| Gene Symbol | LOC5578284 |
| Entrez Gene ID | 5578284 |
| Full Name | pikachurin |
| Synonyms | AAEL013602 |
| Gene Type | protein-coding |
| Organism | Aedes aegypti(yellow fever mosquito) |
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LOC5578284 cDNA ORF clone, Aedes aegypti(yellow fever mosquito)
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Gene
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Clones
gRNAs
The following LOC5578284 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC5578284 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.
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Reference Sequences (Refseq)
CloneID OAe120306 Clone ID Related Accession (Same CDS sequence) XM_021842555.1 Accession Version XM_021842555.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4044bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector 
User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1500393600000 Organism Aedes aegypti(yellow fever mosquito) Product pikachurin Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_035108.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Aedes aegypti Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
4021ATGTGGCTTT TTGCTTTTTC TCTCATCGTG ATCGTGTGCG CAGCCAAATG TACCGATGCA
GACGTTTCCG TTGAAGCTGC TTTTCAAGGT CGTTGCGGTC ATGGCAGCCC TTGTGAACAG
CTTTGCTACG AACTGCATGA TGGAATGTAC GAATGCGACT GTACGGAAGG ATTCGAGCTG
AACAAGAATG GATACAGTTG TCAAGAAATC AACTCAACAT CGACGGACGA AAATTCGTCG
GCTGTGGAGG AGGACGTTCT ATACCAGCGG GGTGCGTCGT TCAGTGCCAA GCTGGACATG
TCCGATTTGC ACATATCGAT GAAAACCTTC GACGATGAGG ACGGCGATGG AGATGGCGAG
GGCAGCATGA AACCAATAAA TTTCAATGCA CTCGATGGCG CTCTATCGCT GAGGAAAGCT
AATCATAATT GGAAAACGAA CAACTCAAAA GTGGCTTCGT CAAAATTGTC CGGTGGTGGC
CGCGGGCAAA CCAATTCCGT TAATAGTAGC AATAACGGCG TCCAAAAGAG ACCAATCAGT
AGTGCTGGCA AAAGTAAAAG CGACAGTAGC ACCACTAGCT CCAGGTCAGT TCGTATGGAA
ATAACCGGCG ACAGCTCATT ACATATGCAG GACACAGACG GAAGCAATCC CGGTGAAATA
AAAGCTCTCG CGCTTACGGC ATTCGATGAT GATGACTTTG ATAGCTTTGA TAGAGCAGAG
CCAGTAGCTA CCGTTTCACC ACCTGCTGCT GCGAGTGAGG AAAGCACGAC AACGGCAGGT
TCTACTCTGG GATCTACACC CGTCGTGACA AGGGCGCCCT GCACGCTGGA TTGCGGCTAT
GAGGGAATCT GCAGCAATGG CGAAAGCGGA CAGCAACATC GATGTCTTTG TCCTTTTGGC
AAAACTGGCC CACGCTGCGA AGAAGATTCC CAAATCAACA CACCGCGTTT CAATCAGCAT
TCGTGGCTTG CCTTTCCAGC ACTGCGGGGT GCATATAAAC ACGTTCAGCT CCATATCGAA
TTTCGGCCGG AATCCTTCGA TGGCATTCTG CTGCTGACAG GTGAAAGAGA CGATCTAAGT
GGCGACTTCA TGGCACTACT TATACACCAG GGATTCGTGG AGTTTTGGTT TGACTGCGGA
TCTGGAACGG GACGAGTGCG TTCGGAGGAA ACGATTGTCT TGAATCAGTG GAATACTATC
ACAATCTATC GGCATCGTTG GGATGCTTGG CTGGTGCTGA ACCAAGGAAA CCGGGTGCAA
GGACGCTCGA AGGGTCTCTT CTCCCGAATC ACTTTCCGGG AGCCGGTATT CCTCGGAGGA
TTTGGCAACA TCACAGGCCT GGATAAGAAG CTTCCCGTCA CCAATGGCTT CACCGGGTGC
ATACGAAAGT TTGTCGCCAA CGAGCATGAC TACAATTTCC ATCCGGTGCC ACTCGGTGAC
GTTTCCCGGG GTTTCGATAT CCAGGAATGT GTCACCGATC GGTGCAGCCG GTACCCCTGT
CAACATGGAG GCAAGTGTCT GCCCTCGGAT GACGGTGCAA TCTGTCTTTG TCCGCTGGGA
TTCGGCGGTG ATTTATGCGA GATGAGACTG GATTTACAGG TGCCTTCATT CAACGGATCA
TCCTACCTTC GGTTTCCTCC ATTGGGAGAC AGCTGTATTA TCTGGTTTGA GCTTAAGATT
ATCATCAAAC CCCTTCTGGA GGACGGGCTG CTGCTGTACA GTGGCCACCA CGAGTACGGG
GACTACATCT CGCTGTGCCT CAACATGGGC TACGTGGAGT TCACTTTCGA TCTTGGCAGC
GGGCCAGCAA CAGTGAGAAG CGAATTTCCT CTGACGATGG GTCAATGGCA CACAATCAAG
GTTTCCAGAA CATCTCGACT GGCAGTCTTA AAGATCGATC AGCTGCCAGA AGTGATGACG
GTCTCGCCGA ACGGATTCTG GCATCTTTCG TTGCCACACA GCTTGTACCT GGGCGGAGTG
CACAACATCC ACACGCTGCC GATGAGCCTC AGGGATAAAG GTTCCTTCGC CGGATGTGTT
CAGAAGGTGG ACATCAACGA CCGCACCATT TCCATAATCT CGGAGGCTCT CGGTGGGTCA
AACGTGGAAA ACTGTCCGCA TGCTTGCGTT GCCCGACCCT GTGGACCGCT AGCCAAATGT
GTTCCCAATC TGGACAGCTA CGAGTGCCAA TGCAACCCAC AGAACAAGCA ATGCAACCAG
GCGGAAGAGC TGCCATCGGA AGTGATTGAA CAGCGCCAAC GACTGTTGAA ACTCCATCAG
GTGCACCGTC AGGAGCAGCA ACTCTTGCAG GAGGAACAGC AACAGGAAGA CGATGACTAC
ACAACTACGA TGATTCCTTC GGGGAAACCA GGTGGCGATA AAGGAGCTAA TGGGGGCACG
AGCAGCGGGG AAGATGATTA CTATTATTAT GAGTATGATG ATGAGAGCGA CGGTACTGAC
CCAAATAGCA ACGGACAACC TAATGAGGAC ATTGGTCGTT TGAAAAATGT GGTGAAAATA
GTCACTAGAC CTGAACGGGA ACAGGCGGAT GTGACCACAC AGATTAATGG CGGTGACAAC
GACGAAGACT ACCGCAACGA AAAGCGAAAG GGTCAAATGG TGGGGGTTGA AACTAGTACA
AAGAGCAATA GTAAATTGCA AAATTATGAC GATGAAGATA CTTATGATGA CAAGAGTTAC
TCTAACCCCA ATGATGATGG TGAAAATAAG TATGGAAATT CCGGTTCGCC AGATGGGGTA
AATCGATTTT TAAATCGGCA AAATAATCAA CAAAGCAAAA ATCTATCAAA CAAACCGAGA
TCCCATGAAA GTAAAGCTAC TGCCACCACA AACAACGACA ATGCAATAAA TGAAGAAACC
ACAGATGGTC CACAGTATGA GAACGACAGT TACGGTGACT TTAACGACGG TTTTAATAGA
GATTATGACC ATAACGGTGA CAGAATACCC TATCGTCCTG ATCTATTGAA AAAATCTGGG
AATGAGCAAA GGACGAGACC ACACAGGAAA CAGCCAGAAC GGGACCCGGA CATTGACGAA
ACGTTAATGG AAGAGATGAA TCGAATAATG AAAAATAAAG ACGATGGATA CGAGAGCGAC
GACGATTCAA CCGATGGAGG CTCGGTGGGA TGGGAACTAG CGATGGACGA TGAGGAAATC
AGGCACACGG GCACTCGGAT GGGAGAAGTC GTCGAACGGC AACTGAACTC GGTGGATGAC
GATAACGAAA ACGGTATTGA TGGCAACCGC GATGCGATTG ATGTTGATGG AAAGAAAAAC
AATAAGCTTC GTGATACGAA TACCAACTTT AGCAAGGGTG CAGCGAAAAT GGCATCCAGT
AGTGGCGCGA GTAGCAATAG CAGGAGCAGC AGCACAAACA ACGATCGGCA ACATCAGAAG
CATTTGGTGG GGGAGGAGCA GGACGTGTCT CGAGGCGTGA AGTACAAAAA CAAATACTAC
CGGCGGTATC AGGGGGCGTG CTTTACCGGC ACGGAGAGTT TCTTTCATTA TAGCGACGCA
GAAACTATGC GGCGGGTGAT CAGCTACGAA ATTGATTTGA ACCTGCGGTT TAAAACGCAT
TCGCCCAATG GGTTGATACT GTGGACGGGT AGGCATAGTG CACTAGAAGG AGATGACTTC
CTGTCGCTGG GGGTTGAGAA TGGATTCCTC CACCTGCGAT ACAACCTGGG GTCAGGTGAA
GTGAACATCA AATACAACTC AACCAAAGTC AGCGACGGGC TGTGGCATCG GGTGCGAGCT
TTGAGGAATT CCCAGGACGG TACGCTGAAG GTTGATGGCG GAAAGTCCAT CACTCGGAGG
TCACCGGGAA AGCTGAGGCA GCTCAACACA GACACCGGAC TGTATGTCGG TGGTCTGCCG
GCTGCATCCT TCTATACACG ACAACGGTAC TCATCCGGTA TCGTGGGCTG CATCTCAGAG
CTGATACTGG CTGGCGAGTT GCGGCTAAAC TTCGACTCGA CGATACTGGG CACAGCGCAC
AACGTGGAAC CGGGCGCCCC GTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_021698247.1 CDS 2223..6266 Translation 
Target ORF information:
RefSeq Version XM_021842555.1 Organism Aedes aegypti(yellow fever mosquito) Definition Aedes aegypti pikachurin (LOC5578284), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_021842555.1
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
4021ATGTGGCTTT TTGCTTTTTC TCTCATCGTG ATCGTGTGCG CAGCCAAATG TACCGATGCA
GACGTTTCCG TTGAAGCTGC TTTTCAAGGT CGTTGCGGTC ATGGCAGCCC TTGTGAACAG
CTTTGCTACG AACTGCATGA TGGAATGTAC GAATGCGACT GTACGGAAGG ATTCGAGCTG
AACAAGAATG GATACAGTTG TCAAGAAATC AACTCAACAT CGACGGACGA AAATTCGTCG
GCTGTGGAGG AGGACGTTCT ATACCAGCGG GGTGCGTCGT TCAGTGCCAA GCTGGACATG
TCCGATTTGC ACATATCGAT GAAAACCTTC GACGATGAGG ACGGCGATGG AGATGGCGAG
GGCAGCATGA AACCAATAAA TTTCAATGCA CTCGATGGCG CTCTATCGCT GAGGAAAGCT
AATCATAATT GGAAAACGAA CAACTCAAAA GTGGCTTCGT CAAAATTGTC CGGTGGTGGC
CGCGGGCAAA CCAATTCCGT TAATAGTAGC AATAACGGCG TCCAAAAGAG ACCAATCAGT
AGTGCTGGCA AAAGTAAAAG CGACAGTAGC ACCACTAGCT CCAGGTCAGT TCGTATGGAA
ATAACCGGCG ACAGCTCATT ACATATGCAG GACACAGACG GAAGCAATCC CGGTGAAATA
AAAGCTCTCG CGCTTACGGC ATTCGATGAT GATGACTTTG ATAGCTTTGA TAGAGCAGAG
CCAGTAGCTA CCGTTTCACC ACCTGCTGCT GCGAGTGAGG AAAGCACGAC AACGGCAGGT
TCTACTCTGG GATCTACACC CGTCGTGACA AGGGCGCCCT GCACGCTGGA TTGCGGCTAT
GAGGGAATCT GCAGCAATGG CGAAAGCGGA CAGCAACATC GATGTCTTTG TCCTTTTGGC
AAAACTGGCC CACGCTGCGA AGAAGATTCC CAAATCAACA CACCGCGTTT CAATCAGCAT
TCGTGGCTTG CCTTTCCAGC ACTGCGGGGT GCATATAAAC ACGTTCAGCT CCATATCGAA
TTTCGGCCGG AATCCTTCGA TGGCATTCTG CTGCTGACAG GTGAAAGAGA CGATCTAAGT
GGCGACTTCA TGGCACTACT TATACACCAG GGATTCGTGG AGTTTTGGTT TGACTGCGGA
TCTGGAACGG GACGAGTGCG TTCGGAGGAA ACGATTGTCT TGAATCAGTG GAATACTATC
ACAATCTATC GGCATCGTTG GGATGCTTGG CTGGTGCTGA ACCAAGGAAA CCGGGTGCAA
GGACGCTCGA AGGGTCTCTT CTCCCGAATC ACTTTCCGGG AGCCGGTATT CCTCGGAGGA
TTTGGCAACA TCACAGGCCT GGATAAGAAG CTTCCCGTCA CCAATGGCTT CACCGGGTGC
ATACGAAAGT TTGTCGCCAA CGAGCATGAC TACAATTTCC ATCCGGTGCC ACTCGGTGAC
GTTTCCCGGG GTTTCGATAT CCAGGAATGT GTCACCGATC GGTGCAGCCG GTACCCCTGT
CAACATGGAG GCAAGTGTCT GCCCTCGGAT GACGGTGCAA TCTGTCTTTG TCCGCTGGGA
TTCGGCGGTG ATTTATGCGA GATGAGACTG GATTTACAGG TGCCTTCATT CAACGGATCA
TCCTACCTTC GGTTTCCTCC ATTGGGAGAC AGCTGTATTA TCTGGTTTGA GCTTAAGATT
ATCATCAAAC CCCTTCTGGA GGACGGGCTG CTGCTGTACA GTGGCCACCA CGAGTACGGG
GACTACATCT CGCTGTGCCT CAACATGGGC TACGTGGAGT TCACTTTCGA TCTTGGCAGC
GGGCCAGCAA CAGTGAGAAG CGAATTTCCT CTGACGATGG GTCAATGGCA CACAATCAAG
GTTTCCAGAA CATCTCGACT GGCAGTCTTA AAGATCGATC AGCTGCCAGA AGTGATGACG
GTCTCGCCGA ACGGATTCTG GCATCTTTCG TTGCCACACA GCTTGTACCT GGGCGGAGTG
CACAACATCC ACACGCTGCC GATGAGCCTC AGGGATAAAG GTTCCTTCGC CGGATGTGTT
CAGAAGGTGG ACATCAACGA CCGCACCATT TCCATAATCT CGGAGGCTCT CGGTGGGTCA
AACGTGGAAA ACTGTCCGCA TGCTTGCGTT GCCCGACCCT GTGGACCGCT AGCCAAATGT
GTTCCCAATC TGGACAGCTA CGAGTGCCAA TGCAACCCAC AGAACAAGCA ATGCAACCAG
GCGGAAGAGC TGCCATCGGA AGTGATTGAA CAGCGCCAAC GACTGTTGAA ACTCCATCAG
GTGCACCGTC AGGAGCAGCA ACTCTTGCAG GAGGAACAGC AACAGGAAGA CGATGACTAC
ACAACTACGA TGATTCCTTC GGGGAAACCA GGTGGCGATA AAGGAGCTAA TGGGGGCACG
AGCAGCGGGG AAGATGATTA CTATTATTAT GAGTATGATG ATGAGAGCGA CGGTACTGAC
CCAAATAGCA ACGGACAACC TAATGAGGAC ATTGGTCGTT TGAAAAATGT GGTGAAAATA
GTCACTAGAC CTGAACGGGA ACAGGCGGAT GTGACCACAC AGATTAATGG CGGTGACAAC
GACGAAGACT ACCGCAACGA AAAGCGAAAG GGTCAAATGG TGGGGGTTGA AACTAGTACA
AAGAGCAATA GTAAATTGCA AAATTATGAC GATGAAGATA CTTATGATGA CAAGAGTTAC
TCTAACCCCA ATGATGATGG TGAAAATAAG TATGGAAATT CCGGTTCGCC AGATGGGGTA
AATCGATTTT TAAATCGGCA AAATAATCAA CAAAGCAAAA ATCTATCAAA CAAACCGAGA
TCCCATGAAA GTAAAGCTAC TGCCACCACA AACAACGACA ATGCAATAAA TGAAGAAACC
ACAGATGGTC CACAGTATGA GAACGACAGT TACGGTGACT TTAACGACGG TTTTAATAGA
GATTATGACC ATAACGGTGA CAGAATACCC TATCGTCCTG ATCTATTGAA AAAATCTGGG
AATGAGCAAA GGACGAGACC ACACAGGAAA CAGCCAGAAC GGGACCCGGA CATTGACGAA
ACGTTAATGG AAGAGATGAA TCGAATAATG AAAAATAAAG ACGATGGATA CGAGAGCGAC
GACGATTCAA CCGATGGAGG CTCGGTGGGA TGGGAACTAG CGATGGACGA TGAGGAAATC
AGGCACACGG GCACTCGGAT GGGAGAAGTC GTCGAACGGC AACTGAACTC GGTGGATGAC
GATAACGAAA ACGGTATTGA TGGCAACCGC GATGCGATTG ATGTTGATGG AAAGAAAAAC
AATAAGCTTC GTGATACGAA TACCAACTTT AGCAAGGGTG CAGCGAAAAT GGCATCCAGT
AGTGGCGCGA GTAGCAATAG CAGGAGCAGC AGCACAAACA ACGATCGGCA ACATCAGAAG
CATTTGGTGG GGGAGGAGCA GGACGTGTCT CGAGGCGTGA AGTACAAAAA CAAATACTAC
CGGCGGTATC AGGGGGCGTG CTTTACCGGC ACGGAGAGTT TCTTTCATTA TAGCGACGCA
GAAACTATGC GGCGGGTGAT CAGCTACGAA ATTGATTTGA ACCTGCGGTT TAAAACGCAT
TCGCCCAATG GGTTGATACT GTGGACGGGT AGGCATAGTG CACTAGAAGG AGATGACTTC
CTGTCGCTGG GGGTTGAGAA TGGATTCCTC CACCTGCGAT ACAACCTGGG GTCAGGTGAA
GTGAACATCA AATACAACTC AACCAAAGTC AGCGACGGGC TGTGGCATCG GGTGCGAGCT
TTGAGGAATT CCCAGGACGG TACGCTGAAG GTTGATGGCG GAAAGTCCAT CACTCGGAGG
TCACCGGGAA AGCTGAGGCA GCTCAACACA GACACCGGAC TGTATGTCGG TGGTCTGCCG
GCTGCATCCT TCTATACACG ACAACGGTAC TCATCCGGTA TCGTGGGCTG CATCTCAGAG
CTGATACTGG CTGGCGAGTT GCGGCTAAAC TTCGACTCGA CGATACTGGG CACAGCGCAC
AACGTGGAAC CGGGCGCCCC GTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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PubMed
Genome sequence of Aedes aegypti, a major arbovirus vector.
Science (New York, N.Y.)316(5832)1718-23(2007 Jun)
Nene V,Wortman JR,Lawson D,Haas B,Kodira C,Tu ZJ,Loftus B,Xi Z,Megy K,Grabherr M,Ren Q,Zdobnov EM,Lobo NF,Campbell KS,Brown SE,Bonaldo MF,Zhu J,Sinkins SP,Hogenkamp DG,Amedeo P,Arensburger P,Atkinson PW,Bidwell S,Biedler J,Birney E,Bruggner RV,Costas J,Coy MR,Crabtree J,Crawford M,Debruyn B,Decaprio D,Eiglmeier K,Eisenstadt E,El-Dorry H,Gelbart WM,Gomes SL,Hammond M,Hannick LI,Hogan JR,Holmes MH,Jaffe D,Johnston JS,Kennedy RC,Koo H,Kravitz S,Kriventseva EV,Kulp D,Labutti K,Lee E,Li S,Lovin DD,Mao C,Mauceli E,Menck CF,Miller JR,Montgomery P,Mori A,Nascimento AL,Naveira HF,Nusbaum C,O'leary S,Orvis J,Pertea M,Quesneville H,Reidenbach KR,Rogers YH,Roth CW,Schneider JR,Schatz M,Shumway M,Stanke M,Stinson EO,Tubio JM,Vanzee JP,Verjovski-Almeida S,Werner D,White O,Wyder S,Zeng Q,Zhao Q,Zhao Y,Hill CA,Raikhel AS,Soares MB,Knudson DL,Lee NH,Galagan J,Salzberg SL,Paulsen IT,Dimopoulos G,Collins FH,Birren B,Fraser-Liggett CM,Severson DW
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