ORF » Species Summary » Amyelois transitella » LOC106137032 cDNA ORF clone

LOC106137032 cDNA ORF clone, Amyelois transitella

The following LOC106137032 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC106137032 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
OAm66674 XM_013337768.1
Latest version!		 Amyelois transitella probable serine/threonine-protein kinase DDB_G0282963 (LOC106137032), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OAm66674 XM_013337767.1
Latest version!		 Amyelois transitella probable serine/threonine-protein kinase DDB_G0282963 (LOC106137032), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OAm66675 XM_013337769.1
Latest version!		 Amyelois transitella probable serine/threonine-protein kinase DDB_G0282963 (LOC106137032), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OAm66676 XM_013337772.1
Latest version!		 Amyelois transitella probable serine/threonine-protein kinase DDB_G0282963 (LOC106137032), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OAm66676 XM_013337771.1
Latest version!		 Amyelois transitella probable serine/threonine-protein kinase DDB_G0282963 (LOC106137032), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OAm66676 XM_013337770.1
Latest version!		 Amyelois transitella probable serine/threonine-protein kinase DDB_G0282963 (LOC106137032), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00

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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)
    LOC106137032 ( XM_013337767.1 ) cDNA ORF clone, Amyelois transitella -> XP_013193221.1 Amyelois transitella probable serine/threonine-protein kinase DDB_G0282963 (LOC106137032), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OAm66674
    Clone ID Related Accession (Same CDS sequence) XM_013337767.1 , XM_013337768.1
    Accession Version XM_013337767.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4365bp)
    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 2015-08-05
    Organism Amyelois transitella
    Product probable serine/threonine-protein kinase DDB_G0282963 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_013535550.1) 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 :: Amyelois transitella Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 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
    ATGGATTCCT CAAAGGAATT TAGTTGTATA TTTTGTAAGG AGTCTTTTGA GAATAAAGAA 
    GAACTACAAA TACATTTCAG GAAACATGGG GATCCGAACT TCAATCAAAA TACGAAGACT 
    AAAGCAAAAT CCGATGATAC TAATGGGCAG AAATCTAAAG AAGGGGCCGA TATGATAAGT 
    TGTGACGTGT GTACGGAGTT GTTTCCGACG ATTTCTAAGG CAATAACTCA CAAGCACAAA 
    TTCCACCCAG ACCACGATGC GAAATACTTC TGCCCCTGGT GCGGGAAGCT GTTCACGATG 
    AAGCATTTAT ATAACAAACA TATTAGTACG AGTCATAATA ACAACGACCA GAATGCTGAT 
    GAAGAGTTCC CATGTGACTG TTGTAATGTT ACTTTCCATC TGTCATCAGC CATGTTGTAC 
    CATAATAAAT TCTTTCATAG GCAAGATACT GATCTGCCAT CTATAGGGCA GTCAAAGAAA 
    TTGAAAATGG CTGGACAGAT CTCATTGATG ATATATTATT GTCCCTTTTG TGGTCAGGAG 
    TATAACAACA AAGTCAATTT ACATAAACAC ATGAGTGACG ACCATAGTGA CGAAAACCAA 
    AGTCCTGATG ATGTGCTGCG ATGTCCACTC TGTGATGCTA TATTTTATCA TCTTGATGCT 
    TATGAACACC ATCTGTCTTT TCACAGTATT GATGACATGT ACAGTGAAAA GAATGACATG 
    GTAGAAAGTG TGACAGATTT TTCTCTTGAA GCTGTTCCAC CTGTAATGGA GAGAGTTGAG 
    AATCTGGAAC CCGAACCTAA CAACACACCT GATGGCGATG CTATGGGTCT GGACGATTTG 
    TTGCTAATGG CGATGAGCAA CCCTGTGGAT GAAGATAATC CAAAAAAGTC TAAAAAGCAT 
    AAGAAACACA AGAAATCTAA AAAAGCTGCA ATTACATTAG ATGAGTTTCT AAATATGAAT 
    AAAGATGTTT TTGGTGAAGG TATAGACTTT CAAGGAGTAG AAGAAGTGCC ATCACAAGTA 
    GTAGCAAAGA GGTTTAAAGT AAAAAATAAA GCAGCATCAA TACCCAAAAC TGGAACCAAA 
    ATGTCTCGTA TTGAACTGGA AAAATTGCGT AAACAGGGAA TTGTAATTAA AATGAAAGGT 
    TCTTCTGGGA AGAAACCAAT ACCAACTAGA GTTAAACAAA TGTGTAAAAC AAATGTCATT 
    GACTTGAACA CGCAAAACCG GTCTACTTCT GTTAATTCAT CCAATGAAGT ATTAACCAAG 
    CTGATTAATC AAAGTAATAA TCAAATAAAA ATAGTAAGAA AGCCTGCACC CACACTAAAC 
    GAGACAAATA GCTTTGATGA AAAACCTTCA TCTCCTGAAA ACATAGAAGT TGAATGTGAT 
    TTAATACAAA GATACACATC TTCCGAAACA GAAGGTGAAG ACAAATCTGA TATCAAAAAA 
    ATATCTAAAG AGGAAATAAG CTCTGGCATT GAAGACGACC ATTTAGAAAA ATCATCAAAT 
    AAAGTTGATA CTGCCAACTC TGATAACCCT ACTTTTGAAC CTAATCATAA TTCGCAGATT 
    GGTGATTGTA ACATCAAGAA TAATGCTAAT CAAAGTACTC CCGATCATGA CAAAAATAAA 
    GATAGTAATA TTAATAACTC TCTGAAGTCT TTGAAAAATG TTAACCAGCA CCTAACTGTC 
    AAACCTGTGA TTACTTCAGT AAAAACCAAC TGCAATCCTA AACATGAAAC ATTAACAAAT 
    GAGAGTTTTG ACAACACGGT CATAACGAAA CAAAGCGAAC CTTCCGAAAA AGAAACTTCA 
    GAAAAAGGTA AAGACAAACC TCTAAATGCA TTAAAACATT TGAGTCATCT TATTACAATT 
    AAATCAGTAT CACAGACTAC AAATGATAAG CTGCTATCAC AGATAAAAAG AAGAAATTCT 
    TTTCATGAAG ATGACTCTCT TGGGGATTCT AAAACGAATT CCGACGAAGA CGATTCGTCT 
    TTAGCGTCAC GTAATGAACT ACCTTCACCG ACGCCAGAAC CAAAACAAAC GCCCGTGGAA 
    TCAATAACTG CTTTCAAGAA ATTAAACAGC AATGTCACTG TAAAAGCAAT GAAGAGTACA 
    ATTCAGCCCT CTCAGGCACA AATGCCAGAA TTCTCAGACG AAGAAGAAAA AAGCATTAAT 
    CCACCAGCAA AAATAAATTT GAACAATCAA CATGTCATGA GGTCTTTGTC TACAATACCA 
    CAAAAAATTG GAATAGATCC AGCCTTATCA ACTAAAGGCA GAATAAAAGA TACTAATGTT 
    GCTGCTGAAG ACAGAACAAA TATTCAATCA AATGTTAATC TTTTAAGAAA ACTTAAAAAT 
    GTTACTGCTA AACCAATAAA TTCCCAAAAT GCTCAAATAA ATAAATTTAA GTCACCAATG 
    AACCGAAATA GAACAGAAAC ACAGGTTGGA AACAATGAAG AAGGAAATAA AGAAATTGAA 
    ATTTATAATA TTGATGACTC TGACAGTGAT AATTCTGAAG ACACTTTACC AAGAGACACA 
    ATGATCAAAT CAGATGTTTC TAAGAATGAA ACTAATAACA TTAATTGTAA TGTATTAAAA 
    AAATTGAGTA AACATTTAAC CATAAAGCCA ACTAATCAAA AATCTCCACA AATTAATGTT 
    AAATCAGAAC CTGATCAAGA CGAATTTTCA GATTATTCTC AAGAAAATTC CGAAAAATAT 
    GCAGAAAAAT GCAAAGTAAC TTTAAATAAA ACAAACGAAA TTCTTAAAAA TACGCTAAAG 
    AACTTAAGTA AAAATGTTAC AGTAAAGTCA AGAAACTCTT CCCCAAATGC GACAGTTACA 
    ACCCATAACA TCAAAAACCA AGATTATAAT GGCGAATGTA AAGACGACAG CGAAAACGAC 
    ATTCGTCCAG GTCAAGTCAA AATCACTGAA GTTGACGATG AATACAATGG TCCAAGTGAT 
    AATGACGATT TTGACGAAGA TTTTACTGAC AATCCAATAG TTCAATCACC TCACGATTCA 
    TACAGTGATG ATGATATTGA TTTTTCTCAA AAATCCCAGG AAGAGTTGGA TGATATTGAA 
    AGCAAAATAC ATGCCAATAC AGTCAGTAAA ATCGAAACCA GTCATAATGA AAATTCAAAA 
    AATATTGGTA AAGGTATTAC CATCAAATCG CTAAGCGAGA AAACGTCTCA GTCGCATTCA 
    GAGACAGTTA ATACAACAAA AGGAAATGCA ACTATGCCTG CCAATCTTAG CAAAGAACTA 
    TCAATAAAAC CATTCAAACA GGGTAATACA TGTGACAATG TGAGCCAACA CCCCGTTAAA 
    CTGAACCCAC AAACAACAAA CAAAATCAAC AGATCAACAG GACAAATAGC CCGTTGTAAA 
    AGTCAATTAT CGAACCAAAC CACATCGTCA ACTGACCAGA CAAATATAGT AAACAAGGAA 
    GTGACAGTCA AAACATTTCA AACAAAGACT GTCATTCAGG AAATAACTAC AACTGTTACA 
    AAAACTATCA AAACTGTAAA CCAAAGTGTT CAGCAAGAGT TTCATACTGC CAATCAGTCA 
    TGTACCCAAA ATGTATTTAG AAAAGTACAA GGCATGCGGC CGCCAGTTCA ACAGCCCACT 
    AAGAACTACC AAGGTGTAGT AGTCAGACAT GCCGCGCCAA TTATGGGCAC TAAAGTCAAA 
    AATCCTGTGA CCCCTTTAAG ACCAACGAGA CCACCCGCTA CAGTTTCTAA TCAACTAGTA 
    CCTGTCAGGC AAGGTACACC TATGAACGTA AGGCCTCATA CACCAAGGTT GCCTACAGTA 
    AGAAGTAGTG CACCATCAAA CTTTACAAAA ACCTCAACTC CAGTTAAAAT GTCGCCTAAT 
    GTCGTAAATA ATTCTACTAA AAAGAAACCA GTTACACAAG AAGCAAAAGG TCCATTTAGT 
    TGTTTCAAAA AACCCAAACA ATCATTGATA CCCGTATCTG AATTCTCAGG CGTCAGCAGT 
    GGAGAAGACG ACTCTATAAA CTTTGCTACG ACTACACGTG TGAATAAGTC TAATGTTATA 
    AATATGGCAA AGACAATGAA AGGTAATACA ATTGTTAGTT CAACACAAAT GAAATCTGAA 
    GTAAGTTCCT GTTCACAACA GCTAAGCAAG CTAAACAATG TGACAGGATT AAAAATAGTT 
    AAGACTAGTC AAGTAAAACA AGTTTCTCAA ATGGAGGAAA AGCAAGACAT TAGTCCTACC 
    AAGAGAAATA CACTGGAAGC CATAGAAAAA TTACAGAAGC AAGGATTGTT GGTTAAAAAG 
    CCTCGTCTCG AAGCAAACGA AGAGAGCGGA TTTTCTGATG AGGATGACTG TGAGGGTGAC 
    GGTGACGACC CCATGGAAGA GTACAACGAT TTCGATGACG ACTGA

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

    RefSeq XP_013193221.1
    CDS212..4576
    Translation

    Target ORF information:

    RefSeq Version XM_013337767.1
    Organism Amyelois transitella
    Definition Amyelois transitella probable serine/threonine-protein kinase DDB_G0282963 (LOC106137032), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_013337767.1

    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
    ATGGATTCCT CAAAGGAATT TAGTTGTATA TTTTGTAAGG AGTCTTTTGA GAATAAAGAA 
    GAACTACAAA TACATTTCAG GAAACATGGG GATCCGAACT TCAATCAAAA TACGAAGACT 
    AAAGCAAAAT CCGATGATAC TAATGGGCAG AAATCTAAAG AAGGGGCCGA TATGATAAGT 
    TGTGACGTGT GTACGGAGTT GTTTCCGACG ATTTCTAAGG CAATAACTCA CAAGCACAAA 
    TTCCACCCAG ACCACGATGC GAAATACTTC TGCCCCTGGT GCGGGAAGCT GTTCACGATG 
    AAGCATTTAT ATAACAAACA TATTAGTACG AGTCATAATA ACAACGACCA GAATGCTGAT 
    GAAGAGTTCC CATGTGACTG TTGTAATGTT ACTTTCCATC TGTCATCAGC CATGTTGTAC 
    CATAATAAAT TCTTTCATAG GCAAGATACT GATCTGCCAT CTATAGGGCA GTCAAAGAAA 
    TTGAAAATGG CTGGACAGAT CTCATTGATG ATATATTATT GTCCCTTTTG TGGTCAGGAG 
    TATAACAACA AAGTCAATTT ACATAAACAC ATGAGTGACG ACCATAGTGA CGAAAACCAA 
    AGTCCTGATG ATGTGCTGCG ATGTCCACTC TGTGATGCTA TATTTTATCA TCTTGATGCT 
    TATGAACACC ATCTGTCTTT TCACAGTATT GATGACATGT ACAGTGAAAA GAATGACATG 
    GTAGAAAGTG TGACAGATTT TTCTCTTGAA GCTGTTCCAC CTGTAATGGA GAGAGTTGAG 
    AATCTGGAAC CCGAACCTAA CAACACACCT GATGGCGATG CTATGGGTCT GGACGATTTG 
    TTGCTAATGG CGATGAGCAA CCCTGTGGAT GAAGATAATC CAAAAAAGTC TAAAAAGCAT 
    AAGAAACACA AGAAATCTAA AAAAGCTGCA ATTACATTAG ATGAGTTTCT AAATATGAAT 
    AAAGATGTTT TTGGTGAAGG TATAGACTTT CAAGGAGTAG AAGAAGTGCC ATCACAAGTA 
    GTAGCAAAGA GGTTTAAAGT AAAAAATAAA GCAGCATCAA TACCCAAAAC TGGAACCAAA 
    ATGTCTCGTA TTGAACTGGA AAAATTGCGT AAACAGGGAA TTGTAATTAA AATGAAAGGT 
    TCTTCTGGGA AGAAACCAAT ACCAACTAGA GTTAAACAAA TGTGTAAAAC AAATGTCATT 
    GACTTGAACA CGCAAAACCG GTCTACTTCT GTTAATTCAT CCAATGAAGT ATTAACCAAG 
    CTGATTAATC AAAGTAATAA TCAAATAAAA ATAGTAAGAA AGCCTGCACC CACACTAAAC 
    GAGACAAATA GCTTTGATGA AAAACCTTCA TCTCCTGAAA ACATAGAAGT TGAATGTGAT 
    TTAATACAAA GATACACATC TTCCGAAACA GAAGGTGAAG ACAAATCTGA TATCAAAAAA 
    ATATCTAAAG AGGAAATAAG CTCTGGCATT GAAGACGACC ATTTAGAAAA ATCATCAAAT 
    AAAGTTGATA CTGCCAACTC TGATAACCCT ACTTTTGAAC CTAATCATAA TTCGCAGATT 
    GGTGATTGTA ACATCAAGAA TAATGCTAAT CAAAGTACTC CCGATCATGA CAAAAATAAA 
    GATAGTAATA TTAATAACTC TCTGAAGTCT TTGAAAAATG TTAACCAGCA CCTAACTGTC 
    AAACCTGTGA TTACTTCAGT AAAAACCAAC TGCAATCCTA AACATGAAAC ATTAACAAAT 
    GAGAGTTTTG ACAACACGGT CATAACGAAA CAAAGCGAAC CTTCCGAAAA AGAAACTTCA 
    GAAAAAGGTA AAGACAAACC TCTAAATGCA TTAAAACATT TGAGTCATCT TATTACAATT 
    AAATCAGTAT CACAGACTAC AAATGATAAG CTGCTATCAC AGATAAAAAG AAGAAATTCT 
    TTTCATGAAG ATGACTCTCT TGGGGATTCT AAAACGAATT CCGACGAAGA CGATTCGTCT 
    TTAGCGTCAC GTAATGAACT ACCTTCACCG ACGCCAGAAC CAAAACAAAC GCCCGTGGAA 
    TCAATAACTG CTTTCAAGAA ATTAAACAGC AATGTCACTG TAAAAGCAAT GAAGAGTACA 
    ATTCAGCCCT CTCAGGCACA AATGCCAGAA TTCTCAGACG AAGAAGAAAA AAGCATTAAT 
    CCACCAGCAA AAATAAATTT GAACAATCAA CATGTCATGA GGTCTTTGTC TACAATACCA 
    CAAAAAATTG GAATAGATCC AGCCTTATCA ACTAAAGGCA GAATAAAAGA TACTAATGTT 
    GCTGCTGAAG ACAGAACAAA TATTCAATCA AATGTTAATC TTTTAAGAAA ACTTAAAAAT 
    GTTACTGCTA AACCAATAAA TTCCCAAAAT GCTCAAATAA ATAAATTTAA GTCACCAATG 
    AACCGAAATA GAACAGAAAC ACAGGTTGGA AACAATGAAG AAGGAAATAA AGAAATTGAA 
    ATTTATAATA TTGATGACTC TGACAGTGAT AATTCTGAAG ACACTTTACC AAGAGACACA 
    ATGATCAAAT CAGATGTTTC TAAGAATGAA ACTAATAACA TTAATTGTAA TGTATTAAAA 
    AAATTGAGTA AACATTTAAC CATAAAGCCA ACTAATCAAA AATCTCCACA AATTAATGTT 
    AAATCAGAAC CTGATCAAGA CGAATTTTCA GATTATTCTC AAGAAAATTC CGAAAAATAT 
    GCAGAAAAAT GCAAAGTAAC TTTAAATAAA ACAAACGAAA TTCTTAAAAA TACGCTAAAG 
    AACTTAAGTA AAAATGTTAC AGTAAAGTCA AGAAACTCTT CCCCAAATGC GACAGTTACA 
    ACCCATAACA TCAAAAACCA AGATTATAAT GGCGAATGTA AAGACGACAG CGAAAACGAC 
    ATTCGTCCAG GTCAAGTCAA AATCACTGAA GTTGACGATG AATACAATGG TCCAAGTGAT 
    AATGACGATT TTGACGAAGA TTTTACTGAC AATCCAATAG TTCAATCACC TCACGATTCA 
    TACAGTGATG ATGATATTGA TTTTTCTCAA AAATCCCAGG AAGAGTTGGA TGATATTGAA 
    AGCAAAATAC ATGCCAATAC AGTCAGTAAA ATCGAAACCA GTCATAATGA AAATTCAAAA 
    AATATTGGTA AAGGTATTAC CATCAAATCG CTAAGCGAGA AAACGTCTCA GTCGCATTCA 
    GAGACAGTTA ATACAACAAA AGGAAATGCA ACTATGCCTG CCAATCTTAG CAAAGAACTA 
    TCAATAAAAC CATTCAAACA GGGTAATACA TGTGACAATG TGAGCCAACA CCCCGTTAAA 
    CTGAACCCAC AAACAACAAA CAAAATCAAC AGATCAACAG GACAAATAGC CCGTTGTAAA 
    AGTCAATTAT CGAACCAAAC CACATCGTCA ACTGACCAGA CAAATATAGT AAACAAGGAA 
    GTGACAGTCA AAACATTTCA AACAAAGACT GTCATTCAGG AAATAACTAC AACTGTTACA 
    AAAACTATCA AAACTGTAAA CCAAAGTGTT CAGCAAGAGT TTCATACTGC CAATCAGTCA 
    TGTACCCAAA ATGTATTTAG AAAAGTACAA GGCATGCGGC CGCCAGTTCA ACAGCCCACT 
    AAGAACTACC AAGGTGTAGT AGTCAGACAT GCCGCGCCAA TTATGGGCAC TAAAGTCAAA 
    AATCCTGTGA CCCCTTTAAG ACCAACGAGA CCACCCGCTA CAGTTTCTAA TCAACTAGTA 
    CCTGTCAGGC AAGGTACACC TATGAACGTA AGGCCTCATA CACCAAGGTT GCCTACAGTA 
    AGAAGTAGTG CACCATCAAA CTTTACAAAA ACCTCAACTC CAGTTAAAAT GTCGCCTAAT 
    GTCGTAAATA ATTCTACTAA AAAGAAACCA GTTACACAAG AAGCAAAAGG TCCATTTAGT 
    TGTTTCAAAA AACCCAAACA ATCATTGATA CCCGTATCTG AATTCTCAGG CGTCAGCAGT 
    GGAGAAGACG ACTCTATAAA CTTTGCTACG ACTACACGTG TGAATAAGTC TAATGTTATA 
    AATATGGCAA AGACAATGAA AGGTAATACA ATTGTTAGTT CAACACAAAT GAAATCTGAA 
    GTAAGTTCCT GTTCACAACA GCTAAGCAAG CTAAACAATG TGACAGGATT AAAAATAGTT 
    AAGACTAGTC AAGTAAAACA AGTTTCTCAA ATGGAGGAAA AGCAAGACAT TAGTCCTACC 
    AAGAGAAATA CACTGGAAGC CATAGAAAAA TTACAGAAGC AAGGATTGTT GGTTAAAAAG 
    CCTCGTCTCG AAGCAAACGA AGAGAGCGGA TTTTCTGATG AGGATGACTG TGAGGGTGAC 
    GGTGACGACC CCATGGAAGA GTACAACGAT TTCGATGACG ACTGA

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

    LOC106137032 ( XM_013337768.1 ) cDNA ORF clone, Amyelois transitella -> XP_013193222.1 Amyelois transitella probable serine/threonine-protein kinase DDB_G0282963 (LOC106137032), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OAm66674
    Clone ID Related Accession (Same CDS sequence) XM_013337767.1 , XM_013337768.1
    Accession Version XM_013337768.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4365bp)
    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 2015-08-05
    Organism Amyelois transitella
    Product probable serine/threonine-protein kinase DDB_G0282963 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_013535550.1) 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 :: Amyelois transitella Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 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
    ATGGATTCCT CAAAGGAATT TAGTTGTATA TTTTGTAAGG AGTCTTTTGA GAATAAAGAA 
    GAACTACAAA TACATTTCAG GAAACATGGG GATCCGAACT TCAATCAAAA TACGAAGACT 
    AAAGCAAAAT CCGATGATAC TAATGGGCAG AAATCTAAAG AAGGGGCCGA TATGATAAGT 
    TGTGACGTGT GTACGGAGTT GTTTCCGACG ATTTCTAAGG CAATAACTCA CAAGCACAAA 
    TTCCACCCAG ACCACGATGC GAAATACTTC TGCCCCTGGT GCGGGAAGCT GTTCACGATG 
    AAGCATTTAT ATAACAAACA TATTAGTACG AGTCATAATA ACAACGACCA GAATGCTGAT 
    GAAGAGTTCC CATGTGACTG TTGTAATGTT ACTTTCCATC TGTCATCAGC CATGTTGTAC 
    CATAATAAAT TCTTTCATAG GCAAGATACT GATCTGCCAT CTATAGGGCA GTCAAAGAAA 
    TTGAAAATGG CTGGACAGAT CTCATTGATG ATATATTATT GTCCCTTTTG TGGTCAGGAG 
    TATAACAACA AAGTCAATTT ACATAAACAC ATGAGTGACG ACCATAGTGA CGAAAACCAA 
    AGTCCTGATG ATGTGCTGCG ATGTCCACTC TGTGATGCTA TATTTTATCA TCTTGATGCT 
    TATGAACACC ATCTGTCTTT TCACAGTATT GATGACATGT ACAGTGAAAA GAATGACATG 
    GTAGAAAGTG TGACAGATTT TTCTCTTGAA GCTGTTCCAC CTGTAATGGA GAGAGTTGAG 
    AATCTGGAAC CCGAACCTAA CAACACACCT GATGGCGATG CTATGGGTCT GGACGATTTG 
    TTGCTAATGG CGATGAGCAA CCCTGTGGAT GAAGATAATC CAAAAAAGTC TAAAAAGCAT 
    AAGAAACACA AGAAATCTAA AAAAGCTGCA ATTACATTAG ATGAGTTTCT AAATATGAAT 
    AAAGATGTTT TTGGTGAAGG TATAGACTTT CAAGGAGTAG AAGAAGTGCC ATCACAAGTA 
    GTAGCAAAGA GGTTTAAAGT AAAAAATAAA GCAGCATCAA TACCCAAAAC TGGAACCAAA 
    ATGTCTCGTA TTGAACTGGA AAAATTGCGT AAACAGGGAA TTGTAATTAA AATGAAAGGT 
    TCTTCTGGGA AGAAACCAAT ACCAACTAGA GTTAAACAAA TGTGTAAAAC AAATGTCATT 
    GACTTGAACA CGCAAAACCG GTCTACTTCT GTTAATTCAT CCAATGAAGT ATTAACCAAG 
    CTGATTAATC AAAGTAATAA TCAAATAAAA ATAGTAAGAA AGCCTGCACC CACACTAAAC 
    GAGACAAATA GCTTTGATGA AAAACCTTCA TCTCCTGAAA ACATAGAAGT TGAATGTGAT 
    TTAATACAAA GATACACATC TTCCGAAACA GAAGGTGAAG ACAAATCTGA TATCAAAAAA 
    ATATCTAAAG AGGAAATAAG CTCTGGCATT GAAGACGACC ATTTAGAAAA ATCATCAAAT 
    AAAGTTGATA CTGCCAACTC TGATAACCCT ACTTTTGAAC CTAATCATAA TTCGCAGATT 
    GGTGATTGTA ACATCAAGAA TAATGCTAAT CAAAGTACTC CCGATCATGA CAAAAATAAA 
    GATAGTAATA TTAATAACTC TCTGAAGTCT TTGAAAAATG TTAACCAGCA CCTAACTGTC 
    AAACCTGTGA TTACTTCAGT AAAAACCAAC TGCAATCCTA AACATGAAAC ATTAACAAAT 
    GAGAGTTTTG ACAACACGGT CATAACGAAA CAAAGCGAAC CTTCCGAAAA AGAAACTTCA 
    GAAAAAGGTA AAGACAAACC TCTAAATGCA TTAAAACATT TGAGTCATCT TATTACAATT 
    AAATCAGTAT CACAGACTAC AAATGATAAG CTGCTATCAC AGATAAAAAG AAGAAATTCT 
    TTTCATGAAG ATGACTCTCT TGGGGATTCT AAAACGAATT CCGACGAAGA CGATTCGTCT 
    TTAGCGTCAC GTAATGAACT ACCTTCACCG ACGCCAGAAC CAAAACAAAC GCCCGTGGAA 
    TCAATAACTG CTTTCAAGAA ATTAAACAGC AATGTCACTG TAAAAGCAAT GAAGAGTACA 
    ATTCAGCCCT CTCAGGCACA AATGCCAGAA TTCTCAGACG AAGAAGAAAA AAGCATTAAT 
    CCACCAGCAA AAATAAATTT GAACAATCAA CATGTCATGA GGTCTTTGTC TACAATACCA 
    CAAAAAATTG GAATAGATCC AGCCTTATCA ACTAAAGGCA GAATAAAAGA TACTAATGTT 
    GCTGCTGAAG ACAGAACAAA TATTCAATCA AATGTTAATC TTTTAAGAAA ACTTAAAAAT 
    GTTACTGCTA AACCAATAAA TTCCCAAAAT GCTCAAATAA ATAAATTTAA GTCACCAATG 
    AACCGAAATA GAACAGAAAC ACAGGTTGGA AACAATGAAG AAGGAAATAA AGAAATTGAA 
    ATTTATAATA TTGATGACTC TGACAGTGAT AATTCTGAAG ACACTTTACC AAGAGACACA 
    ATGATCAAAT CAGATGTTTC TAAGAATGAA ACTAATAACA TTAATTGTAA TGTATTAAAA 
    AAATTGAGTA AACATTTAAC CATAAAGCCA ACTAATCAAA AATCTCCACA AATTAATGTT 
    AAATCAGAAC CTGATCAAGA CGAATTTTCA GATTATTCTC AAGAAAATTC CGAAAAATAT 
    GCAGAAAAAT GCAAAGTAAC TTTAAATAAA ACAAACGAAA TTCTTAAAAA TACGCTAAAG 
    AACTTAAGTA AAAATGTTAC AGTAAAGTCA AGAAACTCTT CCCCAAATGC GACAGTTACA 
    ACCCATAACA TCAAAAACCA AGATTATAAT GGCGAATGTA AAGACGACAG CGAAAACGAC 
    ATTCGTCCAG GTCAAGTCAA AATCACTGAA GTTGACGATG AATACAATGG TCCAAGTGAT 
    AATGACGATT TTGACGAAGA TTTTACTGAC AATCCAATAG TTCAATCACC TCACGATTCA 
    TACAGTGATG ATGATATTGA TTTTTCTCAA AAATCCCAGG AAGAGTTGGA TGATATTGAA 
    AGCAAAATAC ATGCCAATAC AGTCAGTAAA ATCGAAACCA GTCATAATGA AAATTCAAAA 
    AATATTGGTA AAGGTATTAC CATCAAATCG CTAAGCGAGA AAACGTCTCA GTCGCATTCA 
    GAGACAGTTA ATACAACAAA AGGAAATGCA ACTATGCCTG CCAATCTTAG CAAAGAACTA 
    TCAATAAAAC CATTCAAACA GGGTAATACA TGTGACAATG TGAGCCAACA CCCCGTTAAA 
    CTGAACCCAC AAACAACAAA CAAAATCAAC AGATCAACAG GACAAATAGC CCGTTGTAAA 
    AGTCAATTAT CGAACCAAAC CACATCGTCA ACTGACCAGA CAAATATAGT AAACAAGGAA 
    GTGACAGTCA AAACATTTCA AACAAAGACT GTCATTCAGG AAATAACTAC AACTGTTACA 
    AAAACTATCA AAACTGTAAA CCAAAGTGTT CAGCAAGAGT TTCATACTGC CAATCAGTCA 
    TGTACCCAAA ATGTATTTAG AAAAGTACAA GGCATGCGGC CGCCAGTTCA ACAGCCCACT 
    AAGAACTACC AAGGTGTAGT AGTCAGACAT GCCGCGCCAA TTATGGGCAC TAAAGTCAAA 
    AATCCTGTGA CCCCTTTAAG ACCAACGAGA CCACCCGCTA CAGTTTCTAA TCAACTAGTA 
    CCTGTCAGGC AAGGTACACC TATGAACGTA AGGCCTCATA CACCAAGGTT GCCTACAGTA 
    AGAAGTAGTG CACCATCAAA CTTTACAAAA ACCTCAACTC CAGTTAAAAT GTCGCCTAAT 
    GTCGTAAATA ATTCTACTAA AAAGAAACCA GTTACACAAG AAGCAAAAGG TCCATTTAGT 
    TGTTTCAAAA AACCCAAACA ATCATTGATA CCCGTATCTG AATTCTCAGG CGTCAGCAGT 
    GGAGAAGACG ACTCTATAAA CTTTGCTACG ACTACACGTG TGAATAAGTC TAATGTTATA 
    AATATGGCAA AGACAATGAA AGGTAATACA ATTGTTAGTT CAACACAAAT GAAATCTGAA 
    GTAAGTTCCT GTTCACAACA GCTAAGCAAG CTAAACAATG TGACAGGATT AAAAATAGTT 
    AAGACTAGTC AAGTAAAACA AGTTTCTCAA ATGGAGGAAA AGCAAGACAT TAGTCCTACC 
    AAGAGAAATA CACTGGAAGC CATAGAAAAA TTACAGAAGC AAGGATTGTT GGTTAAAAAG 
    CCTCGTCTCG AAGCAAACGA AGAGAGCGGA TTTTCTGATG AGGATGACTG TGAGGGTGAC 
    GGTGACGACC CCATGGAAGA GTACAACGAT TTCGATGACG ACTGA

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

    RefSeq XP_013193222.1
    CDS124..4488
    Translation

    Target ORF information:

    RefSeq Version XM_013337768.1
    Organism Amyelois transitella
    Definition Amyelois transitella probable serine/threonine-protein kinase DDB_G0282963 (LOC106137032), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_013337768.1

    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
    ATGGATTCCT CAAAGGAATT TAGTTGTATA TTTTGTAAGG AGTCTTTTGA GAATAAAGAA 
    GAACTACAAA TACATTTCAG GAAACATGGG GATCCGAACT TCAATCAAAA TACGAAGACT 
    AAAGCAAAAT CCGATGATAC TAATGGGCAG AAATCTAAAG AAGGGGCCGA TATGATAAGT 
    TGTGACGTGT GTACGGAGTT GTTTCCGACG ATTTCTAAGG CAATAACTCA CAAGCACAAA 
    TTCCACCCAG ACCACGATGC GAAATACTTC TGCCCCTGGT GCGGGAAGCT GTTCACGATG 
    AAGCATTTAT ATAACAAACA TATTAGTACG AGTCATAATA ACAACGACCA GAATGCTGAT 
    GAAGAGTTCC CATGTGACTG TTGTAATGTT ACTTTCCATC TGTCATCAGC CATGTTGTAC 
    CATAATAAAT TCTTTCATAG GCAAGATACT GATCTGCCAT CTATAGGGCA GTCAAAGAAA 
    TTGAAAATGG CTGGACAGAT CTCATTGATG ATATATTATT GTCCCTTTTG TGGTCAGGAG 
    TATAACAACA AAGTCAATTT ACATAAACAC ATGAGTGACG ACCATAGTGA CGAAAACCAA 
    AGTCCTGATG ATGTGCTGCG ATGTCCACTC TGTGATGCTA TATTTTATCA TCTTGATGCT 
    TATGAACACC ATCTGTCTTT TCACAGTATT GATGACATGT ACAGTGAAAA GAATGACATG 
    GTAGAAAGTG TGACAGATTT TTCTCTTGAA GCTGTTCCAC CTGTAATGGA GAGAGTTGAG 
    AATCTGGAAC CCGAACCTAA CAACACACCT GATGGCGATG CTATGGGTCT GGACGATTTG 
    TTGCTAATGG CGATGAGCAA CCCTGTGGAT GAAGATAATC CAAAAAAGTC TAAAAAGCAT 
    AAGAAACACA AGAAATCTAA AAAAGCTGCA ATTACATTAG ATGAGTTTCT AAATATGAAT 
    AAAGATGTTT TTGGTGAAGG TATAGACTTT CAAGGAGTAG AAGAAGTGCC ATCACAAGTA 
    GTAGCAAAGA GGTTTAAAGT AAAAAATAAA GCAGCATCAA TACCCAAAAC TGGAACCAAA 
    ATGTCTCGTA TTGAACTGGA AAAATTGCGT AAACAGGGAA TTGTAATTAA AATGAAAGGT 
    TCTTCTGGGA AGAAACCAAT ACCAACTAGA GTTAAACAAA TGTGTAAAAC AAATGTCATT 
    GACTTGAACA CGCAAAACCG GTCTACTTCT GTTAATTCAT CCAATGAAGT ATTAACCAAG 
    CTGATTAATC AAAGTAATAA TCAAATAAAA ATAGTAAGAA AGCCTGCACC CACACTAAAC 
    GAGACAAATA GCTTTGATGA AAAACCTTCA TCTCCTGAAA ACATAGAAGT TGAATGTGAT 
    TTAATACAAA GATACACATC TTCCGAAACA GAAGGTGAAG ACAAATCTGA TATCAAAAAA 
    ATATCTAAAG AGGAAATAAG CTCTGGCATT GAAGACGACC ATTTAGAAAA ATCATCAAAT 
    AAAGTTGATA CTGCCAACTC TGATAACCCT ACTTTTGAAC CTAATCATAA TTCGCAGATT 
    GGTGATTGTA ACATCAAGAA TAATGCTAAT CAAAGTACTC CCGATCATGA CAAAAATAAA 
    GATAGTAATA TTAATAACTC TCTGAAGTCT TTGAAAAATG TTAACCAGCA CCTAACTGTC 
    AAACCTGTGA TTACTTCAGT AAAAACCAAC TGCAATCCTA AACATGAAAC ATTAACAAAT 
    GAGAGTTTTG ACAACACGGT CATAACGAAA CAAAGCGAAC CTTCCGAAAA AGAAACTTCA 
    GAAAAAGGTA AAGACAAACC TCTAAATGCA TTAAAACATT TGAGTCATCT TATTACAATT 
    AAATCAGTAT CACAGACTAC AAATGATAAG CTGCTATCAC AGATAAAAAG AAGAAATTCT 
    TTTCATGAAG ATGACTCTCT TGGGGATTCT AAAACGAATT CCGACGAAGA CGATTCGTCT 
    TTAGCGTCAC GTAATGAACT ACCTTCACCG ACGCCAGAAC CAAAACAAAC GCCCGTGGAA 
    TCAATAACTG CTTTCAAGAA ATTAAACAGC AATGTCACTG TAAAAGCAAT GAAGAGTACA 
    ATTCAGCCCT CTCAGGCACA AATGCCAGAA TTCTCAGACG AAGAAGAAAA AAGCATTAAT 
    CCACCAGCAA AAATAAATTT GAACAATCAA CATGTCATGA GGTCTTTGTC TACAATACCA 
    CAAAAAATTG GAATAGATCC AGCCTTATCA ACTAAAGGCA GAATAAAAGA TACTAATGTT 
    GCTGCTGAAG ACAGAACAAA TATTCAATCA AATGTTAATC TTTTAAGAAA ACTTAAAAAT 
    GTTACTGCTA AACCAATAAA TTCCCAAAAT GCTCAAATAA ATAAATTTAA GTCACCAATG 
    AACCGAAATA GAACAGAAAC ACAGGTTGGA AACAATGAAG AAGGAAATAA AGAAATTGAA 
    ATTTATAATA TTGATGACTC TGACAGTGAT AATTCTGAAG ACACTTTACC AAGAGACACA 
    ATGATCAAAT CAGATGTTTC TAAGAATGAA ACTAATAACA TTAATTGTAA TGTATTAAAA 
    AAATTGAGTA AACATTTAAC CATAAAGCCA ACTAATCAAA AATCTCCACA AATTAATGTT 
    AAATCAGAAC CTGATCAAGA CGAATTTTCA GATTATTCTC AAGAAAATTC CGAAAAATAT 
    GCAGAAAAAT GCAAAGTAAC TTTAAATAAA ACAAACGAAA TTCTTAAAAA TACGCTAAAG 
    AACTTAAGTA AAAATGTTAC AGTAAAGTCA AGAAACTCTT CCCCAAATGC GACAGTTACA 
    ACCCATAACA TCAAAAACCA AGATTATAAT GGCGAATGTA AAGACGACAG CGAAAACGAC 
    ATTCGTCCAG GTCAAGTCAA AATCACTGAA GTTGACGATG AATACAATGG TCCAAGTGAT 
    AATGACGATT TTGACGAAGA TTTTACTGAC AATCCAATAG TTCAATCACC TCACGATTCA 
    TACAGTGATG ATGATATTGA TTTTTCTCAA AAATCCCAGG AAGAGTTGGA TGATATTGAA 
    AGCAAAATAC ATGCCAATAC AGTCAGTAAA ATCGAAACCA GTCATAATGA AAATTCAAAA 
    AATATTGGTA AAGGTATTAC CATCAAATCG CTAAGCGAGA AAACGTCTCA GTCGCATTCA 
    GAGACAGTTA ATACAACAAA AGGAAATGCA ACTATGCCTG CCAATCTTAG CAAAGAACTA 
    TCAATAAAAC CATTCAAACA GGGTAATACA TGTGACAATG TGAGCCAACA CCCCGTTAAA 
    CTGAACCCAC AAACAACAAA CAAAATCAAC AGATCAACAG GACAAATAGC CCGTTGTAAA 
    AGTCAATTAT CGAACCAAAC CACATCGTCA ACTGACCAGA CAAATATAGT AAACAAGGAA 
    GTGACAGTCA AAACATTTCA AACAAAGACT GTCATTCAGG AAATAACTAC AACTGTTACA 
    AAAACTATCA AAACTGTAAA CCAAAGTGTT CAGCAAGAGT TTCATACTGC CAATCAGTCA 
    TGTACCCAAA ATGTATTTAG AAAAGTACAA GGCATGCGGC CGCCAGTTCA ACAGCCCACT 
    AAGAACTACC AAGGTGTAGT AGTCAGACAT GCCGCGCCAA TTATGGGCAC TAAAGTCAAA 
    AATCCTGTGA CCCCTTTAAG ACCAACGAGA CCACCCGCTA CAGTTTCTAA TCAACTAGTA 
    CCTGTCAGGC AAGGTACACC TATGAACGTA AGGCCTCATA CACCAAGGTT GCCTACAGTA 
    AGAAGTAGTG CACCATCAAA CTTTACAAAA ACCTCAACTC CAGTTAAAAT GTCGCCTAAT 
    GTCGTAAATA ATTCTACTAA AAAGAAACCA GTTACACAAG AAGCAAAAGG TCCATTTAGT 
    TGTTTCAAAA AACCCAAACA ATCATTGATA CCCGTATCTG AATTCTCAGG CGTCAGCAGT 
    GGAGAAGACG ACTCTATAAA CTTTGCTACG ACTACACGTG TGAATAAGTC TAATGTTATA 
    AATATGGCAA AGACAATGAA AGGTAATACA ATTGTTAGTT CAACACAAAT GAAATCTGAA 
    GTAAGTTCCT GTTCACAACA GCTAAGCAAG CTAAACAATG TGACAGGATT AAAAATAGTT 
    AAGACTAGTC AAGTAAAACA AGTTTCTCAA ATGGAGGAAA AGCAAGACAT TAGTCCTACC 
    AAGAGAAATA CACTGGAAGC CATAGAAAAA TTACAGAAGC AAGGATTGTT GGTTAAAAAG 
    CCTCGTCTCG AAGCAAACGA AGAGAGCGGA TTTTCTGATG AGGATGACTG TGAGGGTGAC 
    GGTGACGACC CCATGGAAGA GTACAACGAT TTCGATGACG ACTGA

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

    LOC106137032 ( XM_013337769.1 ) cDNA ORF clone, Amyelois transitella -> XP_013193223.1 Amyelois transitella probable serine/threonine-protein kinase DDB_G0282963 (LOC106137032), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OAm66675
    Clone ID Related Accession (Same CDS sequence) XM_013337769.1
    Accession Version XM_013337769.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4095bp)
    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 2015-08-05
    Organism Amyelois transitella
    Product probable serine/threonine-protein kinase DDB_G0282963 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_013535550.1) 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 :: Amyelois transitella Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 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
    ATGCAAATCT TTAGTTTGAA GCAAGCCTAT AAACATTTAT ATAACAAACA TATTAGTACG 
    AGTCATAATA ACAACGACCA GAATGCTGAT GAAGAGTTCC CATGTGACTG TTGTAATGTT 
    ACTTTCCATC TGTCATCAGC CATGTTGTAC CATAATAAAT TCTTTCATAG GCAAGATACT 
    GATCTGCCAT CTATAGGGCA GTCAAAGAAA TTGAAAATGG CTGGACAGAT CTCATTGATG 
    ATATATTATT GTCCCTTTTG TGGTCAGGAG TATAACAACA AAGTCAATTT ACATAAACAC 
    ATGAGTGACG ACCATAGTGA CGAAAACCAA AGTCCTGATG ATGTGCTGCG ATGTCCACTC 
    TGTGATGCTA TATTTTATCA TCTTGATGCT TATGAACACC ATCTGTCTTT TCACAGTATT 
    GATGACATGT ACAGTGAAAA GAATGACATG GTAGAAAGTG TGACAGATTT TTCTCTTGAA 
    GCTGTTCCAC CTGTAATGGA GAGAGTTGAG AATCTGGAAC CCGAACCTAA CAACACACCT 
    GATGGCGATG CTATGGGTCT GGACGATTTG TTGCTAATGG CGATGAGCAA CCCTGTGGAT 
    GAAGATAATC CAAAAAAGTC TAAAAAGCAT AAGAAACACA AGAAATCTAA AAAAGCTGCA 
    ATTACATTAG ATGAGTTTCT AAATATGAAT AAAGATGTTT TTGGTGAAGG TATAGACTTT 
    CAAGGAGTAG AAGAAGTGCC ATCACAAGTA GTAGCAAAGA GGTTTAAAGT AAAAAATAAA 
    GCAGCATCAA TACCCAAAAC TGGAACCAAA ATGTCTCGTA TTGAACTGGA AAAATTGCGT 
    AAACAGGGAA TTGTAATTAA AATGAAAGGT TCTTCTGGGA AGAAACCAAT ACCAACTAGA 
    GTTAAACAAA TGTGTAAAAC AAATGTCATT GACTTGAACA CGCAAAACCG GTCTACTTCT 
    GTTAATTCAT CCAATGAAGT ATTAACCAAG CTGATTAATC AAAGTAATAA TCAAATAAAA 
    ATAGTAAGAA AGCCTGCACC CACACTAAAC GAGACAAATA GCTTTGATGA AAAACCTTCA 
    TCTCCTGAAA ACATAGAAGT TGAATGTGAT TTAATACAAA GATACACATC TTCCGAAACA 
    GAAGGTGAAG ACAAATCTGA TATCAAAAAA ATATCTAAAG AGGAAATAAG CTCTGGCATT 
    GAAGACGACC ATTTAGAAAA ATCATCAAAT AAAGTTGATA CTGCCAACTC TGATAACCCT 
    ACTTTTGAAC CTAATCATAA TTCGCAGATT GGTGATTGTA ACATCAAGAA TAATGCTAAT 
    CAAAGTACTC CCGATCATGA CAAAAATAAA GATAGTAATA TTAATAACTC TCTGAAGTCT 
    TTGAAAAATG TTAACCAGCA CCTAACTGTC AAACCTGTGA TTACTTCAGT AAAAACCAAC 
    TGCAATCCTA AACATGAAAC ATTAACAAAT GAGAGTTTTG ACAACACGGT CATAACGAAA 
    CAAAGCGAAC CTTCCGAAAA AGAAACTTCA GAAAAAGGTA AAGACAAACC TCTAAATGCA 
    TTAAAACATT TGAGTCATCT TATTACAATT AAATCAGTAT CACAGACTAC AAATGATAAG 
    CTGCTATCAC AGATAAAAAG AAGAAATTCT TTTCATGAAG ATGACTCTCT TGGGGATTCT 
    AAAACGAATT CCGACGAAGA CGATTCGTCT TTAGCGTCAC GTAATGAACT ACCTTCACCG 
    ACGCCAGAAC CAAAACAAAC GCCCGTGGAA TCAATAACTG CTTTCAAGAA ATTAAACAGC 
    AATGTCACTG TAAAAGCAAT GAAGAGTACA ATTCAGCCCT CTCAGGCACA AATGCCAGAA 
    TTCTCAGACG AAGAAGAAAA AAGCATTAAT CCACCAGCAA AAATAAATTT GAACAATCAA 
    CATGTCATGA GGTCTTTGTC TACAATACCA CAAAAAATTG GAATAGATCC AGCCTTATCA 
    ACTAAAGGCA GAATAAAAGA TACTAATGTT GCTGCTGAAG ACAGAACAAA TATTCAATCA 
    AATGTTAATC TTTTAAGAAA ACTTAAAAAT GTTACTGCTA AACCAATAAA TTCCCAAAAT 
    GCTCAAATAA ATAAATTTAA GTCACCAATG AACCGAAATA GAACAGAAAC ACAGGTTGGA 
    AACAATGAAG AAGGAAATAA AGAAATTGAA ATTTATAATA TTGATGACTC TGACAGTGAT 
    AATTCTGAAG ACACTTTACC AAGAGACACA ATGATCAAAT CAGATGTTTC TAAGAATGAA 
    ACTAATAACA TTAATTGTAA TGTATTAAAA AAATTGAGTA AACATTTAAC CATAAAGCCA 
    ACTAATCAAA AATCTCCACA AATTAATGTT AAATCAGAAC CTGATCAAGA CGAATTTTCA 
    GATTATTCTC AAGAAAATTC CGAAAAATAT GCAGAAAAAT GCAAAGTAAC TTTAAATAAA 
    ACAAACGAAA TTCTTAAAAA TACGCTAAAG AACTTAAGTA AAAATGTTAC AGTAAAGTCA 
    AGAAACTCTT CCCCAAATGC GACAGTTACA ACCCATAACA TCAAAAACCA AGATTATAAT 
    GGCGAATGTA AAGACGACAG CGAAAACGAC ATTCGTCCAG GTCAAGTCAA AATCACTGAA 
    GTTGACGATG AATACAATGG TCCAAGTGAT AATGACGATT TTGACGAAGA TTTTACTGAC 
    AATCCAATAG TTCAATCACC TCACGATTCA TACAGTGATG ATGATATTGA TTTTTCTCAA 
    AAATCCCAGG AAGAGTTGGA TGATATTGAA AGCAAAATAC ATGCCAATAC AGTCAGTAAA 
    ATCGAAACCA GTCATAATGA AAATTCAAAA AATATTGGTA AAGGTATTAC CATCAAATCG 
    CTAAGCGAGA AAACGTCTCA GTCGCATTCA GAGACAGTTA ATACAACAAA AGGAAATGCA 
    ACTATGCCTG CCAATCTTAG CAAAGAACTA TCAATAAAAC CATTCAAACA GGGTAATACA 
    TGTGACAATG TGAGCCAACA CCCCGTTAAA CTGAACCCAC AAACAACAAA CAAAATCAAC 
    AGATCAACAG GACAAATAGC CCGTTGTAAA AGTCAATTAT CGAACCAAAC CACATCGTCA 
    ACTGACCAGA CAAATATAGT AAACAAGGAA GTGACAGTCA AAACATTTCA AACAAAGACT 
    GTCATTCAGG AAATAACTAC AACTGTTACA AAAACTATCA AAACTGTAAA CCAAAGTGTT 
    CAGCAAGAGT TTCATACTGC CAATCAGTCA TGTACCCAAA ATGTATTTAG AAAAGTACAA 
    GGCATGCGGC CGCCAGTTCA ACAGCCCACT AAGAACTACC AAGGTGTAGT AGTCAGACAT 
    GCCGCGCCAA TTATGGGCAC TAAAGTCAAA AATCCTGTGA CCCCTTTAAG ACCAACGAGA 
    CCACCCGCTA CAGTTTCTAA TCAACTAGTA CCTGTCAGGC AAGGTACACC TATGAACGTA 
    AGGCCTCATA CACCAAGGTT GCCTACAGTA AGAAGTAGTG CACCATCAAA CTTTACAAAA 
    ACCTCAACTC CAGTTAAAAT GTCGCCTAAT GTCGTAAATA ATTCTACTAA AAAGAAACCA 
    GTTACACAAG AAGCAAAAGG TCCATTTAGT TGTTTCAAAA AACCCAAACA ATCATTGATA 
    CCCGTATCTG AATTCTCAGG CGTCAGCAGT GGAGAAGACG ACTCTATAAA CTTTGCTACG 
    ACTACACGTG TGAATAAGTC TAATGTTATA AATATGGCAA AGACAATGAA AGGTAATACA 
    ATTGTTAGTT CAACACAAAT GAAATCTGAA GTAAGTTCCT GTTCACAACA GCTAAGCAAG 
    CTAAACAATG TGACAGGATT AAAAATAGTT AAGACTAGTC AAGTAAAACA AGTTTCTCAA 
    ATGGAGGAAA AGCAAGACAT TAGTCCTACC AAGAGAAATA CACTGGAAGC CATAGAAAAA 
    TTACAGAAGC AAGGATTGTT GGTTAAAAAG CCTCGTCTCG AAGCAAACGA AGAGAGCGGA 
    TTTTCTGATG AGGATGACTG TGAGGGTGAC GGTGACGACC CCATGGAAGA GTACAACGAT 
    TTCGATGACG ACTGA

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

    RefSeq XP_013193223.1
    CDS71..4165
    Translation

    Target ORF information:

    RefSeq Version XM_013337769.1
    Organism Amyelois transitella
    Definition Amyelois transitella probable serine/threonine-protein kinase DDB_G0282963 (LOC106137032), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_013337769.1

    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
    ATGCAAATCT TTAGTTTGAA GCAAGCCTAT AAACATTTAT ATAACAAACA TATTAGTACG 
    AGTCATAATA ACAACGACCA GAATGCTGAT GAAGAGTTCC CATGTGACTG TTGTAATGTT 
    ACTTTCCATC TGTCATCAGC CATGTTGTAC CATAATAAAT TCTTTCATAG GCAAGATACT 
    GATCTGCCAT CTATAGGGCA GTCAAAGAAA TTGAAAATGG CTGGACAGAT CTCATTGATG 
    ATATATTATT GTCCCTTTTG TGGTCAGGAG TATAACAACA AAGTCAATTT ACATAAACAC 
    ATGAGTGACG ACCATAGTGA CGAAAACCAA AGTCCTGATG ATGTGCTGCG ATGTCCACTC 
    TGTGATGCTA TATTTTATCA TCTTGATGCT TATGAACACC ATCTGTCTTT TCACAGTATT 
    GATGACATGT ACAGTGAAAA GAATGACATG GTAGAAAGTG TGACAGATTT TTCTCTTGAA 
    GCTGTTCCAC CTGTAATGGA GAGAGTTGAG AATCTGGAAC CCGAACCTAA CAACACACCT 
    GATGGCGATG CTATGGGTCT GGACGATTTG TTGCTAATGG CGATGAGCAA CCCTGTGGAT 
    GAAGATAATC CAAAAAAGTC TAAAAAGCAT AAGAAACACA AGAAATCTAA AAAAGCTGCA 
    ATTACATTAG ATGAGTTTCT AAATATGAAT AAAGATGTTT TTGGTGAAGG TATAGACTTT 
    CAAGGAGTAG AAGAAGTGCC ATCACAAGTA GTAGCAAAGA GGTTTAAAGT AAAAAATAAA 
    GCAGCATCAA TACCCAAAAC TGGAACCAAA ATGTCTCGTA TTGAACTGGA AAAATTGCGT 
    AAACAGGGAA TTGTAATTAA AATGAAAGGT TCTTCTGGGA AGAAACCAAT ACCAACTAGA 
    GTTAAACAAA TGTGTAAAAC AAATGTCATT GACTTGAACA CGCAAAACCG GTCTACTTCT 
    GTTAATTCAT CCAATGAAGT ATTAACCAAG CTGATTAATC AAAGTAATAA TCAAATAAAA 
    ATAGTAAGAA AGCCTGCACC CACACTAAAC GAGACAAATA GCTTTGATGA AAAACCTTCA 
    TCTCCTGAAA ACATAGAAGT TGAATGTGAT TTAATACAAA GATACACATC TTCCGAAACA 
    GAAGGTGAAG ACAAATCTGA TATCAAAAAA ATATCTAAAG AGGAAATAAG CTCTGGCATT 
    GAAGACGACC ATTTAGAAAA ATCATCAAAT AAAGTTGATA CTGCCAACTC TGATAACCCT 
    ACTTTTGAAC CTAATCATAA TTCGCAGATT GGTGATTGTA ACATCAAGAA TAATGCTAAT 
    CAAAGTACTC CCGATCATGA CAAAAATAAA GATAGTAATA TTAATAACTC TCTGAAGTCT 
    TTGAAAAATG TTAACCAGCA CCTAACTGTC AAACCTGTGA TTACTTCAGT AAAAACCAAC 
    TGCAATCCTA AACATGAAAC ATTAACAAAT GAGAGTTTTG ACAACACGGT CATAACGAAA 
    CAAAGCGAAC CTTCCGAAAA AGAAACTTCA GAAAAAGGTA AAGACAAACC TCTAAATGCA 
    TTAAAACATT TGAGTCATCT TATTACAATT AAATCAGTAT CACAGACTAC AAATGATAAG 
    CTGCTATCAC AGATAAAAAG AAGAAATTCT TTTCATGAAG ATGACTCTCT TGGGGATTCT 
    AAAACGAATT CCGACGAAGA CGATTCGTCT TTAGCGTCAC GTAATGAACT ACCTTCACCG 
    ACGCCAGAAC CAAAACAAAC GCCCGTGGAA TCAATAACTG CTTTCAAGAA ATTAAACAGC 
    AATGTCACTG TAAAAGCAAT GAAGAGTACA ATTCAGCCCT CTCAGGCACA AATGCCAGAA 
    TTCTCAGACG AAGAAGAAAA AAGCATTAAT CCACCAGCAA AAATAAATTT GAACAATCAA 
    CATGTCATGA GGTCTTTGTC TACAATACCA CAAAAAATTG GAATAGATCC AGCCTTATCA 
    ACTAAAGGCA GAATAAAAGA TACTAATGTT GCTGCTGAAG ACAGAACAAA TATTCAATCA 
    AATGTTAATC TTTTAAGAAA ACTTAAAAAT GTTACTGCTA AACCAATAAA TTCCCAAAAT 
    GCTCAAATAA ATAAATTTAA GTCACCAATG AACCGAAATA GAACAGAAAC ACAGGTTGGA 
    AACAATGAAG AAGGAAATAA AGAAATTGAA ATTTATAATA TTGATGACTC TGACAGTGAT 
    AATTCTGAAG ACACTTTACC AAGAGACACA ATGATCAAAT CAGATGTTTC TAAGAATGAA 
    ACTAATAACA TTAATTGTAA TGTATTAAAA AAATTGAGTA AACATTTAAC CATAAAGCCA 
    ACTAATCAAA AATCTCCACA AATTAATGTT AAATCAGAAC CTGATCAAGA CGAATTTTCA 
    GATTATTCTC AAGAAAATTC CGAAAAATAT GCAGAAAAAT GCAAAGTAAC TTTAAATAAA 
    ACAAACGAAA TTCTTAAAAA TACGCTAAAG AACTTAAGTA AAAATGTTAC AGTAAAGTCA 
    AGAAACTCTT CCCCAAATGC GACAGTTACA ACCCATAACA TCAAAAACCA AGATTATAAT 
    GGCGAATGTA AAGACGACAG CGAAAACGAC ATTCGTCCAG GTCAAGTCAA AATCACTGAA 
    GTTGACGATG AATACAATGG TCCAAGTGAT AATGACGATT TTGACGAAGA TTTTACTGAC 
    AATCCAATAG TTCAATCACC TCACGATTCA TACAGTGATG ATGATATTGA TTTTTCTCAA 
    AAATCCCAGG AAGAGTTGGA TGATATTGAA AGCAAAATAC ATGCCAATAC AGTCAGTAAA 
    ATCGAAACCA GTCATAATGA AAATTCAAAA AATATTGGTA AAGGTATTAC CATCAAATCG 
    CTAAGCGAGA AAACGTCTCA GTCGCATTCA GAGACAGTTA ATACAACAAA AGGAAATGCA 
    ACTATGCCTG CCAATCTTAG CAAAGAACTA TCAATAAAAC CATTCAAACA GGGTAATACA 
    TGTGACAATG TGAGCCAACA CCCCGTTAAA CTGAACCCAC AAACAACAAA CAAAATCAAC 
    AGATCAACAG GACAAATAGC CCGTTGTAAA AGTCAATTAT CGAACCAAAC CACATCGTCA 
    ACTGACCAGA CAAATATAGT AAACAAGGAA GTGACAGTCA AAACATTTCA AACAAAGACT 
    GTCATTCAGG AAATAACTAC AACTGTTACA AAAACTATCA AAACTGTAAA CCAAAGTGTT 
    CAGCAAGAGT TTCATACTGC CAATCAGTCA TGTACCCAAA ATGTATTTAG AAAAGTACAA 
    GGCATGCGGC CGCCAGTTCA ACAGCCCACT AAGAACTACC AAGGTGTAGT AGTCAGACAT 
    GCCGCGCCAA TTATGGGCAC TAAAGTCAAA AATCCTGTGA CCCCTTTAAG ACCAACGAGA 
    CCACCCGCTA CAGTTTCTAA TCAACTAGTA CCTGTCAGGC AAGGTACACC TATGAACGTA 
    AGGCCTCATA CACCAAGGTT GCCTACAGTA AGAAGTAGTG CACCATCAAA CTTTACAAAA 
    ACCTCAACTC CAGTTAAAAT GTCGCCTAAT GTCGTAAATA ATTCTACTAA AAAGAAACCA 
    GTTACACAAG AAGCAAAAGG TCCATTTAGT TGTTTCAAAA AACCCAAACA ATCATTGATA 
    CCCGTATCTG AATTCTCAGG CGTCAGCAGT GGAGAAGACG ACTCTATAAA CTTTGCTACG 
    ACTACACGTG TGAATAAGTC TAATGTTATA AATATGGCAA AGACAATGAA AGGTAATACA 
    ATTGTTAGTT CAACACAAAT GAAATCTGAA GTAAGTTCCT GTTCACAACA GCTAAGCAAG 
    CTAAACAATG TGACAGGATT AAAAATAGTT AAGACTAGTC AAGTAAAACA AGTTTCTCAA 
    ATGGAGGAAA AGCAAGACAT TAGTCCTACC AAGAGAAATA CACTGGAAGC CATAGAAAAA 
    TTACAGAAGC AAGGATTGTT GGTTAAAAAG CCTCGTCTCG AAGCAAACGA AGAGAGCGGA 
    TTTTCTGATG AGGATGACTG TGAGGGTGAC GGTGACGACC CCATGGAAGA GTACAACGAT 
    TTCGATGACG ACTGA

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

    LOC106137032 ( XM_013337772.1 ) cDNA ORF clone, Amyelois transitella -> XP_013193226.1 Amyelois transitella probable serine/threonine-protein kinase DDB_G0282963 (LOC106137032), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OAm66676
    Clone ID Related Accession (Same CDS sequence) XM_013337772.1 , XM_013337771.1 , XM_013337770.1
    Accession Version XM_013337772.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3954bp)
    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 2015-08-05
    Organism Amyelois transitella
    Product probable serine/threonine-protein kinase DDB_G0282963 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_013535550.1) 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 :: Amyelois transitella Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 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
    ATGTTGTACC ATAATAAATT CTTTCATAGG CAAGATACTG ATCTGCCATC TATAGGGCAG 
    TCAAAGAAAT TGAAAATGGC TGGACAGATC TCATTGATGA TATATTATTG TCCCTTTTGT 
    GGTCAGGAGT ATAACAACAA AGTCAATTTA CATAAACACA TGAGTGACGA CCATAGTGAC 
    GAAAACCAAA GTCCTGATGA TGTGCTGCGA TGTCCACTCT GTGATGCTAT ATTTTATCAT 
    CTTGATGCTT ATGAACACCA TCTGTCTTTT CACAGTATTG ATGACATGTA CAGTGAAAAG 
    AATGACATGG TAGAAAGTGT GACAGATTTT TCTCTTGAAG CTGTTCCACC TGTAATGGAG 
    AGAGTTGAGA ATCTGGAACC CGAACCTAAC AACACACCTG ATGGCGATGC TATGGGTCTG 
    GACGATTTGT TGCTAATGGC GATGAGCAAC CCTGTGGATG AAGATAATCC AAAAAAGTCT 
    AAAAAGCATA AGAAACACAA GAAATCTAAA AAAGCTGCAA TTACATTAGA TGAGTTTCTA 
    AATATGAATA AAGATGTTTT TGGTGAAGGT ATAGACTTTC AAGGAGTAGA AGAAGTGCCA 
    TCACAAGTAG TAGCAAAGAG GTTTAAAGTA AAAAATAAAG CAGCATCAAT ACCCAAAACT 
    GGAACCAAAA TGTCTCGTAT TGAACTGGAA AAATTGCGTA AACAGGGAAT TGTAATTAAA 
    ATGAAAGGTT CTTCTGGGAA GAAACCAATA CCAACTAGAG TTAAACAAAT GTGTAAAACA 
    AATGTCATTG ACTTGAACAC GCAAAACCGG TCTACTTCTG TTAATTCATC CAATGAAGTA 
    TTAACCAAGC TGATTAATCA AAGTAATAAT CAAATAAAAA TAGTAAGAAA GCCTGCACCC 
    ACACTAAACG AGACAAATAG CTTTGATGAA AAACCTTCAT CTCCTGAAAA CATAGAAGTT 
    GAATGTGATT TAATACAAAG ATACACATCT TCCGAAACAG AAGGTGAAGA CAAATCTGAT 
    ATCAAAAAAA TATCTAAAGA GGAAATAAGC TCTGGCATTG AAGACGACCA TTTAGAAAAA 
    TCATCAAATA AAGTTGATAC TGCCAACTCT GATAACCCTA CTTTTGAACC TAATCATAAT 
    TCGCAGATTG GTGATTGTAA CATCAAGAAT AATGCTAATC AAAGTACTCC CGATCATGAC 
    AAAAATAAAG ATAGTAATAT TAATAACTCT CTGAAGTCTT TGAAAAATGT TAACCAGCAC 
    CTAACTGTCA AACCTGTGAT TACTTCAGTA AAAACCAACT GCAATCCTAA ACATGAAACA 
    TTAACAAATG AGAGTTTTGA CAACACGGTC ATAACGAAAC AAAGCGAACC TTCCGAAAAA 
    GAAACTTCAG AAAAAGGTAA AGACAAACCT CTAAATGCAT TAAAACATTT GAGTCATCTT 
    ATTACAATTA AATCAGTATC ACAGACTACA AATGATAAGC TGCTATCACA GATAAAAAGA 
    AGAAATTCTT TTCATGAAGA TGACTCTCTT GGGGATTCTA AAACGAATTC CGACGAAGAC 
    GATTCGTCTT TAGCGTCACG TAATGAACTA CCTTCACCGA CGCCAGAACC AAAACAAACG 
    CCCGTGGAAT CAATAACTGC TTTCAAGAAA TTAAACAGCA ATGTCACTGT AAAAGCAATG 
    AAGAGTACAA TTCAGCCCTC TCAGGCACAA ATGCCAGAAT TCTCAGACGA AGAAGAAAAA 
    AGCATTAATC CACCAGCAAA AATAAATTTG AACAATCAAC ATGTCATGAG GTCTTTGTCT 
    ACAATACCAC AAAAAATTGG AATAGATCCA GCCTTATCAA CTAAAGGCAG AATAAAAGAT 
    ACTAATGTTG CTGCTGAAGA CAGAACAAAT ATTCAATCAA ATGTTAATCT TTTAAGAAAA 
    CTTAAAAATG TTACTGCTAA ACCAATAAAT TCCCAAAATG CTCAAATAAA TAAATTTAAG 
    TCACCAATGA ACCGAAATAG AACAGAAACA CAGGTTGGAA ACAATGAAGA AGGAAATAAA 
    GAAATTGAAA TTTATAATAT TGATGACTCT GACAGTGATA ATTCTGAAGA CACTTTACCA 
    AGAGACACAA TGATCAAATC AGATGTTTCT AAGAATGAAA CTAATAACAT TAATTGTAAT 
    GTATTAAAAA AATTGAGTAA ACATTTAACC ATAAAGCCAA CTAATCAAAA ATCTCCACAA 
    ATTAATGTTA AATCAGAACC TGATCAAGAC GAATTTTCAG ATTATTCTCA AGAAAATTCC 
    GAAAAATATG CAGAAAAATG CAAAGTAACT TTAAATAAAA CAAACGAAAT TCTTAAAAAT 
    ACGCTAAAGA ACTTAAGTAA AAATGTTACA GTAAAGTCAA GAAACTCTTC CCCAAATGCG 
    ACAGTTACAA CCCATAACAT CAAAAACCAA GATTATAATG GCGAATGTAA AGACGACAGC 
    GAAAACGACA TTCGTCCAGG TCAAGTCAAA ATCACTGAAG TTGACGATGA ATACAATGGT 
    CCAAGTGATA ATGACGATTT TGACGAAGAT TTTACTGACA ATCCAATAGT TCAATCACCT 
    CACGATTCAT ACAGTGATGA TGATATTGAT TTTTCTCAAA AATCCCAGGA AGAGTTGGAT 
    GATATTGAAA GCAAAATACA TGCCAATACA GTCAGTAAAA TCGAAACCAG TCATAATGAA 
    AATTCAAAAA ATATTGGTAA AGGTATTACC ATCAAATCGC TAAGCGAGAA AACGTCTCAG 
    TCGCATTCAG AGACAGTTAA TACAACAAAA GGAAATGCAA CTATGCCTGC CAATCTTAGC 
    AAAGAACTAT CAATAAAACC ATTCAAACAG GGTAATACAT GTGACAATGT GAGCCAACAC 
    CCCGTTAAAC TGAACCCACA AACAACAAAC AAAATCAACA GATCAACAGG ACAAATAGCC 
    CGTTGTAAAA GTCAATTATC GAACCAAACC ACATCGTCAA CTGACCAGAC AAATATAGTA 
    AACAAGGAAG TGACAGTCAA AACATTTCAA ACAAAGACTG TCATTCAGGA AATAACTACA 
    ACTGTTACAA AAACTATCAA AACTGTAAAC CAAAGTGTTC AGCAAGAGTT TCATACTGCC 
    AATCAGTCAT GTACCCAAAA TGTATTTAGA AAAGTACAAG GCATGCGGCC GCCAGTTCAA 
    CAGCCCACTA AGAACTACCA AGGTGTAGTA GTCAGACATG CCGCGCCAAT TATGGGCACT 
    AAAGTCAAAA ATCCTGTGAC CCCTTTAAGA CCAACGAGAC CACCCGCTAC AGTTTCTAAT 
    CAACTAGTAC CTGTCAGGCA AGGTACACCT ATGAACGTAA GGCCTCATAC ACCAAGGTTG 
    CCTACAGTAA GAAGTAGTGC ACCATCAAAC TTTACAAAAA CCTCAACTCC AGTTAAAATG 
    TCGCCTAATG TCGTAAATAA TTCTACTAAA AAGAAACCAG TTACACAAGA AGCAAAAGGT 
    CCATTTAGTT GTTTCAAAAA ACCCAAACAA TCATTGATAC CCGTATCTGA ATTCTCAGGC 
    GTCAGCAGTG GAGAAGACGA CTCTATAAAC TTTGCTACGA CTACACGTGT GAATAAGTCT 
    AATGTTATAA ATATGGCAAA GACAATGAAA GGTAATACAA TTGTTAGTTC AACACAAATG 
    AAATCTGAAG TAAGTTCCTG TTCACAACAG CTAAGCAAGC TAAACAATGT GACAGGATTA 
    AAAATAGTTA AGACTAGTCA AGTAAAACAA GTTTCTCAAA TGGAGGAAAA GCAAGACATT 
    AGTCCTACCA AGAGAAATAC ACTGGAAGCC ATAGAAAAAT TACAGAAGCA AGGATTGTTG 
    GTTAAAAAGC CTCGTCTCGA AGCAAACGAA GAGAGCGGAT TTTCTGATGA GGATGACTGT 
    GAGGGTGACG GTGACGACCC CATGGAAGAG TACAACGATT TCGATGACGA CTGA

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

    RefSeq XP_013193226.1
    CDS179..4132
    Translation

    Target ORF information:

    RefSeq Version XM_013337772.1
    Organism Amyelois transitella
    Definition Amyelois transitella probable serine/threonine-protein kinase DDB_G0282963 (LOC106137032), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_013337772.1

    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
    ATGTTGTACC ATAATAAATT CTTTCATAGG CAAGATACTG ATCTGCCATC TATAGGGCAG 
    TCAAAGAAAT TGAAAATGGC TGGACAGATC TCATTGATGA TATATTATTG TCCCTTTTGT 
    GGTCAGGAGT ATAACAACAA AGTCAATTTA CATAAACACA TGAGTGACGA CCATAGTGAC 
    GAAAACCAAA GTCCTGATGA TGTGCTGCGA TGTCCACTCT GTGATGCTAT ATTTTATCAT 
    CTTGATGCTT ATGAACACCA TCTGTCTTTT CACAGTATTG ATGACATGTA CAGTGAAAAG 
    AATGACATGG TAGAAAGTGT GACAGATTTT TCTCTTGAAG CTGTTCCACC TGTAATGGAG 
    AGAGTTGAGA ATCTGGAACC CGAACCTAAC AACACACCTG ATGGCGATGC TATGGGTCTG 
    GACGATTTGT TGCTAATGGC GATGAGCAAC CCTGTGGATG AAGATAATCC AAAAAAGTCT 
    AAAAAGCATA AGAAACACAA GAAATCTAAA AAAGCTGCAA TTACATTAGA TGAGTTTCTA 
    AATATGAATA AAGATGTTTT TGGTGAAGGT ATAGACTTTC AAGGAGTAGA AGAAGTGCCA 
    TCACAAGTAG TAGCAAAGAG GTTTAAAGTA AAAAATAAAG CAGCATCAAT ACCCAAAACT 
    GGAACCAAAA TGTCTCGTAT TGAACTGGAA AAATTGCGTA AACAGGGAAT TGTAATTAAA 
    ATGAAAGGTT CTTCTGGGAA GAAACCAATA CCAACTAGAG TTAAACAAAT GTGTAAAACA 
    AATGTCATTG ACTTGAACAC GCAAAACCGG TCTACTTCTG TTAATTCATC CAATGAAGTA 
    TTAACCAAGC TGATTAATCA AAGTAATAAT CAAATAAAAA TAGTAAGAAA GCCTGCACCC 
    ACACTAAACG AGACAAATAG CTTTGATGAA AAACCTTCAT CTCCTGAAAA CATAGAAGTT 
    GAATGTGATT TAATACAAAG ATACACATCT TCCGAAACAG AAGGTGAAGA CAAATCTGAT 
    ATCAAAAAAA TATCTAAAGA GGAAATAAGC TCTGGCATTG AAGACGACCA TTTAGAAAAA 
    TCATCAAATA AAGTTGATAC TGCCAACTCT GATAACCCTA CTTTTGAACC TAATCATAAT 
    TCGCAGATTG GTGATTGTAA CATCAAGAAT AATGCTAATC AAAGTACTCC CGATCATGAC 
    AAAAATAAAG ATAGTAATAT TAATAACTCT CTGAAGTCTT TGAAAAATGT TAACCAGCAC 
    CTAACTGTCA AACCTGTGAT TACTTCAGTA AAAACCAACT GCAATCCTAA ACATGAAACA 
    TTAACAAATG AGAGTTTTGA CAACACGGTC ATAACGAAAC AAAGCGAACC TTCCGAAAAA 
    GAAACTTCAG AAAAAGGTAA AGACAAACCT CTAAATGCAT TAAAACATTT GAGTCATCTT 
    ATTACAATTA AATCAGTATC ACAGACTACA AATGATAAGC TGCTATCACA GATAAAAAGA 
    AGAAATTCTT TTCATGAAGA TGACTCTCTT GGGGATTCTA AAACGAATTC CGACGAAGAC 
    GATTCGTCTT TAGCGTCACG TAATGAACTA CCTTCACCGA CGCCAGAACC AAAACAAACG 
    CCCGTGGAAT CAATAACTGC TTTCAAGAAA TTAAACAGCA ATGTCACTGT AAAAGCAATG 
    AAGAGTACAA TTCAGCCCTC TCAGGCACAA ATGCCAGAAT TCTCAGACGA AGAAGAAAAA 
    AGCATTAATC CACCAGCAAA AATAAATTTG AACAATCAAC ATGTCATGAG GTCTTTGTCT 
    ACAATACCAC AAAAAATTGG AATAGATCCA GCCTTATCAA CTAAAGGCAG AATAAAAGAT 
    ACTAATGTTG CTGCTGAAGA CAGAACAAAT ATTCAATCAA ATGTTAATCT TTTAAGAAAA 
    CTTAAAAATG TTACTGCTAA ACCAATAAAT TCCCAAAATG CTCAAATAAA TAAATTTAAG 
    TCACCAATGA ACCGAAATAG AACAGAAACA CAGGTTGGAA ACAATGAAGA AGGAAATAAA 
    GAAATTGAAA TTTATAATAT TGATGACTCT GACAGTGATA ATTCTGAAGA CACTTTACCA 
    AGAGACACAA TGATCAAATC AGATGTTTCT AAGAATGAAA CTAATAACAT TAATTGTAAT 
    GTATTAAAAA AATTGAGTAA ACATTTAACC ATAAAGCCAA CTAATCAAAA ATCTCCACAA 
    ATTAATGTTA AATCAGAACC TGATCAAGAC GAATTTTCAG ATTATTCTCA AGAAAATTCC 
    GAAAAATATG CAGAAAAATG CAAAGTAACT TTAAATAAAA CAAACGAAAT TCTTAAAAAT 
    ACGCTAAAGA ACTTAAGTAA AAATGTTACA GTAAAGTCAA GAAACTCTTC CCCAAATGCG 
    ACAGTTACAA CCCATAACAT CAAAAACCAA GATTATAATG GCGAATGTAA AGACGACAGC 
    GAAAACGACA TTCGTCCAGG TCAAGTCAAA ATCACTGAAG TTGACGATGA ATACAATGGT 
    CCAAGTGATA ATGACGATTT TGACGAAGAT TTTACTGACA ATCCAATAGT TCAATCACCT 
    CACGATTCAT ACAGTGATGA TGATATTGAT TTTTCTCAAA AATCCCAGGA AGAGTTGGAT 
    GATATTGAAA GCAAAATACA TGCCAATACA GTCAGTAAAA TCGAAACCAG TCATAATGAA 
    AATTCAAAAA ATATTGGTAA AGGTATTACC ATCAAATCGC TAAGCGAGAA AACGTCTCAG 
    TCGCATTCAG AGACAGTTAA TACAACAAAA GGAAATGCAA CTATGCCTGC CAATCTTAGC 
    AAAGAACTAT CAATAAAACC ATTCAAACAG GGTAATACAT GTGACAATGT GAGCCAACAC 
    CCCGTTAAAC TGAACCCACA AACAACAAAC AAAATCAACA GATCAACAGG ACAAATAGCC 
    CGTTGTAAAA GTCAATTATC GAACCAAACC ACATCGTCAA CTGACCAGAC AAATATAGTA 
    AACAAGGAAG TGACAGTCAA AACATTTCAA ACAAAGACTG TCATTCAGGA AATAACTACA 
    ACTGTTACAA AAACTATCAA AACTGTAAAC CAAAGTGTTC AGCAAGAGTT TCATACTGCC 
    AATCAGTCAT GTACCCAAAA TGTATTTAGA AAAGTACAAG GCATGCGGCC GCCAGTTCAA 
    CAGCCCACTA AGAACTACCA AGGTGTAGTA GTCAGACATG CCGCGCCAAT TATGGGCACT 
    AAAGTCAAAA ATCCTGTGAC CCCTTTAAGA CCAACGAGAC CACCCGCTAC AGTTTCTAAT 
    CAACTAGTAC CTGTCAGGCA AGGTACACCT ATGAACGTAA GGCCTCATAC ACCAAGGTTG 
    CCTACAGTAA GAAGTAGTGC ACCATCAAAC TTTACAAAAA CCTCAACTCC AGTTAAAATG 
    TCGCCTAATG TCGTAAATAA TTCTACTAAA AAGAAACCAG TTACACAAGA AGCAAAAGGT 
    CCATTTAGTT GTTTCAAAAA ACCCAAACAA TCATTGATAC CCGTATCTGA ATTCTCAGGC 
    GTCAGCAGTG GAGAAGACGA CTCTATAAAC TTTGCTACGA CTACACGTGT GAATAAGTCT 
    AATGTTATAA ATATGGCAAA GACAATGAAA GGTAATACAA TTGTTAGTTC AACACAAATG 
    AAATCTGAAG TAAGTTCCTG TTCACAACAG CTAAGCAAGC TAAACAATGT GACAGGATTA 
    AAAATAGTTA AGACTAGTCA AGTAAAACAA GTTTCTCAAA TGGAGGAAAA GCAAGACATT 
    AGTCCTACCA AGAGAAATAC ACTGGAAGCC ATAGAAAAAT TACAGAAGCA AGGATTGTTG 
    GTTAAAAAGC CTCGTCTCGA AGCAAACGAA GAGAGCGGAT TTTCTGATGA GGATGACTGT 
    GAGGGTGACG GTGACGACCC CATGGAAGAG TACAACGATT TCGATGACGA CTGA

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

    LOC106137032 ( XM_013337771.1 ) cDNA ORF clone, Amyelois transitella -> XP_013193225.1 Amyelois transitella probable serine/threonine-protein kinase DDB_G0282963 (LOC106137032), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OAm66676
    Clone ID Related Accession (Same CDS sequence) XM_013337772.1 , XM_013337771.1 , XM_013337770.1
    Accession Version XM_013337771.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3954bp)
    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 2015-08-05
    Organism Amyelois transitella
    Product probable serine/threonine-protein kinase DDB_G0282963 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_013535550.1) 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 :: Amyelois transitella Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 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
    ATGTTGTACC ATAATAAATT CTTTCATAGG CAAGATACTG ATCTGCCATC TATAGGGCAG 
    TCAAAGAAAT TGAAAATGGC TGGACAGATC TCATTGATGA TATATTATTG TCCCTTTTGT 
    GGTCAGGAGT ATAACAACAA AGTCAATTTA CATAAACACA TGAGTGACGA CCATAGTGAC 
    GAAAACCAAA GTCCTGATGA TGTGCTGCGA TGTCCACTCT GTGATGCTAT ATTTTATCAT 
    CTTGATGCTT ATGAACACCA TCTGTCTTTT CACAGTATTG ATGACATGTA CAGTGAAAAG 
    AATGACATGG TAGAAAGTGT GACAGATTTT TCTCTTGAAG CTGTTCCACC TGTAATGGAG 
    AGAGTTGAGA ATCTGGAACC CGAACCTAAC AACACACCTG ATGGCGATGC TATGGGTCTG 
    GACGATTTGT TGCTAATGGC GATGAGCAAC CCTGTGGATG AAGATAATCC AAAAAAGTCT 
    AAAAAGCATA AGAAACACAA GAAATCTAAA AAAGCTGCAA TTACATTAGA TGAGTTTCTA 
    AATATGAATA AAGATGTTTT TGGTGAAGGT ATAGACTTTC AAGGAGTAGA AGAAGTGCCA 
    TCACAAGTAG TAGCAAAGAG GTTTAAAGTA AAAAATAAAG CAGCATCAAT ACCCAAAACT 
    GGAACCAAAA TGTCTCGTAT TGAACTGGAA AAATTGCGTA AACAGGGAAT TGTAATTAAA 
    ATGAAAGGTT CTTCTGGGAA GAAACCAATA CCAACTAGAG TTAAACAAAT GTGTAAAACA 
    AATGTCATTG ACTTGAACAC GCAAAACCGG TCTACTTCTG TTAATTCATC CAATGAAGTA 
    TTAACCAAGC TGATTAATCA AAGTAATAAT CAAATAAAAA TAGTAAGAAA GCCTGCACCC 
    ACACTAAACG AGACAAATAG CTTTGATGAA AAACCTTCAT CTCCTGAAAA CATAGAAGTT 
    GAATGTGATT TAATACAAAG ATACACATCT TCCGAAACAG AAGGTGAAGA CAAATCTGAT 
    ATCAAAAAAA TATCTAAAGA GGAAATAAGC TCTGGCATTG AAGACGACCA TTTAGAAAAA 
    TCATCAAATA AAGTTGATAC TGCCAACTCT GATAACCCTA CTTTTGAACC TAATCATAAT 
    TCGCAGATTG GTGATTGTAA CATCAAGAAT AATGCTAATC AAAGTACTCC CGATCATGAC 
    AAAAATAAAG ATAGTAATAT TAATAACTCT CTGAAGTCTT TGAAAAATGT TAACCAGCAC 
    CTAACTGTCA AACCTGTGAT TACTTCAGTA AAAACCAACT GCAATCCTAA ACATGAAACA 
    TTAACAAATG AGAGTTTTGA CAACACGGTC ATAACGAAAC AAAGCGAACC TTCCGAAAAA 
    GAAACTTCAG AAAAAGGTAA AGACAAACCT CTAAATGCAT TAAAACATTT GAGTCATCTT 
    ATTACAATTA AATCAGTATC ACAGACTACA AATGATAAGC TGCTATCACA GATAAAAAGA 
    AGAAATTCTT TTCATGAAGA TGACTCTCTT GGGGATTCTA AAACGAATTC CGACGAAGAC 
    GATTCGTCTT TAGCGTCACG TAATGAACTA CCTTCACCGA CGCCAGAACC AAAACAAACG 
    CCCGTGGAAT CAATAACTGC TTTCAAGAAA TTAAACAGCA ATGTCACTGT AAAAGCAATG 
    AAGAGTACAA TTCAGCCCTC TCAGGCACAA ATGCCAGAAT TCTCAGACGA AGAAGAAAAA 
    AGCATTAATC CACCAGCAAA AATAAATTTG AACAATCAAC ATGTCATGAG GTCTTTGTCT 
    ACAATACCAC AAAAAATTGG AATAGATCCA GCCTTATCAA CTAAAGGCAG AATAAAAGAT 
    ACTAATGTTG CTGCTGAAGA CAGAACAAAT ATTCAATCAA ATGTTAATCT TTTAAGAAAA 
    CTTAAAAATG TTACTGCTAA ACCAATAAAT TCCCAAAATG CTCAAATAAA TAAATTTAAG 
    TCACCAATGA ACCGAAATAG AACAGAAACA CAGGTTGGAA ACAATGAAGA AGGAAATAAA 
    GAAATTGAAA TTTATAATAT TGATGACTCT GACAGTGATA ATTCTGAAGA CACTTTACCA 
    AGAGACACAA TGATCAAATC AGATGTTTCT AAGAATGAAA CTAATAACAT TAATTGTAAT 
    GTATTAAAAA AATTGAGTAA ACATTTAACC ATAAAGCCAA CTAATCAAAA ATCTCCACAA 
    ATTAATGTTA AATCAGAACC TGATCAAGAC GAATTTTCAG ATTATTCTCA AGAAAATTCC 
    GAAAAATATG CAGAAAAATG CAAAGTAACT TTAAATAAAA CAAACGAAAT TCTTAAAAAT 
    ACGCTAAAGA ACTTAAGTAA AAATGTTACA GTAAAGTCAA GAAACTCTTC CCCAAATGCG 
    ACAGTTACAA CCCATAACAT CAAAAACCAA GATTATAATG GCGAATGTAA AGACGACAGC 
    GAAAACGACA TTCGTCCAGG TCAAGTCAAA ATCACTGAAG TTGACGATGA ATACAATGGT 
    CCAAGTGATA ATGACGATTT TGACGAAGAT TTTACTGACA ATCCAATAGT TCAATCACCT 
    CACGATTCAT ACAGTGATGA TGATATTGAT TTTTCTCAAA AATCCCAGGA AGAGTTGGAT 
    GATATTGAAA GCAAAATACA TGCCAATACA GTCAGTAAAA TCGAAACCAG TCATAATGAA 
    AATTCAAAAA ATATTGGTAA AGGTATTACC ATCAAATCGC TAAGCGAGAA AACGTCTCAG 
    TCGCATTCAG AGACAGTTAA TACAACAAAA GGAAATGCAA CTATGCCTGC CAATCTTAGC 
    AAAGAACTAT CAATAAAACC ATTCAAACAG GGTAATACAT GTGACAATGT GAGCCAACAC 
    CCCGTTAAAC TGAACCCACA AACAACAAAC AAAATCAACA GATCAACAGG ACAAATAGCC 
    CGTTGTAAAA GTCAATTATC GAACCAAACC ACATCGTCAA CTGACCAGAC AAATATAGTA 
    AACAAGGAAG TGACAGTCAA AACATTTCAA ACAAAGACTG TCATTCAGGA AATAACTACA 
    ACTGTTACAA AAACTATCAA AACTGTAAAC CAAAGTGTTC AGCAAGAGTT TCATACTGCC 
    AATCAGTCAT GTACCCAAAA TGTATTTAGA AAAGTACAAG GCATGCGGCC GCCAGTTCAA 
    CAGCCCACTA AGAACTACCA AGGTGTAGTA GTCAGACATG CCGCGCCAAT TATGGGCACT 
    AAAGTCAAAA ATCCTGTGAC CCCTTTAAGA CCAACGAGAC CACCCGCTAC AGTTTCTAAT 
    CAACTAGTAC CTGTCAGGCA AGGTACACCT ATGAACGTAA GGCCTCATAC ACCAAGGTTG 
    CCTACAGTAA GAAGTAGTGC ACCATCAAAC TTTACAAAAA CCTCAACTCC AGTTAAAATG 
    TCGCCTAATG TCGTAAATAA TTCTACTAAA AAGAAACCAG TTACACAAGA AGCAAAAGGT 
    CCATTTAGTT GTTTCAAAAA ACCCAAACAA TCATTGATAC CCGTATCTGA ATTCTCAGGC 
    GTCAGCAGTG GAGAAGACGA CTCTATAAAC TTTGCTACGA CTACACGTGT GAATAAGTCT 
    AATGTTATAA ATATGGCAAA GACAATGAAA GGTAATACAA TTGTTAGTTC AACACAAATG 
    AAATCTGAAG TAAGTTCCTG TTCACAACAG CTAAGCAAGC TAAACAATGT GACAGGATTA 
    AAAATAGTTA AGACTAGTCA AGTAAAACAA GTTTCTCAAA TGGAGGAAAA GCAAGACATT 
    AGTCCTACCA AGAGAAATAC ACTGGAAGCC ATAGAAAAAT TACAGAAGCA AGGATTGTTG 
    GTTAAAAAGC CTCGTCTCGA AGCAAACGAA GAGAGCGGAT TTTCTGATGA GGATGACTGT 
    GAGGGTGACG GTGACGACCC CATGGAAGAG TACAACGATT TCGATGACGA CTGA

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

    RefSeq XP_013193225.1
    CDS105..4058
    Translation

    Target ORF information:

    RefSeq Version XM_013337771.1
    Organism Amyelois transitella
    Definition Amyelois transitella probable serine/threonine-protein kinase DDB_G0282963 (LOC106137032), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_013337771.1

    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
    ATGTTGTACC ATAATAAATT CTTTCATAGG CAAGATACTG ATCTGCCATC TATAGGGCAG 
    TCAAAGAAAT TGAAAATGGC TGGACAGATC TCATTGATGA TATATTATTG TCCCTTTTGT 
    GGTCAGGAGT ATAACAACAA AGTCAATTTA CATAAACACA TGAGTGACGA CCATAGTGAC 
    GAAAACCAAA GTCCTGATGA TGTGCTGCGA TGTCCACTCT GTGATGCTAT ATTTTATCAT 
    CTTGATGCTT ATGAACACCA TCTGTCTTTT CACAGTATTG ATGACATGTA CAGTGAAAAG 
    AATGACATGG TAGAAAGTGT GACAGATTTT TCTCTTGAAG CTGTTCCACC TGTAATGGAG 
    AGAGTTGAGA ATCTGGAACC CGAACCTAAC AACACACCTG ATGGCGATGC TATGGGTCTG 
    GACGATTTGT TGCTAATGGC GATGAGCAAC CCTGTGGATG AAGATAATCC AAAAAAGTCT 
    AAAAAGCATA AGAAACACAA GAAATCTAAA AAAGCTGCAA TTACATTAGA TGAGTTTCTA 
    AATATGAATA AAGATGTTTT TGGTGAAGGT ATAGACTTTC AAGGAGTAGA AGAAGTGCCA 
    TCACAAGTAG TAGCAAAGAG GTTTAAAGTA AAAAATAAAG CAGCATCAAT ACCCAAAACT 
    GGAACCAAAA TGTCTCGTAT TGAACTGGAA AAATTGCGTA AACAGGGAAT TGTAATTAAA 
    ATGAAAGGTT CTTCTGGGAA GAAACCAATA CCAACTAGAG TTAAACAAAT GTGTAAAACA 
    AATGTCATTG ACTTGAACAC GCAAAACCGG TCTACTTCTG TTAATTCATC CAATGAAGTA 
    TTAACCAAGC TGATTAATCA AAGTAATAAT CAAATAAAAA TAGTAAGAAA GCCTGCACCC 
    ACACTAAACG AGACAAATAG CTTTGATGAA AAACCTTCAT CTCCTGAAAA CATAGAAGTT 
    GAATGTGATT TAATACAAAG ATACACATCT TCCGAAACAG AAGGTGAAGA CAAATCTGAT 
    ATCAAAAAAA TATCTAAAGA GGAAATAAGC TCTGGCATTG AAGACGACCA TTTAGAAAAA 
    TCATCAAATA AAGTTGATAC TGCCAACTCT GATAACCCTA CTTTTGAACC TAATCATAAT 
    TCGCAGATTG GTGATTGTAA CATCAAGAAT AATGCTAATC AAAGTACTCC CGATCATGAC 
    AAAAATAAAG ATAGTAATAT TAATAACTCT CTGAAGTCTT TGAAAAATGT TAACCAGCAC 
    CTAACTGTCA AACCTGTGAT TACTTCAGTA AAAACCAACT GCAATCCTAA ACATGAAACA 
    TTAACAAATG AGAGTTTTGA CAACACGGTC ATAACGAAAC AAAGCGAACC TTCCGAAAAA 
    GAAACTTCAG AAAAAGGTAA AGACAAACCT CTAAATGCAT TAAAACATTT GAGTCATCTT 
    ATTACAATTA AATCAGTATC ACAGACTACA AATGATAAGC TGCTATCACA GATAAAAAGA 
    AGAAATTCTT TTCATGAAGA TGACTCTCTT GGGGATTCTA AAACGAATTC CGACGAAGAC 
    GATTCGTCTT TAGCGTCACG TAATGAACTA CCTTCACCGA CGCCAGAACC AAAACAAACG 
    CCCGTGGAAT CAATAACTGC TTTCAAGAAA TTAAACAGCA ATGTCACTGT AAAAGCAATG 
    AAGAGTACAA TTCAGCCCTC TCAGGCACAA ATGCCAGAAT TCTCAGACGA AGAAGAAAAA 
    AGCATTAATC CACCAGCAAA AATAAATTTG AACAATCAAC ATGTCATGAG GTCTTTGTCT 
    ACAATACCAC AAAAAATTGG AATAGATCCA GCCTTATCAA CTAAAGGCAG AATAAAAGAT 
    ACTAATGTTG CTGCTGAAGA CAGAACAAAT ATTCAATCAA ATGTTAATCT TTTAAGAAAA 
    CTTAAAAATG TTACTGCTAA ACCAATAAAT TCCCAAAATG CTCAAATAAA TAAATTTAAG 
    TCACCAATGA ACCGAAATAG AACAGAAACA CAGGTTGGAA ACAATGAAGA AGGAAATAAA 
    GAAATTGAAA TTTATAATAT TGATGACTCT GACAGTGATA ATTCTGAAGA CACTTTACCA 
    AGAGACACAA TGATCAAATC AGATGTTTCT AAGAATGAAA CTAATAACAT TAATTGTAAT 
    GTATTAAAAA AATTGAGTAA ACATTTAACC ATAAAGCCAA CTAATCAAAA ATCTCCACAA 
    ATTAATGTTA AATCAGAACC TGATCAAGAC GAATTTTCAG ATTATTCTCA AGAAAATTCC 
    GAAAAATATG CAGAAAAATG CAAAGTAACT TTAAATAAAA CAAACGAAAT TCTTAAAAAT 
    ACGCTAAAGA ACTTAAGTAA AAATGTTACA GTAAAGTCAA GAAACTCTTC CCCAAATGCG 
    ACAGTTACAA CCCATAACAT CAAAAACCAA GATTATAATG GCGAATGTAA AGACGACAGC 
    GAAAACGACA TTCGTCCAGG TCAAGTCAAA ATCACTGAAG TTGACGATGA ATACAATGGT 
    CCAAGTGATA ATGACGATTT TGACGAAGAT TTTACTGACA ATCCAATAGT TCAATCACCT 
    CACGATTCAT ACAGTGATGA TGATATTGAT TTTTCTCAAA AATCCCAGGA AGAGTTGGAT 
    GATATTGAAA GCAAAATACA TGCCAATACA GTCAGTAAAA TCGAAACCAG TCATAATGAA 
    AATTCAAAAA ATATTGGTAA AGGTATTACC ATCAAATCGC TAAGCGAGAA AACGTCTCAG 
    TCGCATTCAG AGACAGTTAA TACAACAAAA GGAAATGCAA CTATGCCTGC CAATCTTAGC 
    AAAGAACTAT CAATAAAACC ATTCAAACAG GGTAATACAT GTGACAATGT GAGCCAACAC 
    CCCGTTAAAC TGAACCCACA AACAACAAAC AAAATCAACA GATCAACAGG ACAAATAGCC 
    CGTTGTAAAA GTCAATTATC GAACCAAACC ACATCGTCAA CTGACCAGAC AAATATAGTA 
    AACAAGGAAG TGACAGTCAA AACATTTCAA ACAAAGACTG TCATTCAGGA AATAACTACA 
    ACTGTTACAA AAACTATCAA AACTGTAAAC CAAAGTGTTC AGCAAGAGTT TCATACTGCC 
    AATCAGTCAT GTACCCAAAA TGTATTTAGA AAAGTACAAG GCATGCGGCC GCCAGTTCAA 
    CAGCCCACTA AGAACTACCA AGGTGTAGTA GTCAGACATG CCGCGCCAAT TATGGGCACT 
    AAAGTCAAAA ATCCTGTGAC CCCTTTAAGA CCAACGAGAC CACCCGCTAC AGTTTCTAAT 
    CAACTAGTAC CTGTCAGGCA AGGTACACCT ATGAACGTAA GGCCTCATAC ACCAAGGTTG 
    CCTACAGTAA GAAGTAGTGC ACCATCAAAC TTTACAAAAA CCTCAACTCC AGTTAAAATG 
    TCGCCTAATG TCGTAAATAA TTCTACTAAA AAGAAACCAG TTACACAAGA AGCAAAAGGT 
    CCATTTAGTT GTTTCAAAAA ACCCAAACAA TCATTGATAC CCGTATCTGA ATTCTCAGGC 
    GTCAGCAGTG GAGAAGACGA CTCTATAAAC TTTGCTACGA CTACACGTGT GAATAAGTCT 
    AATGTTATAA ATATGGCAAA GACAATGAAA GGTAATACAA TTGTTAGTTC AACACAAATG 
    AAATCTGAAG TAAGTTCCTG TTCACAACAG CTAAGCAAGC TAAACAATGT GACAGGATTA 
    AAAATAGTTA AGACTAGTCA AGTAAAACAA GTTTCTCAAA TGGAGGAAAA GCAAGACATT 
    AGTCCTACCA AGAGAAATAC ACTGGAAGCC ATAGAAAAAT TACAGAAGCA AGGATTGTTG 
    GTTAAAAAGC CTCGTCTCGA AGCAAACGAA GAGAGCGGAT TTTCTGATGA GGATGACTGT 
    GAGGGTGACG GTGACGACCC CATGGAAGAG TACAACGATT TCGATGACGA CTGA

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

    LOC106137032 ( XM_013337770.1 ) cDNA ORF clone, Amyelois transitella -> XP_013193224.1 Amyelois transitella probable serine/threonine-protein kinase DDB_G0282963 (LOC106137032), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OAm66676
    Clone ID Related Accession (Same CDS sequence) XM_013337772.1 , XM_013337771.1 , XM_013337770.1
    Accession Version XM_013337770.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3954bp)
    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 2015-08-05
    Organism Amyelois transitella
    Product probable serine/threonine-protein kinase DDB_G0282963 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_013535550.1) 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 :: Amyelois transitella Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 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
    ATGTTGTACC ATAATAAATT CTTTCATAGG CAAGATACTG ATCTGCCATC TATAGGGCAG 
    TCAAAGAAAT TGAAAATGGC TGGACAGATC TCATTGATGA TATATTATTG TCCCTTTTGT 
    GGTCAGGAGT ATAACAACAA AGTCAATTTA CATAAACACA TGAGTGACGA CCATAGTGAC 
    GAAAACCAAA GTCCTGATGA TGTGCTGCGA TGTCCACTCT GTGATGCTAT ATTTTATCAT 
    CTTGATGCTT ATGAACACCA TCTGTCTTTT CACAGTATTG ATGACATGTA CAGTGAAAAG 
    AATGACATGG TAGAAAGTGT GACAGATTTT TCTCTTGAAG CTGTTCCACC TGTAATGGAG 
    AGAGTTGAGA ATCTGGAACC CGAACCTAAC AACACACCTG ATGGCGATGC TATGGGTCTG 
    GACGATTTGT TGCTAATGGC GATGAGCAAC CCTGTGGATG AAGATAATCC AAAAAAGTCT 
    AAAAAGCATA AGAAACACAA GAAATCTAAA AAAGCTGCAA TTACATTAGA TGAGTTTCTA 
    AATATGAATA AAGATGTTTT TGGTGAAGGT ATAGACTTTC AAGGAGTAGA AGAAGTGCCA 
    TCACAAGTAG TAGCAAAGAG GTTTAAAGTA AAAAATAAAG CAGCATCAAT ACCCAAAACT 
    GGAACCAAAA TGTCTCGTAT TGAACTGGAA AAATTGCGTA AACAGGGAAT TGTAATTAAA 
    ATGAAAGGTT CTTCTGGGAA GAAACCAATA CCAACTAGAG TTAAACAAAT GTGTAAAACA 
    AATGTCATTG ACTTGAACAC GCAAAACCGG TCTACTTCTG TTAATTCATC CAATGAAGTA 
    TTAACCAAGC TGATTAATCA AAGTAATAAT CAAATAAAAA TAGTAAGAAA GCCTGCACCC 
    ACACTAAACG AGACAAATAG CTTTGATGAA AAACCTTCAT CTCCTGAAAA CATAGAAGTT 
    GAATGTGATT TAATACAAAG ATACACATCT TCCGAAACAG AAGGTGAAGA CAAATCTGAT 
    ATCAAAAAAA TATCTAAAGA GGAAATAAGC TCTGGCATTG AAGACGACCA TTTAGAAAAA 
    TCATCAAATA AAGTTGATAC TGCCAACTCT GATAACCCTA CTTTTGAACC TAATCATAAT 
    TCGCAGATTG GTGATTGTAA CATCAAGAAT AATGCTAATC AAAGTACTCC CGATCATGAC 
    AAAAATAAAG ATAGTAATAT TAATAACTCT CTGAAGTCTT TGAAAAATGT TAACCAGCAC 
    CTAACTGTCA AACCTGTGAT TACTTCAGTA AAAACCAACT GCAATCCTAA ACATGAAACA 
    TTAACAAATG AGAGTTTTGA CAACACGGTC ATAACGAAAC AAAGCGAACC TTCCGAAAAA 
    GAAACTTCAG AAAAAGGTAA AGACAAACCT CTAAATGCAT TAAAACATTT GAGTCATCTT 
    ATTACAATTA AATCAGTATC ACAGACTACA AATGATAAGC TGCTATCACA GATAAAAAGA 
    AGAAATTCTT TTCATGAAGA TGACTCTCTT GGGGATTCTA AAACGAATTC CGACGAAGAC 
    GATTCGTCTT TAGCGTCACG TAATGAACTA CCTTCACCGA CGCCAGAACC AAAACAAACG 
    CCCGTGGAAT CAATAACTGC TTTCAAGAAA TTAAACAGCA ATGTCACTGT AAAAGCAATG 
    AAGAGTACAA TTCAGCCCTC TCAGGCACAA ATGCCAGAAT TCTCAGACGA AGAAGAAAAA 
    AGCATTAATC CACCAGCAAA AATAAATTTG AACAATCAAC ATGTCATGAG GTCTTTGTCT 
    ACAATACCAC AAAAAATTGG AATAGATCCA GCCTTATCAA CTAAAGGCAG AATAAAAGAT 
    ACTAATGTTG CTGCTGAAGA CAGAACAAAT ATTCAATCAA ATGTTAATCT TTTAAGAAAA 
    CTTAAAAATG TTACTGCTAA ACCAATAAAT TCCCAAAATG CTCAAATAAA TAAATTTAAG 
    TCACCAATGA ACCGAAATAG AACAGAAACA CAGGTTGGAA ACAATGAAGA AGGAAATAAA 
    GAAATTGAAA TTTATAATAT TGATGACTCT GACAGTGATA ATTCTGAAGA CACTTTACCA 
    AGAGACACAA TGATCAAATC AGATGTTTCT AAGAATGAAA CTAATAACAT TAATTGTAAT 
    GTATTAAAAA AATTGAGTAA ACATTTAACC ATAAAGCCAA CTAATCAAAA ATCTCCACAA 
    ATTAATGTTA AATCAGAACC TGATCAAGAC GAATTTTCAG ATTATTCTCA AGAAAATTCC 
    GAAAAATATG CAGAAAAATG CAAAGTAACT TTAAATAAAA CAAACGAAAT TCTTAAAAAT 
    ACGCTAAAGA ACTTAAGTAA AAATGTTACA GTAAAGTCAA GAAACTCTTC CCCAAATGCG 
    ACAGTTACAA CCCATAACAT CAAAAACCAA GATTATAATG GCGAATGTAA AGACGACAGC 
    GAAAACGACA TTCGTCCAGG TCAAGTCAAA ATCACTGAAG TTGACGATGA ATACAATGGT 
    CCAAGTGATA ATGACGATTT TGACGAAGAT TTTACTGACA ATCCAATAGT TCAATCACCT 
    CACGATTCAT ACAGTGATGA TGATATTGAT TTTTCTCAAA AATCCCAGGA AGAGTTGGAT 
    GATATTGAAA GCAAAATACA TGCCAATACA GTCAGTAAAA TCGAAACCAG TCATAATGAA 
    AATTCAAAAA ATATTGGTAA AGGTATTACC ATCAAATCGC TAAGCGAGAA AACGTCTCAG 
    TCGCATTCAG AGACAGTTAA TACAACAAAA GGAAATGCAA CTATGCCTGC CAATCTTAGC 
    AAAGAACTAT CAATAAAACC ATTCAAACAG GGTAATACAT GTGACAATGT GAGCCAACAC 
    CCCGTTAAAC TGAACCCACA AACAACAAAC AAAATCAACA GATCAACAGG ACAAATAGCC 
    CGTTGTAAAA GTCAATTATC GAACCAAACC ACATCGTCAA CTGACCAGAC AAATATAGTA 
    AACAAGGAAG TGACAGTCAA AACATTTCAA ACAAAGACTG TCATTCAGGA AATAACTACA 
    ACTGTTACAA AAACTATCAA AACTGTAAAC CAAAGTGTTC AGCAAGAGTT TCATACTGCC 
    AATCAGTCAT GTACCCAAAA TGTATTTAGA AAAGTACAAG GCATGCGGCC GCCAGTTCAA 
    CAGCCCACTA AGAACTACCA AGGTGTAGTA GTCAGACATG CCGCGCCAAT TATGGGCACT 
    AAAGTCAAAA ATCCTGTGAC CCCTTTAAGA CCAACGAGAC CACCCGCTAC AGTTTCTAAT 
    CAACTAGTAC CTGTCAGGCA AGGTACACCT ATGAACGTAA GGCCTCATAC ACCAAGGTTG 
    CCTACAGTAA GAAGTAGTGC ACCATCAAAC TTTACAAAAA CCTCAACTCC AGTTAAAATG 
    TCGCCTAATG TCGTAAATAA TTCTACTAAA AAGAAACCAG TTACACAAGA AGCAAAAGGT 
    CCATTTAGTT GTTTCAAAAA ACCCAAACAA TCATTGATAC CCGTATCTGA ATTCTCAGGC 
    GTCAGCAGTG GAGAAGACGA CTCTATAAAC TTTGCTACGA CTACACGTGT GAATAAGTCT 
    AATGTTATAA ATATGGCAAA GACAATGAAA GGTAATACAA TTGTTAGTTC AACACAAATG 
    AAATCTGAAG TAAGTTCCTG TTCACAACAG CTAAGCAAGC TAAACAATGT GACAGGATTA 
    AAAATAGTTA AGACTAGTCA AGTAAAACAA GTTTCTCAAA TGGAGGAAAA GCAAGACATT 
    AGTCCTACCA AGAGAAATAC ACTGGAAGCC ATAGAAAAAT TACAGAAGCA AGGATTGTTG 
    GTTAAAAAGC CTCGTCTCGA AGCAAACGAA GAGAGCGGAT TTTCTGATGA GGATGACTGT 
    GAGGGTGACG GTGACGACCC CATGGAAGAG TACAACGATT TCGATGACGA CTGA

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

    RefSeq XP_013193224.1
    CDS270..4223
    Translation

    Target ORF information:

    RefSeq Version XM_013337770.1
    Organism Amyelois transitella
    Definition Amyelois transitella probable serine/threonine-protein kinase DDB_G0282963 (LOC106137032), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_013337770.1

    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
    ATGTTGTACC ATAATAAATT CTTTCATAGG CAAGATACTG ATCTGCCATC TATAGGGCAG 
    TCAAAGAAAT TGAAAATGGC TGGACAGATC TCATTGATGA TATATTATTG TCCCTTTTGT 
    GGTCAGGAGT ATAACAACAA AGTCAATTTA CATAAACACA TGAGTGACGA CCATAGTGAC 
    GAAAACCAAA GTCCTGATGA TGTGCTGCGA TGTCCACTCT GTGATGCTAT ATTTTATCAT 
    CTTGATGCTT ATGAACACCA TCTGTCTTTT CACAGTATTG ATGACATGTA CAGTGAAAAG 
    AATGACATGG TAGAAAGTGT GACAGATTTT TCTCTTGAAG CTGTTCCACC TGTAATGGAG 
    AGAGTTGAGA ATCTGGAACC CGAACCTAAC AACACACCTG ATGGCGATGC TATGGGTCTG 
    GACGATTTGT TGCTAATGGC GATGAGCAAC CCTGTGGATG AAGATAATCC AAAAAAGTCT 
    AAAAAGCATA AGAAACACAA GAAATCTAAA AAAGCTGCAA TTACATTAGA TGAGTTTCTA 
    AATATGAATA AAGATGTTTT TGGTGAAGGT ATAGACTTTC AAGGAGTAGA AGAAGTGCCA 
    TCACAAGTAG TAGCAAAGAG GTTTAAAGTA AAAAATAAAG CAGCATCAAT ACCCAAAACT 
    GGAACCAAAA TGTCTCGTAT TGAACTGGAA AAATTGCGTA AACAGGGAAT TGTAATTAAA 
    ATGAAAGGTT CTTCTGGGAA GAAACCAATA CCAACTAGAG TTAAACAAAT GTGTAAAACA 
    AATGTCATTG ACTTGAACAC GCAAAACCGG TCTACTTCTG TTAATTCATC CAATGAAGTA 
    TTAACCAAGC TGATTAATCA AAGTAATAAT CAAATAAAAA TAGTAAGAAA GCCTGCACCC 
    ACACTAAACG AGACAAATAG CTTTGATGAA AAACCTTCAT CTCCTGAAAA CATAGAAGTT 
    GAATGTGATT TAATACAAAG ATACACATCT TCCGAAACAG AAGGTGAAGA CAAATCTGAT 
    ATCAAAAAAA TATCTAAAGA GGAAATAAGC TCTGGCATTG AAGACGACCA TTTAGAAAAA 
    TCATCAAATA AAGTTGATAC TGCCAACTCT GATAACCCTA CTTTTGAACC TAATCATAAT 
    TCGCAGATTG GTGATTGTAA CATCAAGAAT AATGCTAATC AAAGTACTCC CGATCATGAC 
    AAAAATAAAG ATAGTAATAT TAATAACTCT CTGAAGTCTT TGAAAAATGT TAACCAGCAC 
    CTAACTGTCA AACCTGTGAT TACTTCAGTA AAAACCAACT GCAATCCTAA ACATGAAACA 
    TTAACAAATG AGAGTTTTGA CAACACGGTC ATAACGAAAC AAAGCGAACC TTCCGAAAAA 
    GAAACTTCAG AAAAAGGTAA AGACAAACCT CTAAATGCAT TAAAACATTT GAGTCATCTT 
    ATTACAATTA AATCAGTATC ACAGACTACA AATGATAAGC TGCTATCACA GATAAAAAGA 
    AGAAATTCTT TTCATGAAGA TGACTCTCTT GGGGATTCTA AAACGAATTC CGACGAAGAC 
    GATTCGTCTT TAGCGTCACG TAATGAACTA CCTTCACCGA CGCCAGAACC AAAACAAACG 
    CCCGTGGAAT CAATAACTGC TTTCAAGAAA TTAAACAGCA ATGTCACTGT AAAAGCAATG 
    AAGAGTACAA TTCAGCCCTC TCAGGCACAA ATGCCAGAAT TCTCAGACGA AGAAGAAAAA 
    AGCATTAATC CACCAGCAAA AATAAATTTG AACAATCAAC ATGTCATGAG GTCTTTGTCT 
    ACAATACCAC AAAAAATTGG AATAGATCCA GCCTTATCAA CTAAAGGCAG AATAAAAGAT 
    ACTAATGTTG CTGCTGAAGA CAGAACAAAT ATTCAATCAA ATGTTAATCT TTTAAGAAAA 
    CTTAAAAATG TTACTGCTAA ACCAATAAAT TCCCAAAATG CTCAAATAAA TAAATTTAAG 
    TCACCAATGA ACCGAAATAG AACAGAAACA CAGGTTGGAA ACAATGAAGA AGGAAATAAA 
    GAAATTGAAA TTTATAATAT TGATGACTCT GACAGTGATA ATTCTGAAGA CACTTTACCA 
    AGAGACACAA TGATCAAATC AGATGTTTCT AAGAATGAAA CTAATAACAT TAATTGTAAT 
    GTATTAAAAA AATTGAGTAA ACATTTAACC ATAAAGCCAA CTAATCAAAA ATCTCCACAA 
    ATTAATGTTA AATCAGAACC TGATCAAGAC GAATTTTCAG ATTATTCTCA AGAAAATTCC 
    GAAAAATATG CAGAAAAATG CAAAGTAACT TTAAATAAAA CAAACGAAAT TCTTAAAAAT 
    ACGCTAAAGA ACTTAAGTAA AAATGTTACA GTAAAGTCAA GAAACTCTTC CCCAAATGCG 
    ACAGTTACAA CCCATAACAT CAAAAACCAA GATTATAATG GCGAATGTAA AGACGACAGC 
    GAAAACGACA TTCGTCCAGG TCAAGTCAAA ATCACTGAAG TTGACGATGA ATACAATGGT 
    CCAAGTGATA ATGACGATTT TGACGAAGAT TTTACTGACA ATCCAATAGT TCAATCACCT 
    CACGATTCAT ACAGTGATGA TGATATTGAT TTTTCTCAAA AATCCCAGGA AGAGTTGGAT 
    GATATTGAAA GCAAAATACA TGCCAATACA GTCAGTAAAA TCGAAACCAG TCATAATGAA 
    AATTCAAAAA ATATTGGTAA AGGTATTACC ATCAAATCGC TAAGCGAGAA AACGTCTCAG 
    TCGCATTCAG AGACAGTTAA TACAACAAAA GGAAATGCAA CTATGCCTGC CAATCTTAGC 
    AAAGAACTAT CAATAAAACC ATTCAAACAG GGTAATACAT GTGACAATGT GAGCCAACAC 
    CCCGTTAAAC TGAACCCACA AACAACAAAC AAAATCAACA GATCAACAGG ACAAATAGCC 
    CGTTGTAAAA GTCAATTATC GAACCAAACC ACATCGTCAA CTGACCAGAC AAATATAGTA 
    AACAAGGAAG TGACAGTCAA AACATTTCAA ACAAAGACTG TCATTCAGGA AATAACTACA 
    ACTGTTACAA AAACTATCAA AACTGTAAAC CAAAGTGTTC AGCAAGAGTT TCATACTGCC 
    AATCAGTCAT GTACCCAAAA TGTATTTAGA AAAGTACAAG GCATGCGGCC GCCAGTTCAA 
    CAGCCCACTA AGAACTACCA AGGTGTAGTA GTCAGACATG CCGCGCCAAT TATGGGCACT 
    AAAGTCAAAA ATCCTGTGAC CCCTTTAAGA CCAACGAGAC CACCCGCTAC AGTTTCTAAT 
    CAACTAGTAC CTGTCAGGCA AGGTACACCT ATGAACGTAA GGCCTCATAC ACCAAGGTTG 
    CCTACAGTAA GAAGTAGTGC ACCATCAAAC TTTACAAAAA CCTCAACTCC AGTTAAAATG 
    TCGCCTAATG TCGTAAATAA TTCTACTAAA AAGAAACCAG TTACACAAGA AGCAAAAGGT 
    CCATTTAGTT GTTTCAAAAA ACCCAAACAA TCATTGATAC CCGTATCTGA ATTCTCAGGC 
    GTCAGCAGTG GAGAAGACGA CTCTATAAAC TTTGCTACGA CTACACGTGT GAATAAGTCT 
    AATGTTATAA ATATGGCAAA GACAATGAAA GGTAATACAA TTGTTAGTTC AACACAAATG 
    AAATCTGAAG TAAGTTCCTG TTCACAACAG CTAAGCAAGC TAAACAATGT GACAGGATTA 
    AAAATAGTTA AGACTAGTCA AGTAAAACAA GTTTCTCAAA TGGAGGAAAA GCAAGACATT 
    AGTCCTACCA AGAGAAATAC ACTGGAAGCC ATAGAAAAAT TACAGAAGCA AGGATTGTTG 
    GTTAAAAAGC CTCGTCTCGA AGCAAACGAA GAGAGCGGAT TTTCTGATGA GGATGACTGT 
    GAGGGTGACG GTGACGACCC CATGGAAGAG TACAACGATT TCGATGACGA CTGA

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

見積依頼

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電話

03-6811-6572

FAX

03-6811-6573
050-3174-7589(受注専用)

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