Adcy9 cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Adcy9 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Adcy9 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
OMv33261 XM_021184932.1
Latest version!
Mus caroli adenylate cyclase 9 (Adcy9), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMv69991 XM_029470752.1
Latest version!
Mus caroli adenylate cyclase 9 (Adcy9), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00

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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 OMv33261
    Clone ID Related Accession (Same CDS sequence) XM_021184932.1
    Accession Version XM_021184932.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4062bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product adenylate cyclase type 9 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034585.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 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
    ATGGCTTCCT CACCCCACCA GCAGCTGCTG CATCACCATA GCACCGAGGT GAGCTGCGAC 
    TCAAGCGGAG ACAGCAACAG CGTGAGGGTC AAGATCAACC CTAAGCAGCT GTCCTCCAAC
    ACCCACCCGA AGCACTGCAA GTACAGCATC TCCTCCAGCT GTAGCAGCTC GGGAGACTCA
    GGGGGCCTTC CCCGGAGGGT TGGCGGCGGG GGTCGCCTGC GCAGACAGAA GAAGCTGCCC
    CAGCTTTTTG AGAGGGCCTC CAGCCGGTGG TGGGACCCCA AATTTGACTC CATGAACCTG
    GAGGAGGCCT GCCTGGAGCG CTGCTTTCCG CAGACCCAGC GCCGCTTCCG GTACGCACTC
    TTTTATGTGG GCTTCGCCTG CCTTCTCTGG AGCATCTATT TCGCTGTCCA CATGAGATCC
    AAAGTGATTG TCATGGTGGT CCCGGCTCTA TGCTTCCTGG TGGTGTGTGT GGGCTTTTTC
    CTGTTTACTT TCACCAAGCT GTACGCCCGG CATTATGCGT GGACCTCGCT GGCTCTCACC
    CTGCTGGTGT TCGCCCTGAC CCTGGCTGCG CAGTTTCAGG TTTGGACACC TCTGTCAGGA
    CGTGTTGACA GCTCCAATCA TACTCTCACG GCCACTCCGG CGGACACTTG CTTATCTCAA
    GTTGGAAGCT TCTCCATATG CATCGAAGTG CTCTTTTTGC TCTACACAGT CATGCATTTA
    CCTCTGTACC TGAGCTTGTT TTTGGGGGTG GTCTATTCTG TCCTTTTTGA GACCTTTGGC
    TACCATTTCC GAAACGAAGA CTGCTACCCT TCCCCGGGCC CTGGGGCCCT GCACTGGGAG
    CTGCTGAGCA GAGCCCTGCT TCACGTGTGC ATTCACGCTA TCGGGATCCA TCTGTTTGTC
    ATGTCTCAGG TGAGGTCCAG GAGCACCTTT CTCAAGGTGG GACAATCCAT TATGCACGGC
    AAAGATCTGG AAGTAGAGAA AGCCCTGAAA GAAAGGATGA TTCATTCAGT GATGCCAAGA
    ATCATAGCTG ACGACTTAAT GAAACAAGGG GACGAGGAGA GTGAGAATTC CGTCAAGAGG
    CATGCCACCT CCAGTCCCAA GAACAGGAAG AAGAAGTCCT CCATACAGAA GGCACCGATA
    GCATTCCGCC CCTTTAAGAT GCAGCAGATT GAAGAAGTCA GTATTTTATT TGCAGACATT
    GTGGGTTTCA CCAAGATGAG CGCCAACAAA TCTGCTCATG CCTTGGTAGG TCTACTCAAT
    GATCTGTTTG GTCGCTTTGA CCGCTTGTGT GAGGAGACCA AGTGTGAGAA GATCAGCACT
    CTGGGAGACT GTTACTATTG TGTGGCAGGG TGTCCGGAGC CCCGGGCAGA CCATGCCTAC
    TGCTGCATTG AAATGGGCTT AGGCATGATA AAAGCCATCG AGCAGTTCTG CCAGGAGAAG
    AAAGAGATGG TGAACATGCG TGTTGGGGTT CACACGGGGA CTGTCCTGTG TGGCATCCTG
    GGCATGAGGA GGTTTAAATT TGATGTGTGG TCCAACGATG TGAACTTGGC TAATCTCATG
    GAGCAGCTGG GAGTGGCTGG CAAAGTTCAC ATATCTGAGG CCACTGCAAA ATACTTAGAC
    GACAGGTATG AAATGGAAGA TGGGAGAGTT ATTGAGCGCC TTGGGCAGAG TGTGGTTGCT
    GACCAGTTGA AAGGTTTGAA GACATACCTG ATATCGGGTC AGAGAGCCAA GGAGTCCCAC
    TGCAGCTGTG CAGAGGCCCT GCTTTCTGGC TTTGAGGTCA TTGACGACTC ACGGGAGTCC
    TCAGGCCCTA GGGGACAGGG GACAGCATCG CCAGGGAGTG TCAGTGATTT GGCGCAGACT
    GTCAAAACCT TTGATAACCT TAAGACTTGC CCTTCTTGTG GAATCACATT TGCTCCCAAA
    TCTGAAGCTG GTGCAGAAGG AGGAGCTGTG CAAAATGGCT GTCAAGACGA GCCTAAGACC
    AGCACCAAGG CTTCTGGAGG ACCCAGCTCC AAAACCCAGA ACGGACTTCT GAGCCCTCCT
    GCAGAGGAGA AGCTCACTAA CAGCCAGACC TCCCTCTGTG AGATCCTGCA AGAGAAGGGG
    CGGTGGGCAG GCGTGAGCTT GGACCAGTCA GCCCTCCTCC CGCTCAGGTT CAAGAACATC
    CGTGAGAAAA CGGATGCCCA CTTTGTTGAT GTCATCAAAG AAGACAGCCT GATGAAAGAT
    TATTTCTTCA AGCCGCCCAT CAATCAGTTC AGCCTGAACT TCCTGGACCA GGAGCTGGAG
    CGATCATATA GAACCAGCTA CCAGGAAGAG GTCATAAAGA ATTCTCCTGT GAAGACGTTC
    GCCAGTGCCA CCTTCAGCTC GCTTCTGGAT GTGTTTCTGT CAACCACAGT GTTCCTGATT
    CTCTCTGTCA CCTGCTTCCT AAAGTATGGA GCCACAGCCA CCCCTCCCCC ACCAGCTGCC
    CTGGCCGTCT TTGGTGCAGA CCTGCTGCTG GAGGTGCTTT CCCTCATAGT GTCCATCAGA
    ATGGTGTTTT TCCTAGAGGA TGTCATGACA TGCACAAAGT GGTTGCTGGA ATGGATTGCT
    GGCTGGCTCC CTCGCCACTG CATTGGGGCA ATCTTGGTGT CTCTTCCTGC CCTGGCTGTC
    TATTCACACA TCACCTCTGA GTTTGAGACC AACATACATG TCACCATGTT CACTGGCTCT
    GCGGTGCTGG TAGCCGTTGT GCACTACTGT AACTTCTGCC AGCTCAGCTC CTGGATGAGG
    TCCTCCCTCG CCACCATCGT GGGGGCTGGG CTGCTGCTTC TGCTCCACAT CTCCCTGTGT
    CAGGACAGTT CCATTGTGAT GTCCCCCTTG GACTCAGCAC AGAATTTCAG TGCCCAGAGG
    AACCCATGCA ACAGCTCAGT GCTGCAGGAC GGCAGGAGGC CGGCCAGCCT CATAGGCAAG
    GAGCTCATCC TCACCTTCTT CCTCCTGCTC CTCTTGGTCT GGTTCCTGAA CCGGGAGTTC
    GAGGTCAGCT ACCGGCTGCA CTACCATGGG GATGTGGAGG CCGACCTACA CCGCACCAAG
    ATCCAGAGCA TGAGAGACCA GGCTGACTGG CTACTGCGGA ACATCATCCC CTACCACGTG
    GCTGAGCAGC TCAAGGTCTC TCAGACCTAC TCCAAGAACC ATGACAGCGG GGGAGTCATC
    TTTGCCAGTA TTGTCAACTT CAGTGAATTC TATGAGGAGA ACTATGAGGG GGGCAAGGAG
    TGCTACCGTG TCCTCAACGA GCTGATCGGT GACTTCGATG AGCTCTTGAG CAAGCCAGAC
    TATAATAGCA TCGAGAAGAT CAAGACCATT GGGGCCACAT ACATGGCAGC CTCAGGGCTG
    AACACGGCCC AGTGTCAGGA GGGTGGCCAC CCACAGGAGC ATCTGCGTAT CCTCTTCGAG
    TTCGCCAAGG AGATGATGCG GGTGGTGGAT GACTTCAACA ACAATATGTT ATGGTTCAAC
    TTCAAGCTCA GGGTCGGCTT TAACCACGGA CCCCTCACGG CAGGTGTCAT AGGTACCACC
    AAGCTGCTGT ATGACATCTG GGGGGACACT GTCAACATCG CCAGCAGGAT GGACACCACT
    GGTGTGGAGT GCCGTATCCA GGTGAGTGAA GAGAGCTACC GTGTGCTGAG CAAGATGGGT
    TATGACTTTG ACTACCGAGG GACCGTGAAT GTCAAGGGGA AAGGGCAGAT GAAGACCTAC
    CTTTACCCAA AGTGCATGGA CAATGGAGTG GTTCCCCAGC ACCAGCTGTC CATCTCCCCA
    GACATCCGTG TCCAGGTGGA CGGCAGCATT GGACGGTCTC CCACAGATGA GATTGCCAAC
    TTGGTGCCTT CCGTTCAGTA TTCGGACAAG GCTTCCCTGG GATCTGATGA CAGTACGCAG
    GCTAAGGAAG CACACCCGTC CTCTAAGAGG CCCTGGAAAG AGCCAGTCAA AGCAGAGGAA
    AGGTTTCCAT TTGGCAAAGC CATAGAAAAG GACAACTGTG AAGACATAGG AGTAGAAGAG
    GCCAATGAAC TCACCAAGCT CAACGTCTCA AAGAGTGTGT GA

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

    RefSeq XP_021040591.1
    CDS778..4839
    Translation

    Target ORF information:

    RefSeq Version XM_021184932.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli adenylate cyclase 9 (Adcy9), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021184932.1

    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
    ATGGCTTCCT CACCCCACCA GCAGCTGCTG CATCACCATA GCACCGAGGT GAGCTGCGAC 
    TCAAGCGGAG ACAGCAACAG CGTGAGGGTC AAGATCAACC CTAAGCAGCT GTCCTCCAAC
    ACCCACCCGA AGCACTGCAA GTACAGCATC TCCTCCAGCT GTAGCAGCTC GGGAGACTCA
    GGGGGCCTTC CCCGGAGGGT TGGCGGCGGG GGTCGCCTGC GCAGACAGAA GAAGCTGCCC
    CAGCTTTTTG AGAGGGCCTC CAGCCGGTGG TGGGACCCCA AATTTGACTC CATGAACCTG
    GAGGAGGCCT GCCTGGAGCG CTGCTTTCCG CAGACCCAGC GCCGCTTCCG GTACGCACTC
    TTTTATGTGG GCTTCGCCTG CCTTCTCTGG AGCATCTATT TCGCTGTCCA CATGAGATCC
    AAAGTGATTG TCATGGTGGT CCCGGCTCTA TGCTTCCTGG TGGTGTGTGT GGGCTTTTTC
    CTGTTTACTT TCACCAAGCT GTACGCCCGG CATTATGCGT GGACCTCGCT GGCTCTCACC
    CTGCTGGTGT TCGCCCTGAC CCTGGCTGCG CAGTTTCAGG TTTGGACACC TCTGTCAGGA
    CGTGTTGACA GCTCCAATCA TACTCTCACG GCCACTCCGG CGGACACTTG CTTATCTCAA
    GTTGGAAGCT TCTCCATATG CATCGAAGTG CTCTTTTTGC TCTACACAGT CATGCATTTA
    CCTCTGTACC TGAGCTTGTT TTTGGGGGTG GTCTATTCTG TCCTTTTTGA GACCTTTGGC
    TACCATTTCC GAAACGAAGA CTGCTACCCT TCCCCGGGCC CTGGGGCCCT GCACTGGGAG
    CTGCTGAGCA GAGCCCTGCT TCACGTGTGC ATTCACGCTA TCGGGATCCA TCTGTTTGTC
    ATGTCTCAGG TGAGGTCCAG GAGCACCTTT CTCAAGGTGG GACAATCCAT TATGCACGGC
    AAAGATCTGG AAGTAGAGAA AGCCCTGAAA GAAAGGATGA TTCATTCAGT GATGCCAAGA
    ATCATAGCTG ACGACTTAAT GAAACAAGGG GACGAGGAGA GTGAGAATTC CGTCAAGAGG
    CATGCCACCT CCAGTCCCAA GAACAGGAAG AAGAAGTCCT CCATACAGAA GGCACCGATA
    GCATTCCGCC CCTTTAAGAT GCAGCAGATT GAAGAAGTCA GTATTTTATT TGCAGACATT
    GTGGGTTTCA CCAAGATGAG CGCCAACAAA TCTGCTCATG CCTTGGTAGG TCTACTCAAT
    GATCTGTTTG GTCGCTTTGA CCGCTTGTGT GAGGAGACCA AGTGTGAGAA GATCAGCACT
    CTGGGAGACT GTTACTATTG TGTGGCAGGG TGTCCGGAGC CCCGGGCAGA CCATGCCTAC
    TGCTGCATTG AAATGGGCTT AGGCATGATA AAAGCCATCG AGCAGTTCTG CCAGGAGAAG
    AAAGAGATGG TGAACATGCG TGTTGGGGTT CACACGGGGA CTGTCCTGTG TGGCATCCTG
    GGCATGAGGA GGTTTAAATT TGATGTGTGG TCCAACGATG TGAACTTGGC TAATCTCATG
    GAGCAGCTGG GAGTGGCTGG CAAAGTTCAC ATATCTGAGG CCACTGCAAA ATACTTAGAC
    GACAGGTATG AAATGGAAGA TGGGAGAGTT ATTGAGCGCC TTGGGCAGAG TGTGGTTGCT
    GACCAGTTGA AAGGTTTGAA GACATACCTG ATATCGGGTC AGAGAGCCAA GGAGTCCCAC
    TGCAGCTGTG CAGAGGCCCT GCTTTCTGGC TTTGAGGTCA TTGACGACTC ACGGGAGTCC
    TCAGGCCCTA GGGGACAGGG GACAGCATCG CCAGGGAGTG TCAGTGATTT GGCGCAGACT
    GTCAAAACCT TTGATAACCT TAAGACTTGC CCTTCTTGTG GAATCACATT TGCTCCCAAA
    TCTGAAGCTG GTGCAGAAGG AGGAGCTGTG CAAAATGGCT GTCAAGACGA GCCTAAGACC
    AGCACCAAGG CTTCTGGAGG ACCCAGCTCC AAAACCCAGA ACGGACTTCT GAGCCCTCCT
    GCAGAGGAGA AGCTCACTAA CAGCCAGACC TCCCTCTGTG AGATCCTGCA AGAGAAGGGG
    CGGTGGGCAG GCGTGAGCTT GGACCAGTCA GCCCTCCTCC CGCTCAGGTT CAAGAACATC
    CGTGAGAAAA CGGATGCCCA CTTTGTTGAT GTCATCAAAG AAGACAGCCT GATGAAAGAT
    TATTTCTTCA AGCCGCCCAT CAATCAGTTC AGCCTGAACT TCCTGGACCA GGAGCTGGAG
    CGATCATATA GAACCAGCTA CCAGGAAGAG GTCATAAAGA ATTCTCCTGT GAAGACGTTC
    GCCAGTGCCA CCTTCAGCTC GCTTCTGGAT GTGTTTCTGT CAACCACAGT GTTCCTGATT
    CTCTCTGTCA CCTGCTTCCT AAAGTATGGA GCCACAGCCA CCCCTCCCCC ACCAGCTGCC
    CTGGCCGTCT TTGGTGCAGA CCTGCTGCTG GAGGTGCTTT CCCTCATAGT GTCCATCAGA
    ATGGTGTTTT TCCTAGAGGA TGTCATGACA TGCACAAAGT GGTTGCTGGA ATGGATTGCT
    GGCTGGCTCC CTCGCCACTG CATTGGGGCA ATCTTGGTGT CTCTTCCTGC CCTGGCTGTC
    TATTCACACA TCACCTCTGA GTTTGAGACC AACATACATG TCACCATGTT CACTGGCTCT
    GCGGTGCTGG TAGCCGTTGT GCACTACTGT AACTTCTGCC AGCTCAGCTC CTGGATGAGG
    TCCTCCCTCG CCACCATCGT GGGGGCTGGG CTGCTGCTTC TGCTCCACAT CTCCCTGTGT
    CAGGACAGTT CCATTGTGAT GTCCCCCTTG GACTCAGCAC AGAATTTCAG TGCCCAGAGG
    AACCCATGCA ACAGCTCAGT GCTGCAGGAC GGCAGGAGGC CGGCCAGCCT CATAGGCAAG
    GAGCTCATCC TCACCTTCTT CCTCCTGCTC CTCTTGGTCT GGTTCCTGAA CCGGGAGTTC
    GAGGTCAGCT ACCGGCTGCA CTACCATGGG GATGTGGAGG CCGACCTACA CCGCACCAAG
    ATCCAGAGCA TGAGAGACCA GGCTGACTGG CTACTGCGGA ACATCATCCC CTACCACGTG
    GCTGAGCAGC TCAAGGTCTC TCAGACCTAC TCCAAGAACC ATGACAGCGG GGGAGTCATC
    TTTGCCAGTA TTGTCAACTT CAGTGAATTC TATGAGGAGA ACTATGAGGG GGGCAAGGAG
    TGCTACCGTG TCCTCAACGA GCTGATCGGT GACTTCGATG AGCTCTTGAG CAAGCCAGAC
    TATAATAGCA TCGAGAAGAT CAAGACCATT GGGGCCACAT ACATGGCAGC CTCAGGGCTG
    AACACGGCCC AGTGTCAGGA GGGTGGCCAC CCACAGGAGC ATCTGCGTAT CCTCTTCGAG
    TTCGCCAAGG AGATGATGCG GGTGGTGGAT GACTTCAACA ACAATATGTT ATGGTTCAAC
    TTCAAGCTCA GGGTCGGCTT TAACCACGGA CCCCTCACGG CAGGTGTCAT AGGTACCACC
    AAGCTGCTGT ATGACATCTG GGGGGACACT GTCAACATCG CCAGCAGGAT GGACACCACT
    GGTGTGGAGT GCCGTATCCA GGTGAGTGAA GAGAGCTACC GTGTGCTGAG CAAGATGGGT
    TATGACTTTG ACTACCGAGG GACCGTGAAT GTCAAGGGGA AAGGGCAGAT GAAGACCTAC
    CTTTACCCAA AGTGCATGGA CAATGGAGTG GTTCCCCAGC ACCAGCTGTC CATCTCCCCA
    GACATCCGTG TCCAGGTGGA CGGCAGCATT GGACGGTCTC CCACAGATGA GATTGCCAAC
    TTGGTGCCTT CCGTTCAGTA TTCGGACAAG GCTTCCCTGG GATCTGATGA CAGTACGCAG
    GCTAAGGAAG CACACCCGTC CTCTAAGAGG CCCTGGAAAG AGCCAGTCAA AGCAGAGGAA
    AGGTTTCCAT TTGGCAAAGC CATAGAAAAG GACAACTGTG AAGACATAGG AGTAGAAGAG
    GCCAATGAAC TCACCAAGCT CAACGTCTCA AAGAGTGTGT GA

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

    CloneID OMv69991
    Clone ID Related Accession (Same CDS sequence) XM_029470752.1
    Accession Version XM_029470752.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4119bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product adenylate cyclase type 9 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034585.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 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
    ATGGCTTCCT CACCCCACCA GCAGCTGCTG CATCACCATA GCACCGAGGT GAGCTGCGAC 
    TCAAGCGGAG ACAGCAACAG CGTGAGGGTC AAGATCAACC CTAAGCAGCT GTCCTCCAAC
    ACCCACCCGA AGCACTGCAA GTACAGCATC TCCTCCAGCT GTAGCAGCTC GGGAGACTCA
    GGGGGCCTTC CCCGGAGGGT TGGCGGCGGG GGTCGCCTGC GCAGACAGAA GAAGCTGCCC
    CAGCTTTTTG AGAGGGCCTC CAGCCGGTGG TGGGACCCCA AATTTGACTC CATGAACCTG
    GAGGAGGCCT GCCTGGAGCG CTGCTTTCCG CAGACCCAGC GCCGCTTCCG GTACGCACTC
    TTTTATGTGG GCTTCGCCTG CCTTCTCTGG AGCATCTATT TCGCTGTCCA CATGAGATCC
    AAAGTGATTG TCATGGTGGT CCCGGCTCTA TGCTTCCTGG TGGTGTGTGT GGGCTTTTTC
    CTGTTTACTT TCACCAAGCT GTACGCCCGG CATTATGCGT GGACCTCGCT GGCTCTCACC
    CTGCTGGTGT TCGCCCTGAC CCTGGCTGCG CAGTTTCAGG TTTGGACACC TCTGTCAGGA
    CGTGTTGACA GCTCCAATCA TACTCTCACG GCCACTCCGG CGGACACTTG CTTATCTCAA
    GTTGGAAGCT TCTCCATATG CATCGAAGTG CTCTTTTTGC TCTACACAGT CATGCATTTA
    CCTCTGTACC TGAGCTTGTT TTTGGGGGTG GTCTATTCTG TCCTTTTTGA GACCTTTGGC
    TACCATTTCC GAAACGAAGA CTGCTACCCT TCCCCGGGCC CTGGGGCCCT GCACTGGGAG
    CTGCTGAGCA GAGCCCTGCT TCACGTGTGC ATTCACGCTA TCGGGATCCA TCTGTTTGTC
    ATGTCTCAGG TGAGGTCCAG GAGCACCTTT CTCAAGGTGG GACAATCCAT TATGCACGGC
    AAAGATCTGG AAGTAGAGAA AGCCCTGAAA GAAAGGATGA TTCATTCAGT GATGCCAAGA
    ATCATAGCTG ACGACTTAAT GAAACAAGGG GACGAGGAGA GTGAGAATTC CGTCAAGAGG
    CATGCCACCT CCAGTCCCAA GAACAGGAAG AAGAAGTCCT CCATACAGAA GGCACCGATA
    GCATTCCGCC CCTTTAAGAT GCAGCAGATT GAAGAAGTCA GTATTTTATT TGCAGACATT
    GTGGGTTTCA CCAAGATGAG CGCCAACAAA TCTGCTCATG CCTTGGTAGG TCTACTCAAT
    GATCTGTTTG GTCGCTTTGA CCGCTTGTGT GAGGAGACCA AGTGTGAGAA GATCAGCACT
    CTGGGAGACT GTTACTATTG TGTGGCAGGG TGTCCGGAGC CCCGGGCAGA CCATGCCTAC
    TGCTGCATTG AAATGGGCTT AGGCATGATA AAAGCCATCG AGCAGTTCTG CCAGGAGAAG
    AAAGAGATGG TGAACATGCG TGTTGGGGTT CACACGGGGA CTGTCCTGTG TGGCATCCTG
    GGCATGAGGA GGTTTAAATT TGATGTGTGG TCCAACGATG TGAACTTGGC TAATCTCATG
    GAGCAGCTGG GAGTGGCTGG CAAAGTTCAC ATATCTGAGG CCACTGCAAA ATACTTAGAC
    GACAGGTATG AAATGGAAGA TGGGAGAGTT ATTGAGCGCC TTGGGCAGAG TGTGGTTGCT
    GACCAGTTGA AAGGTTTGAA GACATACCTG ATATCGGGTC AGAGAGCCAA GGAGTCCCAC
    TGCAGCTGTG CAGAGGCCCT GCTTTCTGGC TTTGAGGTCA TTGACGACTC ACGGGAGTCC
    TCAGGCCCTA GGGGACAGGG GACAGCATCG CCAGGGAGTG TCAGTGATTT GGCGCAGACT
    GTCAAAACCT TTGATAACCT TAAGACTTGC CCTTCTTGTG GAATCACATT TGCTCCCAAA
    TCTGAAGCTG GTGCAGAAGG AGGAGCTGTG CAAAATGGCT GTCAAGACGA GCCTAAGACC
    AGCACCAAGG TAACAAGCTC ATGGCTGTTG TTCCTGTCAG TACCTCTCCT GGCGCATCCA
    CCTAAGGCTT CTGGAGGACC CAGCTCCAAA ACCCAGAACG GACTTCTGAG CCCTCCTGCA
    GAGGAGAAGC TCACTAACAG CCAGACCTCC CTCTGTGAGA TCCTGCAAGA GAAGGGGCGG
    TGGGCAGGCG TGAGCTTGGA CCAGTCAGCC CTCCTCCCGC TCAGGTTCAA GAACATCCGT
    GAGAAAACGG ATGCCCACTT TGTTGATGTC ATCAAAGAAG ACAGCCTGAT GAAAGATTAT
    TTCTTCAAGC CGCCCATCAA TCAGTTCAGC CTGAACTTCC TGGACCAGGA GCTGGAGCGA
    TCATATAGAA CCAGCTACCA GGAAGAGGTC ATAAAGAATT CTCCTGTGAA GACGTTCGCC
    AGTGCCACCT TCAGCTCGCT TCTGGATGTG TTTCTGTCAA CCACAGTGTT CCTGATTCTC
    TCTGTCACCT GCTTCCTAAA GTATGGAGCC ACAGCCACCC CTCCCCCACC AGCTGCCCTG
    GCCGTCTTTG GTGCAGACCT GCTGCTGGAG GTGCTTTCCC TCATAGTGTC CATCAGAATG
    GTGTTTTTCC TAGAGGATGT CATGACATGC ACAAAGTGGT TGCTGGAATG GATTGCTGGC
    TGGCTCCCTC GCCACTGCAT TGGGGCAATC TTGGTGTCTC TTCCTGCCCT GGCTGTCTAT
    TCACACATCA CCTCTGAGTT TGAGACCAAC ATACATGTCA CCATGTTCAC TGGCTCTGCG
    GTGCTGGTAG CCGTTGTGCA CTACTGTAAC TTCTGCCAGC TCAGCTCCTG GATGAGGTCC
    TCCCTCGCCA CCATCGTGGG GGCTGGGCTG CTGCTTCTGC TCCACATCTC CCTGTGTCAG
    GACAGTTCCA TTGTGATGTC CCCCTTGGAC TCAGCACAGA ATTTCAGTGC CCAGAGGAAC
    CCATGCAACA GCTCAGTGCT GCAGGACGGC AGGAGGCCGG CCAGCCTCAT AGGCAAGGAG
    CTCATCCTCA CCTTCTTCCT CCTGCTCCTC TTGGTCTGGT TCCTGAACCG GGAGTTCGAG
    GTCAGCTACC GGCTGCACTA CCATGGGGAT GTGGAGGCCG ACCTACACCG CACCAAGATC
    CAGAGCATGA GAGACCAGGC TGACTGGCTA CTGCGGAACA TCATCCCCTA CCACGTGGCT
    GAGCAGCTCA AGGTCTCTCA GACCTACTCC AAGAACCATG ACAGCGGGGG AGTCATCTTT
    GCCAGTATTG TCAACTTCAG TGAATTCTAT GAGGAGAACT ATGAGGGGGG CAAGGAGTGC
    TACCGTGTCC TCAACGAGCT GATCGGTGAC TTCGATGAGC TCTTGAGCAA GCCAGACTAT
    AATAGCATCG AGAAGATCAA GACCATTGGG GCCACATACA TGGCAGCCTC AGGGCTGAAC
    ACGGCCCAGT GTCAGGAGGG TGGCCACCCA CAGGAGCATC TGCGTATCCT CTTCGAGTTC
    GCCAAGGAGA TGATGCGGGT GGTGGATGAC TTCAACAACA ATATGTTATG GTTCAACTTC
    AAGCTCAGGG TCGGCTTTAA CCACGGACCC CTCACGGCAG GTGTCATAGG TACCACCAAG
    CTGCTGTATG ACATCTGGGG GGACACTGTC AACATCGCCA GCAGGATGGA CACCACTGGT
    GTGGAGTGCC GTATCCAGGT GAGTGAAGAG AGCTACCGTG TGCTGAGCAA GATGGGTTAT
    GACTTTGACT ACCGAGGGAC CGTGAATGTC AAGGGGAAAG GGCAGATGAA GACCTACCTT
    TACCCAAAGT GCATGGACAA TGGAGTGGTT CCCCAGCACC AGCTGTCCAT CTCCCCAGAC
    ATCCGTGTCC AGGTGGACGG CAGCATTGGA CGGTCTCCCA CAGATGAGAT TGCCAACTTG
    GTGCCTTCCG TTCAGTATTC GGACAAGGCT TCCCTGGGAT CTGATGACAG TACGCAGGCT
    AAGGAAGCAC ACCCGTCCTC TAAGAGGCCC TGGAAAGAGC CAGTCAAAGC AGAGGAAAGG
    TTTCCATTTG GCAAAGCCAT AGAAAAGGAC AACTGTGAAG ACATAGGAGT AGAAGAGGCC
    AATGAACTCA CCAAGCTCAA CGTCTCAAAG AGTGTGTGA

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

    RefSeq XP_029326612.1
    CDS699..4817
    Translation

    Target ORF information:

    RefSeq Version XM_029470752.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli adenylate cyclase 9 (Adcy9), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029470752.1

    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
    ATGGCTTCCT CACCCCACCA GCAGCTGCTG CATCACCATA GCACCGAGGT GAGCTGCGAC 
    TCAAGCGGAG ACAGCAACAG CGTGAGGGTC AAGATCAACC CTAAGCAGCT GTCCTCCAAC
    ACCCACCCGA AGCACTGCAA GTACAGCATC TCCTCCAGCT GTAGCAGCTC GGGAGACTCA
    GGGGGCCTTC CCCGGAGGGT TGGCGGCGGG GGTCGCCTGC GCAGACAGAA GAAGCTGCCC
    CAGCTTTTTG AGAGGGCCTC CAGCCGGTGG TGGGACCCCA AATTTGACTC CATGAACCTG
    GAGGAGGCCT GCCTGGAGCG CTGCTTTCCG CAGACCCAGC GCCGCTTCCG GTACGCACTC
    TTTTATGTGG GCTTCGCCTG CCTTCTCTGG AGCATCTATT TCGCTGTCCA CATGAGATCC
    AAAGTGATTG TCATGGTGGT CCCGGCTCTA TGCTTCCTGG TGGTGTGTGT GGGCTTTTTC
    CTGTTTACTT TCACCAAGCT GTACGCCCGG CATTATGCGT GGACCTCGCT GGCTCTCACC
    CTGCTGGTGT TCGCCCTGAC CCTGGCTGCG CAGTTTCAGG TTTGGACACC TCTGTCAGGA
    CGTGTTGACA GCTCCAATCA TACTCTCACG GCCACTCCGG CGGACACTTG CTTATCTCAA
    GTTGGAAGCT TCTCCATATG CATCGAAGTG CTCTTTTTGC TCTACACAGT CATGCATTTA
    CCTCTGTACC TGAGCTTGTT TTTGGGGGTG GTCTATTCTG TCCTTTTTGA GACCTTTGGC
    TACCATTTCC GAAACGAAGA CTGCTACCCT TCCCCGGGCC CTGGGGCCCT GCACTGGGAG
    CTGCTGAGCA GAGCCCTGCT TCACGTGTGC ATTCACGCTA TCGGGATCCA TCTGTTTGTC
    ATGTCTCAGG TGAGGTCCAG GAGCACCTTT CTCAAGGTGG GACAATCCAT TATGCACGGC
    AAAGATCTGG AAGTAGAGAA AGCCCTGAAA GAAAGGATGA TTCATTCAGT GATGCCAAGA
    ATCATAGCTG ACGACTTAAT GAAACAAGGG GACGAGGAGA GTGAGAATTC CGTCAAGAGG
    CATGCCACCT CCAGTCCCAA GAACAGGAAG AAGAAGTCCT CCATACAGAA GGCACCGATA
    GCATTCCGCC CCTTTAAGAT GCAGCAGATT GAAGAAGTCA GTATTTTATT TGCAGACATT
    GTGGGTTTCA CCAAGATGAG CGCCAACAAA TCTGCTCATG CCTTGGTAGG TCTACTCAAT
    GATCTGTTTG GTCGCTTTGA CCGCTTGTGT GAGGAGACCA AGTGTGAGAA GATCAGCACT
    CTGGGAGACT GTTACTATTG TGTGGCAGGG TGTCCGGAGC CCCGGGCAGA CCATGCCTAC
    TGCTGCATTG AAATGGGCTT AGGCATGATA AAAGCCATCG AGCAGTTCTG CCAGGAGAAG
    AAAGAGATGG TGAACATGCG TGTTGGGGTT CACACGGGGA CTGTCCTGTG TGGCATCCTG
    GGCATGAGGA GGTTTAAATT TGATGTGTGG TCCAACGATG TGAACTTGGC TAATCTCATG
    GAGCAGCTGG GAGTGGCTGG CAAAGTTCAC ATATCTGAGG CCACTGCAAA ATACTTAGAC
    GACAGGTATG AAATGGAAGA TGGGAGAGTT ATTGAGCGCC TTGGGCAGAG TGTGGTTGCT
    GACCAGTTGA AAGGTTTGAA GACATACCTG ATATCGGGTC AGAGAGCCAA GGAGTCCCAC
    TGCAGCTGTG CAGAGGCCCT GCTTTCTGGC TTTGAGGTCA TTGACGACTC ACGGGAGTCC
    TCAGGCCCTA GGGGACAGGG GACAGCATCG CCAGGGAGTG TCAGTGATTT GGCGCAGACT
    GTCAAAACCT TTGATAACCT TAAGACTTGC CCTTCTTGTG GAATCACATT TGCTCCCAAA
    TCTGAAGCTG GTGCAGAAGG AGGAGCTGTG CAAAATGGCT GTCAAGACGA GCCTAAGACC
    AGCACCAAGG TAACAAGCTC ATGGCTGTTG TTCCTGTCAG TACCTCTCCT GGCGCATCCA
    CCTAAGGCTT CTGGAGGACC CAGCTCCAAA ACCCAGAACG GACTTCTGAG CCCTCCTGCA
    GAGGAGAAGC TCACTAACAG CCAGACCTCC CTCTGTGAGA TCCTGCAAGA GAAGGGGCGG
    TGGGCAGGCG TGAGCTTGGA CCAGTCAGCC CTCCTCCCGC TCAGGTTCAA GAACATCCGT
    GAGAAAACGG ATGCCCACTT TGTTGATGTC ATCAAAGAAG ACAGCCTGAT GAAAGATTAT
    TTCTTCAAGC CGCCCATCAA TCAGTTCAGC CTGAACTTCC TGGACCAGGA GCTGGAGCGA
    TCATATAGAA CCAGCTACCA GGAAGAGGTC ATAAAGAATT CTCCTGTGAA GACGTTCGCC
    AGTGCCACCT TCAGCTCGCT TCTGGATGTG TTTCTGTCAA CCACAGTGTT CCTGATTCTC
    TCTGTCACCT GCTTCCTAAA GTATGGAGCC ACAGCCACCC CTCCCCCACC AGCTGCCCTG
    GCCGTCTTTG GTGCAGACCT GCTGCTGGAG GTGCTTTCCC TCATAGTGTC CATCAGAATG
    GTGTTTTTCC TAGAGGATGT CATGACATGC ACAAAGTGGT TGCTGGAATG GATTGCTGGC
    TGGCTCCCTC GCCACTGCAT TGGGGCAATC TTGGTGTCTC TTCCTGCCCT GGCTGTCTAT
    TCACACATCA CCTCTGAGTT TGAGACCAAC ATACATGTCA CCATGTTCAC TGGCTCTGCG
    GTGCTGGTAG CCGTTGTGCA CTACTGTAAC TTCTGCCAGC TCAGCTCCTG GATGAGGTCC
    TCCCTCGCCA CCATCGTGGG GGCTGGGCTG CTGCTTCTGC TCCACATCTC CCTGTGTCAG
    GACAGTTCCA TTGTGATGTC CCCCTTGGAC TCAGCACAGA ATTTCAGTGC CCAGAGGAAC
    CCATGCAACA GCTCAGTGCT GCAGGACGGC AGGAGGCCGG CCAGCCTCAT AGGCAAGGAG
    CTCATCCTCA CCTTCTTCCT CCTGCTCCTC TTGGTCTGGT TCCTGAACCG GGAGTTCGAG
    GTCAGCTACC GGCTGCACTA CCATGGGGAT GTGGAGGCCG ACCTACACCG CACCAAGATC
    CAGAGCATGA GAGACCAGGC TGACTGGCTA CTGCGGAACA TCATCCCCTA CCACGTGGCT
    GAGCAGCTCA AGGTCTCTCA GACCTACTCC AAGAACCATG ACAGCGGGGG AGTCATCTTT
    GCCAGTATTG TCAACTTCAG TGAATTCTAT GAGGAGAACT ATGAGGGGGG CAAGGAGTGC
    TACCGTGTCC TCAACGAGCT GATCGGTGAC TTCGATGAGC TCTTGAGCAA GCCAGACTAT
    AATAGCATCG AGAAGATCAA GACCATTGGG GCCACATACA TGGCAGCCTC AGGGCTGAAC
    ACGGCCCAGT GTCAGGAGGG TGGCCACCCA CAGGAGCATC TGCGTATCCT CTTCGAGTTC
    GCCAAGGAGA TGATGCGGGT GGTGGATGAC TTCAACAACA ATATGTTATG GTTCAACTTC
    AAGCTCAGGG TCGGCTTTAA CCACGGACCC CTCACGGCAG GTGTCATAGG TACCACCAAG
    CTGCTGTATG ACATCTGGGG GGACACTGTC AACATCGCCA GCAGGATGGA CACCACTGGT
    GTGGAGTGCC GTATCCAGGT GAGTGAAGAG AGCTACCGTG TGCTGAGCAA GATGGGTTAT
    GACTTTGACT ACCGAGGGAC CGTGAATGTC AAGGGGAAAG GGCAGATGAA GACCTACCTT
    TACCCAAAGT GCATGGACAA TGGAGTGGTT CCCCAGCACC AGCTGTCCAT CTCCCCAGAC
    ATCCGTGTCC AGGTGGACGG CAGCATTGGA CGGTCTCCCA CAGATGAGAT TGCCAACTTG
    GTGCCTTCCG TTCAGTATTC GGACAAGGCT TCCCTGGGAT CTGATGACAG TACGCAGGCT
    AAGGAAGCAC ACCCGTCCTC TAAGAGGCCC TGGAAAGAGC CAGTCAAAGC AGAGGAAAGG
    TTTCCATTTG GCAAAGCCAT AGAAAAGGAC AACTGTGAAG ACATAGGAGT AGAAGAGGCC
    AATGAACTCA CCAAGCTCAA CGTCTCAAAG AGTGTGTGA

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