STK36 cDNA ORF clone, Apteryx australis mantelli

The following STK36 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the STK36 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
OAp27677 XM_013960779.1
Latest version!
Apteryx australis mantelli serine/threonine kinase 36 (STK36), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OAp27678 XM_013960780.1
Latest version!
Apteryx australis mantelli serine/threonine kinase 36 (STK36), transcript variant X2, 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)
    CloneID OAp27677
    Clone ID Related Accession (Same CDS sequence) XM_013960779.1
    Accession Version XM_013960779.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4005bp)
    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 serine/threonine-protein kinase 36 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014006591.1) 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 :: 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
    ATGCCCACAA TGGAGAAGTA CCATGTCCTG GAAATGATCG GTGAAGGCTC CTTTGGGCGA 
    GTGTACAAGG GGCGTCGGAA ATACAGTGCC CAGGTGGTGG CCTTGAAGTT CATCCCCAAG
    GTTGGGCGGT CAGAGAGGGA GCTGAAGAAC CTGCAGCGGG AAATTGAGAT CATGAGAGGC
    CTCCATCACC CAAACATCAT CCAGATGCTT GACAGCTTTG AGACCGACAA GGAGGTAGTG
    GTGGTGACCG ACTATGCAGA GGGGGAGCTC TTCCAGATCC TGGAGGATGA TGGGAGTCTG
    CCCGAGGACC AGGTCCAGAC CATAGCTGCC CAGTTGGTCT CTGCTCTCTA TTACCTGCAT
    TCCCACCGTA TCCTGCACCG CGACATGAAA CCCCAGAACA TCTTGCTGGG AAAAGGCGGC
    ATCATCAAGC TCTGCGATTT TGGGTTTGCC CGTGCCATGA GCATCCACAC CATGGTGCTG
    ACCTCCATCA AGGGCACCCC CCTGTACATG TCCCCTGAAC TGGTGGAGGA ACGGCCATAC
    GACCACACGG CTGACCTGTG GTCCGTGGGC TGCATCCTGT ACGAGCTGTT TGTGGGCACC
    CCTCCCTTCT ACACCAGCAG CATCTTCCAG CTTGTCAGCC TCATCGTCAA GGACCCGGTC
    AAATGGCCCG ATGCCATAAG CCCAGTCTTC AAGAGCTTCC TGCAGGGACT GCTGATGAAG
    GATCCCCGTC AGCGCCTGTC GTGGCCAGAG CTGCTCTCCC ACCCCTTCAT TGCCGGACGG
    GTCACTGTGA TTGATGACAC AGAAGAGCAT GGGATCTCAA ACCCCTTCAC CACCAAGCTG
    TCCCCAGAGC TGCAGGCCCT GAAGGAGCAA CAAGCCCATT CCCTGGCCCC CAGGAGTGGC
    CAGTCCAGGA TCCTGAGAAA GGCCCGGCAG AAGATGGCTG AGGAGGCCCG GAAAAAGGGG
    CAGCTGAAGA CAGACACTGC GTCTGTGAAG GACCCTGGCA AAAGATGCCC AGGGCATAAA
    CCGAAAGCAG CTCCTGGGAA GGCAGCTCTT GGGGAAGGAG AGCCAGCAGC TGCTGCCAAA
    GAGAAAAACA CAGGCATCCT GCAAGGAGGG AGCAGCATGG CAGAGTGGGA GCTGGGGGAG
    CCTCCTCCAC GCGCAAGGGA GCACAGCATC ACTCGAGACT ACGAACAAGA GCTTCCTGGA
    CCAGGGACCC TTCCGGAGCC TGGTCCTGTC AGGGCAGAGT CCCGGGGCAG GCGCAGCATT
    GAGACTGTGG ACCTGGAGAG CGAGGAGCTG GAGAGTGATG AGGAGTGGCA GCACCTGATC
    GAGGCCACAG AACCTTCAGC CATGCAGCTG AGCACGCCGC TGAGCCTCCT GAGGGACTCG
    GCCTTCCGGC AGCGTGTCCG GGCCCGCCTT GCAGACTCCA GCCAGCAGGT GCTGGAAGGT
    ATGCTGGAGG GAGCTTCCCA TCTCCGTCCC GCACTCCGTG TTGTGGGCAA CCTCCTGGCT
    ACCCAGTGTG ACTCAGAGCT TCTGCACCAC TTTTGCCAAG AGCTGGATAT GCCTCTGTTC
    CTGCTGTGTT TAGCCAAGAA GATCCTGGAG AACAGTAACA CCAAGCAGCA GCCCTGGTGT
    ATCGTGGTGC TGACGGACCT TGTCATGGTG ACCACAGTTT ATTTCAGCAG TGAGTGCTGC
    CTGGAGGGGA GCCAGCAGAA GGGCAGCCTG CAGGCTTTCC AGGAGTGTGC CAGCCGCTTT
    CTAGCCCTGC TGCCAGAGCT GCTGGCCCAG TCAGCTGACA GTGAGATGAG ACTCTGCCAG
    CAAAGCCTCC TGTGCTTCAC CCTGCTCTGC GAGAGCCTGG ACGCGAGGTG CCCCTCCATC
    TCTGCCCCCT TTTATGCCAG CCTGAGAGAG AAGCATCAGC CCCTGCTGAA TGGACTCCTC
    CAGGGATCTA CCTCGGAGCA GCCTGCTTTG CAAGGTGCAG TGATGGAGCC CAAATCAGCC
    CATGACCAGA GCCAGCATGT GGCAGATCTC TTTACGGCTG CACTGGCTGC TGCCTGCAGC
    ATCCCCCTGG GGAGGAACGC GTGTCGGGAA GCCAAGCAGC AGGTCTCTCA GGAGGTGGCT
    GAGAAGCTCA TGGAAGGAGA GAGCCAGCAG CTTGGGAGGC TGCTGGGGAG GCTCGAGCAC
    CCAAACTGTT CCCTGAATGT GCTCAAGATC CTCTATGCTG GCTGCCATGC CAGCCCGAGC
    CTGGGCCAGC ACCTGGGAAG GAGCCAGCGA GTGTGGGGTT CCCTCATGCA GCTCTCGAAT
    GGCAAGGTCC CCATGGCGGA TGTGGCCCAG GGGGCAGCCT GCGAGGCCTC CCTGCACCTG
    CTGGCCCTGC TCACCCTGCA GCTCCAGGGC TCCCCTCCCA GGCTCGAGGA GGTGGTTACT
    GTGGCCATGG ATATCATCAC CCGGTCTCCT GTCGTTTCCC TTGTGGGTGC TGCAGCATTC
    CTCCTGACAC AGCTCAGTCA GCATGGGCTG ACCATGGCGC TCAGGGGAGA GGAGATCCTG
    CCAGCAGTGA TGAACGTGCT GACGGCACCT ACTGAGCTGC AGCTGCCCCT ACCAATGGGT
    GCTGGTATCT ATGACGGGCT CTTTTTCCTC CTTCTGAAGC TCCTTGCCCA GGAGGACATG
    GTCGTGGAAC CGGGCTTTGC TGCCTCGGAG CTGTGGAGCG TTGTATGGCA TAGTGTTGCT
    GCGGTGCTTC ATGTGGGCAG TGAGAATGCA ACGCTGGAAG GAGACAGCCT GGGGGCAGGT
    CACCCTGCGG CAGAGCCGGA CTGGAACCTC CTCTCCCCTC AGGGCATCCT GCTCTTCCTC
    AGCCTGGCTC TCTTCGTCTT CACCTGTGAG TCGCACCAGT GTCTGCCTCA GCTCGCCCAG
    CCCTGTGGTG TCCTCATGGA GACGCTGAAG ACGCTGCTGT CCCCCCGCTT CCTGGCATGC
    CTGGCACAGA CGCAAGTGAG GGAGGACGGG GATCCTGAGC TTGTCCCAGC TGTGGTGCTC
    CAGGCCTGCC AGCTCCTCTG TTTCCCTTTT GCCCTGGATG TGGATGAAGA CACCTTGGCA
    TCAGTCACGA AGGGTGTGAG AGACTCCCAG ATCCCTGCCC ACCTGCTGCA GGCCTGCTGT
    CACCATCTGC CCTTTTCGGG CACGGAGCTC CCCTTGAGGC TTTTGTGCCA CCTCGTTGTG
    TGTGATGAGC AGGTCATAGA CCAAACTGTG AGGGAGGCTG CTGCCTCAGA GCATGTCATT
    GCCTTCTTGA CAACCGTCTT GTTTTCAGAC AACCCCACAA TCACAGCCAA CCTCCTGTCC
    CTCTTGACCC ATGTGGCCCG GGTCTGTCCG GAGCACCTAC CCTTTCTCCA GAGGATCCTG
    GGGGGCTCAG GTGTGGCCTA CCAGCCACTG ACCCGCCTGC TTGGCCATTG GGAACACTCC
    ATACGTGCCA AAACCTGCAA TCTGCTGGGC AACCTGCTCC GACACAGCCA CAGCTTTCCC
    CAGGTGCTGC AGAACCAGCC TGGCCTGCTG GAGAGCCTGC TGGAGTGCCT GGCGGACCGG
    GATGAGAACG TGCGCAAGGC AGCTAGTTTT GCGGTGGGCA ATGCTGCTTA CCATGAGTCC
    TCCCCAGCCG GGACCCTAGG CAGGGCTGTA CCCAGGCTGA CAAGACTCTT GAGCGATGTG
    CAGGCCAAGA CGCGCTGCAA CGCAGCCTCA GCCCTGGGCA ACCTGGGTCG ACGCTCAGCG
    GAGCTGGGGG ACCTGCTGAT CCAGAGCAAG GCCCCCCACG TCCTGCTGGA GGTGGCCTGC
    CGGGACCCCC AGGCAAGCGT GCAGGAAGGA GCCCTTGTTG CGCTGCGGGC CATCAGCCAG
    CACCCAGCGA TACAGCAGGT GCTGCTGTCT CTCAGGGCCA GTGAGAAGCT GGCTGCACTG
    GCCAGCAGGG ACTCCCAGCC CACGGCTGGT GGCAGCCCCC GGCCTTCTTC CACCCGGCAC
    TGCAAGAAGC TCATCCACCT CCTTGCACCT GTGCATAGCA CCTGA

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

    RefSeq XP_013816233.1
    CDS215..4219
    Translation

    Target ORF information:

    RefSeq Version XM_013960779.1
    Organism Apteryx australis mantelli
    Definition Apteryx australis mantelli serine/threonine kinase 36 (STK36), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_013960779.1

    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
    ATGCCCACAA TGGAGAAGTA CCATGTCCTG GAAATGATCG GTGAAGGCTC CTTTGGGCGA 
    GTGTACAAGG GGCGTCGGAA ATACAGTGCC CAGGTGGTGG CCTTGAAGTT CATCCCCAAG
    GTTGGGCGGT CAGAGAGGGA GCTGAAGAAC CTGCAGCGGG AAATTGAGAT CATGAGAGGC
    CTCCATCACC CAAACATCAT CCAGATGCTT GACAGCTTTG AGACCGACAA GGAGGTAGTG
    GTGGTGACCG ACTATGCAGA GGGGGAGCTC TTCCAGATCC TGGAGGATGA TGGGAGTCTG
    CCCGAGGACC AGGTCCAGAC CATAGCTGCC CAGTTGGTCT CTGCTCTCTA TTACCTGCAT
    TCCCACCGTA TCCTGCACCG CGACATGAAA CCCCAGAACA TCTTGCTGGG AAAAGGCGGC
    ATCATCAAGC TCTGCGATTT TGGGTTTGCC CGTGCCATGA GCATCCACAC CATGGTGCTG
    ACCTCCATCA AGGGCACCCC CCTGTACATG TCCCCTGAAC TGGTGGAGGA ACGGCCATAC
    GACCACACGG CTGACCTGTG GTCCGTGGGC TGCATCCTGT ACGAGCTGTT TGTGGGCACC
    CCTCCCTTCT ACACCAGCAG CATCTTCCAG CTTGTCAGCC TCATCGTCAA GGACCCGGTC
    AAATGGCCCG ATGCCATAAG CCCAGTCTTC AAGAGCTTCC TGCAGGGACT GCTGATGAAG
    GATCCCCGTC AGCGCCTGTC GTGGCCAGAG CTGCTCTCCC ACCCCTTCAT TGCCGGACGG
    GTCACTGTGA TTGATGACAC AGAAGAGCAT GGGATCTCAA ACCCCTTCAC CACCAAGCTG
    TCCCCAGAGC TGCAGGCCCT GAAGGAGCAA CAAGCCCATT CCCTGGCCCC CAGGAGTGGC
    CAGTCCAGGA TCCTGAGAAA GGCCCGGCAG AAGATGGCTG AGGAGGCCCG GAAAAAGGGG
    CAGCTGAAGA CAGACACTGC GTCTGTGAAG GACCCTGGCA AAAGATGCCC AGGGCATAAA
    CCGAAAGCAG CTCCTGGGAA GGCAGCTCTT GGGGAAGGAG AGCCAGCAGC TGCTGCCAAA
    GAGAAAAACA CAGGCATCCT GCAAGGAGGG AGCAGCATGG CAGAGTGGGA GCTGGGGGAG
    CCTCCTCCAC GCGCAAGGGA GCACAGCATC ACTCGAGACT ACGAACAAGA GCTTCCTGGA
    CCAGGGACCC TTCCGGAGCC TGGTCCTGTC AGGGCAGAGT CCCGGGGCAG GCGCAGCATT
    GAGACTGTGG ACCTGGAGAG CGAGGAGCTG GAGAGTGATG AGGAGTGGCA GCACCTGATC
    GAGGCCACAG AACCTTCAGC CATGCAGCTG AGCACGCCGC TGAGCCTCCT GAGGGACTCG
    GCCTTCCGGC AGCGTGTCCG GGCCCGCCTT GCAGACTCCA GCCAGCAGGT GCTGGAAGGT
    ATGCTGGAGG GAGCTTCCCA TCTCCGTCCC GCACTCCGTG TTGTGGGCAA CCTCCTGGCT
    ACCCAGTGTG ACTCAGAGCT TCTGCACCAC TTTTGCCAAG AGCTGGATAT GCCTCTGTTC
    CTGCTGTGTT TAGCCAAGAA GATCCTGGAG AACAGTAACA CCAAGCAGCA GCCCTGGTGT
    ATCGTGGTGC TGACGGACCT TGTCATGGTG ACCACAGTTT ATTTCAGCAG TGAGTGCTGC
    CTGGAGGGGA GCCAGCAGAA GGGCAGCCTG CAGGCTTTCC AGGAGTGTGC CAGCCGCTTT
    CTAGCCCTGC TGCCAGAGCT GCTGGCCCAG TCAGCTGACA GTGAGATGAG ACTCTGCCAG
    CAAAGCCTCC TGTGCTTCAC CCTGCTCTGC GAGAGCCTGG ACGCGAGGTG CCCCTCCATC
    TCTGCCCCCT TTTATGCCAG CCTGAGAGAG AAGCATCAGC CCCTGCTGAA TGGACTCCTC
    CAGGGATCTA CCTCGGAGCA GCCTGCTTTG CAAGGTGCAG TGATGGAGCC CAAATCAGCC
    CATGACCAGA GCCAGCATGT GGCAGATCTC TTTACGGCTG CACTGGCTGC TGCCTGCAGC
    ATCCCCCTGG GGAGGAACGC GTGTCGGGAA GCCAAGCAGC AGGTCTCTCA GGAGGTGGCT
    GAGAAGCTCA TGGAAGGAGA GAGCCAGCAG CTTGGGAGGC TGCTGGGGAG GCTCGAGCAC
    CCAAACTGTT CCCTGAATGT GCTCAAGATC CTCTATGCTG GCTGCCATGC CAGCCCGAGC
    CTGGGCCAGC ACCTGGGAAG GAGCCAGCGA GTGTGGGGTT CCCTCATGCA GCTCTCGAAT
    GGCAAGGTCC CCATGGCGGA TGTGGCCCAG GGGGCAGCCT GCGAGGCCTC CCTGCACCTG
    CTGGCCCTGC TCACCCTGCA GCTCCAGGGC TCCCCTCCCA GGCTCGAGGA GGTGGTTACT
    GTGGCCATGG ATATCATCAC CCGGTCTCCT GTCGTTTCCC TTGTGGGTGC TGCAGCATTC
    CTCCTGACAC AGCTCAGTCA GCATGGGCTG ACCATGGCGC TCAGGGGAGA GGAGATCCTG
    CCAGCAGTGA TGAACGTGCT GACGGCACCT ACTGAGCTGC AGCTGCCCCT ACCAATGGGT
    GCTGGTATCT ATGACGGGCT CTTTTTCCTC CTTCTGAAGC TCCTTGCCCA GGAGGACATG
    GTCGTGGAAC CGGGCTTTGC TGCCTCGGAG CTGTGGAGCG TTGTATGGCA TAGTGTTGCT
    GCGGTGCTTC ATGTGGGCAG TGAGAATGCA ACGCTGGAAG GAGACAGCCT GGGGGCAGGT
    CACCCTGCGG CAGAGCCGGA CTGGAACCTC CTCTCCCCTC AGGGCATCCT GCTCTTCCTC
    AGCCTGGCTC TCTTCGTCTT CACCTGTGAG TCGCACCAGT GTCTGCCTCA GCTCGCCCAG
    CCCTGTGGTG TCCTCATGGA GACGCTGAAG ACGCTGCTGT CCCCCCGCTT CCTGGCATGC
    CTGGCACAGA CGCAAGTGAG GGAGGACGGG GATCCTGAGC TTGTCCCAGC TGTGGTGCTC
    CAGGCCTGCC AGCTCCTCTG TTTCCCTTTT GCCCTGGATG TGGATGAAGA CACCTTGGCA
    TCAGTCACGA AGGGTGTGAG AGACTCCCAG ATCCCTGCCC ACCTGCTGCA GGCCTGCTGT
    CACCATCTGC CCTTTTCGGG CACGGAGCTC CCCTTGAGGC TTTTGTGCCA CCTCGTTGTG
    TGTGATGAGC AGGTCATAGA CCAAACTGTG AGGGAGGCTG CTGCCTCAGA GCATGTCATT
    GCCTTCTTGA CAACCGTCTT GTTTTCAGAC AACCCCACAA TCACAGCCAA CCTCCTGTCC
    CTCTTGACCC ATGTGGCCCG GGTCTGTCCG GAGCACCTAC CCTTTCTCCA GAGGATCCTG
    GGGGGCTCAG GTGTGGCCTA CCAGCCACTG ACCCGCCTGC TTGGCCATTG GGAACACTCC
    ATACGTGCCA AAACCTGCAA TCTGCTGGGC AACCTGCTCC GACACAGCCA CAGCTTTCCC
    CAGGTGCTGC AGAACCAGCC TGGCCTGCTG GAGAGCCTGC TGGAGTGCCT GGCGGACCGG
    GATGAGAACG TGCGCAAGGC AGCTAGTTTT GCGGTGGGCA ATGCTGCTTA CCATGAGTCC
    TCCCCAGCCG GGACCCTAGG CAGGGCTGTA CCCAGGCTGA CAAGACTCTT GAGCGATGTG
    CAGGCCAAGA CGCGCTGCAA CGCAGCCTCA GCCCTGGGCA ACCTGGGTCG ACGCTCAGCG
    GAGCTGGGGG ACCTGCTGAT CCAGAGCAAG GCCCCCCACG TCCTGCTGGA GGTGGCCTGC
    CGGGACCCCC AGGCAAGCGT GCAGGAAGGA GCCCTTGTTG CGCTGCGGGC CATCAGCCAG
    CACCCAGCGA TACAGCAGGT GCTGCTGTCT CTCAGGGCCA GTGAGAAGCT GGCTGCACTG
    GCCAGCAGGG ACTCCCAGCC CACGGCTGGT GGCAGCCCCC GGCCTTCTTC CACCCGGCAC
    TGCAAGAAGC TCATCCACCT CCTTGCACCT GTGCATAGCA CCTGA

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

    CloneID OAp27678
    Clone ID Related Accession (Same CDS sequence) XM_013960780.1
    Accession Version XM_013960780.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3819bp)
    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 serine/threonine-protein kinase 36 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014006591.1) 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 :: 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
    ATGCCCACAA TGGAGAAGTA CCATGTCCTG GAAATGATCG GTGAAGGCTC CTTTGGGCGA 
    GTGTACAAGG GGCGTCGGAA ATACAGTGCC CAGGTGGTGG CCTTGAAGTT CATCCCCAAG
    GTTGGGCGGT CAGAGAGGGA GCTGAAGAAC CTGCAGCGGG AAATTGAGAT CATGAGAGGC
    CTCCATCACC CAAACATCAT CCAGATGCTT GACAGCTTTG AGACCGACAA GGAGGTAGTG
    GTGGTGACCG ACTATGCAGA GGGGGAGCTC TTCCAGATCC TGGAGGATGA TGGGAGTCTG
    CCCGAGGACC AGGTCCAGAC CATAGCTGCC CAGTTGGTCT CTGCTCTCTA TTACCTGCAT
    TCCCACCGTA TCCTGCACCG CGACATGAAA CCCCAGAACA TCTTGCTGGG AAAAGGCGGC
    ATCATCAAGC TCTGCGATTT TGGGTTTGCC CGTGCCATGA GCATCCACAC CATGGTGCTG
    ACCTCCATCA AGGGCACCCC CCTGTACATG TCCCCTGAAC TGGTGGAGGA ACGGCCATAC
    GACCACACGG CTGACCTGTG GTCCGTGGGC TGCATCCTGT ACGAGCTGTT TGTGGGCACC
    CCTCCCTTCT ACACCAGCAG CATCTTCCAG CTTGTCAGCC TCATCGTCAA GGACCCGGTC
    AAATGGCCCG ATGCCATAAG CCCAGTCTTC AAGAGCTTCC TGCAGGGACT GCTGATGAAG
    GATCCCCGTC AGCGCCTGTC GTGGCCAGAG CTGCTCTCCC ACCCCTTCAT TGCCGGACGG
    GTCACTGTGA TTGATGACAC AGAAGAGCAT GGGATCTCAA ACCCCTTCAC CACCAAGCTG
    TCCCCAGAGC TGCAGGCCCT GAAGGAGCAA CAAGCCCATT CCCTGGCCCC CAGGAGTGGC
    CAGTCCAGGA TCCTGAGAAA GGCCCGGCAG AAGATGGCTG AGGAGGCCCG GAAAAAGGGG
    CAGCTGAAGA CAGACACTGC GTCTGTGAAG GACCCTGGCA AAAGATGCCC AGGGCATAAA
    CCGAAAGCAG CTCCTGGGAA GGCAGCTCTT GGGGAAGGAG AGCCAGCAGC TGCTGCCAAA
    GAGAAAAACA CAGGCATCCT GCAAGGAGGG AGCAGCATGG CAGAGTGGGA GCTGGGGGAG
    CCTCCTCCAC GCGCAAGGGA GCACAGCATC ACTCGAGACT ACGAACAAGA GCTTCCTGGA
    CCAGGGACCC TTCCGGAGCC TGGTCCTGTC AGGGCAGAGT CCCGGGGCAG GCGCAGCATT
    GAGACTGTGG ACCTGGAGAG CGAGGAGCTG GAGAGTGATG AGGAGTGGCA GCACCTGATC
    GAGGCCACAG AACCTTCAGC CATGCAGCTG AGCACGCCGC TGAGCCTCCT GAGGGACTCG
    GCCTTCCGGC AGCGTGTCCG GGCCCGCCTT GCAGACTCCA GCCAGCAGGT GCTGGAAGGT
    ATGCTGGAGG GAGCTTCCCA TCTCCGTCCC GCACTCCGTG TTGTGGGCAA CCTCCTGGCT
    ACCCAGTGTG ACTCAGAGCT TCTGCACCAC TTTTGCCAAG AGCTGGATAT GCCTCTGTTC
    CTGCTGTGTT TAGCCAAGAA GATCCTGGAG AACAGTAACA CCAAGCAGCA GCCCTGGTGT
    ATCGTGGTGC TGACGGACCT TGTCATGGTG ACCACAGTTT ATTTCAGCAG TGAGTGCTGC
    CTGGAGGGGA GCCAGCAGAA GGGCAGCCTG CAGGCTTTCC AGGAGTGTGC CAGCCGCTTT
    CTAGCCCTGC TGCCAGAGCT GCTGGCCCAG TCAGCTGACA GTGAGATGAG ACTCTGCCAG
    CAAAGCCTCC TGTGCTTCAC CCTGCTCTGC GAGAGCCTGG ACGCGAGGTG CCCCTCCATC
    TCTGCCCCCT TTTATGCCAG CCTGAGAGAG AAGCATCAGC CCCTGCTGAA TGGACTCCTC
    CAGGGATCTA CCTCGGAGCA GCCTGCTTTG CAAGGTGCAG TGATGGAGCC CAAATCAGCC
    CATGACCAGA GCCAGCATGT GGCAGATCTC TTTACGGCTG CACTGGCTGC TGCCTGCAGC
    ATCCCCCTGG GGAGGAACGC GTGTCGGGAA GCCAAGCAGC AGGTCTCTCA GGAGGTGGCT
    GAGAAGCTCA TGGAAGGAGA GAGCCAGCAG CTTGGGAGGC TGCTGGGGAG GCTCGAGCAC
    CCAAACTGTT CCCTGAATGT GCTCAAGATC CTCTATGCTG GCTGCCATGC CAGCCCGAGC
    CTGGGCCAGC ACCTGGGAAG GAGCCAGCGA GTGTGGGGTT CCCTCATGCA GCTCTCGAAT
    GGCAAGGTCC CCATGGCGGA TGTGGCCCAG GGGGCAGCCT GCGAGGCCTC CCTGCACCTG
    CTGGCCCTGC TCACCCTGCA GCTCCAGGGC TCCCCTCCCA GGCTCGAGGA GGTGGTTACT
    GTGGCCATGG ATATCATCAC CCGGTCTCCT GTCGTTTCCC TTGTGGAGGA CATGGTCGTG
    GAACCGGGCT TTGCTGCCTC GGAGCTGTGG AGCGTTGTAT GGCATAGTGT TGCTGCGGTG
    CTTCATGTGG GCAGTGAGAA TGCAACGCTG GAAGGAGACA GCCTGGGGGC AGGTCACCCT
    GCGGCAGAGC CGGACTGGAA CCTCCTCTCC CCTCAGGGCA TCCTGCTCTT CCTCAGCCTG
    GCTCTCTTCG TCTTCACCTG TGAGTCGCAC CAGTGTCTGC CTCAGCTCGC CCAGCCCTGT
    GGTGTCCTCA TGGAGACGCT GAAGACGCTG CTGTCCCCCC GCTTCCTGGC ATGCCTGGCA
    CAGACGCAAG TGAGGGAGGA CGGGGATCCT GAGCTTGTCC CAGCTGTGGT GCTCCAGGCC
    TGCCAGCTCC TCTGTTTCCC TTTTGCCCTG GATGTGGATG AAGACACCTT GGCATCAGTC
    ACGAAGGGTG TGAGAGACTC CCAGATCCCT GCCCACCTGC TGCAGGCCTG CTGTCACCAT
    CTGCCCTTTT CGGGCACGGA GCTCCCCTTG AGGCTTTTGT GCCACCTCGT TGTGTGTGAT
    GAGCAGGTCA TAGACCAAAC TGTGAGGGAG GCTGCTGCCT CAGAGCATGT CATTGCCTTC
    TTGACAACCG TCTTGTTTTC AGACAACCCC ACAATCACAG CCAACCTCCT GTCCCTCTTG
    ACCCATGTGG CCCGGGTCTG TCCGGAGCAC CTACCCTTTC TCCAGAGGAT CCTGGGGGGC
    TCAGGTGTGG CCTACCAGCC ACTGACCCGC CTGCTTGGCC ATTGGGAACA CTCCATACGT
    GCCAAAACCT GCAATCTGCT GGGCAACCTG CTCCGACACA GCCACAGCTT TCCCCAGGTG
    CTGCAGAACC AGCCTGGCCT GCTGGAGAGC CTGCTGGAGT GCCTGGCGGA CCGGGATGAG
    AACGTGCGCA AGGCAGCTAG TTTTGCGGTG GGCAATGCTG CTTACCATGA GTCCTCCCCA
    GCCGGGACCC TAGGCAGGGC TGTACCCAGG CTGACAAGAC TCTTGAGCGA TGTGCAGGCC
    AAGACGCGCT GCAACGCAGC CTCAGCCCTG GGCAACCTGG GTCGACGCTC AGCGGAGCTG
    GGGGACCTGC TGATCCAGAG CAAGGCCCCC CACGTCCTGC TGGAGGTGGC CTGCCGGGAC
    CCCCAGGCAA GCGTGCAGGA AGGAGCCCTT GTTGCGCTGC GGGCCATCAG CCAGCACCCA
    GCGATACAGC AGGTGCTGCT GTCTCTCAGG GCCAGTGAGA AGCTGGCTGC ACTGGCCAGC
    AGGGACTCCC AGCCCACGGC TGGTGGCAGC CCCCGGCCTT CTTCCACCCG GCACTGCAAG
    AAGCTCATCC ACCTCCTTGC ACCTGTGCAT AGCACCTGA

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

    RefSeq XP_013816234.1
    CDS215..4033
    Translation

    Target ORF information:

    RefSeq Version XM_013960780.1
    Organism Apteryx australis mantelli
    Definition Apteryx australis mantelli serine/threonine kinase 36 (STK36), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_013960780.1

    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
    ATGCCCACAA TGGAGAAGTA CCATGTCCTG GAAATGATCG GTGAAGGCTC CTTTGGGCGA 
    GTGTACAAGG GGCGTCGGAA ATACAGTGCC CAGGTGGTGG CCTTGAAGTT CATCCCCAAG
    GTTGGGCGGT CAGAGAGGGA GCTGAAGAAC CTGCAGCGGG AAATTGAGAT CATGAGAGGC
    CTCCATCACC CAAACATCAT CCAGATGCTT GACAGCTTTG AGACCGACAA GGAGGTAGTG
    GTGGTGACCG ACTATGCAGA GGGGGAGCTC TTCCAGATCC TGGAGGATGA TGGGAGTCTG
    CCCGAGGACC AGGTCCAGAC CATAGCTGCC CAGTTGGTCT CTGCTCTCTA TTACCTGCAT
    TCCCACCGTA TCCTGCACCG CGACATGAAA CCCCAGAACA TCTTGCTGGG AAAAGGCGGC
    ATCATCAAGC TCTGCGATTT TGGGTTTGCC CGTGCCATGA GCATCCACAC CATGGTGCTG
    ACCTCCATCA AGGGCACCCC CCTGTACATG TCCCCTGAAC TGGTGGAGGA ACGGCCATAC
    GACCACACGG CTGACCTGTG GTCCGTGGGC TGCATCCTGT ACGAGCTGTT TGTGGGCACC
    CCTCCCTTCT ACACCAGCAG CATCTTCCAG CTTGTCAGCC TCATCGTCAA GGACCCGGTC
    AAATGGCCCG ATGCCATAAG CCCAGTCTTC AAGAGCTTCC TGCAGGGACT GCTGATGAAG
    GATCCCCGTC AGCGCCTGTC GTGGCCAGAG CTGCTCTCCC ACCCCTTCAT TGCCGGACGG
    GTCACTGTGA TTGATGACAC AGAAGAGCAT GGGATCTCAA ACCCCTTCAC CACCAAGCTG
    TCCCCAGAGC TGCAGGCCCT GAAGGAGCAA CAAGCCCATT CCCTGGCCCC CAGGAGTGGC
    CAGTCCAGGA TCCTGAGAAA GGCCCGGCAG AAGATGGCTG AGGAGGCCCG GAAAAAGGGG
    CAGCTGAAGA CAGACACTGC GTCTGTGAAG GACCCTGGCA AAAGATGCCC AGGGCATAAA
    CCGAAAGCAG CTCCTGGGAA GGCAGCTCTT GGGGAAGGAG AGCCAGCAGC TGCTGCCAAA
    GAGAAAAACA CAGGCATCCT GCAAGGAGGG AGCAGCATGG CAGAGTGGGA GCTGGGGGAG
    CCTCCTCCAC GCGCAAGGGA GCACAGCATC ACTCGAGACT ACGAACAAGA GCTTCCTGGA
    CCAGGGACCC TTCCGGAGCC TGGTCCTGTC AGGGCAGAGT CCCGGGGCAG GCGCAGCATT
    GAGACTGTGG ACCTGGAGAG CGAGGAGCTG GAGAGTGATG AGGAGTGGCA GCACCTGATC
    GAGGCCACAG AACCTTCAGC CATGCAGCTG AGCACGCCGC TGAGCCTCCT GAGGGACTCG
    GCCTTCCGGC AGCGTGTCCG GGCCCGCCTT GCAGACTCCA GCCAGCAGGT GCTGGAAGGT
    ATGCTGGAGG GAGCTTCCCA TCTCCGTCCC GCACTCCGTG TTGTGGGCAA CCTCCTGGCT
    ACCCAGTGTG ACTCAGAGCT TCTGCACCAC TTTTGCCAAG AGCTGGATAT GCCTCTGTTC
    CTGCTGTGTT TAGCCAAGAA GATCCTGGAG AACAGTAACA CCAAGCAGCA GCCCTGGTGT
    ATCGTGGTGC TGACGGACCT TGTCATGGTG ACCACAGTTT ATTTCAGCAG TGAGTGCTGC
    CTGGAGGGGA GCCAGCAGAA GGGCAGCCTG CAGGCTTTCC AGGAGTGTGC CAGCCGCTTT
    CTAGCCCTGC TGCCAGAGCT GCTGGCCCAG TCAGCTGACA GTGAGATGAG ACTCTGCCAG
    CAAAGCCTCC TGTGCTTCAC CCTGCTCTGC GAGAGCCTGG ACGCGAGGTG CCCCTCCATC
    TCTGCCCCCT TTTATGCCAG CCTGAGAGAG AAGCATCAGC CCCTGCTGAA TGGACTCCTC
    CAGGGATCTA CCTCGGAGCA GCCTGCTTTG CAAGGTGCAG TGATGGAGCC CAAATCAGCC
    CATGACCAGA GCCAGCATGT GGCAGATCTC TTTACGGCTG CACTGGCTGC TGCCTGCAGC
    ATCCCCCTGG GGAGGAACGC GTGTCGGGAA GCCAAGCAGC AGGTCTCTCA GGAGGTGGCT
    GAGAAGCTCA TGGAAGGAGA GAGCCAGCAG CTTGGGAGGC TGCTGGGGAG GCTCGAGCAC
    CCAAACTGTT CCCTGAATGT GCTCAAGATC CTCTATGCTG GCTGCCATGC CAGCCCGAGC
    CTGGGCCAGC ACCTGGGAAG GAGCCAGCGA GTGTGGGGTT CCCTCATGCA GCTCTCGAAT
    GGCAAGGTCC CCATGGCGGA TGTGGCCCAG GGGGCAGCCT GCGAGGCCTC CCTGCACCTG
    CTGGCCCTGC TCACCCTGCA GCTCCAGGGC TCCCCTCCCA GGCTCGAGGA GGTGGTTACT
    GTGGCCATGG ATATCATCAC CCGGTCTCCT GTCGTTTCCC TTGTGGAGGA CATGGTCGTG
    GAACCGGGCT TTGCTGCCTC GGAGCTGTGG AGCGTTGTAT GGCATAGTGT TGCTGCGGTG
    CTTCATGTGG GCAGTGAGAA TGCAACGCTG GAAGGAGACA GCCTGGGGGC AGGTCACCCT
    GCGGCAGAGC CGGACTGGAA CCTCCTCTCC CCTCAGGGCA TCCTGCTCTT CCTCAGCCTG
    GCTCTCTTCG TCTTCACCTG TGAGTCGCAC CAGTGTCTGC CTCAGCTCGC CCAGCCCTGT
    GGTGTCCTCA TGGAGACGCT GAAGACGCTG CTGTCCCCCC GCTTCCTGGC ATGCCTGGCA
    CAGACGCAAG TGAGGGAGGA CGGGGATCCT GAGCTTGTCC CAGCTGTGGT GCTCCAGGCC
    TGCCAGCTCC TCTGTTTCCC TTTTGCCCTG GATGTGGATG AAGACACCTT GGCATCAGTC
    ACGAAGGGTG TGAGAGACTC CCAGATCCCT GCCCACCTGC TGCAGGCCTG CTGTCACCAT
    CTGCCCTTTT CGGGCACGGA GCTCCCCTTG AGGCTTTTGT GCCACCTCGT TGTGTGTGAT
    GAGCAGGTCA TAGACCAAAC TGTGAGGGAG GCTGCTGCCT CAGAGCATGT CATTGCCTTC
    TTGACAACCG TCTTGTTTTC AGACAACCCC ACAATCACAG CCAACCTCCT GTCCCTCTTG
    ACCCATGTGG CCCGGGTCTG TCCGGAGCAC CTACCCTTTC TCCAGAGGAT CCTGGGGGGC
    TCAGGTGTGG CCTACCAGCC ACTGACCCGC CTGCTTGGCC ATTGGGAACA CTCCATACGT
    GCCAAAACCT GCAATCTGCT GGGCAACCTG CTCCGACACA GCCACAGCTT TCCCCAGGTG
    CTGCAGAACC AGCCTGGCCT GCTGGAGAGC CTGCTGGAGT GCCTGGCGGA CCGGGATGAG
    AACGTGCGCA AGGCAGCTAG TTTTGCGGTG GGCAATGCTG CTTACCATGA GTCCTCCCCA
    GCCGGGACCC TAGGCAGGGC TGTACCCAGG CTGACAAGAC TCTTGAGCGA TGTGCAGGCC
    AAGACGCGCT GCAACGCAGC CTCAGCCCTG GGCAACCTGG GTCGACGCTC AGCGGAGCTG
    GGGGACCTGC TGATCCAGAG CAAGGCCCCC CACGTCCTGC TGGAGGTGGC CTGCCGGGAC
    CCCCAGGCAA GCGTGCAGGA AGGAGCCCTT GTTGCGCTGC GGGCCATCAG CCAGCACCCA
    GCGATACAGC AGGTGCTGCT GTCTCTCAGG GCCAGTGAGA AGCTGGCTGC ACTGGCCAGC
    AGGGACTCCC AGCCCACGGC TGGTGGCAGC CCCCGGCCTT CTTCCACCCG GCACTGCAAG
    AAGCTCATCC ACCTCCTTGC ACCTGTGCAT AGCACCTGA

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