Gene Symbol
Fs(2)Ket
Entrez Gene ID
35336
Full Name
Female sterile (2) Ketel
Synonyms
38E.11,CG2637,Dmel\CG2637,Fs(2)Hon,Fs(2)Sz6,Fs(2)Sz7,Fs(2)ket,Hon,IMPbeta1,Impbeta,Ket,Ketel,Kpnb1,MRE26,dKap-beta,fs(2)Ket,fs(2)lo-B,fs(2)lto2,fs(2)ltoHD43,imp-beta,impbeta,ketel,kettle
General protein information
Preferred NamesFemale sterile (2) Ketel
NamesCG2637 gene product from transcript CG2637-RB CG2637-PA CG2637-PB CG2637-PC CG2637-PD CG2637-PE DImportin-beta Fs(2)Ket-PA Fs(2)Ket-PB Fs(2)Ket-PC Fs(2)Ket-PD Fs(2)Ket-PE Importin-beta female sterile (2) ketel female sterile(2)lto2 fs(2) ketel hont importin beta importin beta1 ketel mRNA-like ncRNA in embryogenesis 26
Gene Type
protein-coding
Organism
Drosophila melanogaster(fruit fly)
Genome
Chromosome: 2L
Map Location: 38E5-38E6
mRNA and Protein(s)
mRNA
Protein
Name
NM_058148.5
NP_477496.1
female sterile (2) ketel, isoform A
NM_001259182.2
NP_001246111.1
female sterile (2) ketel, isoform E
NM_001259179.2
NP_001246108.1
female sterile (2) ketel, isoform D
NM_001259180.2
NP_001246109.1
female sterile (2) ketel, isoform B
NM_001259181.2
NP_001246110.1
female sterile (2) ketel, isoform C
Gallus gallus (chicken)
KPNB1
XP_004950071.1
Caenorhabditis elegans (roundworm)
imb-1
NP_491477.2
Kluyveromyces lactis
KLLA0B05665g
XP_451788.1
Homo sapiens (human)
KPNB1
NP_002256.2
Bos taurus (cattle)
KPNB1
NP_001180082.1
Mus musculus (house mouse)
Kpnb1
NP_032405.3
Drosophila melanogaster (fruit fly)
Fs(2)Ket
NP_001246109.1
Neurospora crassa
NCU02011
XP_964876.1
Oryza sativa (rice)
Os12g0568800
NP_001067068.1
Saccharomyces cerevisiae (baker's yeast)
KAP95
NP_013451.1
Schizosaccharomyces pombe (fission yeast)
kap95
NP_594233.1
Pan troglodytes (chimpanzee)
KPNB1
XP_003315429.1
Anopheles gambiae (African malaria mosquito)
AgaP_AGAP009921
XP_319040.3
Arabidopsis thaliana (thale cress)
AT5G53480
NP_200160.1
Xenopus tropicalis (tropical clawed frog)
kpnb1
XP_002940197.1
KPNB1
XP_001082833.2
Canis lupus familiaris (dog)
KPNB1
XP_005624657.1
Rattus norvegicus (Norway rat)
Kpnb1
NP_058759.1
Danio rerio (zebrafish)
kpnb1
NP_001032791.2
Eremothecium gossypii
AGOS_ACL187W
NP_983217.2
Magnaporthe oryzae (rice blast fungus)
MGG_03668
XP_003716218.1
Related articles in PubMed
Gene Model Annotations for Drosophila melanogaster: Impact of High-Throughput Data.
Matthews BB, Dos Santos G, Crosby MA, Emmert DB, St Pierre SE, Gramates LS, Zhou P, Schroeder AJ, Falls K, Strelets V, Russo SM, Gelbart WM, G3 (Bethesda, Md.)5(8)1721-36(2015 Jun)
Gene Model Annotations for Drosophila melanogaster: The Rule-Benders.
Crosby MA, Gramates LS, Dos Santos G, Matthews BB, St Pierre SE, Zhou P, Schroeder AJ, Falls K, Emmert DB, Russo SM, Gelbart WM, G3 (Bethesda, Md.)5(8)1737-49(2015 Jun)
Sequence finishing and mapping of Drosophila melanogaster heterochromatin.
Hoskins RA, Carlson JW, Kennedy C, Acevedo D, Evans-Holm M, Frise E, Wan KH, Park S, Mendez-Lago M, Rossi F, Villasante A, Dimitri P, Karpen GH, Celniker SE Science (New York, N.Y.)316(5831)1625-8(2007 Jun)
The Release 5.1 annotation of Drosophila melanogaster heterochromatin.
Smith CD, Shu S, Mungall CJ, Karpen GH Science (New York, N.Y.)316(5831)1586-91(2007 Jun)
Combined evidence annotation of transposable elements in genome sequences.
Quesneville H, Bergman CM, Andrieu O, Autard D, Nouaud D, Ashburner M, Anxolabehere D PLoS computational biology1(2)166-75(2005 Jul)
GeneRIFs: Gene References Into Functions What's a GeneRIF?
The following Fs(2)Ket gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Fs(2)Ket 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.
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 ATGACTTCCG ATATCGCCAT GCAATTGATT GCCATTTTGG AAAAGACGGT GTCGCCAGAC AAAAATGAGC TGCTATCGGC GAAGAACTTT CTGGAGCAGG CGGCGGCCAG CAACCTGCCC GAGTTTCTCA AGGCGCTGTC AGAGATACTG GTGAACACGG CCAACAGTGC GGTGGCGCGA ATGGCAGCCG GTCTCCAGCT GAAGAACCAC CTGACCAGCA AGGACGAGAA GGTCAGCCAA CAGTACCAGG ATCGCTGGCA TCAGTTTCCC AGCGAGATCC GCGAGTTGAT CAAGAATAAC ATCCTGGCTG CTTTGGGTAC CGAGAACACC CGACCCTCCT GCGCCGCCCA GTGCGTGGCC TATGTGGCCG TGATTGAGCT GCCGATAAAC CGCTGGCCCA TGCTCATCCA GACACTGGTG AACAAGGTGG TCAGCGAAGG ATCCAGCGAG ATGCATCGCG AGTCGGCGCT GGAGGCCATT GGCTACATTT GCCAGGACAT TCGTTTCGGC GTCATGGAGA ACCAGTCGAA CGATGTGCTG ACTGCTATTA TTCACGGCAT GAGAAAGGTA GAGCCGAGCA ATCATGTACG CTTGGCGGCC ACCACGGCCC TTCACAACTC GTTGGAGTTC ACCAAATCGA ACTTTGAGAA AGACATGGAG CGCAACTTCA TCATGGAGGT GGTGTGCGAG GCCACTCAGT GCCAGGACTC GCAAATCTGC GTTGCCGCTC TGCAGTGCCT GGTGAAGATT ATGACCCTTT ATTACCAGTA CATGGAGCCC TACATGGCAC AGGCTCTTTT CCCTATTACT TTGGCGGCCA TGAAGTCTGA TAACGATGCT GTAGCGCTGC AGGGCATAGA GTTCTGGTCG AACGTCTGCG ATGAGGAGAT AGATCTGGCC ATCGAAAGCC AGGAGGCCAC TGATCAGGGC CGCGCTCCGC AGAGAGTGTC CAAGCACTAT GCTCGAGGTG CTCTGCAGTT CCTGACGCCT GTGCTCGTCG AGAAATTAAC CAAGCAGGAC GAGTGCGATG ACGAGGACAC CTGGAGCCCG GCGAAGGCCG CCTCCGTTTG CCTCATGGTG CTGGCCACAT GTTGCGAGGA CGAGATCGTG CCACATGTGC TTCCCTTCAT CAAGGAGAAC ATCGAGTCAC CTAATTGGCG ATTCCGCGAC GCAGCGGTAA TGACTTTCGG CTCCGTGCTG AATGGATTGG AGACCAATAC CTTAAAGCCG CTCGTGGAGC AAGCCATGCC CACGCTCATT CGACTGATGT ACGACTCCAG CGTTATCGTG CGCGATACCA TCGCCTGGAC CTTCGGACGT ATTTGCGATA TAATTCCCGA GGCGGCTATC AACGAGACAT ATCTTCAAAC GCTTTTGGAG TGCTTCGTGA AGAGCCTAAA GTCAGAGCCG CGTGTAGCAG CCAACGTGTG TTGGGCCTTC ATTGGACTTT CCGATGCAGC TTGGGAGGCA GCGGTCACCA ACGACGGAGA GACTCCGGAG ACGTACGCCC TGTCCCCGTA CTTTGAGTAC ATCATTACCC AGTTGCTGGA GACCACTGAT CGATCGGACG GAGCTCAAGC CAATTTGCGA TGTGCTGCTT ATCAGGCACT TATGGATATG ATCAAGAACT CTCCCTTGGA TTGCTACTTG GTGGTCCAGC GCACCACGCT GGTGATTTTG GAGCGCTTGA ACCAGGTGAT GCAGATGGAA ACGCAGATTA ACAATCACAG CGATCGTCAT CAGTTCAACG ATCTACAATC GCTTCTGTGC GCCACTCTGC AAAGCGTTTT GAGAAAGGTC CACGAGCAGG ATGCGCCTCA AATTTCCGAT GCCATTATGA CCGCTCTGCT GACCATGTTC AATTCAAGTG CTGGAAAGTC GGGTGTAGTG CAGGAGGAGG CCTTCCTTGC CGTTTCGACA TTGGTTGAGC TTTTGGGAGC TCAGTTCGCC AAGTACATGC CCGCTTTCAA GGACTTCCTC GTCATGGGTC TGAAGAACTT CCAGGAGTAC CAGGTCTGCT GCGCAGCTGT TGGTCTCACC GGCGACATTT TCCGCGCCCT TAAGGACCTA ATGGTGCCCT ATTCCAACGA AATTATGACC GTATTGATAA ACAATCTAAC GGAGCCGACT ATCCATCGAA CCGTCAAGCC CCAGGTTCTG TCTGCTTTCG GAGATATTGC GTTGAGCATT GGCAACCACT TCCTGCCATA TTTGAGCATG GTCCTAGATA TGTTGCGCGT TGCGTCCAAT CTGCAGACGG ACGCCAACAA CTTCGATATG AACGAATACA TCAACGAGCT GCGTGAAAGC ATCCTTGAAG CCTACACTGG CATCATCCAG GGCCTTAAGG GCGTTGACCA GACTGCCCAT ACAGACGTTA TGCACATGGA GCCCCACCTG ATGCACATTA TTTCGTTCAT CAAGCGCATC GCTCAGGAGG GCGACGTGTC CGACTCAATG TTGGCCAGTG CCGCTGGCTT CATTGGCGAT CTGTGCACTT CGTTTGGTCC GCGGCTATAC CCGCTGCTGG ATGATGCCAT CATTACCCAA TTCCTTGCCG AGGGCAAGCG CTCCAAGGCG CAGCGCACCA AGATGCTGTG CACCTGGGCC GTCAAAGAGA TAAAAAAAAT CAATACCCAG GTCATCACGC AGTAG
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
RefSeq
NP_477496.1
CDS 301..2955
Translation
Target ORF information:
RefSeq Version NM_058148.5
Organism Drosophila melanogaster(fruit fly)
Definition Drosophila melanogaster female sterile (2) ketel, transcript variant A (Fs(2)Ket), mRNA.
Target ORF information:
Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+ /C-(K)DYK
NM_058148.5
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 ATGACTTCCG ATATCGCCAT GCAATTGATT GCCATTTTGG AAAAGACGGT GTCGCCAGAC AAAAATGAGC TGCTATCGGC GAAGAACTTT CTGGAGCAGG CGGCGGCCAG CAACCTGCCC GAGTTTCTCA AGGCGCTGTC AGAGATACTG GTGAACACGG CCAACAGTGC GGTGGCGCGA ATGGCAGCCG GTCTCCAGCT GAAGAACCAC CTGACCAGCA AGGACGAGAA GGTCAGCCAA CAGTACCAGG ATCGCTGGCA TCAGTTTCCC AGCGAGATCC GCGAGTTGAT CAAGAATAAC ATCCTGGCTG CTTTGGGTAC CGAGAACACC CGACCCTCCT GCGCCGCCCA GTGCGTGGCC TATGTGGCCG TGATTGAGCT GCCGATAAAC CGCTGGCCCA TGCTCATCCA GACACTGGTG AACAAGGTGG TCAGCGAAGG ATCCAGCGAG ATGCATCGCG AGTCGGCGCT GGAGGCCATT GGCTACATTT GCCAGGACAT TCGTTTCGGC GTCATGGAGA ACCAGTCGAA CGATGTGCTG ACTGCTATTA TTCACGGCAT GAGAAAGGTA GAGCCGAGCA ATCATGTACG CTTGGCGGCC ACCACGGCCC TTCACAACTC GTTGGAGTTC ACCAAATCGA ACTTTGAGAA AGACATGGAG CGCAACTTCA TCATGGAGGT GGTGTGCGAG GCCACTCAGT GCCAGGACTC GCAAATCTGC GTTGCCGCTC TGCAGTGCCT GGTGAAGATT ATGACCCTTT ATTACCAGTA CATGGAGCCC TACATGGCAC AGGCTCTTTT CCCTATTACT TTGGCGGCCA TGAAGTCTGA TAACGATGCT GTAGCGCTGC AGGGCATAGA GTTCTGGTCG AACGTCTGCG ATGAGGAGAT AGATCTGGCC ATCGAAAGCC AGGAGGCCAC TGATCAGGGC CGCGCTCCGC AGAGAGTGTC CAAGCACTAT GCTCGAGGTG CTCTGCAGTT CCTGACGCCT GTGCTCGTCG AGAAATTAAC CAAGCAGGAC GAGTGCGATG ACGAGGACAC CTGGAGCCCG GCGAAGGCCG CCTCCGTTTG CCTCATGGTG CTGGCCACAT GTTGCGAGGA CGAGATCGTG CCACATGTGC TTCCCTTCAT CAAGGAGAAC ATCGAGTCAC CTAATTGGCG ATTCCGCGAC GCAGCGGTAA TGACTTTCGG CTCCGTGCTG AATGGATTGG AGACCAATAC CTTAAAGCCG CTCGTGGAGC AAGCCATGCC CACGCTCATT CGACTGATGT ACGACTCCAG CGTTATCGTG CGCGATACCA TCGCCTGGAC CTTCGGACGT ATTTGCGATA TAATTCCCGA GGCGGCTATC AACGAGACAT ATCTTCAAAC GCTTTTGGAG TGCTTCGTGA AGAGCCTAAA GTCAGAGCCG CGTGTAGCAG CCAACGTGTG TTGGGCCTTC ATTGGACTTT CCGATGCAGC TTGGGAGGCA GCGGTCACCA ACGACGGAGA GACTCCGGAG ACGTACGCCC TGTCCCCGTA CTTTGAGTAC ATCATTACCC AGTTGCTGGA GACCACTGAT CGATCGGACG GAGCTCAAGC CAATTTGCGA TGTGCTGCTT ATCAGGCACT TATGGATATG ATCAAGAACT CTCCCTTGGA TTGCTACTTG GTGGTCCAGC GCACCACGCT GGTGATTTTG GAGCGCTTGA ACCAGGTGAT GCAGATGGAA ACGCAGATTA ACAATCACAG CGATCGTCAT CAGTTCAACG ATCTACAATC GCTTCTGTGC GCCACTCTGC AAAGCGTTTT GAGAAAGGTC CACGAGCAGG ATGCGCCTCA AATTTCCGAT GCCATTATGA CCGCTCTGCT GACCATGTTC AATTCAAGTG CTGGAAAGTC GGGTGTAGTG CAGGAGGAGG CCTTCCTTGC CGTTTCGACA TTGGTTGAGC TTTTGGGAGC TCAGTTCGCC AAGTACATGC CCGCTTTCAA GGACTTCCTC GTCATGGGTC TGAAGAACTT CCAGGAGTAC CAGGTCTGCT GCGCAGCTGT TGGTCTCACC GGCGACATTT TCCGCGCCCT TAAGGACCTA ATGGTGCCCT ATTCCAACGA AATTATGACC GTATTGATAA ACAATCTAAC GGAGCCGACT ATCCATCGAA CCGTCAAGCC CCAGGTTCTG TCTGCTTTCG GAGATATTGC GTTGAGCATT GGCAACCACT TCCTGCCATA TTTGAGCATG GTCCTAGATA TGTTGCGCGT TGCGTCCAAT CTGCAGACGG ACGCCAACAA CTTCGATATG AACGAATACA TCAACGAGCT GCGTGAAAGC ATCCTTGAAG CCTACACTGG CATCATCCAG GGCCTTAAGG GCGTTGACCA GACTGCCCAT ACAGACGTTA TGCACATGGA GCCCCACCTG ATGCACATTA TTTCGTTCAT CAAGCGCATC GCTCAGGAGG GCGACGTGTC CGACTCAATG TTGGCCAGTG CCGCTGGCTT CATTGGCGAT CTGTGCACTT CGTTTGGTCC GCGGCTATAC CCGCTGCTGG ATGATGCCAT CATTACCCAA TTCCTTGCCG AGGGCAAGCG CTCCAAGGCG CAGCGCACCA AGATGCTGTG CACCTGGGCC GTCAAAGAGA TAAAAAAAAT CAATACCCAG GTCATCACGC AGTAG
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
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 ATGACTTCCG ATATCGCCAT GCAATTGATT GCCATTTTGG AAAAGACGGT GTCGCCAGAC AAAAATGAGC TGCTATCGGC GAAGAACTTT CTGGAGCAGG CGGCGGCCAG CAACCTGCCC GAGTTTCTCA AGGCGCTGTC AGAGATACTG GTGAACACGG CCAACAGTGC GGTGGCGCGA ATGGCAGCCG GTCTCCAGCT GAAGAACCAC CTGACCAGCA AGGACGAGAA GGTCAGCCAA CAGTACCAGG ATCGCTGGCA TCAGTTTCCC AGCGAGATCC GCGAGTTGAT CAAGAATAAC ATCCTGGCTG CTTTGGGTAC CGAGAACACC CGACCCTCCT GCGCCGCCCA GTGCGTGGCC TATGTGGCCG TGATTGAGCT GCCGATAAAC CGCTGGCCCA TGCTCATCCA GACACTGGTG AACAAGGTGG TCAGCGAAGG ATCCAGCGAG ATGCATCGCG AGTCGGCGCT GGAGGCCATT GGCTACATTT GCCAGGACAT TCGTTTCGGC GTCATGGAGA ACCAGTCGAA CGATGTGCTG ACTGCTATTA TTCACGGCAT GAGAAAGGTA GAGCCGAGCA ATCATGTACG CTTGGCGGCC ACCACGGCCC TTCACAACTC GTTGGAGTTC ACCAAATCGA ACTTTGAGAA AGACATGGAG CGCAACTTCA TCATGGAGGT GGTGTGCGAG GCCACTCAGT GCCAGGACTC GCAAATCTGC GTTGCCGCTC TGCAGTGCCT GGTGAAGATT ATGACCCTTT ATTACCAGTA CATGGAGCCC TACATGGCAC AGGCTCTTTT CCCTATTACT TTGGCGGCCA TGAAGTCTGA TAACGATGCT GTAGCGCTGC AGGGCATAGA GTTCTGGTCG AACGTCTGCG ATGAGGAGAT AGATCTGGCC ATCGAAAGCC AGGAGGCCAC TGATCAGGGC CGCGCTCCGC AGAGAGTGTC CAAGCACTAT GCTCGAGGTG CTCTGCAGTT CCTGACGCCT GTGCTCGTCG AGAAATTAAC CAAGCAGGAC GAGTGCGATG ACGAGGACAC CTGGAGCCCG GCGAAGGCCG CCTCCGTTTG CCTCATGGTG CTGGCCACAT GTTGCGAGGA CGAGATCGTG CCACATGTGC TTCCCTTCAT CAAGGAGAAC ATCGAGTCAC CTAATTGGCG ATTCCGCGAC GCAGCGGTAA TGACTTTCGG CTCCGTGCTG AATGGATTGG AGACCAATAC CTTAAAGCCG CTCGTGGAGC AAGCCATGCC CACGCTCATT CGACTGATGT ACGACTCCAG CGTTATCGTG CGCGATACCA TCGCCTGGAC CTTCGGACGT ATTTGCGATA TAATTCCCGA GGCGGCTATC AACGAGACAT ATCTTCAAAC GCTTTTGGAG TGCTTCGTGA AGAGCCTAAA GTCAGAGCCG CGTGTAGCAG CCAACGTGTG TTGGGCCTTC ATTGGACTTT CCGATGCAGC TTGGGAGGCA GCGGTCACCA ACGACGGAGA GACTCCGGAG ACGTACGCCC TGTCCCCGTA CTTTGAGTAC ATCATTACCC AGTTGCTGGA GACCACTGAT CGATCGGACG GAGCTCAAGC CAATTTGCGA TGTGCTGCTT ATCAGGCACT TATGGATATG ATCAAGAACT CTCCCTTGGA TTGCTACTTG GTGGTCCAGC GCACCACGCT GGTGATTTTG GAGCGCTTGA ACCAGGTGAT GCAGATGGAA ACGCAGATTA ACAATCACAG CGATCGTCAT CAGTTCAACG ATCTACAATC GCTTCTGTGC GCCACTCTGC AAAGCGTTTT GAGAAAGGTC CACGAGCAGG ATGCGCCTCA AATTTCCGAT GCCATTATGA CCGCTCTGCT GACCATGTTC AATTCAAGTG CTGGAAAGTC GGGTGTAGTG CAGGAGGAGG CCTTCCTTGC CGTTTCGACA TTGGTTGAGC TTTTGGGAGC TCAGTTCGCC AAGTACATGC CCGCTTTCAA GGACTTCCTC GTCATGGGTC TGAAGAACTT CCAGGAGTAC CAGGTCTGCT GCGCAGCTGT TGGTCTCACC GGCGACATTT TCCGCGCCCT TAAGGACCTA ATGGTGCCCT ATTCCAACGA AATTATGACC GTATTGATAA ACAATCTAAC GGAGCCGACT ATCCATCGAA CCGTCAAGCC CCAGGTTCTG TCTGCTTTCG GAGATATTGC GTTGAGCATT GGCAACCACT TCCTGCCATA TTTGAGCATG GTCCTAGATA TGTTGCGCGT TGCGTCCAAT CTGCAGACGG ACGCCAACAA CTTCGATATG AACGAATACA TCAACGAGCT GCGTGAAAGC ATCCTTGAAG CCTACACTGG CATCATCCAG GGCCTTAAGG GCGTTGACCA GACTGCCCAT ACAGACGTTA TGCACATGGA GCCCCACCTG ATGCACATTA TTTCGTTCAT CAAGCGCATC GCTCAGGAGG GCGACGTGTC CGACTCAATG TTGGCCAGTG CCGCTGGCTT CATTGGCGAT CTGTGCACTT CGTTTGGTCC GCGGCTATAC CCGCTGCTGG ATGATGCCAT CATTACCCAA TTCCTTGCCG AGGGCAAGCG CTCCAAGGCG CAGCGCACCA AGATGCTGTG CACCTGGGCC GTCAAAGAGA TAAAAAAAAT CAATACCCAG GTCATCACGC AGTAG
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
RefSeq
NP_001246111.1
CDS 301..2955
Translation
Target ORF information:
RefSeq Version NM_001259182.2
Organism Drosophila melanogaster(fruit fly)
Definition Drosophila melanogaster female sterile (2) ketel, transcript variant E (Fs(2)Ket), mRNA.
Target ORF information:
Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+ /C-(K)DYK
NM_001259182.2
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 ATGACTTCCG ATATCGCCAT GCAATTGATT GCCATTTTGG AAAAGACGGT GTCGCCAGAC AAAAATGAGC TGCTATCGGC GAAGAACTTT CTGGAGCAGG CGGCGGCCAG CAACCTGCCC GAGTTTCTCA AGGCGCTGTC AGAGATACTG GTGAACACGG CCAACAGTGC GGTGGCGCGA ATGGCAGCCG GTCTCCAGCT GAAGAACCAC CTGACCAGCA AGGACGAGAA GGTCAGCCAA CAGTACCAGG ATCGCTGGCA TCAGTTTCCC AGCGAGATCC GCGAGTTGAT CAAGAATAAC ATCCTGGCTG CTTTGGGTAC CGAGAACACC CGACCCTCCT GCGCCGCCCA GTGCGTGGCC TATGTGGCCG TGATTGAGCT GCCGATAAAC CGCTGGCCCA TGCTCATCCA GACACTGGTG AACAAGGTGG TCAGCGAAGG ATCCAGCGAG ATGCATCGCG AGTCGGCGCT GGAGGCCATT GGCTACATTT GCCAGGACAT TCGTTTCGGC GTCATGGAGA ACCAGTCGAA CGATGTGCTG ACTGCTATTA TTCACGGCAT GAGAAAGGTA GAGCCGAGCA ATCATGTACG CTTGGCGGCC ACCACGGCCC TTCACAACTC GTTGGAGTTC ACCAAATCGA ACTTTGAGAA AGACATGGAG CGCAACTTCA TCATGGAGGT GGTGTGCGAG GCCACTCAGT GCCAGGACTC GCAAATCTGC GTTGCCGCTC TGCAGTGCCT GGTGAAGATT ATGACCCTTT ATTACCAGTA CATGGAGCCC TACATGGCAC AGGCTCTTTT CCCTATTACT TTGGCGGCCA TGAAGTCTGA TAACGATGCT GTAGCGCTGC AGGGCATAGA GTTCTGGTCG AACGTCTGCG ATGAGGAGAT AGATCTGGCC ATCGAAAGCC AGGAGGCCAC TGATCAGGGC CGCGCTCCGC AGAGAGTGTC CAAGCACTAT GCTCGAGGTG CTCTGCAGTT CCTGACGCCT GTGCTCGTCG AGAAATTAAC CAAGCAGGAC GAGTGCGATG ACGAGGACAC CTGGAGCCCG GCGAAGGCCG CCTCCGTTTG CCTCATGGTG CTGGCCACAT GTTGCGAGGA CGAGATCGTG CCACATGTGC TTCCCTTCAT CAAGGAGAAC ATCGAGTCAC CTAATTGGCG ATTCCGCGAC GCAGCGGTAA TGACTTTCGG CTCCGTGCTG AATGGATTGG AGACCAATAC CTTAAAGCCG CTCGTGGAGC AAGCCATGCC CACGCTCATT CGACTGATGT ACGACTCCAG CGTTATCGTG CGCGATACCA TCGCCTGGAC CTTCGGACGT ATTTGCGATA TAATTCCCGA GGCGGCTATC AACGAGACAT ATCTTCAAAC GCTTTTGGAG TGCTTCGTGA AGAGCCTAAA GTCAGAGCCG CGTGTAGCAG CCAACGTGTG TTGGGCCTTC ATTGGACTTT CCGATGCAGC TTGGGAGGCA GCGGTCACCA ACGACGGAGA GACTCCGGAG ACGTACGCCC TGTCCCCGTA CTTTGAGTAC ATCATTACCC AGTTGCTGGA GACCACTGAT CGATCGGACG GAGCTCAAGC CAATTTGCGA TGTGCTGCTT ATCAGGCACT TATGGATATG ATCAAGAACT CTCCCTTGGA TTGCTACTTG GTGGTCCAGC GCACCACGCT GGTGATTTTG GAGCGCTTGA ACCAGGTGAT GCAGATGGAA ACGCAGATTA ACAATCACAG CGATCGTCAT CAGTTCAACG ATCTACAATC GCTTCTGTGC GCCACTCTGC AAAGCGTTTT GAGAAAGGTC CACGAGCAGG ATGCGCCTCA AATTTCCGAT GCCATTATGA CCGCTCTGCT GACCATGTTC AATTCAAGTG CTGGAAAGTC GGGTGTAGTG CAGGAGGAGG CCTTCCTTGC CGTTTCGACA TTGGTTGAGC TTTTGGGAGC TCAGTTCGCC AAGTACATGC CCGCTTTCAA GGACTTCCTC GTCATGGGTC TGAAGAACTT CCAGGAGTAC CAGGTCTGCT GCGCAGCTGT TGGTCTCACC GGCGACATTT TCCGCGCCCT TAAGGACCTA ATGGTGCCCT ATTCCAACGA AATTATGACC GTATTGATAA ACAATCTAAC GGAGCCGACT ATCCATCGAA CCGTCAAGCC CCAGGTTCTG TCTGCTTTCG GAGATATTGC GTTGAGCATT GGCAACCACT TCCTGCCATA TTTGAGCATG GTCCTAGATA TGTTGCGCGT TGCGTCCAAT CTGCAGACGG ACGCCAACAA CTTCGATATG AACGAATACA TCAACGAGCT GCGTGAAAGC ATCCTTGAAG CCTACACTGG CATCATCCAG GGCCTTAAGG GCGTTGACCA GACTGCCCAT ACAGACGTTA TGCACATGGA GCCCCACCTG ATGCACATTA TTTCGTTCAT CAAGCGCATC GCTCAGGAGG GCGACGTGTC CGACTCAATG TTGGCCAGTG CCGCTGGCTT CATTGGCGAT CTGTGCACTT CGTTTGGTCC GCGGCTATAC CCGCTGCTGG ATGATGCCAT CATTACCCAA TTCCTTGCCG AGGGCAAGCG CTCCAAGGCG CAGCGCACCA AGATGCTGTG CACCTGGGCC GTCAAAGAGA TAAAAAAAAT CAATACCCAG GTCATCACGC AGTAG
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
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 ATGACTTCCG ATATCGCCAT GCAATTGATT GCCATTTTGG AAAAGACGGT GTCGCCAGAC AAAAATGAGC TGCTATCGGC GAAGAACTTT CTGGAGCAGG CGGCGGCCAG CAACCTGCCC GAGTTTCTCA AGGCGCTGTC AGAGATACTG GTGAACACGG CCAACAGTGC GGTGGCGCGA ATGGCAGCCG GTCTCCAGCT GAAGAACCAC CTGACCAGCA AGGACGAGAA GGTCAGCCAA CAGTACCAGG ATCGCTGGCA TCAGTTTCCC AGCGAGATCC GCGAGTTGAT CAAGAATAAC ATCCTGGCTG CTTTGGGTAC CGAGAACACC CGACCCTCCT GCGCCGCCCA GTGCGTGGCC TATGTGGCCG TGATTGAGCT GCCGATAAAC CGCTGGCCCA TGCTCATCCA GACACTGGTG AACAAGGTGG TCAGCGAAGG ATCCAGCGAG ATGCATCGCG AGTCGGCGCT GGAGGCCATT GGCTACATTT GCCAGGACAT TCGTTTCGGC GTCATGGAGA ACCAGTCGAA CGATGTGCTG ACTGCTATTA TTCACGGCAT GAGAAAGGTA GAGCCGAGCA ATCATGTACG CTTGGCGGCC ACCACGGCCC TTCACAACTC GTTGGAGTTC ACCAAATCGA ACTTTGAGAA AGACATGGAG CGCAACTTCA TCATGGAGGT GGTGTGCGAG GCCACTCAGT GCCAGGACTC GCAAATCTGC GTTGCCGCTC TGCAGTGCCT GGTGAAGATT ATGACCCTTT ATTACCAGTA CATGGAGCCC TACATGGCAC AGGCTCTTTT CCCTATTACT TTGGCGGCCA TGAAGTCTGA TAACGATGCT GTAGCGCTGC AGGGCATAGA GTTCTGGTCG AACGTCTGCG ATGAGGAGAT AGATCTGGCC ATCGAAAGCC AGGAGGCCAC TGATCAGGGC CGCGCTCCGC AGAGAGTGTC CAAGCACTAT GCTCGAGGTG CTCTGCAGTT CCTGACGCCT GTGCTCGTCG AGAAATTAAC CAAGCAGGAC GAGTGCGATG ACGAGGACAC CTGGAGCCCG GCGAAGGCCG CCTCCGTTTG CCTCATGGTG CTGGCCACAT GTTGCGAGGA CGAGATCGTG CCACATGTGC TTCCCTTCAT CAAGGAGAAC ATCGAGTCAC CTAATTGGCG ATTCCGCGAC GCAGCGGTAA TGACTTTCGG CTCCGTGCTG AATGGATTGG AGACCAATAC CTTAAAGCCG CTCGTGGAGC AAGCCATGCC CACGCTCATT CGACTGATGT ACGACTCCAG CGTTATCGTG CGCGATACCA TCGCCTGGAC CTTCGGACGT ATTTGCGATA TAATTCCCGA GGCGGCTATC AACGAGACAT ATCTTCAAAC GCTTTTGGAG TGCTTCGTGA AGAGCCTAAA GTCAGAGCCG CGTGTAGCAG CCAACGTGTG TTGGGCCTTC ATTGGACTTT CCGATGCAGC TTGGGAGGCA GCGGTCACCA ACGACGGAGA GACTCCGGAG ACGTACGCCC TGTCCCCGTA CTTTGAGTAC ATCATTACCC AGTTGCTGGA GACCACTGAT CGATCGGACG GAGCTCAAGC CAATTTGCGA TGTGCTGCTT ATCAGGCACT TATGGATATG ATCAAGAACT CTCCCTTGGA TTGCTACTTG GTGGTCCAGC GCACCACGCT GGTGATTTTG GAGCGCTTGA ACCAGGTGAT GCAGATGGAA ACGCAGATTA ACAATCACAG CGATCGTCAT CAGTTCAACG ATCTACAATC GCTTCTGTGC GCCACTCTGC AAAGCGTTTT GAGAAAGGTC CACGAGCAGG ATGCGCCTCA AATTTCCGAT GCCATTATGA CCGCTCTGCT GACCATGTTC AATTCAAGTG CTGGAAAGTC GGGTGTAGTG CAGGAGGAGG CCTTCCTTGC CGTTTCGACA TTGGTTGAGC TTTTGGGAGC TCAGTTCGCC AAGTACATGC CCGCTTTCAA GGACTTCCTC GTCATGGGTC TGAAGAACTT CCAGGAGTAC CAGGTCTGCT GCGCAGCTGT TGGTCTCACC GGCGACATTT TCCGCGCCCT TAAGGACCTA ATGGTGCCCT ATTCCAACGA AATTATGACC GTATTGATAA ACAATCTAAC GGAGCCGACT ATCCATCGAA CCGTCAAGCC CCAGGTTCTG TCTGCTTTCG GAGATATTGC GTTGAGCATT GGCAACCACT TCCTGCCATA TTTGAGCATG GTCCTAGATA TGTTGCGCGT TGCGTCCAAT CTGCAGACGG ACGCCAACAA CTTCGATATG AACGAATACA TCAACGAGCT GCGTGAAAGC ATCCTTGAAG CCTACACTGG CATCATCCAG GGCCTTAAGG GCGTTGACCA GACTGCCCAT ACAGACGTTA TGCACATGGA GCCCCACCTG ATGCACATTA TTTCGTTCAT CAAGCGCATC GCTCAGGAGG GCGACGTGTC CGACTCAATG TTGGCCAGTG CCGCTGGCTT CATTGGCGAT CTGTGCACTT CGTTTGGTCC GCGGCTATAC CCGCTGCTGG ATGATGCCAT CATTACCCAA TTCCTTGCCG AGGGCAAGCG CTCCAAGGCG CAGCGCACCA AGATGCTGTG CACCTGGGCC GTCAAAGAGA TAAAAAAAAT CAATACCCAG GTCATCACGC AGTAG
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
RefSeq
NP_001246108.1
CDS 301..2955
Translation
Target ORF information:
RefSeq Version NM_001259179.2
Organism Drosophila melanogaster(fruit fly)
Definition Drosophila melanogaster female sterile (2) ketel, transcript variant D (Fs(2)Ket), mRNA.
Target ORF information:
Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+ /C-(K)DYK
NM_001259179.2
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 ATGACTTCCG ATATCGCCAT GCAATTGATT GCCATTTTGG AAAAGACGGT GTCGCCAGAC AAAAATGAGC TGCTATCGGC GAAGAACTTT CTGGAGCAGG CGGCGGCCAG CAACCTGCCC GAGTTTCTCA AGGCGCTGTC AGAGATACTG GTGAACACGG CCAACAGTGC GGTGGCGCGA ATGGCAGCCG GTCTCCAGCT GAAGAACCAC CTGACCAGCA AGGACGAGAA GGTCAGCCAA CAGTACCAGG ATCGCTGGCA TCAGTTTCCC AGCGAGATCC GCGAGTTGAT CAAGAATAAC ATCCTGGCTG CTTTGGGTAC CGAGAACACC CGACCCTCCT GCGCCGCCCA GTGCGTGGCC TATGTGGCCG TGATTGAGCT GCCGATAAAC CGCTGGCCCA TGCTCATCCA GACACTGGTG AACAAGGTGG TCAGCGAAGG ATCCAGCGAG ATGCATCGCG AGTCGGCGCT GGAGGCCATT GGCTACATTT GCCAGGACAT TCGTTTCGGC GTCATGGAGA ACCAGTCGAA CGATGTGCTG ACTGCTATTA TTCACGGCAT GAGAAAGGTA GAGCCGAGCA ATCATGTACG CTTGGCGGCC ACCACGGCCC TTCACAACTC GTTGGAGTTC ACCAAATCGA ACTTTGAGAA AGACATGGAG CGCAACTTCA TCATGGAGGT GGTGTGCGAG GCCACTCAGT GCCAGGACTC GCAAATCTGC GTTGCCGCTC TGCAGTGCCT GGTGAAGATT ATGACCCTTT ATTACCAGTA CATGGAGCCC TACATGGCAC AGGCTCTTTT CCCTATTACT TTGGCGGCCA TGAAGTCTGA TAACGATGCT GTAGCGCTGC AGGGCATAGA GTTCTGGTCG AACGTCTGCG ATGAGGAGAT AGATCTGGCC ATCGAAAGCC AGGAGGCCAC TGATCAGGGC CGCGCTCCGC AGAGAGTGTC CAAGCACTAT GCTCGAGGTG CTCTGCAGTT CCTGACGCCT GTGCTCGTCG AGAAATTAAC CAAGCAGGAC GAGTGCGATG ACGAGGACAC CTGGAGCCCG GCGAAGGCCG CCTCCGTTTG CCTCATGGTG CTGGCCACAT GTTGCGAGGA CGAGATCGTG CCACATGTGC TTCCCTTCAT CAAGGAGAAC ATCGAGTCAC CTAATTGGCG ATTCCGCGAC GCAGCGGTAA TGACTTTCGG CTCCGTGCTG AATGGATTGG AGACCAATAC CTTAAAGCCG CTCGTGGAGC AAGCCATGCC CACGCTCATT CGACTGATGT ACGACTCCAG CGTTATCGTG CGCGATACCA TCGCCTGGAC CTTCGGACGT ATTTGCGATA TAATTCCCGA GGCGGCTATC AACGAGACAT ATCTTCAAAC GCTTTTGGAG TGCTTCGTGA AGAGCCTAAA GTCAGAGCCG CGTGTAGCAG CCAACGTGTG TTGGGCCTTC ATTGGACTTT CCGATGCAGC TTGGGAGGCA GCGGTCACCA ACGACGGAGA GACTCCGGAG ACGTACGCCC TGTCCCCGTA CTTTGAGTAC ATCATTACCC AGTTGCTGGA GACCACTGAT CGATCGGACG GAGCTCAAGC CAATTTGCGA TGTGCTGCTT ATCAGGCACT TATGGATATG ATCAAGAACT CTCCCTTGGA TTGCTACTTG GTGGTCCAGC GCACCACGCT GGTGATTTTG GAGCGCTTGA ACCAGGTGAT GCAGATGGAA ACGCAGATTA ACAATCACAG CGATCGTCAT CAGTTCAACG ATCTACAATC GCTTCTGTGC GCCACTCTGC AAAGCGTTTT GAGAAAGGTC CACGAGCAGG ATGCGCCTCA AATTTCCGAT GCCATTATGA CCGCTCTGCT GACCATGTTC AATTCAAGTG CTGGAAAGTC GGGTGTAGTG CAGGAGGAGG CCTTCCTTGC CGTTTCGACA TTGGTTGAGC TTTTGGGAGC TCAGTTCGCC AAGTACATGC CCGCTTTCAA GGACTTCCTC GTCATGGGTC TGAAGAACTT CCAGGAGTAC CAGGTCTGCT GCGCAGCTGT TGGTCTCACC GGCGACATTT TCCGCGCCCT TAAGGACCTA ATGGTGCCCT ATTCCAACGA AATTATGACC GTATTGATAA ACAATCTAAC GGAGCCGACT ATCCATCGAA CCGTCAAGCC CCAGGTTCTG TCTGCTTTCG GAGATATTGC GTTGAGCATT GGCAACCACT TCCTGCCATA TTTGAGCATG GTCCTAGATA TGTTGCGCGT TGCGTCCAAT CTGCAGACGG ACGCCAACAA CTTCGATATG AACGAATACA TCAACGAGCT GCGTGAAAGC ATCCTTGAAG CCTACACTGG CATCATCCAG GGCCTTAAGG GCGTTGACCA GACTGCCCAT ACAGACGTTA TGCACATGGA GCCCCACCTG ATGCACATTA TTTCGTTCAT CAAGCGCATC GCTCAGGAGG GCGACGTGTC CGACTCAATG TTGGCCAGTG CCGCTGGCTT CATTGGCGAT CTGTGCACTT CGTTTGGTCC GCGGCTATAC CCGCTGCTGG ATGATGCCAT CATTACCCAA TTCCTTGCCG AGGGCAAGCG CTCCAAGGCG CAGCGCACCA AGATGCTGTG CACCTGGGCC GTCAAAGAGA TAAAAAAAAT CAATACCCAG GTCATCACGC AGTAG
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
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 ATGACTTCCG ATATCGCCAT GCAATTGATT GCCATTTTGG AAAAGACGGT GTCGCCAGAC AAAAATGAGC TGCTATCGGC GAAGAACTTT CTGGAGCAGG CGGCGGCCAG CAACCTGCCC GAGTTTCTCA AGGCGCTGTC AGAGATACTG GTGAACACGG CCAACAGTGC GGTGGCGCGA ATGGCAGCCG GTCTCCAGCT GAAGAACCAC CTGACCAGCA AGGACGAGAA GGTCAGCCAA CAGTACCAGG ATCGCTGGCA TCAGTTTCCC AGCGAGATCC GCGAGTTGAT CAAGAATAAC ATCCTGGCTG CTTTGGGTAC CGAGAACACC CGACCCTCCT GCGCCGCCCA GTGCGTGGCC TATGTGGCCG TGATTGAGCT GCCGATAAAC CGCTGGCCCA TGCTCATCCA GACACTGGTG AACAAGGTGG TCAGCGAAGG ATCCAGCGAG ATGCATCGCG AGTCGGCGCT GGAGGCCATT GGCTACATTT GCCAGGACAT TCGTTTCGGC GTCATGGAGA ACCAGTCGAA CGATGTGCTG ACTGCTATTA TTCACGGCAT GAGAAAGGTA GAGCCGAGCA ATCATGTACG CTTGGCGGCC ACCACGGCCC TTCACAACTC GTTGGAGTTC ACCAAATCGA ACTTTGAGAA AGACATGGAG CGCAACTTCA TCATGGAGGT GGTGTGCGAG GCCACTCAGT GCCAGGACTC GCAAATCTGC GTTGCCGCTC TGCAGTGCCT GGTGAAGATT ATGACCCTTT ATTACCAGTA CATGGAGCCC TACATGGCAC AGGCTCTTTT CCCTATTACT TTGGCGGCCA TGAAGTCTGA TAACGATGCT GTAGCGCTGC AGGGCATAGA GTTCTGGTCG AACGTCTGCG ATGAGGAGAT AGATCTGGCC ATCGAAAGCC AGGAGGCCAC TGATCAGGGC CGCGCTCCGC AGAGAGTGTC CAAGCACTAT GCTCGAGGTG CTCTGCAGTT CCTGACGCCT GTGCTCGTCG AGAAATTAAC CAAGCAGGAC GAGTGCGATG ACGAGGACAC CTGGAGCCCG GCGAAGGCCG CCTCCGTTTG CCTCATGGTG CTGGCCACAT GTTGCGAGGA CGAGATCGTG CCACATGTGC TTCCCTTCAT CAAGGAGAAC ATCGAGTCAC CTAATTGGCG ATTCCGCGAC GCAGCGGTAA TGACTTTCGG CTCCGTGCTG AATGGATTGG AGACCAATAC CTTAAAGCCG CTCGTGGAGC AAGCCATGCC CACGCTCATT CGACTGATGT ACGACTCCAG CGTTATCGTG CGCGATACCA TCGCCTGGAC CTTCGGACGT ATTTGCGATA TAATTCCCGA GGCGGCTATC AACGAGACAT ATCTTCAAAC GCTTTTGGAG TGCTTCGTGA AGAGCCTAAA GTCAGAGCCG CGTGTAGCAG CCAACGTGTG TTGGGCCTTC ATTGGACTTT CCGATGCAGC TTGGGAGGCA GCGGTCACCA ACGACGGAGA GACTCCGGAG ACGTACGCCC TGTCCCCGTA CTTTGAGTAC ATCATTACCC AGTTGCTGGA GACCACTGAT CGATCGGACG GAGCTCAAGC CAATTTGCGA TGTGCTGCTT ATCAGGCACT TATGGATATG ATCAAGAACT CTCCCTTGGA TTGCTACTTG GTGGTCCAGC GCACCACGCT GGTGATTTTG GAGCGCTTGA ACCAGGTGAT GCAGATGGAA ACGCAGATTA ACAATCACAG CGATCGTCAT CAGTTCAACG ATCTACAATC GCTTCTGTGC GCCACTCTGC AAAGCGTTTT GAGAAAGGTC CACGAGCAGG ATGCGCCTCA AATTTCCGAT GCCATTATGA CCGCTCTGCT GACCATGTTC AATTCAAGTG CTGGAAAGTC GGGTGTAGTG CAGGAGGAGG CCTTCCTTGC CGTTTCGACA TTGGTTGAGC TTTTGGGAGC TCAGTTCGCC AAGTACATGC CCGCTTTCAA GGACTTCCTC GTCATGGGTC TGAAGAACTT CCAGGAGTAC CAGGTCTGCT GCGCAGCTGT TGGTCTCACC GGCGACATTT TCCGCGCCCT TAAGGACCTA ATGGTGCCCT ATTCCAACGA AATTATGACC GTATTGATAA ACAATCTAAC GGAGCCGACT ATCCATCGAA CCGTCAAGCC CCAGGTTCTG TCTGCTTTCG GAGATATTGC GTTGAGCATT GGCAACCACT TCCTGCCATA TTTGAGCATG GTCCTAGATA TGTTGCGCGT TGCGTCCAAT CTGCAGACGG ACGCCAACAA CTTCGATATG AACGAATACA TCAACGAGCT GCGTGAAAGC ATCCTTGAAG CCTACACTGG CATCATCCAG GGCCTTAAGG GCGTTGACCA GACTGCCCAT ACAGACGTTA TGCACATGGA GCCCCACCTG ATGCACATTA TTTCGTTCAT CAAGCGCATC GCTCAGGAGG GCGACGTGTC CGACTCAATG TTGGCCAGTG CCGCTGGCTT CATTGGCGAT CTGTGCACTT CGTTTGGTCC GCGGCTATAC CCGCTGCTGG ATGATGCCAT CATTACCCAA TTCCTTGCCG AGGGCAAGCG CTCCAAGGCG CAGCGCACCA AGATGCTGTG CACCTGGGCC GTCAAAGAGA TAAAAAAAAT CAATACCCAG GTCATCACGC AGTAG
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
RefSeq
NP_001246109.1
CDS 483..3137
Translation
Target ORF information:
RefSeq Version NM_001259180.2
Organism Drosophila melanogaster(fruit fly)
Definition Drosophila melanogaster female sterile (2) ketel, transcript variant B (Fs(2)Ket), mRNA.
Target ORF information:
Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+ /C-(K)DYK
NM_001259180.2
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 ATGACTTCCG ATATCGCCAT GCAATTGATT GCCATTTTGG AAAAGACGGT GTCGCCAGAC AAAAATGAGC TGCTATCGGC GAAGAACTTT CTGGAGCAGG CGGCGGCCAG CAACCTGCCC GAGTTTCTCA AGGCGCTGTC AGAGATACTG GTGAACACGG CCAACAGTGC GGTGGCGCGA ATGGCAGCCG GTCTCCAGCT GAAGAACCAC CTGACCAGCA AGGACGAGAA GGTCAGCCAA CAGTACCAGG ATCGCTGGCA TCAGTTTCCC AGCGAGATCC GCGAGTTGAT CAAGAATAAC ATCCTGGCTG CTTTGGGTAC CGAGAACACC CGACCCTCCT GCGCCGCCCA GTGCGTGGCC TATGTGGCCG TGATTGAGCT GCCGATAAAC CGCTGGCCCA TGCTCATCCA GACACTGGTG AACAAGGTGG TCAGCGAAGG ATCCAGCGAG ATGCATCGCG AGTCGGCGCT GGAGGCCATT GGCTACATTT GCCAGGACAT TCGTTTCGGC GTCATGGAGA ACCAGTCGAA CGATGTGCTG ACTGCTATTA TTCACGGCAT GAGAAAGGTA GAGCCGAGCA ATCATGTACG CTTGGCGGCC ACCACGGCCC TTCACAACTC GTTGGAGTTC ACCAAATCGA ACTTTGAGAA AGACATGGAG CGCAACTTCA TCATGGAGGT GGTGTGCGAG GCCACTCAGT GCCAGGACTC GCAAATCTGC GTTGCCGCTC TGCAGTGCCT GGTGAAGATT ATGACCCTTT ATTACCAGTA CATGGAGCCC TACATGGCAC AGGCTCTTTT CCCTATTACT TTGGCGGCCA TGAAGTCTGA TAACGATGCT GTAGCGCTGC AGGGCATAGA GTTCTGGTCG AACGTCTGCG ATGAGGAGAT AGATCTGGCC ATCGAAAGCC AGGAGGCCAC TGATCAGGGC CGCGCTCCGC AGAGAGTGTC CAAGCACTAT GCTCGAGGTG CTCTGCAGTT CCTGACGCCT GTGCTCGTCG AGAAATTAAC CAAGCAGGAC GAGTGCGATG ACGAGGACAC CTGGAGCCCG GCGAAGGCCG CCTCCGTTTG CCTCATGGTG CTGGCCACAT GTTGCGAGGA CGAGATCGTG CCACATGTGC TTCCCTTCAT CAAGGAGAAC ATCGAGTCAC CTAATTGGCG ATTCCGCGAC GCAGCGGTAA TGACTTTCGG CTCCGTGCTG AATGGATTGG AGACCAATAC CTTAAAGCCG CTCGTGGAGC AAGCCATGCC CACGCTCATT CGACTGATGT ACGACTCCAG CGTTATCGTG CGCGATACCA TCGCCTGGAC CTTCGGACGT ATTTGCGATA TAATTCCCGA GGCGGCTATC AACGAGACAT ATCTTCAAAC GCTTTTGGAG TGCTTCGTGA AGAGCCTAAA GTCAGAGCCG CGTGTAGCAG CCAACGTGTG TTGGGCCTTC ATTGGACTTT CCGATGCAGC TTGGGAGGCA GCGGTCACCA ACGACGGAGA GACTCCGGAG ACGTACGCCC TGTCCCCGTA CTTTGAGTAC ATCATTACCC AGTTGCTGGA GACCACTGAT CGATCGGACG GAGCTCAAGC CAATTTGCGA TGTGCTGCTT ATCAGGCACT TATGGATATG ATCAAGAACT CTCCCTTGGA TTGCTACTTG GTGGTCCAGC GCACCACGCT GGTGATTTTG GAGCGCTTGA ACCAGGTGAT GCAGATGGAA ACGCAGATTA ACAATCACAG CGATCGTCAT CAGTTCAACG ATCTACAATC GCTTCTGTGC GCCACTCTGC AAAGCGTTTT GAGAAAGGTC CACGAGCAGG ATGCGCCTCA AATTTCCGAT GCCATTATGA CCGCTCTGCT GACCATGTTC AATTCAAGTG CTGGAAAGTC GGGTGTAGTG CAGGAGGAGG CCTTCCTTGC CGTTTCGACA TTGGTTGAGC TTTTGGGAGC TCAGTTCGCC AAGTACATGC CCGCTTTCAA GGACTTCCTC GTCATGGGTC TGAAGAACTT CCAGGAGTAC CAGGTCTGCT GCGCAGCTGT TGGTCTCACC GGCGACATTT TCCGCGCCCT TAAGGACCTA ATGGTGCCCT ATTCCAACGA AATTATGACC GTATTGATAA ACAATCTAAC GGAGCCGACT ATCCATCGAA CCGTCAAGCC CCAGGTTCTG TCTGCTTTCG GAGATATTGC GTTGAGCATT GGCAACCACT TCCTGCCATA TTTGAGCATG GTCCTAGATA TGTTGCGCGT TGCGTCCAAT CTGCAGACGG ACGCCAACAA CTTCGATATG AACGAATACA TCAACGAGCT GCGTGAAAGC ATCCTTGAAG CCTACACTGG CATCATCCAG GGCCTTAAGG GCGTTGACCA GACTGCCCAT ACAGACGTTA TGCACATGGA GCCCCACCTG ATGCACATTA TTTCGTTCAT CAAGCGCATC GCTCAGGAGG GCGACGTGTC CGACTCAATG TTGGCCAGTG CCGCTGGCTT CATTGGCGAT CTGTGCACTT CGTTTGGTCC GCGGCTATAC CCGCTGCTGG ATGATGCCAT CATTACCCAA TTCCTTGCCG AGGGCAAGCG CTCCAAGGCG CAGCGCACCA AGATGCTGTG CACCTGGGCC GTCAAAGAGA TAAAAAAAAT CAATACCCAG GTCATCACGC AGTAG
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
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 ATGACTTCCG ATATCGCCAT GCAATTGATT GCCATTTTGG AAAAGACGGT GTCGCCAGAC AAAAATGAGC TGCTATCGGC GAAGAACTTT CTGGAGCAGG CGGCGGCCAG CAACCTGCCC GAGTTTCTCA AGGCGCTGTC AGAGATACTG GTGAACACGG CCAACAGTGC GGTGGCGCGA ATGGCAGCCG GTCTCCAGCT GAAGAACCAC CTGACCAGCA AGGACGAGAA GGTCAGCCAA CAGTACCAGG ATCGCTGGCA TCAGTTTCCC AGCGAGATCC GCGAGTTGAT CAAGAATAAC ATCCTGGCTG CTTTGGGTAC CGAGAACACC CGACCCTCCT GCGCCGCCCA GTGCGTGGCC TATGTGGCCG TGATTGAGCT GCCGATAAAC CGCTGGCCCA TGCTCATCCA GACACTGGTG AACAAGGTGG TCAGCGAAGG ATCCAGCGAG ATGCATCGCG AGTCGGCGCT GGAGGCCATT GGCTACATTT GCCAGGACAT TCGTTTCGGC GTCATGGAGA ACCAGTCGAA CGATGTGCTG ACTGCTATTA TTCACGGCAT GAGAAAGGTA GAGCCGAGCA ATCATGTACG CTTGGCGGCC ACCACGGCCC TTCACAACTC GTTGGAGTTC ACCAAATCGA ACTTTGAGAA AGACATGGAG CGCAACTTCA TCATGGAGGT GGTGTGCGAG GCCACTCAGT GCCAGGACTC GCAAATCTGC GTTGCCGCTC TGCAGTGCCT GGTGAAGATT ATGACCCTTT ATTACCAGTA CATGGAGCCC TACATGGCAC AGGCTCTTTT CCCTATTACT TTGGCGGCCA TGAAGTCTGA TAACGATGCT GTAGCGCTGC AGGGCATAGA GTTCTGGTCG AACGTCTGCG ATGAGGAGAT AGATCTGGCC ATCGAAAGCC AGGAGGCCAC TGATCAGGGC CGCGCTCCGC AGAGAGTGTC CAAGCACTAT GCTCGAGGTG CTCTGCAGTT CCTGACGCCT GTGCTCGTCG AGAAATTAAC CAAGCAGGAC GAGTGCGATG ACGAGGACAC CTGGAGCCCG GCGAAGGCCG CCTCCGTTTG CCTCATGGTG CTGGCCACAT GTTGCGAGGA CGAGATCGTG CCACATGTGC TTCCCTTCAT CAAGGAGAAC ATCGAGTCAC CTAATTGGCG ATTCCGCGAC GCAGCGGTAA TGACTTTCGG CTCCGTGCTG AATGGATTGG AGACCAATAC CTTAAAGCCG CTCGTGGAGC AAGCCATGCC CACGCTCATT CGACTGATGT ACGACTCCAG CGTTATCGTG CGCGATACCA TCGCCTGGAC CTTCGGACGT ATTTGCGATA TAATTCCCGA GGCGGCTATC AACGAGACAT ATCTTCAAAC GCTTTTGGAG TGCTTCGTGA AGAGCCTAAA GTCAGAGCCG CGTGTAGCAG CCAACGTGTG TTGGGCCTTC ATTGGACTTT CCGATGCAGC TTGGGAGGCA GCGGTCACCA ACGACGGAGA GACTCCGGAG ACGTACGCCC TGTCCCCGTA CTTTGAGTAC ATCATTACCC AGTTGCTGGA GACCACTGAT CGATCGGACG GAGCTCAAGC CAATTTGCGA TGTGCTGCTT ATCAGGCACT TATGGATATG ATCAAGAACT CTCCCTTGGA TTGCTACTTG GTGGTCCAGC GCACCACGCT GGTGATTTTG GAGCGCTTGA ACCAGGTGAT GCAGATGGAA ACGCAGATTA ACAATCACAG CGATCGTCAT CAGTTCAACG ATCTACAATC GCTTCTGTGC GCCACTCTGC AAAGCGTTTT GAGAAAGGTC CACGAGCAGG ATGCGCCTCA AATTTCCGAT GCCATTATGA CCGCTCTGCT GACCATGTTC AATTCAAGTG CTGGAAAGTC GGGTGTAGTG CAGGAGGAGG CCTTCCTTGC CGTTTCGACA TTGGTTGAGC TTTTGGGAGC TCAGTTCGCC AAGTACATGC CCGCTTTCAA GGACTTCCTC GTCATGGGTC TGAAGAACTT CCAGGAGTAC CAGGTCTGCT GCGCAGCTGT TGGTCTCACC GGCGACATTT TCCGCGCCCT TAAGGACCTA ATGGTGCCCT ATTCCAACGA AATTATGACC GTATTGATAA ACAATCTAAC GGAGCCGACT ATCCATCGAA CCGTCAAGCC CCAGGTTCTG TCTGCTTTCG GAGATATTGC GTTGAGCATT GGCAACCACT TCCTGCCATA TTTGAGCATG GTCCTAGATA TGTTGCGCGT TGCGTCCAAT CTGCAGACGG ACGCCAACAA CTTCGATATG AACGAATACA TCAACGAGCT GCGTGAAAGC ATCCTTGAAG CCTACACTGG CATCATCCAG GGCCTTAAGG GCGTTGACCA GACTGCCCAT ACAGACGTTA TGCACATGGA GCCCCACCTG ATGCACATTA TTTCGTTCAT CAAGCGCATC GCTCAGGAGG GCGACGTGTC CGACTCAATG TTGGCCAGTG CCGCTGGCTT CATTGGCGAT CTGTGCACTT CGTTTGGTCC GCGGCTATAC CCGCTGCTGG ATGATGCCAT CATTACCCAA TTCCTTGCCG AGGGCAAGCG CTCCAAGGCG CAGCGCACCA AGATGCTGTG CACCTGGGCC GTCAAAGAGA TAAAAAAAAT CAATACCCAG GTCATCACGC AGTAG
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
RefSeq
NP_001246110.1
CDS 301..2955
Translation
Target ORF information:
RefSeq Version NM_001259181.2
Organism Drosophila melanogaster(fruit fly)
Definition Drosophila melanogaster female sterile (2) ketel, transcript variant C (Fs(2)Ket), mRNA.
Target ORF information:
Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+ /C-(K)DYK
NM_001259181.2
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 ATGACTTCCG ATATCGCCAT GCAATTGATT GCCATTTTGG AAAAGACGGT GTCGCCAGAC AAAAATGAGC TGCTATCGGC GAAGAACTTT CTGGAGCAGG CGGCGGCCAG CAACCTGCCC GAGTTTCTCA AGGCGCTGTC AGAGATACTG GTGAACACGG CCAACAGTGC GGTGGCGCGA ATGGCAGCCG GTCTCCAGCT GAAGAACCAC CTGACCAGCA AGGACGAGAA GGTCAGCCAA CAGTACCAGG ATCGCTGGCA TCAGTTTCCC AGCGAGATCC GCGAGTTGAT CAAGAATAAC ATCCTGGCTG CTTTGGGTAC CGAGAACACC CGACCCTCCT GCGCCGCCCA GTGCGTGGCC TATGTGGCCG TGATTGAGCT GCCGATAAAC CGCTGGCCCA TGCTCATCCA GACACTGGTG AACAAGGTGG TCAGCGAAGG ATCCAGCGAG ATGCATCGCG AGTCGGCGCT GGAGGCCATT GGCTACATTT GCCAGGACAT TCGTTTCGGC GTCATGGAGA ACCAGTCGAA CGATGTGCTG ACTGCTATTA TTCACGGCAT GAGAAAGGTA GAGCCGAGCA ATCATGTACG CTTGGCGGCC ACCACGGCCC TTCACAACTC GTTGGAGTTC ACCAAATCGA ACTTTGAGAA AGACATGGAG CGCAACTTCA TCATGGAGGT GGTGTGCGAG GCCACTCAGT GCCAGGACTC GCAAATCTGC GTTGCCGCTC TGCAGTGCCT GGTGAAGATT ATGACCCTTT ATTACCAGTA CATGGAGCCC TACATGGCAC AGGCTCTTTT CCCTATTACT TTGGCGGCCA TGAAGTCTGA TAACGATGCT GTAGCGCTGC AGGGCATAGA GTTCTGGTCG AACGTCTGCG ATGAGGAGAT AGATCTGGCC ATCGAAAGCC AGGAGGCCAC TGATCAGGGC CGCGCTCCGC AGAGAGTGTC CAAGCACTAT GCTCGAGGTG CTCTGCAGTT CCTGACGCCT GTGCTCGTCG AGAAATTAAC CAAGCAGGAC GAGTGCGATG ACGAGGACAC CTGGAGCCCG GCGAAGGCCG CCTCCGTTTG CCTCATGGTG CTGGCCACAT GTTGCGAGGA CGAGATCGTG CCACATGTGC TTCCCTTCAT CAAGGAGAAC ATCGAGTCAC CTAATTGGCG ATTCCGCGAC GCAGCGGTAA TGACTTTCGG CTCCGTGCTG AATGGATTGG AGACCAATAC CTTAAAGCCG CTCGTGGAGC AAGCCATGCC CACGCTCATT CGACTGATGT ACGACTCCAG CGTTATCGTG CGCGATACCA TCGCCTGGAC CTTCGGACGT ATTTGCGATA TAATTCCCGA GGCGGCTATC AACGAGACAT ATCTTCAAAC GCTTTTGGAG TGCTTCGTGA AGAGCCTAAA GTCAGAGCCG CGTGTAGCAG CCAACGTGTG TTGGGCCTTC ATTGGACTTT CCGATGCAGC TTGGGAGGCA GCGGTCACCA ACGACGGAGA GACTCCGGAG ACGTACGCCC TGTCCCCGTA CTTTGAGTAC ATCATTACCC AGTTGCTGGA GACCACTGAT CGATCGGACG GAGCTCAAGC CAATTTGCGA TGTGCTGCTT ATCAGGCACT TATGGATATG ATCAAGAACT CTCCCTTGGA TTGCTACTTG GTGGTCCAGC GCACCACGCT GGTGATTTTG GAGCGCTTGA ACCAGGTGAT GCAGATGGAA ACGCAGATTA ACAATCACAG CGATCGTCAT CAGTTCAACG ATCTACAATC GCTTCTGTGC GCCACTCTGC AAAGCGTTTT GAGAAAGGTC CACGAGCAGG ATGCGCCTCA AATTTCCGAT GCCATTATGA CCGCTCTGCT GACCATGTTC AATTCAAGTG CTGGAAAGTC GGGTGTAGTG CAGGAGGAGG CCTTCCTTGC CGTTTCGACA TTGGTTGAGC TTTTGGGAGC TCAGTTCGCC AAGTACATGC CCGCTTTCAA GGACTTCCTC GTCATGGGTC TGAAGAACTT CCAGGAGTAC CAGGTCTGCT GCGCAGCTGT TGGTCTCACC GGCGACATTT TCCGCGCCCT TAAGGACCTA ATGGTGCCCT ATTCCAACGA AATTATGACC GTATTGATAA ACAATCTAAC GGAGCCGACT ATCCATCGAA CCGTCAAGCC CCAGGTTCTG TCTGCTTTCG GAGATATTGC GTTGAGCATT GGCAACCACT TCCTGCCATA TTTGAGCATG GTCCTAGATA TGTTGCGCGT TGCGTCCAAT CTGCAGACGG ACGCCAACAA CTTCGATATG AACGAATACA TCAACGAGCT GCGTGAAAGC ATCCTTGAAG CCTACACTGG CATCATCCAG GGCCTTAAGG GCGTTGACCA GACTGCCCAT ACAGACGTTA TGCACATGGA GCCCCACCTG ATGCACATTA TTTCGTTCAT CAAGCGCATC GCTCAGGAGG GCGACGTGTC CGACTCAATG TTGGCCAGTG CCGCTGGCTT CATTGGCGAT CTGTGCACTT CGTTTGGTCC GCGGCTATAC CCGCTGCTGG ATGATGCCAT CATTACCCAA TTCCTTGCCG AGGGCAAGCG CTCCAAGGCG CAGCGCACCA AGATGCTGTG CACCTGGGCC GTCAAAGAGA TAAAAAAAAT CAATACCCAG GTCATCACGC AGTAG
The stop codons will be deleted if pcDNA3.1+ /C-(K)DYK vector is selected.
Gene Model Annotations for Drosophila melanogaster: Impact of High-Throughput Data.
G3 (Bethesda, Md.)5(8)1721-36(2015 Jun)
Matthews BB,Dos Santos G,Crosby MA,Emmert DB,St Pierre SE,Gramates LS,Zhou P,Schroeder AJ,Falls K,Strelets V,Russo SM,Gelbart WM,
Gene Model Annotations for Drosophila melanogaster: The Rule-Benders.
G3 (Bethesda, Md.)5(8)1737-49(2015 Jun)
Crosby MA,Gramates LS,Dos Santos G,Matthews BB,St Pierre SE,Zhou P,Schroeder AJ,Falls K,Emmert DB,Russo SM,Gelbart WM,
Sequence finishing and mapping of Drosophila melanogaster heterochromatin.
Science (New York, N.Y.)316(5831)1625-8(2007 Jun)
Hoskins RA,Carlson JW,Kennedy C,Acevedo D,Evans-Holm M,Frise E,Wan KH,Park S,Mendez-Lago M,Rossi F,Villasante A,Dimitri P,Karpen GH,Celniker SE