| Gene Symbol | LOC5563776 |
| Entrez Gene ID | 5563776 |
| Full Name | eukaryotic translation initiation factor 2-alpha kinase |
| Synonyms | AAEL003939 |
| Gene Type | protein-coding |
| Organism | Aedes aegypti(yellow fever mosquito) |
- REAGENT SERVICES Hot!
-
PRODUCTS
-
Most Popular Reagents
-
Instruments
-
Antibodies
-
ELISA Kits
-
Protein Electrophoresis and Blotting
-
Protein and Antibody Purification
-
Recombinant Proteins
-
Molecular Biology
-
Stable Cell Lines
-
Cell Isolation and Activation
-
IVD Raw Materials
-
Therapy Applications
-
Resources
-
![AmMag™ Quatro Automated Plasmid Purification]()
AmMag™ Quatro automated plasmid purification
-
![Anti-Camelid VHH]()
MonoRab™ Anti-VHH Antibodies
-
![ELISA Kits]()
ELISA Kits
-
![Precast Gels]()
SurePAGE™ Precast Gels
-
![Quatro ProAb Automated Protein and Antibody Purification System]()
AmMag™ Quatro ProAb Automated Protein and Antibody Purification System
-
![Target Proteins]()
Target Proteins
-
![AmMag™ Quatro Automated Plasmid Purification]()
AmMag™ Quatro automated plasmid purification
-
![Stable Cell Lines]()
Stable Cell Lines
-
![Cell Isolation and Activation]()
Cell Isolation and Activation
-
![Quick
Order]()
Quick Order
-
![Quick
Order]()
Quick Order
- APPLICATIONS
- RESOURCES
- ABOUT US
LOC5563776 cDNA ORF clone, Aedes aegypti(yellow fever mosquito)
-
Gene
-
Clones
gRNAs
The following LOC5563776 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC5563776 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.
-
Reference Sequences (Refseq)
CloneID OAe129360 Clone ID Related Accession (Same CDS sequence) XM_001648020.3 Accession Version XM_001648020.3 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3375bp)
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 eukaryotic translation initiation factor 2-alpha kinase Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_035109.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 20, 2017 this sequence version replaced XM_001648020.2. ##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
3361ATGCCTACGT TCTCGACGCT GATTGGGCCG CTGCTGCTGG CCGGAATGGT CCTGCTTGGT
GGGTCTGGGG CAGGGGCCGA TGCTGGACCT GAAGGTGCCC CCCCGGAGCC AGCCGTGGAA
AAGCTACCGT TTTGCGACGA CGATGTCGAT AAGGGACGAG ATATCAGCGA TAGACTCCTC
TACGTGACCA CCCTGGATGG CCGTTTGTCC GCGCTGGACC TCATGAACGG TGGCAGCATG
CTGTGGAGCG TGGAAACCGG TCCCGGTTCC CTGCTGTCGT CCAGCATCCA CCGGCTGGAG
TTGACCAACA ACGGTAAATG GGTCCGTATG ATCCCCTCCC TCAGCGGGGG CTTGTACAAG
TTCGACGGCG ATACCATCGA ACCGATCCCG TTCAGTGCGG AGGATTTGCT GAAGTCTTCG
TTCAAGTTTT CCGACGACCT GGTCATTTCC GGTGGCAAGG AGACCCGATC GTACGGTGTG
TCGACCCGCA CCGGTCAGCT GATCTACGAG TGCACGATGC GAGGCTGTCG CAATGCTACG
GAGATCATGG AGGACAGCAT GAAGAATGGT CCACCGCGGG AGGGAACGGA AGCGATTCTA
CAGCATGATC CCCTGCAGGA CGACGTGGTG GTGATTCGGC GGCAGACTCA GACTGTGCGG
GCGGTTGAAT CGAGAACCGG CAGTGAGCGG TGGAATTTCA GCATCGGCCA TCACGAGTTG
GAGATGTTGA AGAATGAGGA CTGCCGGGGA GGCGGCGGGA AGGATACGCT GGATCCGGCC
CTTCTTGATT TGGAACTGAA GGTTGTGATT CCGGAGGGAA TGGTGTACGC TGTGAAGAGG
TCGGAACCGG GGGTGACCGT GTGGCAGTAC AAGTTTGACC ACCCGATAGT TAGTGCCTGG
AGGGCAGGGG ACAAGAATGC ACTGAAGAGT GTGGATCTGT TTCGCGGAGC GGAATGGGTG
TGGAATGGAA ATGGACAGTC GATCGGAACG GATGAGAAGG ACAGCAACCT AATGATCAAT
CCGTCTTTGT ACTTGGGGAT GCACCAGAGG CAGTTGTATA TTCAGGAGTC CAGTGCTTTA
ATGGTTCGAC AAATGATGGA TGCACAGAGT GTTCTTTTGA CAGACGAGGG GAAGTTTCCG
ACGATTCCGT GGAAGCCGTA TCCCGCGAGG AACAAAGTGG CGGGATATCT GACCGATGGA
AGTGAGCAAG GGCAGACCCC GGATGATAAG GAGTATGCTG AATCTACGGC CATTGCTCGA
TCGGTTTTGT ACCAATCGAA ATATGTCGAT GGCGATGGAT TCTTTCTATT TACTCCGGAT
GATTTGGAGA GAAAAGATCA CGAACTATGC TCGAACAGCT CCTCGATTCC GGCTTTGACG
GATGGAGGAT TGAGGAATGA GAGTTCGATT TTCGACTTTG CAATGGATCC AGATGCCCCG
GTCAAAGTGA TCATCATCTC GATTTGGTTC TGGTGGAAGG AGATCCTGGT CATATCTGCG
ACTACGGCTT TCCTGCTGAA CGTAATGCTG CGTTTGAAGA GCGAGAAGGA AGTGGTGGTG
TTTGTGGAAC GTAAAGTGGA GGTTCCGGTG CCGATGGCAG TTGAAGCGAC TGAGGAAGAA
TTTGCACCAC TTGAGGCCGC GGTACGGAGC ATGGGAGGGA GAAGTCTTTC AGAGTCAAAC
AATGAAAACT TCACCTCACG TTTCCAAGAG GACTTCGAAC TAGTTCAATG TCTAGGAAAA
GGTGGCTTTG GTGTGGTATT TGAGGTGAAG AACAAGCTGG ACGATTGCCA CTACGCCATC
AAAAGAGTAG TCCTTCCGAA CAAGCAGGAA TCGAAAGATC GTGTCATGCG CGAAGTGAAG
ACTTTGGCTC ATTGTGAGCA TAGCAATATA GTGCGATATT TCCACGCTTG GATAGAGACG
CCTCCGCGAG GATGGCAGGA AGTTCATGAC AAGATTTGGT ACGAGAGGAA TTGCATGTCC
ACATCGATTG ATATTGAAAC CCCGACGGAA ACTTCTCCGC CGAATTCTAA ACTCATTCCT
ACAAGCCAGA GCAGCATTTT CCAAGGAAGG TACAATCATC AGAGACACCA TTCCAGTGGC
CAGCAACCTT GGTTGACGAA GCTTCCGGAG CCCAGTTTTT CAATGTCCCA CACCGAAGCA
GAACAGTCGG ACAGTTGTTC TTTTATCCAG TTTCAAGCCA ATCCGGGCAA ATCAATTCGA
AGCAACACTG ACGATGATTC GTTTCAGATT GAGTTCAAGC ATGATCCCGA AGATACCGGG
GCAGGGGGCG ATTCCATGGA CATCGTTTTC AAGGAATCCA CACAGGACGA AATGTCCAAA
AGTCATCACG TTATTTCTAT CAGTGATACG CCGCAAAAGA ATGATATTCA GCCGCCTCGG
AAGAATCGCC ATCGTCGGCC TCTTTCGTTG GATTTGACCA GCACCGGTAG CGTAATTCGG
CCAGCTTCGA TAGCCACCGG ATCCCAGATG GTTGAATGTA GTACCGCTGC TTCCAATTCC
GTGGCAGCTA GTACCGTTAA CAGCAAAATC TATCTATACA TCCAGATGCA ACTGTGCCAA
AAGCAGTCGC TCAAAGAGTG GCTGAAATTG AATAATCTGC CTGCTCGCCA GAACAAGATC
ATTCCCATCT TTGAGCAAAT CGTGGATGCC GTAGAGTACG TCCACCTGAA AGGATTAATT
CACAGGGACC TGAAACCAAG CAATATTTTC TTTTCGCTCG ATGGGCGAAT CAAAATTGGA
GACTTCGGAC TGGTCACCGA CTCGAGTGAC CTGCAGTATG ACAAAGATAA CAATCTGCCT
GAGATTGATA TGATAAAACC TGAGGAGCGT CACACTCGGA AGGTCGGAAC CGAGTTATAC
ATGTCGCCGG AGCAGCAAAA GGGCCTTCCT TACGACTACA AGGTGGACAT CTTTTCGCTG
GGGTTGATTC TGTTCGAACT GCTGCAAAGC TTCGGTACAG AGATGGAACG CTTTAAAAGG
CTGCAGGATG TTCGGAAGAA CAAGTTTCCC CCACAGTTCG AGGAGACCTA CCCGGATGAG
TACCAACTCC TGAAGATAAT GCTGTCGACG CAGCCCAGCA AACGACCCAC TACTTACGGT
ATCAAGGCGC GTCCTCCACT GAAGCGCTTC CCAACAAGCA AATCCACTCC GCAGCTGAAT
CAGCAAGTTT CAGCCATTAT TACAGCACCG GAAGCAGCGG CGGATGCTGA TGATCTCCAC
CGGCGCAGCC TTTCGGACTG CTCCGACAAC AGCGAGTGGC ACTTTGAGCT GCCTCCACGG
CGAAAAGACA GCCGCTCCAC AGTCACCACC ACCAGTTCCA GCTCCGGAGG CAATCAGAAT
CAAACATGTT TCTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_001648070.2 CDS 329..3703 Translation 
Target ORF information:
RefSeq Version XM_001648020.3 Organism Aedes aegypti(yellow fever mosquito) Definition Aedes aegypti eukaryotic translation initiation factor 2-alpha kinase (LOC5563776), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_001648020.3
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
3361ATGCCTACGT TCTCGACGCT GATTGGGCCG CTGCTGCTGG CCGGAATGGT CCTGCTTGGT
GGGTCTGGGG CAGGGGCCGA TGCTGGACCT GAAGGTGCCC CCCCGGAGCC AGCCGTGGAA
AAGCTACCGT TTTGCGACGA CGATGTCGAT AAGGGACGAG ATATCAGCGA TAGACTCCTC
TACGTGACCA CCCTGGATGG CCGTTTGTCC GCGCTGGACC TCATGAACGG TGGCAGCATG
CTGTGGAGCG TGGAAACCGG TCCCGGTTCC CTGCTGTCGT CCAGCATCCA CCGGCTGGAG
TTGACCAACA ACGGTAAATG GGTCCGTATG ATCCCCTCCC TCAGCGGGGG CTTGTACAAG
TTCGACGGCG ATACCATCGA ACCGATCCCG TTCAGTGCGG AGGATTTGCT GAAGTCTTCG
TTCAAGTTTT CCGACGACCT GGTCATTTCC GGTGGCAAGG AGACCCGATC GTACGGTGTG
TCGACCCGCA CCGGTCAGCT GATCTACGAG TGCACGATGC GAGGCTGTCG CAATGCTACG
GAGATCATGG AGGACAGCAT GAAGAATGGT CCACCGCGGG AGGGAACGGA AGCGATTCTA
CAGCATGATC CCCTGCAGGA CGACGTGGTG GTGATTCGGC GGCAGACTCA GACTGTGCGG
GCGGTTGAAT CGAGAACCGG CAGTGAGCGG TGGAATTTCA GCATCGGCCA TCACGAGTTG
GAGATGTTGA AGAATGAGGA CTGCCGGGGA GGCGGCGGGA AGGATACGCT GGATCCGGCC
CTTCTTGATT TGGAACTGAA GGTTGTGATT CCGGAGGGAA TGGTGTACGC TGTGAAGAGG
TCGGAACCGG GGGTGACCGT GTGGCAGTAC AAGTTTGACC ACCCGATAGT TAGTGCCTGG
AGGGCAGGGG ACAAGAATGC ACTGAAGAGT GTGGATCTGT TTCGCGGAGC GGAATGGGTG
TGGAATGGAA ATGGACAGTC GATCGGAACG GATGAGAAGG ACAGCAACCT AATGATCAAT
CCGTCTTTGT ACTTGGGGAT GCACCAGAGG CAGTTGTATA TTCAGGAGTC CAGTGCTTTA
ATGGTTCGAC AAATGATGGA TGCACAGAGT GTTCTTTTGA CAGACGAGGG GAAGTTTCCG
ACGATTCCGT GGAAGCCGTA TCCCGCGAGG AACAAAGTGG CGGGATATCT GACCGATGGA
AGTGAGCAAG GGCAGACCCC GGATGATAAG GAGTATGCTG AATCTACGGC CATTGCTCGA
TCGGTTTTGT ACCAATCGAA ATATGTCGAT GGCGATGGAT TCTTTCTATT TACTCCGGAT
GATTTGGAGA GAAAAGATCA CGAACTATGC TCGAACAGCT CCTCGATTCC GGCTTTGACG
GATGGAGGAT TGAGGAATGA GAGTTCGATT TTCGACTTTG CAATGGATCC AGATGCCCCG
GTCAAAGTGA TCATCATCTC GATTTGGTTC TGGTGGAAGG AGATCCTGGT CATATCTGCG
ACTACGGCTT TCCTGCTGAA CGTAATGCTG CGTTTGAAGA GCGAGAAGGA AGTGGTGGTG
TTTGTGGAAC GTAAAGTGGA GGTTCCGGTG CCGATGGCAG TTGAAGCGAC TGAGGAAGAA
TTTGCACCAC TTGAGGCCGC GGTACGGAGC ATGGGAGGGA GAAGTCTTTC AGAGTCAAAC
AATGAAAACT TCACCTCACG TTTCCAAGAG GACTTCGAAC TAGTTCAATG TCTAGGAAAA
GGTGGCTTTG GTGTGGTATT TGAGGTGAAG AACAAGCTGG ACGATTGCCA CTACGCCATC
AAAAGAGTAG TCCTTCCGAA CAAGCAGGAA TCGAAAGATC GTGTCATGCG CGAAGTGAAG
ACTTTGGCTC ATTGTGAGCA TAGCAATATA GTGCGATATT TCCACGCTTG GATAGAGACG
CCTCCGCGAG GATGGCAGGA AGTTCATGAC AAGATTTGGT ACGAGAGGAA TTGCATGTCC
ACATCGATTG ATATTGAAAC CCCGACGGAA ACTTCTCCGC CGAATTCTAA ACTCATTCCT
ACAAGCCAGA GCAGCATTTT CCAAGGAAGG TACAATCATC AGAGACACCA TTCCAGTGGC
CAGCAACCTT GGTTGACGAA GCTTCCGGAG CCCAGTTTTT CAATGTCCCA CACCGAAGCA
GAACAGTCGG ACAGTTGTTC TTTTATCCAG TTTCAAGCCA ATCCGGGCAA ATCAATTCGA
AGCAACACTG ACGATGATTC GTTTCAGATT GAGTTCAAGC ATGATCCCGA AGATACCGGG
GCAGGGGGCG ATTCCATGGA CATCGTTTTC AAGGAATCCA CACAGGACGA AATGTCCAAA
AGTCATCACG TTATTTCTAT CAGTGATACG CCGCAAAAGA ATGATATTCA GCCGCCTCGG
AAGAATCGCC ATCGTCGGCC TCTTTCGTTG GATTTGACCA GCACCGGTAG CGTAATTCGG
CCAGCTTCGA TAGCCACCGG ATCCCAGATG GTTGAATGTA GTACCGCTGC TTCCAATTCC
GTGGCAGCTA GTACCGTTAA CAGCAAAATC TATCTATACA TCCAGATGCA ACTGTGCCAA
AAGCAGTCGC TCAAAGAGTG GCTGAAATTG AATAATCTGC CTGCTCGCCA GAACAAGATC
ATTCCCATCT TTGAGCAAAT CGTGGATGCC GTAGAGTACG TCCACCTGAA AGGATTAATT
CACAGGGACC TGAAACCAAG CAATATTTTC TTTTCGCTCG ATGGGCGAAT CAAAATTGGA
GACTTCGGAC TGGTCACCGA CTCGAGTGAC CTGCAGTATG ACAAAGATAA CAATCTGCCT
GAGATTGATA TGATAAAACC TGAGGAGCGT CACACTCGGA AGGTCGGAAC CGAGTTATAC
ATGTCGCCGG AGCAGCAAAA GGGCCTTCCT TACGACTACA AGGTGGACAT CTTTTCGCTG
GGGTTGATTC TGTTCGAACT GCTGCAAAGC TTCGGTACAG AGATGGAACG CTTTAAAAGG
CTGCAGGATG TTCGGAAGAA CAAGTTTCCC CCACAGTTCG AGGAGACCTA CCCGGATGAG
TACCAACTCC TGAAGATAAT GCTGTCGACG CAGCCCAGCA AACGACCCAC TACTTACGGT
ATCAAGGCGC GTCCTCCACT GAAGCGCTTC CCAACAAGCA AATCCACTCC GCAGCTGAAT
CAGCAAGTTT CAGCCATTAT TACAGCACCG GAAGCAGCGG CGGATGCTGA TGATCTCCAC
CGGCGCAGCC TTTCGGACTG CTCCGACAAC AGCGAGTGGC ACTTTGAGCT GCCTCCACGG
CGAAAAGACA GCCGCTCCAC AGTCACCACC ACCAGTTCCA GCTCCGGAGG CAATCAGAAT
CAAACATGTT TCTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAe14415 Clone ID Related Accession (Same CDS sequence) XM_001648020.2 Accession Version XM_001648020.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3888bp)
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 AAEL003939-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_001809814). On Mar 5, 2015 this sequence version replaced XM_001648020.1.
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
3841AGACTCCTCT ACGTGACCAC CCTGGATGGC CGTTTGTCCG CGCTGGACCT CATGAACGGT
GGCAGCATGC TGTGGAGCGT GGAAACCGGT CCCGGTTCCC TGCTGTCGTC CAGCATCCAC
CGGCTGGAGT TGACCAACAA CGGTAAATGG GTCCGTATGA TCCCCTCCCT CAGCGGGGGC
TTGTACAAGT TCGACGGCGA TACCATCGAA CCGATCCCGT TCAGTGCGGA GGATCTGCTG
AAGTCTTCGT TCAAGTATTT CCGACGACCT GGTCATTTCC GGTGGCAAGG AGACCCCGAT
CGTACGGTGT GTCGACCCGC ACCGGTCAGC TGATCTACGA GTGCACGATG CGAGGCTGTC
GCAATGCTAC GGAGATCATG GAGGACAGCA TGAAGAATGG TCCACCGCGG GAGGGAACGG
AAGCGATTCT ACAGCATGAT CCCCTGCAGG ACGACGTGGT GGTGATTCGG CGGCAGACTC
AGACTGTGCG GGCGGTTGAA TCGAGAACCG GCAGTGAGCG GTGGAATTTC AGCATCGGCC
ATCACGAGTT GGAGATGTTG AAGAATGAGG ACTGCCGGGG AGGCGGCGGG AAGGATACGC
TGGATCCGGC CCTTCTTGAT TTGGAACTGA AGGTTGTGAT TCCGGAGGGA ATGGTGTACG
CTGTGAAGAG GTCGGAACCG GGGGTGACCG TGTGGCAGTA CAAGTTTGAC CACCCGATAG
TTAGTGCCTG GAGGGCAGGG GACAAGAATG CACTGAAGAG TGTGGATCTG TTTCGCGGAG
CGGAATGGGT GTGGAATGGA AATGGACAGT CGATCGGAAC GGATGAGAAG GACAGCAACC
TAATGATCAA TCCGTCTTTG TACTTGGGGA TGCACCAGAG GCAGTTGTAT ATTCAGGAGT
CCAGTGCTTT AATGGTTCGA CAAATGATGG ATGCACAGAG TGTTCTTTTG ACAGACGAGG
GGAAGTTTCC GACGATTCCG TGGAAGCCGT ATCCCGCGAG GAACAAAGTG GCGGGATATC
TGACCGATGG AAGTGAGCAA GGGCAGACCC CGGATGATAA GGAGTATGCT GAATCTACGG
CCATTGCTCG ATCGGTTTTG TACCAATCGA AATATGTCGA TGGCGATGGA TTCTTTCTAT
TTACTCCGGA TGATTTGGAG AGAAAAGATC ACGAACTATG CTCGAACAGC TCCTCGATTC
CGGCTTTGAC GGATGGAGGA TTGAGGAATG AGAGTTCGAT TTTCGACTTT GCAATGGATC
CAGATGCCCC GGTCAAAGTG ATCATCATCT CGATTTGGTT CTGGTGGAAG GAGATCCTGG
TCATATCTGC GACTACGGCT TTCCTGCTGA ACGTAATGCT GCGTTTGAAG AGCGAGAAGG
AAGTGGTGGT GTTTGTGGAA CGTAAAGTGG AGGTTCCGGT GCCGATGGCA GTTGAAGCGA
CTGAGGAAGA ATTTGCACCA CTTGAGGCCG CGGTACGGAG CATGGGAGGG AGAAGTCTTT
CAGAGTCAAA CAATGAAAAC TTCACCTCAC GTTTCCAAGA GGACTTCGAA CTAGTTCAAT
GTCTAGGAAA AGGTGGCTTT GGTGTGGTAT TTGAGGTGAA GAACAAGCTG GACGATTGCC
ACTACGCCAT CAAAAGAGTA GTCCTTCCGA ACAAGCAGGA ATCGAAAGAT CGTGTCATGC
GCGAAGTGAA GACTTTGGCT CATTGTGAGC ATAGCAATAT AGTGCGATAT TTCCACGCTT
GGATAGAGAC GCCTCCGCGA GGATGGCAGG AAGTTCATGA CAAGATTTGG TACGAGAGGA
ATTGCATGTC CACATCGATT GATATTGAAA CCCCGACGGA AACTTCTCCG CCGAATTCTA
AACTCATTCC TACAAGCCAG AGCAGCATTT TCCAAGGAAG GTACAATCAT CAGAGACACC
ATTCCAGTGG CCAGCAACCT TGGTTGACGA AGCTTCCGGA GCCCAGTTTT TCAATGTCCC
ACACCGAAGC AGAACAGTCG GACAGTTGTT CTTTTATCCA GTTTCAAGCC AATCCGGGCA
AATCAATTCG AAGCAACACT GACGATGATT CGTTTCAGAT TGAGTTCAAG CATGATCCCG
AAGATACCGG GGCAGGGGGC GATTCCATGG ACATCGTTTT CAAGGAATCC ACACAGGACG
AAATGTCCAA AAGTCATCAC GTTATTTCTA TCAGTGATAC GCCGCAAAAG AATGATATTC
AGCCGCCTCG GAAGAATCGC CATCGTCGGC CTCTTTCGTT GGATTTGACC AGCACCGGTA
GCGTAATTCG GCCAGCTTCG ATAGCCACCG GATCCCAGAT GGTTGAATGT AGTACCGCTG
CTTCCAATTC CGTGGCAGCT AGTACCGTTA ACAGCAAAAT CTATCTATAC ATCCAGATGC
AACTGTGCCA AAAGCAGTCG CTCAAAGAGT GGCTGAAATT GAATAATCTG CCTGCTCGCC
AGAACAAGAT CATTCCCATC TTTGAGCAAA TCGTGGATGC CGTAGAGTAC GTCCACCTGA
AAGGATTAAT TCACAGGGAC CTGAAACCAA GCAATATTTT CTTTTCGCTC GATGGGCGAA
TCAAAATTGG AGACTTCGGA CTGGTCACCG ACTCGAGTGA CCTGCAGTAT GACAAAGATA
ACAATCTGCC TGAGATTGAT ATGATAAAAC CTGAGGAGCG TCACACTCGG AAGGTCGGAA
CCGAGTTATA CATGTCGCCG GAGCAGCAAA AGGGCCTTCC TTACGACTAC AAGGTGGACA
TCTTTTCGCT GGGGTTGATT CTGTTCGAAC TGCTGCAAAG CTTCGGTACA GAGATGGAAC
GCTTTAAAAG GCTGCAGGAT GTTCGGAAGA ACAAGTTTCC CCCACAGTTC GAGGAGACCT
ACCCGGATGA GTACCAACTC CTGAAGATAA TGCTGTCGAC GCAGCCCAGC AAACGACCCA
CTACTTACGG TATCAAGGCG CGTCCTCCAC TGAAGCGCTT CCCAACAAGC AAATCCACTC
CGCAGCTGAA TCAGCAAGTT TCAGCCATTA TTACAGCACC GGAAGCAGCG GCGGATGCTG
ATGATCTCCA CCGGCGCAGC CTTTCGGACT GCTCCGACAA CAGCGAGTGG CACTTTGAGC
TGCCTCCACG GCGAAAAGAC AGCCGCTCCA CAGTCACCAC CACCAGTTCC AGCTCCGGAG
GCAATCAGAA TCAAACATGT TTCTGAGTGC AGGACGATAC AAATTGTTAA GTTATTGTGC
AACAACGTGA AACTATACAT ATTTAAAACC CCCAATTTGT AGTATTAAGA CAACATGTTC
CTTTCTAGTG AACACACTAA TTCAGTGGAT GACGTTTTTG TTGAAAGGAT TAATGTAATA
TTCACTATTA GAATGAAAAA CTAATAAAAC AATTTAAAAT CCAACTTACA TTCTTTACTT
CCTTCAACTA AAAGCTACAC ATTCTACTTT TTGGCTCGTT TCCCTTCGCC CTTTTTGGGA
GGCGCCTTTC CTCGCAGTGC TCGCAGTCGT TTCATTTCCT CCTTAAAGTC CTGATGCTCG
TCCCGGAACA GACCGTACTC GCGGAGCTTC ATGGCCAGCA GATGAGTTTC CACATGCCGT
GGGTACCAGT TGGCCACATA ATCCCGGCAT TGGATCGGCT CTTCGCTGAA CATTTTTACC
ACTTTCATCG ATTGGGGATT GGTTGGTCGC GTTACTTCGC CGAAGATCCG GTTCGACAGG
TGATTCATCC GGCGGGCGTA GGTCGTCGAA AGTTTCACCA GATCCTTGTA TTTGGACATT
GTTTGATGTG TTAATTTGAT CGAAAAACCG CACAAAATTA ACTTTGTTTC GGCGAAACAA
AAATTGTGTA ACCAAACGAA CGTGTTATGA ATCCGCGACT GCTTGCTGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_001648070.1 CDS 1..3888 Translation
Target ORF information:
RefSeq Version XM_001648020.2 Organism Aedes aegypti(Yellow fever mosquito) Definition Aedes aegypti AAEL003939-RA mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_001648020.2
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841AGACTCCTCT ACGTGACCAC CCTGGATGGC CGTTTGTCCG CGCTGGACCT CATGAACGGT
GGCAGCATGC TGTGGAGCGT GGAAACCGGT CCCGGTTCCC TGCTGTCGTC CAGCATCCAC
CGGCTGGAGT TGACCAACAA CGGTAAATGG GTCCGTATGA TCCCCTCCCT CAGCGGGGGC
TTGTACAAGT TCGACGGCGA TACCATCGAA CCGATCCCGT TCAGTGCGGA GGATCTGCTG
AAGTCTTCGT TCAAGTATTT CCGACGACCT GGTCATTTCC GGTGGCAAGG AGACCCCGAT
CGTACGGTGT GTCGACCCGC ACCGGTCAGC TGATCTACGA GTGCACGATG CGAGGCTGTC
GCAATGCTAC GGAGATCATG GAGGACAGCA TGAAGAATGG TCCACCGCGG GAGGGAACGG
AAGCGATTCT ACAGCATGAT CCCCTGCAGG ACGACGTGGT GGTGATTCGG CGGCAGACTC
AGACTGTGCG GGCGGTTGAA TCGAGAACCG GCAGTGAGCG GTGGAATTTC AGCATCGGCC
ATCACGAGTT GGAGATGTTG AAGAATGAGG ACTGCCGGGG AGGCGGCGGG AAGGATACGC
TGGATCCGGC CCTTCTTGAT TTGGAACTGA AGGTTGTGAT TCCGGAGGGA ATGGTGTACG
CTGTGAAGAG GTCGGAACCG GGGGTGACCG TGTGGCAGTA CAAGTTTGAC CACCCGATAG
TTAGTGCCTG GAGGGCAGGG GACAAGAATG CACTGAAGAG TGTGGATCTG TTTCGCGGAG
CGGAATGGGT GTGGAATGGA AATGGACAGT CGATCGGAAC GGATGAGAAG GACAGCAACC
TAATGATCAA TCCGTCTTTG TACTTGGGGA TGCACCAGAG GCAGTTGTAT ATTCAGGAGT
CCAGTGCTTT AATGGTTCGA CAAATGATGG ATGCACAGAG TGTTCTTTTG ACAGACGAGG
GGAAGTTTCC GACGATTCCG TGGAAGCCGT ATCCCGCGAG GAACAAAGTG GCGGGATATC
TGACCGATGG AAGTGAGCAA GGGCAGACCC CGGATGATAA GGAGTATGCT GAATCTACGG
CCATTGCTCG ATCGGTTTTG TACCAATCGA AATATGTCGA TGGCGATGGA TTCTTTCTAT
TTACTCCGGA TGATTTGGAG AGAAAAGATC ACGAACTATG CTCGAACAGC TCCTCGATTC
CGGCTTTGAC GGATGGAGGA TTGAGGAATG AGAGTTCGAT TTTCGACTTT GCAATGGATC
CAGATGCCCC GGTCAAAGTG ATCATCATCT CGATTTGGTT CTGGTGGAAG GAGATCCTGG
TCATATCTGC GACTACGGCT TTCCTGCTGA ACGTAATGCT GCGTTTGAAG AGCGAGAAGG
AAGTGGTGGT GTTTGTGGAA CGTAAAGTGG AGGTTCCGGT GCCGATGGCA GTTGAAGCGA
CTGAGGAAGA ATTTGCACCA CTTGAGGCCG CGGTACGGAG CATGGGAGGG AGAAGTCTTT
CAGAGTCAAA CAATGAAAAC TTCACCTCAC GTTTCCAAGA GGACTTCGAA CTAGTTCAAT
GTCTAGGAAA AGGTGGCTTT GGTGTGGTAT TTGAGGTGAA GAACAAGCTG GACGATTGCC
ACTACGCCAT CAAAAGAGTA GTCCTTCCGA ACAAGCAGGA ATCGAAAGAT CGTGTCATGC
GCGAAGTGAA GACTTTGGCT CATTGTGAGC ATAGCAATAT AGTGCGATAT TTCCACGCTT
GGATAGAGAC GCCTCCGCGA GGATGGCAGG AAGTTCATGA CAAGATTTGG TACGAGAGGA
ATTGCATGTC CACATCGATT GATATTGAAA CCCCGACGGA AACTTCTCCG CCGAATTCTA
AACTCATTCC TACAAGCCAG AGCAGCATTT TCCAAGGAAG GTACAATCAT CAGAGACACC
ATTCCAGTGG CCAGCAACCT TGGTTGACGA AGCTTCCGGA GCCCAGTTTT TCAATGTCCC
ACACCGAAGC AGAACAGTCG GACAGTTGTT CTTTTATCCA GTTTCAAGCC AATCCGGGCA
AATCAATTCG AAGCAACACT GACGATGATT CGTTTCAGAT TGAGTTCAAG CATGATCCCG
AAGATACCGG GGCAGGGGGC GATTCCATGG ACATCGTTTT CAAGGAATCC ACACAGGACG
AAATGTCCAA AAGTCATCAC GTTATTTCTA TCAGTGATAC GCCGCAAAAG AATGATATTC
AGCCGCCTCG GAAGAATCGC CATCGTCGGC CTCTTTCGTT GGATTTGACC AGCACCGGTA
GCGTAATTCG GCCAGCTTCG ATAGCCACCG GATCCCAGAT GGTTGAATGT AGTACCGCTG
CTTCCAATTC CGTGGCAGCT AGTACCGTTA ACAGCAAAAT CTATCTATAC ATCCAGATGC
AACTGTGCCA AAAGCAGTCG CTCAAAGAGT GGCTGAAATT GAATAATCTG CCTGCTCGCC
AGAACAAGAT CATTCCCATC TTTGAGCAAA TCGTGGATGC CGTAGAGTAC GTCCACCTGA
AAGGATTAAT TCACAGGGAC CTGAAACCAA GCAATATTTT CTTTTCGCTC GATGGGCGAA
TCAAAATTGG AGACTTCGGA CTGGTCACCG ACTCGAGTGA CCTGCAGTAT GACAAAGATA
ACAATCTGCC TGAGATTGAT ATGATAAAAC CTGAGGAGCG TCACACTCGG AAGGTCGGAA
CCGAGTTATA CATGTCGCCG GAGCAGCAAA AGGGCCTTCC TTACGACTAC AAGGTGGACA
TCTTTTCGCT GGGGTTGATT CTGTTCGAAC TGCTGCAAAG CTTCGGTACA GAGATGGAAC
GCTTTAAAAG GCTGCAGGAT GTTCGGAAGA ACAAGTTTCC CCCACAGTTC GAGGAGACCT
ACCCGGATGA GTACCAACTC CTGAAGATAA TGCTGTCGAC GCAGCCCAGC AAACGACCCA
CTACTTACGG TATCAAGGCG CGTCCTCCAC TGAAGCGCTT CCCAACAAGC AAATCCACTC
CGCAGCTGAA TCAGCAAGTT TCAGCCATTA TTACAGCACC GGAAGCAGCG GCGGATGCTG
ATGATCTCCA CCGGCGCAGC CTTTCGGACT GCTCCGACAA CAGCGAGTGG CACTTTGAGC
TGCCTCCACG GCGAAAAGAC AGCCGCTCCA CAGTCACCAC CACCAGTTCC AGCTCCGGAG
GCAATCAGAA TCAAACATGT TTCTGAGTGC AGGACGATAC AAATTGTTAA GTTATTGTGC
AACAACGTGA AACTATACAT ATTTAAAACC CCCAATTTGT AGTATTAAGA CAACATGTTC
CTTTCTAGTG AACACACTAA TTCAGTGGAT GACGTTTTTG TTGAAAGGAT TAATGTAATA
TTCACTATTA GAATGAAAAA CTAATAAAAC AATTTAAAAT CCAACTTACA TTCTTTACTT
CCTTCAACTA AAAGCTACAC ATTCTACTTT TTGGCTCGTT TCCCTTCGCC CTTTTTGGGA
GGCGCCTTTC CTCGCAGTGC TCGCAGTCGT TTCATTTCCT CCTTAAAGTC CTGATGCTCG
TCCCGGAACA GACCGTACTC GCGGAGCTTC ATGGCCAGCA GATGAGTTTC CACATGCCGT
GGGTACCAGT TGGCCACATA ATCCCGGCAT TGGATCGGCT CTTCGCTGAA CATTTTTACC
ACTTTCATCG ATTGGGGATT GGTTGGTCGC GTTACTTCGC CGAAGATCCG GTTCGACAGG
TGATTCATCC GGCGGGCGTA GGTCGTCGAA AGTTTCACCA GATCCTTGTA TTTGGACATT
GTTTGATGTG TTAATTTGAT CGAAAAACCG CACAAAATTA ACTTTGTTTC GGCGAAACAA
AAATTGTGTA ACCAAACGAA CGTGTTATGA ATCCGCGACT GCTTGCTGThe 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
-
-
Most Popular Services
-
Services & Products
-
News & Blogs
- Antiviral Nanoparticle Designed to Detect and Destroy a Broad Spectrum of Viruses
- Advancing Infectious Disease Diagnosis with CRISPR Based Methods
- Achieving Herd Immunity in the Ongoing Pandemic
- GenScript Expands Gene Synthesis Manufacturing Capabilities in the USA
- An improved phage display strategy for improving protein solubility
- Follicular T helper cells - What they are and how PD-1 regulates them
- A New genome Algorithm Can Pinpoint Mutations Favored by Natural Selection
- Genes in Space-3 program successfully identifies microbes in space in real time
-
-
-
PubMed
-
