ORF » Species Summary » Nasonia vitripennis » Gnf1 cDNA ORF clone

Gnf1 cDNA ORF clone, Nasonia vitripennis(jewel wasp)

The following Gnf1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Gnf1 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
ONd18017 NM_001141956.1
Latest version!		 Nasonia vitripennis germ line transcription factor 1 (Gnf1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00

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** 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)
    Gnf1 ( NM_001141956.1 ) cDNA ORF clone, Nasonia vitripennis(jewel wasp) -> NP_001135428.1 Nasonia vitripennis germ line transcription factor 1 (Gnf1), mRNA.
    Price & Availability↑
    CloneID ONd18017
    Clone ID Related Accession (Same CDS sequence) NM_001141956.1
    Accession Version NM_001141956.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3303bp)
    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 1548086400000
    Organism Nasonia vitripennis(jewel wasp)
    Product germ line transcription factor 1
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AAZX01002249.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## Transcript is intronless :: GBEB01028462.1 [ECO:0000345] ##Evidence-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    ATGTCAAAAG ATATAAGATC CTTTTTCATT ACTTCCAAGG GGAGCTCGCA AACGAAGAGT 
    GTCAAAGAAG ATAAGTCGCG AAAGAAGCAT GTCATATCTT CCGACGAAGA CGAGGAAAAA 
    AATTCTAGTC CATCAAAAAG TAGAAAAACG AAAACTGCAG GTAATAAAAA TGCGGATGTC 
    AATGGTAAAA AAGGGCATTC AAAAAAGCGT ACTATTGTAT CTTCCGATGA GGAAGACAAT 
    GTTGACTCCC ATGTTAAAAC CAAGAAAGCA AAAGTTTTGA ATGGTAGTAA AATTGAAACC 
    GTTGAGAAGA AATTAGAAGT TGTTGAAGAT GTAGGATCGA TGTTTAGTAA AAAGCCCGCA 
    AAAAGGATAA ATGCTCCTAA AATTACTAAA AAGAATAATG TCGAAAAACC AGTGAAATCC 
    GATAATAAGG TAATATCAAG TTTTATTGAG GATGATGATT TTGATGCAAC TTTAAATCAG 
    CTGGATACGT CTCATATTGA GGATGAATAT TTGGCAACTG TTACCACTGA AACATCATCT 
    CCATTTTTTA AGAACAAAAA GGAGAACGAT ACTGAGTTAA GGAATTCAAA GAAAGAAGAA 
    AAGAATGATT GTAAGGCTGA AGGAAGTGTC AAAGAAGAGA AAAGCAAAGA TAAGGATGCA 
    TCTAATAAGA ACAAACATAG TACAGATAGA AAGACTTCTC CAGGAGACAA AAATAAAACT 
    AAAGAAAAGA ATAATTCTGA GACCAAGCAT AACAAAGAAA AGTCAAGCAA CAGCGATTCT 
    GAGACCAAAC ATAAGAATGA TAAAGATAAA TCAAGTAAGA GTGATTCTGA AAACAAGCAT 
    AAAAATGAAA AAGATAAATC TGAAGAAGTT AATTACAATG ATATTATTGA AGAAAAAATA 
    GAGAAAAAGA AACAGCATGT CATGCTGTAC CAGAATTATC TCAATCGAGG TGGAGCCAGA 
    AATCCAGGTT CAAAGGAAAT CCCAGAAGGA GCTGAACAAT GCCTAGCCAA TTTAAGCTTT 
    TTGATAACAG GTGTTCTGGA TTCATTGGAA CGTGGTGAAG CTGAAGAACT CATAACAAAA 
    TATGGTGGAA GGATGCTTCA TTCTGTGTCT AAGAAACTTA ATTACATTAT CATTGGAGAA 
    GAAGCAGGCC CTTCAAAATT AGCCAAAGCA GAGAGCTTAA ATATTAAAAA AATAAGTGAA 
    GATGGCCTGC TAGAGCTGAT TCGTACTAGA CCAGCAGGAG CAAGTGCAAG CAAGAAACCA 
    GTAAATGATG CTGATGGATC TCACAAACGC AAAAGGGATG ACTCATCAAA TCGTGAGGCC 
    AATGAAAACT CTGACAAAGC TAAAAAGAAT AAACATGAAT CCCCACCAAA AGATAATCAC 
    CGGAATCCAG AAGAGGCAAA TAAAAACAAG GATCATCCCT CACCTAAAGA AGAACACAAG 
    AGTCTTGAAA AAACAGAGAA GAAGAAAGAT TCGTCATCAC CAAAGAAAGA CCGTAATAGT 
    CCTGAAAAAA GTATTGAGAA AAATTTACCA CCTAAAGTTG AAAAAGTTGA ATCTAAAAGT 
    GACATTCCAC AGGCAAAAAA TTCTAAGTCT GATTTAAAGA AGATAGATAT TACTGGAGAT 
    GCTTTGGTAG AAAAGTACAG GCCTAAAGAA TTGAAACAGA TCATTGGCCA AACTGGAGAC 
    AAAAGTAATG CAAAAAAGTT ACACTTTTGG CTTACCAATT GGCACAAAAA TCATGGCAAA 
    GATGCCAAAG GTGCCAAACC CAAATTTTCT TACAAAGATG ACACAGGTAC TATTTACAAG 
    GCAGCCCTTC TGTCCGGACC ACCTGGTATT GGCAAAACAA CAACAGCCTA CGTTGTCTGT 
    GCTCAGTTGG GATATGAAGT TCTGGAATTC AATGCATCTG ATACAAGAAG TAAAAAGCTT 
    TTACAAGAAG AAATTGCAGG TATTTTATCA AACAAGACGG TGAAGTCATT TTTAACAAAT 
    GGACAAGAGA AGAAGAAAAA TCCACCAAAG CATGTATTAC TTATGGATGA AGTTGATGGA 
    ATGGCAGGAA ATGAAGATCG TGGAGGGATG CAAGAACTGA TTGCTTTTAT TAAATCTACA 
    GAAGTTCCTA TAATTTGTAT TTGTAATGAT CGAATGAGCC AAAAAATTAA AACTTTGGCA 
    AACTACACAT TTGATTTAAG GTTCCAAAAA CCAAGGTTAG AACAGATAAG AGCAGCAATG 
    ATGAGTATGT GTTACAAAGA AGGCATAACA GTCACTGCAC CAGAATTAAC AGCGATAATT 
    CAATCTACAA ATCAAGACAT TAGACAAGTG ATAAATCATG TAGCTATGCT ATCAGCAAAG 
    TCCCAAACTG AAAAAGAAAG CCATGAAAAA ACCAAGTACA AAAATTTGAA ACTCGGTCCT 
    TGGGATGTAG TTCGTAAAGT ATTCAGCGCT GATGAACACA AAAATATGAG CATACATGAT 
    AAAAGTGATT TGTTCTTCCA CGATTACAAC ATAGCAGGTC TTTTTGTTGA AGAAAATTAT 
    CTCAGTGTTA CGCCATCAGG CCCAAGAAAT GAATTGTTTG ATAAATTGGC TAAATGCAGT 
    GACAGCTTGG CTATTGGCGA TACAATCGAA AATGCTATTC GAGGAAAACA AGCTTGGGGA 
    CTTCTCCCTG TTCAAGCATG TTTCTCATCT GTCATACCAG GATCAGTAAT GTCAGGTTTC 
    ATAAACTCAC AAATAAACTT TCCCAGCTGG CTTGGAAGAA ATTCAAAGAG GAGCAAATGT 
    GACAGGCTTC TGCAGGACAT TACTGTTCAT GCTCGTATAA CAACAGGGGC AAGTAAAGAA 
    GCAATAAACC TTGATTATCT GAAAATGTTG GTTGATTCTA TTGTCAGGCC TCTAGCTGTT 
    GAAGGAACAG AAGGTGTTGA AAAAGCTGTT GAAATTATGA ATAAATACCA TTTATCAAGA 
    GAAGATTTGG ATTCCCTGAT AGAACTTACG AAGTGGCCAC ACACAAGAGA CCCAATGCAG 
    TCGGTTGATA GTAAAACAAA GGCTGCTTTT ACAAAAGCAT ACAACAAGAG TGCTTCATTC 
    CATAGTGCAA CGACGATGAA AAAGAAATCT TCTCAGGCTG CAGAGGATGA CGAATTTATG 
    GGAAGTGACG AAGAACCACC ATCAGATGCC GATGCAGACA ATGATAAAAT TGAAAATGAT 
    AAGCTTATCA AGGCTAAAAC ATCGAAAGCA AAAACCTCCA AACCTGCACC ATCAGATAGT 
    AAAGGCAAAG GCAAGGCTAA AGGAGCTGCT AAAAGTAGTT CCACTCGTGG TAAAAAGAAA 
    TGA

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

    RefSeq NP_001135428.1
    CDS275..3577
    Translation

    Target ORF information:

    RefSeq Version NM_001141956.1
    Organism Nasonia vitripennis(jewel wasp)
    Definition Nasonia vitripennis germ line transcription factor 1 (Gnf1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001141956.1

    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
    ATGTCAAAAG ATATAAGATC CTTTTTCATT ACTTCCAAGG GGAGCTCGCA AACGAAGAGT 
    GTCAAAGAAG ATAAGTCGCG AAAGAAGCAT GTCATATCTT CCGACGAAGA CGAGGAAAAA 
    AATTCTAGTC CATCAAAAAG TAGAAAAACG AAAACTGCAG GTAATAAAAA TGCGGATGTC 
    AATGGTAAAA AAGGGCATTC AAAAAAGCGT ACTATTGTAT CTTCCGATGA GGAAGACAAT 
    GTTGACTCCC ATGTTAAAAC CAAGAAAGCA AAAGTTTTGA ATGGTAGTAA AATTGAAACC 
    GTTGAGAAGA AATTAGAAGT TGTTGAAGAT GTAGGATCGA TGTTTAGTAA AAAGCCCGCA 
    AAAAGGATAA ATGCTCCTAA AATTACTAAA AAGAATAATG TCGAAAAACC AGTGAAATCC 
    GATAATAAGG TAATATCAAG TTTTATTGAG GATGATGATT TTGATGCAAC TTTAAATCAG 
    CTGGATACGT CTCATATTGA GGATGAATAT TTGGCAACTG TTACCACTGA AACATCATCT 
    CCATTTTTTA AGAACAAAAA GGAGAACGAT ACTGAGTTAA GGAATTCAAA GAAAGAAGAA 
    AAGAATGATT GTAAGGCTGA AGGAAGTGTC AAAGAAGAGA AAAGCAAAGA TAAGGATGCA 
    TCTAATAAGA ACAAACATAG TACAGATAGA AAGACTTCTC CAGGAGACAA AAATAAAACT 
    AAAGAAAAGA ATAATTCTGA GACCAAGCAT AACAAAGAAA AGTCAAGCAA CAGCGATTCT 
    GAGACCAAAC ATAAGAATGA TAAAGATAAA TCAAGTAAGA GTGATTCTGA AAACAAGCAT 
    AAAAATGAAA AAGATAAATC TGAAGAAGTT AATTACAATG ATATTATTGA AGAAAAAATA 
    GAGAAAAAGA AACAGCATGT CATGCTGTAC CAGAATTATC TCAATCGAGG TGGAGCCAGA 
    AATCCAGGTT CAAAGGAAAT CCCAGAAGGA GCTGAACAAT GCCTAGCCAA TTTAAGCTTT 
    TTGATAACAG GTGTTCTGGA TTCATTGGAA CGTGGTGAAG CTGAAGAACT CATAACAAAA 
    TATGGTGGAA GGATGCTTCA TTCTGTGTCT AAGAAACTTA ATTACATTAT CATTGGAGAA 
    GAAGCAGGCC CTTCAAAATT AGCCAAAGCA GAGAGCTTAA ATATTAAAAA AATAAGTGAA 
    GATGGCCTGC TAGAGCTGAT TCGTACTAGA CCAGCAGGAG CAAGTGCAAG CAAGAAACCA 
    GTAAATGATG CTGATGGATC TCACAAACGC AAAAGGGATG ACTCATCAAA TCGTGAGGCC 
    AATGAAAACT CTGACAAAGC TAAAAAGAAT AAACATGAAT CCCCACCAAA AGATAATCAC 
    CGGAATCCAG AAGAGGCAAA TAAAAACAAG GATCATCCCT CACCTAAAGA AGAACACAAG 
    AGTCTTGAAA AAACAGAGAA GAAGAAAGAT TCGTCATCAC CAAAGAAAGA CCGTAATAGT 
    CCTGAAAAAA GTATTGAGAA AAATTTACCA CCTAAAGTTG AAAAAGTTGA ATCTAAAAGT 
    GACATTCCAC AGGCAAAAAA TTCTAAGTCT GATTTAAAGA AGATAGATAT TACTGGAGAT 
    GCTTTGGTAG AAAAGTACAG GCCTAAAGAA TTGAAACAGA TCATTGGCCA AACTGGAGAC 
    AAAAGTAATG CAAAAAAGTT ACACTTTTGG CTTACCAATT GGCACAAAAA TCATGGCAAA 
    GATGCCAAAG GTGCCAAACC CAAATTTTCT TACAAAGATG ACACAGGTAC TATTTACAAG 
    GCAGCCCTTC TGTCCGGACC ACCTGGTATT GGCAAAACAA CAACAGCCTA CGTTGTCTGT 
    GCTCAGTTGG GATATGAAGT TCTGGAATTC AATGCATCTG ATACAAGAAG TAAAAAGCTT 
    TTACAAGAAG AAATTGCAGG TATTTTATCA AACAAGACGG TGAAGTCATT TTTAACAAAT 
    GGACAAGAGA AGAAGAAAAA TCCACCAAAG CATGTATTAC TTATGGATGA AGTTGATGGA 
    ATGGCAGGAA ATGAAGATCG TGGAGGGATG CAAGAACTGA TTGCTTTTAT TAAATCTACA 
    GAAGTTCCTA TAATTTGTAT TTGTAATGAT CGAATGAGCC AAAAAATTAA AACTTTGGCA 
    AACTACACAT TTGATTTAAG GTTCCAAAAA CCAAGGTTAG AACAGATAAG AGCAGCAATG 
    ATGAGTATGT GTTACAAAGA AGGCATAACA GTCACTGCAC CAGAATTAAC AGCGATAATT 
    CAATCTACAA ATCAAGACAT TAGACAAGTG ATAAATCATG TAGCTATGCT ATCAGCAAAG 
    TCCCAAACTG AAAAAGAAAG CCATGAAAAA ACCAAGTACA AAAATTTGAA ACTCGGTCCT 
    TGGGATGTAG TTCGTAAAGT ATTCAGCGCT GATGAACACA AAAATATGAG CATACATGAT 
    AAAAGTGATT TGTTCTTCCA CGATTACAAC ATAGCAGGTC TTTTTGTTGA AGAAAATTAT 
    CTCAGTGTTA CGCCATCAGG CCCAAGAAAT GAATTGTTTG ATAAATTGGC TAAATGCAGT 
    GACAGCTTGG CTATTGGCGA TACAATCGAA AATGCTATTC GAGGAAAACA AGCTTGGGGA 
    CTTCTCCCTG TTCAAGCATG TTTCTCATCT GTCATACCAG GATCAGTAAT GTCAGGTTTC 
    ATAAACTCAC AAATAAACTT TCCCAGCTGG CTTGGAAGAA ATTCAAAGAG GAGCAAATGT 
    GACAGGCTTC TGCAGGACAT TACTGTTCAT GCTCGTATAA CAACAGGGGC AAGTAAAGAA 
    GCAATAAACC TTGATTATCT GAAAATGTTG GTTGATTCTA TTGTCAGGCC TCTAGCTGTT 
    GAAGGAACAG AAGGTGTTGA AAAAGCTGTT GAAATTATGA ATAAATACCA TTTATCAAGA 
    GAAGATTTGG ATTCCCTGAT AGAACTTACG AAGTGGCCAC ACACAAGAGA CCCAATGCAG 
    TCGGTTGATA GTAAAACAAA GGCTGCTTTT ACAAAAGCAT ACAACAAGAG TGCTTCATTC 
    CATAGTGCAA CGACGATGAA AAAGAAATCT TCTCAGGCTG CAGAGGATGA CGAATTTATG 
    GGAAGTGACG AAGAACCACC ATCAGATGCC GATGCAGACA ATGATAAAAT TGAAAATGAT 
    AAGCTTATCA AGGCTAAAAC ATCGAAAGCA AAAACCTCCA AACCTGCACC ATCAGATAGT 
    AAAGGCAAAG GCAAGGCTAA AGGAGCTGCT AAAAGTAGTT CCACTCGTGG TAAAAAGAAA 
    TGA

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

  • PubMed

    Functional and evolutionary insights from the genomes of three parasitoid Nasonia species.
    Science (New York, N.Y.)327(5963)343-8(2010 Jan)
    Werren JH,Richards S,Desjardins CA,Niehuis O,Gadau J,Colbourne JK,,Werren JH,Richards S,Desjardins CA,Niehuis O,Gadau J,Colbourne JK,Beukeboom LW,Desplan C,Elsik CG,Grimmelikhuijzen CJ,Kitts P,Lynch JA,Murphy T,Oliveira DC,Smith CD,van de Zande L,Worley KC,Zdobnov EM,Aerts M,Albert S,Anaya VH,Anzola JM,Barchuk AR,Behura SK,Bera AN,Berenbaum MR,Bertossa RC,Bitondi MM,Bordenstein SR,Bork P,Bornberg-Bauer E,Brunain M,Cazzamali G,Chaboub L,Chacko J,Chavez D,Childers CP,Choi JH,Clark ME,Claudianos C,Clinton RA,Cree AG,Cristino AS,Dang PM,Darby AC,de Graaf DC,Devreese B,Dinh HH,Edwards R,Elango N,Elhaik E,Ermolaeva O,Evans JD,Foret S,Fowler GR,Gerlach D,Gibson JD,Gilbert DG,Graur D,Gründer S,Hagen DE,Han Y,Hauser F,Hultmark D,Hunter HC 4th,Hurst GD,Jhangian SN,Jiang H,Johnson RM,Jones AK,Junier T,Kadowaki T,Kamping A,Kapustin Y,Kechavarzi B,Kim J,Kim J,Kiryutin B,Koevoets T,Kovar CL,Kriventseva EV,Kucharski R,Lee H,Lee SL,Lees K,Lewis LR,Loehlin DW,Logsdon JM Jr,Lopez JA,Lozado RJ,Maglott D,Maleszka R,Mayampurath A,Mazur DJ,McClure MA,Moore AD,Morgan MB,Muller J,Munoz-Torres MC,Muzny DM,Nazareth LV,Neupert S,Nguyen NB,Nunes FM,Oakeshott JG,Okwuonu GO,Pannebakker BA,Pejaver VR,Peng Z,Pratt SC,Predel R,Pu LL,Ranson H,Raychoudhury R,Rechtsteiner A,Reese JT,Reid JG,Riddle M,Robertson HM,Romero-Severson J,Rosenberg M,Sackton TB,Sattelle DB,Schlüns H,Schmitt T,Schneider M,Schüler A,Schurko AM,Shuker DM,Simões ZL,Sinha S,Smith Z,Solovyev V,Souvorov A,Springauf A,Stafflinger E,Stage DE,Stanke M,Tanaka Y,Telschow A,Trent C,Vattathil S,Verhulst EC,Viljakainen L,Wanner KW,Waterhouse RM,Whitfield JB,Wilkes TE,Williamson M,Willis JH,Wolschin F,Wyder S,Yamada T,Yi SV,Zecher CN,Zhang L,Gibbs RA


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