| Gene Symbol | AAEL_AAEL003768 |
| Entrez Gene ID | 5578928 |
| Full Name | serine/arginine repetitive matrix protein 2 |
| Synonyms | AAEL003768 |
| Gene Type | protein-coding |
| Organism | Aedes aegypti(Yellow fever mosquito) |
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AAEL_AAEL003768 cDNA ORF clone, Aedes aegypti(Yellow fever mosquito)
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Gene
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Clones
gRNAs
The following AAEL_AAEL003768 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the AAEL_AAEL003768 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 OAe116551 Clone ID Related Accession (Same CDS sequence) XM_021837511.1 , XM_021837512.1 , XM_021837513.1 Accession Version XM_021837511.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4404bp)
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 serine/arginine repetitive matrix protein 2 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_035107.1) annotated using gene prediction method: Gnomon, supported by EST evidence. 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
4021
4081
4141
4201
4261
4321
4381ATGGAGTCTA GAATATTGAA TGCAGCTGCT GCGAGGGCAG CTCCCACCTC AGCACATTTT
ATCGGAAGCA ATAGGAATCA CGCCTTTGCC GGTGGTTACC AGCAGTTCAC TAGCGAAAAA
ACCATTCGTA GCCTGCAGTA CACCATACCG GCTGTTGGGC ACCACTATGG TAATGCGTTC
GCTCCCGATG GCGAGGACGA CGATGACGAT GAAGACGGTT TAGGTCCCGT TACCCTAGGC
ACGTATAGTC AATCAATGAA TGTAGCCAGC ACCACCGATG GGGAATGCTA TGATGAAGAG
GAGGAAGAAA TGGATGAGGA CGTCGAAATG TCGCCAGCTA TCGAGGTGAT CTCGATCGAT
CCGAACTGTG ACTATGATAC CGATGAAGAA GAGGAGCAAG AAATCGAAGA AACGATAGTA
GAAGAACACC CACCTGTACC GTATCAAGAA GTTATTACCA ATGACGTTCC CATTGCGGAA
CAAGCTCCAA GTATAGGGGA ACAAATTGTA GAACAAACAG TAATTGTACA GGAAACAGTG
CTTGAAAATG TGCGCGCTCA AGTAGAGTTA GAAGGAGATG TGATAGAAGG TTTGGAAAGT
GATGACATAG AGCCAGAGTT GGAGAACATT CATCGCGATT CTGATGAGGA AGGTTCCGAT
AGTGATAGCA GTAGCGATAG TAATAGTAGT AGCGACAGCA GCAGTGATAG CGACAGCAGC
AAAAATAGTC ATAGCAGAAG CAAAAGCAGT TCATCCAGCT CGTGTAGCAG TAGTAGGTCC
ACGTCCACTG CATCCAGTCA TCCGAGTGAC TTTGTTCATG GATCTGATGA GGAGGATGAA
AAGTCAGTGC AGCGGGAAAA TTTAGCAAAG GTTATAGAAC GCCGCAAATT GATGGCGATA
GAACGTCGCA AACGCACGAC TAGTATAAAC AGAAAATCGT TTTCGCTGCC ACACTCACCG
GTAGGTGGTG CCAGTGGTGG CGTACTGCAT GACATGACAA GTTTAAGCTT CGAGGATCTG
GATGTATCGG CCATAGTAAA TGACCTGAGC CCTTTGAAGG TGCCGATACG TGCCAGTGAA
TCTGATGATA AATTGGTGCA GGAGCTAGCA GAGAACAATT TCGATCTTGC TGCCTACATT
ACAGAGGATG ATTTTGTGAC AACTGACTCG GAGAAACGGG AAGCACAAAA TCAAAAACCA
AAACTTTCCC CGGTGAAAAA GGCTCCCAAA TCTCGCGGGA AGCAATTAAA AATGCTAAGA
GAACTGATGA TTTCACCAAA GTCAGACAGC CATGAAGCCG GGTTTTCAAA GAGGACCTGC
ACAAACAAAG CGAAACGGAT AGTAGAGGAC AGCGGTTCAG ATTCCGATGA ATCCGAGTCC
GAAAACGACA CCAGAACATG CGTTAAGATT TTCGGAATTG AAAGAATGAT CGGCAAACCA
AAGCGAAAAG ACGACGACAC AAAAGCGGAT CCCACGTGGA ATCCCAACGG AACGGTAACT
GCCAAGCAGA CACCAAAACT TGCTCAGACC CAGAAATCTA TTGCACCGCC ATTAATTGCA
CCAGTACAAC AGTCAATCAA ACGCGAAGTT AGTGATACAA AGCCCCAGGC GGCACCAGTC
AAAACCAGTG AATCCACAAA ATCTGTAAAT AATACGAACA ACAAAAATAA ATTGCTTAGC
GCTGGATCGC AATTAGCACG TAACAAAATG CTTTCACTGA TGGCTAAAAA CAAACTACCA
ATGCAAGCAG CTAAACAGCA TTCAAAGTCA ACCGGAAGTG TCAGTAACAG TAGTAGTAAC
AGTAATCAGA ATAAGTCATC CGAACCACCA AAAAAGAAAC CGCCGGCCGT GAACAATAAC
GTGAAACTTG ATCACGATTA CTGCTCCCCG AAAAAAGGTT CCAGTCAAAA TCCGCTAGCC
TCGGTGCCGC AGCGGAAAGC GATAGAAATT CCATTCTTAT TACCTACTTT GGATCAGCTC
CGGCAGAAGA AAAAGCTCTC GAAAAATAAG CAACGGCTTG AAGCCACCAG TAAGAAAGCC
AAAACGACCG GTGGCGACTG TGATAAGAAG GATAAGGAAC CCAGTCAATG TAGTAGCGAA
CAGCGGACCA GCAGTGAAAC CAAAAGCATT GTTACTCCGG TTATAAAACA AGAAGTTTCG
ATTAAGGAAG AACCGAAAGA ACGGATAGAA ACAAATGCAA ATAGACTGAT CCCTGCCCAA
ACGCAACCGA CGAAACAAGT CTCCTTACTG AAAGTTAATC AAAACAAACC AAACGGTGTG
CAAACGTCCC CAACGGCCGC GTGCAACATC AAAGAAGAAC CGTCTGACGA GAAACCCAAG
GCTGAACCAA TCAATGCAAC CAGTAGCAGT AGCAACGAAT CTATTGTTAA AGTTAAGAAG
AAACTAAACC TTCAGGAATA CAAAAAACGT CGTGAGCACC CGGGTGATGA TGGAACCGTG
CAGGTGATGG TTACGGAAAG TTGTAGTAAA AGCAGCATCA CCAGCACATC GACCGTCAGT
GAATGCAGCA GTAGGGAAGA GCTAGACAAT GCACCGATTG CGACGCAGCT GGAGCCAACG
AAACAATCGA AATGTAAAAC TCCTTTGGAT CCCATTTCAG CGGCGAAGCT CAAAGCTCTA
CGTATGCAAC AGCTCAAGAA AGAAGCTGCT ATCAAGTCAA CGGAAGCCAA AATCATCCCG
AAAACTGTCC CGCAAATTGT ACCCCTAGTT GAGATAACAT CGATCAAATT TGATGAACAC
GGGAACCCTA TGCCGTACGA CAAAAACGCC GAAAAGGATG CCAACGAACT GAAACTGCAC
AAGGATTACG AAGAACTTAT AATAGTTTCA ATGGGTTGTA ACACAGACGT TAGCATCAAC
CCACGTGAAC CGAATAAGGA AATGGTCAAA ACGGAACAAA AGGACAAAAA CATTCCGAAG
AATGAGCTAC TGTCTAATAT TTCCGATACG ATCAAGCGGT GTCAGTCGTC GGCTCCAGCA
ATCATTTCCA GTAGTTCGTT AATATCCAGC ATCCACGAAG TTGTGATTCG AAAGAAAACC
TGCAATAAGA CTGAGACAAA TGATGTTGCT ACAGCAACTT CGGCGGAGAA ACGGCCGGTT
GGTGGAGGTC AAGCCAATCA ACAAGGATCT CCGAATGTTG GTGTTTCTCC GCCCAATGCA
TTCTCTCCTG GTAAGCCGGA AAAAGCAGGC GGATCATATG AACAATCACC CTCGTTTGAC
TACGATGACG GTCAGCTGCA GCAGACTGCC GAAAAGGTCA AACCAAGTGA ACATGGTGAA
GACAAAATTA TTATGCATTT ACGGAAGGAC CGACAACGTT TGAAGGGAGT TTCAATAGCC
ATTCAAACCT TGCCGGTAGA TCGCTTTCCG GAACTGAAAC GGTTATCTCC TGTCAAGAAA
GAGCGTACTG TGTCTCGAAG TAGCTGTGGA TCAGCTCAGC GAAGCCACAG TCGTCAAAGT
ACCGAAAGGA GTCGCGACCG TCTACGACGC CAGTATCGAA GACGTCGAAG CAGGAGTTCG
TCTTCGGAAC CCGAAACTCG CACTAGGTCT TCCAATTCTT TCCGGAAAAG TATGCAGCGA
TCATCTTCCC GAAGAAGTCG CAGCAGATGT AGTAGTTCCA GACGTAGATC CCGTTCCCGA
TCCCGATCGA GATCTAGGTC ATACAGACGT CGCAGTCGAA GCGATTCACA TCGTCGACGA
TCCAGTGTGT CGTCCGAACG GCGTCGTTAC TATGAAAGAG ACTATTCCCG GCGCAGCAGT
AGGAGGAGAC GGTCACGAAG CTCCTCATCG CATTATTCTT CTAGCAGTAG TGTTAGTTCT
AGATCGCGAT CGCGATCGGT ATCGCGCTCC AGCAGATCAC GATCACGATC TTTGTCCCGT
CCTTCTTCTC GCGCAAGGAA CCCATCCCAT AATGAATATC GTCGTCCAGC GCAGTCGCCA
GAGAGAAAAA TCGTTTACGT GGGTCGACTA GAGCCGGCGT TAAAACGTGA GGATCTCAAG
CGAAAGTTCA TGCAATATGG GCGTATCAAG CAGGTCACAT TGCATTATAA GGAATCCGGT
GCAAAGTATG GATTCGTCAC GTTCGAGAAG CCACAAGATG CATACAAAGC TATCGACGCA
AGTTCGAAAG ACCCAGCTCT GAGCGAATAT GATGTAAGCT TTGGCGGCAG AAGGGCGTTC
TGTCGCACGG AATATGCCGA TCTTGATGGT GACCTTTCGC AGGACCATGA AGCTGTTGTT
CCATTCATAG CACCGGATGG GTCCTTGATG ATGGCTCCTA ATCCGATGAC CGTAATGCCG
CGAAAGGACG AAGGCGACTC CTTCGAGGAA TTACTGAAGA AACTGAAAAA GGAAATCAGT
GCCAAAAAGC CACGCAAGTC ATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_021693203.1 CDS 782..5185 Translation 
Target ORF information:
RefSeq Version XM_021837511.1 Organism Aedes aegypti(yellow fever mosquito) Definition Aedes aegypti serine/arginine repetitive matrix protein 2 (LOC5578928), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_021837511.1
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
4141
4201
4261
4321
4381ATGGAGTCTA GAATATTGAA TGCAGCTGCT GCGAGGGCAG CTCCCACCTC AGCACATTTT
ATCGGAAGCA ATAGGAATCA CGCCTTTGCC GGTGGTTACC AGCAGTTCAC TAGCGAAAAA
ACCATTCGTA GCCTGCAGTA CACCATACCG GCTGTTGGGC ACCACTATGG TAATGCGTTC
GCTCCCGATG GCGAGGACGA CGATGACGAT GAAGACGGTT TAGGTCCCGT TACCCTAGGC
ACGTATAGTC AATCAATGAA TGTAGCCAGC ACCACCGATG GGGAATGCTA TGATGAAGAG
GAGGAAGAAA TGGATGAGGA CGTCGAAATG TCGCCAGCTA TCGAGGTGAT CTCGATCGAT
CCGAACTGTG ACTATGATAC CGATGAAGAA GAGGAGCAAG AAATCGAAGA AACGATAGTA
GAAGAACACC CACCTGTACC GTATCAAGAA GTTATTACCA ATGACGTTCC CATTGCGGAA
CAAGCTCCAA GTATAGGGGA ACAAATTGTA GAACAAACAG TAATTGTACA GGAAACAGTG
CTTGAAAATG TGCGCGCTCA AGTAGAGTTA GAAGGAGATG TGATAGAAGG TTTGGAAAGT
GATGACATAG AGCCAGAGTT GGAGAACATT CATCGCGATT CTGATGAGGA AGGTTCCGAT
AGTGATAGCA GTAGCGATAG TAATAGTAGT AGCGACAGCA GCAGTGATAG CGACAGCAGC
AAAAATAGTC ATAGCAGAAG CAAAAGCAGT TCATCCAGCT CGTGTAGCAG TAGTAGGTCC
ACGTCCACTG CATCCAGTCA TCCGAGTGAC TTTGTTCATG GATCTGATGA GGAGGATGAA
AAGTCAGTGC AGCGGGAAAA TTTAGCAAAG GTTATAGAAC GCCGCAAATT GATGGCGATA
GAACGTCGCA AACGCACGAC TAGTATAAAC AGAAAATCGT TTTCGCTGCC ACACTCACCG
GTAGGTGGTG CCAGTGGTGG CGTACTGCAT GACATGACAA GTTTAAGCTT CGAGGATCTG
GATGTATCGG CCATAGTAAA TGACCTGAGC CCTTTGAAGG TGCCGATACG TGCCAGTGAA
TCTGATGATA AATTGGTGCA GGAGCTAGCA GAGAACAATT TCGATCTTGC TGCCTACATT
ACAGAGGATG ATTTTGTGAC AACTGACTCG GAGAAACGGG AAGCACAAAA TCAAAAACCA
AAACTTTCCC CGGTGAAAAA GGCTCCCAAA TCTCGCGGGA AGCAATTAAA AATGCTAAGA
GAACTGATGA TTTCACCAAA GTCAGACAGC CATGAAGCCG GGTTTTCAAA GAGGACCTGC
ACAAACAAAG CGAAACGGAT AGTAGAGGAC AGCGGTTCAG ATTCCGATGA ATCCGAGTCC
GAAAACGACA CCAGAACATG CGTTAAGATT TTCGGAATTG AAAGAATGAT CGGCAAACCA
AAGCGAAAAG ACGACGACAC AAAAGCGGAT CCCACGTGGA ATCCCAACGG AACGGTAACT
GCCAAGCAGA CACCAAAACT TGCTCAGACC CAGAAATCTA TTGCACCGCC ATTAATTGCA
CCAGTACAAC AGTCAATCAA ACGCGAAGTT AGTGATACAA AGCCCCAGGC GGCACCAGTC
AAAACCAGTG AATCCACAAA ATCTGTAAAT AATACGAACA ACAAAAATAA ATTGCTTAGC
GCTGGATCGC AATTAGCACG TAACAAAATG CTTTCACTGA TGGCTAAAAA CAAACTACCA
ATGCAAGCAG CTAAACAGCA TTCAAAGTCA ACCGGAAGTG TCAGTAACAG TAGTAGTAAC
AGTAATCAGA ATAAGTCATC CGAACCACCA AAAAAGAAAC CGCCGGCCGT GAACAATAAC
GTGAAACTTG ATCACGATTA CTGCTCCCCG AAAAAAGGTT CCAGTCAAAA TCCGCTAGCC
TCGGTGCCGC AGCGGAAAGC GATAGAAATT CCATTCTTAT TACCTACTTT GGATCAGCTC
CGGCAGAAGA AAAAGCTCTC GAAAAATAAG CAACGGCTTG AAGCCACCAG TAAGAAAGCC
AAAACGACCG GTGGCGACTG TGATAAGAAG GATAAGGAAC CCAGTCAATG TAGTAGCGAA
CAGCGGACCA GCAGTGAAAC CAAAAGCATT GTTACTCCGG TTATAAAACA AGAAGTTTCG
ATTAAGGAAG AACCGAAAGA ACGGATAGAA ACAAATGCAA ATAGACTGAT CCCTGCCCAA
ACGCAACCGA CGAAACAAGT CTCCTTACTG AAAGTTAATC AAAACAAACC AAACGGTGTG
CAAACGTCCC CAACGGCCGC GTGCAACATC AAAGAAGAAC CGTCTGACGA GAAACCCAAG
GCTGAACCAA TCAATGCAAC CAGTAGCAGT AGCAACGAAT CTATTGTTAA AGTTAAGAAG
AAACTAAACC TTCAGGAATA CAAAAAACGT CGTGAGCACC CGGGTGATGA TGGAACCGTG
CAGGTGATGG TTACGGAAAG TTGTAGTAAA AGCAGCATCA CCAGCACATC GACCGTCAGT
GAATGCAGCA GTAGGGAAGA GCTAGACAAT GCACCGATTG CGACGCAGCT GGAGCCAACG
AAACAATCGA AATGTAAAAC TCCTTTGGAT CCCATTTCAG CGGCGAAGCT CAAAGCTCTA
CGTATGCAAC AGCTCAAGAA AGAAGCTGCT ATCAAGTCAA CGGAAGCCAA AATCATCCCG
AAAACTGTCC CGCAAATTGT ACCCCTAGTT GAGATAACAT CGATCAAATT TGATGAACAC
GGGAACCCTA TGCCGTACGA CAAAAACGCC GAAAAGGATG CCAACGAACT GAAACTGCAC
AAGGATTACG AAGAACTTAT AATAGTTTCA ATGGGTTGTA ACACAGACGT TAGCATCAAC
CCACGTGAAC CGAATAAGGA AATGGTCAAA ACGGAACAAA AGGACAAAAA CATTCCGAAG
AATGAGCTAC TGTCTAATAT TTCCGATACG ATCAAGCGGT GTCAGTCGTC GGCTCCAGCA
ATCATTTCCA GTAGTTCGTT AATATCCAGC ATCCACGAAG TTGTGATTCG AAAGAAAACC
TGCAATAAGA CTGAGACAAA TGATGTTGCT ACAGCAACTT CGGCGGAGAA ACGGCCGGTT
GGTGGAGGTC AAGCCAATCA ACAAGGATCT CCGAATGTTG GTGTTTCTCC GCCCAATGCA
TTCTCTCCTG GTAAGCCGGA AAAAGCAGGC GGATCATATG AACAATCACC CTCGTTTGAC
TACGATGACG GTCAGCTGCA GCAGACTGCC GAAAAGGTCA AACCAAGTGA ACATGGTGAA
GACAAAATTA TTATGCATTT ACGGAAGGAC CGACAACGTT TGAAGGGAGT TTCAATAGCC
ATTCAAACCT TGCCGGTAGA TCGCTTTCCG GAACTGAAAC GGTTATCTCC TGTCAAGAAA
GAGCGTACTG TGTCTCGAAG TAGCTGTGGA TCAGCTCAGC GAAGCCACAG TCGTCAAAGT
ACCGAAAGGA GTCGCGACCG TCTACGACGC CAGTATCGAA GACGTCGAAG CAGGAGTTCG
TCTTCGGAAC CCGAAACTCG CACTAGGTCT TCCAATTCTT TCCGGAAAAG TATGCAGCGA
TCATCTTCCC GAAGAAGTCG CAGCAGATGT AGTAGTTCCA GACGTAGATC CCGTTCCCGA
TCCCGATCGA GATCTAGGTC ATACAGACGT CGCAGTCGAA GCGATTCACA TCGTCGACGA
TCCAGTGTGT CGTCCGAACG GCGTCGTTAC TATGAAAGAG ACTATTCCCG GCGCAGCAGT
AGGAGGAGAC GGTCACGAAG CTCCTCATCG CATTATTCTT CTAGCAGTAG TGTTAGTTCT
AGATCGCGAT CGCGATCGGT ATCGCGCTCC AGCAGATCAC GATCACGATC TTTGTCCCGT
CCTTCTTCTC GCGCAAGGAA CCCATCCCAT AATGAATATC GTCGTCCAGC GCAGTCGCCA
GAGAGAAAAA TCGTTTACGT GGGTCGACTA GAGCCGGCGT TAAAACGTGA GGATCTCAAG
CGAAAGTTCA TGCAATATGG GCGTATCAAG CAGGTCACAT TGCATTATAA GGAATCCGGT
GCAAAGTATG GATTCGTCAC GTTCGAGAAG CCACAAGATG CATACAAAGC TATCGACGCA
AGTTCGAAAG ACCCAGCTCT GAGCGAATAT GATGTAAGCT TTGGCGGCAG AAGGGCGTTC
TGTCGCACGG AATATGCCGA TCTTGATGGT GACCTTTCGC AGGACCATGA AGCTGTTGTT
CCATTCATAG CACCGGATGG GTCCTTGATG ATGGCTCCTA ATCCGATGAC CGTAATGCCG
CGAAAGGACG AAGGCGACTC CTTCGAGGAA TTACTGAAGA AACTGAAAAA GGAAATCAGT
GCCAAAAAGC CACGCAAGTC ATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAe116551 Clone ID Related Accession (Same CDS sequence) XM_021837511.1 , XM_021837512.1 , XM_021837513.1 Accession Version XM_021837512.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4404bp)
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 serine/arginine repetitive matrix protein 2 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_035107.1) annotated using gene prediction method: Gnomon, supported by EST evidence. 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
4021
4081
4141
4201
4261
4321
4381ATGGAGTCTA GAATATTGAA TGCAGCTGCT GCGAGGGCAG CTCCCACCTC AGCACATTTT
ATCGGAAGCA ATAGGAATCA CGCCTTTGCC GGTGGTTACC AGCAGTTCAC TAGCGAAAAA
ACCATTCGTA GCCTGCAGTA CACCATACCG GCTGTTGGGC ACCACTATGG TAATGCGTTC
GCTCCCGATG GCGAGGACGA CGATGACGAT GAAGACGGTT TAGGTCCCGT TACCCTAGGC
ACGTATAGTC AATCAATGAA TGTAGCCAGC ACCACCGATG GGGAATGCTA TGATGAAGAG
GAGGAAGAAA TGGATGAGGA CGTCGAAATG TCGCCAGCTA TCGAGGTGAT CTCGATCGAT
CCGAACTGTG ACTATGATAC CGATGAAGAA GAGGAGCAAG AAATCGAAGA AACGATAGTA
GAAGAACACC CACCTGTACC GTATCAAGAA GTTATTACCA ATGACGTTCC CATTGCGGAA
CAAGCTCCAA GTATAGGGGA ACAAATTGTA GAACAAACAG TAATTGTACA GGAAACAGTG
CTTGAAAATG TGCGCGCTCA AGTAGAGTTA GAAGGAGATG TGATAGAAGG TTTGGAAAGT
GATGACATAG AGCCAGAGTT GGAGAACATT CATCGCGATT CTGATGAGGA AGGTTCCGAT
AGTGATAGCA GTAGCGATAG TAATAGTAGT AGCGACAGCA GCAGTGATAG CGACAGCAGC
AAAAATAGTC ATAGCAGAAG CAAAAGCAGT TCATCCAGCT CGTGTAGCAG TAGTAGGTCC
ACGTCCACTG CATCCAGTCA TCCGAGTGAC TTTGTTCATG GATCTGATGA GGAGGATGAA
AAGTCAGTGC AGCGGGAAAA TTTAGCAAAG GTTATAGAAC GCCGCAAATT GATGGCGATA
GAACGTCGCA AACGCACGAC TAGTATAAAC AGAAAATCGT TTTCGCTGCC ACACTCACCG
GTAGGTGGTG CCAGTGGTGG CGTACTGCAT GACATGACAA GTTTAAGCTT CGAGGATCTG
GATGTATCGG CCATAGTAAA TGACCTGAGC CCTTTGAAGG TGCCGATACG TGCCAGTGAA
TCTGATGATA AATTGGTGCA GGAGCTAGCA GAGAACAATT TCGATCTTGC TGCCTACATT
ACAGAGGATG ATTTTGTGAC AACTGACTCG GAGAAACGGG AAGCACAAAA TCAAAAACCA
AAACTTTCCC CGGTGAAAAA GGCTCCCAAA TCTCGCGGGA AGCAATTAAA AATGCTAAGA
GAACTGATGA TTTCACCAAA GTCAGACAGC CATGAAGCCG GGTTTTCAAA GAGGACCTGC
ACAAACAAAG CGAAACGGAT AGTAGAGGAC AGCGGTTCAG ATTCCGATGA ATCCGAGTCC
GAAAACGACA CCAGAACATG CGTTAAGATT TTCGGAATTG AAAGAATGAT CGGCAAACCA
AAGCGAAAAG ACGACGACAC AAAAGCGGAT CCCACGTGGA ATCCCAACGG AACGGTAACT
GCCAAGCAGA CACCAAAACT TGCTCAGACC CAGAAATCTA TTGCACCGCC ATTAATTGCA
CCAGTACAAC AGTCAATCAA ACGCGAAGTT AGTGATACAA AGCCCCAGGC GGCACCAGTC
AAAACCAGTG AATCCACAAA ATCTGTAAAT AATACGAACA ACAAAAATAA ATTGCTTAGC
GCTGGATCGC AATTAGCACG TAACAAAATG CTTTCACTGA TGGCTAAAAA CAAACTACCA
ATGCAAGCAG CTAAACAGCA TTCAAAGTCA ACCGGAAGTG TCAGTAACAG TAGTAGTAAC
AGTAATCAGA ATAAGTCATC CGAACCACCA AAAAAGAAAC CGCCGGCCGT GAACAATAAC
GTGAAACTTG ATCACGATTA CTGCTCCCCG AAAAAAGGTT CCAGTCAAAA TCCGCTAGCC
TCGGTGCCGC AGCGGAAAGC GATAGAAATT CCATTCTTAT TACCTACTTT GGATCAGCTC
CGGCAGAAGA AAAAGCTCTC GAAAAATAAG CAACGGCTTG AAGCCACCAG TAAGAAAGCC
AAAACGACCG GTGGCGACTG TGATAAGAAG GATAAGGAAC CCAGTCAATG TAGTAGCGAA
CAGCGGACCA GCAGTGAAAC CAAAAGCATT GTTACTCCGG TTATAAAACA AGAAGTTTCG
ATTAAGGAAG AACCGAAAGA ACGGATAGAA ACAAATGCAA ATAGACTGAT CCCTGCCCAA
ACGCAACCGA CGAAACAAGT CTCCTTACTG AAAGTTAATC AAAACAAACC AAACGGTGTG
CAAACGTCCC CAACGGCCGC GTGCAACATC AAAGAAGAAC CGTCTGACGA GAAACCCAAG
GCTGAACCAA TCAATGCAAC CAGTAGCAGT AGCAACGAAT CTATTGTTAA AGTTAAGAAG
AAACTAAACC TTCAGGAATA CAAAAAACGT CGTGAGCACC CGGGTGATGA TGGAACCGTG
CAGGTGATGG TTACGGAAAG TTGTAGTAAA AGCAGCATCA CCAGCACATC GACCGTCAGT
GAATGCAGCA GTAGGGAAGA GCTAGACAAT GCACCGATTG CGACGCAGCT GGAGCCAACG
AAACAATCGA AATGTAAAAC TCCTTTGGAT CCCATTTCAG CGGCGAAGCT CAAAGCTCTA
CGTATGCAAC AGCTCAAGAA AGAAGCTGCT ATCAAGTCAA CGGAAGCCAA AATCATCCCG
AAAACTGTCC CGCAAATTGT ACCCCTAGTT GAGATAACAT CGATCAAATT TGATGAACAC
GGGAACCCTA TGCCGTACGA CAAAAACGCC GAAAAGGATG CCAACGAACT GAAACTGCAC
AAGGATTACG AAGAACTTAT AATAGTTTCA ATGGGTTGTA ACACAGACGT TAGCATCAAC
CCACGTGAAC CGAATAAGGA AATGGTCAAA ACGGAACAAA AGGACAAAAA CATTCCGAAG
AATGAGCTAC TGTCTAATAT TTCCGATACG ATCAAGCGGT GTCAGTCGTC GGCTCCAGCA
ATCATTTCCA GTAGTTCGTT AATATCCAGC ATCCACGAAG TTGTGATTCG AAAGAAAACC
TGCAATAAGA CTGAGACAAA TGATGTTGCT ACAGCAACTT CGGCGGAGAA ACGGCCGGTT
GGTGGAGGTC AAGCCAATCA ACAAGGATCT CCGAATGTTG GTGTTTCTCC GCCCAATGCA
TTCTCTCCTG GTAAGCCGGA AAAAGCAGGC GGATCATATG AACAATCACC CTCGTTTGAC
TACGATGACG GTCAGCTGCA GCAGACTGCC GAAAAGGTCA AACCAAGTGA ACATGGTGAA
GACAAAATTA TTATGCATTT ACGGAAGGAC CGACAACGTT TGAAGGGAGT TTCAATAGCC
ATTCAAACCT TGCCGGTAGA TCGCTTTCCG GAACTGAAAC GGTTATCTCC TGTCAAGAAA
GAGCGTACTG TGTCTCGAAG TAGCTGTGGA TCAGCTCAGC GAAGCCACAG TCGTCAAAGT
ACCGAAAGGA GTCGCGACCG TCTACGACGC CAGTATCGAA GACGTCGAAG CAGGAGTTCG
TCTTCGGAAC CCGAAACTCG CACTAGGTCT TCCAATTCTT TCCGGAAAAG TATGCAGCGA
TCATCTTCCC GAAGAAGTCG CAGCAGATGT AGTAGTTCCA GACGTAGATC CCGTTCCCGA
TCCCGATCGA GATCTAGGTC ATACAGACGT CGCAGTCGAA GCGATTCACA TCGTCGACGA
TCCAGTGTGT CGTCCGAACG GCGTCGTTAC TATGAAAGAG ACTATTCCCG GCGCAGCAGT
AGGAGGAGAC GGTCACGAAG CTCCTCATCG CATTATTCTT CTAGCAGTAG TGTTAGTTCT
AGATCGCGAT CGCGATCGGT ATCGCGCTCC AGCAGATCAC GATCACGATC TTTGTCCCGT
CCTTCTTCTC GCGCAAGGAA CCCATCCCAT AATGAATATC GTCGTCCAGC GCAGTCGCCA
GAGAGAAAAA TCGTTTACGT GGGTCGACTA GAGCCGGCGT TAAAACGTGA GGATCTCAAG
CGAAAGTTCA TGCAATATGG GCGTATCAAG CAGGTCACAT TGCATTATAA GGAATCCGGT
GCAAAGTATG GATTCGTCAC GTTCGAGAAG CCACAAGATG CATACAAAGC TATCGACGCA
AGTTCGAAAG ACCCAGCTCT GAGCGAATAT GATGTAAGCT TTGGCGGCAG AAGGGCGTTC
TGTCGCACGG AATATGCCGA TCTTGATGGT GACCTTTCGC AGGACCATGA AGCTGTTGTT
CCATTCATAG CACCGGATGG GTCCTTGATG ATGGCTCCTA ATCCGATGAC CGTAATGCCG
CGAAAGGACG AAGGCGACTC CTTCGAGGAA TTACTGAAGA AACTGAAAAA GGAAATCAGT
GCCAAAAAGC CACGCAAGTC ATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_021693204.1 CDS 1056..5459 Translation
Target ORF information:
RefSeq Version XM_021837512.1 Organism Aedes aegypti(yellow fever mosquito) Definition Aedes aegypti serine/arginine repetitive matrix protein 2 (LOC5578928), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_021837512.1
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
4141
4201
4261
4321
4381ATGGAGTCTA GAATATTGAA TGCAGCTGCT GCGAGGGCAG CTCCCACCTC AGCACATTTT
ATCGGAAGCA ATAGGAATCA CGCCTTTGCC GGTGGTTACC AGCAGTTCAC TAGCGAAAAA
ACCATTCGTA GCCTGCAGTA CACCATACCG GCTGTTGGGC ACCACTATGG TAATGCGTTC
GCTCCCGATG GCGAGGACGA CGATGACGAT GAAGACGGTT TAGGTCCCGT TACCCTAGGC
ACGTATAGTC AATCAATGAA TGTAGCCAGC ACCACCGATG GGGAATGCTA TGATGAAGAG
GAGGAAGAAA TGGATGAGGA CGTCGAAATG TCGCCAGCTA TCGAGGTGAT CTCGATCGAT
CCGAACTGTG ACTATGATAC CGATGAAGAA GAGGAGCAAG AAATCGAAGA AACGATAGTA
GAAGAACACC CACCTGTACC GTATCAAGAA GTTATTACCA ATGACGTTCC CATTGCGGAA
CAAGCTCCAA GTATAGGGGA ACAAATTGTA GAACAAACAG TAATTGTACA GGAAACAGTG
CTTGAAAATG TGCGCGCTCA AGTAGAGTTA GAAGGAGATG TGATAGAAGG TTTGGAAAGT
GATGACATAG AGCCAGAGTT GGAGAACATT CATCGCGATT CTGATGAGGA AGGTTCCGAT
AGTGATAGCA GTAGCGATAG TAATAGTAGT AGCGACAGCA GCAGTGATAG CGACAGCAGC
AAAAATAGTC ATAGCAGAAG CAAAAGCAGT TCATCCAGCT CGTGTAGCAG TAGTAGGTCC
ACGTCCACTG CATCCAGTCA TCCGAGTGAC TTTGTTCATG GATCTGATGA GGAGGATGAA
AAGTCAGTGC AGCGGGAAAA TTTAGCAAAG GTTATAGAAC GCCGCAAATT GATGGCGATA
GAACGTCGCA AACGCACGAC TAGTATAAAC AGAAAATCGT TTTCGCTGCC ACACTCACCG
GTAGGTGGTG CCAGTGGTGG CGTACTGCAT GACATGACAA GTTTAAGCTT CGAGGATCTG
GATGTATCGG CCATAGTAAA TGACCTGAGC CCTTTGAAGG TGCCGATACG TGCCAGTGAA
TCTGATGATA AATTGGTGCA GGAGCTAGCA GAGAACAATT TCGATCTTGC TGCCTACATT
ACAGAGGATG ATTTTGTGAC AACTGACTCG GAGAAACGGG AAGCACAAAA TCAAAAACCA
AAACTTTCCC CGGTGAAAAA GGCTCCCAAA TCTCGCGGGA AGCAATTAAA AATGCTAAGA
GAACTGATGA TTTCACCAAA GTCAGACAGC CATGAAGCCG GGTTTTCAAA GAGGACCTGC
ACAAACAAAG CGAAACGGAT AGTAGAGGAC AGCGGTTCAG ATTCCGATGA ATCCGAGTCC
GAAAACGACA CCAGAACATG CGTTAAGATT TTCGGAATTG AAAGAATGAT CGGCAAACCA
AAGCGAAAAG ACGACGACAC AAAAGCGGAT CCCACGTGGA ATCCCAACGG AACGGTAACT
GCCAAGCAGA CACCAAAACT TGCTCAGACC CAGAAATCTA TTGCACCGCC ATTAATTGCA
CCAGTACAAC AGTCAATCAA ACGCGAAGTT AGTGATACAA AGCCCCAGGC GGCACCAGTC
AAAACCAGTG AATCCACAAA ATCTGTAAAT AATACGAACA ACAAAAATAA ATTGCTTAGC
GCTGGATCGC AATTAGCACG TAACAAAATG CTTTCACTGA TGGCTAAAAA CAAACTACCA
ATGCAAGCAG CTAAACAGCA TTCAAAGTCA ACCGGAAGTG TCAGTAACAG TAGTAGTAAC
AGTAATCAGA ATAAGTCATC CGAACCACCA AAAAAGAAAC CGCCGGCCGT GAACAATAAC
GTGAAACTTG ATCACGATTA CTGCTCCCCG AAAAAAGGTT CCAGTCAAAA TCCGCTAGCC
TCGGTGCCGC AGCGGAAAGC GATAGAAATT CCATTCTTAT TACCTACTTT GGATCAGCTC
CGGCAGAAGA AAAAGCTCTC GAAAAATAAG CAACGGCTTG AAGCCACCAG TAAGAAAGCC
AAAACGACCG GTGGCGACTG TGATAAGAAG GATAAGGAAC CCAGTCAATG TAGTAGCGAA
CAGCGGACCA GCAGTGAAAC CAAAAGCATT GTTACTCCGG TTATAAAACA AGAAGTTTCG
ATTAAGGAAG AACCGAAAGA ACGGATAGAA ACAAATGCAA ATAGACTGAT CCCTGCCCAA
ACGCAACCGA CGAAACAAGT CTCCTTACTG AAAGTTAATC AAAACAAACC AAACGGTGTG
CAAACGTCCC CAACGGCCGC GTGCAACATC AAAGAAGAAC CGTCTGACGA GAAACCCAAG
GCTGAACCAA TCAATGCAAC CAGTAGCAGT AGCAACGAAT CTATTGTTAA AGTTAAGAAG
AAACTAAACC TTCAGGAATA CAAAAAACGT CGTGAGCACC CGGGTGATGA TGGAACCGTG
CAGGTGATGG TTACGGAAAG TTGTAGTAAA AGCAGCATCA CCAGCACATC GACCGTCAGT
GAATGCAGCA GTAGGGAAGA GCTAGACAAT GCACCGATTG CGACGCAGCT GGAGCCAACG
AAACAATCGA AATGTAAAAC TCCTTTGGAT CCCATTTCAG CGGCGAAGCT CAAAGCTCTA
CGTATGCAAC AGCTCAAGAA AGAAGCTGCT ATCAAGTCAA CGGAAGCCAA AATCATCCCG
AAAACTGTCC CGCAAATTGT ACCCCTAGTT GAGATAACAT CGATCAAATT TGATGAACAC
GGGAACCCTA TGCCGTACGA CAAAAACGCC GAAAAGGATG CCAACGAACT GAAACTGCAC
AAGGATTACG AAGAACTTAT AATAGTTTCA ATGGGTTGTA ACACAGACGT TAGCATCAAC
CCACGTGAAC CGAATAAGGA AATGGTCAAA ACGGAACAAA AGGACAAAAA CATTCCGAAG
AATGAGCTAC TGTCTAATAT TTCCGATACG ATCAAGCGGT GTCAGTCGTC GGCTCCAGCA
ATCATTTCCA GTAGTTCGTT AATATCCAGC ATCCACGAAG TTGTGATTCG AAAGAAAACC
TGCAATAAGA CTGAGACAAA TGATGTTGCT ACAGCAACTT CGGCGGAGAA ACGGCCGGTT
GGTGGAGGTC AAGCCAATCA ACAAGGATCT CCGAATGTTG GTGTTTCTCC GCCCAATGCA
TTCTCTCCTG GTAAGCCGGA AAAAGCAGGC GGATCATATG AACAATCACC CTCGTTTGAC
TACGATGACG GTCAGCTGCA GCAGACTGCC GAAAAGGTCA AACCAAGTGA ACATGGTGAA
GACAAAATTA TTATGCATTT ACGGAAGGAC CGACAACGTT TGAAGGGAGT TTCAATAGCC
ATTCAAACCT TGCCGGTAGA TCGCTTTCCG GAACTGAAAC GGTTATCTCC TGTCAAGAAA
GAGCGTACTG TGTCTCGAAG TAGCTGTGGA TCAGCTCAGC GAAGCCACAG TCGTCAAAGT
ACCGAAAGGA GTCGCGACCG TCTACGACGC CAGTATCGAA GACGTCGAAG CAGGAGTTCG
TCTTCGGAAC CCGAAACTCG CACTAGGTCT TCCAATTCTT TCCGGAAAAG TATGCAGCGA
TCATCTTCCC GAAGAAGTCG CAGCAGATGT AGTAGTTCCA GACGTAGATC CCGTTCCCGA
TCCCGATCGA GATCTAGGTC ATACAGACGT CGCAGTCGAA GCGATTCACA TCGTCGACGA
TCCAGTGTGT CGTCCGAACG GCGTCGTTAC TATGAAAGAG ACTATTCCCG GCGCAGCAGT
AGGAGGAGAC GGTCACGAAG CTCCTCATCG CATTATTCTT CTAGCAGTAG TGTTAGTTCT
AGATCGCGAT CGCGATCGGT ATCGCGCTCC AGCAGATCAC GATCACGATC TTTGTCCCGT
CCTTCTTCTC GCGCAAGGAA CCCATCCCAT AATGAATATC GTCGTCCAGC GCAGTCGCCA
GAGAGAAAAA TCGTTTACGT GGGTCGACTA GAGCCGGCGT TAAAACGTGA GGATCTCAAG
CGAAAGTTCA TGCAATATGG GCGTATCAAG CAGGTCACAT TGCATTATAA GGAATCCGGT
GCAAAGTATG GATTCGTCAC GTTCGAGAAG CCACAAGATG CATACAAAGC TATCGACGCA
AGTTCGAAAG ACCCAGCTCT GAGCGAATAT GATGTAAGCT TTGGCGGCAG AAGGGCGTTC
TGTCGCACGG AATATGCCGA TCTTGATGGT GACCTTTCGC AGGACCATGA AGCTGTTGTT
CCATTCATAG CACCGGATGG GTCCTTGATG ATGGCTCCTA ATCCGATGAC CGTAATGCCG
CGAAAGGACG AAGGCGACTC CTTCGAGGAA TTACTGAAGA AACTGAAAAA GGAAATCAGT
GCCAAAAAGC CACGCAAGTC ATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAe116551 Clone ID Related Accession (Same CDS sequence) XM_021837511.1 , XM_021837512.1 , XM_021837513.1 Accession Version XM_021837513.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4404bp)
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 serine/arginine repetitive matrix protein 2 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_035107.1) annotated using gene prediction method: Gnomon, supported by EST evidence. 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
4021
4081
4141
4201
4261
4321
4381ATGGAGTCTA GAATATTGAA TGCAGCTGCT GCGAGGGCAG CTCCCACCTC AGCACATTTT
ATCGGAAGCA ATAGGAATCA CGCCTTTGCC GGTGGTTACC AGCAGTTCAC TAGCGAAAAA
ACCATTCGTA GCCTGCAGTA CACCATACCG GCTGTTGGGC ACCACTATGG TAATGCGTTC
GCTCCCGATG GCGAGGACGA CGATGACGAT GAAGACGGTT TAGGTCCCGT TACCCTAGGC
ACGTATAGTC AATCAATGAA TGTAGCCAGC ACCACCGATG GGGAATGCTA TGATGAAGAG
GAGGAAGAAA TGGATGAGGA CGTCGAAATG TCGCCAGCTA TCGAGGTGAT CTCGATCGAT
CCGAACTGTG ACTATGATAC CGATGAAGAA GAGGAGCAAG AAATCGAAGA AACGATAGTA
GAAGAACACC CACCTGTACC GTATCAAGAA GTTATTACCA ATGACGTTCC CATTGCGGAA
CAAGCTCCAA GTATAGGGGA ACAAATTGTA GAACAAACAG TAATTGTACA GGAAACAGTG
CTTGAAAATG TGCGCGCTCA AGTAGAGTTA GAAGGAGATG TGATAGAAGG TTTGGAAAGT
GATGACATAG AGCCAGAGTT GGAGAACATT CATCGCGATT CTGATGAGGA AGGTTCCGAT
AGTGATAGCA GTAGCGATAG TAATAGTAGT AGCGACAGCA GCAGTGATAG CGACAGCAGC
AAAAATAGTC ATAGCAGAAG CAAAAGCAGT TCATCCAGCT CGTGTAGCAG TAGTAGGTCC
ACGTCCACTG CATCCAGTCA TCCGAGTGAC TTTGTTCATG GATCTGATGA GGAGGATGAA
AAGTCAGTGC AGCGGGAAAA TTTAGCAAAG GTTATAGAAC GCCGCAAATT GATGGCGATA
GAACGTCGCA AACGCACGAC TAGTATAAAC AGAAAATCGT TTTCGCTGCC ACACTCACCG
GTAGGTGGTG CCAGTGGTGG CGTACTGCAT GACATGACAA GTTTAAGCTT CGAGGATCTG
GATGTATCGG CCATAGTAAA TGACCTGAGC CCTTTGAAGG TGCCGATACG TGCCAGTGAA
TCTGATGATA AATTGGTGCA GGAGCTAGCA GAGAACAATT TCGATCTTGC TGCCTACATT
ACAGAGGATG ATTTTGTGAC AACTGACTCG GAGAAACGGG AAGCACAAAA TCAAAAACCA
AAACTTTCCC CGGTGAAAAA GGCTCCCAAA TCTCGCGGGA AGCAATTAAA AATGCTAAGA
GAACTGATGA TTTCACCAAA GTCAGACAGC CATGAAGCCG GGTTTTCAAA GAGGACCTGC
ACAAACAAAG CGAAACGGAT AGTAGAGGAC AGCGGTTCAG ATTCCGATGA ATCCGAGTCC
GAAAACGACA CCAGAACATG CGTTAAGATT TTCGGAATTG AAAGAATGAT CGGCAAACCA
AAGCGAAAAG ACGACGACAC AAAAGCGGAT CCCACGTGGA ATCCCAACGG AACGGTAACT
GCCAAGCAGA CACCAAAACT TGCTCAGACC CAGAAATCTA TTGCACCGCC ATTAATTGCA
CCAGTACAAC AGTCAATCAA ACGCGAAGTT AGTGATACAA AGCCCCAGGC GGCACCAGTC
AAAACCAGTG AATCCACAAA ATCTGTAAAT AATACGAACA ACAAAAATAA ATTGCTTAGC
GCTGGATCGC AATTAGCACG TAACAAAATG CTTTCACTGA TGGCTAAAAA CAAACTACCA
ATGCAAGCAG CTAAACAGCA TTCAAAGTCA ACCGGAAGTG TCAGTAACAG TAGTAGTAAC
AGTAATCAGA ATAAGTCATC CGAACCACCA AAAAAGAAAC CGCCGGCCGT GAACAATAAC
GTGAAACTTG ATCACGATTA CTGCTCCCCG AAAAAAGGTT CCAGTCAAAA TCCGCTAGCC
TCGGTGCCGC AGCGGAAAGC GATAGAAATT CCATTCTTAT TACCTACTTT GGATCAGCTC
CGGCAGAAGA AAAAGCTCTC GAAAAATAAG CAACGGCTTG AAGCCACCAG TAAGAAAGCC
AAAACGACCG GTGGCGACTG TGATAAGAAG GATAAGGAAC CCAGTCAATG TAGTAGCGAA
CAGCGGACCA GCAGTGAAAC CAAAAGCATT GTTACTCCGG TTATAAAACA AGAAGTTTCG
ATTAAGGAAG AACCGAAAGA ACGGATAGAA ACAAATGCAA ATAGACTGAT CCCTGCCCAA
ACGCAACCGA CGAAACAAGT CTCCTTACTG AAAGTTAATC AAAACAAACC AAACGGTGTG
CAAACGTCCC CAACGGCCGC GTGCAACATC AAAGAAGAAC CGTCTGACGA GAAACCCAAG
GCTGAACCAA TCAATGCAAC CAGTAGCAGT AGCAACGAAT CTATTGTTAA AGTTAAGAAG
AAACTAAACC TTCAGGAATA CAAAAAACGT CGTGAGCACC CGGGTGATGA TGGAACCGTG
CAGGTGATGG TTACGGAAAG TTGTAGTAAA AGCAGCATCA CCAGCACATC GACCGTCAGT
GAATGCAGCA GTAGGGAAGA GCTAGACAAT GCACCGATTG CGACGCAGCT GGAGCCAACG
AAACAATCGA AATGTAAAAC TCCTTTGGAT CCCATTTCAG CGGCGAAGCT CAAAGCTCTA
CGTATGCAAC AGCTCAAGAA AGAAGCTGCT ATCAAGTCAA CGGAAGCCAA AATCATCCCG
AAAACTGTCC CGCAAATTGT ACCCCTAGTT GAGATAACAT CGATCAAATT TGATGAACAC
GGGAACCCTA TGCCGTACGA CAAAAACGCC GAAAAGGATG CCAACGAACT GAAACTGCAC
AAGGATTACG AAGAACTTAT AATAGTTTCA ATGGGTTGTA ACACAGACGT TAGCATCAAC
CCACGTGAAC CGAATAAGGA AATGGTCAAA ACGGAACAAA AGGACAAAAA CATTCCGAAG
AATGAGCTAC TGTCTAATAT TTCCGATACG ATCAAGCGGT GTCAGTCGTC GGCTCCAGCA
ATCATTTCCA GTAGTTCGTT AATATCCAGC ATCCACGAAG TTGTGATTCG AAAGAAAACC
TGCAATAAGA CTGAGACAAA TGATGTTGCT ACAGCAACTT CGGCGGAGAA ACGGCCGGTT
GGTGGAGGTC AAGCCAATCA ACAAGGATCT CCGAATGTTG GTGTTTCTCC GCCCAATGCA
TTCTCTCCTG GTAAGCCGGA AAAAGCAGGC GGATCATATG AACAATCACC CTCGTTTGAC
TACGATGACG GTCAGCTGCA GCAGACTGCC GAAAAGGTCA AACCAAGTGA ACATGGTGAA
GACAAAATTA TTATGCATTT ACGGAAGGAC CGACAACGTT TGAAGGGAGT TTCAATAGCC
ATTCAAACCT TGCCGGTAGA TCGCTTTCCG GAACTGAAAC GGTTATCTCC TGTCAAGAAA
GAGCGTACTG TGTCTCGAAG TAGCTGTGGA TCAGCTCAGC GAAGCCACAG TCGTCAAAGT
ACCGAAAGGA GTCGCGACCG TCTACGACGC CAGTATCGAA GACGTCGAAG CAGGAGTTCG
TCTTCGGAAC CCGAAACTCG CACTAGGTCT TCCAATTCTT TCCGGAAAAG TATGCAGCGA
TCATCTTCCC GAAGAAGTCG CAGCAGATGT AGTAGTTCCA GACGTAGATC CCGTTCCCGA
TCCCGATCGA GATCTAGGTC ATACAGACGT CGCAGTCGAA GCGATTCACA TCGTCGACGA
TCCAGTGTGT CGTCCGAACG GCGTCGTTAC TATGAAAGAG ACTATTCCCG GCGCAGCAGT
AGGAGGAGAC GGTCACGAAG CTCCTCATCG CATTATTCTT CTAGCAGTAG TGTTAGTTCT
AGATCGCGAT CGCGATCGGT ATCGCGCTCC AGCAGATCAC GATCACGATC TTTGTCCCGT
CCTTCTTCTC GCGCAAGGAA CCCATCCCAT AATGAATATC GTCGTCCAGC GCAGTCGCCA
GAGAGAAAAA TCGTTTACGT GGGTCGACTA GAGCCGGCGT TAAAACGTGA GGATCTCAAG
CGAAAGTTCA TGCAATATGG GCGTATCAAG CAGGTCACAT TGCATTATAA GGAATCCGGT
GCAAAGTATG GATTCGTCAC GTTCGAGAAG CCACAAGATG CATACAAAGC TATCGACGCA
AGTTCGAAAG ACCCAGCTCT GAGCGAATAT GATGTAAGCT TTGGCGGCAG AAGGGCGTTC
TGTCGCACGG AATATGCCGA TCTTGATGGT GACCTTTCGC AGGACCATGA AGCTGTTGTT
CCATTCATAG CACCGGATGG GTCCTTGATG ATGGCTCCTA ATCCGATGAC CGTAATGCCG
CGAAAGGACG AAGGCGACTC CTTCGAGGAA TTACTGAAGA AACTGAAAAA GGAAATCAGT
GCCAAAAAGC CACGCAAGTC ATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_021693205.1 CDS 1060..5463 Translation
Target ORF information:
RefSeq Version XM_021837513.1 Organism Aedes aegypti(yellow fever mosquito) Definition Aedes aegypti serine/arginine repetitive matrix protein 2 (LOC5578928), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_021837513.1
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
4141
4201
4261
4321
4381ATGGAGTCTA GAATATTGAA TGCAGCTGCT GCGAGGGCAG CTCCCACCTC AGCACATTTT
ATCGGAAGCA ATAGGAATCA CGCCTTTGCC GGTGGTTACC AGCAGTTCAC TAGCGAAAAA
ACCATTCGTA GCCTGCAGTA CACCATACCG GCTGTTGGGC ACCACTATGG TAATGCGTTC
GCTCCCGATG GCGAGGACGA CGATGACGAT GAAGACGGTT TAGGTCCCGT TACCCTAGGC
ACGTATAGTC AATCAATGAA TGTAGCCAGC ACCACCGATG GGGAATGCTA TGATGAAGAG
GAGGAAGAAA TGGATGAGGA CGTCGAAATG TCGCCAGCTA TCGAGGTGAT CTCGATCGAT
CCGAACTGTG ACTATGATAC CGATGAAGAA GAGGAGCAAG AAATCGAAGA AACGATAGTA
GAAGAACACC CACCTGTACC GTATCAAGAA GTTATTACCA ATGACGTTCC CATTGCGGAA
CAAGCTCCAA GTATAGGGGA ACAAATTGTA GAACAAACAG TAATTGTACA GGAAACAGTG
CTTGAAAATG TGCGCGCTCA AGTAGAGTTA GAAGGAGATG TGATAGAAGG TTTGGAAAGT
GATGACATAG AGCCAGAGTT GGAGAACATT CATCGCGATT CTGATGAGGA AGGTTCCGAT
AGTGATAGCA GTAGCGATAG TAATAGTAGT AGCGACAGCA GCAGTGATAG CGACAGCAGC
AAAAATAGTC ATAGCAGAAG CAAAAGCAGT TCATCCAGCT CGTGTAGCAG TAGTAGGTCC
ACGTCCACTG CATCCAGTCA TCCGAGTGAC TTTGTTCATG GATCTGATGA GGAGGATGAA
AAGTCAGTGC AGCGGGAAAA TTTAGCAAAG GTTATAGAAC GCCGCAAATT GATGGCGATA
GAACGTCGCA AACGCACGAC TAGTATAAAC AGAAAATCGT TTTCGCTGCC ACACTCACCG
GTAGGTGGTG CCAGTGGTGG CGTACTGCAT GACATGACAA GTTTAAGCTT CGAGGATCTG
GATGTATCGG CCATAGTAAA TGACCTGAGC CCTTTGAAGG TGCCGATACG TGCCAGTGAA
TCTGATGATA AATTGGTGCA GGAGCTAGCA GAGAACAATT TCGATCTTGC TGCCTACATT
ACAGAGGATG ATTTTGTGAC AACTGACTCG GAGAAACGGG AAGCACAAAA TCAAAAACCA
AAACTTTCCC CGGTGAAAAA GGCTCCCAAA TCTCGCGGGA AGCAATTAAA AATGCTAAGA
GAACTGATGA TTTCACCAAA GTCAGACAGC CATGAAGCCG GGTTTTCAAA GAGGACCTGC
ACAAACAAAG CGAAACGGAT AGTAGAGGAC AGCGGTTCAG ATTCCGATGA ATCCGAGTCC
GAAAACGACA CCAGAACATG CGTTAAGATT TTCGGAATTG AAAGAATGAT CGGCAAACCA
AAGCGAAAAG ACGACGACAC AAAAGCGGAT CCCACGTGGA ATCCCAACGG AACGGTAACT
GCCAAGCAGA CACCAAAACT TGCTCAGACC CAGAAATCTA TTGCACCGCC ATTAATTGCA
CCAGTACAAC AGTCAATCAA ACGCGAAGTT AGTGATACAA AGCCCCAGGC GGCACCAGTC
AAAACCAGTG AATCCACAAA ATCTGTAAAT AATACGAACA ACAAAAATAA ATTGCTTAGC
GCTGGATCGC AATTAGCACG TAACAAAATG CTTTCACTGA TGGCTAAAAA CAAACTACCA
ATGCAAGCAG CTAAACAGCA TTCAAAGTCA ACCGGAAGTG TCAGTAACAG TAGTAGTAAC
AGTAATCAGA ATAAGTCATC CGAACCACCA AAAAAGAAAC CGCCGGCCGT GAACAATAAC
GTGAAACTTG ATCACGATTA CTGCTCCCCG AAAAAAGGTT CCAGTCAAAA TCCGCTAGCC
TCGGTGCCGC AGCGGAAAGC GATAGAAATT CCATTCTTAT TACCTACTTT GGATCAGCTC
CGGCAGAAGA AAAAGCTCTC GAAAAATAAG CAACGGCTTG AAGCCACCAG TAAGAAAGCC
AAAACGACCG GTGGCGACTG TGATAAGAAG GATAAGGAAC CCAGTCAATG TAGTAGCGAA
CAGCGGACCA GCAGTGAAAC CAAAAGCATT GTTACTCCGG TTATAAAACA AGAAGTTTCG
ATTAAGGAAG AACCGAAAGA ACGGATAGAA ACAAATGCAA ATAGACTGAT CCCTGCCCAA
ACGCAACCGA CGAAACAAGT CTCCTTACTG AAAGTTAATC AAAACAAACC AAACGGTGTG
CAAACGTCCC CAACGGCCGC GTGCAACATC AAAGAAGAAC CGTCTGACGA GAAACCCAAG
GCTGAACCAA TCAATGCAAC CAGTAGCAGT AGCAACGAAT CTATTGTTAA AGTTAAGAAG
AAACTAAACC TTCAGGAATA CAAAAAACGT CGTGAGCACC CGGGTGATGA TGGAACCGTG
CAGGTGATGG TTACGGAAAG TTGTAGTAAA AGCAGCATCA CCAGCACATC GACCGTCAGT
GAATGCAGCA GTAGGGAAGA GCTAGACAAT GCACCGATTG CGACGCAGCT GGAGCCAACG
AAACAATCGA AATGTAAAAC TCCTTTGGAT CCCATTTCAG CGGCGAAGCT CAAAGCTCTA
CGTATGCAAC AGCTCAAGAA AGAAGCTGCT ATCAAGTCAA CGGAAGCCAA AATCATCCCG
AAAACTGTCC CGCAAATTGT ACCCCTAGTT GAGATAACAT CGATCAAATT TGATGAACAC
GGGAACCCTA TGCCGTACGA CAAAAACGCC GAAAAGGATG CCAACGAACT GAAACTGCAC
AAGGATTACG AAGAACTTAT AATAGTTTCA ATGGGTTGTA ACACAGACGT TAGCATCAAC
CCACGTGAAC CGAATAAGGA AATGGTCAAA ACGGAACAAA AGGACAAAAA CATTCCGAAG
AATGAGCTAC TGTCTAATAT TTCCGATACG ATCAAGCGGT GTCAGTCGTC GGCTCCAGCA
ATCATTTCCA GTAGTTCGTT AATATCCAGC ATCCACGAAG TTGTGATTCG AAAGAAAACC
TGCAATAAGA CTGAGACAAA TGATGTTGCT ACAGCAACTT CGGCGGAGAA ACGGCCGGTT
GGTGGAGGTC AAGCCAATCA ACAAGGATCT CCGAATGTTG GTGTTTCTCC GCCCAATGCA
TTCTCTCCTG GTAAGCCGGA AAAAGCAGGC GGATCATATG AACAATCACC CTCGTTTGAC
TACGATGACG GTCAGCTGCA GCAGACTGCC GAAAAGGTCA AACCAAGTGA ACATGGTGAA
GACAAAATTA TTATGCATTT ACGGAAGGAC CGACAACGTT TGAAGGGAGT TTCAATAGCC
ATTCAAACCT TGCCGGTAGA TCGCTTTCCG GAACTGAAAC GGTTATCTCC TGTCAAGAAA
GAGCGTACTG TGTCTCGAAG TAGCTGTGGA TCAGCTCAGC GAAGCCACAG TCGTCAAAGT
ACCGAAAGGA GTCGCGACCG TCTACGACGC CAGTATCGAA GACGTCGAAG CAGGAGTTCG
TCTTCGGAAC CCGAAACTCG CACTAGGTCT TCCAATTCTT TCCGGAAAAG TATGCAGCGA
TCATCTTCCC GAAGAAGTCG CAGCAGATGT AGTAGTTCCA GACGTAGATC CCGTTCCCGA
TCCCGATCGA GATCTAGGTC ATACAGACGT CGCAGTCGAA GCGATTCACA TCGTCGACGA
TCCAGTGTGT CGTCCGAACG GCGTCGTTAC TATGAAAGAG ACTATTCCCG GCGCAGCAGT
AGGAGGAGAC GGTCACGAAG CTCCTCATCG CATTATTCTT CTAGCAGTAG TGTTAGTTCT
AGATCGCGAT CGCGATCGGT ATCGCGCTCC AGCAGATCAC GATCACGATC TTTGTCCCGT
CCTTCTTCTC GCGCAAGGAA CCCATCCCAT AATGAATATC GTCGTCCAGC GCAGTCGCCA
GAGAGAAAAA TCGTTTACGT GGGTCGACTA GAGCCGGCGT TAAAACGTGA GGATCTCAAG
CGAAAGTTCA TGCAATATGG GCGTATCAAG CAGGTCACAT TGCATTATAA GGAATCCGGT
GCAAAGTATG GATTCGTCAC GTTCGAGAAG CCACAAGATG CATACAAAGC TATCGACGCA
AGTTCGAAAG ACCCAGCTCT GAGCGAATAT GATGTAAGCT TTGGCGGCAG AAGGGCGTTC
TGTCGCACGG AATATGCCGA TCTTGATGGT GACCTTTCGC AGGACCATGA AGCTGTTGTT
CCATTCATAG CACCGGATGG GTCCTTGATG ATGGCTCCTA ATCCGATGAC CGTAATGCCG
CGAAAGGACG AAGGCGACTC CTTCGAGGAA TTACTGAAGA AACTGAAAAA GGAAATCAGT
GCCAAAAAGC CACGCAAGTC ATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAe116552 Clone ID Related Accession (Same CDS sequence) XM_021837514.1 Accession Version XM_021837514.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4392bp)
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 serine/arginine repetitive matrix protein 2 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_035107.1) annotated using gene prediction method: Gnomon, supported by EST evidence. 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
4021
4081
4141
4201
4261
4321
4381ATGGAGTCTA GAATATTGAA TGCAGCTGCT GCGAGGGCAG CTCCCACCTC AGCACATTTT
ATCGGAAGCA ATAGGAATCA CGCCTTTGCC GGTGGTTACC AGCAGTTCAC TAGCGAAAAC
CTGCAGTACA CCATACCGGC TGTTGGGCAC CACTATGGTA ATGCGTTCGC TCCCGATGGC
GAGGACGACG ATGACGATGA AGACGGTTTA GGTCCCGTTA CCCTAGGCAC GTATAGTCAA
TCAATGAATG TAGCCAGCAC CACCGATGGG GAATGCTATG ATGAAGAGGA GGAAGAAATG
GATGAGGACG TCGAAATGTC GCCAGCTATC GAGGTGATCT CGATCGATCC GAACTGTGAC
TATGATACCG ATGAAGAAGA GGAGCAAGAA ATCGAAGAAA CGATAGTAGA AGAACACCCA
CCTGTACCGT ATCAAGAAGT TATTACCAAT GACGTTCCCA TTGCGGAACA AGCTCCAAGT
ATAGGGGAAC AAATTGTAGA ACAAACAGTA ATTGTACAGG AAACAGTGCT TGAAAATGTG
CGCGCTCAAG TAGAGTTAGA AGGAGATGTG ATAGAAGGTT TGGAAAGTGA TGACATAGAG
CCAGAGTTGG AGAACATTCA TCGCGATTCT GATGAGGAAG GTTCCGATAG TGATAGCAGT
AGCGATAGTA ATAGTAGTAG CGACAGCAGC AGTGATAGCG ACAGCAGCAA AAATAGTCAT
AGCAGAAGCA AAAGCAGTTC ATCCAGCTCG TGTAGCAGTA GTAGGTCCAC GTCCACTGCA
TCCAGTCATC CGAGTGACTT TGTTCATGGA TCTGATGAGG AGGATGAAAA GTCAGTGCAG
CGGGAAAATT TAGCAAAGGT TATAGAACGC CGCAAATTGA TGGCGATAGA ACGTCGCAAA
CGCACGACTA GTATAAACAG AAAATCGTTT TCGCTGCCAC ACTCACCGGT AGGTGGTGCC
AGTGGTGGCG TACTGCATGA CATGACAAGT TTAAGCTTCG AGGATCTGGA TGTATCGGCC
ATAGTAAATG ACCTGAGCCC TTTGAAGGTG CCGATACGTG CCAGTGAATC TGATGATAAA
TTGGTGCAGG AGCTAGCAGA GAACAATTTC GATCTTGCTG CCTACATTAC AGAGGATGAT
TTTGTGACAA CTGACTCGGA GAAACGGGAA GCACAAAATC AAAAACCAAA ACTTTCCCCG
GTGAAAAAGG CTCCCAAATC TCGCGGGAAG CAATTAAAAA TGCTAAGAGA ACTGATGATT
TCACCAAAGT CAGACAGCCA TGAAGCCGGG TTTTCAAAGA GGACCTGCAC AAACAAAGCG
AAACGGATAG TAGAGGACAG CGGTTCAGAT TCCGATGAAT CCGAGTCCGA AAACGACACC
AGAACATGCG TTAAGATTTT CGGAATTGAA AGAATGATCG GCAAACCAAA GCGAAAAGAC
GACGACACAA AAGCGGATCC CACGTGGAAT CCCAACGGAA CGGTAACTGC CAAGCAGACA
CCAAAACTTG CTCAGACCCA GAAATCTATT GCACCGCCAT TAATTGCACC AGTACAACAG
TCAATCAAAC GCGAAGTTAG TGATACAAAG CCCCAGGCGG CACCAGTCAA AACCAGTGAA
TCCACAAAAT CTGTAAATAA TACGAACAAC AAAAATAAAT TGCTTAGCGC TGGATCGCAA
TTAGCACGTA ACAAAATGCT TTCACTGATG GCTAAAAACA AACTACCAAT GCAAGCAGCT
AAACAGCATT CAAAGTCAAC CGGAAGTGTC AGTAACAGTA GTAGTAACAG TAATCAGAAT
AAGTCATCCG AACCACCAAA AAAGAAACCG CCGGCCGTGA ACAATAACGT GAAACTTGAT
CACGATTACT GCTCCCCGAA AAAAGGTTCC AGTCAAAATC CGCTAGCCTC GGTGCCGCAG
CGGAAAGCGA TAGAAATTCC ATTCTTATTA CCTACTTTGG ATCAGCTCCG GCAGAAGAAA
AAGCTCTCGA AAAATAAGCA ACGGCTTGAA GCCACCAGTA AGAAAGCCAA AACGACCGGT
GGCGACTGTG ATAAGAAGGA TAAGGAACCC AGTCAATGTA GTAGCGAACA GCGGACCAGC
AGTGAAACCA AAAGCATTGT TACTCCGGTT ATAAAACAAG AAGTTTCGAT TAAGGAAGAA
CCGAAAGAAC GGATAGAAAC AAATGCAAAT AGACTGATCC CTGCCCAAAC GCAACCGACG
AAACAAGTCT CCTTACTGAA AGTTAATCAA AACAAACCAA ACGGTGTGCA AACGTCCCCA
ACGGCCGCGT GCAACATCAA AGAAGAACCG TCTGACGAGA AACCCAAGGC TGAACCAATC
AATGCAACCA GTAGCAGTAG CAACGAATCT ATTGTTAAAG TTAAGAAGAA ACTAAACCTT
CAGGAATACA AAAAACGTCG TGAGCACCCG GGTGATGATG GAACCGTGCA GGTGATGGTT
ACGGAAAGTT GTAGTAAAAG CAGCATCACC AGCACATCGA CCGTCAGTGA ATGCAGCAGT
AGGGAAGAGC TAGACAATGC ACCGATTGCG ACGCAGCTGG AGCCAACGAA ACAATCGAAA
TGTAAAACTC CTTTGGATCC CATTTCAGCG GCGAAGCTCA AAGCTCTACG TATGCAACAG
CTCAAGAAAG AAGCTGCTAT CAAGTCAACG GAAGCCAAAA TCATCCCGAA AACTGTCCCG
CAAATTGTAC CCCTAGTTGA GATAACATCG ATCAAATTTG ATGAACACGG GAACCCTATG
CCGTACGACA AAAACGCCGA AAAGGATGCC AACGAACTGA AACTGCACAA GGATTACGAA
GAACTTATAA TAGTTTCAAT GGGTTGTAAC ACAGACGTTA GCATCAACCC ACGTGAACCG
AATAAGGAAA TGGTCAAAAC GGAACAAAAG GACAAAAACA TTCCGAAGAA TGAGCTACTG
TCTAATATTT CCGATACGAT CAAGCGGTGT CAGTCGTCGG CTCCAGCAAT CATTTCCAGT
AGTTCGTTAA TATCCAGCAT CCACGAAGTT GTGATTCGAA AGAAAACCTG CAATAAGACT
GAGACAAATG ATGTTGCTAC AGCAACTTCG GCGGAGAAAC GGCCGGTTGG TGGAGGTCAA
GCCAATCAAC AAGGATCTCC GAATGTTGGT GTTTCTCCGC CCAATGCATT CTCTCCTGGT
AAGCCGGAAA AAGCAGGCGG ATCATATGAA CAATCACCCT CGTTTGACTA CGATGACGGT
CAGCTGCAGC AGACTGCCGA AAAGGTCAAA CCAAGTGAAC ATGGTGAAGA CAAAATTATT
ATGCATTTAC GGAAGGACCG ACAACGTTTG AAGGGAGTTT CAATAGCCAT TCAAACCTTG
CCGGTAGATC GCTTTCCGGA ACTGAAACGG TTATCTCCTG TCAAGAAAGA GCGTACTGTG
TCTCGAAGTA GCTGTGGATC AGCTCAGCGA AGCCACAGTC GTCAAAGTAC CGAAAGGAGT
CGCGACCGTC TACGACGCCA GTATCGAAGA CGTCGAAGCA GGAGTTCGTC TTCGGAACCC
GAAACTCGCA CTAGGTCTTC CAATTCTTTC CGGAAAAGTA TGCAGCGATC ATCTTCCCGA
AGAAGTCGCA GCAGATGTAG TAGTTCCAGA CGTAGATCCC GTTCCCGATC CCGATCGAGA
TCTAGGTCAT ACAGACGTCG CAGTCGAAGC GATTCACATC GTCGACGATC CAGTGTGTCG
TCCGAACGGC GTCGTTACTA TGAAAGAGAC TATTCCCGGC GCAGCAGTAG GAGGAGACGG
TCACGAAGCT CCTCATCGCA TTATTCTTCT AGCAGTAGTG TTAGTTCTAG ATCGCGATCG
CGATCGGTAT CGCGCTCCAG CAGATCACGA TCACGATCTT TGTCCCGTCC TTCTTCTCGC
GCAAGGAACC CATCCCATAA TGAATATCGT CGTCCAGCGC AGTCGCCAGA GAGAAAAATC
GTTTACGTGG GTCGACTAGA GCCGGCGTTA AAACGTGAGG ATCTCAAGCG AAAGTTCATG
CAATATGGGC GTATCAAGCA GGTCACATTG CATTATAAGG AATCCGGTGC AAAGTATGGA
TTCGTCACGT TCGAGAAGCC ACAAGATGCA TACAAAGCTA TCGACGCAAG TTCGAAAGAC
CCAGCTCTGA GCGAATATGA TGTAAGCTTT GGCGGCAGAA GGGCGTTCTG TCGCACGGAA
TATGCCGATC TTGATGGTGA CCTTTCGCAG GACCATGAAG CTGTTGTTCC ATTCATAGCA
CCGGATGGGT CCTTGATGAT GGCTCCTAAT CCGATGACCG TAATGCCGCG AAAGGACGAA
GGCGACTCCT TCGAGGAATT ACTGAAGAAA CTGAAAAAGG AAATCAGTGC CAAAAAGCCA
CGCAAGTCAT GAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_021693206.1 CDS 781..5172 Translation
Target ORF information:
RefSeq Version XM_021837514.1 Organism Aedes aegypti(yellow fever mosquito) Definition Aedes aegypti serine/arginine repetitive matrix protein 2 (LOC5578928), transcript variant X4, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_021837514.1
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
4141
4201
4261
4321
4381ATGGAGTCTA GAATATTGAA TGCAGCTGCT GCGAGGGCAG CTCCCACCTC AGCACATTTT
ATCGGAAGCA ATAGGAATCA CGCCTTTGCC GGTGGTTACC AGCAGTTCAC TAGCGAAAAC
CTGCAGTACA CCATACCGGC TGTTGGGCAC CACTATGGTA ATGCGTTCGC TCCCGATGGC
GAGGACGACG ATGACGATGA AGACGGTTTA GGTCCCGTTA CCCTAGGCAC GTATAGTCAA
TCAATGAATG TAGCCAGCAC CACCGATGGG GAATGCTATG ATGAAGAGGA GGAAGAAATG
GATGAGGACG TCGAAATGTC GCCAGCTATC GAGGTGATCT CGATCGATCC GAACTGTGAC
TATGATACCG ATGAAGAAGA GGAGCAAGAA ATCGAAGAAA CGATAGTAGA AGAACACCCA
CCTGTACCGT ATCAAGAAGT TATTACCAAT GACGTTCCCA TTGCGGAACA AGCTCCAAGT
ATAGGGGAAC AAATTGTAGA ACAAACAGTA ATTGTACAGG AAACAGTGCT TGAAAATGTG
CGCGCTCAAG TAGAGTTAGA AGGAGATGTG ATAGAAGGTT TGGAAAGTGA TGACATAGAG
CCAGAGTTGG AGAACATTCA TCGCGATTCT GATGAGGAAG GTTCCGATAG TGATAGCAGT
AGCGATAGTA ATAGTAGTAG CGACAGCAGC AGTGATAGCG ACAGCAGCAA AAATAGTCAT
AGCAGAAGCA AAAGCAGTTC ATCCAGCTCG TGTAGCAGTA GTAGGTCCAC GTCCACTGCA
TCCAGTCATC CGAGTGACTT TGTTCATGGA TCTGATGAGG AGGATGAAAA GTCAGTGCAG
CGGGAAAATT TAGCAAAGGT TATAGAACGC CGCAAATTGA TGGCGATAGA ACGTCGCAAA
CGCACGACTA GTATAAACAG AAAATCGTTT TCGCTGCCAC ACTCACCGGT AGGTGGTGCC
AGTGGTGGCG TACTGCATGA CATGACAAGT TTAAGCTTCG AGGATCTGGA TGTATCGGCC
ATAGTAAATG ACCTGAGCCC TTTGAAGGTG CCGATACGTG CCAGTGAATC TGATGATAAA
TTGGTGCAGG AGCTAGCAGA GAACAATTTC GATCTTGCTG CCTACATTAC AGAGGATGAT
TTTGTGACAA CTGACTCGGA GAAACGGGAA GCACAAAATC AAAAACCAAA ACTTTCCCCG
GTGAAAAAGG CTCCCAAATC TCGCGGGAAG CAATTAAAAA TGCTAAGAGA ACTGATGATT
TCACCAAAGT CAGACAGCCA TGAAGCCGGG TTTTCAAAGA GGACCTGCAC AAACAAAGCG
AAACGGATAG TAGAGGACAG CGGTTCAGAT TCCGATGAAT CCGAGTCCGA AAACGACACC
AGAACATGCG TTAAGATTTT CGGAATTGAA AGAATGATCG GCAAACCAAA GCGAAAAGAC
GACGACACAA AAGCGGATCC CACGTGGAAT CCCAACGGAA CGGTAACTGC CAAGCAGACA
CCAAAACTTG CTCAGACCCA GAAATCTATT GCACCGCCAT TAATTGCACC AGTACAACAG
TCAATCAAAC GCGAAGTTAG TGATACAAAG CCCCAGGCGG CACCAGTCAA AACCAGTGAA
TCCACAAAAT CTGTAAATAA TACGAACAAC AAAAATAAAT TGCTTAGCGC TGGATCGCAA
TTAGCACGTA ACAAAATGCT TTCACTGATG GCTAAAAACA AACTACCAAT GCAAGCAGCT
AAACAGCATT CAAAGTCAAC CGGAAGTGTC AGTAACAGTA GTAGTAACAG TAATCAGAAT
AAGTCATCCG AACCACCAAA AAAGAAACCG CCGGCCGTGA ACAATAACGT GAAACTTGAT
CACGATTACT GCTCCCCGAA AAAAGGTTCC AGTCAAAATC CGCTAGCCTC GGTGCCGCAG
CGGAAAGCGA TAGAAATTCC ATTCTTATTA CCTACTTTGG ATCAGCTCCG GCAGAAGAAA
AAGCTCTCGA AAAATAAGCA ACGGCTTGAA GCCACCAGTA AGAAAGCCAA AACGACCGGT
GGCGACTGTG ATAAGAAGGA TAAGGAACCC AGTCAATGTA GTAGCGAACA GCGGACCAGC
AGTGAAACCA AAAGCATTGT TACTCCGGTT ATAAAACAAG AAGTTTCGAT TAAGGAAGAA
CCGAAAGAAC GGATAGAAAC AAATGCAAAT AGACTGATCC CTGCCCAAAC GCAACCGACG
AAACAAGTCT CCTTACTGAA AGTTAATCAA AACAAACCAA ACGGTGTGCA AACGTCCCCA
ACGGCCGCGT GCAACATCAA AGAAGAACCG TCTGACGAGA AACCCAAGGC TGAACCAATC
AATGCAACCA GTAGCAGTAG CAACGAATCT ATTGTTAAAG TTAAGAAGAA ACTAAACCTT
CAGGAATACA AAAAACGTCG TGAGCACCCG GGTGATGATG GAACCGTGCA GGTGATGGTT
ACGGAAAGTT GTAGTAAAAG CAGCATCACC AGCACATCGA CCGTCAGTGA ATGCAGCAGT
AGGGAAGAGC TAGACAATGC ACCGATTGCG ACGCAGCTGG AGCCAACGAA ACAATCGAAA
TGTAAAACTC CTTTGGATCC CATTTCAGCG GCGAAGCTCA AAGCTCTACG TATGCAACAG
CTCAAGAAAG AAGCTGCTAT CAAGTCAACG GAAGCCAAAA TCATCCCGAA AACTGTCCCG
CAAATTGTAC CCCTAGTTGA GATAACATCG ATCAAATTTG ATGAACACGG GAACCCTATG
CCGTACGACA AAAACGCCGA AAAGGATGCC AACGAACTGA AACTGCACAA GGATTACGAA
GAACTTATAA TAGTTTCAAT GGGTTGTAAC ACAGACGTTA GCATCAACCC ACGTGAACCG
AATAAGGAAA TGGTCAAAAC GGAACAAAAG GACAAAAACA TTCCGAAGAA TGAGCTACTG
TCTAATATTT CCGATACGAT CAAGCGGTGT CAGTCGTCGG CTCCAGCAAT CATTTCCAGT
AGTTCGTTAA TATCCAGCAT CCACGAAGTT GTGATTCGAA AGAAAACCTG CAATAAGACT
GAGACAAATG ATGTTGCTAC AGCAACTTCG GCGGAGAAAC GGCCGGTTGG TGGAGGTCAA
GCCAATCAAC AAGGATCTCC GAATGTTGGT GTTTCTCCGC CCAATGCATT CTCTCCTGGT
AAGCCGGAAA AAGCAGGCGG ATCATATGAA CAATCACCCT CGTTTGACTA CGATGACGGT
CAGCTGCAGC AGACTGCCGA AAAGGTCAAA CCAAGTGAAC ATGGTGAAGA CAAAATTATT
ATGCATTTAC GGAAGGACCG ACAACGTTTG AAGGGAGTTT CAATAGCCAT TCAAACCTTG
CCGGTAGATC GCTTTCCGGA ACTGAAACGG TTATCTCCTG TCAAGAAAGA GCGTACTGTG
TCTCGAAGTA GCTGTGGATC AGCTCAGCGA AGCCACAGTC GTCAAAGTAC CGAAAGGAGT
CGCGACCGTC TACGACGCCA GTATCGAAGA CGTCGAAGCA GGAGTTCGTC TTCGGAACCC
GAAACTCGCA CTAGGTCTTC CAATTCTTTC CGGAAAAGTA TGCAGCGATC ATCTTCCCGA
AGAAGTCGCA GCAGATGTAG TAGTTCCAGA CGTAGATCCC GTTCCCGATC CCGATCGAGA
TCTAGGTCAT ACAGACGTCG CAGTCGAAGC GATTCACATC GTCGACGATC CAGTGTGTCG
TCCGAACGGC GTCGTTACTA TGAAAGAGAC TATTCCCGGC GCAGCAGTAG GAGGAGACGG
TCACGAAGCT CCTCATCGCA TTATTCTTCT AGCAGTAGTG TTAGTTCTAG ATCGCGATCG
CGATCGGTAT CGCGCTCCAG CAGATCACGA TCACGATCTT TGTCCCGTCC TTCTTCTCGC
GCAAGGAACC CATCCCATAA TGAATATCGT CGTCCAGCGC AGTCGCCAGA GAGAAAAATC
GTTTACGTGG GTCGACTAGA GCCGGCGTTA AAACGTGAGG ATCTCAAGCG AAAGTTCATG
CAATATGGGC GTATCAAGCA GGTCACATTG CATTATAAGG AATCCGGTGC AAAGTATGGA
TTCGTCACGT TCGAGAAGCC ACAAGATGCA TACAAAGCTA TCGACGCAAG TTCGAAAGAC
CCAGCTCTGA GCGAATATGA TGTAAGCTTT GGCGGCAGAA GGGCGTTCTG TCGCACGGAA
TATGCCGATC TTGATGGTGA CCTTTCGCAG GACCATGAAG CTGTTGTTCC ATTCATAGCA
CCGGATGGGT CCTTGATGAT GGCTCCTAAT CCGATGACCG TAATGCCGCG AAAGGACGAA
GGCGACTCCT TCGAGGAATT ACTGAAGAAA CTGAAAAAGG AAATCAGTGC CAAAAAGCCA
CGCAAGTCAT GAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAe13445 Clone ID Related Accession (Same CDS sequence) XM_001657165.1 Accession Version XM_001657165.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4323bp)
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 1425398400000 Organism Aedes aegypti(Yellow fever mosquito) Product AAEL003768-PA Comment PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. This record is derived from an annotated genomic sequence (NW_001811750).
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
4141
4201
4261
4321ATGGAGTCTA GAATATTGAA TGCAGCTGCT GCGAGGGCAG CTCCCACCTC AGCACATTTT
ATCGGAAGCA ATAGGAATCA CGCCTTTGCC GGTGGTTACC AGCAGTTCAC TAGCGAAAAC
CTGCAGTACA CCATACCGGC TGTTGGGCAC CACTATGGTA ATGCGTTCGC TCCCGATGGC
GAGGACGACG ATGACGATGA AGACGGTTTA GGTCCCGTTA CCCTAGGCAC GTATAGTCAA
TCAATGAATG TAGCCAGCAC CACCGATGGG GAATGCTATG ATGAAGAGGA GGAAGAAATG
GATGAGGACG TCGAAATGTC GCCAGCTATC GAGGTGATCT CGATCGATCC GAACTGTGAC
TATGATACCG ATGAAGAAGA GGAGCAAGAA ATCGAAGAAA CGATAGTAGA AGAACACCCA
CCTGTACCGT ATCAAGAAGT TATTACCAAT GACGTTCCCA TTGCGGAACA AGCTCCAAGT
ATAGGGGAAC AAATTGTAGA ACAAACAGTA ATTGTACAGG AAACAGTGCT TGAAAATGTG
CGCGCTCAAG TAGAGTTAGA AGGAGATGTG ATAGAAGGTT TGGAAAGTGA TGACATAGAG
CCAGAGTTGG AGAACATTCA TCGCGATTCT GATGAGGAAG GTTCCGATAG TGATAGCAGT
AGCGATAGTA ATAGTAGTAG CGACAGCAGC AGTGATAGCG ACAGCAGCAA AAATAGTCAT
AGCAGAAGCA AAAGCAGTTC ATCCAGCTCG TGTAGCAGTA GTAGGTCCAC GTCCACTGCA
TCCAGTCATC CGAGTGACTT TGTACATGGA TCTGATGAGG AGGATGAAAA GTCAGTGCAG
CGGGAAAATT TAGCAAAGGT TATAGAACGC CGCAAATTGA TGGCGATAGA ACGTCGCAAA
CGCACGACTA GTATAAACAG AAAATCGTTT TCGCTGCCAC ACTCACCGGT AGGTGGTGCC
AGTGGTGGCG TACTGCATGA CATGACAAGT TTAAGCTTCG AGGATCTGGA TGTATCGGCC
ATAGTAAATG ACCTGAGCCC TTTGAAGGTG CCGATACGTG CCAGTGAATC TGATGATAAA
TTGGTGCAGG AGCTAGCAGA GAACAATTTC GATCTTGCTG CCTACATTAC AGAGGATGAT
TTTGTGACAA CTGACTCGGA GAAACGGGAA GCACAAAATC AAAAACCAAA ACTTTCCCCG
GTGAAAAAGG CTCCCAAATC TCGCGGGAAG CAATTAAAAA TGCTAAGAGA ACTGATGATT
TCACCAAAGT CAGACAGCCA TGAAGCCGGG TTTTCAAAGA GGACCTGCAC AAACAAAGCG
AAACGGATAG TAGAGGACAG CGGTTCAGAT TCCGATGAAT CCGAGTCCGA AAACGACACC
AGAACATGCG TTAAGATTTT CGGAATTGAA AGAATGATCG GCAAACCAAA GCGAAAAGAC
GACGACACAA AAGCGGATCC CACGTGGAAT CCCAACGGAA CGGTAACTGC CAAGCAGACA
CCAAAACTTG CTCAGACCCA GAAATCTATT GCACCGCCAT TAATTGCACC AGTACAACAG
TCAATCAAAC GCGAAGTTAG TGATACAAAG CCCCAGGCGG CACCAGTCAA AACCAGTGAA
TCCACAAAAT CTGTAAATAA TACGAACAAC AAAAATAAAT TGCTTAGCGC TGGATCGCAA
TTAGCACGTA ACAAAATGCT TTCACTGATG GCTAAAAACA AACTACCAAT GCAAGCAGCT
AAACAGCATT CAAAGTCAAC CGGAAGTGTC AGTAACAGTA GTAGTAACAG TAATCAGAAT
AAGTCATCCG AACCACCAAA AAAGAAACCG CCGGCCGTGA ACAATAACGT GAAACTTGAT
CACGATTACT GCTCCCCGAA AAAAGGTTCC AGTCAAAATC CGCTAGCCTC GGTGCCGCAG
CGGAAAGCGA TAGAAATTCC ATTCTTATTA CCTACTTTGG ATCAGCTCCG GCAGAAGAAA
AAGCTCTCGA AAAATAAGCA ACGGCTTGAA GCCACCAGTA AGAAAGCCAA AACGACCGGT
GGCGACTGTG ATAAGAAGGA TAAGGAACCC AGTCAATGTA GTAGCGAACA GCGGACCAGC
AGTGAAACCA AAAGCATTGT TACTCCGGTT ATAAAACAAG AAGTTTCGAT TAAGGAAGAA
CCGAAAGAAC GGATAGAAAC AAATGCAAAT AGACTGATCC CTGCCCAAAC GCAACCGACG
AAACAAGTCT CCTTACTGAA AGTTAATCAA AACAAACCAA ACGGTGTGCA AACGTCCCCA
ACGGCCGCGT GCAACATCAA AGAAGAACCG TCTGACGAGA AACCCAAGGC TGAACCAATC
AATGCAACCA GTAGCAGTAG CAACGAATCT ATTGTTAAAG TTAAGAAGAA ACTAAACCTT
CAGGAATACA AGAAACGTCG TGAGCACCCG GGTGATGATG GAACCGTGCA GGTGATGGTT
ACGGAAAGTT GTAGTAAAAG CAGCATCACC AGCACATCGA CCGTCAGTGA ATGCAGCAGT
AGGGAAGAGC TAGACAATGC ACCGATTGCG ACGCAGCTGG AGCCAACGAA ACAATCGAAA
TGTAAAACTC CTTTGGATCC TATTTCAGCG GCGAAGCTCA AAGCTCTACG TATGCAACAG
CTCAAGAAAG AAGCTGCTAT CAAGTCAACG GAAGCCAAAA TCATCCCGAA AACTGTCCCG
CAAATTGTAC CCCTAGTTGA GATAACATCG ATCAAATTTG ATGAACACGG GAACCCTATG
CCGTACGACA AAAACGCCGA AAAGGATGCC AACGAACTGA AACTGCACAA GGATTACGAA
GAACTTATAA TAGTTTCAAT GGGTTGTAAC ACAGACGTTA GCATCAACCC ACGTGAACCG
AATAAGGAAA TGGTCAAAAC GGAACAAAAG GACAAAAACA TTCCGAAGAA TGAGCTACTG
TCTAATATTT CCGATACGAT CAAGCGGTGT CAGTCGTCGG CTCCAGCAAT CATTTCCAGT
AGTTCGTTAA TATCCAGCAT CCACGAAGTT GTGATTCGAA AGAAAACCTG CAATAAGACT
GAGACAAATG ATGTTGCTAC AGCAACTTCG GCGGAGAAAC GGCCGGTTGG TGGAGGTCAA
GCCAATCAAC AAGGATCTCC GAATGTTGGT GTTTCTCCGC CCAATGCATT CTCTCCTGGT
AAGCCGGAAA AAGCAGGCGG ATCATATGAA CAATCACCCT CGTTTGACTA CGATGACGGT
CAGCTGCAGC AGACTGCCGA AAAGGTCAAA CCAAGTGAAC ATGGTGAAGA CAAAATTATT
ATGCATTTAC GGAAGGACCG ACAACGTTTG AAGGGAGTTT CAATAGCCAT TCAAACCTTG
CCGGTAGATC GCTTTCCGGA ACTGAAACGT CGTCAAAGTA CCGAAAGGAG TCGCGACCGT
CTACGACGCC AGTATCGAAG ACGTCGAAGC AGGAGTTCGT CTTCGGAACC CGAAACTCGC
ACTAGGTCTT CCAATTCTTT CCGGAAAAGT ATGCAGCGAT CATCTTCCCG AAGAAGTCGC
AGCAGATGTA GTAGTTCCAG ACGTAGATCC CGTTCCCGAT CCCGATCGAG ATCTAGGTCA
TACAGACGTC GCAGTCGAAG CGATTCACAT CGTCGACGAT CCAGTGTGTC GTCCGAACGG
CGTCGTTACT ATGAAAGAGA CTATTCCCGG CGCAGCAGTA GGAGGAGACG GTCACGAAGC
TCCTCATCGC ATTATTCTTC TAGCAGTAGT GTTAGTTCTA GATCGCGATC GCGATCGGTA
TCGCGCTCCA GCAGATCACG ATCACGATCT TTGTCCCGTC CTTCTTCTCG CGCAAGGAAC
CCATCCCATA ATGAATATCG TCGTCCAGCG CAGTCGCCAG AGAGAAAAAT CGTTTACGTG
GGTCGACTAG AGCCGGCGTT AAAACGTGAG GATCTCAAGC GAAAGTTCAT GCAATATGGG
CGTATCAAGC AGGTCACATT GCATTATAAG GAATCCGGTG CAAAGTATGG ATTCGTCACG
TTCGAGAAGC CACAAGATGC ATACAAAGCT ATCGACGCAA GTTCGAAAGA CCCAGCTCTG
AGCGAATATG ATGTAAGCTT TGGCGGCAGA AGGGCGTTCT GTCGCACGGA ATATGCCGAT
CTTGATGGTG ACCTTTCGCA GGACCATGAA GCTGTTGTTC CATTCATAGC ACCGGATGGG
TCCTTGATGA TGGCTCCTAA TCCGATGACC GTAATGCCGC GAAAGGACGA AGGCGACTCC
TTCGAGGAAT TACTGAAGAA ACTGAAAAAG GAAATCAGTG CCAAAAAGCC ACGCAAGTCA
TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_001657215.1 CDS 181..4503 Translation
Target ORF information:
RefSeq Version XM_001657165.1 Organism Aedes aegypti(Yellow fever mosquito) Definition Aedes aegypti AAEL003768-RA mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_001657165.1
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
4141
4201
4261
4321ATGGAGTCTA GAATATTGAA TGCAGCTGCT GCGAGGGCAG CTCCCACCTC AGCACATTTT
ATCGGAAGCA ATAGGAATCA CGCCTTTGCC GGTGGTTACC AGCAGTTCAC TAGCGAAAAC
CTGCAGTACA CCATACCGGC TGTTGGGCAC CACTATGGTA ATGCGTTCGC TCCCGATGGC
GAGGACGACG ATGACGATGA AGACGGTTTA GGTCCCGTTA CCCTAGGCAC GTATAGTCAA
TCAATGAATG TAGCCAGCAC CACCGATGGG GAATGCTATG ATGAAGAGGA GGAAGAAATG
GATGAGGACG TCGAAATGTC GCCAGCTATC GAGGTGATCT CGATCGATCC GAACTGTGAC
TATGATACCG ATGAAGAAGA GGAGCAAGAA ATCGAAGAAA CGATAGTAGA AGAACACCCA
CCTGTACCGT ATCAAGAAGT TATTACCAAT GACGTTCCCA TTGCGGAACA AGCTCCAAGT
ATAGGGGAAC AAATTGTAGA ACAAACAGTA ATTGTACAGG AAACAGTGCT TGAAAATGTG
CGCGCTCAAG TAGAGTTAGA AGGAGATGTG ATAGAAGGTT TGGAAAGTGA TGACATAGAG
CCAGAGTTGG AGAACATTCA TCGCGATTCT GATGAGGAAG GTTCCGATAG TGATAGCAGT
AGCGATAGTA ATAGTAGTAG CGACAGCAGC AGTGATAGCG ACAGCAGCAA AAATAGTCAT
AGCAGAAGCA AAAGCAGTTC ATCCAGCTCG TGTAGCAGTA GTAGGTCCAC GTCCACTGCA
TCCAGTCATC CGAGTGACTT TGTACATGGA TCTGATGAGG AGGATGAAAA GTCAGTGCAG
CGGGAAAATT TAGCAAAGGT TATAGAACGC CGCAAATTGA TGGCGATAGA ACGTCGCAAA
CGCACGACTA GTATAAACAG AAAATCGTTT TCGCTGCCAC ACTCACCGGT AGGTGGTGCC
AGTGGTGGCG TACTGCATGA CATGACAAGT TTAAGCTTCG AGGATCTGGA TGTATCGGCC
ATAGTAAATG ACCTGAGCCC TTTGAAGGTG CCGATACGTG CCAGTGAATC TGATGATAAA
TTGGTGCAGG AGCTAGCAGA GAACAATTTC GATCTTGCTG CCTACATTAC AGAGGATGAT
TTTGTGACAA CTGACTCGGA GAAACGGGAA GCACAAAATC AAAAACCAAA ACTTTCCCCG
GTGAAAAAGG CTCCCAAATC TCGCGGGAAG CAATTAAAAA TGCTAAGAGA ACTGATGATT
TCACCAAAGT CAGACAGCCA TGAAGCCGGG TTTTCAAAGA GGACCTGCAC AAACAAAGCG
AAACGGATAG TAGAGGACAG CGGTTCAGAT TCCGATGAAT CCGAGTCCGA AAACGACACC
AGAACATGCG TTAAGATTTT CGGAATTGAA AGAATGATCG GCAAACCAAA GCGAAAAGAC
GACGACACAA AAGCGGATCC CACGTGGAAT CCCAACGGAA CGGTAACTGC CAAGCAGACA
CCAAAACTTG CTCAGACCCA GAAATCTATT GCACCGCCAT TAATTGCACC AGTACAACAG
TCAATCAAAC GCGAAGTTAG TGATACAAAG CCCCAGGCGG CACCAGTCAA AACCAGTGAA
TCCACAAAAT CTGTAAATAA TACGAACAAC AAAAATAAAT TGCTTAGCGC TGGATCGCAA
TTAGCACGTA ACAAAATGCT TTCACTGATG GCTAAAAACA AACTACCAAT GCAAGCAGCT
AAACAGCATT CAAAGTCAAC CGGAAGTGTC AGTAACAGTA GTAGTAACAG TAATCAGAAT
AAGTCATCCG AACCACCAAA AAAGAAACCG CCGGCCGTGA ACAATAACGT GAAACTTGAT
CACGATTACT GCTCCCCGAA AAAAGGTTCC AGTCAAAATC CGCTAGCCTC GGTGCCGCAG
CGGAAAGCGA TAGAAATTCC ATTCTTATTA CCTACTTTGG ATCAGCTCCG GCAGAAGAAA
AAGCTCTCGA AAAATAAGCA ACGGCTTGAA GCCACCAGTA AGAAAGCCAA AACGACCGGT
GGCGACTGTG ATAAGAAGGA TAAGGAACCC AGTCAATGTA GTAGCGAACA GCGGACCAGC
AGTGAAACCA AAAGCATTGT TACTCCGGTT ATAAAACAAG AAGTTTCGAT TAAGGAAGAA
CCGAAAGAAC GGATAGAAAC AAATGCAAAT AGACTGATCC CTGCCCAAAC GCAACCGACG
AAACAAGTCT CCTTACTGAA AGTTAATCAA AACAAACCAA ACGGTGTGCA AACGTCCCCA
ACGGCCGCGT GCAACATCAA AGAAGAACCG TCTGACGAGA AACCCAAGGC TGAACCAATC
AATGCAACCA GTAGCAGTAG CAACGAATCT ATTGTTAAAG TTAAGAAGAA ACTAAACCTT
CAGGAATACA AGAAACGTCG TGAGCACCCG GGTGATGATG GAACCGTGCA GGTGATGGTT
ACGGAAAGTT GTAGTAAAAG CAGCATCACC AGCACATCGA CCGTCAGTGA ATGCAGCAGT
AGGGAAGAGC TAGACAATGC ACCGATTGCG ACGCAGCTGG AGCCAACGAA ACAATCGAAA
TGTAAAACTC CTTTGGATCC TATTTCAGCG GCGAAGCTCA AAGCTCTACG TATGCAACAG
CTCAAGAAAG AAGCTGCTAT CAAGTCAACG GAAGCCAAAA TCATCCCGAA AACTGTCCCG
CAAATTGTAC CCCTAGTTGA GATAACATCG ATCAAATTTG ATGAACACGG GAACCCTATG
CCGTACGACA AAAACGCCGA AAAGGATGCC AACGAACTGA AACTGCACAA GGATTACGAA
GAACTTATAA TAGTTTCAAT GGGTTGTAAC ACAGACGTTA GCATCAACCC ACGTGAACCG
AATAAGGAAA TGGTCAAAAC GGAACAAAAG GACAAAAACA TTCCGAAGAA TGAGCTACTG
TCTAATATTT CCGATACGAT CAAGCGGTGT CAGTCGTCGG CTCCAGCAAT CATTTCCAGT
AGTTCGTTAA TATCCAGCAT CCACGAAGTT GTGATTCGAA AGAAAACCTG CAATAAGACT
GAGACAAATG ATGTTGCTAC AGCAACTTCG GCGGAGAAAC GGCCGGTTGG TGGAGGTCAA
GCCAATCAAC AAGGATCTCC GAATGTTGGT GTTTCTCCGC CCAATGCATT CTCTCCTGGT
AAGCCGGAAA AAGCAGGCGG ATCATATGAA CAATCACCCT CGTTTGACTA CGATGACGGT
CAGCTGCAGC AGACTGCCGA AAAGGTCAAA CCAAGTGAAC ATGGTGAAGA CAAAATTATT
ATGCATTTAC GGAAGGACCG ACAACGTTTG AAGGGAGTTT CAATAGCCAT TCAAACCTTG
CCGGTAGATC GCTTTCCGGA ACTGAAACGT CGTCAAAGTA CCGAAAGGAG TCGCGACCGT
CTACGACGCC AGTATCGAAG ACGTCGAAGC AGGAGTTCGT CTTCGGAACC CGAAACTCGC
ACTAGGTCTT CCAATTCTTT CCGGAAAAGT ATGCAGCGAT CATCTTCCCG AAGAAGTCGC
AGCAGATGTA GTAGTTCCAG ACGTAGATCC CGTTCCCGAT CCCGATCGAG ATCTAGGTCA
TACAGACGTC GCAGTCGAAG CGATTCACAT CGTCGACGAT CCAGTGTGTC GTCCGAACGG
CGTCGTTACT ATGAAAGAGA CTATTCCCGG CGCAGCAGTA GGAGGAGACG GTCACGAAGC
TCCTCATCGC ATTATTCTTC TAGCAGTAGT GTTAGTTCTA GATCGCGATC GCGATCGGTA
TCGCGCTCCA GCAGATCACG ATCACGATCT TTGTCCCGTC CTTCTTCTCG CGCAAGGAAC
CCATCCCATA ATGAATATCG TCGTCCAGCG CAGTCGCCAG AGAGAAAAAT CGTTTACGTG
GGTCGACTAG AGCCGGCGTT AAAACGTGAG GATCTCAAGC GAAAGTTCAT GCAATATGGG
CGTATCAAGC AGGTCACATT GCATTATAAG GAATCCGGTG CAAAGTATGG ATTCGTCACG
TTCGAGAAGC CACAAGATGC ATACAAAGCT ATCGACGCAA GTTCGAAAGA CCCAGCTCTG
AGCGAATATG ATGTAAGCTT TGGCGGCAGA AGGGCGTTCT GTCGCACGGA ATATGCCGAT
CTTGATGGTG ACCTTTCGCA GGACCATGAA GCTGTTGTTC CATTCATAGC ACCGGATGGG
TCCTTGATGA TGGCTCCTAA TCCGATGACC GTAATGCCGC GAAAGGACGA AGGCGACTCC
TTCGAGGAAT TACTGAAGAA ACTGAAAAAG GAAATCAGTG CCAAAAAGCC ACGCAAGTCA
TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
-
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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