KIDINS220 cDNA ORF clone, Apteryx australis mantelli

The following KIDINS220 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the KIDINS220 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
OAp23373 XM_013955055.1
Latest version!
Apteryx australis mantelli kinase D-interacting substrate, 220kDa (KIDINS220), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OAp23374 XM_013955056.1
Latest version!
Apteryx australis mantelli kinase D-interacting substrate, 220kDa (KIDINS220), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OAp23375 XM_013955057.1
Latest version!
Apteryx australis mantelli kinase D-interacting substrate, 220kDa (KIDINS220), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OAp23376 XM_013955058.1
Latest version!
Apteryx australis mantelli kinase D-interacting substrate, 220kDa (KIDINS220), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00

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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)
    CloneID OAp23373
    Clone ID Related Accession (Same CDS sequence) XM_013955055.1
    Accession Version XM_013955055.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4347bp)
    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 2015-09-08
    Organism Apteryx australis mantelli
    Product kinase D-interacting substrate of 220 kDa isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014003927.1) 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 :: Apteryx australis mantelli 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
    ATGGTGAGGG ATATCTTGCA ATGCAACCCT GATACTGAAA CATGTACGAA GGATGGAGAA 
    ACACCACTTA TAAAGGCAAC CAAGATGAGA AATATTGAGA TAGTAGAGCT CCTTCTGGAC
    AAAGGAGCTA AGGTTTCTGC TGTAGACAAG AGAGGAGATA CTCCACTTCA TATTGCCATT
    CGTGGAAGAA GCCGTAAACT TGCTGAACTA CTCTTAAGGA ATCCAAAAGA TGGTAGATTG
    CTTTATAGAC CCAACAAAAC AGGAGAAACA CCTTACAATA TTGACTGTAG CCACCAGAAA
    AGTATTTTAA CACAGATATT TGGAGCCCGG CACTTGTCTC CCACGGAATC TGATGGTGAC
    ATGCTGGGGT ATGATCTCTA CAGCAGTGCT TTGGCTGATA TTCTTAGCGA ACCAACCATG
    CAGCCACCTA TCTGTGTAGG GTTGTATGCA CAGTGGGGAA GTGGAAAATC TTTTCTTCTC
    AAGAAACTGG AAGATGAAAT GAAAACTTTT GCAGGACAGC AAATTGAGCC TCTGTTCCAG
    TTCTCCTGGC TTATTGTATT CCTCACGCTT TTGCTGTGTG GAGGTTTGGG TTTATTGCTT
    GCTTTCACAG TGGATGCAAA GCTTGGAATA GCAGTGTCAC TCAGCTTATT AGCAGTTCTC
    TATATATTCT TTGCTGTAAT TTACTTTGGT GGCCGAAGAG AAGGTGAGAG CTGGAACTGG
    GCCTGGGTAT TAAGTGCAAG GCTGGCAAGA CATATTGGGT ATTTAGAGTT GCTTCTCAAA
    CTCATGTTTG TGAACCCACC AGAATTACCA GAACAAACCA CTAAAGCTTT ACCGGTCAGA
    TTTTTGTTTA CTGACTACAA TAGACTGTCC AGTGTAGGTG GAGAAACTTC ATTGGCTGAG
    ATGATTGCTA CCCTCTCCGA TGCATGTGAA AGGGAATTTG GTTTCTTAGC AACAAGGTTA
    TTTCGAGTTT TCAAGACAGA AGATACACAA GGTAAAAAGA AATGGAAGAA AACTTGCTGT
    CTCCCATCCT TTGTGATTTT CCTATTCATA TTGTCTTGCA TAGTTTCTGG GATTGCTCTG
    CTGGCAATTT TTAACGTAGA ACCAACAAAC ATGACAGTGA ATGCTGTTCT TATATCAGTT
    GCATGTGTTG TTGGTTTGGC CTTTATCTTG AACTGTCGCA CCTGGTGGCA AGTGATGGAT
    TCAGTTTTAA ATTCTCAAAG AAAACGTCTT CACAATGCAG CCTCCAAGCT TCACAAGTTA
    AAAAGTGAGG GGTTCATGAA GGTTCTGAAA TGTGAAGTGG AACTGATGGC CAAAATGGCA
    AAAACCATTG ACAGCTTCAC TCAGAATCAG ACAAGGCTTG TTGTAATTAT TGATGGATTG
    GATGCTTGTG AACAGGACAA AGTTTTACAG ATGCTTGATA CGGTGCGAGT CTTGTTTTCG
    AAAGGCCCAT TTATTGCTAT TTTTGCAAGT GACCCACACA TTATTATAAA GGCTATTAAC
    CAAAATCTTA ATAGTGTTCT ACGTGATTCA AACATAAATG GACATGATTA CATGCGAAAT
    ATAGTCCATT TGCCTGTTTT TCTGAATAGC CGTGGGCTTA GTAACGCAAA AAAGCTGATG
    GTAGCTTCAA CAACCAATGG AGATGTTCCT TATGCAGATA GTGCAGGATT ACACGAAGAA
    GTTGACAGGA GAGTTTCTCA GAACAGTCTT GGAGAGATGA CCAAGCTTGG TAGCAAAACT
    GCTCTTAATA GACGGGATAC TTACCGAAGA CGACAAATGC AACGTACCAT TACTCGCCAG
    ATGTCTTTTG ATTTGACCAA GCTTTTGGTT ACAGAGGATT GGTTCAGTGA TATCAGTCCT
    CAGACCATGA GAAGATTGCT TAATATTGTT TCTGTGACAG GTCGTTTATT GAGAGCTAAT
    CAGATCACAT TCAATTGGGA TAGACTGGCT AGTTGGATCA ATCTCACAGA GCAGTGGCCA
    TACAGAACAT CGTGGCTCAT ACTACATCTT GAAGAGACTG AAGGTGTTCC AGATCAGCTG
    ACTTTAAAAA CCATTTATGA GAGAATTTCA AAGAATATTC CTACAACGAA AGATGTTGAA
    CCTCTACTGG AAATTGATGG AGACATACGG AACTTTGAAG TATTTTTATC TTCGCGAACG
    CCTGTTCTAA TAGCACGTGA TGTAAAAACC TTTTTGCCAT GTACTGTAAA TTTAGATCCC
    AAGCTACGAG AAATCATTGC AGATGTTCGT GCTGCAAGAG ATCAAATAAA TATTGGAGGA
    CTTCCTTATC CCACATTGCC TCTACATGAG GCCCCTGCTA GAGGAACATC TCTGTTCAGC
    CAGCCTTCTT CAGCTTGCTC TTCAACAACC TCTTTTAATG GACCTTTCAA TAATGGAGTT
    TTATCACCGC AACCTCATAG CAGTTACTAT AGTGGTATGA CAGGACCTCA GCATCCATTC
    TACAATCGGC CATTCTTTGC CCCATATCTT TACATGCCAA GGTATTACCC TGGCAGTTCT
    CATCTCATCT CACGTCCACC ACTAAAAACG AGTTTGTCCA GAGATCAGAA CAATGGCCTA
    GGAGCAGGAG TGGGCACAGG GTCGACCACA GGAGTAGCAC ATGTGCCTCT GAGCACAATG
    AGTGTGGAAG CTGTATGCGA GAAACTAAAG CAAATAGATG GTCTGGACCA GACTATGCTA
    CCTCAGTACT CTGCAACTAT AAGAAAGGCA AATATAAATG GCCGTGTCTT GGCTCAGTGC
    AACACTGATG AACTGAAAAG GGAAATGAAT ATGAATTTTG GTGACTGGCA TCTGTTCAGG
    AGCATGATAC TTGAAATGAG AAATTCAGAA AATCAGGCTG CTCAGGAAGA TCCTCGTGGA
    ACAACTGAGC ACGTTACCAC TGCGATTTCT CATAGTGAAC TTACTCGTCG TCCTGGGCAT
    AACACTGAGT TGCCTCACAC TGAGCTTACG GGTCTTTCTG GTCAAGCTCC CTACACACTT
    AACTTCAGCT TTGAAGAACT GAACACAATT GGTCTTGATG AAGCTCCTCC GCGTCATAGT
    AACTTAAGTT GGCAGTCACA GACTCGTAGA ACTCCAAGTC TTTCAAGTCT TAACTCTCAA
    GATTCTAGTA TCGAAATATC AAAGCTAACT GATAAGGTTC AGGCAGAATA TAGAGATGCG
    TATAGAGAAT ATATTGCTCA AATGTCACAG TTAGAAGGGG GTGCCAATTC TACTACGGTA
    AGTGGCAGGT CCTCCCCCCA TAGCTCATCT GCTTTCTATA TGGGGCAGAG CACATCAGGA
    GGCTCCCTGC ATTCAAGCGC AGAACAAGAA AAAGGAAAAG ATGGTGAACA GAAACAAGAT
    GATGGAAGAA AGTCCTTCTT GCTGAAGAGG AATGATGTTG TTGATTACAG TACGTCAGGT
    GTTTCTACTA ATGATGCATC TCCTTTGGAT CCTATTACTG AAGAAGATGA AAAATCTGAT
    CAGTCTGGTT CCAAGCTTCT CCCAGGAAAG AAGTCTTCAG AAAGAACAAG CATTTTCCAG
    GCTGCAGATA TAAAACTTAA GGGAGTTACT CTCCGGTATC AGAAACTTCC AAGTGATGAA
    GATGAGTCAG GAACTGAAGA ATCAGATAAT ACTCCACTTC TTAAGGAAGG TAAAGACAAG
    AAAGCAGATG GAAAAACAGA TAAACAGCCC AAATCCCCAG AACATGGATC TGAACCGATT
    AGAACATTCA TCAAAGCAAA GGAGTATTTG ACAGATGCCC TTTTGGATAA AAAAGATTCT
    TCTGATTCTG GTGTAAGATC CAATGAAAGT TCTCCAAATC ATTCCCTCCA TAATGAAGGA
    GCAGATGATT CACAGCTTGA AAAGGCAAAT CTCATTGAGC TTGAAGATGA CAGTCACAGT
    GGAAAACGAG GAATTCCGCA CAGCCTTAGT GGCCTTCAGG ATCCAGCTGT GGTTCGCATG
    TCTATTTGCT CAGAAGATAA GAAAAGCCCA TCTGAAAGCA GCTTGATAGC GAGCAGTCCA
    GAAGAGAACT GGCCTGCTTG CCAGAAAGTC TATAATTTAA ATAGAACCCC TAGTACAGTA
    ACACTAAATA ATAACAGTGC TCCAACCAAT AGAGCTAATC AAAATTTTGA AGAAATAGAA
    GGTATTAGAG ATTCATCTCA AATTATCCTG CGCCCTGGCA CAAGTTCCAA TTCAACTGCA
    GTTCAGAATG AGAACCTGAA GAGTGCCACT CACAAGCGGA GCCAGCGATC AAGTTATACC
    AGGCTTTCCA AAGATTCTTC AGAGCTCCAC ACTGTTGCTG CTTCAGATGG AGCTGGTTTT
    GGAGAAGAAA GAGAGAGTAT CCTATGA

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

    RefSeq XP_013810509.1
    CDS53..4399
    Translation

    Target ORF information:

    RefSeq Version XM_013955055.1
    Organism Apteryx australis mantelli
    Definition Apteryx australis mantelli kinase D-interacting substrate, 220kDa (KIDINS220), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_013955055.1

    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
    ATGGTGAGGG ATATCTTGCA ATGCAACCCT GATACTGAAA CATGTACGAA GGATGGAGAA 
    ACACCACTTA TAAAGGCAAC CAAGATGAGA AATATTGAGA TAGTAGAGCT CCTTCTGGAC
    AAAGGAGCTA AGGTTTCTGC TGTAGACAAG AGAGGAGATA CTCCACTTCA TATTGCCATT
    CGTGGAAGAA GCCGTAAACT TGCTGAACTA CTCTTAAGGA ATCCAAAAGA TGGTAGATTG
    CTTTATAGAC CCAACAAAAC AGGAGAAACA CCTTACAATA TTGACTGTAG CCACCAGAAA
    AGTATTTTAA CACAGATATT TGGAGCCCGG CACTTGTCTC CCACGGAATC TGATGGTGAC
    ATGCTGGGGT ATGATCTCTA CAGCAGTGCT TTGGCTGATA TTCTTAGCGA ACCAACCATG
    CAGCCACCTA TCTGTGTAGG GTTGTATGCA CAGTGGGGAA GTGGAAAATC TTTTCTTCTC
    AAGAAACTGG AAGATGAAAT GAAAACTTTT GCAGGACAGC AAATTGAGCC TCTGTTCCAG
    TTCTCCTGGC TTATTGTATT CCTCACGCTT TTGCTGTGTG GAGGTTTGGG TTTATTGCTT
    GCTTTCACAG TGGATGCAAA GCTTGGAATA GCAGTGTCAC TCAGCTTATT AGCAGTTCTC
    TATATATTCT TTGCTGTAAT TTACTTTGGT GGCCGAAGAG AAGGTGAGAG CTGGAACTGG
    GCCTGGGTAT TAAGTGCAAG GCTGGCAAGA CATATTGGGT ATTTAGAGTT GCTTCTCAAA
    CTCATGTTTG TGAACCCACC AGAATTACCA GAACAAACCA CTAAAGCTTT ACCGGTCAGA
    TTTTTGTTTA CTGACTACAA TAGACTGTCC AGTGTAGGTG GAGAAACTTC ATTGGCTGAG
    ATGATTGCTA CCCTCTCCGA TGCATGTGAA AGGGAATTTG GTTTCTTAGC AACAAGGTTA
    TTTCGAGTTT TCAAGACAGA AGATACACAA GGTAAAAAGA AATGGAAGAA AACTTGCTGT
    CTCCCATCCT TTGTGATTTT CCTATTCATA TTGTCTTGCA TAGTTTCTGG GATTGCTCTG
    CTGGCAATTT TTAACGTAGA ACCAACAAAC ATGACAGTGA ATGCTGTTCT TATATCAGTT
    GCATGTGTTG TTGGTTTGGC CTTTATCTTG AACTGTCGCA CCTGGTGGCA AGTGATGGAT
    TCAGTTTTAA ATTCTCAAAG AAAACGTCTT CACAATGCAG CCTCCAAGCT TCACAAGTTA
    AAAAGTGAGG GGTTCATGAA GGTTCTGAAA TGTGAAGTGG AACTGATGGC CAAAATGGCA
    AAAACCATTG ACAGCTTCAC TCAGAATCAG ACAAGGCTTG TTGTAATTAT TGATGGATTG
    GATGCTTGTG AACAGGACAA AGTTTTACAG ATGCTTGATA CGGTGCGAGT CTTGTTTTCG
    AAAGGCCCAT TTATTGCTAT TTTTGCAAGT GACCCACACA TTATTATAAA GGCTATTAAC
    CAAAATCTTA ATAGTGTTCT ACGTGATTCA AACATAAATG GACATGATTA CATGCGAAAT
    ATAGTCCATT TGCCTGTTTT TCTGAATAGC CGTGGGCTTA GTAACGCAAA AAAGCTGATG
    GTAGCTTCAA CAACCAATGG AGATGTTCCT TATGCAGATA GTGCAGGATT ACACGAAGAA
    GTTGACAGGA GAGTTTCTCA GAACAGTCTT GGAGAGATGA CCAAGCTTGG TAGCAAAACT
    GCTCTTAATA GACGGGATAC TTACCGAAGA CGACAAATGC AACGTACCAT TACTCGCCAG
    ATGTCTTTTG ATTTGACCAA GCTTTTGGTT ACAGAGGATT GGTTCAGTGA TATCAGTCCT
    CAGACCATGA GAAGATTGCT TAATATTGTT TCTGTGACAG GTCGTTTATT GAGAGCTAAT
    CAGATCACAT TCAATTGGGA TAGACTGGCT AGTTGGATCA ATCTCACAGA GCAGTGGCCA
    TACAGAACAT CGTGGCTCAT ACTACATCTT GAAGAGACTG AAGGTGTTCC AGATCAGCTG
    ACTTTAAAAA CCATTTATGA GAGAATTTCA AAGAATATTC CTACAACGAA AGATGTTGAA
    CCTCTACTGG AAATTGATGG AGACATACGG AACTTTGAAG TATTTTTATC TTCGCGAACG
    CCTGTTCTAA TAGCACGTGA TGTAAAAACC TTTTTGCCAT GTACTGTAAA TTTAGATCCC
    AAGCTACGAG AAATCATTGC AGATGTTCGT GCTGCAAGAG ATCAAATAAA TATTGGAGGA
    CTTCCTTATC CCACATTGCC TCTACATGAG GCCCCTGCTA GAGGAACATC TCTGTTCAGC
    CAGCCTTCTT CAGCTTGCTC TTCAACAACC TCTTTTAATG GACCTTTCAA TAATGGAGTT
    TTATCACCGC AACCTCATAG CAGTTACTAT AGTGGTATGA CAGGACCTCA GCATCCATTC
    TACAATCGGC CATTCTTTGC CCCATATCTT TACATGCCAA GGTATTACCC TGGCAGTTCT
    CATCTCATCT CACGTCCACC ACTAAAAACG AGTTTGTCCA GAGATCAGAA CAATGGCCTA
    GGAGCAGGAG TGGGCACAGG GTCGACCACA GGAGTAGCAC ATGTGCCTCT GAGCACAATG
    AGTGTGGAAG CTGTATGCGA GAAACTAAAG CAAATAGATG GTCTGGACCA GACTATGCTA
    CCTCAGTACT CTGCAACTAT AAGAAAGGCA AATATAAATG GCCGTGTCTT GGCTCAGTGC
    AACACTGATG AACTGAAAAG GGAAATGAAT ATGAATTTTG GTGACTGGCA TCTGTTCAGG
    AGCATGATAC TTGAAATGAG AAATTCAGAA AATCAGGCTG CTCAGGAAGA TCCTCGTGGA
    ACAACTGAGC ACGTTACCAC TGCGATTTCT CATAGTGAAC TTACTCGTCG TCCTGGGCAT
    AACACTGAGT TGCCTCACAC TGAGCTTACG GGTCTTTCTG GTCAAGCTCC CTACACACTT
    AACTTCAGCT TTGAAGAACT GAACACAATT GGTCTTGATG AAGCTCCTCC GCGTCATAGT
    AACTTAAGTT GGCAGTCACA GACTCGTAGA ACTCCAAGTC TTTCAAGTCT TAACTCTCAA
    GATTCTAGTA TCGAAATATC AAAGCTAACT GATAAGGTTC AGGCAGAATA TAGAGATGCG
    TATAGAGAAT ATATTGCTCA AATGTCACAG TTAGAAGGGG GTGCCAATTC TACTACGGTA
    AGTGGCAGGT CCTCCCCCCA TAGCTCATCT GCTTTCTATA TGGGGCAGAG CACATCAGGA
    GGCTCCCTGC ATTCAAGCGC AGAACAAGAA AAAGGAAAAG ATGGTGAACA GAAACAAGAT
    GATGGAAGAA AGTCCTTCTT GCTGAAGAGG AATGATGTTG TTGATTACAG TACGTCAGGT
    GTTTCTACTA ATGATGCATC TCCTTTGGAT CCTATTACTG AAGAAGATGA AAAATCTGAT
    CAGTCTGGTT CCAAGCTTCT CCCAGGAAAG AAGTCTTCAG AAAGAACAAG CATTTTCCAG
    GCTGCAGATA TAAAACTTAA GGGAGTTACT CTCCGGTATC AGAAACTTCC AAGTGATGAA
    GATGAGTCAG GAACTGAAGA ATCAGATAAT ACTCCACTTC TTAAGGAAGG TAAAGACAAG
    AAAGCAGATG GAAAAACAGA TAAACAGCCC AAATCCCCAG AACATGGATC TGAACCGATT
    AGAACATTCA TCAAAGCAAA GGAGTATTTG ACAGATGCCC TTTTGGATAA AAAAGATTCT
    TCTGATTCTG GTGTAAGATC CAATGAAAGT TCTCCAAATC ATTCCCTCCA TAATGAAGGA
    GCAGATGATT CACAGCTTGA AAAGGCAAAT CTCATTGAGC TTGAAGATGA CAGTCACAGT
    GGAAAACGAG GAATTCCGCA CAGCCTTAGT GGCCTTCAGG ATCCAGCTGT GGTTCGCATG
    TCTATTTGCT CAGAAGATAA GAAAAGCCCA TCTGAAAGCA GCTTGATAGC GAGCAGTCCA
    GAAGAGAACT GGCCTGCTTG CCAGAAAGTC TATAATTTAA ATAGAACCCC TAGTACAGTA
    ACACTAAATA ATAACAGTGC TCCAACCAAT AGAGCTAATC AAAATTTTGA AGAAATAGAA
    GGTATTAGAG ATTCATCTCA AATTATCCTG CGCCCTGGCA CAAGTTCCAA TTCAACTGCA
    GTTCAGAATG AGAACCTGAA GAGTGCCACT CACAAGCGGA GCCAGCGATC AAGTTATACC
    AGGCTTTCCA AAGATTCTTC AGAGCTCCAC ACTGTTGCTG CTTCAGATGG AGCTGGTTTT
    GGAGAAGAAA GAGAGAGTAT CCTATGA

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

    CloneID OAp23374
    Clone ID Related Accession (Same CDS sequence) XM_013955056.1
    Accession Version XM_013955056.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4275bp)
    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 2015-09-08
    Organism Apteryx australis mantelli
    Product kinase D-interacting substrate of 220 kDa isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014003927.1) 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 :: Apteryx australis mantelli 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
    ATGGTGAGGG ATATCTTGCA ATGCAACCCT GATACTGAAA CATGTACGAA GGATGGAGAA 
    ACACCACTTA TAAAGGCAAC CAAGATGAGA AATATTGAGA TAGTAGAGCT CCTTCTGGAC
    AAAGGAGCTA AGGTTTCTGC TGTAGACAAG AGAGGAGATA CTCCACTTCA TATTGCCATT
    CGTGGAAGAA GCCGTAAACT TGCTGAACTA CTCTTAAGGA ATCCAAAAGA TGGTAGATTG
    CTTTATAGAC CCAACAAAAC AGGAGAAACA CCTTACAATA TTGACTGTAG CCACCAGAAA
    AGTATTTTAA CACAGATATT TGGAGCCCGG CACTTGTCTC CCACGGAATC TGATGGTGAC
    ATGCTGGGGT ATGATCTCTA CAGCAGTGCT TTGGCTGATA TTCTTAGCGA ACCAACCATG
    CAGCCACCTA TCTGTGTAGG GTTGTATGCA CAGTGGGGAA GTGGAAAATC TTTTCTTCTC
    AAGAAACTGG AAGATGAAAT GAAAACTTTT GCAGGACAGC AAATTGAGCC TCTGTTCCAG
    TTCTCCTGGC TTATTGTATT CCTCACGCTT TTGCTGTGTG GAGGTTTGGG TTTATTGCTT
    GCTTTCACAG TGGATGCAAA GCTTGGAATA GCAGTGTCAC TCAGCTTATT AGCAGTTCTC
    TATATATTCT TTGCTGTAAT TTACTTTGGT GGCCGAAGAG AAGGTGAGAG CTGGAACTGG
    GCCTGGGTAT TAAGTGCAAG GCTGGCAAGA CATATTGGGT ATTTAGAGTT GCTTCTCAAA
    CTCATGTTTG TGAACCCACC AGAATTACCA GAACAAACCA CTAAAGCTTT ACCGGTCAGA
    TTTTTGTTTA CTGACTACAA TAGACTGTCC AGTGTAGGTG GAGAAACTTC ATTGGCTGAG
    ATGATTGCTA CCCTCTCCGA TGCATGTGAA AGGGAATTTG GTTTCTTAGC AACAAGGTTA
    TTTCGAGTTT TCAAGACAGA AGATACACAA GTTTCTGGGA TTGCTCTGCT GGCAATTTTT
    AACGTAGAAC CAACAAACAT GACAGTGAAT GCTGTTCTTA TATCAGTTGC ATGTGTTGTT
    GGTTTGGCCT TTATCTTGAA CTGTCGCACC TGGTGGCAAG TGATGGATTC AGTTTTAAAT
    TCTCAAAGAA AACGTCTTCA CAATGCAGCC TCCAAGCTTC ACAAGTTAAA AAGTGAGGGG
    TTCATGAAGG TTCTGAAATG TGAAGTGGAA CTGATGGCCA AAATGGCAAA AACCATTGAC
    AGCTTCACTC AGAATCAGAC AAGGCTTGTT GTAATTATTG ATGGATTGGA TGCTTGTGAA
    CAGGACAAAG TTTTACAGAT GCTTGATACG GTGCGAGTCT TGTTTTCGAA AGGCCCATTT
    ATTGCTATTT TTGCAAGTGA CCCACACATT ATTATAAAGG CTATTAACCA AAATCTTAAT
    AGTGTTCTAC GTGATTCAAA CATAAATGGA CATGATTACA TGCGAAATAT AGTCCATTTG
    CCTGTTTTTC TGAATAGCCG TGGGCTTAGT AACGCAAAAA AGCTGATGGT AGCTTCAACA
    ACCAATGGAG ATGTTCCTTA TGCAGATAGT GCAGGATTAC ACGAAGAAGT TGACAGGAGA
    GTTTCTCAGA ACAGTCTTGG AGAGATGACC AAGCTTGGTA GCAAAACTGC TCTTAATAGA
    CGGGATACTT ACCGAAGACG ACAAATGCAA CGTACCATTA CTCGCCAGAT GTCTTTTGAT
    TTGACCAAGC TTTTGGTTAC AGAGGATTGG TTCAGTGATA TCAGTCCTCA GACCATGAGA
    AGATTGCTTA ATATTGTTTC TGTGACAGGT CGTTTATTGA GAGCTAATCA GATCACATTC
    AATTGGGATA GACTGGCTAG TTGGATCAAT CTCACAGAGC AGTGGCCATA CAGAACATCG
    TGGCTCATAC TACATCTTGA AGAGACTGAA GGTGTTCCAG ATCAGCTGAC TTTAAAAACC
    ATTTATGAGA GAATTTCAAA GAATATTCCT ACAACGAAAG ATGTTGAACC TCTACTGGAA
    ATTGATGGAG ACATACGGAA CTTTGAAGTA TTTTTATCTT CGCGAACGCC TGTTCTAATA
    GCACGTGATG TAAAAACCTT TTTGCCATGT ACTGTAAATT TAGATCCCAA GCTACGAGAA
    ATCATTGCAG ATGTTCGTGC TGCAAGAGAT CAAATAAATA TTGGAGGACT TCCTTATCCC
    ACATTGCCTC TACATGAGGC CCCTGCTAGA GGAACATCTC TGTTCAGCCA GCCTTCTTCA
    GCTTGCTCTT CAACAACCTC TTTTAATGGA CCTTTCAATA ATGGAGTTTT ATCACCGCAA
    CCTCATAGCA GTTACTATAG TGGTATGACA GGACCTCAGC ATCCATTCTA CAATCGGCCA
    TTCTTTGCCC CATATCTTTA CATGCCAAGG TATTACCCTG GCAGTTCTCA TCTCATCTCA
    CGTCCACCAC TAAAAACGAG TTTGTCCAGA GATCAGAACA ATGGCCTAGG AGCAGGAGTG
    GGCACAGGGT CGACCACAGG AGTAGCACAT GTGCCTCTGA GCACAATGAG TGTGGAAGCT
    GTATGCGAGA AACTAAAGCA AATAGATGGT CTGGACCAGA CTATGCTACC TCAGTACTCT
    GCAACTATAA GAAAGGCAAA TATAAATGGC CGTGTCTTGG CTCAGTGCAA CACTGATGAA
    CTGAAAAGGG AAATGAATAT GAATTTTGGT GACTGGCATC TGTTCAGGAG CATGATACTT
    GAAATGAGAA ATTCAGAAAA TCAGGCTGCT CAGGAAGATC CTCGTGGAAC AACTGAGCAC
    GTTACCACTG CGATTTCTCA TAGTGAACTT ACTCGTCGTC CTGGGCATAA CACTGAGTTG
    CCTCACACTG AGCTTACGGG TCTTTCTGGT CAAGCTCCCT ACACACTTAA CTTCAGCTTT
    GAAGAACTGA ACACAATTGG TCTTGATGAA GCTCCTCCGC GTCATAGTAA CTTAAGTTGG
    CAGTCACAGA CTCGTAGAAC TCCAAGTCTT TCAAGTCTTA ACTCTCAAGA TTCTAGTATC
    GAAATATCAA AGCTAACTGA TAAGGTTCAG GCAGAATATA GAGATGCGTA TAGAGAATAT
    ATTGCTCAAA TGTCACAGTT AGAAGGGGGT GCCAATTCTA CTACGGTAAG TGGCAGGTCC
    TCCCCCCATA GCTCATCTGC TTTCTATATG GGGCAGAGCA CATCAGGAGG CTCCCTGCAT
    TCAAGCGCAG AACAAGAAAA AGGAAAAGAT GGTGAACAGA AACAAGATGA TGGAAGAAAG
    TCCTTCTTGC TGAAGAGGAA TGATGTTGTT GATTACAGTA CGTCAGGTGT TTCTACTAAT
    GATGCATCTC CTTTGGATCC TATTACTGAA GAAGATGAAA AATCTGATCA GTCTGGTTCC
    AAGCTTCTCC CAGGAAAGAA GTCTTCAGAA AGAACAAGCA TTTTCCAGGC TGCAGATATA
    AAACTTAAGG GAGTTACTCT CCGGTATCAG AAACTTCCAA GTGATGAAGA TGAGTCAGGA
    ACTGAAGAAT CAGATAATAC TCCACTTCTT AAGGAAGGTA AAGACAAGAA AGCAGATGGA
    AAAACAGATA AACAGCCCAA ATCCCCAGAA CATGGATCTG AACCGATTAG AACATTCATC
    AAAGCAAAGG AGTATTTGAC AGATGCCCTT TTGGATAAAA AAGATTCTTC TGATTCTGGT
    GTAAGATCCA ATGAAAGTTC TCCAAATCAT TCCCTCCATA ATGAAGGAGC AGATGATTCA
    CAGCTTGAAA AGGCAAATCT CATTGAGCTT GAAGATGACA GTCACAGTGG AAAACGAGGA
    ATTCCGCACA GCCTTAGTGG CCTTCAGGAT CCAGCTGTGG TTCGCATGTC TATTTGCTCA
    GAAGATAAGA AAAGCCCATC TGAAAGCAGC TTGATAGCGA GCAGTCCAGA AGAGAACTGG
    CCTGCTTGCC AGAAAGTCTA TAATTTAAAT AGAACCCCTA GTACAGTAAC ACTAAATAAT
    AACAGTGCTC CAACCAATAG AGCTAATCAA AATTTTGAAG AAATAGAAGG TATTAGAGAT
    TCATCTCAAA TTATCCTGCG CCCTGGCACA AGTTCCAATT CAACTGCAGT TCAGAATGAG
    AACCTGAAGA GTGCCACTCA CAAGCGGAGC CAGCGATCAA GTTATACCAG GCTTTCCAAA
    GATTCTTCAG AGCTCCACAC TGTTGCTGCT TCAGATGGAG CTGGTTTTGG AGAAGAAAGA
    GAGAGTATCC TATGA

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

    RefSeq XP_013810510.1
    CDS53..4327
    Translation

    Target ORF information:

    RefSeq Version XM_013955056.1
    Organism Apteryx australis mantelli
    Definition Apteryx australis mantelli kinase D-interacting substrate, 220kDa (KIDINS220), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_013955056.1

    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
    ATGGTGAGGG ATATCTTGCA ATGCAACCCT GATACTGAAA CATGTACGAA GGATGGAGAA 
    ACACCACTTA TAAAGGCAAC CAAGATGAGA AATATTGAGA TAGTAGAGCT CCTTCTGGAC
    AAAGGAGCTA AGGTTTCTGC TGTAGACAAG AGAGGAGATA CTCCACTTCA TATTGCCATT
    CGTGGAAGAA GCCGTAAACT TGCTGAACTA CTCTTAAGGA ATCCAAAAGA TGGTAGATTG
    CTTTATAGAC CCAACAAAAC AGGAGAAACA CCTTACAATA TTGACTGTAG CCACCAGAAA
    AGTATTTTAA CACAGATATT TGGAGCCCGG CACTTGTCTC CCACGGAATC TGATGGTGAC
    ATGCTGGGGT ATGATCTCTA CAGCAGTGCT TTGGCTGATA TTCTTAGCGA ACCAACCATG
    CAGCCACCTA TCTGTGTAGG GTTGTATGCA CAGTGGGGAA GTGGAAAATC TTTTCTTCTC
    AAGAAACTGG AAGATGAAAT GAAAACTTTT GCAGGACAGC AAATTGAGCC TCTGTTCCAG
    TTCTCCTGGC TTATTGTATT CCTCACGCTT TTGCTGTGTG GAGGTTTGGG TTTATTGCTT
    GCTTTCACAG TGGATGCAAA GCTTGGAATA GCAGTGTCAC TCAGCTTATT AGCAGTTCTC
    TATATATTCT TTGCTGTAAT TTACTTTGGT GGCCGAAGAG AAGGTGAGAG CTGGAACTGG
    GCCTGGGTAT TAAGTGCAAG GCTGGCAAGA CATATTGGGT ATTTAGAGTT GCTTCTCAAA
    CTCATGTTTG TGAACCCACC AGAATTACCA GAACAAACCA CTAAAGCTTT ACCGGTCAGA
    TTTTTGTTTA CTGACTACAA TAGACTGTCC AGTGTAGGTG GAGAAACTTC ATTGGCTGAG
    ATGATTGCTA CCCTCTCCGA TGCATGTGAA AGGGAATTTG GTTTCTTAGC AACAAGGTTA
    TTTCGAGTTT TCAAGACAGA AGATACACAA GTTTCTGGGA TTGCTCTGCT GGCAATTTTT
    AACGTAGAAC CAACAAACAT GACAGTGAAT GCTGTTCTTA TATCAGTTGC ATGTGTTGTT
    GGTTTGGCCT TTATCTTGAA CTGTCGCACC TGGTGGCAAG TGATGGATTC AGTTTTAAAT
    TCTCAAAGAA AACGTCTTCA CAATGCAGCC TCCAAGCTTC ACAAGTTAAA AAGTGAGGGG
    TTCATGAAGG TTCTGAAATG TGAAGTGGAA CTGATGGCCA AAATGGCAAA AACCATTGAC
    AGCTTCACTC AGAATCAGAC AAGGCTTGTT GTAATTATTG ATGGATTGGA TGCTTGTGAA
    CAGGACAAAG TTTTACAGAT GCTTGATACG GTGCGAGTCT TGTTTTCGAA AGGCCCATTT
    ATTGCTATTT TTGCAAGTGA CCCACACATT ATTATAAAGG CTATTAACCA AAATCTTAAT
    AGTGTTCTAC GTGATTCAAA CATAAATGGA CATGATTACA TGCGAAATAT AGTCCATTTG
    CCTGTTTTTC TGAATAGCCG TGGGCTTAGT AACGCAAAAA AGCTGATGGT AGCTTCAACA
    ACCAATGGAG ATGTTCCTTA TGCAGATAGT GCAGGATTAC ACGAAGAAGT TGACAGGAGA
    GTTTCTCAGA ACAGTCTTGG AGAGATGACC AAGCTTGGTA GCAAAACTGC TCTTAATAGA
    CGGGATACTT ACCGAAGACG ACAAATGCAA CGTACCATTA CTCGCCAGAT GTCTTTTGAT
    TTGACCAAGC TTTTGGTTAC AGAGGATTGG TTCAGTGATA TCAGTCCTCA GACCATGAGA
    AGATTGCTTA ATATTGTTTC TGTGACAGGT CGTTTATTGA GAGCTAATCA GATCACATTC
    AATTGGGATA GACTGGCTAG TTGGATCAAT CTCACAGAGC AGTGGCCATA CAGAACATCG
    TGGCTCATAC TACATCTTGA AGAGACTGAA GGTGTTCCAG ATCAGCTGAC TTTAAAAACC
    ATTTATGAGA GAATTTCAAA GAATATTCCT ACAACGAAAG ATGTTGAACC TCTACTGGAA
    ATTGATGGAG ACATACGGAA CTTTGAAGTA TTTTTATCTT CGCGAACGCC TGTTCTAATA
    GCACGTGATG TAAAAACCTT TTTGCCATGT ACTGTAAATT TAGATCCCAA GCTACGAGAA
    ATCATTGCAG ATGTTCGTGC TGCAAGAGAT CAAATAAATA TTGGAGGACT TCCTTATCCC
    ACATTGCCTC TACATGAGGC CCCTGCTAGA GGAACATCTC TGTTCAGCCA GCCTTCTTCA
    GCTTGCTCTT CAACAACCTC TTTTAATGGA CCTTTCAATA ATGGAGTTTT ATCACCGCAA
    CCTCATAGCA GTTACTATAG TGGTATGACA GGACCTCAGC ATCCATTCTA CAATCGGCCA
    TTCTTTGCCC CATATCTTTA CATGCCAAGG TATTACCCTG GCAGTTCTCA TCTCATCTCA
    CGTCCACCAC TAAAAACGAG TTTGTCCAGA GATCAGAACA ATGGCCTAGG AGCAGGAGTG
    GGCACAGGGT CGACCACAGG AGTAGCACAT GTGCCTCTGA GCACAATGAG TGTGGAAGCT
    GTATGCGAGA AACTAAAGCA AATAGATGGT CTGGACCAGA CTATGCTACC TCAGTACTCT
    GCAACTATAA GAAAGGCAAA TATAAATGGC CGTGTCTTGG CTCAGTGCAA CACTGATGAA
    CTGAAAAGGG AAATGAATAT GAATTTTGGT GACTGGCATC TGTTCAGGAG CATGATACTT
    GAAATGAGAA ATTCAGAAAA TCAGGCTGCT CAGGAAGATC CTCGTGGAAC AACTGAGCAC
    GTTACCACTG CGATTTCTCA TAGTGAACTT ACTCGTCGTC CTGGGCATAA CACTGAGTTG
    CCTCACACTG AGCTTACGGG TCTTTCTGGT CAAGCTCCCT ACACACTTAA CTTCAGCTTT
    GAAGAACTGA ACACAATTGG TCTTGATGAA GCTCCTCCGC GTCATAGTAA CTTAAGTTGG
    CAGTCACAGA CTCGTAGAAC TCCAAGTCTT TCAAGTCTTA ACTCTCAAGA TTCTAGTATC
    GAAATATCAA AGCTAACTGA TAAGGTTCAG GCAGAATATA GAGATGCGTA TAGAGAATAT
    ATTGCTCAAA TGTCACAGTT AGAAGGGGGT GCCAATTCTA CTACGGTAAG TGGCAGGTCC
    TCCCCCCATA GCTCATCTGC TTTCTATATG GGGCAGAGCA CATCAGGAGG CTCCCTGCAT
    TCAAGCGCAG AACAAGAAAA AGGAAAAGAT GGTGAACAGA AACAAGATGA TGGAAGAAAG
    TCCTTCTTGC TGAAGAGGAA TGATGTTGTT GATTACAGTA CGTCAGGTGT TTCTACTAAT
    GATGCATCTC CTTTGGATCC TATTACTGAA GAAGATGAAA AATCTGATCA GTCTGGTTCC
    AAGCTTCTCC CAGGAAAGAA GTCTTCAGAA AGAACAAGCA TTTTCCAGGC TGCAGATATA
    AAACTTAAGG GAGTTACTCT CCGGTATCAG AAACTTCCAA GTGATGAAGA TGAGTCAGGA
    ACTGAAGAAT CAGATAATAC TCCACTTCTT AAGGAAGGTA AAGACAAGAA AGCAGATGGA
    AAAACAGATA AACAGCCCAA ATCCCCAGAA CATGGATCTG AACCGATTAG AACATTCATC
    AAAGCAAAGG AGTATTTGAC AGATGCCCTT TTGGATAAAA AAGATTCTTC TGATTCTGGT
    GTAAGATCCA ATGAAAGTTC TCCAAATCAT TCCCTCCATA ATGAAGGAGC AGATGATTCA
    CAGCTTGAAA AGGCAAATCT CATTGAGCTT GAAGATGACA GTCACAGTGG AAAACGAGGA
    ATTCCGCACA GCCTTAGTGG CCTTCAGGAT CCAGCTGTGG TTCGCATGTC TATTTGCTCA
    GAAGATAAGA AAAGCCCATC TGAAAGCAGC TTGATAGCGA GCAGTCCAGA AGAGAACTGG
    CCTGCTTGCC AGAAAGTCTA TAATTTAAAT AGAACCCCTA GTACAGTAAC ACTAAATAAT
    AACAGTGCTC CAACCAATAG AGCTAATCAA AATTTTGAAG AAATAGAAGG TATTAGAGAT
    TCATCTCAAA TTATCCTGCG CCCTGGCACA AGTTCCAATT CAACTGCAGT TCAGAATGAG
    AACCTGAAGA GTGCCACTCA CAAGCGGAGC CAGCGATCAA GTTATACCAG GCTTTCCAAA
    GATTCTTCAG AGCTCCACAC TGTTGCTGCT TCAGATGGAG CTGGTTTTGG AGAAGAAAGA
    GAGAGTATCC TATGA

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

    CloneID OAp23375
    Clone ID Related Accession (Same CDS sequence) XM_013955057.1
    Accession Version XM_013955057.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5295bp)
    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 2015-09-08
    Organism Apteryx australis mantelli
    Product kinase D-interacting substrate of 220 kDa isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014003927.1) 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 :: Apteryx australis mantelli 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
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    ATGGCAAGTC TGATGAGTCA GAGTCTGTTG ACCTATGTAG AAGAAGGAAA TGTTCCTGCT 
    CTGAAAGCAC TTCTTGAGAA GTGCAAGGAT GTGGATGAGA GAAATGAGAA TGGCCAGACT
    CCACTGATGT TGGCTGCTGA GCAAGGCAAT TTAGAAATTG TCCAAGAGCT TCTTAAGAAG
    GGAGCTAATT GCAACTTGGA AGATGCAGAT AATTGGACAG CTCTTATTTC AGCGGCTAAA
    GAAGGACATG TAGATATCGT AGCAGAGTTA CTCAATTATA ATGTCAGTTT GGAGCATCGG
    GATTTGGGAG GATGGACCGC TCTGATGTGG GCATCCTATA AAGGTCGTAC GGAAGTAGCT
    GAGCTGCTCC TTGAAAAAGG AGCAAATCCA AACATCACAG GATTGGTAAG TGTTTATCCA
    ATTATTTGGG CAGCAGGACG AGGCCATTCA GATATAGTAC ATCTCTTACT GCAACATGGA
    GCTAAAGTGA ACTGCTCTGA CAAATATGGA ACCACCCCCC TTGTTTGGGC AGCTAGGAAA
    GGTCACTTGG AGTGTGTGAA GTACCTGCTG CAAATGGGAG CTGATGTTGA TCAAGAAGGA
    GCTAATTCTA TGACTGCACT TATTGTAGCA GTGAAGGGTG GCTATACTGA CTCAGTTAAA
    GAAATACTGA AAAGGAACCC AAATGTAAAT TTAACAGATA AAGATGGAAA TACAGCTTTG
    ATGATTGCAT CAAAGGAGGG ACATACTGAA ATTGTTCAGG ATCTTCTTGA TGCTGGAACT
    TATGTGAACA TTCCTGATAG AAGTGGAGAC ACTGTGCTGA TTGGAGCTGT TAGAGGAGGT
    CATGTTGAAA TTGTGAGGGC CCTGCTCCAT AAATATGCTG ATATAGACAT TAGAGGTCAG
    GATAATAAGA CTGCTTTGTA TTGGGCAGTT GAGAAAGGAA ATGCCACAAT GGTGAGGGAT
    ATCTTGCAAT GCAACCCTGA TACTGAAACA TGTACGAAGG ATGGAGAAAC ACCACTTATA
    AAGGCAACCA AGATGAGAAA TATTGAGATA GTAGAGCTCC TTCTGGACAA AGGAGCTAAG
    GTTTCTGCTG TAGACAAGAG AGGAGATACT CCACTTCATA TTGCCATTCG TGGAAGAAGC
    CGTAAACTTG CTGAACTACT CTTAAGGAAT CCAAAAGATG GTAGATTGCT TTATAGACCC
    AACAAAACAG GAGAAACACC TTACAATATT GACTGTAGCC ACCAGAAAAG TATTTTAACA
    CAGATATTTG GAGCCCGGCA CTTGTCTCCC ACGGAATCTG ATGGTGACAT GCTGGGGTAT
    GATCTCTACA GCAGTGCTTT GGCTGATATT CTTAGCGAAC CAACCATGCA GCCACCTATC
    TGTGTAGGGT TGTATGCACA GTGGGGAAGT GGAAAATCTT TTCTTCTCAA GAAACTGGAA
    GATGAAATGA AAACTTTTGC AGGACAGCAA ATTGAGCCTC TGTTCCAGTT CTCCTGGCTT
    ATTGTATTCC TCACGCTTTT GCTGTGTGGA GGTTTGGGTT TATTGCTTGC TTTCACAGTG
    GATGCAAAGC TTGGAATAGC AGTGTCACTC AGCTTATTAG CAGTTCTCTA TATATTCTTT
    GCTGTAATTT ACTTTGGTGG CCGAAGAGAA GGTGAGAGCT GGAACTGGGC CTGGGTATTA
    AGTGCAAGGC TGGCAAGACA TATTGGGTAT TTAGAGTTGC TTCTCAAACT CATGTTTGTG
    AACCCACCAG AATTACCAGA ACAAACCACT AAAGCTTTAC CGGTCAGATT TTTGTTTACT
    GACTACAATA GACTGTCCAG TGTAGGTGGA GAAACTTCAT TGGCTGAGAT GATTGCTACC
    CTCTCCGATG CATGTGAAAG GGAATTTGGT TTCTTAGCAA CAAGGTTATT TCGAGTTTTC
    AAGACAGAAG ATACACAAGG TAAAAAGAAA TGGAAGAAAA CTTGCTGTCT CCCATCCTTT
    GTGATTTTCC TATTCATATT GTCTTGCATA GTTTCTGGGA TTGCTCTGCT GGCAATTTTT
    AACGTAGAAC CAACAAACAT GACAGTGAAT GCTGTTCTTA TATCAGTTGC ATGTGTTGTT
    GGTTTGGCCT TTATCTTGAA CTGTCGCACC TGGTGGCAAG TGATGGATTC AGTTTTAAAT
    TCTCAAAGAA AACGTCTTCA CAATGCAGCC TCCAAGCTTC ACAAGTTAAA AAGTGAGGGG
    TTCATGAAGG TTCTGAAATG TGAAGTGGAA CTGATGGCCA AAATGGCAAA AACCATTGAC
    AGCTTCACTC AGAATCAGAC AAGGCTTGTT GTAATTATTG ATGGATTGGA TGCTTGTGAA
    CAGGACAAAG TTTTACAGAT GCTTGATACG GTGCGAGTCT TGTTTTCGAA AGGCCCATTT
    ATTGCTATTT TTGCAAGTGA CCCACACATT ATTATAAAGG CTATTAACCA AAATCTTAAT
    AGTGTTCTAC GTGATTCAAA CATAAATGGA CATGATTACA TGCGAAATAT AGTCCATTTG
    CCTGTTTTTC TGAATAGCCG TGGGCTTAGT AACGCAAAAA AGCTGATGGT AGCTTCAACA
    ACCAATGGAG ATGTTCCTTA TGCAGATAGT GCAGGATTAC ACGAAGAAGT TGACAGGAGA
    GTTTCTCAGA ACAGTCTTGG AGAGATGACC AAGCTTGGTA GCAAAACTGC TCTTAATAGA
    CGGGATACTT ACCGAAGACG ACAAATGCAA CGTACCATTA CTCGCCAGAT GTCTTTTGAT
    TTGACCAAGC TTTTGGTTAC AGAGGATTGG TTCAGTGATA TCAGTCCTCA GACCATGAGA
    AGATTGCTTA ATATTGTTTC TGTGACAGGT CGTTTATTGA GAGCTAATCA GATCACATTC
    AATTGGGATA GACTGGCTAG TTGGATCAAT CTCACAGAGC AGTGGCCATA CAGAACATCG
    TGGCTCATAC TACATCTTGA AGAGACTGAA GGTGTTCCAG ATCAGCTGAC TTTAAAAACC
    ATTTATGAGA GAATTTCAAA GAATATTCCT ACAACGAAAG ATGTTGAACC TCTACTGGAA
    ATTGATGGAG ACATACGGAA CTTTGAAGTA TTTTTATCTT CGCGAACGCC TGTTCTAATA
    GCACGTGATG TAAAAACCTT TTTGCCATGT ACTGTAAATT TAGATCCCAA GCTACGAGAA
    ATCATTGCAG ATGTTCGTGC TGCAAGAGAT CAAATAAATA TTGGAGGACT TCCTTATCCC
    ACATTGCCTC TACATGAGGC CCCTGCTAGA GGAACATCTC TGTTCAGCCA GCCTTCTTCA
    GCTTGCTCTT CAACAACCTC TTTTAATGGA CCTTTCAATA ATGGAGTTTT ATCACCGCAA
    CCTCATAGCA GTTACTATAG TGGTATGACA GGACCTCAGC ATCCATTCTA CAATCGGCCA
    TTCTTTGCCC CATATCTTTA CATGCCAAGG TATTACCCTG GCAGTTCTCA TCTCATCTCA
    CGTCCACCAC TAAAAACGAG TTTGTCCAGA GATCAGAACA ATGGCCTAGG AGCAGGAGTG
    GGCACAGGGT CGACCACAGG AGTAGCACAT GTGCCTCTGA GCACAATGAG TGTGGAAGCT
    GTATGCGAGA AACTAAAGCA AATAGATGGT CTGGACCAGA CTATGCTACC TCAGTACTCT
    GCAACTATAA GAAAGGCAAA TATAAATGGC CGTGTCTTGG CTCAGTGCAA CACTGATGAA
    CTGAAAAGGG AAATGAATAT GAATTTTGGT GACTGGCATC TGTTCAGGAG CATGATACTT
    GAAATGAGAA ATTCAGAAAA TCAGGCTGCT CAGGAAGATC CTCGTGGAAC AACTGAGCAC
    GTTACCACTG CGATTTCTCA TAGTGAACTT ACTCGTCGTC CTGGGCATAA CACTGAGTTG
    CCTCACACTG AGCTTACGGG TCTTTCTGGT CAAGCTCCCT ACACACTTAA CTTCAGCTTT
    GAAGAACTGA ACACAATTGG TCTTGATGAA GCTCCTCCGC GTCATAGTAA CTTAAGTTGG
    CAGTCACAGA CTCGTAGAAC TCCAAGTCTT TCAAGTCTTA ACTCTCAAGA TTCTAGTATC
    GAAATATCAA AGCTAACTGA TAAGGTTCAG GCAGAATATA GAGATGCGTA TAGAGAATAT
    ATTGCTCAAA TGTCACAGTT AGAAGGGGGT GCCAATTCTA CTACGGTAAG TGGCAGGTCC
    TCCCCCCATA GCTCATCTGC TTTCTATATG GGGCAGAGCA CATCAGGAGG CTCCCTGCAT
    TCAAGCGCAG AACAAGAAAA AGGAAAAGAT GGTGAACAGA AACAAGATGA TGGAAGAAAG
    TCCTTCTTGC TGAAGAGGAA TGATGTTGTT GATTACAGTA CGTCAGGTGT TTCTACTAAT
    GATGCATCTC CTTTGGATCC TATTACTGAA GAAGATGAAA AATCTGATCA GTCTGGTTCC
    AAGCTTCTCC CAGGAAAGAA GTCTTCAGAA AGAACAAGCA TTTTCCAGGC TGCAGATATA
    AAACTTAAGG GAGTTACTCT CCGGTATCAG AAACTTCCAA GTGATGAAGA TGAGTCAGGA
    ACTGAAGAAT CAGATAATAC TCCACTTCTT AAGGAAGGTA AAGACAAGAA AGCAGATGGA
    AAAACAGATA AACAGCCCAA ATCCCCAGAA CATGGATCTG AACCGATTAG AACATTCATC
    AAAGCAAAGG AGTATTTGAC AGATGCCCTT TTGGATAAAA AAGATTCTTC TGATTCTGGT
    GTAAGATCCA ATGAAAGTTC TCCAAATCAT TCCCTCCATA ATGAAGGAGC AGATGATTCA
    CAGCTTGAAA AGGCAAATCT CATTGAGCTT GAAGATGACA GTCACAGTGG AAAACGAGGA
    ATTCCGCACA GCCTTAGTGG CCTTCAGGAT CCAGCTGTGG TTCGCATGTC TATTTGCTCA
    GAAGATAAGA AAAGCCCATC TGAAAGCAGC TTGATAGCGA GCAGTCCAGA AGAGAACTGG
    CCTGCTTGCC AGAAAGTCTA TAATTTAAAT AGAACCCCTA GTACAGTAAC ACTAAATAAT
    AACAGTGCTC CAACCAATAG AGCTAATCAA AATTTTGAAG AAATAGAAGG TATTAGAGAT
    TCATCTCAAA TTATCCTGCG CCCTGGCACA AGTTCCAATT CAACTGCAGT TCAGAATGAG
    AACCTGAAGA GTGCCACTCA CAAGCGGAGC CAGCGATCAA GTTATACCAG GCTTTCCAAA
    GATTCTTCAG AGCTCCACAC TGTTGCTGCT TCAGATGGAG CTGGTTTTGG AGAAGAAAGA
    GAGAGTATCC TATGA

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

    RefSeq XP_013810511.1
    CDS164..5458
    Translation

    Target ORF information:

    RefSeq Version XM_013955057.1
    Organism Apteryx australis mantelli
    Definition Apteryx australis mantelli kinase D-interacting substrate, 220kDa (KIDINS220), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_013955057.1

    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
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    ATGGCAAGTC TGATGAGTCA GAGTCTGTTG ACCTATGTAG AAGAAGGAAA TGTTCCTGCT 
    CTGAAAGCAC TTCTTGAGAA GTGCAAGGAT GTGGATGAGA GAAATGAGAA TGGCCAGACT
    CCACTGATGT TGGCTGCTGA GCAAGGCAAT TTAGAAATTG TCCAAGAGCT TCTTAAGAAG
    GGAGCTAATT GCAACTTGGA AGATGCAGAT AATTGGACAG CTCTTATTTC AGCGGCTAAA
    GAAGGACATG TAGATATCGT AGCAGAGTTA CTCAATTATA ATGTCAGTTT GGAGCATCGG
    GATTTGGGAG GATGGACCGC TCTGATGTGG GCATCCTATA AAGGTCGTAC GGAAGTAGCT
    GAGCTGCTCC TTGAAAAAGG AGCAAATCCA AACATCACAG GATTGGTAAG TGTTTATCCA
    ATTATTTGGG CAGCAGGACG AGGCCATTCA GATATAGTAC ATCTCTTACT GCAACATGGA
    GCTAAAGTGA ACTGCTCTGA CAAATATGGA ACCACCCCCC TTGTTTGGGC AGCTAGGAAA
    GGTCACTTGG AGTGTGTGAA GTACCTGCTG CAAATGGGAG CTGATGTTGA TCAAGAAGGA
    GCTAATTCTA TGACTGCACT TATTGTAGCA GTGAAGGGTG GCTATACTGA CTCAGTTAAA
    GAAATACTGA AAAGGAACCC AAATGTAAAT TTAACAGATA AAGATGGAAA TACAGCTTTG
    ATGATTGCAT CAAAGGAGGG ACATACTGAA ATTGTTCAGG ATCTTCTTGA TGCTGGAACT
    TATGTGAACA TTCCTGATAG AAGTGGAGAC ACTGTGCTGA TTGGAGCTGT TAGAGGAGGT
    CATGTTGAAA TTGTGAGGGC CCTGCTCCAT AAATATGCTG ATATAGACAT TAGAGGTCAG
    GATAATAAGA CTGCTTTGTA TTGGGCAGTT GAGAAAGGAA ATGCCACAAT GGTGAGGGAT
    ATCTTGCAAT GCAACCCTGA TACTGAAACA TGTACGAAGG ATGGAGAAAC ACCACTTATA
    AAGGCAACCA AGATGAGAAA TATTGAGATA GTAGAGCTCC TTCTGGACAA AGGAGCTAAG
    GTTTCTGCTG TAGACAAGAG AGGAGATACT CCACTTCATA TTGCCATTCG TGGAAGAAGC
    CGTAAACTTG CTGAACTACT CTTAAGGAAT CCAAAAGATG GTAGATTGCT TTATAGACCC
    AACAAAACAG GAGAAACACC TTACAATATT GACTGTAGCC ACCAGAAAAG TATTTTAACA
    CAGATATTTG GAGCCCGGCA CTTGTCTCCC ACGGAATCTG ATGGTGACAT GCTGGGGTAT
    GATCTCTACA GCAGTGCTTT GGCTGATATT CTTAGCGAAC CAACCATGCA GCCACCTATC
    TGTGTAGGGT TGTATGCACA GTGGGGAAGT GGAAAATCTT TTCTTCTCAA GAAACTGGAA
    GATGAAATGA AAACTTTTGC AGGACAGCAA ATTGAGCCTC TGTTCCAGTT CTCCTGGCTT
    ATTGTATTCC TCACGCTTTT GCTGTGTGGA GGTTTGGGTT TATTGCTTGC TTTCACAGTG
    GATGCAAAGC TTGGAATAGC AGTGTCACTC AGCTTATTAG CAGTTCTCTA TATATTCTTT
    GCTGTAATTT ACTTTGGTGG CCGAAGAGAA GGTGAGAGCT GGAACTGGGC CTGGGTATTA
    AGTGCAAGGC TGGCAAGACA TATTGGGTAT TTAGAGTTGC TTCTCAAACT CATGTTTGTG
    AACCCACCAG AATTACCAGA ACAAACCACT AAAGCTTTAC CGGTCAGATT TTTGTTTACT
    GACTACAATA GACTGTCCAG TGTAGGTGGA GAAACTTCAT TGGCTGAGAT GATTGCTACC
    CTCTCCGATG CATGTGAAAG GGAATTTGGT TTCTTAGCAA CAAGGTTATT TCGAGTTTTC
    AAGACAGAAG ATACACAAGG TAAAAAGAAA TGGAAGAAAA CTTGCTGTCT CCCATCCTTT
    GTGATTTTCC TATTCATATT GTCTTGCATA GTTTCTGGGA TTGCTCTGCT GGCAATTTTT
    AACGTAGAAC CAACAAACAT GACAGTGAAT GCTGTTCTTA TATCAGTTGC ATGTGTTGTT
    GGTTTGGCCT TTATCTTGAA CTGTCGCACC TGGTGGCAAG TGATGGATTC AGTTTTAAAT
    TCTCAAAGAA AACGTCTTCA CAATGCAGCC TCCAAGCTTC ACAAGTTAAA AAGTGAGGGG
    TTCATGAAGG TTCTGAAATG TGAAGTGGAA CTGATGGCCA AAATGGCAAA AACCATTGAC
    AGCTTCACTC AGAATCAGAC AAGGCTTGTT GTAATTATTG ATGGATTGGA TGCTTGTGAA
    CAGGACAAAG TTTTACAGAT GCTTGATACG GTGCGAGTCT TGTTTTCGAA AGGCCCATTT
    ATTGCTATTT TTGCAAGTGA CCCACACATT ATTATAAAGG CTATTAACCA AAATCTTAAT
    AGTGTTCTAC GTGATTCAAA CATAAATGGA CATGATTACA TGCGAAATAT AGTCCATTTG
    CCTGTTTTTC TGAATAGCCG TGGGCTTAGT AACGCAAAAA AGCTGATGGT AGCTTCAACA
    ACCAATGGAG ATGTTCCTTA TGCAGATAGT GCAGGATTAC ACGAAGAAGT TGACAGGAGA
    GTTTCTCAGA ACAGTCTTGG AGAGATGACC AAGCTTGGTA GCAAAACTGC TCTTAATAGA
    CGGGATACTT ACCGAAGACG ACAAATGCAA CGTACCATTA CTCGCCAGAT GTCTTTTGAT
    TTGACCAAGC TTTTGGTTAC AGAGGATTGG TTCAGTGATA TCAGTCCTCA GACCATGAGA
    AGATTGCTTA ATATTGTTTC TGTGACAGGT CGTTTATTGA GAGCTAATCA GATCACATTC
    AATTGGGATA GACTGGCTAG TTGGATCAAT CTCACAGAGC AGTGGCCATA CAGAACATCG
    TGGCTCATAC TACATCTTGA AGAGACTGAA GGTGTTCCAG ATCAGCTGAC TTTAAAAACC
    ATTTATGAGA GAATTTCAAA GAATATTCCT ACAACGAAAG ATGTTGAACC TCTACTGGAA
    ATTGATGGAG ACATACGGAA CTTTGAAGTA TTTTTATCTT CGCGAACGCC TGTTCTAATA
    GCACGTGATG TAAAAACCTT TTTGCCATGT ACTGTAAATT TAGATCCCAA GCTACGAGAA
    ATCATTGCAG ATGTTCGTGC TGCAAGAGAT CAAATAAATA TTGGAGGACT TCCTTATCCC
    ACATTGCCTC TACATGAGGC CCCTGCTAGA GGAACATCTC TGTTCAGCCA GCCTTCTTCA
    GCTTGCTCTT CAACAACCTC TTTTAATGGA CCTTTCAATA ATGGAGTTTT ATCACCGCAA
    CCTCATAGCA GTTACTATAG TGGTATGACA GGACCTCAGC ATCCATTCTA CAATCGGCCA
    TTCTTTGCCC CATATCTTTA CATGCCAAGG TATTACCCTG GCAGTTCTCA TCTCATCTCA
    CGTCCACCAC TAAAAACGAG TTTGTCCAGA GATCAGAACA ATGGCCTAGG AGCAGGAGTG
    GGCACAGGGT CGACCACAGG AGTAGCACAT GTGCCTCTGA GCACAATGAG TGTGGAAGCT
    GTATGCGAGA AACTAAAGCA AATAGATGGT CTGGACCAGA CTATGCTACC TCAGTACTCT
    GCAACTATAA GAAAGGCAAA TATAAATGGC CGTGTCTTGG CTCAGTGCAA CACTGATGAA
    CTGAAAAGGG AAATGAATAT GAATTTTGGT GACTGGCATC TGTTCAGGAG CATGATACTT
    GAAATGAGAA ATTCAGAAAA TCAGGCTGCT CAGGAAGATC CTCGTGGAAC AACTGAGCAC
    GTTACCACTG CGATTTCTCA TAGTGAACTT ACTCGTCGTC CTGGGCATAA CACTGAGTTG
    CCTCACACTG AGCTTACGGG TCTTTCTGGT CAAGCTCCCT ACACACTTAA CTTCAGCTTT
    GAAGAACTGA ACACAATTGG TCTTGATGAA GCTCCTCCGC GTCATAGTAA CTTAAGTTGG
    CAGTCACAGA CTCGTAGAAC TCCAAGTCTT TCAAGTCTTA ACTCTCAAGA TTCTAGTATC
    GAAATATCAA AGCTAACTGA TAAGGTTCAG GCAGAATATA GAGATGCGTA TAGAGAATAT
    ATTGCTCAAA TGTCACAGTT AGAAGGGGGT GCCAATTCTA CTACGGTAAG TGGCAGGTCC
    TCCCCCCATA GCTCATCTGC TTTCTATATG GGGCAGAGCA CATCAGGAGG CTCCCTGCAT
    TCAAGCGCAG AACAAGAAAA AGGAAAAGAT GGTGAACAGA AACAAGATGA TGGAAGAAAG
    TCCTTCTTGC TGAAGAGGAA TGATGTTGTT GATTACAGTA CGTCAGGTGT TTCTACTAAT
    GATGCATCTC CTTTGGATCC TATTACTGAA GAAGATGAAA AATCTGATCA GTCTGGTTCC
    AAGCTTCTCC CAGGAAAGAA GTCTTCAGAA AGAACAAGCA TTTTCCAGGC TGCAGATATA
    AAACTTAAGG GAGTTACTCT CCGGTATCAG AAACTTCCAA GTGATGAAGA TGAGTCAGGA
    ACTGAAGAAT CAGATAATAC TCCACTTCTT AAGGAAGGTA AAGACAAGAA AGCAGATGGA
    AAAACAGATA AACAGCCCAA ATCCCCAGAA CATGGATCTG AACCGATTAG AACATTCATC
    AAAGCAAAGG AGTATTTGAC AGATGCCCTT TTGGATAAAA AAGATTCTTC TGATTCTGGT
    GTAAGATCCA ATGAAAGTTC TCCAAATCAT TCCCTCCATA ATGAAGGAGC AGATGATTCA
    CAGCTTGAAA AGGCAAATCT CATTGAGCTT GAAGATGACA GTCACAGTGG AAAACGAGGA
    ATTCCGCACA GCCTTAGTGG CCTTCAGGAT CCAGCTGTGG TTCGCATGTC TATTTGCTCA
    GAAGATAAGA AAAGCCCATC TGAAAGCAGC TTGATAGCGA GCAGTCCAGA AGAGAACTGG
    CCTGCTTGCC AGAAAGTCTA TAATTTAAAT AGAACCCCTA GTACAGTAAC ACTAAATAAT
    AACAGTGCTC CAACCAATAG AGCTAATCAA AATTTTGAAG AAATAGAAGG TATTAGAGAT
    TCATCTCAAA TTATCCTGCG CCCTGGCACA AGTTCCAATT CAACTGCAGT TCAGAATGAG
    AACCTGAAGA GTGCCACTCA CAAGCGGAGC CAGCGATCAA GTTATACCAG GCTTTCCAAA
    GATTCTTCAG AGCTCCACAC TGTTGCTGCT TCAGATGGAG CTGGTTTTGG AGAAGAAAGA
    GAGAGTATCC TATGA

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

    CloneID OAp23376
    Clone ID Related Accession (Same CDS sequence) XM_013955058.1
    Accession Version XM_013955058.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4974bp)
    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 2015-09-08
    Organism Apteryx australis mantelli
    Product kinase D-interacting substrate of 220 kDa isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014003927.1) 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 :: Apteryx australis mantelli 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
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    ATGTGGGCAT CCTATAAAGG TCGTACGGAA GTAGCTGAGC TGCTCCTTGA AAAAGGAGCA 
    AATCCAAACA TCACAGGATT GCAATACAGT GTTTATCCAA TTATTTGGGC AGCAGGACGA
    GGCCATTCAG ATATAGTACA TCTCTTACTG CAACATGGAG CTAAAGTGAA CTGCTCTGAC
    AAATATGGAA CCACCCCCCT TGTTTGGGCA GCTAGGAAAG GTCACTTGGA GTGTGTGAAG
    TACCTGCTGC AAATGGGAGC TGATGTTGAT CAAGAAGGAG CTAATTCTAT GACTGCACTT
    ATTGTAGCAG TGAAGGGTGG CTATACTGAC TCAGTTAAAG AAATACTGAA AAGGAACCCA
    AATGTAAATT TAACAGATAA AGATGGAAAT ACAGCTTTGA TGATTGCATC AAAGGAGGGA
    CATACTGAAA TTGTTCAGGA TCTTCTTGAT GCTGGAACTT ATGTGAACAT TCCTGATAGA
    AGTGGAGACA CTGTGCTGAT TGGAGCTGTT AGAGGAGGTC ATGTTGAAAT TGTGAGGGCC
    CTGCTCCATA AATATGCTGA TATAGACATT AGAGGTCAGG ATAATAAGAC TGCTTTGTAT
    TGGGCAGTTG AGAAAGGAAA TGCCACAATG GTGAGGGATA TCTTGCAATG CAACCCTGAT
    ACTGAAACAT GTACGAAGGA TGGAGAAACA CCACTTATAA AGGCAACCAA GATGAGAAAT
    ATTGAGATAG TAGAGCTCCT TCTGGACAAA GGAGCTAAGG TTTCTGCTGT AGACAAGAGA
    GGAGATACTC CACTTCATAT TGCCATTCGT GGAAGAAGCC GTAAACTTGC TGAACTACTC
    TTAAGGAATC CAAAAGATGG TAGATTGCTT TATAGACCCA ACAAAACAGG AGAAACACCT
    TACAATATTG ACTGTAGCCA CCAGAAAAGT ATTTTAACAC AGATATTTGG AGCCCGGCAC
    TTGTCTCCCA CGGAATCTGA TGGTGACATG CTGGGGTATG ATCTCTACAG CAGTGCTTTG
    GCTGATATTC TTAGCGAACC AACCATGCAG CCACCTATCT GTGTAGGGTT GTATGCACAG
    TGGGGAAGTG GAAAATCTTT TCTTCTCAAG AAACTGGAAG ATGAAATGAA AACTTTTGCA
    GGACAGCAAA TTGAGCCTCT GTTCCAGTTC TCCTGGCTTA TTGTATTCCT CACGCTTTTG
    CTGTGTGGAG GTTTGGGTTT ATTGCTTGCT TTCACAGTGG ATGCAAAGCT TGGAATAGCA
    GTGTCACTCA GCTTATTAGC AGTTCTCTAT ATATTCTTTG CTGTAATTTA CTTTGGTGGC
    CGAAGAGAAG GTGAGAGCTG GAACTGGGCC TGGGTATTAA GTGCAAGGCT GGCAAGACAT
    ATTGGGTATT TAGAGTTGCT TCTCAAACTC ATGTTTGTGA ACCCACCAGA ATTACCAGAA
    CAAACCACTA AAGCTTTACC GGTCAGATTT TTGTTTACTG ACTACAATAG ACTGTCCAGT
    GTAGGTGGAG AAACTTCATT GGCTGAGATG ATTGCTACCC TCTCCGATGC ATGTGAAAGG
    GAATTTGGTT TCTTAGCAAC AAGGTTATTT CGAGTTTTCA AGACAGAAGA TACACAAGGT
    AAAAAGAAAT GGAAGAAAAC TTGCTGTCTC CCATCCTTTG TGATTTTCCT ATTCATATTG
    TCTTGCATAG TTTCTGGGAT TGCTCTGCTG GCAATTTTTA ACGTAGAACC AACAAACATG
    ACAGTGAATG CTGTTCTTAT ATCAGTTGCA TGTGTTGTTG GTTTGGCCTT TATCTTGAAC
    TGTCGCACCT GGTGGCAAGT GATGGATTCA GTTTTAAATT CTCAAAGAAA ACGTCTTCAC
    AATGCAGCCT CCAAGCTTCA CAAGTTAAAA AGTGAGGGGT TCATGAAGGT TCTGAAATGT
    GAAGTGGAAC TGATGGCCAA AATGGCAAAA ACCATTGACA GCTTCACTCA GAATCAGACA
    AGGCTTGTTG TAATTATTGA TGGATTGGAT GCTTGTGAAC AGGACAAAGT TTTACAGATG
    CTTGATACGG TGCGAGTCTT GTTTTCGAAA GGCCCATTTA TTGCTATTTT TGCAAGTGAC
    CCACACATTA TTATAAAGGC TATTAACCAA AATCTTAATA GTGTTCTACG TGATTCAAAC
    ATAAATGGAC ATGATTACAT GCGAAATATA GTCCATTTGC CTGTTTTTCT GAATAGCCGT
    GGGCTTAGTA ACGCAAAAAA GCTGATGGTA GCTTCAACAA CCAATGGAGA TGTTCCTTAT
    GCAGATAGTG CAGGATTACA CGAAGAAGTT GACAGGAGAG TTTCTCAGAA CAGTCTTGGA
    GAGATGACCA AGCTTGGTAG CAAAACTGCT CTTAATAGAC GGGATACTTA CCGAAGACGA
    CAAATGCAAC GTACCATTAC TCGCCAGATG TCTTTTGATT TGACCAAGCT TTTGGTTACA
    GAGGATTGGT TCAGTGATAT CAGTCCTCAG ACCATGAGAA GATTGCTTAA TATTGTTTCT
    GTGACAGGTC GTTTATTGAG AGCTAATCAG ATCACATTCA ATTGGGATAG ACTGGCTAGT
    TGGATCAATC TCACAGAGCA GTGGCCATAC AGAACATCGT GGCTCATACT ACATCTTGAA
    GAGACTGAAG GTGTTCCAGA TCAGCTGACT TTAAAAACCA TTTATGAGAG AATTTCAAAG
    AATATTCCTA CAACGAAAGA TGTTGAACCT CTACTGGAAA TTGATGGAGA CATACGGAAC
    TTTGAAGTAT TTTTATCTTC GCGAACGCCT GTTCTAATAG CACGTGATGT AAAAACCTTT
    TTGCCATGTA CTGTAAATTT AGATCCCAAG CTACGAGAAA TCATTGCAGA TGTTCGTGCT
    GCAAGAGATC AAATAAATAT TGGAGGACTT CCTTATCCCA CATTGCCTCT ACATGAGGCC
    CCTGCTAGAG GAACATCTCT GTTCAGCCAG CCTTCTTCAG CTTGCTCTTC AACAACCTCT
    TTTAATGGAC CTTTCAATAA TGGAGTTTTA TCACCGCAAC CTCATAGCAG TTACTATAGT
    GGTATGACAG GACCTCAGCA TCCATTCTAC AATCGGCCAT TCTTTGCCCC ATATCTTTAC
    ATGCCAAGGT ATTACCCTGG CAGTTCTCAT CTCATCTCAC GTCCACCACT AAAAACGAGT
    TTGTCCAGAG ATCAGAACAA TGGCCTAGGA GCAGGAGTGG GCACAGGGTC GACCACAGGA
    GTAGCACATG TGCCTCTGAG CACAATGAGT GTGGAAGCTG TATGCGAGAA ACTAAAGCAA
    ATAGATGGTC TGGACCAGAC TATGCTACCT CAGTACTCTG CAACTATAAG AAAGGCAAAT
    ATAAATGGCC GTGTCTTGGC TCAGTGCAAC ACTGATGAAC TGAAAAGGGA AATGAATATG
    AATTTTGGTG ACTGGCATCT GTTCAGGAGC ATGATACTTG AAATGAGAAA TTCAGAAAAT
    CAGGCTGCTC AGGAAGATCC TCGTGGAACA ACTGAGCACG TTACCACTGC GATTTCTCAT
    AGTGAACTTA CTCGTCGTCC TGGGCATAAC ACTGAGTTGC CTCACACTGA GCTTACGGGT
    CTTTCTGGTC AAGCTCCCTA CACACTTAAC TTCAGCTTTG AAGAACTGAA CACAATTGGT
    CTTGATGAAG CTCCTCCGCG TCATAGTAAC TTAAGTTGGC AGTCACAGAC TCGTAGAACT
    CCAAGTCTTT CAAGTCTTAA CTCTCAAGAT TCTAGTATCG AAATATCAAA GCTAACTGAT
    AAGGTTCAGG CAGAATATAG AGATGCGTAT AGAGAATATA TTGCTCAAAT GTCACAGTTA
    GAAGGGGGTG CCAATTCTAC TACGGTAAGT GGCAGGTCCT CCCCCCATAG CTCATCTGCT
    TTCTATATGG GGCAGAGCAC ATCAGGAGGC TCCCTGCATT CAAGCGCAGA ACAAGAAAAA
    GGAAAAGATG GTGAACAGAA ACAAGATGAT GGAAGAAAGT CCTTCTTGCT GAAGAGGAAT
    GATGTTGTTG ATTACAGTAC GTCAGGTGTT TCTACTAATG ATGCATCTCC TTTGGATCCT
    ATTACTGAAG AAGATGAAAA ATCTGATCAG TCTGGTTCCA AGCTTCTCCC AGGAAAGAAG
    TCTTCAGAAA GAACAAGCAT TTTCCAGGCT GCAGATATAA AACTTAAGGG AGTTACTCTC
    CGGTATCAGA AACTTCCAAG TGATGAAGAT GAGTCAGGAA CTGAAGAATC AGATAATACT
    CCACTTCTTA AGGAAGGTAA AGACAAGAAA GCAGATGGAA AAACAGATAA ACAGCCCAAA
    TCCCCAGAAC ATGGATCTGA ACCGATTAGA ACATTCATCA AAGCAAAGGA GTATTTGACA
    GATGCCCTTT TGGATAAAAA AGATTCTTCT GATTCTGGTG TAAGATCCAA TGAAAGTTCT
    CCAAATCATT CCCTCCATAA TGAAGGAGCA GATGATTCAC AGCTTGAAAA GGCAAATCTC
    ATTGAGCTTG AAGATGACAG TCACAGTGGA AAACGAGGAA TTCCGCACAG CCTTAGTGGC
    CTTCAGGATC CAGCTGTGGT TCGCATGTCT ATTTGCTCAG AAGATAAGAA AAGCCCATCT
    GAAAGCAGCT TGATAGCGAG CAGTCCAGAA GAGAACTGGC CTGCTTGCCA GAAAGTCTAT
    AATTTAAATA GAACCCCTAG TACAGTAACA CTAAATAATA ACAGTGCTCC AACCAATAGA
    GCTAATCAAA ATTTTGAAGA AATAGAAGGT ATTAGAGATT CATCTCAAAT TATCCTGCGC
    CCTGGCACAA GTTCCAATTC AACTGCAGTT CAGAATGAGA ACCTGAAGAG TGCCACTCAC
    AAGCGGAGCC AGCGATCAAG TTATACCAGG CTTTCCAAAG ATTCTTCAGA GCTCCACACT
    GTTGCTGCTT CAGATGGAGC TGGTTTTGGA GAAGAAAGAG AGAGTATCCT ATGA

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

    RefSeq XP_013810512.1
    CDS1..4974
    Translation

    Target ORF information:

    RefSeq Version XM_013955058.1
    Organism Apteryx australis mantelli
    Definition Apteryx australis mantelli kinase D-interacting substrate, 220kDa (KIDINS220), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_013955058.1

    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
    4741
    4801
    4861
    4921
    ATGTGGGCAT CCTATAAAGG TCGTACGGAA GTAGCTGAGC TGCTCCTTGA AAAAGGAGCA 
    AATCCAAACA TCACAGGATT GCAATACAGT GTTTATCCAA TTATTTGGGC AGCAGGACGA
    GGCCATTCAG ATATAGTACA TCTCTTACTG CAACATGGAG CTAAAGTGAA CTGCTCTGAC
    AAATATGGAA CCACCCCCCT TGTTTGGGCA GCTAGGAAAG GTCACTTGGA GTGTGTGAAG
    TACCTGCTGC AAATGGGAGC TGATGTTGAT CAAGAAGGAG CTAATTCTAT GACTGCACTT
    ATTGTAGCAG TGAAGGGTGG CTATACTGAC TCAGTTAAAG AAATACTGAA AAGGAACCCA
    AATGTAAATT TAACAGATAA AGATGGAAAT ACAGCTTTGA TGATTGCATC AAAGGAGGGA
    CATACTGAAA TTGTTCAGGA TCTTCTTGAT GCTGGAACTT ATGTGAACAT TCCTGATAGA
    AGTGGAGACA CTGTGCTGAT TGGAGCTGTT AGAGGAGGTC ATGTTGAAAT TGTGAGGGCC
    CTGCTCCATA AATATGCTGA TATAGACATT AGAGGTCAGG ATAATAAGAC TGCTTTGTAT
    TGGGCAGTTG AGAAAGGAAA TGCCACAATG GTGAGGGATA TCTTGCAATG CAACCCTGAT
    ACTGAAACAT GTACGAAGGA TGGAGAAACA CCACTTATAA AGGCAACCAA GATGAGAAAT
    ATTGAGATAG TAGAGCTCCT TCTGGACAAA GGAGCTAAGG TTTCTGCTGT AGACAAGAGA
    GGAGATACTC CACTTCATAT TGCCATTCGT GGAAGAAGCC GTAAACTTGC TGAACTACTC
    TTAAGGAATC CAAAAGATGG TAGATTGCTT TATAGACCCA ACAAAACAGG AGAAACACCT
    TACAATATTG ACTGTAGCCA CCAGAAAAGT ATTTTAACAC AGATATTTGG AGCCCGGCAC
    TTGTCTCCCA CGGAATCTGA TGGTGACATG CTGGGGTATG ATCTCTACAG CAGTGCTTTG
    GCTGATATTC TTAGCGAACC AACCATGCAG CCACCTATCT GTGTAGGGTT GTATGCACAG
    TGGGGAAGTG GAAAATCTTT TCTTCTCAAG AAACTGGAAG ATGAAATGAA AACTTTTGCA
    GGACAGCAAA TTGAGCCTCT GTTCCAGTTC TCCTGGCTTA TTGTATTCCT CACGCTTTTG
    CTGTGTGGAG GTTTGGGTTT ATTGCTTGCT TTCACAGTGG ATGCAAAGCT TGGAATAGCA
    GTGTCACTCA GCTTATTAGC AGTTCTCTAT ATATTCTTTG CTGTAATTTA CTTTGGTGGC
    CGAAGAGAAG GTGAGAGCTG GAACTGGGCC TGGGTATTAA GTGCAAGGCT GGCAAGACAT
    ATTGGGTATT TAGAGTTGCT TCTCAAACTC ATGTTTGTGA ACCCACCAGA ATTACCAGAA
    CAAACCACTA AAGCTTTACC GGTCAGATTT TTGTTTACTG ACTACAATAG ACTGTCCAGT
    GTAGGTGGAG AAACTTCATT GGCTGAGATG ATTGCTACCC TCTCCGATGC ATGTGAAAGG
    GAATTTGGTT TCTTAGCAAC AAGGTTATTT CGAGTTTTCA AGACAGAAGA TACACAAGGT
    AAAAAGAAAT GGAAGAAAAC TTGCTGTCTC CCATCCTTTG TGATTTTCCT ATTCATATTG
    TCTTGCATAG TTTCTGGGAT TGCTCTGCTG GCAATTTTTA ACGTAGAACC AACAAACATG
    ACAGTGAATG CTGTTCTTAT ATCAGTTGCA TGTGTTGTTG GTTTGGCCTT TATCTTGAAC
    TGTCGCACCT GGTGGCAAGT GATGGATTCA GTTTTAAATT CTCAAAGAAA ACGTCTTCAC
    AATGCAGCCT CCAAGCTTCA CAAGTTAAAA AGTGAGGGGT TCATGAAGGT TCTGAAATGT
    GAAGTGGAAC TGATGGCCAA AATGGCAAAA ACCATTGACA GCTTCACTCA GAATCAGACA
    AGGCTTGTTG TAATTATTGA TGGATTGGAT GCTTGTGAAC AGGACAAAGT TTTACAGATG
    CTTGATACGG TGCGAGTCTT GTTTTCGAAA GGCCCATTTA TTGCTATTTT TGCAAGTGAC
    CCACACATTA TTATAAAGGC TATTAACCAA AATCTTAATA GTGTTCTACG TGATTCAAAC
    ATAAATGGAC ATGATTACAT GCGAAATATA GTCCATTTGC CTGTTTTTCT GAATAGCCGT
    GGGCTTAGTA ACGCAAAAAA GCTGATGGTA GCTTCAACAA CCAATGGAGA TGTTCCTTAT
    GCAGATAGTG CAGGATTACA CGAAGAAGTT GACAGGAGAG TTTCTCAGAA CAGTCTTGGA
    GAGATGACCA AGCTTGGTAG CAAAACTGCT CTTAATAGAC GGGATACTTA CCGAAGACGA
    CAAATGCAAC GTACCATTAC TCGCCAGATG TCTTTTGATT TGACCAAGCT TTTGGTTACA
    GAGGATTGGT TCAGTGATAT CAGTCCTCAG ACCATGAGAA GATTGCTTAA TATTGTTTCT
    GTGACAGGTC GTTTATTGAG AGCTAATCAG ATCACATTCA ATTGGGATAG ACTGGCTAGT
    TGGATCAATC TCACAGAGCA GTGGCCATAC AGAACATCGT GGCTCATACT ACATCTTGAA
    GAGACTGAAG GTGTTCCAGA TCAGCTGACT TTAAAAACCA TTTATGAGAG AATTTCAAAG
    AATATTCCTA CAACGAAAGA TGTTGAACCT CTACTGGAAA TTGATGGAGA CATACGGAAC
    TTTGAAGTAT TTTTATCTTC GCGAACGCCT GTTCTAATAG CACGTGATGT AAAAACCTTT
    TTGCCATGTA CTGTAAATTT AGATCCCAAG CTACGAGAAA TCATTGCAGA TGTTCGTGCT
    GCAAGAGATC AAATAAATAT TGGAGGACTT CCTTATCCCA CATTGCCTCT ACATGAGGCC
    CCTGCTAGAG GAACATCTCT GTTCAGCCAG CCTTCTTCAG CTTGCTCTTC AACAACCTCT
    TTTAATGGAC CTTTCAATAA TGGAGTTTTA TCACCGCAAC CTCATAGCAG TTACTATAGT
    GGTATGACAG GACCTCAGCA TCCATTCTAC AATCGGCCAT TCTTTGCCCC ATATCTTTAC
    ATGCCAAGGT ATTACCCTGG CAGTTCTCAT CTCATCTCAC GTCCACCACT AAAAACGAGT
    TTGTCCAGAG ATCAGAACAA TGGCCTAGGA GCAGGAGTGG GCACAGGGTC GACCACAGGA
    GTAGCACATG TGCCTCTGAG CACAATGAGT GTGGAAGCTG TATGCGAGAA ACTAAAGCAA
    ATAGATGGTC TGGACCAGAC TATGCTACCT CAGTACTCTG CAACTATAAG AAAGGCAAAT
    ATAAATGGCC GTGTCTTGGC TCAGTGCAAC ACTGATGAAC TGAAAAGGGA AATGAATATG
    AATTTTGGTG ACTGGCATCT GTTCAGGAGC ATGATACTTG AAATGAGAAA TTCAGAAAAT
    CAGGCTGCTC AGGAAGATCC TCGTGGAACA ACTGAGCACG TTACCACTGC GATTTCTCAT
    AGTGAACTTA CTCGTCGTCC TGGGCATAAC ACTGAGTTGC CTCACACTGA GCTTACGGGT
    CTTTCTGGTC AAGCTCCCTA CACACTTAAC TTCAGCTTTG AAGAACTGAA CACAATTGGT
    CTTGATGAAG CTCCTCCGCG TCATAGTAAC TTAAGTTGGC AGTCACAGAC TCGTAGAACT
    CCAAGTCTTT CAAGTCTTAA CTCTCAAGAT TCTAGTATCG AAATATCAAA GCTAACTGAT
    AAGGTTCAGG CAGAATATAG AGATGCGTAT AGAGAATATA TTGCTCAAAT GTCACAGTTA
    GAAGGGGGTG CCAATTCTAC TACGGTAAGT GGCAGGTCCT CCCCCCATAG CTCATCTGCT
    TTCTATATGG GGCAGAGCAC ATCAGGAGGC TCCCTGCATT CAAGCGCAGA ACAAGAAAAA
    GGAAAAGATG GTGAACAGAA ACAAGATGAT GGAAGAAAGT CCTTCTTGCT GAAGAGGAAT
    GATGTTGTTG ATTACAGTAC GTCAGGTGTT TCTACTAATG ATGCATCTCC TTTGGATCCT
    ATTACTGAAG AAGATGAAAA ATCTGATCAG TCTGGTTCCA AGCTTCTCCC AGGAAAGAAG
    TCTTCAGAAA GAACAAGCAT TTTCCAGGCT GCAGATATAA AACTTAAGGG AGTTACTCTC
    CGGTATCAGA AACTTCCAAG TGATGAAGAT GAGTCAGGAA CTGAAGAATC AGATAATACT
    CCACTTCTTA AGGAAGGTAA AGACAAGAAA GCAGATGGAA AAACAGATAA ACAGCCCAAA
    TCCCCAGAAC ATGGATCTGA ACCGATTAGA ACATTCATCA AAGCAAAGGA GTATTTGACA
    GATGCCCTTT TGGATAAAAA AGATTCTTCT GATTCTGGTG TAAGATCCAA TGAAAGTTCT
    CCAAATCATT CCCTCCATAA TGAAGGAGCA GATGATTCAC AGCTTGAAAA GGCAAATCTC
    ATTGAGCTTG AAGATGACAG TCACAGTGGA AAACGAGGAA TTCCGCACAG CCTTAGTGGC
    CTTCAGGATC CAGCTGTGGT TCGCATGTCT ATTTGCTCAG AAGATAAGAA AAGCCCATCT
    GAAAGCAGCT TGATAGCGAG CAGTCCAGAA GAGAACTGGC CTGCTTGCCA GAAAGTCTAT
    AATTTAAATA GAACCCCTAG TACAGTAACA CTAAATAATA ACAGTGCTCC AACCAATAGA
    GCTAATCAAA ATTTTGAAGA AATAGAAGGT ATTAGAGATT CATCTCAAAT TATCCTGCGC
    CCTGGCACAA GTTCCAATTC AACTGCAGTT CAGAATGAGA ACCTGAAGAG TGCCACTCAC
    AAGCGGAGCC AGCGATCAAG TTATACCAGG CTTTCCAAAG ATTCTTCAGA GCTCCACACT
    GTTGCTGCTT CAGATGGAGC TGGTTTTGGA GAAGAAAGAG AGAGTATCCT ATGA

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