAAAAGGACG AGCTGGACGT GTTTCCAAGG GCTATTGTTA TCGATTTGTT
    CAGAAAGACT TTTGGAAAAA TATTATCCCT GAAAATGTTA TCCCTGAGAT GCTGCTAGGA
    GCACTTGCAG TTAGTGGGAA ACGAGAAAAT GAAAATCCAT ATGATGGAGA GCTCACTTTC
    TTGGGGAAAG TCCTTGCACA ATTACCTGTG GATTTACAAC TTGGAAAACT GATTGTTCTT
    GGTCATGTCT TTGGATGCCT GGAGGAGTGC ATTATTATTG CTGCTGCACT TTCACTAAAA
    AACTTTTTTG CTATGCCTTT TAGGCATCTT CTAGATGGAT ACAGGAGCAA ACTTAGTTTC
    TCTGGCAGTA GCAGAAGTGA CTGCATTGCT CTTGTTGATG CTTTTAAGTC CTGGCAGTCC
    TGTAAAGAGA GAGGCGAGCT TAGACTTTCC AAGGATGAGC TGGAATGGGG CAAGAGAAAT
    TACTTTCAGA TCAAAAGAAT CAGAGAGGTG GCTGCTTTGT ACGATGATTT GAAAAAAAGA
    ATTTCCCACT TTAATATGCA TGTTACTCAG CCAGCCAGGG ATCCAGATTA CAATTTTAAG
    CAACGGTTTA TTCTTCAGAT AGTTATGGCT GGTGCCTTTT ATCCAAACTA TTTTACTTTT
    GGGCAATCTG ATGAAAGAAG TGCTGTCCGT GACCTGTCTG CAAAAGACCC CAGAACCACT
    GTTGTGCTGA AGAATGTGCC AAATTACAGC TTCTTGTACT ATAAACAAAT ACAGTCTCTC
    TTTAGACAGT GTGGACAAGT GAAATCCATT TTATTTGATG GCTCAAGAGC ATTTGTTGAG
    TTTTCCCGTA ACCCAACAGA AAGGTTCAAA ACTCTTACAG CGGTGTACTT GGCACTTAAG
    ATGGCACAGT TAAAAATACC TCTTATACTG AATGTTCATC CTACTGAGGA TATAGAGAAG
    GCTGATGACA CCATTACCAG TTTAAAACTT TCAAGAATAA ATGTGGACTG CCAAACACAA
    ACCTTTGAAT CGGTACATGT CGCCAAGACA ATGGAAAAAC ATTTAGAAAC ATTGGATGGT
    CTTACATTAT CTGTAAATAT CACAGAGGTT GTGGAAGTGG GTCATTTTTG GGGATTCAGC
    ATTGATACGA AAAGTATGGC CATTTTGGAA GAGCTAGCAA CAAATATCAG ACAGCAGCAA
    TTGGTTCCCC TTACAGAAAG ACCACACTCA AACATGATGT GCTTGGCGCC TTTTACAAAC
    AAAGATAGTG AAAGTTATTA CAGGGCTCAG ATCTTATACA TTTCTGGAAG TACTGCTATG
    GTTTTTTTTG TGGATTATGG TAACAAGTCA CAGGTGGAAT TGACGCTCTT AAGGATGATT
    CATGAAACAA TTCTAAATAT TCCTTTTCAG GCACTCGAGT TCAAGATTTG CAAGATGCGT
    CCTTCTGCAA AATCTTTGAT TTGTGGAGAA CAGTGGTGTC GCAGTGCTAG TGAGAGGTTT
    GATGCCTTGG TTAATGGATG TGCCCTTATG GTGAAGGTTC ATTCTATAGT TCACGATATT
    CTTCATGTTG ACGTGTACCG ACATTTTGAA AATCTTGAAG AAAAAAGTAT AAGAGATTTG
    CTTATTGCTG ATGGATATGC AGAGCCAGCT GAAGAATCCT ATGAATCCAA TCAAAGCAAT
    GAAGTTTTGA AGGAACTGTT CCTGCCAGAG TGTAATAAAA AGCCATACAA GCAAGGTTTT
    GCAAAAGATG ATGAAAAAAA TCAGATTGAG AAAATGCTAG ACAAATTTAC TCAAAATAAA
    CTTGGGATCC AACAGTGTAA GGCTGTGCTA CATGGTCCAT TTAGTCCCTA TGAAGTGAAA
    TTTCATAGCC TGATGAGAGT TTCCAAATTC AGATCAGTTT GGATTGAAAA GGAAAGCATT
    AATTCAGTGG TACTTAATGA AGCCCCAGAA GCACCTCACC AGAGAATATT TGTTGCTGCA
    TCTGTTTCTG TAAATGCATC TGGTTCTGTG ATAATGCTAC GTGAGACATC TTTGCTCCCT
    CCAATTCCAG GATTGCCAGC ACTTATCAGC ATGTTGTTTG CTCCAGTAAT AGAATTAAGA
    GTTGATGGCG CTAGAAAACA TTATACAGGT GTACTGTTTG GTTTAGGTTG GCACCATGAA
    AGTGGTACTT CAATATGGCC TGAGCATGAC ATTGAGCTAG CTTTTGATGT TCATTTCTCT
    GTGGATGACC TGGTAAAGAT TAATCTCCTA AGATCAACAA TAAACAAGGT CTTACGTCAG
    AACTATAATG GTTCTCTAAA CTCATCATAT GAACGGCCTG GATTTTTTCA AGAGGATATT
    CGTGAAAAGC TTCTGAATTT AATTCAAAAG GATAAACCTC GAGAGGTGAT AACTCCAAAG
    TGGTATGAAA AATTGTATCA GTGGAATCAG GTAGATCCAA AGTGGCTCAT TGACCAGTCT
    GATAGAACTG ACGAAGAAAG AAAAGCTGAT GTTTATCAGT TGCATACATT TGTAATGCTG
    AATCCTTAA

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

    CloneID OXa29727
    Clone ID Related Accession (Same CDS sequence) XM_012968700.2
    Accession Version XM_012968700.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4041bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product putative ATP-dependent RNA helicase TDRD9 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030684.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012968700.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGCTGCGGA AACTCACCGT AGACCAGATT AATGACTGGT TCACCATTGG CAAAGATGTA 
    ACTGATGTGA AGTTGCTGGG TTCTTGGTCG GAACCTAGCT CAGTTGCTAC TGGAGGCCGT
    GAAGCCGAGG AAAGTGAAAG GCGGTACCGC GGGCTTCAGT CTGAAAATGC ATACGTCAAG
    GAATTCAGAC TTGTGGAGGA ACGAGAGCTT GAGAAGTACA AGAGTTGTTC TGCTAACACA
    GCACGTACAA GAAAAATCTC AACATTTGAT GCATTAACAA TGCCGGAATT TGACCCCAAA
    TACCCAGAAT TGCCTATATT AAAGAGCAGA GAAGAGTTGA TTGCACTGAT TGAAAATAAT
    TCAGTTGTAG TAATACATGG TGCAACTGGC AGTGGTAAAA GTACTCAATT ACCGCAGTTC
    ATTTTGGATT ATCTAAGGCA ACATGGACAA TACTGTAATA TTGTTGTTAC TCAGCCTCGA
    AAAATAGCTG CCCGTAGCAT TGCTACATGG ATAAGTAATC AGCGATGTTG GACTCTCGGT
    GGCAGAGTGG GATACCAGGT GGGTTTGGAA AAGGTAGCAT CAGAGGAAAC TCAACTAATT
    TATATGACAA CAGGGGTCCT CCTGCAGAAG ATTGTTTCTG CTAAGAGCTT GTTGGAATTC
    ACACACATCT TTATAGATGA AGTCCATGAA CGTACAGAGG AAATGGACTT CCTACTAATG
    GTGGTGCGCA AGCTGCTTTG TACAAACTCC CGATTTGTGA AGGTGATATT AATGTCTGCT
    ACCATCAACT GCAAAGAATT TGCAGATTAT TTTGCAGTCC CTGTGTTAAA TAAGATGACA
    CCAGCTTACA TTTTTGAGGT AGAAGGTAAA CCTCATGACA TTGAGGTGTT TTATTTGGAT
    GACTTAAAGG ACATTCCTCA GGCAAAGATT GCTGCTCATT ATTCTGATGA ACCTTTAATA
    AGCAAGGAGA TGTACGAAGT TGCCACATCT TTGATACATT TATTTGATGA AATGGAAAAG
    GAAGAATTAA AGAAAGGAAA AATGAGTCAT AAAGCCTACA TTGAATCCAA CAGTGTATTG
    GTTTTCTTGC CAGGTTTGAT GGAGATCAAC TACATGCATG AACTTTTTAC AAATATGGTA
    CAGAAAAGAT TGCATGTGTA TCCTCTTCAT TCAAGCATCA CTCTTGATGA ACAAAACCTT
    GTGTTTATGC CTCCAGTTAT TGGATACAGA AAGGTCATTT TGTCAACAAA TATTGCTGAG
    AGCTCTATAA CTGTTCCAGA TGTAAAATAC GTCATAGACT TTTGCTTGAC TAAAACCCTT
    GTTTGTGATG AAGAAACAAA TTATCAGAGT TTGAGATTGA GCTGGGCATC AAAGACAAAT
    TGTGATCAAA GAAAAGGACG AGCTGGACGT GTTTCCAAGG GCTATTGTTA TCGATTTGTT
    CAGAAAGACT TTTGGAAAAA TATTATCCCT GAAAATGTTA TCCCTGAGAT GCTGCGTAGC
    CCTCTGGGAA GCACAATCTT AAAAGTGAAG CTTCTTGATA TGGGTGAGCC TAGAGCTTTG
    CTGGCAACTG CATTGTCTCC TCCTAATATC ACTGATATTG AACGGACTAT ACTCTTACTT
    AAGGAGCTAG GAGCACTTGC AGTTAGTGGG AAACGAGAAA ATGAAAATCC ATATGATGGA
    GAGCTCACTT TCTTGGGGAA AGTCCTTGCA CAATTACCTG TGGATTTACA ACTTGGAAAA
    CTGATTGTTC TTGGTCATGT CTTTGGATGC CTGGAGGAGT GCATTATTAT TGCTGCTGCA
    CTTTCACTAA AAAACTTTTT TGCTATGCCT TTTAGGCATC TTCTAGATGG ATACAGGAGC
    AAACTTAGTT TCTCTGGCAG TAGCAGAAGT GACTGCATTG CTCTTGTTGA TGCTTTTAAG
    TCCTGGCAGT CCTGTAAAGA GAGAGGCGAG CTTAGACTTT CCAAGGATGA GCTGGAATGG
    GGCAAGAGAA ATTACTTTCA GATCAAAAGA ATCAGAGAGG TGGCTGCTTT GTACGATGAT
    TTGAAAAAAA GAATTTCCCA CTTTAATATG CATGTTACTC AGCCAGCCAG GGATCCAGAT
    TACAATTTTA AGCAACGGTT TATTCTTCAG ATAGTTATGG CTGGTGCCTT TTATCCAAAC
    TATTTTACTT TTGGGCAATC TGATGAAAGA AGTGCTGTCC GTGACCTGTC TGCAAAAGAC
    CCCAGAACCA CTGTTGTGCT GAAGAATGTG CCAAATTACA GCTTCTTGTA CTATAAACAA
    ATACAGTCTC TCTTTAGACA GTGTGGACAA GTGAAATCCA TTTTATTTGA TGGCTCAAGA
    GCATTTGTTG AGTTTTCCCG TAACCCAACA GAAAGGTTCA AAACTCTTAC AGCGGTGTAC
    TTGGCACTTA AGATGGCACA GTTAAAAATA CCTCTTATAC TGAATGTTCA TCCTACTGAG
    GATATAGAGA AGGCTGATGA CACCATTACC AGTTTAAAAC TTTCAAGAAT AAATGTGGAC
    TGCCAAACAC AAACCTTTGA ATCGGTACAT GTCGCCAAGA CAATGGAAAA ACATTTAGAA
    ACATTGGATG GTCTTACATT ATCTGTAAAT ATCACAGAGG TTGTGGAAGT GGGTCATTTT
    TGGGGATTCA GCATTGATAC GAAAAGTATG GCCATTTTGG AAGAGCTAGC AACAAATATC
    AGACAGCAGC AATTGGTTCC CCTTACAGAA AGACCACACT CAAACATGAT GTGCTTGGCG
    CCTTTTACAA ACAAAGATAG TGAAAGTTAT TACAGGGCTC AGATCTTATA CATTTCTGGA
    AGTACTGCTA TGGTTTTTTT TGTGGATTAT GGTAACAAGT CACAGGTGGA ATTGACGCTC
    TTAAGGATGA TTCATGAAAC AATTCTAAAT ATTCCTTTTC AGGCACTCGA GTTCAAGATT
    TGCAAGATGC GTCCTTCTGC AAAATCTTTG ATTTGTGGAG AACAGTGGTG TCGCAGTGCT
    AGTGAGAGGT TTGATGCCTT GGTTAATGGA TGTGCCCTTA TGGTGAAGGT TCATTCTATA
    GTTCACGATA TTCTTCATGT TGACGTGTAC CGACATTTTG AAAATCTTGA AGAAAAAAGT
    ATAAGAGATT TGCTTATTGC TGATGGATAT GCAGAGCCAG CTGAAGAATC CTATGAATCC
    AATCAAAGCA ATGAAGTTTT GAAGGAACTG TTCCTGCCAG AGTGTAATAA AAAGCCATAC
    AAGCAAGGTT TTGCAAAAGA TGATGAAAAA AATCAGATTG AGAAAATGCT AGACAAATTT
    ACTCAAAATA AACTTGGGAT CCAACAGTGT AAGGCTGTGC TACATGGTCC ATTTAGTCCC
    TATGAAGTGA AATTTCATAG CCTGATGAGA GTTTCCAAAT TCAGATCAGT TTGGATTGAA
    AAGGAAAGCA TTAATTCAGT GGTACTTAAT GAAGCCCCAG AAGCACCTCA CCAGAGAATA
    TTTGTTGCTG CATCTGTTTC TGTAAATGCA TCTGGTTCTG TGATAATGCT ACGTGAGACA
    TCTTTGCTCC CTCCAATTCC AGGATTGCCA GCACTTATCA GCATGTTGTT TGCTCCAGTA
    ATAGAATTAA GAGTTGATGG CGCTAGAAAA CATTATACAG GTGTACTGTT TGGTTTAGGT
    TGGCACCATG AAAGTGGTAC TTCAATATGG CCTGAGCATG ACATTGAGCT AGCTTTTGAT
    GTTCATTTCT CTGTGGATGA CCTGGTAAAG ATTAATCTCC TAAGATCAAC AATAAACAAG
    GTCTTACGTC AGAACTATAA TGGTTCTCTA AACTCATCAT ATGAACGGCC TGGATTTTTT
    CAAGAGGATA TTCGTGAAAA GCTTCTGAAT TTAATTCAAA AGGATAAACC TCGAGAGGTG
    ATAACTCCAA AGTGGTATGA AAAATTGTAT CAGTGGAATC AGGTAGATCC AAAGTGGCTC
    ATTGACCAGT CTGATAGAAC TGACGAAGAA AGAAAAGCTG ATGTTTATCA GTTGCATACA
    TTTGTAATGC TGAATCCTTA A

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

    RefSeq XP_012824154.1
    CDS107..4147
    Translation

    Target ORF information:

    RefSeq Version XM_012968700.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis tudor domain containing 9 (tdrd9), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012968700.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGCTGCGGA AACTCACCGT AGACCAGATT AATGACTGGT TCACCATTGG CAAAGATGTA 
    ACTGATGTGA AGTTGCTGGG TTCTTGGTCG GAACCTAGCT CAGTTGCTAC TGGAGGCCGT
    GAAGCCGAGG AAAGTGAAAG GCGGTACCGC GGGCTTCAGT CTGAAAATGC ATACGTCAAG
    GAATTCAGAC TTGTGGAGGA ACGAGAGCTT GAGAAGTACA AGAGTTGTTC TGCTAACACA
    GCACGTACAA GAAAAATCTC AACATTTGAT GCATTAACAA TGCCGGAATT TGACCCCAAA
    TACCCAGAAT TGCCTATATT AAAGAGCAGA GAAGAGTTGA TTGCACTGAT TGAAAATAAT
    TCAGTTGTAG TAATACATGG TGCAACTGGC AGTGGTAAAA GTACTCAATT ACCGCAGTTC
    ATTTTGGATT ATCTAAGGCA ACATGGACAA TACTGTAATA TTGTTGTTAC TCAGCCTCGA
    AAAATAGCTG CCCGTAGCAT TGCTACATGG ATAAGTAATC AGCGATGTTG GACTCTCGGT
    GGCAGAGTGG GATACCAGGT GGGTTTGGAA AAGGTAGCAT CAGAGGAAAC TCAACTAATT
    TATATGACAA CAGGGGTCCT CCTGCAGAAG ATTGTTTCTG CTAAGAGCTT GTTGGAATTC
    ACACACATCT TTATAGATGA AGTCCATGAA CGTACAGAGG AAATGGACTT CCTACTAATG
    GTGGTGCGCA AGCTGCTTTG TACAAACTCC CGATTTGTGA AGGTGATATT AATGTCTGCT
    ACCATCAACT GCAAAGAATT TGCAGATTAT TTTGCAGTCC CTGTGTTAAA TAAGATGACA
    CCAGCTTACA TTTTTGAGGT AGAAGGTAAA CCTCATGACA TTGAGGTGTT TTATTTGGAT
    GACTTAAAGG ACATTCCTCA GGCAAAGATT GCTGCTCATT ATTCTGATGA ACCTTTAATA
    AGCAAGGAGA TGTACGAAGT TGCCACATCT TTGATACATT TATTTGATGA AATGGAAAAG
    GAAGAATTAA AGAAAGGAAA AATGAGTCAT AAAGCCTACA TTGAATCCAA CAGTGTATTG
    GTTTTCTTGC CAGGTTTGAT GGAGATCAAC TACATGCATG AACTTTTTAC AAATATGGTA
    CAGAAAAGAT TGCATGTGTA TCCTCTTCAT TCAAGCATCA CTCTTGATGA ACAAAACCTT
    GTGTTTATGC CTCCAGTTAT TGGATACAGA AAGGTCATTT TGTCAACAAA TATTGCTGAG
    AGCTCTATAA CTGTTCCAGA TGTAAAATAC GTCATAGACT TTTGCTTGAC TAAAACCCTT
    GTTTGTGATG AAGAAACAAA TTATCAGAGT TTGAGATTGA GCTGGGCATC AAAGACAAAT
    TGTGATCAAA GAAAAGGACG AGCTGGACGT GTTTCCAAGG GCTATTGTTA TCGATTTGTT
    CAGAAAGACT TTTGGAAAAA TATTATCCCT GAAAATGTTA TCCCTGAGAT GCTGCGTAGC
    CCTCTGGGAA GCACAATCTT AAAAGTGAAG CTTCTTGATA TGGGTGAGCC TAGAGCTTTG
    CTGGCAACTG CATTGTCTCC TCCTAATATC ACTGATATTG AACGGACTAT ACTCTTACTT
    AAGGAGCTAG GAGCACTTGC AGTTAGTGGG AAACGAGAAA ATGAAAATCC ATATGATGGA
    GAGCTCACTT TCTTGGGGAA AGTCCTTGCA CAATTACCTG TGGATTTACA ACTTGGAAAA
    CTGATTGTTC TTGGTCATGT CTTTGGATGC CTGGAGGAGT GCATTATTAT TGCTGCTGCA
    CTTTCACTAA AAAACTTTTT TGCTATGCCT TTTAGGCATC TTCTAGATGG ATACAGGAGC
    AAACTTAGTT TCTCTGGCAG TAGCAGAAGT GACTGCATTG CTCTTGTTGA TGCTTTTAAG
    TCCTGGCAGT CCTGTAAAGA GAGAGGCGAG CTTAGACTTT CCAAGGATGA GCTGGAATGG
    GGCAAGAGAA ATTACTTTCA GATCAAAAGA ATCAGAGAGG TGGCTGCTTT GTACGATGAT
    TTGAAAAAAA GAATTTCCCA CTTTAATATG CATGTTACTC AGCCAGCCAG GGATCCAGAT
    TACAATTTTA AGCAACGGTT TATTCTTCAG ATAGTTATGG CTGGTGCCTT TTATCCAAAC
    TATTTTACTT TTGGGCAATC TGATGAAAGA AGTGCTGTCC GTGACCTGTC TGCAAAAGAC
    CCCAGAACCA CTGTTGTGCT GAAGAATGTG CCAAATTACA GCTTCTTGTA CTATAAACAA
    ATACAGTCTC TCTTTAGACA GTGTGGACAA GTGAAATCCA TTTTATTTGA TGGCTCAAGA
    GCATTTGTTG AGTTTTCCCG TAACCCAACA GAAAGGTTCA AAACTCTTAC AGCGGTGTAC
    TTGGCACTTA AGATGGCACA GTTAAAAATA CCTCTTATAC TGAATGTTCA TCCTACTGAG
    GATATAGAGA AGGCTGATGA CACCATTACC AGTTTAAAAC TTTCAAGAAT AAATGTGGAC
    TGCCAAACAC AAACCTTTGA ATCGGTACAT GTCGCCAAGA CAATGGAAAA ACATTTAGAA
    ACATTGGATG GTCTTACATT ATCTGTAAAT ATCACAGAGG TTGTGGAAGT GGGTCATTTT
    TGGGGATTCA GCATTGATAC GAAAAGTATG GCCATTTTGG AAGAGCTAGC AACAAATATC
    AGACAGCAGC AATTGGTTCC CCTTACAGAA AGACCACACT CAAACATGAT GTGCTTGGCG
    CCTTTTACAA ACAAAGATAG TGAAAGTTAT TACAGGGCTC AGATCTTATA CATTTCTGGA
    AGTACTGCTA TGGTTTTTTT TGTGGATTAT GGTAACAAGT CACAGGTGGA ATTGACGCTC
    TTAAGGATGA TTCATGAAAC AATTCTAAAT ATTCCTTTTC AGGCACTCGA GTTCAAGATT
    TGCAAGATGC GTCCTTCTGC AAAATCTTTG ATTTGTGGAG AACAGTGGTG TCGCAGTGCT
    AGTGAGAGGT TTGATGCCTT GGTTAATGGA TGTGCCCTTA TGGTGAAGGT TCATTCTATA
    GTTCACGATA TTCTTCATGT TGACGTGTAC CGACATTTTG AAAATCTTGA AGAAAAAAGT
    ATAAGAGATT TGCTTATTGC TGATGGATAT GCAGAGCCAG CTGAAGAATC CTATGAATCC
    AATCAAAGCA ATGAAGTTTT GAAGGAACTG TTCCTGCCAG AGTGTAATAA AAAGCCATAC
    AAGCAAGGTT TTGCAAAAGA TGATGAAAAA AATCAGATTG AGAAAATGCT AGACAAATTT
    ACTCAAAATA AACTTGGGAT CCAACAGTGT AAGGCTGTGC TACATGGTCC ATTTAGTCCC
    TATGAAGTGA AATTTCATAG CCTGATGAGA GTTTCCAAAT TCAGATCAGT TTGGATTGAA
    AAGGAAAGCA TTAATTCAGT GGTACTTAAT GAAGCCCCAG AAGCACCTCA CCAGAGAATA
    TTTGTTGCTG CATCTGTTTC TGTAAATGCA TCTGGTTCTG TGATAATGCT ACGTGAGACA
    TCTTTGCTCC CTCCAATTCC AGGATTGCCA GCACTTATCA GCATGTTGTT TGCTCCAGTA
    ATAGAATTAA GAGTTGATGG CGCTAGAAAA CATTATACAG GTGTACTGTT TGGTTTAGGT
    TGGCACCATG AAAGTGGTAC TTCAATATGG CCTGAGCATG ACATTGAGCT AGCTTTTGAT
    GTTCATTTCT CTGTGGATGA CCTGGTAAAG ATTAATCTCC TAAGATCAAC AATAAACAAG
    GTCTTACGTC AGAACTATAA TGGTTCTCTA AACTCATCAT ATGAACGGCC TGGATTTTTT
    CAAGAGGATA TTCGTGAAAA GCTTCTGAAT TTAATTCAAA AGGATAAACC TCGAGAGGTG
    ATAACTCCAA AGTGGTATGA AAAATTGTAT CAGTGGAATC AGGTAGATCC AAAGTGGCTC
    ATTGACCAGT CTGATAGAAC TGACGAAGAA AGAAAAGCTG ATGTTTATCA GTTGCATACA
    TTTGTAATGC TGAATCCTTA A

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