| Gene Symbol | AAEL_AAEL013846 |
| Entrez Gene ID | 5578805 |
| Full Name | ankyrin repeat domain-containing protein 12 |
| Synonyms | AAEL013846,AAEL014521,AAEL015231 |
| Gene Type | protein-coding |
| Organism | Aedes aegypti(Yellow fever mosquito) |
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AAEL_AAEL013846 cDNA ORF clone, Aedes aegypti(Yellow fever mosquito)
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Gene
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Clones
gRNAs
The following AAEL_AAEL013846 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the AAEL_AAEL013846 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 OAe13339 Clone ID Related Accession (Same CDS sequence) XM_001663985.1 Accession Version XM_001663985.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 315bp)
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 AAEL013846-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_001811730).
1
61
121
181
241
301ATGATGAACC ATCACACGAT GCCCAAGCTC GGATTTGGCC AGTACAAATC GTCCCCCAGT
GGGGTTGGCA GTTTTTTCCT GCCGAAAATC CTCACCAACC CAACGGACCG GAGCTGCCCC
GGAAGTAGCG CCAGCTATCT AACACCAATA GGCGGCGGCG GCGGAGCAGC AAGCAAGGGA
AGTCCGCGGA AGGTCAGCCT CACCAACAGC AGCAGTCCTC TTCCAGTGAT GCCCAGCATT
CGGCCGAACG GCAACAGCTC CAACAGCAAC ATCAACAGCA GCAGTCCCAC TCAAGCTCCC
TTCCAGCTGT TGTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_001664035.1 CDS 131..445 Translation 
Target ORF information:
RefSeq Version XM_001663985.1 Organism Aedes aegypti(Yellow fever mosquito) Definition Aedes aegypti AAEL013846-RA mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_001663985.1
ORF Insert Sequence:
1
61
121
181
241
301ATGATGAACC ATCACACGAT GCCCAAGCTC GGATTTGGCC AGTACAAATC GTCCCCCAGT
GGGGTTGGCA GTTTTTTCCT GCCGAAAATC CTCACCAACC CAACGGACCG GAGCTGCCCC
GGAAGTAGCG CCAGCTATCT AACACCAATA GGCGGCGGCG GCGGAGCAGC AAGCAAGGGA
AGTCCGCGGA AGGTCAGCCT CACCAACAGC AGCAGTCCTC TTCCAGTGAT GCCCAGCATT
CGGCCGAACG GCAACAGCTC CAACAGCAAC ATCAACAGCA GCAGTCCCAC TCAAGCTCCC
TTCCAGCTGT TGTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAe116787 Clone ID Related Accession (Same CDS sequence) XM_021837858.1 Accession Version XM_021837858.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4227bp)
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 ankyrin repeat domain-containing protein 12 isoform X3 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
4201ATGTTCAGCA GCCCGAGGAG GATGCATAAG CCGGACGTCG TCCACCGGCG GGACCGGAAC
AACCGCGGGG CCCTTCACTA CGCCAGCAGC TCGAGGGACG TTGTGGCCGC GGCCAGTGTC
GCAATGGTGG CCCCGGAGCT GATCGAGCAG GCCGATGAGG ACGGGTTCAC GCCACTGCAT
CTGGCCGTCA TCCAGGGCAA CCTGCAGCTG GTCAACCTGC TGCTGGCGAA CGGGGCCGAC
GTGAACGCGC TGGACAACGA GGGCCACTCG GTGGTGCACT GGGCCACAGT ATGCGGCGAA
GTGGAAGCTC TCCGTGCGGT GCTGGCGGCC GGTGCCGACG TGTCCACTCC GGACATCAAC
GGGGGCAGCC CGTTGCACTA CGCCGCCCAG ATGTGCGGCG CCAACTATGA GGGCAAAACG
GCTCGTGCCT CGGCCAAACT GGCACTGGAG ATCCTCGGAA CGCTGCTGGC CCATCCGGAC
ACTTCGGTCG AAGTAGAGGA CAAAGATAGC CGGCAGCCGC TGCTCTGGGC TTCCTCGGCT
GGCTCTGCCA AGGCTGTCCT GGCTTTGATC AAAGCCGGCG CACAGGTCGA GAGTGCAGAT
AAGGATGGAC TCACGGCACT TCACTGTGCC GCGTCCCGAG GCCACACGGA ATGTATAGAC
ACGTTGATCA ATCTATGTGG AGCGCACACC GATCAGATCG ACTCCAATGG GTGCACGGCT
CTGCACTACT CCGTGACGTT AGGTCACGCG GATGCTACCT CCTTGCTGCT CAAGCTGGAT
GCCGATCCAA ACCGACAGGA CCGAAAAGGC CGAACTCCAG CACATTGTGG CTGTGCGAAA
GGGCAAATGG AAACGGTGAA AATTTTGCAC ATGAAGAAAG GGAACTTGTG GCTGAGGAAT
GCGAAGGGAG ATTTTCCGGT TCATGACGCC GCCAGCTCTG GAAGGAGACA GCTGGTACAG
TGGCTTTTGC AGATGAAGCC AAAGCACATC AACACTCCAA GTAACGATGG AAGAACGCTT
TTGCACATTG CGGCAGGGCA CGATAATGTG GACATGTGTA AGCTCTTGCT GGAATCTGGA
GCGGAGATGA ATCACCTGTA CAGACCGGCA AAAGGTTCGC CCATGACTCC ACTTGACTAC
GCACTGGCGA AAGGCTTCCG ATCAACGGCA AAGTTTCTCC AGATGCAAGG AGGACTTCCA
GCTAATAAGT TGCGCCTATC CAGTCGGCAG CAGAAAATTC TTCCAGATAT AGACAAGGTT
GAACCCTTAA AACTCACAGA AAAAGAAGAA TTGATCGACC TGAAGACTTC CAAGCGATAC
GTAGTGTACT TGAACTCCAA TTCTGAATCG GAGAGTCAAG ATGATCGATC TCACCGCAAG
AGCAGACACA AACGAAAAGG AAGTCACCGA GCTCGTCGAA CGAGCAGCTG CAGTGATAGC
GTATTTCTCT ACCGGGAAGG CGCAGCCGAT ATAAGTCGCT CTCGAAGCAA CGTCGAACTA
AACCGGACCC ATCATCATCA CCATCGCAGG CACCATCACC GAAGCAATAG TTCTTCATCG
GCTTCCAGCA GCGATTCGTC TTCGGATGAC TGTTGCAAGC ATATAAAACG ACGGCACAAG
TGTTACAAGA AGTGTTCATC TAAATCGGCG AGATCTAAGG ATCGGTCGCA CAGGGAAAGG
GATCGTGACC GGGAGAAGGA ACCTAAAGAA CCGAAGGAGT ATGAATTTAT GTATGCCGAG
CAACGAGAAG CAGGAAAGCC ACGTAAACCG GGAGAACGCA TGGGAAGGAT TGTGTTGAAA
GAGGTGCACA GTGGATCATC GGAGAACGAA TCGCCAGAGA GTGACCGACG AGGCAGCACA
TCGAGATTAA CCGGAAAGAG TGGCCCATTA CTGACGGTGC CGCCGGAAGT TTTGGGATTA
TTAGACGATC AATCACTGCC GAAACCACCA CCCAAAGCTG AGTTCAACAT CAGGAAGGAG
TCTGATGTAA AAAGCGATGG CAAATCTTCG GACACCAGCG TCAAGAAGGT GAAGAAAGGT
AAGGGAAACG GGAAGAAAGG TAAAGCATCT GGGAAAGTGA AGAAGACCGA TTCGCCAAGT
GAGGAGGAAA CGAAAGACAA GCAGAAGCAA CAGCAGGGGG AGAAGATTGT GACGGAAGCT
CTGGTGCACC CGGTGCCGGA GACTATGGCC AAGTCCACAG AAGATGATGG TGCAGCTACC
GATGCGACAT ACACAATCGA TCAGAAAACC AAATCCGATT ACGAGGGGTT CAGCGAATCC
GAGACTGGGA AAGGGAAAGG CAAACCAGAG ACAATAATGG AAGCTAAGGA TGAGACCGTG
CAGGAAGTTC CACCGGCGGT CCCTTTAGAG GTAAAGGAGG AGGTGGTTCC GGCTCCAAAA
AAGGAACGGC CAAAGCTAAA GTCAAACAAA GACAGTAGCA CAAGCCGATC CAGCAAATCC
AAGTCGGATT CGTCGGAAAA GGAGATGCCA AAGCAGAAAC CAAAGCCGAA AGCGGAAGCA
ACTCCTGTGG TGACAGCGCC AACGCCGCAG CCAACGCCAC CACCGCCACC TCCTCCTGAA
CCGGAACCAG AACGCGTTGT ACCAGAACCC GAACCCGAAC CTGCTGTTGA GGAGCCTCCA
ATTGTGGTAG AAACTCATGT ACAGGAGGAG GAAAAGCCTT CGGAGTTACC GGTTGTAGTG
CCAGAGGCTG AACCTGTGCC TGCAGTCACC GACGGAGAGG CAGTTGTTCC CCAAGAGATT
CCGGTGACAG AACCGCCTGA GTCGGAACCC GAACCGAAGC CAGAACCGGA GCAAGCACCC
GAGTCGAAAC CGGAACTTGC AGCTGTTGAG CAATCGACAA CTGAGGAGAA GAGCTCTGAA
GTTGAAGAAT CGCCTTCGAA ATCAAGTGAA GATCAGACCG AGCAGCAGCC GCCAGAACCG
GAAGAACCGC CAAAGCCCGA ACCGAGTGGA GACCAAGCTC TACCACCAAC CCCCAAAGAA
GATTCTCCTA AGAAGGTCAG TTTTGACAGA GAACGACCGA AGCTGAGGCG ATCTGGCGAG
TCCATGGTGG AGCACGTGGA GGAAGAGGAA GTTCGAACGG AAGAGGATGC CGTTGTTCCA
CTAGCGGCAG CTGCAGCAGT TGACCAAGAG AAGGTCGATT CGACACGAAG TTTCTACGTG
AGTTTGGCGG ATGGAGAAGA AGGCGACGAG AAGAAGAAAC GAAAATTGAA AAAGAGGAAA
TCCAAGGAAG ACAAAGCCGA CGAAGAAGCA CAAAGTAGCA AGGATCAGGA CTCCGGTTTT
GAGCCAAGTC CGCAATCGGT ACGCAGTAAG TCGACTGTGT TCGACCGTCC AACGAGTACG
GCGGTGTTAT CCAAGAGGCC AGCATTTACA ATGGTAGAGG AGCGAGCGAT CAGCTCCAGG
CCGGATGGTC GCAAACCTGG CGACAAGAAT GCTGTTAACA TGACCACCGT GCAACAGTCC
ATCCAGCGAA ATATTCGAAG ATACTACATG GAGAGAAAAA TTTTCCAACA CCTGCTGGAG
CTGAAAAGCC TCCAGATCCG CTCGACCAAG GTCAACGAGA GCGCCCTGGT GAAGAGGGCC
GTAGACGACT ACCACAAGTC GACGATCGAG CTGGGCTACG AGACGGGCTC GACACTCAAG
CGCTATCCCT ACTCGGAGTA CTCGTTCAAG AACTTCGAGC TGTTCCTGTA CGACACGTTG
AAGAGCCTAC AGAAGCGCGA GACGTACAAC TTCCAGAACA TCTCCGAGGT GTACGACGAG
CAAGAGGCCG AACGTCGATC CAGCCCCGAT GTAAGTCGAT ACGAACGAGC CCTGAACTGC
ACCACCAAGA CCCATCGCTG CCTTCATGCC ACCCACGCGT ACACGGGAAT CCCTTGCGCT
GCCTACATCC CCATGATGAA CCATCACACG ATGCCCAAGC TCGGATTTGG CCAGTACAAA
TCGTCCCCCA GTGGGGTTGG CAGTTTTTTC CTGCCGAAAA TTCTCACCAA CCCAACGGAC
CGGAGCTGCC CCGGAAGTAG CGCCAGCTAT CTAACACCCA TAGGCGGCGG CGGCGGAGCA
GCAAGCAAGG GAAGTCCGCG GAAGGTCAGC CTCACCAACA GCAGCAGTCC TCTTCCAGTG
ATGCCCAGCA TTCGGCCGAA CGGCAACAGC TCCAACAGCA ACATCAACAG CAGCAGTCCC
ACTCAAGCTC CCTTCCAGCT GTTGTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_021693550.1 CDS 397..4623 Translation
Target ORF information:
RefSeq Version XM_021837858.1 Organism Aedes aegypti(yellow fever mosquito) Definition Aedes aegypti ankyrin repeat domain-containing protein 12 (LOC5578805), transcript variant X5, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_021837858.1
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
4201ATGTTCAGCA GCCCGAGGAG GATGCATAAG CCGGACGTCG TCCACCGGCG GGACCGGAAC
AACCGCGGGG CCCTTCACTA CGCCAGCAGC TCGAGGGACG TTGTGGCCGC GGCCAGTGTC
GCAATGGTGG CCCCGGAGCT GATCGAGCAG GCCGATGAGG ACGGGTTCAC GCCACTGCAT
CTGGCCGTCA TCCAGGGCAA CCTGCAGCTG GTCAACCTGC TGCTGGCGAA CGGGGCCGAC
GTGAACGCGC TGGACAACGA GGGCCACTCG GTGGTGCACT GGGCCACAGT ATGCGGCGAA
GTGGAAGCTC TCCGTGCGGT GCTGGCGGCC GGTGCCGACG TGTCCACTCC GGACATCAAC
GGGGGCAGCC CGTTGCACTA CGCCGCCCAG ATGTGCGGCG CCAACTATGA GGGCAAAACG
GCTCGTGCCT CGGCCAAACT GGCACTGGAG ATCCTCGGAA CGCTGCTGGC CCATCCGGAC
ACTTCGGTCG AAGTAGAGGA CAAAGATAGC CGGCAGCCGC TGCTCTGGGC TTCCTCGGCT
GGCTCTGCCA AGGCTGTCCT GGCTTTGATC AAAGCCGGCG CACAGGTCGA GAGTGCAGAT
AAGGATGGAC TCACGGCACT TCACTGTGCC GCGTCCCGAG GCCACACGGA ATGTATAGAC
ACGTTGATCA ATCTATGTGG AGCGCACACC GATCAGATCG ACTCCAATGG GTGCACGGCT
CTGCACTACT CCGTGACGTT AGGTCACGCG GATGCTACCT CCTTGCTGCT CAAGCTGGAT
GCCGATCCAA ACCGACAGGA CCGAAAAGGC CGAACTCCAG CACATTGTGG CTGTGCGAAA
GGGCAAATGG AAACGGTGAA AATTTTGCAC ATGAAGAAAG GGAACTTGTG GCTGAGGAAT
GCGAAGGGAG ATTTTCCGGT TCATGACGCC GCCAGCTCTG GAAGGAGACA GCTGGTACAG
TGGCTTTTGC AGATGAAGCC AAAGCACATC AACACTCCAA GTAACGATGG AAGAACGCTT
TTGCACATTG CGGCAGGGCA CGATAATGTG GACATGTGTA AGCTCTTGCT GGAATCTGGA
GCGGAGATGA ATCACCTGTA CAGACCGGCA AAAGGTTCGC CCATGACTCC ACTTGACTAC
GCACTGGCGA AAGGCTTCCG ATCAACGGCA AAGTTTCTCC AGATGCAAGG AGGACTTCCA
GCTAATAAGT TGCGCCTATC CAGTCGGCAG CAGAAAATTC TTCCAGATAT AGACAAGGTT
GAACCCTTAA AACTCACAGA AAAAGAAGAA TTGATCGACC TGAAGACTTC CAAGCGATAC
GTAGTGTACT TGAACTCCAA TTCTGAATCG GAGAGTCAAG ATGATCGATC TCACCGCAAG
AGCAGACACA AACGAAAAGG AAGTCACCGA GCTCGTCGAA CGAGCAGCTG CAGTGATAGC
GTATTTCTCT ACCGGGAAGG CGCAGCCGAT ATAAGTCGCT CTCGAAGCAA CGTCGAACTA
AACCGGACCC ATCATCATCA CCATCGCAGG CACCATCACC GAAGCAATAG TTCTTCATCG
GCTTCCAGCA GCGATTCGTC TTCGGATGAC TGTTGCAAGC ATATAAAACG ACGGCACAAG
TGTTACAAGA AGTGTTCATC TAAATCGGCG AGATCTAAGG ATCGGTCGCA CAGGGAAAGG
GATCGTGACC GGGAGAAGGA ACCTAAAGAA CCGAAGGAGT ATGAATTTAT GTATGCCGAG
CAACGAGAAG CAGGAAAGCC ACGTAAACCG GGAGAACGCA TGGGAAGGAT TGTGTTGAAA
GAGGTGCACA GTGGATCATC GGAGAACGAA TCGCCAGAGA GTGACCGACG AGGCAGCACA
TCGAGATTAA CCGGAAAGAG TGGCCCATTA CTGACGGTGC CGCCGGAAGT TTTGGGATTA
TTAGACGATC AATCACTGCC GAAACCACCA CCCAAAGCTG AGTTCAACAT CAGGAAGGAG
TCTGATGTAA AAAGCGATGG CAAATCTTCG GACACCAGCG TCAAGAAGGT GAAGAAAGGT
AAGGGAAACG GGAAGAAAGG TAAAGCATCT GGGAAAGTGA AGAAGACCGA TTCGCCAAGT
GAGGAGGAAA CGAAAGACAA GCAGAAGCAA CAGCAGGGGG AGAAGATTGT GACGGAAGCT
CTGGTGCACC CGGTGCCGGA GACTATGGCC AAGTCCACAG AAGATGATGG TGCAGCTACC
GATGCGACAT ACACAATCGA TCAGAAAACC AAATCCGATT ACGAGGGGTT CAGCGAATCC
GAGACTGGGA AAGGGAAAGG CAAACCAGAG ACAATAATGG AAGCTAAGGA TGAGACCGTG
CAGGAAGTTC CACCGGCGGT CCCTTTAGAG GTAAAGGAGG AGGTGGTTCC GGCTCCAAAA
AAGGAACGGC CAAAGCTAAA GTCAAACAAA GACAGTAGCA CAAGCCGATC CAGCAAATCC
AAGTCGGATT CGTCGGAAAA GGAGATGCCA AAGCAGAAAC CAAAGCCGAA AGCGGAAGCA
ACTCCTGTGG TGACAGCGCC AACGCCGCAG CCAACGCCAC CACCGCCACC TCCTCCTGAA
CCGGAACCAG AACGCGTTGT ACCAGAACCC GAACCCGAAC CTGCTGTTGA GGAGCCTCCA
ATTGTGGTAG AAACTCATGT ACAGGAGGAG GAAAAGCCTT CGGAGTTACC GGTTGTAGTG
CCAGAGGCTG AACCTGTGCC TGCAGTCACC GACGGAGAGG CAGTTGTTCC CCAAGAGATT
CCGGTGACAG AACCGCCTGA GTCGGAACCC GAACCGAAGC CAGAACCGGA GCAAGCACCC
GAGTCGAAAC CGGAACTTGC AGCTGTTGAG CAATCGACAA CTGAGGAGAA GAGCTCTGAA
GTTGAAGAAT CGCCTTCGAA ATCAAGTGAA GATCAGACCG AGCAGCAGCC GCCAGAACCG
GAAGAACCGC CAAAGCCCGA ACCGAGTGGA GACCAAGCTC TACCACCAAC CCCCAAAGAA
GATTCTCCTA AGAAGGTCAG TTTTGACAGA GAACGACCGA AGCTGAGGCG ATCTGGCGAG
TCCATGGTGG AGCACGTGGA GGAAGAGGAA GTTCGAACGG AAGAGGATGC CGTTGTTCCA
CTAGCGGCAG CTGCAGCAGT TGACCAAGAG AAGGTCGATT CGACACGAAG TTTCTACGTG
AGTTTGGCGG ATGGAGAAGA AGGCGACGAG AAGAAGAAAC GAAAATTGAA AAAGAGGAAA
TCCAAGGAAG ACAAAGCCGA CGAAGAAGCA CAAAGTAGCA AGGATCAGGA CTCCGGTTTT
GAGCCAAGTC CGCAATCGGT ACGCAGTAAG TCGACTGTGT TCGACCGTCC AACGAGTACG
GCGGTGTTAT CCAAGAGGCC AGCATTTACA ATGGTAGAGG AGCGAGCGAT CAGCTCCAGG
CCGGATGGTC GCAAACCTGG CGACAAGAAT GCTGTTAACA TGACCACCGT GCAACAGTCC
ATCCAGCGAA ATATTCGAAG ATACTACATG GAGAGAAAAA TTTTCCAACA CCTGCTGGAG
CTGAAAAGCC TCCAGATCCG CTCGACCAAG GTCAACGAGA GCGCCCTGGT GAAGAGGGCC
GTAGACGACT ACCACAAGTC GACGATCGAG CTGGGCTACG AGACGGGCTC GACACTCAAG
CGCTATCCCT ACTCGGAGTA CTCGTTCAAG AACTTCGAGC TGTTCCTGTA CGACACGTTG
AAGAGCCTAC AGAAGCGCGA GACGTACAAC TTCCAGAACA TCTCCGAGGT GTACGACGAG
CAAGAGGCCG AACGTCGATC CAGCCCCGAT GTAAGTCGAT ACGAACGAGC CCTGAACTGC
ACCACCAAGA CCCATCGCTG CCTTCATGCC ACCCACGCGT ACACGGGAAT CCCTTGCGCT
GCCTACATCC CCATGATGAA CCATCACACG ATGCCCAAGC TCGGATTTGG CCAGTACAAA
TCGTCCCCCA GTGGGGTTGG CAGTTTTTTC CTGCCGAAAA TTCTCACCAA CCCAACGGAC
CGGAGCTGCC CCGGAAGTAG CGCCAGCTAT CTAACACCCA TAGGCGGCGG CGGCGGAGCA
GCAAGCAAGG GAAGTCCGCG GAAGGTCAGC CTCACCAACA GCAGCAGTCC TCTTCCAGTG
ATGCCCAGCA TTCGGCCGAA CGGCAACAGC TCCAACAGCA ACATCAACAG CAGCAGTCCC
ACTCAAGCTC CCTTCCAGCT GTTGTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAe116788 Clone ID Related Accession (Same CDS sequence) XM_021837859.1 Accession Version XM_021837859.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4119bp)
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 ankyrin repeat domain-containing protein 12 isoform X4 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. 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
4081ATGGAGGCGA AGAGTAAGCA GCACACCGCA GCAGTCCTTC CACAGCCAAC GGCTTCGCCT
CTGAGAGCCC CCACACAAGC TGCTGCTGCT GCTGCTGGTA GTGGAGGAAC AGCGAGCCGC
CGGAAACCGT CGGCCCTTGC CAATCGCGAC CAGCAGCTAC CGGGCAAACC GAAGCACACG
GTCAAGTTTA GGGAGCAAGG CGACCAGGAG CTTCTGGTGG TGACAATCGA ACCTTCTTCG
TCCCCTGCTG GCGGCACCTG TCAGCTACCG GCGCTAACTA CCACTTCGGA ATCGACATCC
GACCGACCAG GGACTGCCAC CCATCATCGG GGAACCCCGT ATCCCTCCTT GGCGGCGGGC
GACCTAAGAA AACCTAAGGA GAAAGCTAAA TCAAGTGAAC AACGGACGAA AAAGGCGGCT
ACCTCGCCGG CGACGCAAGC GTCCAGTGTA GTCCGGCAGC ACGGTCAGCG ACTCGCGGAA
GGATGCACGA CGCTTATGTA TGCCTGCCAG CAGGGACTTA CCGAGGAAAT TGTTAAGGAA
TTGCGCGAAA AGCCGGACGT CGTCCACCGG CGGGACCGGA ACAACCGCGG GGCCCTTCAC
TACGCCAGCA GCTCGAGGGA CGTTGTGGCC GCGGCCAGTG TCGCAATGGT GGCCCCGGAG
CTGATCGAGC AGGCCGATGA GGACGGGTTC ACGCCACTGC ATCTGGCCGT CATCCAGGGC
AACCTGCAGC TGGTCAACCT GCTGCTGGCG AACGGGGCCG ACGTGAACGC GCTGGACAAC
GAGGGCCACT CGGTGGTGCA CTGGGCCACA GTATGCGGCG AAGTGGAAGC TCTCCGTGCG
GTGCTGGCGG CCGGTGCCGA CGTGTCCACT CCGGACATCA ACGGGGGCAG CCCGTTGCAC
TACGCCGCCC AGATGTGCGG CGCCAACTAT GAGGGCAAAA CGGCTCGTGC CTCGGCCAAA
CTGGCACTGG AGATCCTCGG AACGCTGCTG GCCCATCCGG ACACTTCGGT CGAAGTAGAG
GACAAAGATA GCCGGCAGCC GCTGCTCTGG GCTTCCTCGG CTGGCTCTGC CAAGGCTGTC
CTGGCTTTGA TCAAAGCCGG CGCACAGGTC GAGAGTGCAG ATAAGGATGG ACTCACGGCA
CTTCACTGTG CCGCGTCCCG AGGCCACACG GAATGTATAG ACACGTTGAT CAATCTATGT
GGAGCGCACA CCGATCAGAT CGACTCCAAT GGGTGCACGG CTCTGCACTA CTCCGTGACG
TTAGGTCACG CGGATGCTAC CTCCTTGCTG CTCAAGCTGG ATGCCGATCC AAACCGACAG
GACCGAAAAG GCCGAACTCC AGCACATTGT GGCTGTGCGA AAGGGCAAAT GGAAACGGTG
AAAATTTTGC ACATGAAGAA AGGGAACTTG TGGCTGAGGA ATGCGAAGGG AGATTTTCCG
GTTCATGACG CCGCCAGCTC TGGAAGGAGA CAGCTGGTAC AGTGGCTTTT GCAGATGAAG
CCAAAGCACA TCAACACTCC AAGTAACGAT GGAAGAACGC TTTTGCACAT TGCGGCAGGG
CACGATAATG TGGACATGTG TAAGCTCTTG CTGGAATCTG GAGCGGAGAT GAATCACCTG
TACAGACCGG CAAAAGGTTC GCCCATGACT CCACTTGACT ACGCACTGGC GAAAGGCTTC
CGATCAACGG CAAAGTTTCT CCAGATGCAA GGAGGACTTC CAGCTAATAA GTTGCGCCTA
TCCAGTCGGC AGCAGAAAAT TCTTCCAGAT ATAGACAAGG TTGAACCCTT AAAACTCACA
GAAAAAGAAG AATTGATCGA CCTGAAGACT TCCAAGCGAT ACGTAGTGTA CTTGAACTCC
AATTCTGAAT CGGAGAGTCA AGATGATCGA TCTCACCGCA AGAGCAGACA CAAACGAAAA
GGAAGTCACC GAGCTCGTCG AACGAGCAGC TGCAGTGATA GCGTATTTCT CTACCGGGAA
GGCGCAGCCG ATATAAGTCG CTCTCGAAGC AACGTCGAAC TAAACCGGAC CCATCATCAT
CACCATCGCA GGCACCATCA CCGAAGCAAT AGTTCTTCAT CGGCTTCCAG CAGCGATTCG
TCTTCGGATG ACTGTTGCAA GCATATAAAA CGACGGCACA AGTGTTACAA GAAGTGTTCA
TCTAAATCGG CGAGATCTAA GGATCGGTCG CACAGGGAAA GGGATCGTGA CCGGGAGAAG
GAACCTAAAG AACCGAAGGA GTATGAATTT ATGTATGCCG AGCAACGAGA AGCAGGAAAG
CCACGTAAAC CGGGAGAACG CATGGGAAGG ATTGTGTTGA AAGAGGTGCA CAGTGGATCA
TCGGAGAACG AATCGCCAGA GAGTGACCGA CGAGGCAGCA CATCGAGATT AACCGGAAAG
AGTGGCCCAT TACTGACGGT GCCGCCGGAA GTTTTGGGAT TATTAGACGA TCAATCACTG
CCGAAACCAC CACCCAAAGC TGAGTTCAAC ATCAGGAAGG AGTCTGATGT AAAAAGCGAT
GGCAAATCTT CGGACACCAG CGTCAAGAAG GTGAAGAAAG GTAAGGGAAA CGGGAAGAAA
GGTAAAGCAT CTGGGAAAGT GAAGAAGACC GATTCGCCAA GTGAGGAGGA AACGAAAGAC
AAGCAGAAGC AACAGCAGGG GGAGAAGATT GTGACGGAAG CTCTGGTGCA CCCGGTGCCG
GAGACTATGG CCAAGTCCAC AGAAGATGAT GGTGCAGCTA CCGATGCGAC ATACACAATC
GATCAGAAAA CCAAATCCGA TTACGAGGGG TTCAGCGAAT CCGAGACTGG GAAAGGGAAA
GGCAAACCAG AGACAATAAT GGAAGCTAAG GATGAGACCG TGCAGGAAGT TCCACCGGCG
GTCCCTTTAG AGGTAAAGGA GGAGGTGGTT CCGGCTCCAA AAAAGGAACG GCCAAAGCTA
AAGTCAAACA AAGACAGTAG CACAAGCCGA TCCAGCAAAT CCAAGTCGGA TTCGTCGGAA
AAGGAGATGC CAAAGCAGAA ACCAAAGCCG AAAGCGGAAG CAACTCCTGT GGTGACAGCG
CCAACGCCGC AGCCAACGCC ACCACCGCCA CCTCCTCCTG AACCGGAACC AGAACGCGTT
GTACCAGAAC CCGAACCCGA ACCTGCTGTT GAGGAGCCTC CAATTGTGGT AGAAACTCAT
GTACAGGAGG AGGAAAAGCC TTCGGAGTTA CCGGTTGTAG TGCCAGAGGC TGAACCTGTG
CCTGCAGTCA CCGACGGAGA GGCAGTTGTT CCCCAAGAGA TTCCGGTGAC AGAACCGCCT
GAGTCGGAAC CCGAACCGAA GCCAGAACCG GAGCAAGCAC CCGAGTCGAA ACCGGAACTT
GCAGCTGTTG AGCAATCGAC AACTGAGGAG AAGAGCTCTG AAGTTGAAGA ATCGCCTTCG
AAATCAAGTG AAGATCAGAC CGAGCAGCAG CCGCCAGAAC CGGAAGAACC GCCAAAGCCC
GAACCGAGTG GAGACCAAGC TCTACCACCA ACCCCCAAAG AAGATTCTCC TAAGAAGGTC
AGTTTTGACA GAGAACGACC GAAGCTGAGG CGATCTGGCG AGTCCATGGT GGAGCACGTG
GAGGAAGAGG AAGTTCGAAC GGAAGAGGAT GCCGTTGTTC CACTAGCGGC AGCTGCAGCA
GTTGACCAAG AGAAGGTCGA TTCGACACGA AGTTTCTACG TGAGTTTGGC GGATGGAGAA
GAAGGCGACG AGAAGAAGAA ACGAAAATTG AAAAAGAGGA AATCCAAGGA AGACAAAGCC
GACGAAGAAG CACAAAGTAG CAAGGATCAG GACTCCGGTT TTGAGCCAAG TCCGCAATCG
GTACGCAGTA AGTCGACTGT GTTCGACCGT CCAACGAGTA CGGCGGTGTT ATCCAAGAGG
CCAGCATTTA CAATGGTAGA GGAGCGAGCG ATCAGCTCCA GGCCGGATGG TCGCAAACCT
GGCGACAAGA ATGCTGTTAA CATGACCACC GTGCAACAGT CCATCCAGCG AAATATTCGA
AGCAAACCTT CCAAACGACC GTCAGCACAC CGAGCCAGGA GAAACTGTAT TTCTTTCCTT
CAACCGAAAA GAATGAATCT TCGGTCCAAG TTCCCCTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_021693551.1 CDS 203..4321 Translation
Target ORF information:
RefSeq Version XM_021837859.1 Organism Aedes aegypti(yellow fever mosquito) Definition Aedes aegypti ankyrin repeat domain-containing protein 12 (LOC5578805), transcript variant X6, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_021837859.1
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
4081ATGGAGGCGA AGAGTAAGCA GCACACCGCA GCAGTCCTTC CACAGCCAAC GGCTTCGCCT
CTGAGAGCCC CCACACAAGC TGCTGCTGCT GCTGCTGGTA GTGGAGGAAC AGCGAGCCGC
CGGAAACCGT CGGCCCTTGC CAATCGCGAC CAGCAGCTAC CGGGCAAACC GAAGCACACG
GTCAAGTTTA GGGAGCAAGG CGACCAGGAG CTTCTGGTGG TGACAATCGA ACCTTCTTCG
TCCCCTGCTG GCGGCACCTG TCAGCTACCG GCGCTAACTA CCACTTCGGA ATCGACATCC
GACCGACCAG GGACTGCCAC CCATCATCGG GGAACCCCGT ATCCCTCCTT GGCGGCGGGC
GACCTAAGAA AACCTAAGGA GAAAGCTAAA TCAAGTGAAC AACGGACGAA AAAGGCGGCT
ACCTCGCCGG CGACGCAAGC GTCCAGTGTA GTCCGGCAGC ACGGTCAGCG ACTCGCGGAA
GGATGCACGA CGCTTATGTA TGCCTGCCAG CAGGGACTTA CCGAGGAAAT TGTTAAGGAA
TTGCGCGAAA AGCCGGACGT CGTCCACCGG CGGGACCGGA ACAACCGCGG GGCCCTTCAC
TACGCCAGCA GCTCGAGGGA CGTTGTGGCC GCGGCCAGTG TCGCAATGGT GGCCCCGGAG
CTGATCGAGC AGGCCGATGA GGACGGGTTC ACGCCACTGC ATCTGGCCGT CATCCAGGGC
AACCTGCAGC TGGTCAACCT GCTGCTGGCG AACGGGGCCG ACGTGAACGC GCTGGACAAC
GAGGGCCACT CGGTGGTGCA CTGGGCCACA GTATGCGGCG AAGTGGAAGC TCTCCGTGCG
GTGCTGGCGG CCGGTGCCGA CGTGTCCACT CCGGACATCA ACGGGGGCAG CCCGTTGCAC
TACGCCGCCC AGATGTGCGG CGCCAACTAT GAGGGCAAAA CGGCTCGTGC CTCGGCCAAA
CTGGCACTGG AGATCCTCGG AACGCTGCTG GCCCATCCGG ACACTTCGGT CGAAGTAGAG
GACAAAGATA GCCGGCAGCC GCTGCTCTGG GCTTCCTCGG CTGGCTCTGC CAAGGCTGTC
CTGGCTTTGA TCAAAGCCGG CGCACAGGTC GAGAGTGCAG ATAAGGATGG ACTCACGGCA
CTTCACTGTG CCGCGTCCCG AGGCCACACG GAATGTATAG ACACGTTGAT CAATCTATGT
GGAGCGCACA CCGATCAGAT CGACTCCAAT GGGTGCACGG CTCTGCACTA CTCCGTGACG
TTAGGTCACG CGGATGCTAC CTCCTTGCTG CTCAAGCTGG ATGCCGATCC AAACCGACAG
GACCGAAAAG GCCGAACTCC AGCACATTGT GGCTGTGCGA AAGGGCAAAT GGAAACGGTG
AAAATTTTGC ACATGAAGAA AGGGAACTTG TGGCTGAGGA ATGCGAAGGG AGATTTTCCG
GTTCATGACG CCGCCAGCTC TGGAAGGAGA CAGCTGGTAC AGTGGCTTTT GCAGATGAAG
CCAAAGCACA TCAACACTCC AAGTAACGAT GGAAGAACGC TTTTGCACAT TGCGGCAGGG
CACGATAATG TGGACATGTG TAAGCTCTTG CTGGAATCTG GAGCGGAGAT GAATCACCTG
TACAGACCGG CAAAAGGTTC GCCCATGACT CCACTTGACT ACGCACTGGC GAAAGGCTTC
CGATCAACGG CAAAGTTTCT CCAGATGCAA GGAGGACTTC CAGCTAATAA GTTGCGCCTA
TCCAGTCGGC AGCAGAAAAT TCTTCCAGAT ATAGACAAGG TTGAACCCTT AAAACTCACA
GAAAAAGAAG AATTGATCGA CCTGAAGACT TCCAAGCGAT ACGTAGTGTA CTTGAACTCC
AATTCTGAAT CGGAGAGTCA AGATGATCGA TCTCACCGCA AGAGCAGACA CAAACGAAAA
GGAAGTCACC GAGCTCGTCG AACGAGCAGC TGCAGTGATA GCGTATTTCT CTACCGGGAA
GGCGCAGCCG ATATAAGTCG CTCTCGAAGC AACGTCGAAC TAAACCGGAC CCATCATCAT
CACCATCGCA GGCACCATCA CCGAAGCAAT AGTTCTTCAT CGGCTTCCAG CAGCGATTCG
TCTTCGGATG ACTGTTGCAA GCATATAAAA CGACGGCACA AGTGTTACAA GAAGTGTTCA
TCTAAATCGG CGAGATCTAA GGATCGGTCG CACAGGGAAA GGGATCGTGA CCGGGAGAAG
GAACCTAAAG AACCGAAGGA GTATGAATTT ATGTATGCCG AGCAACGAGA AGCAGGAAAG
CCACGTAAAC CGGGAGAACG CATGGGAAGG ATTGTGTTGA AAGAGGTGCA CAGTGGATCA
TCGGAGAACG AATCGCCAGA GAGTGACCGA CGAGGCAGCA CATCGAGATT AACCGGAAAG
AGTGGCCCAT TACTGACGGT GCCGCCGGAA GTTTTGGGAT TATTAGACGA TCAATCACTG
CCGAAACCAC CACCCAAAGC TGAGTTCAAC ATCAGGAAGG AGTCTGATGT AAAAAGCGAT
GGCAAATCTT CGGACACCAG CGTCAAGAAG GTGAAGAAAG GTAAGGGAAA CGGGAAGAAA
GGTAAAGCAT CTGGGAAAGT GAAGAAGACC GATTCGCCAA GTGAGGAGGA AACGAAAGAC
AAGCAGAAGC AACAGCAGGG GGAGAAGATT GTGACGGAAG CTCTGGTGCA CCCGGTGCCG
GAGACTATGG CCAAGTCCAC AGAAGATGAT GGTGCAGCTA CCGATGCGAC ATACACAATC
GATCAGAAAA CCAAATCCGA TTACGAGGGG TTCAGCGAAT CCGAGACTGG GAAAGGGAAA
GGCAAACCAG AGACAATAAT GGAAGCTAAG GATGAGACCG TGCAGGAAGT TCCACCGGCG
GTCCCTTTAG AGGTAAAGGA GGAGGTGGTT CCGGCTCCAA AAAAGGAACG GCCAAAGCTA
AAGTCAAACA AAGACAGTAG CACAAGCCGA TCCAGCAAAT CCAAGTCGGA TTCGTCGGAA
AAGGAGATGC CAAAGCAGAA ACCAAAGCCG AAAGCGGAAG CAACTCCTGT GGTGACAGCG
CCAACGCCGC AGCCAACGCC ACCACCGCCA CCTCCTCCTG AACCGGAACC AGAACGCGTT
GTACCAGAAC CCGAACCCGA ACCTGCTGTT GAGGAGCCTC CAATTGTGGT AGAAACTCAT
GTACAGGAGG AGGAAAAGCC TTCGGAGTTA CCGGTTGTAG TGCCAGAGGC TGAACCTGTG
CCTGCAGTCA CCGACGGAGA GGCAGTTGTT CCCCAAGAGA TTCCGGTGAC AGAACCGCCT
GAGTCGGAAC CCGAACCGAA GCCAGAACCG GAGCAAGCAC CCGAGTCGAA ACCGGAACTT
GCAGCTGTTG AGCAATCGAC AACTGAGGAG AAGAGCTCTG AAGTTGAAGA ATCGCCTTCG
AAATCAAGTG AAGATCAGAC CGAGCAGCAG CCGCCAGAAC CGGAAGAACC GCCAAAGCCC
GAACCGAGTG GAGACCAAGC TCTACCACCA ACCCCCAAAG AAGATTCTCC TAAGAAGGTC
AGTTTTGACA GAGAACGACC GAAGCTGAGG CGATCTGGCG AGTCCATGGT GGAGCACGTG
GAGGAAGAGG AAGTTCGAAC GGAAGAGGAT GCCGTTGTTC CACTAGCGGC AGCTGCAGCA
GTTGACCAAG AGAAGGTCGA TTCGACACGA AGTTTCTACG TGAGTTTGGC GGATGGAGAA
GAAGGCGACG AGAAGAAGAA ACGAAAATTG AAAAAGAGGA AATCCAAGGA AGACAAAGCC
GACGAAGAAG CACAAAGTAG CAAGGATCAG GACTCCGGTT TTGAGCCAAG TCCGCAATCG
GTACGCAGTA AGTCGACTGT GTTCGACCGT CCAACGAGTA CGGCGGTGTT ATCCAAGAGG
CCAGCATTTA CAATGGTAGA GGAGCGAGCG ATCAGCTCCA GGCCGGATGG TCGCAAACCT
GGCGACAAGA ATGCTGTTAA CATGACCACC GTGCAACAGT CCATCCAGCG AAATATTCGA
AGCAAACCTT CCAAACGACC GTCAGCACAC CGAGCCAGGA GAAACTGTAT TTCTTTCCTT
CAACCGAAAA GAATGAATCT TCGGTCCAAG TTCCCCTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAe116789 Clone ID Related Accession (Same CDS sequence) XM_021837860.1 Accession Version XM_021837860.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4104bp)
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 ankyrin repeat domain-containing protein 12 isoform X5 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
4081ATGGTGGCCC CGGAGCTGAT CGAGCAGGCC GATGAGGACG GGTTCACGCC ACTGCATCTG
GCCGTCATCC AGGGCAACCT GCAGCTGGTC AACCTGCTGC TGGCGAACGG GGCCGACGTG
AACGCGCTGG ACAACGAGGG CCACTCGGTG GTGCACTGGG CCACAGTATG CGGCGAAGTG
GAAGCTCTCC GTGCGGTGCT GGCGGCCGGT GCCGACGTGT CCACTCCGGA CATCAACGGG
GGCAGCCCGT TGCACTACGC CGCCCAGATG TGCGGCGCCA ACTATGAGGG CAAAACGGCT
CGTGCCTCGG CCAAACTGGC ACTGGAGATC CTCGGAACGC TGCTGGCCCA TCCGGACACT
TCGGTCGAAG TAGAGGACAA AGATAGCCGG CAGCCGCTGC TCTGGGCTTC CTCGGCTGGC
TCTGCCAAGG CTGTCCTGGC TTTGATCAAA GCCGGCGCAC AGGTCGAGAG TGCAGATAAG
GATGGACTCA CGGCACTTCA CTGTGCCGCG TCCCGAGGCC ACACGGAATG TATAGACACG
TTGATCAATC TATGTGGAGC GCACACCGAT CAGATCGACT CCAATGGGTG CACGGCTCTG
CACTACTCCG TGACGTTAGG TCACGCGGAT GCTACCTCCT TGCTGCTCAA GCTGGATGCC
GATCCAAACC GACAGGACCG AAAAGGCCGA ACTCCAGCAC ATTGTGGCTG TGCGAAAGGG
CAAATGGAAA CGGTGAAAAT TTTGCACATG AAGAAAGGGA ACTTGTGGCT GAGGAATGCG
AAGGGAGATT TTCCGGTTCA TGACGCCGCC AGCTCTGGAA GGAGACAGCT GGTACAGTGG
CTTTTGCAGA TGAAGCCAAA GCACATCAAC ACTCCAAGTA ACGATGGAAG AACGCTTTTG
CACATTGCGG CAGGGCACGA TAATGTGGAC ATGTGTAAGC TCTTGCTGGA ATCTGGAGCG
GAGATGAATC ACCTGTACAG ACCGGCAAAA GGTTCGCCCA TGACTCCACT TGACTACGCA
CTGGCGAAAG GCTTCCGATC AACGGCAAAG TTTCTCCAGA TGCAAGGAGG ACTTCCAGCT
AATAAGTTGC GCCTATCCAG TCGGCAGCAG AAAATTCTTC CAGATATAGA CAAGGTTGAA
CCCTTAAAAC TCACAGAAAA AGAAGAATTG ATCGACCTGA AGACTTCCAA GCGATACGTA
GTGTACTTGA ACTCCAATTC TGAATCGGAG AGTCAAGATG ATCGATCTCA CCGCAAGAGC
AGACACAAAC GAAAAGGAAG TCACCGAGCT CGTCGAACGA GCAGCTGCAG TGATAGCGTA
TTTCTCTACC GGGAAGGCGC AGCCGATATA AGTCGCTCTC GAAGCAACGT CGAACTAAAC
CGGACCCATC ATCATCACCA TCGCAGGCAC CATCACCGAA GCAATAGTTC TTCATCGGCT
TCCAGCAGCG ATTCGTCTTC GGATGACTGT TGCAAGCATA TAAAACGACG GCACAAGTGT
TACAAGAAGT GTTCATCTAA ATCGGCGAGA TCTAAGGATC GGTCGCACAG GGAAAGGGAT
CGTGACCGGG AGAAGGAACC TAAAGAACCG AAGGAGTATG AATTTATGTA TGCCGAGCAA
CGAGAAGCAG GAAAGCCACG TAAACCGGGA GAACGCATGG GAAGGATTGT GTTGAAAGAG
GTGCACAGTG GATCATCGGA GAACGAATCG CCAGAGAGTG ACCGACGAGG CAGCACATCG
AGATTAACCG GAAAGAGTGG CCCATTACTG ACGGTGCCGC CGGAAGTTTT GGGATTATTA
GACGATCAAT CACTGCCGAA ACCACCACCC AAAGCTGAGT TCAACATCAG GAAGGAGTCT
GATGTAAAAA GCGATGGCAA ATCTTCGGAC ACCAGCGTCA AGAAGGTGAA GAAAGGTAAG
GGAAACGGGA AGAAAGGTAA AGCATCTGGG AAAGTGAAGA AGACCGATTC GCCAAGTGAG
GAGGAAACGA AAGACAAGCA GAAGCAACAG CAGGGGGAGA AGATTGTGAC GGAAGCTCTG
GTGCACCCGG TGCCGGAGAC TATGGCCAAG TCCACAGAAG ATGATGGTGC AGCTACCGAT
GCGACATACA CAATCGATCA GAAAACCAAA TCCGATTACG AGGGGTTCAG CGAATCCGAG
ACTGGGAAAG GGAAAGGCAA ACCAGAGACA ATAATGGAAG CTAAGGATGA GACCGTGCAG
GAAGTTCCAC CGGCGGTCCC TTTAGAGGTA AAGGAGGAGG TGGTTCCGGC TCCAAAAAAG
GAACGGCCAA AGCTAAAGTC AAACAAAGAC AGTAGCACAA GCCGATCCAG CAAATCCAAG
TCGGATTCGT CGGAAAAGGA GATGCCAAAG CAGAAACCAA AGCCGAAAGC GGAAGCAACT
CCTGTGGTGA CAGCGCCAAC GCCGCAGCCA ACGCCACCAC CGCCACCTCC TCCTGAACCG
GAACCAGAAC GCGTTGTACC AGAACCCGAA CCCGAACCTG CTGTTGAGGA GCCTCCAATT
GTGGTAGAAA CTCATGTACA GGAGGAGGAA AAGCCTTCGG AGTTACCGGT TGTAGTGCCA
GAGGCTGAAC CTGTGCCTGC AGTCACCGAC GGAGAGGCAG TTGTTCCCCA AGAGATTCCG
GTGACAGAAC CGCCTGAGTC GGAACCCGAA CCGAAGCCAG AACCGGAGCA AGCACCCGAG
TCGAAACCGG AACTTGCAGC TGTTGAGCAA TCGACAACTG AGGAGAAGAG CTCTGAAGTT
GAAGAATCGC CTTCGAAATC AAGTGAAGAT CAGACCGAGC AGCAGCCGCC AGAACCGGAA
GAACCGCCAA AGCCCGAACC GAGTGGAGAC CAAGCTCTAC CACCAACCCC CAAAGAAGAT
TCTCCTAAGA AGGTCAGTTT TGACAGAGAA CGACCGAAGC TGAGGCGATC TGGCGAGTCC
ATGGTGGAGC ACGTGGAGGA AGAGGAAGTT CGAACGGAAG AGGATGCCGT TGTTCCACTA
GCGGCAGCTG CAGCAGTTGA CCAAGAGAAG GTCGATTCGA CACGAAGTTT CTACGTGAGT
TTGGCGGATG GAGAAGAAGG CGACGAGAAG AAGAAACGAA AATTGAAAAA GAGGAAATCC
AAGGAAGACA AAGCCGACGA AGAAGCACAA AGTAGCAAGG ATCAGGACTC CGGTTTTGAG
CCAAGTCCGC AATCGGTACG CAGTAAGTCG ACTGTGTTCG ACCGTCCAAC GAGTACGGCG
GTGTTATCCA AGAGGCCAGC ATTTACAATG GTAGAGGAGC GAGCGATCAG CTCCAGGCCG
GATGGTCGCA AACCTGGCGA CAAGAATGCT GTTAACATGA CCACCGTGCA ACAGTCCATC
CAGCGAAATA TTCGAAGATA CTACATGGAG AGAAAAATTT TCCAACACCT GCTGGAGCTG
AAAAGCCTCC AGATCCGCTC GACCAAGGTC AACGAGAGCG CCCTGGTGAA GAGGGCCGTA
GACGACTACC ACAAGTCGAC GATCGAGCTG GGCTACGAGA CGGGCTCGAC ACTCAAGCGC
TATCCCTACT CGGAGTACTC GTTCAAGAAC TTCGAGCTGT TCCTGTACGA CACGTTGAAG
AGCCTACAGA AGCGCGAGAC GTACAACTTC CAGAACATCT CCGAGGTGTA CGACGAGCAA
GAGGCCGAAC GTCGATCCAG CCCCGATGTA AGTCGATACG AACGAGCCCT GAACTGCACC
ACCAAGACCC ATCGCTGCCT TCATGCCACC CACGCGTACA CGGGAATCCC TTGCGCTGCC
TACATCCCCA TGATGAACCA TCACACGATG CCCAAGCTCG GATTTGGCCA GTACAAATCG
TCCCCCAGTG GGGTTGGCAG TTTTTTCCTG CCGAAAATTC TCACCAACCC AACGGACCGG
AGCTGCCCCG GAAGTAGCGC CAGCTATCTA ACACCCATAG GCGGCGGCGG CGGAGCAGCA
AGCAAGGGAA GTCCGCGGAA GGTCAGCCTC ACCAACAGCA GCAGTCCTCT TCCAGTGATG
CCCAGCATTC GGCCGAACGG CAACAGCTCC AACAGCAACA TCAACAGCAG CAGTCCCACT
CAAGCTCCCT TCCAGCTGTT GTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_021693552.1 CDS 417..4520 Translation
Target ORF information:
RefSeq Version XM_021837860.1 Organism Aedes aegypti(yellow fever mosquito) Definition Aedes aegypti ankyrin repeat domain-containing protein 12 (LOC5578805), transcript variant X7, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_021837860.1
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
4081ATGGTGGCCC CGGAGCTGAT CGAGCAGGCC GATGAGGACG GGTTCACGCC ACTGCATCTG
GCCGTCATCC AGGGCAACCT GCAGCTGGTC AACCTGCTGC TGGCGAACGG GGCCGACGTG
AACGCGCTGG ACAACGAGGG CCACTCGGTG GTGCACTGGG CCACAGTATG CGGCGAAGTG
GAAGCTCTCC GTGCGGTGCT GGCGGCCGGT GCCGACGTGT CCACTCCGGA CATCAACGGG
GGCAGCCCGT TGCACTACGC CGCCCAGATG TGCGGCGCCA ACTATGAGGG CAAAACGGCT
CGTGCCTCGG CCAAACTGGC ACTGGAGATC CTCGGAACGC TGCTGGCCCA TCCGGACACT
TCGGTCGAAG TAGAGGACAA AGATAGCCGG CAGCCGCTGC TCTGGGCTTC CTCGGCTGGC
TCTGCCAAGG CTGTCCTGGC TTTGATCAAA GCCGGCGCAC AGGTCGAGAG TGCAGATAAG
GATGGACTCA CGGCACTTCA CTGTGCCGCG TCCCGAGGCC ACACGGAATG TATAGACACG
TTGATCAATC TATGTGGAGC GCACACCGAT CAGATCGACT CCAATGGGTG CACGGCTCTG
CACTACTCCG TGACGTTAGG TCACGCGGAT GCTACCTCCT TGCTGCTCAA GCTGGATGCC
GATCCAAACC GACAGGACCG AAAAGGCCGA ACTCCAGCAC ATTGTGGCTG TGCGAAAGGG
CAAATGGAAA CGGTGAAAAT TTTGCACATG AAGAAAGGGA ACTTGTGGCT GAGGAATGCG
AAGGGAGATT TTCCGGTTCA TGACGCCGCC AGCTCTGGAA GGAGACAGCT GGTACAGTGG
CTTTTGCAGA TGAAGCCAAA GCACATCAAC ACTCCAAGTA ACGATGGAAG AACGCTTTTG
CACATTGCGG CAGGGCACGA TAATGTGGAC ATGTGTAAGC TCTTGCTGGA ATCTGGAGCG
GAGATGAATC ACCTGTACAG ACCGGCAAAA GGTTCGCCCA TGACTCCACT TGACTACGCA
CTGGCGAAAG GCTTCCGATC AACGGCAAAG TTTCTCCAGA TGCAAGGAGG ACTTCCAGCT
AATAAGTTGC GCCTATCCAG TCGGCAGCAG AAAATTCTTC CAGATATAGA CAAGGTTGAA
CCCTTAAAAC TCACAGAAAA AGAAGAATTG ATCGACCTGA AGACTTCCAA GCGATACGTA
GTGTACTTGA ACTCCAATTC TGAATCGGAG AGTCAAGATG ATCGATCTCA CCGCAAGAGC
AGACACAAAC GAAAAGGAAG TCACCGAGCT CGTCGAACGA GCAGCTGCAG TGATAGCGTA
TTTCTCTACC GGGAAGGCGC AGCCGATATA AGTCGCTCTC GAAGCAACGT CGAACTAAAC
CGGACCCATC ATCATCACCA TCGCAGGCAC CATCACCGAA GCAATAGTTC TTCATCGGCT
TCCAGCAGCG ATTCGTCTTC GGATGACTGT TGCAAGCATA TAAAACGACG GCACAAGTGT
TACAAGAAGT GTTCATCTAA ATCGGCGAGA TCTAAGGATC GGTCGCACAG GGAAAGGGAT
CGTGACCGGG AGAAGGAACC TAAAGAACCG AAGGAGTATG AATTTATGTA TGCCGAGCAA
CGAGAAGCAG GAAAGCCACG TAAACCGGGA GAACGCATGG GAAGGATTGT GTTGAAAGAG
GTGCACAGTG GATCATCGGA GAACGAATCG CCAGAGAGTG ACCGACGAGG CAGCACATCG
AGATTAACCG GAAAGAGTGG CCCATTACTG ACGGTGCCGC CGGAAGTTTT GGGATTATTA
GACGATCAAT CACTGCCGAA ACCACCACCC AAAGCTGAGT TCAACATCAG GAAGGAGTCT
GATGTAAAAA GCGATGGCAA ATCTTCGGAC ACCAGCGTCA AGAAGGTGAA GAAAGGTAAG
GGAAACGGGA AGAAAGGTAA AGCATCTGGG AAAGTGAAGA AGACCGATTC GCCAAGTGAG
GAGGAAACGA AAGACAAGCA GAAGCAACAG CAGGGGGAGA AGATTGTGAC GGAAGCTCTG
GTGCACCCGG TGCCGGAGAC TATGGCCAAG TCCACAGAAG ATGATGGTGC AGCTACCGAT
GCGACATACA CAATCGATCA GAAAACCAAA TCCGATTACG AGGGGTTCAG CGAATCCGAG
ACTGGGAAAG GGAAAGGCAA ACCAGAGACA ATAATGGAAG CTAAGGATGA GACCGTGCAG
GAAGTTCCAC CGGCGGTCCC TTTAGAGGTA AAGGAGGAGG TGGTTCCGGC TCCAAAAAAG
GAACGGCCAA AGCTAAAGTC AAACAAAGAC AGTAGCACAA GCCGATCCAG CAAATCCAAG
TCGGATTCGT CGGAAAAGGA GATGCCAAAG CAGAAACCAA AGCCGAAAGC GGAAGCAACT
CCTGTGGTGA CAGCGCCAAC GCCGCAGCCA ACGCCACCAC CGCCACCTCC TCCTGAACCG
GAACCAGAAC GCGTTGTACC AGAACCCGAA CCCGAACCTG CTGTTGAGGA GCCTCCAATT
GTGGTAGAAA CTCATGTACA GGAGGAGGAA AAGCCTTCGG AGTTACCGGT TGTAGTGCCA
GAGGCTGAAC CTGTGCCTGC AGTCACCGAC GGAGAGGCAG TTGTTCCCCA AGAGATTCCG
GTGACAGAAC CGCCTGAGTC GGAACCCGAA CCGAAGCCAG AACCGGAGCA AGCACCCGAG
TCGAAACCGG AACTTGCAGC TGTTGAGCAA TCGACAACTG AGGAGAAGAG CTCTGAAGTT
GAAGAATCGC CTTCGAAATC AAGTGAAGAT CAGACCGAGC AGCAGCCGCC AGAACCGGAA
GAACCGCCAA AGCCCGAACC GAGTGGAGAC CAAGCTCTAC CACCAACCCC CAAAGAAGAT
TCTCCTAAGA AGGTCAGTTT TGACAGAGAA CGACCGAAGC TGAGGCGATC TGGCGAGTCC
ATGGTGGAGC ACGTGGAGGA AGAGGAAGTT CGAACGGAAG AGGATGCCGT TGTTCCACTA
GCGGCAGCTG CAGCAGTTGA CCAAGAGAAG GTCGATTCGA CACGAAGTTT CTACGTGAGT
TTGGCGGATG GAGAAGAAGG CGACGAGAAG AAGAAACGAA AATTGAAAAA GAGGAAATCC
AAGGAAGACA AAGCCGACGA AGAAGCACAA AGTAGCAAGG ATCAGGACTC CGGTTTTGAG
CCAAGTCCGC AATCGGTACG CAGTAAGTCG ACTGTGTTCG ACCGTCCAAC GAGTACGGCG
GTGTTATCCA AGAGGCCAGC ATTTACAATG GTAGAGGAGC GAGCGATCAG CTCCAGGCCG
GATGGTCGCA AACCTGGCGA CAAGAATGCT GTTAACATGA CCACCGTGCA ACAGTCCATC
CAGCGAAATA TTCGAAGATA CTACATGGAG AGAAAAATTT TCCAACACCT GCTGGAGCTG
AAAAGCCTCC AGATCCGCTC GACCAAGGTC AACGAGAGCG CCCTGGTGAA GAGGGCCGTA
GACGACTACC ACAAGTCGAC GATCGAGCTG GGCTACGAGA CGGGCTCGAC ACTCAAGCGC
TATCCCTACT CGGAGTACTC GTTCAAGAAC TTCGAGCTGT TCCTGTACGA CACGTTGAAG
AGCCTACAGA AGCGCGAGAC GTACAACTTC CAGAACATCT CCGAGGTGTA CGACGAGCAA
GAGGCCGAAC GTCGATCCAG CCCCGATGTA AGTCGATACG AACGAGCCCT GAACTGCACC
ACCAAGACCC ATCGCTGCCT TCATGCCACC CACGCGTACA CGGGAATCCC TTGCGCTGCC
TACATCCCCA TGATGAACCA TCACACGATG CCCAAGCTCG GATTTGGCCA GTACAAATCG
TCCCCCAGTG GGGTTGGCAG TTTTTTCCTG CCGAAAATTC TCACCAACCC AACGGACCGG
AGCTGCCCCG GAAGTAGCGC CAGCTATCTA ACACCCATAG GCGGCGGCGG CGGAGCAGCA
AGCAAGGGAA GTCCGCGGAA GGTCAGCCTC ACCAACAGCA GCAGTCCTCT TCCAGTGATG
CCCAGCATTC GGCCGAACGG CAACAGCTCC AACAGCAACA TCAACAGCAG CAGTCCCACT
CAAGCTCCCT TCCAGCTGTT GTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAe116790 Clone ID Related Accession (Same CDS sequence) XM_021837861.1 Accession Version XM_021837861.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4026bp)
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 ankyrin repeat domain-containing protein 12 isoform X6 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. 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
4021ATGGAGGCGA AGAGTAAGCA GCACACCGCA GCAGTCCTTC CACAGCCAAC GGCTTCGCCT
CTGAGAGCCC CCACACAAGC TGCTGCTGCT GCTGCTGGTA GTGGAGGAAC AGCGAGCCGC
CGGAAACCGT CGGCCCTTGC CAATCGCGAC CAGCAGCTAC CGGGCAAACC GAAGCACACG
GTCAAGTTTA GGGAGCAAGG CGACCAGGAG CTTCTGGTGG TGACAATCGA ACCTTCTTCG
TCCCCTGCTG GCGGCACCTG TCAGCTACCG GCGCTAACTA CCACTTCGGA ATCGACATCC
GACCGACCAG GGACTGCCAC CCATCATCGG GGAACCCCGT ATCCCTCCTT GGCGGCGGGC
GACCTAAGAA AACCTAAGGA GAAAGCTAAA TCAAGTGAAC AACGGACGAA AAAGGCGGCT
ACCTCGCCGG CGACGCAAGC GTCCAGTGTA GTCCGGCAGC ACGGTCAGCG ACTCGCGGAA
GGATGCACGA CGCTTATGTA TGCCTGCCAG CAGGGACTTA CCGAGGAAAT TGTTAAGGAA
TTGCGCGAAA AGCCGGACGT CGTCCACCGG CGGGACCGGA ACAACCGCGG GGCCCTTCAC
TACGCCAGCA GCTCGAGGGA CGTTGTGGCC GCGGCCAGTG TCGCAATGGT GGCCCCGGAG
CTGATCGAGC AGGCCGATGA GGACGGGTTC ACGCCACTGC ATCTGGCCGT CATCCAGGGC
AACCTGCAGC TGGTCAACCT GCTGCTGGCG AACGGGGCCG ACGTGAACGC GCTGGACAAC
GAGGGCCACT CGGTGGTGCA CTGGGCCACA GTATGCGGCG AAGTGGAAGC TCTCCGTGCG
GTGCTGGCGG CCGGTGCCGA CGTGTCCACT CCGGACATCA ACGGGGGCAG CCCGTTGCAC
TACGCCGCCC AGATGTGCGG CGCCAACTAT GAGGGCAAAA CGGCTCGTGC CTCGGCCAAA
CTGGCACTGG AGATCCTCGG AACGCTGCTG GCCCATCCGG ACACTTCGGT CGAAGTAGAG
GACAAAGATA GCCGGCAGCC GCTGCTCTGG GCTTCCTCGG CTGGCTCTGC CAAGGCTGTC
CTGGCTTTGA TCAAAGCCGG CGCACAGGTC GAGAGTGCAG ATAAGGATGG ACTCACGGCA
CTTCACTGTG CCGCGTCCCG AGGCCACACG GAATGTATAG ACACGTTGAT CAATCTATGT
GGAGCGCACA CCGATCAGAT CGACTCCAAT GGGTGCACGG CTCTGCACTA CTCCGTGACG
TTAGGTCACG CGGATGCTAC CTCCTTGCTG CTCAAGCTGG ATGCCGATCC AAACCGACAG
GACCGAAAAG GCCGAACTCC AGCACATTGT GGCTGTGCGA AAGGGCAAAT GGAAACGGTG
AAAATTTTGC ACATGAAGAA AGGGAACTTG TGGCTGAGGA ATGCGAAGGG AGATTTTCCG
GTTCATGACG CCGCCAGCTC TGGAAGGAGA CAGCTGGTAC AGTGGCTTTT GCAGATGAAG
CCAAAGCACA TCAACACTCC AAGTAACGAT GGAAGAACGC TTTTGCACAT TGCGGCAGGG
CACGATAATG TGGACATGTG TAAGCTCTTG CTGGAATCTG GAGCGGAGAT GAATCACCTG
TACAGACCGG CAAAAGGTTC GCCCATGACT CCACTTGACT ACGCACTGGC GAAAGGCTTC
CGATCAACGG CAAAGTTTCT CCAGATGCAA GGAGGACTTC CAGCTAATAA GTTGCGCCTA
TCCAGTCGGC AGCAGAAAAT TCTTCCAGAT ATAGACAAGG TTGAACCCTT AAAACTCACA
GAAAAAGAAG AATTGATCGA CCTGAAGACT TCCAAGCGAT ACGTAGTGTA CTTGAACTCC
AATTCTGAAT CGGAGAGTCA AGATGATCGA TCTCACCGCA AGAGCAGACA CAAACGAAAA
GGAAGTCACC GAGCTCGTCG AACGAGCAGC TGCAGTGATA GCGTATTTCT CTACCGGGAA
GGCGCAGCCG ATATAAGTCG CTCTCGAAGC AACGTCGAAC TAAACCGGAC CCATCATCAT
CACCATCGCA GGCACCATCA CCGAAGCAAT AGTTCTTCAT CGGCTTCCAG CAGCGATTCG
TCTTCGGATG ACTGTTGCAA GCATATAAAA CGACGGCACA AGTGTTACAA GAAGTGTTCA
TCTAAATCGG CGAGATCTAA GGATCGGTCG CACAGGGAAA GGGATCGTGA CCGGGAGAAG
GAACCTAAAG AACCGAAGGA GTATGAATTT ATGTATGCCG AGCAACGAGA AGCAGGAAAG
CCACGTAAAC CGGGAGAACG CATGGGAAGG ATTGTGTTGA AAGAGGTGCA CAGTGGATCA
TCGGAGAACG AATCGCCAGA GAGTGACCGA CGAGGCAGCA CATCGAGATT AACCGGAAAG
AGTGGCCCAT TACTGACGGT GCCGCCGGAA GTTTTGGGAT TATTAGACGA TCAATCACTG
CCGAAACCAC CACCCAAAGC TGAGTTCAAC ATCAGGAAGG AGTCTGATGT AAAAAGCGAT
GGCAAATCTT CGGACACCAG CGTCAAGAAG GTGAAGAAAG GTAAGGGAAA CGGGAAGAAA
GGTAAAGCAT CTGGGAAAGT GAAGAAGACC GATTCGCCAA GTGAGGAGGA AACGAAAGAC
AAGCAGAAGC AACAGCAGGG GGAGAAGATT GTGACGGAAG CTCTGGTGCA CCCGGTGCCG
GAGACTATGG CCAAGTCCAC AGAAGATGAT GGTGCAGCTA CCGATGCGAC ATACACAATC
GATCAGAAAA CCAAATCCGA TTACGAGGGG TTCAGCGAAT CCGAGACTGG GAAAGGGAAA
GGCAAACCAG AGACAATAAT GGAAGCTAAG GATGAGACCG TGCAGGAAGT TCCACCGGCG
GTCCCTTTAG AGGTAAAGGA GGAGGTGGTT CCGGCTCCAA AAAAGGAACG GCCAAAGCTA
AAGTCAAACA AAGACAGTAG CACAAGCCGA TCCAGCAAAT CCAAGTCGGA TTCGTCGGAA
AAGGAGATGC CAAAGCAGAA ACCAAAGCCG AAAGCGGAAG CAACTCCTGT GGTGACAGCG
CCAACGCCGC AGCCAACGCC ACCACCGCCA CCTCCTCCTG AACCGGAACC AGAACGCGTT
GTACCAGAAC CCGAACCCGA ACCTGCTGTT GAGGAGCCTC CAATTGTGGT AGAAACTCAT
GTACAGGAGG AGGAAAAGCC TTCGGAGTTA CCGGTTGTAG TGCCAGAGGC TGAACCTGTG
CCTGCAGTCA CCGACGGAGA GGCAGTTGTT CCCCAAGAGA TTCCGGTGAC AGAACCGCCT
GAGTCGGAAC CCGAACCGAA GCCAGAACCG GAGCAAGCAC CCGAGTCGAA ACCGGAACTT
GCAGCTGTTG AGCAATCGAC AACTGAGGAG AAGAGCTCTG AAGTTGAAGA ATCGCCTTCG
AAATCAAGTG AAGATCAGAC CGAGCAGCAG CCGCCAGAAC CGGAAGAACC GCCAAAGCCC
GAACCGAGTG GAGACCAAGC TCTACCACCA ACCCCCAAAG AAGATTCTCC TAAGAAGGTC
AGTTTTGACA GAGAACGACC GAAGCTGAGG CGATCTGGCG AGTCCATGGT GGAGCACGTG
GAGGAAGAGG AAGTTCGAAC GGAAGAGGAT GCCGTTGTTC CACTAGCGGC AGCTGCAGCA
GTTGACCAAG AGAAGGTCGA TTCGACACGA AGTTTCTACG TGAGTTTGGC GGATGGAGAA
GAAGGCGACG AGAAGAAGAA ACGAAAATTG AAAAAGAGGA AATCCAAGGA AGACAAAGCC
GACGAAGAAG CACAAAGTAG CAAGGATCAG GACTCCGGTT TTGAGCCAAG TCCGCAATCG
GTACGCAGTA AGTCGACTGT GTTCGACCGT CCAACGAGTA CGGCGGTGTT ATCCAAGAGG
CCAGCATTTA CAATGGTAGA GGAGCGAGCG ATCAGCTCCA GGCCGGATGG TCGCAAACCT
GGCGACAAGA ATGCTGTTAA CATGACCACC GTGCAACAGT CCATCCAGCG AAATATTCGA
AGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_021693553.1 CDS 202..4227 Translation
Target ORF information:
RefSeq Version XM_021837861.1 Organism Aedes aegypti(yellow fever mosquito) Definition Aedes aegypti ankyrin repeat domain-containing protein 12 (LOC5578805), transcript variant X8, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_021837861.1
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
4021ATGGAGGCGA AGAGTAAGCA GCACACCGCA GCAGTCCTTC CACAGCCAAC GGCTTCGCCT
CTGAGAGCCC CCACACAAGC TGCTGCTGCT GCTGCTGGTA GTGGAGGAAC AGCGAGCCGC
CGGAAACCGT CGGCCCTTGC CAATCGCGAC CAGCAGCTAC CGGGCAAACC GAAGCACACG
GTCAAGTTTA GGGAGCAAGG CGACCAGGAG CTTCTGGTGG TGACAATCGA ACCTTCTTCG
TCCCCTGCTG GCGGCACCTG TCAGCTACCG GCGCTAACTA CCACTTCGGA ATCGACATCC
GACCGACCAG GGACTGCCAC CCATCATCGG GGAACCCCGT ATCCCTCCTT GGCGGCGGGC
GACCTAAGAA AACCTAAGGA GAAAGCTAAA TCAAGTGAAC AACGGACGAA AAAGGCGGCT
ACCTCGCCGG CGACGCAAGC GTCCAGTGTA GTCCGGCAGC ACGGTCAGCG ACTCGCGGAA
GGATGCACGA CGCTTATGTA TGCCTGCCAG CAGGGACTTA CCGAGGAAAT TGTTAAGGAA
TTGCGCGAAA AGCCGGACGT CGTCCACCGG CGGGACCGGA ACAACCGCGG GGCCCTTCAC
TACGCCAGCA GCTCGAGGGA CGTTGTGGCC GCGGCCAGTG TCGCAATGGT GGCCCCGGAG
CTGATCGAGC AGGCCGATGA GGACGGGTTC ACGCCACTGC ATCTGGCCGT CATCCAGGGC
AACCTGCAGC TGGTCAACCT GCTGCTGGCG AACGGGGCCG ACGTGAACGC GCTGGACAAC
GAGGGCCACT CGGTGGTGCA CTGGGCCACA GTATGCGGCG AAGTGGAAGC TCTCCGTGCG
GTGCTGGCGG CCGGTGCCGA CGTGTCCACT CCGGACATCA ACGGGGGCAG CCCGTTGCAC
TACGCCGCCC AGATGTGCGG CGCCAACTAT GAGGGCAAAA CGGCTCGTGC CTCGGCCAAA
CTGGCACTGG AGATCCTCGG AACGCTGCTG GCCCATCCGG ACACTTCGGT CGAAGTAGAG
GACAAAGATA GCCGGCAGCC GCTGCTCTGG GCTTCCTCGG CTGGCTCTGC CAAGGCTGTC
CTGGCTTTGA TCAAAGCCGG CGCACAGGTC GAGAGTGCAG ATAAGGATGG ACTCACGGCA
CTTCACTGTG CCGCGTCCCG AGGCCACACG GAATGTATAG ACACGTTGAT CAATCTATGT
GGAGCGCACA CCGATCAGAT CGACTCCAAT GGGTGCACGG CTCTGCACTA CTCCGTGACG
TTAGGTCACG CGGATGCTAC CTCCTTGCTG CTCAAGCTGG ATGCCGATCC AAACCGACAG
GACCGAAAAG GCCGAACTCC AGCACATTGT GGCTGTGCGA AAGGGCAAAT GGAAACGGTG
AAAATTTTGC ACATGAAGAA AGGGAACTTG TGGCTGAGGA ATGCGAAGGG AGATTTTCCG
GTTCATGACG CCGCCAGCTC TGGAAGGAGA CAGCTGGTAC AGTGGCTTTT GCAGATGAAG
CCAAAGCACA TCAACACTCC AAGTAACGAT GGAAGAACGC TTTTGCACAT TGCGGCAGGG
CACGATAATG TGGACATGTG TAAGCTCTTG CTGGAATCTG GAGCGGAGAT GAATCACCTG
TACAGACCGG CAAAAGGTTC GCCCATGACT CCACTTGACT ACGCACTGGC GAAAGGCTTC
CGATCAACGG CAAAGTTTCT CCAGATGCAA GGAGGACTTC CAGCTAATAA GTTGCGCCTA
TCCAGTCGGC AGCAGAAAAT TCTTCCAGAT ATAGACAAGG TTGAACCCTT AAAACTCACA
GAAAAAGAAG AATTGATCGA CCTGAAGACT TCCAAGCGAT ACGTAGTGTA CTTGAACTCC
AATTCTGAAT CGGAGAGTCA AGATGATCGA TCTCACCGCA AGAGCAGACA CAAACGAAAA
GGAAGTCACC GAGCTCGTCG AACGAGCAGC TGCAGTGATA GCGTATTTCT CTACCGGGAA
GGCGCAGCCG ATATAAGTCG CTCTCGAAGC AACGTCGAAC TAAACCGGAC CCATCATCAT
CACCATCGCA GGCACCATCA CCGAAGCAAT AGTTCTTCAT CGGCTTCCAG CAGCGATTCG
TCTTCGGATG ACTGTTGCAA GCATATAAAA CGACGGCACA AGTGTTACAA GAAGTGTTCA
TCTAAATCGG CGAGATCTAA GGATCGGTCG CACAGGGAAA GGGATCGTGA CCGGGAGAAG
GAACCTAAAG AACCGAAGGA GTATGAATTT ATGTATGCCG AGCAACGAGA AGCAGGAAAG
CCACGTAAAC CGGGAGAACG CATGGGAAGG ATTGTGTTGA AAGAGGTGCA CAGTGGATCA
TCGGAGAACG AATCGCCAGA GAGTGACCGA CGAGGCAGCA CATCGAGATT AACCGGAAAG
AGTGGCCCAT TACTGACGGT GCCGCCGGAA GTTTTGGGAT TATTAGACGA TCAATCACTG
CCGAAACCAC CACCCAAAGC TGAGTTCAAC ATCAGGAAGG AGTCTGATGT AAAAAGCGAT
GGCAAATCTT CGGACACCAG CGTCAAGAAG GTGAAGAAAG GTAAGGGAAA CGGGAAGAAA
GGTAAAGCAT CTGGGAAAGT GAAGAAGACC GATTCGCCAA GTGAGGAGGA AACGAAAGAC
AAGCAGAAGC AACAGCAGGG GGAGAAGATT GTGACGGAAG CTCTGGTGCA CCCGGTGCCG
GAGACTATGG CCAAGTCCAC AGAAGATGAT GGTGCAGCTA CCGATGCGAC ATACACAATC
GATCAGAAAA CCAAATCCGA TTACGAGGGG TTCAGCGAAT CCGAGACTGG GAAAGGGAAA
GGCAAACCAG AGACAATAAT GGAAGCTAAG GATGAGACCG TGCAGGAAGT TCCACCGGCG
GTCCCTTTAG AGGTAAAGGA GGAGGTGGTT CCGGCTCCAA AAAAGGAACG GCCAAAGCTA
AAGTCAAACA AAGACAGTAG CACAAGCCGA TCCAGCAAAT CCAAGTCGGA TTCGTCGGAA
AAGGAGATGC CAAAGCAGAA ACCAAAGCCG AAAGCGGAAG CAACTCCTGT GGTGACAGCG
CCAACGCCGC AGCCAACGCC ACCACCGCCA CCTCCTCCTG AACCGGAACC AGAACGCGTT
GTACCAGAAC CCGAACCCGA ACCTGCTGTT GAGGAGCCTC CAATTGTGGT AGAAACTCAT
GTACAGGAGG AGGAAAAGCC TTCGGAGTTA CCGGTTGTAG TGCCAGAGGC TGAACCTGTG
CCTGCAGTCA CCGACGGAGA GGCAGTTGTT CCCCAAGAGA TTCCGGTGAC AGAACCGCCT
GAGTCGGAAC CCGAACCGAA GCCAGAACCG GAGCAAGCAC CCGAGTCGAA ACCGGAACTT
GCAGCTGTTG AGCAATCGAC AACTGAGGAG AAGAGCTCTG AAGTTGAAGA ATCGCCTTCG
AAATCAAGTG AAGATCAGAC CGAGCAGCAG CCGCCAGAAC CGGAAGAACC GCCAAAGCCC
GAACCGAGTG GAGACCAAGC TCTACCACCA ACCCCCAAAG AAGATTCTCC TAAGAAGGTC
AGTTTTGACA GAGAACGACC GAAGCTGAGG CGATCTGGCG AGTCCATGGT GGAGCACGTG
GAGGAAGAGG AAGTTCGAAC GGAAGAGGAT GCCGTTGTTC CACTAGCGGC AGCTGCAGCA
GTTGACCAAG AGAAGGTCGA TTCGACACGA AGTTTCTACG TGAGTTTGGC GGATGGAGAA
GAAGGCGACG AGAAGAAGAA ACGAAAATTG AAAAAGAGGA AATCCAAGGA AGACAAAGCC
GACGAAGAAG CACAAAGTAG CAAGGATCAG GACTCCGGTT TTGAGCCAAG TCCGCAATCG
GTACGCAGTA AGTCGACTGT GTTCGACCGT CCAACGAGTA CGGCGGTGTT ATCCAAGAGG
CCAGCATTTA CAATGGTAGA GGAGCGAGCG ATCAGCTCCA GGCCGGATGG TCGCAAACCT
GGCGACAAGA ATGCTGTTAA CATGACCACC GTGCAACAGT CCATCCAGCG AAATATTCGA
AGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAe116785 Clone ID Related Accession (Same CDS sequence) XM_021837854.1 , XM_021837856.1 , XM_021837855.1 Accession Version XM_021837854.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4749bp)
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 ankyrin repeat domain-containing protein 12 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
4381
4441
4501
4561
4621
4681
4741ATGGAGGCGA AGAGTAAGCA GCACACCGCA GCAGTCCTTC CACAGCCAAC GGCTTCGCCT
CTGAGAGCCC CCACACAAGC TGCTGCTGCT GCTGCTGGTA GTGGAGGAAC AGCGAGCCGC
CGGAAACCGT CGGCCCTTGC CAATCGCGAC CAGCAGCTAC CGGGCAAACC GAAGCACACG
GTCAAGTTTA GGGAGCAAGG CGACCAGGAG CTTCTGGTGG TGACAATCGA ACCTTCTTCG
TCCCCTGCTG GCGGCACCTG TCAGCTACCG GCGCTAACTA CCACTTCGGA ATCGACATCC
GACCGACCAG GGACTGCCAC CCATCATCGG GGAACCCCGT ATCCCTCCTT GGCGGCGGGC
GACCTAAGAA AACCTAAGGA GAAAGCTAAA TCAAGTGAAC AACGGACGAA AAAGGCGGCT
ACCTCGCCGG CGACGCAAGC GTCCAGTGTA GTCCGGCAGC ACGGTCAGCG ACTCGCGGAA
GGATGCACGA CGCTTATGTA TGCCTGCCAG CAGGGACTTA CCGAGGAAAT TGTTAAGGAA
TTGCGCGAAA AGCCGGACGT CGTCCACCGG CGGGACCGGA ACAACCGCGG GGCCCTTCAC
TACGCCAGCA GCTCGAGGGA CGTTGTGGCC GCGGCCAGTG TCGCAATGGT GGCCCCGGAG
CTGATCGAGC AGGCCGATGA GGACGGGTTC ACGCCACTGC ATCTGGCCGT CATCCAGGGC
AACCTGCAGC TGGTCAACCT GCTGCTGGCG AACGGGGCCG ACGTGAACGC GCTGGACAAC
GAGGGCCACT CGGTGGTGCA CTGGGCCACA GTATGCGGCG AAGTGGAAGC TCTCCGTGCG
GTGCTGGCGG CCGGTGCCGA CGTGTCCACT CCGGACATCA ACGGGGGCAG CCCGTTGCAC
TACGCCGCCC AGATGTGCGG CGCCAACTAT GAGGGCAAAA CGGCTCGTGC CTCGGCCAAA
CTGGCACTGG AGATCCTCGG AACGCTGCTG GCCCATCCGG ACACTTCGGT CGAAGTAGAG
GACAAAGATA GCCGGCAGCC GCTGCTCTGG GCTTCCTCGG CTGGCTCTGC CAAGGCTGTC
CTGGCTTTGA TCAAAGCCGG CGCACAGGTC GAGAGTGCAG ATAAGGATGG ACTCACGGCA
CTTCACTGTG CCGCGTCCCG AGGCCACACG GAATGTATAG ACACGTTGAT CAATCTATGT
GGAGCGCACA CCGATCAGAT CGACTCCAAT GGGTGCACGG CTCTGCACTA CTCCGTGACG
TTAGGTCACG CGGATGCTAC CTCCTTGCTG CTCAAGCTGG ATGCCGATCC AAACCGACAG
GACCGAAAAG GCCGAACTCC AGCACATTGT GGCTGTGCGA AAGGGCAAAT GGAAACGGTG
AAAATTTTGC ACATGAAGAA AGGGAACTTG TGGCTGAGGA ATGCGAAGGG AGATTTTCCG
GTTCATGACG CCGCCAGCTC TGGAAGGAGA CAGCTGGTAC AGTGGCTTTT GCAGATGAAG
CCAAAGCACA TCAACACTCC AAGTAACGAT GGAAGAACGC TTTTGCACAT TGCGGCAGGG
CACGATAATG TGGACATGTG TAAGCTCTTG CTGGAATCTG GAGCGGAGAT GAATCACCTG
TACAGACCGG CAAAAGGTTC GCCCATGACT CCACTTGACT ACGCACTGGC GAAAGGCTTC
CGATCAACGG CAAAGTTTCT CCAGATGCAA GGAGGACTTC CAGCTAATAA GTTGCGCCTA
TCCAGTCGGC AGCAGAAAAT TCTTCCAGAT ATAGACAAGG TTGAACCCTT AAAACTCACA
GAAAAAGAAG AATTGATCGA CCTGAAGACT TCCAAGCGAT ACGTAGTGTA CTTGAACTCC
AATTCTGAAT CGGAGAGTCA AGATGATCGA TCTCACCGCA AGAGCAGACA CAAACGAAAA
GGAAGTCACC GAGCTCGTCG AACGAGCAGC TGCAGTGATA GCGTATTTCT CTACCGGGAA
GGCGCAGCCG ATATAAGTCG CTCTCGAAGC AACGTCGAAC TAAACCGGAC CCATCATCAT
CACCATCGCA GGCACCATCA CCGAAGCAAT AGTTCTTCAT CGGCTTCCAG CAGCGATTCG
TCTTCGGATG ACTGTTGCAA GCATATAAAA CGACGGCACA AGTGTTACAA GAAGTGTTCA
TCTAAATCGG CGAGATCTAA GGATCGGTCG CACAGGGAAA GGGATCGTGA CCGGGAGAAG
GAACCTAAAG AACCGAAGGA GTATGAATTT ATGTATGCCG AGCAACGAGA AGCAGGAAAG
CCACGTAAAC CGGGAGAACG CATGGGAAGG ATTGTGTTGA AAGAGGTGCA CAGTGGATCA
TCGGAGAACG AATCGCCAGA GAGTGACCGA CGAGGCAGCA CATCGAGATT AACCGGAAAG
AGTGGCCCAT TACTGACGGT GCCGCCGGAA GTTTTGGGAT TATTAGACGA TCAATCACTG
CCGAAACCAC CACCCAAAGC TGAGTTCAAC ATCAGGAAGG AGTCTGATGT AAAAAGCGAT
GGCAAATCTT CGGACACCAG CGTCAAGAAG GTGAAGAAAG GTAAGGGAAA CGGGAAGAAA
GGTAAAGCAT CTGGGAAAGT GAAGAAGACC GATTCGCCAA GTGAGGAGGA AACGAAAGAC
AAGCAGAAGC AACAGCAGGG GGAGAAGATT GTGACGGAAG CTCTGGTGCA CCCGGTGCCG
GAGACTATGG CCAAGTCCAC AGAAGATGAT GGTGCAGCTA CCGATGCGAC ATACACAATC
GATCAGAAAA CCAAATCCGA TTACGAGGGG TTCAGCGAAT CCGAGACTGG GAAAGGGAAA
GGCAAACCAG AGACAATAAT GGAAGCTAAG GATGAGACCG TGCAGGAAGT TCCACCGGCG
GTCCCTTTAG AGGTAAAGGA GGAGGTGGTT CCGGCTCCAA AAAAGGAACG GCCAAAGCTA
AAGTCAAACA AAGACAGTAG CACAAGCCGA TCCAGCAAAT CCAAGTCGGA TTCGTCGGAA
AAGGAGATGC CAAAGCAGAA ACCAAAGCCG AAAGCGGAAG CAACTCCTGT GGTGACAGCG
CCAACGCCGC AGCCAACGCC ACCACCGCCA CCTCCTCCTG AACCGGAACC AGAACGCGTT
GTACCAGAAC CCGAACCCGA ACCTGCTGTT GAGGAGCCTC CAATTGTGGT AGAAACTCAT
GTACAGGAGG AGGAAAAGCC TTCGGAGTTA CCGGTTGTAG TGCCAGAGGC TGAACCTGTG
CCTGCAGTCA CCGACGGAGA GGCAGTTGTT CCCCAAGAGA TTCCGGTGAC AGAACCGCCT
GAGTCGGAAC CCGAACCGAA GCCAGAACCG GAGCAAGCAC CCGAGTCGAA ACCGGAACTT
GCAGCTGTTG AGCAATCGAC AACTGAGGAG AAGAGCTCTG AAGTTGAAGA ATCGCCTTCG
AAATCAAGTG AAGATCAGAC CGAGCAGCAG CCGCCAGAAC CGGAAGAACC GCCAAAGCCC
GAACCGAGTG GAGACCAAGC TCTACCACCA ACCCCCAAAG AAGATTCTCC TAAGAAGGTC
AGTTTTGACA GAGAACGACC GAAGCTGAGG CGATCTGGCG AGTCCATGGT GGAGCACGTG
GAGGAAGAGG AAGTTCGAAC GGAAGAGGAT GCCGTTGTTC CACTAGCGGC AGCTGCAGCA
GTTGACCAAG AGAAGGTCGA TTCGACACGA AGTTTCTACG TGAGTTTGGC GGATGGAGAA
GAAGGCGACG AGAAGAAGAA ACGAAAATTG AAAAAGAGGA AATCCAAGGA AGACAAAGCC
GACGAAGAAG CACAAAGTAG CAAGGATCAG GACTCCGGTT TTGAGCCAAG TCCGCAATCG
GTACGCAGTA AGTCGACTGT GTTCGACCGT CCAACGAGTA CGGCGGTGTT ATCCAAGAGG
CCAGCATTTA CAATGGTAGA GGAGCGAGCG ATCAGCTCCA GGCCGGATGG TCGCAAACCT
GGCGACAAGA ATGCTGTTAA CATGACCACC GTGCAACAGT CCATCCAGCG AAATATTCGA
AGATACTACA TGGAGAGAAA AATTTTCCAA CACCTGCTGG AGCTGAAAAG CCTCCAGATC
CGCTCGACCA AGGTCAACGA GAGCGCCCTG GTGAAGAGGG CCGTAGACGA CTACCACAAG
TCGACGATCG AGCTGGGCTA CGAGACGGGC TCGACACTCA AGCGCTATCC CTACTCGGAG
TACTCGTTCA AGAACTTCGA GCTGTTCCTG TACGACACGT TGAAGAGCCT ACAGAAGCGC
GAGACGTACA ACTTCCAGAA CATCTCCGAG GTGTACGACG AGCAAGAGGC CGAACGTCGA
TCCAGCCCCG ATGTAAGTCG ATACGAACGA GCCCTGAACT GCACCACCAA GACCCATCGC
TGCCTTCATG CCACCCACGC GTACACGGGA ATCCCTTGCG CTGCCTACAT CCCCATGATG
AACCATCACA CGATGCCCAA GCTCGGATTT GGCCAGTACA AATCGTCCCC CAGTGGGGTT
GGCAGTTTTT TCCTGCCGAA AATTCTCACC AACCCAACGG ACCGGAGCTG CCCCGGAAGT
AGCGCCAGCT ATCTAACACC CATAGGCGGC GGCGGCGGAG CAGCAAGCAA GGGAAGTCCG
CGGAAGGTCA GCCTCACCAA CAGCAGCAGT CCTCTTCCAG TGATGCCCAG CATTCGGCCG
AACGGCAACA GCTCCAACAG CAACATCAAC AGCAGCAGTC CCACTCAAGC TCCCTTCCAG
CTGTTGTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_021693546.1 CDS 199..4947 Translation
Target ORF information:
RefSeq Version XM_021837854.1 Organism Aedes aegypti(yellow fever mosquito) Definition Aedes aegypti ankyrin repeat domain-containing protein 12 (LOC5578805), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_021837854.1
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
4381
4441
4501
4561
4621
4681
4741ATGGAGGCGA AGAGTAAGCA GCACACCGCA GCAGTCCTTC CACAGCCAAC GGCTTCGCCT
CTGAGAGCCC CCACACAAGC TGCTGCTGCT GCTGCTGGTA GTGGAGGAAC AGCGAGCCGC
CGGAAACCGT CGGCCCTTGC CAATCGCGAC CAGCAGCTAC CGGGCAAACC GAAGCACACG
GTCAAGTTTA GGGAGCAAGG CGACCAGGAG CTTCTGGTGG TGACAATCGA ACCTTCTTCG
TCCCCTGCTG GCGGCACCTG TCAGCTACCG GCGCTAACTA CCACTTCGGA ATCGACATCC
GACCGACCAG GGACTGCCAC CCATCATCGG GGAACCCCGT ATCCCTCCTT GGCGGCGGGC
GACCTAAGAA AACCTAAGGA GAAAGCTAAA TCAAGTGAAC AACGGACGAA AAAGGCGGCT
ACCTCGCCGG CGACGCAAGC GTCCAGTGTA GTCCGGCAGC ACGGTCAGCG ACTCGCGGAA
GGATGCACGA CGCTTATGTA TGCCTGCCAG CAGGGACTTA CCGAGGAAAT TGTTAAGGAA
TTGCGCGAAA AGCCGGACGT CGTCCACCGG CGGGACCGGA ACAACCGCGG GGCCCTTCAC
TACGCCAGCA GCTCGAGGGA CGTTGTGGCC GCGGCCAGTG TCGCAATGGT GGCCCCGGAG
CTGATCGAGC AGGCCGATGA GGACGGGTTC ACGCCACTGC ATCTGGCCGT CATCCAGGGC
AACCTGCAGC TGGTCAACCT GCTGCTGGCG AACGGGGCCG ACGTGAACGC GCTGGACAAC
GAGGGCCACT CGGTGGTGCA CTGGGCCACA GTATGCGGCG AAGTGGAAGC TCTCCGTGCG
GTGCTGGCGG CCGGTGCCGA CGTGTCCACT CCGGACATCA ACGGGGGCAG CCCGTTGCAC
TACGCCGCCC AGATGTGCGG CGCCAACTAT GAGGGCAAAA CGGCTCGTGC CTCGGCCAAA
CTGGCACTGG AGATCCTCGG AACGCTGCTG GCCCATCCGG ACACTTCGGT CGAAGTAGAG
GACAAAGATA GCCGGCAGCC GCTGCTCTGG GCTTCCTCGG CTGGCTCTGC CAAGGCTGTC
CTGGCTTTGA TCAAAGCCGG CGCACAGGTC GAGAGTGCAG ATAAGGATGG ACTCACGGCA
CTTCACTGTG CCGCGTCCCG AGGCCACACG GAATGTATAG ACACGTTGAT CAATCTATGT
GGAGCGCACA CCGATCAGAT CGACTCCAAT GGGTGCACGG CTCTGCACTA CTCCGTGACG
TTAGGTCACG CGGATGCTAC CTCCTTGCTG CTCAAGCTGG ATGCCGATCC AAACCGACAG
GACCGAAAAG GCCGAACTCC AGCACATTGT GGCTGTGCGA AAGGGCAAAT GGAAACGGTG
AAAATTTTGC ACATGAAGAA AGGGAACTTG TGGCTGAGGA ATGCGAAGGG AGATTTTCCG
GTTCATGACG CCGCCAGCTC TGGAAGGAGA CAGCTGGTAC AGTGGCTTTT GCAGATGAAG
CCAAAGCACA TCAACACTCC AAGTAACGAT GGAAGAACGC TTTTGCACAT TGCGGCAGGG
CACGATAATG TGGACATGTG TAAGCTCTTG CTGGAATCTG GAGCGGAGAT GAATCACCTG
TACAGACCGG CAAAAGGTTC GCCCATGACT CCACTTGACT ACGCACTGGC GAAAGGCTTC
CGATCAACGG CAAAGTTTCT CCAGATGCAA GGAGGACTTC CAGCTAATAA GTTGCGCCTA
TCCAGTCGGC AGCAGAAAAT TCTTCCAGAT ATAGACAAGG TTGAACCCTT AAAACTCACA
GAAAAAGAAG AATTGATCGA CCTGAAGACT TCCAAGCGAT ACGTAGTGTA CTTGAACTCC
AATTCTGAAT CGGAGAGTCA AGATGATCGA TCTCACCGCA AGAGCAGACA CAAACGAAAA
GGAAGTCACC GAGCTCGTCG AACGAGCAGC TGCAGTGATA GCGTATTTCT CTACCGGGAA
GGCGCAGCCG ATATAAGTCG CTCTCGAAGC AACGTCGAAC TAAACCGGAC CCATCATCAT
CACCATCGCA GGCACCATCA CCGAAGCAAT AGTTCTTCAT CGGCTTCCAG CAGCGATTCG
TCTTCGGATG ACTGTTGCAA GCATATAAAA CGACGGCACA AGTGTTACAA GAAGTGTTCA
TCTAAATCGG CGAGATCTAA GGATCGGTCG CACAGGGAAA GGGATCGTGA CCGGGAGAAG
GAACCTAAAG AACCGAAGGA GTATGAATTT ATGTATGCCG AGCAACGAGA AGCAGGAAAG
CCACGTAAAC CGGGAGAACG CATGGGAAGG ATTGTGTTGA AAGAGGTGCA CAGTGGATCA
TCGGAGAACG AATCGCCAGA GAGTGACCGA CGAGGCAGCA CATCGAGATT AACCGGAAAG
AGTGGCCCAT TACTGACGGT GCCGCCGGAA GTTTTGGGAT TATTAGACGA TCAATCACTG
CCGAAACCAC CACCCAAAGC TGAGTTCAAC ATCAGGAAGG AGTCTGATGT AAAAAGCGAT
GGCAAATCTT CGGACACCAG CGTCAAGAAG GTGAAGAAAG GTAAGGGAAA CGGGAAGAAA
GGTAAAGCAT CTGGGAAAGT GAAGAAGACC GATTCGCCAA GTGAGGAGGA AACGAAAGAC
AAGCAGAAGC AACAGCAGGG GGAGAAGATT GTGACGGAAG CTCTGGTGCA CCCGGTGCCG
GAGACTATGG CCAAGTCCAC AGAAGATGAT GGTGCAGCTA CCGATGCGAC ATACACAATC
GATCAGAAAA CCAAATCCGA TTACGAGGGG TTCAGCGAAT CCGAGACTGG GAAAGGGAAA
GGCAAACCAG AGACAATAAT GGAAGCTAAG GATGAGACCG TGCAGGAAGT TCCACCGGCG
GTCCCTTTAG AGGTAAAGGA GGAGGTGGTT CCGGCTCCAA AAAAGGAACG GCCAAAGCTA
AAGTCAAACA AAGACAGTAG CACAAGCCGA TCCAGCAAAT CCAAGTCGGA TTCGTCGGAA
AAGGAGATGC CAAAGCAGAA ACCAAAGCCG AAAGCGGAAG CAACTCCTGT GGTGACAGCG
CCAACGCCGC AGCCAACGCC ACCACCGCCA CCTCCTCCTG AACCGGAACC AGAACGCGTT
GTACCAGAAC CCGAACCCGA ACCTGCTGTT GAGGAGCCTC CAATTGTGGT AGAAACTCAT
GTACAGGAGG AGGAAAAGCC TTCGGAGTTA CCGGTTGTAG TGCCAGAGGC TGAACCTGTG
CCTGCAGTCA CCGACGGAGA GGCAGTTGTT CCCCAAGAGA TTCCGGTGAC AGAACCGCCT
GAGTCGGAAC CCGAACCGAA GCCAGAACCG GAGCAAGCAC CCGAGTCGAA ACCGGAACTT
GCAGCTGTTG AGCAATCGAC AACTGAGGAG AAGAGCTCTG AAGTTGAAGA ATCGCCTTCG
AAATCAAGTG AAGATCAGAC CGAGCAGCAG CCGCCAGAAC CGGAAGAACC GCCAAAGCCC
GAACCGAGTG GAGACCAAGC TCTACCACCA ACCCCCAAAG AAGATTCTCC TAAGAAGGTC
AGTTTTGACA GAGAACGACC GAAGCTGAGG CGATCTGGCG AGTCCATGGT GGAGCACGTG
GAGGAAGAGG AAGTTCGAAC GGAAGAGGAT GCCGTTGTTC CACTAGCGGC AGCTGCAGCA
GTTGACCAAG AGAAGGTCGA TTCGACACGA AGTTTCTACG TGAGTTTGGC GGATGGAGAA
GAAGGCGACG AGAAGAAGAA ACGAAAATTG AAAAAGAGGA AATCCAAGGA AGACAAAGCC
GACGAAGAAG CACAAAGTAG CAAGGATCAG GACTCCGGTT TTGAGCCAAG TCCGCAATCG
GTACGCAGTA AGTCGACTGT GTTCGACCGT CCAACGAGTA CGGCGGTGTT ATCCAAGAGG
CCAGCATTTA CAATGGTAGA GGAGCGAGCG ATCAGCTCCA GGCCGGATGG TCGCAAACCT
GGCGACAAGA ATGCTGTTAA CATGACCACC GTGCAACAGT CCATCCAGCG AAATATTCGA
AGATACTACA TGGAGAGAAA AATTTTCCAA CACCTGCTGG AGCTGAAAAG CCTCCAGATC
CGCTCGACCA AGGTCAACGA GAGCGCCCTG GTGAAGAGGG CCGTAGACGA CTACCACAAG
TCGACGATCG AGCTGGGCTA CGAGACGGGC TCGACACTCA AGCGCTATCC CTACTCGGAG
TACTCGTTCA AGAACTTCGA GCTGTTCCTG TACGACACGT TGAAGAGCCT ACAGAAGCGC
GAGACGTACA ACTTCCAGAA CATCTCCGAG GTGTACGACG AGCAAGAGGC CGAACGTCGA
TCCAGCCCCG ATGTAAGTCG ATACGAACGA GCCCTGAACT GCACCACCAA GACCCATCGC
TGCCTTCATG CCACCCACGC GTACACGGGA ATCCCTTGCG CTGCCTACAT CCCCATGATG
AACCATCACA CGATGCCCAA GCTCGGATTT GGCCAGTACA AATCGTCCCC CAGTGGGGTT
GGCAGTTTTT TCCTGCCGAA AATTCTCACC AACCCAACGG ACCGGAGCTG CCCCGGAAGT
AGCGCCAGCT ATCTAACACC CATAGGCGGC GGCGGCGGAG CAGCAAGCAA GGGAAGTCCG
CGGAAGGTCA GCCTCACCAA CAGCAGCAGT CCTCTTCCAG TGATGCCCAG CATTCGGCCG
AACGGCAACA GCTCCAACAG CAACATCAAC AGCAGCAGTC CCACTCAAGC TCCCTTCCAG
CTGTTGTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAe116785 Clone ID Related Accession (Same CDS sequence) XM_021837854.1 , XM_021837856.1 , XM_021837855.1 Accession Version XM_021837856.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4749bp)
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 ankyrin repeat domain-containing protein 12 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
4381
4441
4501
4561
4621
4681
4741ATGGAGGCGA AGAGTAAGCA GCACACCGCA GCAGTCCTTC CACAGCCAAC GGCTTCGCCT
CTGAGAGCCC CCACACAAGC TGCTGCTGCT GCTGCTGGTA GTGGAGGAAC AGCGAGCCGC
CGGAAACCGT CGGCCCTTGC CAATCGCGAC CAGCAGCTAC CGGGCAAACC GAAGCACACG
GTCAAGTTTA GGGAGCAAGG CGACCAGGAG CTTCTGGTGG TGACAATCGA ACCTTCTTCG
TCCCCTGCTG GCGGCACCTG TCAGCTACCG GCGCTAACTA CCACTTCGGA ATCGACATCC
GACCGACCAG GGACTGCCAC CCATCATCGG GGAACCCCGT ATCCCTCCTT GGCGGCGGGC
GACCTAAGAA AACCTAAGGA GAAAGCTAAA TCAAGTGAAC AACGGACGAA AAAGGCGGCT
ACCTCGCCGG CGACGCAAGC GTCCAGTGTA GTCCGGCAGC ACGGTCAGCG ACTCGCGGAA
GGATGCACGA CGCTTATGTA TGCCTGCCAG CAGGGACTTA CCGAGGAAAT TGTTAAGGAA
TTGCGCGAAA AGCCGGACGT CGTCCACCGG CGGGACCGGA ACAACCGCGG GGCCCTTCAC
TACGCCAGCA GCTCGAGGGA CGTTGTGGCC GCGGCCAGTG TCGCAATGGT GGCCCCGGAG
CTGATCGAGC AGGCCGATGA GGACGGGTTC ACGCCACTGC ATCTGGCCGT CATCCAGGGC
AACCTGCAGC TGGTCAACCT GCTGCTGGCG AACGGGGCCG ACGTGAACGC GCTGGACAAC
GAGGGCCACT CGGTGGTGCA CTGGGCCACA GTATGCGGCG AAGTGGAAGC TCTCCGTGCG
GTGCTGGCGG CCGGTGCCGA CGTGTCCACT CCGGACATCA ACGGGGGCAG CCCGTTGCAC
TACGCCGCCC AGATGTGCGG CGCCAACTAT GAGGGCAAAA CGGCTCGTGC CTCGGCCAAA
CTGGCACTGG AGATCCTCGG AACGCTGCTG GCCCATCCGG ACACTTCGGT CGAAGTAGAG
GACAAAGATA GCCGGCAGCC GCTGCTCTGG GCTTCCTCGG CTGGCTCTGC CAAGGCTGTC
CTGGCTTTGA TCAAAGCCGG CGCACAGGTC GAGAGTGCAG ATAAGGATGG ACTCACGGCA
CTTCACTGTG CCGCGTCCCG AGGCCACACG GAATGTATAG ACACGTTGAT CAATCTATGT
GGAGCGCACA CCGATCAGAT CGACTCCAAT GGGTGCACGG CTCTGCACTA CTCCGTGACG
TTAGGTCACG CGGATGCTAC CTCCTTGCTG CTCAAGCTGG ATGCCGATCC AAACCGACAG
GACCGAAAAG GCCGAACTCC AGCACATTGT GGCTGTGCGA AAGGGCAAAT GGAAACGGTG
AAAATTTTGC ACATGAAGAA AGGGAACTTG TGGCTGAGGA ATGCGAAGGG AGATTTTCCG
GTTCATGACG CCGCCAGCTC TGGAAGGAGA CAGCTGGTAC AGTGGCTTTT GCAGATGAAG
CCAAAGCACA TCAACACTCC AAGTAACGAT GGAAGAACGC TTTTGCACAT TGCGGCAGGG
CACGATAATG TGGACATGTG TAAGCTCTTG CTGGAATCTG GAGCGGAGAT GAATCACCTG
TACAGACCGG CAAAAGGTTC GCCCATGACT CCACTTGACT ACGCACTGGC GAAAGGCTTC
CGATCAACGG CAAAGTTTCT CCAGATGCAA GGAGGACTTC CAGCTAATAA GTTGCGCCTA
TCCAGTCGGC AGCAGAAAAT TCTTCCAGAT ATAGACAAGG TTGAACCCTT AAAACTCACA
GAAAAAGAAG AATTGATCGA CCTGAAGACT TCCAAGCGAT ACGTAGTGTA CTTGAACTCC
AATTCTGAAT CGGAGAGTCA AGATGATCGA TCTCACCGCA AGAGCAGACA CAAACGAAAA
GGAAGTCACC GAGCTCGTCG AACGAGCAGC TGCAGTGATA GCGTATTTCT CTACCGGGAA
GGCGCAGCCG ATATAAGTCG CTCTCGAAGC AACGTCGAAC TAAACCGGAC CCATCATCAT
CACCATCGCA GGCACCATCA CCGAAGCAAT AGTTCTTCAT CGGCTTCCAG CAGCGATTCG
TCTTCGGATG ACTGTTGCAA GCATATAAAA CGACGGCACA AGTGTTACAA GAAGTGTTCA
TCTAAATCGG CGAGATCTAA GGATCGGTCG CACAGGGAAA GGGATCGTGA CCGGGAGAAG
GAACCTAAAG AACCGAAGGA GTATGAATTT ATGTATGCCG AGCAACGAGA AGCAGGAAAG
CCACGTAAAC CGGGAGAACG CATGGGAAGG ATTGTGTTGA AAGAGGTGCA CAGTGGATCA
TCGGAGAACG AATCGCCAGA GAGTGACCGA CGAGGCAGCA CATCGAGATT AACCGGAAAG
AGTGGCCCAT TACTGACGGT GCCGCCGGAA GTTTTGGGAT TATTAGACGA TCAATCACTG
CCGAAACCAC CACCCAAAGC TGAGTTCAAC ATCAGGAAGG AGTCTGATGT AAAAAGCGAT
GGCAAATCTT CGGACACCAG CGTCAAGAAG GTGAAGAAAG GTAAGGGAAA CGGGAAGAAA
GGTAAAGCAT CTGGGAAAGT GAAGAAGACC GATTCGCCAA GTGAGGAGGA AACGAAAGAC
AAGCAGAAGC AACAGCAGGG GGAGAAGATT GTGACGGAAG CTCTGGTGCA CCCGGTGCCG
GAGACTATGG CCAAGTCCAC AGAAGATGAT GGTGCAGCTA CCGATGCGAC ATACACAATC
GATCAGAAAA CCAAATCCGA TTACGAGGGG TTCAGCGAAT CCGAGACTGG GAAAGGGAAA
GGCAAACCAG AGACAATAAT GGAAGCTAAG GATGAGACCG TGCAGGAAGT TCCACCGGCG
GTCCCTTTAG AGGTAAAGGA GGAGGTGGTT CCGGCTCCAA AAAAGGAACG GCCAAAGCTA
AAGTCAAACA AAGACAGTAG CACAAGCCGA TCCAGCAAAT CCAAGTCGGA TTCGTCGGAA
AAGGAGATGC CAAAGCAGAA ACCAAAGCCG AAAGCGGAAG CAACTCCTGT GGTGACAGCG
CCAACGCCGC AGCCAACGCC ACCACCGCCA CCTCCTCCTG AACCGGAACC AGAACGCGTT
GTACCAGAAC CCGAACCCGA ACCTGCTGTT GAGGAGCCTC CAATTGTGGT AGAAACTCAT
GTACAGGAGG AGGAAAAGCC TTCGGAGTTA CCGGTTGTAG TGCCAGAGGC TGAACCTGTG
CCTGCAGTCA CCGACGGAGA GGCAGTTGTT CCCCAAGAGA TTCCGGTGAC AGAACCGCCT
GAGTCGGAAC CCGAACCGAA GCCAGAACCG GAGCAAGCAC CCGAGTCGAA ACCGGAACTT
GCAGCTGTTG AGCAATCGAC AACTGAGGAG AAGAGCTCTG AAGTTGAAGA ATCGCCTTCG
AAATCAAGTG AAGATCAGAC CGAGCAGCAG CCGCCAGAAC CGGAAGAACC GCCAAAGCCC
GAACCGAGTG GAGACCAAGC TCTACCACCA ACCCCCAAAG AAGATTCTCC TAAGAAGGTC
AGTTTTGACA GAGAACGACC GAAGCTGAGG CGATCTGGCG AGTCCATGGT GGAGCACGTG
GAGGAAGAGG AAGTTCGAAC GGAAGAGGAT GCCGTTGTTC CACTAGCGGC AGCTGCAGCA
GTTGACCAAG AGAAGGTCGA TTCGACACGA AGTTTCTACG TGAGTTTGGC GGATGGAGAA
GAAGGCGACG AGAAGAAGAA ACGAAAATTG AAAAAGAGGA AATCCAAGGA AGACAAAGCC
GACGAAGAAG CACAAAGTAG CAAGGATCAG GACTCCGGTT TTGAGCCAAG TCCGCAATCG
GTACGCAGTA AGTCGACTGT GTTCGACCGT CCAACGAGTA CGGCGGTGTT ATCCAAGAGG
CCAGCATTTA CAATGGTAGA GGAGCGAGCG ATCAGCTCCA GGCCGGATGG TCGCAAACCT
GGCGACAAGA ATGCTGTTAA CATGACCACC GTGCAACAGT CCATCCAGCG AAATATTCGA
AGATACTACA TGGAGAGAAA AATTTTCCAA CACCTGCTGG AGCTGAAAAG CCTCCAGATC
CGCTCGACCA AGGTCAACGA GAGCGCCCTG GTGAAGAGGG CCGTAGACGA CTACCACAAG
TCGACGATCG AGCTGGGCTA CGAGACGGGC TCGACACTCA AGCGCTATCC CTACTCGGAG
TACTCGTTCA AGAACTTCGA GCTGTTCCTG TACGACACGT TGAAGAGCCT ACAGAAGCGC
GAGACGTACA ACTTCCAGAA CATCTCCGAG GTGTACGACG AGCAAGAGGC CGAACGTCGA
TCCAGCCCCG ATGTAAGTCG ATACGAACGA GCCCTGAACT GCACCACCAA GACCCATCGC
TGCCTTCATG CCACCCACGC GTACACGGGA ATCCCTTGCG CTGCCTACAT CCCCATGATG
AACCATCACA CGATGCCCAA GCTCGGATTT GGCCAGTACA AATCGTCCCC CAGTGGGGTT
GGCAGTTTTT TCCTGCCGAA AATTCTCACC AACCCAACGG ACCGGAGCTG CCCCGGAAGT
AGCGCCAGCT ATCTAACACC CATAGGCGGC GGCGGCGGAG CAGCAAGCAA GGGAAGTCCG
CGGAAGGTCA GCCTCACCAA CAGCAGCAGT CCTCTTCCAG TGATGCCCAG CATTCGGCCG
AACGGCAACA GCTCCAACAG CAACATCAAC AGCAGCAGTC CCACTCAAGC TCCCTTCCAG
CTGTTGTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_021693548.1 CDS 565..5313 Translation
Target ORF information:
RefSeq Version XM_021837856.1 Organism Aedes aegypti(yellow fever mosquito) Definition Aedes aegypti ankyrin repeat domain-containing protein 12 (LOC5578805), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_021837856.1
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
4381
4441
4501
4561
4621
4681
4741ATGGAGGCGA AGAGTAAGCA GCACACCGCA GCAGTCCTTC CACAGCCAAC GGCTTCGCCT
CTGAGAGCCC CCACACAAGC TGCTGCTGCT GCTGCTGGTA GTGGAGGAAC AGCGAGCCGC
CGGAAACCGT CGGCCCTTGC CAATCGCGAC CAGCAGCTAC CGGGCAAACC GAAGCACACG
GTCAAGTTTA GGGAGCAAGG CGACCAGGAG CTTCTGGTGG TGACAATCGA ACCTTCTTCG
TCCCCTGCTG GCGGCACCTG TCAGCTACCG GCGCTAACTA CCACTTCGGA ATCGACATCC
GACCGACCAG GGACTGCCAC CCATCATCGG GGAACCCCGT ATCCCTCCTT GGCGGCGGGC
GACCTAAGAA AACCTAAGGA GAAAGCTAAA TCAAGTGAAC AACGGACGAA AAAGGCGGCT
ACCTCGCCGG CGACGCAAGC GTCCAGTGTA GTCCGGCAGC ACGGTCAGCG ACTCGCGGAA
GGATGCACGA CGCTTATGTA TGCCTGCCAG CAGGGACTTA CCGAGGAAAT TGTTAAGGAA
TTGCGCGAAA AGCCGGACGT CGTCCACCGG CGGGACCGGA ACAACCGCGG GGCCCTTCAC
TACGCCAGCA GCTCGAGGGA CGTTGTGGCC GCGGCCAGTG TCGCAATGGT GGCCCCGGAG
CTGATCGAGC AGGCCGATGA GGACGGGTTC ACGCCACTGC ATCTGGCCGT CATCCAGGGC
AACCTGCAGC TGGTCAACCT GCTGCTGGCG AACGGGGCCG ACGTGAACGC GCTGGACAAC
GAGGGCCACT CGGTGGTGCA CTGGGCCACA GTATGCGGCG AAGTGGAAGC TCTCCGTGCG
GTGCTGGCGG CCGGTGCCGA CGTGTCCACT CCGGACATCA ACGGGGGCAG CCCGTTGCAC
TACGCCGCCC AGATGTGCGG CGCCAACTAT GAGGGCAAAA CGGCTCGTGC CTCGGCCAAA
CTGGCACTGG AGATCCTCGG AACGCTGCTG GCCCATCCGG ACACTTCGGT CGAAGTAGAG
GACAAAGATA GCCGGCAGCC GCTGCTCTGG GCTTCCTCGG CTGGCTCTGC CAAGGCTGTC
CTGGCTTTGA TCAAAGCCGG CGCACAGGTC GAGAGTGCAG ATAAGGATGG ACTCACGGCA
CTTCACTGTG CCGCGTCCCG AGGCCACACG GAATGTATAG ACACGTTGAT CAATCTATGT
GGAGCGCACA CCGATCAGAT CGACTCCAAT GGGTGCACGG CTCTGCACTA CTCCGTGACG
TTAGGTCACG CGGATGCTAC CTCCTTGCTG CTCAAGCTGG ATGCCGATCC AAACCGACAG
GACCGAAAAG GCCGAACTCC AGCACATTGT GGCTGTGCGA AAGGGCAAAT GGAAACGGTG
AAAATTTTGC ACATGAAGAA AGGGAACTTG TGGCTGAGGA ATGCGAAGGG AGATTTTCCG
GTTCATGACG CCGCCAGCTC TGGAAGGAGA CAGCTGGTAC AGTGGCTTTT GCAGATGAAG
CCAAAGCACA TCAACACTCC AAGTAACGAT GGAAGAACGC TTTTGCACAT TGCGGCAGGG
CACGATAATG TGGACATGTG TAAGCTCTTG CTGGAATCTG GAGCGGAGAT GAATCACCTG
TACAGACCGG CAAAAGGTTC GCCCATGACT CCACTTGACT ACGCACTGGC GAAAGGCTTC
CGATCAACGG CAAAGTTTCT CCAGATGCAA GGAGGACTTC CAGCTAATAA GTTGCGCCTA
TCCAGTCGGC AGCAGAAAAT TCTTCCAGAT ATAGACAAGG TTGAACCCTT AAAACTCACA
GAAAAAGAAG AATTGATCGA CCTGAAGACT TCCAAGCGAT ACGTAGTGTA CTTGAACTCC
AATTCTGAAT CGGAGAGTCA AGATGATCGA TCTCACCGCA AGAGCAGACA CAAACGAAAA
GGAAGTCACC GAGCTCGTCG AACGAGCAGC TGCAGTGATA GCGTATTTCT CTACCGGGAA
GGCGCAGCCG ATATAAGTCG CTCTCGAAGC AACGTCGAAC TAAACCGGAC CCATCATCAT
CACCATCGCA GGCACCATCA CCGAAGCAAT AGTTCTTCAT CGGCTTCCAG CAGCGATTCG
TCTTCGGATG ACTGTTGCAA GCATATAAAA CGACGGCACA AGTGTTACAA GAAGTGTTCA
TCTAAATCGG CGAGATCTAA GGATCGGTCG CACAGGGAAA GGGATCGTGA CCGGGAGAAG
GAACCTAAAG AACCGAAGGA GTATGAATTT ATGTATGCCG AGCAACGAGA AGCAGGAAAG
CCACGTAAAC CGGGAGAACG CATGGGAAGG ATTGTGTTGA AAGAGGTGCA CAGTGGATCA
TCGGAGAACG AATCGCCAGA GAGTGACCGA CGAGGCAGCA CATCGAGATT AACCGGAAAG
AGTGGCCCAT TACTGACGGT GCCGCCGGAA GTTTTGGGAT TATTAGACGA TCAATCACTG
CCGAAACCAC CACCCAAAGC TGAGTTCAAC ATCAGGAAGG AGTCTGATGT AAAAAGCGAT
GGCAAATCTT CGGACACCAG CGTCAAGAAG GTGAAGAAAG GTAAGGGAAA CGGGAAGAAA
GGTAAAGCAT CTGGGAAAGT GAAGAAGACC GATTCGCCAA GTGAGGAGGA AACGAAAGAC
AAGCAGAAGC AACAGCAGGG GGAGAAGATT GTGACGGAAG CTCTGGTGCA CCCGGTGCCG
GAGACTATGG CCAAGTCCAC AGAAGATGAT GGTGCAGCTA CCGATGCGAC ATACACAATC
GATCAGAAAA CCAAATCCGA TTACGAGGGG TTCAGCGAAT CCGAGACTGG GAAAGGGAAA
GGCAAACCAG AGACAATAAT GGAAGCTAAG GATGAGACCG TGCAGGAAGT TCCACCGGCG
GTCCCTTTAG AGGTAAAGGA GGAGGTGGTT CCGGCTCCAA AAAAGGAACG GCCAAAGCTA
AAGTCAAACA AAGACAGTAG CACAAGCCGA TCCAGCAAAT CCAAGTCGGA TTCGTCGGAA
AAGGAGATGC CAAAGCAGAA ACCAAAGCCG AAAGCGGAAG CAACTCCTGT GGTGACAGCG
CCAACGCCGC AGCCAACGCC ACCACCGCCA CCTCCTCCTG AACCGGAACC AGAACGCGTT
GTACCAGAAC CCGAACCCGA ACCTGCTGTT GAGGAGCCTC CAATTGTGGT AGAAACTCAT
GTACAGGAGG AGGAAAAGCC TTCGGAGTTA CCGGTTGTAG TGCCAGAGGC TGAACCTGTG
CCTGCAGTCA CCGACGGAGA GGCAGTTGTT CCCCAAGAGA TTCCGGTGAC AGAACCGCCT
GAGTCGGAAC CCGAACCGAA GCCAGAACCG GAGCAAGCAC CCGAGTCGAA ACCGGAACTT
GCAGCTGTTG AGCAATCGAC AACTGAGGAG AAGAGCTCTG AAGTTGAAGA ATCGCCTTCG
AAATCAAGTG AAGATCAGAC CGAGCAGCAG CCGCCAGAAC CGGAAGAACC GCCAAAGCCC
GAACCGAGTG GAGACCAAGC TCTACCACCA ACCCCCAAAG AAGATTCTCC TAAGAAGGTC
AGTTTTGACA GAGAACGACC GAAGCTGAGG CGATCTGGCG AGTCCATGGT GGAGCACGTG
GAGGAAGAGG AAGTTCGAAC GGAAGAGGAT GCCGTTGTTC CACTAGCGGC AGCTGCAGCA
GTTGACCAAG AGAAGGTCGA TTCGACACGA AGTTTCTACG TGAGTTTGGC GGATGGAGAA
GAAGGCGACG AGAAGAAGAA ACGAAAATTG AAAAAGAGGA AATCCAAGGA AGACAAAGCC
GACGAAGAAG CACAAAGTAG CAAGGATCAG GACTCCGGTT TTGAGCCAAG TCCGCAATCG
GTACGCAGTA AGTCGACTGT GTTCGACCGT CCAACGAGTA CGGCGGTGTT ATCCAAGAGG
CCAGCATTTA CAATGGTAGA GGAGCGAGCG ATCAGCTCCA GGCCGGATGG TCGCAAACCT
GGCGACAAGA ATGCTGTTAA CATGACCACC GTGCAACAGT CCATCCAGCG AAATATTCGA
AGATACTACA TGGAGAGAAA AATTTTCCAA CACCTGCTGG AGCTGAAAAG CCTCCAGATC
CGCTCGACCA AGGTCAACGA GAGCGCCCTG GTGAAGAGGG CCGTAGACGA CTACCACAAG
TCGACGATCG AGCTGGGCTA CGAGACGGGC TCGACACTCA AGCGCTATCC CTACTCGGAG
TACTCGTTCA AGAACTTCGA GCTGTTCCTG TACGACACGT TGAAGAGCCT ACAGAAGCGC
GAGACGTACA ACTTCCAGAA CATCTCCGAG GTGTACGACG AGCAAGAGGC CGAACGTCGA
TCCAGCCCCG ATGTAAGTCG ATACGAACGA GCCCTGAACT GCACCACCAA GACCCATCGC
TGCCTTCATG CCACCCACGC GTACACGGGA ATCCCTTGCG CTGCCTACAT CCCCATGATG
AACCATCACA CGATGCCCAA GCTCGGATTT GGCCAGTACA AATCGTCCCC CAGTGGGGTT
GGCAGTTTTT TCCTGCCGAA AATTCTCACC AACCCAACGG ACCGGAGCTG CCCCGGAAGT
AGCGCCAGCT ATCTAACACC CATAGGCGGC GGCGGCGGAG CAGCAAGCAA GGGAAGTCCG
CGGAAGGTCA GCCTCACCAA CAGCAGCAGT CCTCTTCCAG TGATGCCCAG CATTCGGCCG
AACGGCAACA GCTCCAACAG CAACATCAAC AGCAGCAGTC CCACTCAAGC TCCCTTCCAG
CTGTTGTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAe116785 Clone ID Related Accession (Same CDS sequence) XM_021837854.1 , XM_021837856.1 , XM_021837855.1 Accession Version XM_021837855.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4749bp)
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 ankyrin repeat domain-containing protein 12 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
4381
4441
4501
4561
4621
4681
4741ATGGAGGCGA AGAGTAAGCA GCACACCGCA GCAGTCCTTC CACAGCCAAC GGCTTCGCCT
CTGAGAGCCC CCACACAAGC TGCTGCTGCT GCTGCTGGTA GTGGAGGAAC AGCGAGCCGC
CGGAAACCGT CGGCCCTTGC CAATCGCGAC CAGCAGCTAC CGGGCAAACC GAAGCACACG
GTCAAGTTTA GGGAGCAAGG CGACCAGGAG CTTCTGGTGG TGACAATCGA ACCTTCTTCG
TCCCCTGCTG GCGGCACCTG TCAGCTACCG GCGCTAACTA CCACTTCGGA ATCGACATCC
GACCGACCAG GGACTGCCAC CCATCATCGG GGAACCCCGT ATCCCTCCTT GGCGGCGGGC
GACCTAAGAA AACCTAAGGA GAAAGCTAAA TCAAGTGAAC AACGGACGAA AAAGGCGGCT
ACCTCGCCGG CGACGCAAGC GTCCAGTGTA GTCCGGCAGC ACGGTCAGCG ACTCGCGGAA
GGATGCACGA CGCTTATGTA TGCCTGCCAG CAGGGACTTA CCGAGGAAAT TGTTAAGGAA
TTGCGCGAAA AGCCGGACGT CGTCCACCGG CGGGACCGGA ACAACCGCGG GGCCCTTCAC
TACGCCAGCA GCTCGAGGGA CGTTGTGGCC GCGGCCAGTG TCGCAATGGT GGCCCCGGAG
CTGATCGAGC AGGCCGATGA GGACGGGTTC ACGCCACTGC ATCTGGCCGT CATCCAGGGC
AACCTGCAGC TGGTCAACCT GCTGCTGGCG AACGGGGCCG ACGTGAACGC GCTGGACAAC
GAGGGCCACT CGGTGGTGCA CTGGGCCACA GTATGCGGCG AAGTGGAAGC TCTCCGTGCG
GTGCTGGCGG CCGGTGCCGA CGTGTCCACT CCGGACATCA ACGGGGGCAG CCCGTTGCAC
TACGCCGCCC AGATGTGCGG CGCCAACTAT GAGGGCAAAA CGGCTCGTGC CTCGGCCAAA
CTGGCACTGG AGATCCTCGG AACGCTGCTG GCCCATCCGG ACACTTCGGT CGAAGTAGAG
GACAAAGATA GCCGGCAGCC GCTGCTCTGG GCTTCCTCGG CTGGCTCTGC CAAGGCTGTC
CTGGCTTTGA TCAAAGCCGG CGCACAGGTC GAGAGTGCAG ATAAGGATGG ACTCACGGCA
CTTCACTGTG CCGCGTCCCG AGGCCACACG GAATGTATAG ACACGTTGAT CAATCTATGT
GGAGCGCACA CCGATCAGAT CGACTCCAAT GGGTGCACGG CTCTGCACTA CTCCGTGACG
TTAGGTCACG CGGATGCTAC CTCCTTGCTG CTCAAGCTGG ATGCCGATCC AAACCGACAG
GACCGAAAAG GCCGAACTCC AGCACATTGT GGCTGTGCGA AAGGGCAAAT GGAAACGGTG
AAAATTTTGC ACATGAAGAA AGGGAACTTG TGGCTGAGGA ATGCGAAGGG AGATTTTCCG
GTTCATGACG CCGCCAGCTC TGGAAGGAGA CAGCTGGTAC AGTGGCTTTT GCAGATGAAG
CCAAAGCACA TCAACACTCC AAGTAACGAT GGAAGAACGC TTTTGCACAT TGCGGCAGGG
CACGATAATG TGGACATGTG TAAGCTCTTG CTGGAATCTG GAGCGGAGAT GAATCACCTG
TACAGACCGG CAAAAGGTTC GCCCATGACT CCACTTGACT ACGCACTGGC GAAAGGCTTC
CGATCAACGG CAAAGTTTCT CCAGATGCAA GGAGGACTTC CAGCTAATAA GTTGCGCCTA
TCCAGTCGGC AGCAGAAAAT TCTTCCAGAT ATAGACAAGG TTGAACCCTT AAAACTCACA
GAAAAAGAAG AATTGATCGA CCTGAAGACT TCCAAGCGAT ACGTAGTGTA CTTGAACTCC
AATTCTGAAT CGGAGAGTCA AGATGATCGA TCTCACCGCA AGAGCAGACA CAAACGAAAA
GGAAGTCACC GAGCTCGTCG AACGAGCAGC TGCAGTGATA GCGTATTTCT CTACCGGGAA
GGCGCAGCCG ATATAAGTCG CTCTCGAAGC AACGTCGAAC TAAACCGGAC CCATCATCAT
CACCATCGCA GGCACCATCA CCGAAGCAAT AGTTCTTCAT CGGCTTCCAG CAGCGATTCG
TCTTCGGATG ACTGTTGCAA GCATATAAAA CGACGGCACA AGTGTTACAA GAAGTGTTCA
TCTAAATCGG CGAGATCTAA GGATCGGTCG CACAGGGAAA GGGATCGTGA CCGGGAGAAG
GAACCTAAAG AACCGAAGGA GTATGAATTT ATGTATGCCG AGCAACGAGA AGCAGGAAAG
CCACGTAAAC CGGGAGAACG CATGGGAAGG ATTGTGTTGA AAGAGGTGCA CAGTGGATCA
TCGGAGAACG AATCGCCAGA GAGTGACCGA CGAGGCAGCA CATCGAGATT AACCGGAAAG
AGTGGCCCAT TACTGACGGT GCCGCCGGAA GTTTTGGGAT TATTAGACGA TCAATCACTG
CCGAAACCAC CACCCAAAGC TGAGTTCAAC ATCAGGAAGG AGTCTGATGT AAAAAGCGAT
GGCAAATCTT CGGACACCAG CGTCAAGAAG GTGAAGAAAG GTAAGGGAAA CGGGAAGAAA
GGTAAAGCAT CTGGGAAAGT GAAGAAGACC GATTCGCCAA GTGAGGAGGA AACGAAAGAC
AAGCAGAAGC AACAGCAGGG GGAGAAGATT GTGACGGAAG CTCTGGTGCA CCCGGTGCCG
GAGACTATGG CCAAGTCCAC AGAAGATGAT GGTGCAGCTA CCGATGCGAC ATACACAATC
GATCAGAAAA CCAAATCCGA TTACGAGGGG TTCAGCGAAT CCGAGACTGG GAAAGGGAAA
GGCAAACCAG AGACAATAAT GGAAGCTAAG GATGAGACCG TGCAGGAAGT TCCACCGGCG
GTCCCTTTAG AGGTAAAGGA GGAGGTGGTT CCGGCTCCAA AAAAGGAACG GCCAAAGCTA
AAGTCAAACA AAGACAGTAG CACAAGCCGA TCCAGCAAAT CCAAGTCGGA TTCGTCGGAA
AAGGAGATGC CAAAGCAGAA ACCAAAGCCG AAAGCGGAAG CAACTCCTGT GGTGACAGCG
CCAACGCCGC AGCCAACGCC ACCACCGCCA CCTCCTCCTG AACCGGAACC AGAACGCGTT
GTACCAGAAC CCGAACCCGA ACCTGCTGTT GAGGAGCCTC CAATTGTGGT AGAAACTCAT
GTACAGGAGG AGGAAAAGCC TTCGGAGTTA CCGGTTGTAG TGCCAGAGGC TGAACCTGTG
CCTGCAGTCA CCGACGGAGA GGCAGTTGTT CCCCAAGAGA TTCCGGTGAC AGAACCGCCT
GAGTCGGAAC CCGAACCGAA GCCAGAACCG GAGCAAGCAC CCGAGTCGAA ACCGGAACTT
GCAGCTGTTG AGCAATCGAC AACTGAGGAG AAGAGCTCTG AAGTTGAAGA ATCGCCTTCG
AAATCAAGTG AAGATCAGAC CGAGCAGCAG CCGCCAGAAC CGGAAGAACC GCCAAAGCCC
GAACCGAGTG GAGACCAAGC TCTACCACCA ACCCCCAAAG AAGATTCTCC TAAGAAGGTC
AGTTTTGACA GAGAACGACC GAAGCTGAGG CGATCTGGCG AGTCCATGGT GGAGCACGTG
GAGGAAGAGG AAGTTCGAAC GGAAGAGGAT GCCGTTGTTC CACTAGCGGC AGCTGCAGCA
GTTGACCAAG AGAAGGTCGA TTCGACACGA AGTTTCTACG TGAGTTTGGC GGATGGAGAA
GAAGGCGACG AGAAGAAGAA ACGAAAATTG AAAAAGAGGA AATCCAAGGA AGACAAAGCC
GACGAAGAAG CACAAAGTAG CAAGGATCAG GACTCCGGTT TTGAGCCAAG TCCGCAATCG
GTACGCAGTA AGTCGACTGT GTTCGACCGT CCAACGAGTA CGGCGGTGTT ATCCAAGAGG
CCAGCATTTA CAATGGTAGA GGAGCGAGCG ATCAGCTCCA GGCCGGATGG TCGCAAACCT
GGCGACAAGA ATGCTGTTAA CATGACCACC GTGCAACAGT CCATCCAGCG AAATATTCGA
AGATACTACA TGGAGAGAAA AATTTTCCAA CACCTGCTGG AGCTGAAAAG CCTCCAGATC
CGCTCGACCA AGGTCAACGA GAGCGCCCTG GTGAAGAGGG CCGTAGACGA CTACCACAAG
TCGACGATCG AGCTGGGCTA CGAGACGGGC TCGACACTCA AGCGCTATCC CTACTCGGAG
TACTCGTTCA AGAACTTCGA GCTGTTCCTG TACGACACGT TGAAGAGCCT ACAGAAGCGC
GAGACGTACA ACTTCCAGAA CATCTCCGAG GTGTACGACG AGCAAGAGGC CGAACGTCGA
TCCAGCCCCG ATGTAAGTCG ATACGAACGA GCCCTGAACT GCACCACCAA GACCCATCGC
TGCCTTCATG CCACCCACGC GTACACGGGA ATCCCTTGCG CTGCCTACAT CCCCATGATG
AACCATCACA CGATGCCCAA GCTCGGATTT GGCCAGTACA AATCGTCCCC CAGTGGGGTT
GGCAGTTTTT TCCTGCCGAA AATTCTCACC AACCCAACGG ACCGGAGCTG CCCCGGAAGT
AGCGCCAGCT ATCTAACACC CATAGGCGGC GGCGGCGGAG CAGCAAGCAA GGGAAGTCCG
CGGAAGGTCA GCCTCACCAA CAGCAGCAGT CCTCTTCCAG TGATGCCCAG CATTCGGCCG
AACGGCAACA GCTCCAACAG CAACATCAAC AGCAGCAGTC CCACTCAAGC TCCCTTCCAG
CTGTTGTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_021693547.1 CDS 577..5325 Translation
Target ORF information:
RefSeq Version XM_021837855.1 Organism Aedes aegypti(yellow fever mosquito) Definition Aedes aegypti ankyrin repeat domain-containing protein 12 (LOC5578805), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_021837855.1
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
4381
4441
4501
4561
4621
4681
4741ATGGAGGCGA AGAGTAAGCA GCACACCGCA GCAGTCCTTC CACAGCCAAC GGCTTCGCCT
CTGAGAGCCC CCACACAAGC TGCTGCTGCT GCTGCTGGTA GTGGAGGAAC AGCGAGCCGC
CGGAAACCGT CGGCCCTTGC CAATCGCGAC CAGCAGCTAC CGGGCAAACC GAAGCACACG
GTCAAGTTTA GGGAGCAAGG CGACCAGGAG CTTCTGGTGG TGACAATCGA ACCTTCTTCG
TCCCCTGCTG GCGGCACCTG TCAGCTACCG GCGCTAACTA CCACTTCGGA ATCGACATCC
GACCGACCAG GGACTGCCAC CCATCATCGG GGAACCCCGT ATCCCTCCTT GGCGGCGGGC
GACCTAAGAA AACCTAAGGA GAAAGCTAAA TCAAGTGAAC AACGGACGAA AAAGGCGGCT
ACCTCGCCGG CGACGCAAGC GTCCAGTGTA GTCCGGCAGC ACGGTCAGCG ACTCGCGGAA
GGATGCACGA CGCTTATGTA TGCCTGCCAG CAGGGACTTA CCGAGGAAAT TGTTAAGGAA
TTGCGCGAAA AGCCGGACGT CGTCCACCGG CGGGACCGGA ACAACCGCGG GGCCCTTCAC
TACGCCAGCA GCTCGAGGGA CGTTGTGGCC GCGGCCAGTG TCGCAATGGT GGCCCCGGAG
CTGATCGAGC AGGCCGATGA GGACGGGTTC ACGCCACTGC ATCTGGCCGT CATCCAGGGC
AACCTGCAGC TGGTCAACCT GCTGCTGGCG AACGGGGCCG ACGTGAACGC GCTGGACAAC
GAGGGCCACT CGGTGGTGCA CTGGGCCACA GTATGCGGCG AAGTGGAAGC TCTCCGTGCG
GTGCTGGCGG CCGGTGCCGA CGTGTCCACT CCGGACATCA ACGGGGGCAG CCCGTTGCAC
TACGCCGCCC AGATGTGCGG CGCCAACTAT GAGGGCAAAA CGGCTCGTGC CTCGGCCAAA
CTGGCACTGG AGATCCTCGG AACGCTGCTG GCCCATCCGG ACACTTCGGT CGAAGTAGAG
GACAAAGATA GCCGGCAGCC GCTGCTCTGG GCTTCCTCGG CTGGCTCTGC CAAGGCTGTC
CTGGCTTTGA TCAAAGCCGG CGCACAGGTC GAGAGTGCAG ATAAGGATGG ACTCACGGCA
CTTCACTGTG CCGCGTCCCG AGGCCACACG GAATGTATAG ACACGTTGAT CAATCTATGT
GGAGCGCACA CCGATCAGAT CGACTCCAAT GGGTGCACGG CTCTGCACTA CTCCGTGACG
TTAGGTCACG CGGATGCTAC CTCCTTGCTG CTCAAGCTGG ATGCCGATCC AAACCGACAG
GACCGAAAAG GCCGAACTCC AGCACATTGT GGCTGTGCGA AAGGGCAAAT GGAAACGGTG
AAAATTTTGC ACATGAAGAA AGGGAACTTG TGGCTGAGGA ATGCGAAGGG AGATTTTCCG
GTTCATGACG CCGCCAGCTC TGGAAGGAGA CAGCTGGTAC AGTGGCTTTT GCAGATGAAG
CCAAAGCACA TCAACACTCC AAGTAACGAT GGAAGAACGC TTTTGCACAT TGCGGCAGGG
CACGATAATG TGGACATGTG TAAGCTCTTG CTGGAATCTG GAGCGGAGAT GAATCACCTG
TACAGACCGG CAAAAGGTTC GCCCATGACT CCACTTGACT ACGCACTGGC GAAAGGCTTC
CGATCAACGG CAAAGTTTCT CCAGATGCAA GGAGGACTTC CAGCTAATAA GTTGCGCCTA
TCCAGTCGGC AGCAGAAAAT TCTTCCAGAT ATAGACAAGG TTGAACCCTT AAAACTCACA
GAAAAAGAAG AATTGATCGA CCTGAAGACT TCCAAGCGAT ACGTAGTGTA CTTGAACTCC
AATTCTGAAT CGGAGAGTCA AGATGATCGA TCTCACCGCA AGAGCAGACA CAAACGAAAA
GGAAGTCACC GAGCTCGTCG AACGAGCAGC TGCAGTGATA GCGTATTTCT CTACCGGGAA
GGCGCAGCCG ATATAAGTCG CTCTCGAAGC AACGTCGAAC TAAACCGGAC CCATCATCAT
CACCATCGCA GGCACCATCA CCGAAGCAAT AGTTCTTCAT CGGCTTCCAG CAGCGATTCG
TCTTCGGATG ACTGTTGCAA GCATATAAAA CGACGGCACA AGTGTTACAA GAAGTGTTCA
TCTAAATCGG CGAGATCTAA GGATCGGTCG CACAGGGAAA GGGATCGTGA CCGGGAGAAG
GAACCTAAAG AACCGAAGGA GTATGAATTT ATGTATGCCG AGCAACGAGA AGCAGGAAAG
CCACGTAAAC CGGGAGAACG CATGGGAAGG ATTGTGTTGA AAGAGGTGCA CAGTGGATCA
TCGGAGAACG AATCGCCAGA GAGTGACCGA CGAGGCAGCA CATCGAGATT AACCGGAAAG
AGTGGCCCAT TACTGACGGT GCCGCCGGAA GTTTTGGGAT TATTAGACGA TCAATCACTG
CCGAAACCAC CACCCAAAGC TGAGTTCAAC ATCAGGAAGG AGTCTGATGT AAAAAGCGAT
GGCAAATCTT CGGACACCAG CGTCAAGAAG GTGAAGAAAG GTAAGGGAAA CGGGAAGAAA
GGTAAAGCAT CTGGGAAAGT GAAGAAGACC GATTCGCCAA GTGAGGAGGA AACGAAAGAC
AAGCAGAAGC AACAGCAGGG GGAGAAGATT GTGACGGAAG CTCTGGTGCA CCCGGTGCCG
GAGACTATGG CCAAGTCCAC AGAAGATGAT GGTGCAGCTA CCGATGCGAC ATACACAATC
GATCAGAAAA CCAAATCCGA TTACGAGGGG TTCAGCGAAT CCGAGACTGG GAAAGGGAAA
GGCAAACCAG AGACAATAAT GGAAGCTAAG GATGAGACCG TGCAGGAAGT TCCACCGGCG
GTCCCTTTAG AGGTAAAGGA GGAGGTGGTT CCGGCTCCAA AAAAGGAACG GCCAAAGCTA
AAGTCAAACA AAGACAGTAG CACAAGCCGA TCCAGCAAAT CCAAGTCGGA TTCGTCGGAA
AAGGAGATGC CAAAGCAGAA ACCAAAGCCG AAAGCGGAAG CAACTCCTGT GGTGACAGCG
CCAACGCCGC AGCCAACGCC ACCACCGCCA CCTCCTCCTG AACCGGAACC AGAACGCGTT
GTACCAGAAC CCGAACCCGA ACCTGCTGTT GAGGAGCCTC CAATTGTGGT AGAAACTCAT
GTACAGGAGG AGGAAAAGCC TTCGGAGTTA CCGGTTGTAG TGCCAGAGGC TGAACCTGTG
CCTGCAGTCA CCGACGGAGA GGCAGTTGTT CCCCAAGAGA TTCCGGTGAC AGAACCGCCT
GAGTCGGAAC CCGAACCGAA GCCAGAACCG GAGCAAGCAC CCGAGTCGAA ACCGGAACTT
GCAGCTGTTG AGCAATCGAC AACTGAGGAG AAGAGCTCTG AAGTTGAAGA ATCGCCTTCG
AAATCAAGTG AAGATCAGAC CGAGCAGCAG CCGCCAGAAC CGGAAGAACC GCCAAAGCCC
GAACCGAGTG GAGACCAAGC TCTACCACCA ACCCCCAAAG AAGATTCTCC TAAGAAGGTC
AGTTTTGACA GAGAACGACC GAAGCTGAGG CGATCTGGCG AGTCCATGGT GGAGCACGTG
GAGGAAGAGG AAGTTCGAAC GGAAGAGGAT GCCGTTGTTC CACTAGCGGC AGCTGCAGCA
GTTGACCAAG AGAAGGTCGA TTCGACACGA AGTTTCTACG TGAGTTTGGC GGATGGAGAA
GAAGGCGACG AGAAGAAGAA ACGAAAATTG AAAAAGAGGA AATCCAAGGA AGACAAAGCC
GACGAAGAAG CACAAAGTAG CAAGGATCAG GACTCCGGTT TTGAGCCAAG TCCGCAATCG
GTACGCAGTA AGTCGACTGT GTTCGACCGT CCAACGAGTA CGGCGGTGTT ATCCAAGAGG
CCAGCATTTA CAATGGTAGA GGAGCGAGCG ATCAGCTCCA GGCCGGATGG TCGCAAACCT
GGCGACAAGA ATGCTGTTAA CATGACCACC GTGCAACAGT CCATCCAGCG AAATATTCGA
AGATACTACA TGGAGAGAAA AATTTTCCAA CACCTGCTGG AGCTGAAAAG CCTCCAGATC
CGCTCGACCA AGGTCAACGA GAGCGCCCTG GTGAAGAGGG CCGTAGACGA CTACCACAAG
TCGACGATCG AGCTGGGCTA CGAGACGGGC TCGACACTCA AGCGCTATCC CTACTCGGAG
TACTCGTTCA AGAACTTCGA GCTGTTCCTG TACGACACGT TGAAGAGCCT ACAGAAGCGC
GAGACGTACA ACTTCCAGAA CATCTCCGAG GTGTACGACG AGCAAGAGGC CGAACGTCGA
TCCAGCCCCG ATGTAAGTCG ATACGAACGA GCCCTGAACT GCACCACCAA GACCCATCGC
TGCCTTCATG CCACCCACGC GTACACGGGA ATCCCTTGCG CTGCCTACAT CCCCATGATG
AACCATCACA CGATGCCCAA GCTCGGATTT GGCCAGTACA AATCGTCCCC CAGTGGGGTT
GGCAGTTTTT TCCTGCCGAA AATTCTCACC AACCCAACGG ACCGGAGCTG CCCCGGAAGT
AGCGCCAGCT ATCTAACACC CATAGGCGGC GGCGGCGGAG CAGCAAGCAA GGGAAGTCCG
CGGAAGGTCA GCCTCACCAA CAGCAGCAGT CCTCTTCCAG TGATGCCCAG CATTCGGCCG
AACGGCAACA GCTCCAACAG CAACATCAAC AGCAGCAGTC CCACTCAAGC TCCCTTCCAG
CTGTTGTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAe116786 Clone ID Related Accession (Same CDS sequence) XM_021837857.1 Accession Version XM_021837857.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4743bp)
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 ankyrin repeat domain-containing protein 12 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
4381
4441
4501
4561
4621
4681
4741ATGGAGGCGA AGAGTAAGCA GCACACCGCA GCAGTCCTTC CACAGCCAAC GGCTTCGCCT
CTGAGAGCCC CCACACAAGC TGCTGCTGCT GCTGCTGGTA GTGGAGGAAC AGCGAGCCGC
CGGAAACCGT CGGCCCTTGC CAATCGCGAC CAGCAGCTAC CGGGCAAACC GAAGCACACG
GTCAAGTTTA GGGAGCAAGG CGACCAGGAG CTTCTGGTGG TGACAATCGA ACCTTCTTCG
TCCCCTGCTG GCGGCACCTG TCAGCTACCG GCGCTAACTA CCACTTCGGA ATCGACATCC
GACCGACCAG GGACTGCCAC CCATCATCGG GGAACCCCGT ATCCCTCCTT GGCGGCGGGC
GACCTAAGAA AACCTAAGGA GAAAGCTAAA TCAAGTGAAC AACGGACGAA AAAGGCGGCT
ACCTCGCCGG CGACGCAAGC GTCCAGTGTA GTCCGGCAGC ACGGTCAGCG ACTCGCGGAA
GGATGCACGA CGCTTATGTA TGCCTGCCAG CAGGGACTTA CCGAGGAAAT TGTTAAGGAA
TTGCGCGAAA AGCCGGACGT CGTCCACCGG CGGGACCGGA ACAACCGCGG GGCCCTTCAC
TACGCCAGCA GCTCGAGGGA CGTTGTGGCC GCGGCCAGTG TCGCAATGGT GGCCCCGGAG
CTGATCGAGC AGGCCGATGA GGACGGGTTC ACGCCACTGC ATCTGGCCGT CATCCAGGGC
AACCTGCAGC TGGTCAACCT GCTGCTGGCG AACGGGGCCG ACGTGAACGC GCTGGACAAC
GAGGGCCACT CGGTGGTGCA CTGGGCCACA GTATGCGGCG AAGTGGAAGC TCTCCGTGCG
GTGCTGGCGG CCGGTGCCGA CGTGTCCACT CCGGACATCA ACGGGGGCAG CCCGTTGCAC
TACGCCGCCC AGATGTGCGG CGCCAACTAT GAGGGCAAAA CGGCTCGTGC CTCGGCCAAA
CTGGCACTGG AGATCCTCGG AACGCTGCTG GCCCATCCGG ACACTTCGGT CGAAGTAGAG
GACAAAGATA GCCGGCAGCC GCTGCTCTGG GCTTCCTCGG CTGGCTCTGC CAAGGCTGTC
CTGGCTTTGA TCAAAGCCGG CGCACAGGTC GAGAGTGCAG ATAAGGATGG ACTCACGGCA
CTTCACTGTG CCGCGTCCCG AGGCCACACG GAATGTATAG ACACGTTGAT CAATCTATGT
GGAGCGCACA CCGATCAGAT CGACTCCAAT GGGTGCACGG CTCTGCACTA CTCCGTGACG
TTAGGTCACG CGGATGCTAC CTCCTTGCTG CTCAAGCTGG ATGCCGATCC AAACCGACAG
GACCGAAAAG GCCGAACTCC AGCACATTGT GGCTGTGCGA AAGGGCAAAT GGAAACGGTG
AAAATTTTGC ACATGAAGAA AGGGAACTTG TGGCTGAGGA ATGCGAAGGG AGATTTTCCG
GTTCATGACG CCGCCAGCTC TGGAAGGAGA CAGCTGGTAC AGTGGCTTTT GCAGATGAAG
CCAAAGCACA TCAACACTCC AAGTAACGAT GGAAGAACGC TTTTGCACAT TGCGGCAGGG
CACGATAATG TGGACATGTG TAAGCTCTTG CTGGAATCTG GAGCGGAGAT GAATCACCTG
TACAGACCGG CAAAAGGTTC GCCCATGACT CCACTTGACT ACGCACTGGC GAAAGGCTTC
CGATCAACGG CAAAGTTTCT CCAGATGCAA GGAGGACTTC CAGCTAATAA GTTGCGCCTA
TCCAGTCGGC AGCAGAAAAT TCTTCCAGAT ATAGACAAGG TTGAACCCTT AAAACTCACA
GAAAAAGAAG AATTGATCGA CCTGAAGACT TCCAAGCGAT ACGTAGTGTA CTTGAACTCC
AATTCTGAAT CGGAGAGTCA AGATGATCGA TCTCACCGCA AGAGCAGACA CAAACGAAAA
GGAAGTCACC GAGCTCGTCG AACGAGCAGC TGCAGTGATA GCGTATTTCT CTACCGGGAA
GGCGCAGCCG ATATAAGTCG CTCTCGAAGC AACGTCGAAC TAAACCGGAC CCATCATCAT
CACCATCGCA GGCACCATCA CCGAAGCAAT AGTTCTTCAT CGGCTTCCAG CAGCGATTCG
TCTTCGGATG ACTGTTGCAA GCATATAAAA CGACGGCACA AGTGTTACAA GAAGTGTTCA
TCTAAATCGG CGAGATCTAA GGATCGGTCG CACAGGGAAA GGGATCGTGA CCGGGAGAAG
GAACCTAAAG AACCGAAGGA GTATGAATTT ATGTATGCCG AGCAACGAGA AGCAGGAAAG
CCACGTAAAC CGGGAGAACG CATGGGAAGG ATTGTGTTGA AAGAGGTGCA CAGTGGATCA
TCGGAGAACG AATCGCCAGA GAGTGACCGA CGAGGCAGCA CATCGAGATT AACCGGAAAG
AGTGGCCCAT TACTGACGGT GCCGCCGGAA GTTTTGGGAT TATTAGACGA TCAATCACTG
CCGAAACCAC CACCCAAAGC TGAGTTCAAC ATCAGGAAGG AGTCTGATGT AAAAAGCGAT
GGCAAATCTT CGGACACCAG CGTCAAGAAG GTGAAGAAAG GTAAGGGAAA CGGGAAGAAA
GGTAAAGCAT CTGGGAAAGT GAAGAAGACC GATTCGCCAA GTGAGGAGGA AACGAAAGAC
AAGCAGAAGC AACAGCAGGG GGAGAAGATT GTGACGGAAG CTCTGGTGCA CCCGGTGCCG
GAGACTATGG CCAAGTCCAC AGAAGATGAT GGTGCAGCTA CCGATGCGAC ATACACAATC
GATCAGAAAA CCAAATCCGA TTACGAGGGG TTCAGCGAAT CCGAGACTGG GAAAGGGAAA
GGCAAACCAG AGACAATAAT GGAAGCTAAG GATGAGACCG TGCAGGAAGT TCCACCGGCG
GTCCCTTTAG AGGTAAAGGA GGAGGTGGTT CCGGCTCCAA AAAAGGAACG GCCAAAGCTA
AAGTCAAACA AAGACAGTAG CACAAGCCGA TCCAGCAAAT CCAAGTCGGA TTCGTCGGAA
AAGGAGATGC CAAAGCAGAA ACCAAAGCCG AAAGCGGAAG CAACTCCTGT GGTGACAGCG
CCAACGCCGC AGCCAACGCC ACCACCGCCA CCTCCTCCTG AACCGGAACC AGAACGCGTT
GTACCAGAAC CCGAACCCGA ACCTGCTGTT GAGGAGCCTC CAATTGTGGT AGAAACTCAT
GTACAGGAGG AGGAAAAGCC TTCGGAGTTA CCGGTTGTAG TGCCAGAGGC TGAACCTGTG
CCTGCAGTCA CCGACGGAGA GGCAGTTGTT CCCCAAGAGA TTCCGGTGAC AGAACCGCCT
GAGTCGGAAC CCGAACCGAA GCCAGAACCG GAGCAAGCAC CCGAGTCGAA ACCGGAACTT
GCAGCTGTTG AGCAATCGAC AACTGAGGAG AAGAGCTCTG AAGTTGAAGA ATCGCCTTCG
AAATCAAGTG AAGATCAGAC CGAGCAGCAG CCGCCAGAAC CGGAAGAACC GCCAAAGCCC
GAACCGAGTG GAGACCAAGC TCTACCACCA ACCCCCAAAG AAGATTCTCC TAAGAAGGTC
AGTTTTGACA GAGAACGACC GAAGCTGAGG CGATCTGGCG AGTCCATGGT GGAGCACGTG
GAGGAAGAGG AAGTTCGAAC GGAAGAGGAT GCCGTTGTTC CACTAGCGGC AGCTGCAGCA
GTTGACCAAG AGAAGGTCGA TTCGACACGA AGTTTCTACG TGAGTTTGGC GGATGGAGAA
GAAGGCGACG AGAAGAAGAA ACGAAAATTG AAAAAGAGGA AATCCAAGGA AGACAAAGCC
GACGAAGAAG CACAAAGTAG CAAGGATCAG GACTCCGGTT TTGAGCCAAG TCCGCAATCG
GTACGCAGTA AGTCGACTGT GTTCGACCGT CCAACGAGTA CGGCGGTGTT ATCCAAGAGG
CCAGCATTTA CAATGGTAGA GGAGCGAGCG ATCAGCTCCA GGCCGGATGG TCGCAAACCT
GGCGACAAGA ATGCTGTTAA CATGACCACC GTGCAACAGT CCATCCAGCG AAATATTCGA
AGATACTACA TGGAGAGAAA AATTTTCCAA CACCTGCTGG AGCTGAAAAG CCTCCAGATC
CGCTCGACCA AGGTCAACGA GAGCGCCCTG GTGAAGAGGG CCGTAGACGA CTACCACAAG
TCGACGATCG AGCTGGGCTA CGAGACGGGC TCGACACTCA AGCGCTATCC CTACTCGGAG
TACTCGTTCA AGAACTTCGA GCTGTTCCTG TACGACACGT TGAAGAGCCT ACAGAAGCGC
GAGACGTACA ACTTCCAGAA CATCTCCGAG GTGTACGACG AGGCCGAACG TCGATCCAGC
CCCGATGTAA GTCGATACGA ACGAGCCCTG AACTGCACCA CCAAGACCCA TCGCTGCCTT
CATGCCACCC ACGCGTACAC GGGAATCCCT TGCGCTGCCT ACATCCCCAT GATGAACCAT
CACACGATGC CCAAGCTCGG ATTTGGCCAG TACAAATCGT CCCCCAGTGG GGTTGGCAGT
TTTTTCCTGC CGAAAATTCT CACCAACCCA ACGGACCGGA GCTGCCCCGG AAGTAGCGCC
AGCTATCTAA CACCCATAGG CGGCGGCGGC GGAGCAGCAA GCAAGGGAAG TCCGCGGAAG
GTCAGCCTCA CCAACAGCAG CAGTCCTCTT CCAGTGATGC CCAGCATTCG GCCGAACGGC
AACAGCTCCA ACAGCAACAT CAACAGCAGC AGTCCCACTC AAGCTCCCTT CCAGCTGTTG
TAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_021693549.1 CDS 198..4940 Translation
Target ORF information:
RefSeq Version XM_021837857.1 Organism Aedes aegypti(yellow fever mosquito) Definition Aedes aegypti ankyrin repeat domain-containing protein 12 (LOC5578805), transcript variant X4, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_021837857.1
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
4381
4441
4501
4561
4621
4681
4741ATGGAGGCGA AGAGTAAGCA GCACACCGCA GCAGTCCTTC CACAGCCAAC GGCTTCGCCT
CTGAGAGCCC CCACACAAGC TGCTGCTGCT GCTGCTGGTA GTGGAGGAAC AGCGAGCCGC
CGGAAACCGT CGGCCCTTGC CAATCGCGAC CAGCAGCTAC CGGGCAAACC GAAGCACACG
GTCAAGTTTA GGGAGCAAGG CGACCAGGAG CTTCTGGTGG TGACAATCGA ACCTTCTTCG
TCCCCTGCTG GCGGCACCTG TCAGCTACCG GCGCTAACTA CCACTTCGGA ATCGACATCC
GACCGACCAG GGACTGCCAC CCATCATCGG GGAACCCCGT ATCCCTCCTT GGCGGCGGGC
GACCTAAGAA AACCTAAGGA GAAAGCTAAA TCAAGTGAAC AACGGACGAA AAAGGCGGCT
ACCTCGCCGG CGACGCAAGC GTCCAGTGTA GTCCGGCAGC ACGGTCAGCG ACTCGCGGAA
GGATGCACGA CGCTTATGTA TGCCTGCCAG CAGGGACTTA CCGAGGAAAT TGTTAAGGAA
TTGCGCGAAA AGCCGGACGT CGTCCACCGG CGGGACCGGA ACAACCGCGG GGCCCTTCAC
TACGCCAGCA GCTCGAGGGA CGTTGTGGCC GCGGCCAGTG TCGCAATGGT GGCCCCGGAG
CTGATCGAGC AGGCCGATGA GGACGGGTTC ACGCCACTGC ATCTGGCCGT CATCCAGGGC
AACCTGCAGC TGGTCAACCT GCTGCTGGCG AACGGGGCCG ACGTGAACGC GCTGGACAAC
GAGGGCCACT CGGTGGTGCA CTGGGCCACA GTATGCGGCG AAGTGGAAGC TCTCCGTGCG
GTGCTGGCGG CCGGTGCCGA CGTGTCCACT CCGGACATCA ACGGGGGCAG CCCGTTGCAC
TACGCCGCCC AGATGTGCGG CGCCAACTAT GAGGGCAAAA CGGCTCGTGC CTCGGCCAAA
CTGGCACTGG AGATCCTCGG AACGCTGCTG GCCCATCCGG ACACTTCGGT CGAAGTAGAG
GACAAAGATA GCCGGCAGCC GCTGCTCTGG GCTTCCTCGG CTGGCTCTGC CAAGGCTGTC
CTGGCTTTGA TCAAAGCCGG CGCACAGGTC GAGAGTGCAG ATAAGGATGG ACTCACGGCA
CTTCACTGTG CCGCGTCCCG AGGCCACACG GAATGTATAG ACACGTTGAT CAATCTATGT
GGAGCGCACA CCGATCAGAT CGACTCCAAT GGGTGCACGG CTCTGCACTA CTCCGTGACG
TTAGGTCACG CGGATGCTAC CTCCTTGCTG CTCAAGCTGG ATGCCGATCC AAACCGACAG
GACCGAAAAG GCCGAACTCC AGCACATTGT GGCTGTGCGA AAGGGCAAAT GGAAACGGTG
AAAATTTTGC ACATGAAGAA AGGGAACTTG TGGCTGAGGA ATGCGAAGGG AGATTTTCCG
GTTCATGACG CCGCCAGCTC TGGAAGGAGA CAGCTGGTAC AGTGGCTTTT GCAGATGAAG
CCAAAGCACA TCAACACTCC AAGTAACGAT GGAAGAACGC TTTTGCACAT TGCGGCAGGG
CACGATAATG TGGACATGTG TAAGCTCTTG CTGGAATCTG GAGCGGAGAT GAATCACCTG
TACAGACCGG CAAAAGGTTC GCCCATGACT CCACTTGACT ACGCACTGGC GAAAGGCTTC
CGATCAACGG CAAAGTTTCT CCAGATGCAA GGAGGACTTC CAGCTAATAA GTTGCGCCTA
TCCAGTCGGC AGCAGAAAAT TCTTCCAGAT ATAGACAAGG TTGAACCCTT AAAACTCACA
GAAAAAGAAG AATTGATCGA CCTGAAGACT TCCAAGCGAT ACGTAGTGTA CTTGAACTCC
AATTCTGAAT CGGAGAGTCA AGATGATCGA TCTCACCGCA AGAGCAGACA CAAACGAAAA
GGAAGTCACC GAGCTCGTCG AACGAGCAGC TGCAGTGATA GCGTATTTCT CTACCGGGAA
GGCGCAGCCG ATATAAGTCG CTCTCGAAGC AACGTCGAAC TAAACCGGAC CCATCATCAT
CACCATCGCA GGCACCATCA CCGAAGCAAT AGTTCTTCAT CGGCTTCCAG CAGCGATTCG
TCTTCGGATG ACTGTTGCAA GCATATAAAA CGACGGCACA AGTGTTACAA GAAGTGTTCA
TCTAAATCGG CGAGATCTAA GGATCGGTCG CACAGGGAAA GGGATCGTGA CCGGGAGAAG
GAACCTAAAG AACCGAAGGA GTATGAATTT ATGTATGCCG AGCAACGAGA AGCAGGAAAG
CCACGTAAAC CGGGAGAACG CATGGGAAGG ATTGTGTTGA AAGAGGTGCA CAGTGGATCA
TCGGAGAACG AATCGCCAGA GAGTGACCGA CGAGGCAGCA CATCGAGATT AACCGGAAAG
AGTGGCCCAT TACTGACGGT GCCGCCGGAA GTTTTGGGAT TATTAGACGA TCAATCACTG
CCGAAACCAC CACCCAAAGC TGAGTTCAAC ATCAGGAAGG AGTCTGATGT AAAAAGCGAT
GGCAAATCTT CGGACACCAG CGTCAAGAAG GTGAAGAAAG GTAAGGGAAA CGGGAAGAAA
GGTAAAGCAT CTGGGAAAGT GAAGAAGACC GATTCGCCAA GTGAGGAGGA AACGAAAGAC
AAGCAGAAGC AACAGCAGGG GGAGAAGATT GTGACGGAAG CTCTGGTGCA CCCGGTGCCG
GAGACTATGG CCAAGTCCAC AGAAGATGAT GGTGCAGCTA CCGATGCGAC ATACACAATC
GATCAGAAAA CCAAATCCGA TTACGAGGGG TTCAGCGAAT CCGAGACTGG GAAAGGGAAA
GGCAAACCAG AGACAATAAT GGAAGCTAAG GATGAGACCG TGCAGGAAGT TCCACCGGCG
GTCCCTTTAG AGGTAAAGGA GGAGGTGGTT CCGGCTCCAA AAAAGGAACG GCCAAAGCTA
AAGTCAAACA AAGACAGTAG CACAAGCCGA TCCAGCAAAT CCAAGTCGGA TTCGTCGGAA
AAGGAGATGC CAAAGCAGAA ACCAAAGCCG AAAGCGGAAG CAACTCCTGT GGTGACAGCG
CCAACGCCGC AGCCAACGCC ACCACCGCCA CCTCCTCCTG AACCGGAACC AGAACGCGTT
GTACCAGAAC CCGAACCCGA ACCTGCTGTT GAGGAGCCTC CAATTGTGGT AGAAACTCAT
GTACAGGAGG AGGAAAAGCC TTCGGAGTTA CCGGTTGTAG TGCCAGAGGC TGAACCTGTG
CCTGCAGTCA CCGACGGAGA GGCAGTTGTT CCCCAAGAGA TTCCGGTGAC AGAACCGCCT
GAGTCGGAAC CCGAACCGAA GCCAGAACCG GAGCAAGCAC CCGAGTCGAA ACCGGAACTT
GCAGCTGTTG AGCAATCGAC AACTGAGGAG AAGAGCTCTG AAGTTGAAGA ATCGCCTTCG
AAATCAAGTG AAGATCAGAC CGAGCAGCAG CCGCCAGAAC CGGAAGAACC GCCAAAGCCC
GAACCGAGTG GAGACCAAGC TCTACCACCA ACCCCCAAAG AAGATTCTCC TAAGAAGGTC
AGTTTTGACA GAGAACGACC GAAGCTGAGG CGATCTGGCG AGTCCATGGT GGAGCACGTG
GAGGAAGAGG AAGTTCGAAC GGAAGAGGAT GCCGTTGTTC CACTAGCGGC AGCTGCAGCA
GTTGACCAAG AGAAGGTCGA TTCGACACGA AGTTTCTACG TGAGTTTGGC GGATGGAGAA
GAAGGCGACG AGAAGAAGAA ACGAAAATTG AAAAAGAGGA AATCCAAGGA AGACAAAGCC
GACGAAGAAG CACAAAGTAG CAAGGATCAG GACTCCGGTT TTGAGCCAAG TCCGCAATCG
GTACGCAGTA AGTCGACTGT GTTCGACCGT CCAACGAGTA CGGCGGTGTT ATCCAAGAGG
CCAGCATTTA CAATGGTAGA GGAGCGAGCG ATCAGCTCCA GGCCGGATGG TCGCAAACCT
GGCGACAAGA ATGCTGTTAA CATGACCACC GTGCAACAGT CCATCCAGCG AAATATTCGA
AGATACTACA TGGAGAGAAA AATTTTCCAA CACCTGCTGG AGCTGAAAAG CCTCCAGATC
CGCTCGACCA AGGTCAACGA GAGCGCCCTG GTGAAGAGGG CCGTAGACGA CTACCACAAG
TCGACGATCG AGCTGGGCTA CGAGACGGGC TCGACACTCA AGCGCTATCC CTACTCGGAG
TACTCGTTCA AGAACTTCGA GCTGTTCCTG TACGACACGT TGAAGAGCCT ACAGAAGCGC
GAGACGTACA ACTTCCAGAA CATCTCCGAG GTGTACGACG AGGCCGAACG TCGATCCAGC
CCCGATGTAA GTCGATACGA ACGAGCCCTG AACTGCACCA CCAAGACCCA TCGCTGCCTT
CATGCCACCC ACGCGTACAC GGGAATCCCT TGCGCTGCCT ACATCCCCAT GATGAACCAT
CACACGATGC CCAAGCTCGG ATTTGGCCAG TACAAATCGT CCCCCAGTGG GGTTGGCAGT
TTTTTCCTGC CGAAAATTCT CACCAACCCA ACGGACCGGA GCTGCCCCGG AAGTAGCGCC
AGCTATCTAA CACCCATAGG CGGCGGCGGC GGAGCAGCAA GCAAGGGAAG TCCGCGGAAG
GTCAGCCTCA CCAACAGCAG CAGTCCTCTT CCAGTGATGC CCAGCATTCG GCCGAACGGC
AACAGCTCCA ACAGCAACAT CAACAGCAGC AGTCCCACTC AAGCTCCCTT CCAGCTGTTG
TAGThe 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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