TDRD9 cDNA ORF clone, Macaca mulatta(Rhesus monkey)

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
OMb90329 XM_028851927.1
Latest version!
Macaca mulatta tudor domain containing 9 (TDRD9), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMb90330 XM_028851928.1
Latest version!
Macaca mulatta tudor domain containing 9 (TDRD9), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMb90331 XM_028851929.1
Latest version!
Macaca mulatta tudor domain containing 9 (TDRD9), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OMb37687 XM_015144525.1
Latest version!
Macaca mulatta tudor domain containing 9 (TDRD9), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $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 OMb90329
    Clone ID Related Accession (Same CDS sequence) XM_028851927.1
    Accession Version XM_028851927.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4149bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    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_041760.1) 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 Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    4081
    4141
    ATGCTGCGCA AGCTCACCCT CGAGCAGATC AACGACTGGT TCACCATTGG CAAGACCGTG 
    ACCAATGTGG AGCTGCTGGG CGCGCCGCCC GCCTTCCCGG CCGGGGCGGC CAGGGAGGAG
    GCTCAGCGCC AGGACGTGGC CCCCGGCGCC GGTCCCGCGG CCCAGGCTGC GGCCCTGGCC
    CAAGCTCCGG CCCAGCAGGC CGCTGCGTTC GAAAGGTCAC TCAGCCAAAG GAGCTCAGAA
    GTAGAATATA TTAACAAATA CAGACAGCTT GAAGCACAAG AGCTTGATGT GTGTGGCAGT
    GTCCAACCAA CCAGTGGGCC AGGTCCAAGG CCATCTTTGG CTAAATTAAG CAATGTGACG
    TGCATCCCAG GGACAACTTA TAAATATCCT GATTTGCCTA TAAGTCGATA TAAGGAAGAG
    GTTGTGTCTT TGATAGAAAG TAATTCCGTG GTGATTATAC ATGGGGCCAC AGGAAGCGGT
    AAAAGCACTC AGCTCCCCCA GTATATCTTG GACCACTACG TTCAGCGCTC CGCCTACTGC
    AGCATTGTGG TCACCCAGCC CCGGAAGATA GGGGCAAGCA GCATCGCCAG GTGGATCAGT
    AAAGAGCGTG CCTGGACCCT GGGGGGTGTG GTGGGCTACC AGGTAGGGCT AGAGAAAATA
    GCAACGGAGG ACACGAGGCT AATTTATATG ACAACTGGAG TCCTGCTTCA GAAAGTAGTT
    AGTGCCAAGA GTTTGATGGA ATTCACACAT ATCATCATTG ATGAAGTACA CGAACGAACA
    GAAGAAATGG ATTTCCTGCT GTTGGTAGTC CGCAAACTCT TAAGAACAAA TTCACGTTTT
    GTGAAGGTAG TCCTGATGTC GGCTACCATC AACTGTAAAG AGTTTGCAGA CTACTTTGCC
    GTTCCTGTTC AAAACAAGAT GAATCCTGCA TATATTTTTG AAGTGGAAGG CAAGCCCCAT
    TCAGTTGAAG AGTATTATCT TAATGATTTG GGGCACATTC ATCATAGCAA GCTCTCTCCT
    CATCTCCTGG AGGAACCTGT GATAACTAAG GATATATATG AAGTTGCTAT CTCTCTCATT
    CAGATGTTTG ATGACTTGGA TATGAAGGAG AATGGGAACA AGGCCTGGTC GGGTGCCCAG
    TTTGTGTTGG AGCGAAGCAG TGTGTTGGTG TTTTTGCCAG GTCTGGGTGA AATAAACTAT
    ATGCATGAAC TTCTCACAAA CCTGGTTCAT AAAAGGTTGC AGGTCTATCC ACTCCATTCA
    AGTGTGGCTT TAGAAGAACA GAATAATGTA TTTTTGAGTC CAGTCCCTGG GTACAGAAAG
    ATTATTCTGT CCACCAATAT TGCAGAGAGT TCTGTCACAG TTCCAGATGT CAAATATGTT
    ATAGATTTTT GTTTGACTAG AACTTTGGTC TGTGATGAAG ATACAAATTA TCAGAGTCTG
    CGATTGAGTT GGGCCTCTAA AACCAGCTGT AATCAGAGAA AAGGCCGTGC TGGACGAGTG
    TCTAGAGGGT ACTGTTACCG GCTGGTACAC AAGGATTTCT GGGACAACTC CATCCCTGAT
    CATGTTGTTC CTGAGATGTT GCGTTGTCCA TTAGGAAGCA CAATCTTGAA AGCGAAATTA
    CTCGACATGG GTGAGCCGAG AGCTCTGCTG GCCACTGCCC TTTCCCCGCC TGGTCTGAGT
    GACATTGAGC GCACCATCCT TCTACTAAAG GAGGTTGGAG CACTTGCAGT GAGTGGGCAG
    AGAGAAGATG AAAACCCCCA TGACGGTGAA TTGACCTTCT TAGGAAGAGT TTTAGCCCAA
    CTTCCTGTAA ATCAGCAACT TGGTAAACTC ATAGTCCTTG GACATGTATT TGGATGTCTA
    GATGAATGTC TTATTATAGC GGCAGCTCTT TCTTTGAAGA ATTTTTTTGC AATGCCTTTC
    CGGCAGCATC TCGATGGATA TAGGAACAAA GTGAATTTCT CTGGCAGTAG CAAGAGTGAC
    TGCATTGCAC TTGTTGAGGC ATTTAAAACA TGGAAGGCTT GCAGACAGAG AGGGGAGCTG
    CGATACCCAA AGGATGAACT TAATTGGGGA CGGTTAAATT ACATTCAAAT CAAGAGAATT
    AGAGAGGTGG CTGAATTATA CGAAGAATTG AAGACTAGAA TCTCACAGTT CAACATGCAT
    GTTGATTCTC GGCGACCTGT CATGGACCAA GAGTATATAT ATAAGCAGCG ATTCATCCTA
    CAGGTTGTAT TGGCAGGTGC TTTCTATCCA AATTACTTTA CTTTCGGACA GCCTGATGAG
    GAGATGGCGG TGAGGGAGCT GGCTGGCAAG GACCCCAAGA CAACTGTAGT GTTGAAGCAC
    ATTCCTCCCT ATGGATTTCT TTACTATAAA CAACTACAGT CTCTCTTTAG ACAGTGTGGT
    CAAGTCAAAT CTATTGTATT TGATGGTGCA AAAGCCTTTG TGGAATTCTC ACGAAATCCA
    ACAGAGAGAT TTAAAACCCT TCCTGCCGTG TATATGGCAA TTAAGATGTC TCAACTAAAA
    GTTTCACTTG AACTCAACGT TCATTCTGCA GAGGAAATTG AAGGGAAGGT GCAAGGCATG
    AATGTCTCAA AGCTCAGGAA CACAAGGGTG AATGTGGACT TCCAGAAGCA GACGGTAGAT
    CCTATGCAAG TCTCATTTAA CACATCAGAC AGGTCCCAGA CAGTTACAGA TCTCCTTCTA
    ACTATTGATG TCACAGAGGT GGTTGAAGTG GGACACTTTT GGGGATATAG GATTGATGAA
    AAAAACTCAG AGATTCTGAA AAAGCTTACT GCTGAAATCA ACCAACTGAC GTTGATGCCC
    TTACCCACTC ACCCACATCC AGACTTGGTC TGTCTGGCAC CTTTTGCTGA TTTTGGTAAA
    CAACGCTACT TTAGAGCTCA AGTCCTTTAT GTTTCTGGAA ATTCTGCTGA GGTATTCTTT
    GTAGATTATG GCAATAGGTC TCATGTAGAT CTACATCTTT TGATGGAGAT TCCCTGTCAA
    TTTCTTGAAC TTCCCTTCCA GGCTTTGGAA TTTAAGATTT GCAAAATGAG ACCATCGGCA
    AAGTCTCTTG TTTGTGGCGA GCACTGGAGC GACGGGGCCA GCCAGTGGTT CGCCTCTCTG
    GTGAGCGGCT GCACCCTCCT TGTGAAGGTC TTCTCTGTGG TGCACAGCGT CCTGCACGTG
    GACGTGTACC AGTACTCGGG GGTCCAGGAT GCCATCAACA TAAGAGATGT CCTCATCCAG
    CAGGGCTATG CTGAGCTCAC GGAGGAGTCC TACGAGTCCA AGCAAAGCCA TGAAGTTCTC
    AAGGGCCTCT TTTCCAAGTC AGTAGAAAAT GTGACAGACG GCTGTGCGCC CTTTCCCATG
    AAAGACGACG AGAAATATCT CATCCGGATT TTGTTAGAGA GCTTTTCTTC CAATAAACTG
    GGTACTCCAA ACTGTAAGGC AGTACTTCAT GGGCCTTTTA ACCCTTATGA ACTAAAGTGC
    CATAGTTTGA CCAGAATATC CAAATTCAGG TGTGTGTGGA TTGAGAAGGA GAGCATCAAC
    TCTGTCATTA TCAGTGACGC CCCTGAAGAC CTTCACCAGA GAATGCTGGT TGCAGCTTCC
    CTGTCCATCA ATGCGACTGG ATCTACGATG CTGCTGAGAG AAACCTCTCT GATGCCTCAT
    ATCCCTGGCC TCCCGGCTCT CCTCAGTATG TTATTTGCAC CAGTGATGGA GTTAAGGATT
    GATCAGAATG GCAAGTACTA TACTGGAGTC CTTTGTGGTT TGGGGTGGAA TCCAACTACA
    GGGGCTTCCA TACTGCCCGA GCACGACATG GAGCTTGCGT TTGACGTTCA GTTCAGCGTG
    GAGGACGTTG TCGAGGTTAA TATTCTCAGG GCTGCTATTA ACAAGCTAGT CTGTGATGGA
    CCAAATGGAT GCAAGTGTCT TGGGCCAGAG AGAGTTGCGC AGCTTCAGGA TAGCGCCCGT
    CAGAAGCTTT TAGGTTTGTT CTGTCAATCA AAACCAAGAG AGAAGATTGT TCCCAAGTGG
    CATGAAAAGC CCTACGAGTG GAATCAGGTT GATCCAAAGC TGGTCATGGA GCAGGCCGAC
    CGTGAGAGCA GCAGAGGGAA GAACACCTTT CTCTACCAGC TCCACAAACT GGTTGTGCTC
    GGCACCTGA

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

    RefSeq XP_028707760.1
    CDS72..4220
    Translation

    Target ORF information:

    RefSeq Version XM_028851927.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta 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_028851927.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGCTGCGCA AGCTCACCCT CGAGCAGATC AACGACTGGT TCACCATTGG CAAGACCGTG 
    ACCAATGTGG AGCTGCTGGG CGCGCCGCCC GCCTTCCCGG CCGGGGCGGC CAGGGAGGAG
    GCTCAGCGCC AGGACGTGGC CCCCGGCGCC GGTCCCGCGG CCCAGGCTGC GGCCCTGGCC
    CAAGCTCCGG CCCAGCAGGC CGCTGCGTTC GAAAGGTCAC TCAGCCAAAG GAGCTCAGAA
    GTAGAATATA TTAACAAATA CAGACAGCTT GAAGCACAAG AGCTTGATGT GTGTGGCAGT
    GTCCAACCAA CCAGTGGGCC AGGTCCAAGG CCATCTTTGG CTAAATTAAG CAATGTGACG
    TGCATCCCAG GGACAACTTA TAAATATCCT GATTTGCCTA TAAGTCGATA TAAGGAAGAG
    GTTGTGTCTT TGATAGAAAG TAATTCCGTG GTGATTATAC ATGGGGCCAC AGGAAGCGGT
    AAAAGCACTC AGCTCCCCCA GTATATCTTG GACCACTACG TTCAGCGCTC CGCCTACTGC
    AGCATTGTGG TCACCCAGCC CCGGAAGATA GGGGCAAGCA GCATCGCCAG GTGGATCAGT
    AAAGAGCGTG CCTGGACCCT GGGGGGTGTG GTGGGCTACC AGGTAGGGCT AGAGAAAATA
    GCAACGGAGG ACACGAGGCT AATTTATATG ACAACTGGAG TCCTGCTTCA GAAAGTAGTT
    AGTGCCAAGA GTTTGATGGA ATTCACACAT ATCATCATTG ATGAAGTACA CGAACGAACA
    GAAGAAATGG ATTTCCTGCT GTTGGTAGTC CGCAAACTCT TAAGAACAAA TTCACGTTTT
    GTGAAGGTAG TCCTGATGTC GGCTACCATC AACTGTAAAG AGTTTGCAGA CTACTTTGCC
    GTTCCTGTTC AAAACAAGAT GAATCCTGCA TATATTTTTG AAGTGGAAGG CAAGCCCCAT
    TCAGTTGAAG AGTATTATCT TAATGATTTG GGGCACATTC ATCATAGCAA GCTCTCTCCT
    CATCTCCTGG AGGAACCTGT GATAACTAAG GATATATATG AAGTTGCTAT CTCTCTCATT
    CAGATGTTTG ATGACTTGGA TATGAAGGAG AATGGGAACA AGGCCTGGTC GGGTGCCCAG
    TTTGTGTTGG AGCGAAGCAG TGTGTTGGTG TTTTTGCCAG GTCTGGGTGA AATAAACTAT
    ATGCATGAAC TTCTCACAAA CCTGGTTCAT AAAAGGTTGC AGGTCTATCC ACTCCATTCA
    AGTGTGGCTT TAGAAGAACA GAATAATGTA TTTTTGAGTC CAGTCCCTGG GTACAGAAAG
    ATTATTCTGT CCACCAATAT TGCAGAGAGT TCTGTCACAG TTCCAGATGT CAAATATGTT
    ATAGATTTTT GTTTGACTAG AACTTTGGTC TGTGATGAAG ATACAAATTA TCAGAGTCTG
    CGATTGAGTT GGGCCTCTAA AACCAGCTGT AATCAGAGAA AAGGCCGTGC TGGACGAGTG
    TCTAGAGGGT ACTGTTACCG GCTGGTACAC AAGGATTTCT GGGACAACTC CATCCCTGAT
    CATGTTGTTC CTGAGATGTT GCGTTGTCCA TTAGGAAGCA CAATCTTGAA AGCGAAATTA
    CTCGACATGG GTGAGCCGAG AGCTCTGCTG GCCACTGCCC TTTCCCCGCC TGGTCTGAGT
    GACATTGAGC GCACCATCCT TCTACTAAAG GAGGTTGGAG CACTTGCAGT GAGTGGGCAG
    AGAGAAGATG AAAACCCCCA TGACGGTGAA TTGACCTTCT TAGGAAGAGT TTTAGCCCAA
    CTTCCTGTAA ATCAGCAACT TGGTAAACTC ATAGTCCTTG GACATGTATT TGGATGTCTA
    GATGAATGTC TTATTATAGC GGCAGCTCTT TCTTTGAAGA ATTTTTTTGC AATGCCTTTC
    CGGCAGCATC TCGATGGATA TAGGAACAAA GTGAATTTCT CTGGCAGTAG CAAGAGTGAC
    TGCATTGCAC TTGTTGAGGC ATTTAAAACA TGGAAGGCTT GCAGACAGAG AGGGGAGCTG
    CGATACCCAA AGGATGAACT TAATTGGGGA CGGTTAAATT ACATTCAAAT CAAGAGAATT
    AGAGAGGTGG CTGAATTATA CGAAGAATTG AAGACTAGAA TCTCACAGTT CAACATGCAT
    GTTGATTCTC GGCGACCTGT CATGGACCAA GAGTATATAT ATAAGCAGCG ATTCATCCTA
    CAGGTTGTAT TGGCAGGTGC TTTCTATCCA AATTACTTTA CTTTCGGACA GCCTGATGAG
    GAGATGGCGG TGAGGGAGCT GGCTGGCAAG GACCCCAAGA CAACTGTAGT GTTGAAGCAC
    ATTCCTCCCT ATGGATTTCT TTACTATAAA CAACTACAGT CTCTCTTTAG ACAGTGTGGT
    CAAGTCAAAT CTATTGTATT TGATGGTGCA AAAGCCTTTG TGGAATTCTC ACGAAATCCA
    ACAGAGAGAT TTAAAACCCT TCCTGCCGTG TATATGGCAA TTAAGATGTC TCAACTAAAA
    GTTTCACTTG AACTCAACGT TCATTCTGCA GAGGAAATTG AAGGGAAGGT GCAAGGCATG
    AATGTCTCAA AGCTCAGGAA CACAAGGGTG AATGTGGACT TCCAGAAGCA GACGGTAGAT
    CCTATGCAAG TCTCATTTAA CACATCAGAC AGGTCCCAGA CAGTTACAGA TCTCCTTCTA
    ACTATTGATG TCACAGAGGT GGTTGAAGTG GGACACTTTT GGGGATATAG GATTGATGAA
    AAAAACTCAG AGATTCTGAA AAAGCTTACT GCTGAAATCA ACCAACTGAC GTTGATGCCC
    TTACCCACTC ACCCACATCC AGACTTGGTC TGTCTGGCAC CTTTTGCTGA TTTTGGTAAA
    CAACGCTACT TTAGAGCTCA AGTCCTTTAT GTTTCTGGAA ATTCTGCTGA GGTATTCTTT
    GTAGATTATG GCAATAGGTC TCATGTAGAT CTACATCTTT TGATGGAGAT TCCCTGTCAA
    TTTCTTGAAC TTCCCTTCCA GGCTTTGGAA TTTAAGATTT GCAAAATGAG ACCATCGGCA
    AAGTCTCTTG TTTGTGGCGA GCACTGGAGC GACGGGGCCA GCCAGTGGTT CGCCTCTCTG
    GTGAGCGGCT GCACCCTCCT TGTGAAGGTC TTCTCTGTGG TGCACAGCGT CCTGCACGTG
    GACGTGTACC AGTACTCGGG GGTCCAGGAT GCCATCAACA TAAGAGATGT CCTCATCCAG
    CAGGGCTATG CTGAGCTCAC GGAGGAGTCC TACGAGTCCA AGCAAAGCCA TGAAGTTCTC
    AAGGGCCTCT TTTCCAAGTC AGTAGAAAAT GTGACAGACG GCTGTGCGCC CTTTCCCATG
    AAAGACGACG AGAAATATCT CATCCGGATT TTGTTAGAGA GCTTTTCTTC CAATAAACTG
    GGTACTCCAA ACTGTAAGGC AGTACTTCAT GGGCCTTTTA ACCCTTATGA ACTAAAGTGC
    CATAGTTTGA CCAGAATATC CAAATTCAGG TGTGTGTGGA TTGAGAAGGA GAGCATCAAC
    TCTGTCATTA TCAGTGACGC CCCTGAAGAC CTTCACCAGA GAATGCTGGT TGCAGCTTCC
    CTGTCCATCA ATGCGACTGG ATCTACGATG CTGCTGAGAG AAACCTCTCT GATGCCTCAT
    ATCCCTGGCC TCCCGGCTCT CCTCAGTATG TTATTTGCAC CAGTGATGGA GTTAAGGATT
    GATCAGAATG GCAAGTACTA TACTGGAGTC CTTTGTGGTT TGGGGTGGAA TCCAACTACA
    GGGGCTTCCA TACTGCCCGA GCACGACATG GAGCTTGCGT TTGACGTTCA GTTCAGCGTG
    GAGGACGTTG TCGAGGTTAA TATTCTCAGG GCTGCTATTA ACAAGCTAGT CTGTGATGGA
    CCAAATGGAT GCAAGTGTCT TGGGCCAGAG AGAGTTGCGC AGCTTCAGGA TAGCGCCCGT
    CAGAAGCTTT TAGGTTTGTT CTGTCAATCA AAACCAAGAG AGAAGATTGT TCCCAAGTGG
    CATGAAAAGC CCTACGAGTG GAATCAGGTT GATCCAAAGC TGGTCATGGA GCAGGCCGAC
    CGTGAGAGCA GCAGAGGGAA GAACACCTTT CTCTACCAGC TCCACAAACT GGTTGTGCTC
    GGCACCTGA

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

    CloneID OMb90330
    Clone ID Related Accession (Same CDS sequence) XM_028851928.1
    Accession Version XM_028851928.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3927bp)
    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 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    Product ATP-dependent RNA helicase TDRD9 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041760.1) 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 Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGCTGCGCA AGCTCACCCT CGAGCAGATC AACGACTGGT TCACCATTGG CAAGACCGTG 
    ACCAATGTGG AGCTGCTGGG CGCGCCGCCC GCCTTCCCGG CCGGGGCGGC CAGGGAGGAG
    GCTCAGCGCC AGGACGTGGC CCCCGGCGCC GGTCCCGCGG CCCAGGCTGC GGCCCTGGCC
    CAAGCTCCGG CCCAGCAGGC CGCTGCGTTC GAAAGGTCAC TCAGCCAAAG GAGCTCAGAA
    GTAGAATATA TTAACAAATA CAGACAGCTT GAAGCACAAG AGCTTGATGT GTGTGGCAGT
    GTCCAACCAA CCAGTGGGCC AGGTCCAAGG CCATCTTTGG CTAAATTAAG CAATGTGACG
    TGCATCCCAG GGACAACTTA TAAATATCCT GATTTGCCTA TAAGTCGATA TAAGGAAGAG
    GTAGGGCTAG AGAAAATAGC AACGGAGGAC ACGAGGCTAA TTTATATGAC AACTGGAGTC
    CTGCTTCAGA AAGTAGTTAG TGCCAAGAGT TTGATGGAAT TCACACATAT CATCATTGAT
    GAAGTACACG AACGAACAGA AGAAATGGAT TTCCTGCTGT TGGTAGTCCG CAAACTCTTA
    AGAACAAATT CACGTTTTGT GAAGGTAGTC CTGATGTCGG CTACCATCAA CTGTAAAGAG
    TTTGCAGACT ACTTTGCCGT TCCTGTTCAA AACAAGATGA ATCCTGCATA TATTTTTGAA
    GTGGAAGGCA AGCCCCATTC AGTTGAAGAG TATTATCTTA ATGATTTGGG GCACATTCAT
    CATAGCAAGC TCTCTCCTCA TCTCCTGGAG GAACCTGTGA TAACTAAGGA TATATATGAA
    GTTGCTATCT CTCTCATTCA GATGTTTGAT GACTTGGATA TGAAGGAGAA TGGGAACAAG
    GCCTGGTCGG GTGCCCAGTT TGTGTTGGAG CGAAGCAGTG TGTTGGTGTT TTTGCCAGGT
    CTGGGTGAAA TAAACTATAT GCATGAACTT CTCACAAACC TGGTTCATAA AAGGTTGCAG
    GTCTATCCAC TCCATTCAAG TGTGGCTTTA GAAGAACAGA ATAATGTATT TTTGAGTCCA
    GTCCCTGGGT ACAGAAAGAT TATTCTGTCC ACCAATATTG CAGAGAGTTC TGTCACAGTT
    CCAGATGTCA AATATGTTAT AGATTTTTGT TTGACTAGAA CTTTGGTCTG TGATGAAGAT
    ACAAATTATC AGAGTCTGCG ATTGAGTTGG GCCTCTAAAA CCAGCTGTAA TCAGAGAAAA
    GGCCGTGCTG GACGAGTGTC TAGAGGGTAC TGTTACCGGC TGGTACACAA GGATTTCTGG
    GACAACTCCA TCCCTGATCA TGTTGTTCCT GAGATGTTGC GTTGTCCATT AGGAAGCACA
    ATCTTGAAAG CGAAATTACT CGACATGGGT GAGCCGAGAG CTCTGCTGGC CACTGCCCTT
    TCCCCGCCTG GTCTGAGTGA CATTGAGCGC ACCATCCTTC TACTAAAGGA GGTTGGAGCA
    CTTGCAGTGA GTGGGCAGAG AGAAGATGAA AACCCCCATG ACGGTGAATT GACCTTCTTA
    GGAAGAGTTT TAGCCCAACT TCCTGTAAAT CAGCAACTTG GTAAACTCAT AGTCCTTGGA
    CATGTATTTG GATGTCTAGA TGAATGTCTT ATTATAGCGG CAGCTCTTTC TTTGAAGAAT
    TTTTTTGCAA TGCCTTTCCG GCAGCATCTC GATGGATATA GGAACAAAGT GAATTTCTCT
    GGCAGTAGCA AGAGTGACTG CATTGCACTT GTTGAGGCAT TTAAAACATG GAAGGCTTGC
    AGACAGAGAG GGGAGCTGCG ATACCCAAAG GATGAACTTA ATTGGGGACG GTTAAATTAC
    ATTCAAATCA AGAGAATTAG AGAGGTGGCT GAATTATACG AAGAATTGAA GACTAGAATC
    TCACAGTTCA ACATGCATGT TGATTCTCGG CGACCTGTCA TGGACCAAGA GTATATATAT
    AAGCAGCGAT TCATCCTACA GGTTGTATTG GCAGGTGCTT TCTATCCAAA TTACTTTACT
    TTCGGACAGC CTGATGAGGA GATGGCGGTG AGGGAGCTGG CTGGCAAGGA CCCCAAGACA
    ACTGTAGTGT TGAAGCACAT TCCTCCCTAT GGATTTCTTT ACTATAAACA ACTACAGTCT
    CTCTTTAGAC AGTGTGGTCA AGTCAAATCT ATTGTATTTG ATGGTGCAAA AGCCTTTGTG
    GAATTCTCAC GAAATCCAAC AGAGAGATTT AAAACCCTTC CTGCCGTGTA TATGGCAATT
    AAGATGTCTC AACTAAAAGT TTCACTTGAA CTCAACGTTC ATTCTGCAGA GGAAATTGAA
    GGGAAGGTGC AAGGCATGAA TGTCTCAAAG CTCAGGAACA CAAGGGTGAA TGTGGACTTC
    CAGAAGCAGA CGGTAGATCC TATGCAAGTC TCATTTAACA CATCAGACAG GTCCCAGACA
    GTTACAGATC TCCTTCTAAC TATTGATGTC ACAGAGGTGG TTGAAGTGGG ACACTTTTGG
    GGATATAGGA TTGATGAAAA AAACTCAGAG ATTCTGAAAA AGCTTACTGC TGAAATCAAC
    CAACTGACGT TGATGCCCTT ACCCACTCAC CCACATCCAG ACTTGGTCTG TCTGGCACCT
    TTTGCTGATT TTGGTAAACA ACGCTACTTT AGAGCTCAAG TCCTTTATGT TTCTGGAAAT
    TCTGCTGAGG TATTCTTTGT AGATTATGGC AATAGGTCTC ATGTAGATCT ACATCTTTTG
    ATGGAGATTC CCTGTCAATT TCTTGAACTT CCCTTCCAGG CTTTGGAATT TAAGATTTGC
    AAAATGAGAC CATCGGCAAA GTCTCTTGTT TGTGGCGAGC ACTGGAGCGA CGGGGCCAGC
    CAGTGGTTCG CCTCTCTGGT GAGCGGCTGC ACCCTCCTTG TGAAGGTCTT CTCTGTGGTG
    CACAGCGTCC TGCACGTGGA CGTGTACCAG TACTCGGGGG TCCAGGATGC CATCAACATA
    AGAGATGTCC TCATCCAGCA GGGCTATGCT GAGCTCACGG AGGAGTCCTA CGAGTCCAAG
    CAAAGCCATG AAGTTCTCAA GGGCCTCTTT TCCAAGTCAG TAGAAAATGT GACAGACGGC
    TGTGCGCCCT TTCCCATGAA AGACGACGAG AAATATCTCA TCCGGATTTT GTTAGAGAGC
    TTTTCTTCCA ATAAACTGGG TACTCCAAAC TGTAAGGCAG TACTTCATGG GCCTTTTAAC
    CCTTATGAAC TAAAGTGCCA TAGTTTGACC AGAATATCCA AATTCAGGTG TGTGTGGATT
    GAGAAGGAGA GCATCAACTC TGTCATTATC AGTGACGCCC CTGAAGACCT TCACCAGAGA
    ATGCTGGTTG CAGCTTCCCT GTCCATCAAT GCGACTGGAT CTACGATGCT GCTGAGAGAA
    ACCTCTCTGA TGCCTCATAT CCCTGGCCTC CCGGCTCTCC TCAGTATGTT ATTTGCACCA
    GTGATGGAGT TAAGGATTGA TCAGAATGGC AAGTACTATA CTGGAGTCCT TTGTGGTTTG
    GGGTGGAATC CAACTACAGG GGCTTCCATA CTGCCCGAGC ACGACATGGA GCTTGCGTTT
    GACGTTCAGT TCAGCGTGGA GGACGTTGTC GAGGTTAATA TTCTCAGGGC TGCTATTAAC
    AAGCTAGTCT GTGATGGACC AAATGGATGC AAGTGTCTTG GGCCAGAGAG AGTTGCGCAG
    CTTCAGGATA GCGCCCGTCA GAAGCTTTTA GGTTTGTTCT GTCAATCAAA ACCAAGAGAG
    AAGATTGTTC CCAAGTGGCA TGAAAAGCCC TACGAGTGGA ATCAGGTTGA TCCAAAGCTG
    GTCATGGAGC AGGCCGACCG TGAGAGCAGC AGAGGGAAGA ACACCTTTCT CTACCAGCTC
    CACAAACTGG TTGTGCTCGG CACCTGA

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

    RefSeq XP_028707761.1
    CDS72..3998
    Translation

    Target ORF information:

    RefSeq Version XM_028851928.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta 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_028851928.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCTGCGCA AGCTCACCCT CGAGCAGATC AACGACTGGT TCACCATTGG CAAGACCGTG 
    ACCAATGTGG AGCTGCTGGG CGCGCCGCCC GCCTTCCCGG CCGGGGCGGC CAGGGAGGAG
    GCTCAGCGCC AGGACGTGGC CCCCGGCGCC GGTCCCGCGG CCCAGGCTGC GGCCCTGGCC
    CAAGCTCCGG CCCAGCAGGC CGCTGCGTTC GAAAGGTCAC TCAGCCAAAG GAGCTCAGAA
    GTAGAATATA TTAACAAATA CAGACAGCTT GAAGCACAAG AGCTTGATGT GTGTGGCAGT
    GTCCAACCAA CCAGTGGGCC AGGTCCAAGG CCATCTTTGG CTAAATTAAG CAATGTGACG
    TGCATCCCAG GGACAACTTA TAAATATCCT GATTTGCCTA TAAGTCGATA TAAGGAAGAG
    GTAGGGCTAG AGAAAATAGC AACGGAGGAC ACGAGGCTAA TTTATATGAC AACTGGAGTC
    CTGCTTCAGA AAGTAGTTAG TGCCAAGAGT TTGATGGAAT TCACACATAT CATCATTGAT
    GAAGTACACG AACGAACAGA AGAAATGGAT TTCCTGCTGT TGGTAGTCCG CAAACTCTTA
    AGAACAAATT CACGTTTTGT GAAGGTAGTC CTGATGTCGG CTACCATCAA CTGTAAAGAG
    TTTGCAGACT ACTTTGCCGT TCCTGTTCAA AACAAGATGA ATCCTGCATA TATTTTTGAA
    GTGGAAGGCA AGCCCCATTC AGTTGAAGAG TATTATCTTA ATGATTTGGG GCACATTCAT
    CATAGCAAGC TCTCTCCTCA TCTCCTGGAG GAACCTGTGA TAACTAAGGA TATATATGAA
    GTTGCTATCT CTCTCATTCA GATGTTTGAT GACTTGGATA TGAAGGAGAA TGGGAACAAG
    GCCTGGTCGG GTGCCCAGTT TGTGTTGGAG CGAAGCAGTG TGTTGGTGTT TTTGCCAGGT
    CTGGGTGAAA TAAACTATAT GCATGAACTT CTCACAAACC TGGTTCATAA AAGGTTGCAG
    GTCTATCCAC TCCATTCAAG TGTGGCTTTA GAAGAACAGA ATAATGTATT TTTGAGTCCA
    GTCCCTGGGT ACAGAAAGAT TATTCTGTCC ACCAATATTG CAGAGAGTTC TGTCACAGTT
    CCAGATGTCA AATATGTTAT AGATTTTTGT TTGACTAGAA CTTTGGTCTG TGATGAAGAT
    ACAAATTATC AGAGTCTGCG ATTGAGTTGG GCCTCTAAAA CCAGCTGTAA TCAGAGAAAA
    GGCCGTGCTG GACGAGTGTC TAGAGGGTAC TGTTACCGGC TGGTACACAA GGATTTCTGG
    GACAACTCCA TCCCTGATCA TGTTGTTCCT GAGATGTTGC GTTGTCCATT AGGAAGCACA
    ATCTTGAAAG CGAAATTACT CGACATGGGT GAGCCGAGAG CTCTGCTGGC CACTGCCCTT
    TCCCCGCCTG GTCTGAGTGA CATTGAGCGC ACCATCCTTC TACTAAAGGA GGTTGGAGCA
    CTTGCAGTGA GTGGGCAGAG AGAAGATGAA AACCCCCATG ACGGTGAATT GACCTTCTTA
    GGAAGAGTTT TAGCCCAACT TCCTGTAAAT CAGCAACTTG GTAAACTCAT AGTCCTTGGA
    CATGTATTTG GATGTCTAGA TGAATGTCTT ATTATAGCGG CAGCTCTTTC TTTGAAGAAT
    TTTTTTGCAA TGCCTTTCCG GCAGCATCTC GATGGATATA GGAACAAAGT GAATTTCTCT
    GGCAGTAGCA AGAGTGACTG CATTGCACTT GTTGAGGCAT TTAAAACATG GAAGGCTTGC
    AGACAGAGAG GGGAGCTGCG ATACCCAAAG GATGAACTTA ATTGGGGACG GTTAAATTAC
    ATTCAAATCA AGAGAATTAG AGAGGTGGCT GAATTATACG AAGAATTGAA GACTAGAATC
    TCACAGTTCA ACATGCATGT TGATTCTCGG CGACCTGTCA TGGACCAAGA GTATATATAT
    AAGCAGCGAT TCATCCTACA GGTTGTATTG GCAGGTGCTT TCTATCCAAA TTACTTTACT
    TTCGGACAGC CTGATGAGGA GATGGCGGTG AGGGAGCTGG CTGGCAAGGA CCCCAAGACA
    ACTGTAGTGT TGAAGCACAT TCCTCCCTAT GGATTTCTTT ACTATAAACA ACTACAGTCT
    CTCTTTAGAC AGTGTGGTCA AGTCAAATCT ATTGTATTTG ATGGTGCAAA AGCCTTTGTG
    GAATTCTCAC GAAATCCAAC AGAGAGATTT AAAACCCTTC CTGCCGTGTA TATGGCAATT
    AAGATGTCTC AACTAAAAGT TTCACTTGAA CTCAACGTTC ATTCTGCAGA GGAAATTGAA
    GGGAAGGTGC AAGGCATGAA TGTCTCAAAG CTCAGGAACA CAAGGGTGAA TGTGGACTTC
    CAGAAGCAGA CGGTAGATCC TATGCAAGTC TCATTTAACA CATCAGACAG GTCCCAGACA
    GTTACAGATC TCCTTCTAAC TATTGATGTC ACAGAGGTGG TTGAAGTGGG ACACTTTTGG
    GGATATAGGA TTGATGAAAA AAACTCAGAG ATTCTGAAAA AGCTTACTGC TGAAATCAAC
    CAACTGACGT TGATGCCCTT ACCCACTCAC CCACATCCAG ACTTGGTCTG TCTGGCACCT
    TTTGCTGATT TTGGTAAACA ACGCTACTTT AGAGCTCAAG TCCTTTATGT TTCTGGAAAT
    TCTGCTGAGG TATTCTTTGT AGATTATGGC AATAGGTCTC ATGTAGATCT ACATCTTTTG
    ATGGAGATTC CCTGTCAATT TCTTGAACTT CCCTTCCAGG CTTTGGAATT TAAGATTTGC
    AAAATGAGAC CATCGGCAAA GTCTCTTGTT TGTGGCGAGC ACTGGAGCGA CGGGGCCAGC
    CAGTGGTTCG CCTCTCTGGT GAGCGGCTGC ACCCTCCTTG TGAAGGTCTT CTCTGTGGTG
    CACAGCGTCC TGCACGTGGA CGTGTACCAG TACTCGGGGG TCCAGGATGC CATCAACATA
    AGAGATGTCC TCATCCAGCA GGGCTATGCT GAGCTCACGG AGGAGTCCTA CGAGTCCAAG
    CAAAGCCATG AAGTTCTCAA GGGCCTCTTT TCCAAGTCAG TAGAAAATGT GACAGACGGC
    TGTGCGCCCT TTCCCATGAA AGACGACGAG AAATATCTCA TCCGGATTTT GTTAGAGAGC
    TTTTCTTCCA ATAAACTGGG TACTCCAAAC TGTAAGGCAG TACTTCATGG GCCTTTTAAC
    CCTTATGAAC TAAAGTGCCA TAGTTTGACC AGAATATCCA AATTCAGGTG TGTGTGGATT
    GAGAAGGAGA GCATCAACTC TGTCATTATC AGTGACGCCC CTGAAGACCT TCACCAGAGA
    ATGCTGGTTG CAGCTTCCCT GTCCATCAAT GCGACTGGAT CTACGATGCT GCTGAGAGAA
    ACCTCTCTGA TGCCTCATAT CCCTGGCCTC CCGGCTCTCC TCAGTATGTT ATTTGCACCA
    GTGATGGAGT TAAGGATTGA TCAGAATGGC AAGTACTATA CTGGAGTCCT TTGTGGTTTG
    GGGTGGAATC CAACTACAGG GGCTTCCATA CTGCCCGAGC ACGACATGGA GCTTGCGTTT
    GACGTTCAGT TCAGCGTGGA GGACGTTGTC GAGGTTAATA TTCTCAGGGC TGCTATTAAC
    AAGCTAGTCT GTGATGGACC AAATGGATGC AAGTGTCTTG GGCCAGAGAG AGTTGCGCAG
    CTTCAGGATA GCGCCCGTCA GAAGCTTTTA GGTTTGTTCT GTCAATCAAA ACCAAGAGAG
    AAGATTGTTC CCAAGTGGCA TGAAAAGCCC TACGAGTGGA ATCAGGTTGA TCCAAAGCTG
    GTCATGGAGC AGGCCGACCG TGAGAGCAGC AGAGGGAAGA ACACCTTTCT CTACCAGCTC
    CACAAACTGG TTGTGCTCGG CACCTGA

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

    CloneID OMb90331
    Clone ID Related Accession (Same CDS sequence) XM_028851929.1
    Accession Version XM_028851929.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3453bp)
    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 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    Product ATP-dependent RNA helicase TDRD9 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041760.1) 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 Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGCTGCGCA AGCTCACCCT CGAGCAGATC AACGACTGGT TCACCATTGG CAAGACCGTG 
    ACCAATGTGG AGCTGCTGGG CGCGCCGCCC GCCTTCCCGG CCGGGGCGGC CAGGGAGGAG
    GCTCAGCGCC AGGACGTGGC CCCCGGCGCC GGTCCCGCGG CCCAGGCTGC GGCCCTGGCC
    CAAGCTCCGG CCCAGCAGGC CGCTGCGTTC GAAAGGTCAC TCAGCCAAAG GAGCTCAGAA
    GTAGAATATA TTAACAAATA CAGACAGCTT GAAGCACAAG AGCTTGATGT GTGTGGCAGT
    GTCCAACCAA CCAGTGGGCC AGGTCCAAGG CCATCTTTGG CTAAATTAAG CAATGTGACG
    TGCATCCCAG GGACAACTTA TAAATATCCT GATTTGCCTA TAAGTCGATA TAAGGAAGAG
    GTTGTGTCTT TGATAGAAAG TAATTCCGTG GTGATTATAC ATGGGGCCAC AGGAAGCGGT
    AAAAGCACTC AGCTCCCCCA GTATATCTTG GACCACTACG TTCAGCGCTC CGCCTACTGC
    AGCATTGTGG TCACCCAGCC CCGGAAGATA GGGGCAAGCA GCATCGCCAG GTGGATCAGT
    AAAGAGCGTG CCTGGACCCT GGGGGGTGTG GTGGGCTACC AGGTAGGGCT AGAGAAAATA
    GCAACGGAGG ACACGAGGCT AATTTATATG ACAACTGGAG TCCTGCTTCA GAAAGTAGTT
    AGTGCCAAGA GTTTGATGGA ATTCACACAT ATCATCATTG ATGAAGTACA CGAACGAACA
    GAAGAAATGG ATTTCCTGCT GTTGGTAGTC CGCAAACTCT TAAGAACAAA TTCACGTTTT
    GTGAAGGTAG TCCTGATGTC GGCTACCATC AACTGTAAAG AGTTTGCAGA CTACTTTGCC
    GTTCCTGTTC AAAACAAGAT GAATCCTGCA TATATTTTTG AAGTGGAAGG CAAGCCCCAT
    TCAGTTGAAG AGTATTATCT TAATGATTTG GGGCACATTC ATCATAGCAA GCTCTCTCCT
    CATCTCCTGG AGGAACCTGT GATAACTAAG GATATATATG AAGTTGCTAT CTCTCTCATT
    CAGATGTTTG ATGACTTGGA TATGAAGGAG AATGGGAACA AGGCCTGGTC GGGTGCCCAG
    TTTGTGTTGG AGCGAAGCAG TGTGTTGGTG TTTTTGCCAG GTCTGGGTGA AATAAACTAT
    ATGCATGAAC TTCTCACAAA CCTGGTTCAT AAAAGGTTGC AGGTCTATCC ACTCCATTCA
    AGTGTGGCTT TAGAAGAACA GAATAATGTA TTTTTGAGTC CAGTCCCTGG GTACAGAAAG
    ATTATTCTGT CCACCAATAT TGCAGAGAGT TCTGTCACAG TTCCAGATGT CAAATATGTT
    ATAGATTTTT GTTTGACTAG AACTTTGGTC TGTGATGAAG ATACAAATTA TCAGAGTCTG
    CGATTGAGTT GGGCCTCTAA AACCAGCTGT AATCAGAGAA AAGGCCGTGC TGGACGAGTG
    TCTAGAGGGT ACTGTTACCG GCTGGTACAC AAGGATTTCT GGGACAACTC CATCCCTGAT
    CATGTTGTTC CTGAGATGTT GCGTTGTCCA TTAGGAAGCA CAATCTTGAA AGCGAAATTA
    CTCGACATGG GTGAGCCGAG AGCTCTGCTG GCCACTGCCC TTTCCCCGCC TGGTCTGAGT
    GACATTGAGC GCACCATCCT TCTACTAAAG GAGGTTGGAG CACTTGCAGT GAGTGGGCAG
    AGAGAAGATG AAAACCCCCA TGACGGTGAA TTGACCTTCT TAGGAAGAGT TTTAGCCCAA
    CTTCCTGTAA ATCAGCAACT TGGTAAACTC ATAGTCCTTG GACATGTATT TGGATGTCTA
    GATGAATGTC TTATTATAGC GGCAGCTCTT TCTTTGAAGA ATTTTTTTGC AATGCCTTTC
    CGGCAGCATC TCGATGGATA TAGGAACAAA GTGAATTTCT CTGGCAGTAG CAAGAGTGAC
    TGCATTGCAC TTGTTGAGGC ATTTAAAACA TGGAAGGCTT GCAGACAGAG AGGGGAGCTG
    CGATACCCAA AGGATGAACT TAATTGGGGA CGGTTAAATT ACATTCAAAT CAAGAGAATT
    AGAGAGGTGG CTGAATTATA CGAAGAATTG AAGACTAGAA TCTCACAGTT CAACATGCAT
    GTTGATTCTC GGCGACCTGT CATGGACCAA GAGTATATAT ATAAGCAGCG ATTCATCCTA
    CAGGTTGTAT TGGCAGGTGC TTTCTATCCA AATTACTTTA CTTTCGGACA GCCTGATGAG
    GAGATGGCGG TGAGGGAGCT GGCTGGCAAG GACCCCAAGA CAACTGTAGT GTTGAAGCAC
    ATTCCTCCCT ATGGATTTCT TTACTATAAA CAACTACAGT CTCTCTTTAG ACAGTGTGGT
    CAAGTCAAAT CTATTGTATT TGATGGTGCA AAAGCCTTTG TGGAATTCTC ACGAAATCCA
    ACAGAGAGAT TTAAAACCCT TCCTGCCGTG TATATGGCAA TTAAGATGTC TCAACTAAAA
    GTTTCACTTG AACTCAACGT TCATTCTGCA GAGGAAATTG AAGGGAAGGT GCAAGGCATG
    AATGTCTCAA AGCTCAGGAA CACAAGGGTG AATGTGGACT TCCAGAAGCA GACGGTAGAT
    CCTATGCAAG TCTCATTTAA CACATCAGAC AGGTCCCAGA CAGTTACAGA TCTCCTTCTA
    ACTATTGATG TCACAGAGGT GGTTGAAGTG GGACACTTTT GGGGATATAG GATTGATGAA
    AAAAACTCAG AGATTCTGAA AAAGCTTACT GCTGAAATCA ACCAACTGAC GTTGATGCCC
    TTACCCACTC ACCCACATCC AGACTTGGTC TGTCTGGCAC CTTTTGCTGA TTTTGGTAAA
    CAACGCTACT TTAGAGCTCA AGTCCTTTAT GTTTCTGGAA ATTCTGCTGA GGTATTCTTT
    GTAGATTATG GCAATAGGTC TCATGTAGAT CTACATCTTT TGATGGAGAT TCCCTGTCAA
    TTTCTTGAAC TTCCCTTCCA GGCTTTGGAA TTTAAGATTT GCAAAATGAG ACCATCGGCA
    AAGTCTCTTG TTTGTGGCGA GCACTGGAGC GACGGGGCCA GCCAGTGGTT CGCCTCTCTG
    GTGAGCGGCT GCACCCTCCT TGTGAAGGTC TTCTCTGTGG TGCACAGCGT CCTGCACGTG
    GACGTGTACC AGTACTCGGG GGTCCAGGAT GCCATCAACA TAAGAGATGT CCTCATCCAG
    CAGGGCTATG CTGAGCTCAC GGAGGAGTCC TACGAGTCCA AGCAAAGCCA TGAAGTTCTC
    AAGGGCCTCT TTTCCAAGTC AGTAGAAAAT GTGACAGACG GCTGTGCGCC CTTTCCCATG
    AAAGACGACG AGAAATATCT CATCCGGATT TTGTTAGAGA GCTTTTCTTC CAATAAACTG
    GGTACTCCAA ACTGTAAGGT GTGTGTGGAT TGA

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

    RefSeq XP_028707762.1
    CDS72..3524
    Translation

    Target ORF information:

    RefSeq Version XM_028851929.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta tudor domain containing 9 (TDRD9), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_028851929.1

    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
    ATGCTGCGCA AGCTCACCCT CGAGCAGATC AACGACTGGT TCACCATTGG CAAGACCGTG 
    ACCAATGTGG AGCTGCTGGG CGCGCCGCCC GCCTTCCCGG CCGGGGCGGC CAGGGAGGAG
    GCTCAGCGCC AGGACGTGGC CCCCGGCGCC GGTCCCGCGG CCCAGGCTGC GGCCCTGGCC
    CAAGCTCCGG CCCAGCAGGC CGCTGCGTTC GAAAGGTCAC TCAGCCAAAG GAGCTCAGAA
    GTAGAATATA TTAACAAATA CAGACAGCTT GAAGCACAAG AGCTTGATGT GTGTGGCAGT
    GTCCAACCAA CCAGTGGGCC AGGTCCAAGG CCATCTTTGG CTAAATTAAG CAATGTGACG
    TGCATCCCAG GGACAACTTA TAAATATCCT GATTTGCCTA TAAGTCGATA TAAGGAAGAG
    GTTGTGTCTT TGATAGAAAG TAATTCCGTG GTGATTATAC ATGGGGCCAC AGGAAGCGGT
    AAAAGCACTC AGCTCCCCCA GTATATCTTG GACCACTACG TTCAGCGCTC CGCCTACTGC
    AGCATTGTGG TCACCCAGCC CCGGAAGATA GGGGCAAGCA GCATCGCCAG GTGGATCAGT
    AAAGAGCGTG CCTGGACCCT GGGGGGTGTG GTGGGCTACC AGGTAGGGCT AGAGAAAATA
    GCAACGGAGG ACACGAGGCT AATTTATATG ACAACTGGAG TCCTGCTTCA GAAAGTAGTT
    AGTGCCAAGA GTTTGATGGA ATTCACACAT ATCATCATTG ATGAAGTACA CGAACGAACA
    GAAGAAATGG ATTTCCTGCT GTTGGTAGTC CGCAAACTCT TAAGAACAAA TTCACGTTTT
    GTGAAGGTAG TCCTGATGTC GGCTACCATC AACTGTAAAG AGTTTGCAGA CTACTTTGCC
    GTTCCTGTTC AAAACAAGAT GAATCCTGCA TATATTTTTG AAGTGGAAGG CAAGCCCCAT
    TCAGTTGAAG AGTATTATCT TAATGATTTG GGGCACATTC ATCATAGCAA GCTCTCTCCT
    CATCTCCTGG AGGAACCTGT GATAACTAAG GATATATATG AAGTTGCTAT CTCTCTCATT
    CAGATGTTTG ATGACTTGGA TATGAAGGAG AATGGGAACA AGGCCTGGTC GGGTGCCCAG
    TTTGTGTTGG AGCGAAGCAG TGTGTTGGTG TTTTTGCCAG GTCTGGGTGA AATAAACTAT
    ATGCATGAAC TTCTCACAAA CCTGGTTCAT AAAAGGTTGC AGGTCTATCC ACTCCATTCA
    AGTGTGGCTT TAGAAGAACA GAATAATGTA TTTTTGAGTC CAGTCCCTGG GTACAGAAAG
    ATTATTCTGT CCACCAATAT TGCAGAGAGT TCTGTCACAG TTCCAGATGT CAAATATGTT
    ATAGATTTTT GTTTGACTAG AACTTTGGTC TGTGATGAAG ATACAAATTA TCAGAGTCTG
    CGATTGAGTT GGGCCTCTAA AACCAGCTGT AATCAGAGAA AAGGCCGTGC TGGACGAGTG
    TCTAGAGGGT ACTGTTACCG GCTGGTACAC AAGGATTTCT GGGACAACTC CATCCCTGAT
    CATGTTGTTC CTGAGATGTT GCGTTGTCCA TTAGGAAGCA CAATCTTGAA AGCGAAATTA
    CTCGACATGG GTGAGCCGAG AGCTCTGCTG GCCACTGCCC TTTCCCCGCC TGGTCTGAGT
    GACATTGAGC GCACCATCCT TCTACTAAAG GAGGTTGGAG CACTTGCAGT GAGTGGGCAG
    AGAGAAGATG AAAACCCCCA TGACGGTGAA TTGACCTTCT TAGGAAGAGT TTTAGCCCAA
    CTTCCTGTAA ATCAGCAACT TGGTAAACTC ATAGTCCTTG GACATGTATT TGGATGTCTA
    GATGAATGTC TTATTATAGC GGCAGCTCTT TCTTTGAAGA ATTTTTTTGC AATGCCTTTC
    CGGCAGCATC TCGATGGATA TAGGAACAAA GTGAATTTCT CTGGCAGTAG CAAGAGTGAC
    TGCATTGCAC TTGTTGAGGC ATTTAAAACA TGGAAGGCTT GCAGACAGAG AGGGGAGCTG
    CGATACCCAA AGGATGAACT TAATTGGGGA CGGTTAAATT ACATTCAAAT CAAGAGAATT
    AGAGAGGTGG CTGAATTATA CGAAGAATTG AAGACTAGAA TCTCACAGTT CAACATGCAT
    GTTGATTCTC GGCGACCTGT CATGGACCAA GAGTATATAT ATAAGCAGCG ATTCATCCTA
    CAGGTTGTAT TGGCAGGTGC TTTCTATCCA AATTACTTTA CTTTCGGACA GCCTGATGAG
    GAGATGGCGG TGAGGGAGCT GGCTGGCAAG GACCCCAAGA CAACTGTAGT GTTGAAGCAC
    ATTCCTCCCT ATGGATTTCT TTACTATAAA CAACTACAGT CTCTCTTTAG ACAGTGTGGT
    CAAGTCAAAT CTATTGTATT TGATGGTGCA AAAGCCTTTG TGGAATTCTC ACGAAATCCA
    ACAGAGAGAT TTAAAACCCT TCCTGCCGTG TATATGGCAA TTAAGATGTC TCAACTAAAA
    GTTTCACTTG AACTCAACGT TCATTCTGCA GAGGAAATTG AAGGGAAGGT GCAAGGCATG
    AATGTCTCAA AGCTCAGGAA CACAAGGGTG AATGTGGACT TCCAGAAGCA GACGGTAGAT
    CCTATGCAAG TCTCATTTAA CACATCAGAC AGGTCCCAGA CAGTTACAGA TCTCCTTCTA
    ACTATTGATG TCACAGAGGT GGTTGAAGTG GGACACTTTT GGGGATATAG GATTGATGAA
    AAAAACTCAG AGATTCTGAA AAAGCTTACT GCTGAAATCA ACCAACTGAC GTTGATGCCC
    TTACCCACTC ACCCACATCC AGACTTGGTC TGTCTGGCAC CTTTTGCTGA TTTTGGTAAA
    CAACGCTACT TTAGAGCTCA AGTCCTTTAT GTTTCTGGAA ATTCTGCTGA GGTATTCTTT
    GTAGATTATG GCAATAGGTC TCATGTAGAT CTACATCTTT TGATGGAGAT TCCCTGTCAA
    TTTCTTGAAC TTCCCTTCCA GGCTTTGGAA TTTAAGATTT GCAAAATGAG ACCATCGGCA
    AAGTCTCTTG TTTGTGGCGA GCACTGGAGC GACGGGGCCA GCCAGTGGTT CGCCTCTCTG
    GTGAGCGGCT GCACCCTCCT TGTGAAGGTC TTCTCTGTGG TGCACAGCGT CCTGCACGTG
    GACGTGTACC AGTACTCGGG GGTCCAGGAT GCCATCAACA TAAGAGATGT CCTCATCCAG
    CAGGGCTATG CTGAGCTCAC GGAGGAGTCC TACGAGTCCA AGCAAAGCCA TGAAGTTCTC
    AAGGGCCTCT TTTCCAAGTC AGTAGAAAAT GTGACAGACG GCTGTGCGCC CTTTCCCATG
    AAAGACGACG AGAAATATCT CATCCGGATT TTGTTAGAGA GCTTTTCTTC CAATAAACTG
    GGTACTCCAA ACTGTAAGGT GTGTGTGGAT TGA

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

    CloneID OMb37687
    Clone ID Related Accession (Same CDS sequence) XM_015144525.1
    Accession Version XM_015144525.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4311bp)
    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 2015-12-20
    Organism Macaca mulatta(Rhesus monkey)
    Product putative ATP-dependent RNA helicase TDRD9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014805068.1) 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 :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 2% of CDS bases ##RefSeq-Attributes-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGCTGCGCA AGCTCACCCT CGAGCAGATC AACGACTGGT TCACCATTGG CAAGACCGTG 
    ACCAATGTGG AGCTGCTGGG CGCGCCGCCC GCCTTCCCGG CCGGGGCGGC CAGGGAGGAG
    GCTCAGCGCC AGGACGTGGC CCCCGGCGCC GGTCCCGCGG CCCAGGCTGC GGCCCTGGCC
    CAAGCTCCGG CCCAGCAGGC GCTCCGTTCG AAAGTAGACG CGGCGCGGGG CTCGAGAGGC
    GTCCGGCGAA CCTCCGACGA GGGCTCGGCA CCCAAGATTC CTTCTCGCGA GCCCTCGCCC
    TCTCAAAAAC TTCTCTGGTA CACAAGGGTT TCTTGGCTTT TTGGAAATAG TATACTAACT
    TTTACTATTC TTTTCAGGTC ACTCAGCCAA AGGAGCTCAG AAGTAGAATA TATTAACAAA
    TACAGACAGC TTGAAGCACA AGAGCTTGAT GTGTGTGGCA GTGTCCAACC AACCAGTGGG
    CCAGGTCCAA GGCCATCTTT GGCTAAATTA AGCAATGTGA CGTGCATCCC AGGGACAACT
    TATAAATATC CTGATTTGCC TATAAGTCGA TATAAGGAAG AGGTTGTGTC TTTGATAGAA
    AGTAATTCCG TGGTGATTAT ACATGGGGCC ACAGGAAGCG GTAAAAGCAC TCAGCTCCCC
    CAGTATATCT TGGACCACTA CGTTCAGCGC TCCGCCTACT GCAGCATTGT GGTCACCCAG
    CCCCGGAAGA TAGGGGCAAG CAGCATCGCC AGGTGGATCA GTAAAGAGCG TGCCTGGACC
    CTGGGGGGTG TGGTGGGCTA CCAGGTAGGG CTAGAGAAAA TAGCAACGGA GGACACGAGG
    CTAATTTATA TGACAACTGG AGTCCTGCTT CAGAAAGTAG TTAGTGCCAA GAGTTTGATG
    GAATTCACAC ATATCATCAT TGATGAAGTA CACGAACGAA CAGAAGAAAT GGATTTCCTG
    CTGTTGGTAG TCCGCAAACT CTTAAGAACA AATTCACGTT TTGTGAAGGT AGTCCTGATG
    TCGGCTACCA TCAACTGTAA AGAGTTTGCA GACTACTTTG CCGTTCCTGT TCAAAACAAG
    ATGAATCCTG CATATATTTT TGAAGTGGAA GGCAAGCCCC ATTCAGTTGA AGAGTATTAT
    CTTAATGATT TGGGGCACAT TCATCATAGC AAGCTCTCTC CTCATCTCCT GGAGGAACCT
    GTGATAACTA AGGATATATA TGAAGTTGCT ATCTCTCTCA TTCAGATGTT TGATGACTTG
    GATATGAAGG AGAATGGGAA CAAGGCCTGG TCGGGTGCCC AGTTTGTGTT GGAGCGAAGC
    AGTGTGTTGG TGTTTTTGCC AGGTCTGGGT GAAATAAACT ATATGCATGA ACTTCTCACA
    AACCTGGTTC ATAAAAGGTT GCAGGTCTAT CCACTCCATT CAAGTGTGGC TTTAGAAGAA
    CAGAATAATG TATTTTTGAG TCCAGTCCCT GGGTACAGAA AGATTATTCT GTCCACCAAT
    ATTGCAGAGA GTTCTGTCAC AGTTCCAGAT GTCAAATATG TTATAGATTT TTGTTTGACT
    AGAACTTTGG TCTGTGATGA AGATACAAAT TATCAGAGTC TGCGATTGAG TTGGGCCTCT
    AAAACCAGCT GTAATCAGAG AAAAGGCCGT GCTGGACGAG TGTCTAGAGG GTACTGTTAC
    CGGCTGGTAC ACAAGGATTT CTGGGACAAC TCCATCCCTG ATCATGTTGT TCCTGAGATG
    TTGCGTTGTC CATTAGGAAG CACAATCTTG AAAGCGAAAT TACTCGACAT GGGTGAGCCG
    AGAGCTCTGC TGGCCACTGC CCTTTCCCCG CCTGGTCTGA GTGACATTGA GCGCACCATC
    CTTCTACTAA AGGAGGTTGG AGCACTTGCA GTGAGTGGGC AGAGAGAAGA TGAAAACCCC
    CATGACGGTG AATTGACCTT CTTAGGAAGA GTTTTAGCCC AACTTCCTGT AAATCAGCAA
    CTTGGTAAAC TCATAGTCCT TGGACATGTA TTTGGATGTC TAGATGAATG TCTTATTATA
    GCGGCAGCTC TTTCTTTGAA GAATTTTTTT GCAATGCCTT TCCGGCAGCA TCTCGATGGA
    TATAGGAACA AAGTGAATTT CTCTGGCAGT AGCAAGAGTG ACTGCATTGC ACTTGTTGAG
    GCATTTAAAA CATGGAAGGC TTGCAGACAG AGAGGGGAGC TGCGATACCC AAAGGATGAA
    CTTAATTGGG GACGGTTAAA TTACATTCAA ATCAAGAGAA TTAGAGAGGT GGCTGAATTA
    TACGAAGAAT TGAAGACTAG AATCTCACAG TTCAACATGC ATGTTGATTC TCGGCGACCT
    GTCATGGACC AAGAGTATAT ATATAAGCAG CGATTCATCC TACAGGTTGT ATTGGCAGGT
    GCTTTCTATC CAAATTACTT TACTTTCGGA CAGCCTGATG AGGAGATGGC GGTGAGGGAG
    CTGGCTGGCA AGGACCCCAA GACAACTGTA GTGTTGAAGC ACATTCCTCC CTATGGATTT
    CTTTACTATA AACAACTACA GTCTCTCTTT AGACAGTGTG GTCAAGTCAA ATCTATTGTA
    TTTGATGGTG CAAAAGCCTT TGTGGAATTC TCACGAAATC CAACAGAGAG ATTTAAAACC
    CTTCCTGCCG TGTATATGGC AATTAAGATG TCTCAACTAA AAGTTTCACT TGAACTCAAC
    GTTCATTCTG CAGAGGAAAT TGAAGGGAAG GTGCAAGGCA TGAATGTCTC AAAGCTCAGG
    AACACAAGGG TGAATGTGGA CTTCCAGAAG CAGACGGTAG ATCCTATGCA AGTCTCATTT
    AACACATCAG ACAGGTCCCA GACAGTTACA GATCTCCTTC TAACTATTGA TGTCACAGAG
    GTGGTTGAAG TGGGACACTT TTGGGGATAT AGGATTGATG AAAAAAACTC AGAGATTCTG
    AAAAAGCTTA CTGCTGAAAT CAACCAACTG ACGTTGATGC CCTTACCCAC TCACCCACAT
    CCAGACTTGG TCTGTCTGGC ACCTTTTGCT GATTTTGGTA AACAACGCTA CTTTAGAGCT
    CAAGTCCTTT ATGTTTCTGG AAATTCTGCT GAGGTATTCT TTGTAGATTA TGGCAATAGG
    TCTCATGTAG ATCTACATCT TTTGATGGAG ATTCCCTGTC AATTTCTTGA ACTTCCCTTC
    CAGGCTTTGG AATTTAAGAT TTGCAAAATG AGACCATCGG CAAAGTCTCT TGTTTGTGGC
    GAGCACTGGA GCGACGGGGC CAGCCAGTGG TTCGCCTCTC TGGTGAGCGG CTGCACCCTC
    CTTGTGAAGG TCTTCTCTGT GGTGCACAGC GTCCTGCACG TGGACGTGTA CCAGTACTCG
    GGGGTCCAGG ATGCCATCAA CATAAGAGAT GTCCTCATCC AGCAGGGCTA TGCTGAGCTC
    ACGGAGGAGT CCTACGAGTC CAAGCAAAGC CATGAAGTTC TCAAGGGCCT CTTTTCCAAG
    TCAGTAGAAA ATGTGACAGA CGGCTGTGCG CCCTTTCCCA TGAAAGACGA CGAGAAATAT
    CTCATCCGGA TTTTGTTAGA GAGCTTTTCT TCCAATAAAC TGGGTACTCC AAACTGTAAG
    GCAGTACTTC ATGGGCCTTT TAACCCTTAT GAACTAAAGT GCCATAGTTT GACCAGAATA
    TCCAAATTCA GGTGTGTGTG GATTGAGAAG GAGAGCATCA ACTCTGTCAT TATCAGTGAC
    GCCCCTGAAG ACCTTCACCA GAGAATGCTG GTTGCAGCTT CCCTGTCCAT CAATGCGACT
    GGATCTACGA TGCTGCTGAG AGAAACCTCT CTGATGCCTC ATATCCCTGG CCTCCCGGCT
    CTCCTCAGCA TGTTATTTGC ACCAGTGATG GAGTTAAGGA TTGATCAGAA TGGCAAGTAC
    TATACTGGAG TCCTTTGTGG TTTGGGGTGG AATCCAACTA CAGGGGCTTC CATACTGCCC
    GAGCACGACA TGGAGCTTGC GTTTGACGTT CAGTTCAGCG TGGAGGACGT TGTCGAGGTT
    AATATTCTCA GGGCTGCTAT TAACAAGCTA GTCTGTGATG GACCAAATGG ATGCAAGTGT
    CTTGGGCCAG AGAGAGTTGC GCAGCTTCAG GATAGCGCCC GTCAGAAGCT TTTAGGTTTG
    TTCTGTCAAT CAAAACCAAG AGAGAAGATT GTTCCCAAGT GGCATGAAAA GCCCTACGAG
    TGGAATCAGG TTGATCCAAA GCTGGTCATG GAGCAGGCCG ACCGTGAGAG CAGCAGAGGG
    AAGAACACCT TTCTCTACCA GCTCCACAAA CTGGTTGTGC TCGGCACCTG A

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

    RefSeq XP_015000011.1
    CDS138..4448
    Translation

    Target ORF information:

    RefSeq Version XM_015144525.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta tudor domain containing 9 (TDRD9), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015144525.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGCTGCGCA AGCTCACCCT CGAGCAGATC AACGACTGGT TCACCATTGG CAAGACCGTG 
    ACCAATGTGG AGCTGCTGGG CGCGCCGCCC GCCTTCCCGG CCGGGGCGGC CAGGGAGGAG
    GCTCAGCGCC AGGACGTGGC CCCCGGCGCC GGTCCCGCGG CCCAGGCTGC GGCCCTGGCC
    CAAGCTCCGG CCCAGCAGGC GCTCCGTTCG AAAGTAGACG CGGCGCGGGG CTCGAGAGGC
    GTCCGGCGAA CCTCCGACGA GGGCTCGGCA CCCAAGATTC CTTCTCGCGA GCCCTCGCCC
    TCTCAAAAAC TTCTCTGGTA CACAAGGGTT TCTTGGCTTT TTGGAAATAG TATACTAACT
    TTTACTATTC TTTTCAGGTC ACTCAGCCAA AGGAGCTCAG AAGTAGAATA TATTAACAAA
    TACAGACAGC TTGAAGCACA AGAGCTTGAT GTGTGTGGCA GTGTCCAACC AACCAGTGGG
    CCAGGTCCAA GGCCATCTTT GGCTAAATTA AGCAATGTGA CGTGCATCCC AGGGACAACT
    TATAAATATC CTGATTTGCC TATAAGTCGA TATAAGGAAG AGGTTGTGTC TTTGATAGAA
    AGTAATTCCG TGGTGATTAT ACATGGGGCC ACAGGAAGCG GTAAAAGCAC TCAGCTCCCC
    CAGTATATCT TGGACCACTA CGTTCAGCGC TCCGCCTACT GCAGCATTGT GGTCACCCAG
    CCCCGGAAGA TAGGGGCAAG CAGCATCGCC AGGTGGATCA GTAAAGAGCG TGCCTGGACC
    CTGGGGGGTG TGGTGGGCTA CCAGGTAGGG CTAGAGAAAA TAGCAACGGA GGACACGAGG
    CTAATTTATA TGACAACTGG AGTCCTGCTT CAGAAAGTAG TTAGTGCCAA GAGTTTGATG
    GAATTCACAC ATATCATCAT TGATGAAGTA CACGAACGAA CAGAAGAAAT GGATTTCCTG
    CTGTTGGTAG TCCGCAAACT CTTAAGAACA AATTCACGTT TTGTGAAGGT AGTCCTGATG
    TCGGCTACCA TCAACTGTAA AGAGTTTGCA GACTACTTTG CCGTTCCTGT TCAAAACAAG
    ATGAATCCTG CATATATTTT TGAAGTGGAA GGCAAGCCCC ATTCAGTTGA AGAGTATTAT
    CTTAATGATT TGGGGCACAT TCATCATAGC AAGCTCTCTC CTCATCTCCT GGAGGAACCT
    GTGATAACTA AGGATATATA TGAAGTTGCT ATCTCTCTCA TTCAGATGTT TGATGACTTG
    GATATGAAGG AGAATGGGAA CAAGGCCTGG TCGGGTGCCC AGTTTGTGTT GGAGCGAAGC
    AGTGTGTTGG TGTTTTTGCC AGGTCTGGGT GAAATAAACT ATATGCATGA ACTTCTCACA
    AACCTGGTTC ATAAAAGGTT GCAGGTCTAT CCACTCCATT CAAGTGTGGC TTTAGAAGAA
    CAGAATAATG TATTTTTGAG TCCAGTCCCT GGGTACAGAA AGATTATTCT GTCCACCAAT
    ATTGCAGAGA GTTCTGTCAC AGTTCCAGAT GTCAAATATG TTATAGATTT TTGTTTGACT
    AGAACTTTGG TCTGTGATGA AGATACAAAT TATCAGAGTC TGCGATTGAG TTGGGCCTCT
    AAAACCAGCT GTAATCAGAG AAAAGGCCGT GCTGGACGAG TGTCTAGAGG GTACTGTTAC
    CGGCTGGTAC ACAAGGATTT CTGGGACAAC TCCATCCCTG ATCATGTTGT TCCTGAGATG
    TTGCGTTGTC CATTAGGAAG CACAATCTTG AAAGCGAAAT TACTCGACAT GGGTGAGCCG
    AGAGCTCTGC TGGCCACTGC CCTTTCCCCG CCTGGTCTGA GTGACATTGA GCGCACCATC
    CTTCTACTAA AGGAGGTTGG AGCACTTGCA GTGAGTGGGC AGAGAGAAGA TGAAAACCCC
    CATGACGGTG AATTGACCTT CTTAGGAAGA GTTTTAGCCC AACTTCCTGT AAATCAGCAA
    CTTGGTAAAC TCATAGTCCT TGGACATGTA TTTGGATGTC TAGATGAATG TCTTATTATA
    GCGGCAGCTC TTTCTTTGAA GAATTTTTTT GCAATGCCTT TCCGGCAGCA TCTCGATGGA
    TATAGGAACA AAGTGAATTT CTCTGGCAGT AGCAAGAGTG ACTGCATTGC ACTTGTTGAG
    GCATTTAAAA CATGGAAGGC TTGCAGACAG AGAGGGGAGC TGCGATACCC AAAGGATGAA
    CTTAATTGGG GACGGTTAAA TTACATTCAA ATCAAGAGAA TTAGAGAGGT GGCTGAATTA
    TACGAAGAAT TGAAGACTAG AATCTCACAG TTCAACATGC ATGTTGATTC TCGGCGACCT
    GTCATGGACC AAGAGTATAT ATATAAGCAG CGATTCATCC TACAGGTTGT ATTGGCAGGT
    GCTTTCTATC CAAATTACTT TACTTTCGGA CAGCCTGATG AGGAGATGGC GGTGAGGGAG
    CTGGCTGGCA AGGACCCCAA GACAACTGTA GTGTTGAAGC ACATTCCTCC CTATGGATTT
    CTTTACTATA AACAACTACA GTCTCTCTTT AGACAGTGTG GTCAAGTCAA ATCTATTGTA
    TTTGATGGTG CAAAAGCCTT TGTGGAATTC TCACGAAATC CAACAGAGAG ATTTAAAACC
    CTTCCTGCCG TGTATATGGC AATTAAGATG TCTCAACTAA AAGTTTCACT TGAACTCAAC
    GTTCATTCTG CAGAGGAAAT TGAAGGGAAG GTGCAAGGCA TGAATGTCTC AAAGCTCAGG
    AACACAAGGG TGAATGTGGA CTTCCAGAAG CAGACGGTAG ATCCTATGCA AGTCTCATTT
    AACACATCAG ACAGGTCCCA GACAGTTACA GATCTCCTTC TAACTATTGA TGTCACAGAG
    GTGGTTGAAG TGGGACACTT TTGGGGATAT AGGATTGATG AAAAAAACTC AGAGATTCTG
    AAAAAGCTTA CTGCTGAAAT CAACCAACTG ACGTTGATGC CCTTACCCAC TCACCCACAT
    CCAGACTTGG TCTGTCTGGC ACCTTTTGCT GATTTTGGTA AACAACGCTA CTTTAGAGCT
    CAAGTCCTTT ATGTTTCTGG AAATTCTGCT GAGGTATTCT TTGTAGATTA TGGCAATAGG
    TCTCATGTAG ATCTACATCT TTTGATGGAG ATTCCCTGTC AATTTCTTGA ACTTCCCTTC
    CAGGCTTTGG AATTTAAGAT TTGCAAAATG AGACCATCGG CAAAGTCTCT TGTTTGTGGC
    GAGCACTGGA GCGACGGGGC CAGCCAGTGG TTCGCCTCTC TGGTGAGCGG CTGCACCCTC
    CTTGTGAAGG TCTTCTCTGT GGTGCACAGC GTCCTGCACG TGGACGTGTA CCAGTACTCG
    GGGGTCCAGG ATGCCATCAA CATAAGAGAT GTCCTCATCC AGCAGGGCTA TGCTGAGCTC
    ACGGAGGAGT CCTACGAGTC CAAGCAAAGC CATGAAGTTC TCAAGGGCCT CTTTTCCAAG
    TCAGTAGAAA ATGTGACAGA CGGCTGTGCG CCCTTTCCCA TGAAAGACGA CGAGAAATAT
    CTCATCCGGA TTTTGTTAGA GAGCTTTTCT TCCAATAAAC TGGGTACTCC AAACTGTAAG
    GCAGTACTTC ATGGGCCTTT TAACCCTTAT GAACTAAAGT GCCATAGTTT GACCAGAATA
    TCCAAATTCA GGTGTGTGTG GATTGAGAAG GAGAGCATCA ACTCTGTCAT TATCAGTGAC
    GCCCCTGAAG ACCTTCACCA GAGAATGCTG GTTGCAGCTT CCCTGTCCAT CAATGCGACT
    GGATCTACGA TGCTGCTGAG AGAAACCTCT CTGATGCCTC ATATCCCTGG CCTCCCGGCT
    CTCCTCAGCA TGTTATTTGC ACCAGTGATG GAGTTAAGGA TTGATCAGAA TGGCAAGTAC
    TATACTGGAG TCCTTTGTGG TTTGGGGTGG AATCCAACTA CAGGGGCTTC CATACTGCCC
    GAGCACGACA TGGAGCTTGC GTTTGACGTT CAGTTCAGCG TGGAGGACGT TGTCGAGGTT
    AATATTCTCA GGGCTGCTAT TAACAAGCTA GTCTGTGATG GACCAAATGG ATGCAAGTGT
    CTTGGGCCAG AGAGAGTTGC GCAGCTTCAG GATAGCGCCC GTCAGAAGCT TTTAGGTTTG
    TTCTGTCAAT CAAAACCAAG AGAGAAGATT GTTCCCAAGT GGCATGAAAA GCCCTACGAG
    TGGAATCAGG TTGATCCAAA GCTGGTCATG GAGCAGGCCG ACCGTGAGAG CAGCAGAGGG
    AAGAACACCT TTCTCTACCA GCTCCACAAA CTGGTTGTGC TCGGCACCTG A

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