AgaP_AGAP002472 cDNA ORF clone, Anopheles gambiae str. PEST

The following AgaP_AGAP002472 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the AgaP_AGAP002472 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
OAh03079 XM_312466.5
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Anopheles gambiae str. PEST AGAP002472-RA (AgaP_AGAP002472), mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
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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 OAh03079
    Clone ID Related Accession (Same CDS sequence) XM_312466.5
    Accession Version XM_312466.5 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3417bp)
    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 2018-04-25
    Organism Anopheles gambiae str. PEST
    Product AGAP002472-PA
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. This record is derived from an annotated genomic sequence (NT_078266). On Sep 28, 2011 this sequence version replaced XM_312466.4.

    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
    ATGGCGCACA ATTATATTGT GACTGCCCAA AAACCAACGG CGGTTACCGC TTGCGTTACC 
    GGTAACTTCA CCTCGCCAAC CGATCTCAAC CTGATCGTGG CCAAGAGCTC CCGGTTAGAG
    ATATATTTGG TAACGCCAGA AGGGCTTCGG CCTATAAAAG AAATTGGCAT CAATGGGAAA
    ATAGCTGTGA TGAAGCTGTT CCGCCCGGCG GAAGAGACGA AAGACTTGAT ATTCATCCTG
    ACCCACCGGT ACAATGCGAT GATTCTGCAG TGTGCCGTGC AGGGCGATGA CATCGAAATA
    ATAACGAAAG CGCACGGGAA CGTGGCCGAC CGGGTCGGGA AGCCGGCGGA AACCGGCATC
    CTGGCGGTCA TCGACCCGAA AGCCCGCGTC ATCGGCATGC GCCTGTACGA AGGGCTGTTC
    AAGATCATTC CCCTGGACAA GGATACGAAC GAGCTGAAGG CGACAAGCCT GCGCATGGAG
    GAGATGCACG TGCAGGATGT GGAGTTTCTG TACGGCACGA CGCACCCGAC GCTGATCGTG
    ATCCATCAGG ACATCAACGG GCGCCACATT AAGACGCACG AAATTAGCCT TAAGGATAAG
    GAGTTCACCA AGATCGCGTG GAAGCAGGAC AACGTCGAGA CGGAGGCTAC CATGCTGATC
    GCCGTGCCGA TGCCGCTCGG CGGCGCCATT GTCATCGGGC AGGAGTCGAT CGTGTACCAC
    GACGGGGACA GCTACGTGGC GGTCGCGCCG GCCATCATCA AGCAGAGCAC GATTAACTGT
    TACGCGCGGA TCGACAGCAA GGGGCTGCGC TATCTGCTCG GCAACATGGC CGGCAACCTG
    TTCATGATGT TCCTCGAGAC GGAGGAAAAC GCCAAGGGGC AGACGACGGT GCGGGACATT
    AAGGTGGAGC TGCTGGGCGA GATAACGATC CCGGAGTGCA TCACGTACCT GGACAATGGG
    GTGCTGTTCA TCGGGTCGCG GCACGGCGAT TCGCAGCTGG TGAAGCTGAA TACGACCGCG
    GGCGATAATG GGGCGTACGT GATGCTGATG GAAACGTTCA CCAATCTGGC GCCGATCGTC
    GACATGTGTG TGGTGGATCT GGAGCGCCAG GGCCAGGGGC AGATGATTAC CTGTTCCGGC
    AGCTTTAAGG AGGGCTCGCT GCGCATCATA CGCAACGGCA TCGGCATCCA GGAACACGCG
    TGTATCGATC TGCCCGGCAT CAAGGGTATG TGGGCGTTGC GCGTTGGCAT CGACGATTCG
    CCGTACGACA ACACGCTGAT ACTGTCGTTC GTGGGCCACA CCCGCGTTCT GATGCTGTCG
    GGCGACGAGG TCGAGGAGAC GGAAATTGCC GGCATTCTGG GCGACCAGCA GACGTTCTAC
    TGTGCGAACG TTTCGCACGG CCAGATCCTG CAGGTGACGC CCAGCTCGGC GCGGCTCATT
    TCCTGCGACA ACAAGGCGAT GATCTGCGAA TGGAAGCCCC CGGACAACAA GCGCATCGGC
    GTGGTGGGCG CCAACACGAC GCAGATTGTG TGCGCGTCGG CCCAGGACGT GTACTACGTG
    GAGATCGGGG ACGGCAAGCT GGAGTACAAG GGCCAGACGA CGCTCAGCTA CGAGGTCGCT
    TGCCTGGACG TGTCGCCGCT GGAGGATAAC GCAACGCGGT CCGAGTTTGT GGCCGTCGGG
    CTGTGGACGG ACATCTCGGC CTGCGTGCTG AAGGTGCCGA CGCTGGAGCT GCTGCACAAG
    GAGAAGCTCG GTGGTGAGAT CATACCCCGC TCCATACTGA TGGCCGCCTT CGAGGGCATC
    AACTATTTGC TGTGCGCGCT CGGCGACGGT TCGATGTACT ACTTCGTGCT GAACAAAGCG
    ACCGGCTGCC TGACGGAGCA GAAGAAGGTA ACGCTCGGTA CGCAGCCCAC CATCCTGAAG
    ACGTTCCGGT CGCTTTCCAC CACGAACGTG TTTGCCTGCT CGGACCGGCC GACGGTCATC
    TACAGCTCCA ACCACAAGCT GGTGTTTTCG AACGTGAACC TAAAGGAGGT GAACCACATG
    TGCTCGCTGA ACGCGGAAGC GTACCAGGAC TCGTTGGCGC TGGCGACGCG CAACTCCGTC
    ATCTTTGGCA CGATCGACGA GATCCAGAAG CTGCACATCC GCACGGTACC GCTCGGCGAG
    TCGCCGAGGC GCATCGCGTA CCAGGAGGCA TCGCAAACGT TCGGCGTCAT CACGTTCCGC
    ATGGACGTGC AGGATTCGAG CGGGCTGACG CCGGCACGCC AGAGCGCCTC GACGCAGACG
    AACAACATCA CGCAGTCGAG CGGCATGGGC CTGCTGAAGC CCGGTGCCAG CAACACCGAG
    TTCGGCCAGG AGGTGGAGGT GCACAATCTG CTCATCATCG ATCAGAACAC GTTCGAGGTG
    CTGCATGCGC ACCAGTTCAT GCAGACCGAG TACGCGCTGT CGCTAATGTC GGCCAAGCTG
    GGCAACGATC CGAACACGTA CTTCATCGTC GGTACCGGGC TGGTGAATCC GGAAGAGCCG
    GAACCGAAGA CCGGCCGCAT CATCATCTAC CGGTACGCGG ACAACGAGCT TAAAATGGTT
    AGCGACAAGG AGGTGAAGGG CGCGTGCTAC TCGCTGGTGG AGTTTAATGG GCGCGTGCTG
    GCGTGCATCA ACTCCACCGT GCGGCTGTAC GAGTGGACCG ACGACAAGGA TCTACGGCTA
    GAGTGCAGCC ATTTCAACAA CGTGCTGGCG CTATACTGCA AAACGAAAGG TGACTTCATT
    CTGGTGGGCG ATTTGATGCG TTCCATCACA CTGCTGCAGT ACAAGCAGAT GGAGGGTAGC
    TTCGAGGAGA TTGCCCGCGA TTACCAGCCG AACTGGATGA CGGCCGTCGA GATACTGGAC
    GACGACGCGT TCCTCGGTGC CGACAACAGC AACAACCTGT TTGTCTGCCT AAAGGACAGC
    GCGGCAACGA CGGACGAGGA GCGCCAGCAG ATGCCCGAGG TGGCTCAGTT CCATCTGGGC
    GATATGGTGA ACGTGTTCCG CCACGGTTCG CTGGTAATGC AAAACATCAG CGAACGCAGC
    ACCCCGACGA CCGGGTGCGT CCTGTTCGGC ACGGTCAGCG GTGCGATCGG GCTGGTCACG
    CAAATTCAGA GCGACTTTTA CGAGTTTCTG CGCAAGCTGC AGGAGAACCT TACCAATACG
    ATCAAATCGG TCGGCAAGAT TGACCACTCG TATTGGCGCA GTTTTCACAC GGAAACGAAA
    ATGGAACGCT GCGAAGGGTT CATCGATGGC GATCTGGTGG AAAGCTTCCT CGACCTCAGC
    AGGGAAAAGA TGCGCGAAGC CTCGCTCGGG CTCGAAATCG ACGTCGAGGG TACGAAGCGA
    GAGGCCACGG TAGATGACAT TATTAAAATC GTAGAGGATC TTACCAGAAT ACATTAG

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

    RefSeq XP_312466.2
    CDS144..3560
    Translation

    Target ORF information:

    RefSeq Version XM_312466.5
    Organism Anopheles gambiae str. PEST
    Definition Anopheles gambiae str. PEST AGAP002472-RA (AgaP_AGAP002472), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_312466.5

    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
    ATGGCGCACA ATTATATTGT GACTGCCCAA AAACCAACGG CGGTTACCGC TTGCGTTACC 
    GGTAACTTCA CCTCGCCAAC CGATCTCAAC CTGATCGTGG CCAAGAGCTC CCGGTTAGAG
    ATATATTTGG TAACGCCAGA AGGGCTTCGG CCTATAAAAG AAATTGGCAT CAATGGGAAA
    ATAGCTGTGA TGAAGCTGTT CCGCCCGGCG GAAGAGACGA AAGACTTGAT ATTCATCCTG
    ACCCACCGGT ACAATGCGAT GATTCTGCAG TGTGCCGTGC AGGGCGATGA CATCGAAATA
    ATAACGAAAG CGCACGGGAA CGTGGCCGAC CGGGTCGGGA AGCCGGCGGA AACCGGCATC
    CTGGCGGTCA TCGACCCGAA AGCCCGCGTC ATCGGCATGC GCCTGTACGA AGGGCTGTTC
    AAGATCATTC CCCTGGACAA GGATACGAAC GAGCTGAAGG CGACAAGCCT GCGCATGGAG
    GAGATGCACG TGCAGGATGT GGAGTTTCTG TACGGCACGA CGCACCCGAC GCTGATCGTG
    ATCCATCAGG ACATCAACGG GCGCCACATT AAGACGCACG AAATTAGCCT TAAGGATAAG
    GAGTTCACCA AGATCGCGTG GAAGCAGGAC AACGTCGAGA CGGAGGCTAC CATGCTGATC
    GCCGTGCCGA TGCCGCTCGG CGGCGCCATT GTCATCGGGC AGGAGTCGAT CGTGTACCAC
    GACGGGGACA GCTACGTGGC GGTCGCGCCG GCCATCATCA AGCAGAGCAC GATTAACTGT
    TACGCGCGGA TCGACAGCAA GGGGCTGCGC TATCTGCTCG GCAACATGGC CGGCAACCTG
    TTCATGATGT TCCTCGAGAC GGAGGAAAAC GCCAAGGGGC AGACGACGGT GCGGGACATT
    AAGGTGGAGC TGCTGGGCGA GATAACGATC CCGGAGTGCA TCACGTACCT GGACAATGGG
    GTGCTGTTCA TCGGGTCGCG GCACGGCGAT TCGCAGCTGG TGAAGCTGAA TACGACCGCG
    GGCGATAATG GGGCGTACGT GATGCTGATG GAAACGTTCA CCAATCTGGC GCCGATCGTC
    GACATGTGTG TGGTGGATCT GGAGCGCCAG GGCCAGGGGC AGATGATTAC CTGTTCCGGC
    AGCTTTAAGG AGGGCTCGCT GCGCATCATA CGCAACGGCA TCGGCATCCA GGAACACGCG
    TGTATCGATC TGCCCGGCAT CAAGGGTATG TGGGCGTTGC GCGTTGGCAT CGACGATTCG
    CCGTACGACA ACACGCTGAT ACTGTCGTTC GTGGGCCACA CCCGCGTTCT GATGCTGTCG
    GGCGACGAGG TCGAGGAGAC GGAAATTGCC GGCATTCTGG GCGACCAGCA GACGTTCTAC
    TGTGCGAACG TTTCGCACGG CCAGATCCTG CAGGTGACGC CCAGCTCGGC GCGGCTCATT
    TCCTGCGACA ACAAGGCGAT GATCTGCGAA TGGAAGCCCC CGGACAACAA GCGCATCGGC
    GTGGTGGGCG CCAACACGAC GCAGATTGTG TGCGCGTCGG CCCAGGACGT GTACTACGTG
    GAGATCGGGG ACGGCAAGCT GGAGTACAAG GGCCAGACGA CGCTCAGCTA CGAGGTCGCT
    TGCCTGGACG TGTCGCCGCT GGAGGATAAC GCAACGCGGT CCGAGTTTGT GGCCGTCGGG
    CTGTGGACGG ACATCTCGGC CTGCGTGCTG AAGGTGCCGA CGCTGGAGCT GCTGCACAAG
    GAGAAGCTCG GTGGTGAGAT CATACCCCGC TCCATACTGA TGGCCGCCTT CGAGGGCATC
    AACTATTTGC TGTGCGCGCT CGGCGACGGT TCGATGTACT ACTTCGTGCT GAACAAAGCG
    ACCGGCTGCC TGACGGAGCA GAAGAAGGTA ACGCTCGGTA CGCAGCCCAC CATCCTGAAG
    ACGTTCCGGT CGCTTTCCAC CACGAACGTG TTTGCCTGCT CGGACCGGCC GACGGTCATC
    TACAGCTCCA ACCACAAGCT GGTGTTTTCG AACGTGAACC TAAAGGAGGT GAACCACATG
    TGCTCGCTGA ACGCGGAAGC GTACCAGGAC TCGTTGGCGC TGGCGACGCG CAACTCCGTC
    ATCTTTGGCA CGATCGACGA GATCCAGAAG CTGCACATCC GCACGGTACC GCTCGGCGAG
    TCGCCGAGGC GCATCGCGTA CCAGGAGGCA TCGCAAACGT TCGGCGTCAT CACGTTCCGC
    ATGGACGTGC AGGATTCGAG CGGGCTGACG CCGGCACGCC AGAGCGCCTC GACGCAGACG
    AACAACATCA CGCAGTCGAG CGGCATGGGC CTGCTGAAGC CCGGTGCCAG CAACACCGAG
    TTCGGCCAGG AGGTGGAGGT GCACAATCTG CTCATCATCG ATCAGAACAC GTTCGAGGTG
    CTGCATGCGC ACCAGTTCAT GCAGACCGAG TACGCGCTGT CGCTAATGTC GGCCAAGCTG
    GGCAACGATC CGAACACGTA CTTCATCGTC GGTACCGGGC TGGTGAATCC GGAAGAGCCG
    GAACCGAAGA CCGGCCGCAT CATCATCTAC CGGTACGCGG ACAACGAGCT TAAAATGGTT
    AGCGACAAGG AGGTGAAGGG CGCGTGCTAC TCGCTGGTGG AGTTTAATGG GCGCGTGCTG
    GCGTGCATCA ACTCCACCGT GCGGCTGTAC GAGTGGACCG ACGACAAGGA TCTACGGCTA
    GAGTGCAGCC ATTTCAACAA CGTGCTGGCG CTATACTGCA AAACGAAAGG TGACTTCATT
    CTGGTGGGCG ATTTGATGCG TTCCATCACA CTGCTGCAGT ACAAGCAGAT GGAGGGTAGC
    TTCGAGGAGA TTGCCCGCGA TTACCAGCCG AACTGGATGA CGGCCGTCGA GATACTGGAC
    GACGACGCGT TCCTCGGTGC CGACAACAGC AACAACCTGT TTGTCTGCCT AAAGGACAGC
    GCGGCAACGA CGGACGAGGA GCGCCAGCAG ATGCCCGAGG TGGCTCAGTT CCATCTGGGC
    GATATGGTGA ACGTGTTCCG CCACGGTTCG CTGGTAATGC AAAACATCAG CGAACGCAGC
    ACCCCGACGA CCGGGTGCGT CCTGTTCGGC ACGGTCAGCG GTGCGATCGG GCTGGTCACG
    CAAATTCAGA GCGACTTTTA CGAGTTTCTG CGCAAGCTGC AGGAGAACCT TACCAATACG
    ATCAAATCGG TCGGCAAGAT TGACCACTCG TATTGGCGCA GTTTTCACAC GGAAACGAAA
    ATGGAACGCT GCGAAGGGTT CATCGATGGC GATCTGGTGG AAAGCTTCCT CGACCTCAGC
    AGGGAAAAGA TGCGCGAAGC CTCGCTCGGG CTCGAAATCG ACGTCGAGGG TACGAAGCGA
    GAGGCCACGG TAGATGACAT TATTAAAATC GTAGAGGATC TTACCAGAAT ACATTAG

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

  • PubMed

    The Anopheles gambiae genome: an update.
    Trends in parasitology20(2)49-52(2004 Feb)
    Mongin E,Louis C,Holt RA,Birney E,Collins FH


    The genome sequence of the malaria mosquito Anopheles gambiae.
    Science (New York, N.Y.)298(5591)129-49(2002 Oct)
    Holt RA,Subramanian GM,Halpern A,Sutton GG,Charlab R,Nusskern DR,Wincker P,Clark AG,Ribeiro JM,Wides R,Salzberg SL,Loftus B,Yandell M,Majoros WH,Rusch DB,Lai Z,Kraft CL,Abril JF,Anthouard V,Arensburger P,Atkinson PW,Baden H,de Berardinis V,Baldwin D,Benes V,Biedler J,Blass C,Bolanos R,Boscus D,Barnstead M,Cai S,Center A,Chaturverdi K,Christophides GK,Chrystal MA,Clamp M,Cravchik A,Curwen V,Dana A,Delcher A,Dew I,Evans CA,Flanigan M,Grundschober-Freimoser A,Friedli L,Gu Z,Guan P,Guigo R,Hillenmeyer ME,Hladun SL,Hogan JR,Hong YS,Hoover J,Jaillon O,Ke Z,Kodira C,Kokoza E,Koutsos A,Letunic I,Levitsky A,Liang Y,Lin JJ,Lobo NF,Lopez JR,Malek JA,McIntosh TC,Meister S,Miller J,Mobarry C,Mongin E,Murphy SD,O'Brochta DA,Pfannkoch C,Qi R,Regier MA,Remington K,Shao H,Sharakhova MV,Sitter CD,Shetty J,Smith TJ,Strong R,Sun J,Thomasova D,Ton LQ,Topalis P,Tu Z,Unger MF,Walenz B,Wang A,Wang J,Wang M,Wang X,Woodford KJ,Wortman JR,Wu M,Yao A,Zdobnov EM,Zhang H,Zhao Q,Zhao S,Zhu SC,Zhimulev I,Coluzzi M,della Torre A,Roth CW,Louis C,Kalush F,Mural RJ,Myers EW,Adams MD,Smith HO,Broder S,Gardner MJ,Fraser CM,Birney E,Bork P,Brey PT,Venter JC,Weissenbach J,Kafatos FC,Collins FH,Hoffman SL