MAST1 cDNA ORF clone, Homo sapiens(human)

The following MAST1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the MAST1 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
OHu32035 NM_014975.3
Latest version!
Homo sapiens microtubule associated serine/threonine kinase 1 (MAST1), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $923.30
$1319.00
OHu65209 XM_011527805.2
Latest version!
Homo sapiens microtubule associated serine/threonine kinase 1 (MAST1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $811.30
$1159.00
OHu65211 XM_011527808.2
Latest version!
Homo sapiens microtubule associated serine/threonine kinase 1 (MAST1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $559.30
$799.00
OHu88317 XM_017026501.1
Latest version!
Homo sapiens microtubule associated serine/threonine kinase 1 (MAST1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
View Old Accession Versions >>
OHu32035 NM_014975.2 Homo sapiens microtubule associated serine/threonine kinase 1 (MAST1), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $923.30
$1319.00
Hide Old Accession Versions >>

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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 OHu32035
    Clone ID Related Accession (Same CDS sequence) NM_014975.2 , NM_014975.3
    Accession Version NM_014975.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4713bp)
    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 2017-10-01
    Organism Homo sapiens(human)
    Product microtubule-associated serine/threonine-protein kinase 1
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DA769770.1, AB023190.1, AC020934.9 and BM681304.1. This sequence is a reference standard in the RefSeqGene project. On Jun 6, 2009 this sequence version replaced NM_014975.1. ##Evidence-Data-START## Transcript exon combination :: AB023190.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2145743, SAMEA2154665 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGTCTGACT CTCTCTGGAC CGCGCTTTCT AATTTCTCGA TGCCCTCCTT CCCCGGCGGC 
    AGTATGTTCC GCCGCACCAA GAGCTGCCGC ACCAGTAATC GGAAAAGCCT CATCCTGACC
    AGCACTTCAC CCACGCTACC GAGACCCCAC TCCCCGCTGC CAGGTCACCT AGGCAGCAGT
    CCCCTGGACA GCCCCCGAAA CTTCTCCCCC AACACCCCCG CCCACTTCTC GTTTGCCTCC
    TCCCGAAGGG CGGACGGACG CCGGTGGTCT CTGGCCTCGC TCCCTTCATC TGGCTATGGC
    ACCAACACGC CCAGTTCCAC CGTCTCGTCC TCCTGCTCCT CCCAGGAGCG CCTTCACCAG
    CTGCCCTACC AGCCCACGGT GGACGAGCTC CACTTCCTCT CCAAACACTT CGGGAGCACC
    GAGAGCATCA CAGACGAGGA TGGTGGCCGT CGCTCCCCAG CCGTGCGGCC CCGCTCACGG
    AGCCTCAGCC CCGGGCGCTC CCCCTCCTCC TACGACAACG AGATCGTGAT GATGAATCAC
    GTCTACAAGG AGAGGTTCCC GAAGGCCACT GCGCAGATGG AGGAGAAGCT GCGCGACTTT
    ACCCGCGCCT ACGAACCCGA CAGCGTTCTG CCTCTGGCCG ATGGCGTGCT CAGCTTCATC
    CACCACCAGA TCATCGAGCT GGCCCGGGAC TGCCTGACCA AGTCCCGTGA CGGCCTCATC
    ACCACGGTCT ACTTCTATGA ATTGCAGGAG AACCTGGAGA AGCTCCTTCA AGACGCCTAT
    GAACGCTCTG AGAGCTTGGA GGTGGCCTTC GTTACTCAGC TGGTGAAGAA GTTGCTTATT
    ATCATCTCAC GCCCTGCGAG GCTGCTGGAG TGCCTGGAAT TCAACCCCGA GGAGTTCTAC
    CACCTGCTGG AGGCGGCCGA AGGACACGCC AAGGAGGGCC ACCTTGTGAA GACGGACATC
    CCCCGCTACA TCATCCGCCA GCTGGGCCTC ACCCGTGACC CCTTTCCAGA TGTGGTGCAT
    CTGGAGGAAC AGGACAGTGG TGGTTCCAAC ACCCCTGAGC AAGACGATCT CTCTGAGGGC
    CGCAGCAGCA AGGCCAAGAA ACCGCCGGGG GAGAATGACT TCGATACCAT CAAGCTCATA
    AGCAACGGTG CCTACGGCGC TGTCTACCTG GTGCGGCACC GCGACACGCG GCAGCGCTTT
    GCCATGAAAA AGATCAACAA GCAGAACTTG ATCCTCCGCA ACCAGATCCA GCAGGCCTTT
    GTGGAGCGCG ATATCCTCAC CTTCGCCGAG AACCCGTTTG TGGTCGGCAT GTTCTGCTCC
    TTTGAGACTC GGCGCCACCT CTGCATGGTC ATGGAATATG TGGAAGGCGG CGACTGTGCC
    ACCCTGCTGA AGAATATTGG AGCGCTGCCC GTAGAGATGG CCCGCATGTA CTTTGCTGAG
    ACGGTGCTAG CCCTGGAGTA TTTGCACAAC TATGGCATCG TGCACCGCGA CCTCAAGCCT
    GACAACCTCC TTATCACCTC CATGGGTCAC ATCAAGCTCA CAGATTTCGG CCTCTCCAAG
    ATGGGGCTCA TGAGCCTCAC CACCAACTTA TATGAAGGCC ACATCGAGAA GGACGCCCGA
    GAGTTCCTGG ACAAACAGGT GTGTGGGACC CCAGAGTACA TCGCGCCCGA GGTCATCCTG
    CGTCAAGGCT ACGGCAAGCC AGTGGACTGG TGGGCTATGG GGATCATCCT CTACGAGTTC
    CTGGTGGGCT GTGTGCCCTT CTTCGGAGAC ACACCAGAGG AGCTATTTGG ACAGGTCATC
    AGTGATGACA TCCTGTGGCC CGAGGGGGAT GAGGCCCTAC CTACGGAGGC CCAACTCCTC
    ATATCCAGCC TCCTGCAGAC CAACCCTCTG GTCAGGCTTG GGGCAGGCGG CGCTTTTGAG
    GTGAAGCAGC ACAGTTTCTT TCGAGACCTG GACTGGACAG GGCTGCTGAG GCAGAAGGCC
    GAGTTCATCC CCCACCTAGA GTCGGAAGAT GACACTAGCT ACTTTGACAC CCGCTCAGAC
    AGGTATCACC ACGTGAACTC CTATGACGAG GATGACACGA CGGAGGAGGA GCCCGTGGAA
    ATCCGCCAGT TCTCTTCCTG CTCTCCGCGC TTCAGCAAGG TGTATAGCAG CATGGAGCAG
    CTGTCGCAGC ACGAGCCCAA GACCCCAGTA GCAGCTGCAG GGAGCAGCAA GCGGGAGCCG
    AGCACCAAGG GCCCCGAGGA GAAGGTGGCC GGCAAGCGGG AGGGGCTGGG CGGCCTGACC
    CTGCGTGAGA AGACCTGGAG AGGGGGCTCT CCGGAGATCA AGCGATTCTC CGCGTCCGAG
    GCCAGTTTCC TGGAGGGAGA GGCCAGTCCC CCTTTGGGCG CCCGCCGCCG TTTCTCGGCG
    CTGCTGGAGC CCAGCCGCTT CAGCGCCCCC CAAGAGGACG AGGATGAGGC CCGGCTGCGC
    AGGCCTCCCC GGCCCAGCTC CGACCCCGCG GGATCCCTGG ATGCACGGGC CCCCAAAGAG
    GAGACTCAAG GGGAAGGCAC CTCCAGCGCC GGGGACTCCG AGGCCACTGA CCGTCCACGC
    CCAGGTGACC TCTGCCCACC CTCGAAGGAT GGGGATGCAT CAGGCCCAAG GGCTACCAAT
    GACTTGGTTC TGCGCCGGGC GCGGCACCAG CAGATGTCAG GGGATGTGGC AGTAGAGAAG
    AGGCCTTCTC GAACTGGGGG CAAAGTCATC AAATCAGCCT CAGCCACTGC CTTATCTGTC
    ATGATTCCTG CAGTGGACCC ACATGGAAGT TCACCCCTTG CTAGTCCCAT GTCTCCACGA
    TCTCTGTCCT CCAACCCATC CTCACGGGAC TCCTCACCCA GCCGGGACTA CTCACCAGCT
    GTCAGTGGGC TCCGCTCCCC CATCACCATC CAGCGCTCGG GCAAGAAGTA TGGCTTCACA
    CTGCGTGCCA TCCGTGTCTA CATGGGTGAC ACGGATGTCT ATAGTGTCCA CCACATTGTC
    TGGCATGTGG AGGAAGGAGG CCCAGCCCAG GAGGCAGGAC TCTGTGCTGG GGACCTCATC
    ACCCACGTGA ATGGGGAGCC TGTGCATGGC ATGGTGCATC CTGAGGTCGT GGAGCTGATC
    CTTAAGAGTG GCAACAAGGT AGCAGTGACC ACAACGCCCT TCGAAAATAC CTCTATCCGC
    ATTGGTCCCG CAAGGCGCAG CAGCTACAAG GCTAAAATGG CTCGGAGGAA CAAGCGACCC
    TCCGCCAAGG AGGGCCAGGA GAGCAAGAAG CGCAGCTCCC TCTTCCGGAA GATCACGAAG
    CAGTCGAACC TGCTGCATAC TAGCCGCTCG CTGTCGTCGC TGAACCGCTC GCTGTCATCC
    AGCGATAGTC TCCCGGGCTC GCCTACGCAC GGGCTGCCGG CGCGCTCGCC CACGCACAGC
    TACCGCTCCA CGCCTGACTC CGCCTACCTA GGCGCCTCAT CCCAGAGCAG CTCCCCAGCC
    TCGAGCACGC CCAACTCGCC TGCGTCGTCG GCGTCGCACC ACATTCGGCC CAGCACGCTG
    CACGGACTGT CGCCAAAGCT CCATCGCCAG TACCGCTCTG CGCGATGCAA GTCGGCCGGC
    AACATCCCTC TATCGCCGCT GGCACACACG CCGTCCCCCA CGCAGGCGTC ACCGCCGCCA
    CTGCCGGGCC ACACGGTGGG CAGCTCGCAC ACTACTCAGA GCTTCCCGGC CAAACTGCAC
    TCATCGCCTC CCGTCGTGCG CCCGCGCCCC AAGAGTGCCG AGCCCCCTCG CTCGCCGCTC
    CTCAAGCGCG TGCAGTCGGC CGAGAAGCTG GGAGCCTCTT TGAGTGCGGA CAAGAAGGGC
    GCGCTGCGCA AACACAGCCT CGAGGTGGGC CACCCGGATT TCCGCAAGGA CTTCCATGGC
    GAGCTGGCGC TGCATAGCCT TGCCGAGTCC GACGGTGAGA CGCCCCCAGT CGAGGGCCTT
    GGCGCGCCCC GGCAGGTCGC CGTCCGCCGC CTGGGCCGAC AGGAGTCACC TTTGAGCCTG
    GGCGCGGACC CGTTGCTGCC CGAGGGTGCC TCCAGGCCAC CAGTGTCGAG CAAGGAGAAG
    GAATCCCCGG GGGGCGCCGA GGCGTGCACC CCACCCCGCG CGACGACCCC CGGTGGCCGG
    ACCCTGGAGC GGGACGTCGG CTGCACGCGG CATCAGAGCG TGCAGACGGA GGATGGCACT
    GGCGGGATGG CCAGGGCTGT GGCCAAGGCG GCGCTGAGCC CGGTGCAGGA ACACGAGACA
    GGCCGGCGCA GCAGCTCTGG CGAGGCGGGC ACACCCCTGG TACCCATTGT CGTAGAGCCT
    GCGCGGCCCG GGGCTAAGGC TGTGGTGCCT CAGCCTCTGG GCGCGGACTC CAAGGGGTTG
    CAGGAACCCG CACCCCTGGC GCCTTCCGTG CCCGAGGCCC CCCGGGGCCG GGAGCGCTGG
    GTGTTGGAGG TGGTGGAGGA GCGCACCACG CTGAGCGGTC CTCGCTCCAA GCCCGCCTCC
    CCAAAGCTCT CCCCGGAGCC CCAGACACCC TCCCTAGCCC CAGCGAAGTG CAGTGCACCC
    AGCAGTGCAG TGACCCCAGT CCCACCCGCA TCCCTCTTGG GCTCAGGCAC CAAGCCTCAA
    GTGGGGCTGA CCTCCCGGTG CCCTGCTGAA GCTGTGCCCC CAGCAGGCCT GACCAAAAAA
    GGAGTGTCCA GTCCCGCACC CCCGGGACCA TAG

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

    RefSeq NP_055790.1
    CDS129..4841
    Translation

    Target ORF information:

    RefSeq Version NM_014975.2
    Organism Homo sapiens(human)
    Definition Homo sapiens microtubule associated serine/threonine kinase 1 (MAST1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_014975.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGTCTGACT CTCTCTGGAC CGCGCTTTCT AATTTCTCGA TGCCCTCCTT CCCCGGCGGC 
    AGTATGTTCC GCCGCACCAA GAGCTGCCGC ACCAGTAATC GGAAAAGCCT CATCCTGACC
    AGCACTTCAC CCACGCTACC GAGACCCCAC TCCCCGCTGC CAGGTCACCT AGGCAGCAGT
    CCCCTGGACA GCCCCCGAAA CTTCTCCCCC AACACCCCCG CCCACTTCTC GTTTGCCTCC
    TCCCGAAGGG CGGACGGACG CCGGTGGTCT CTGGCCTCGC TCCCTTCATC TGGCTATGGC
    ACCAACACGC CCAGTTCCAC CGTCTCGTCC TCCTGCTCCT CCCAGGAGCG CCTTCACCAG
    CTGCCCTACC AGCCCACGGT GGACGAGCTC CACTTCCTCT CCAAACACTT CGGGAGCACC
    GAGAGCATCA CAGACGAGGA TGGTGGCCGT CGCTCCCCAG CCGTGCGGCC CCGCTCACGG
    AGCCTCAGCC CCGGGCGCTC CCCCTCCTCC TACGACAACG AGATCGTGAT GATGAATCAC
    GTCTACAAGG AGAGGTTCCC GAAGGCCACT GCGCAGATGG AGGAGAAGCT GCGCGACTTT
    ACCCGCGCCT ACGAACCCGA CAGCGTTCTG CCTCTGGCCG ATGGCGTGCT CAGCTTCATC
    CACCACCAGA TCATCGAGCT GGCCCGGGAC TGCCTGACCA AGTCCCGTGA CGGCCTCATC
    ACCACGGTCT ACTTCTATGA ATTGCAGGAG AACCTGGAGA AGCTCCTTCA AGACGCCTAT
    GAACGCTCTG AGAGCTTGGA GGTGGCCTTC GTTACTCAGC TGGTGAAGAA GTTGCTTATT
    ATCATCTCAC GCCCTGCGAG GCTGCTGGAG TGCCTGGAAT TCAACCCCGA GGAGTTCTAC
    CACCTGCTGG AGGCGGCCGA AGGACACGCC AAGGAGGGCC ACCTTGTGAA GACGGACATC
    CCCCGCTACA TCATCCGCCA GCTGGGCCTC ACCCGTGACC CCTTTCCAGA TGTGGTGCAT
    CTGGAGGAAC AGGACAGTGG TGGTTCCAAC ACCCCTGAGC AAGACGATCT CTCTGAGGGC
    CGCAGCAGCA AGGCCAAGAA ACCGCCGGGG GAGAATGACT TCGATACCAT CAAGCTCATA
    AGCAACGGTG CCTACGGCGC TGTCTACCTG GTGCGGCACC GCGACACGCG GCAGCGCTTT
    GCCATGAAAA AGATCAACAA GCAGAACTTG ATCCTCCGCA ACCAGATCCA GCAGGCCTTT
    GTGGAGCGCG ATATCCTCAC CTTCGCCGAG AACCCGTTTG TGGTCGGCAT GTTCTGCTCC
    TTTGAGACTC GGCGCCACCT CTGCATGGTC ATGGAATATG TGGAAGGCGG CGACTGTGCC
    ACCCTGCTGA AGAATATTGG AGCGCTGCCC GTAGAGATGG CCCGCATGTA CTTTGCTGAG
    ACGGTGCTAG CCCTGGAGTA TTTGCACAAC TATGGCATCG TGCACCGCGA CCTCAAGCCT
    GACAACCTCC TTATCACCTC CATGGGTCAC ATCAAGCTCA CAGATTTCGG CCTCTCCAAG
    ATGGGGCTCA TGAGCCTCAC CACCAACTTA TATGAAGGCC ACATCGAGAA GGACGCCCGA
    GAGTTCCTGG ACAAACAGGT GTGTGGGACC CCAGAGTACA TCGCGCCCGA GGTCATCCTG
    CGTCAAGGCT ACGGCAAGCC AGTGGACTGG TGGGCTATGG GGATCATCCT CTACGAGTTC
    CTGGTGGGCT GTGTGCCCTT CTTCGGAGAC ACACCAGAGG AGCTATTTGG ACAGGTCATC
    AGTGATGACA TCCTGTGGCC CGAGGGGGAT GAGGCCCTAC CTACGGAGGC CCAACTCCTC
    ATATCCAGCC TCCTGCAGAC CAACCCTCTG GTCAGGCTTG GGGCAGGCGG CGCTTTTGAG
    GTGAAGCAGC ACAGTTTCTT TCGAGACCTG GACTGGACAG GGCTGCTGAG GCAGAAGGCC
    GAGTTCATCC CCCACCTAGA GTCGGAAGAT GACACTAGCT ACTTTGACAC CCGCTCAGAC
    AGGTATCACC ACGTGAACTC CTATGACGAG GATGACACGA CGGAGGAGGA GCCCGTGGAA
    ATCCGCCAGT TCTCTTCCTG CTCTCCGCGC TTCAGCAAGG TGTATAGCAG CATGGAGCAG
    CTGTCGCAGC ACGAGCCCAA GACCCCAGTA GCAGCTGCAG GGAGCAGCAA GCGGGAGCCG
    AGCACCAAGG GCCCCGAGGA GAAGGTGGCC GGCAAGCGGG AGGGGCTGGG CGGCCTGACC
    CTGCGTGAGA AGACCTGGAG AGGGGGCTCT CCGGAGATCA AGCGATTCTC CGCGTCCGAG
    GCCAGTTTCC TGGAGGGAGA GGCCAGTCCC CCTTTGGGCG CCCGCCGCCG TTTCTCGGCG
    CTGCTGGAGC CCAGCCGCTT CAGCGCCCCC CAAGAGGACG AGGATGAGGC CCGGCTGCGC
    AGGCCTCCCC GGCCCAGCTC CGACCCCGCG GGATCCCTGG ATGCACGGGC CCCCAAAGAG
    GAGACTCAAG GGGAAGGCAC CTCCAGCGCC GGGGACTCCG AGGCCACTGA CCGTCCACGC
    CCAGGTGACC TCTGCCCACC CTCGAAGGAT GGGGATGCAT CAGGCCCAAG GGCTACCAAT
    GACTTGGTTC TGCGCCGGGC GCGGCACCAG CAGATGTCAG GGGATGTGGC AGTAGAGAAG
    AGGCCTTCTC GAACTGGGGG CAAAGTCATC AAATCAGCCT CAGCCACTGC CTTATCTGTC
    ATGATTCCTG CAGTGGACCC ACATGGAAGT TCACCCCTTG CTAGTCCCAT GTCTCCACGA
    TCTCTGTCCT CCAACCCATC CTCACGGGAC TCCTCACCCA GCCGGGACTA CTCACCAGCT
    GTCAGTGGGC TCCGCTCCCC CATCACCATC CAGCGCTCGG GCAAGAAGTA TGGCTTCACA
    CTGCGTGCCA TCCGTGTCTA CATGGGTGAC ACGGATGTCT ATAGTGTCCA CCACATTGTC
    TGGCATGTGG AGGAAGGAGG CCCAGCCCAG GAGGCAGGAC TCTGTGCTGG GGACCTCATC
    ACCCACGTGA ATGGGGAGCC TGTGCATGGC ATGGTGCATC CTGAGGTCGT GGAGCTGATC
    CTTAAGAGTG GCAACAAGGT AGCAGTGACC ACAACGCCCT TCGAAAATAC CTCTATCCGC
    ATTGGTCCCG CAAGGCGCAG CAGCTACAAG GCTAAAATGG CTCGGAGGAA CAAGCGACCC
    TCCGCCAAGG AGGGCCAGGA GAGCAAGAAG CGCAGCTCCC TCTTCCGGAA GATCACGAAG
    CAGTCGAACC TGCTGCATAC TAGCCGCTCG CTGTCGTCGC TGAACCGCTC GCTGTCATCC
    AGCGATAGTC TCCCGGGCTC GCCTACGCAC GGGCTGCCGG CGCGCTCGCC CACGCACAGC
    TACCGCTCCA CGCCTGACTC CGCCTACCTA GGCGCCTCAT CCCAGAGCAG CTCCCCAGCC
    TCGAGCACGC CCAACTCGCC TGCGTCGTCG GCGTCGCACC ACATTCGGCC CAGCACGCTG
    CACGGACTGT CGCCAAAGCT CCATCGCCAG TACCGCTCTG CGCGATGCAA GTCGGCCGGC
    AACATCCCTC TATCGCCGCT GGCACACACG CCGTCCCCCA CGCAGGCGTC ACCGCCGCCA
    CTGCCGGGCC ACACGGTGGG CAGCTCGCAC ACTACTCAGA GCTTCCCGGC CAAACTGCAC
    TCATCGCCTC CCGTCGTGCG CCCGCGCCCC AAGAGTGCCG AGCCCCCTCG CTCGCCGCTC
    CTCAAGCGCG TGCAGTCGGC CGAGAAGCTG GGAGCCTCTT TGAGTGCGGA CAAGAAGGGC
    GCGCTGCGCA AACACAGCCT CGAGGTGGGC CACCCGGATT TCCGCAAGGA CTTCCATGGC
    GAGCTGGCGC TGCATAGCCT TGCCGAGTCC GACGGTGAGA CGCCCCCAGT CGAGGGCCTT
    GGCGCGCCCC GGCAGGTCGC CGTCCGCCGC CTGGGCCGAC AGGAGTCACC TTTGAGCCTG
    GGCGCGGACC CGTTGCTGCC CGAGGGTGCC TCCAGGCCAC CAGTGTCGAG CAAGGAGAAG
    GAATCCCCGG GGGGCGCCGA GGCGTGCACC CCACCCCGCG CGACGACCCC CGGTGGCCGG
    ACCCTGGAGC GGGACGTCGG CTGCACGCGG CATCAGAGCG TGCAGACGGA GGATGGCACT
    GGCGGGATGG CCAGGGCTGT GGCCAAGGCG GCGCTGAGCC CGGTGCAGGA ACACGAGACA
    GGCCGGCGCA GCAGCTCTGG CGAGGCGGGC ACACCCCTGG TACCCATTGT CGTAGAGCCT
    GCGCGGCCCG GGGCTAAGGC TGTGGTGCCT CAGCCTCTGG GCGCGGACTC CAAGGGGTTG
    CAGGAACCCG CACCCCTGGC GCCTTCCGTG CCCGAGGCCC CCCGGGGCCG GGAGCGCTGG
    GTGTTGGAGG TGGTGGAGGA GCGCACCACG CTGAGCGGTC CTCGCTCCAA GCCCGCCTCC
    CCAAAGCTCT CCCCGGAGCC CCAGACACCC TCCCTAGCCC CAGCGAAGTG CAGTGCACCC
    AGCAGTGCAG TGACCCCAGT CCCACCCGCA TCCCTCTTGG GCTCAGGCAC CAAGCCTCAA
    GTGGGGCTGA CCTCCCGGTG CCCTGCTGAA GCTGTGCCCC CAGCAGGCCT GACCAAAAAA
    GGAGTGTCCA GTCCCGCACC CCCGGGACCA TAG

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

    CloneID OHu32035
    Clone ID Related Accession (Same CDS sequence) NM_014975.2 , NM_014975.3
    Accession Version NM_014975.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4713bp)
    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 2019-12-30
    Organism Homo sapiens(human)
    Product microtubule-associated serine/threonine-protein kinase 1
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DA769770.1, AB023190.1, AC020934.9 and BM681304.1. This sequence is a reference standard in the RefSeqGene project. On Nov 23, 2018 this sequence version replaced NM_014975.2. ##Evidence-Data-START## Transcript exon combination :: AB023190.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2145743, SAMEA2154665 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000251472.9/ ENSP00000251472.3 RefSeq Select criteria :: based on single protein-coding transcript ##RefSeq-Attributes-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGTCTGACT CTCTCTGGAC CGCGCTTTCT AATTTCTCGA TGCCCTCCTT CCCCGGCGGC 
    AGTATGTTCC GCCGCACCAA GAGCTGCCGC ACCAGTAATC GGAAAAGCCT CATCCTGACC
    AGCACTTCAC CCACGCTACC GAGACCCCAC TCCCCGCTGC CAGGTCACCT AGGCAGCAGT
    CCCCTGGACA GCCCCCGAAA CTTCTCCCCC AACACCCCCG CCCACTTCTC GTTTGCCTCC
    TCCCGAAGGG CGGACGGACG CCGGTGGTCT CTGGCCTCGC TCCCTTCATC TGGCTATGGC
    ACCAACACGC CCAGTTCCAC CGTCTCGTCC TCCTGCTCCT CCCAGGAGCG CCTTCACCAG
    CTGCCCTACC AGCCCACGGT GGACGAGCTC CACTTCCTCT CCAAACACTT CGGGAGCACC
    GAGAGCATCA CAGACGAGGA TGGTGGCCGT CGCTCCCCAG CCGTGCGGCC CCGCTCACGG
    AGCCTCAGCC CCGGGCGCTC CCCCTCCTCC TACGACAACG AGATCGTGAT GATGAATCAC
    GTCTACAAGG AGAGGTTCCC GAAGGCCACT GCGCAGATGG AGGAGAAGCT GCGCGACTTT
    ACCCGCGCCT ACGAACCCGA CAGCGTTCTG CCTCTGGCCG ATGGCGTGCT CAGCTTCATC
    CACCACCAGA TCATCGAGCT GGCCCGGGAC TGCCTGACCA AGTCCCGTGA CGGCCTCATC
    ACCACGGTCT ACTTCTATGA ATTGCAGGAG AACCTGGAGA AGCTCCTTCA AGACGCCTAT
    GAACGCTCTG AGAGCTTGGA GGTGGCCTTC GTTACTCAGC TGGTGAAGAA GTTGCTTATT
    ATCATCTCAC GCCCTGCGAG GCTGCTGGAG TGCCTGGAAT TCAACCCCGA GGAGTTCTAC
    CACCTGCTGG AGGCGGCCGA AGGACACGCC AAGGAGGGCC ACCTTGTGAA GACGGACATC
    CCCCGCTACA TCATCCGCCA GCTGGGCCTC ACCCGTGACC CCTTTCCAGA TGTGGTGCAT
    CTGGAGGAAC AGGACAGTGG TGGTTCCAAC ACCCCTGAGC AAGACGATCT CTCTGAGGGC
    CGCAGCAGCA AGGCCAAGAA ACCGCCGGGG GAGAATGACT TCGATACCAT CAAGCTCATA
    AGCAACGGTG CCTACGGCGC TGTCTACCTG GTGCGGCACC GCGACACGCG GCAGCGCTTT
    GCCATGAAAA AGATCAACAA GCAGAACTTG ATCCTCCGCA ACCAGATCCA GCAGGCCTTT
    GTGGAGCGCG ATATCCTCAC CTTCGCCGAG AACCCGTTTG TGGTCGGCAT GTTCTGCTCC
    TTTGAGACTC GGCGCCACCT CTGCATGGTC ATGGAATATG TGGAAGGCGG CGACTGTGCC
    ACCCTGCTGA AGAATATTGG AGCGCTGCCC GTAGAGATGG CCCGCATGTA CTTTGCTGAG
    ACGGTGCTAG CCCTGGAGTA TTTGCACAAC TATGGCATCG TGCACCGCGA CCTCAAGCCT
    GACAACCTCC TTATCACCTC CATGGGTCAC ATCAAGCTCA CAGATTTCGG CCTCTCCAAG
    ATGGGGCTCA TGAGCCTCAC CACCAACTTA TATGAAGGCC ACATCGAGAA GGACGCCCGA
    GAGTTCCTGG ACAAACAGGT GTGTGGGACC CCAGAGTACA TCGCGCCCGA GGTCATCCTG
    CGTCAAGGCT ACGGCAAGCC AGTGGACTGG TGGGCTATGG GGATCATCCT CTACGAGTTC
    CTGGTGGGCT GTGTGCCCTT CTTCGGAGAC ACACCAGAGG AGCTATTTGG ACAGGTCATC
    AGTGATGACA TCCTGTGGCC CGAGGGGGAT GAGGCCCTAC CTACGGAGGC CCAACTCCTC
    ATATCCAGCC TCCTGCAGAC CAACCCTCTG GTCAGGCTTG GGGCAGGCGG CGCTTTTGAG
    GTGAAGCAGC ACAGTTTCTT TCGAGACCTG GACTGGACAG GGCTGCTGAG GCAGAAGGCC
    GAGTTCATCC CCCACCTAGA GTCGGAAGAT GACACTAGCT ACTTTGACAC CCGCTCAGAC
    AGGTATCACC ACGTGAACTC CTATGACGAG GATGACACGA CGGAGGAGGA GCCCGTGGAA
    ATCCGCCAGT TCTCTTCCTG CTCTCCGCGC TTCAGCAAGG TGTATAGCAG CATGGAGCAG
    CTGTCGCAGC ACGAGCCCAA GACCCCAGTA GCAGCTGCAG GGAGCAGCAA GCGGGAGCCG
    AGCACCAAGG GCCCCGAGGA GAAGGTGGCC GGCAAGCGGG AGGGGCTGGG CGGCCTGACC
    CTGCGTGAGA AGACCTGGAG AGGGGGCTCT CCGGAGATCA AGCGATTCTC CGCGTCCGAG
    GCCAGTTTCC TGGAGGGAGA GGCCAGTCCC CCTTTGGGCG CCCGCCGCCG TTTCTCGGCG
    CTGCTGGAGC CCAGCCGCTT CAGCGCCCCC CAAGAGGACG AGGATGAGGC CCGGCTGCGC
    AGGCCTCCCC GGCCCAGCTC CGACCCCGCG GGATCCCTGG ATGCACGGGC CCCCAAAGAG
    GAGACTCAAG GGGAAGGCAC CTCCAGCGCC GGGGACTCCG AGGCCACTGA CCGTCCACGC
    CCAGGTGACC TCTGCCCACC CTCGAAGGAT GGGGATGCAT CAGGCCCAAG GGCTACCAAT
    GACTTGGTTC TGCGCCGGGC GCGGCACCAG CAGATGTCAG GGGATGTGGC AGTAGAGAAG
    AGGCCTTCTC GAACTGGGGG CAAAGTCATC AAATCAGCCT CAGCCACTGC CTTATCTGTC
    ATGATTCCTG CAGTGGACCC ACATGGAAGT TCACCCCTTG CTAGTCCCAT GTCTCCACGA
    TCTCTGTCCT CCAACCCATC CTCACGGGAC TCCTCACCCA GCCGGGACTA CTCACCAGCT
    GTCAGTGGGC TCCGCTCCCC CATCACCATC CAGCGCTCGG GCAAGAAGTA TGGCTTCACA
    CTGCGTGCCA TCCGTGTCTA CATGGGTGAC ACGGATGTCT ATAGTGTCCA CCACATTGTC
    TGGCATGTGG AGGAAGGAGG CCCAGCCCAG GAGGCAGGAC TCTGTGCTGG GGACCTCATC
    ACCCACGTGA ATGGGGAGCC TGTGCATGGC ATGGTGCATC CTGAGGTCGT GGAGCTGATC
    CTTAAGAGTG GCAACAAGGT AGCAGTGACC ACAACGCCCT TCGAAAATAC CTCTATCCGC
    ATTGGTCCCG CAAGGCGCAG CAGCTACAAG GCTAAAATGG CTCGGAGGAA CAAGCGACCC
    TCCGCCAAGG AGGGCCAGGA GAGCAAGAAG CGCAGCTCCC TCTTCCGGAA GATCACGAAG
    CAGTCGAACC TGCTGCATAC TAGCCGCTCG CTGTCGTCGC TGAACCGCTC GCTGTCATCC
    AGCGATAGTC TCCCGGGCTC GCCTACGCAC GGGCTGCCGG CGCGCTCGCC CACGCACAGC
    TACCGCTCCA CGCCTGACTC CGCCTACCTA GGCGCCTCAT CCCAGAGCAG CTCCCCAGCC
    TCGAGCACGC CCAACTCGCC TGCGTCGTCG GCGTCGCACC ACATTCGGCC CAGCACGCTG
    CACGGACTGT CGCCAAAGCT CCATCGCCAG TACCGCTCTG CGCGATGCAA GTCGGCCGGC
    AACATCCCTC TATCGCCGCT GGCACACACG CCGTCCCCCA CGCAGGCGTC ACCGCCGCCA
    CTGCCGGGCC ACACGGTGGG CAGCTCGCAC ACTACTCAGA GCTTCCCGGC CAAACTGCAC
    TCATCGCCTC CCGTCGTGCG CCCGCGCCCC AAGAGTGCCG AGCCCCCTCG CTCGCCGCTC
    CTCAAGCGCG TGCAGTCGGC CGAGAAGCTG GGAGCCTCTT TGAGTGCGGA CAAGAAGGGC
    GCGCTGCGCA AACACAGCCT CGAGGTGGGC CACCCGGATT TCCGCAAGGA CTTCCATGGC
    GAGCTGGCGC TGCATAGCCT TGCCGAGTCC GACGGTGAGA CGCCCCCAGT CGAGGGCCTT
    GGCGCGCCCC GGCAGGTCGC CGTCCGCCGC CTGGGCCGAC AGGAGTCACC TTTGAGCCTG
    GGCGCGGACC CGTTGCTGCC CGAGGGTGCC TCCAGGCCAC CAGTGTCGAG CAAGGAGAAG
    GAATCCCCGG GGGGCGCCGA GGCGTGCACC CCACCCCGCG CGACGACCCC CGGTGGCCGG
    ACCCTGGAGC GGGACGTCGG CTGCACGCGG CATCAGAGCG TGCAGACGGA GGATGGCACT
    GGCGGGATGG CCAGGGCTGT GGCCAAGGCG GCGCTGAGCC CGGTGCAGGA ACACGAGACA
    GGCCGGCGCA GCAGCTCTGG CGAGGCGGGC ACACCCCTGG TACCCATTGT CGTAGAGCCT
    GCGCGGCCCG GGGCTAAGGC TGTGGTGCCT CAGCCTCTGG GCGCGGACTC CAAGGGGTTG
    CAGGAACCCG CACCCCTGGC GCCTTCCGTG CCCGAGGCCC CCCGGGGCCG GGAGCGCTGG
    GTGTTGGAGG TGGTGGAGGA GCGCACCACG CTGAGCGGTC CTCGCTCCAA GCCCGCCTCC
    CCAAAGCTCT CCCCGGAGCC CCAGACACCC TCCCTAGCCC CAGCGAAGTG CAGTGCACCC
    AGCAGTGCAG TGACCCCAGT CCCACCCGCA TCCCTCTTGG GCTCAGGCAC CAAGCCTCAA
    GTGGGGCTGA CCTCCCGGTG CCCTGCTGAA GCTGTGCCCC CAGCAGGCCT GACCAAAAAA
    GGAGTGTCCA GTCCCGCACC CCCGGGACCA TAG

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

    RefSeq NP_055790.1
    CDS59..4771
    Translation

    Target ORF information:

    RefSeq Version NM_014975.3
    Organism Homo sapiens(human)
    Definition Homo sapiens microtubule associated serine/threonine kinase 1 (MAST1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_014975.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGTCTGACT CTCTCTGGAC CGCGCTTTCT AATTTCTCGA TGCCCTCCTT CCCCGGCGGC 
    AGTATGTTCC GCCGCACCAA GAGCTGCCGC ACCAGTAATC GGAAAAGCCT CATCCTGACC
    AGCACTTCAC CCACGCTACC GAGACCCCAC TCCCCGCTGC CAGGTCACCT AGGCAGCAGT
    CCCCTGGACA GCCCCCGAAA CTTCTCCCCC AACACCCCCG CCCACTTCTC GTTTGCCTCC
    TCCCGAAGGG CGGACGGACG CCGGTGGTCT CTGGCCTCGC TCCCTTCATC TGGCTATGGC
    ACCAACACGC CCAGTTCCAC CGTCTCGTCC TCCTGCTCCT CCCAGGAGCG CCTTCACCAG
    CTGCCCTACC AGCCCACGGT GGACGAGCTC CACTTCCTCT CCAAACACTT CGGGAGCACC
    GAGAGCATCA CAGACGAGGA TGGTGGCCGT CGCTCCCCAG CCGTGCGGCC CCGCTCACGG
    AGCCTCAGCC CCGGGCGCTC CCCCTCCTCC TACGACAACG AGATCGTGAT GATGAATCAC
    GTCTACAAGG AGAGGTTCCC GAAGGCCACT GCGCAGATGG AGGAGAAGCT GCGCGACTTT
    ACCCGCGCCT ACGAACCCGA CAGCGTTCTG CCTCTGGCCG ATGGCGTGCT CAGCTTCATC
    CACCACCAGA TCATCGAGCT GGCCCGGGAC TGCCTGACCA AGTCCCGTGA CGGCCTCATC
    ACCACGGTCT ACTTCTATGA ATTGCAGGAG AACCTGGAGA AGCTCCTTCA AGACGCCTAT
    GAACGCTCTG AGAGCTTGGA GGTGGCCTTC GTTACTCAGC TGGTGAAGAA GTTGCTTATT
    ATCATCTCAC GCCCTGCGAG GCTGCTGGAG TGCCTGGAAT TCAACCCCGA GGAGTTCTAC
    CACCTGCTGG AGGCGGCCGA AGGACACGCC AAGGAGGGCC ACCTTGTGAA GACGGACATC
    CCCCGCTACA TCATCCGCCA GCTGGGCCTC ACCCGTGACC CCTTTCCAGA TGTGGTGCAT
    CTGGAGGAAC AGGACAGTGG TGGTTCCAAC ACCCCTGAGC AAGACGATCT CTCTGAGGGC
    CGCAGCAGCA AGGCCAAGAA ACCGCCGGGG GAGAATGACT TCGATACCAT CAAGCTCATA
    AGCAACGGTG CCTACGGCGC TGTCTACCTG GTGCGGCACC GCGACACGCG GCAGCGCTTT
    GCCATGAAAA AGATCAACAA GCAGAACTTG ATCCTCCGCA ACCAGATCCA GCAGGCCTTT
    GTGGAGCGCG ATATCCTCAC CTTCGCCGAG AACCCGTTTG TGGTCGGCAT GTTCTGCTCC
    TTTGAGACTC GGCGCCACCT CTGCATGGTC ATGGAATATG TGGAAGGCGG CGACTGTGCC
    ACCCTGCTGA AGAATATTGG AGCGCTGCCC GTAGAGATGG CCCGCATGTA CTTTGCTGAG
    ACGGTGCTAG CCCTGGAGTA TTTGCACAAC TATGGCATCG TGCACCGCGA CCTCAAGCCT
    GACAACCTCC TTATCACCTC CATGGGTCAC ATCAAGCTCA CAGATTTCGG CCTCTCCAAG
    ATGGGGCTCA TGAGCCTCAC CACCAACTTA TATGAAGGCC ACATCGAGAA GGACGCCCGA
    GAGTTCCTGG ACAAACAGGT GTGTGGGACC CCAGAGTACA TCGCGCCCGA GGTCATCCTG
    CGTCAAGGCT ACGGCAAGCC AGTGGACTGG TGGGCTATGG GGATCATCCT CTACGAGTTC
    CTGGTGGGCT GTGTGCCCTT CTTCGGAGAC ACACCAGAGG AGCTATTTGG ACAGGTCATC
    AGTGATGACA TCCTGTGGCC CGAGGGGGAT GAGGCCCTAC CTACGGAGGC CCAACTCCTC
    ATATCCAGCC TCCTGCAGAC CAACCCTCTG GTCAGGCTTG GGGCAGGCGG CGCTTTTGAG
    GTGAAGCAGC ACAGTTTCTT TCGAGACCTG GACTGGACAG GGCTGCTGAG GCAGAAGGCC
    GAGTTCATCC CCCACCTAGA GTCGGAAGAT GACACTAGCT ACTTTGACAC CCGCTCAGAC
    AGGTATCACC ACGTGAACTC CTATGACGAG GATGACACGA CGGAGGAGGA GCCCGTGGAA
    ATCCGCCAGT TCTCTTCCTG CTCTCCGCGC TTCAGCAAGG TGTATAGCAG CATGGAGCAG
    CTGTCGCAGC ACGAGCCCAA GACCCCAGTA GCAGCTGCAG GGAGCAGCAA GCGGGAGCCG
    AGCACCAAGG GCCCCGAGGA GAAGGTGGCC GGCAAGCGGG AGGGGCTGGG CGGCCTGACC
    CTGCGTGAGA AGACCTGGAG AGGGGGCTCT CCGGAGATCA AGCGATTCTC CGCGTCCGAG
    GCCAGTTTCC TGGAGGGAGA GGCCAGTCCC CCTTTGGGCG CCCGCCGCCG TTTCTCGGCG
    CTGCTGGAGC CCAGCCGCTT CAGCGCCCCC CAAGAGGACG AGGATGAGGC CCGGCTGCGC
    AGGCCTCCCC GGCCCAGCTC CGACCCCGCG GGATCCCTGG ATGCACGGGC CCCCAAAGAG
    GAGACTCAAG GGGAAGGCAC CTCCAGCGCC GGGGACTCCG AGGCCACTGA CCGTCCACGC
    CCAGGTGACC TCTGCCCACC CTCGAAGGAT GGGGATGCAT CAGGCCCAAG GGCTACCAAT
    GACTTGGTTC TGCGCCGGGC GCGGCACCAG CAGATGTCAG GGGATGTGGC AGTAGAGAAG
    AGGCCTTCTC GAACTGGGGG CAAAGTCATC AAATCAGCCT CAGCCACTGC CTTATCTGTC
    ATGATTCCTG CAGTGGACCC ACATGGAAGT TCACCCCTTG CTAGTCCCAT GTCTCCACGA
    TCTCTGTCCT CCAACCCATC CTCACGGGAC TCCTCACCCA GCCGGGACTA CTCACCAGCT
    GTCAGTGGGC TCCGCTCCCC CATCACCATC CAGCGCTCGG GCAAGAAGTA TGGCTTCACA
    CTGCGTGCCA TCCGTGTCTA CATGGGTGAC ACGGATGTCT ATAGTGTCCA CCACATTGTC
    TGGCATGTGG AGGAAGGAGG CCCAGCCCAG GAGGCAGGAC TCTGTGCTGG GGACCTCATC
    ACCCACGTGA ATGGGGAGCC TGTGCATGGC ATGGTGCATC CTGAGGTCGT GGAGCTGATC
    CTTAAGAGTG GCAACAAGGT AGCAGTGACC ACAACGCCCT TCGAAAATAC CTCTATCCGC
    ATTGGTCCCG CAAGGCGCAG CAGCTACAAG GCTAAAATGG CTCGGAGGAA CAAGCGACCC
    TCCGCCAAGG AGGGCCAGGA GAGCAAGAAG CGCAGCTCCC TCTTCCGGAA GATCACGAAG
    CAGTCGAACC TGCTGCATAC TAGCCGCTCG CTGTCGTCGC TGAACCGCTC GCTGTCATCC
    AGCGATAGTC TCCCGGGCTC GCCTACGCAC GGGCTGCCGG CGCGCTCGCC CACGCACAGC
    TACCGCTCCA CGCCTGACTC CGCCTACCTA GGCGCCTCAT CCCAGAGCAG CTCCCCAGCC
    TCGAGCACGC CCAACTCGCC TGCGTCGTCG GCGTCGCACC ACATTCGGCC CAGCACGCTG
    CACGGACTGT CGCCAAAGCT CCATCGCCAG TACCGCTCTG CGCGATGCAA GTCGGCCGGC
    AACATCCCTC TATCGCCGCT GGCACACACG CCGTCCCCCA CGCAGGCGTC ACCGCCGCCA
    CTGCCGGGCC ACACGGTGGG CAGCTCGCAC ACTACTCAGA GCTTCCCGGC CAAACTGCAC
    TCATCGCCTC CCGTCGTGCG CCCGCGCCCC AAGAGTGCCG AGCCCCCTCG CTCGCCGCTC
    CTCAAGCGCG TGCAGTCGGC CGAGAAGCTG GGAGCCTCTT TGAGTGCGGA CAAGAAGGGC
    GCGCTGCGCA AACACAGCCT CGAGGTGGGC CACCCGGATT TCCGCAAGGA CTTCCATGGC
    GAGCTGGCGC TGCATAGCCT TGCCGAGTCC GACGGTGAGA CGCCCCCAGT CGAGGGCCTT
    GGCGCGCCCC GGCAGGTCGC CGTCCGCCGC CTGGGCCGAC AGGAGTCACC TTTGAGCCTG
    GGCGCGGACC CGTTGCTGCC CGAGGGTGCC TCCAGGCCAC CAGTGTCGAG CAAGGAGAAG
    GAATCCCCGG GGGGCGCCGA GGCGTGCACC CCACCCCGCG CGACGACCCC CGGTGGCCGG
    ACCCTGGAGC GGGACGTCGG CTGCACGCGG CATCAGAGCG TGCAGACGGA GGATGGCACT
    GGCGGGATGG CCAGGGCTGT GGCCAAGGCG GCGCTGAGCC CGGTGCAGGA ACACGAGACA
    GGCCGGCGCA GCAGCTCTGG CGAGGCGGGC ACACCCCTGG TACCCATTGT CGTAGAGCCT
    GCGCGGCCCG GGGCTAAGGC TGTGGTGCCT CAGCCTCTGG GCGCGGACTC CAAGGGGTTG
    CAGGAACCCG CACCCCTGGC GCCTTCCGTG CCCGAGGCCC CCCGGGGCCG GGAGCGCTGG
    GTGTTGGAGG TGGTGGAGGA GCGCACCACG CTGAGCGGTC CTCGCTCCAA GCCCGCCTCC
    CCAAAGCTCT CCCCGGAGCC CCAGACACCC TCCCTAGCCC CAGCGAAGTG CAGTGCACCC
    AGCAGTGCAG TGACCCCAGT CCCACCCGCA TCCCTCTTGG GCTCAGGCAC CAAGCCTCAA
    GTGGGGCTGA CCTCCCGGTG CCCTGCTGAA GCTGTGCCCC CAGCAGGCCT GACCAAAAAA
    GGAGTGTCCA GTCCCGCACC CCCGGGACCA TAG

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

    CloneID OHu65209
    Clone ID Related Accession (Same CDS sequence) XM_011527805.2
    Accession Version XM_011527805.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4701bp)
    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 2018-03-25
    Organism Homo sapiens(human)
    Product microtubule-associated serine/threonine-protein kinase 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000019.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011527805.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Homo sapiens Annotation Release 109 Annotation Version :: 109 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGGACGATT CGGGCCTCAT CCGCCGCCGG AGGCTGCAGA AGGATTTGCC CCTGCCCCGG 
    AAAAGCAGCA GCTGCCGCAC CAGTAATCGG AAAAGCCTCA TCCTGACCAG CACTTCACCC
    ACGCTACCGA GACCCCACTC CCCGCTGCCA GGTCACCTAG GCAGCAGTCC CCTGGACAGC
    CCCCGAAACT TCTCCCCCAA CACCCCCGCC CACTTCTCGT TTGCCTCCTC CCGAAGGGCG
    GACGGACGCC GGTGGTCTCT GGCCTCGCTC CCTTCATCTG GCTATGGCAC CAACACGCCC
    AGTTCCACCG TCTCGTCCTC CTGCTCCTCC CAGGAGCGCC TTCACCAGCT GCCCTACCAG
    CCCACGGTGG ACGAGCTCCA CTTCCTCTCC AAACACTTCG GGAGCACCGA GAGCATCACA
    GACGAGGATG GTGGCCGTCG CTCCCCAGCC GTGCGGCCCC GCTCACGGAG CCTCAGCCCC
    GGGCGCTCCC CCTCCTCCTA CGACAACGAG ATCGTGATGA TGAATCACGT CTACAAGGAG
    AGGTTCCCGA AGGCCACTGC GCAGATGGAG GAGAAGCTGC GCGACTTTAC CCGCGCCTAC
    GAACCCGACA GCGTTCTGCC TCTGGCCGAT GGCGTGCTCA GCTTCATCCA CCACCAGATC
    ATCGAGCTGG CCCGGGACTG CCTGACCAAG TCCCGTGACG GCCTCATCAC CACGGTCTAC
    TTCTATGAAT TGCAGGAGAA CCTGGAGAAG CTCCTTCAAG ACGCCTATGA ACGCTCTGAG
    AGCTTGGAGG TGGCCTTCGT TACTCAGCTG GTGAAGAAGT TGCTTATTAT CATCTCACGC
    CCTGCGAGGC TGCTGGAGTG CCTGGAATTC AACCCCGAGG AGTTCTACCA CCTGCTGGAG
    GCGGCCGAAG GACACGCCAA GGAGGGCCAC CTTGTGAAGA CGGACATCCC CCGCTACATC
    ATCCGCCAGC TGGGCCTCAC CCGTGACCCC TTTCCAGATG TGGTGCATCT GGAGGAACAG
    GACAGTGGTG GTTCCAACAC CCCTGAGCAA GACGATCTCT CTGAGGGCCG CAGCAGCAAG
    GCCAAGAAAC CGCCGGGGGA GAATGACTTC GATACCATCA AGCTCATAAG CAACGGTGCC
    TACGGCGCTG TCTACCTGGT GCGGCACCGC GACACGCGGC AGCGCTTTGC CATGAAAAAG
    ATCAACAAGC AGAACTTGAT CCTCCGCAAC CAGATCCAGC AGGCCTTTGT GGAGCGCGAT
    ATCCTCACCT TCGCCGAGAA CCCGTTTGTG GTCGGCATGT TCTGCTCCTT TGAGACTCGG
    CGCCACCTCT GCATGGTCAT GGAATATGTG GAAGGCGGCG ACTGTGCCAC CCTGCTGAAG
    AATATTGGAG CGCTGCCCGT AGAGATGGCC CGCATGTACT TTGCTGAGAC GGTGCTAGCC
    CTGGAGTATT TGCACAACTA TGGCATCGTG CACCGCGACC TCAAGCCTGA CAACCTCCTT
    ATCACCTCCA TGGGTCACAT CAAGCTCACA GATTTCGGCC TCTCCAAGAT GGGGCTCATG
    AGCCTCACCA CCAACTTATA TGAAGGCCAC ATCGAGAAGG ACGCCCGAGA GTTCCTGGAC
    AAACAGGTGT GTGGGACCCC AGAGTACATC GCGCCCGAGG TCATCCTGCG TCAAGGCTAC
    GGCAAGCCAG TGGACTGGTG GGCTATGGGG ATCATCCTCT ACGAGTTCCT GGTGGGCTGT
    GTGCCCTTCT TCGGAGACAC ACCAGAGGAG CTATTTGGAC AGGTCATCAG TGATGACATC
    CTGTGGCCCG AGGGGGATGA GGCCCTACCT ACGGAGGCCC AACTCCTCAT ATCCAGCCTC
    CTGCAGACCA ACCCTCTGGT CAGGCTTGGG GCAGGCGGCG CTTTTGAGGT GAAGCAGCAC
    AGTTTCTTTC GAGACCTGGA CTGGACAGGG CTGCTGAGGC AGAAGGCCGA GTTCATCCCC
    CACCTAGAGT CGGAAGATGA CACTAGCTAC TTTGACACCC GCTCAGACAG GTATCACCAC
    GTGAACTCCT ATGACGAGGA TGACACGACG GAGGAGGAGC CCGTGGAAAT CCGCCAGTTC
    TCTTCCTGCT CTCCGCGCTT CAGCAAGGTG TATAGCAGCA TGGAGCAGCT GTCGCAGCAC
    GAGCCCAAGA CCCCAGTAGC AGCTGCAGGG AGCAGCAAGC GGGAGCCGAG CACCAAGGGC
    CCCGAGGAGA AGGTGGCCGG CAAGCGGGAG GGGCTGGGCG GCCTGACCCT GCGTGAGAAG
    ACCTGGAGAG GGGGCTCTCC GGAGATCAAG CGATTCTCCG CGTCCGAGGC CAGTTTCCTG
    GAGGGAGAGG CCAGTCCCCC TTTGGGCGCC CGCCGCCGTT TCTCGGCGCT GCTGGAGCCC
    AGCCGCTTCA GCGCCCCCCA AGAGGACGAG GATGAGGCCC GGCTGCGCAG GCCTCCCCGG
    CCCAGCTCCG ACCCCGCGGG ATCCCTGGAT GCACGGGCCC CCAAAGAGGA GACTCAAGGG
    GAAGGCACCT CCAGCGCCGG GGACTCCGAG GCCACTGACC GTCCACGCCC AGGTGACCTC
    TGCCCACCCT CGAAGGATGG GGATGCATCA GGCCCAAGGG CTACCAATGA CTTGGTTCTG
    CGCCGGGCGC GGCACCAGCA GATGTCAGGG GATGTGGCAG TAGAGAAGAG GCCTTCTCGA
    ACTGGGGGCA AAGTCATCAA ATCAGCCTCA GCCACTGCCT TATCTGTCAT GATTCCTGCA
    GTGGACCCAC ATGGAAGTTC ACCCCTTGCT AGTCCCATGT CTCCACGATC TCTGTCCTCC
    AACCCATCCT CACGGGACTC CTCACCCAGC CGGGACTACT CACCAGCTGT CAGTGGGCTC
    CGCTCCCCCA TCACCATCCA GCGCTCGGGC AAGAAGTATG GCTTCACACT GCGTGCCATC
    CGTGTCTACA TGGGTGACAC GGATGTCTAT AGTGTCCACC ACATTGTCTG GCATGTGGAG
    GAAGGAGGCC CAGCCCAGGA GGCAGGACTC TGTGCTGGGG ACCTCATCAC CCACGTGAAT
    GGGGAGCCTG TGCATGGCAT GGTGCATCCT GAGGTCGTGG AGCTGATCCT TAAGAGTGGC
    AACAAGGTAG CAGTGACCAC AACGCCCTTC GAAAATACCT CTATCCGCAT TGGTCCCGCA
    AGGCGCAGCA GCTACAAGGC TAAAATGGCT CGGAGGAACA AGCGACCCTC CGCCAAGGAG
    GGCCAGGAGA GCAAGAAGCG CAGCTCCCTC TTCCGGAAGA TCACGAAGCA GTCGAACCTG
    CTGCATACTA GCCGCTCGCT GTCGTCGCTG AACCGCTCGC TGTCATCCAG CGATAGTCTC
    CCGGGCTCGC CTACGCACGG GCTGCCGGCG CGCTCGCCCA CGCACAGCTA CCGCTCCACG
    CCTGACTCCG CCTACCTAGG CGCCTCATCC CAGAGCAGCT CCCCAGCCTC GAGCACGCCC
    AACTCGCCTG CGTCGTCGGC GTCGCACCAC ATTCGGCCCA GCACGCTGCA CGGACTGTCG
    CCAAAGCTCC ATCGCCAGTA CCGCTCTGCG CGATGCAAGT CGGCCGGCAA CATCCCTCTA
    TCGCCGCTGG CACACACGCC GTCCCCCACG CAGGCGTCAC CGCCGCCACT GCCGGGCCAC
    ACGGTGGGCA GCTCGCACAC TACTCAGAGC TTCCCGGCCA AACTGCACTC ATCGCCTCCC
    GTCGTGCGCC CGCGCCCCAA GAGTGCCGAG CCCCCTCGCT CGCCGCTCCT CAAGCGCGTG
    CAGTCGGCCG AGAAGCTGGG AGCCTCTTTG AGTGCGGACA AGAAGGGCGC GCTGCGCAAA
    CACAGCCTCG AGGTGGGCCA CCCGGATTTC CGCAAGGACT TCCATGGCGA GCTGGCGCTG
    CATAGCCTTG CCGAGTCCGA CGGTGAGACG CCCCCAGTCG AGGGCCTTGG CGCGCCCCGG
    CAGGTCGCCG TCCGCCGCCT GGGCCGACAG GAGTCACCTT TGAGCCTGGG CGCGGACCCG
    TTGCTGCCCG AGGGTGCCTC CAGGCCACCA GTGTCGAGCA AGGAGAAGGA ATCCCCGGGG
    GGCGCCGAGG CGTGCACCCC ACCCCGCGCG ACGACCCCCG GTGGCCGGAC CCTGGAGCGG
    GACGTCGGCT GCACGCGGCA TCAGAGCGTG CAGACGGAGG ATGGCACTGG CGGGATGGCC
    AGGGCTGTGG CCAAGGCGGC GCTGAGCCCG GTGCAGGAAC ACGAGACAGG CCGGCGCAGC
    AGCTCTGGCG AGGCGGGCAC ACCCCTGGTA CCCATTGTCG TAGAGCCTGC GCGGCCCGGG
    GCTAAGGCTG TGGTGCCTCA GCCTCTGGGC GCGGACTCCA AGGGGTTGCA GGAACCCGCA
    CCCCTGGCGC CTTCCGTGCC CGAGGCCCCC CGGGGCCGGG AGCGCTGGGT GTTGGAGGTG
    GTGGAGGAGC GCACCACGCT GAGCGGTCCT CGCTCCAAGC CCGCCTCCCC AAAGCTCTCC
    CCGGAGCCCC AGACACCCTC CCTAGCCCCA GCGAAGTGCA GTGCACCCAG CAGTGCAGTG
    ACCCCAGTCC CACCCGCATC CCTCTTGGGC TCAGGCACCA AGCCTCAAGT GGGGCTGACC
    TCCCGGTGCC CTGCTGAAGC TGTGCCCCCA GCAGGCCTGA CCAAAAAAGG AGTGTCCAGT
    CCCGCACCCC CGGGACCATA G

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

    RefSeq XP_011526107.1
    CDS38..4738
    Translation

    Target ORF information:

    RefSeq Version XM_011527805.2
    Organism Homo sapiens(human)
    Definition Homo sapiens microtubule associated serine/threonine kinase 1 (MAST1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011527805.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGGACGATT CGGGCCTCAT CCGCCGCCGG AGGCTGCAGA AGGATTTGCC CCTGCCCCGG 
    AAAAGCAGCA GCTGCCGCAC CAGTAATCGG AAAAGCCTCA TCCTGACCAG CACTTCACCC
    ACGCTACCGA GACCCCACTC CCCGCTGCCA GGTCACCTAG GCAGCAGTCC CCTGGACAGC
    CCCCGAAACT TCTCCCCCAA CACCCCCGCC CACTTCTCGT TTGCCTCCTC CCGAAGGGCG
    GACGGACGCC GGTGGTCTCT GGCCTCGCTC CCTTCATCTG GCTATGGCAC CAACACGCCC
    AGTTCCACCG TCTCGTCCTC CTGCTCCTCC CAGGAGCGCC TTCACCAGCT GCCCTACCAG
    CCCACGGTGG ACGAGCTCCA CTTCCTCTCC AAACACTTCG GGAGCACCGA GAGCATCACA
    GACGAGGATG GTGGCCGTCG CTCCCCAGCC GTGCGGCCCC GCTCACGGAG CCTCAGCCCC
    GGGCGCTCCC CCTCCTCCTA CGACAACGAG ATCGTGATGA TGAATCACGT CTACAAGGAG
    AGGTTCCCGA AGGCCACTGC GCAGATGGAG GAGAAGCTGC GCGACTTTAC CCGCGCCTAC
    GAACCCGACA GCGTTCTGCC TCTGGCCGAT GGCGTGCTCA GCTTCATCCA CCACCAGATC
    ATCGAGCTGG CCCGGGACTG CCTGACCAAG TCCCGTGACG GCCTCATCAC CACGGTCTAC
    TTCTATGAAT TGCAGGAGAA CCTGGAGAAG CTCCTTCAAG ACGCCTATGA ACGCTCTGAG
    AGCTTGGAGG TGGCCTTCGT TACTCAGCTG GTGAAGAAGT TGCTTATTAT CATCTCACGC
    CCTGCGAGGC TGCTGGAGTG CCTGGAATTC AACCCCGAGG AGTTCTACCA CCTGCTGGAG
    GCGGCCGAAG GACACGCCAA GGAGGGCCAC CTTGTGAAGA CGGACATCCC CCGCTACATC
    ATCCGCCAGC TGGGCCTCAC CCGTGACCCC TTTCCAGATG TGGTGCATCT GGAGGAACAG
    GACAGTGGTG GTTCCAACAC CCCTGAGCAA GACGATCTCT CTGAGGGCCG CAGCAGCAAG
    GCCAAGAAAC CGCCGGGGGA GAATGACTTC GATACCATCA AGCTCATAAG CAACGGTGCC
    TACGGCGCTG TCTACCTGGT GCGGCACCGC GACACGCGGC AGCGCTTTGC CATGAAAAAG
    ATCAACAAGC AGAACTTGAT CCTCCGCAAC CAGATCCAGC AGGCCTTTGT GGAGCGCGAT
    ATCCTCACCT TCGCCGAGAA CCCGTTTGTG GTCGGCATGT TCTGCTCCTT TGAGACTCGG
    CGCCACCTCT GCATGGTCAT GGAATATGTG GAAGGCGGCG ACTGTGCCAC CCTGCTGAAG
    AATATTGGAG CGCTGCCCGT AGAGATGGCC CGCATGTACT TTGCTGAGAC GGTGCTAGCC
    CTGGAGTATT TGCACAACTA TGGCATCGTG CACCGCGACC TCAAGCCTGA CAACCTCCTT
    ATCACCTCCA TGGGTCACAT CAAGCTCACA GATTTCGGCC TCTCCAAGAT GGGGCTCATG
    AGCCTCACCA CCAACTTATA TGAAGGCCAC ATCGAGAAGG ACGCCCGAGA GTTCCTGGAC
    AAACAGGTGT GTGGGACCCC AGAGTACATC GCGCCCGAGG TCATCCTGCG TCAAGGCTAC
    GGCAAGCCAG TGGACTGGTG GGCTATGGGG ATCATCCTCT ACGAGTTCCT GGTGGGCTGT
    GTGCCCTTCT TCGGAGACAC ACCAGAGGAG CTATTTGGAC AGGTCATCAG TGATGACATC
    CTGTGGCCCG AGGGGGATGA GGCCCTACCT ACGGAGGCCC AACTCCTCAT ATCCAGCCTC
    CTGCAGACCA ACCCTCTGGT CAGGCTTGGG GCAGGCGGCG CTTTTGAGGT GAAGCAGCAC
    AGTTTCTTTC GAGACCTGGA CTGGACAGGG CTGCTGAGGC AGAAGGCCGA GTTCATCCCC
    CACCTAGAGT CGGAAGATGA CACTAGCTAC TTTGACACCC GCTCAGACAG GTATCACCAC
    GTGAACTCCT ATGACGAGGA TGACACGACG GAGGAGGAGC CCGTGGAAAT CCGCCAGTTC
    TCTTCCTGCT CTCCGCGCTT CAGCAAGGTG TATAGCAGCA TGGAGCAGCT GTCGCAGCAC
    GAGCCCAAGA CCCCAGTAGC AGCTGCAGGG AGCAGCAAGC GGGAGCCGAG CACCAAGGGC
    CCCGAGGAGA AGGTGGCCGG CAAGCGGGAG GGGCTGGGCG GCCTGACCCT GCGTGAGAAG
    ACCTGGAGAG GGGGCTCTCC GGAGATCAAG CGATTCTCCG CGTCCGAGGC CAGTTTCCTG
    GAGGGAGAGG CCAGTCCCCC TTTGGGCGCC CGCCGCCGTT TCTCGGCGCT GCTGGAGCCC
    AGCCGCTTCA GCGCCCCCCA AGAGGACGAG GATGAGGCCC GGCTGCGCAG GCCTCCCCGG
    CCCAGCTCCG ACCCCGCGGG ATCCCTGGAT GCACGGGCCC CCAAAGAGGA GACTCAAGGG
    GAAGGCACCT CCAGCGCCGG GGACTCCGAG GCCACTGACC GTCCACGCCC AGGTGACCTC
    TGCCCACCCT CGAAGGATGG GGATGCATCA GGCCCAAGGG CTACCAATGA CTTGGTTCTG
    CGCCGGGCGC GGCACCAGCA GATGTCAGGG GATGTGGCAG TAGAGAAGAG GCCTTCTCGA
    ACTGGGGGCA AAGTCATCAA ATCAGCCTCA GCCACTGCCT TATCTGTCAT GATTCCTGCA
    GTGGACCCAC ATGGAAGTTC ACCCCTTGCT AGTCCCATGT CTCCACGATC TCTGTCCTCC
    AACCCATCCT CACGGGACTC CTCACCCAGC CGGGACTACT CACCAGCTGT CAGTGGGCTC
    CGCTCCCCCA TCACCATCCA GCGCTCGGGC AAGAAGTATG GCTTCACACT GCGTGCCATC
    CGTGTCTACA TGGGTGACAC GGATGTCTAT AGTGTCCACC ACATTGTCTG GCATGTGGAG
    GAAGGAGGCC CAGCCCAGGA GGCAGGACTC TGTGCTGGGG ACCTCATCAC CCACGTGAAT
    GGGGAGCCTG TGCATGGCAT GGTGCATCCT GAGGTCGTGG AGCTGATCCT TAAGAGTGGC
    AACAAGGTAG CAGTGACCAC AACGCCCTTC GAAAATACCT CTATCCGCAT TGGTCCCGCA
    AGGCGCAGCA GCTACAAGGC TAAAATGGCT CGGAGGAACA AGCGACCCTC CGCCAAGGAG
    GGCCAGGAGA GCAAGAAGCG CAGCTCCCTC TTCCGGAAGA TCACGAAGCA GTCGAACCTG
    CTGCATACTA GCCGCTCGCT GTCGTCGCTG AACCGCTCGC TGTCATCCAG CGATAGTCTC
    CCGGGCTCGC CTACGCACGG GCTGCCGGCG CGCTCGCCCA CGCACAGCTA CCGCTCCACG
    CCTGACTCCG CCTACCTAGG CGCCTCATCC CAGAGCAGCT CCCCAGCCTC GAGCACGCCC
    AACTCGCCTG CGTCGTCGGC GTCGCACCAC ATTCGGCCCA GCACGCTGCA CGGACTGTCG
    CCAAAGCTCC ATCGCCAGTA CCGCTCTGCG CGATGCAAGT CGGCCGGCAA CATCCCTCTA
    TCGCCGCTGG CACACACGCC GTCCCCCACG CAGGCGTCAC CGCCGCCACT GCCGGGCCAC
    ACGGTGGGCA GCTCGCACAC TACTCAGAGC TTCCCGGCCA AACTGCACTC ATCGCCTCCC
    GTCGTGCGCC CGCGCCCCAA GAGTGCCGAG CCCCCTCGCT CGCCGCTCCT CAAGCGCGTG
    CAGTCGGCCG AGAAGCTGGG AGCCTCTTTG AGTGCGGACA AGAAGGGCGC GCTGCGCAAA
    CACAGCCTCG AGGTGGGCCA CCCGGATTTC CGCAAGGACT TCCATGGCGA GCTGGCGCTG
    CATAGCCTTG CCGAGTCCGA CGGTGAGACG CCCCCAGTCG AGGGCCTTGG CGCGCCCCGG
    CAGGTCGCCG TCCGCCGCCT GGGCCGACAG GAGTCACCTT TGAGCCTGGG CGCGGACCCG
    TTGCTGCCCG AGGGTGCCTC CAGGCCACCA GTGTCGAGCA AGGAGAAGGA ATCCCCGGGG
    GGCGCCGAGG CGTGCACCCC ACCCCGCGCG ACGACCCCCG GTGGCCGGAC CCTGGAGCGG
    GACGTCGGCT GCACGCGGCA TCAGAGCGTG CAGACGGAGG ATGGCACTGG CGGGATGGCC
    AGGGCTGTGG CCAAGGCGGC GCTGAGCCCG GTGCAGGAAC ACGAGACAGG CCGGCGCAGC
    AGCTCTGGCG AGGCGGGCAC ACCCCTGGTA CCCATTGTCG TAGAGCCTGC GCGGCCCGGG
    GCTAAGGCTG TGGTGCCTCA GCCTCTGGGC GCGGACTCCA AGGGGTTGCA GGAACCCGCA
    CCCCTGGCGC CTTCCGTGCC CGAGGCCCCC CGGGGCCGGG AGCGCTGGGT GTTGGAGGTG
    GTGGAGGAGC GCACCACGCT GAGCGGTCCT CGCTCCAAGC CCGCCTCCCC AAAGCTCTCC
    CCGGAGCCCC AGACACCCTC CCTAGCCCCA GCGAAGTGCA GTGCACCCAG CAGTGCAGTG
    ACCCCAGTCC CACCCGCATC CCTCTTGGGC TCAGGCACCA AGCCTCAAGT GGGGCTGACC
    TCCCGGTGCC CTGCTGAAGC TGTGCCCCCA GCAGGCCTGA CCAAAAAAGG AGTGTCCAGT
    CCCGCACCCC CGGGACCATA G

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

    CloneID OHu65211
    Clone ID Related Accession (Same CDS sequence) XM_011527808.2
    Accession Version XM_011527808.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3381bp)
    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 2018-03-25
    Organism Homo sapiens(human)
    Product microtubule-associated serine/threonine-protein kinase 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000019.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011527808.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Homo sapiens Annotation Release 109 Annotation Version :: 109 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 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
    ATGGCATTGG ATTTCATTCT GAATGCAACA GAAGGCGGCG ACTGTGCCAC CCTGCTGAAG 
    AATATTGGAG CGCTGCCCGT AGAGATGGCC CGCATGTACT TTGCTGAGAC GGTGCTAGCC
    CTGGAGTATT TGCACAACTA TGGCATCGTG CACCGCGACC TCAAGCCTGA CAACCTCCTT
    ATCACCTCCA TGGGTCACAT CAAGCTCACA GATTTCGGCC TCTCCAAGAT GGGGCTCATG
    AGCCTCACCA CCAACTTATA TGAAGGCCAC ATCGAGAAGG ACGCCCGAGA GTTCCTGGAC
    AAACAGGTGT GTGGGACCCC AGAGTACATC GCGCCCGAGG TCATCCTGCG TCAAGGCTAC
    GGCAAGCCAG TGGACTGGTG GGCTATGGGG ATCATCCTCT ACGAGTTCCT GGTGGGCTGT
    GTGCCCTTCT TCGGAGACAC ACCAGAGGAG CTATTTGGAC AGGTCATCAG TGATGACATC
    CTGTGGCCCG AGGGGGATGA GGCCCTACCT ACGGAGGCCC AACTCCTCAT ATCCAGCCTC
    CTGCAGACCA ACCCTCTGGT CAGGCTTGGG GCAGGCGGCG CTTTTGAGGT GAAGCAGCAC
    AGTTTCTTTC GAGACCTGGA CTGGACAGGG CTGCTGAGGC AGAAGGCCGA GTTCATCCCC
    CACCTAGAGT CGGAAGATGA CACTAGCTAC TTTGACACCC GCTCAGACAG GTATCACCAC
    GTGAACTCCT ATGACGAGGA TGACACGACG GAGGAGGAGC CCGTGGAAAT CCGCCAGTTC
    TCTTCCTGCT CTCCGCGCTT CAGCAAGGTG TATAGCAGCA TGGAGCAGCT GTCGCAGCAC
    GAGCCCAAGA CCCCAGTAGC AGCTGCAGGG AGCAGCAAGC GGGAGCCGAG CACCAAGGGC
    CCCGAGGAGA AGGTGGCCGG CAAGCGGGAG GGGCTGGGCG GCCTGACCCT GCGTGAGAAG
    ACCTGGAGAG GGGGCTCTCC GGAGATCAAG CGATTCTCCG CGTCCGAGGC CAGTTTCCTG
    GAGGGAGAGG CCAGTCCCCC TTTGGGCGCC CGCCGCCGTT TCTCGGCGCT GCTGGAGCCC
    AGCCGCTTCA GCGCCCCCCA AGAGGACGAG GATGAGGCCC GGCTGCGCAG GCCTCCCCGG
    CCCAGCTCCG ACCCCGCGGG ATCCCTGGAT GCACGGGCCC CCAAAGAGGA GACTCAAGGG
    GAAGGCACCT CCAGCGCCGG GGACTCCGAG GCCACTGACC GTCCACGCCC AGGTGACCTC
    TGCCCACCCT CGAAGGATGG GGATGCATCA GGCCCAAGGG CTACCAATGA CTTGGTTCTG
    CGCCGGGCGC GGCACCAGCA GATGTCAGGG GATGTGGCAG TAGAGAAGAG GCCTTCTCGA
    ACTGGGGGCA AAGTCATCAA ATCAGCCTCA GCCACTGCCT TATCTGTCAT GATTCCTGCA
    GTGGACCCAC ATGGAAGTTC ACCCCTTGCT AGTCCCATGT CTCCACGATC TCTGTCCTCC
    AACCCATCCT CACGGGACTC CTCACCCAGC CGGGACTACT CACCAGCTGT CAGTGGGCTC
    CGCTCCCCCA TCACCATCCA GCGCTCGGGC AAGAAGTATG GCTTCACACT GCGTGCCATC
    CGTGTCTACA TGGGTGACAC GGATGTCTAT AGTGTCCACC ACATTGTCTG GCATGTGGAG
    GAAGGAGGCC CAGCCCAGGA GGCAGGACTC TGTGCTGGGG ACCTCATCAC CCACGTGAAT
    GGGGAGCCTG TGCATGGCAT GGTGCATCCT GAGGTCGTGG AGCTGATCCT TAAGAGTGGC
    AACAAGGTAG CAGTGACCAC AACGCCCTTC GAAAATACCT CTATCCGCAT TGGTCCCGCA
    AGGCGCAGCA GCTACAAGGC TAAAATGGCT CGGAGGAACA AGCGACCCTC CGCCAAGGAG
    GGCCAGGAGA GCAAGAAGCG CAGCTCCCTC TTCCGGAAGA TCACGAAGCA GTCGAACCTG
    CTGCATACTA GCCGCTCGCT GTCGTCGCTG AACCGCTCGC TGTCATCCAG CGATAGTCTC
    CCGGGCTCGC CTACGCACGG GCTGCCGGCG CGCTCGCCCA CGCACAGCTA CCGCTCCACG
    CCTGACTCCG CCTACCTAGG CGCCTCATCC CAGAGCAGCT CCCCAGCCTC GAGCACGCCC
    AACTCGCCTG CGTCGTCGGC GTCGCACCAC ATTCGGCCCA GCACGCTGCA CGGACTGTCG
    CCAAAGCTCC ATCGCCAGTA CCGCTCTGCG CGATGCAAGT CGGCCGGCAA CATCCCTCTA
    TCGCCGCTGG CACACACGCC GTCCCCCACG CAGGCGTCAC CGCCGCCACT GCCGGGCCAC
    ACGGTGGGCA GCTCGCACAC TACTCAGAGC TTCCCGGCCA AACTGCACTC ATCGCCTCCC
    GTCGTGCGCC CGCGCCCCAA GAGTGCCGAG CCCCCTCGCT CGCCGCTCCT CAAGCGCGTG
    CAGTCGGCCG AGAAGCTGGG AGCCTCTTTG AGTGCGGACA AGAAGGGCGC GCTGCGCAAA
    CACAGCCTCG AGGTGGGCCA CCCGGATTTC CGCAAGGACT TCCATGGCGA GCTGGCGCTG
    CATAGCCTTG CCGAGTCCGA CGGTGAGACG CCCCCAGTCG AGGGCCTTGG CGCGCCCCGG
    CAGGTCGCCG TCCGCCGCCT GGGCCGACAG GAGTCACCTT TGAGCCTGGG CGCGGACCCG
    TTGCTGCCCG AGGGTGCCTC CAGGCCACCA GTGTCGAGCA AGGAGAAGGA ATCCCCGGGG
    GGCGCCGAGG CGTGCACCCC ACCCCGCGCG ACGACCCCCG GTGGCCGGAC CCTGGAGCGG
    GACGTCGGCT GCACGCGGCA TCAGAGCGTG CAGACGGAGG ATGGCACTGG CGGGATGGCC
    AGGGCTGTGG CCAAGGCGGC GCTGAGCCCG GTGCAGGAAC ACGAGACAGG CCGGCGCAGC
    AGCTCTGGCG AGGCGGGCAC ACCCCTGGTA CCCATTGTCG TAGAGCCTGC GCGGCCCGGG
    GCTAAGGCTG TGGTGCCTCA GCCTCTGGGC GCGGACTCCA AGGGGTTGCA GGAACCCGCA
    CCCCTGGCGC CTTCCGTGCC CGAGGCCCCC CGGGGCCGGG AGCGCTGGGT GTTGGAGGTG
    GTGGAGGAGC GCACCACGCT GAGCGGTCCT CGCTCCAAGC CCGCCTCCCC AAAGCTCTCC
    CCGGAGCCCC AGACACCCTC CCTAGCCCCA GCGAAGTGCA GTGCACCCAG CAGTGCAGTG
    ACCCCAGTCC CACCCGCATC CCTCTTGGGC TCAGGCACCA AGCCTCAAGT GGGGCTGACC
    TCCCGGTGCC CTGCTGAAGC TGTGCCCCCA GCAGGCCTGA CCAAAAAAGG AGTGTCCAGT
    CCCGCACCCC CGGGACCATA G

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

    RefSeq XP_011526110.1
    CDS300..3680
    Translation

    Target ORF information:

    RefSeq Version XM_011527808.2
    Organism Homo sapiens(human)
    Definition Homo sapiens microtubule associated serine/threonine kinase 1 (MAST1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011527808.2

    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
    ATGGCATTGG ATTTCATTCT GAATGCAACA GAAGGCGGCG ACTGTGCCAC CCTGCTGAAG 
    AATATTGGAG CGCTGCCCGT AGAGATGGCC CGCATGTACT TTGCTGAGAC GGTGCTAGCC
    CTGGAGTATT TGCACAACTA TGGCATCGTG CACCGCGACC TCAAGCCTGA CAACCTCCTT
    ATCACCTCCA TGGGTCACAT CAAGCTCACA GATTTCGGCC TCTCCAAGAT GGGGCTCATG
    AGCCTCACCA CCAACTTATA TGAAGGCCAC ATCGAGAAGG ACGCCCGAGA GTTCCTGGAC
    AAACAGGTGT GTGGGACCCC AGAGTACATC GCGCCCGAGG TCATCCTGCG TCAAGGCTAC
    GGCAAGCCAG TGGACTGGTG GGCTATGGGG ATCATCCTCT ACGAGTTCCT GGTGGGCTGT
    GTGCCCTTCT TCGGAGACAC ACCAGAGGAG CTATTTGGAC AGGTCATCAG TGATGACATC
    CTGTGGCCCG AGGGGGATGA GGCCCTACCT ACGGAGGCCC AACTCCTCAT ATCCAGCCTC
    CTGCAGACCA ACCCTCTGGT CAGGCTTGGG GCAGGCGGCG CTTTTGAGGT GAAGCAGCAC
    AGTTTCTTTC GAGACCTGGA CTGGACAGGG CTGCTGAGGC AGAAGGCCGA GTTCATCCCC
    CACCTAGAGT CGGAAGATGA CACTAGCTAC TTTGACACCC GCTCAGACAG GTATCACCAC
    GTGAACTCCT ATGACGAGGA TGACACGACG GAGGAGGAGC CCGTGGAAAT CCGCCAGTTC
    TCTTCCTGCT CTCCGCGCTT CAGCAAGGTG TATAGCAGCA TGGAGCAGCT GTCGCAGCAC
    GAGCCCAAGA CCCCAGTAGC AGCTGCAGGG AGCAGCAAGC GGGAGCCGAG CACCAAGGGC
    CCCGAGGAGA AGGTGGCCGG CAAGCGGGAG GGGCTGGGCG GCCTGACCCT GCGTGAGAAG
    ACCTGGAGAG GGGGCTCTCC GGAGATCAAG CGATTCTCCG CGTCCGAGGC CAGTTTCCTG
    GAGGGAGAGG CCAGTCCCCC TTTGGGCGCC CGCCGCCGTT TCTCGGCGCT GCTGGAGCCC
    AGCCGCTTCA GCGCCCCCCA AGAGGACGAG GATGAGGCCC GGCTGCGCAG GCCTCCCCGG
    CCCAGCTCCG ACCCCGCGGG ATCCCTGGAT GCACGGGCCC CCAAAGAGGA GACTCAAGGG
    GAAGGCACCT CCAGCGCCGG GGACTCCGAG GCCACTGACC GTCCACGCCC AGGTGACCTC
    TGCCCACCCT CGAAGGATGG GGATGCATCA GGCCCAAGGG CTACCAATGA CTTGGTTCTG
    CGCCGGGCGC GGCACCAGCA GATGTCAGGG GATGTGGCAG TAGAGAAGAG GCCTTCTCGA
    ACTGGGGGCA AAGTCATCAA ATCAGCCTCA GCCACTGCCT TATCTGTCAT GATTCCTGCA
    GTGGACCCAC ATGGAAGTTC ACCCCTTGCT AGTCCCATGT CTCCACGATC TCTGTCCTCC
    AACCCATCCT CACGGGACTC CTCACCCAGC CGGGACTACT CACCAGCTGT CAGTGGGCTC
    CGCTCCCCCA TCACCATCCA GCGCTCGGGC AAGAAGTATG GCTTCACACT GCGTGCCATC
    CGTGTCTACA TGGGTGACAC GGATGTCTAT AGTGTCCACC ACATTGTCTG GCATGTGGAG
    GAAGGAGGCC CAGCCCAGGA GGCAGGACTC TGTGCTGGGG ACCTCATCAC CCACGTGAAT
    GGGGAGCCTG TGCATGGCAT GGTGCATCCT GAGGTCGTGG AGCTGATCCT TAAGAGTGGC
    AACAAGGTAG CAGTGACCAC AACGCCCTTC GAAAATACCT CTATCCGCAT TGGTCCCGCA
    AGGCGCAGCA GCTACAAGGC TAAAATGGCT CGGAGGAACA AGCGACCCTC CGCCAAGGAG
    GGCCAGGAGA GCAAGAAGCG CAGCTCCCTC TTCCGGAAGA TCACGAAGCA GTCGAACCTG
    CTGCATACTA GCCGCTCGCT GTCGTCGCTG AACCGCTCGC TGTCATCCAG CGATAGTCTC
    CCGGGCTCGC CTACGCACGG GCTGCCGGCG CGCTCGCCCA CGCACAGCTA CCGCTCCACG
    CCTGACTCCG CCTACCTAGG CGCCTCATCC CAGAGCAGCT CCCCAGCCTC GAGCACGCCC
    AACTCGCCTG CGTCGTCGGC GTCGCACCAC ATTCGGCCCA GCACGCTGCA CGGACTGTCG
    CCAAAGCTCC ATCGCCAGTA CCGCTCTGCG CGATGCAAGT CGGCCGGCAA CATCCCTCTA
    TCGCCGCTGG CACACACGCC GTCCCCCACG CAGGCGTCAC CGCCGCCACT GCCGGGCCAC
    ACGGTGGGCA GCTCGCACAC TACTCAGAGC TTCCCGGCCA AACTGCACTC ATCGCCTCCC
    GTCGTGCGCC CGCGCCCCAA GAGTGCCGAG CCCCCTCGCT CGCCGCTCCT CAAGCGCGTG
    CAGTCGGCCG AGAAGCTGGG AGCCTCTTTG AGTGCGGACA AGAAGGGCGC GCTGCGCAAA
    CACAGCCTCG AGGTGGGCCA CCCGGATTTC CGCAAGGACT TCCATGGCGA GCTGGCGCTG
    CATAGCCTTG CCGAGTCCGA CGGTGAGACG CCCCCAGTCG AGGGCCTTGG CGCGCCCCGG
    CAGGTCGCCG TCCGCCGCCT GGGCCGACAG GAGTCACCTT TGAGCCTGGG CGCGGACCCG
    TTGCTGCCCG AGGGTGCCTC CAGGCCACCA GTGTCGAGCA AGGAGAAGGA ATCCCCGGGG
    GGCGCCGAGG CGTGCACCCC ACCCCGCGCG ACGACCCCCG GTGGCCGGAC CCTGGAGCGG
    GACGTCGGCT GCACGCGGCA TCAGAGCGTG CAGACGGAGG ATGGCACTGG CGGGATGGCC
    AGGGCTGTGG CCAAGGCGGC GCTGAGCCCG GTGCAGGAAC ACGAGACAGG CCGGCGCAGC
    AGCTCTGGCG AGGCGGGCAC ACCCCTGGTA CCCATTGTCG TAGAGCCTGC GCGGCCCGGG
    GCTAAGGCTG TGGTGCCTCA GCCTCTGGGC GCGGACTCCA AGGGGTTGCA GGAACCCGCA
    CCCCTGGCGC CTTCCGTGCC CGAGGCCCCC CGGGGCCGGG AGCGCTGGGT GTTGGAGGTG
    GTGGAGGAGC GCACCACGCT GAGCGGTCCT CGCTCCAAGC CCGCCTCCCC AAAGCTCTCC
    CCGGAGCCCC AGACACCCTC CCTAGCCCCA GCGAAGTGCA GTGCACCCAG CAGTGCAGTG
    ACCCCAGTCC CACCCGCATC CCTCTTGGGC TCAGGCACCA AGCCTCAAGT GGGGCTGACC
    TCCCGGTGCC CTGCTGAAGC TGTGCCCCCA GCAGGCCTGA CCAAAAAAGG AGTGTCCAGT
    CCCGCACCCC CGGGACCATA G

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

    CloneID OHu88317
    Clone ID Related Accession (Same CDS sequence) XM_017026501.1
    Accession Version XM_017026501.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3510bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    Product microtubule-associated serine/threonine-protein kinase 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000019.10) 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 :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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
    ATGAAAAAGA TCAACAAGCA GAACTTGATC CTCCGCAACC AGATCCAGCA GGCCTTTGTG 
    GAGCGCGATA TCCTCACCTT CGCCGAGAAC CCGTTTGTGG TCGGCATGTT CTGCTCCTTT
    GAGACTCGGC GCCACCTCTG CATGGTCATG GAATATGTGG AAGGCGGCGA CTGTGCCACC
    CTGCTGAAGA ATATTGGAGC GCTGCCCGTA GAGATGGCCC GCATGTACTT TGCTGAGACG
    GTGCTAGCCC TGGAGTATTT GCACAACTAT GGCATCGTGC ACCGCGACCT CAAGCCTGAC
    AACCTCCTTA TCACCTCCAT GGGTCACATC AAGCTCACAG ATTTCGGCCT CTCCAAGATG
    GGGCTCATGA GCCTCACCAC CAACTTATAT GAAGGCCACA TCGAGAAGGA CGCCCGAGAG
    TTCCTGGACA AACAGGTGTG TGGGACCCCA GAGTACATCG CGCCCGAGGT CATCCTGCGT
    CAAGGCTACG GCAAGCCAGT GGACTGGTGG GCTATGGGGA TCATCCTCTA CGAGTTCCTG
    GTGGGCTGTG TGCCCTTCTT CGGAGACACA CCAGAGGAGC TATTTGGACA GGTCATCAGT
    GATGACATCC TGTGGCCCGA GGGGGATGAG GCCCTACCTA CGGAGGCCCA ACTCCTCATA
    TCCAGCCTCC TGCAGACCAA CCCTCTGGTC AGGCTTGGGG CAGGCGGCGC TTTTGAGGTG
    AAGCAGCACA GTTTCTTTCG AGACCTGGAC TGGACAGGGC TGCTGAGGCA GAAGGCCGAG
    TTCATCCCCC ACCTAGAGTC GGAAGATGAC ACTAGCTACT TTGACACCCG CTCAGACAGG
    TATCACCACG TGAACTCCTA TGACGAGGAT GACACGACGG AGGAGGAGCC CGTGGAAATC
    CGCCAGTTCT CTTCCTGCTC TCCGCGCTTC AGCAAGGTGT ATAGCAGCAT GGAGCAGCTG
    TCGCAGCACG AGCCCAAGAC CCCAGTAGCA GCTGCAGGGA GCAGCAAGCG GGAGCCGAGC
    ACCAAGGGCC CCGAGGAGAA GGTGGCCGGC AAGCGGGAGG GGCTGGGCGG CCTGACCCTG
    CGTGAGAAGA CCTGGAGAGG GGGCTCTCCG GAGATCAAGC GATTCTCCGC GTCCGAGGCC
    AGTTTCCTGG AGGGAGAGGC CAGTCCCCCT TTGGGCGCCC GCCGCCGTTT CTCGGCGCTG
    CTGGAGCCCA GCCGCTTCAG CGCCCCCCAA GAGGACGAGG ATGAGGCCCG GCTGCGCAGG
    CCTCCCCGGC CCAGCTCCGA CCCCGCGGGA TCCCTGGATG CACGGGCCCC CAAAGAGGAG
    ACTCAAGGGG AAGGCACCTC CAGCGCCGGG GACTCCGAGG CCACTGACCG TCCACGCCCA
    GGTGACCTCT GCCCACCCTC GAAGGATGGG GATGCATCAG GCCCAAGGGC TACCAATGAC
    TTGGTTCTGC GCCGGGCGCG GCACCAGCAG ATGTCAGGGG ATGTGGCAGT AGAGAAGAGG
    CCTTCTCGAA CTGGGGGCAA AGTCATCAAA TCAGCCTCAG CCACTGCCTT ATCTGTCATG
    ATTCCTGCAG TGGACCCACA TGGAAGTTCA CCCCTTGCTA GTCCCATGTC TCCACGATCT
    CTGTCCTCCA ACCCATCCTC ACGGGACTCC TCACCCAGCC GGGACTACTC ACCAGCTGTC
    AGTGGGCTCC GCTCCCCCAT CACCATCCAG CGCTCGGGCA AGAAGTATGG CTTCACACTG
    CGTGCCATCC GTGTCTACAT GGGTGACACG GATGTCTATA GTGTCCACCA CATTGTCTGG
    CATGTGGAGG AAGGAGGCCC AGCCCAGGAG GCAGGACTCT GTGCTGGGGA CCTCATCACC
    CACGTGAATG GGGAGCCTGT GCATGGCATG GTGCATCCTG AGGTCGTGGA GCTGATCCTT
    AAGAGTGGCA ACAAGGTAGC AGTGACCACA ACGCCCTTCG AAAATACCTC TATCCGCATT
    GGTCCCGCAA GGCGCAGCAG CTACAAGGCT AAAATGGCTC GGAGGAACAA GCGACCCTCC
    GCCAAGGAGG GCCAGGAGAG CAAGAAGCGC AGCTCCCTCT TCCGGAAGAT CACGAAGCAG
    TCGAACCTGC TGCATACTAG CCGCTCGCTG TCGTCGCTGA ACCGCTCGCT GTCATCCAGC
    GATAGTCTCC CGGGCTCGCC TACGCACGGG CTGCCGGCGC GCTCGCCCAC GCACAGCTAC
    CGCTCCACGC CTGACTCCGC CTACCTAGGC GCCTCATCCC AGAGCAGCTC CCCAGCCTCG
    AGCACGCCCA ACTCGCCTGC GTCGTCGGCG TCGCACCACA TTCGGCCCAG CACGCTGCAC
    GGACTGTCGC CAAAGCTCCA TCGCCAGTAC CGCTCTGCGC GATGCAAGTC GGCCGGCAAC
    ATCCCTCTAT CGCCGCTGGC ACACACGCCG TCCCCCACGC AGGCGTCACC GCCGCCACTG
    CCGGGCCACA CGGTGGGCAG CTCGCACACT ACTCAGAGCT TCCCGGCCAA ACTGCACTCA
    TCGCCTCCCG TCGTGCGCCC GCGCCCCAAG AGTGCCGAGC CCCCTCGCTC GCCGCTCCTC
    AAGCGCGTGC AGTCGGCCGA GAAGCTGGGA GCCTCTTTGA GTGCGGACAA GAAGGGCGCG
    CTGCGCAAAC ACAGCCTCGA GGTGGGCCAC CCGGATTTCC GCAAGGACTT CCATGGCGAG
    CTGGCGCTGC ATAGCCTTGC CGAGTCCGAC GGTGAGACGC CCCCAGTCGA GGGCCTTGGC
    GCGCCCCGGC AGGTCGCCGT CCGCCGCCTG GGCCGACAGG AGTCACCTTT GAGCCTGGGC
    GCGGACCCGT TGCTGCCCGA GGGTGCCTCC AGGCCACCAG TGTCGAGCAA GGAGAAGGAA
    TCCCCGGGGG GCGCCGAGGC GTGCACCCCA CCCCGCGCGA CGACCCCCGG TGGCCGGACC
    CTGGAGCGGG ACGTCGGCTG CACGCGGCAT CAGAGCGTGC AGACGGAGGA TGGCACTGGC
    GGGATGGCCA GGGCTGTGGC CAAGGCGGCG CTGAGCCCGG TGCAGGAACA CGAGACAGGC
    CGGCGCAGCA GCTCTGGCGA GGCGGGCACA CCCCTGGTAC CCATTGTCGT AGAGCCTGCG
    CGGCCCGGGG CTAAGGCTGT GGTGCCTCAG CCTCTGGGCG CGGACTCCAA GGGGTTGCAG
    GAACCCGCAC CCCTGGCGCC TTCCGTGCCC GAGGCCCCCC GGGGCCGGGA GCGCTGGGTG
    TTGGAGGTGG TGGAGGAGCG CACCACGCTG AGCGGTCCTC GCTCCAAGCC CGCCTCCCCA
    AAGCTCTCCC CGGAGCCCCA GACACCCTCC CTAGCCCCAG CGAAGTGCAG TGCACCCAGC
    AGTGCAGTGA CCCCAGTCCC ACCCGCATCC CTCTTGGGCT CAGGCACCAA GCCTCAAGTG
    GGGCTGACCT CCCGGTGCCC TGCTGAAGCT GTGCCCCCAG CAGGCCTGAC CAAAAAAGGA
    GTGTCCAGTC CCGCACCCCC GGGACCATAG

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

    RefSeq XP_016881990.1
    CDS785..4294
    Translation

    Target ORF information:

    RefSeq Version XM_017026501.1
    Organism Homo sapiens(human)
    Definition Homo sapiens microtubule associated serine/threonine kinase 1 (MAST1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017026501.1

    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
    ATGAAAAAGA TCAACAAGCA GAACTTGATC CTCCGCAACC AGATCCAGCA GGCCTTTGTG 
    GAGCGCGATA TCCTCACCTT CGCCGAGAAC CCGTTTGTGG TCGGCATGTT CTGCTCCTTT
    GAGACTCGGC GCCACCTCTG CATGGTCATG GAATATGTGG AAGGCGGCGA CTGTGCCACC
    CTGCTGAAGA ATATTGGAGC GCTGCCCGTA GAGATGGCCC GCATGTACTT TGCTGAGACG
    GTGCTAGCCC TGGAGTATTT GCACAACTAT GGCATCGTGC ACCGCGACCT CAAGCCTGAC
    AACCTCCTTA TCACCTCCAT GGGTCACATC AAGCTCACAG ATTTCGGCCT CTCCAAGATG
    GGGCTCATGA GCCTCACCAC CAACTTATAT GAAGGCCACA TCGAGAAGGA CGCCCGAGAG
    TTCCTGGACA AACAGGTGTG TGGGACCCCA GAGTACATCG CGCCCGAGGT CATCCTGCGT
    CAAGGCTACG GCAAGCCAGT GGACTGGTGG GCTATGGGGA TCATCCTCTA CGAGTTCCTG
    GTGGGCTGTG TGCCCTTCTT CGGAGACACA CCAGAGGAGC TATTTGGACA GGTCATCAGT
    GATGACATCC TGTGGCCCGA GGGGGATGAG GCCCTACCTA CGGAGGCCCA ACTCCTCATA
    TCCAGCCTCC TGCAGACCAA CCCTCTGGTC AGGCTTGGGG CAGGCGGCGC TTTTGAGGTG
    AAGCAGCACA GTTTCTTTCG AGACCTGGAC TGGACAGGGC TGCTGAGGCA GAAGGCCGAG
    TTCATCCCCC ACCTAGAGTC GGAAGATGAC ACTAGCTACT TTGACACCCG CTCAGACAGG
    TATCACCACG TGAACTCCTA TGACGAGGAT GACACGACGG AGGAGGAGCC CGTGGAAATC
    CGCCAGTTCT CTTCCTGCTC TCCGCGCTTC AGCAAGGTGT ATAGCAGCAT GGAGCAGCTG
    TCGCAGCACG AGCCCAAGAC CCCAGTAGCA GCTGCAGGGA GCAGCAAGCG GGAGCCGAGC
    ACCAAGGGCC CCGAGGAGAA GGTGGCCGGC AAGCGGGAGG GGCTGGGCGG CCTGACCCTG
    CGTGAGAAGA CCTGGAGAGG GGGCTCTCCG GAGATCAAGC GATTCTCCGC GTCCGAGGCC
    AGTTTCCTGG AGGGAGAGGC CAGTCCCCCT TTGGGCGCCC GCCGCCGTTT CTCGGCGCTG
    CTGGAGCCCA GCCGCTTCAG CGCCCCCCAA GAGGACGAGG ATGAGGCCCG GCTGCGCAGG
    CCTCCCCGGC CCAGCTCCGA CCCCGCGGGA TCCCTGGATG CACGGGCCCC CAAAGAGGAG
    ACTCAAGGGG AAGGCACCTC CAGCGCCGGG GACTCCGAGG CCACTGACCG TCCACGCCCA
    GGTGACCTCT GCCCACCCTC GAAGGATGGG GATGCATCAG GCCCAAGGGC TACCAATGAC
    TTGGTTCTGC GCCGGGCGCG GCACCAGCAG ATGTCAGGGG ATGTGGCAGT AGAGAAGAGG
    CCTTCTCGAA CTGGGGGCAA AGTCATCAAA TCAGCCTCAG CCACTGCCTT ATCTGTCATG
    ATTCCTGCAG TGGACCCACA TGGAAGTTCA CCCCTTGCTA GTCCCATGTC TCCACGATCT
    CTGTCCTCCA ACCCATCCTC ACGGGACTCC TCACCCAGCC GGGACTACTC ACCAGCTGTC
    AGTGGGCTCC GCTCCCCCAT CACCATCCAG CGCTCGGGCA AGAAGTATGG CTTCACACTG
    CGTGCCATCC GTGTCTACAT GGGTGACACG GATGTCTATA GTGTCCACCA CATTGTCTGG
    CATGTGGAGG AAGGAGGCCC AGCCCAGGAG GCAGGACTCT GTGCTGGGGA CCTCATCACC
    CACGTGAATG GGGAGCCTGT GCATGGCATG GTGCATCCTG AGGTCGTGGA GCTGATCCTT
    AAGAGTGGCA ACAAGGTAGC AGTGACCACA ACGCCCTTCG AAAATACCTC TATCCGCATT
    GGTCCCGCAA GGCGCAGCAG CTACAAGGCT AAAATGGCTC GGAGGAACAA GCGACCCTCC
    GCCAAGGAGG GCCAGGAGAG CAAGAAGCGC AGCTCCCTCT TCCGGAAGAT CACGAAGCAG
    TCGAACCTGC TGCATACTAG CCGCTCGCTG TCGTCGCTGA ACCGCTCGCT GTCATCCAGC
    GATAGTCTCC CGGGCTCGCC TACGCACGGG CTGCCGGCGC GCTCGCCCAC GCACAGCTAC
    CGCTCCACGC CTGACTCCGC CTACCTAGGC GCCTCATCCC AGAGCAGCTC CCCAGCCTCG
    AGCACGCCCA ACTCGCCTGC GTCGTCGGCG TCGCACCACA TTCGGCCCAG CACGCTGCAC
    GGACTGTCGC CAAAGCTCCA TCGCCAGTAC CGCTCTGCGC GATGCAAGTC GGCCGGCAAC
    ATCCCTCTAT CGCCGCTGGC ACACACGCCG TCCCCCACGC AGGCGTCACC GCCGCCACTG
    CCGGGCCACA CGGTGGGCAG CTCGCACACT ACTCAGAGCT TCCCGGCCAA ACTGCACTCA
    TCGCCTCCCG TCGTGCGCCC GCGCCCCAAG AGTGCCGAGC CCCCTCGCTC GCCGCTCCTC
    AAGCGCGTGC AGTCGGCCGA GAAGCTGGGA GCCTCTTTGA GTGCGGACAA GAAGGGCGCG
    CTGCGCAAAC ACAGCCTCGA GGTGGGCCAC CCGGATTTCC GCAAGGACTT CCATGGCGAG
    CTGGCGCTGC ATAGCCTTGC CGAGTCCGAC GGTGAGACGC CCCCAGTCGA GGGCCTTGGC
    GCGCCCCGGC AGGTCGCCGT CCGCCGCCTG GGCCGACAGG AGTCACCTTT GAGCCTGGGC
    GCGGACCCGT TGCTGCCCGA GGGTGCCTCC AGGCCACCAG TGTCGAGCAA GGAGAAGGAA
    TCCCCGGGGG GCGCCGAGGC GTGCACCCCA CCCCGCGCGA CGACCCCCGG TGGCCGGACC
    CTGGAGCGGG ACGTCGGCTG CACGCGGCAT CAGAGCGTGC AGACGGAGGA TGGCACTGGC
    GGGATGGCCA GGGCTGTGGC CAAGGCGGCG CTGAGCCCGG TGCAGGAACA CGAGACAGGC
    CGGCGCAGCA GCTCTGGCGA GGCGGGCACA CCCCTGGTAC CCATTGTCGT AGAGCCTGCG
    CGGCCCGGGG CTAAGGCTGT GGTGCCTCAG CCTCTGGGCG CGGACTCCAA GGGGTTGCAG
    GAACCCGCAC CCCTGGCGCC TTCCGTGCCC GAGGCCCCCC GGGGCCGGGA GCGCTGGGTG
    TTGGAGGTGG TGGAGGAGCG CACCACGCTG AGCGGTCCTC GCTCCAAGCC CGCCTCCCCA
    AAGCTCTCCC CGGAGCCCCA GACACCCTCC CTAGCCCCAG CGAAGTGCAG TGCACCCAGC
    AGTGCAGTGA CCCCAGTCCC ACCCGCATCC CTCTTGGGCT CAGGCACCAA GCCTCAAGTG
    GGGCTGACCT CCCGGTGCCC TGCTGAAGCT GTGCCCCCAG CAGGCCTGAC CAAAAAAGGA
    GTGTCCAGTC CCGCACCCCC GGGACCATAG

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