SIK3 cDNA ORF clone, Rhinopithecus roxellana(golden snub-nosed monkey)

The following SIK3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SIK3 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
ORh144810 XM_010371698.1
Latest version!
Rhinopithecus roxellana SIK family kinase 3 (SIK3), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
ORh144811 XM_010371699.1
Latest version!
Rhinopithecus roxellana SIK family kinase 3 (SIK3), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
ORh144812 XM_010371700.1
Latest version!
Rhinopithecus roxellana SIK family kinase 3 (SIK3), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
ORh144813 XM_010371701.1
Latest version!
Rhinopithecus roxellana SIK family kinase 3 (SIK3), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
ORh144814 XM_010371702.1
Latest version!
Rhinopithecus roxellana SIK family kinase 3 (SIK3), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
ORh249979 XM_030917417.1
Latest version!
Rhinopithecus roxellana serine/threonine-protein kinase SIK3 (LOC104668901), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00

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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 ORh144810
    Clone ID Related Accession (Same CDS sequence) XM_010371698.1
    Accession Version XM_010371698.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3762bp)
    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 2014-11-20
    Organism Rhinopithecus roxellana(golden snub-nosed monkey)
    Product serine/threonine-protein kinase SIK3 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_010813441.1) 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 :: Rhinopithecus roxellana Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 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
    ATGAAGATGC TTTGCCACCC CCATATCATC AGGCTCTACC AGGTTATGGA GACAGAACGG 
    ATGATTTATC TGGTGACAGA ATATGCTAGT GGAGGGGAAA TATTTGACCA CCTGGTGGCC
    CATGGTAGAA TGGCAGAAAA GGAGGCCCGT CGGAAGTTCA AACAGATCGT CACAGCTGTC
    TATTTTTGTC ACTGTCGGAA CATTGTTCAT CGTGATTTAA AAGCTGAAAA TTTGCTTCTG
    GATGCCAATC TGAATATCAA AATAGCAGAT TTTGGTTTCA GTAACCTCTT CACTCCTGGG
    CAGCTGCTGA AGACCTGGTG TGGCAGCCCT CCCTATGCTG CACCTGAACT CTTTGAAGGA
    AAAGAATATG ATGGGCCCAA AGTGGACATC TGGAGCCTTG GAGTTGTCCT CTATGTGCTT
    GTGTGCGGTG CCCTGCCGTT TGATGGAAGC ACACTGCAGA ATCTGCGGGC CCGCGTGCTG
    AGTGGAAAGT TCCGCATCCC ATTTTTTATG TCCACAGAAT GTGAGCATTT GATCCGCCAT
    ATGTTGGTGT TAGACCCCAA TAAGCGCCTC TCCATGGAGC AGATCTGCAA GCACAAGTGG
    ATGAAGCTAG GGGACGCCGA TCCCAACTTT GACAGGTTAA TAGCTGAATG CCAACAACTA
    AAGGAAGAAA GACAGGTGGA CCCCCTGAAT GAGGATGTCC TTTTGGCCAT GGAGGACATG
    GGACTGGACA AAGAGCAGAC ACTGCAGTCA TTAAGATCAG ATGCCTATGA TCACTATAGT
    GCAATCTACA GCCTGCTGTG TGATCGACAT AAGAGACATA AAACCCTGCG TCTCGGAGCA
    CTTCCTAGCA TGCCCCGAGC CCTGGCCTTT CAAGCACCAG TCAATATCCA GGCGGAGCAA
    GCAGGCACCG CTATGAACAT CAGCGTTCCC CAGGTGCAGC TCATCAACCC AGAGAACCAA
    ATTGTGGAGC CGGATGGGAC ACTGAATTTG GACAGTGATG AGGGTGAAGA GCCTTCCCCT
    GAAGCACTGG TGCGCTATTT GTCAATGAGG AGGCACACAG TGGGCGTGGC TGACCCACGT
    ACGGAAGTTA TGGACGATCT GCAGAAGCTC CTACCTGGCT ATCCTGGAGT CAACCCACAG
    GCTCCATTCC TGCAGGTGGC CCCCAATGTG AACTTCATGC ACAACCTGTT GCCTATGCAA
    AATTTGCAAC CAACCGGGCA ACTTGAGTAC AAGGAGCAGT CTCTCCTACA GCCGCCCACG
    CTACAACTGT TGAATGGAAT GGGCCCCCTT GGCCGGAGGG CATCAGATGG AGGAGCCAAC
    ATCCAACTGC ATGCCCAGCA GCTGCTGAAG CGCCCACGGG GACCCTCTCC GCTTGTCACC
    ATGACACCAG CAGTGGCAGC AGTTACCCCT GTGGACGAGG AGAGCTCGGA TGGGGAGCCA
    GATCAGGAAG CTGTGCAGAG GTACTTGGCA AATAGGTCCA AAAGACATAC ACTGGCCATG
    ACCAACCCTA CAGCTGAGAT CCCACCGGAC CTACAACGGC AGCTAGGACA GCAGCCTTTC
    CGTTCCCGGG TCTGGCCTCC TCACCTGGTA CCTGATCAGC ATCGCTCTAC CTACAAGGAC
    TCCAACACTC TGCACCTCCC TACGGAGCGT TTCTCCCCTG TGCGCCGGTT CTCAGATGGG
    GCTGCGAGCA TCCAGGCCTT CAAAGCTCAC CTGGAAAAAA TGAGCAACAA CAGCAGCATC
    AAACAGCTGC AGCAGGAGTG TGAGCAGCTG CAGAAGATGT ACGGGGGGCA GATTGATGAA
    AGAACCCTGG AAAAGACCCA GCAGCAGCAT ATGTTATACC AGCAGGAGCA GCACCATCAA
    ATTCTCCAGC AACAAATTCA AGATTCTATC TGTCCTCCTC AGCCATCTCC ACCTCTTCAG
    GCTGCATGTG AGAATCAGCC AGCCCTCCTC ACCCACCAGC TCCAGAGGTT AAGGATTCAG
    CCTTCAAGCC CACCCCCCAA CCACCCCAAC AACCATCTCT TCAGGCAGCC CAGTAATAGT
    CCTCCCCCCA TGAGCAGTGC CATGATCCAG CCTCACGGAG CTGCATCTTC CTCCCAGTTT
    CAAGGCTTAC CTTCCCGCAG TGCAATCTTT CAGCAGCAGC CTGAGAACTC TTCCTCTCCT
    CCCAGCGTGG CACTAACCTG CTTGGGTATG CAGCAGCCTG CTCAGTCACA GCAGGTCACC
    ATCCAAGTCC AAGAGCCTGC TGACATGCTC AGCAACATGC CAGGCACAGC TGCAGGCTCC
    AGTGGGCGGG GCATCTCCAT CAGTCCCAGT GCCAGTCAGA TGCAGATGCA GCACCGTACA
    AACCTGATGG CCACCCTCAG CTATGGGCAC CGTCCCTTGT CCAAGCAGCT GAGTGCTGAC
    AGTGCAGAGG CTCACAGCTT GAACGTGAAT CGGTTCTCCC CTGCTAACTA CGACCAGGCG
    CATTTACACC CCCATCTGTT TTCGGACCAG TCCCGAGGTT CCCCCAGCAG CTACAGCCCT
    TCAACAGGAG TGGGGTTCTC TCCAACCCAA GCCCTGAAAG TCCCTCCACT TGACCAATTC
    CCCACCTTCC CTCCCAGTGC ACATCAGCAG CCGCCACACT ATACCACATC GGCACTACAG
    CAGGCCCTGC TATCTCCCAC ACCGCCAGAC TATGCAAGAC ACCAGCAGGT ACCCCACATC
    CTTCAAGGAC TGCTGTCTCC CCGACATTCG CTCACTGGCC ACTCAGACAT CCGGCTGCCC
    CCAGCGGAGT TTGCACAGCT CATTAAAAGG CAGCAGCAAC AACGGCAGCA GCAGCAGCAA
    CAGCAGCAAC AGCAAGAATA CCAGGAACTG TTCAGGCACA TGAACCAAGG GGATGCGGGG
    ACTCTGGCTC CCAGCCTTGC AGGACAGAGC ATGACAGAGC GCCAGGCTTT ATCCTATCAA
    AATGCTGACT CTTATCACCA TCACACCAGC CCCCAGCATC TGCTACAAAT CAGGGCACAA
    GAATGTATCT CACAGGCTTC CTCAGCCACC CCGCCCCACG GGTATGCTCA TCAGCCGGCA
    CTGATGCATT CAGAGAGCAT GGAGGAGGAC TGCTCGTGTG AGGGGGCCAA GGACGGCTTC
    CCAGACAGTA AGAGTTCAAG TACATTGACC AAAGGTTGCC ATGACAGCCC TTTGCTCTTG
    AGTACCAGTG GACCTGGGGA CCCTGAATCT TTGCTAGGAA CTGTGAGTCA TGCCCAGGAA
    TTGGGGATAC ATCCCTATGG TCATCAGCCA ACTGTTGCAT TCAGTAAAAA TAAGGTGCCC
    AGCAGAGAGC CTGTCATAGG GAACTGCATG GATAGAAGTT CTCCAGGACA AGCAGTGGAG
    CTGCCGGATC ACAATGGGCT CGGGTACCCA GCACGCCCTT CTGTCCATGA GCACCACAGG
    CCCCGGGCCC TCCAGAGACA CCACACGATC CAGAACAGCG ACGATGCTTA TGTACAGCTG
    GATAACTTGC CAGGAATGAG TCTTGTGGCT GGGAAAGCAC TTAGCTCGGC CCGGATGTCG
    GATGCAGTTC TCAGTCAGTC TTCGCTCATG GGCAGCCAGC AGTTTCAGGA TGGGGAAAGT
    GAGGAATGTG GGGCAAGCCT GGGAGGTCAT GAGCACCCAG ACCTGAGTGA TGGCAGCCAG
    CATTTAAACT CCTCTTGCTA TCCGTCTACG TGTATTACAG ACATTCTGCT CAGCTACAAG
    CACCCGGAAG TCTCCTTCAG CATGGAGCAG GCAGGCGTGT AA

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

    RefSeq XP_010370000.1
    CDS70..3831
    Translation

    Target ORF information:

    RefSeq Version XM_010371698.1
    Organism Rhinopithecus roxellana(golden snub-nosed monkey)
    Definition Rhinopithecus roxellana SIK family kinase 3 (SIK3), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_010371698.1

    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
    ATGAAGATGC TTTGCCACCC CCATATCATC AGGCTCTACC AGGTTATGGA GACAGAACGG 
    ATGATTTATC TGGTGACAGA ATATGCTAGT GGAGGGGAAA TATTTGACCA CCTGGTGGCC
    CATGGTAGAA TGGCAGAAAA GGAGGCCCGT CGGAAGTTCA AACAGATCGT CACAGCTGTC
    TATTTTTGTC ACTGTCGGAA CATTGTTCAT CGTGATTTAA AAGCTGAAAA TTTGCTTCTG
    GATGCCAATC TGAATATCAA AATAGCAGAT TTTGGTTTCA GTAACCTCTT CACTCCTGGG
    CAGCTGCTGA AGACCTGGTG TGGCAGCCCT CCCTATGCTG CACCTGAACT CTTTGAAGGA
    AAAGAATATG ATGGGCCCAA AGTGGACATC TGGAGCCTTG GAGTTGTCCT CTATGTGCTT
    GTGTGCGGTG CCCTGCCGTT TGATGGAAGC ACACTGCAGA ATCTGCGGGC CCGCGTGCTG
    AGTGGAAAGT TCCGCATCCC ATTTTTTATG TCCACAGAAT GTGAGCATTT GATCCGCCAT
    ATGTTGGTGT TAGACCCCAA TAAGCGCCTC TCCATGGAGC AGATCTGCAA GCACAAGTGG
    ATGAAGCTAG GGGACGCCGA TCCCAACTTT GACAGGTTAA TAGCTGAATG CCAACAACTA
    AAGGAAGAAA GACAGGTGGA CCCCCTGAAT GAGGATGTCC TTTTGGCCAT GGAGGACATG
    GGACTGGACA AAGAGCAGAC ACTGCAGTCA TTAAGATCAG ATGCCTATGA TCACTATAGT
    GCAATCTACA GCCTGCTGTG TGATCGACAT AAGAGACATA AAACCCTGCG TCTCGGAGCA
    CTTCCTAGCA TGCCCCGAGC CCTGGCCTTT CAAGCACCAG TCAATATCCA GGCGGAGCAA
    GCAGGCACCG CTATGAACAT CAGCGTTCCC CAGGTGCAGC TCATCAACCC AGAGAACCAA
    ATTGTGGAGC CGGATGGGAC ACTGAATTTG GACAGTGATG AGGGTGAAGA GCCTTCCCCT
    GAAGCACTGG TGCGCTATTT GTCAATGAGG AGGCACACAG TGGGCGTGGC TGACCCACGT
    ACGGAAGTTA TGGACGATCT GCAGAAGCTC CTACCTGGCT ATCCTGGAGT CAACCCACAG
    GCTCCATTCC TGCAGGTGGC CCCCAATGTG AACTTCATGC ACAACCTGTT GCCTATGCAA
    AATTTGCAAC CAACCGGGCA ACTTGAGTAC AAGGAGCAGT CTCTCCTACA GCCGCCCACG
    CTACAACTGT TGAATGGAAT GGGCCCCCTT GGCCGGAGGG CATCAGATGG AGGAGCCAAC
    ATCCAACTGC ATGCCCAGCA GCTGCTGAAG CGCCCACGGG GACCCTCTCC GCTTGTCACC
    ATGACACCAG CAGTGGCAGC AGTTACCCCT GTGGACGAGG AGAGCTCGGA TGGGGAGCCA
    GATCAGGAAG CTGTGCAGAG GTACTTGGCA AATAGGTCCA AAAGACATAC ACTGGCCATG
    ACCAACCCTA CAGCTGAGAT CCCACCGGAC CTACAACGGC AGCTAGGACA GCAGCCTTTC
    CGTTCCCGGG TCTGGCCTCC TCACCTGGTA CCTGATCAGC ATCGCTCTAC CTACAAGGAC
    TCCAACACTC TGCACCTCCC TACGGAGCGT TTCTCCCCTG TGCGCCGGTT CTCAGATGGG
    GCTGCGAGCA TCCAGGCCTT CAAAGCTCAC CTGGAAAAAA TGAGCAACAA CAGCAGCATC
    AAACAGCTGC AGCAGGAGTG TGAGCAGCTG CAGAAGATGT ACGGGGGGCA GATTGATGAA
    AGAACCCTGG AAAAGACCCA GCAGCAGCAT ATGTTATACC AGCAGGAGCA GCACCATCAA
    ATTCTCCAGC AACAAATTCA AGATTCTATC TGTCCTCCTC AGCCATCTCC ACCTCTTCAG
    GCTGCATGTG AGAATCAGCC AGCCCTCCTC ACCCACCAGC TCCAGAGGTT AAGGATTCAG
    CCTTCAAGCC CACCCCCCAA CCACCCCAAC AACCATCTCT TCAGGCAGCC CAGTAATAGT
    CCTCCCCCCA TGAGCAGTGC CATGATCCAG CCTCACGGAG CTGCATCTTC CTCCCAGTTT
    CAAGGCTTAC CTTCCCGCAG TGCAATCTTT CAGCAGCAGC CTGAGAACTC TTCCTCTCCT
    CCCAGCGTGG CACTAACCTG CTTGGGTATG CAGCAGCCTG CTCAGTCACA GCAGGTCACC
    ATCCAAGTCC AAGAGCCTGC TGACATGCTC AGCAACATGC CAGGCACAGC TGCAGGCTCC
    AGTGGGCGGG GCATCTCCAT CAGTCCCAGT GCCAGTCAGA TGCAGATGCA GCACCGTACA
    AACCTGATGG CCACCCTCAG CTATGGGCAC CGTCCCTTGT CCAAGCAGCT GAGTGCTGAC
    AGTGCAGAGG CTCACAGCTT GAACGTGAAT CGGTTCTCCC CTGCTAACTA CGACCAGGCG
    CATTTACACC CCCATCTGTT TTCGGACCAG TCCCGAGGTT CCCCCAGCAG CTACAGCCCT
    TCAACAGGAG TGGGGTTCTC TCCAACCCAA GCCCTGAAAG TCCCTCCACT TGACCAATTC
    CCCACCTTCC CTCCCAGTGC ACATCAGCAG CCGCCACACT ATACCACATC GGCACTACAG
    CAGGCCCTGC TATCTCCCAC ACCGCCAGAC TATGCAAGAC ACCAGCAGGT ACCCCACATC
    CTTCAAGGAC TGCTGTCTCC CCGACATTCG CTCACTGGCC ACTCAGACAT CCGGCTGCCC
    CCAGCGGAGT TTGCACAGCT CATTAAAAGG CAGCAGCAAC AACGGCAGCA GCAGCAGCAA
    CAGCAGCAAC AGCAAGAATA CCAGGAACTG TTCAGGCACA TGAACCAAGG GGATGCGGGG
    ACTCTGGCTC CCAGCCTTGC AGGACAGAGC ATGACAGAGC GCCAGGCTTT ATCCTATCAA
    AATGCTGACT CTTATCACCA TCACACCAGC CCCCAGCATC TGCTACAAAT CAGGGCACAA
    GAATGTATCT CACAGGCTTC CTCAGCCACC CCGCCCCACG GGTATGCTCA TCAGCCGGCA
    CTGATGCATT CAGAGAGCAT GGAGGAGGAC TGCTCGTGTG AGGGGGCCAA GGACGGCTTC
    CCAGACAGTA AGAGTTCAAG TACATTGACC AAAGGTTGCC ATGACAGCCC TTTGCTCTTG
    AGTACCAGTG GACCTGGGGA CCCTGAATCT TTGCTAGGAA CTGTGAGTCA TGCCCAGGAA
    TTGGGGATAC ATCCCTATGG TCATCAGCCA ACTGTTGCAT TCAGTAAAAA TAAGGTGCCC
    AGCAGAGAGC CTGTCATAGG GAACTGCATG GATAGAAGTT CTCCAGGACA AGCAGTGGAG
    CTGCCGGATC ACAATGGGCT CGGGTACCCA GCACGCCCTT CTGTCCATGA GCACCACAGG
    CCCCGGGCCC TCCAGAGACA CCACACGATC CAGAACAGCG ACGATGCTTA TGTACAGCTG
    GATAACTTGC CAGGAATGAG TCTTGTGGCT GGGAAAGCAC TTAGCTCGGC CCGGATGTCG
    GATGCAGTTC TCAGTCAGTC TTCGCTCATG GGCAGCCAGC AGTTTCAGGA TGGGGAAAGT
    GAGGAATGTG GGGCAAGCCT GGGAGGTCAT GAGCACCCAG ACCTGAGTGA TGGCAGCCAG
    CATTTAAACT CCTCTTGCTA TCCGTCTACG TGTATTACAG ACATTCTGCT CAGCTACAAG
    CACCCGGAAG TCTCCTTCAG CATGGAGCAG GCAGGCGTGT AA

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

    CloneID ORh144811
    Clone ID Related Accession (Same CDS sequence) XM_010371699.1
    Accession Version XM_010371699.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3633bp)
    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 2014-11-20
    Organism Rhinopithecus roxellana(golden snub-nosed monkey)
    Product serine/threonine-protein kinase SIK3 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_010813441.1) 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 :: Rhinopithecus roxellana Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 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
    ATGGCAGAAA AGGAGGCCCG TCGGAAGTTC AAACAGATCG TCACAGCTGT CTATTTTTGT 
    CACTGTCGGA ACATTGTTCA TCGTGATTTA AAAGCTGAAA ATTTGCTTCT GGATGCCAAT
    CTGAATATCA AAATAGCAGA TTTTGGTTTC AGTAACCTCT TCACTCCTGG GCAGCTGCTG
    AAGACCTGGT GTGGCAGCCC TCCCTATGCT GCACCTGAAC TCTTTGAAGG AAAAGAATAT
    GATGGGCCCA AAGTGGACAT CTGGAGCCTT GGAGTTGTCC TCTATGTGCT TGTGTGCGGT
    GCCCTGCCGT TTGATGGAAG CACACTGCAG AATCTGCGGG CCCGCGTGCT GAGTGGAAAG
    TTCCGCATCC CATTTTTTAT GTCCACAGAA TGTGAGCATT TGATCCGCCA TATGTTGGTG
    TTAGACCCCA ATAAGCGCCT CTCCATGGAG CAGATCTGCA AGCACAAGTG GATGAAGCTA
    GGGGACGCCG ATCCCAACTT TGACAGGTTA ATAGCTGAAT GCCAACAACT AAAGGAAGAA
    AGACAGGTGG ACCCCCTGAA TGAGGATGTC CTTTTGGCCA TGGAGGACAT GGGACTGGAC
    AAAGAGCAGA CACTGCAGTC ATTAAGATCA GATGCCTATG ATCACTATAG TGCAATCTAC
    AGCCTGCTGT GTGATCGACA TAAGAGACAT AAAACCCTGC GTCTCGGAGC ACTTCCTAGC
    ATGCCCCGAG CCCTGGCCTT TCAAGCACCA GTCAATATCC AGGCGGAGCA AGCAGGCACC
    GCTATGAACA TCAGCGTTCC CCAGGTGCAG CTCATCAACC CAGAGAACCA AATTGTGGAG
    CCGGATGGGA CACTGAATTT GGACAGTGAT GAGGGTGAAG AGCCTTCCCC TGAAGCACTG
    GTGCGCTATT TGTCAATGAG GAGGCACACA GTGGGCGTGG CTGACCCACG TACGGAAGTT
    ATGGACGATC TGCAGAAGCT CCTACCTGGC TATCCTGGAG TCAACCCACA GGCTCCATTC
    CTGCAGGTGG CCCCCAATGT GAACTTCATG CACAACCTGT TGCCTATGCA AAATTTGCAA
    CCAACCGGGC AACTTGAGTA CAAGGAGCAG TCTCTCCTAC AGCCGCCCAC GCTACAACTG
    TTGAATGGAA TGGGCCCCCT TGGCCGGAGG GCATCAGATG GAGGAGCCAA CATCCAACTG
    CATGCCCAGC AGCTGCTGAA GCGCCCACGG GGACCCTCTC CGCTTGTCAC CATGACACCA
    GCAGTGGCAG CAGTTACCCC TGTGGACGAG GAGAGCTCGG ATGGGGAGCC AGATCAGGAA
    GCTGTGCAGA GGTACTTGGC AAATAGGTCC AAAAGACATA CACTGGCCAT GACCAACCCT
    ACAGCTGAGA TCCCACCGGA CCTACAACGG CAGCTAGGAC AGCAGCCTTT CCGTTCCCGG
    GTCTGGCCTC CTCACCTGGT ACCTGATCAG CATCGCTCTA CCTACAAGGA CTCCAACACT
    CTGCACCTCC CTACGGAGCG TTTCTCCCCT GTGCGCCGGT TCTCAGATGG GGCTGCGAGC
    ATCCAGGCCT TCAAAGCTCA CCTGGAAAAA ATGAGCAACA ACAGCAGCAT CAAACAGCTG
    CAGCAGGAGT GTGAGCAGCT GCAGAAGATG TACGGGGGGC AGATTGATGA AAGAACCCTG
    GAAAAGACCC AGCAGCAGCA TATGTTATAC CAGCAGGAGC AGCACCATCA AATTCTCCAG
    CAACAAATTC AAGATTCTAT CTGTCCTCCT CAGCCATCTC CACCTCTTCA GGCTGCATGT
    GAGAATCAGC CAGCCCTCCT CACCCACCAG CTCCAGAGGT TAAGGATTCA GCCTTCAAGC
    CCACCCCCCA ACCACCCCAA CAACCATCTC TTCAGGCAGC CCAGTAATAG TCCTCCCCCC
    ATGAGCAGTG CCATGATCCA GCCTCACGGA GCTGCATCTT CCTCCCAGTT TCAAGGCTTA
    CCTTCCCGCA GTGCAATCTT TCAGCAGCAG CCTGAGAACT CTTCCTCTCC TCCCAGCGTG
    GCACTAACCT GCTTGGGTAT GCAGCAGCCT GCTCAGTCAC AGCAGGTCAC CATCCAAGTC
    CAAGAGCCTG CTGACATGCT CAGCAACATG CCAGGCACAG CTGCAGGCTC CAGTGGGCGG
    GGCATCTCCA TCAGTCCCAG TGCCAGTCAG ATGCAGATGC AGCACCGTAC AAACCTGATG
    GCCACCCTCA GCTATGGGCA CCGTCCCTTG TCCAAGCAGC TGAGTGCTGA CAGTGCAGAG
    GCTCACAGCT TGAACGTGAA TCGGTTCTCC CCTGCTAACT ACGACCAGGC GCATTTACAC
    CCCCATCTGT TTTCGGACCA GTCCCGAGGT TCCCCCAGCA GCTACAGCCC TTCAACAGGA
    GTGGGGTTCT CTCCAACCCA AGCCCTGAAA GTCCCTCCAC TTGACCAATT CCCCACCTTC
    CCTCCCAGTG CACATCAGCA GCCGCCACAC TATACCACAT CGGCACTACA GCAGGCCCTG
    CTATCTCCCA CACCGCCAGA CTATGCAAGA CACCAGCAGG TACCCCACAT CCTTCAAGGA
    CTGCTGTCTC CCCGACATTC GCTCACTGGC CACTCAGACA TCCGGCTGCC CCCAGCGGAG
    TTTGCACAGC TCATTAAAAG GCAGCAGCAA CAACGGCAGC AGCAGCAGCA ACAGCAGCAA
    CAGCAAGAAT ACCAGGAACT GTTCAGGCAC ATGAACCAAG GGGATGCGGG GACTCTGGCT
    CCCAGCCTTG CAGGACAGAG CATGACAGAG CGCCAGGCTT TATCCTATCA AAATGCTGAC
    TCTTATCACC ATCACACCAG CCCCCAGCAT CTGCTACAAA TCAGGGCACA AGAATGTATC
    TCACAGGCTT CCTCAGCCAC CCCGCCCCAC GGGTATGCTC ATCAGCCGGC ACTGATGCAT
    TCAGAGAGCA TGGAGGAGGA CTGCTCGTGT GAGGGGGCCA AGGACGGCTT CCCAGACAGT
    AAGAGTTCAA GTACATTGAC CAAAGGTTGC CATGACAGCC CTTTGCTCTT GAGTACCAGT
    GGACCTGGGG ACCCTGAATC TTTGCTAGGA ACTGTGAGTC ATGCCCAGGA ATTGGGGATA
    CATCCCTATG GTCATCAGCC AACTGTTGCA TTCAGTAAAA ATAAGGTGCC CAGCAGAGAG
    CCTGTCATAG GGAACTGCAT GGATAGAAGT TCTCCAGGAC AAGCAGTGGA GCTGCCGGAT
    CACAATGGGC TCGGGTACCC AGCACGCCCT TCTGTCCATG AGCACCACAG GCCCCGGGCC
    CTCCAGAGAC ACCACACGAT CCAGAACAGC GACGATGCTT ATGTACAGCT GGATAACTTG
    CCAGGAATGA GTCTTGTGGC TGGGAAAGCA CTTAGCTCGG CCCGGATGTC GGATGCAGTT
    CTCAGTCAGT CTTCGCTCAT GGGCAGCCAG CAGTTTCAGG ATGGGGAAAG TGAGGAATGT
    GGGGCAAGCC TGGGAGGTCA TGAGCACCCA GACCTGAGTG ATGGCAGCCA GCATTTAAAC
    TCCTCTTGCT ATCCGTCTAC GTGTATTACA GACATTCTGC TCAGCTACAA GCACCCGGAA
    GTCTCCTTCA GCATGGAGCA GGCAGGCGTG TAA

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

    RefSeq XP_010370001.1
    CDS83..3715
    Translation

    Target ORF information:

    RefSeq Version XM_010371699.1
    Organism Rhinopithecus roxellana(golden snub-nosed monkey)
    Definition Rhinopithecus roxellana SIK family kinase 3 (SIK3), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_010371699.1

    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
    ATGGCAGAAA AGGAGGCCCG TCGGAAGTTC AAACAGATCG TCACAGCTGT CTATTTTTGT 
    CACTGTCGGA ACATTGTTCA TCGTGATTTA AAAGCTGAAA ATTTGCTTCT GGATGCCAAT
    CTGAATATCA AAATAGCAGA TTTTGGTTTC AGTAACCTCT TCACTCCTGG GCAGCTGCTG
    AAGACCTGGT GTGGCAGCCC TCCCTATGCT GCACCTGAAC TCTTTGAAGG AAAAGAATAT
    GATGGGCCCA AAGTGGACAT CTGGAGCCTT GGAGTTGTCC TCTATGTGCT TGTGTGCGGT
    GCCCTGCCGT TTGATGGAAG CACACTGCAG AATCTGCGGG CCCGCGTGCT GAGTGGAAAG
    TTCCGCATCC CATTTTTTAT GTCCACAGAA TGTGAGCATT TGATCCGCCA TATGTTGGTG
    TTAGACCCCA ATAAGCGCCT CTCCATGGAG CAGATCTGCA AGCACAAGTG GATGAAGCTA
    GGGGACGCCG ATCCCAACTT TGACAGGTTA ATAGCTGAAT GCCAACAACT AAAGGAAGAA
    AGACAGGTGG ACCCCCTGAA TGAGGATGTC CTTTTGGCCA TGGAGGACAT GGGACTGGAC
    AAAGAGCAGA CACTGCAGTC ATTAAGATCA GATGCCTATG ATCACTATAG TGCAATCTAC
    AGCCTGCTGT GTGATCGACA TAAGAGACAT AAAACCCTGC GTCTCGGAGC ACTTCCTAGC
    ATGCCCCGAG CCCTGGCCTT TCAAGCACCA GTCAATATCC AGGCGGAGCA AGCAGGCACC
    GCTATGAACA TCAGCGTTCC CCAGGTGCAG CTCATCAACC CAGAGAACCA AATTGTGGAG
    CCGGATGGGA CACTGAATTT GGACAGTGAT GAGGGTGAAG AGCCTTCCCC TGAAGCACTG
    GTGCGCTATT TGTCAATGAG GAGGCACACA GTGGGCGTGG CTGACCCACG TACGGAAGTT
    ATGGACGATC TGCAGAAGCT CCTACCTGGC TATCCTGGAG TCAACCCACA GGCTCCATTC
    CTGCAGGTGG CCCCCAATGT GAACTTCATG CACAACCTGT TGCCTATGCA AAATTTGCAA
    CCAACCGGGC AACTTGAGTA CAAGGAGCAG TCTCTCCTAC AGCCGCCCAC GCTACAACTG
    TTGAATGGAA TGGGCCCCCT TGGCCGGAGG GCATCAGATG GAGGAGCCAA CATCCAACTG
    CATGCCCAGC AGCTGCTGAA GCGCCCACGG GGACCCTCTC CGCTTGTCAC CATGACACCA
    GCAGTGGCAG CAGTTACCCC TGTGGACGAG GAGAGCTCGG ATGGGGAGCC AGATCAGGAA
    GCTGTGCAGA GGTACTTGGC AAATAGGTCC AAAAGACATA CACTGGCCAT GACCAACCCT
    ACAGCTGAGA TCCCACCGGA CCTACAACGG CAGCTAGGAC AGCAGCCTTT CCGTTCCCGG
    GTCTGGCCTC CTCACCTGGT ACCTGATCAG CATCGCTCTA CCTACAAGGA CTCCAACACT
    CTGCACCTCC CTACGGAGCG TTTCTCCCCT GTGCGCCGGT TCTCAGATGG GGCTGCGAGC
    ATCCAGGCCT TCAAAGCTCA CCTGGAAAAA ATGAGCAACA ACAGCAGCAT CAAACAGCTG
    CAGCAGGAGT GTGAGCAGCT GCAGAAGATG TACGGGGGGC AGATTGATGA AAGAACCCTG
    GAAAAGACCC AGCAGCAGCA TATGTTATAC CAGCAGGAGC AGCACCATCA AATTCTCCAG
    CAACAAATTC AAGATTCTAT CTGTCCTCCT CAGCCATCTC CACCTCTTCA GGCTGCATGT
    GAGAATCAGC CAGCCCTCCT CACCCACCAG CTCCAGAGGT TAAGGATTCA GCCTTCAAGC
    CCACCCCCCA ACCACCCCAA CAACCATCTC TTCAGGCAGC CCAGTAATAG TCCTCCCCCC
    ATGAGCAGTG CCATGATCCA GCCTCACGGA GCTGCATCTT CCTCCCAGTT TCAAGGCTTA
    CCTTCCCGCA GTGCAATCTT TCAGCAGCAG CCTGAGAACT CTTCCTCTCC TCCCAGCGTG
    GCACTAACCT GCTTGGGTAT GCAGCAGCCT GCTCAGTCAC AGCAGGTCAC CATCCAAGTC
    CAAGAGCCTG CTGACATGCT CAGCAACATG CCAGGCACAG CTGCAGGCTC CAGTGGGCGG
    GGCATCTCCA TCAGTCCCAG TGCCAGTCAG ATGCAGATGC AGCACCGTAC AAACCTGATG
    GCCACCCTCA GCTATGGGCA CCGTCCCTTG TCCAAGCAGC TGAGTGCTGA CAGTGCAGAG
    GCTCACAGCT TGAACGTGAA TCGGTTCTCC CCTGCTAACT ACGACCAGGC GCATTTACAC
    CCCCATCTGT TTTCGGACCA GTCCCGAGGT TCCCCCAGCA GCTACAGCCC TTCAACAGGA
    GTGGGGTTCT CTCCAACCCA AGCCCTGAAA GTCCCTCCAC TTGACCAATT CCCCACCTTC
    CCTCCCAGTG CACATCAGCA GCCGCCACAC TATACCACAT CGGCACTACA GCAGGCCCTG
    CTATCTCCCA CACCGCCAGA CTATGCAAGA CACCAGCAGG TACCCCACAT CCTTCAAGGA
    CTGCTGTCTC CCCGACATTC GCTCACTGGC CACTCAGACA TCCGGCTGCC CCCAGCGGAG
    TTTGCACAGC TCATTAAAAG GCAGCAGCAA CAACGGCAGC AGCAGCAGCA ACAGCAGCAA
    CAGCAAGAAT ACCAGGAACT GTTCAGGCAC ATGAACCAAG GGGATGCGGG GACTCTGGCT
    CCCAGCCTTG CAGGACAGAG CATGACAGAG CGCCAGGCTT TATCCTATCA AAATGCTGAC
    TCTTATCACC ATCACACCAG CCCCCAGCAT CTGCTACAAA TCAGGGCACA AGAATGTATC
    TCACAGGCTT CCTCAGCCAC CCCGCCCCAC GGGTATGCTC ATCAGCCGGC ACTGATGCAT
    TCAGAGAGCA TGGAGGAGGA CTGCTCGTGT GAGGGGGCCA AGGACGGCTT CCCAGACAGT
    AAGAGTTCAA GTACATTGAC CAAAGGTTGC CATGACAGCC CTTTGCTCTT GAGTACCAGT
    GGACCTGGGG ACCCTGAATC TTTGCTAGGA ACTGTGAGTC ATGCCCAGGA ATTGGGGATA
    CATCCCTATG GTCATCAGCC AACTGTTGCA TTCAGTAAAA ATAAGGTGCC CAGCAGAGAG
    CCTGTCATAG GGAACTGCAT GGATAGAAGT TCTCCAGGAC AAGCAGTGGA GCTGCCGGAT
    CACAATGGGC TCGGGTACCC AGCACGCCCT TCTGTCCATG AGCACCACAG GCCCCGGGCC
    CTCCAGAGAC ACCACACGAT CCAGAACAGC GACGATGCTT ATGTACAGCT GGATAACTTG
    CCAGGAATGA GTCTTGTGGC TGGGAAAGCA CTTAGCTCGG CCCGGATGTC GGATGCAGTT
    CTCAGTCAGT CTTCGCTCAT GGGCAGCCAG CAGTTTCAGG ATGGGGAAAG TGAGGAATGT
    GGGGCAAGCC TGGGAGGTCA TGAGCACCCA GACCTGAGTG ATGGCAGCCA GCATTTAAAC
    TCCTCTTGCT ATCCGTCTAC GTGTATTACA GACATTCTGC TCAGCTACAA GCACCCGGAA
    GTCTCCTTCA GCATGGAGCA GGCAGGCGTG TAA

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

    CloneID ORh144812
    Clone ID Related Accession (Same CDS sequence) XM_010371700.1
    Accession Version XM_010371700.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3618bp)
    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 2014-11-20
    Organism Rhinopithecus roxellana(golden snub-nosed monkey)
    Product serine/threonine-protein kinase SIK3 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_010813441.1) 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 :: Rhinopithecus roxellana Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 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
    ATGAAGATGC TTTGCCACCC CCATATCATC AGGCTCTACC AGGTTATGGA GACAGAACGG 
    ATGATTTATC TGGTGACAGA ATATGCTAGT GGAGGGGAAA TATTTGACCA CCTGGTGGCC
    CATGGTAGAA TGGCAGAAAA GGAGGCCCGT CGGAAGTTCA AACAGATCGT CACAGCTGTC
    TATTTTTGTC ACTGTCGGAA CATTGTTCAT CGTGATTTAA AAGCTGAAAA TTTGCTTCTG
    GATGCCAATC TGAATATCAA AATAGCAGAT TTTGGTTTCA GTAACCTCTT CACTCCTGGG
    CAGCTGCTGA AGACCTGGTG TGGCAGCCCT CCCTATGCTG CACCTGAACT CTTTGAAGGA
    AAAGAATATG ATGGGCCCAA AGTGGACATC TGGAGCCTTG GAGTTGTCCT CTATGTGCTT
    GTGTGCGGTG CCCTGCCGTT TGATGGAAGC ACACTGCAGA ATCTGCGGGC CCGCGTGCTG
    AGTGGAAAGT TCCGCATCCC ATTTTTTATG TCCACAGAAT GTGAGCATTT GATCCGCCAT
    ATGTTGGTGT TAGACCCCAA TAAGCGCCTC TCCATGGAGC AGATCTGCAA GCACAAGTGG
    ATGAAGCTAG GGGACGCCGA TCCCAACTTT GACAGGTTAA TAGCTGAATG CCAACAACTA
    AAGGAAGAAA GACAGGTGGA CCCCCTGAAT GAGGATGTCC TTTTGGCCAT GGAGGACATG
    GGACTGGACA AAGAGCAGAC ACTGCAGTCA TTAAGATCAG ATGCCTATGA TCACTATAGT
    GCAATCTACA GCCTGCTGTG TGATCGACAT AAGAGACATA AAACCCTGCG TCTCGGAGCA
    CTTCCTAGCA TGCCCCGAGC CCTGGCCTTT CAAGCACCAG TCAATATCCA GGCGGAGCAA
    GCAGGCACCG CTATGAACAT CAGCGTTCCC CAGGTGCAGC TCATCAACCC AGAGAACCAA
    ATTGTGGAGC CGGATGGGAC ACTGAATTTG GACAGTGATG AGGGTGAAGA GCCTTCCCCT
    GAAGCACTGG TGCGCTATTT GTCAATGAGG AGGCACACAG TGGGCGTGGC TGACCCACGT
    ACGGAAGTTA TGGACGATCT GCAGAAGCTC CTACCTGGCT ATCCTGGAGT CAACCCACAG
    GCTCCATTCC TGCAGGTGGC CCCCAATGTG AACTTCATGC ACAACCTGTT GCCTATGCAA
    AATTTGCAAC CAACCGGGCA ACTTGAGTAC AAGGAGCAGT CTCTCCTACA GCCGCCCACG
    CTACAACTGT TGAATGGAAT GGGCCCCCTT GGCCGGAGGG CATCAGATGG AGGAGCCAAC
    ATCCAACTGC ATGCCCAGCA GCTGCTGAAG CGCCCACGGG GACCCTCTCC GCTTGTCACC
    ATGACACCAG CAGTGGCAGC AGTTACCCCT GTGGACGAGG AGAGCTCGGA TGGGGAGCCA
    GATCAGGAAG CTGTGCAGAG CTCTACCTAC AAGGACTCCA ACACTCTGCA CCTCCCTACG
    GAGCGTTTCT CCCCTGTGCG CCGGTTCTCA GATGGGGCTG CGAGCATCCA GGCCTTCAAA
    GCTCACCTGG AAAAAATGAG CAACAACAGC AGCATCAAAC AGCTGCAGCA GGAGTGTGAG
    CAGCTGCAGA AGATGTACGG GGGGCAGATT GATGAAAGAA CCCTGGAAAA GACCCAGCAG
    CAGCATATGT TATACCAGCA GGAGCAGCAC CATCAAATTC TCCAGCAACA AATTCAAGAT
    TCTATCTGTC CTCCTCAGCC ATCTCCACCT CTTCAGGCTG CATGTGAGAA TCAGCCAGCC
    CTCCTCACCC ACCAGCTCCA GAGGTTAAGG ATTCAGCCTT CAAGCCCACC CCCCAACCAC
    CCCAACAACC ATCTCTTCAG GCAGCCCAGT AATAGTCCTC CCCCCATGAG CAGTGCCATG
    ATCCAGCCTC ACGGAGCTGC ATCTTCCTCC CAGTTTCAAG GCTTACCTTC CCGCAGTGCA
    ATCTTTCAGC AGCAGCCTGA GAACTCTTCC TCTCCTCCCA GCGTGGCACT AACCTGCTTG
    GGTATGCAGC AGCCTGCTCA GTCACAGCAG GTCACCATCC AAGTCCAAGA GCCTGCTGAC
    ATGCTCAGCA ACATGCCAGG CACAGCTGCA GGCTCCAGTG GGCGGGGCAT CTCCATCAGT
    CCCAGTGCCA GTCAGATGCA GATGCAGCAC CGTACAAACC TGATGGCCAC CCTCAGCTAT
    GGGCACCGTC CCTTGTCCAA GCAGCTGAGT GCTGACAGTG CAGAGGCTCA CAGCTTGAAC
    GTGAATCGGT TCTCCCCTGC TAACTACGAC CAGGCGCATT TACACCCCCA TCTGTTTTCG
    GACCAGTCCC GAGGTTCCCC CAGCAGCTAC AGCCCTTCAA CAGGAGTGGG GTTCTCTCCA
    ACCCAAGCCC TGAAAGTCCC TCCACTTGAC CAATTCCCCA CCTTCCCTCC CAGTGCACAT
    CAGCAGCCGC CACACTATAC CACATCGGCA CTACAGCAGG CCCTGCTATC TCCCACACCG
    CCAGACTATG CAAGACACCA GCAGGTACCC CACATCCTTC AAGGACTGCT GTCTCCCCGA
    CATTCGCTCA CTGGCCACTC AGACATCCGG CTGCCCCCAG CGGAGTTTGC ACAGCTCATT
    AAAAGGCAGC AGCAACAACG GCAGCAGCAG CAGCAACAGC AGCAACAGCA AGAATACCAG
    GAACTGTTCA GGCACATGAA CCAAGGGGAT GCGGGGACTC TGGCTCCCAG CCTTGCAGGA
    CAGAGCATGA CAGAGCGCCA GGCTTTATCC TATCAAAATG CTGACTCTTA TCACCATCAC
    ACCAGCCCCC AGCATCTGCT ACAAATCAGG GCACAAGAAT GTATCTCACA GGCTTCCTCA
    GCCACCCCGC CCCACGGGTA TGCTCATCAG CCGGCACTGA TGCATTCAGA GAGCATGGAG
    GAGGACTGCT CGTGTGAGGG GGCCAAGGAC GGCTTCCCAG ACAGTAAGAG TTCAAGTACA
    TTGACCAAAG GTTGCCATGA CAGCCCTTTG CTCTTGAGTA CCAGTGGACC TGGGGACCCT
    GAATCTTTGC TAGGAACTGT GAGTCATGCC CAGGAATTGG GGATACATCC CTATGGTCAT
    CAGCCAACTG TTGCATTCAG TAAAAATAAG GTGCCCAGCA GAGAGCCTGT CATAGGGAAC
    TGCATGGATA GAAGTTCTCC AGGACAAGCA GTGGAGCTGC CGGATCACAA TGGGCTCGGG
    TACCCAGCAC GCCCTTCTGT CCATGAGCAC CACAGGCCCC GGGCCCTCCA GAGACACCAC
    ACGATCCAGA ACAGCGACGA TGCTTATGTA CAGCTGGATA ACTTGCCAGG AATGAGTCTT
    GTGGCTGGGA AAGCACTTAG CTCGGCCCGG ATGTCGGATG CAGTTCTCAG TCAGTCTTCG
    CTCATGGGCA GCCAGCAGTT TCAGGATGGG GAAAGTGAGG AATGTGGGGC AAGCCTGGGA
    GGTCATGAGC ACCCAGACCT GAGTGATGGC AGCCAGCATT TAAACTCCTC TTGCTATCCG
    TCTACGTGTA TTACAGACAT TCTGCTCAGC TACAAGCACC CGGAAGTCTC CTTCAGCATG
    GAGCAGGCAG GCGTGTAA

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

    RefSeq XP_010370002.1
    CDS70..3687
    Translation

    Target ORF information:

    RefSeq Version XM_010371700.1
    Organism Rhinopithecus roxellana(golden snub-nosed monkey)
    Definition Rhinopithecus roxellana SIK family kinase 3 (SIK3), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_010371700.1

    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
    ATGAAGATGC TTTGCCACCC CCATATCATC AGGCTCTACC AGGTTATGGA GACAGAACGG 
    ATGATTTATC TGGTGACAGA ATATGCTAGT GGAGGGGAAA TATTTGACCA CCTGGTGGCC
    CATGGTAGAA TGGCAGAAAA GGAGGCCCGT CGGAAGTTCA AACAGATCGT CACAGCTGTC
    TATTTTTGTC ACTGTCGGAA CATTGTTCAT CGTGATTTAA AAGCTGAAAA TTTGCTTCTG
    GATGCCAATC TGAATATCAA AATAGCAGAT TTTGGTTTCA GTAACCTCTT CACTCCTGGG
    CAGCTGCTGA AGACCTGGTG TGGCAGCCCT CCCTATGCTG CACCTGAACT CTTTGAAGGA
    AAAGAATATG ATGGGCCCAA AGTGGACATC TGGAGCCTTG GAGTTGTCCT CTATGTGCTT
    GTGTGCGGTG CCCTGCCGTT TGATGGAAGC ACACTGCAGA ATCTGCGGGC CCGCGTGCTG
    AGTGGAAAGT TCCGCATCCC ATTTTTTATG TCCACAGAAT GTGAGCATTT GATCCGCCAT
    ATGTTGGTGT TAGACCCCAA TAAGCGCCTC TCCATGGAGC AGATCTGCAA GCACAAGTGG
    ATGAAGCTAG GGGACGCCGA TCCCAACTTT GACAGGTTAA TAGCTGAATG CCAACAACTA
    AAGGAAGAAA GACAGGTGGA CCCCCTGAAT GAGGATGTCC TTTTGGCCAT GGAGGACATG
    GGACTGGACA AAGAGCAGAC ACTGCAGTCA TTAAGATCAG ATGCCTATGA TCACTATAGT
    GCAATCTACA GCCTGCTGTG TGATCGACAT AAGAGACATA AAACCCTGCG TCTCGGAGCA
    CTTCCTAGCA TGCCCCGAGC CCTGGCCTTT CAAGCACCAG TCAATATCCA GGCGGAGCAA
    GCAGGCACCG CTATGAACAT CAGCGTTCCC CAGGTGCAGC TCATCAACCC AGAGAACCAA
    ATTGTGGAGC CGGATGGGAC ACTGAATTTG GACAGTGATG AGGGTGAAGA GCCTTCCCCT
    GAAGCACTGG TGCGCTATTT GTCAATGAGG AGGCACACAG TGGGCGTGGC TGACCCACGT
    ACGGAAGTTA TGGACGATCT GCAGAAGCTC CTACCTGGCT ATCCTGGAGT CAACCCACAG
    GCTCCATTCC TGCAGGTGGC CCCCAATGTG AACTTCATGC ACAACCTGTT GCCTATGCAA
    AATTTGCAAC CAACCGGGCA ACTTGAGTAC AAGGAGCAGT CTCTCCTACA GCCGCCCACG
    CTACAACTGT TGAATGGAAT GGGCCCCCTT GGCCGGAGGG CATCAGATGG AGGAGCCAAC
    ATCCAACTGC ATGCCCAGCA GCTGCTGAAG CGCCCACGGG GACCCTCTCC GCTTGTCACC
    ATGACACCAG CAGTGGCAGC AGTTACCCCT GTGGACGAGG AGAGCTCGGA TGGGGAGCCA
    GATCAGGAAG CTGTGCAGAG CTCTACCTAC AAGGACTCCA ACACTCTGCA CCTCCCTACG
    GAGCGTTTCT CCCCTGTGCG CCGGTTCTCA GATGGGGCTG CGAGCATCCA GGCCTTCAAA
    GCTCACCTGG AAAAAATGAG CAACAACAGC AGCATCAAAC AGCTGCAGCA GGAGTGTGAG
    CAGCTGCAGA AGATGTACGG GGGGCAGATT GATGAAAGAA CCCTGGAAAA GACCCAGCAG
    CAGCATATGT TATACCAGCA GGAGCAGCAC CATCAAATTC TCCAGCAACA AATTCAAGAT
    TCTATCTGTC CTCCTCAGCC ATCTCCACCT CTTCAGGCTG CATGTGAGAA TCAGCCAGCC
    CTCCTCACCC ACCAGCTCCA GAGGTTAAGG ATTCAGCCTT CAAGCCCACC CCCCAACCAC
    CCCAACAACC ATCTCTTCAG GCAGCCCAGT AATAGTCCTC CCCCCATGAG CAGTGCCATG
    ATCCAGCCTC ACGGAGCTGC ATCTTCCTCC CAGTTTCAAG GCTTACCTTC CCGCAGTGCA
    ATCTTTCAGC AGCAGCCTGA GAACTCTTCC TCTCCTCCCA GCGTGGCACT AACCTGCTTG
    GGTATGCAGC AGCCTGCTCA GTCACAGCAG GTCACCATCC AAGTCCAAGA GCCTGCTGAC
    ATGCTCAGCA ACATGCCAGG CACAGCTGCA GGCTCCAGTG GGCGGGGCAT CTCCATCAGT
    CCCAGTGCCA GTCAGATGCA GATGCAGCAC CGTACAAACC TGATGGCCAC CCTCAGCTAT
    GGGCACCGTC CCTTGTCCAA GCAGCTGAGT GCTGACAGTG CAGAGGCTCA CAGCTTGAAC
    GTGAATCGGT TCTCCCCTGC TAACTACGAC CAGGCGCATT TACACCCCCA TCTGTTTTCG
    GACCAGTCCC GAGGTTCCCC CAGCAGCTAC AGCCCTTCAA CAGGAGTGGG GTTCTCTCCA
    ACCCAAGCCC TGAAAGTCCC TCCACTTGAC CAATTCCCCA CCTTCCCTCC CAGTGCACAT
    CAGCAGCCGC CACACTATAC CACATCGGCA CTACAGCAGG CCCTGCTATC TCCCACACCG
    CCAGACTATG CAAGACACCA GCAGGTACCC CACATCCTTC AAGGACTGCT GTCTCCCCGA
    CATTCGCTCA CTGGCCACTC AGACATCCGG CTGCCCCCAG CGGAGTTTGC ACAGCTCATT
    AAAAGGCAGC AGCAACAACG GCAGCAGCAG CAGCAACAGC AGCAACAGCA AGAATACCAG
    GAACTGTTCA GGCACATGAA CCAAGGGGAT GCGGGGACTC TGGCTCCCAG CCTTGCAGGA
    CAGAGCATGA CAGAGCGCCA GGCTTTATCC TATCAAAATG CTGACTCTTA TCACCATCAC
    ACCAGCCCCC AGCATCTGCT ACAAATCAGG GCACAAGAAT GTATCTCACA GGCTTCCTCA
    GCCACCCCGC CCCACGGGTA TGCTCATCAG CCGGCACTGA TGCATTCAGA GAGCATGGAG
    GAGGACTGCT CGTGTGAGGG GGCCAAGGAC GGCTTCCCAG ACAGTAAGAG TTCAAGTACA
    TTGACCAAAG GTTGCCATGA CAGCCCTTTG CTCTTGAGTA CCAGTGGACC TGGGGACCCT
    GAATCTTTGC TAGGAACTGT GAGTCATGCC CAGGAATTGG GGATACATCC CTATGGTCAT
    CAGCCAACTG TTGCATTCAG TAAAAATAAG GTGCCCAGCA GAGAGCCTGT CATAGGGAAC
    TGCATGGATA GAAGTTCTCC AGGACAAGCA GTGGAGCTGC CGGATCACAA TGGGCTCGGG
    TACCCAGCAC GCCCTTCTGT CCATGAGCAC CACAGGCCCC GGGCCCTCCA GAGACACCAC
    ACGATCCAGA ACAGCGACGA TGCTTATGTA CAGCTGGATA ACTTGCCAGG AATGAGTCTT
    GTGGCTGGGA AAGCACTTAG CTCGGCCCGG ATGTCGGATG CAGTTCTCAG TCAGTCTTCG
    CTCATGGGCA GCCAGCAGTT TCAGGATGGG GAAAGTGAGG AATGTGGGGC AAGCCTGGGA
    GGTCATGAGC ACCCAGACCT GAGTGATGGC AGCCAGCATT TAAACTCCTC TTGCTATCCG
    TCTACGTGTA TTACAGACAT TCTGCTCAGC TACAAGCACC CGGAAGTCTC CTTCAGCATG
    GAGCAGGCAG GCGTGTAA

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

    CloneID ORh144813
    Clone ID Related Accession (Same CDS sequence) XM_010371701.1
    Accession Version XM_010371701.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3618bp)
    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 2014-11-20
    Organism Rhinopithecus roxellana(golden snub-nosed monkey)
    Product serine/threonine-protein kinase SIK3 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_010813441.1) 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 :: Rhinopithecus roxellana Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 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
    ATGAAGATGC TTTGCCACCC CCATATCATC AGGCTCTACC AGGTTATGGA GACAGAACGG 
    ATGATTTATC TGGTGACAGA ATATGCTAGT GGAGGGGAAA TATTTGACCA CCTGGTGGCC
    CATGGTAGAA TGGCAGAAAA GGAGGCCCGT CGGAAGTTCA AACAGATCGT CACAGCTGTC
    TATTTTTGTC ACTGTCGGAA CATTGTTCAT CGTGATTTAA AAGCTGAAAA TTTGCTTCTG
    GATGCCAATC TGAATATCAA AATAGCAGAT TTTGGTTTCA GTAACCTCTT CACTCCTGGG
    CAGCTGCTGA AGACCTGGTG TGGCAGCCCT CCCTATGCTG CACCTGAACT CTTTGAAGGA
    AAAGAATATG ATGGGCCCAA AGTGGACATC TGGAGCCTTG GAGTTGTCCT CTATGTGCTT
    GTGTGCGGTG CCCTGCCGTT TGATGGAAGC ACACTGCAGA ATCTGCGGGC CCGCGTGCTG
    AGTGGAAAGT TCCGCATCCC ATTTTTTATG TCCACAGAAT GTGAGCATTT GATCCGCCAT
    ATGTTGGTGT TAGACCCCAA TAAGCGCCTC TCCATGGAGC AGATCTGCAA GCACAAGTGG
    ATGAAGCTAG GGGACGCCGA TCCCAACTTT GACAGGTTAA TAGCTGAATG CCAACAACTA
    AAGGAAGAAA GACAGGTGGA CCCCCTGAAT GAGGATGTCC TTTTGGCCAT GGAGGACATG
    GGACTGGACA AAGAGCAGAC ACTGCAGGCG GAGCAAGCAG GCACCGCTAT GAACATCAGC
    GTTCCCCAGG TGCAGCTCAT CAACCCAGAG AACCAAATTG TGGAGCCGGA TGGGACACTG
    AATTTGGACA GTGATGAGGG TGAAGAGCCT TCCCCTGAAG CACTGGTGCG CTATTTGTCA
    ATGAGGAGGC ACACAGTGGG CGTGGCTGAC CCACGTACGG AAGTTATGGA CGATCTGCAG
    AAGCTCCTAC CTGGCTATCC TGGAGTCAAC CCACAGGCTC CATTCCTGCA GGTGGCCCCC
    AATGTGAACT TCATGCACAA CCTGTTGCCT ATGCAAAATT TGCAACCAAC CGGGCAACTT
    GAGTACAAGG AGCAGTCTCT CCTACAGCCG CCCACGCTAC AACTGTTGAA TGGAATGGGC
    CCCCTTGGCC GGAGGGCATC AGATGGAGGA GCCAACATCC AACTGCATGC CCAGCAGCTG
    CTGAAGCGCC CACGGGGACC CTCTCCGCTT GTCACCATGA CACCAGCAGT GGCAGCAGTT
    ACCCCTGTGG ACGAGGAGAG CTCGGATGGG GAGCCAGATC AGGAAGCTGT GCAGAGGTAC
    TTGGCAAATA GGTCCAAAAG ACATACACTG GCCATGACCA ACCCTACAGC TGAGATCCCA
    CCGGACCTAC AACGGCAGCT AGGACAGCAG CCTTTCCGTT CCCGGGTCTG GCCTCCTCAC
    CTGGTACCTG ATCAGCATCG CTCTACCTAC AAGGACTCCA ACACTCTGCA CCTCCCTACG
    GAGCGTTTCT CCCCTGTGCG CCGGTTCTCA GATGGGGCTG CGAGCATCCA GGCCTTCAAA
    GCTCACCTGG AAAAAATGAG CAACAACAGC AGCATCAAAC AGCTGCAGCA GGAGTGTGAG
    CAGCTGCAGA AGATGTACGG GGGGCAGATT GATGAAAGAA CCCTGGAAAA GACCCAGCAG
    CAGCATATGT TATACCAGCA GGAGCAGCAC CATCAAATTC TCCAGCAACA AATTCAAGAT
    TCTATCTGTC CTCCTCAGCC ATCTCCACCT CTTCAGGCTG CATGTGAGAA TCAGCCAGCC
    CTCCTCACCC ACCAGCTCCA GAGGTTAAGG ATTCAGCCTT CAAGCCCACC CCCCAACCAC
    CCCAACAACC ATCTCTTCAG GCAGCCCAGT AATAGTCCTC CCCCCATGAG CAGTGCCATG
    ATCCAGCCTC ACGGAGCTGC ATCTTCCTCC CAGTTTCAAG GCTTACCTTC CCGCAGTGCA
    ATCTTTCAGC AGCAGCCTGA GAACTCTTCC TCTCCTCCCA GCGTGGCACT AACCTGCTTG
    GGTATGCAGC AGCCTGCTCA GTCACAGCAG GTCACCATCC AAGTCCAAGA GCCTGCTGAC
    ATGCTCAGCA ACATGCCAGG CACAGCTGCA GGCTCCAGTG GGCGGGGCAT CTCCATCAGT
    CCCAGTGCCA GTCAGATGCA GATGCAGCAC CGTACAAACC TGATGGCCAC CCTCAGCTAT
    GGGCACCGTC CCTTGTCCAA GCAGCTGAGT GCTGACAGTG CAGAGGCTCA CAGCTTGAAC
    GTGAATCGGT TCTCCCCTGC TAACTACGAC CAGGCGCATT TACACCCCCA TCTGTTTTCG
    GACCAGTCCC GAGGTTCCCC CAGCAGCTAC AGCCCTTCAA CAGGAGTGGG GTTCTCTCCA
    ACCCAAGCCC TGAAAGTCCC TCCACTTGAC CAATTCCCCA CCTTCCCTCC CAGTGCACAT
    CAGCAGCCGC CACACTATAC CACATCGGCA CTACAGCAGG CCCTGCTATC TCCCACACCG
    CCAGACTATG CAAGACACCA GCAGGTACCC CACATCCTTC AAGGACTGCT GTCTCCCCGA
    CATTCGCTCA CTGGCCACTC AGACATCCGG CTGCCCCCAG CGGAGTTTGC ACAGCTCATT
    AAAAGGCAGC AGCAACAACG GCAGCAGCAG CAGCAACAGC AGCAACAGCA AGAATACCAG
    GAACTGTTCA GGCACATGAA CCAAGGGGAT GCGGGGACTC TGGCTCCCAG CCTTGCAGGA
    CAGAGCATGA CAGAGCGCCA GGCTTTATCC TATCAAAATG CTGACTCTTA TCACCATCAC
    ACCAGCCCCC AGCATCTGCT ACAAATCAGG GCACAAGAAT GTATCTCACA GGCTTCCTCA
    GCCACCCCGC CCCACGGGTA TGCTCATCAG CCGGCACTGA TGCATTCAGA GAGCATGGAG
    GAGGACTGCT CGTGTGAGGG GGCCAAGGAC GGCTTCCCAG ACAGTAAGAG TTCAAGTACA
    TTGACCAAAG GTTGCCATGA CAGCCCTTTG CTCTTGAGTA CCAGTGGACC TGGGGACCCT
    GAATCTTTGC TAGGAACTGT GAGTCATGCC CAGGAATTGG GGATACATCC CTATGGTCAT
    CAGCCAACTG TTGCATTCAG TAAAAATAAG GTGCCCAGCA GAGAGCCTGT CATAGGGAAC
    TGCATGGATA GAAGTTCTCC AGGACAAGCA GTGGAGCTGC CGGATCACAA TGGGCTCGGG
    TACCCAGCAC GCCCTTCTGT CCATGAGCAC CACAGGCCCC GGGCCCTCCA GAGACACCAC
    ACGATCCAGA ACAGCGACGA TGCTTATGTA CAGCTGGATA ACTTGCCAGG AATGAGTCTT
    GTGGCTGGGA AAGCACTTAG CTCGGCCCGG ATGTCGGATG CAGTTCTCAG TCAGTCTTCG
    CTCATGGGCA GCCAGCAGTT TCAGGATGGG GAAAGTGAGG AATGTGGGGC AAGCCTGGGA
    GGTCATGAGC ACCCAGACCT GAGTGATGGC AGCCAGCATT TAAACTCCTC TTGCTATCCG
    TCTACGTGTA TTACAGACAT TCTGCTCAGC TACAAGCACC CGGAAGTCTC CTTCAGCATG
    GAGCAGGCAG GCGTGTAA

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

    RefSeq XP_010370003.1
    CDS70..3687
    Translation

    Target ORF information:

    RefSeq Version XM_010371701.1
    Organism Rhinopithecus roxellana(golden snub-nosed monkey)
    Definition Rhinopithecus roxellana SIK family kinase 3 (SIK3), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_010371701.1

    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
    ATGAAGATGC TTTGCCACCC CCATATCATC AGGCTCTACC AGGTTATGGA GACAGAACGG 
    ATGATTTATC TGGTGACAGA ATATGCTAGT GGAGGGGAAA TATTTGACCA CCTGGTGGCC
    CATGGTAGAA TGGCAGAAAA GGAGGCCCGT CGGAAGTTCA AACAGATCGT CACAGCTGTC
    TATTTTTGTC ACTGTCGGAA CATTGTTCAT CGTGATTTAA AAGCTGAAAA TTTGCTTCTG
    GATGCCAATC TGAATATCAA AATAGCAGAT TTTGGTTTCA GTAACCTCTT CACTCCTGGG
    CAGCTGCTGA AGACCTGGTG TGGCAGCCCT CCCTATGCTG CACCTGAACT CTTTGAAGGA
    AAAGAATATG ATGGGCCCAA AGTGGACATC TGGAGCCTTG GAGTTGTCCT CTATGTGCTT
    GTGTGCGGTG CCCTGCCGTT TGATGGAAGC ACACTGCAGA ATCTGCGGGC CCGCGTGCTG
    AGTGGAAAGT TCCGCATCCC ATTTTTTATG TCCACAGAAT GTGAGCATTT GATCCGCCAT
    ATGTTGGTGT TAGACCCCAA TAAGCGCCTC TCCATGGAGC AGATCTGCAA GCACAAGTGG
    ATGAAGCTAG GGGACGCCGA TCCCAACTTT GACAGGTTAA TAGCTGAATG CCAACAACTA
    AAGGAAGAAA GACAGGTGGA CCCCCTGAAT GAGGATGTCC TTTTGGCCAT GGAGGACATG
    GGACTGGACA AAGAGCAGAC ACTGCAGGCG GAGCAAGCAG GCACCGCTAT GAACATCAGC
    GTTCCCCAGG TGCAGCTCAT CAACCCAGAG AACCAAATTG TGGAGCCGGA TGGGACACTG
    AATTTGGACA GTGATGAGGG TGAAGAGCCT TCCCCTGAAG CACTGGTGCG CTATTTGTCA
    ATGAGGAGGC ACACAGTGGG CGTGGCTGAC CCACGTACGG AAGTTATGGA CGATCTGCAG
    AAGCTCCTAC CTGGCTATCC TGGAGTCAAC CCACAGGCTC CATTCCTGCA GGTGGCCCCC
    AATGTGAACT TCATGCACAA CCTGTTGCCT ATGCAAAATT TGCAACCAAC CGGGCAACTT
    GAGTACAAGG AGCAGTCTCT CCTACAGCCG CCCACGCTAC AACTGTTGAA TGGAATGGGC
    CCCCTTGGCC GGAGGGCATC AGATGGAGGA GCCAACATCC AACTGCATGC CCAGCAGCTG
    CTGAAGCGCC CACGGGGACC CTCTCCGCTT GTCACCATGA CACCAGCAGT GGCAGCAGTT
    ACCCCTGTGG ACGAGGAGAG CTCGGATGGG GAGCCAGATC AGGAAGCTGT GCAGAGGTAC
    TTGGCAAATA GGTCCAAAAG ACATACACTG GCCATGACCA ACCCTACAGC TGAGATCCCA
    CCGGACCTAC AACGGCAGCT AGGACAGCAG CCTTTCCGTT CCCGGGTCTG GCCTCCTCAC
    CTGGTACCTG ATCAGCATCG CTCTACCTAC AAGGACTCCA ACACTCTGCA CCTCCCTACG
    GAGCGTTTCT CCCCTGTGCG CCGGTTCTCA GATGGGGCTG CGAGCATCCA GGCCTTCAAA
    GCTCACCTGG AAAAAATGAG CAACAACAGC AGCATCAAAC AGCTGCAGCA GGAGTGTGAG
    CAGCTGCAGA AGATGTACGG GGGGCAGATT GATGAAAGAA CCCTGGAAAA GACCCAGCAG
    CAGCATATGT TATACCAGCA GGAGCAGCAC CATCAAATTC TCCAGCAACA AATTCAAGAT
    TCTATCTGTC CTCCTCAGCC ATCTCCACCT CTTCAGGCTG CATGTGAGAA TCAGCCAGCC
    CTCCTCACCC ACCAGCTCCA GAGGTTAAGG ATTCAGCCTT CAAGCCCACC CCCCAACCAC
    CCCAACAACC ATCTCTTCAG GCAGCCCAGT AATAGTCCTC CCCCCATGAG CAGTGCCATG
    ATCCAGCCTC ACGGAGCTGC ATCTTCCTCC CAGTTTCAAG GCTTACCTTC CCGCAGTGCA
    ATCTTTCAGC AGCAGCCTGA GAACTCTTCC TCTCCTCCCA GCGTGGCACT AACCTGCTTG
    GGTATGCAGC AGCCTGCTCA GTCACAGCAG GTCACCATCC AAGTCCAAGA GCCTGCTGAC
    ATGCTCAGCA ACATGCCAGG CACAGCTGCA GGCTCCAGTG GGCGGGGCAT CTCCATCAGT
    CCCAGTGCCA GTCAGATGCA GATGCAGCAC CGTACAAACC TGATGGCCAC CCTCAGCTAT
    GGGCACCGTC CCTTGTCCAA GCAGCTGAGT GCTGACAGTG CAGAGGCTCA CAGCTTGAAC
    GTGAATCGGT TCTCCCCTGC TAACTACGAC CAGGCGCATT TACACCCCCA TCTGTTTTCG
    GACCAGTCCC GAGGTTCCCC CAGCAGCTAC AGCCCTTCAA CAGGAGTGGG GTTCTCTCCA
    ACCCAAGCCC TGAAAGTCCC TCCACTTGAC CAATTCCCCA CCTTCCCTCC CAGTGCACAT
    CAGCAGCCGC CACACTATAC CACATCGGCA CTACAGCAGG CCCTGCTATC TCCCACACCG
    CCAGACTATG CAAGACACCA GCAGGTACCC CACATCCTTC AAGGACTGCT GTCTCCCCGA
    CATTCGCTCA CTGGCCACTC AGACATCCGG CTGCCCCCAG CGGAGTTTGC ACAGCTCATT
    AAAAGGCAGC AGCAACAACG GCAGCAGCAG CAGCAACAGC AGCAACAGCA AGAATACCAG
    GAACTGTTCA GGCACATGAA CCAAGGGGAT GCGGGGACTC TGGCTCCCAG CCTTGCAGGA
    CAGAGCATGA CAGAGCGCCA GGCTTTATCC TATCAAAATG CTGACTCTTA TCACCATCAC
    ACCAGCCCCC AGCATCTGCT ACAAATCAGG GCACAAGAAT GTATCTCACA GGCTTCCTCA
    GCCACCCCGC CCCACGGGTA TGCTCATCAG CCGGCACTGA TGCATTCAGA GAGCATGGAG
    GAGGACTGCT CGTGTGAGGG GGCCAAGGAC GGCTTCCCAG ACAGTAAGAG TTCAAGTACA
    TTGACCAAAG GTTGCCATGA CAGCCCTTTG CTCTTGAGTA CCAGTGGACC TGGGGACCCT
    GAATCTTTGC TAGGAACTGT GAGTCATGCC CAGGAATTGG GGATACATCC CTATGGTCAT
    CAGCCAACTG TTGCATTCAG TAAAAATAAG GTGCCCAGCA GAGAGCCTGT CATAGGGAAC
    TGCATGGATA GAAGTTCTCC AGGACAAGCA GTGGAGCTGC CGGATCACAA TGGGCTCGGG
    TACCCAGCAC GCCCTTCTGT CCATGAGCAC CACAGGCCCC GGGCCCTCCA GAGACACCAC
    ACGATCCAGA ACAGCGACGA TGCTTATGTA CAGCTGGATA ACTTGCCAGG AATGAGTCTT
    GTGGCTGGGA AAGCACTTAG CTCGGCCCGG ATGTCGGATG CAGTTCTCAG TCAGTCTTCG
    CTCATGGGCA GCCAGCAGTT TCAGGATGGG GAAAGTGAGG AATGTGGGGC AAGCCTGGGA
    GGTCATGAGC ACCCAGACCT GAGTGATGGC AGCCAGCATT TAAACTCCTC TTGCTATCCG
    TCTACGTGTA TTACAGACAT TCTGCTCAGC TACAAGCACC CGGAAGTCTC CTTCAGCATG
    GAGCAGGCAG GCGTGTAA

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

    CloneID ORh144814
    Clone ID Related Accession (Same CDS sequence) XM_010371702.1
    Accession Version XM_010371702.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3360bp)
    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 2014-11-20
    Organism Rhinopithecus roxellana(golden snub-nosed monkey)
    Product serine/threonine-protein kinase SIK3 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_010813441.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rhinopithecus roxellana Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 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
    ATGAAGATGC TTTGCCACCC CCATATCATC AGGCTCTACC AGGTTATGGA GACAGAACGG 
    ATGATTTATC TGGTGACAGA ATATGCTAGT GGAGGGGAAA TATTTGACCA CCTGGTGGCC
    CATGGTAGAA TGGCAGAAAA GGAGGCCCGT CGGAAGTTCA AACAGATCGT CACAGCTGTC
    TATTTTTGTC ACTGTCGGAA CATTGTTCAT CGTGATTTAA AAGCTGAAAA TTTGCTTCTG
    GATGCCAATC TGAATATCAA AATAGCAGAT TTTGGTTTCA GTAACCTCTT CACTCCTGGG
    CAGCTGCTGA AGACCTGGTG TGGCAGCCCT CCCTATGCTG CACCTGAACT CTTTGAAGGA
    AAAGAATATG ATGGGCCCAA AGTGGACATC TGGAGCCTTG GAGTTGTCCT CTATGTGCTT
    GTGTGCGGTG CCCTGCCGTT TGATGGAAGC ACACTGCAGA ATCTGCGGGC CCGCGTGCTG
    AGTGGAAAGT TCCGCATCCC ATTTTTTATG TCCACAGAAT GTGAGCATTT GATCCGCCAT
    ATGTTGGTGT TAGACCCCAA TAAGCGCCTC TCCATGGAGC AGATCTGCAA GCACAAGTGG
    ATGAAGCTAG GGGACGCCGA TCCCAACTTT GACAGGTTAA TAGCTGAATG CCAACAACTA
    AAGGAAGAAA GACAGGTGGA CCCCCTGAAT GAGGATGTCC TTTTGGCCAT GGAGGACATG
    GGACTGGACA AAGAGCAGAC ACTGCAGTCA TTAAGATCAG ATGCCTATGA TCACTATAGT
    GCAATCTACA GCCTGCTGTG TGATCGACAT AAGAGACATA AAACCCTGCG TCTCGGAGCA
    CTTCCTAGCA TGCCCCGAGC CCTGGCCTTT CAAGCACCAG TCAATATCCA GGCGGAGCAA
    GCAGGCACCG CTATGAACAT CAGCGTTCCC CAGGTGCAGC TCATCAACCC AGAGAACCAA
    ATTGTGGAGC CGGATGGGAC ACTGAATTTG GACAGTGATG AGGGTGAAGA GCCTTCCCCT
    GAAGCACTGG TGCGCTATTT GTCAATGAGG AGGCACACAG TGGGCGTGGC TGACCCACGT
    ACGGAAGTTA TGGACGATCT GCAGAAGCTC CTACCTGGCT ATCCTGGAGT CAACCCACAG
    GCTCCATTCC TGCAGGTGGC CCCCAATGTG AACTTCATGC ACAACCTGTT GCCTATGCAA
    AATTTGCAAC CAACCGGGCA ACTTGAGTAC AAGGAGCAGT CTCTCCTACA GCCGCCCACG
    CTACAACTGT TGAATGGAAT GGGCCCCCTT GGCCGGAGGG CATCAGATGG AGGAGCCAAC
    ATCCAACTGC ATGCCCAGCA GCTGCTGAAG CGCCCACGGG GACCCTCTCC GCTTGTCACC
    ATGACACCAG CAGTGGCAGC AGTTACCCCT GTGGACGAGG AGAGCTCGGA TGGGGAGCCA
    GATCAGGAAG CTGTGCAGAG GTACTTGGCA AATAGGTCCA AAAGACATAC ACTGGCCATG
    ACCAACCCTA CAGCTGAGAT CCCACCGGAC CTACAACGGC AGCTAGGACA GCAGCCTTTC
    CGTTCCCGGG TCTGGCCTCC TCACCTGGTA CCTGATCAGC ATCGCTCTAC CTACAAGGAC
    TCCAACACTC TGCACCTCCC TACGGAGCGT TTCTCCCCTG TGCGCCGGTT CTCAGATGGG
    GCTGCGAGCA TCCAGGCCTT CAAAGCTCAC CTGGAAAAAA TGAGCAACAA CAGCAGCATC
    AAACAGCTGC AGCAGGAGTG TGAGCAGCTG CAGAAGATGT ACGGGGGGCA GATTGATGAA
    AGAACCCTGG AAAAGACCCA GCAGCAGCAT ATGTTATACC AGCAGGAGCA GCACCATCAA
    ATTCTCCAGC AACAAATTCA AGATTCTATC TGTCCTCCTC AGCCATCTCC ACCTCTTCAG
    GCTGCATGTG AGAATCAGCC AGCCCTCCTC ACCCACCAGC TCCAGAGGTT AAGGATTCAG
    CCTTCAAGCC CACCCCCCAA CCACCCCAAC AACCATCTCT TCAGGCAGCC CAGTAATAGT
    CCTCCCCCCA TGAGCAGTGC CATGATCCAG CCTCACGGAG CTGCATCTTC CTCCCAGTTT
    CAAGGCTTAC CTTCCCGCAG TGCAATCTTT CAGCAGCAGC CTGAGAACTC TTCCTCTCCT
    CCCAGCGTGG CACTAACCTG CTTGGGTATG CAGCAGCCTG CTCAGTCACA GCAGGTCACC
    ATCCAAGTCC AAGAGCCTGC TGACATGCTC AGCAACATGC CAGGCACAGC TGCAGGCTCC
    AGTGGGCGGG GCATCTCCAT CAGTCCCAGT GCCAGTCAGA TGCAGATGCA GCACCGTACA
    AACCTGATGG CCACCCTCAG CTATGGGCAC CGTCCCTTGT CCAAGCAGCT GAGTGCTGAC
    AGTGCAGAGG CTCACAGCTT GAACGTGAAT CGGTTCTCCC CTGCTAACTA CGACCAGGCG
    CATTTACACC CCCATCTGTT TTCGGACCAG TCCCGAGGTT CCCCCAGCAG CTACAGCCCT
    TCAACAGGAG TGGGGTTCTC TCCAACCCAA GCCCTGAAAG TCCCTCCACT TGACCAATTC
    CCCACCTTCC CTCCCAGTGC ACATCAGCAG CCGCCACACT ATACCACATC GGCACTACAG
    CAGGCCCTGC TATCTCCCAC ACCGCCAGAC TATGCAAGAC ACCAGCAGGT ACCCCACATC
    CTTCAAGGAC TGCTGTCTCC CCGACATTCG CTCACTGGCC ACTCAGACAT CCGGCTGCCC
    CCAGCGGAGT TTGCACAGCT CATTAAAAGG CAGCAGCAAC AACGGCAGCA GCAGCAGCAA
    CAGCAGCAAC AGCAAGAATA CCAGGAACTG TTCAGGCACA TGAACCAAGG GGATGCGGGG
    ACTCTGGCTC CCAGCCTTGC AGGACAGAGC ATGACAGAGC GCCAGGCTTT ATCCTATCAA
    AATGCTGACT CTTATCACCA TCACACCAGC CCCCAGCATC TGCTACAAAT CAGGGCACAA
    GAATGTATCT CACAGGCTTC CTCAGCCACC CCGCCCCACG GGTATGCTCA TCAGCCGGCA
    CTGATGCATT CAGAGAGCAT GGAGGAGGAC TGCTCGTGTG AGGGGGCCAA GGACGGCTTC
    CCAGACAGTA AGAGTTCAAG TACATTGACC AAAGGTTGCC ATGACAGCCC TTTGCTCTTG
    AGTACCAGTG GACCTGGGGA CCCTGAATCT TTGCTAGGAA CTGTGAGTCA TGCCCAGGAA
    TTGGGGATAC ATCCCTATGG TCATCAGCCA ACTGTTGCAT TCAGTAAAAA TAAGGTGCCC
    AGCAGAGGTA AGTGTCTCCT CACAGTGAAA GTCCTGGGCC AGTCTGCCCT AATCAACTGA

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

    RefSeq XP_010370004.1
    CDS70..3429
    Translation

    Target ORF information:

    RefSeq Version XM_010371702.1
    Organism Rhinopithecus roxellana(golden snub-nosed monkey)
    Definition Rhinopithecus roxellana SIK family kinase 3 (SIK3), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_010371702.1

    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
    ATGAAGATGC TTTGCCACCC CCATATCATC AGGCTCTACC AGGTTATGGA GACAGAACGG 
    ATGATTTATC TGGTGACAGA ATATGCTAGT GGAGGGGAAA TATTTGACCA CCTGGTGGCC
    CATGGTAGAA TGGCAGAAAA GGAGGCCCGT CGGAAGTTCA AACAGATCGT CACAGCTGTC
    TATTTTTGTC ACTGTCGGAA CATTGTTCAT CGTGATTTAA AAGCTGAAAA TTTGCTTCTG
    GATGCCAATC TGAATATCAA AATAGCAGAT TTTGGTTTCA GTAACCTCTT CACTCCTGGG
    CAGCTGCTGA AGACCTGGTG TGGCAGCCCT CCCTATGCTG CACCTGAACT CTTTGAAGGA
    AAAGAATATG ATGGGCCCAA AGTGGACATC TGGAGCCTTG GAGTTGTCCT CTATGTGCTT
    GTGTGCGGTG CCCTGCCGTT TGATGGAAGC ACACTGCAGA ATCTGCGGGC CCGCGTGCTG
    AGTGGAAAGT TCCGCATCCC ATTTTTTATG TCCACAGAAT GTGAGCATTT GATCCGCCAT
    ATGTTGGTGT TAGACCCCAA TAAGCGCCTC TCCATGGAGC AGATCTGCAA GCACAAGTGG
    ATGAAGCTAG GGGACGCCGA TCCCAACTTT GACAGGTTAA TAGCTGAATG CCAACAACTA
    AAGGAAGAAA GACAGGTGGA CCCCCTGAAT GAGGATGTCC TTTTGGCCAT GGAGGACATG
    GGACTGGACA AAGAGCAGAC ACTGCAGTCA TTAAGATCAG ATGCCTATGA TCACTATAGT
    GCAATCTACA GCCTGCTGTG TGATCGACAT AAGAGACATA AAACCCTGCG TCTCGGAGCA
    CTTCCTAGCA TGCCCCGAGC CCTGGCCTTT CAAGCACCAG TCAATATCCA GGCGGAGCAA
    GCAGGCACCG CTATGAACAT CAGCGTTCCC CAGGTGCAGC TCATCAACCC AGAGAACCAA
    ATTGTGGAGC CGGATGGGAC ACTGAATTTG GACAGTGATG AGGGTGAAGA GCCTTCCCCT
    GAAGCACTGG TGCGCTATTT GTCAATGAGG AGGCACACAG TGGGCGTGGC TGACCCACGT
    ACGGAAGTTA TGGACGATCT GCAGAAGCTC CTACCTGGCT ATCCTGGAGT CAACCCACAG
    GCTCCATTCC TGCAGGTGGC CCCCAATGTG AACTTCATGC ACAACCTGTT GCCTATGCAA
    AATTTGCAAC CAACCGGGCA ACTTGAGTAC AAGGAGCAGT CTCTCCTACA GCCGCCCACG
    CTACAACTGT TGAATGGAAT GGGCCCCCTT GGCCGGAGGG CATCAGATGG AGGAGCCAAC
    ATCCAACTGC ATGCCCAGCA GCTGCTGAAG CGCCCACGGG GACCCTCTCC GCTTGTCACC
    ATGACACCAG CAGTGGCAGC AGTTACCCCT GTGGACGAGG AGAGCTCGGA TGGGGAGCCA
    GATCAGGAAG CTGTGCAGAG GTACTTGGCA AATAGGTCCA AAAGACATAC ACTGGCCATG
    ACCAACCCTA CAGCTGAGAT CCCACCGGAC CTACAACGGC AGCTAGGACA GCAGCCTTTC
    CGTTCCCGGG TCTGGCCTCC TCACCTGGTA CCTGATCAGC ATCGCTCTAC CTACAAGGAC
    TCCAACACTC TGCACCTCCC TACGGAGCGT TTCTCCCCTG TGCGCCGGTT CTCAGATGGG
    GCTGCGAGCA TCCAGGCCTT CAAAGCTCAC CTGGAAAAAA TGAGCAACAA CAGCAGCATC
    AAACAGCTGC AGCAGGAGTG TGAGCAGCTG CAGAAGATGT ACGGGGGGCA GATTGATGAA
    AGAACCCTGG AAAAGACCCA GCAGCAGCAT ATGTTATACC AGCAGGAGCA GCACCATCAA
    ATTCTCCAGC AACAAATTCA AGATTCTATC TGTCCTCCTC AGCCATCTCC ACCTCTTCAG
    GCTGCATGTG AGAATCAGCC AGCCCTCCTC ACCCACCAGC TCCAGAGGTT AAGGATTCAG
    CCTTCAAGCC CACCCCCCAA CCACCCCAAC AACCATCTCT TCAGGCAGCC CAGTAATAGT
    CCTCCCCCCA TGAGCAGTGC CATGATCCAG CCTCACGGAG CTGCATCTTC CTCCCAGTTT
    CAAGGCTTAC CTTCCCGCAG TGCAATCTTT CAGCAGCAGC CTGAGAACTC TTCCTCTCCT
    CCCAGCGTGG CACTAACCTG CTTGGGTATG CAGCAGCCTG CTCAGTCACA GCAGGTCACC
    ATCCAAGTCC AAGAGCCTGC TGACATGCTC AGCAACATGC CAGGCACAGC TGCAGGCTCC
    AGTGGGCGGG GCATCTCCAT CAGTCCCAGT GCCAGTCAGA TGCAGATGCA GCACCGTACA
    AACCTGATGG CCACCCTCAG CTATGGGCAC CGTCCCTTGT CCAAGCAGCT GAGTGCTGAC
    AGTGCAGAGG CTCACAGCTT GAACGTGAAT CGGTTCTCCC CTGCTAACTA CGACCAGGCG
    CATTTACACC CCCATCTGTT TTCGGACCAG TCCCGAGGTT CCCCCAGCAG CTACAGCCCT
    TCAACAGGAG TGGGGTTCTC TCCAACCCAA GCCCTGAAAG TCCCTCCACT TGACCAATTC
    CCCACCTTCC CTCCCAGTGC ACATCAGCAG CCGCCACACT ATACCACATC GGCACTACAG
    CAGGCCCTGC TATCTCCCAC ACCGCCAGAC TATGCAAGAC ACCAGCAGGT ACCCCACATC
    CTTCAAGGAC TGCTGTCTCC CCGACATTCG CTCACTGGCC ACTCAGACAT CCGGCTGCCC
    CCAGCGGAGT TTGCACAGCT CATTAAAAGG CAGCAGCAAC AACGGCAGCA GCAGCAGCAA
    CAGCAGCAAC AGCAAGAATA CCAGGAACTG TTCAGGCACA TGAACCAAGG GGATGCGGGG
    ACTCTGGCTC CCAGCCTTGC AGGACAGAGC ATGACAGAGC GCCAGGCTTT ATCCTATCAA
    AATGCTGACT CTTATCACCA TCACACCAGC CCCCAGCATC TGCTACAAAT CAGGGCACAA
    GAATGTATCT CACAGGCTTC CTCAGCCACC CCGCCCCACG GGTATGCTCA TCAGCCGGCA
    CTGATGCATT CAGAGAGCAT GGAGGAGGAC TGCTCGTGTG AGGGGGCCAA GGACGGCTTC
    CCAGACAGTA AGAGTTCAAG TACATTGACC AAAGGTTGCC ATGACAGCCC TTTGCTCTTG
    AGTACCAGTG GACCTGGGGA CCCTGAATCT TTGCTAGGAA CTGTGAGTCA TGCCCAGGAA
    TTGGGGATAC ATCCCTATGG TCATCAGCCA ACTGTTGCAT TCAGTAAAAA TAAGGTGCCC
    AGCAGAGGTA AGTGTCTCCT CACAGTGAAA GTCCTGGGCC AGTCTGCCCT AATCAACTGA

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

    CloneID ORh249979
    Clone ID Related Accession (Same CDS sequence) XM_030917417.1
    Accession Version XM_030917417.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3111bp)
    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 2019-09-24
    Organism Rhinopithecus roxellana(golden snub-nosed monkey)
    Product LOW QUALITY PROTEIN: serine/threonine-protein kinase SIK3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044563.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Rhinopithecus roxellana Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## frameshifts :: corrected 1 indel ##RefSeq-Attributes-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
    ATGTCCACAG AATGTGAGCA TTTGATCCGC CATATGTTGG TGTTAGACCC CAATAAGCGC 
    CTCTCCATGG AGCAGATCTG CAAGCACAAG TGGATGAAGC TAGGGGACGC CGATCCCAAC
    TTTGACAGGT TAATAGCTGA ATGCCAACAA CTAAAGGAAG AAAGACAGGT GGACCCCCTG
    AATGAGGATG TCCTTTTGGC CATGGAGGAC ATGGGACTGG ACAAAGAGCA GACACTGCAG
    TCATTAAGAT CAGATGCCTA TGATCACTAT AGTGCAATCT ACAGCCTGCT GTGTGATCGA
    CATAAGAGAC ATAAAACCCT GCGTCTCGGA GCACTTCCTA GCATGCCCCG AGCCCTGGCC
    TTTCAAGCAC CAGTCAATAT CCAGGCGGAG CAAGCAGGCA CCGCTATGAA CATCAGCGTT
    CCCCAGGTGC AGCTCATCAA CCCAGAGAAC CAAATTGTGG AGCCGGATGG GACACTGAAT
    TTGGACAGTG ATGAGGGTGA AGAGCCTTCC CCTGAAGCAC TGGTGCGCTA TTTGTCAATG
    AGGAGGCACA CAGTGGGCGT GGCTGACCCA CGTACGGAAG TTATGGACGA TCTGCAGAAG
    CTCCTACCTG GCTATCCTGG AGTCAACCCA CAGGCTCCAT TCCTGCAGGT GGCCCCCAAT
    GTGAACTTCA TGCACAACCT GTTGCCTATG CAAAATTTGC AACCAACCGG GCAACTTGAG
    TACAAGGAGC AGTCTCTCCT ACAGCCGCCC ACGCTACAAC TGTTGAATGG AATGGGCCCC
    CTTGGCCGGA GGGCATCAGA TGGAGGAGCC AACATCCAAC TGCATGCCCA GCAGCTGCTG
    AAGCGCCCAC GGGGACCCTC TCCGCTTGTC ACCATGACAC CAGCAGTGGC AGCAGTTACC
    CCTGTGGACG AGGAGAGCTC GGATGGGGAG CCAGATCAGG AAGCTGTGCA GAGCTCTACC
    TACAAGGACT CCAACACTCT GCACCTCCCT ACGGAGCGTT TCTCCCCTGT GCGCCGGTTC
    TCAGATGGGG CTGCGAGCAT CCAGGCCTTC AAAGCTCACC TGGAAAAAAT GAGCAACAAC
    AGCAGCATCA AACAGCTGCA GCAGGAGTGT GAGCAGCTGC AGAAGATGTA CGGGGGGCAG
    ATTGATGAAA GAACCCTGGA AAAGACCCAG CAGCAGCATA TGTTATACCA GCAGGAGCAG
    CACCATCAAA TTCTCCAGCA ACAAATTCAA GATTCTATCT GTCCTCCTCA GCCATCTCCA
    CCTCTTCAGG CTGCATGTGA GAATCAGCCA GCCCTCCTCA CCCACCAGCT CCAGAGGTTA
    AGGATTCAGC CTTCAAGCCC ACCCCCCAAC CACCCCAACA ACCATCTCTT CAGGCAGCCC
    AGTAATAGTC CTCCCCCCAT GAGCAGTGCC ATGATCCAGC CTCACGGAGC TGCATCTTCC
    TCCCAGTTTC AAGGCTTACC TTCCCGCAGT GCAATCTTTC AGCAGCAGCC TGAGAACTCT
    TCCTCTCCTC CCAGCGTGGC ACTAACCTGC TTGGGTATGC AGCAGCCTGC TCAGTCACAG
    CAGGTCACCA TCCAAGTCCA AGAGCCTGCT GACATGCTCA GCAACATGCC AGGCACAGCT
    GCAGGCTCCA GTGGGCGGGG CATCTCCATC AGTCCCAGTG CCAGTCAGAT GCAGATGCAG
    CACCGTACAA ACCTGATGGC CACCCTCAGC TATGGGCACC GTCCCTTGTC CAAGCAGCTG
    AGTGCTGACA GTGCAGAGGC TCACAGCTTG AACGTGAATC GGTTCTCCCC TGCTAACTAC
    GACCAGGCGC ATTTACACCC CCATCTGTTT TCGGACCAGT CCCGAGGTTC CCCCAGCAGC
    TACAGCCCTT CAACAGGAGT GGGGTTCTCT CCAACCCAAG CCCTGAAAGT CCCTCCACTT
    GACCAATTCC CCACCTTCCC TCCCAGTGCA CATCAGCAGC CGCCACACTA TACCACATCG
    GCACTACAGC AGGCCCTGCT ATCTCCCACA CCGCCAGACT ATGCAAGACA CCAGCAGGTA
    CCCCACATCC TTCAAGGACT GCTGTCTCCC CGACATTCGC TCACTGGCCA CTCAGACATC
    CGGCTGCCCC CAGCGGAGTT TGCACAGCTC ATTAAAAGGC AGCAGCAACA ACGGCAGCAG
    CAGCAGCAAC AGCAGCAACA GCAAGAATAC CAGGAACTGT TCAGGCACAT GAACCAAGGG
    GATGCAGGGA CTCTGGCTCC CAGCCTTGCA GGACAGAGCA TGACAGAGCG CCAGGCTTTA
    TCCTATCAAA ATGCTGACTC TTATCACCAT CACACCAGCC CCCAGCATCT GCTACAAATC
    AGGGCACAAG AATGTATCTC ACAGGCTTCC TCAGCCACCC CGCCCCACGG GTATGCTCAT
    CAGCCGGCAC TGATGCATTC AGAGAGCATG GAGGAGGACT GCTCGTGTGA GGGGGCCAAG
    GACGGCTTCC CAGACAGTAA GAGTTCAAGT ACATTGACCA AAGGTTGCCA TGACAGCCCT
    TTGCTCTTGA GTACCAGTGG ACCTGGGGAC CCTGAATCTT TGCTAGGAAC TGTGAGTCAT
    GCCCAGGAAT TGGGGATACA TCCCTATGGT CATCAGCCAA CTGTTGCATT CAGTAAAAAT
    AAGGTGCCCA GCAGAGAGCC TGTCATAGGG AACTGCATGG ATAGAAGTTC TCCAGGACAA
    GCAGTGGAGC TGCCGGATCA CAATGGGCTC GGGTACCCAG CACGCCCTTC TGTCCATGAG
    CACCACAGGC CCCGGGCCCT CCAGAGACAC CACACGATCC AGAACAGCGA CGATGCTTAT
    GTACAGCTGG ATAACTTGCC AGGAATGAGT CTTGTGGCTG GGAAAGCACT TAGCTCGGCC
    CGGATGTCGG ATGCAGTTCT CAGTCAGTCT TCGCTCATGG GCAGCCAGCA GTTTCAGGAT
    GGGGAAAGTG AGGAATGTGG GGCAAGCCTG GGAGGTCATG AGCACCCAGA CCTGAGTGAT
    GGCAGCCAGC ATTTAAACTC CTCTTGCTAT CCGTCTACGT GTATTACAGA CATTCTGCTC
    AGCTACAAGC ACCCGGAAGT CTCCTTCAGC ATGGAGCAGG CAGGCGTGTA A

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

    RefSeq XP_030773277.1
    CDS236..3346
    Translation

    Target ORF information:

    RefSeq Version XM_030917417.1
    Organism Rhinopithecus roxellana(golden snub-nosed monkey)
    Definition Rhinopithecus roxellana serine/threonine-protein kinase SIK3 (LOC104668901), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_030917417.1

    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
    ATGTCCACAG AATGTGAGCA TTTGATCCGC CATATGTTGG TGTTAGACCC CAATAAGCGC 
    CTCTCCATGG AGCAGATCTG CAAGCACAAG TGGATGAAGC TAGGGGACGC CGATCCCAAC
    TTTGACAGGT TAATAGCTGA ATGCCAACAA CTAAAGGAAG AAAGACAGGT GGACCCCCTG
    AATGAGGATG TCCTTTTGGC CATGGAGGAC ATGGGACTGG ACAAAGAGCA GACACTGCAG
    TCATTAAGAT CAGATGCCTA TGATCACTAT AGTGCAATCT ACAGCCTGCT GTGTGATCGA
    CATAAGAGAC ATAAAACCCT GCGTCTCGGA GCACTTCCTA GCATGCCCCG AGCCCTGGCC
    TTTCAAGCAC CAGTCAATAT CCAGGCGGAG CAAGCAGGCA CCGCTATGAA CATCAGCGTT
    CCCCAGGTGC AGCTCATCAA CCCAGAGAAC CAAATTGTGG AGCCGGATGG GACACTGAAT
    TTGGACAGTG ATGAGGGTGA AGAGCCTTCC CCTGAAGCAC TGGTGCGCTA TTTGTCAATG
    AGGAGGCACA CAGTGGGCGT GGCTGACCCA CGTACGGAAG TTATGGACGA TCTGCAGAAG
    CTCCTACCTG GCTATCCTGG AGTCAACCCA CAGGCTCCAT TCCTGCAGGT GGCCCCCAAT
    GTGAACTTCA TGCACAACCT GTTGCCTATG CAAAATTTGC AACCAACCGG GCAACTTGAG
    TACAAGGAGC AGTCTCTCCT ACAGCCGCCC ACGCTACAAC TGTTGAATGG AATGGGCCCC
    CTTGGCCGGA GGGCATCAGA TGGAGGAGCC AACATCCAAC TGCATGCCCA GCAGCTGCTG
    AAGCGCCCAC GGGGACCCTC TCCGCTTGTC ACCATGACAC CAGCAGTGGC AGCAGTTACC
    CCTGTGGACG AGGAGAGCTC GGATGGGGAG CCAGATCAGG AAGCTGTGCA GAGCTCTACC
    TACAAGGACT CCAACACTCT GCACCTCCCT ACGGAGCGTT TCTCCCCTGT GCGCCGGTTC
    TCAGATGGGG CTGCGAGCAT CCAGGCCTTC AAAGCTCACC TGGAAAAAAT GAGCAACAAC
    AGCAGCATCA AACAGCTGCA GCAGGAGTGT GAGCAGCTGC AGAAGATGTA CGGGGGGCAG
    ATTGATGAAA GAACCCTGGA AAAGACCCAG CAGCAGCATA TGTTATACCA GCAGGAGCAG
    CACCATCAAA TTCTCCAGCA ACAAATTCAA GATTCTATCT GTCCTCCTCA GCCATCTCCA
    CCTCTTCAGG CTGCATGTGA GAATCAGCCA GCCCTCCTCA CCCACCAGCT CCAGAGGTTA
    AGGATTCAGC CTTCAAGCCC ACCCCCCAAC CACCCCAACA ACCATCTCTT CAGGCAGCCC
    AGTAATAGTC CTCCCCCCAT GAGCAGTGCC ATGATCCAGC CTCACGGAGC TGCATCTTCC
    TCCCAGTTTC AAGGCTTACC TTCCCGCAGT GCAATCTTTC AGCAGCAGCC TGAGAACTCT
    TCCTCTCCTC CCAGCGTGGC ACTAACCTGC TTGGGTATGC AGCAGCCTGC TCAGTCACAG
    CAGGTCACCA TCCAAGTCCA AGAGCCTGCT GACATGCTCA GCAACATGCC AGGCACAGCT
    GCAGGCTCCA GTGGGCGGGG CATCTCCATC AGTCCCAGTG CCAGTCAGAT GCAGATGCAG
    CACCGTACAA ACCTGATGGC CACCCTCAGC TATGGGCACC GTCCCTTGTC CAAGCAGCTG
    AGTGCTGACA GTGCAGAGGC TCACAGCTTG AACGTGAATC GGTTCTCCCC TGCTAACTAC
    GACCAGGCGC ATTTACACCC CCATCTGTTT TCGGACCAGT CCCGAGGTTC CCCCAGCAGC
    TACAGCCCTT CAACAGGAGT GGGGTTCTCT CCAACCCAAG CCCTGAAAGT CCCTCCACTT
    GACCAATTCC CCACCTTCCC TCCCAGTGCA CATCAGCAGC CGCCACACTA TACCACATCG
    GCACTACAGC AGGCCCTGCT ATCTCCCACA CCGCCAGACT ATGCAAGACA CCAGCAGGTA
    CCCCACATCC TTCAAGGACT GCTGTCTCCC CGACATTCGC TCACTGGCCA CTCAGACATC
    CGGCTGCCCC CAGCGGAGTT TGCACAGCTC ATTAAAAGGC AGCAGCAACA ACGGCAGCAG
    CAGCAGCAAC AGCAGCAACA GCAAGAATAC CAGGAACTGT TCAGGCACAT GAACCAAGGG
    GATGCAGGGA CTCTGGCTCC CAGCCTTGCA GGACAGAGCA TGACAGAGCG CCAGGCTTTA
    TCCTATCAAA ATGCTGACTC TTATCACCAT CACACCAGCC CCCAGCATCT GCTACAAATC
    AGGGCACAAG AATGTATCTC ACAGGCTTCC TCAGCCACCC CGCCCCACGG GTATGCTCAT
    CAGCCGGCAC TGATGCATTC AGAGAGCATG GAGGAGGACT GCTCGTGTGA GGGGGCCAAG
    GACGGCTTCC CAGACAGTAA GAGTTCAAGT ACATTGACCA AAGGTTGCCA TGACAGCCCT
    TTGCTCTTGA GTACCAGTGG ACCTGGGGAC CCTGAATCTT TGCTAGGAAC TGTGAGTCAT
    GCCCAGGAAT TGGGGATACA TCCCTATGGT CATCAGCCAA CTGTTGCATT CAGTAAAAAT
    AAGGTGCCCA GCAGAGAGCC TGTCATAGGG AACTGCATGG ATAGAAGTTC TCCAGGACAA
    GCAGTGGAGC TGCCGGATCA CAATGGGCTC GGGTACCCAG CACGCCCTTC TGTCCATGAG
    CACCACAGGC CCCGGGCCCT CCAGAGACAC CACACGATCC AGAACAGCGA CGATGCTTAT
    GTACAGCTGG ATAACTTGCC AGGAATGAGT CTTGTGGCTG GGAAAGCACT TAGCTCGGCC
    CGGATGTCGG ATGCAGTTCT CAGTCAGTCT TCGCTCATGG GCAGCCAGCA GTTTCAGGAT
    GGGGAAAGTG AGGAATGTGG GGCAAGCCTG GGAGGTCATG AGCACCCAGA CCTGAGTGAT
    GGCAGCCAGC ATTTAAACTC CTCTTGCTAT CCGTCTACGT GTATTACAGA CATTCTGCTC
    AGCTACAAGC ACCCGGAAGT CTCCTTCAGC ATGGAGCAGG CAGGCGTGTA A

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