RGAG1 cDNA ORF clone, Pan troglodytes(chimpanzee)

The following RGAG1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the RGAG1 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
OPc25161 XM_016942939.2
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Pan troglodytes retrotransposon Gag like 9 (RTL9), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00
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OPc25161 XM_016942939.1 Pan troglodytes retrotransposon gag domain containing 1 (RGAG1), 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 OPc25161
    Clone ID Related Accession (Same CDS sequence) XM_016942939.2 , XM_016942939.1
    Accession Version XM_016942939.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4167bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-03-19
    Organism Pan troglodytes(chimpanzee)
    Product retrotransposon Gag-like protein 9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036902.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 20, 2018 this sequence version replaced XM_016942939.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Pan troglodytes Annotation Release 105 Annotation Version :: 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGTCAATAC CCTTACATTC ACTGCGATTC AACAATACAA TGAGGGAGGA AAATATTGAG 
    CCCCAAAACA AGCAGATGGC CTTCTGTAGA CCAATGACAG AGACCAGAGC AGACGTACAG
    ATTCTGCATT CTCATGTACA GTTGCCTATA GTCTCAACTT CAGCCTCAGA CCCTGGAGGG
    ACATCCACAC AGTTGATGAC ATCTCCAGTC TTTGACACCA TGTCTGCACC TCTAATGGGA
    GTACCAAACT CTGGAGCATT GTCCCCACCC CTAATGCCAG CCTCAGACTC TGGGGCACTT
    TCCCCATTGC TAATGCCAGC CTCAGACTCT GGGGCACTAT CCCCATTGCT AATGCCAGCC
    TTAGATTCTG GAACATTGTC CCCATTGCTG TCCACTTCAG AGTATGGGGT AATGTCCCCA
    GGGATGATGA CAATTCCTGA TTTTGGAACG ATGTCCGCAA CGCTAATGGT AGCACCAGAT
    TCTGCAGAGA TATCACCATT GGCAACGCCA GCTCCATCCT CTGGAGCGGT GTGTACACCT
    ATAATGAGCA CTTCATCCTC TGAGGCAATG TCCACACCAT TAATGCTAGC CCCAGATTCT
    GGAGAGATAT CCCCAATTCT AATGCAAGAT ATGAATCCTG GAGTGATGTC TACACAGCCA
    GTGCCAGCTC CCAGCTCTGA GGCAATGTCC CCATTGCAAA TTACAGATGA AGACACCGAA
    GCAATGTCCA AAGTGCTAAT GACTGCTCTA GCCTCTGGAG AGATATCTTC GCTGCTAATG
    TCAGGCACGG ACTCTGAAGC AATATCCTCA CTGATAATGT CAGCTGTAGC TTCTGGAGGA
    ACATCACCCC AGCCGACAAG CACCCAAAAC TCTGGGGGAA TACCTACCCC GCTCATGTCA
    GATCTAGACT CTGGAATAAT GTCATCACTT TTAATGTCAT CTCCAGGTTC TGAAGTAATG
    TCCACACCGC TACTGTCAGT CCCAGATGCT GGAGAAATGT CCACATTACC AAAGCCAGCT
    CCAGATGCTG AAGCAATGTC CCCAGCACTA ATGACGGCCC TACCCTCTGG AGTGATGCCC
    ACCCAAACGA TGCCAGCCCC AGGCTCTGGG GTGATGTCCC CATGGTCAAC ACAAAATGTA
    GACTCTGAAA TGATGTCTAA TCCGCCAGTG AGAGCAACAG CCTCTGGGGT GATGTCTGCA
    CCACCAGTAA GAGCTTTAGA CTCTGGAGCA ATGTCCACAC CGCTAATGGG AGCCCCAGCC
    TCTGGAAATA TGTCTACATT GCAAAAGACA GTTCCAGCCT CTGGAGCCAT GACCACCTCA
    CTGATGACAC TCCCAAGCTC TGGAGTGATG TCCACAGAGC AAATGTCAGC CACAGCCTCT
    AGAGTAATGT CCGCACAGTT AACAATGGCC AAAACTTCTG GAGCAATGCC CACAGGCTCT
    ATGAAAGCCG TGGCAAAACA ACACAAGAGA GCCACAGCCT CTGGAAAGAT GTCCACGCCA
    CTGAGGAAAG ATCCAACTTC TGGAGCAATG TCCACCCAAC CAGTTATGGC AACAGCCTCT
    GAAACAATGT CCATGCCACA ATTGACAGTC CCAGCCTCTG GATCAATGTC CATGCTGCAA
    ATGAGAGCCC CTGTCTCTGA AGCAATGTCC ATGCCACAAA TGAGAACCAT GGCCTCAGGA
    TTGACATCTG CAGAACAGAT GAAAGCCATG ACTTCTGGAG CAATGTCCAC CCCACTAATG
    ACAGCCCAAA CCTCTGGATC AACATCCACG CTGTTAATGA GAGACACAGC CTCAGGAGTG
    ATGTCCTGTC CACAAATGAG ATCTCTGGCC TCTGGAGCAT TGTCCAAGCC ACTAATGACA
    CCCAAAGCCT CAGGAACGAT GTTCACGGAG AAAATGACAA CCACAGCTTC TGAAGCAATG
    CCCACACTGC TAATGAGAGA CACAGTTTCT GGAGCTCTGT CCATGCCGCA AATGACAGAC
    ACAGCCTCTG GAGGGTTGTC TGCATCGCTA ATGAGAGACA CAGCTTCTGG AGCAATGTCC
    ACATCACAAA TGACAGCCAC AGTCTCTGGA GGGATGTCCA TGCCACTAAT GAGAGCTCAA
    GACCCAGGAG TAATGCCTGC CTCACTAATG AGAGCCAAAG CGTCTGGAAA GATGCTCAGT
    CAGCCAATGA GCACCCAAGA TCCTGGAGGG ATGTCCATGT CGCCCATGAG GTCCATGACC
    GCTGGAGGGA TGCAGATGAA TTCCCCAACC TCTGATGTGA TGTCCACACC AACAGTGAGA
    GCCTGGACCT CTGAAACAAT GTCCACACCA CTAATGAGAA CCTCAGACTC TGGAGAGAGG
    CCCTCACTGC TCACAAGAGC TTCATCCTCT GGAGAGATGT CCCTACCACT AATGAAAGCT
    CCAGCTTCTG GAGAGATAGC CACGCCTCTG AGATCCCCAG CTTATGGAGC CATGTCTGCT
    CCACAAATGA CAGCCACAGC CTCTGGAATG ATGTCATCCA TGCCACAAGT GAAGGCTCCC
    ATCTCTGGAG CAATGTCCAT GCCACTAACA AGATCCACAG CCTCTGGAGG GATGTCCATG
    CCACTGATGA GAGCCCCAGA CTCTAGAGTG ACATCCACAT CACAAATGAT GCCCACAGCT
    TCTGGAGACA TGTGCACACT ACCAGTGCGA GCCCCAGCCT CTGGAGGGGC GTCCTCACCA
    CTAGTAAGAG CTCCAGCCTC TGGAACTATG TCCACACCAC TAAGGAGACC CTCAGCCTGT
    GAAACTGTGT CCACAGAGTT AATGAGAGCT TCAGCCTCTG GACATATGTC CACTGCACAA
    ACAACAGCCC TGGTCTCTGG AGGGATGTCC AAGCCGTTAA TGAGAGCCCC GGCCTCTGGA
    ACAATGCCCA TGCCTTTAAT GTCAGCCATG GCTTCTGGAG AGATGTCTAT GCCGCTAATG
    GAAACCATGG CCTCTGGAGC AACGTCCACA TTGCAAAGCA GTGTTGCGAA CTCTAGATCT
    ATGTCCTTGC CACAAACAAC ATATACCGTG TCTGGAGGGA TGGCCACAGC GCCAATTAGA
    GCCTCTGCTT CTGGAGCAAG GTCCACATCA TTTATGAGAG CCTCAGTTTC TGGATCGATG
    CCCATGCCAC TACCAAGAGC CACAGCCTCT GGATGTGGCA TGGGTATGTC CATGCCACAA
    ATGACAGCCA CAGACTCTAG AGGGATGTCC ACACCACTAA TGAGGGCCTC AGGCCCTGGA
    ACAATGTCCA CACAACAGAC AGCCTTTGGA GTGATGTCCA CTCCGGAAAT CAAAGCCACA
    GACTCTGGAG AGGCATCCAC CTCTCACATT AACATCACAG CCTCTGGATC AAAGCCCACA
    TCGCACATGA CTGCCACAAC TCCTGAAACT GCGAAACCAC CACCAAAGGA AGTGCCATCC
    TTCGGAATGT TGACCCCAGC ACTCTGCTAC CTCTTAGAAG AGCAGGAAGC AGCCCGGGGC
    TCATGCTCTG TGGAGGAAGA GATGGAGATT GATGAGGAGA AGCAAATGAA GGGGTTTTTG
    GACGATTCAG AGAGAATGGC ATTTCTGGTG TCTCTTCATC TGGGAGCAGC AGAGAGGTGG
    TTCATCTTGC AAATGGAGGT AGGAGAACCT CTCTCACATG AAAATAAATC TTTCCTGAGA
    AGATCCCAGG GCATATATGA CTCCCTGTCT GAGATAGACA TCCTCAGTGC TGTTCTTTGC
    CATCCCAAAC AGGGCCAAAA GTCAGTCAGG CAGTATGCCA CTGACTTCCT GCTGCTGGCC
    CGACATTTGT CTTGGTCTGA TGCCATTCTA CGGACCAGGT TTCTGGAAGG ACTCTCAGAA
    GCTGTTACCA CCAAAATGGG TCGGATCTTC CTGAAGGTGG CTGGCAGCCT AAAGGAGCTG
    ATAGACAGGT CTCTGTACAC CGAGTGCCAG CTGGCTGAAG AGAAGGATTC CCCAGGCAAC
    TCAAGCCAGG TTCTGCCAAC AGCCTGTAAG CGGAATAATG AGGAGGCCAT GGGGAATGAA
    CTGAGCTCTC AGCAGCAGAC TGAGGAGCAT CAGCATGTTT CCAAACGCTG TTACTACCTG
    AAAGAGCATG GAGACCCCCA AGAAGGTCTT CATGATCACC TTGGACAGAG CACAGGCCAT
    CATCAGAAGG CCCATACCAA CAAGTAA

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

    RefSeq XP_016798428.1
    CDS1059..5225
    Translation

    Target ORF information:

    RefSeq Version XM_016942939.2
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes retrotransposon Gag like 9 (RTL9), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_016942939.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGTCAATAC CCTTACATTC ACTGCGATTC AACAATACAA TGAGGGAGGA AAATATTGAG 
    CCCCAAAACA AGCAGATGGC CTTCTGTAGA CCAATGACAG AGACCAGAGC AGACGTACAG
    ATTCTGCATT CTCATGTACA GTTGCCTATA GTCTCAACTT CAGCCTCAGA CCCTGGAGGG
    ACATCCACAC AGTTGATGAC ATCTCCAGTC TTTGACACCA TGTCTGCACC TCTAATGGGA
    GTACCAAACT CTGGAGCATT GTCCCCACCC CTAATGCCAG CCTCAGACTC TGGGGCACTT
    TCCCCATTGC TAATGCCAGC CTCAGACTCT GGGGCACTAT CCCCATTGCT AATGCCAGCC
    TTAGATTCTG GAACATTGTC CCCATTGCTG TCCACTTCAG AGTATGGGGT AATGTCCCCA
    GGGATGATGA CAATTCCTGA TTTTGGAACG ATGTCCGCAA CGCTAATGGT AGCACCAGAT
    TCTGCAGAGA TATCACCATT GGCAACGCCA GCTCCATCCT CTGGAGCGGT GTGTACACCT
    ATAATGAGCA CTTCATCCTC TGAGGCAATG TCCACACCAT TAATGCTAGC CCCAGATTCT
    GGAGAGATAT CCCCAATTCT AATGCAAGAT ATGAATCCTG GAGTGATGTC TACACAGCCA
    GTGCCAGCTC CCAGCTCTGA GGCAATGTCC CCATTGCAAA TTACAGATGA AGACACCGAA
    GCAATGTCCA AAGTGCTAAT GACTGCTCTA GCCTCTGGAG AGATATCTTC GCTGCTAATG
    TCAGGCACGG ACTCTGAAGC AATATCCTCA CTGATAATGT CAGCTGTAGC TTCTGGAGGA
    ACATCACCCC AGCCGACAAG CACCCAAAAC TCTGGGGGAA TACCTACCCC GCTCATGTCA
    GATCTAGACT CTGGAATAAT GTCATCACTT TTAATGTCAT CTCCAGGTTC TGAAGTAATG
    TCCACACCGC TACTGTCAGT CCCAGATGCT GGAGAAATGT CCACATTACC AAAGCCAGCT
    CCAGATGCTG AAGCAATGTC CCCAGCACTA ATGACGGCCC TACCCTCTGG AGTGATGCCC
    ACCCAAACGA TGCCAGCCCC AGGCTCTGGG GTGATGTCCC CATGGTCAAC ACAAAATGTA
    GACTCTGAAA TGATGTCTAA TCCGCCAGTG AGAGCAACAG CCTCTGGGGT GATGTCTGCA
    CCACCAGTAA GAGCTTTAGA CTCTGGAGCA ATGTCCACAC CGCTAATGGG AGCCCCAGCC
    TCTGGAAATA TGTCTACATT GCAAAAGACA GTTCCAGCCT CTGGAGCCAT GACCACCTCA
    CTGATGACAC TCCCAAGCTC TGGAGTGATG TCCACAGAGC AAATGTCAGC CACAGCCTCT
    AGAGTAATGT CCGCACAGTT AACAATGGCC AAAACTTCTG GAGCAATGCC CACAGGCTCT
    ATGAAAGCCG TGGCAAAACA ACACAAGAGA GCCACAGCCT CTGGAAAGAT GTCCACGCCA
    CTGAGGAAAG ATCCAACTTC TGGAGCAATG TCCACCCAAC CAGTTATGGC AACAGCCTCT
    GAAACAATGT CCATGCCACA ATTGACAGTC CCAGCCTCTG GATCAATGTC CATGCTGCAA
    ATGAGAGCCC CTGTCTCTGA AGCAATGTCC ATGCCACAAA TGAGAACCAT GGCCTCAGGA
    TTGACATCTG CAGAACAGAT GAAAGCCATG ACTTCTGGAG CAATGTCCAC CCCACTAATG
    ACAGCCCAAA CCTCTGGATC AACATCCACG CTGTTAATGA GAGACACAGC CTCAGGAGTG
    ATGTCCTGTC CACAAATGAG ATCTCTGGCC TCTGGAGCAT TGTCCAAGCC ACTAATGACA
    CCCAAAGCCT CAGGAACGAT GTTCACGGAG AAAATGACAA CCACAGCTTC TGAAGCAATG
    CCCACACTGC TAATGAGAGA CACAGTTTCT GGAGCTCTGT CCATGCCGCA AATGACAGAC
    ACAGCCTCTG GAGGGTTGTC TGCATCGCTA ATGAGAGACA CAGCTTCTGG AGCAATGTCC
    ACATCACAAA TGACAGCCAC AGTCTCTGGA GGGATGTCCA TGCCACTAAT GAGAGCTCAA
    GACCCAGGAG TAATGCCTGC CTCACTAATG AGAGCCAAAG CGTCTGGAAA GATGCTCAGT
    CAGCCAATGA GCACCCAAGA TCCTGGAGGG ATGTCCATGT CGCCCATGAG GTCCATGACC
    GCTGGAGGGA TGCAGATGAA TTCCCCAACC TCTGATGTGA TGTCCACACC AACAGTGAGA
    GCCTGGACCT CTGAAACAAT GTCCACACCA CTAATGAGAA CCTCAGACTC TGGAGAGAGG
    CCCTCACTGC TCACAAGAGC TTCATCCTCT GGAGAGATGT CCCTACCACT AATGAAAGCT
    CCAGCTTCTG GAGAGATAGC CACGCCTCTG AGATCCCCAG CTTATGGAGC CATGTCTGCT
    CCACAAATGA CAGCCACAGC CTCTGGAATG ATGTCATCCA TGCCACAAGT GAAGGCTCCC
    ATCTCTGGAG CAATGTCCAT GCCACTAACA AGATCCACAG CCTCTGGAGG GATGTCCATG
    CCACTGATGA GAGCCCCAGA CTCTAGAGTG ACATCCACAT CACAAATGAT GCCCACAGCT
    TCTGGAGACA TGTGCACACT ACCAGTGCGA GCCCCAGCCT CTGGAGGGGC GTCCTCACCA
    CTAGTAAGAG CTCCAGCCTC TGGAACTATG TCCACACCAC TAAGGAGACC CTCAGCCTGT
    GAAACTGTGT CCACAGAGTT AATGAGAGCT TCAGCCTCTG GACATATGTC CACTGCACAA
    ACAACAGCCC TGGTCTCTGG AGGGATGTCC AAGCCGTTAA TGAGAGCCCC GGCCTCTGGA
    ACAATGCCCA TGCCTTTAAT GTCAGCCATG GCTTCTGGAG AGATGTCTAT GCCGCTAATG
    GAAACCATGG CCTCTGGAGC AACGTCCACA TTGCAAAGCA GTGTTGCGAA CTCTAGATCT
    ATGTCCTTGC CACAAACAAC ATATACCGTG TCTGGAGGGA TGGCCACAGC GCCAATTAGA
    GCCTCTGCTT CTGGAGCAAG GTCCACATCA TTTATGAGAG CCTCAGTTTC TGGATCGATG
    CCCATGCCAC TACCAAGAGC CACAGCCTCT GGATGTGGCA TGGGTATGTC CATGCCACAA
    ATGACAGCCA CAGACTCTAG AGGGATGTCC ACACCACTAA TGAGGGCCTC AGGCCCTGGA
    ACAATGTCCA CACAACAGAC AGCCTTTGGA GTGATGTCCA CTCCGGAAAT CAAAGCCACA
    GACTCTGGAG AGGCATCCAC CTCTCACATT AACATCACAG CCTCTGGATC AAAGCCCACA
    TCGCACATGA CTGCCACAAC TCCTGAAACT GCGAAACCAC CACCAAAGGA AGTGCCATCC
    TTCGGAATGT TGACCCCAGC ACTCTGCTAC CTCTTAGAAG AGCAGGAAGC AGCCCGGGGC
    TCATGCTCTG TGGAGGAAGA GATGGAGATT GATGAGGAGA AGCAAATGAA GGGGTTTTTG
    GACGATTCAG AGAGAATGGC ATTTCTGGTG TCTCTTCATC TGGGAGCAGC AGAGAGGTGG
    TTCATCTTGC AAATGGAGGT AGGAGAACCT CTCTCACATG AAAATAAATC TTTCCTGAGA
    AGATCCCAGG GCATATATGA CTCCCTGTCT GAGATAGACA TCCTCAGTGC TGTTCTTTGC
    CATCCCAAAC AGGGCCAAAA GTCAGTCAGG CAGTATGCCA CTGACTTCCT GCTGCTGGCC
    CGACATTTGT CTTGGTCTGA TGCCATTCTA CGGACCAGGT TTCTGGAAGG ACTCTCAGAA
    GCTGTTACCA CCAAAATGGG TCGGATCTTC CTGAAGGTGG CTGGCAGCCT AAAGGAGCTG
    ATAGACAGGT CTCTGTACAC CGAGTGCCAG CTGGCTGAAG AGAAGGATTC CCCAGGCAAC
    TCAAGCCAGG TTCTGCCAAC AGCCTGTAAG CGGAATAATG AGGAGGCCAT GGGGAATGAA
    CTGAGCTCTC AGCAGCAGAC TGAGGAGCAT CAGCATGTTT CCAAACGCTG TTACTACCTG
    AAAGAGCATG GAGACCCCCA AGAAGGTCTT CATGATCACC TTGGACAGAG CACAGGCCAT
    CATCAGAAGG CCCATACCAA CAAGTAA

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

    CloneID OPc25161
    Clone ID Related Accession (Same CDS sequence) XM_016942939.2 , XM_016942939.1
    Accession Version XM_016942939.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4167bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-01
    Organism Pan troglodytes(chimpanzee)
    Product retrotransposon gag domain-containing protein 1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_006491.4) 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 :: Pan troglodytes Annotation Release 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGTCAATAC CCTTACATTC ACTGCGATTC AACAATACAA TGAGGGAGGA AAATATTGAG 
    CCCCAAAACA AGCAGATGGC CTTCTGTAGA CCAATGACAG AGACCAGAGC AGACGTACAG
    ATTCTGCATT CTCATGTACA GTTGCCTATA GTCTCAACTT CAGCCTCAGA CCCTGGAGGG
    ACATCCACAC AGTTGATGAC ATCTCCAGTC TTTGACACCA TGTCTGCACC TCTAATGGGA
    GTACCAAACT CTGGAGCATT GTCCCCACCC CTAATGCCAG CCTCAGACTC TGGGGCACTT
    TCCCCATTGC TAATGCCAGC CTCAGACTCT GGGGCACTAT CCCCATTGCT AATGCCAGCC
    TTAGATTCTG GAACATTGTC CCCATTGCTG TCCACTTCAG AGTATGGGGT AATGTCCCCA
    GGGATGATGA CAATTCCTGA TTTTGGAACG ATGTCCGCAA CGCTAATGGT AGCACCAGAT
    TCTGCAGAGA TATCACCATT GGCAACGCCA GCTCCATCCT CTGGAGCGGT GTGTACACCT
    ATAATGAGCA CTTCATCCTC TGAGGCAATG TCCACACCAT TAATGCTAGC CCCAGATTCT
    GGAGAGATAT CCCCAATTCT AATGCAAGAT ATGAATCCTG GAGTGATGTC TACACAGCCA
    GTGCCAGCTC CCAGCTCTGA GGCAATGTCC CCATTGCAAA TTACAGATGA AGACACCGAA
    GCAATGTCCA AAGTGCTAAT GACTGCTCTA GCCTCTGGAG AGATATCTTC GCTGCTAATG
    TCAGGCACGG ACTCTGAAGC AATATCCTCA CTGATAATGT CAGCTGTAGC TTCTGGAGGA
    ACATCACCCC AGCCGACAAG CACCCAAAAC TCTGGGGGAA TACCTACCCC GCTCATGTCA
    GATCTAGACT CTGGAATAAT GTCATCACTT TTAATGTCAT CTCCAGGTTC TGAAGTAATG
    TCCACACCGC TACTGTCAGT CCCAGATGCT GGAGAAATGT CCACATTACC AAAGCCAGCT
    CCAGATGCTG AAGCAATGTC CCCAGCACTA ATGACGGCCC TACCCTCTGG AGTGATGCCC
    ACCCAAACGA TGCCAGCCCC AGGCTCTGGG GTGATGTCCC CATGGTCAAC ACAAAATGTA
    GACTCTGAAA TGATGTCTAA TCCGCCAGTG AGAGCAACAG CCTCTGGGGT GATGTCTGCA
    CCACCAGTAA GAGCTTTAGA CTCTGGAGCA ATGTCCACAC CGCTAATGGG AGCCCCAGCC
    TCTGGAAATA TGTCTACATT GCAAAAGACA GTTCCAGCCT CTGGAGCCAT GACCACCTCA
    CTGATGACAC TCCCAAGCTC TGGAGTGATG TCCACAGAGC AAATGTCAGC CACAGCCTCT
    AGAGTAATGT CCGCACAGTT AACAATGGCC AAAACTTCTG GAGCAATGCC CACAGGCTCT
    ATGAAAGCCG TGGCAAAACA ACACAAGAGA GCCACAGCCT CTGGAAAGAT GTCCACGCCA
    CTGAGGAAAG ATCCAACTTC TGGAGCAATG TCCACCCAAC CAGTTATGGC AACAGCCTCT
    GAAACAATGT CCATGCCACA ATTGACAGTC CCAGCCTCTG GATCAATGTC CATGCTGCAA
    ATGAGAGCCC CTGTCTCTGA AGCAATGTCC ATGCCACAAA TGAGAACCAT GGCCTCAGGA
    TTGACATCTG CAGAACAGAT GAAAGCCATG ACTTCTGGAG CAATGTCCAC CCCACTAATG
    ACAGCCCAAA CCTCTGGATC AACATCCACG CTGTTAATGA GAGACACAGC CTCAGGAGTG
    ATGTCCTGTC CACAAATGAG ATCTCTGGCC TCTGGAGCAT TGTCCAAGCC ACTAATGACA
    CCCAAAGCCT CAGGAACGAT GTTCACGGAG AAAATGACAA CCACAGCTTC TGAAGCAATG
    CCCACACTGC TAATGAGAGA CACAGTTTCT GGAGCTCTGT CCATGCCGCA AATGACAGAC
    ACAGCCTCTG GAGGGTTGTC TGCATCGCTA ATGAGAGACA CAGCTTCTGG AGCAATGTCC
    ACATCACAAA TGACAGCCAC AGTCTCTGGA GGGATGTCCA TGCCACTAAT GAGAGCTCAA
    GACCCAGGAG TAATGCCTGC CTCACTAATG AGAGCCAAAG CGTCTGGAAA GATGCTCAGT
    CAGCCAATGA GCACCCAAGA TCCTGGAGGG ATGTCCATGT CGCCCATGAG GTCCATGACC
    GCTGGAGGGA TGCAGATGAA TTCCCCAACC TCTGATGTGA TGTCCACACC AACAGTGAGA
    GCCTGGACCT CTGAAACAAT GTCCACACCA CTAATGAGAA CCTCAGACTC TGGAGAGAGG
    CCCTCACTGC TCACAAGAGC TTCATCCTCT GGAGAGATGT CCCTACCACT AATGAAAGCT
    CCAGCTTCTG GAGAGATAGC CACGCCTCTG AGATCCCCAG CTTATGGAGC CATGTCTGCT
    CCACAAATGA CAGCCACAGC CTCTGGAATG ATGTCATCCA TGCCACAAGT GAAGGCTCCC
    ATCTCTGGAG CAATGTCCAT GCCACTAACA AGATCCACAG CCTCTGGAGG GATGTCCATG
    CCACTGATGA GAGCCCCAGA CTCTAGAGTG ACATCCACAT CACAAATGAT GCCCACAGCT
    TCTGGAGACA TGTGCACACT ACCAGTGCGA GCCCCAGCCT CTGGAGGGGC GTCCTCACCA
    CTAGTAAGAG CTCCAGCCTC TGGAACTATG TCCACACCAC TAAGGAGACC CTCAGCCTGT
    GAAACTGTGT CCACAGAGTT AATGAGAGCT TCAGCCTCTG GACATATGTC CACTGCACAA
    ACAACAGCCC TGGTCTCTGG AGGGATGTCC AAGCCGTTAA TGAGAGCCCC GGCCTCTGGA
    ACAATGCCCA TGCCTTTAAT GTCAGCCATG GCTTCTGGAG AGATGTCTAT GCCGCTAATG
    GAAACCATGG CCTCTGGAGC AACGTCCACA TTGCAAAGCA GTGTTGCGAA CTCTAGATCT
    ATGTCCTTGC CACAAACAAC ATATACCGTG TCTGGAGGGA TGGCCACAGC GCCAATTAGA
    GCCTCTGCTT CTGGAGCAAG GTCCACATCA TTTATGAGAG CCTCAGTTTC TGGATCGATG
    CCCATGCCAC TACCAAGAGC CACAGCCTCT GGATGTGGCA TGGGTATGTC CATGCCACAA
    ATGACAGCCA CAGACTCTAG AGGGATGTCC ACACCACTAA TGAGGGCCTC AGGCCCTGGA
    ACAATGTCCA CACAACAGAC AGCCTTTGGA GTGATGTCCA CTCCGGAAAT CAAAGCCACA
    GACTCTGGAG AGGCATCCAC CTCTCACATT AACATCACAG CCTCTGGATC AAAGCCCACA
    TCGCACATGA CTGCCACAAC TCCTGAAACT GCGAAACCAC CACCAAAGGA AGTGCCATCC
    TTCGGAATGT TGACCCCAGC ACTCTGCTAC CTCTTAGAAG AGCAGGAAGC AGCCCGGGGC
    TCATGCTCTG TGGAGGAAGA GATGGAGATT GATGAGGAGA AGCAAATGAA GGGGTTTTTG
    GACGATTCAG AGAGAATGGC ATTTCTGGTG TCTCTTCATC TGGGAGCAGC AGAGAGGTGG
    TTCATCTTGC AAATGGAGGT AGGAGAACCT CTCTCACATG AAAATAAATC TTTCCTGAGA
    AGATCCCAGG GCATATATGA CTCCCTGTCT GAGATAGACA TCCTCAGTGC TGTTCTTTGC
    CATCCCAAAC AGGGCCAAAA GTCAGTCAGG CAGTATGCCA CTGACTTCCT GCTGCTGGCC
    CGACATTTGT CTTGGTCTGA TGCCATTCTA CGGACCAGGT TTCTGGAAGG ACTCTCAGAA
    GCTGTTACCA CCAAAATGGG TCGGATCTTC CTGAAGGTGG CTGGCAGCCT AAAGGAGCTG
    ATAGACAGGT CTCTGTACAC CGAGTGCCAG CTGGCTGAAG AGAAGGATTC CCCAGGCAAC
    TCAAGCCAGG TTCTGCCAAC AGCCTGTAAG CGGAATAATG AGGAGGCCAT GGGGAATGAA
    CTGAGCTCTC AGCAGCAGAC TGAGGAGCAT CAGCATGTTT CCAAACGCTG TTACTACCTG
    AAAGAGCATG GAGACCCCCA AGAAGGTCTT CATGATCACC TTGGACAGAG CACAGGCCAT
    CATCAGAAGG CCCATACCAA CAAGTAA

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

    RefSeq XP_016798428.1
    CDS1060..5226
    Translation

    Target ORF information:

    RefSeq Version XM_016942939.1
    Organism Pan troglodytes(chimpanzee)
    Definition Pan troglodytes retrotransposon gag domain containing 1 (RGAG1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_016942939.1

    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
    ATGTCAATAC CCTTACATTC ACTGCGATTC AACAATACAA TGAGGGAGGA AAATATTGAG 
    CCCCAAAACA AGCAGATGGC CTTCTGTAGA CCAATGACAG AGACCAGAGC AGACGTACAG
    ATTCTGCATT CTCATGTACA GTTGCCTATA GTCTCAACTT CAGCCTCAGA CCCTGGAGGG
    ACATCCACAC AGTTGATGAC ATCTCCAGTC TTTGACACCA TGTCTGCACC TCTAATGGGA
    GTACCAAACT CTGGAGCATT GTCCCCACCC CTAATGCCAG CCTCAGACTC TGGGGCACTT
    TCCCCATTGC TAATGCCAGC CTCAGACTCT GGGGCACTAT CCCCATTGCT AATGCCAGCC
    TTAGATTCTG GAACATTGTC CCCATTGCTG TCCACTTCAG AGTATGGGGT AATGTCCCCA
    GGGATGATGA CAATTCCTGA TTTTGGAACG ATGTCCGCAA CGCTAATGGT AGCACCAGAT
    TCTGCAGAGA TATCACCATT GGCAACGCCA GCTCCATCCT CTGGAGCGGT GTGTACACCT
    ATAATGAGCA CTTCATCCTC TGAGGCAATG TCCACACCAT TAATGCTAGC CCCAGATTCT
    GGAGAGATAT CCCCAATTCT AATGCAAGAT ATGAATCCTG GAGTGATGTC TACACAGCCA
    GTGCCAGCTC CCAGCTCTGA GGCAATGTCC CCATTGCAAA TTACAGATGA AGACACCGAA
    GCAATGTCCA AAGTGCTAAT GACTGCTCTA GCCTCTGGAG AGATATCTTC GCTGCTAATG
    TCAGGCACGG ACTCTGAAGC AATATCCTCA CTGATAATGT CAGCTGTAGC TTCTGGAGGA
    ACATCACCCC AGCCGACAAG CACCCAAAAC TCTGGGGGAA TACCTACCCC GCTCATGTCA
    GATCTAGACT CTGGAATAAT GTCATCACTT TTAATGTCAT CTCCAGGTTC TGAAGTAATG
    TCCACACCGC TACTGTCAGT CCCAGATGCT GGAGAAATGT CCACATTACC AAAGCCAGCT
    CCAGATGCTG AAGCAATGTC CCCAGCACTA ATGACGGCCC TACCCTCTGG AGTGATGCCC
    ACCCAAACGA TGCCAGCCCC AGGCTCTGGG GTGATGTCCC CATGGTCAAC ACAAAATGTA
    GACTCTGAAA TGATGTCTAA TCCGCCAGTG AGAGCAACAG CCTCTGGGGT GATGTCTGCA
    CCACCAGTAA GAGCTTTAGA CTCTGGAGCA ATGTCCACAC CGCTAATGGG AGCCCCAGCC
    TCTGGAAATA TGTCTACATT GCAAAAGACA GTTCCAGCCT CTGGAGCCAT GACCACCTCA
    CTGATGACAC TCCCAAGCTC TGGAGTGATG TCCACAGAGC AAATGTCAGC CACAGCCTCT
    AGAGTAATGT CCGCACAGTT AACAATGGCC AAAACTTCTG GAGCAATGCC CACAGGCTCT
    ATGAAAGCCG TGGCAAAACA ACACAAGAGA GCCACAGCCT CTGGAAAGAT GTCCACGCCA
    CTGAGGAAAG ATCCAACTTC TGGAGCAATG TCCACCCAAC CAGTTATGGC AACAGCCTCT
    GAAACAATGT CCATGCCACA ATTGACAGTC CCAGCCTCTG GATCAATGTC CATGCTGCAA
    ATGAGAGCCC CTGTCTCTGA AGCAATGTCC ATGCCACAAA TGAGAACCAT GGCCTCAGGA
    TTGACATCTG CAGAACAGAT GAAAGCCATG ACTTCTGGAG CAATGTCCAC CCCACTAATG
    ACAGCCCAAA CCTCTGGATC AACATCCACG CTGTTAATGA GAGACACAGC CTCAGGAGTG
    ATGTCCTGTC CACAAATGAG ATCTCTGGCC TCTGGAGCAT TGTCCAAGCC ACTAATGACA
    CCCAAAGCCT CAGGAACGAT GTTCACGGAG AAAATGACAA CCACAGCTTC TGAAGCAATG
    CCCACACTGC TAATGAGAGA CACAGTTTCT GGAGCTCTGT CCATGCCGCA AATGACAGAC
    ACAGCCTCTG GAGGGTTGTC TGCATCGCTA ATGAGAGACA CAGCTTCTGG AGCAATGTCC
    ACATCACAAA TGACAGCCAC AGTCTCTGGA GGGATGTCCA TGCCACTAAT GAGAGCTCAA
    GACCCAGGAG TAATGCCTGC CTCACTAATG AGAGCCAAAG CGTCTGGAAA GATGCTCAGT
    CAGCCAATGA GCACCCAAGA TCCTGGAGGG ATGTCCATGT CGCCCATGAG GTCCATGACC
    GCTGGAGGGA TGCAGATGAA TTCCCCAACC TCTGATGTGA TGTCCACACC AACAGTGAGA
    GCCTGGACCT CTGAAACAAT GTCCACACCA CTAATGAGAA CCTCAGACTC TGGAGAGAGG
    CCCTCACTGC TCACAAGAGC TTCATCCTCT GGAGAGATGT CCCTACCACT AATGAAAGCT
    CCAGCTTCTG GAGAGATAGC CACGCCTCTG AGATCCCCAG CTTATGGAGC CATGTCTGCT
    CCACAAATGA CAGCCACAGC CTCTGGAATG ATGTCATCCA TGCCACAAGT GAAGGCTCCC
    ATCTCTGGAG CAATGTCCAT GCCACTAACA AGATCCACAG CCTCTGGAGG GATGTCCATG
    CCACTGATGA GAGCCCCAGA CTCTAGAGTG ACATCCACAT CACAAATGAT GCCCACAGCT
    TCTGGAGACA TGTGCACACT ACCAGTGCGA GCCCCAGCCT CTGGAGGGGC GTCCTCACCA
    CTAGTAAGAG CTCCAGCCTC TGGAACTATG TCCACACCAC TAAGGAGACC CTCAGCCTGT
    GAAACTGTGT CCACAGAGTT AATGAGAGCT TCAGCCTCTG GACATATGTC CACTGCACAA
    ACAACAGCCC TGGTCTCTGG AGGGATGTCC AAGCCGTTAA TGAGAGCCCC GGCCTCTGGA
    ACAATGCCCA TGCCTTTAAT GTCAGCCATG GCTTCTGGAG AGATGTCTAT GCCGCTAATG
    GAAACCATGG CCTCTGGAGC AACGTCCACA TTGCAAAGCA GTGTTGCGAA CTCTAGATCT
    ATGTCCTTGC CACAAACAAC ATATACCGTG TCTGGAGGGA TGGCCACAGC GCCAATTAGA
    GCCTCTGCTT CTGGAGCAAG GTCCACATCA TTTATGAGAG CCTCAGTTTC TGGATCGATG
    CCCATGCCAC TACCAAGAGC CACAGCCTCT GGATGTGGCA TGGGTATGTC CATGCCACAA
    ATGACAGCCA CAGACTCTAG AGGGATGTCC ACACCACTAA TGAGGGCCTC AGGCCCTGGA
    ACAATGTCCA CACAACAGAC AGCCTTTGGA GTGATGTCCA CTCCGGAAAT CAAAGCCACA
    GACTCTGGAG AGGCATCCAC CTCTCACATT AACATCACAG CCTCTGGATC AAAGCCCACA
    TCGCACATGA CTGCCACAAC TCCTGAAACT GCGAAACCAC CACCAAAGGA AGTGCCATCC
    TTCGGAATGT TGACCCCAGC ACTCTGCTAC CTCTTAGAAG AGCAGGAAGC AGCCCGGGGC
    TCATGCTCTG TGGAGGAAGA GATGGAGATT GATGAGGAGA AGCAAATGAA GGGGTTTTTG
    GACGATTCAG AGAGAATGGC ATTTCTGGTG TCTCTTCATC TGGGAGCAGC AGAGAGGTGG
    TTCATCTTGC AAATGGAGGT AGGAGAACCT CTCTCACATG AAAATAAATC TTTCCTGAGA
    AGATCCCAGG GCATATATGA CTCCCTGTCT GAGATAGACA TCCTCAGTGC TGTTCTTTGC
    CATCCCAAAC AGGGCCAAAA GTCAGTCAGG CAGTATGCCA CTGACTTCCT GCTGCTGGCC
    CGACATTTGT CTTGGTCTGA TGCCATTCTA CGGACCAGGT TTCTGGAAGG ACTCTCAGAA
    GCTGTTACCA CCAAAATGGG TCGGATCTTC CTGAAGGTGG CTGGCAGCCT AAAGGAGCTG
    ATAGACAGGT CTCTGTACAC CGAGTGCCAG CTGGCTGAAG AGAAGGATTC CCCAGGCAAC
    TCAAGCCAGG TTCTGCCAAC AGCCTGTAAG CGGAATAATG AGGAGGCCAT GGGGAATGAA
    CTGAGCTCTC AGCAGCAGAC TGAGGAGCAT CAGCATGTTT CCAAACGCTG TTACTACCTG
    AAAGAGCATG GAGACCCCCA AGAAGGTCTT CATGATCACC TTGGACAGAG CACAGGCCAT
    CATCAGAAGG CCCATACCAA CAAGTAA

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