ORF » Species Summary » Aedes aegypti » AAEL_AAEL004412 cDNA ORF clone

AAEL_AAEL004412 cDNA ORF clone, Aedes aegypti(yellow fever mosquito)

The following AAEL_AAEL004412 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the AAEL_AAEL004412 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.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OAe127142 XM_021851543.1
Latest version!		 Aedes aegypti serine/threonine-protein kinase 10 (LOC5564725), transcript variant X17, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OAe127143 XM_021851544.1
Latest version!		 Aedes aegypti serine/threonine-protein kinase 10 (LOC5564725), transcript variant X18, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OAe127144 XM_021851545.1
Latest version!		 Aedes aegypti serine/threonine-protein kinase 10 (LOC5564725), transcript variant X20, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OAe127145 XM_021851546.1
Latest version!		 Aedes aegypti serine/threonine-protein kinase 10 (LOC5564725), transcript variant X23, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    AAEL_AAEL004412 ( XM_021851543.1 ) cDNA ORF clone, Aedes aegypti(yellow fever mosquito) -> XP_021707235.1 Aedes aegypti serine/threonine-protein kinase 10 (LOC5564725), transcript variant X17, mRNA.
    Price & Availability↑
    CloneID OAe127142
    Clone ID Related Accession (Same CDS sequence) XM_021851543.1
    Accession Version XM_021851543.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4737bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 1500393600000
    Organism Aedes aegypti(yellow fever mosquito)
    Product serine/threonine-protein kinase 10 isoform X1
    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 mRNA and 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
    ATGTCTTTCC TTAACAACCT GAAGAAGGTC TTCCACCTTG GCGGTGGGGA GGCCAAGAAG 
    AAGCGCATCT TCAACAACAT TCGGATGGAT ACGGATCCGA ATGATTACTG GGATATGATT 
    GGTGAATTAG GGGATGGTGC GTTCGGTAAA GTGTATAAAG CTCAAAATAA GGAAACCAAA 
    CAGCTGGCGG CGGCAAAAAT GTGCACTTTG GAGGATGAAG AAAATTTAAG TGATCATATG 
    GTGGAAATCG ATATTCTGTC GGAGATCAAG CACGAGAACA TAGTGGAACT ATATGAAGCG 
    TTTTCCATCG ATGATAAGCT ATGGATGCTG ATAGAGTATT GTGATGGTGG TGCCTTAGAT 
    AGCATAATGG TTGAACTAGA AAAACCCTTA ACCGAGCCAC AAGTTGCCTA CGTATGTAAG 
    CACATGTGCG CTGGGCTAAA CCACTTACAC AAGAACAAAG TGATACATCG CGATCTGAAG 
    GCTGGTAACG TATTGCTGAC GATGGACGGT GGTGTCAAGT TGGCGGATTT CGGTGTTTCT 
    GCGAAAAACA AACACACGCT TCAGAAACAC GATACTTTCA TTGGAACGCC CTACTGGATG 
    GCACCGGAGC TGGTACTGTG CGAGACCTTT CGGGATAATC CGTATGATTT CAAAGTGGAT 
    ATCTGGTCGC TGGGCATCAC GTTGATCGAG TTTGCCCAGA TGGAGCCACC GAATAGCGAA 
    ATGTCTCCAA TGAGGGTCCT GTTGAAGATT CAGAAAAGCG AACCACCAAA ACTAGATCAA 
    CCTTCAAAGT GGTCTAAGAG TTTTAATGAA TTTCTGGCCA AAGCGCTAGT AAAAGATCCT 
    CAACAAAGGC CTTCCACGGA CGTTCTCATG GGACATCCAT TTATCGCTGG TAATCTGGAT 
    TCCAAGCCAA TCAAAGACCT GTTGCTTGAA TACAAAGCAG ATGTCGTTGA GGAGGAATTG 
    GTGGATGAAG AAGCAGAGAA AGCTAAAAGA CAAGCGAAGC GTAGATCGCT TTATCAGAGG 
    GAACCCCGCA ATTCTGCGCT CCCACTCGAC TTGGACGATG ACTCATCGTC TCTACAAAGT 
    CAAGAAACCT ATAAACTTCC AGATACTCCC ACATCCCTAT CGAAATCATC CAGAGATTCA 
    AAAGAATCGA CTCCCGTTCC TGTTGAAGAT GATAGCAAAG CGAAACCGGG AGCAGCGGTC 
    GCAGTCGCAA CCACGGCTGC AGCCCAATCG CCTTCTGATG TCGTCAATTC TTCGGCGCCC 
    AGTTCTCAGT CAGCGACAGC TGCAACAACG TCTGTGGCTA GTGATAGTAA TAGTAATGTA 
    CAAAGTGATA TCAAGAAATC ACCTACAACG GTTCCTGCTC CAGTATTACC ACCCACCGCA 
    CAACGACCTA CAAAAGAAAG CGAAGGTGAA CAGACTGAAA GTGGTAACAG TAGCAACAGC 
    AGCAGTGCTG AGGTTGAAAA GAAAGGTGTC ATCAAAAAGG AGAAAGGACC GGCTCCTCCA 
    CCTCCTCACA CTCCTTCATC GCCAAGCAGT CGAAATACTC CTAGTTCTAT CGGAGTTAGT 
    TCATCTTCTC ACACAACTAT CCCTCCTACC CCTCCAGAAA CCCCACAAAG TCCGGAAAGC 
    AAAGGCGTTG ATCGCCCTGA TACTACAGTG ATTTCAAAAC CAGCTTCCCC GTTGACGTTG 
    GAACGCGAAA CAAGCGTAGA CGAACTTGTA AAATCACCCA AAAAGGAACA CGCTCCATCT 
    CCTCCAAAAT CTTCACCGAA AGAGGGTAGT CCATCTTCAT CGCCACAACC TTATGAAGAT 
    GACGGTGTAG TGGTGACAAG TTCTGCCAGC AGAAGACTTA TTCCAGACGA CGACACAGTT 
    GATCTAAGAA TCGAATCGCC AAAGCCCAAA GATGAAGAAC TTTTAAATAC CACTGTTGCC 
    ATTCCAAAAC CTCCGCTCCA ATTTGACGAT GAGTCATCCA TACCACCGCG ACTTCTACCC 
    GACGACGAAA TTCGGATAAC ATCGACACCC AACAAACAAA CGACCATTAA CAATACCAAC 
    AACACTTCGA CCATTACTAT CAATAACGAC ACCGTGCTTT CGGATCCATC CAACAGTCTT 
    GCCAGTAACG TAAGTCAGAT AACTGTAGTT ACAAGCCATC CGCCGGTGAT AATCGACAAC 
    TCGGTGGTAC CATCCGGCTC ATCGTCGTCC GCCTCGTCAA CGAAATCCTT CGGGTCGTCT 
    CAAAGGAGAT CACGGGTGAT AACGCCAAAA ATAAGCGGCG GCGGTGACGA GGTGGTAATC 
    GTTTCCAACG AGCTGAACAA AACCCACGTG AATGAATCGT CCACGGACGA TGACTTCCAA 
    TCGTTGGACA GCTTGGAAAA CCTCTCGCCG AAGTATAGGA AACAGCACCC GCAATTGCAA 
    CGGTCCGGCA GTGGGCAGAT AGCACGTAAG TTAGATGAAA GTGAAGTGCT GATCGTGAGT 
    CCGGTCTTCA TTGGCGAGGA TCAGGACGAA CAGCAGCAGG AGCAGGACGA TTTCATCAAT 
    GATGAGCTAC ATTTAGGTAA TAATAATAAT AATCATAGTA ACAGTAAACT ATTGGACACT 
    AGTCATGTTT CGGTGGTCAC CGTTGGCGAG GAAGAGATCA AGGTCAAGGA CTCTTCGCAT 
    CTGATCAACA GTGGTACCAG TCATCTTCTT ATGCAGCAAC AGCAGCAGCA TCTGCAGAAC 
    CATCACCATG ATTCCATTAG CGATCTATCC AATGTGAGTT GTGGTCCCAG CGAATCGAGT 
    GATGATGTTA AGGTGGTGGA CATGATGCTG TCACATCCGA CGGGTGGCAC TACAAGCACG 
    AGTAGCGTCA GTACCGGCAG CACAGTTACG GCTACCGGAG GTTTTGCTCA ACGATCACCG 
    TCAGGTTCGT CGATTTCATC GCCATTGAGA AGTGGTTCTA GCACTAAGTT GAATGGCGAC 
    TTCAACCGAA GTCGGGAAGA CGTCAGTATA ATAGTTAATA AGCGAAAAGT TGTGGAAAAG 
    CAAAGGATTT CGCCCGACAG CAGTGTCGGA TCGATGGATG GTGGAGGTTC GGTACGATCG 
    GCCAGTACAC CGTTGCATCA TCACCTTCAA CAACAACAAC AACCGCAACA TCACCAGCAG 
    CATGCGCCTA GCGGCAAACA GCTGGATCGT AGCGATGCCG AAAGCATAGC AACAACAACT 
    AGTCACGACA GCCGCGAACA GTCGGTAGAA GAGGAAGTTC AACTTCGTCG AAAGCCTCCG 
    CCCGCTGAAG TCGAAGAGGA CAAGGTTCCG CCAATCGTCA ACAGCAACGT CCGAACGAAG 
    CCCAGCCAGC AGCAGCGGAA TTTCAGCAAG GAAGAAATAC ACTTGCAAAA TTTGAAGAAG 
    AAAACGCGAA AACGGACGCG AAAGTTTGAG ATCGACGGTG TTCAAGTCAC GACCACCACC 
    AGCAAGGTGA TCTACAGCGA TGAGGACAAC AACAAACTGT ACGACGATCA TCTGTTCCGC 
    AAGCAGGAAC TGCGGGAGCT CAAGATGCTC CAGAAGGCGG AGAAGAAGCA GTTTTACGAC 
    CTGCAGCAGA AGGAAGCCAT CGCCAAAGAG CAGCAGGAGA AGAAATTCGA GCAGGAACGT 
    CTTCAGCTGG AGCGAACGTT CGAGGCCGAC ATGGACGTGT TGGCGCGGCA GCACCGGCAA 
    ACGGTGGAAA AGTACGAACA GCAACAAGAG ACTGAACTTA GGAATACCTC CAAGAAAATT 
    CGTGCCGAAC AGGAGCGAGA TTTGAAATTG TTCCGCGACA GCCTCAAGCA GGAAATCAGG 
    CTGCTCAAGC AGGAAGTCGA CCTCCTACCA AAAGAAAAGC GGAAAGATGA ATTCCGGAAG 
    CGTAAGACTG CGATGGAAAT CGAGCACGAA GAACGAGAGA AGAGTTTCCT GTCCACCCTG 
    TCGGAGAACC ACGAGCTCGC TCTGCGACGG ATCAGTGAAA TCTATCGCGA GAAGCTTTCC 
    GCTGCCGACA AAGGGTATTT GCAACAGAAG CAAACGGCGA TGAGAACTCG AGAGGCCATG 
    CTTTGGGAGC TGGAGGAGAA GCACATTCAC GACAAGCACC AACTGGCGAA GCGACACGTG 
    AAGGACATCT GCTTCATGCA GCGACACCAA ATGATCATTC GCCACGAAAA AGAATTGGAT 
    CAGATCAAGA GAATGATTTC CCGCAAAGAA GAAGAACTGC TGAAGCGACA AACCATCGAA 
    AGGCGAGCCT TGCCAAAGCG GATACGGGCC GAGCGGAAAG CGCGAGATAT GATGTTCCGC 
    GAGTCGTTGC GAATTTCGAT GACCACGGAT CCGGAACTGG AACGGGAGAA GTTGAAGAAG 
    TTCCAGGAGC AAGAGAAGAA ACGGTACAAC CAGGAGCAGG CTCGTTTCGA AACGAAGCAC 
    ATGAAACAGC TGGAAGAGCT GCGAGCTACC TCAGACGGTT CCATTAGGGA GCTGGAACAG 
    TTGCAAAACG AAAAGCGTAA ACAGCTGCTG GAGCATGAAA GTGCCAAACT GCGCGAGTGC 
    GACGAAGCGC TACAGAAGGA ACTGCGCGAG TGGAAATCGC AGCTTTTGCC GAGGAAACAG 
    GCTATACAGC AAGAGCTTGA CGGGCAGGTG AACGAGTACG AGATAAAGTG GGGTCCAGTA 
    GACCGACGCG AATTCGATGC GCCTCGAGGA AACCTTCGCT CAGCAGCACG AGGAAATGGA 
    ACAACTGTAC GGCAACAGTG TGGTACCGAT GCCACCGCAG TCTCCACAGG CGCATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_021707235.1
    CDS2352..7088
    Translation

    Target ORF information:

    RefSeq Version XM_021851543.1
    Organism Aedes aegypti(yellow fever mosquito)
    Definition Aedes aegypti serine/threonine-protein kinase 10 (LOC5564725), transcript variant X17, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021851543.1

    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
    ATGTCTTTCC TTAACAACCT GAAGAAGGTC TTCCACCTTG GCGGTGGGGA GGCCAAGAAG 
    AAGCGCATCT TCAACAACAT TCGGATGGAT ACGGATCCGA ATGATTACTG GGATATGATT 
    GGTGAATTAG GGGATGGTGC GTTCGGTAAA GTGTATAAAG CTCAAAATAA GGAAACCAAA 
    CAGCTGGCGG CGGCAAAAAT GTGCACTTTG GAGGATGAAG AAAATTTAAG TGATCATATG 
    GTGGAAATCG ATATTCTGTC GGAGATCAAG CACGAGAACA TAGTGGAACT ATATGAAGCG 
    TTTTCCATCG ATGATAAGCT ATGGATGCTG ATAGAGTATT GTGATGGTGG TGCCTTAGAT 
    AGCATAATGG TTGAACTAGA AAAACCCTTA ACCGAGCCAC AAGTTGCCTA CGTATGTAAG 
    CACATGTGCG CTGGGCTAAA CCACTTACAC AAGAACAAAG TGATACATCG CGATCTGAAG 
    GCTGGTAACG TATTGCTGAC GATGGACGGT GGTGTCAAGT TGGCGGATTT CGGTGTTTCT 
    GCGAAAAACA AACACACGCT TCAGAAACAC GATACTTTCA TTGGAACGCC CTACTGGATG 
    GCACCGGAGC TGGTACTGTG CGAGACCTTT CGGGATAATC CGTATGATTT CAAAGTGGAT 
    ATCTGGTCGC TGGGCATCAC GTTGATCGAG TTTGCCCAGA TGGAGCCACC GAATAGCGAA 
    ATGTCTCCAA TGAGGGTCCT GTTGAAGATT CAGAAAAGCG AACCACCAAA ACTAGATCAA 
    CCTTCAAAGT GGTCTAAGAG TTTTAATGAA TTTCTGGCCA AAGCGCTAGT AAAAGATCCT 
    CAACAAAGGC CTTCCACGGA CGTTCTCATG GGACATCCAT TTATCGCTGG TAATCTGGAT 
    TCCAAGCCAA TCAAAGACCT GTTGCTTGAA TACAAAGCAG ATGTCGTTGA GGAGGAATTG 
    GTGGATGAAG AAGCAGAGAA AGCTAAAAGA CAAGCGAAGC GTAGATCGCT TTATCAGAGG 
    GAACCCCGCA ATTCTGCGCT CCCACTCGAC TTGGACGATG ACTCATCGTC TCTACAAAGT 
    CAAGAAACCT ATAAACTTCC AGATACTCCC ACATCCCTAT CGAAATCATC CAGAGATTCA 
    AAAGAATCGA CTCCCGTTCC TGTTGAAGAT GATAGCAAAG CGAAACCGGG AGCAGCGGTC 
    GCAGTCGCAA CCACGGCTGC AGCCCAATCG CCTTCTGATG TCGTCAATTC TTCGGCGCCC 
    AGTTCTCAGT CAGCGACAGC TGCAACAACG TCTGTGGCTA GTGATAGTAA TAGTAATGTA 
    CAAAGTGATA TCAAGAAATC ACCTACAACG GTTCCTGCTC CAGTATTACC ACCCACCGCA 
    CAACGACCTA CAAAAGAAAG CGAAGGTGAA CAGACTGAAA GTGGTAACAG TAGCAACAGC 
    AGCAGTGCTG AGGTTGAAAA GAAAGGTGTC ATCAAAAAGG AGAAAGGACC GGCTCCTCCA 
    CCTCCTCACA CTCCTTCATC GCCAAGCAGT CGAAATACTC CTAGTTCTAT CGGAGTTAGT 
    TCATCTTCTC ACACAACTAT CCCTCCTACC CCTCCAGAAA CCCCACAAAG TCCGGAAAGC 
    AAAGGCGTTG ATCGCCCTGA TACTACAGTG ATTTCAAAAC CAGCTTCCCC GTTGACGTTG 
    GAACGCGAAA CAAGCGTAGA CGAACTTGTA AAATCACCCA AAAAGGAACA CGCTCCATCT 
    CCTCCAAAAT CTTCACCGAA AGAGGGTAGT CCATCTTCAT CGCCACAACC TTATGAAGAT 
    GACGGTGTAG TGGTGACAAG TTCTGCCAGC AGAAGACTTA TTCCAGACGA CGACACAGTT 
    GATCTAAGAA TCGAATCGCC AAAGCCCAAA GATGAAGAAC TTTTAAATAC CACTGTTGCC 
    ATTCCAAAAC CTCCGCTCCA ATTTGACGAT GAGTCATCCA TACCACCGCG ACTTCTACCC 
    GACGACGAAA TTCGGATAAC ATCGACACCC AACAAACAAA CGACCATTAA CAATACCAAC 
    AACACTTCGA CCATTACTAT CAATAACGAC ACCGTGCTTT CGGATCCATC CAACAGTCTT 
    GCCAGTAACG TAAGTCAGAT AACTGTAGTT ACAAGCCATC CGCCGGTGAT AATCGACAAC 
    TCGGTGGTAC CATCCGGCTC ATCGTCGTCC GCCTCGTCAA CGAAATCCTT CGGGTCGTCT 
    CAAAGGAGAT CACGGGTGAT AACGCCAAAA ATAAGCGGCG GCGGTGACGA GGTGGTAATC 
    GTTTCCAACG AGCTGAACAA AACCCACGTG AATGAATCGT CCACGGACGA TGACTTCCAA 
    TCGTTGGACA GCTTGGAAAA CCTCTCGCCG AAGTATAGGA AACAGCACCC GCAATTGCAA 
    CGGTCCGGCA GTGGGCAGAT AGCACGTAAG TTAGATGAAA GTGAAGTGCT GATCGTGAGT 
    CCGGTCTTCA TTGGCGAGGA TCAGGACGAA CAGCAGCAGG AGCAGGACGA TTTCATCAAT 
    GATGAGCTAC ATTTAGGTAA TAATAATAAT AATCATAGTA ACAGTAAACT ATTGGACACT 
    AGTCATGTTT CGGTGGTCAC CGTTGGCGAG GAAGAGATCA AGGTCAAGGA CTCTTCGCAT 
    CTGATCAACA GTGGTACCAG TCATCTTCTT ATGCAGCAAC AGCAGCAGCA TCTGCAGAAC 
    CATCACCATG ATTCCATTAG CGATCTATCC AATGTGAGTT GTGGTCCCAG CGAATCGAGT 
    GATGATGTTA AGGTGGTGGA CATGATGCTG TCACATCCGA CGGGTGGCAC TACAAGCACG 
    AGTAGCGTCA GTACCGGCAG CACAGTTACG GCTACCGGAG GTTTTGCTCA ACGATCACCG 
    TCAGGTTCGT CGATTTCATC GCCATTGAGA AGTGGTTCTA GCACTAAGTT GAATGGCGAC 
    TTCAACCGAA GTCGGGAAGA CGTCAGTATA ATAGTTAATA AGCGAAAAGT TGTGGAAAAG 
    CAAAGGATTT CGCCCGACAG CAGTGTCGGA TCGATGGATG GTGGAGGTTC GGTACGATCG 
    GCCAGTACAC CGTTGCATCA TCACCTTCAA CAACAACAAC AACCGCAACA TCACCAGCAG 
    CATGCGCCTA GCGGCAAACA GCTGGATCGT AGCGATGCCG AAAGCATAGC AACAACAACT 
    AGTCACGACA GCCGCGAACA GTCGGTAGAA GAGGAAGTTC AACTTCGTCG AAAGCCTCCG 
    CCCGCTGAAG TCGAAGAGGA CAAGGTTCCG CCAATCGTCA ACAGCAACGT CCGAACGAAG 
    CCCAGCCAGC AGCAGCGGAA TTTCAGCAAG GAAGAAATAC ACTTGCAAAA TTTGAAGAAG 
    AAAACGCGAA AACGGACGCG AAAGTTTGAG ATCGACGGTG TTCAAGTCAC GACCACCACC 
    AGCAAGGTGA TCTACAGCGA TGAGGACAAC AACAAACTGT ACGACGATCA TCTGTTCCGC 
    AAGCAGGAAC TGCGGGAGCT CAAGATGCTC CAGAAGGCGG AGAAGAAGCA GTTTTACGAC 
    CTGCAGCAGA AGGAAGCCAT CGCCAAAGAG CAGCAGGAGA AGAAATTCGA GCAGGAACGT 
    CTTCAGCTGG AGCGAACGTT CGAGGCCGAC ATGGACGTGT TGGCGCGGCA GCACCGGCAA 
    ACGGTGGAAA AGTACGAACA GCAACAAGAG ACTGAACTTA GGAATACCTC CAAGAAAATT 
    CGTGCCGAAC AGGAGCGAGA TTTGAAATTG TTCCGCGACA GCCTCAAGCA GGAAATCAGG 
    CTGCTCAAGC AGGAAGTCGA CCTCCTACCA AAAGAAAAGC GGAAAGATGA ATTCCGGAAG 
    CGTAAGACTG CGATGGAAAT CGAGCACGAA GAACGAGAGA AGAGTTTCCT GTCCACCCTG 
    TCGGAGAACC ACGAGCTCGC TCTGCGACGG ATCAGTGAAA TCTATCGCGA GAAGCTTTCC 
    GCTGCCGACA AAGGGTATTT GCAACAGAAG CAAACGGCGA TGAGAACTCG AGAGGCCATG 
    CTTTGGGAGC TGGAGGAGAA GCACATTCAC GACAAGCACC AACTGGCGAA GCGACACGTG 
    AAGGACATCT GCTTCATGCA GCGACACCAA ATGATCATTC GCCACGAAAA AGAATTGGAT 
    CAGATCAAGA GAATGATTTC CCGCAAAGAA GAAGAACTGC TGAAGCGACA AACCATCGAA 
    AGGCGAGCCT TGCCAAAGCG GATACGGGCC GAGCGGAAAG CGCGAGATAT GATGTTCCGC 
    GAGTCGTTGC GAATTTCGAT GACCACGGAT CCGGAACTGG AACGGGAGAA GTTGAAGAAG 
    TTCCAGGAGC AAGAGAAGAA ACGGTACAAC CAGGAGCAGG CTCGTTTCGA AACGAAGCAC 
    ATGAAACAGC TGGAAGAGCT GCGAGCTACC TCAGACGGTT CCATTAGGGA GCTGGAACAG 
    TTGCAAAACG AAAAGCGTAA ACAGCTGCTG GAGCATGAAA GTGCCAAACT GCGCGAGTGC 
    GACGAAGCGC TACAGAAGGA ACTGCGCGAG TGGAAATCGC AGCTTTTGCC GAGGAAACAG 
    GCTATACAGC AAGAGCTTGA CGGGCAGGTG AACGAGTACG AGATAAAGTG GGGTCCAGTA 
    GACCGACGCG AATTCGATGC GCCTCGAGGA AACCTTCGCT CAGCAGCACG AGGAAATGGA 
    ACAACTGTAC GGCAACAGTG TGGTACCGAT GCCACCGCAG TCTCCACAGG CGCATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    AAEL_AAEL004412 ( XM_021851544.1 ) cDNA ORF clone, Aedes aegypti(yellow fever mosquito) -> XP_021707236.1 Aedes aegypti serine/threonine-protein kinase 10 (LOC5564725), transcript variant X18, mRNA.
    Price & Availability↑
    CloneID OAe127143
    Clone ID Related Accession (Same CDS sequence) XM_021851544.1
    Accession Version XM_021851544.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4722bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 1500393600000
    Organism Aedes aegypti(yellow fever mosquito)
    Product serine/threonine-protein kinase 10 isoform X2
    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 mRNA and 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
    ATGTCTTTCC TTAACAACCT GAAGAAGGTC TTCCACCTTG GCGGTGGGGA GGCCAAGAAG 
    AAGCGCATCT TCAACAACAT TCGGATGGAT ACGGATCCGA ATGATTACTG GGATATGATT 
    GGTGAATTAG GGGATGGTGC GTTCGGTAAA GTGTATAAAG CTCAAAATAA GGAAACCAAA 
    CAGCTGGCGG CGGCAAAAAT GTGCACTTTG GAGGATGAAG AAAATTTAAG TGATCATATG 
    GTGGAAATCG ATATTCTGTC GGAGATCAAG CACGAGAACA TAGTGGAACT ATATGAAGCG 
    TTTTCCATCG ATGATAAGCT ATGGATGCTG ATAGAGTATT GTGATGGTGG TGCCTTAGAT 
    AGCATAATGG TTGAACTAGA AAAACCCTTA ACCGAGCCAC AAGTTGCCTA CGTATGTAAG 
    CACATGTGCG CTGGGCTAAA CCACTTACAC AAGAACAAAG TGATACATCG CGATCTGAAG 
    GCTGGTAACG TATTGCTGAC GATGGACGGT GGTGTCAAGT TGGCGGATTT CGGTGTTTCT 
    GCGAAAAACA AACACACGCT TCAGAAACAC GATACTTTCA TTGGAACGCC CTACTGGATG 
    GCACCGGAGC TGGTACTGTG CGAGACCTTT CGGGATAATC CGTATGATTT CAAAGTGGAT 
    ATCTGGTCGC TGGGCATCAC GTTGATCGAG TTTGCCCAGA TGGAGCCACC GAATAGCGAA 
    ATGTCTCCAA TGAGGGTCCT GTTGAAGATT CAGAAAAGCG AACCACCAAA ACTAGATCAA 
    CCTTCAAAGT GGTCTAAGAG TTTTAATGAA TTTCTGGCCA AAGCGCTAGT AAAAGATCCT 
    CAACAAAGGC CTTCCACGGA CGTTCTCATG GGACATCCAT TTATCGCTGG TAATCTGGAT 
    TCCAAGCCAA TCAAAGACCT GTTGCTTGAA TACAAAGCAG ATGTCGTTGA GGAGGAATTG 
    GTGGATGAAG AAGCAGAGAA AGCTAAAAGA CAAGCGAAGC GTAGATCGCT TTATCAGAGG 
    GAACCCCGCA ATTCTGCGCT CCCACTCGAC TTGGACGATG ACTCATCGTC TCTACAAAGT 
    CAAGAAACCT ATAAACTTCC AGATACTCCC ACATCCCTAT CGAAATCATC CAGAGATTCA 
    AAAGAATCGA CTCCCGTTCC TGTTGAAGAT GATAGCAAAG CGAAACCGGG AGCAGCGGTC 
    GCAGTCGCAA CCACGGCTGC AGCCCAATCG CCTTCTGATG TCGTCAATTC TTCGGCGCCC 
    AGTTCTCAGT CAGCGACAGC TGCAACAACG TCTGTGGCTA GTGATAGTAA TAGTAATGTA 
    CAAAGTGATA TCAAGAAATC ACCTACAACG GTTCCTGCTC CAGTATTACC ACCCACCGCA 
    CAACGACCTA CAAAAGAAAG CGAAGGTGAA CAGACTGAAA GTGGTAACAG TAGCAACAGC 
    AGCAGTGCTG AGGTTGAAAA GAAAGGTGTC ATCAAAAAGG AGAAAGGACC GGCTCCTCCA 
    CCTCCTCACA CTCCTTCATC GCCAAGCAGT CGAAATACTC CTAGTTCTAT CGGAGTTAGT 
    TCATCTTCTC ACACAACTAT CCCTCCTACC CCTCCAGAAA CCCCACAAAG TCCGGAAAGC 
    AAAGGCGTTG ATCGCCCTGA TACTACAGTG ATTTCAAAAC CAGCTTCCCC GTTGACGTTG 
    GAACGCGAAA CAAGCGTAGA CGAACTTGTA AAATCACCCA AAAAGGAACA CGCTCCATCT 
    CCTCCAAAAT CTTCACCGAA AGAGGGTAGT CCATCTTCAT CGCCACAACC TTATGAAGAT 
    GACGGTGTAG TGGTGACAAG TTCTGCCAGC AGAAGACTTA TTCCAGACGA CGACACAGTT 
    GATCTAAGAA TCGAATCGCC AAAGCCCAAA GATGAAGAAC TTTTAAATAC CACTGTTGCC 
    ATTCCAAAAC CTCCGCTCCA ATTTGACGAT GAGTCATCCA TACCACCGCG ACTTCTACCC 
    GACGACGAAA TTCGGATAAC ATCGACACCC AACAAACAAA CGACCATTAA CAATACCAAC 
    AACACTTCGA CCATTACTAT CAATAACGAC ACCGTGCTTT CGGATCCATC CAACAGTCTT 
    GCCAGTAACG TAAGTCAGAT AACTGTAGTT ACAAGCCATC CGCCGGTGAT AATCGACAAC 
    TCGGTGGTAC CATCCGGCTC ATCGTCGTCC GCCTCGTCAA CGAAATCCTT CGGGTCGTCT 
    CAAAGGAGAT CACGGGTGAT AACGCCAAAA ATAAGCGGCG GCGGTGACGA GGTGGTAATC 
    GTTTCCAACG AGCTGAACAA AACCCACGTG AATGAATCGT CCACGGACGA TGACTTCCAA 
    TCGTTGGACA GCTTGGAAAA CCTCTCGCCG AAGTATAGGA AACAGCACCC GCAATTGCAA 
    CGGTCCGGCA GTGGGCAGAT AGCACGTAAG TTAGATGAAA GTGAAGTGCT GATCGTGAGT 
    CCGGTCTTCA TTGGCGAGGA TCAGGACGAA CAGCAGCAGG AGCAGGACGA TTTCATCAAT 
    GATGAGCTAC ATTTAGGTAA TAATAATAAT AATCATAGTA ACAGTAAACT ATTGGACACT 
    AGTCATGTTT CGGTGGTCAC CGTTGGCGAG GAAGAGATCA AGGTCAAGGA CTCTTCGCAT 
    CTGATCAACA GTGGTACCAG TCATCTTCTT ATGCAGCAAC AGCAGCAGCA TCTGCAGAAC 
    CATCACCATG ATTCCATTAG CGATCTATCC AATGTGAGTT GTGGTCCCAG CGAATCGAGT 
    GATGATGTTA AGGTGGTGGA CATGATGCTG TCACATCCGA CGGGTGGCAC TACAAGCACG 
    AGTAGCGTCA GTACCGGCAG CACAGTTACG GCTACCGGAG GTTTTGCTCA ACGATCACCG 
    TCAGGTTCGT CGATTTCATC GCCATTGAGA AGTGGTTCTA GCACTAAGTT GAATGGCGAC 
    TTCAACCGAA GTCGGGAAGA CGTCAGTATA ATAGTTAATA AGCGAAAAGT TGTGGAAAAG 
    CAAAGGATTT CGCCCGACAG CAGTGTCGGA TCGATGGATG GTGGAGGTTC GGTACGATCG 
    GCCAGTACAC CGTTGCATCA TCACCTTCAA CAACAACAAC AACCGCAACA TCACCAGCAG 
    CATGCGCCTA GCGGCAAACA GCTGGATCGT AGCGATGCCG AAAGCATAGC AACAACAACT 
    AGTCACGACA GCCGCGAACA GTCGGTAGAA GAGGAAGTTC AACTTCGTCG AAAGCCTCCG 
    CCCGCTGAAG TCGAAGAGGA CAAGGTTCCG CCAATCGTCA ACAGCAACGT CCGAACGAAG 
    CCCAGCCAGC AGCAGCGGAA TTTCAGCAAG GAAGAAATAC ACTTGCAAAA TTTGAAGAAG 
    AAAACGCGAA AACGGACGCG AAAGTTTGAG ATCGACGGTG TTCAAGTCAC GACCACCACC 
    AGCAAGGTGA TCTACAGCGA TGAGGACAAC AACAAACTGT ACGACGATCA TCTGTTCCGC 
    AAGCAGGAAC TGCGGGAGCT CAAGATGCTC CAGAAGGCGG AGAAGAAGCA GTTTTACGAC 
    CTGCAGCAGA AGGAAGCCAT CGCCAAAGAG CAGCAGGAGA AGAAATTCGA GCAGGAACGT 
    CTTCAGCTGG AGCGAACGTT CGAGGCCGAC ATGGACGTGT TGGCGCGGCA GCACCGGCAA 
    ACGGTGGAAA AGTACGAACA GCAACAAGAG ACTGAACTTA GGAATACCTC CAAGAAAATT 
    CGTGCCGAAC AGGAGCGAGA TTTGAAATTG TTCCGCGACA GCCTCAAGCA GGAAATCAGG 
    CTGCTCAAGC AGGAAGTCGA CCTCCTACCA AAAGAAAAGC GGAAAGATGA ATTCCGGAAG 
    CGTAAGACTG CGATGGAAAT CGAGCACGAA GAACGAGAGA AGAGTTTCCT GTCCACCCTG 
    TCGGAGAACC ACGAGCTCGC TCTGCGACGG ATCAGTGAAA TCTATCGCGA GAAGCTTTCC 
    GCTGCCGACA AAGGGTATTT GCAACAGAAG CAAACGGCGA TGAGAACTCG AGAGGCCATG 
    CTTTGGGAGC TGGAGGAGAA GCACATTCAC GACAAGCACC AACTGGCGAA GCGACACGTG 
    AAGGACATCT GCTTCATGCA GCGACACCAA ATGATCATTC GCCACGAAAA AGAATTGGAT 
    CAGATCAAGA GAATGATTTC CCGCAAAGAA GAAGAACTGC TGAAGCGACA AACCATCGAA 
    AGGCGAGCCT TGCCAAAGCG GATACGGGCC GAGCGGAAAG CGCGAGATAT GATGTTCCGC 
    GAGTCGTTGC GAATTTCGAT GACCACGGAT CCGGAACTGG AACGGGAGAA GTTGAAGAAG 
    TTCCAGGAGC AAGAGAAGAA ACGGTACAAC CAGGAGCAGG CTCGTTTCGA AACGAAGCAC 
    ATGAAACAGC TGGAAGAGCT GCGAGCTACC TCAGACGGTT CCATTAGGGA GCTGGAACAG 
    TTGCAAAACG AAAAGCGTAA ACAGCTGCTG GAGCATGAAA GTGCCAAACT GCGCGAGTGC 
    GACGAAGCGC TACAGAAGGA ACTGCGCGAG TGGAAATCGC AGCTTTTGCC GAGGAAACAG 
    CGCCTCGAGG AAACCTTCGC TCAGCAGCAC GAGGAAATGG AACAACTGTA CGGCAACAGT 
    GTGGTACCGA TGCCACCGCA GTCTCCACAG GCGCATGATC TGCTGCAAAT TGGATCGACC 
    CGAAGCAGTA TTTCCTCCTA CTCGGACGGC CTGGGGGCAT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_021707236.1
    CDS2352..7073
    Translation

    Target ORF information:

    RefSeq Version XM_021851544.1
    Organism Aedes aegypti(yellow fever mosquito)
    Definition Aedes aegypti serine/threonine-protein kinase 10 (LOC5564725), transcript variant X18, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021851544.1

    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
    ATGTCTTTCC TTAACAACCT GAAGAAGGTC TTCCACCTTG GCGGTGGGGA GGCCAAGAAG 
    AAGCGCATCT TCAACAACAT TCGGATGGAT ACGGATCCGA ATGATTACTG GGATATGATT 
    GGTGAATTAG GGGATGGTGC GTTCGGTAAA GTGTATAAAG CTCAAAATAA GGAAACCAAA 
    CAGCTGGCGG CGGCAAAAAT GTGCACTTTG GAGGATGAAG AAAATTTAAG TGATCATATG 
    GTGGAAATCG ATATTCTGTC GGAGATCAAG CACGAGAACA TAGTGGAACT ATATGAAGCG 
    TTTTCCATCG ATGATAAGCT ATGGATGCTG ATAGAGTATT GTGATGGTGG TGCCTTAGAT 
    AGCATAATGG TTGAACTAGA AAAACCCTTA ACCGAGCCAC AAGTTGCCTA CGTATGTAAG 
    CACATGTGCG CTGGGCTAAA CCACTTACAC AAGAACAAAG TGATACATCG CGATCTGAAG 
    GCTGGTAACG TATTGCTGAC GATGGACGGT GGTGTCAAGT TGGCGGATTT CGGTGTTTCT 
    GCGAAAAACA AACACACGCT TCAGAAACAC GATACTTTCA TTGGAACGCC CTACTGGATG 
    GCACCGGAGC TGGTACTGTG CGAGACCTTT CGGGATAATC CGTATGATTT CAAAGTGGAT 
    ATCTGGTCGC TGGGCATCAC GTTGATCGAG TTTGCCCAGA TGGAGCCACC GAATAGCGAA 
    ATGTCTCCAA TGAGGGTCCT GTTGAAGATT CAGAAAAGCG AACCACCAAA ACTAGATCAA 
    CCTTCAAAGT GGTCTAAGAG TTTTAATGAA TTTCTGGCCA AAGCGCTAGT AAAAGATCCT 
    CAACAAAGGC CTTCCACGGA CGTTCTCATG GGACATCCAT TTATCGCTGG TAATCTGGAT 
    TCCAAGCCAA TCAAAGACCT GTTGCTTGAA TACAAAGCAG ATGTCGTTGA GGAGGAATTG 
    GTGGATGAAG AAGCAGAGAA AGCTAAAAGA CAAGCGAAGC GTAGATCGCT TTATCAGAGG 
    GAACCCCGCA ATTCTGCGCT CCCACTCGAC TTGGACGATG ACTCATCGTC TCTACAAAGT 
    CAAGAAACCT ATAAACTTCC AGATACTCCC ACATCCCTAT CGAAATCATC CAGAGATTCA 
    AAAGAATCGA CTCCCGTTCC TGTTGAAGAT GATAGCAAAG CGAAACCGGG AGCAGCGGTC 
    GCAGTCGCAA CCACGGCTGC AGCCCAATCG CCTTCTGATG TCGTCAATTC TTCGGCGCCC 
    AGTTCTCAGT CAGCGACAGC TGCAACAACG TCTGTGGCTA GTGATAGTAA TAGTAATGTA 
    CAAAGTGATA TCAAGAAATC ACCTACAACG GTTCCTGCTC CAGTATTACC ACCCACCGCA 
    CAACGACCTA CAAAAGAAAG CGAAGGTGAA CAGACTGAAA GTGGTAACAG TAGCAACAGC 
    AGCAGTGCTG AGGTTGAAAA GAAAGGTGTC ATCAAAAAGG AGAAAGGACC GGCTCCTCCA 
    CCTCCTCACA CTCCTTCATC GCCAAGCAGT CGAAATACTC CTAGTTCTAT CGGAGTTAGT 
    TCATCTTCTC ACACAACTAT CCCTCCTACC CCTCCAGAAA CCCCACAAAG TCCGGAAAGC 
    AAAGGCGTTG ATCGCCCTGA TACTACAGTG ATTTCAAAAC CAGCTTCCCC GTTGACGTTG 
    GAACGCGAAA CAAGCGTAGA CGAACTTGTA AAATCACCCA AAAAGGAACA CGCTCCATCT 
    CCTCCAAAAT CTTCACCGAA AGAGGGTAGT CCATCTTCAT CGCCACAACC TTATGAAGAT 
    GACGGTGTAG TGGTGACAAG TTCTGCCAGC AGAAGACTTA TTCCAGACGA CGACACAGTT 
    GATCTAAGAA TCGAATCGCC AAAGCCCAAA GATGAAGAAC TTTTAAATAC CACTGTTGCC 
    ATTCCAAAAC CTCCGCTCCA ATTTGACGAT GAGTCATCCA TACCACCGCG ACTTCTACCC 
    GACGACGAAA TTCGGATAAC ATCGACACCC AACAAACAAA CGACCATTAA CAATACCAAC 
    AACACTTCGA CCATTACTAT CAATAACGAC ACCGTGCTTT CGGATCCATC CAACAGTCTT 
    GCCAGTAACG TAAGTCAGAT AACTGTAGTT ACAAGCCATC CGCCGGTGAT AATCGACAAC 
    TCGGTGGTAC CATCCGGCTC ATCGTCGTCC GCCTCGTCAA CGAAATCCTT CGGGTCGTCT 
    CAAAGGAGAT CACGGGTGAT AACGCCAAAA ATAAGCGGCG GCGGTGACGA GGTGGTAATC 
    GTTTCCAACG AGCTGAACAA AACCCACGTG AATGAATCGT CCACGGACGA TGACTTCCAA 
    TCGTTGGACA GCTTGGAAAA CCTCTCGCCG AAGTATAGGA AACAGCACCC GCAATTGCAA 
    CGGTCCGGCA GTGGGCAGAT AGCACGTAAG TTAGATGAAA GTGAAGTGCT GATCGTGAGT 
    CCGGTCTTCA TTGGCGAGGA TCAGGACGAA CAGCAGCAGG AGCAGGACGA TTTCATCAAT 
    GATGAGCTAC ATTTAGGTAA TAATAATAAT AATCATAGTA ACAGTAAACT ATTGGACACT 
    AGTCATGTTT CGGTGGTCAC CGTTGGCGAG GAAGAGATCA AGGTCAAGGA CTCTTCGCAT 
    CTGATCAACA GTGGTACCAG TCATCTTCTT ATGCAGCAAC AGCAGCAGCA TCTGCAGAAC 
    CATCACCATG ATTCCATTAG CGATCTATCC AATGTGAGTT GTGGTCCCAG CGAATCGAGT 
    GATGATGTTA AGGTGGTGGA CATGATGCTG TCACATCCGA CGGGTGGCAC TACAAGCACG 
    AGTAGCGTCA GTACCGGCAG CACAGTTACG GCTACCGGAG GTTTTGCTCA ACGATCACCG 
    TCAGGTTCGT CGATTTCATC GCCATTGAGA AGTGGTTCTA GCACTAAGTT GAATGGCGAC 
    TTCAACCGAA GTCGGGAAGA CGTCAGTATA ATAGTTAATA AGCGAAAAGT TGTGGAAAAG 
    CAAAGGATTT CGCCCGACAG CAGTGTCGGA TCGATGGATG GTGGAGGTTC GGTACGATCG 
    GCCAGTACAC CGTTGCATCA TCACCTTCAA CAACAACAAC AACCGCAACA TCACCAGCAG 
    CATGCGCCTA GCGGCAAACA GCTGGATCGT AGCGATGCCG AAAGCATAGC AACAACAACT 
    AGTCACGACA GCCGCGAACA GTCGGTAGAA GAGGAAGTTC AACTTCGTCG AAAGCCTCCG 
    CCCGCTGAAG TCGAAGAGGA CAAGGTTCCG CCAATCGTCA ACAGCAACGT CCGAACGAAG 
    CCCAGCCAGC AGCAGCGGAA TTTCAGCAAG GAAGAAATAC ACTTGCAAAA TTTGAAGAAG 
    AAAACGCGAA AACGGACGCG AAAGTTTGAG ATCGACGGTG TTCAAGTCAC GACCACCACC 
    AGCAAGGTGA TCTACAGCGA TGAGGACAAC AACAAACTGT ACGACGATCA TCTGTTCCGC 
    AAGCAGGAAC TGCGGGAGCT CAAGATGCTC CAGAAGGCGG AGAAGAAGCA GTTTTACGAC 
    CTGCAGCAGA AGGAAGCCAT CGCCAAAGAG CAGCAGGAGA AGAAATTCGA GCAGGAACGT 
    CTTCAGCTGG AGCGAACGTT CGAGGCCGAC ATGGACGTGT TGGCGCGGCA GCACCGGCAA 
    ACGGTGGAAA AGTACGAACA GCAACAAGAG ACTGAACTTA GGAATACCTC CAAGAAAATT 
    CGTGCCGAAC AGGAGCGAGA TTTGAAATTG TTCCGCGACA GCCTCAAGCA GGAAATCAGG 
    CTGCTCAAGC AGGAAGTCGA CCTCCTACCA AAAGAAAAGC GGAAAGATGA ATTCCGGAAG 
    CGTAAGACTG CGATGGAAAT CGAGCACGAA GAACGAGAGA AGAGTTTCCT GTCCACCCTG 
    TCGGAGAACC ACGAGCTCGC TCTGCGACGG ATCAGTGAAA TCTATCGCGA GAAGCTTTCC 
    GCTGCCGACA AAGGGTATTT GCAACAGAAG CAAACGGCGA TGAGAACTCG AGAGGCCATG 
    CTTTGGGAGC TGGAGGAGAA GCACATTCAC GACAAGCACC AACTGGCGAA GCGACACGTG 
    AAGGACATCT GCTTCATGCA GCGACACCAA ATGATCATTC GCCACGAAAA AGAATTGGAT 
    CAGATCAAGA GAATGATTTC CCGCAAAGAA GAAGAACTGC TGAAGCGACA AACCATCGAA 
    AGGCGAGCCT TGCCAAAGCG GATACGGGCC GAGCGGAAAG CGCGAGATAT GATGTTCCGC 
    GAGTCGTTGC GAATTTCGAT GACCACGGAT CCGGAACTGG AACGGGAGAA GTTGAAGAAG 
    TTCCAGGAGC AAGAGAAGAA ACGGTACAAC CAGGAGCAGG CTCGTTTCGA AACGAAGCAC 
    ATGAAACAGC TGGAAGAGCT GCGAGCTACC TCAGACGGTT CCATTAGGGA GCTGGAACAG 
    TTGCAAAACG AAAAGCGTAA ACAGCTGCTG GAGCATGAAA GTGCCAAACT GCGCGAGTGC 
    GACGAAGCGC TACAGAAGGA ACTGCGCGAG TGGAAATCGC AGCTTTTGCC GAGGAAACAG 
    CGCCTCGAGG AAACCTTCGC TCAGCAGCAC GAGGAAATGG AACAACTGTA CGGCAACAGT 
    GTGGTACCGA TGCCACCGCA GTCTCCACAG GCGCATGATC TGCTGCAAAT TGGATCGACC 
    CGAAGCAGTA TTTCCTCCTA CTCGGACGGC CTGGGGGCAT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    AAEL_AAEL004412 ( XM_021851545.1 ) cDNA ORF clone, Aedes aegypti(yellow fever mosquito) -> XP_021707237.1 Aedes aegypti serine/threonine-protein kinase 10 (LOC5564725), transcript variant X20, mRNA.
    Price & Availability↑
    CloneID OAe127144
    Clone ID Related Accession (Same CDS sequence) XM_021851545.1
    Accession Version XM_021851545.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4620bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 1500393600000
    Organism Aedes aegypti(yellow fever mosquito)
    Product serine/threonine-protein kinase 10 isoform X3
    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 ##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
    ATGTCTTTCC TTAACAACCT GAAGAAGGTC TTCCACCTTG GCGGTGGGGA GGCCAAGAAG 
    AAGCGCATCT TCAACAACAT TCGGATGGAT ACGGATCCGA ATGATTACTG GGATATGATT 
    GGTGAATTAG GGGATGGTGC GTTCGGTAAA GTGTATAAAG CTCAAAATAA GGAAACCAAA 
    CAGCTGGCGG CGGCAAAAAT GTGCACTTTG GAGGATGAAG AAAATTTAAG TGATCATATG 
    GTGGAAATCG ATATTCTGTC GGAGATCAAG CACGAGAACA TAGTGGAACT ATATGAAGCG 
    TTTTCCATCG ATGATAAGCT ATGGATGCTG ATAGAGTATT GTGATGGTGG TGCCTTAGAT 
    AGCATAATGG TTGAACTAGA AAAACCCTTA ACCGAGCCAC AAGTTGCCTA CGTATGTAAG 
    CACATGTGCG CTGGGCTAAA CCACTTACAC AAGAACAAAG TGATACATCG CGATCTGAAG 
    GCTGGTAACG TATTGCTGAC GATGGACGGT GGTGTCAAGT TGGCGGATTT CGGTGTTTCT 
    GCGAAAAACA AACACACGCT TCAGAAACAC GATACTTTCA TTGGAACGCC CTACTGGATG 
    GCACCGGAGC TGGTACTGTG CGAGACCTTT CGGGATAATC CGTATGATTT CAAAGTGGAT 
    ATCTGGTCGC TGGGCATCAC GTTGATCGAG TTTGCCCAGA TGGAGCCACC GAATAGCGAA 
    ATGTCTCCAA TGAGGGTCCT GTTGAAGATT CAGAAAAGCG AACCACCAAA ACTAGATCAA 
    CCTTCAAAGT GGTCTAAGAG TTTTAATGAA TTTCTGGCCA AAGCGCTAGT AAAAGATCCT 
    CAACAAAGGC CTTCCACGGA CGTTCTCATG GGACATCCAT TTATCGCTGG TAATCTGGAT 
    TCCAAGCCAA TCAAAGACCT GTTGCTTGAA TACAAAGCAG ATGTCGTTGA GGAGGAATTG 
    GTGGATGAAG AAGCAGAGAA AGCTAAAAGA CAAGCGAAGC GTAGATCGCT TTATCAGAGG 
    GAACCCCGCA ATTCTGCGCT CCCACTCGAC TTGGACGATG ACTCATCGTC TCTACAAAGT 
    CAAGAAACCT ATAAACTTCC AGATACTCCC ACATCCCTAT CGAAATCATC CAGAGATTCA 
    AAAGAATCGA CTCCCGTTCC TGTTGAAGAT GATAGCAAAG CGAAACCGGG AGCAGCGGTC 
    GCAGTCGCAA CCACGGCTGC AGCCCAATCG CCTTCTGATG TCGTCAATTC TTCGGCGCCC 
    AGTTCTCAGT CAGCGACAGC TGCAACAACG TCTGTGGCTA GTGATAGTAA TAGTAATGTA 
    CAAAGTGATA TCAAGAAATC ACCTACAACG GTTCCTGCTC CAGTATTACC ACCCACCGCA 
    CAACGACCTA CAAAAGAAAG CGAAGGTGAA CAGACTGAAA GTGGTAACAG TAGCAACAGC 
    AGCAGTGCTG AGGTTGAAAA GAAAGGTGTC ATCAAAAAGG AGAAAGGACC GGCTCCTCCA 
    CCTCCTCACA CTCCTTCATC GCCAAGCAGT CGAAATACTC CTAGTTCTAT CGGAGTTAGT 
    TCATCTTCTC ACACAACTAT CCCTCCTACC CCTCCAGAAA CCCCACAAAG TCCGGAAAGC 
    AAAGGCGTTG ATCGCCCTGA TACTACAGTG ATTTCAAAAC CAGCTTCCCC GTTGACGTTG 
    GAACGCGAAA CAAGCGTAGA CGAACTTGTA AAATCACCCA AAAAGGAACA CGCTCCATCT 
    CCTCCAAAAT CTTCACCGAA AGAGGGTAGT CCATCTTCAT CGCCACAACC TTATGAAGAT 
    GACGGTGTAG TGGTGACAAG TTCTGCCAGC AGAAGACTTA TTCCAGACGA CGACACAGTT 
    GATCTAAGAA TCGAATCGCC AAAGCCCAAA GATGAAGAAC TTTTAAATAC CACTGTTGCC 
    ATTCCAAAAC CTCCGCTCCA ATTTGACGAT GAGTCATCCA TACCACCGCG ACTTCTACCC 
    GACGACGAAA TTCGGATAAC ATCGACACCC AACAAACAAA CGACCATTAA CAATACCAAC 
    AACACTTCGA CCATTACTAT CAATAACGAC ACCGTGCTTT CGGATCCATC CAACAGTCTT 
    GCCAGTAACG TAAGTCAGAT AACTGTAGTT ACAAGCCATC CGCCGGTGAT AATCGACAAC 
    TCGGTGGTAC CATCCGGCTC ATCGTCGTCC GCCTCGTCAA CGAAATCCTT CGGGTCGTCT 
    CAAAGGAGAT CACGGGTGAT AACGCCAAAA ATAAGCGGCG GCGGTGACGA GGTGGTAATC 
    GTTTCCAACG AGCTGAACAA AACCCACGTG AATGAATCGT CCACGGACGA TGACTTCCAA 
    TCGTTGGACA GCTTGGAAAA CCTCTCGCCG AAGTATAGGA AACAGCACCC GCAATTGCAA 
    CGGTCCGGCA GTGGGCAGAT AGCACGTAAG TTAGATGAAA GTGAAGTGCT GATCGTGAGT 
    CCGGTCTTCA TTGGCGAGGA TCAGGACGAA CAGCAGCAGG AGCAGGACGA TTTCATCAAT 
    GATGAGCTAC ATTTAGGTAA TAATAATAAT AATCATAGTA ACAGTAAACT ATTGGACACT 
    AGTCATGTTT CGGTGGTCAC CGTTGGCGAG GAAGAGATCA AGGTCAAGGA CTCTTCGCAT 
    CTGATCAACA GTGGTACCAG TCATCTTCTT ATGCAGCAAC AGCAGCAGCA TCTGCAGAAC 
    CATCACCATG ATTCCATTAG CGATCTATCC AATGTGAGTT GTGGTCCCAG CGAATCGAGT 
    GATGATGTTA AGGTGGTGGA CATGATGCTG TCACATCCGA CGGGTGGCAC TACAAGCACG 
    AGTAGCGTCA GTACCGGCAG CACAGTTACG GCTACCGGAG GTTTTGCTCA ACGATCACCG 
    TCAGGTTCGT CGATTTCATC GCCATTGAGA AGTGGTTCTA GCACTAAGTT GAATGGCGAC 
    TTCAACCGAA GTCGGGAAGA CGTCAGTATA ATAGTTAATA AGCGAAAAGT TGTGGAAAAG 
    CAAAGGATTT CGCCCGACAG CAGTGTCGGA TCGATGGATG GTGGAGGTTC GGTACGATCG 
    GCCAGTACAC CGTTGCATCA TCACCTTCAA CAACAACAAC AACCGCAACA TCACCAGCAG 
    CATGCGCCTA GCGGCAAACA GCTGGATCGT AGCGATGCCG AAAGCATAGC AACAACAACT 
    AGTCACGACA GCCGCGAACA GTCGGTAGAA GAGGAAGTTC AACTTCGTCG AAAGCCTCCG 
    CCCGCTGAAG TCGAAGAGGA CAAGGTTCCG CCAATCGTCA ACAGCAACGT CCGAACGAAG 
    CCCAGCCAGC AGCAGCGGAA TTTCAGCAAG GAAGAAATAC ACTTGCAAAA TTTGAAGAAG 
    AAAACGCGAA AACGGACGCG AAAGTTTGAG ATCGACGGTG TTCAAGTCAC GACCACCACC 
    AGCAAGGTGA TCTACAGCGA TGAGGACAAC AACAAACTGT ACGACGATCA TCTGTTCCGC 
    AAGCAGGAAC TGCGGGAGCT CAAGATGCTC CAGAAGGCGG AGAAGAAGCA GTTTTACGAC 
    CTGCAGCAGA AGGAAGCCAT CGCCAAAGAG CAGCAGGAGA AGAAATTCGA GCAGGAACGT 
    CTTCAGCTGG AGCGAACGTT CGAGGCCGAC ATGGACGTGT TGGCGCGGCA GCACCGGCAA 
    ACGGTGGAAA AGTACGAACA GCAACAAGAG ACTGAACTTA GGAATACCTC CAAGAAAATT 
    CGTGCCGAAC AGGAGCGAGA TTTGAAATTG TTCCGCGACA GCCTCAAGCA GGAAATCAGG 
    CTGCTCAAGC AGGAAGTCGA CCTCCTACCA AAAGAAAAGC GGAAAGATGA ATTCCGGAAG 
    CGTAAGACTG CGATGGAAAT CGAGCACGAA GAACGAGAGA AGAGTTTCCT GTCCACCCTG 
    TCGGAGAACC ACGAGCTCGC TCTGCGACGG ATCAGTGAAA TCTATCGCGA GAAGCTTTCC 
    GCTGCCGACA AAGGGTATTT GCAACAGAAG CAAACGGCGA TGAGAACTCG AGAGGCCATG 
    CTTTGGGAGC TGGAGGAGAA GCACATTCAC GACAAGCACC AACTGGCGAA GCGACACGTG 
    AAGGACATCT GCTTCATGCA GCGACACCAA ATGATCATTC GCCACGAAAA AGAATTGGAT 
    CAGATCAAGA GAATGATTTC CCGCAAAGAA GAAGAACTGC TGAAGCGACA AACCATCGAA 
    AGGCGAGCCT TGCCAAAGCG GATACGGGCC GAGCGGAAAG CGCGAGATAT GATGTTCCGC 
    GAGTCGTTGC GAATTTCGAT GACCACGGAT CCGGAACTGG AACGGGAGAA GTTGAAGAAG 
    TTCCAGGAGC AAGAGAAGAA ACGGTACAAC CAGGAGCAGG CTCGTTTCGA AACGAAGCAC 
    ATGAAACAGC TGGAAGAGCT GCGAGCTACC TCAGACGGTT CCATTAGGGA GCTGGAACAG 
    TTGCAAAACG AAAAGCGTAA ACAGCTGCTG GAGCATGAAA GTGCCAAACT GCGCGAGTGC 
    GACGAAGCGC TACAGAAGGA ACTGCGCGAG TGGAAATCGC AGCTTTTGCC GAGGAAACAG 
    TTGGCGAACC TCTCCGCAAC AACCGATATT ACCCGTATCC GTATCCGTAT CTTTCGTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_021707237.1
    CDS2353..6972
    Translation

    Target ORF information:

    RefSeq Version XM_021851545.1
    Organism Aedes aegypti(yellow fever mosquito)
    Definition Aedes aegypti serine/threonine-protein kinase 10 (LOC5564725), transcript variant X20, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021851545.1

    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
    ATGTCTTTCC TTAACAACCT GAAGAAGGTC TTCCACCTTG GCGGTGGGGA GGCCAAGAAG 
    AAGCGCATCT TCAACAACAT TCGGATGGAT ACGGATCCGA ATGATTACTG GGATATGATT 
    GGTGAATTAG GGGATGGTGC GTTCGGTAAA GTGTATAAAG CTCAAAATAA GGAAACCAAA 
    CAGCTGGCGG CGGCAAAAAT GTGCACTTTG GAGGATGAAG AAAATTTAAG TGATCATATG 
    GTGGAAATCG ATATTCTGTC GGAGATCAAG CACGAGAACA TAGTGGAACT ATATGAAGCG 
    TTTTCCATCG ATGATAAGCT ATGGATGCTG ATAGAGTATT GTGATGGTGG TGCCTTAGAT 
    AGCATAATGG TTGAACTAGA AAAACCCTTA ACCGAGCCAC AAGTTGCCTA CGTATGTAAG 
    CACATGTGCG CTGGGCTAAA CCACTTACAC AAGAACAAAG TGATACATCG CGATCTGAAG 
    GCTGGTAACG TATTGCTGAC GATGGACGGT GGTGTCAAGT TGGCGGATTT CGGTGTTTCT 
    GCGAAAAACA AACACACGCT TCAGAAACAC GATACTTTCA TTGGAACGCC CTACTGGATG 
    GCACCGGAGC TGGTACTGTG CGAGACCTTT CGGGATAATC CGTATGATTT CAAAGTGGAT 
    ATCTGGTCGC TGGGCATCAC GTTGATCGAG TTTGCCCAGA TGGAGCCACC GAATAGCGAA 
    ATGTCTCCAA TGAGGGTCCT GTTGAAGATT CAGAAAAGCG AACCACCAAA ACTAGATCAA 
    CCTTCAAAGT GGTCTAAGAG TTTTAATGAA TTTCTGGCCA AAGCGCTAGT AAAAGATCCT 
    CAACAAAGGC CTTCCACGGA CGTTCTCATG GGACATCCAT TTATCGCTGG TAATCTGGAT 
    TCCAAGCCAA TCAAAGACCT GTTGCTTGAA TACAAAGCAG ATGTCGTTGA GGAGGAATTG 
    GTGGATGAAG AAGCAGAGAA AGCTAAAAGA CAAGCGAAGC GTAGATCGCT TTATCAGAGG 
    GAACCCCGCA ATTCTGCGCT CCCACTCGAC TTGGACGATG ACTCATCGTC TCTACAAAGT 
    CAAGAAACCT ATAAACTTCC AGATACTCCC ACATCCCTAT CGAAATCATC CAGAGATTCA 
    AAAGAATCGA CTCCCGTTCC TGTTGAAGAT GATAGCAAAG CGAAACCGGG AGCAGCGGTC 
    GCAGTCGCAA CCACGGCTGC AGCCCAATCG CCTTCTGATG TCGTCAATTC TTCGGCGCCC 
    AGTTCTCAGT CAGCGACAGC TGCAACAACG TCTGTGGCTA GTGATAGTAA TAGTAATGTA 
    CAAAGTGATA TCAAGAAATC ACCTACAACG GTTCCTGCTC CAGTATTACC ACCCACCGCA 
    CAACGACCTA CAAAAGAAAG CGAAGGTGAA CAGACTGAAA GTGGTAACAG TAGCAACAGC 
    AGCAGTGCTG AGGTTGAAAA GAAAGGTGTC ATCAAAAAGG AGAAAGGACC GGCTCCTCCA 
    CCTCCTCACA CTCCTTCATC GCCAAGCAGT CGAAATACTC CTAGTTCTAT CGGAGTTAGT 
    TCATCTTCTC ACACAACTAT CCCTCCTACC CCTCCAGAAA CCCCACAAAG TCCGGAAAGC 
    AAAGGCGTTG ATCGCCCTGA TACTACAGTG ATTTCAAAAC CAGCTTCCCC GTTGACGTTG 
    GAACGCGAAA CAAGCGTAGA CGAACTTGTA AAATCACCCA AAAAGGAACA CGCTCCATCT 
    CCTCCAAAAT CTTCACCGAA AGAGGGTAGT CCATCTTCAT CGCCACAACC TTATGAAGAT 
    GACGGTGTAG TGGTGACAAG TTCTGCCAGC AGAAGACTTA TTCCAGACGA CGACACAGTT 
    GATCTAAGAA TCGAATCGCC AAAGCCCAAA GATGAAGAAC TTTTAAATAC CACTGTTGCC 
    ATTCCAAAAC CTCCGCTCCA ATTTGACGAT GAGTCATCCA TACCACCGCG ACTTCTACCC 
    GACGACGAAA TTCGGATAAC ATCGACACCC AACAAACAAA CGACCATTAA CAATACCAAC 
    AACACTTCGA CCATTACTAT CAATAACGAC ACCGTGCTTT CGGATCCATC CAACAGTCTT 
    GCCAGTAACG TAAGTCAGAT AACTGTAGTT ACAAGCCATC CGCCGGTGAT AATCGACAAC 
    TCGGTGGTAC CATCCGGCTC ATCGTCGTCC GCCTCGTCAA CGAAATCCTT CGGGTCGTCT 
    CAAAGGAGAT CACGGGTGAT AACGCCAAAA ATAAGCGGCG GCGGTGACGA GGTGGTAATC 
    GTTTCCAACG AGCTGAACAA AACCCACGTG AATGAATCGT CCACGGACGA TGACTTCCAA 
    TCGTTGGACA GCTTGGAAAA CCTCTCGCCG AAGTATAGGA AACAGCACCC GCAATTGCAA 
    CGGTCCGGCA GTGGGCAGAT AGCACGTAAG TTAGATGAAA GTGAAGTGCT GATCGTGAGT 
    CCGGTCTTCA TTGGCGAGGA TCAGGACGAA CAGCAGCAGG AGCAGGACGA TTTCATCAAT 
    GATGAGCTAC ATTTAGGTAA TAATAATAAT AATCATAGTA ACAGTAAACT ATTGGACACT 
    AGTCATGTTT CGGTGGTCAC CGTTGGCGAG GAAGAGATCA AGGTCAAGGA CTCTTCGCAT 
    CTGATCAACA GTGGTACCAG TCATCTTCTT ATGCAGCAAC AGCAGCAGCA TCTGCAGAAC 
    CATCACCATG ATTCCATTAG CGATCTATCC AATGTGAGTT GTGGTCCCAG CGAATCGAGT 
    GATGATGTTA AGGTGGTGGA CATGATGCTG TCACATCCGA CGGGTGGCAC TACAAGCACG 
    AGTAGCGTCA GTACCGGCAG CACAGTTACG GCTACCGGAG GTTTTGCTCA ACGATCACCG 
    TCAGGTTCGT CGATTTCATC GCCATTGAGA AGTGGTTCTA GCACTAAGTT GAATGGCGAC 
    TTCAACCGAA GTCGGGAAGA CGTCAGTATA ATAGTTAATA AGCGAAAAGT TGTGGAAAAG 
    CAAAGGATTT CGCCCGACAG CAGTGTCGGA TCGATGGATG GTGGAGGTTC GGTACGATCG 
    GCCAGTACAC CGTTGCATCA TCACCTTCAA CAACAACAAC AACCGCAACA TCACCAGCAG 
    CATGCGCCTA GCGGCAAACA GCTGGATCGT AGCGATGCCG AAAGCATAGC AACAACAACT 
    AGTCACGACA GCCGCGAACA GTCGGTAGAA GAGGAAGTTC AACTTCGTCG AAAGCCTCCG 
    CCCGCTGAAG TCGAAGAGGA CAAGGTTCCG CCAATCGTCA ACAGCAACGT CCGAACGAAG 
    CCCAGCCAGC AGCAGCGGAA TTTCAGCAAG GAAGAAATAC ACTTGCAAAA TTTGAAGAAG 
    AAAACGCGAA AACGGACGCG AAAGTTTGAG ATCGACGGTG TTCAAGTCAC GACCACCACC 
    AGCAAGGTGA TCTACAGCGA TGAGGACAAC AACAAACTGT ACGACGATCA TCTGTTCCGC 
    AAGCAGGAAC TGCGGGAGCT CAAGATGCTC CAGAAGGCGG AGAAGAAGCA GTTTTACGAC 
    CTGCAGCAGA AGGAAGCCAT CGCCAAAGAG CAGCAGGAGA AGAAATTCGA GCAGGAACGT 
    CTTCAGCTGG AGCGAACGTT CGAGGCCGAC ATGGACGTGT TGGCGCGGCA GCACCGGCAA 
    ACGGTGGAAA AGTACGAACA GCAACAAGAG ACTGAACTTA GGAATACCTC CAAGAAAATT 
    CGTGCCGAAC AGGAGCGAGA TTTGAAATTG TTCCGCGACA GCCTCAAGCA GGAAATCAGG 
    CTGCTCAAGC AGGAAGTCGA CCTCCTACCA AAAGAAAAGC GGAAAGATGA ATTCCGGAAG 
    CGTAAGACTG CGATGGAAAT CGAGCACGAA GAACGAGAGA AGAGTTTCCT GTCCACCCTG 
    TCGGAGAACC ACGAGCTCGC TCTGCGACGG ATCAGTGAAA TCTATCGCGA GAAGCTTTCC 
    GCTGCCGACA AAGGGTATTT GCAACAGAAG CAAACGGCGA TGAGAACTCG AGAGGCCATG 
    CTTTGGGAGC TGGAGGAGAA GCACATTCAC GACAAGCACC AACTGGCGAA GCGACACGTG 
    AAGGACATCT GCTTCATGCA GCGACACCAA ATGATCATTC GCCACGAAAA AGAATTGGAT 
    CAGATCAAGA GAATGATTTC CCGCAAAGAA GAAGAACTGC TGAAGCGACA AACCATCGAA 
    AGGCGAGCCT TGCCAAAGCG GATACGGGCC GAGCGGAAAG CGCGAGATAT GATGTTCCGC 
    GAGTCGTTGC GAATTTCGAT GACCACGGAT CCGGAACTGG AACGGGAGAA GTTGAAGAAG 
    TTCCAGGAGC AAGAGAAGAA ACGGTACAAC CAGGAGCAGG CTCGTTTCGA AACGAAGCAC 
    ATGAAACAGC TGGAAGAGCT GCGAGCTACC TCAGACGGTT CCATTAGGGA GCTGGAACAG 
    TTGCAAAACG AAAAGCGTAA ACAGCTGCTG GAGCATGAAA GTGCCAAACT GCGCGAGTGC 
    GACGAAGCGC TACAGAAGGA ACTGCGCGAG TGGAAATCGC AGCTTTTGCC GAGGAAACAG 
    TTGGCGAACC TCTCCGCAAC AACCGATATT ACCCGTATCC GTATCCGTAT CTTTCGTTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    AAEL_AAEL004412 ( XM_021851546.1 ) cDNA ORF clone, Aedes aegypti(yellow fever mosquito) -> XP_021707238.1 Aedes aegypti serine/threonine-protein kinase 10 (LOC5564725), transcript variant X23, mRNA.
    Price & Availability↑
    CloneID OAe127145
    Clone ID Related Accession (Same CDS sequence) XM_021851546.1
    Accession Version XM_021851546.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4680bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 1500393600000
    Organism Aedes aegypti(yellow fever mosquito)
    Product serine/threonine-protein kinase 10 isoform X4
    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 mRNA and 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
    ATGTCTTTCC TTAACAACCT GAAGAAGGTC TTCCACCTTG GCGGTGGGGA GGCCAAGAAG 
    AAGCGCATCT TCAACAACAT TCGGATGGAT ACGGATCCGA ATGATTACTG GGATATGATT 
    GGTGAATTAG GGGATGGTGC GTTCGGTAAA GTGTATAAAG CTCAAAATAA GGAAACCAAA 
    CAGCTGGCGG CGGCAAAAAT GTGCACTTTG GAGGATGAAG AAAATTTAAG TGATCATATG 
    GTGGAAATCG ATATTCTGTC GGAGATCAAG CACGAGAACA TAGTGGAACT ATATGAAGCG 
    TTTTCCATCG ATGATAAGCT ATGGATGCTG ATAGAGTATT GTGATGGTGG TGCCTTAGAT 
    AGCATAATGG TTGAACTAGA AAAACCCTTA ACCGAGCCAC AAGTTGCCTA CGTATGTAAG 
    CACATGTGCG CTGGGCTAAA CCACTTACAC AAGAACAAAG TGATACATCG CGATCTGAAG 
    GCTGGTAACG TATTGCTGAC GATGGACGGT GGTGTCAAGT TGGCGGATTT CGGTGTTTCT 
    GCGAAAAACA AACACACGCT TCAGAAACAC GATACTTTCA TTGGAACGCC CTACTGGATG 
    GCACCGGAGC TGGTACTGTG CGAGACCTTT CGGGATAATC CGTATGATTT CAAAGTGGAT 
    ATCTGGTCGC TGGGCATCAC GTTGATCGAG TTTGCCCAGA TGGAGCCACC GAATAGCGAA 
    ATGTCTCCAA TGAGGGTCCT GTTGAAGATT CAGAAAAGCG AACCACCAAA ACTAGATCAA 
    CCTTCAAAGT GGTCTAAGAG TTTTAATGAA TTTCTGGCCA AAGCGCTAGT AAAAGATCCT 
    CAACAAAGGC CTTCCACGGA CGTTCTCATG GGACATCCAT TTATCGCTGG TAATCTGGAT 
    TCCAAGCCAA TCAAAGACCT GTTGCTTGAA TACAAAGCAG ATGTCGTTGA GGAGGAATTG 
    GTGGATGAAG AAGCAGAGGA ACCCCGCAAT TCTGCGCTCC CACTCGACTT GGACGATGAC 
    TCATCGTCTC TACAAAGTCA AGAAACCTAT AAACTTCCAG ATACTCCCAC ATCCCTATCG 
    AAATCATCCA GAGATTCAAA AGAATCGACT CCCGTTCCTG TTGAAGATGA TAGCAAAGCG 
    AAACCGGGAG CAGCGGTCGC AGTCGCAACC ACGGCTGCAG CCCAATCGCC TTCTGATGTC 
    GTCAATTCTT CGGCGCCCAG TTCTCAGTCA GCGACAGCTG CAACAACGTC TGTGGCTAGT 
    GATAGTAATA GTAATGTACA AAGTGATATC AAGAAATCAC CTACAACGGT TCCTGCTCCA 
    GTATTACCAC CCACCGCACA ACGACCTACA AAAGAAAGCG AAGGTGAACA GACTGAAAGT 
    GGTAACAGTA GCAACAGCAG CAGTGCTGAG GTTGAAAAGA AAGGTGTCAT CAAAAAGGAG 
    AAAGGACCGG CTCCTCCACC TCCTCACACT CCTTCATCGC CAAGCAGTCG AAATACTCCT 
    AGTTCTATCG GAGTTAGTTC ATCTTCTCAC ACAACTATCC CTCCTACCCC TCCAGAAACC 
    CCACAAAGTC CGGAAAGCAA AGGCGTTGAT CGCCCTGATA CTACAGTGAT TTCAAAACCA 
    GCTTCCCCGT TGACGTTGGA ACGCGAAACA AGCGTAGACG AACTTGTAAA ATCACCCAAA 
    AAGGAACACG CTCCATCTCC TCCAAAATCT TCACCGAAAG AGGGTAGTCC ATCTTCATCG 
    CCACAACCTT ATGAAGATGA CGGTGTAGTG GTGACAAGTT CTGCCAGCAG AAGACTTATT 
    CCAGACGACG ACACAGTTGA TCTAAGAATC GAATCGCCAA AGCCCAAAGA TGAAGAACTT 
    TTAAATACCA CTGTTGCCAT TCCAAAACCT CCGCTCCAAT TTGACGATGA GTCATCCATA 
    CCACCGCGAC TTCTACCCGA CGACGAAATT CGGATAACAT CGACACCCAA CAAACAAACG 
    ACCATTAACA ATACCAACAA CACTTCGACC ATTACTATCA ATAACGACAC CGTGCTTTCG 
    GATCCATCCA ACAGTCTTGC CAGTAACGTA AGTCAGATAA CTGTAGTTAC AAGCCATCCG 
    CCGGTGATAA TCGACAACTC GGTGGTACCA TCCGGCTCAT CGTCGTCCGC CTCGTCAACG 
    AAATCCTTCG GGTCGTCTCA AAGGAGATCA CGGGTGATAA CGCCAAAAAT AAGCGGCGGC 
    GGTGACGAGG TGGTAATCGT TTCCAACGAG CTGAACAAAA CCCACGTGAA TGAATCGTCC 
    ACGGACGATG ACTTCCAATC GTTGGACAGC TTGGAAAACC TCTCGCCGAA GTATAGGAAA 
    CAGCACCCGC AATTGCAACG GTCCGGCAGT GGGCAGATAG CACGTAAGTT AGATGAAAGT 
    GAAGTGCTGA TCGTGAGTCC GGTCTTCATT GGCGAGGATC AGGACGAACA GCAGCAGGAG 
    CAGGACGATT TCATCAATGA TGAGCTACAT TTAGGTAATA ATAATAATAA TCATAGTAAC 
    AGTAAACTAT TGGACACTAG TCATGTTTCG GTGGTCACCG TTGGCGAGGA AGAGATCAAG 
    GTCAAGGACT CTTCGCATCT GATCAACAGT GGTACCAGTC ATCTTCTTAT GCAGCAACAG 
    CAGCAGCATC TGCAGAACCA TCACCATGAT TCCATTAGCG ATCTATCCAA TGTGAGTTGT 
    GGTCCCAGCG AATCGAGTGA TGATGTTAAG GTGGTGGACA TGATGCTGTC ACATCCGACG 
    GGTGGCACTA CAAGCACGAG TAGCGTCAGT ACCGGCAGCA CAGTTACGGC TACCGGAGGT 
    TTTGCTCAAC GATCACCGTC AGGTTCGTCG ATTTCATCGC CATTGAGAAG TGGTTCTAGC 
    ACTAAGTTGA ATGGCGACTT CAACCGAAGT CGGGAAGACG TCAGTATAAT AGTTAATAAG 
    CGAAAAGTTG TGGAAAAGCA AAGGATTTCG CCCGACAGCA GTGTCGGATC GATGGATGGT 
    GGAGGTTCGG TACGATCGGC CAGTACACCG TTGCATCATC ACCTTCAACA ACAACAACAA 
    CCGCAACATC ACCAGCAGCA TGCGCCTAGC GGCAAACAGC TGGATCGTAG CGATGCCGAA 
    AGCATAGCAA CAACAACTAG TCACGACAGC CGCGAACAGT CGGTAGAAGA GGAAGTTCAA 
    CTTCGTCGAA AGCCTCCGCC CGCTGAAGTC GAAGAGGACA AGGTTCCGCC AATCGTCAAC 
    AGCAACGTCC GAACGAAGCC CAGCCAGCAG CAGCGGAATT TCAGCAAGGA AGAAATACAC 
    TTGCAAAATT TGAAGAAGAA AACGCGAAAA CGGACGCGAA AGTTTGAGAT CGACGGTGTT 
    CAAGTCACGA CCACCACCAG CAAGGTGATC TACAGCGATG AGGACAACAA CAAACTGTAC 
    GACGATCATC TGTTCCGCAA GCAGGAACTG CGGGAGCTCA AGATGCTCCA GAAGGCGGAG 
    AAGAAGCAGT TTTACGACCT GCAGCAGAAG GAAGCCATCG CCAAAGAGCA GCAGGAGAAG 
    AAATTCGAGC AGGAACGTCT TCAGCTGGAG CGAACGTTCG AGGCCGACAT GGACGTGTTG 
    GCGCGGCAGC ACCGGCAAAC GGTGGAAAAG TACGAACAGC AACAAGAGAC TGAACTTAGG 
    AATACCTCCA AGAAAATTCG TGCCGAACAG GAGCGAGATT TGAAATTGTT CCGCGACAGC 
    CTCAAGCAGG AAATCAGGCT GCTCAAGCAG GAAGTCGACC TCCTACCAAA AGAAAAGCGG 
    AAAGATGAAT TCCGGAAGCG TAAGACTGCG ATGGAAATCG AGCACGAAGA ACGAGAGAAG 
    AGTTTCCTGT CCACCCTGTC GGAGAACCAC GAGCTCGCTC TGCGACGGAT CAGTGAAATC 
    TATCGCGAGA AGCTTTCCGC TGCCGACAAA GGGTATTTGC AACAGAAGCA AACGGCGATG 
    AGAACTCGAG AGGCCATGCT TTGGGAGCTG GAGGAGAAGC ACATTCACGA CAAGCACCAA 
    CTGGCGAAGC GACACGTGAA GGACATCTGC TTCATGCAGC GACACCAAAT GATCATTCGC 
    CACGAAAAAG AATTGGATCA GATCAAGAGA ATGATTTCCC GCAAAGAAGA AGAACTGCTG 
    AAGCGACAAA CCATCGAAAG GCGAGCCTTG CCAAAGCGGA TACGGGCCGA GCGGAAAGCG 
    CGAGATATGA TGTTCCGCGA GTCGTTGCGA ATTTCGATGA CCACGGATCC GGAACTGGAA 
    CGGGAGAAGT TGAAGAAGTT CCAGGAGCAA GAGAAGAAAC GGTACAACCA GGAGCAGGCT 
    CGTTTCGAAA CGAAGCACAT GAAACAGCTG GAAGAGCTGC GAGCTACCTC AGACGGTTCC 
    ATTAGGGAGC TGGAACAGTT GCAAAACGAA AAGCGTAAAC AGCTGCTGGA GCATGAAAGT 
    GCCAAACTGC GCGAGTGCGA CGAAGCGCTA CAGAAGGAAC TGCGCGAGTG GAAATCGCAG 
    CTTTTGCCGA GGAAACAGCG CCTCGAGGAA ACCTTCGCTC AGCAGCACGA GGAAATGGAA 
    CAACTGTACG GCAACAGTGT GGTACCGATG CCACCGCAGT CTCCACAGGC GCATGATCTG 
    CTGCAAATTG GATCGACCCG AAGCAGTATT TCCTCCTACT CGGACGGCCT GGGGGCATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_021707238.1
    CDS2351..7030
    Translation

    Target ORF information:

    RefSeq Version XM_021851546.1
    Organism Aedes aegypti(yellow fever mosquito)
    Definition Aedes aegypti serine/threonine-protein kinase 10 (LOC5564725), transcript variant X23, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021851546.1

    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
    ATGTCTTTCC TTAACAACCT GAAGAAGGTC TTCCACCTTG GCGGTGGGGA GGCCAAGAAG 
    AAGCGCATCT TCAACAACAT TCGGATGGAT ACGGATCCGA ATGATTACTG GGATATGATT 
    GGTGAATTAG GGGATGGTGC GTTCGGTAAA GTGTATAAAG CTCAAAATAA GGAAACCAAA 
    CAGCTGGCGG CGGCAAAAAT GTGCACTTTG GAGGATGAAG AAAATTTAAG TGATCATATG 
    GTGGAAATCG ATATTCTGTC GGAGATCAAG CACGAGAACA TAGTGGAACT ATATGAAGCG 
    TTTTCCATCG ATGATAAGCT ATGGATGCTG ATAGAGTATT GTGATGGTGG TGCCTTAGAT 
    AGCATAATGG TTGAACTAGA AAAACCCTTA ACCGAGCCAC AAGTTGCCTA CGTATGTAAG 
    CACATGTGCG CTGGGCTAAA CCACTTACAC AAGAACAAAG TGATACATCG CGATCTGAAG 
    GCTGGTAACG TATTGCTGAC GATGGACGGT GGTGTCAAGT TGGCGGATTT CGGTGTTTCT 
    GCGAAAAACA AACACACGCT TCAGAAACAC GATACTTTCA TTGGAACGCC CTACTGGATG 
    GCACCGGAGC TGGTACTGTG CGAGACCTTT CGGGATAATC CGTATGATTT CAAAGTGGAT 
    ATCTGGTCGC TGGGCATCAC GTTGATCGAG TTTGCCCAGA TGGAGCCACC GAATAGCGAA 
    ATGTCTCCAA TGAGGGTCCT GTTGAAGATT CAGAAAAGCG AACCACCAAA ACTAGATCAA 
    CCTTCAAAGT GGTCTAAGAG TTTTAATGAA TTTCTGGCCA AAGCGCTAGT AAAAGATCCT 
    CAACAAAGGC CTTCCACGGA CGTTCTCATG GGACATCCAT TTATCGCTGG TAATCTGGAT 
    TCCAAGCCAA TCAAAGACCT GTTGCTTGAA TACAAAGCAG ATGTCGTTGA GGAGGAATTG 
    GTGGATGAAG AAGCAGAGGA ACCCCGCAAT TCTGCGCTCC CACTCGACTT GGACGATGAC 
    TCATCGTCTC TACAAAGTCA AGAAACCTAT AAACTTCCAG ATACTCCCAC ATCCCTATCG 
    AAATCATCCA GAGATTCAAA AGAATCGACT CCCGTTCCTG TTGAAGATGA TAGCAAAGCG 
    AAACCGGGAG CAGCGGTCGC AGTCGCAACC ACGGCTGCAG CCCAATCGCC TTCTGATGTC 
    GTCAATTCTT CGGCGCCCAG TTCTCAGTCA GCGACAGCTG CAACAACGTC TGTGGCTAGT 
    GATAGTAATA GTAATGTACA AAGTGATATC AAGAAATCAC CTACAACGGT TCCTGCTCCA 
    GTATTACCAC CCACCGCACA ACGACCTACA AAAGAAAGCG AAGGTGAACA GACTGAAAGT 
    GGTAACAGTA GCAACAGCAG CAGTGCTGAG GTTGAAAAGA AAGGTGTCAT CAAAAAGGAG 
    AAAGGACCGG CTCCTCCACC TCCTCACACT CCTTCATCGC CAAGCAGTCG AAATACTCCT 
    AGTTCTATCG GAGTTAGTTC ATCTTCTCAC ACAACTATCC CTCCTACCCC TCCAGAAACC 
    CCACAAAGTC CGGAAAGCAA AGGCGTTGAT CGCCCTGATA CTACAGTGAT TTCAAAACCA 
    GCTTCCCCGT TGACGTTGGA ACGCGAAACA AGCGTAGACG AACTTGTAAA ATCACCCAAA 
    AAGGAACACG CTCCATCTCC TCCAAAATCT TCACCGAAAG AGGGTAGTCC ATCTTCATCG 
    CCACAACCTT ATGAAGATGA CGGTGTAGTG GTGACAAGTT CTGCCAGCAG AAGACTTATT 
    CCAGACGACG ACACAGTTGA TCTAAGAATC GAATCGCCAA AGCCCAAAGA TGAAGAACTT 
    TTAAATACCA CTGTTGCCAT TCCAAAACCT CCGCTCCAAT TTGACGATGA GTCATCCATA 
    CCACCGCGAC TTCTACCCGA CGACGAAATT CGGATAACAT CGACACCCAA CAAACAAACG 
    ACCATTAACA ATACCAACAA CACTTCGACC ATTACTATCA ATAACGACAC CGTGCTTTCG 
    GATCCATCCA ACAGTCTTGC CAGTAACGTA AGTCAGATAA CTGTAGTTAC AAGCCATCCG 
    CCGGTGATAA TCGACAACTC GGTGGTACCA TCCGGCTCAT CGTCGTCCGC CTCGTCAACG 
    AAATCCTTCG GGTCGTCTCA AAGGAGATCA CGGGTGATAA CGCCAAAAAT AAGCGGCGGC 
    GGTGACGAGG TGGTAATCGT TTCCAACGAG CTGAACAAAA CCCACGTGAA TGAATCGTCC 
    ACGGACGATG ACTTCCAATC GTTGGACAGC TTGGAAAACC TCTCGCCGAA GTATAGGAAA 
    CAGCACCCGC AATTGCAACG GTCCGGCAGT GGGCAGATAG CACGTAAGTT AGATGAAAGT 
    GAAGTGCTGA TCGTGAGTCC GGTCTTCATT GGCGAGGATC AGGACGAACA GCAGCAGGAG 
    CAGGACGATT TCATCAATGA TGAGCTACAT TTAGGTAATA ATAATAATAA TCATAGTAAC 
    AGTAAACTAT TGGACACTAG TCATGTTTCG GTGGTCACCG TTGGCGAGGA AGAGATCAAG 
    GTCAAGGACT CTTCGCATCT GATCAACAGT GGTACCAGTC ATCTTCTTAT GCAGCAACAG 
    CAGCAGCATC TGCAGAACCA TCACCATGAT TCCATTAGCG ATCTATCCAA TGTGAGTTGT 
    GGTCCCAGCG AATCGAGTGA TGATGTTAAG GTGGTGGACA TGATGCTGTC ACATCCGACG 
    GGTGGCACTA CAAGCACGAG TAGCGTCAGT ACCGGCAGCA CAGTTACGGC TACCGGAGGT 
    TTTGCTCAAC GATCACCGTC AGGTTCGTCG ATTTCATCGC CATTGAGAAG TGGTTCTAGC 
    ACTAAGTTGA ATGGCGACTT CAACCGAAGT CGGGAAGACG TCAGTATAAT AGTTAATAAG 
    CGAAAAGTTG TGGAAAAGCA AAGGATTTCG CCCGACAGCA GTGTCGGATC GATGGATGGT 
    GGAGGTTCGG TACGATCGGC CAGTACACCG TTGCATCATC ACCTTCAACA ACAACAACAA 
    CCGCAACATC ACCAGCAGCA TGCGCCTAGC GGCAAACAGC TGGATCGTAG CGATGCCGAA 
    AGCATAGCAA CAACAACTAG TCACGACAGC CGCGAACAGT CGGTAGAAGA GGAAGTTCAA 
    CTTCGTCGAA AGCCTCCGCC CGCTGAAGTC GAAGAGGACA AGGTTCCGCC AATCGTCAAC 
    AGCAACGTCC GAACGAAGCC CAGCCAGCAG CAGCGGAATT TCAGCAAGGA AGAAATACAC 
    TTGCAAAATT TGAAGAAGAA AACGCGAAAA CGGACGCGAA AGTTTGAGAT CGACGGTGTT 
    CAAGTCACGA CCACCACCAG CAAGGTGATC TACAGCGATG AGGACAACAA CAAACTGTAC 
    GACGATCATC TGTTCCGCAA GCAGGAACTG CGGGAGCTCA AGATGCTCCA GAAGGCGGAG 
    AAGAAGCAGT TTTACGACCT GCAGCAGAAG GAAGCCATCG CCAAAGAGCA GCAGGAGAAG 
    AAATTCGAGC AGGAACGTCT TCAGCTGGAG CGAACGTTCG AGGCCGACAT GGACGTGTTG 
    GCGCGGCAGC ACCGGCAAAC GGTGGAAAAG TACGAACAGC AACAAGAGAC TGAACTTAGG 
    AATACCTCCA AGAAAATTCG TGCCGAACAG GAGCGAGATT TGAAATTGTT CCGCGACAGC 
    CTCAAGCAGG AAATCAGGCT GCTCAAGCAG GAAGTCGACC TCCTACCAAA AGAAAAGCGG 
    AAAGATGAAT TCCGGAAGCG TAAGACTGCG ATGGAAATCG AGCACGAAGA ACGAGAGAAG 
    AGTTTCCTGT CCACCCTGTC GGAGAACCAC GAGCTCGCTC TGCGACGGAT CAGTGAAATC 
    TATCGCGAGA AGCTTTCCGC TGCCGACAAA GGGTATTTGC AACAGAAGCA AACGGCGATG 
    AGAACTCGAG AGGCCATGCT TTGGGAGCTG GAGGAGAAGC ACATTCACGA CAAGCACCAA 
    CTGGCGAAGC GACACGTGAA GGACATCTGC TTCATGCAGC GACACCAAAT GATCATTCGC 
    CACGAAAAAG AATTGGATCA GATCAAGAGA ATGATTTCCC GCAAAGAAGA AGAACTGCTG 
    AAGCGACAAA CCATCGAAAG GCGAGCCTTG CCAAAGCGGA TACGGGCCGA GCGGAAAGCG 
    CGAGATATGA TGTTCCGCGA GTCGTTGCGA ATTTCGATGA CCACGGATCC GGAACTGGAA 
    CGGGAGAAGT TGAAGAAGTT CCAGGAGCAA GAGAAGAAAC GGTACAACCA GGAGCAGGCT 
    CGTTTCGAAA CGAAGCACAT GAAACAGCTG GAAGAGCTGC GAGCTACCTC AGACGGTTCC 
    ATTAGGGAGC TGGAACAGTT GCAAAACGAA AAGCGTAAAC AGCTGCTGGA GCATGAAAGT 
    GCCAAACTGC GCGAGTGCGA CGAAGCGCTA CAGAAGGAAC TGCGCGAGTG GAAATCGCAG 
    CTTTTGCCGA GGAAACAGCG CCTCGAGGAA ACCTTCGCTC AGCAGCACGA GGAAATGGAA 
    CAACTGTACG GCAACAGTGT GGTACCGATG CCACCGCAGT CTCCACAGGC GCATGATCTG 
    CTGCAAATTG GATCGACCCG AAGCAGTATT TCCTCCTACT CGGACGGCCT GGGGGCATGA

    The 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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