ORF » Species Summary » Homo sapiens » MAST3 cDNA ORF clone

MAST3 cDNA ORF clone, Homo sapiens(human)

The following MAST3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the MAST3 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
OHu30822 NM_015016.2
Latest version!		 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $923.30
$1319.00
OHu51503 XM_005259823.3
Latest version!		 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X17, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
OHu51505 XM_005259824.2
Latest version!		 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
OHu51506 XM_005259825.2
Latest version!		 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
OHu51507 XM_005259826.3
Latest version!		 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
OHu51508 XM_005259827.3
Latest version!		 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X14, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
OHu51509 XM_017026514.1
Latest version!		 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X15, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
OHu51509 XM_006722698.2
Latest version!		 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X18, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
OHu51509 XM_017026515.1
Latest version!		 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X16, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
OHu51511 XM_006722700.3
Latest version!		 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X19, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
OHu65330 XM_006722699.2
Latest version!		 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
OHu65331 XM_011527823.1
Latest version!		 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
OHu88320 XM_017026506.1
Latest version!		 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
OHu88321 XM_017026507.1
Latest version!		 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
OHu88322 XM_017026508.1
Latest version!		 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
OHu88323 XM_017026509.1
Latest version!		 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
OHu88324 XM_017026510.2
Latest version!		 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
OHu88325 XM_017026511.1
Latest version!		 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
OHu88326 XM_017026512.1
Latest version!		 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
OHu88327 XM_017026513.1
Latest version!		 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
OHu88328 XM_017026516.1
Latest version!		 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X20, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
View Old Accession Versions >>
OHu30822 NM_015016.1 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $923.30
$1319.00
OHu51508 XM_005259827.2 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X14, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
OHu88324 XM_017026510.1 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
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)
    MAST3 ( NM_015016.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_055831.1 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), mRNA.
    Price & Availability↑
    CloneID OHu30822
    Clone ID Related Accession (Same CDS sequence) NM_015016.1 , NM_015016.2
    Accession Version NM_015016.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3930bp)
    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 3
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC020904.7, AB011133.1, BQ340083.1, DA134568.1 and BI907332.1. On or before Jul 1, 2007 this sequence version replaced XM_038150.6, XM_938007.2. ##Evidence-Data-START## Transcript exon combination :: AB011133.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1968540 [ECO:0000348] ##Evidence-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
    ATGGACGAGT CGAGCCTCCT GCGGCGCCGC GGGCTCCAGA AGGAGCTGAG CCTGCCACGC 
    CGAGGACGTG GCTGCCGCAG CGGGAACCGC AAGAGCTTGG TGGTAGGAAC GCCCTCCCCG 
    ACCCTCTCCC GGCCCCTGTC GCCATTGTCG GTCCCAACGG CAGGCAGCAG CCCCTTGGAT 
    AGTCCTCGGA ATTTCTCGGC TGCCTCTGCC CTAAATTTCC CCTTTGCCCG GAGGGCAGAC 
    GGCAGAAGAT GGTCCCTCGC GTCTCTCCCA TCTTCCGGCT ATGGAACCAA CACACCCAGC 
    TCCACCCTCT CGTCAAGCTC ATCCTCCCGG GAACGTCTCC ACCAGCTTCC CTTCCAGCCG 
    ACGCCGGACG AGCTGCACTT CCTGTCCAAG CACTTCCGCA GCTCAGAGAA TGTGCTTGAT 
    GAGGAAGGCG GCCGGTCACC CCGCCTCCGA CCCCGCTCTC GCAGTCTCAG CCCGGGCCGT 
    GCAACGGGGA CCTTCGACAA TGAGATTGTC ATGATGAATC ACGTGTACCG GGAGAGGTTC 
    CCCAAGGCCA CAGCACAGAT GGAGGGCCGT CTGCAGGAGT TCCTGACGGC CTACGCGCCC 
    GGCGCCCGGC TGGCGCTGGC TGATGGCGTC TTGGGCTTCA TCCACCACCA GATCGTCGAG 
    CTGGCCCGAG ACTGCTTGGC CAAGTCTGGC GAGAACCTCG TCACCTCCCG CTACTTCCTA 
    GAGATGCAGG AGAAGCTGGA GCGGCTTCTG CAGGATGCCC ATGAGCGTTC GGACAGTGAG 
    GAGGTCAGCT TCATCGTCCA GCTTGTCCGG AAACTGCTGA TCATCATCTC ACGGCCAGCT 
    CGGCTGCTGG AGTGTCTGGA GTTTGACCCT GAGGAATTTT ACCACCTGCT GGAGGCGGCT 
    GAGGGCCATG CGCGGGAGGG CCAAGGCATT AAGACTGACC TTCCACAGTA CATCATTGGG 
    CAGCTGGGCC TGGCCAAGGA CCCCCTGGAG GAGATGGTGC CACTGAGTCA CCTCGAAGAA 
    GAACAGCCCC CAGCACCTGA GTCCCCAGAG AGCCGCGCCC TGGTCGGCCA GTCACGGAGG 
    AAGCCATGCG AAAGCGACTT TGAGACCATC AAACTCATTA GCAACGGAGC CTATGGGGCC 
    GTCTACCTGG TGCGGCACCG TGACACACGG CAGCGCTTTG CCATCAAGAA GATCAACAAA 
    CAGAACTTGA TCCTGCGTAA CCAGATCCAG CAGGTCTTTG TGGAGCGTGA CATTCTCACC 
    TTTGCCGAGA ACCCCTTTGT GGTCAGCATG TTCTGCTCCT TTGAGACCCG GCGCCACCTA 
    TGTATGGTCA TGGAATACGT GGAAGGCGGC GACTGCGCCA CGCTCCTGAA GAACATGGGC 
    CCGCTGCCCG TGGACATGGC CCGCCTGTAC TTCGCCGAGA CGGTGTTGGC GCTGGAGTAC 
    CTGCATAACT ATGGCATCGT GCACCGTGAC CTCAAACCAG ACAATCTGCT CATCACCTCG 
    CTTGGCCACA TCAAGCTCAC GGACTTCGGC CTGTCCAAGA TCGGCCTCAT GAGCATGGCC 
    ACCAACCTCT ATGAGGGCCA CATCGAGAAG GACGCCCGAG AGTTCATCGA CAAGCAGGTG 
    TGTGGGACGC CGGAGTACAT AGCCCCCGAG GTGATCTTCC GCCAGGGCTA TGGGAAGCCA 
    GTGGACTGGT GGGCCATGGG CGTCGTCCTC TATGAGTTTC TGGTGGGCTG CGTGCCTTTC 
    TTTGGAGATA CCCCCGAGGA ACTCTTCGGT CAGGTGGTCA GCGATGAGAT CATGTGGCCA 
    GAGGGAGATG AGGCCCTTCC AGCAGACGCC CAGGACCTCA TCACCAGGTT GCTCCGGCAG 
    AGCCCGCTGG ACCGTCTGGG CACTGGTGGC ACCCACGAAG TGAAGCAGCA CCCCTTTTTC 
    CTGGCCCTGG ACTGGGCAGG GCTTCTCCGA CACAAAGCCG AGTTCGTGCC CCAGCTCGAA 
    GCTGAGGATG ATACCAGCTA CTTTGACACA CGTTCGGAAC GTTACCGCCA TCTGGGCTCC 
    GAGGACGACG AGACCAATGA TGAAGAATCG TCCACAGAGA TCCCCCAGTT CTCCTCCTGC 
    TCCCACCGGT TCAGCAAGGT CTACAGCAGC TCTGAGTTCC TGGCCGTCCA GCCCACTCCT 
    ACCTTCGCTG AAAGGAGCTT CAGTGAAGAC CGGGAGGAGG GGTGGGAGCG CAGCGAAGTG 
    GACTATGGCC GCCGGCTGAG TGCTGACATC CGGCTGAGGT CCTGGACATC CTCTGGATCC 
    TCCTGTCAGT CATCTTCGTC CCAGCCCGAG CGGGGTCCCA GCCCATCTCT CCTGAATACC 
    ATCAGCCTGG ACACAATGCC CAAGTTTGCC TTCTCATCAG AGGATGAGGG GGTAGGCCCA 
    GGCCCTGCAG GCCCCAAGAG GCCCGTCTTC ATTCTAGGGG AGCCTGACCC CCCACCAGCG 
    GCCACCCCAG TGATGCCCAA GCCCTCGAGC CTTTCTGCCG ACACAGCTGC TCTCAGCCAC 
    GCCCGCCTAC GGAGCAATAG CATCGGCGCC CGACACTCCA CACCAAGGCC TCTGGATGCC 
    GGCCGGGGCC GCCGCCTTGG GGGCCCAAGA GACCCAGCCC CTGAGAAGTC CAGAGCCTCC 
    TCCAGCGGTG GCAGTGGTGG CGGCAGTGGG GGCCGCGTGC CCAAGTCAGC CTCTGTCTCT 
    GCCCTGTCCC TCATCATCAC GGCAGATGAT GGCAGCGGCG GCCCCCTCAT GAGCCCCCTT 
    TCCCCGCGCT CTCTGTCCTC GAACCCGTCG TCCCGTGACT CTTCGCCGAG CCGAGACCCG 
    TCCCCCGTGT GTGGCAGCCT GCGGCCCCCC ATCGTTATCC ACAGCTCTGG CAAGAAGTAC 
    GGCTTCAGCC TGCGGGCGAT CCGCGTCTAC ATGGGTGATA GCGACGTCTA CACTGTGCAC 
    CACGTCGTCT GGAGTGTGGA GGACGGAAGC CCCGCCCAGG AGGCGGGCCT GCGGGCTGGG 
    GACCTCATCA CCCACATCAA CGGGGAGTCA GTGCTGGGGC TGGTGCACAT GGACGTCGTG 
    GAGCTGCTGC TGAAGAGCGG CAACAAGATA TCCCTGCGGA CCACAGCCCT GGAGAACACC 
    TCCATCAAGG TGGGCCCCGC CCGGAAGAAT GTGGCCAAGG GCCGCATGGC ACGCAGGAGC 
    AAGAGGAGCC GTCGGCGGGA GACCCAGGAT CGGCGGAAGT CACTTTTCAA GAAGATCTCC 
    AAGCAGACCT CCGTGCTGCA CACCAGCCGC AGCTTCTCCT CCGGACTCCA CCACTCACTG 
    TCATCCAGTG AGAGCCTCCC CGGCTCGCCC ACCCACAGCC TCTCCCCCAG CCCCACCACT 
    CCCTGCCGAA GCCCAGCCCC TGATGTCCCA GCAGATACCA CTGCATCCCC ACCCAGCGCA 
    TCCCCGAGCT CCAGCAGCCC CGCCTCCCCA GCTGCTGCTG GCCACACCCG CCCCAGCTCC 
    CTGCACGGCC TGGCTGCCAA GCTTGGGCCA CCCCGCCCCA AGACTGGCCG CCGCAAGTCC 
    ACCAGCAGCA TCCCGCCCTC CCCGCTGGCC TGCCCGCCCA TCTCCGCGCC CCCACCCCGC 
    TCGCCCTCGC CCCTGCCCGG GCACCCGCCC GCACCTGCCC GATCCCCGCG GCTGCGCCGG 
    GGCCAGTCAG CTGACAAGCT GGGCACAGGG GAGCGGCTGG ATGGGGAGGC GGGGCGGCGC 
    ACTCGTGGGC CAGAGGCCGA GCTCGTGGTC ATGCGGCGGC TGCACCTGTC CGAGCGCCGA 
    GACTCCTTCA AGAAGCAGGA GGCCGTGCAG GAGGTTAGCT TCGATGAGCC GCAGGAGGAG 
    GCCACTGGGC TGCCCACCTC AGTGCCACAG ATCGCCGTGG AGGGCGAGGA AGCCGTGCCA 
    GTAGCTCTCG GGCCCACCGG AAGAGACTGA

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

    RefSeq NP_055831.1
    CDS1..3930
    Translation

    Target ORF information:

    RefSeq Version NM_015016.1
    Organism Homo sapiens(human)
    Definition Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_015016.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGGACGAGT CGAGCCTCCT GCGGCGCCGC GGGCTCCAGA AGGAGCTGAG CCTGCCACGC 
    CGAGGACGTG GCTGCCGCAG CGGGAACCGC AAGAGCTTGG TGGTAGGAAC GCCCTCCCCG 
    ACCCTCTCCC GGCCCCTGTC GCCATTGTCG GTCCCAACGG CAGGCAGCAG CCCCTTGGAT 
    AGTCCTCGGA ATTTCTCGGC TGCCTCTGCC CTAAATTTCC CCTTTGCCCG GAGGGCAGAC 
    GGCAGAAGAT GGTCCCTCGC GTCTCTCCCA TCTTCCGGCT ATGGAACCAA CACACCCAGC 
    TCCACCCTCT CGTCAAGCTC ATCCTCCCGG GAACGTCTCC ACCAGCTTCC CTTCCAGCCG 
    ACGCCGGACG AGCTGCACTT CCTGTCCAAG CACTTCCGCA GCTCAGAGAA TGTGCTTGAT 
    GAGGAAGGCG GCCGGTCACC CCGCCTCCGA CCCCGCTCTC GCAGTCTCAG CCCGGGCCGT 
    GCAACGGGGA CCTTCGACAA TGAGATTGTC ATGATGAATC ACGTGTACCG GGAGAGGTTC 
    CCCAAGGCCA CAGCACAGAT GGAGGGCCGT CTGCAGGAGT TCCTGACGGC CTACGCGCCC 
    GGCGCCCGGC TGGCGCTGGC TGATGGCGTC TTGGGCTTCA TCCACCACCA GATCGTCGAG 
    CTGGCCCGAG ACTGCTTGGC CAAGTCTGGC GAGAACCTCG TCACCTCCCG CTACTTCCTA 
    GAGATGCAGG AGAAGCTGGA GCGGCTTCTG CAGGATGCCC ATGAGCGTTC GGACAGTGAG 
    GAGGTCAGCT TCATCGTCCA GCTTGTCCGG AAACTGCTGA TCATCATCTC ACGGCCAGCT 
    CGGCTGCTGG AGTGTCTGGA GTTTGACCCT GAGGAATTTT ACCACCTGCT GGAGGCGGCT 
    GAGGGCCATG CGCGGGAGGG CCAAGGCATT AAGACTGACC TTCCACAGTA CATCATTGGG 
    CAGCTGGGCC TGGCCAAGGA CCCCCTGGAG GAGATGGTGC CACTGAGTCA CCTCGAAGAA 
    GAACAGCCCC CAGCACCTGA GTCCCCAGAG AGCCGCGCCC TGGTCGGCCA GTCACGGAGG 
    AAGCCATGCG AAAGCGACTT TGAGACCATC AAACTCATTA GCAACGGAGC CTATGGGGCC 
    GTCTACCTGG TGCGGCACCG TGACACACGG CAGCGCTTTG CCATCAAGAA GATCAACAAA 
    CAGAACTTGA TCCTGCGTAA CCAGATCCAG CAGGTCTTTG TGGAGCGTGA CATTCTCACC 
    TTTGCCGAGA ACCCCTTTGT GGTCAGCATG TTCTGCTCCT TTGAGACCCG GCGCCACCTA 
    TGTATGGTCA TGGAATACGT GGAAGGCGGC GACTGCGCCA CGCTCCTGAA GAACATGGGC 
    CCGCTGCCCG TGGACATGGC CCGCCTGTAC TTCGCCGAGA CGGTGTTGGC GCTGGAGTAC 
    CTGCATAACT ATGGCATCGT GCACCGTGAC CTCAAACCAG ACAATCTGCT CATCACCTCG 
    CTTGGCCACA TCAAGCTCAC GGACTTCGGC CTGTCCAAGA TCGGCCTCAT GAGCATGGCC 
    ACCAACCTCT ATGAGGGCCA CATCGAGAAG GACGCCCGAG AGTTCATCGA CAAGCAGGTG 
    TGTGGGACGC CGGAGTACAT AGCCCCCGAG GTGATCTTCC GCCAGGGCTA TGGGAAGCCA 
    GTGGACTGGT GGGCCATGGG CGTCGTCCTC TATGAGTTTC TGGTGGGCTG CGTGCCTTTC 
    TTTGGAGATA CCCCCGAGGA ACTCTTCGGT CAGGTGGTCA GCGATGAGAT CATGTGGCCA 
    GAGGGAGATG AGGCCCTTCC AGCAGACGCC CAGGACCTCA TCACCAGGTT GCTCCGGCAG 
    AGCCCGCTGG ACCGTCTGGG CACTGGTGGC ACCCACGAAG TGAAGCAGCA CCCCTTTTTC 
    CTGGCCCTGG ACTGGGCAGG GCTTCTCCGA CACAAAGCCG AGTTCGTGCC CCAGCTCGAA 
    GCTGAGGATG ATACCAGCTA CTTTGACACA CGTTCGGAAC GTTACCGCCA TCTGGGCTCC 
    GAGGACGACG AGACCAATGA TGAAGAATCG TCCACAGAGA TCCCCCAGTT CTCCTCCTGC 
    TCCCACCGGT TCAGCAAGGT CTACAGCAGC TCTGAGTTCC TGGCCGTCCA GCCCACTCCT 
    ACCTTCGCTG AAAGGAGCTT CAGTGAAGAC CGGGAGGAGG GGTGGGAGCG CAGCGAAGTG 
    GACTATGGCC GCCGGCTGAG TGCTGACATC CGGCTGAGGT CCTGGACATC CTCTGGATCC 
    TCCTGTCAGT CATCTTCGTC CCAGCCCGAG CGGGGTCCCA GCCCATCTCT CCTGAATACC 
    ATCAGCCTGG ACACAATGCC CAAGTTTGCC TTCTCATCAG AGGATGAGGG GGTAGGCCCA 
    GGCCCTGCAG GCCCCAAGAG GCCCGTCTTC ATTCTAGGGG AGCCTGACCC CCCACCAGCG 
    GCCACCCCAG TGATGCCCAA GCCCTCGAGC CTTTCTGCCG ACACAGCTGC TCTCAGCCAC 
    GCCCGCCTAC GGAGCAATAG CATCGGCGCC CGACACTCCA CACCAAGGCC TCTGGATGCC 
    GGCCGGGGCC GCCGCCTTGG GGGCCCAAGA GACCCAGCCC CTGAGAAGTC CAGAGCCTCC 
    TCCAGCGGTG GCAGTGGTGG CGGCAGTGGG GGCCGCGTGC CCAAGTCAGC CTCTGTCTCT 
    GCCCTGTCCC TCATCATCAC GGCAGATGAT GGCAGCGGCG GCCCCCTCAT GAGCCCCCTT 
    TCCCCGCGCT CTCTGTCCTC GAACCCGTCG TCCCGTGACT CTTCGCCGAG CCGAGACCCG 
    TCCCCCGTGT GTGGCAGCCT GCGGCCCCCC ATCGTTATCC ACAGCTCTGG CAAGAAGTAC 
    GGCTTCAGCC TGCGGGCGAT CCGCGTCTAC ATGGGTGATA GCGACGTCTA CACTGTGCAC 
    CACGTCGTCT GGAGTGTGGA GGACGGAAGC CCCGCCCAGG AGGCGGGCCT GCGGGCTGGG 
    GACCTCATCA CCCACATCAA CGGGGAGTCA GTGCTGGGGC TGGTGCACAT GGACGTCGTG 
    GAGCTGCTGC TGAAGAGCGG CAACAAGATA TCCCTGCGGA CCACAGCCCT GGAGAACACC 
    TCCATCAAGG TGGGCCCCGC CCGGAAGAAT GTGGCCAAGG GCCGCATGGC ACGCAGGAGC 
    AAGAGGAGCC GTCGGCGGGA GACCCAGGAT CGGCGGAAGT CACTTTTCAA GAAGATCTCC 
    AAGCAGACCT CCGTGCTGCA CACCAGCCGC AGCTTCTCCT CCGGACTCCA CCACTCACTG 
    TCATCCAGTG AGAGCCTCCC CGGCTCGCCC ACCCACAGCC TCTCCCCCAG CCCCACCACT 
    CCCTGCCGAA GCCCAGCCCC TGATGTCCCA GCAGATACCA CTGCATCCCC ACCCAGCGCA 
    TCCCCGAGCT CCAGCAGCCC CGCCTCCCCA GCTGCTGCTG GCCACACCCG CCCCAGCTCC 
    CTGCACGGCC TGGCTGCCAA GCTTGGGCCA CCCCGCCCCA AGACTGGCCG CCGCAAGTCC 
    ACCAGCAGCA TCCCGCCCTC CCCGCTGGCC TGCCCGCCCA TCTCCGCGCC CCCACCCCGC 
    TCGCCCTCGC CCCTGCCCGG GCACCCGCCC GCACCTGCCC GATCCCCGCG GCTGCGCCGG 
    GGCCAGTCAG CTGACAAGCT GGGCACAGGG GAGCGGCTGG ATGGGGAGGC GGGGCGGCGC 
    ACTCGTGGGC CAGAGGCCGA GCTCGTGGTC ATGCGGCGGC TGCACCTGTC CGAGCGCCGA 
    GACTCCTTCA AGAAGCAGGA GGCCGTGCAG GAGGTTAGCT TCGATGAGCC GCAGGAGGAG 
    GCCACTGGGC TGCCCACCTC AGTGCCACAG ATCGCCGTGG AGGGCGAGGA AGCCGTGCCA 
    GTAGCTCTCG GGCCCACCGG AAGAGACTGA

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

    MAST3 ( NM_015016.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_055831.1 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), mRNA.
    Price & Availability↑
    CloneID OHu30822
    Clone ID Related Accession (Same CDS sequence) NM_015016.1 , NM_015016.2
    Accession Version NM_015016.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3930bp)
    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 2019-05-01
    Organism Homo sapiens(human)
    Product microtubule-associated serine/threonine-protein kinase 3
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC020904.7, AB011133.1, BQ340083.1, DA134568.1 and BI907332.1. On Dec 19, 2018 this sequence version replaced NM_015016.1. ##Evidence-Data-START## Transcript exon combination :: AB011133.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1968540 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## RefSeq Select criteria :: based on conservation ##RefSeq-Attributes-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
    ATGGACGAGT CGAGCCTCCT GCGGCGCCGC GGGCTCCAGA AGGAGCTGAG CCTGCCACGC 
    CGAGGACGTG GCTGCCGCAG CGGGAACCGC AAGAGCTTGG TGGTAGGAAC GCCCTCCCCG 
    ACCCTCTCCC GGCCCCTGTC GCCATTGTCG GTCCCAACGG CAGGCAGCAG CCCCTTGGAT 
    AGTCCTCGGA ATTTCTCGGC TGCCTCTGCC CTAAATTTCC CCTTTGCCCG GAGGGCAGAC 
    GGCAGAAGAT GGTCCCTCGC GTCTCTCCCA TCTTCCGGCT ATGGAACCAA CACACCCAGC 
    TCCACCCTCT CGTCAAGCTC ATCCTCCCGG GAACGTCTCC ACCAGCTTCC CTTCCAGCCG 
    ACGCCGGACG AGCTGCACTT CCTGTCCAAG CACTTCCGCA GCTCAGAGAA TGTGCTTGAT 
    GAGGAAGGCG GCCGGTCACC CCGCCTCCGA CCCCGCTCTC GCAGTCTCAG CCCGGGCCGT 
    GCAACGGGGA CCTTCGACAA TGAGATTGTC ATGATGAATC ACGTGTACCG GGAGAGGTTC 
    CCCAAGGCCA CAGCACAGAT GGAGGGCCGT CTGCAGGAGT TCCTGACGGC CTACGCGCCC 
    GGCGCCCGGC TGGCGCTGGC TGATGGCGTC TTGGGCTTCA TCCACCACCA GATCGTCGAG 
    CTGGCCCGAG ACTGCTTGGC CAAGTCTGGC GAGAACCTCG TCACCTCCCG CTACTTCCTA 
    GAGATGCAGG AGAAGCTGGA GCGGCTTCTG CAGGATGCCC ATGAGCGTTC GGACAGTGAG 
    GAGGTCAGCT TCATCGTCCA GCTTGTCCGG AAACTGCTGA TCATCATCTC ACGGCCAGCT 
    CGGCTGCTGG AGTGTCTGGA GTTTGACCCT GAGGAATTTT ACCACCTGCT GGAGGCGGCT 
    GAGGGCCATG CGCGGGAGGG CCAAGGCATT AAGACTGACC TTCCACAGTA CATCATTGGG 
    CAGCTGGGCC TGGCCAAGGA CCCCCTGGAG GAGATGGTGC CACTGAGTCA CCTCGAAGAA 
    GAACAGCCCC CAGCACCTGA GTCCCCAGAG AGCCGCGCCC TGGTCGGCCA GTCACGGAGG 
    AAGCCATGCG AAAGCGACTT TGAGACCATC AAACTCATTA GCAACGGAGC CTATGGGGCC 
    GTCTACCTGG TGCGGCACCG TGACACACGG CAGCGCTTTG CCATCAAGAA GATCAACAAA 
    CAGAACTTGA TCCTGCGTAA CCAGATCCAG CAGGTCTTTG TGGAGCGTGA CATTCTCACC 
    TTTGCCGAGA ACCCCTTTGT GGTCAGCATG TTCTGCTCCT TTGAGACCCG GCGCCACCTA 
    TGTATGGTCA TGGAATACGT GGAAGGCGGC GACTGCGCCA CGCTCCTGAA GAACATGGGC 
    CCGCTGCCCG TGGACATGGC CCGCCTGTAC TTCGCCGAGA CGGTGTTGGC GCTGGAGTAC 
    CTGCATAACT ATGGCATCGT GCACCGTGAC CTCAAACCAG ACAATCTGCT CATCACCTCG 
    CTTGGCCACA TCAAGCTCAC GGACTTCGGC CTGTCCAAGA TCGGCCTCAT GAGCATGGCC 
    ACCAACCTCT ATGAGGGCCA CATCGAGAAG GACGCCCGAG AGTTCATCGA CAAGCAGGTG 
    TGTGGGACGC CGGAGTACAT AGCCCCCGAG GTGATCTTCC GCCAGGGCTA TGGGAAGCCA 
    GTGGACTGGT GGGCCATGGG CGTCGTCCTC TATGAGTTTC TGGTGGGCTG CGTGCCTTTC 
    TTTGGAGATA CCCCCGAGGA ACTCTTCGGT CAGGTGGTCA GCGATGAGAT CATGTGGCCA 
    GAGGGAGATG AGGCCCTTCC AGCAGACGCC CAGGACCTCA TCACCAGGTT GCTCCGGCAG 
    AGCCCGCTGG ACCGTCTGGG CACTGGTGGC ACCCACGAAG TGAAGCAGCA CCCCTTTTTC 
    CTGGCCCTGG ACTGGGCAGG GCTTCTCCGA CACAAAGCCG AGTTCGTGCC CCAGCTCGAA 
    GCTGAGGATG ATACCAGCTA CTTTGACACA CGTTCGGAAC GTTACCGCCA TCTGGGCTCC 
    GAGGACGACG AGACCAATGA TGAAGAATCG TCCACAGAGA TCCCCCAGTT CTCCTCCTGC 
    TCCCACCGGT TCAGCAAGGT CTACAGCAGC TCTGAGTTCC TGGCCGTCCA GCCCACTCCT 
    ACCTTCGCTG AAAGGAGCTT CAGTGAAGAC CGGGAGGAGG GGTGGGAGCG CAGCGAAGTG 
    GACTATGGCC GCCGGCTGAG TGCTGACATC CGGCTGAGGT CCTGGACATC CTCTGGATCC 
    TCCTGTCAGT CATCTTCGTC CCAGCCCGAG CGGGGTCCCA GCCCATCTCT CCTGAATACC 
    ATCAGCCTGG ACACAATGCC CAAGTTTGCC TTCTCATCAG AGGATGAGGG GGTAGGCCCA 
    GGCCCTGCAG GCCCCAAGAG GCCCGTCTTC ATTCTAGGGG AGCCTGACCC CCCACCAGCG 
    GCCACCCCAG TGATGCCCAA GCCCTCGAGC CTTTCTGCCG ACACAGCTGC TCTCAGCCAC 
    GCCCGCCTAC GGAGCAATAG CATCGGCGCC CGACACTCCA CACCAAGGCC TCTGGATGCC 
    GGCCGGGGCC GCCGCCTTGG GGGCCCAAGA GACCCAGCCC CTGAGAAGTC CAGAGCCTCC 
    TCCAGCGGTG GCAGTGGTGG CGGCAGTGGG GGCCGCGTGC CCAAGTCAGC CTCTGTCTCT 
    GCCCTGTCCC TCATCATCAC GGCAGATGAT GGCAGCGGCG GCCCCCTCAT GAGCCCCCTT 
    TCCCCGCGCT CTCTGTCCTC GAACCCGTCG TCCCGTGACT CTTCGCCGAG CCGAGACCCG 
    TCCCCCGTGT GTGGCAGCCT GCGGCCCCCC ATCGTTATCC ACAGCTCTGG CAAGAAGTAC 
    GGCTTCAGCC TGCGGGCGAT CCGCGTCTAC ATGGGTGATA GCGACGTCTA CACTGTGCAC 
    CACGTCGTCT GGAGTGTGGA GGACGGAAGC CCCGCCCAGG AGGCGGGCCT GCGGGCTGGG 
    GACCTCATCA CCCACATCAA CGGGGAGTCA GTGCTGGGGC TGGTGCACAT GGACGTCGTG 
    GAGCTGCTGC TGAAGAGCGG CAACAAGATA TCCCTGCGGA CCACAGCCCT GGAGAACACC 
    TCCATCAAGG TGGGCCCCGC CCGGAAGAAT GTGGCCAAGG GCCGCATGGC ACGCAGGAGC 
    AAGAGGAGCC GTCGGCGGGA GACCCAGGAT CGGCGGAAGT CACTTTTCAA GAAGATCTCC 
    AAGCAGACCT CCGTGCTGCA CACCAGCCGC AGCTTCTCCT CCGGACTCCA CCACTCACTG 
    TCATCCAGTG AGAGCCTCCC CGGCTCGCCC ACCCACAGCC TCTCCCCCAG CCCCACCACT 
    CCCTGCCGAA GCCCAGCCCC TGATGTCCCA GCAGATACCA CTGCATCCCC ACCCAGCGCA 
    TCCCCGAGCT CCAGCAGCCC CGCCTCCCCA GCTGCTGCTG GCCACACCCG CCCCAGCTCC 
    CTGCACGGCC TGGCTGCCAA GCTTGGGCCA CCCCGCCCCA AGACTGGCCG CCGCAAGTCC 
    ACCAGCAGCA TCCCGCCCTC CCCGCTGGCC TGCCCGCCCA TCTCCGCGCC CCCACCCCGC 
    TCGCCCTCGC CCCTGCCCGG GCACCCGCCC GCACCTGCCC GATCCCCGCG GCTGCGCCGG 
    GGCCAGTCAG CTGACAAGCT GGGCACAGGG GAGCGGCTGG ATGGGGAGGC GGGGCGGCGC 
    ACTCGTGGGC CAGAGGCCGA GCTCGTGGTC ATGCGGCGGC TGCACCTGTC CGAGCGCCGA 
    GACTCCTTCA AGAAGCAGGA GGCCGTGCAG GAGGTTAGCT TCGATGAGCC GCAGGAGGAG 
    GCCACTGGGC TGCCCACCTC AGTGCCACAG ATCGCCGTGG AGGGCGAGGA AGCCGTGCCA 
    GTAGCTCTCG GGCCCACCGG AAGAGACTGA

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

    RefSeq NP_055831.1
    CDS16..3945
    Translation

    Target ORF information:

    RefSeq Version NM_015016.2
    Organism Homo sapiens(human)
    Definition Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_015016.2

    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
    ATGGACGAGT CGAGCCTCCT GCGGCGCCGC GGGCTCCAGA AGGAGCTGAG CCTGCCACGC 
    CGAGGACGTG GCTGCCGCAG CGGGAACCGC AAGAGCTTGG TGGTAGGAAC GCCCTCCCCG 
    ACCCTCTCCC GGCCCCTGTC GCCATTGTCG GTCCCAACGG CAGGCAGCAG CCCCTTGGAT 
    AGTCCTCGGA ATTTCTCGGC TGCCTCTGCC CTAAATTTCC CCTTTGCCCG GAGGGCAGAC 
    GGCAGAAGAT GGTCCCTCGC GTCTCTCCCA TCTTCCGGCT ATGGAACCAA CACACCCAGC 
    TCCACCCTCT CGTCAAGCTC ATCCTCCCGG GAACGTCTCC ACCAGCTTCC CTTCCAGCCG 
    ACGCCGGACG AGCTGCACTT CCTGTCCAAG CACTTCCGCA GCTCAGAGAA TGTGCTTGAT 
    GAGGAAGGCG GCCGGTCACC CCGCCTCCGA CCCCGCTCTC GCAGTCTCAG CCCGGGCCGT 
    GCAACGGGGA CCTTCGACAA TGAGATTGTC ATGATGAATC ACGTGTACCG GGAGAGGTTC 
    CCCAAGGCCA CAGCACAGAT GGAGGGCCGT CTGCAGGAGT TCCTGACGGC CTACGCGCCC 
    GGCGCCCGGC TGGCGCTGGC TGATGGCGTC TTGGGCTTCA TCCACCACCA GATCGTCGAG 
    CTGGCCCGAG ACTGCTTGGC CAAGTCTGGC GAGAACCTCG TCACCTCCCG CTACTTCCTA 
    GAGATGCAGG AGAAGCTGGA GCGGCTTCTG CAGGATGCCC ATGAGCGTTC GGACAGTGAG 
    GAGGTCAGCT TCATCGTCCA GCTTGTCCGG AAACTGCTGA TCATCATCTC ACGGCCAGCT 
    CGGCTGCTGG AGTGTCTGGA GTTTGACCCT GAGGAATTTT ACCACCTGCT GGAGGCGGCT 
    GAGGGCCATG CGCGGGAGGG CCAAGGCATT AAGACTGACC TTCCACAGTA CATCATTGGG 
    CAGCTGGGCC TGGCCAAGGA CCCCCTGGAG GAGATGGTGC CACTGAGTCA CCTCGAAGAA 
    GAACAGCCCC CAGCACCTGA GTCCCCAGAG AGCCGCGCCC TGGTCGGCCA GTCACGGAGG 
    AAGCCATGCG AAAGCGACTT TGAGACCATC AAACTCATTA GCAACGGAGC CTATGGGGCC 
    GTCTACCTGG TGCGGCACCG TGACACACGG CAGCGCTTTG CCATCAAGAA GATCAACAAA 
    CAGAACTTGA TCCTGCGTAA CCAGATCCAG CAGGTCTTTG TGGAGCGTGA CATTCTCACC 
    TTTGCCGAGA ACCCCTTTGT GGTCAGCATG TTCTGCTCCT TTGAGACCCG GCGCCACCTA 
    TGTATGGTCA TGGAATACGT GGAAGGCGGC GACTGCGCCA CGCTCCTGAA GAACATGGGC 
    CCGCTGCCCG TGGACATGGC CCGCCTGTAC TTCGCCGAGA CGGTGTTGGC GCTGGAGTAC 
    CTGCATAACT ATGGCATCGT GCACCGTGAC CTCAAACCAG ACAATCTGCT CATCACCTCG 
    CTTGGCCACA TCAAGCTCAC GGACTTCGGC CTGTCCAAGA TCGGCCTCAT GAGCATGGCC 
    ACCAACCTCT ATGAGGGCCA CATCGAGAAG GACGCCCGAG AGTTCATCGA CAAGCAGGTG 
    TGTGGGACGC CGGAGTACAT AGCCCCCGAG GTGATCTTCC GCCAGGGCTA TGGGAAGCCA 
    GTGGACTGGT GGGCCATGGG CGTCGTCCTC TATGAGTTTC TGGTGGGCTG CGTGCCTTTC 
    TTTGGAGATA CCCCCGAGGA ACTCTTCGGT CAGGTGGTCA GCGATGAGAT CATGTGGCCA 
    GAGGGAGATG AGGCCCTTCC AGCAGACGCC CAGGACCTCA TCACCAGGTT GCTCCGGCAG 
    AGCCCGCTGG ACCGTCTGGG CACTGGTGGC ACCCACGAAG TGAAGCAGCA CCCCTTTTTC 
    CTGGCCCTGG ACTGGGCAGG GCTTCTCCGA CACAAAGCCG AGTTCGTGCC CCAGCTCGAA 
    GCTGAGGATG ATACCAGCTA CTTTGACACA CGTTCGGAAC GTTACCGCCA TCTGGGCTCC 
    GAGGACGACG AGACCAATGA TGAAGAATCG TCCACAGAGA TCCCCCAGTT CTCCTCCTGC 
    TCCCACCGGT TCAGCAAGGT CTACAGCAGC TCTGAGTTCC TGGCCGTCCA GCCCACTCCT 
    ACCTTCGCTG AAAGGAGCTT CAGTGAAGAC CGGGAGGAGG GGTGGGAGCG CAGCGAAGTG 
    GACTATGGCC GCCGGCTGAG TGCTGACATC CGGCTGAGGT CCTGGACATC CTCTGGATCC 
    TCCTGTCAGT CATCTTCGTC CCAGCCCGAG CGGGGTCCCA GCCCATCTCT CCTGAATACC 
    ATCAGCCTGG ACACAATGCC CAAGTTTGCC TTCTCATCAG AGGATGAGGG GGTAGGCCCA 
    GGCCCTGCAG GCCCCAAGAG GCCCGTCTTC ATTCTAGGGG AGCCTGACCC CCCACCAGCG 
    GCCACCCCAG TGATGCCCAA GCCCTCGAGC CTTTCTGCCG ACACAGCTGC TCTCAGCCAC 
    GCCCGCCTAC GGAGCAATAG CATCGGCGCC CGACACTCCA CACCAAGGCC TCTGGATGCC 
    GGCCGGGGCC GCCGCCTTGG GGGCCCAAGA GACCCAGCCC CTGAGAAGTC CAGAGCCTCC 
    TCCAGCGGTG GCAGTGGTGG CGGCAGTGGG GGCCGCGTGC CCAAGTCAGC CTCTGTCTCT 
    GCCCTGTCCC TCATCATCAC GGCAGATGAT GGCAGCGGCG GCCCCCTCAT GAGCCCCCTT 
    TCCCCGCGCT CTCTGTCCTC GAACCCGTCG TCCCGTGACT CTTCGCCGAG CCGAGACCCG 
    TCCCCCGTGT GTGGCAGCCT GCGGCCCCCC ATCGTTATCC ACAGCTCTGG CAAGAAGTAC 
    GGCTTCAGCC TGCGGGCGAT CCGCGTCTAC ATGGGTGATA GCGACGTCTA CACTGTGCAC 
    CACGTCGTCT GGAGTGTGGA GGACGGAAGC CCCGCCCAGG AGGCGGGCCT GCGGGCTGGG 
    GACCTCATCA CCCACATCAA CGGGGAGTCA GTGCTGGGGC TGGTGCACAT GGACGTCGTG 
    GAGCTGCTGC TGAAGAGCGG CAACAAGATA TCCCTGCGGA CCACAGCCCT GGAGAACACC 
    TCCATCAAGG TGGGCCCCGC CCGGAAGAAT GTGGCCAAGG GCCGCATGGC ACGCAGGAGC 
    AAGAGGAGCC GTCGGCGGGA GACCCAGGAT CGGCGGAAGT CACTTTTCAA GAAGATCTCC 
    AAGCAGACCT CCGTGCTGCA CACCAGCCGC AGCTTCTCCT CCGGACTCCA CCACTCACTG 
    TCATCCAGTG AGAGCCTCCC CGGCTCGCCC ACCCACAGCC TCTCCCCCAG CCCCACCACT 
    CCCTGCCGAA GCCCAGCCCC TGATGTCCCA GCAGATACCA CTGCATCCCC ACCCAGCGCA 
    TCCCCGAGCT CCAGCAGCCC CGCCTCCCCA GCTGCTGCTG GCCACACCCG CCCCAGCTCC 
    CTGCACGGCC TGGCTGCCAA GCTTGGGCCA CCCCGCCCCA AGACTGGCCG CCGCAAGTCC 
    ACCAGCAGCA TCCCGCCCTC CCCGCTGGCC TGCCCGCCCA TCTCCGCGCC CCCACCCCGC 
    TCGCCCTCGC CCCTGCCCGG GCACCCGCCC GCACCTGCCC GATCCCCGCG GCTGCGCCGG 
    GGCCAGTCAG CTGACAAGCT GGGCACAGGG GAGCGGCTGG ATGGGGAGGC GGGGCGGCGC 
    ACTCGTGGGC CAGAGGCCGA GCTCGTGGTC ATGCGGCGGC TGCACCTGTC CGAGCGCCGA 
    GACTCCTTCA AGAAGCAGGA GGCCGTGCAG GAGGTTAGCT TCGATGAGCC GCAGGAGGAG 
    GCCACTGGGC TGCCCACCTC AGTGCCACAG ATCGCCGTGG AGGGCGAGGA AGCCGTGCCA 
    GTAGCTCTCG GGCCCACCGG AAGAGACTGA

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

    MAST3 ( XM_005259823.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_005259880.1 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X17, mRNA.
    Price & Availability↑
    CloneID OHu51503
    Clone ID Related Accession (Same CDS sequence) XM_005259823.3
    Accession Version XM_005259823.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3996bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product microtubule-associated serine/threonine-protein kinase 3 isoform X16
    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 EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_005259823.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGTCCGACC CCAGCTACTG GACGGCGGTG GCGGCTCCCG GCCATCGGAG CCGCCTGGCA 
    AAAGGCGCGC TGCTGCAGCG CTCCAAGAGC TGCCGCAGCG GGAACCGCAA GAGCTTGGTG 
    GTAGGAACGC CCTCCCCGAC CCTCTCCCGG CCCCTGTCGC CATTGTCGGT CCCAACGGCA 
    GGCAGCAGCC CCTTGGATAG TCCTCGGAAT TTCTCGGCTG CCTCTGCCCT AAATTTCCCC 
    TTTGCCCGGA GCCACATCCC ACGCATGGAC AGGGCAGACG GCAGAAGATG GTCCCTCGCG 
    TCTCTCCCAT CTTCCGGCTA TGGAACCAAC ACACCCAGCT CCACCCTCTC GTCAAGCTCA 
    TCCTCCCGGG AACGTCTCCA CCAGCTTCCC TTCCAGCCGA CGCCGGACGA GCTGCACTTC 
    CTGTCCAAGC ACTTCCGCAG CTCAGAGAAT GTGCTTGATG AGGAAGGCGG CCGGTCACCC 
    CGCCTCCGAC CCCGCTCTCG CAGTCTCAGC CCGGGCCGTG CAACGGGGAC CTTCGACAAT 
    GAGATTGTCA TGATGAATCA CGTGTACCGG GAGAGGTTCC CCAAGGCCAC AGCACAGATG 
    GAGGGCCGTC TGCAGGAGTT CCTGACGGCC TACGCGCCCG GCGCCCGGCT GGCGCTGGCT 
    GATGGCGTCT TGGGCTTCAT CCACCACCAG ATCGTCGAGC TGGCCCGAGA CTGCTTGGCC 
    AAGTCTGGCG AGAACCTCGT CACCTCCCGC TACTTCCTAG AGATGCAGGA GAAGCTGGAG 
    CGGCTTCTGC AGGATGCCCA TGAGCGTTCG GACAGTGAGG AGGTCAGCTT CATCGTCCAG 
    CTTGTCCGGA AACTGCTGAT CATCATCTCA CGGCCAGCTC GGCTGCTGGA GTGTCTGGAG 
    TTTGACCCTG AGGAATTTTA CCACCTGCTG GAGGCGGCTG AGGGCCATGC GCGGGAGGGC 
    CAAGGCATTA AGACTGACCT TCCACAGTAC ATCATTGGGC AGCTGGGCCT GGCCAAGGAC 
    CCCCTGGAGG AGATGGTGCC ACTGAGTCAC CTCGAAGAAG AACAGCCCCC AGCACCTGAG 
    TCCCCAGAGA GCCGCGCCCT GGTCGGCCAG TCACGGAGGA AGCCATGCGA AAGCGACTTT 
    GAGACCATCA AACTCATTAG CAACGGAGCC TATGGGGCCG TCTACCTGGT GCGGCACCGT 
    GACACACGGC AGCGCTTTGC CATCAAGAAG ATCAACAAAC AGAACTTGAT CCTGCGTAAC 
    CAGATCCAGC AGGTCTTTGT GGAGCGTGAC ATTCTCACCT TTGCCGAGAA CCCCTTTGTG 
    GTCAGCATGT TCTGCTCCTT TGAGACCCGG CGCCACCTAT GTATGGTCAT GGAATACGTG 
    GAAGGCGGCG ACTGCGCCAC GCTCCTGAAG AACATGGGCC CGCTGCCCGT GGACATGGCC 
    CGCCTGTACT TCGCCGAGAC GGTGTTGGCG CTGGAGTACC TGCATAACTA TGGCATCGTG 
    CACCGTGACC TCAAACCAGA CAATCTGCTC ATCACCTCGC TTGGCCACAT CAAGCTCACG 
    GACTTCGGCC TGTCCAAGAT CGGCCTCATG AGCATGGCCA CCAACCTCTA TGAGGGCCAC 
    ATCGAGAAGG ACGCCCGAGA GTTCATCGAC AAGCAGGTGT GTGGGACGCC GGAGTACATA 
    GCCCCCGAGG TGATCTTCCG CCAGGGCTAT GGGAAGCCAG TGGACTGGTG GGCCATGGGC 
    GTCGTCCTCT ATGAGTTTCT GGTGGGCTGC GTGCCTTTCT TTGGAGATAC CCCCGAGGAA 
    CTCTTCGGTC AGGTGGTCAG CGATGAGATC ATGTGGCCAG AGGGAGATGA GGCCCTTCCA 
    GCAGACGCCC AGGACCTCAT CACCAGGTTG CTCCGGCAGA GCCCGCTGGA CCGTCTGGGC 
    ACTGGTGGCA CCCACGAAGT GAAGCAGCAC CCCTTTTTCC TGGCCCTGGA CTGGGCAGGG 
    CTTCTCCGAC ACAAAGCCGA GTTCGTGCCC CAGCTCGAAG CTGAGGATGA TACCAGCTAC 
    TTTGACACAC GTTCGGAACG TTACCGCCAT CTGGGCTCCG AGGACGACGA GACCAATGAT 
    GAAGAATCGT CCACAGAGAT CCCCCAGTTC TCCTCCTGCT CCCACCGGTT CAGCAAGGTC 
    TACAGCAGCT CTGAGTTCCT GGCCGTCCAG CCCACTCCTA CCTTCGCTGA AAGGAGCTTC 
    AGTGAAGACC GGGAGGAGGG GTGGGAGCGC AGCGAAGTGG ACTATGGCCG CCGGCTGAGT 
    GCTGACATCC GGCTGAGGTC CTGGACATCC TCTGGATCCT CCTGTCAGTC ATCTTCGTCC 
    CAGCCCGAGC GGGGTCCCAG CCCATCTCTC CTGAATACCA TCAGCCTGGA CACAATGCCC 
    AAGTTTGCCT TCTCATCAGA GGATGAGGGG GTAGGCCCAG GCCCTGCAGG CCCCAAGAGG 
    CCCGTCTTCA TTCTAGGGGA GCCTGACCCC CCACCAGCGG CCACCCCAGT GATGCCCAAG 
    CCCTCGAGCC TTTCTGCCGA CACAGCTGCT CTCAGCCACG CCCGCCTACG GAGCAATAGC 
    ATCGGCGCCC GACACTCCAC ACCAAGGCCT CTGGATGCCG GCCGGGGCCG CCGCCTTGGG 
    GGCCCAAGAG ACCCAGCCCC TGAGAAGTCC AGAGCCTCCT CCAGCGGTGG CAGTGGTGGC 
    GGCAGTGGGG GCCGCGTGCC CAAGTCAGCC TCTGTCTCTG CCCTGTCCCT CATCATCACG 
    GCAGATGATG GCAGCGGCGG CCCCCTCATG AGCCCCCTTT CCCCGCGCTC TCTGTCCTCG 
    AACCCGTCGT CCCGTGACTC TTCGCCGAGC CGAGACCCGT CCCCCGTGTG TGGCAGCCTG 
    CGGCCCCCCA TCGTTATCCA CAGCTCTGGC AAGAAGTACG GCTTCAGCCT GCGGGCGATC 
    CGCGTCTACA TGGGTGATAG CGACGTCTAC ACTGTGCACC ACGTCGTCTG GAGTGTGGAG 
    GACGGAAGCC CCGCCCAGGA GGCGGGCCTG CGGGCTGGGG ACCTCATCAC CCACATCAAC 
    GGGGAGTCAG TGCTGGGGCT GGTGCACATG GACGTCGTGG AGCTGCTGCT GAAGAGCGGC 
    AACAAGATAT CCCTGCGGAC CACAGCCCTG GAGAACACCT CCATCAAGGT GGGCCCCGCC 
    CGGAAGAATG TGGCCAAGGG CCGCATGGCA CGCAGGAGCA AGAGGAGCCG TCGGCGGGAG 
    ACCCAGGATC GGTGCGCGGC AGTGACCACC AGGGAGCGGC GGAAGTCACT TTTCAAGAAG 
    ATCTCCAAGC AGACCTCCGT GCTGCACACC AGCCGCAGCT TCTCCTCCGG ACTCCACCAC 
    TCACTGTCAT CCAGTGAGAG CCTCCCCGGC TCGCCCACCC ACAGCCTCTC CCCCAGCCCC 
    ACCACTCCCT GCCGAAGCCC AGCCCCTGAT GTCCCAGCAG ATACCACTGC ATCCCCACCC 
    AGCGCATCCC CGAGCTCCAG CAGCCCCGCC TCCCCAGCTG CTGCTGGCCA CACCCGCCCC 
    AGCTCCCTGC ACGGCCTGGC TGCCAAGCTT GGGCCACCCC GCCCCAAGAC TGGCCGCCGC 
    AAGTCCACCA GCAGCATCCC GCCCTCCCCG CTGGCCTGCC CGCCCATCTC CGCGCCCCCA 
    CCCCGCTCGC CCTCGCCCCT GCCCGGGCAC CCGCCCGCAC CTGCCCGATC CCCGCGGCTG 
    CGCCGGGGCC AGTCAGCTGA CAAGCTGGGC ACAGGGGAGC GGCTGGATGG GGAGGCGGGG 
    CGGCGCACTC GTGGGCCAGA GGCCGAGCTC GTGGTCATGC GGCGGCTGCA CCTGTCCGAG 
    CGCCGAGACT CCTTCAAGAA GCAGGAGGCC GTGCAGGAGG TTAGCTTCGA TGAGCCGCAG 
    GAGGAGGCCA CTGGGCTGCC CACCTCAGTG CCACAGATCG CCGTGGAGGG CGAGGAAGCC 
    GTGCCAGTAG CTCTCGGGCC CACCGGAAGA GACTGA

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

    RefSeq XP_005259880.1
    CDS326..4321
    Translation

    Target ORF information:

    RefSeq Version XM_005259823.3
    Organism Homo sapiens(human)
    Definition Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X17, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005259823.3

    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
    ATGTCCGACC CCAGCTACTG GACGGCGGTG GCGGCTCCCG GCCATCGGAG CCGCCTGGCA 
    AAAGGCGCGC TGCTGCAGCG CTCCAAGAGC TGCCGCAGCG GGAACCGCAA GAGCTTGGTG 
    GTAGGAACGC CCTCCCCGAC CCTCTCCCGG CCCCTGTCGC CATTGTCGGT CCCAACGGCA 
    GGCAGCAGCC CCTTGGATAG TCCTCGGAAT TTCTCGGCTG CCTCTGCCCT AAATTTCCCC 
    TTTGCCCGGA GCCACATCCC ACGCATGGAC AGGGCAGACG GCAGAAGATG GTCCCTCGCG 
    TCTCTCCCAT CTTCCGGCTA TGGAACCAAC ACACCCAGCT CCACCCTCTC GTCAAGCTCA 
    TCCTCCCGGG AACGTCTCCA CCAGCTTCCC TTCCAGCCGA CGCCGGACGA GCTGCACTTC 
    CTGTCCAAGC ACTTCCGCAG CTCAGAGAAT GTGCTTGATG AGGAAGGCGG CCGGTCACCC 
    CGCCTCCGAC CCCGCTCTCG CAGTCTCAGC CCGGGCCGTG CAACGGGGAC CTTCGACAAT 
    GAGATTGTCA TGATGAATCA CGTGTACCGG GAGAGGTTCC CCAAGGCCAC AGCACAGATG 
    GAGGGCCGTC TGCAGGAGTT CCTGACGGCC TACGCGCCCG GCGCCCGGCT GGCGCTGGCT 
    GATGGCGTCT TGGGCTTCAT CCACCACCAG ATCGTCGAGC TGGCCCGAGA CTGCTTGGCC 
    AAGTCTGGCG AGAACCTCGT CACCTCCCGC TACTTCCTAG AGATGCAGGA GAAGCTGGAG 
    CGGCTTCTGC AGGATGCCCA TGAGCGTTCG GACAGTGAGG AGGTCAGCTT CATCGTCCAG 
    CTTGTCCGGA AACTGCTGAT CATCATCTCA CGGCCAGCTC GGCTGCTGGA GTGTCTGGAG 
    TTTGACCCTG AGGAATTTTA CCACCTGCTG GAGGCGGCTG AGGGCCATGC GCGGGAGGGC 
    CAAGGCATTA AGACTGACCT TCCACAGTAC ATCATTGGGC AGCTGGGCCT GGCCAAGGAC 
    CCCCTGGAGG AGATGGTGCC ACTGAGTCAC CTCGAAGAAG AACAGCCCCC AGCACCTGAG 
    TCCCCAGAGA GCCGCGCCCT GGTCGGCCAG TCACGGAGGA AGCCATGCGA AAGCGACTTT 
    GAGACCATCA AACTCATTAG CAACGGAGCC TATGGGGCCG TCTACCTGGT GCGGCACCGT 
    GACACACGGC AGCGCTTTGC CATCAAGAAG ATCAACAAAC AGAACTTGAT CCTGCGTAAC 
    CAGATCCAGC AGGTCTTTGT GGAGCGTGAC ATTCTCACCT TTGCCGAGAA CCCCTTTGTG 
    GTCAGCATGT TCTGCTCCTT TGAGACCCGG CGCCACCTAT GTATGGTCAT GGAATACGTG 
    GAAGGCGGCG ACTGCGCCAC GCTCCTGAAG AACATGGGCC CGCTGCCCGT GGACATGGCC 
    CGCCTGTACT TCGCCGAGAC GGTGTTGGCG CTGGAGTACC TGCATAACTA TGGCATCGTG 
    CACCGTGACC TCAAACCAGA CAATCTGCTC ATCACCTCGC TTGGCCACAT CAAGCTCACG 
    GACTTCGGCC TGTCCAAGAT CGGCCTCATG AGCATGGCCA CCAACCTCTA TGAGGGCCAC 
    ATCGAGAAGG ACGCCCGAGA GTTCATCGAC AAGCAGGTGT GTGGGACGCC GGAGTACATA 
    GCCCCCGAGG TGATCTTCCG CCAGGGCTAT GGGAAGCCAG TGGACTGGTG GGCCATGGGC 
    GTCGTCCTCT ATGAGTTTCT GGTGGGCTGC GTGCCTTTCT TTGGAGATAC CCCCGAGGAA 
    CTCTTCGGTC AGGTGGTCAG CGATGAGATC ATGTGGCCAG AGGGAGATGA GGCCCTTCCA 
    GCAGACGCCC AGGACCTCAT CACCAGGTTG CTCCGGCAGA GCCCGCTGGA CCGTCTGGGC 
    ACTGGTGGCA CCCACGAAGT GAAGCAGCAC CCCTTTTTCC TGGCCCTGGA CTGGGCAGGG 
    CTTCTCCGAC ACAAAGCCGA GTTCGTGCCC CAGCTCGAAG CTGAGGATGA TACCAGCTAC 
    TTTGACACAC GTTCGGAACG TTACCGCCAT CTGGGCTCCG AGGACGACGA GACCAATGAT 
    GAAGAATCGT CCACAGAGAT CCCCCAGTTC TCCTCCTGCT CCCACCGGTT CAGCAAGGTC 
    TACAGCAGCT CTGAGTTCCT GGCCGTCCAG CCCACTCCTA CCTTCGCTGA AAGGAGCTTC 
    AGTGAAGACC GGGAGGAGGG GTGGGAGCGC AGCGAAGTGG ACTATGGCCG CCGGCTGAGT 
    GCTGACATCC GGCTGAGGTC CTGGACATCC TCTGGATCCT CCTGTCAGTC ATCTTCGTCC 
    CAGCCCGAGC GGGGTCCCAG CCCATCTCTC CTGAATACCA TCAGCCTGGA CACAATGCCC 
    AAGTTTGCCT TCTCATCAGA GGATGAGGGG GTAGGCCCAG GCCCTGCAGG CCCCAAGAGG 
    CCCGTCTTCA TTCTAGGGGA GCCTGACCCC CCACCAGCGG CCACCCCAGT GATGCCCAAG 
    CCCTCGAGCC TTTCTGCCGA CACAGCTGCT CTCAGCCACG CCCGCCTACG GAGCAATAGC 
    ATCGGCGCCC GACACTCCAC ACCAAGGCCT CTGGATGCCG GCCGGGGCCG CCGCCTTGGG 
    GGCCCAAGAG ACCCAGCCCC TGAGAAGTCC AGAGCCTCCT CCAGCGGTGG CAGTGGTGGC 
    GGCAGTGGGG GCCGCGTGCC CAAGTCAGCC TCTGTCTCTG CCCTGTCCCT CATCATCACG 
    GCAGATGATG GCAGCGGCGG CCCCCTCATG AGCCCCCTTT CCCCGCGCTC TCTGTCCTCG 
    AACCCGTCGT CCCGTGACTC TTCGCCGAGC CGAGACCCGT CCCCCGTGTG TGGCAGCCTG 
    CGGCCCCCCA TCGTTATCCA CAGCTCTGGC AAGAAGTACG GCTTCAGCCT GCGGGCGATC 
    CGCGTCTACA TGGGTGATAG CGACGTCTAC ACTGTGCACC ACGTCGTCTG GAGTGTGGAG 
    GACGGAAGCC CCGCCCAGGA GGCGGGCCTG CGGGCTGGGG ACCTCATCAC CCACATCAAC 
    GGGGAGTCAG TGCTGGGGCT GGTGCACATG GACGTCGTGG AGCTGCTGCT GAAGAGCGGC 
    AACAAGATAT CCCTGCGGAC CACAGCCCTG GAGAACACCT CCATCAAGGT GGGCCCCGCC 
    CGGAAGAATG TGGCCAAGGG CCGCATGGCA CGCAGGAGCA AGAGGAGCCG TCGGCGGGAG 
    ACCCAGGATC GGTGCGCGGC AGTGACCACC AGGGAGCGGC GGAAGTCACT TTTCAAGAAG 
    ATCTCCAAGC AGACCTCCGT GCTGCACACC AGCCGCAGCT TCTCCTCCGG ACTCCACCAC 
    TCACTGTCAT CCAGTGAGAG CCTCCCCGGC TCGCCCACCC ACAGCCTCTC CCCCAGCCCC 
    ACCACTCCCT GCCGAAGCCC AGCCCCTGAT GTCCCAGCAG ATACCACTGC ATCCCCACCC 
    AGCGCATCCC CGAGCTCCAG CAGCCCCGCC TCCCCAGCTG CTGCTGGCCA CACCCGCCCC 
    AGCTCCCTGC ACGGCCTGGC TGCCAAGCTT GGGCCACCCC GCCCCAAGAC TGGCCGCCGC 
    AAGTCCACCA GCAGCATCCC GCCCTCCCCG CTGGCCTGCC CGCCCATCTC CGCGCCCCCA 
    CCCCGCTCGC CCTCGCCCCT GCCCGGGCAC CCGCCCGCAC CTGCCCGATC CCCGCGGCTG 
    CGCCGGGGCC AGTCAGCTGA CAAGCTGGGC ACAGGGGAGC GGCTGGATGG GGAGGCGGGG 
    CGGCGCACTC GTGGGCCAGA GGCCGAGCTC GTGGTCATGC GGCGGCTGCA CCTGTCCGAG 
    CGCCGAGACT CCTTCAAGAA GCAGGAGGCC GTGCAGGAGG TTAGCTTCGA TGAGCCGCAG 
    GAGGAGGCCA CTGGGCTGCC CACCTCAGTG CCACAGATCG CCGTGGAGGG CGAGGAAGCC 
    GTGCCAGTAG CTCTCGGGCC CACCGGAAGA GACTGA

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

    MAST3 ( XM_005259824.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_005259881.1 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OHu51505
    Clone ID Related Accession (Same CDS sequence) XM_005259824.2
    Accession Version XM_005259824.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3978bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product microtubule-associated serine/threonine-protein kinase 3 isoform X9
    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 EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 12, 2015 this sequence version replaced XM_005259824.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGGACGAGT CGAGCCTCCT GCGGCGCCGC GGGCTCCAGA AGGAGCTGAG CCTGCCACGC 
    CGAGGACGTG GCTGCCGCAG CGGGAACCGC AAGAGCTTGG TGGTAGGAAC GCCCTCCCCG 
    ACCCTCTCCC GGCCCCTGTC GCCATTGTCG GTCCCAACGG CAGGCAGCAG CCCCTTGGAT 
    AGTCCTCGGA ATTTCTCGGC TGCCTCTGCC CTAAATTTCC CCTTTGCCCG GAGCCACATC 
    CCACGCATGG ACAGGGCAGA CGGCAGAAGA TGGTCCCTCG CGTCTCTCCC ATCTTCCGGC 
    TATGGAACCA ACACACCCAG CTCCACCCTC TCGTCAAGCT CATCCTCCCG GGAACGTCTC 
    CACCAGCTTC CCTTCCAGCC GACGCCGGAC GAGCTGCACT TCCTGTCCAA GCACTTCCGC 
    AGCTCAGAGA ATGTGCTTGA TGAGGAAGGC GGCCGGTCAC CCCGCCTCCG ACCCCGCTCT 
    CGCAGTCTCA GCCCGGGCCG TGCAACGGGG ACCTTCGACA ATGAGATTGT CATGATGAAT 
    CACGTGTACC GGGAGAGGTT CCCCAAGGCC ACAGCACAGA TGGAGGGCCG TCTGCAGGAG 
    TTCCTGACGG CCTACGCGCC CGGCGCCCGG CTGGCGCTGG CTGATGGCGT CTTGGGCTTC 
    ATCCACCACC AGATCGTCGA GCTGGCCCGA GACTGCTTGG CCAAGTCTGG CGAGAACCTC 
    GTCACCTCCC GCTACTTCCT AGAGATGCAG GAGAAGCTGG AGCGGCTTCT GCAGGATGCC 
    CATGAGCGTT CGGACAGTGA GGAGGTCAGC TTCATCGTCC AGCTTGTCCG GAAACTGCTG 
    ATCATCATCT CACGGCCAGC TCGGCTGCTG GAGTGTCTGG AGTTTGACCC TGAGGAATTT 
    TACCACCTGC TGGAGGCGGC TGAGGGCCAT GCGCGGGAGG GCCAAGGCAT TAAGACTGAC 
    CTTCCACAGT ACATCATTGG GCAGCTGGGC CTGGCCAAGG ACCCCCTGGA GGAGATGGTG 
    CCACTGAGTC ACCTCGAAGA AGAACAGCCC CCAGCACCTG AGTCCCCAGA GAGCCGCGCC 
    CTGGTCGGCC AGTCACGGAG GAAGCCATGC GAAAGCGACT TTGAGACCAT CAAACTCATT 
    AGCAACGGAG CCTATGGGGC CGTCTACCTG GTGCGGCACC GTGACACACG GCAGCGCTTT 
    GCCATCAAGA AGATCAACAA ACAGAACTTG ATCCTGCGTA ACCAGATCCA GCAGGTCTTT 
    GTGGAGCGTG ACATTCTCAC CTTTGCCGAG AACCCCTTTG TGGTCAGCAT GTTCTGCTCC 
    TTTGAGACCC GGCGCCACCT ATGTATGGTC ATGGAATACG TGGAAGGCGG CGACTGCGCC 
    ACGCTCCTGA AGAACATGGG CCCGCTGCCC GTGGACATGG CCCGCCTGTA CTTCGCCGAG 
    ACGGTGTTGG CGCTGGAGTA CCTGCATAAC TATGGCATCG TGCACCGTGA CCTCAAACCA 
    GACAATCTGC TCATCACCTC GCTTGGCCAC ATCAAGCTCA CGGACTTCGG CCTGTCCAAG 
    ATCGGCCTCA TGAGCATGGC CACCAACCTC TATGAGGGCC ACATCGAGAA GGACGCCCGA 
    GAGTTCATCG ACAAGCAGGT GTGTGGGACG CCGGAGTACA TAGCCCCCGA GGTGATCTTC 
    CGCCAGGGCT ATGGGAAGCC AGTGGACTGG TGGGCCATGG GCGTCGTCCT CTATGAGTTT 
    CTGGTGGGCT GCGTGCCTTT CTTTGGAGAT ACCCCCGAGG AACTCTTCGG TCAGGTGGTC 
    AGCGATGAGA TCATGTGGCC AGAGGGAGAT GAGGCCCTTC CAGCAGACGC CCAGGACCTC 
    ATCACCAGGT TGCTCCGGCA GAGCCCGCTG GACCGTCTGG GCACTGGTGG CACCCACGAA 
    GTGAAGCAGC ACCCCTTTTT CCTGGCCCTG GACTGGGCAG GGCTTCTCCG ACACAAAGCC 
    GAGTTCGTGC CCCAGCTCGA AGCTGAGGAT GATACCAGCT ACTTTGACAC ACGTTCGGAA 
    CGTTACCGCC ATCTGGGCTC CGAGGACGAC GAGACCAATG ATGAAGAATC GTCCACAGAG 
    ATCCCCCAGT TCTCCTCCTG CTCCCACCGG TTCAGCAAGG TCTACAGCAG CTCTGAGTTC 
    CTGGCCGTCC AGCCCACTCC TACCTTCGCT GAAAGGAGCT TCAGTGAAGA CCGGGAGGAG 
    GGGTGGGAGC GCAGCGAAGT GGACTATGGC CGCCGGCTGA GTGCTGACAT CCGGCTGAGG 
    TCCTGGACAT CCTCTGGATC CTCCTGTCAG TCATCTTCGT CCCAGCCCGA GCGGGGTCCC 
    AGCCCATCTC TCCTGAATAC CATCAGCCTG GACACAATGC CCAAGTTTGC CTTCTCATCA 
    GAGGATGAGG GGGTAGGCCC AGGCCCTGCA GGCCCCAAGA GGCCCGTCTT CATTCTAGGG 
    GAGCCTGACC CCCCACCAGC GGCCACCCCA GTGATGCCCA AGCCCTCGAG CCTTTCTGCC 
    GACACAGCTG CTCTCAGCCA CGCCCGCCTA CGGAGCAATA GCATCGGCGC CCGACACTCC 
    ACACCAAGGC CTCTGGATGC CGGCCGGGGC CGCCGCCTTG GGGGCCCAAG AGACCCAGCC 
    CCTGAGAAGT CCAGAGCCTC CTCCAGCGGT GGCAGTGGTG GCGGCAGTGG GGGCCGCGTG 
    CCCAAGTCAG CCTCTGTCTC TGCCCTGTCC CTCATCATCA CGGCAGATGA TGGCAGCGGC 
    GGCCCCCTCA TGAGCCCCCT TTCCCCGCGC TCTCTGTCCT CGAACCCGTC GTCCCGTGAC 
    TCTTCGCCGA GCCGAGACCC GTCCCCCGTG TGTGGCAGCC TGCGGCCCCC CATCGTTATC 
    CACAGCTCTG GCAAGAAGTA CGGCTTCAGC CTGCGGGCGA TCCGCGTCTA CATGGGTGAT 
    AGCGACGTCT ACACTGTGCA CCACGTCGTC TGGAGTGTGG AGGACGGAAG CCCCGCCCAG 
    GAGGCGGGCC TGCGGGCTGG GGACCTCATC ACCCACATCA ACGGGGAGTC AGTGCTGGGG 
    CTGGTGCACA TGGACGTCGT GGAGCTGCTG CTGAAGAGCG GCAACAAGAT ATCCCTGCGG 
    ACCACAGCCC TGGAGAACAC CTCCATCAAG GTGGGCCCCG CCCGGAAGAA TGTGGCCAAG 
    GGCCGCATGG CACGCAGGAG CAAGAGGAGC CGTCGGCGGG AGACCCAGGA TCGGTGCGCG 
    GCAGTGACCA CCAGGGAGCG GCGGAAGTCA CTTTTCAAGA AGATCTCCAA GCAGACCTCC 
    GTGCTGCACA CCAGCCGCAG CTTCTCCTCC GGACTCCACC ACTCACTGTC ATCCAGTGAG 
    AGCCTCCCCG GCTCGCCCAC CCACAGCCTC TCCCCCAGCC CCACCACTCC CTGCCGAAGC 
    CCAGCCCCTG ATGTCCCAGC AGATACCACT GCATCCCCAC CCAGCGCATC CCCGAGCTCC 
    AGCAGCCCCG CCTCCCCAGC TGCTGCTGGC CACACCCGCC CCAGCTCCCT GCACGGCCTG 
    GCTGCCAAGC TTGGGCCACC CCGCCCCAAG ACTGGCCGCC GCAAGTCCAC CAGCAGCATC 
    CCGCCCTCCC CGCTGGCCTG CCCGCCCATC TCCGCGCCCC CACCCCGCTC GCCCTCGCCC 
    CTGCCCGGGC ACCCGCCCGC ACCTGCCCGA TCCCCGCGGC TGCGCCGGGG CCAGTCAGCT 
    GACAAGCTGG GCACAGGGGA GCGGCTGGAT GGGGAGGCGG GGCGGCGCAC TCGTGGGCCA 
    GAGGCCGAGC TCGTGGTCAT GCGGCGGCTG CACCTGTCCG AGCGCCGAGA CTCCTTCAAG 
    AAGCAGGAGG CCGTGCAGGA GGTTAGCTTC GATGAGCCGC AGGAGGAGGC CACTGGGCTG 
    CCCACCTCAG TGCCACAGAT CGCCGTGGAG GGCGAGGAAG CCGTGCCAGT AGCTCTCGGG 
    CCCACCGGAA GAGACTGA

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

    RefSeq XP_005259881.1
    CDS30..4007
    Translation

    Target ORF information:

    RefSeq Version XM_005259824.2
    Organism Homo sapiens(human)
    Definition Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005259824.2

    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
    ATGGACGAGT CGAGCCTCCT GCGGCGCCGC GGGCTCCAGA AGGAGCTGAG CCTGCCACGC 
    CGAGGACGTG GCTGCCGCAG CGGGAACCGC AAGAGCTTGG TGGTAGGAAC GCCCTCCCCG 
    ACCCTCTCCC GGCCCCTGTC GCCATTGTCG GTCCCAACGG CAGGCAGCAG CCCCTTGGAT 
    AGTCCTCGGA ATTTCTCGGC TGCCTCTGCC CTAAATTTCC CCTTTGCCCG GAGCCACATC 
    CCACGCATGG ACAGGGCAGA CGGCAGAAGA TGGTCCCTCG CGTCTCTCCC ATCTTCCGGC 
    TATGGAACCA ACACACCCAG CTCCACCCTC TCGTCAAGCT CATCCTCCCG GGAACGTCTC 
    CACCAGCTTC CCTTCCAGCC GACGCCGGAC GAGCTGCACT TCCTGTCCAA GCACTTCCGC 
    AGCTCAGAGA ATGTGCTTGA TGAGGAAGGC GGCCGGTCAC CCCGCCTCCG ACCCCGCTCT 
    CGCAGTCTCA GCCCGGGCCG TGCAACGGGG ACCTTCGACA ATGAGATTGT CATGATGAAT 
    CACGTGTACC GGGAGAGGTT CCCCAAGGCC ACAGCACAGA TGGAGGGCCG TCTGCAGGAG 
    TTCCTGACGG CCTACGCGCC CGGCGCCCGG CTGGCGCTGG CTGATGGCGT CTTGGGCTTC 
    ATCCACCACC AGATCGTCGA GCTGGCCCGA GACTGCTTGG CCAAGTCTGG CGAGAACCTC 
    GTCACCTCCC GCTACTTCCT AGAGATGCAG GAGAAGCTGG AGCGGCTTCT GCAGGATGCC 
    CATGAGCGTT CGGACAGTGA GGAGGTCAGC TTCATCGTCC AGCTTGTCCG GAAACTGCTG 
    ATCATCATCT CACGGCCAGC TCGGCTGCTG GAGTGTCTGG AGTTTGACCC TGAGGAATTT 
    TACCACCTGC TGGAGGCGGC TGAGGGCCAT GCGCGGGAGG GCCAAGGCAT TAAGACTGAC 
    CTTCCACAGT ACATCATTGG GCAGCTGGGC CTGGCCAAGG ACCCCCTGGA GGAGATGGTG 
    CCACTGAGTC ACCTCGAAGA AGAACAGCCC CCAGCACCTG AGTCCCCAGA GAGCCGCGCC 
    CTGGTCGGCC AGTCACGGAG GAAGCCATGC GAAAGCGACT TTGAGACCAT CAAACTCATT 
    AGCAACGGAG CCTATGGGGC CGTCTACCTG GTGCGGCACC GTGACACACG GCAGCGCTTT 
    GCCATCAAGA AGATCAACAA ACAGAACTTG ATCCTGCGTA ACCAGATCCA GCAGGTCTTT 
    GTGGAGCGTG ACATTCTCAC CTTTGCCGAG AACCCCTTTG TGGTCAGCAT GTTCTGCTCC 
    TTTGAGACCC GGCGCCACCT ATGTATGGTC ATGGAATACG TGGAAGGCGG CGACTGCGCC 
    ACGCTCCTGA AGAACATGGG CCCGCTGCCC GTGGACATGG CCCGCCTGTA CTTCGCCGAG 
    ACGGTGTTGG CGCTGGAGTA CCTGCATAAC TATGGCATCG TGCACCGTGA CCTCAAACCA 
    GACAATCTGC TCATCACCTC GCTTGGCCAC ATCAAGCTCA CGGACTTCGG CCTGTCCAAG 
    ATCGGCCTCA TGAGCATGGC CACCAACCTC TATGAGGGCC ACATCGAGAA GGACGCCCGA 
    GAGTTCATCG ACAAGCAGGT GTGTGGGACG CCGGAGTACA TAGCCCCCGA GGTGATCTTC 
    CGCCAGGGCT ATGGGAAGCC AGTGGACTGG TGGGCCATGG GCGTCGTCCT CTATGAGTTT 
    CTGGTGGGCT GCGTGCCTTT CTTTGGAGAT ACCCCCGAGG AACTCTTCGG TCAGGTGGTC 
    AGCGATGAGA TCATGTGGCC AGAGGGAGAT GAGGCCCTTC CAGCAGACGC CCAGGACCTC 
    ATCACCAGGT TGCTCCGGCA GAGCCCGCTG GACCGTCTGG GCACTGGTGG CACCCACGAA 
    GTGAAGCAGC ACCCCTTTTT CCTGGCCCTG GACTGGGCAG GGCTTCTCCG ACACAAAGCC 
    GAGTTCGTGC CCCAGCTCGA AGCTGAGGAT GATACCAGCT ACTTTGACAC ACGTTCGGAA 
    CGTTACCGCC ATCTGGGCTC CGAGGACGAC GAGACCAATG ATGAAGAATC GTCCACAGAG 
    ATCCCCCAGT TCTCCTCCTG CTCCCACCGG TTCAGCAAGG TCTACAGCAG CTCTGAGTTC 
    CTGGCCGTCC AGCCCACTCC TACCTTCGCT GAAAGGAGCT TCAGTGAAGA CCGGGAGGAG 
    GGGTGGGAGC GCAGCGAAGT GGACTATGGC CGCCGGCTGA GTGCTGACAT CCGGCTGAGG 
    TCCTGGACAT CCTCTGGATC CTCCTGTCAG TCATCTTCGT CCCAGCCCGA GCGGGGTCCC 
    AGCCCATCTC TCCTGAATAC CATCAGCCTG GACACAATGC CCAAGTTTGC CTTCTCATCA 
    GAGGATGAGG GGGTAGGCCC AGGCCCTGCA GGCCCCAAGA GGCCCGTCTT CATTCTAGGG 
    GAGCCTGACC CCCCACCAGC GGCCACCCCA GTGATGCCCA AGCCCTCGAG CCTTTCTGCC 
    GACACAGCTG CTCTCAGCCA CGCCCGCCTA CGGAGCAATA GCATCGGCGC CCGACACTCC 
    ACACCAAGGC CTCTGGATGC CGGCCGGGGC CGCCGCCTTG GGGGCCCAAG AGACCCAGCC 
    CCTGAGAAGT CCAGAGCCTC CTCCAGCGGT GGCAGTGGTG GCGGCAGTGG GGGCCGCGTG 
    CCCAAGTCAG CCTCTGTCTC TGCCCTGTCC CTCATCATCA CGGCAGATGA TGGCAGCGGC 
    GGCCCCCTCA TGAGCCCCCT TTCCCCGCGC TCTCTGTCCT CGAACCCGTC GTCCCGTGAC 
    TCTTCGCCGA GCCGAGACCC GTCCCCCGTG TGTGGCAGCC TGCGGCCCCC CATCGTTATC 
    CACAGCTCTG GCAAGAAGTA CGGCTTCAGC CTGCGGGCGA TCCGCGTCTA CATGGGTGAT 
    AGCGACGTCT ACACTGTGCA CCACGTCGTC TGGAGTGTGG AGGACGGAAG CCCCGCCCAG 
    GAGGCGGGCC TGCGGGCTGG GGACCTCATC ACCCACATCA ACGGGGAGTC AGTGCTGGGG 
    CTGGTGCACA TGGACGTCGT GGAGCTGCTG CTGAAGAGCG GCAACAAGAT ATCCCTGCGG 
    ACCACAGCCC TGGAGAACAC CTCCATCAAG GTGGGCCCCG CCCGGAAGAA TGTGGCCAAG 
    GGCCGCATGG CACGCAGGAG CAAGAGGAGC CGTCGGCGGG AGACCCAGGA TCGGTGCGCG 
    GCAGTGACCA CCAGGGAGCG GCGGAAGTCA CTTTTCAAGA AGATCTCCAA GCAGACCTCC 
    GTGCTGCACA CCAGCCGCAG CTTCTCCTCC GGACTCCACC ACTCACTGTC ATCCAGTGAG 
    AGCCTCCCCG GCTCGCCCAC CCACAGCCTC TCCCCCAGCC CCACCACTCC CTGCCGAAGC 
    CCAGCCCCTG ATGTCCCAGC AGATACCACT GCATCCCCAC CCAGCGCATC CCCGAGCTCC 
    AGCAGCCCCG CCTCCCCAGC TGCTGCTGGC CACACCCGCC CCAGCTCCCT GCACGGCCTG 
    GCTGCCAAGC TTGGGCCACC CCGCCCCAAG ACTGGCCGCC GCAAGTCCAC CAGCAGCATC 
    CCGCCCTCCC CGCTGGCCTG CCCGCCCATC TCCGCGCCCC CACCCCGCTC GCCCTCGCCC 
    CTGCCCGGGC ACCCGCCCGC ACCTGCCCGA TCCCCGCGGC TGCGCCGGGG CCAGTCAGCT 
    GACAAGCTGG GCACAGGGGA GCGGCTGGAT GGGGAGGCGG GGCGGCGCAC TCGTGGGCCA 
    GAGGCCGAGC TCGTGGTCAT GCGGCGGCTG CACCTGTCCG AGCGCCGAGA CTCCTTCAAG 
    AAGCAGGAGG CCGTGCAGGA GGTTAGCTTC GATGAGCCGC AGGAGGAGGC CACTGGGCTG 
    CCCACCTCAG TGCCACAGAT CGCCGTGGAG GGCGAGGAAG CCGTGCCAGT AGCTCTCGGG 
    CCCACCGGAA GAGACTGA

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

    MAST3 ( XM_005259825.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_005259882.1 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X10, mRNA.
    Price & Availability↑
    CloneID OHu51506
    Clone ID Related Accession (Same CDS sequence) XM_005259825.2
    Accession Version XM_005259825.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3975bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product microtubule-associated serine/threonine-protein kinase 3 isoform X10
    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 EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 12, 2015 this sequence version replaced XM_005259825.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGGACGAGT CGAGCCTCCT GCGGCGCCGC GGGCTCCAGA AGGAGCTGAG CCTGCCACGC 
    CGAGGACGTG GCTGCCGCAG CGGGAACCGC AAGAGCTTGG TGGTAGGAAC GCCCTCCCCG 
    ACCCTCTCCC GGCCCCTGTC GCCATTGTCG GTCCCAACGG GCAGCAGCCC CTTGGATAGT 
    CCTCGGAATT TCTCGGCTGC CTCTGCCCTA AATTTCCCCT TTGCCCGGAG CCACATCCCA 
    CGCATGGACA GGGCAGACGG CAGAAGATGG TCCCTCGCGT CTCTCCCATC TTCCGGCTAT 
    GGAACCAACA CACCCAGCTC CACCCTCTCG TCAAGCTCAT CCTCCCGGGA ACGTCTCCAC 
    CAGCTTCCCT TCCAGCCGAC GCCGGACGAG CTGCACTTCC TGTCCAAGCA CTTCCGCAGC 
    TCAGAGAATG TGCTTGATGA GGAAGGCGGC CGGTCACCCC GCCTCCGACC CCGCTCTCGC 
    AGTCTCAGCC CGGGCCGTGC AACGGGGACC TTCGACAATG AGATTGTCAT GATGAATCAC 
    GTGTACCGGG AGAGGTTCCC CAAGGCCACA GCACAGATGG AGGGCCGTCT GCAGGAGTTC 
    CTGACGGCCT ACGCGCCCGG CGCCCGGCTG GCGCTGGCTG ATGGCGTCTT GGGCTTCATC 
    CACCACCAGA TCGTCGAGCT GGCCCGAGAC TGCTTGGCCA AGTCTGGCGA GAACCTCGTC 
    ACCTCCCGCT ACTTCCTAGA GATGCAGGAG AAGCTGGAGC GGCTTCTGCA GGATGCCCAT 
    GAGCGTTCGG ACAGTGAGGA GGTCAGCTTC ATCGTCCAGC TTGTCCGGAA ACTGCTGATC 
    ATCATCTCAC GGCCAGCTCG GCTGCTGGAG TGTCTGGAGT TTGACCCTGA GGAATTTTAC 
    CACCTGCTGG AGGCGGCTGA GGGCCATGCG CGGGAGGGCC AAGGCATTAA GACTGACCTT 
    CCACAGTACA TCATTGGGCA GCTGGGCCTG GCCAAGGACC CCCTGGAGGA GATGGTGCCA 
    CTGAGTCACC TCGAAGAAGA ACAGCCCCCA GCACCTGAGT CCCCAGAGAG CCGCGCCCTG 
    GTCGGCCAGT CACGGAGGAA GCCATGCGAA AGCGACTTTG AGACCATCAA ACTCATTAGC 
    AACGGAGCCT ATGGGGCCGT CTACCTGGTG CGGCACCGTG ACACACGGCA GCGCTTTGCC 
    ATCAAGAAGA TCAACAAACA GAACTTGATC CTGCGTAACC AGATCCAGCA GGTCTTTGTG 
    GAGCGTGACA TTCTCACCTT TGCCGAGAAC CCCTTTGTGG TCAGCATGTT CTGCTCCTTT 
    GAGACCCGGC GCCACCTATG TATGGTCATG GAATACGTGG AAGGCGGCGA CTGCGCCACG 
    CTCCTGAAGA ACATGGGCCC GCTGCCCGTG GACATGGCCC GCCTGTACTT CGCCGAGACG 
    GTGTTGGCGC TGGAGTACCT GCATAACTAT GGCATCGTGC ACCGTGACCT CAAACCAGAC 
    AATCTGCTCA TCACCTCGCT TGGCCACATC AAGCTCACGG ACTTCGGCCT GTCCAAGATC 
    GGCCTCATGA GCATGGCCAC CAACCTCTAT GAGGGCCACA TCGAGAAGGA CGCCCGAGAG 
    TTCATCGACA AGCAGGTGTG TGGGACGCCG GAGTACATAG CCCCCGAGGT GATCTTCCGC 
    CAGGGCTATG GGAAGCCAGT GGACTGGTGG GCCATGGGCG TCGTCCTCTA TGAGTTTCTG 
    GTGGGCTGCG TGCCTTTCTT TGGAGATACC CCCGAGGAAC TCTTCGGTCA GGTGGTCAGC 
    GATGAGATCA TGTGGCCAGA GGGAGATGAG GCCCTTCCAG CAGACGCCCA GGACCTCATC 
    ACCAGGTTGC TCCGGCAGAG CCCGCTGGAC CGTCTGGGCA CTGGTGGCAC CCACGAAGTG 
    AAGCAGCACC CCTTTTTCCT GGCCCTGGAC TGGGCAGGGC TTCTCCGACA CAAAGCCGAG 
    TTCGTGCCCC AGCTCGAAGC TGAGGATGAT ACCAGCTACT TTGACACACG TTCGGAACGT 
    TACCGCCATC TGGGCTCCGA GGACGACGAG ACCAATGATG AAGAATCGTC CACAGAGATC 
    CCCCAGTTCT CCTCCTGCTC CCACCGGTTC AGCAAGGTCT ACAGCAGCTC TGAGTTCCTG 
    GCCGTCCAGC CCACTCCTAC CTTCGCTGAA AGGAGCTTCA GTGAAGACCG GGAGGAGGGG 
    TGGGAGCGCA GCGAAGTGGA CTATGGCCGC CGGCTGAGTG CTGACATCCG GCTGAGGTCC 
    TGGACATCCT CTGGATCCTC CTGTCAGTCA TCTTCGTCCC AGCCCGAGCG GGGTCCCAGC 
    CCATCTCTCC TGAATACCAT CAGCCTGGAC ACAATGCCCA AGTTTGCCTT CTCATCAGAG 
    GATGAGGGGG TAGGCCCAGG CCCTGCAGGC CCCAAGAGGC CCGTCTTCAT TCTAGGGGAG 
    CCTGACCCCC CACCAGCGGC CACCCCAGTG ATGCCCAAGC CCTCGAGCCT TTCTGCCGAC 
    ACAGCTGCTC TCAGCCACGC CCGCCTACGG AGCAATAGCA TCGGCGCCCG ACACTCCACA 
    CCAAGGCCTC TGGATGCCGG CCGGGGCCGC CGCCTTGGGG GCCCAAGAGA CCCAGCCCCT 
    GAGAAGTCCA GAGCCTCCTC CAGCGGTGGC AGTGGTGGCG GCAGTGGGGG CCGCGTGCCC 
    AAGTCAGCCT CTGTCTCTGC CCTGTCCCTC ATCATCACGG CAGATGATGG CAGCGGCGGC 
    CCCCTCATGA GCCCCCTTTC CCCGCGCTCT CTGTCCTCGA ACCCGTCGTC CCGTGACTCT 
    TCGCCGAGCC GAGACCCGTC CCCCGTGTGT GGCAGCCTGC GGCCCCCCAT CGTTATCCAC 
    AGCTCTGGCA AGAAGTACGG CTTCAGCCTG CGGGCGATCC GCGTCTACAT GGGTGATAGC 
    GACGTCTACA CTGTGCACCA CGTCGTCTGG AGTGTGGAGG ACGGAAGCCC CGCCCAGGAG 
    GCGGGCCTGC GGGCTGGGGA CCTCATCACC CACATCAACG GGGAGTCAGT GCTGGGGCTG 
    GTGCACATGG ACGTCGTGGA GCTGCTGCTG AAGAGCGGCA ACAAGATATC CCTGCGGACC 
    ACAGCCCTGG AGAACACCTC CATCAAGGTG GGCCCCGCCC GGAAGAATGT GGCCAAGGGC 
    CGCATGGCAC GCAGGAGCAA GAGGAGCCGT CGGCGGGAGA CCCAGGATCG GTGCGCGGCA 
    GTGACCACCA GGGAGCGGCG GAAGTCACTT TTCAAGAAGA TCTCCAAGCA GACCTCCGTG 
    CTGCACACCA GCCGCAGCTT CTCCTCCGGA CTCCACCACT CACTGTCATC CAGTGAGAGC 
    CTCCCCGGCT CGCCCACCCA CAGCCTCTCC CCCAGCCCCA CCACTCCCTG CCGAAGCCCA 
    GCCCCTGATG TCCCAGCAGA TACCACTGCA TCCCCACCCA GCGCATCCCC GAGCTCCAGC 
    AGCCCCGCCT CCCCAGCTGC TGCTGGCCAC ACCCGCCCCA GCTCCCTGCA CGGCCTGGCT 
    GCCAAGCTTG GGCCACCCCG CCCCAAGACT GGCCGCCGCA AGTCCACCAG CAGCATCCCG 
    CCCTCCCCGC TGGCCTGCCC GCCCATCTCC GCGCCCCCAC CCCGCTCGCC CTCGCCCCTG 
    CCCGGGCACC CGCCCGCACC TGCCCGATCC CCGCGGCTGC GCCGGGGCCA GTCAGCTGAC 
    AAGCTGGGCA CAGGGGAGCG GCTGGATGGG GAGGCGGGGC GGCGCACTCG TGGGCCAGAG 
    GCCGAGCTCG TGGTCATGCG GCGGCTGCAC CTGTCCGAGC GCCGAGACTC CTTCAAGAAG 
    CAGGAGGCCG TGCAGGAGGT TAGCTTCGAT GAGCCGCAGG AGGAGGCCAC TGGGCTGCCC 
    ACCTCAGTGC CACAGATCGC CGTGGAGGGC GAGGAAGCCG TGCCAGTAGC TCTCGGGCCC 
    ACCGGAAGAG ACTGA

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

    RefSeq XP_005259882.1
    CDS30..4004
    Translation

    Target ORF information:

    RefSeq Version XM_005259825.2
    Organism Homo sapiens(human)
    Definition Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005259825.2

    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
    ATGGACGAGT CGAGCCTCCT GCGGCGCCGC GGGCTCCAGA AGGAGCTGAG CCTGCCACGC 
    CGAGGACGTG GCTGCCGCAG CGGGAACCGC AAGAGCTTGG TGGTAGGAAC GCCCTCCCCG 
    ACCCTCTCCC GGCCCCTGTC GCCATTGTCG GTCCCAACGG GCAGCAGCCC CTTGGATAGT 
    CCTCGGAATT TCTCGGCTGC CTCTGCCCTA AATTTCCCCT TTGCCCGGAG CCACATCCCA 
    CGCATGGACA GGGCAGACGG CAGAAGATGG TCCCTCGCGT CTCTCCCATC TTCCGGCTAT 
    GGAACCAACA CACCCAGCTC CACCCTCTCG TCAAGCTCAT CCTCCCGGGA ACGTCTCCAC 
    CAGCTTCCCT TCCAGCCGAC GCCGGACGAG CTGCACTTCC TGTCCAAGCA CTTCCGCAGC 
    TCAGAGAATG TGCTTGATGA GGAAGGCGGC CGGTCACCCC GCCTCCGACC CCGCTCTCGC 
    AGTCTCAGCC CGGGCCGTGC AACGGGGACC TTCGACAATG AGATTGTCAT GATGAATCAC 
    GTGTACCGGG AGAGGTTCCC CAAGGCCACA GCACAGATGG AGGGCCGTCT GCAGGAGTTC 
    CTGACGGCCT ACGCGCCCGG CGCCCGGCTG GCGCTGGCTG ATGGCGTCTT GGGCTTCATC 
    CACCACCAGA TCGTCGAGCT GGCCCGAGAC TGCTTGGCCA AGTCTGGCGA GAACCTCGTC 
    ACCTCCCGCT ACTTCCTAGA GATGCAGGAG AAGCTGGAGC GGCTTCTGCA GGATGCCCAT 
    GAGCGTTCGG ACAGTGAGGA GGTCAGCTTC ATCGTCCAGC TTGTCCGGAA ACTGCTGATC 
    ATCATCTCAC GGCCAGCTCG GCTGCTGGAG TGTCTGGAGT TTGACCCTGA GGAATTTTAC 
    CACCTGCTGG AGGCGGCTGA GGGCCATGCG CGGGAGGGCC AAGGCATTAA GACTGACCTT 
    CCACAGTACA TCATTGGGCA GCTGGGCCTG GCCAAGGACC CCCTGGAGGA GATGGTGCCA 
    CTGAGTCACC TCGAAGAAGA ACAGCCCCCA GCACCTGAGT CCCCAGAGAG CCGCGCCCTG 
    GTCGGCCAGT CACGGAGGAA GCCATGCGAA AGCGACTTTG AGACCATCAA ACTCATTAGC 
    AACGGAGCCT ATGGGGCCGT CTACCTGGTG CGGCACCGTG ACACACGGCA GCGCTTTGCC 
    ATCAAGAAGA TCAACAAACA GAACTTGATC CTGCGTAACC AGATCCAGCA GGTCTTTGTG 
    GAGCGTGACA TTCTCACCTT TGCCGAGAAC CCCTTTGTGG TCAGCATGTT CTGCTCCTTT 
    GAGACCCGGC GCCACCTATG TATGGTCATG GAATACGTGG AAGGCGGCGA CTGCGCCACG 
    CTCCTGAAGA ACATGGGCCC GCTGCCCGTG GACATGGCCC GCCTGTACTT CGCCGAGACG 
    GTGTTGGCGC TGGAGTACCT GCATAACTAT GGCATCGTGC ACCGTGACCT CAAACCAGAC 
    AATCTGCTCA TCACCTCGCT TGGCCACATC AAGCTCACGG ACTTCGGCCT GTCCAAGATC 
    GGCCTCATGA GCATGGCCAC CAACCTCTAT GAGGGCCACA TCGAGAAGGA CGCCCGAGAG 
    TTCATCGACA AGCAGGTGTG TGGGACGCCG GAGTACATAG CCCCCGAGGT GATCTTCCGC 
    CAGGGCTATG GGAAGCCAGT GGACTGGTGG GCCATGGGCG TCGTCCTCTA TGAGTTTCTG 
    GTGGGCTGCG TGCCTTTCTT TGGAGATACC CCCGAGGAAC TCTTCGGTCA GGTGGTCAGC 
    GATGAGATCA TGTGGCCAGA GGGAGATGAG GCCCTTCCAG CAGACGCCCA GGACCTCATC 
    ACCAGGTTGC TCCGGCAGAG CCCGCTGGAC CGTCTGGGCA CTGGTGGCAC CCACGAAGTG 
    AAGCAGCACC CCTTTTTCCT GGCCCTGGAC TGGGCAGGGC TTCTCCGACA CAAAGCCGAG 
    TTCGTGCCCC AGCTCGAAGC TGAGGATGAT ACCAGCTACT TTGACACACG TTCGGAACGT 
    TACCGCCATC TGGGCTCCGA GGACGACGAG ACCAATGATG AAGAATCGTC CACAGAGATC 
    CCCCAGTTCT CCTCCTGCTC CCACCGGTTC AGCAAGGTCT ACAGCAGCTC TGAGTTCCTG 
    GCCGTCCAGC CCACTCCTAC CTTCGCTGAA AGGAGCTTCA GTGAAGACCG GGAGGAGGGG 
    TGGGAGCGCA GCGAAGTGGA CTATGGCCGC CGGCTGAGTG CTGACATCCG GCTGAGGTCC 
    TGGACATCCT CTGGATCCTC CTGTCAGTCA TCTTCGTCCC AGCCCGAGCG GGGTCCCAGC 
    CCATCTCTCC TGAATACCAT CAGCCTGGAC ACAATGCCCA AGTTTGCCTT CTCATCAGAG 
    GATGAGGGGG TAGGCCCAGG CCCTGCAGGC CCCAAGAGGC CCGTCTTCAT TCTAGGGGAG 
    CCTGACCCCC CACCAGCGGC CACCCCAGTG ATGCCCAAGC CCTCGAGCCT TTCTGCCGAC 
    ACAGCTGCTC TCAGCCACGC CCGCCTACGG AGCAATAGCA TCGGCGCCCG ACACTCCACA 
    CCAAGGCCTC TGGATGCCGG CCGGGGCCGC CGCCTTGGGG GCCCAAGAGA CCCAGCCCCT 
    GAGAAGTCCA GAGCCTCCTC CAGCGGTGGC AGTGGTGGCG GCAGTGGGGG CCGCGTGCCC 
    AAGTCAGCCT CTGTCTCTGC CCTGTCCCTC ATCATCACGG CAGATGATGG CAGCGGCGGC 
    CCCCTCATGA GCCCCCTTTC CCCGCGCTCT CTGTCCTCGA ACCCGTCGTC CCGTGACTCT 
    TCGCCGAGCC GAGACCCGTC CCCCGTGTGT GGCAGCCTGC GGCCCCCCAT CGTTATCCAC 
    AGCTCTGGCA AGAAGTACGG CTTCAGCCTG CGGGCGATCC GCGTCTACAT GGGTGATAGC 
    GACGTCTACA CTGTGCACCA CGTCGTCTGG AGTGTGGAGG ACGGAAGCCC CGCCCAGGAG 
    GCGGGCCTGC GGGCTGGGGA CCTCATCACC CACATCAACG GGGAGTCAGT GCTGGGGCTG 
    GTGCACATGG ACGTCGTGGA GCTGCTGCTG AAGAGCGGCA ACAAGATATC CCTGCGGACC 
    ACAGCCCTGG AGAACACCTC CATCAAGGTG GGCCCCGCCC GGAAGAATGT GGCCAAGGGC 
    CGCATGGCAC GCAGGAGCAA GAGGAGCCGT CGGCGGGAGA CCCAGGATCG GTGCGCGGCA 
    GTGACCACCA GGGAGCGGCG GAAGTCACTT TTCAAGAAGA TCTCCAAGCA GACCTCCGTG 
    CTGCACACCA GCCGCAGCTT CTCCTCCGGA CTCCACCACT CACTGTCATC CAGTGAGAGC 
    CTCCCCGGCT CGCCCACCCA CAGCCTCTCC CCCAGCCCCA CCACTCCCTG CCGAAGCCCA 
    GCCCCTGATG TCCCAGCAGA TACCACTGCA TCCCCACCCA GCGCATCCCC GAGCTCCAGC 
    AGCCCCGCCT CCCCAGCTGC TGCTGGCCAC ACCCGCCCCA GCTCCCTGCA CGGCCTGGCT 
    GCCAAGCTTG GGCCACCCCG CCCCAAGACT GGCCGCCGCA AGTCCACCAG CAGCATCCCG 
    CCCTCCCCGC TGGCCTGCCC GCCCATCTCC GCGCCCCCAC CCCGCTCGCC CTCGCCCCTG 
    CCCGGGCACC CGCCCGCACC TGCCCGATCC CCGCGGCTGC GCCGGGGCCA GTCAGCTGAC 
    AAGCTGGGCA CAGGGGAGCG GCTGGATGGG GAGGCGGGGC GGCGCACTCG TGGGCCAGAG 
    GCCGAGCTCG TGGTCATGCG GCGGCTGCAC CTGTCCGAGC GCCGAGACTC CTTCAAGAAG 
    CAGGAGGCCG TGCAGGAGGT TAGCTTCGAT GAGCCGCAGG AGGAGGCCAC TGGGCTGCCC 
    ACCTCAGTGC CACAGATCGC CGTGGAGGGC GAGGAAGCCG TGCCAGTAGC TCTCGGGCCC 
    ACCGGAAGAG ACTGA

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

    MAST3 ( XM_005259826.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_005259883.1 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X11, mRNA.
    Price & Availability↑
    CloneID OHu51507
    Clone ID Related Accession (Same CDS sequence) XM_005259826.3
    Accession Version XM_005259826.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3972bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product microtubule-associated serine/threonine-protein kinase 3 isoform X11
    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 EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_005259826.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGTCCGACC CCAGCTACTG GACGGCGGTG GCGGCTCCCG GCCATCGGAG CCGCCTGGCA 
    AAAGGCGCGC TGCTGCAGCG CTCCAAGAGC TGCCGCAGCG GGAACCGCAA GAGCTTGGTG 
    GTAGGAACGC CCTCCCCGAC CCTCTCCCGG CCCCTGTCGC CATTGTCGGT CCCAACGGGC 
    AGCAGCCCCT TGGATAGTCC TCGGAATTTC TCGGCTGCCT CTGCCCTAAA TTTCCCCTTT 
    GCCCGGAGGG CAGACGGCAG AAGATGGTCC CTCGCGTCTC TCCCATCTTC CGGCTATGGA 
    ACCAACACAC CCAGCTCCAC CCTCTCGTCA AGCTCATCCT CCCGGGAACG TCTCCACCAG 
    CTTCCCTTCC AGCCGACGCC GGACGAGCTG CACTTCCTGT CCAAGCACTT CCGCAGCTCA 
    GAGAATGTGC TTGATGAGGA AGGCGGCCGG TCACCCCGCC TCCGACCCCG CTCTCGCAGT 
    CTCAGCCCGG GCCGTGCAAC GGGGACCTTC GACAATGAGA TTGTCATGAT GAATCACGTG 
    TACCGGGAGA GGTTCCCCAA GGCCACAGCA CAGATGGAGG GCCGTCTGCA GGAGTTCCTG 
    ACGGCCTACG CGCCCGGCGC CCGGCTGGCG CTGGCTGATG GCGTCTTGGG CTTCATCCAC 
    CACCAGATCG TCGAGCTGGC CCGAGACTGC TTGGCCAAGT CTGGCGAGAA CCTCGTCACC 
    TCCCGCTACT TCCTAGAGAT GCAGGAGAAG CTGGAGCGGC TTCTGCAGGA TGCCCATGAG 
    CGTTCGGACA GTGAGGAGGT CAGCTTCATC GTCCAGCTTG TCCGGAAACT GCTGATCATC 
    ATCTCACGGC CAGCTCGGCT GCTGGAGTGT CTGGAGTTTG ACCCTGAGGA ATTTTACCAC 
    CTGCTGGAGG CGGCTGAGGG CCATGCGCGG GAGGGCCAAG GCATTAAGAC TGACCTTCCA 
    CAGTACATCA TTGGGCAGCT GGGCCTGGCC AAGGACCCCC TGGAGGAGAT GGTGCCACTG 
    AGTCACCTCG AAGAAGAACA GCCCCCAGCA CCTGAGTCCC CAGAGAGCCG CGCCCTGGTC 
    GGCCAGTCAC GGAGGAAGCC ATGCGAAAGC GACTTTGAGA CCATCAAACT CATTAGCAAC 
    GGAGCCTATG GGGCCGTCTA CCTGGTGCGG CACCGTGACA CACGGCAGCG CTTTGCCATC 
    AAGAAGATCA ACAAACAGAA CTTGATCCTG CGTAACCAGA TCCAGCAGGT CTTTGTGGAG 
    CGTGACATTC TCACCTTTGC CGAGAACCCC TTTGTGGTCA GCATGTTCTG CTCCTTTGAG 
    ACCCGGCGCC ACCTATGTAT GGTCATGGAA TACGTGGAAG GCGGCGACTG CGCCACGCTC 
    CTGAAGAACA TGGGCCCGCT GCCCGTGGAC ATGGCCCGCC TGTACTTCGC CGAGACGGTG 
    TTGGCGCTGG AGTACCTGCA TAACTATGGC ATCGTGCACC GTGACCTCAA ACCAGACAAT 
    CTGCTCATCA CCTCGCTTGG CCACATCAAG CTCACGGACT TCGGCCTGTC CAAGATCGGC 
    CTCATGAGCA TGGCCACCAA CCTCTATGAG GGCCACATCG AGAAGGACGC CCGAGAGTTC 
    ATCGACAAGC AGGTGTGTGG GACGCCGGAG TACATAGCCC CCGAGGTGAT CTTCCGCCAG 
    GGCTATGGGA AGCCAGTGGA CTGGTGGGCC ATGGGCGTCG TCCTCTATGA GTTTCTGGTG 
    GGCTGCGTGC CTTTCTTTGG AGATACCCCC GAGGAACTCT TCGGTCAGGT GGTCAGCGAT 
    GAGATCATGT GGCCAGAGGG AGATGAGGCC CTTCCAGCAG ACGCCCAGGA CCTCATCACC 
    AGGTTGCTCC GGCAGAGCCC GCTGGACCGT CTGGGCACTG GTGGCACCCA CGAAGTGAAG 
    CAGCACCCCT TTTTCCTGGC CCTGGACTGG GCAGGGCTTC TCCGACACAA AGCCGAGTTC 
    GTGCCCCAGC TCGAAGCTGA GGATGATACC AGCTACTTTG ACACACGTTC GGAACGTTAC 
    CGCCATCTGG GCTCCGAGGA CGACGAGACC AATGATGAAG AATCGTCCAC AGAGATCCCC 
    CAGTTCTCCT CCTGCTCCCA CCGGTTCAGC AAGGTCTACA GCAGCTCTGA GTTCCTGGCC 
    GTCCAGCCCA CTCCTACCTT CGCTGAAAGG AGCTTCAGTG AAGACCGGGA GGAGGGGTGG 
    GAGCGCAGCG AAGTGGACTA TGGCCGCCGG CTGAGTGCTG ACATCCGGCT GAGGTCCTGG 
    ACATCCTCTG GATCCTCCTG TCAGTCATCT TCGTCCCAGC CCGAGCGGGG TCCCAGCCCA 
    TCTCTCCTGA ATACCATCAG CCTGGACACA ATGCCCAAGT TTGCCTTCTC ATCAGAGGAT 
    GAGGGGGTAG GCCCAGGCCC TGCAGGCCCC AAGAGGCCCG TCTTCATTCT AGGGGAGCCT 
    GACCCCCCAC CAGCGGCCAC CCCAGTGATG CCCAAGCCCT CGAGCCTTTC TGCCGACACA 
    GCTGCTCTCA GCCACGCCCG CCTACGGAGC AATAGCATCG GCGCCCGACA CTCCACACCA 
    AGGCCTCTGG ATGCCGGCCG GGGCCGCCGC CTTGGGGGCC CAAGAGACCC AGCCCCTGAG 
    AAGTCCAGAG CCTCCTCCAG CGGTGGCAGT GGTGGCGGCA GTGGGGGCCG CGTGCCCAAG 
    TCAGCCTCTG TCTCTGCCCT GTCCCTCATC ATCACGGCAG ATGATGGCAG CGGCGGCCCC 
    CTCATGAGCC CCCTTTCCCC GCGCTCTCTG TCCTCGAACC CGTCGTCCCG TGACTCTTCG 
    CCGAGCCGAG ACCCGTCCCC CGTGTGTGGC AGCCTGCGGC CCCCCATCGT TATCCACAGC 
    TCTGGCAAGA AGTACGGCTT CAGCCTGCGG GCGATCCGCG TCTACATGGG TGATAGCGAC 
    GTCTACACTG TGCACCACGT CGTCTGGAGT GTGGAGGACG GAAGCCCCGC CCAGGAGGCG 
    GGCCTGCGGG CTGGGGACCT CATCACCCAC ATCAACGGGG AGTCAGTGCT GGGGCTGGTG 
    CACATGGACG TCGTGGAGCT GCTGCTGAAG AGCGGCAACA AGATATCCCT GCGGACCACA 
    GCCCTGGAGA ACACCTCCAT CAAGGTGGGC CCCGCCCGGA AGAATGTGGC CAAGGGCCGC 
    ATGGCACGCA GGAGCAAGAG GAGCCGTCGG CGGGAGACCC AGGATCGGTG CGCGGCAGTG 
    ACCACCAGGG AGCGGCGGAA GTCACTTTTC AAGAAGATCT CCAAGCAGAC CTCCGTGCTG 
    CACACCAGCC GCAGCTTCTC CTCCGGACTC CACCACTCAC TGTCATCCAG TGAGAGCCTC 
    CCCGGCTCGC CCACCCACAG CCTCTCCCCC AGCCCCACCA CTCCCTGCCG AAGCCCAGCC 
    CCTGATGTCC CAGCAGATAC CACTGCATCC CCACCCAGCG CATCCCCGAG CTCCAGCAGC 
    CCCGCCTCCC CAGCTGCTGC TGGCCACACC CGCCCCAGCT CCCTGCACGG CCTGGCTGCC 
    AAGCTTGGGC CACCCCGCCC CAAGACTGGC CGCCGCAAGT CCACCAGCAG CATCCCGCCC 
    TCCCCGCTGG CCTGCCCGCC CATCTCCGCG CCCCCACCCC GCTCGCCCTC GCCCCTGCCC 
    GGGCACCCGC CCGCACCTGC CCGATCCCCG CGGCTGCGCC GGGGCCAGTC AGCTGACAAG 
    CTGGGCACAG GGGAGCGGCT GGATGGGGAG GCGGGGCGGC GCACTCGTGG GCCAGAGGCC 
    GAGCTCGTGG TCATGCGGCG GCTGCACCTG TCCGAGCGCC GAGACTCCTT CAAGAAGCAG 
    GAGGCCGTGC AGGAGGTTAG CTTCGATGAG CCGCAGGAGG AGGCCACTGG GCTGCCCACC 
    TCAGTGCCAC AGATCGCCGT GGAGGGCGAG GAAGCCGTGC CAGTAGCTCT CGGGCCCACC 
    GGAAGAGACT GA

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

    RefSeq XP_005259883.1
    CDS146..4117
    Translation

    Target ORF information:

    RefSeq Version XM_005259826.3
    Organism Homo sapiens(human)
    Definition Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005259826.3

    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
    ATGTCCGACC CCAGCTACTG GACGGCGGTG GCGGCTCCCG GCCATCGGAG CCGCCTGGCA 
    AAAGGCGCGC TGCTGCAGCG CTCCAAGAGC TGCCGCAGCG GGAACCGCAA GAGCTTGGTG 
    GTAGGAACGC CCTCCCCGAC CCTCTCCCGG CCCCTGTCGC CATTGTCGGT CCCAACGGGC 
    AGCAGCCCCT TGGATAGTCC TCGGAATTTC TCGGCTGCCT CTGCCCTAAA TTTCCCCTTT 
    GCCCGGAGGG CAGACGGCAG AAGATGGTCC CTCGCGTCTC TCCCATCTTC CGGCTATGGA 
    ACCAACACAC CCAGCTCCAC CCTCTCGTCA AGCTCATCCT CCCGGGAACG TCTCCACCAG 
    CTTCCCTTCC AGCCGACGCC GGACGAGCTG CACTTCCTGT CCAAGCACTT CCGCAGCTCA 
    GAGAATGTGC TTGATGAGGA AGGCGGCCGG TCACCCCGCC TCCGACCCCG CTCTCGCAGT 
    CTCAGCCCGG GCCGTGCAAC GGGGACCTTC GACAATGAGA TTGTCATGAT GAATCACGTG 
    TACCGGGAGA GGTTCCCCAA GGCCACAGCA CAGATGGAGG GCCGTCTGCA GGAGTTCCTG 
    ACGGCCTACG CGCCCGGCGC CCGGCTGGCG CTGGCTGATG GCGTCTTGGG CTTCATCCAC 
    CACCAGATCG TCGAGCTGGC CCGAGACTGC TTGGCCAAGT CTGGCGAGAA CCTCGTCACC 
    TCCCGCTACT TCCTAGAGAT GCAGGAGAAG CTGGAGCGGC TTCTGCAGGA TGCCCATGAG 
    CGTTCGGACA GTGAGGAGGT CAGCTTCATC GTCCAGCTTG TCCGGAAACT GCTGATCATC 
    ATCTCACGGC CAGCTCGGCT GCTGGAGTGT CTGGAGTTTG ACCCTGAGGA ATTTTACCAC 
    CTGCTGGAGG CGGCTGAGGG CCATGCGCGG GAGGGCCAAG GCATTAAGAC TGACCTTCCA 
    CAGTACATCA TTGGGCAGCT GGGCCTGGCC AAGGACCCCC TGGAGGAGAT GGTGCCACTG 
    AGTCACCTCG AAGAAGAACA GCCCCCAGCA CCTGAGTCCC CAGAGAGCCG CGCCCTGGTC 
    GGCCAGTCAC GGAGGAAGCC ATGCGAAAGC GACTTTGAGA CCATCAAACT CATTAGCAAC 
    GGAGCCTATG GGGCCGTCTA CCTGGTGCGG CACCGTGACA CACGGCAGCG CTTTGCCATC 
    AAGAAGATCA ACAAACAGAA CTTGATCCTG CGTAACCAGA TCCAGCAGGT CTTTGTGGAG 
    CGTGACATTC TCACCTTTGC CGAGAACCCC TTTGTGGTCA GCATGTTCTG CTCCTTTGAG 
    ACCCGGCGCC ACCTATGTAT GGTCATGGAA TACGTGGAAG GCGGCGACTG CGCCACGCTC 
    CTGAAGAACA TGGGCCCGCT GCCCGTGGAC ATGGCCCGCC TGTACTTCGC CGAGACGGTG 
    TTGGCGCTGG AGTACCTGCA TAACTATGGC ATCGTGCACC GTGACCTCAA ACCAGACAAT 
    CTGCTCATCA CCTCGCTTGG CCACATCAAG CTCACGGACT TCGGCCTGTC CAAGATCGGC 
    CTCATGAGCA TGGCCACCAA CCTCTATGAG GGCCACATCG AGAAGGACGC CCGAGAGTTC 
    ATCGACAAGC AGGTGTGTGG GACGCCGGAG TACATAGCCC CCGAGGTGAT CTTCCGCCAG 
    GGCTATGGGA AGCCAGTGGA CTGGTGGGCC ATGGGCGTCG TCCTCTATGA GTTTCTGGTG 
    GGCTGCGTGC CTTTCTTTGG AGATACCCCC GAGGAACTCT TCGGTCAGGT GGTCAGCGAT 
    GAGATCATGT GGCCAGAGGG AGATGAGGCC CTTCCAGCAG ACGCCCAGGA CCTCATCACC 
    AGGTTGCTCC GGCAGAGCCC GCTGGACCGT CTGGGCACTG GTGGCACCCA CGAAGTGAAG 
    CAGCACCCCT TTTTCCTGGC CCTGGACTGG GCAGGGCTTC TCCGACACAA AGCCGAGTTC 
    GTGCCCCAGC TCGAAGCTGA GGATGATACC AGCTACTTTG ACACACGTTC GGAACGTTAC 
    CGCCATCTGG GCTCCGAGGA CGACGAGACC AATGATGAAG AATCGTCCAC AGAGATCCCC 
    CAGTTCTCCT CCTGCTCCCA CCGGTTCAGC AAGGTCTACA GCAGCTCTGA GTTCCTGGCC 
    GTCCAGCCCA CTCCTACCTT CGCTGAAAGG AGCTTCAGTG AAGACCGGGA GGAGGGGTGG 
    GAGCGCAGCG AAGTGGACTA TGGCCGCCGG CTGAGTGCTG ACATCCGGCT GAGGTCCTGG 
    ACATCCTCTG GATCCTCCTG TCAGTCATCT TCGTCCCAGC CCGAGCGGGG TCCCAGCCCA 
    TCTCTCCTGA ATACCATCAG CCTGGACACA ATGCCCAAGT TTGCCTTCTC ATCAGAGGAT 
    GAGGGGGTAG GCCCAGGCCC TGCAGGCCCC AAGAGGCCCG TCTTCATTCT AGGGGAGCCT 
    GACCCCCCAC CAGCGGCCAC CCCAGTGATG CCCAAGCCCT CGAGCCTTTC TGCCGACACA 
    GCTGCTCTCA GCCACGCCCG CCTACGGAGC AATAGCATCG GCGCCCGACA CTCCACACCA 
    AGGCCTCTGG ATGCCGGCCG GGGCCGCCGC CTTGGGGGCC CAAGAGACCC AGCCCCTGAG 
    AAGTCCAGAG CCTCCTCCAG CGGTGGCAGT GGTGGCGGCA GTGGGGGCCG CGTGCCCAAG 
    TCAGCCTCTG TCTCTGCCCT GTCCCTCATC ATCACGGCAG ATGATGGCAG CGGCGGCCCC 
    CTCATGAGCC CCCTTTCCCC GCGCTCTCTG TCCTCGAACC CGTCGTCCCG TGACTCTTCG 
    CCGAGCCGAG ACCCGTCCCC CGTGTGTGGC AGCCTGCGGC CCCCCATCGT TATCCACAGC 
    TCTGGCAAGA AGTACGGCTT CAGCCTGCGG GCGATCCGCG TCTACATGGG TGATAGCGAC 
    GTCTACACTG TGCACCACGT CGTCTGGAGT GTGGAGGACG GAAGCCCCGC CCAGGAGGCG 
    GGCCTGCGGG CTGGGGACCT CATCACCCAC ATCAACGGGG AGTCAGTGCT GGGGCTGGTG 
    CACATGGACG TCGTGGAGCT GCTGCTGAAG AGCGGCAACA AGATATCCCT GCGGACCACA 
    GCCCTGGAGA ACACCTCCAT CAAGGTGGGC CCCGCCCGGA AGAATGTGGC CAAGGGCCGC 
    ATGGCACGCA GGAGCAAGAG GAGCCGTCGG CGGGAGACCC AGGATCGGTG CGCGGCAGTG 
    ACCACCAGGG AGCGGCGGAA GTCACTTTTC AAGAAGATCT CCAAGCAGAC CTCCGTGCTG 
    CACACCAGCC GCAGCTTCTC CTCCGGACTC CACCACTCAC TGTCATCCAG TGAGAGCCTC 
    CCCGGCTCGC CCACCCACAG CCTCTCCCCC AGCCCCACCA CTCCCTGCCG AAGCCCAGCC 
    CCTGATGTCC CAGCAGATAC CACTGCATCC CCACCCAGCG CATCCCCGAG CTCCAGCAGC 
    CCCGCCTCCC CAGCTGCTGC TGGCCACACC CGCCCCAGCT CCCTGCACGG CCTGGCTGCC 
    AAGCTTGGGC CACCCCGCCC CAAGACTGGC CGCCGCAAGT CCACCAGCAG CATCCCGCCC 
    TCCCCGCTGG CCTGCCCGCC CATCTCCGCG CCCCCACCCC GCTCGCCCTC GCCCCTGCCC 
    GGGCACCCGC CCGCACCTGC CCGATCCCCG CGGCTGCGCC GGGGCCAGTC AGCTGACAAG 
    CTGGGCACAG GGGAGCGGCT GGATGGGGAG GCGGGGCGGC GCACTCGTGG GCCAGAGGCC 
    GAGCTCGTGG TCATGCGGCG GCTGCACCTG TCCGAGCGCC GAGACTCCTT CAAGAAGCAG 
    GAGGCCGTGC AGGAGGTTAG CTTCGATGAG CCGCAGGAGG AGGCCACTGG GCTGCCCACC 
    TCAGTGCCAC AGATCGCCGT GGAGGGCGAG GAAGCCGTGC CAGTAGCTCT CGGGCCCACC 
    GGAAGAGACT GA

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

    MAST3 ( XM_005259827.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_005259884.1 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X14, mRNA.
    Price & Availability↑
    CloneID OHu51508
    Clone ID Related Accession (Same CDS sequence) XM_005259827.3 , XM_005259827.2
    Accession Version XM_005259827.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3948bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product microtubule-associated serine/threonine-protein kinase 3 isoform X14
    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 EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_005259827.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGTCCGACC CCAGCTACTG GACGGCGGTG GCGGCTCCCG GCCATCGGAG CCGCCTGGCA 
    AAAGGCGCGC TGCTGCAGCG CTCCAAGAGC TGCCGCAGCG GGAACCGCAA GAGCTTGGTG 
    GTAGGAACGC CCTCCCCGAC CCTCTCCCGG CCCCTGTCGC CATTGTCGGT CCCAACGGCA 
    GGCAGCAGCC CCTTGGATAG TCCTCGGAAT TTCTCGGCTG CCTCTGCCCT AAATTTCCCC 
    TTTGCCCGGA GGGCAGACGG CAGAAGATGG TCCCTCGCGT CTCTCCCATC TTCCGGCTAT 
    GGAACCAACA CACCCAGCTC CACCCTCTCG TCAAGCTCAT CCTCCCGGGA ACGTCTCCAC 
    CAGCTTCCCT TCCAGCCGAC GCCGGACGAG CTGCACTTCC TGTCCAAGCA CTTCCGCAGC 
    TCAGAGAATG TGCTTGATGA GGAAGGCGGC CGGTCACCCC GCCTCCGACC CCGCTCTCGC 
    AGTCTCAGCC CGGGCCGTGC AACGGGGACC TTCGACAATG AGATTGTCAT GATGAATCAC 
    GTGTACCGGG AGAGGTTCCC CAAGGCCACA GCACAGATGG AGGGCCGTCT GCAGGAGTTC 
    CTGACGGCCT ACGCGCCCGG CGCCCGGCTG GCGCTGGCTG ATGGCGTCTT GGGCTTCATC 
    CACCACCAGA TCGTCGAGCT GGCCCGAGAC TGCTTGGCCA AGTCTGGCGA GAACCTCGTC 
    ACCTCCCGCT ACTTCCTAGA GATGCAGGAG AAGCTGGAGC GGCTTCTGCA GGATGCCCAT 
    GAGCGTTCGG ACAGTGAGGA GGTCAGCTTC ATCGTCCAGC TTGTCCGGAA ACTGCTGATC 
    ATCATCTCAC GGCCAGCTCG GCTGCTGGAG TGTCTGGAGT TTGACCCTGA GGAATTTTAC 
    CACCTGCTGG AGGCGGCTGA GGGCCATGCG CGGGAGGGCC AAGGCATTAA GACTGACCTT 
    CCACAGTACA TCATTGGGCA GCTGGGCCTG GCCAAGGACC CCCTGGAGGA GATGGTGCCA 
    CTGAGTCACC TCGAAGAAGA ACAGCCCCCA GCACCTGAGT CCCCAGAGAG CCGCGCCCTG 
    GTCGGCCAGT CACGGAGGAA GCCATGCGAA AGCGACTTTG AGACCATCAA ACTCATTAGC 
    AACGGAGCCT ATGGGGCCGT CTACCTGGTG CGGCACCGTG ACACACGGCA GCGCTTTGCC 
    ATCAAGAAGA TCAACAAACA GAACTTGATC CTGCGTAACC AGATCCAGCA GGTCTTTGTG 
    GAGCGTGACA TTCTCACCTT TGCCGAGAAC CCCTTTGTGG TCAGCATGTT CTGCTCCTTT 
    GAGACCCGGC GCCACCTATG TATGGTCATG GAATACGTGG AAGGCGGCGA CTGCGCCACG 
    CTCCTGAAGA ACATGGGCCC GCTGCCCGTG GACATGGCCC GCCTGTACTT CGCCGAGACG 
    GTGTTGGCGC TGGAGTACCT GCATAACTAT GGCATCGTGC ACCGTGACCT CAAACCAGAC 
    AATCTGCTCA TCACCTCGCT TGGCCACATC AAGCTCACGG ACTTCGGCCT GTCCAAGATC 
    GGCCTCATGA GCATGGCCAC CAACCTCTAT GAGGGCCACA TCGAGAAGGA CGCCCGAGAG 
    TTCATCGACA AGCAGGTGTG TGGGACGCCG GAGTACATAG CCCCCGAGGT GATCTTCCGC 
    CAGGGCTATG GGAAGCCAGT GGACTGGTGG GCCATGGGCG TCGTCCTCTA TGAGTTTCTG 
    GTGGGCTGCG TGCCTTTCTT TGGAGATACC CCCGAGGAAC TCTTCGGTCA GGTGGTCAGC 
    GATGAGATCA TGTGGCCAGA GGGAGATGAG GCCCTTCCAG CAGACGCCCA GGACCTCATC 
    ACCAGGTTGC TCCGGCAGAG CCCGCTGGAC CGTCTGGGCA CTGGTGGCAC CCACGAAGTG 
    AAGCAGCACC CCTTTTTCCT GGCCCTGGAC TGGGCAGGGC TTCTCCGACA CAAAGCCGAG 
    TTCGTGCCCC AGCTCGAAGC TGAGGATGAT ACCAGCTACT TTGACACACG TTCGGAACGT 
    TACCGCCATC TGGGCTCCGA GGACGACGAG ACCAATGATG AAGAATCGTC CACAGAGATC 
    CCCCAGTTCT CCTCCTGCTC CCACCGGTTC AGCAAGGTCT ACAGCAGCTC TGAGTTCCTG 
    GCCGTCCAGC CCACTCCTAC CTTCGCTGAA AGGAGCTTCA GTGAAGACCG GGAGGAGGGG 
    TGGGAGCGCA GCGAAGTGGA CTATGGCCGC CGGCTGAGTG CTGACATCCG GCTGAGGTCC 
    TGGACATCCT CTGGATCCTC CTGTCAGTCA TCTTCGTCCC AGCCCGAGCG GGGTCCCAGC 
    CCATCTCTCC TGAATACCAT CAGCCTGGAC ACAATGCCCA AGTTTGCCTT CTCATCAGAG 
    GATGAGGGGG TAGGCCCAGG CCCTGCAGGC CCCAAGAGGC CCGTCTTCAT TCTAGGGGAG 
    CCTGACCCCC CACCAGCGGC CACCCCAGTG ATGCCCAAGC CCTCGAGCCT TTCTGCCGAC 
    ACAGCTGCTC TCAGCCACGC CCGCCTACGG AGCAATAGCA TCGGCGCCCG ACACTCCACA 
    CCAAGGCCTC TGGATGCCGG CCGGGGCCGC CGCCTTGGGG GCCCAAGAGA CCCAGCCCCT 
    GAGAAGTCCA GAGCCTCCTC CAGCGGTGGC AGTGGTGGCG GCAGTGGGGG CCGCGTGCCC 
    AAGTCAGCCT CTGTCTCTGC CCTGTCCCTC ATCATCACGG CAGATGATGG CAGCGGCGGC 
    CCCCTCATGA GCCCCCTTTC CCCGCGCTCT CTGTCCTCGA ACCCGTCGTC CCGTGACTCT 
    TCGCCGAGCC GAGACCCGTC CCCCGTGTGT GGCAGCCTGC GGCCCCCCAT CGTTATCCAC 
    AGCTCTGGCA AGAAGTACGG CTTCAGCCTG CGGGCGATCC GCGTCTACAT GGGTGATAGC 
    GACGTCTACA CTGTGCACCA CGTCGTCTGG AGTGTGGAGG ACGGAAGCCC CGCCCAGGAG 
    GCGGGCCTGC GGGCTGGGGA CCTCATCACC CACATCAACG GGGAGTCAGT GCTGGGGCTG 
    GTGCACATGG ACGTCGTGGA GCTGCTGCTG AAGAGCGGCA ACAAGATATC CCTGCGGACC 
    ACAGCCCTGG AGAACACCTC CATCAAGGTG GGCCCCGCCC GGAAGAATGT GGCCAAGGGC 
    CGCATGGCAC GCAGGAGCAA GAGGAGCCGT CGGCGGGAGA CCCAGGATCG GCGGAAGTCA 
    CTTTTCAAGA AGATCTCCAA GCAGACCTCC GTGCTGCACA CCAGCCGCAG CTTCTCCTCC 
    GGACTCCACC ACTCACTGTC ATCCAGTGAG AGCCTCCCCG GCTCGCCCAC CCACAGCCTC 
    TCCCCCAGCC CCACCACTCC CTGCCGAAGC CCAGCCCCTG ATGTCCCAGC AGATACCACT 
    GCATCCCCAC CCAGCGCATC CCCGAGCTCC AGCAGCCCCG CCTCCCCAGC TGCTGCTGGC 
    CACACCCGCC CCAGCTCCCT GCACGGCCTG GCTGCCAAGC TTGGGCCACC CCGCCCCAAG 
    ACTGGCCGCC GCAAGTCCAC CAGCAGCATC CCGCCCTCCC CGCTGGCCTG CCCGCCCATC 
    TCCGCGCCCC CACCCCGCTC GCCCTCGCCC CTGCCCGGGC ACCCGCCCGC ACCTGCCCGA 
    TCCCCGCGGC TGCGCCGGGG CCAGTCAGCT GACAAGCTGG GCACAGGGGA GCGGCTGGAT 
    GGGGAGGCGG GGCGGCGCAC TCGTGGGCCA GAGGCCGAGC TCGTGGTCAT GCGGCGGCTG 
    CACCTGTCCG AGCGCCGAGA CTCCTTCAAG AAGCAGGAGG CCGTGCAGGA GGTTAGCTTC 
    GATGAGCCGC AGGAGGAGGC CACTGGGCTG CCCACCTCAG TGCCACAGAT CGCCGTGGAG 
    GGCGAGGAAG CCGTGCCAGT AGCTCTCGGG CCCACCGGAA GAGACTGA

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

    RefSeq XP_005259884.1
    CDS1..3948
    Translation

    Target ORF information:

    RefSeq Version XM_005259827.3
    Organism Homo sapiens(human)
    Definition Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X14, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005259827.3

    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
    ATGTCCGACC CCAGCTACTG GACGGCGGTG GCGGCTCCCG GCCATCGGAG CCGCCTGGCA 
    AAAGGCGCGC TGCTGCAGCG CTCCAAGAGC TGCCGCAGCG GGAACCGCAA GAGCTTGGTG 
    GTAGGAACGC CCTCCCCGAC CCTCTCCCGG CCCCTGTCGC CATTGTCGGT CCCAACGGCA 
    GGCAGCAGCC CCTTGGATAG TCCTCGGAAT TTCTCGGCTG CCTCTGCCCT AAATTTCCCC 
    TTTGCCCGGA GGGCAGACGG CAGAAGATGG TCCCTCGCGT CTCTCCCATC TTCCGGCTAT 
    GGAACCAACA CACCCAGCTC CACCCTCTCG TCAAGCTCAT CCTCCCGGGA ACGTCTCCAC 
    CAGCTTCCCT TCCAGCCGAC GCCGGACGAG CTGCACTTCC TGTCCAAGCA CTTCCGCAGC 
    TCAGAGAATG TGCTTGATGA GGAAGGCGGC CGGTCACCCC GCCTCCGACC CCGCTCTCGC 
    AGTCTCAGCC CGGGCCGTGC AACGGGGACC TTCGACAATG AGATTGTCAT GATGAATCAC 
    GTGTACCGGG AGAGGTTCCC CAAGGCCACA GCACAGATGG AGGGCCGTCT GCAGGAGTTC 
    CTGACGGCCT ACGCGCCCGG CGCCCGGCTG GCGCTGGCTG ATGGCGTCTT GGGCTTCATC 
    CACCACCAGA TCGTCGAGCT GGCCCGAGAC TGCTTGGCCA AGTCTGGCGA GAACCTCGTC 
    ACCTCCCGCT ACTTCCTAGA GATGCAGGAG AAGCTGGAGC GGCTTCTGCA GGATGCCCAT 
    GAGCGTTCGG ACAGTGAGGA GGTCAGCTTC ATCGTCCAGC TTGTCCGGAA ACTGCTGATC 
    ATCATCTCAC GGCCAGCTCG GCTGCTGGAG TGTCTGGAGT TTGACCCTGA GGAATTTTAC 
    CACCTGCTGG AGGCGGCTGA GGGCCATGCG CGGGAGGGCC AAGGCATTAA GACTGACCTT 
    CCACAGTACA TCATTGGGCA GCTGGGCCTG GCCAAGGACC CCCTGGAGGA GATGGTGCCA 
    CTGAGTCACC TCGAAGAAGA ACAGCCCCCA GCACCTGAGT CCCCAGAGAG CCGCGCCCTG 
    GTCGGCCAGT CACGGAGGAA GCCATGCGAA AGCGACTTTG AGACCATCAA ACTCATTAGC 
    AACGGAGCCT ATGGGGCCGT CTACCTGGTG CGGCACCGTG ACACACGGCA GCGCTTTGCC 
    ATCAAGAAGA TCAACAAACA GAACTTGATC CTGCGTAACC AGATCCAGCA GGTCTTTGTG 
    GAGCGTGACA TTCTCACCTT TGCCGAGAAC CCCTTTGTGG TCAGCATGTT CTGCTCCTTT 
    GAGACCCGGC GCCACCTATG TATGGTCATG GAATACGTGG AAGGCGGCGA CTGCGCCACG 
    CTCCTGAAGA ACATGGGCCC GCTGCCCGTG GACATGGCCC GCCTGTACTT CGCCGAGACG 
    GTGTTGGCGC TGGAGTACCT GCATAACTAT GGCATCGTGC ACCGTGACCT CAAACCAGAC 
    AATCTGCTCA TCACCTCGCT TGGCCACATC AAGCTCACGG ACTTCGGCCT GTCCAAGATC 
    GGCCTCATGA GCATGGCCAC CAACCTCTAT GAGGGCCACA TCGAGAAGGA CGCCCGAGAG 
    TTCATCGACA AGCAGGTGTG TGGGACGCCG GAGTACATAG CCCCCGAGGT GATCTTCCGC 
    CAGGGCTATG GGAAGCCAGT GGACTGGTGG GCCATGGGCG TCGTCCTCTA TGAGTTTCTG 
    GTGGGCTGCG TGCCTTTCTT TGGAGATACC CCCGAGGAAC TCTTCGGTCA GGTGGTCAGC 
    GATGAGATCA TGTGGCCAGA GGGAGATGAG GCCCTTCCAG CAGACGCCCA GGACCTCATC 
    ACCAGGTTGC TCCGGCAGAG CCCGCTGGAC CGTCTGGGCA CTGGTGGCAC CCACGAAGTG 
    AAGCAGCACC CCTTTTTCCT GGCCCTGGAC TGGGCAGGGC TTCTCCGACA CAAAGCCGAG 
    TTCGTGCCCC AGCTCGAAGC TGAGGATGAT ACCAGCTACT TTGACACACG TTCGGAACGT 
    TACCGCCATC TGGGCTCCGA GGACGACGAG ACCAATGATG AAGAATCGTC CACAGAGATC 
    CCCCAGTTCT CCTCCTGCTC CCACCGGTTC AGCAAGGTCT ACAGCAGCTC TGAGTTCCTG 
    GCCGTCCAGC CCACTCCTAC CTTCGCTGAA AGGAGCTTCA GTGAAGACCG GGAGGAGGGG 
    TGGGAGCGCA GCGAAGTGGA CTATGGCCGC CGGCTGAGTG CTGACATCCG GCTGAGGTCC 
    TGGACATCCT CTGGATCCTC CTGTCAGTCA TCTTCGTCCC AGCCCGAGCG GGGTCCCAGC 
    CCATCTCTCC TGAATACCAT CAGCCTGGAC ACAATGCCCA AGTTTGCCTT CTCATCAGAG 
    GATGAGGGGG TAGGCCCAGG CCCTGCAGGC CCCAAGAGGC CCGTCTTCAT TCTAGGGGAG 
    CCTGACCCCC CACCAGCGGC CACCCCAGTG ATGCCCAAGC CCTCGAGCCT TTCTGCCGAC 
    ACAGCTGCTC TCAGCCACGC CCGCCTACGG AGCAATAGCA TCGGCGCCCG ACACTCCACA 
    CCAAGGCCTC TGGATGCCGG CCGGGGCCGC CGCCTTGGGG GCCCAAGAGA CCCAGCCCCT 
    GAGAAGTCCA GAGCCTCCTC CAGCGGTGGC AGTGGTGGCG GCAGTGGGGG CCGCGTGCCC 
    AAGTCAGCCT CTGTCTCTGC CCTGTCCCTC ATCATCACGG CAGATGATGG CAGCGGCGGC 
    CCCCTCATGA GCCCCCTTTC CCCGCGCTCT CTGTCCTCGA ACCCGTCGTC CCGTGACTCT 
    TCGCCGAGCC GAGACCCGTC CCCCGTGTGT GGCAGCCTGC GGCCCCCCAT CGTTATCCAC 
    AGCTCTGGCA AGAAGTACGG CTTCAGCCTG CGGGCGATCC GCGTCTACAT GGGTGATAGC 
    GACGTCTACA CTGTGCACCA CGTCGTCTGG AGTGTGGAGG ACGGAAGCCC CGCCCAGGAG 
    GCGGGCCTGC GGGCTGGGGA CCTCATCACC CACATCAACG GGGAGTCAGT GCTGGGGCTG 
    GTGCACATGG ACGTCGTGGA GCTGCTGCTG AAGAGCGGCA ACAAGATATC CCTGCGGACC 
    ACAGCCCTGG AGAACACCTC CATCAAGGTG GGCCCCGCCC GGAAGAATGT GGCCAAGGGC 
    CGCATGGCAC GCAGGAGCAA GAGGAGCCGT CGGCGGGAGA CCCAGGATCG GCGGAAGTCA 
    CTTTTCAAGA AGATCTCCAA GCAGACCTCC GTGCTGCACA CCAGCCGCAG CTTCTCCTCC 
    GGACTCCACC ACTCACTGTC ATCCAGTGAG AGCCTCCCCG GCTCGCCCAC CCACAGCCTC 
    TCCCCCAGCC CCACCACTCC CTGCCGAAGC CCAGCCCCTG ATGTCCCAGC AGATACCACT 
    GCATCCCCAC CCAGCGCATC CCCGAGCTCC AGCAGCCCCG CCTCCCCAGC TGCTGCTGGC 
    CACACCCGCC CCAGCTCCCT GCACGGCCTG GCTGCCAAGC TTGGGCCACC CCGCCCCAAG 
    ACTGGCCGCC GCAAGTCCAC CAGCAGCATC CCGCCCTCCC CGCTGGCCTG CCCGCCCATC 
    TCCGCGCCCC CACCCCGCTC GCCCTCGCCC CTGCCCGGGC ACCCGCCCGC ACCTGCCCGA 
    TCCCCGCGGC TGCGCCGGGG CCAGTCAGCT GACAAGCTGG GCACAGGGGA GCGGCTGGAT 
    GGGGAGGCGG GGCGGCGCAC TCGTGGGCCA GAGGCCGAGC TCGTGGTCAT GCGGCGGCTG 
    CACCTGTCCG AGCGCCGAGA CTCCTTCAAG AAGCAGGAGG CCGTGCAGGA GGTTAGCTTC 
    GATGAGCCGC AGGAGGAGGC CACTGGGCTG CCCACCTCAG TGCCACAGAT CGCCGTGGAG 
    GGCGAGGAAG CCGTGCCAGT AGCTCTCGGG CCCACCGGAA GAGACTGA

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

    MAST3 ( XM_005259827.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_005259884.1 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X14, mRNA.
    Price & Availability↑
    CloneID OHu51508
    Clone ID Related Accession (Same CDS sequence) XM_005259827.3 , XM_005259827.2
    Accession Version XM_005259827.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3948bp)
    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 3 isoform X14
    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 EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_005259827.1. ##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
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGTCCGACC CCAGCTACTG GACGGCGGTG GCGGCTCCCG GCCATCGGAG CCGCCTGGCA 
    AAAGGCGCGC TGCTGCAGCG CTCCAAGAGC TGCCGCAGCG GGAACCGCAA GAGCTTGGTG 
    GTAGGAACGC CCTCCCCGAC CCTCTCCCGG CCCCTGTCGC CATTGTCGGT CCCAACGGCA 
    GGCAGCAGCC CCTTGGATAG TCCTCGGAAT TTCTCGGCTG CCTCTGCCCT AAATTTCCCC 
    TTTGCCCGGA GGGCAGACGG CAGAAGATGG TCCCTCGCGT CTCTCCCATC TTCCGGCTAT 
    GGAACCAACA CACCCAGCTC CACCCTCTCG TCAAGCTCAT CCTCCCGGGA ACGTCTCCAC 
    CAGCTTCCCT TCCAGCCGAC GCCGGACGAG CTGCACTTCC TGTCCAAGCA CTTCCGCAGC 
    TCAGAGAATG TGCTTGATGA GGAAGGCGGC CGGTCACCCC GCCTCCGACC CCGCTCTCGC 
    AGTCTCAGCC CGGGCCGTGC AACGGGGACC TTCGACAATG AGATTGTCAT GATGAATCAC 
    GTGTACCGGG AGAGGTTCCC CAAGGCCACA GCACAGATGG AGGGCCGTCT GCAGGAGTTC 
    CTGACGGCCT ACGCGCCCGG CGCCCGGCTG GCGCTGGCTG ATGGCGTCTT GGGCTTCATC 
    CACCACCAGA TCGTCGAGCT GGCCCGAGAC TGCTTGGCCA AGTCTGGCGA GAACCTCGTC 
    ACCTCCCGCT ACTTCCTAGA GATGCAGGAG AAGCTGGAGC GGCTTCTGCA GGATGCCCAT 
    GAGCGTTCGG ACAGTGAGGA GGTCAGCTTC ATCGTCCAGC TTGTCCGGAA ACTGCTGATC 
    ATCATCTCAC GGCCAGCTCG GCTGCTGGAG TGTCTGGAGT TTGACCCTGA GGAATTTTAC 
    CACCTGCTGG AGGCGGCTGA GGGCCATGCG CGGGAGGGCC AAGGCATTAA GACTGACCTT 
    CCACAGTACA TCATTGGGCA GCTGGGCCTG GCCAAGGACC CCCTGGAGGA GATGGTGCCA 
    CTGAGTCACC TCGAAGAAGA ACAGCCCCCA GCACCTGAGT CCCCAGAGAG CCGCGCCCTG 
    GTCGGCCAGT CACGGAGGAA GCCATGCGAA AGCGACTTTG AGACCATCAA ACTCATTAGC 
    AACGGAGCCT ATGGGGCCGT CTACCTGGTG CGGCACCGTG ACACACGGCA GCGCTTTGCC 
    ATCAAGAAGA TCAACAAACA GAACTTGATC CTGCGTAACC AGATCCAGCA GGTCTTTGTG 
    GAGCGTGACA TTCTCACCTT TGCCGAGAAC CCCTTTGTGG TCAGCATGTT CTGCTCCTTT 
    GAGACCCGGC GCCACCTATG TATGGTCATG GAATACGTGG AAGGCGGCGA CTGCGCCACG 
    CTCCTGAAGA ACATGGGCCC GCTGCCCGTG GACATGGCCC GCCTGTACTT CGCCGAGACG 
    GTGTTGGCGC TGGAGTACCT GCATAACTAT GGCATCGTGC ACCGTGACCT CAAACCAGAC 
    AATCTGCTCA TCACCTCGCT TGGCCACATC AAGCTCACGG ACTTCGGCCT GTCCAAGATC 
    GGCCTCATGA GCATGGCCAC CAACCTCTAT GAGGGCCACA TCGAGAAGGA CGCCCGAGAG 
    TTCATCGACA AGCAGGTGTG TGGGACGCCG GAGTACATAG CCCCCGAGGT GATCTTCCGC 
    CAGGGCTATG GGAAGCCAGT GGACTGGTGG GCCATGGGCG TCGTCCTCTA TGAGTTTCTG 
    GTGGGCTGCG TGCCTTTCTT TGGAGATACC CCCGAGGAAC TCTTCGGTCA GGTGGTCAGC 
    GATGAGATCA TGTGGCCAGA GGGAGATGAG GCCCTTCCAG CAGACGCCCA GGACCTCATC 
    ACCAGGTTGC TCCGGCAGAG CCCGCTGGAC CGTCTGGGCA CTGGTGGCAC CCACGAAGTG 
    AAGCAGCACC CCTTTTTCCT GGCCCTGGAC TGGGCAGGGC TTCTCCGACA CAAAGCCGAG 
    TTCGTGCCCC AGCTCGAAGC TGAGGATGAT ACCAGCTACT TTGACACACG TTCGGAACGT 
    TACCGCCATC TGGGCTCCGA GGACGACGAG ACCAATGATG AAGAATCGTC CACAGAGATC 
    CCCCAGTTCT CCTCCTGCTC CCACCGGTTC AGCAAGGTCT ACAGCAGCTC TGAGTTCCTG 
    GCCGTCCAGC CCACTCCTAC CTTCGCTGAA AGGAGCTTCA GTGAAGACCG GGAGGAGGGG 
    TGGGAGCGCA GCGAAGTGGA CTATGGCCGC CGGCTGAGTG CTGACATCCG GCTGAGGTCC 
    TGGACATCCT CTGGATCCTC CTGTCAGTCA TCTTCGTCCC AGCCCGAGCG GGGTCCCAGC 
    CCATCTCTCC TGAATACCAT CAGCCTGGAC ACAATGCCCA AGTTTGCCTT CTCATCAGAG 
    GATGAGGGGG TAGGCCCAGG CCCTGCAGGC CCCAAGAGGC CCGTCTTCAT TCTAGGGGAG 
    CCTGACCCCC CACCAGCGGC CACCCCAGTG ATGCCCAAGC CCTCGAGCCT TTCTGCCGAC 
    ACAGCTGCTC TCAGCCACGC CCGCCTACGG AGCAATAGCA TCGGCGCCCG ACACTCCACA 
    CCAAGGCCTC TGGATGCCGG CCGGGGCCGC CGCCTTGGGG GCCCAAGAGA CCCAGCCCCT 
    GAGAAGTCCA GAGCCTCCTC CAGCGGTGGC AGTGGTGGCG GCAGTGGGGG CCGCGTGCCC 
    AAGTCAGCCT CTGTCTCTGC CCTGTCCCTC ATCATCACGG CAGATGATGG CAGCGGCGGC 
    CCCCTCATGA GCCCCCTTTC CCCGCGCTCT CTGTCCTCGA ACCCGTCGTC CCGTGACTCT 
    TCGCCGAGCC GAGACCCGTC CCCCGTGTGT GGCAGCCTGC GGCCCCCCAT CGTTATCCAC 
    AGCTCTGGCA AGAAGTACGG CTTCAGCCTG CGGGCGATCC GCGTCTACAT GGGTGATAGC 
    GACGTCTACA CTGTGCACCA CGTCGTCTGG AGTGTGGAGG ACGGAAGCCC CGCCCAGGAG 
    GCGGGCCTGC GGGCTGGGGA CCTCATCACC CACATCAACG GGGAGTCAGT GCTGGGGCTG 
    GTGCACATGG ACGTCGTGGA GCTGCTGCTG AAGAGCGGCA ACAAGATATC CCTGCGGACC 
    ACAGCCCTGG AGAACACCTC CATCAAGGTG GGCCCCGCCC GGAAGAATGT GGCCAAGGGC 
    CGCATGGCAC GCAGGAGCAA GAGGAGCCGT CGGCGGGAGA CCCAGGATCG GCGGAAGTCA 
    CTTTTCAAGA AGATCTCCAA GCAGACCTCC GTGCTGCACA CCAGCCGCAG CTTCTCCTCC 
    GGACTCCACC ACTCACTGTC ATCCAGTGAG AGCCTCCCCG GCTCGCCCAC CCACAGCCTC 
    TCCCCCAGCC CCACCACTCC CTGCCGAAGC CCAGCCCCTG ATGTCCCAGC AGATACCACT 
    GCATCCCCAC CCAGCGCATC CCCGAGCTCC AGCAGCCCCG CCTCCCCAGC TGCTGCTGGC 
    CACACCCGCC CCAGCTCCCT GCACGGCCTG GCTGCCAAGC TTGGGCCACC CCGCCCCAAG 
    ACTGGCCGCC GCAAGTCCAC CAGCAGCATC CCGCCCTCCC CGCTGGCCTG CCCGCCCATC 
    TCCGCGCCCC CACCCCGCTC GCCCTCGCCC CTGCCCGGGC ACCCGCCCGC ACCTGCCCGA 
    TCCCCGCGGC TGCGCCGGGG CCAGTCAGCT GACAAGCTGG GCACAGGGGA GCGGCTGGAT 
    GGGGAGGCGG GGCGGCGCAC TCGTGGGCCA GAGGCCGAGC TCGTGGTCAT GCGGCGGCTG 
    CACCTGTCCG AGCGCCGAGA CTCCTTCAAG AAGCAGGAGG CCGTGCAGGA GGTTAGCTTC 
    GATGAGCCGC AGGAGGAGGC CACTGGGCTG CCCACCTCAG TGCCACAGAT CGCCGTGGAG 
    GGCGAGGAAG CCGTGCCAGT AGCTCTCGGG CCCACCGGAA GAGACTGA

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

    RefSeq XP_005259884.1
    CDS1..3948
    Translation

    Target ORF information:

    RefSeq Version XM_005259827.2
    Organism Homo sapiens(human)
    Definition Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X14, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005259827.2

    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
    ATGTCCGACC CCAGCTACTG GACGGCGGTG GCGGCTCCCG GCCATCGGAG CCGCCTGGCA 
    AAAGGCGCGC TGCTGCAGCG CTCCAAGAGC TGCCGCAGCG GGAACCGCAA GAGCTTGGTG 
    GTAGGAACGC CCTCCCCGAC CCTCTCCCGG CCCCTGTCGC CATTGTCGGT CCCAACGGCA 
    GGCAGCAGCC CCTTGGATAG TCCTCGGAAT TTCTCGGCTG CCTCTGCCCT AAATTTCCCC 
    TTTGCCCGGA GGGCAGACGG CAGAAGATGG TCCCTCGCGT CTCTCCCATC TTCCGGCTAT 
    GGAACCAACA CACCCAGCTC CACCCTCTCG TCAAGCTCAT CCTCCCGGGA ACGTCTCCAC 
    CAGCTTCCCT TCCAGCCGAC GCCGGACGAG CTGCACTTCC TGTCCAAGCA CTTCCGCAGC 
    TCAGAGAATG TGCTTGATGA GGAAGGCGGC CGGTCACCCC GCCTCCGACC CCGCTCTCGC 
    AGTCTCAGCC CGGGCCGTGC AACGGGGACC TTCGACAATG AGATTGTCAT GATGAATCAC 
    GTGTACCGGG AGAGGTTCCC CAAGGCCACA GCACAGATGG AGGGCCGTCT GCAGGAGTTC 
    CTGACGGCCT ACGCGCCCGG CGCCCGGCTG GCGCTGGCTG ATGGCGTCTT GGGCTTCATC 
    CACCACCAGA TCGTCGAGCT GGCCCGAGAC TGCTTGGCCA AGTCTGGCGA GAACCTCGTC 
    ACCTCCCGCT ACTTCCTAGA GATGCAGGAG AAGCTGGAGC GGCTTCTGCA GGATGCCCAT 
    GAGCGTTCGG ACAGTGAGGA GGTCAGCTTC ATCGTCCAGC TTGTCCGGAA ACTGCTGATC 
    ATCATCTCAC GGCCAGCTCG GCTGCTGGAG TGTCTGGAGT TTGACCCTGA GGAATTTTAC 
    CACCTGCTGG AGGCGGCTGA GGGCCATGCG CGGGAGGGCC AAGGCATTAA GACTGACCTT 
    CCACAGTACA TCATTGGGCA GCTGGGCCTG GCCAAGGACC CCCTGGAGGA GATGGTGCCA 
    CTGAGTCACC TCGAAGAAGA ACAGCCCCCA GCACCTGAGT CCCCAGAGAG CCGCGCCCTG 
    GTCGGCCAGT CACGGAGGAA GCCATGCGAA AGCGACTTTG AGACCATCAA ACTCATTAGC 
    AACGGAGCCT ATGGGGCCGT CTACCTGGTG CGGCACCGTG ACACACGGCA GCGCTTTGCC 
    ATCAAGAAGA TCAACAAACA GAACTTGATC CTGCGTAACC AGATCCAGCA GGTCTTTGTG 
    GAGCGTGACA TTCTCACCTT TGCCGAGAAC CCCTTTGTGG TCAGCATGTT CTGCTCCTTT 
    GAGACCCGGC GCCACCTATG TATGGTCATG GAATACGTGG AAGGCGGCGA CTGCGCCACG 
    CTCCTGAAGA ACATGGGCCC GCTGCCCGTG GACATGGCCC GCCTGTACTT CGCCGAGACG 
    GTGTTGGCGC TGGAGTACCT GCATAACTAT GGCATCGTGC ACCGTGACCT CAAACCAGAC 
    AATCTGCTCA TCACCTCGCT TGGCCACATC AAGCTCACGG ACTTCGGCCT GTCCAAGATC 
    GGCCTCATGA GCATGGCCAC CAACCTCTAT GAGGGCCACA TCGAGAAGGA CGCCCGAGAG 
    TTCATCGACA AGCAGGTGTG TGGGACGCCG GAGTACATAG CCCCCGAGGT GATCTTCCGC 
    CAGGGCTATG GGAAGCCAGT GGACTGGTGG GCCATGGGCG TCGTCCTCTA TGAGTTTCTG 
    GTGGGCTGCG TGCCTTTCTT TGGAGATACC CCCGAGGAAC TCTTCGGTCA GGTGGTCAGC 
    GATGAGATCA TGTGGCCAGA GGGAGATGAG GCCCTTCCAG CAGACGCCCA GGACCTCATC 
    ACCAGGTTGC TCCGGCAGAG CCCGCTGGAC CGTCTGGGCA CTGGTGGCAC CCACGAAGTG 
    AAGCAGCACC CCTTTTTCCT GGCCCTGGAC TGGGCAGGGC TTCTCCGACA CAAAGCCGAG 
    TTCGTGCCCC AGCTCGAAGC TGAGGATGAT ACCAGCTACT TTGACACACG TTCGGAACGT 
    TACCGCCATC TGGGCTCCGA GGACGACGAG ACCAATGATG AAGAATCGTC CACAGAGATC 
    CCCCAGTTCT CCTCCTGCTC CCACCGGTTC AGCAAGGTCT ACAGCAGCTC TGAGTTCCTG 
    GCCGTCCAGC CCACTCCTAC CTTCGCTGAA AGGAGCTTCA GTGAAGACCG GGAGGAGGGG 
    TGGGAGCGCA GCGAAGTGGA CTATGGCCGC CGGCTGAGTG CTGACATCCG GCTGAGGTCC 
    TGGACATCCT CTGGATCCTC CTGTCAGTCA TCTTCGTCCC AGCCCGAGCG GGGTCCCAGC 
    CCATCTCTCC TGAATACCAT CAGCCTGGAC ACAATGCCCA AGTTTGCCTT CTCATCAGAG 
    GATGAGGGGG TAGGCCCAGG CCCTGCAGGC CCCAAGAGGC CCGTCTTCAT TCTAGGGGAG 
    CCTGACCCCC CACCAGCGGC CACCCCAGTG ATGCCCAAGC CCTCGAGCCT TTCTGCCGAC 
    ACAGCTGCTC TCAGCCACGC CCGCCTACGG AGCAATAGCA TCGGCGCCCG ACACTCCACA 
    CCAAGGCCTC TGGATGCCGG CCGGGGCCGC CGCCTTGGGG GCCCAAGAGA CCCAGCCCCT 
    GAGAAGTCCA GAGCCTCCTC CAGCGGTGGC AGTGGTGGCG GCAGTGGGGG CCGCGTGCCC 
    AAGTCAGCCT CTGTCTCTGC CCTGTCCCTC ATCATCACGG CAGATGATGG CAGCGGCGGC 
    CCCCTCATGA GCCCCCTTTC CCCGCGCTCT CTGTCCTCGA ACCCGTCGTC CCGTGACTCT 
    TCGCCGAGCC GAGACCCGTC CCCCGTGTGT GGCAGCCTGC GGCCCCCCAT CGTTATCCAC 
    AGCTCTGGCA AGAAGTACGG CTTCAGCCTG CGGGCGATCC GCGTCTACAT GGGTGATAGC 
    GACGTCTACA CTGTGCACCA CGTCGTCTGG AGTGTGGAGG ACGGAAGCCC CGCCCAGGAG 
    GCGGGCCTGC GGGCTGGGGA CCTCATCACC CACATCAACG GGGAGTCAGT GCTGGGGCTG 
    GTGCACATGG ACGTCGTGGA GCTGCTGCTG AAGAGCGGCA ACAAGATATC CCTGCGGACC 
    ACAGCCCTGG AGAACACCTC CATCAAGGTG GGCCCCGCCC GGAAGAATGT GGCCAAGGGC 
    CGCATGGCAC GCAGGAGCAA GAGGAGCCGT CGGCGGGAGA CCCAGGATCG GCGGAAGTCA 
    CTTTTCAAGA AGATCTCCAA GCAGACCTCC GTGCTGCACA CCAGCCGCAG CTTCTCCTCC 
    GGACTCCACC ACTCACTGTC ATCCAGTGAG AGCCTCCCCG GCTCGCCCAC CCACAGCCTC 
    TCCCCCAGCC CCACCACTCC CTGCCGAAGC CCAGCCCCTG ATGTCCCAGC AGATACCACT 
    GCATCCCCAC CCAGCGCATC CCCGAGCTCC AGCAGCCCCG CCTCCCCAGC TGCTGCTGGC 
    CACACCCGCC CCAGCTCCCT GCACGGCCTG GCTGCCAAGC TTGGGCCACC CCGCCCCAAG 
    ACTGGCCGCC GCAAGTCCAC CAGCAGCATC CCGCCCTCCC CGCTGGCCTG CCCGCCCATC 
    TCCGCGCCCC CACCCCGCTC GCCCTCGCCC CTGCCCGGGC ACCCGCCCGC ACCTGCCCGA 
    TCCCCGCGGC TGCGCCGGGG CCAGTCAGCT GACAAGCTGG GCACAGGGGA GCGGCTGGAT 
    GGGGAGGCGG GGCGGCGCAC TCGTGGGCCA GAGGCCGAGC TCGTGGTCAT GCGGCGGCTG 
    CACCTGTCCG AGCGCCGAGA CTCCTTCAAG AAGCAGGAGG CCGTGCAGGA GGTTAGCTTC 
    GATGAGCCGC AGGAGGAGGC CACTGGGCTG CCCACCTCAG TGCCACAGAT CGCCGTGGAG 
    GGCGAGGAAG CCGTGCCAGT AGCTCTCGGG CCCACCGGAA GAGACTGA

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

    MAST3 ( XM_017026515.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016882004.1 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X16, mRNA.
    Price & Availability↑
    CloneID OHu51509
    Clone ID Related Accession (Same CDS sequence) XM_017026515.1 , XM_006722698.2 , XM_017026514.1
    Accession Version XM_017026515.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3732bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product microtubule-associated serine/threonine-protein kinase 3 isoform X15
    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 EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGGACAGGG CAGACGGCAG AAGATGGTCC CTCGCGTCTC TCCCATCTTC CGGCTATGGA 
    ACCAACACAC CCAGCTCCAC CCTCTCGTCA AGCTCATCCT CCCGGGAACG TCTCCACCAG 
    CTTCCCTTCC AGCCGACGCC GGACGAGCTG CACTTCCTGT CCAAGCACTT CCGCAGCTCA 
    GAGAATGTGC TTGATGAGGA AGGCGGCCGG TCACCCCGCC TCCGACCCCG CTCTCGCAGT 
    CTCAGCCCGG GCCGTGCAAC GGGGACCTTC GACAATGAGA TTGTCATGAT GAATCACGTG 
    TACCGGGAGA GGTTCCCCAA GGCCACAGCA CAGATGGAGG GCCGTCTGCA GGAGTTCCTG 
    ACGGCCTACG CGCCCGGCGC CCGGCTGGCG CTGGCTGATG GCGTCTTGGG CTTCATCCAC 
    CACCAGATCG TCGAGCTGGC CCGAGACTGC TTGGCCAAGT CTGGCGAGAA CCTCGTCACC 
    TCCCGCTACT TCCTAGAGAT GCAGGAGAAG CTGGAGCGGC TTCTGCAGGA TGCCCATGAG 
    CGTTCGGACA GTGAGGAGGT CAGCTTCATC GTCCAGCTTG TCCGGAAACT GCTGATCATC 
    ATCTCACGGC CAGCTCGGCT GCTGGAGTGT CTGGAGTTTG ACCCTGAGGA ATTTTACCAC 
    CTGCTGGAGG CGGCTGAGGG CCATGCGCGG GAGGGCCAAG GCATTAAGAC TGACCTTCCA 
    CAGTACATCA TTGGGCAGCT GGGCCTGGCC AAGGACCCCC TGGAGGAGAT GGTGCCACTG 
    AGTCACCTCG AAGAAGAACA GCCCCCAGCA CCTGAGTCCC CAGAGAGCCG CGCCCTGGTC 
    GGCCAGTCAC GGAGGAAGCC ATGCGAAAGC GACTTTGAGA CCATCAAACT CATTAGCAAC 
    GGAGCCTATG GGGCCGTCTA CCTGGTGCGG CACCGTGACA CACGGCAGCG CTTTGCCATC 
    AAGAAGATCA ACAAACAGAA CTTGATCCTG CGTAACCAGA TCCAGCAGGT CTTTGTGGAG 
    CGTGACATTC TCACCTTTGC CGAGAACCCC TTTGTGGTCA GCATGTTCTG CTCCTTTGAG 
    ACCCGGCGCC ACCTATGTAT GGTCATGGAA TACGTGGAAG GCGGCGACTG CGCCACGCTC 
    CTGAAGAACA TGGGCCCGCT GCCCGTGGAC ATGGCCCGCC TGTACTTCGC CGAGACGGTG 
    TTGGCGCTGG AGTACCTGCA TAACTATGGC ATCGTGCACC GTGACCTCAA ACCAGACAAT 
    CTGCTCATCA CCTCGCTTGG CCACATCAAG CTCACGGACT TCGGCCTGTC CAAGATCGGC 
    CTCATGAGCA TGGCCACCAA CCTCTATGAG GGCCACATCG AGAAGGACGC CCGAGAGTTC 
    ATCGACAAGC AGGTGTGTGG GACGCCGGAG TACATAGCCC CCGAGGTGAT CTTCCGCCAG 
    GGCTATGGGA AGCCAGTGGA CTGGTGGGCC ATGGGCGTCG TCCTCTATGA GTTTCTGGTG 
    GGCTGCGTGC CTTTCTTTGG AGATACCCCC GAGGAACTCT TCGGTCAGGT GGTCAGCGAT 
    GAGATCATGT GGCCAGAGGG AGATGAGGCC CTTCCAGCAG ACGCCCAGGA CCTCATCACC 
    AGGTTGCTCC GGCAGAGCCC GCTGGACCGT CTGGGCACTG GTGGCACCCA CGAAGTGAAG 
    CAGCACCCCT TTTTCCTGGC CCTGGACTGG GCAGGGCTTC TCCGACACAA AGCCGAGTTC 
    GTGCCCCAGC TCGAAGCTGA GGATGATACC AGCTACTTTG ACACACGTTC GGAACGTTAC 
    CGCCATCTGG GCTCCGAGGA CGACGAGACC AATGATGAAG AATCGTCCAC AGAGATCCCC 
    CAGTTCTCCT CCTGCTCCCA CCGGTTCAGC AAGGTCTACA GCAGCTCTGA GTTCCTGGCC 
    GTCCAGCCCA CTCCTACCTT CGCTGAAAGG AGCTTCAGTG AAGACCGGGA GGAGGGGTGG 
    GAGCGCAGCG AAGTGGACTA TGGCCGCCGG CTGAGTGCTG ACATCCGGCT GAGGTCCTGG 
    ACATCCTCTG GATCCTCCTG TCAGTCATCT TCGTCCCAGC CCGAGCGGGG TCCCAGCCCA 
    TCTCTCCTGA ATACCATCAG CCTGGACACA ATGCCCAAGT TTGCCTTCTC ATCAGAGGAT 
    GAGGGGGTAG GCCCAGGCCC TGCAGGCCCC AAGAGGCCCG TCTTCATTCT AGGGGAGCCT 
    GACCCCCCAC CAGCGGCCAC CCCAGTGATG CCCAAGCCCT CGAGCCTTTC TGCCGACACA 
    GCTGCTCTCA GCCACGCCCG CCTACGGAGC AATAGCATCG GCGCCCGACA CTCCACACCA 
    AGGCCTCTGG ATGCCGGCCG GGGCCGCCGC CTTGGGGGCC CAAGAGACCC AGCCCCTGAG 
    AAGTCCAGAG CCTCCTCCAG CGGTGGCAGT GGTGGCGGCA GTGGGGGCCG CGTGCCCAAG 
    TCAGCCTCTG TCTCTGCCCT GTCCCTCATC ATCACGGCAG ATGATGGCAG CGGCGGCCCC 
    CTCATGAGCC CCCTTTCCCC GCGCTCTCTG TCCTCGAACC CGTCGTCCCG TGACTCTTCG 
    CCGAGCCGAG ACCCGTCCCC CGTGTGTGGC AGCCTGCGGC CCCCCATCGT TATCCACAGC 
    TCTGGCAAGA AGTACGGCTT CAGCCTGCGG GCGATCCGCG TCTACATGGG TGATAGCGAC 
    GTCTACACTG TGCACCACGT CGTCTGGAGT GTGGAGGACG GAAGCCCCGC CCAGGAGGCG 
    GGCCTGCGGG CTGGGGACCT CATCACCCAC ATCAACGGGG AGTCAGTGCT GGGGCTGGTG 
    CACATGGACG TCGTGGAGCT GCTGCTGAAG AGCGGCAACA AGATATCCCT GCGGACCACA 
    GCCCTGGAGA ACACCTCCAT CAAGGTGGGC CCCGCCCGGA AGAATGTGGC CAAGGGCCGC 
    ATGGCACGCA GGAGCAAGAG GAGCCGTCGG CGGGAGACCC AGGATCGGTG CGCGGCAGTG 
    ACCACCAGGG AGCGGCGGAA GTCACTTTTC AAGAAGATCT CCAAGCAGAC CTCCGTGCTG 
    CACACCAGCC GCAGCTTCTC CTCCGGACTC CACCACTCAC TGTCATCCAG TGAGAGCCTC 
    CCCGGCTCGC CCACCCACAG CCTCTCCCCC AGCCCCACCA CTCCCTGCCG AAGCCCAGCC 
    CCTGATGTCC CAGCAGATAC CACTGCATCC CCACCCAGCG CATCCCCGAG CTCCAGCAGC 
    CCCGCCTCCC CAGCTGCTGC TGGCCACACC CGCCCCAGCT CCCTGCACGG CCTGGCTGCC 
    AAGCTTGGGC CACCCCGCCC CAAGACTGGC CGCCGCAAGT CCACCAGCAG CATCCCGCCC 
    TCCCCGCTGG CCTGCCCGCC CATCTCCGCG CCCCCACCCC GCTCGCCCTC GCCCCTGCCC 
    GGGCACCCGC CCGCACCTGC CCGATCCCCG CGGCTGCGCC GGGGCCAGTC AGCTGACAAG 
    CTGGGCACAG GGGAGCGGCT GGATGGGGAG GCGGGGCGGC GCACTCGTGG GCCAGAGGCC 
    GAGCTCGTGG TCATGCGGCG GCTGCACCTG TCCGAGCGCC GAGACTCCTT CAAGAAGCAG 
    GAGGCCGTGC AGGAGGTTAG CTTCGATGAG CCGCAGGAGG AGGCCACTGG GCTGCCCACC 
    TCAGTGCCAC AGATCGCCGT GGAGGGCGAG GAAGCCGTGC CAGTAGCTCT CGGGCCCACC 
    GGAAGAGACT GA

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

    RefSeq XP_016882004.1
    CDS265..3996
    Translation

    Target ORF information:

    RefSeq Version XM_017026515.1
    Organism Homo sapiens(human)
    Definition Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X16, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017026515.1

    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
    ATGGACAGGG CAGACGGCAG AAGATGGTCC CTCGCGTCTC TCCCATCTTC CGGCTATGGA 
    ACCAACACAC CCAGCTCCAC CCTCTCGTCA AGCTCATCCT CCCGGGAACG TCTCCACCAG 
    CTTCCCTTCC AGCCGACGCC GGACGAGCTG CACTTCCTGT CCAAGCACTT CCGCAGCTCA 
    GAGAATGTGC TTGATGAGGA AGGCGGCCGG TCACCCCGCC TCCGACCCCG CTCTCGCAGT 
    CTCAGCCCGG GCCGTGCAAC GGGGACCTTC GACAATGAGA TTGTCATGAT GAATCACGTG 
    TACCGGGAGA GGTTCCCCAA GGCCACAGCA CAGATGGAGG GCCGTCTGCA GGAGTTCCTG 
    ACGGCCTACG CGCCCGGCGC CCGGCTGGCG CTGGCTGATG GCGTCTTGGG CTTCATCCAC 
    CACCAGATCG TCGAGCTGGC CCGAGACTGC TTGGCCAAGT CTGGCGAGAA CCTCGTCACC 
    TCCCGCTACT TCCTAGAGAT GCAGGAGAAG CTGGAGCGGC TTCTGCAGGA TGCCCATGAG 
    CGTTCGGACA GTGAGGAGGT CAGCTTCATC GTCCAGCTTG TCCGGAAACT GCTGATCATC 
    ATCTCACGGC CAGCTCGGCT GCTGGAGTGT CTGGAGTTTG ACCCTGAGGA ATTTTACCAC 
    CTGCTGGAGG CGGCTGAGGG CCATGCGCGG GAGGGCCAAG GCATTAAGAC TGACCTTCCA 
    CAGTACATCA TTGGGCAGCT GGGCCTGGCC AAGGACCCCC TGGAGGAGAT GGTGCCACTG 
    AGTCACCTCG AAGAAGAACA GCCCCCAGCA CCTGAGTCCC CAGAGAGCCG CGCCCTGGTC 
    GGCCAGTCAC GGAGGAAGCC ATGCGAAAGC GACTTTGAGA CCATCAAACT CATTAGCAAC 
    GGAGCCTATG GGGCCGTCTA CCTGGTGCGG CACCGTGACA CACGGCAGCG CTTTGCCATC 
    AAGAAGATCA ACAAACAGAA CTTGATCCTG CGTAACCAGA TCCAGCAGGT CTTTGTGGAG 
    CGTGACATTC TCACCTTTGC CGAGAACCCC TTTGTGGTCA GCATGTTCTG CTCCTTTGAG 
    ACCCGGCGCC ACCTATGTAT GGTCATGGAA TACGTGGAAG GCGGCGACTG CGCCACGCTC 
    CTGAAGAACA TGGGCCCGCT GCCCGTGGAC ATGGCCCGCC TGTACTTCGC CGAGACGGTG 
    TTGGCGCTGG AGTACCTGCA TAACTATGGC ATCGTGCACC GTGACCTCAA ACCAGACAAT 
    CTGCTCATCA CCTCGCTTGG CCACATCAAG CTCACGGACT TCGGCCTGTC CAAGATCGGC 
    CTCATGAGCA TGGCCACCAA CCTCTATGAG GGCCACATCG AGAAGGACGC CCGAGAGTTC 
    ATCGACAAGC AGGTGTGTGG GACGCCGGAG TACATAGCCC CCGAGGTGAT CTTCCGCCAG 
    GGCTATGGGA AGCCAGTGGA CTGGTGGGCC ATGGGCGTCG TCCTCTATGA GTTTCTGGTG 
    GGCTGCGTGC CTTTCTTTGG AGATACCCCC GAGGAACTCT TCGGTCAGGT GGTCAGCGAT 
    GAGATCATGT GGCCAGAGGG AGATGAGGCC CTTCCAGCAG ACGCCCAGGA CCTCATCACC 
    AGGTTGCTCC GGCAGAGCCC GCTGGACCGT CTGGGCACTG GTGGCACCCA CGAAGTGAAG 
    CAGCACCCCT TTTTCCTGGC CCTGGACTGG GCAGGGCTTC TCCGACACAA AGCCGAGTTC 
    GTGCCCCAGC TCGAAGCTGA GGATGATACC AGCTACTTTG ACACACGTTC GGAACGTTAC 
    CGCCATCTGG GCTCCGAGGA CGACGAGACC AATGATGAAG AATCGTCCAC AGAGATCCCC 
    CAGTTCTCCT CCTGCTCCCA CCGGTTCAGC AAGGTCTACA GCAGCTCTGA GTTCCTGGCC 
    GTCCAGCCCA CTCCTACCTT CGCTGAAAGG AGCTTCAGTG AAGACCGGGA GGAGGGGTGG 
    GAGCGCAGCG AAGTGGACTA TGGCCGCCGG CTGAGTGCTG ACATCCGGCT GAGGTCCTGG 
    ACATCCTCTG GATCCTCCTG TCAGTCATCT TCGTCCCAGC CCGAGCGGGG TCCCAGCCCA 
    TCTCTCCTGA ATACCATCAG CCTGGACACA ATGCCCAAGT TTGCCTTCTC ATCAGAGGAT 
    GAGGGGGTAG GCCCAGGCCC TGCAGGCCCC AAGAGGCCCG TCTTCATTCT AGGGGAGCCT 
    GACCCCCCAC CAGCGGCCAC CCCAGTGATG CCCAAGCCCT CGAGCCTTTC TGCCGACACA 
    GCTGCTCTCA GCCACGCCCG CCTACGGAGC AATAGCATCG GCGCCCGACA CTCCACACCA 
    AGGCCTCTGG ATGCCGGCCG GGGCCGCCGC CTTGGGGGCC CAAGAGACCC AGCCCCTGAG 
    AAGTCCAGAG CCTCCTCCAG CGGTGGCAGT GGTGGCGGCA GTGGGGGCCG CGTGCCCAAG 
    TCAGCCTCTG TCTCTGCCCT GTCCCTCATC ATCACGGCAG ATGATGGCAG CGGCGGCCCC 
    CTCATGAGCC CCCTTTCCCC GCGCTCTCTG TCCTCGAACC CGTCGTCCCG TGACTCTTCG 
    CCGAGCCGAG ACCCGTCCCC CGTGTGTGGC AGCCTGCGGC CCCCCATCGT TATCCACAGC 
    TCTGGCAAGA AGTACGGCTT CAGCCTGCGG GCGATCCGCG TCTACATGGG TGATAGCGAC 
    GTCTACACTG TGCACCACGT CGTCTGGAGT GTGGAGGACG GAAGCCCCGC CCAGGAGGCG 
    GGCCTGCGGG CTGGGGACCT CATCACCCAC ATCAACGGGG AGTCAGTGCT GGGGCTGGTG 
    CACATGGACG TCGTGGAGCT GCTGCTGAAG AGCGGCAACA AGATATCCCT GCGGACCACA 
    GCCCTGGAGA ACACCTCCAT CAAGGTGGGC CCCGCCCGGA AGAATGTGGC CAAGGGCCGC 
    ATGGCACGCA GGAGCAAGAG GAGCCGTCGG CGGGAGACCC AGGATCGGTG CGCGGCAGTG 
    ACCACCAGGG AGCGGCGGAA GTCACTTTTC AAGAAGATCT CCAAGCAGAC CTCCGTGCTG 
    CACACCAGCC GCAGCTTCTC CTCCGGACTC CACCACTCAC TGTCATCCAG TGAGAGCCTC 
    CCCGGCTCGC CCACCCACAG CCTCTCCCCC AGCCCCACCA CTCCCTGCCG AAGCCCAGCC 
    CCTGATGTCC CAGCAGATAC CACTGCATCC CCACCCAGCG CATCCCCGAG CTCCAGCAGC 
    CCCGCCTCCC CAGCTGCTGC TGGCCACACC CGCCCCAGCT CCCTGCACGG CCTGGCTGCC 
    AAGCTTGGGC CACCCCGCCC CAAGACTGGC CGCCGCAAGT CCACCAGCAG CATCCCGCCC 
    TCCCCGCTGG CCTGCCCGCC CATCTCCGCG CCCCCACCCC GCTCGCCCTC GCCCCTGCCC 
    GGGCACCCGC CCGCACCTGC CCGATCCCCG CGGCTGCGCC GGGGCCAGTC AGCTGACAAG 
    CTGGGCACAG GGGAGCGGCT GGATGGGGAG GCGGGGCGGC GCACTCGTGG GCCAGAGGCC 
    GAGCTCGTGG TCATGCGGCG GCTGCACCTG TCCGAGCGCC GAGACTCCTT CAAGAAGCAG 
    GAGGCCGTGC AGGAGGTTAG CTTCGATGAG CCGCAGGAGG AGGCCACTGG GCTGCCCACC 
    TCAGTGCCAC AGATCGCCGT GGAGGGCGAG GAAGCCGTGC CAGTAGCTCT CGGGCCCACC 
    GGAAGAGACT GA

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

    MAST3 ( XM_006722698.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_006722761.1 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X18, mRNA.
    Price & Availability↑
    CloneID OHu51509
    Clone ID Related Accession (Same CDS sequence) XM_017026515.1 , XM_006722698.2 , XM_017026514.1
    Accession Version XM_006722698.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3732bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product microtubule-associated serine/threonine-protein kinase 3 isoform X15
    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 EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 12, 2015 this sequence version replaced XM_006722698.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGGACAGGG CAGACGGCAG AAGATGGTCC CTCGCGTCTC TCCCATCTTC CGGCTATGGA 
    ACCAACACAC CCAGCTCCAC CCTCTCGTCA AGCTCATCCT CCCGGGAACG TCTCCACCAG 
    CTTCCCTTCC AGCCGACGCC GGACGAGCTG CACTTCCTGT CCAAGCACTT CCGCAGCTCA 
    GAGAATGTGC TTGATGAGGA AGGCGGCCGG TCACCCCGCC TCCGACCCCG CTCTCGCAGT 
    CTCAGCCCGG GCCGTGCAAC GGGGACCTTC GACAATGAGA TTGTCATGAT GAATCACGTG 
    TACCGGGAGA GGTTCCCCAA GGCCACAGCA CAGATGGAGG GCCGTCTGCA GGAGTTCCTG 
    ACGGCCTACG CGCCCGGCGC CCGGCTGGCG CTGGCTGATG GCGTCTTGGG CTTCATCCAC 
    CACCAGATCG TCGAGCTGGC CCGAGACTGC TTGGCCAAGT CTGGCGAGAA CCTCGTCACC 
    TCCCGCTACT TCCTAGAGAT GCAGGAGAAG CTGGAGCGGC TTCTGCAGGA TGCCCATGAG 
    CGTTCGGACA GTGAGGAGGT CAGCTTCATC GTCCAGCTTG TCCGGAAACT GCTGATCATC 
    ATCTCACGGC CAGCTCGGCT GCTGGAGTGT CTGGAGTTTG ACCCTGAGGA ATTTTACCAC 
    CTGCTGGAGG CGGCTGAGGG CCATGCGCGG GAGGGCCAAG GCATTAAGAC TGACCTTCCA 
    CAGTACATCA TTGGGCAGCT GGGCCTGGCC AAGGACCCCC TGGAGGAGAT GGTGCCACTG 
    AGTCACCTCG AAGAAGAACA GCCCCCAGCA CCTGAGTCCC CAGAGAGCCG CGCCCTGGTC 
    GGCCAGTCAC GGAGGAAGCC ATGCGAAAGC GACTTTGAGA CCATCAAACT CATTAGCAAC 
    GGAGCCTATG GGGCCGTCTA CCTGGTGCGG CACCGTGACA CACGGCAGCG CTTTGCCATC 
    AAGAAGATCA ACAAACAGAA CTTGATCCTG CGTAACCAGA TCCAGCAGGT CTTTGTGGAG 
    CGTGACATTC TCACCTTTGC CGAGAACCCC TTTGTGGTCA GCATGTTCTG CTCCTTTGAG 
    ACCCGGCGCC ACCTATGTAT GGTCATGGAA TACGTGGAAG GCGGCGACTG CGCCACGCTC 
    CTGAAGAACA TGGGCCCGCT GCCCGTGGAC ATGGCCCGCC TGTACTTCGC CGAGACGGTG 
    TTGGCGCTGG AGTACCTGCA TAACTATGGC ATCGTGCACC GTGACCTCAA ACCAGACAAT 
    CTGCTCATCA CCTCGCTTGG CCACATCAAG CTCACGGACT TCGGCCTGTC CAAGATCGGC 
    CTCATGAGCA TGGCCACCAA CCTCTATGAG GGCCACATCG AGAAGGACGC CCGAGAGTTC 
    ATCGACAAGC AGGTGTGTGG GACGCCGGAG TACATAGCCC CCGAGGTGAT CTTCCGCCAG 
    GGCTATGGGA AGCCAGTGGA CTGGTGGGCC ATGGGCGTCG TCCTCTATGA GTTTCTGGTG 
    GGCTGCGTGC CTTTCTTTGG AGATACCCCC GAGGAACTCT TCGGTCAGGT GGTCAGCGAT 
    GAGATCATGT GGCCAGAGGG AGATGAGGCC CTTCCAGCAG ACGCCCAGGA CCTCATCACC 
    AGGTTGCTCC GGCAGAGCCC GCTGGACCGT CTGGGCACTG GTGGCACCCA CGAAGTGAAG 
    CAGCACCCCT TTTTCCTGGC CCTGGACTGG GCAGGGCTTC TCCGACACAA AGCCGAGTTC 
    GTGCCCCAGC TCGAAGCTGA GGATGATACC AGCTACTTTG ACACACGTTC GGAACGTTAC 
    CGCCATCTGG GCTCCGAGGA CGACGAGACC AATGATGAAG AATCGTCCAC AGAGATCCCC 
    CAGTTCTCCT CCTGCTCCCA CCGGTTCAGC AAGGTCTACA GCAGCTCTGA GTTCCTGGCC 
    GTCCAGCCCA CTCCTACCTT CGCTGAAAGG AGCTTCAGTG AAGACCGGGA GGAGGGGTGG 
    GAGCGCAGCG AAGTGGACTA TGGCCGCCGG CTGAGTGCTG ACATCCGGCT GAGGTCCTGG 
    ACATCCTCTG GATCCTCCTG TCAGTCATCT TCGTCCCAGC CCGAGCGGGG TCCCAGCCCA 
    TCTCTCCTGA ATACCATCAG CCTGGACACA ATGCCCAAGT TTGCCTTCTC ATCAGAGGAT 
    GAGGGGGTAG GCCCAGGCCC TGCAGGCCCC AAGAGGCCCG TCTTCATTCT AGGGGAGCCT 
    GACCCCCCAC CAGCGGCCAC CCCAGTGATG CCCAAGCCCT CGAGCCTTTC TGCCGACACA 
    GCTGCTCTCA GCCACGCCCG CCTACGGAGC AATAGCATCG GCGCCCGACA CTCCACACCA 
    AGGCCTCTGG ATGCCGGCCG GGGCCGCCGC CTTGGGGGCC CAAGAGACCC AGCCCCTGAG 
    AAGTCCAGAG CCTCCTCCAG CGGTGGCAGT GGTGGCGGCA GTGGGGGCCG CGTGCCCAAG 
    TCAGCCTCTG TCTCTGCCCT GTCCCTCATC ATCACGGCAG ATGATGGCAG CGGCGGCCCC 
    CTCATGAGCC CCCTTTCCCC GCGCTCTCTG TCCTCGAACC CGTCGTCCCG TGACTCTTCG 
    CCGAGCCGAG ACCCGTCCCC CGTGTGTGGC AGCCTGCGGC CCCCCATCGT TATCCACAGC 
    TCTGGCAAGA AGTACGGCTT CAGCCTGCGG GCGATCCGCG TCTACATGGG TGATAGCGAC 
    GTCTACACTG TGCACCACGT CGTCTGGAGT GTGGAGGACG GAAGCCCCGC CCAGGAGGCG 
    GGCCTGCGGG CTGGGGACCT CATCACCCAC ATCAACGGGG AGTCAGTGCT GGGGCTGGTG 
    CACATGGACG TCGTGGAGCT GCTGCTGAAG AGCGGCAACA AGATATCCCT GCGGACCACA 
    GCCCTGGAGA ACACCTCCAT CAAGGTGGGC CCCGCCCGGA AGAATGTGGC CAAGGGCCGC 
    ATGGCACGCA GGAGCAAGAG GAGCCGTCGG CGGGAGACCC AGGATCGGTG CGCGGCAGTG 
    ACCACCAGGG AGCGGCGGAA GTCACTTTTC AAGAAGATCT CCAAGCAGAC CTCCGTGCTG 
    CACACCAGCC GCAGCTTCTC CTCCGGACTC CACCACTCAC TGTCATCCAG TGAGAGCCTC 
    CCCGGCTCGC CCACCCACAG CCTCTCCCCC AGCCCCACCA CTCCCTGCCG AAGCCCAGCC 
    CCTGATGTCC CAGCAGATAC CACTGCATCC CCACCCAGCG CATCCCCGAG CTCCAGCAGC 
    CCCGCCTCCC CAGCTGCTGC TGGCCACACC CGCCCCAGCT CCCTGCACGG CCTGGCTGCC 
    AAGCTTGGGC CACCCCGCCC CAAGACTGGC CGCCGCAAGT CCACCAGCAG CATCCCGCCC 
    TCCCCGCTGG CCTGCCCGCC CATCTCCGCG CCCCCACCCC GCTCGCCCTC GCCCCTGCCC 
    GGGCACCCGC CCGCACCTGC CCGATCCCCG CGGCTGCGCC GGGGCCAGTC AGCTGACAAG 
    CTGGGCACAG GGGAGCGGCT GGATGGGGAG GCGGGGCGGC GCACTCGTGG GCCAGAGGCC 
    GAGCTCGTGG TCATGCGGCG GCTGCACCTG TCCGAGCGCC GAGACTCCTT CAAGAAGCAG 
    GAGGCCGTGC AGGAGGTTAG CTTCGATGAG CCGCAGGAGG AGGCCACTGG GCTGCCCACC 
    TCAGTGCCAC AGATCGCCGT GGAGGGCGAG GAAGCCGTGC CAGTAGCTCT CGGGCCCACC 
    GGAAGAGACT GA

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

    RefSeq XP_006722761.1
    CDS268..3999
    Translation

    Target ORF information:

    RefSeq Version XM_006722698.2
    Organism Homo sapiens(human)
    Definition Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X18, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_006722698.2

    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
    ATGGACAGGG CAGACGGCAG AAGATGGTCC CTCGCGTCTC TCCCATCTTC CGGCTATGGA 
    ACCAACACAC CCAGCTCCAC CCTCTCGTCA AGCTCATCCT CCCGGGAACG TCTCCACCAG 
    CTTCCCTTCC AGCCGACGCC GGACGAGCTG CACTTCCTGT CCAAGCACTT CCGCAGCTCA 
    GAGAATGTGC TTGATGAGGA AGGCGGCCGG TCACCCCGCC TCCGACCCCG CTCTCGCAGT 
    CTCAGCCCGG GCCGTGCAAC GGGGACCTTC GACAATGAGA TTGTCATGAT GAATCACGTG 
    TACCGGGAGA GGTTCCCCAA GGCCACAGCA CAGATGGAGG GCCGTCTGCA GGAGTTCCTG 
    ACGGCCTACG CGCCCGGCGC CCGGCTGGCG CTGGCTGATG GCGTCTTGGG CTTCATCCAC 
    CACCAGATCG TCGAGCTGGC CCGAGACTGC TTGGCCAAGT CTGGCGAGAA CCTCGTCACC 
    TCCCGCTACT TCCTAGAGAT GCAGGAGAAG CTGGAGCGGC TTCTGCAGGA TGCCCATGAG 
    CGTTCGGACA GTGAGGAGGT CAGCTTCATC GTCCAGCTTG TCCGGAAACT GCTGATCATC 
    ATCTCACGGC CAGCTCGGCT GCTGGAGTGT CTGGAGTTTG ACCCTGAGGA ATTTTACCAC 
    CTGCTGGAGG CGGCTGAGGG CCATGCGCGG GAGGGCCAAG GCATTAAGAC TGACCTTCCA 
    CAGTACATCA TTGGGCAGCT GGGCCTGGCC AAGGACCCCC TGGAGGAGAT GGTGCCACTG 
    AGTCACCTCG AAGAAGAACA GCCCCCAGCA CCTGAGTCCC CAGAGAGCCG CGCCCTGGTC 
    GGCCAGTCAC GGAGGAAGCC ATGCGAAAGC GACTTTGAGA CCATCAAACT CATTAGCAAC 
    GGAGCCTATG GGGCCGTCTA CCTGGTGCGG CACCGTGACA CACGGCAGCG CTTTGCCATC 
    AAGAAGATCA ACAAACAGAA CTTGATCCTG CGTAACCAGA TCCAGCAGGT CTTTGTGGAG 
    CGTGACATTC TCACCTTTGC CGAGAACCCC TTTGTGGTCA GCATGTTCTG CTCCTTTGAG 
    ACCCGGCGCC ACCTATGTAT GGTCATGGAA TACGTGGAAG GCGGCGACTG CGCCACGCTC 
    CTGAAGAACA TGGGCCCGCT GCCCGTGGAC ATGGCCCGCC TGTACTTCGC CGAGACGGTG 
    TTGGCGCTGG AGTACCTGCA TAACTATGGC ATCGTGCACC GTGACCTCAA ACCAGACAAT 
    CTGCTCATCA CCTCGCTTGG CCACATCAAG CTCACGGACT TCGGCCTGTC CAAGATCGGC 
    CTCATGAGCA TGGCCACCAA CCTCTATGAG GGCCACATCG AGAAGGACGC CCGAGAGTTC 
    ATCGACAAGC AGGTGTGTGG GACGCCGGAG TACATAGCCC CCGAGGTGAT CTTCCGCCAG 
    GGCTATGGGA AGCCAGTGGA CTGGTGGGCC ATGGGCGTCG TCCTCTATGA GTTTCTGGTG 
    GGCTGCGTGC CTTTCTTTGG AGATACCCCC GAGGAACTCT TCGGTCAGGT GGTCAGCGAT 
    GAGATCATGT GGCCAGAGGG AGATGAGGCC CTTCCAGCAG ACGCCCAGGA CCTCATCACC 
    AGGTTGCTCC GGCAGAGCCC GCTGGACCGT CTGGGCACTG GTGGCACCCA CGAAGTGAAG 
    CAGCACCCCT TTTTCCTGGC CCTGGACTGG GCAGGGCTTC TCCGACACAA AGCCGAGTTC 
    GTGCCCCAGC TCGAAGCTGA GGATGATACC AGCTACTTTG ACACACGTTC GGAACGTTAC 
    CGCCATCTGG GCTCCGAGGA CGACGAGACC AATGATGAAG AATCGTCCAC AGAGATCCCC 
    CAGTTCTCCT CCTGCTCCCA CCGGTTCAGC AAGGTCTACA GCAGCTCTGA GTTCCTGGCC 
    GTCCAGCCCA CTCCTACCTT CGCTGAAAGG AGCTTCAGTG AAGACCGGGA GGAGGGGTGG 
    GAGCGCAGCG AAGTGGACTA TGGCCGCCGG CTGAGTGCTG ACATCCGGCT GAGGTCCTGG 
    ACATCCTCTG GATCCTCCTG TCAGTCATCT TCGTCCCAGC CCGAGCGGGG TCCCAGCCCA 
    TCTCTCCTGA ATACCATCAG CCTGGACACA ATGCCCAAGT TTGCCTTCTC ATCAGAGGAT 
    GAGGGGGTAG GCCCAGGCCC TGCAGGCCCC AAGAGGCCCG TCTTCATTCT AGGGGAGCCT 
    GACCCCCCAC CAGCGGCCAC CCCAGTGATG CCCAAGCCCT CGAGCCTTTC TGCCGACACA 
    GCTGCTCTCA GCCACGCCCG CCTACGGAGC AATAGCATCG GCGCCCGACA CTCCACACCA 
    AGGCCTCTGG ATGCCGGCCG GGGCCGCCGC CTTGGGGGCC CAAGAGACCC AGCCCCTGAG 
    AAGTCCAGAG CCTCCTCCAG CGGTGGCAGT GGTGGCGGCA GTGGGGGCCG CGTGCCCAAG 
    TCAGCCTCTG TCTCTGCCCT GTCCCTCATC ATCACGGCAG ATGATGGCAG CGGCGGCCCC 
    CTCATGAGCC CCCTTTCCCC GCGCTCTCTG TCCTCGAACC CGTCGTCCCG TGACTCTTCG 
    CCGAGCCGAG ACCCGTCCCC CGTGTGTGGC AGCCTGCGGC CCCCCATCGT TATCCACAGC 
    TCTGGCAAGA AGTACGGCTT CAGCCTGCGG GCGATCCGCG TCTACATGGG TGATAGCGAC 
    GTCTACACTG TGCACCACGT CGTCTGGAGT GTGGAGGACG GAAGCCCCGC CCAGGAGGCG 
    GGCCTGCGGG CTGGGGACCT CATCACCCAC ATCAACGGGG AGTCAGTGCT GGGGCTGGTG 
    CACATGGACG TCGTGGAGCT GCTGCTGAAG AGCGGCAACA AGATATCCCT GCGGACCACA 
    GCCCTGGAGA ACACCTCCAT CAAGGTGGGC CCCGCCCGGA AGAATGTGGC CAAGGGCCGC 
    ATGGCACGCA GGAGCAAGAG GAGCCGTCGG CGGGAGACCC AGGATCGGTG CGCGGCAGTG 
    ACCACCAGGG AGCGGCGGAA GTCACTTTTC AAGAAGATCT CCAAGCAGAC CTCCGTGCTG 
    CACACCAGCC GCAGCTTCTC CTCCGGACTC CACCACTCAC TGTCATCCAG TGAGAGCCTC 
    CCCGGCTCGC CCACCCACAG CCTCTCCCCC AGCCCCACCA CTCCCTGCCG AAGCCCAGCC 
    CCTGATGTCC CAGCAGATAC CACTGCATCC CCACCCAGCG CATCCCCGAG CTCCAGCAGC 
    CCCGCCTCCC CAGCTGCTGC TGGCCACACC CGCCCCAGCT CCCTGCACGG CCTGGCTGCC 
    AAGCTTGGGC CACCCCGCCC CAAGACTGGC CGCCGCAAGT CCACCAGCAG CATCCCGCCC 
    TCCCCGCTGG CCTGCCCGCC CATCTCCGCG CCCCCACCCC GCTCGCCCTC GCCCCTGCCC 
    GGGCACCCGC CCGCACCTGC CCGATCCCCG CGGCTGCGCC GGGGCCAGTC AGCTGACAAG 
    CTGGGCACAG GGGAGCGGCT GGATGGGGAG GCGGGGCGGC GCACTCGTGG GCCAGAGGCC 
    GAGCTCGTGG TCATGCGGCG GCTGCACCTG TCCGAGCGCC GAGACTCCTT CAAGAAGCAG 
    GAGGCCGTGC AGGAGGTTAG CTTCGATGAG CCGCAGGAGG AGGCCACTGG GCTGCCCACC 
    TCAGTGCCAC AGATCGCCGT GGAGGGCGAG GAAGCCGTGC CAGTAGCTCT CGGGCCCACC 
    GGAAGAGACT GA

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

    MAST3 ( XM_017026514.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016882003.1 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X15, mRNA.
    Price & Availability↑
    CloneID OHu51509
    Clone ID Related Accession (Same CDS sequence) XM_017026515.1 , XM_006722698.2 , XM_017026514.1
    Accession Version XM_017026514.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3732bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product microtubule-associated serine/threonine-protein kinase 3 isoform X15
    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 EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGGACAGGG CAGACGGCAG AAGATGGTCC CTCGCGTCTC TCCCATCTTC CGGCTATGGA 
    ACCAACACAC CCAGCTCCAC CCTCTCGTCA AGCTCATCCT CCCGGGAACG TCTCCACCAG 
    CTTCCCTTCC AGCCGACGCC GGACGAGCTG CACTTCCTGT CCAAGCACTT CCGCAGCTCA 
    GAGAATGTGC TTGATGAGGA AGGCGGCCGG TCACCCCGCC TCCGACCCCG CTCTCGCAGT 
    CTCAGCCCGG GCCGTGCAAC GGGGACCTTC GACAATGAGA TTGTCATGAT GAATCACGTG 
    TACCGGGAGA GGTTCCCCAA GGCCACAGCA CAGATGGAGG GCCGTCTGCA GGAGTTCCTG 
    ACGGCCTACG CGCCCGGCGC CCGGCTGGCG CTGGCTGATG GCGTCTTGGG CTTCATCCAC 
    CACCAGATCG TCGAGCTGGC CCGAGACTGC TTGGCCAAGT CTGGCGAGAA CCTCGTCACC 
    TCCCGCTACT TCCTAGAGAT GCAGGAGAAG CTGGAGCGGC TTCTGCAGGA TGCCCATGAG 
    CGTTCGGACA GTGAGGAGGT CAGCTTCATC GTCCAGCTTG TCCGGAAACT GCTGATCATC 
    ATCTCACGGC CAGCTCGGCT GCTGGAGTGT CTGGAGTTTG ACCCTGAGGA ATTTTACCAC 
    CTGCTGGAGG CGGCTGAGGG CCATGCGCGG GAGGGCCAAG GCATTAAGAC TGACCTTCCA 
    CAGTACATCA TTGGGCAGCT GGGCCTGGCC AAGGACCCCC TGGAGGAGAT GGTGCCACTG 
    AGTCACCTCG AAGAAGAACA GCCCCCAGCA CCTGAGTCCC CAGAGAGCCG CGCCCTGGTC 
    GGCCAGTCAC GGAGGAAGCC ATGCGAAAGC GACTTTGAGA CCATCAAACT CATTAGCAAC 
    GGAGCCTATG GGGCCGTCTA CCTGGTGCGG CACCGTGACA CACGGCAGCG CTTTGCCATC 
    AAGAAGATCA ACAAACAGAA CTTGATCCTG CGTAACCAGA TCCAGCAGGT CTTTGTGGAG 
    CGTGACATTC TCACCTTTGC CGAGAACCCC TTTGTGGTCA GCATGTTCTG CTCCTTTGAG 
    ACCCGGCGCC ACCTATGTAT GGTCATGGAA TACGTGGAAG GCGGCGACTG CGCCACGCTC 
    CTGAAGAACA TGGGCCCGCT GCCCGTGGAC ATGGCCCGCC TGTACTTCGC CGAGACGGTG 
    TTGGCGCTGG AGTACCTGCA TAACTATGGC ATCGTGCACC GTGACCTCAA ACCAGACAAT 
    CTGCTCATCA CCTCGCTTGG CCACATCAAG CTCACGGACT TCGGCCTGTC CAAGATCGGC 
    CTCATGAGCA TGGCCACCAA CCTCTATGAG GGCCACATCG AGAAGGACGC CCGAGAGTTC 
    ATCGACAAGC AGGTGTGTGG GACGCCGGAG TACATAGCCC CCGAGGTGAT CTTCCGCCAG 
    GGCTATGGGA AGCCAGTGGA CTGGTGGGCC ATGGGCGTCG TCCTCTATGA GTTTCTGGTG 
    GGCTGCGTGC CTTTCTTTGG AGATACCCCC GAGGAACTCT TCGGTCAGGT GGTCAGCGAT 
    GAGATCATGT GGCCAGAGGG AGATGAGGCC CTTCCAGCAG ACGCCCAGGA CCTCATCACC 
    AGGTTGCTCC GGCAGAGCCC GCTGGACCGT CTGGGCACTG GTGGCACCCA CGAAGTGAAG 
    CAGCACCCCT TTTTCCTGGC CCTGGACTGG GCAGGGCTTC TCCGACACAA AGCCGAGTTC 
    GTGCCCCAGC TCGAAGCTGA GGATGATACC AGCTACTTTG ACACACGTTC GGAACGTTAC 
    CGCCATCTGG GCTCCGAGGA CGACGAGACC AATGATGAAG AATCGTCCAC AGAGATCCCC 
    CAGTTCTCCT CCTGCTCCCA CCGGTTCAGC AAGGTCTACA GCAGCTCTGA GTTCCTGGCC 
    GTCCAGCCCA CTCCTACCTT CGCTGAAAGG AGCTTCAGTG AAGACCGGGA GGAGGGGTGG 
    GAGCGCAGCG AAGTGGACTA TGGCCGCCGG CTGAGTGCTG ACATCCGGCT GAGGTCCTGG 
    ACATCCTCTG GATCCTCCTG TCAGTCATCT TCGTCCCAGC CCGAGCGGGG TCCCAGCCCA 
    TCTCTCCTGA ATACCATCAG CCTGGACACA ATGCCCAAGT TTGCCTTCTC ATCAGAGGAT 
    GAGGGGGTAG GCCCAGGCCC TGCAGGCCCC AAGAGGCCCG TCTTCATTCT AGGGGAGCCT 
    GACCCCCCAC CAGCGGCCAC CCCAGTGATG CCCAAGCCCT CGAGCCTTTC TGCCGACACA 
    GCTGCTCTCA GCCACGCCCG CCTACGGAGC AATAGCATCG GCGCCCGACA CTCCACACCA 
    AGGCCTCTGG ATGCCGGCCG GGGCCGCCGC CTTGGGGGCC CAAGAGACCC AGCCCCTGAG 
    AAGTCCAGAG CCTCCTCCAG CGGTGGCAGT GGTGGCGGCA GTGGGGGCCG CGTGCCCAAG 
    TCAGCCTCTG TCTCTGCCCT GTCCCTCATC ATCACGGCAG ATGATGGCAG CGGCGGCCCC 
    CTCATGAGCC CCCTTTCCCC GCGCTCTCTG TCCTCGAACC CGTCGTCCCG TGACTCTTCG 
    CCGAGCCGAG ACCCGTCCCC CGTGTGTGGC AGCCTGCGGC CCCCCATCGT TATCCACAGC 
    TCTGGCAAGA AGTACGGCTT CAGCCTGCGG GCGATCCGCG TCTACATGGG TGATAGCGAC 
    GTCTACACTG TGCACCACGT CGTCTGGAGT GTGGAGGACG GAAGCCCCGC CCAGGAGGCG 
    GGCCTGCGGG CTGGGGACCT CATCACCCAC ATCAACGGGG AGTCAGTGCT GGGGCTGGTG 
    CACATGGACG TCGTGGAGCT GCTGCTGAAG AGCGGCAACA AGATATCCCT GCGGACCACA 
    GCCCTGGAGA ACACCTCCAT CAAGGTGGGC CCCGCCCGGA AGAATGTGGC CAAGGGCCGC 
    ATGGCACGCA GGAGCAAGAG GAGCCGTCGG CGGGAGACCC AGGATCGGTG CGCGGCAGTG 
    ACCACCAGGG AGCGGCGGAA GTCACTTTTC AAGAAGATCT CCAAGCAGAC CTCCGTGCTG 
    CACACCAGCC GCAGCTTCTC CTCCGGACTC CACCACTCAC TGTCATCCAG TGAGAGCCTC 
    CCCGGCTCGC CCACCCACAG CCTCTCCCCC AGCCCCACCA CTCCCTGCCG AAGCCCAGCC 
    CCTGATGTCC CAGCAGATAC CACTGCATCC CCACCCAGCG CATCCCCGAG CTCCAGCAGC 
    CCCGCCTCCC CAGCTGCTGC TGGCCACACC CGCCCCAGCT CCCTGCACGG CCTGGCTGCC 
    AAGCTTGGGC CACCCCGCCC CAAGACTGGC CGCCGCAAGT CCACCAGCAG CATCCCGCCC 
    TCCCCGCTGG CCTGCCCGCC CATCTCCGCG CCCCCACCCC GCTCGCCCTC GCCCCTGCCC 
    GGGCACCCGC CCGCACCTGC CCGATCCCCG CGGCTGCGCC GGGGCCAGTC AGCTGACAAG 
    CTGGGCACAG GGGAGCGGCT GGATGGGGAG GCGGGGCGGC GCACTCGTGG GCCAGAGGCC 
    GAGCTCGTGG TCATGCGGCG GCTGCACCTG TCCGAGCGCC GAGACTCCTT CAAGAAGCAG 
    GAGGCCGTGC AGGAGGTTAG CTTCGATGAG CCGCAGGAGG AGGCCACTGG GCTGCCCACC 
    TCAGTGCCAC AGATCGCCGT GGAGGGCGAG GAAGCCGTGC CAGTAGCTCT CGGGCCCACC 
    GGAAGAGACT GA

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

    RefSeq XP_016882003.1
    CDS259..3990
    Translation

    Target ORF information:

    RefSeq Version XM_017026514.1
    Organism Homo sapiens(human)
    Definition Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X15, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017026514.1

    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
    ATGGACAGGG CAGACGGCAG AAGATGGTCC CTCGCGTCTC TCCCATCTTC CGGCTATGGA 
    ACCAACACAC CCAGCTCCAC CCTCTCGTCA AGCTCATCCT CCCGGGAACG TCTCCACCAG 
    CTTCCCTTCC AGCCGACGCC GGACGAGCTG CACTTCCTGT CCAAGCACTT CCGCAGCTCA 
    GAGAATGTGC TTGATGAGGA AGGCGGCCGG TCACCCCGCC TCCGACCCCG CTCTCGCAGT 
    CTCAGCCCGG GCCGTGCAAC GGGGACCTTC GACAATGAGA TTGTCATGAT GAATCACGTG 
    TACCGGGAGA GGTTCCCCAA GGCCACAGCA CAGATGGAGG GCCGTCTGCA GGAGTTCCTG 
    ACGGCCTACG CGCCCGGCGC CCGGCTGGCG CTGGCTGATG GCGTCTTGGG CTTCATCCAC 
    CACCAGATCG TCGAGCTGGC CCGAGACTGC TTGGCCAAGT CTGGCGAGAA CCTCGTCACC 
    TCCCGCTACT TCCTAGAGAT GCAGGAGAAG CTGGAGCGGC TTCTGCAGGA TGCCCATGAG 
    CGTTCGGACA GTGAGGAGGT CAGCTTCATC GTCCAGCTTG TCCGGAAACT GCTGATCATC 
    ATCTCACGGC CAGCTCGGCT GCTGGAGTGT CTGGAGTTTG ACCCTGAGGA ATTTTACCAC 
    CTGCTGGAGG CGGCTGAGGG CCATGCGCGG GAGGGCCAAG GCATTAAGAC TGACCTTCCA 
    CAGTACATCA TTGGGCAGCT GGGCCTGGCC AAGGACCCCC TGGAGGAGAT GGTGCCACTG 
    AGTCACCTCG AAGAAGAACA GCCCCCAGCA CCTGAGTCCC CAGAGAGCCG CGCCCTGGTC 
    GGCCAGTCAC GGAGGAAGCC ATGCGAAAGC GACTTTGAGA CCATCAAACT CATTAGCAAC 
    GGAGCCTATG GGGCCGTCTA CCTGGTGCGG CACCGTGACA CACGGCAGCG CTTTGCCATC 
    AAGAAGATCA ACAAACAGAA CTTGATCCTG CGTAACCAGA TCCAGCAGGT CTTTGTGGAG 
    CGTGACATTC TCACCTTTGC CGAGAACCCC TTTGTGGTCA GCATGTTCTG CTCCTTTGAG 
    ACCCGGCGCC ACCTATGTAT GGTCATGGAA TACGTGGAAG GCGGCGACTG CGCCACGCTC 
    CTGAAGAACA TGGGCCCGCT GCCCGTGGAC ATGGCCCGCC TGTACTTCGC CGAGACGGTG 
    TTGGCGCTGG AGTACCTGCA TAACTATGGC ATCGTGCACC GTGACCTCAA ACCAGACAAT 
    CTGCTCATCA CCTCGCTTGG CCACATCAAG CTCACGGACT TCGGCCTGTC CAAGATCGGC 
    CTCATGAGCA TGGCCACCAA CCTCTATGAG GGCCACATCG AGAAGGACGC CCGAGAGTTC 
    ATCGACAAGC AGGTGTGTGG GACGCCGGAG TACATAGCCC CCGAGGTGAT CTTCCGCCAG 
    GGCTATGGGA AGCCAGTGGA CTGGTGGGCC ATGGGCGTCG TCCTCTATGA GTTTCTGGTG 
    GGCTGCGTGC CTTTCTTTGG AGATACCCCC GAGGAACTCT TCGGTCAGGT GGTCAGCGAT 
    GAGATCATGT GGCCAGAGGG AGATGAGGCC CTTCCAGCAG ACGCCCAGGA CCTCATCACC 
    AGGTTGCTCC GGCAGAGCCC GCTGGACCGT CTGGGCACTG GTGGCACCCA CGAAGTGAAG 
    CAGCACCCCT TTTTCCTGGC CCTGGACTGG GCAGGGCTTC TCCGACACAA AGCCGAGTTC 
    GTGCCCCAGC TCGAAGCTGA GGATGATACC AGCTACTTTG ACACACGTTC GGAACGTTAC 
    CGCCATCTGG GCTCCGAGGA CGACGAGACC AATGATGAAG AATCGTCCAC AGAGATCCCC 
    CAGTTCTCCT CCTGCTCCCA CCGGTTCAGC AAGGTCTACA GCAGCTCTGA GTTCCTGGCC 
    GTCCAGCCCA CTCCTACCTT CGCTGAAAGG AGCTTCAGTG AAGACCGGGA GGAGGGGTGG 
    GAGCGCAGCG AAGTGGACTA TGGCCGCCGG CTGAGTGCTG ACATCCGGCT GAGGTCCTGG 
    ACATCCTCTG GATCCTCCTG TCAGTCATCT TCGTCCCAGC CCGAGCGGGG TCCCAGCCCA 
    TCTCTCCTGA ATACCATCAG CCTGGACACA ATGCCCAAGT TTGCCTTCTC ATCAGAGGAT 
    GAGGGGGTAG GCCCAGGCCC TGCAGGCCCC AAGAGGCCCG TCTTCATTCT AGGGGAGCCT 
    GACCCCCCAC CAGCGGCCAC CCCAGTGATG CCCAAGCCCT CGAGCCTTTC TGCCGACACA 
    GCTGCTCTCA GCCACGCCCG CCTACGGAGC AATAGCATCG GCGCCCGACA CTCCACACCA 
    AGGCCTCTGG ATGCCGGCCG GGGCCGCCGC CTTGGGGGCC CAAGAGACCC AGCCCCTGAG 
    AAGTCCAGAG CCTCCTCCAG CGGTGGCAGT GGTGGCGGCA GTGGGGGCCG CGTGCCCAAG 
    TCAGCCTCTG TCTCTGCCCT GTCCCTCATC ATCACGGCAG ATGATGGCAG CGGCGGCCCC 
    CTCATGAGCC CCCTTTCCCC GCGCTCTCTG TCCTCGAACC CGTCGTCCCG TGACTCTTCG 
    CCGAGCCGAG ACCCGTCCCC CGTGTGTGGC AGCCTGCGGC CCCCCATCGT TATCCACAGC 
    TCTGGCAAGA AGTACGGCTT CAGCCTGCGG GCGATCCGCG TCTACATGGG TGATAGCGAC 
    GTCTACACTG TGCACCACGT CGTCTGGAGT GTGGAGGACG GAAGCCCCGC CCAGGAGGCG 
    GGCCTGCGGG CTGGGGACCT CATCACCCAC ATCAACGGGG AGTCAGTGCT GGGGCTGGTG 
    CACATGGACG TCGTGGAGCT GCTGCTGAAG AGCGGCAACA AGATATCCCT GCGGACCACA 
    GCCCTGGAGA ACACCTCCAT CAAGGTGGGC CCCGCCCGGA AGAATGTGGC CAAGGGCCGC 
    ATGGCACGCA GGAGCAAGAG GAGCCGTCGG CGGGAGACCC AGGATCGGTG CGCGGCAGTG 
    ACCACCAGGG AGCGGCGGAA GTCACTTTTC AAGAAGATCT CCAAGCAGAC CTCCGTGCTG 
    CACACCAGCC GCAGCTTCTC CTCCGGACTC CACCACTCAC TGTCATCCAG TGAGAGCCTC 
    CCCGGCTCGC CCACCCACAG CCTCTCCCCC AGCCCCACCA CTCCCTGCCG AAGCCCAGCC 
    CCTGATGTCC CAGCAGATAC CACTGCATCC CCACCCAGCG CATCCCCGAG CTCCAGCAGC 
    CCCGCCTCCC CAGCTGCTGC TGGCCACACC CGCCCCAGCT CCCTGCACGG CCTGGCTGCC 
    AAGCTTGGGC CACCCCGCCC CAAGACTGGC CGCCGCAAGT CCACCAGCAG CATCCCGCCC 
    TCCCCGCTGG CCTGCCCGCC CATCTCCGCG CCCCCACCCC GCTCGCCCTC GCCCCTGCCC 
    GGGCACCCGC CCGCACCTGC CCGATCCCCG CGGCTGCGCC GGGGCCAGTC AGCTGACAAG 
    CTGGGCACAG GGGAGCGGCT GGATGGGGAG GCGGGGCGGC GCACTCGTGG GCCAGAGGCC 
    GAGCTCGTGG TCATGCGGCG GCTGCACCTG TCCGAGCGCC GAGACTCCTT CAAGAAGCAG 
    GAGGCCGTGC AGGAGGTTAG CTTCGATGAG CCGCAGGAGG AGGCCACTGG GCTGCCCACC 
    TCAGTGCCAC AGATCGCCGT GGAGGGCGAG GAAGCCGTGC CAGTAGCTCT CGGGCCCACC 
    GGAAGAGACT GA

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

    MAST3 ( XM_006722700.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_006722763.1 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X19, mRNA.
    Price & Availability↑
    CloneID OHu51511
    Clone ID Related Accession (Same CDS sequence) XM_006722700.3
    Accession Version XM_006722700.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3945bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product microtubule-associated serine/threonine-protein kinase 3 isoform X17
    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 EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_006722700.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGTCCGACC CCAGCTACTG GACGGCGGTG GCGGCTCCCG GCCATCGGAG CCGCCTGGCA 
    AAAGGCGCGC TGCTGCAGCG CTCCAAGAGC TGCCGCAGCG GGAACCGCAA GAGCTTGGTG 
    GTAGGAACGC CCTCCCCGAC CCTCTCCCGG CCCCTGTCGC CATTGTCGGT CCCAACGGGC 
    AGCAGCCCCT TGGATAGTCC TCGGAATTTC TCGGCTGCCT CTGCCCTAAA TTTCCCCTTT 
    GCCCGGAGGG CAGACGGCAG AAGATGGTCC CTCGCGTCTC TCCCATCTTC CGGCTATGGA 
    ACCAACACAC CCAGCTCCAC CCTCTCGTCA AGCTCATCCT CCCGGGAACG TCTCCACCAG 
    CTTCCCTTCC AGCCGACGCC GGACGAGCTG CACTTCCTGT CCAAGCACTT CCGCAGCTCA 
    GAGAATGTGC TTGATGAGGA AGGCGGCCGG TCACCCCGCC TCCGACCCCG CTCTCGCAGT 
    CTCAGCCCGG GCCGTGCAAC GGGGACCTTC GACAATGAGA TTGTCATGAT GAATCACGTG 
    TACCGGGAGA GGTTCCCCAA GGCCACAGCA CAGATGGAGG GCCGTCTGCA GGAGTTCCTG 
    ACGGCCTACG CGCCCGGCGC CCGGCTGGCG CTGGCTGATG GCGTCTTGGG CTTCATCCAC 
    CACCAGATCG TCGAGCTGGC CCGAGACTGC TTGGCCAAGT CTGGCGAGAA CCTCGTCACC 
    TCCCGCTACT TCCTAGAGAT GCAGGAGAAG CTGGAGCGGC TTCTGCAGGA TGCCCATGAG 
    CGTTCGGACA GTGAGGAGGT CAGCTTCATC GTCCAGCTTG TCCGGAAACT GCTGATCATC 
    ATCTCACGGC CAGCTCGGCT GCTGGAGTGT CTGGAGTTTG ACCCTGAGGA ATTTTACCAC 
    CTGCTGGAGG CGGCTGAGGG CCATGCGCGG GAGGGCCAAG GCATTAAGAC TGACCTTCCA 
    CAGTACATCA TTGGGCAGCT GGGCCTGGCC AAGGACCCCC TGGAGGAGAT GGTGCCACTG 
    AGTCACCTCG AAGAAGAACA GCCCCCAGCA CCTGAGTCCC CAGAGAGCCG CGCCCTGGTC 
    GGCCAGTCAC GGAGGAAGCC ATGCGAAAGC GACTTTGAGA CCATCAAACT CATTAGCAAC 
    GGAGCCTATG GGGCCGTCTA CCTGGTGCGG CACCGTGACA CACGGCAGCG CTTTGCCATC 
    AAGAAGATCA ACAAACAGAA CTTGATCCTG CGTAACCAGA TCCAGCAGGT CTTTGTGGAG 
    CGTGACATTC TCACCTTTGC CGAGAACCCC TTTGTGGTCA GCATGTTCTG CTCCTTTGAG 
    ACCCGGCGCC ACCTATGTAT GGTCATGGAA TACGTGGAAG GCGGCGACTG CGCCACGCTC 
    CTGAAGAACA TGGGCCCGCT GCCCGTGGAC ATGGCCCGCC TGTACTTCGC CGAGACGGTG 
    TTGGCGCTGG AGTACCTGCA TAACTATGGC ATCGTGCACC GTGACCTCAA ACCAGACAAT 
    CTGCTCATCA CCTCGCTTGG CCACATCAAG CTCACGGACT TCGGCCTGTC CAAGATCGGC 
    CTCATGAGCA TGGCCACCAA CCTCTATGAG GGCCACATCG AGAAGGACGC CCGAGAGTTC 
    ATCGACAAGC AGGTGTGTGG GACGCCGGAG TACATAGCCC CCGAGGTGAT CTTCCGCCAG 
    GGCTATGGGA AGCCAGTGGA CTGGTGGGCC ATGGGCGTCG TCCTCTATGA GTTTCTGGTG 
    GGCTGCGTGC CTTTCTTTGG AGATACCCCC GAGGAACTCT TCGGTCAGGT GGTCAGCGAT 
    GAGATCATGT GGCCAGAGGG AGATGAGGCC CTTCCAGCAG ACGCCCAGGA CCTCATCACC 
    AGGTTGCTCC GGCAGAGCCC GCTGGACCGT CTGGGCACTG GTGGCACCCA CGAAGTGAAG 
    CAGCACCCCT TTTTCCTGGC CCTGGACTGG GCAGGGCTTC TCCGACACAA AGCCGAGTTC 
    GTGCCCCAGC TCGAAGCTGA GGATGATACC AGCTACTTTG ACACACGTTC GGAACGTTAC 
    CGCCATCTGG GCTCCGAGGA CGACGAGACC AATGATGAAG AATCGTCCAC AGAGATCCCC 
    CAGTTCTCCT CCTGCTCCCA CCGGTTCAGC AAGGTCTACA GCAGCTCTGA GTTCCTGGCC 
    GTCCAGCCCA CTCCTACCTT CGCTGAAAGG AGCTTCAGTG AAGACCGGGA GGAGGGGTGG 
    GAGCGCAGCG AAGTGGACTA TGGCCGCCGG CTGAGTGCTG ACATCCGGCT GAGGTCCTGG 
    ACATCCTCTG GATCCTCCTG TCAGTCATCT TCGTCCCAGC CCGAGCGGGG TCCCAGCCCA 
    TCTCTCCTGA ATACCATCAG CCTGGACACA ATGCCCAAGT TTGCCTTCTC ATCAGAGGAT 
    GAGGGGGTAG GCCCAGGCCC TGCAGGCCCC AAGAGGCCCG TCTTCATTCT AGGGGAGCCT 
    GACCCCCCAC CAGCGGCCAC CCCAGTGATG CCCAAGCCCT CGAGCCTTTC TGCCGACACA 
    GCTGCTCTCA GCCACGCCCG CCTACGGAGC AATAGCATCG GCGCCCGACA CTCCACACCA 
    AGGCCTCTGG ATGCCGGCCG GGGCCGCCGC CTTGGGGGCC CAAGAGACCC AGCCCCTGAG 
    AAGTCCAGAG CCTCCTCCAG CGGTGGCAGT GGTGGCGGCA GTGGGGGCCG CGTGCCCAAG 
    TCAGCCTCTG TCTCTGCCCT GTCCCTCATC ATCACGGCAG ATGATGGCAG CGGCGGCCCC 
    CTCATGAGCC CCCTTTCCCC GCGCTCTCTG TCCTCGAACC CGTCGTCCCG TGACTCTTCG 
    CCGAGCCGAG ACCCGTCCCC CGTGTGTGGC AGCCTGCGGC CCCCCATCGT TATCCACAGC 
    TCTGGCAAGA AGTACGGCTT CAGCCTGCGG GCGATCCGCG TCTACATGGG TGATAGCGAC 
    GTCTACACTG TGCACCACGT CGTCTGGAGT GTGGAGGACG GAAGCCCCGC CCAGGAGGCG 
    GGCCTGCGGG CTGGGGACCT CATCACCCAC ATCAACGGGG AGTCAGTGCT GGGGCTGGTG 
    CACATGGACG TCGTGGAGCT GCTGCTGAAG AGCGGCAACA AGATATCCCT GCGGACCACA 
    GCCCTGGAGA ACACCTCCAT CAAGGTGGGC CCCGCCCGGA AGAATGTGGC CAAGGGCCGC 
    ATGGCACGCA GGAGCAAGAG GAGCCGTCGG CGGGAGACCC AGGATCGGCG GAAGTCACTT 
    TTCAAGAAGA TCTCCAAGCA GACCTCCGTG CTGCACACCA GCCGCAGCTT CTCCTCCGGA 
    CTCCACCACT CACTGTCATC CAGTGAGAGC CTCCCCGGCT CGCCCACCCA CAGCCTCTCC 
    CCCAGCCCCA CCACTCCCTG CCGAAGCCCA GCCCCTGATG TCCCAGCAGA TACCACTGCA 
    TCCCCACCCA GCGCATCCCC GAGCTCCAGC AGCCCCGCCT CCCCAGCTGC TGCTGGCCAC 
    ACCCGCCCCA GCTCCCTGCA CGGCCTGGCT GCCAAGCTTG GGCCACCCCG CCCCAAGACT 
    GGCCGCCGCA AGTCCACCAG CAGCATCCCG CCCTCCCCGC TGGCCTGCCC GCCCATCTCC 
    GCGCCCCCAC CCCGCTCGCC CTCGCCCCTG CCCGGGCACC CGCCCGCACC TGCCCGATCC 
    CCGCGGCTGC GCCGGGGCCA GTCAGCTGAC AAGCTGGGCA CAGGGGAGCG GCTGGATGGG 
    GAGGCGGGGC GGCGCACTCG TGGGCCAGAG GCCGAGCTCG TGGTCATGCG GCGGCTGCAC 
    CTGTCCGAGC GCCGAGACTC CTTCAAGAAG CAGGAGGCCG TGCAGGAGGT TAGCTTCGAT 
    GAGCCGCAGG AGGAGGCCAC TGGGCTGCCC ACCTCAGTGC CACAGATCGC CGTGGAGGGC 
    GAGGAAGCCG TGCCAGTAGC TCTCGGGCCC ACCGGAAGAG ACTGA

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

    RefSeq XP_006722763.1
    CDS146..4090
    Translation

    Target ORF information:

    RefSeq Version XM_006722700.3
    Organism Homo sapiens(human)
    Definition Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X19, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_006722700.3

    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
    ATGTCCGACC CCAGCTACTG GACGGCGGTG GCGGCTCCCG GCCATCGGAG CCGCCTGGCA 
    AAAGGCGCGC TGCTGCAGCG CTCCAAGAGC TGCCGCAGCG GGAACCGCAA GAGCTTGGTG 
    GTAGGAACGC CCTCCCCGAC CCTCTCCCGG CCCCTGTCGC CATTGTCGGT CCCAACGGGC 
    AGCAGCCCCT TGGATAGTCC TCGGAATTTC TCGGCTGCCT CTGCCCTAAA TTTCCCCTTT 
    GCCCGGAGGG CAGACGGCAG AAGATGGTCC CTCGCGTCTC TCCCATCTTC CGGCTATGGA 
    ACCAACACAC CCAGCTCCAC CCTCTCGTCA AGCTCATCCT CCCGGGAACG TCTCCACCAG 
    CTTCCCTTCC AGCCGACGCC GGACGAGCTG CACTTCCTGT CCAAGCACTT CCGCAGCTCA 
    GAGAATGTGC TTGATGAGGA AGGCGGCCGG TCACCCCGCC TCCGACCCCG CTCTCGCAGT 
    CTCAGCCCGG GCCGTGCAAC GGGGACCTTC GACAATGAGA TTGTCATGAT GAATCACGTG 
    TACCGGGAGA GGTTCCCCAA GGCCACAGCA CAGATGGAGG GCCGTCTGCA GGAGTTCCTG 
    ACGGCCTACG CGCCCGGCGC CCGGCTGGCG CTGGCTGATG GCGTCTTGGG CTTCATCCAC 
    CACCAGATCG TCGAGCTGGC CCGAGACTGC TTGGCCAAGT CTGGCGAGAA CCTCGTCACC 
    TCCCGCTACT TCCTAGAGAT GCAGGAGAAG CTGGAGCGGC TTCTGCAGGA TGCCCATGAG 
    CGTTCGGACA GTGAGGAGGT CAGCTTCATC GTCCAGCTTG TCCGGAAACT GCTGATCATC 
    ATCTCACGGC CAGCTCGGCT GCTGGAGTGT CTGGAGTTTG ACCCTGAGGA ATTTTACCAC 
    CTGCTGGAGG CGGCTGAGGG CCATGCGCGG GAGGGCCAAG GCATTAAGAC TGACCTTCCA 
    CAGTACATCA TTGGGCAGCT GGGCCTGGCC AAGGACCCCC TGGAGGAGAT GGTGCCACTG 
    AGTCACCTCG AAGAAGAACA GCCCCCAGCA CCTGAGTCCC CAGAGAGCCG CGCCCTGGTC 
    GGCCAGTCAC GGAGGAAGCC ATGCGAAAGC GACTTTGAGA CCATCAAACT CATTAGCAAC 
    GGAGCCTATG GGGCCGTCTA CCTGGTGCGG CACCGTGACA CACGGCAGCG CTTTGCCATC 
    AAGAAGATCA ACAAACAGAA CTTGATCCTG CGTAACCAGA TCCAGCAGGT CTTTGTGGAG 
    CGTGACATTC TCACCTTTGC CGAGAACCCC TTTGTGGTCA GCATGTTCTG CTCCTTTGAG 
    ACCCGGCGCC ACCTATGTAT GGTCATGGAA TACGTGGAAG GCGGCGACTG CGCCACGCTC 
    CTGAAGAACA TGGGCCCGCT GCCCGTGGAC ATGGCCCGCC TGTACTTCGC CGAGACGGTG 
    TTGGCGCTGG AGTACCTGCA TAACTATGGC ATCGTGCACC GTGACCTCAA ACCAGACAAT 
    CTGCTCATCA CCTCGCTTGG CCACATCAAG CTCACGGACT TCGGCCTGTC CAAGATCGGC 
    CTCATGAGCA TGGCCACCAA CCTCTATGAG GGCCACATCG AGAAGGACGC CCGAGAGTTC 
    ATCGACAAGC AGGTGTGTGG GACGCCGGAG TACATAGCCC CCGAGGTGAT CTTCCGCCAG 
    GGCTATGGGA AGCCAGTGGA CTGGTGGGCC ATGGGCGTCG TCCTCTATGA GTTTCTGGTG 
    GGCTGCGTGC CTTTCTTTGG AGATACCCCC GAGGAACTCT TCGGTCAGGT GGTCAGCGAT 
    GAGATCATGT GGCCAGAGGG AGATGAGGCC CTTCCAGCAG ACGCCCAGGA CCTCATCACC 
    AGGTTGCTCC GGCAGAGCCC GCTGGACCGT CTGGGCACTG GTGGCACCCA CGAAGTGAAG 
    CAGCACCCCT TTTTCCTGGC CCTGGACTGG GCAGGGCTTC TCCGACACAA AGCCGAGTTC 
    GTGCCCCAGC TCGAAGCTGA GGATGATACC AGCTACTTTG ACACACGTTC GGAACGTTAC 
    CGCCATCTGG GCTCCGAGGA CGACGAGACC AATGATGAAG AATCGTCCAC AGAGATCCCC 
    CAGTTCTCCT CCTGCTCCCA CCGGTTCAGC AAGGTCTACA GCAGCTCTGA GTTCCTGGCC 
    GTCCAGCCCA CTCCTACCTT CGCTGAAAGG AGCTTCAGTG AAGACCGGGA GGAGGGGTGG 
    GAGCGCAGCG AAGTGGACTA TGGCCGCCGG CTGAGTGCTG ACATCCGGCT GAGGTCCTGG 
    ACATCCTCTG GATCCTCCTG TCAGTCATCT TCGTCCCAGC CCGAGCGGGG TCCCAGCCCA 
    TCTCTCCTGA ATACCATCAG CCTGGACACA ATGCCCAAGT TTGCCTTCTC ATCAGAGGAT 
    GAGGGGGTAG GCCCAGGCCC TGCAGGCCCC AAGAGGCCCG TCTTCATTCT AGGGGAGCCT 
    GACCCCCCAC CAGCGGCCAC CCCAGTGATG CCCAAGCCCT CGAGCCTTTC TGCCGACACA 
    GCTGCTCTCA GCCACGCCCG CCTACGGAGC AATAGCATCG GCGCCCGACA CTCCACACCA 
    AGGCCTCTGG ATGCCGGCCG GGGCCGCCGC CTTGGGGGCC CAAGAGACCC AGCCCCTGAG 
    AAGTCCAGAG CCTCCTCCAG CGGTGGCAGT GGTGGCGGCA GTGGGGGCCG CGTGCCCAAG 
    TCAGCCTCTG TCTCTGCCCT GTCCCTCATC ATCACGGCAG ATGATGGCAG CGGCGGCCCC 
    CTCATGAGCC CCCTTTCCCC GCGCTCTCTG TCCTCGAACC CGTCGTCCCG TGACTCTTCG 
    CCGAGCCGAG ACCCGTCCCC CGTGTGTGGC AGCCTGCGGC CCCCCATCGT TATCCACAGC 
    TCTGGCAAGA AGTACGGCTT CAGCCTGCGG GCGATCCGCG TCTACATGGG TGATAGCGAC 
    GTCTACACTG TGCACCACGT CGTCTGGAGT GTGGAGGACG GAAGCCCCGC CCAGGAGGCG 
    GGCCTGCGGG CTGGGGACCT CATCACCCAC ATCAACGGGG AGTCAGTGCT GGGGCTGGTG 
    CACATGGACG TCGTGGAGCT GCTGCTGAAG AGCGGCAACA AGATATCCCT GCGGACCACA 
    GCCCTGGAGA ACACCTCCAT CAAGGTGGGC CCCGCCCGGA AGAATGTGGC CAAGGGCCGC 
    ATGGCACGCA GGAGCAAGAG GAGCCGTCGG CGGGAGACCC AGGATCGGCG GAAGTCACTT 
    TTCAAGAAGA TCTCCAAGCA GACCTCCGTG CTGCACACCA GCCGCAGCTT CTCCTCCGGA 
    CTCCACCACT CACTGTCATC CAGTGAGAGC CTCCCCGGCT CGCCCACCCA CAGCCTCTCC 
    CCCAGCCCCA CCACTCCCTG CCGAAGCCCA GCCCCTGATG TCCCAGCAGA TACCACTGCA 
    TCCCCACCCA GCGCATCCCC GAGCTCCAGC AGCCCCGCCT CCCCAGCTGC TGCTGGCCAC 
    ACCCGCCCCA GCTCCCTGCA CGGCCTGGCT GCCAAGCTTG GGCCACCCCG CCCCAAGACT 
    GGCCGCCGCA AGTCCACCAG CAGCATCCCG CCCTCCCCGC TGGCCTGCCC GCCCATCTCC 
    GCGCCCCCAC CCCGCTCGCC CTCGCCCCTG CCCGGGCACC CGCCCGCACC TGCCCGATCC 
    CCGCGGCTGC GCCGGGGCCA GTCAGCTGAC AAGCTGGGCA CAGGGGAGCG GCTGGATGGG 
    GAGGCGGGGC GGCGCACTCG TGGGCCAGAG GCCGAGCTCG TGGTCATGCG GCGGCTGCAC 
    CTGTCCGAGC GCCGAGACTC CTTCAAGAAG CAGGAGGCCG TGCAGGAGGT TAGCTTCGAT 
    GAGCCGCAGG AGGAGGCCAC TGGGCTGCCC ACCTCAGTGC CACAGATCGC CGTGGAGGGC 
    GAGGAAGCCG TGCCAGTAGC TCTCGGGCCC ACCGGAAGAG ACTGA

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

    MAST3 ( XM_006722699.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_006722762.2 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu65330
    Clone ID Related Accession (Same CDS sequence) XM_006722699.2
    Accession Version XM_006722699.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4260bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product microtubule-associated serine/threonine-protein kinase 3 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 EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 12, 2015 this sequence version replaced XM_006722699.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGATACAGT TGGTGGGGAG GTGCTTGAAG GCCCCAGTGG TTGGGGGTTG CTGGGGGACT 
    GGGACATTGC CCCGAGAGCC GGCACTGTTT CCAGCCTTGG CCCAAGCTGT GGGCAGAGTG 
    TTGGACCGTG AATCAATGAG GACTGCCGAG GGCAAAGTCC TGGACCTTGG GGCAGGACAG 
    AGCCAAAGAC TCCACAAGGG ATGTCCACTC CCTGCCACCT TCCCTGTGCC CCACTGGGTC 
    CACCGGGGCC TCAAGAGGGC CAGAGTGAGA CACAGACACC CCCAGACCGT GGGGTTTGCG 
    CTGAGAGGGA GGAAGGACAG AGCTGGCGGC GCCTGGTGCT GGTGGGGGTG CAGCTGCCGC 
    AGCGGGAACC GCAAGAGCTT GGTGGTAGGA ACGCCCTCCC CGACCCTCTC CCGGCCCCTG 
    TCGCCATTGT CGGTCCCAAC GGCAGGCAGC AGCCCCTTGG ATAGTCCTCG GAATTTCTCG 
    GCTGCCTCTG CCCTAAATTT CCCCTTTGCC CGGAGCCACA TCCCACGCAT GGACAGGGCA 
    GACGGCAGAA GATGGTCCCT CGCGTCTCTC CCATCTTCCG GCTATGGAAC CAACACACCC 
    AGCTCCACCC TCTCGTCAAG CTCATCCTCC CGGGAACGTC TCCACCAGCT TCCCTTCCAG 
    CCGACGCCGG ACGAGCTGCA CTTCCTGTCC AAGCACTTCC GCAGCTCAGA GAATGTGCTT 
    GATGAGGAAG GCGGCCGGTC ACCCCGCCTC CGACCCCGCT CTCGCAGTCT CAGCCCGGGC 
    CGTGCAACGG GGACCTTCGA CAATGAGATT GTCATGATGA ATCACGTGTA CCGGGAGAGG 
    TTCCCCAAGG CCACAGCACA GATGGAGGGC CGTCTGCAGG AGTTCCTGAC GGCCTACGCG 
    CCCGGCGCCC GGCTGGCGCT GGCTGATGGC GTCTTGGGCT TCATCCACCA CCAGATCGTC 
    GAGCTGGCCC GAGACTGCTT GGCCAAGTCT GGCGAGAACC TCGTCACCTC CCGCTACTTC 
    CTAGAGATGC AGGAGAAGCT GGAGCGGCTT CTGCAGGATG CCCATGAGCG TTCGGACAGT 
    GAGGAGGTCA GCTTCATCGT CCAGCTTGTC CGGAAACTGC TGATCATCAT CTCACGGCCA 
    GCTCGGCTGC TGGAGTGTCT GGAGTTTGAC CCTGAGGAAT TTTACCACCT GCTGGAGGCG 
    GCTGAGGGCC ATGCGCGGGA GGGCCAAGGC ATTAAGACTG ACCTTCCACA GTACATCATT 
    GGGCAGCTGG GCCTGGCCAA GGACCCCCTG GAGGAGATGG TGCCACTGAG TCACCTCGAA 
    GAAGAACAGC CCCCAGCACC TGAGTCCCCA GAGAGCCGCG CCCTGGTCGG CCAGTCACGG 
    AGGAAGCCAT GCGAAAGCGA CTTTGAGACC ATCAAACTCA TTAGCAACGG AGCCTATGGG 
    GCCGTCTACC TGGTGCGGCA CCGTGACACA CGGCAGCGCT TTGCCATCAA GAAGATCAAC 
    AAACAGAACT TGATCCTGCG TAACCAGATC CAGCAGGTCT TTGTGGAGCG TGACATTCTC 
    ACCTTTGCCG AGAACCCCTT TGTGGTCAGC ATGTTCTGCT CCTTTGAGAC CCGGCGCCAC 
    CTATGTATGG TCATGGAATA CGTGGAAGGC GGCGACTGCG CCACGCTCCT GAAGAACATG 
    GGCCCGCTGC CCGTGGACAT GGCCCGCCTG TACTTCGCCG AGACGGTGTT GGCGCTGGAG 
    TACCTGCATA ACTATGGCAT CGTGCACCGT GACCTCAAAC CAGACAATCT GCTCATCACC 
    TCGCTTGGCC ACATCAAGCT CACGGACTTC GGCCTGTCCA AGATCGGCCT CATGAGCATG 
    GCCACCAACC TCTATGAGGG CCACATCGAG AAGGACGCCC GAGAGTTCAT CGACAAGCAG 
    GTGTGTGGGA CGCCGGAGTA CATAGCCCCC GAGGTGATCT TCCGCCAGGG CTATGGGAAG 
    CCAGTGGACT GGTGGGCCAT GGGCGTCGTC CTCTATGAGT TTCTGGTGGG CTGCGTGCCT 
    TTCTTTGGAG ATACCCCCGA GGAACTCTTC GGTCAGGTGG TCAGCGATGA GATCATGTGG 
    CCAGAGGGAG ATGAGGCCCT TCCAGCAGAC GCCCAGGACC TCATCACCAG GTTGCTCCGG 
    CAGAGCCCGC TGGACCGTCT GGGCACTGGT GGCACCCACG AAGTGAAGCA GCACCCCTTT 
    TTCCTGGCCC TGGACTGGGC AGGGCTTCTC CGACACAAAG CCGAGTTCGT GCCCCAGCTC 
    GAAGCTGAGG ATGATACCAG CTACTTTGAC ACACGTTCGG AACGTTACCG CCATCTGGGC 
    TCCGAGGACG ACGAGACCAA TGATGAAGAA TCGTCCACAG AGATCCCCCA GTTCTCCTCC 
    TGCTCCCACC GGTTCAGCAA GGTCTACAGC AGCTCTGAGT TCCTGGCCGT CCAGCCCACT 
    CCTACCTTCG CTGAAAGGAG CTTCAGTGAA GACCGGGAGG AGGGGTGGGA GCGCAGCGAA 
    GTGGACTATG GCCGCCGGCT GAGTGCTGAC ATCCGGCTGA GGTCCTGGAC ATCCTCTGGA 
    TCCTCCTGTC AGTCATCTTC GTCCCAGCCC GAGCGGGGTC CCAGCCCATC TCTCCTGAAT 
    ACCATCAGCC TGGACACAAT GCCCAAGTTT GCCTTCTCAT CAGAGGATGA GGGGGTAGGC 
    CCAGGCCCTG CAGGCCCCAA GAGGCCCGTC TTCATTCTAG GGGAGCCTGA CCCCCCACCA 
    GCGGCCACCC CAGTGATGCC CAAGCCCTCG AGCCTTTCTG CCGACACAGC TGCTCTCAGC 
    CACGCCCGCC TACGGAGCAA TAGCATCGGC GCCCGACACT CCACACCAAG GCCTCTGGAT 
    GCCGGCCGGG GCCGCCGCCT TGGGGGCCCA AGAGACCCAG CCCCTGAGAA GTCCAGAGCC 
    TCCTCCAGCG GTGGCAGTGG TGGCGGCAGT GGGGGCCGCG TGCCCAAGTC AGCCTCTGTC 
    TCTGCCCTGT CCCTCATCAT CACGGCAGAT GATGGCAGCG GCGGCCCCCT CATGAGCCCC 
    CTTTCCCCGC GCTCTCTGTC CTCGAACCCG TCGTCCCGTG ACTCTTCGCC GAGCCGAGAC 
    CCGTCCCCCG TGTGTGGCAG CCTGCGGCCC CCCATCGTTA TCCACAGCTC TGGCAAGAAG 
    TACGGCTTCA GCCTGCGGGC GATCCGCGTC TACATGGGTG ATAGCGACGT CTACACTGTG 
    CACCACGTCG TCTGGAGTGT GGAGGACGGA AGCCCCGCCC AGGAGGCGGG CCTGCGGGCT 
    GGGGACCTCA TCACCCACAT CAACGGGGAG TCAGTGCTGG GGCTGGTGCA CATGGACGTC 
    GTGGAGCTGC TGCTGAAGAG CGGCAACAAG ATATCCCTGC GGACCACAGC CCTGGAGAAC 
    ACCTCCATCA AGGTGGGCCC CGCCCGGAAG AATGTGGCCA AGGGCCGCAT GGCACGCAGG 
    AGCAAGAGGA GCCGTCGGCG GGAGACCCAG GATCGGTGCG CGGCAGTGAC CACCAGGGAG 
    CGGCGGAAGT CACTTTTCAA GAAGATCTCC AAGCAGACCT CCGTGCTGCA CACCAGCCGC 
    AGCTTCTCCT CCGGACTCCA CCACTCACTG TCATCCAGTG AGAGCCTCCC CGGCTCGCCC 
    ACCCACAGCC TCTCCCCCAG CCCCACCACT CCCTGCCGAA GCCCAGCCCC TGATGTCCCA 
    GCAGATACCA CTGCATCCCC ACCCAGCGCA TCCCCGAGCT CCAGCAGCCC CGCCTCCCCA 
    GCTGCTGCTG GCCACACCCG CCCCAGCTCC CTGCACGGCC TGGCTGCCAA GCTTGGGCCA 
    CCCCGCCCCA AGACTGGCCG CCGCAAGTCC ACCAGCAGCA TCCCGCCCTC CCCGCTGGCC 
    TGCCCGCCCA TCTCCGCGCC CCCACCCCGC TCGCCCTCGC CCCTGCCCGG GCACCCGCCC 
    GCACCTGCCC GATCCCCGCG GCTGCGCCGG GGCCAGTCAG CTGACAAGCT GGGCACAGGG 
    GAGCGGCTGG ATGGGGAGGC GGGGCGGCGC ACTCGTGGGC CAGAGGCCGA GCTCGTGGTC 
    ATGCGGCGGC TGCACCTGTC CGAGCGCCGA GACTCCTTCA AGAAGCAGGA GGCCGTGCAG 
    GAGGTTAGCT TCGATGAGCC GCAGGAGGAG GCCACTGGGC TGCCCACCTC AGTGCCACAG 
    ATCGCCGTGG AGGGCGAGGA AGCCGTGCCA GTAGCTCTCG GGCCCACCGG AAGAGACTGA

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

    RefSeq XP_006722762.2
    CDS49..4308
    Translation

    Target ORF information:

    RefSeq Version XM_006722699.2
    Organism Homo sapiens(human)
    Definition Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_006722699.2

    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
    ATGATACAGT TGGTGGGGAG GTGCTTGAAG GCCCCAGTGG TTGGGGGTTG CTGGGGGACT 
    GGGACATTGC CCCGAGAGCC GGCACTGTTT CCAGCCTTGG CCCAAGCTGT GGGCAGAGTG 
    TTGGACCGTG AATCAATGAG GACTGCCGAG GGCAAAGTCC TGGACCTTGG GGCAGGACAG 
    AGCCAAAGAC TCCACAAGGG ATGTCCACTC CCTGCCACCT TCCCTGTGCC CCACTGGGTC 
    CACCGGGGCC TCAAGAGGGC CAGAGTGAGA CACAGACACC CCCAGACCGT GGGGTTTGCG 
    CTGAGAGGGA GGAAGGACAG AGCTGGCGGC GCCTGGTGCT GGTGGGGGTG CAGCTGCCGC 
    AGCGGGAACC GCAAGAGCTT GGTGGTAGGA ACGCCCTCCC CGACCCTCTC CCGGCCCCTG 
    TCGCCATTGT CGGTCCCAAC GGCAGGCAGC AGCCCCTTGG ATAGTCCTCG GAATTTCTCG 
    GCTGCCTCTG CCCTAAATTT CCCCTTTGCC CGGAGCCACA TCCCACGCAT GGACAGGGCA 
    GACGGCAGAA GATGGTCCCT CGCGTCTCTC CCATCTTCCG GCTATGGAAC CAACACACCC 
    AGCTCCACCC TCTCGTCAAG CTCATCCTCC CGGGAACGTC TCCACCAGCT TCCCTTCCAG 
    CCGACGCCGG ACGAGCTGCA CTTCCTGTCC AAGCACTTCC GCAGCTCAGA GAATGTGCTT 
    GATGAGGAAG GCGGCCGGTC ACCCCGCCTC CGACCCCGCT CTCGCAGTCT CAGCCCGGGC 
    CGTGCAACGG GGACCTTCGA CAATGAGATT GTCATGATGA ATCACGTGTA CCGGGAGAGG 
    TTCCCCAAGG CCACAGCACA GATGGAGGGC CGTCTGCAGG AGTTCCTGAC GGCCTACGCG 
    CCCGGCGCCC GGCTGGCGCT GGCTGATGGC GTCTTGGGCT TCATCCACCA CCAGATCGTC 
    GAGCTGGCCC GAGACTGCTT GGCCAAGTCT GGCGAGAACC TCGTCACCTC CCGCTACTTC 
    CTAGAGATGC AGGAGAAGCT GGAGCGGCTT CTGCAGGATG CCCATGAGCG TTCGGACAGT 
    GAGGAGGTCA GCTTCATCGT CCAGCTTGTC CGGAAACTGC TGATCATCAT CTCACGGCCA 
    GCTCGGCTGC TGGAGTGTCT GGAGTTTGAC CCTGAGGAAT TTTACCACCT GCTGGAGGCG 
    GCTGAGGGCC ATGCGCGGGA GGGCCAAGGC ATTAAGACTG ACCTTCCACA GTACATCATT 
    GGGCAGCTGG GCCTGGCCAA GGACCCCCTG GAGGAGATGG TGCCACTGAG TCACCTCGAA 
    GAAGAACAGC CCCCAGCACC TGAGTCCCCA GAGAGCCGCG CCCTGGTCGG CCAGTCACGG 
    AGGAAGCCAT GCGAAAGCGA CTTTGAGACC ATCAAACTCA TTAGCAACGG AGCCTATGGG 
    GCCGTCTACC TGGTGCGGCA CCGTGACACA CGGCAGCGCT TTGCCATCAA GAAGATCAAC 
    AAACAGAACT TGATCCTGCG TAACCAGATC CAGCAGGTCT TTGTGGAGCG TGACATTCTC 
    ACCTTTGCCG AGAACCCCTT TGTGGTCAGC ATGTTCTGCT CCTTTGAGAC CCGGCGCCAC 
    CTATGTATGG TCATGGAATA CGTGGAAGGC GGCGACTGCG CCACGCTCCT GAAGAACATG 
    GGCCCGCTGC CCGTGGACAT GGCCCGCCTG TACTTCGCCG AGACGGTGTT GGCGCTGGAG 
    TACCTGCATA ACTATGGCAT CGTGCACCGT GACCTCAAAC CAGACAATCT GCTCATCACC 
    TCGCTTGGCC ACATCAAGCT CACGGACTTC GGCCTGTCCA AGATCGGCCT CATGAGCATG 
    GCCACCAACC TCTATGAGGG CCACATCGAG AAGGACGCCC GAGAGTTCAT CGACAAGCAG 
    GTGTGTGGGA CGCCGGAGTA CATAGCCCCC GAGGTGATCT TCCGCCAGGG CTATGGGAAG 
    CCAGTGGACT GGTGGGCCAT GGGCGTCGTC CTCTATGAGT TTCTGGTGGG CTGCGTGCCT 
    TTCTTTGGAG ATACCCCCGA GGAACTCTTC GGTCAGGTGG TCAGCGATGA GATCATGTGG 
    CCAGAGGGAG ATGAGGCCCT TCCAGCAGAC GCCCAGGACC TCATCACCAG GTTGCTCCGG 
    CAGAGCCCGC TGGACCGTCT GGGCACTGGT GGCACCCACG AAGTGAAGCA GCACCCCTTT 
    TTCCTGGCCC TGGACTGGGC AGGGCTTCTC CGACACAAAG CCGAGTTCGT GCCCCAGCTC 
    GAAGCTGAGG ATGATACCAG CTACTTTGAC ACACGTTCGG AACGTTACCG CCATCTGGGC 
    TCCGAGGACG ACGAGACCAA TGATGAAGAA TCGTCCACAG AGATCCCCCA GTTCTCCTCC 
    TGCTCCCACC GGTTCAGCAA GGTCTACAGC AGCTCTGAGT TCCTGGCCGT CCAGCCCACT 
    CCTACCTTCG CTGAAAGGAG CTTCAGTGAA GACCGGGAGG AGGGGTGGGA GCGCAGCGAA 
    GTGGACTATG GCCGCCGGCT GAGTGCTGAC ATCCGGCTGA GGTCCTGGAC ATCCTCTGGA 
    TCCTCCTGTC AGTCATCTTC GTCCCAGCCC GAGCGGGGTC CCAGCCCATC TCTCCTGAAT 
    ACCATCAGCC TGGACACAAT GCCCAAGTTT GCCTTCTCAT CAGAGGATGA GGGGGTAGGC 
    CCAGGCCCTG CAGGCCCCAA GAGGCCCGTC TTCATTCTAG GGGAGCCTGA CCCCCCACCA 
    GCGGCCACCC CAGTGATGCC CAAGCCCTCG AGCCTTTCTG CCGACACAGC TGCTCTCAGC 
    CACGCCCGCC TACGGAGCAA TAGCATCGGC GCCCGACACT CCACACCAAG GCCTCTGGAT 
    GCCGGCCGGG GCCGCCGCCT TGGGGGCCCA AGAGACCCAG CCCCTGAGAA GTCCAGAGCC 
    TCCTCCAGCG GTGGCAGTGG TGGCGGCAGT GGGGGCCGCG TGCCCAAGTC AGCCTCTGTC 
    TCTGCCCTGT CCCTCATCAT CACGGCAGAT GATGGCAGCG GCGGCCCCCT CATGAGCCCC 
    CTTTCCCCGC GCTCTCTGTC CTCGAACCCG TCGTCCCGTG ACTCTTCGCC GAGCCGAGAC 
    CCGTCCCCCG TGTGTGGCAG CCTGCGGCCC CCCATCGTTA TCCACAGCTC TGGCAAGAAG 
    TACGGCTTCA GCCTGCGGGC GATCCGCGTC TACATGGGTG ATAGCGACGT CTACACTGTG 
    CACCACGTCG TCTGGAGTGT GGAGGACGGA AGCCCCGCCC AGGAGGCGGG CCTGCGGGCT 
    GGGGACCTCA TCACCCACAT CAACGGGGAG TCAGTGCTGG GGCTGGTGCA CATGGACGTC 
    GTGGAGCTGC TGCTGAAGAG CGGCAACAAG ATATCCCTGC GGACCACAGC CCTGGAGAAC 
    ACCTCCATCA AGGTGGGCCC CGCCCGGAAG AATGTGGCCA AGGGCCGCAT GGCACGCAGG 
    AGCAAGAGGA GCCGTCGGCG GGAGACCCAG GATCGGTGCG CGGCAGTGAC CACCAGGGAG 
    CGGCGGAAGT CACTTTTCAA GAAGATCTCC AAGCAGACCT CCGTGCTGCA CACCAGCCGC 
    AGCTTCTCCT CCGGACTCCA CCACTCACTG TCATCCAGTG AGAGCCTCCC CGGCTCGCCC 
    ACCCACAGCC TCTCCCCCAG CCCCACCACT CCCTGCCGAA GCCCAGCCCC TGATGTCCCA 
    GCAGATACCA CTGCATCCCC ACCCAGCGCA TCCCCGAGCT CCAGCAGCCC CGCCTCCCCA 
    GCTGCTGCTG GCCACACCCG CCCCAGCTCC CTGCACGGCC TGGCTGCCAA GCTTGGGCCA 
    CCCCGCCCCA AGACTGGCCG CCGCAAGTCC ACCAGCAGCA TCCCGCCCTC CCCGCTGGCC 
    TGCCCGCCCA TCTCCGCGCC CCCACCCCGC TCGCCCTCGC CCCTGCCCGG GCACCCGCCC 
    GCACCTGCCC GATCCCCGCG GCTGCGCCGG GGCCAGTCAG CTGACAAGCT GGGCACAGGG 
    GAGCGGCTGG ATGGGGAGGC GGGGCGGCGC ACTCGTGGGC CAGAGGCCGA GCTCGTGGTC 
    ATGCGGCGGC TGCACCTGTC CGAGCGCCGA GACTCCTTCA AGAAGCAGGA GGCCGTGCAG 
    GAGGTTAGCT TCGATGAGCC GCAGGAGGAG GCCACTGGGC TGCCCACCTC AGTGCCACAG 
    ATCGCCGTGG AGGGCGAGGA AGCCGTGCCA GTAGCTCTCG GGCCCACCGG AAGAGACTGA

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

    MAST3 ( XM_011527823.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011526125.1 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OHu65331
    Clone ID Related Accession (Same CDS sequence) XM_011527823.1
    Accession Version XM_011527823.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4068bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product microtubule-associated serine/threonine-protein kinase 3 isoform X7
    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 EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGGACGAGT CGAGCCTCCT GCGGCGCCGC GGGCTCCAGA AGGAGCTGAG CCTGCCACGC 
    CGAGGACGTG GTCTGTCTCC GAGCAGCCAG AGCCCGTCCC TGCTGGGTCC CAGCAGCCCC 
    TGCAGCCCCT GTAGCCCCTC CTTGGGCCTG CACCCCTGGA GCTGCCGCAG CGGGAACCGC 
    AAGAGCTTGG TGGTAGGAAC GCCCTCCCCG ACCCTCTCCC GGCCCCTGTC GCCATTGTCG 
    GTCCCAACGG CAGGCAGCAG CCCCTTGGAT AGTCCTCGGA ATTTCTCGGC TGCCTCTGCC 
    CTAAATTTCC CCTTTGCCCG GAGCCACATC CCACGCATGG ACAGGGCAGA CGGCAGAAGA 
    TGGTCCCTCG CGTCTCTCCC ATCTTCCGGC TATGGAACCA ACACACCCAG CTCCACCCTC 
    TCGTCAAGCT CATCCTCCCG GGAACGTCTC CACCAGCTTC CCTTCCAGCC GACGCCGGAC 
    GAGCTGCACT TCCTGTCCAA GCACTTCCGC AGCTCAGAGA ATGTGCTTGA TGAGGAAGGC 
    GGCCGGTCAC CCCGCCTCCG ACCCCGCTCT CGCAGTCTCA GCCCGGGCCG TGCAACGGGG 
    ACCTTCGACA ATGAGATTGT CATGATGAAT CACGTGTACC GGGAGAGGTT CCCCAAGGCC 
    ACAGCACAGA TGGAGGGCCG TCTGCAGGAG TTCCTGACGG CCTACGCGCC CGGCGCCCGG 
    CTGGCGCTGG CTGATGGCGT CTTGGGCTTC ATCCACCACC AGATCGTCGA GCTGGCCCGA 
    GACTGCTTGG CCAAGTCTGG CGAGAACCTC GTCACCTCCC GCTACTTCCT AGAGATGCAG 
    GAGAAGCTGG AGCGGCTTCT GCAGGATGCC CATGAGCGTT CGGACAGTGA GGAGGTCAGC 
    TTCATCGTCC AGCTTGTCCG GAAACTGCTG ATCATCATCT CACGGCCAGC TCGGCTGCTG 
    GAGTGTCTGG AGTTTGACCC TGAGGAATTT TACCACCTGC TGGAGGCGGC TGAGGGCCAT 
    GCGCGGGAGG GCCAAGGCAT TAAGACTGAC CTTCCACAGT ACATCATTGG GCAGCTGGGC 
    CTGGCCAAGG ACCCCCTGGA GGAGATGGTG CCACTGAGTC ACCTCGAAGA AGAACAGCCC 
    CCAGCACCTG AGTCCCCAGA GAGCCGCGCC CTGGTCGGCC AGTCACGGAG GAAGCCATGC 
    GAAAGCGACT TTGAGACCAT CAAACTCATT AGCAACGGAG CCTATGGGGC CGTCTACCTG 
    GTGCGGCACC GTGACACACG GCAGCGCTTT GCCATCAAGA AGATCAACAA ACAGAACTTG 
    ATCCTGCGTA ACCAGATCCA GCAGGTCTTT GTGGAGCGTG ACATTCTCAC CTTTGCCGAG 
    AACCCCTTTG TGGTCAGCAT GTTCTGCTCC TTTGAGACCC GGCGCCACCT ATGTATGGTC 
    ATGGAATACG TGGAAGGCGG CGACTGCGCC ACGCTCCTGA AGAACATGGG CCCGCTGCCC 
    GTGGACATGG CCCGCCTGTA CTTCGCCGAG ACGGTGTTGG CGCTGGAGTA CCTGCATAAC 
    TATGGCATCG TGCACCGTGA CCTCAAACCA GACAATCTGC TCATCACCTC GCTTGGCCAC 
    ATCAAGCTCA CGGACTTCGG CCTGTCCAAG ATCGGCCTCA TGAGCATGGC CACCAACCTC 
    TATGAGGGCC ACATCGAGAA GGACGCCCGA GAGTTCATCG ACAAGCAGGT GTGTGGGACG 
    CCGGAGTACA TAGCCCCCGA GGTGATCTTC CGCCAGGGCT ATGGGAAGCC AGTGGACTGG 
    TGGGCCATGG GCGTCGTCCT CTATGAGTTT CTGGTGGGCT GCGTGCCTTT CTTTGGAGAT 
    ACCCCCGAGG AACTCTTCGG TCAGGTGGTC AGCGATGAGA TCATGTGGCC AGAGGGAGAT 
    GAGGCCCTTC CAGCAGACGC CCAGGACCTC ATCACCAGGT TGCTCCGGCA GAGCCCGCTG 
    GACCGTCTGG GCACTGGTGG CACCCACGAA GTGAAGCAGC ACCCCTTTTT CCTGGCCCTG 
    GACTGGGCAG GGCTTCTCCG ACACAAAGCC GAGTTCGTGC CCCAGCTCGA AGCTGAGGAT 
    GATACCAGCT ACTTTGACAC ACGTTCGGAA CGTTACCGCC ATCTGGGCTC CGAGGACGAC 
    GAGACCAATG ATGAAGAATC GTCCACAGAG ATCCCCCAGT TCTCCTCCTG CTCCCACCGG 
    TTCAGCAAGG TCTACAGCAG CTCTGAGTTC CTGGCCGTCC AGCCCACTCC TACCTTCGCT 
    GAAAGGAGCT TCAGTGAAGA CCGGGAGGAG GGGTGGGAGC GCAGCGAAGT GGACTATGGC 
    CGCCGGCTGA GTGCTGACAT CCGGCTGAGG TCCTGGACAT CCTCTGGATC CTCCTGTCAG 
    TCATCTTCGT CCCAGCCCGA GCGGGGTCCC AGCCCATCTC TCCTGAATAC CATCAGCCTG 
    GACACAATGC CCAAGTTTGC CTTCTCATCA GAGGATGAGG GGGTAGGCCC AGGCCCTGCA 
    GGCCCCAAGA GGCCCGTCTT CATTCTAGGG GAGCCTGACC CCCCACCAGC GGCCACCCCA 
    GTGATGCCCA AGCCCTCGAG CCTTTCTGCC GACACAGCTG CTCTCAGCCA CGCCCGCCTA 
    CGGAGCAATA GCATCGGCGC CCGACACTCC ACACCAAGGC CTCTGGATGC CGGCCGGGGC 
    CGCCGCCTTG GGGGCCCAAG AGACCCAGCC CCTGAGAAGT CCAGAGCCTC CTCCAGCGGT 
    GGCAGTGGTG GCGGCAGTGG GGGCCGCGTG CCCAAGTCAG CCTCTGTCTC TGCCCTGTCC 
    CTCATCATCA CGGCAGATGA TGGCAGCGGC GGCCCCCTCA TGAGCCCCCT TTCCCCGCGC 
    TCTCTGTCCT CGAACCCGTC GTCCCGTGAC TCTTCGCCGA GCCGAGACCC GTCCCCCGTG 
    TGTGGCAGCC TGCGGCCCCC CATCGTTATC CACAGCTCTG GCAAGAAGTA CGGCTTCAGC 
    CTGCGGGCGA TCCGCGTCTA CATGGGTGAT AGCGACGTCT ACACTGTGCA CCACGTCGTC 
    TGGAGTGTGG AGGACGGAAG CCCCGCCCAG GAGGCGGGCC TGCGGGCTGG GGACCTCATC 
    ACCCACATCA ACGGGGAGTC AGTGCTGGGG CTGGTGCACA TGGACGTCGT GGAGCTGCTG 
    CTGAAGAGCG GCAACAAGAT ATCCCTGCGG ACCACAGCCC TGGAGAACAC CTCCATCAAG 
    GTGGGCCCCG CCCGGAAGAA TGTGGCCAAG GGCCGCATGG CACGCAGGAG CAAGAGGAGC 
    CGTCGGCGGG AGACCCAGGA TCGGTGCGCG GCAGTGACCA CCAGGGAGCG GCGGAAGTCA 
    CTTTTCAAGA AGATCTCCAA GCAGACCTCC GTGCTGCACA CCAGCCGCAG CTTCTCCTCC 
    GGACTCCACC ACTCACTGTC ATCCAGTGAG AGCCTCCCCG GCTCGCCCAC CCACAGCCTC 
    TCCCCCAGCC CCACCACTCC CTGCCGAAGC CCAGCCCCTG ATGTCCCAGC AGATACCACT 
    GCATCCCCAC CCAGCGCATC CCCGAGCTCC AGCAGCCCCG CCTCCCCAGC TGCTGCTGGC 
    CACACCCGCC CCAGCTCCCT GCACGGCCTG GCTGCCAAGC TTGGGCCACC CCGCCCCAAG 
    ACTGGCCGCC GCAAGTCCAC CAGCAGCATC CCGCCCTCCC CGCTGGCCTG CCCGCCCATC 
    TCCGCGCCCC CACCCCGCTC GCCCTCGCCC CTGCCCGGGC ACCCGCCCGC ACCTGCCCGA 
    TCCCCGCGGC TGCGCCGGGG CCAGTCAGCT GACAAGCTGG GCACAGGGGA GCGGCTGGAT 
    GGGGAGGCGG GGCGGCGCAC TCGTGGGCCA GAGGCCGAGC TCGTGGTCAT GCGGCGGCTG 
    CACCTGTCCG AGCGCCGAGA CTCCTTCAAG AAGCAGGAGG CCGTGCAGGA GGTTAGCTTC 
    GATGAGCCGC AGGAGGAGGC CACTGGGCTG CCCACCTCAG TGCCACAGAT CGCCGTGGAG 
    GGCGAGGAAG CCGTGCCAGT AGCTCTCGGG CCCACCGGAA GAGACTGA

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

    RefSeq XP_011526125.1
    CDS30..4097
    Translation

    Target ORF information:

    RefSeq Version XM_011527823.1
    Organism Homo sapiens(human)
    Definition Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011527823.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGGACGAGT CGAGCCTCCT GCGGCGCCGC GGGCTCCAGA AGGAGCTGAG CCTGCCACGC 
    CGAGGACGTG GTCTGTCTCC GAGCAGCCAG AGCCCGTCCC TGCTGGGTCC CAGCAGCCCC 
    TGCAGCCCCT GTAGCCCCTC CTTGGGCCTG CACCCCTGGA GCTGCCGCAG CGGGAACCGC 
    AAGAGCTTGG TGGTAGGAAC GCCCTCCCCG ACCCTCTCCC GGCCCCTGTC GCCATTGTCG 
    GTCCCAACGG CAGGCAGCAG CCCCTTGGAT AGTCCTCGGA ATTTCTCGGC TGCCTCTGCC 
    CTAAATTTCC CCTTTGCCCG GAGCCACATC CCACGCATGG ACAGGGCAGA CGGCAGAAGA 
    TGGTCCCTCG CGTCTCTCCC ATCTTCCGGC TATGGAACCA ACACACCCAG CTCCACCCTC 
    TCGTCAAGCT CATCCTCCCG GGAACGTCTC CACCAGCTTC CCTTCCAGCC GACGCCGGAC 
    GAGCTGCACT TCCTGTCCAA GCACTTCCGC AGCTCAGAGA ATGTGCTTGA TGAGGAAGGC 
    GGCCGGTCAC CCCGCCTCCG ACCCCGCTCT CGCAGTCTCA GCCCGGGCCG TGCAACGGGG 
    ACCTTCGACA ATGAGATTGT CATGATGAAT CACGTGTACC GGGAGAGGTT CCCCAAGGCC 
    ACAGCACAGA TGGAGGGCCG TCTGCAGGAG TTCCTGACGG CCTACGCGCC CGGCGCCCGG 
    CTGGCGCTGG CTGATGGCGT CTTGGGCTTC ATCCACCACC AGATCGTCGA GCTGGCCCGA 
    GACTGCTTGG CCAAGTCTGG CGAGAACCTC GTCACCTCCC GCTACTTCCT AGAGATGCAG 
    GAGAAGCTGG AGCGGCTTCT GCAGGATGCC CATGAGCGTT CGGACAGTGA GGAGGTCAGC 
    TTCATCGTCC AGCTTGTCCG GAAACTGCTG ATCATCATCT CACGGCCAGC TCGGCTGCTG 
    GAGTGTCTGG AGTTTGACCC TGAGGAATTT TACCACCTGC TGGAGGCGGC TGAGGGCCAT 
    GCGCGGGAGG GCCAAGGCAT TAAGACTGAC CTTCCACAGT ACATCATTGG GCAGCTGGGC 
    CTGGCCAAGG ACCCCCTGGA GGAGATGGTG CCACTGAGTC ACCTCGAAGA AGAACAGCCC 
    CCAGCACCTG AGTCCCCAGA GAGCCGCGCC CTGGTCGGCC AGTCACGGAG GAAGCCATGC 
    GAAAGCGACT TTGAGACCAT CAAACTCATT AGCAACGGAG CCTATGGGGC CGTCTACCTG 
    GTGCGGCACC GTGACACACG GCAGCGCTTT GCCATCAAGA AGATCAACAA ACAGAACTTG 
    ATCCTGCGTA ACCAGATCCA GCAGGTCTTT GTGGAGCGTG ACATTCTCAC CTTTGCCGAG 
    AACCCCTTTG TGGTCAGCAT GTTCTGCTCC TTTGAGACCC GGCGCCACCT ATGTATGGTC 
    ATGGAATACG TGGAAGGCGG CGACTGCGCC ACGCTCCTGA AGAACATGGG CCCGCTGCCC 
    GTGGACATGG CCCGCCTGTA CTTCGCCGAG ACGGTGTTGG CGCTGGAGTA CCTGCATAAC 
    TATGGCATCG TGCACCGTGA CCTCAAACCA GACAATCTGC TCATCACCTC GCTTGGCCAC 
    ATCAAGCTCA CGGACTTCGG CCTGTCCAAG ATCGGCCTCA TGAGCATGGC CACCAACCTC 
    TATGAGGGCC ACATCGAGAA GGACGCCCGA GAGTTCATCG ACAAGCAGGT GTGTGGGACG 
    CCGGAGTACA TAGCCCCCGA GGTGATCTTC CGCCAGGGCT ATGGGAAGCC AGTGGACTGG 
    TGGGCCATGG GCGTCGTCCT CTATGAGTTT CTGGTGGGCT GCGTGCCTTT CTTTGGAGAT 
    ACCCCCGAGG AACTCTTCGG TCAGGTGGTC AGCGATGAGA TCATGTGGCC AGAGGGAGAT 
    GAGGCCCTTC CAGCAGACGC CCAGGACCTC ATCACCAGGT TGCTCCGGCA GAGCCCGCTG 
    GACCGTCTGG GCACTGGTGG CACCCACGAA GTGAAGCAGC ACCCCTTTTT CCTGGCCCTG 
    GACTGGGCAG GGCTTCTCCG ACACAAAGCC GAGTTCGTGC CCCAGCTCGA AGCTGAGGAT 
    GATACCAGCT ACTTTGACAC ACGTTCGGAA CGTTACCGCC ATCTGGGCTC CGAGGACGAC 
    GAGACCAATG ATGAAGAATC GTCCACAGAG ATCCCCCAGT TCTCCTCCTG CTCCCACCGG 
    TTCAGCAAGG TCTACAGCAG CTCTGAGTTC CTGGCCGTCC AGCCCACTCC TACCTTCGCT 
    GAAAGGAGCT TCAGTGAAGA CCGGGAGGAG GGGTGGGAGC GCAGCGAAGT GGACTATGGC 
    CGCCGGCTGA GTGCTGACAT CCGGCTGAGG TCCTGGACAT CCTCTGGATC CTCCTGTCAG 
    TCATCTTCGT CCCAGCCCGA GCGGGGTCCC AGCCCATCTC TCCTGAATAC CATCAGCCTG 
    GACACAATGC CCAAGTTTGC CTTCTCATCA GAGGATGAGG GGGTAGGCCC AGGCCCTGCA 
    GGCCCCAAGA GGCCCGTCTT CATTCTAGGG GAGCCTGACC CCCCACCAGC GGCCACCCCA 
    GTGATGCCCA AGCCCTCGAG CCTTTCTGCC GACACAGCTG CTCTCAGCCA CGCCCGCCTA 
    CGGAGCAATA GCATCGGCGC CCGACACTCC ACACCAAGGC CTCTGGATGC CGGCCGGGGC 
    CGCCGCCTTG GGGGCCCAAG AGACCCAGCC CCTGAGAAGT CCAGAGCCTC CTCCAGCGGT 
    GGCAGTGGTG GCGGCAGTGG GGGCCGCGTG CCCAAGTCAG CCTCTGTCTC TGCCCTGTCC 
    CTCATCATCA CGGCAGATGA TGGCAGCGGC GGCCCCCTCA TGAGCCCCCT TTCCCCGCGC 
    TCTCTGTCCT CGAACCCGTC GTCCCGTGAC TCTTCGCCGA GCCGAGACCC GTCCCCCGTG 
    TGTGGCAGCC TGCGGCCCCC CATCGTTATC CACAGCTCTG GCAAGAAGTA CGGCTTCAGC 
    CTGCGGGCGA TCCGCGTCTA CATGGGTGAT AGCGACGTCT ACACTGTGCA CCACGTCGTC 
    TGGAGTGTGG AGGACGGAAG CCCCGCCCAG GAGGCGGGCC TGCGGGCTGG GGACCTCATC 
    ACCCACATCA ACGGGGAGTC AGTGCTGGGG CTGGTGCACA TGGACGTCGT GGAGCTGCTG 
    CTGAAGAGCG GCAACAAGAT ATCCCTGCGG ACCACAGCCC TGGAGAACAC CTCCATCAAG 
    GTGGGCCCCG CCCGGAAGAA TGTGGCCAAG GGCCGCATGG CACGCAGGAG CAAGAGGAGC 
    CGTCGGCGGG AGACCCAGGA TCGGTGCGCG GCAGTGACCA CCAGGGAGCG GCGGAAGTCA 
    CTTTTCAAGA AGATCTCCAA GCAGACCTCC GTGCTGCACA CCAGCCGCAG CTTCTCCTCC 
    GGACTCCACC ACTCACTGTC ATCCAGTGAG AGCCTCCCCG GCTCGCCCAC CCACAGCCTC 
    TCCCCCAGCC CCACCACTCC CTGCCGAAGC CCAGCCCCTG ATGTCCCAGC AGATACCACT 
    GCATCCCCAC CCAGCGCATC CCCGAGCTCC AGCAGCCCCG CCTCCCCAGC TGCTGCTGGC 
    CACACCCGCC CCAGCTCCCT GCACGGCCTG GCTGCCAAGC TTGGGCCACC CCGCCCCAAG 
    ACTGGCCGCC GCAAGTCCAC CAGCAGCATC CCGCCCTCCC CGCTGGCCTG CCCGCCCATC 
    TCCGCGCCCC CACCCCGCTC GCCCTCGCCC CTGCCCGGGC ACCCGCCCGC ACCTGCCCGA 
    TCCCCGCGGC TGCGCCGGGG CCAGTCAGCT GACAAGCTGG GCACAGGGGA GCGGCTGGAT 
    GGGGAGGCGG GGCGGCGCAC TCGTGGGCCA GAGGCCGAGC TCGTGGTCAT GCGGCGGCTG 
    CACCTGTCCG AGCGCCGAGA CTCCTTCAAG AAGCAGGAGG CCGTGCAGGA GGTTAGCTTC 
    GATGAGCCGC AGGAGGAGGC CACTGGGCTG CCCACCTCAG TGCCACAGAT CGCCGTGGAG 
    GGCGAGGAAG CCGTGCCAGT AGCTCTCGGG CCCACCGGAA GAGACTGA

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

    MAST3 ( XM_017026506.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016881995.1 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OHu88320
    Clone ID Related Accession (Same CDS sequence) XM_017026506.1
    Accession Version XM_017026506.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4257bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product microtubule-associated serine/threonine-protein kinase 3 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 EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGATACAGT TGGTGGGGAG GTGCTTGAAG GCCCCAGTGG TTGGGGGTTG CTGGGGGACT 
    GGGACATTGC CCCGAGAGCC GGCACTGTTT CCAGCCTTGG CCCAAGCTGT GGGCAGAGTG 
    TTGGACCGTG AATCAATGAG GACTGCCGAG GGCAAAGTCC TGGACCTTGG GGCAGGACAG 
    AGCCAAAGAC TCCACAAGGG ATGTCCACTC CCTGCCACCT TCCCTGTGCC CCACTGGGTC 
    CACCGGGGCC TCAAGAGGGC CAGAGTGAGA CACAGACACC CCCAGACCGT GGGGTTTGCG 
    CTGAGAGGGA GGAAGGACAG AGCTGGCGGC GCCTGGTGCT GGTGGGGGTG CAGCTGCCGC 
    AGCGGGAACC GCAAGAGCTT GGTGGTAGGA ACGCCCTCCC CGACCCTCTC CCGGCCCCTG 
    TCGCCATTGT CGGTCCCAAC GGGCAGCAGC CCCTTGGATA GTCCTCGGAA TTTCTCGGCT 
    GCCTCTGCCC TAAATTTCCC CTTTGCCCGG AGCCACATCC CACGCATGGA CAGGGCAGAC 
    GGCAGAAGAT GGTCCCTCGC GTCTCTCCCA TCTTCCGGCT ATGGAACCAA CACACCCAGC 
    TCCACCCTCT CGTCAAGCTC ATCCTCCCGG GAACGTCTCC ACCAGCTTCC CTTCCAGCCG 
    ACGCCGGACG AGCTGCACTT CCTGTCCAAG CACTTCCGCA GCTCAGAGAA TGTGCTTGAT 
    GAGGAAGGCG GCCGGTCACC CCGCCTCCGA CCCCGCTCTC GCAGTCTCAG CCCGGGCCGT 
    GCAACGGGGA CCTTCGACAA TGAGATTGTC ATGATGAATC ACGTGTACCG GGAGAGGTTC 
    CCCAAGGCCA CAGCACAGAT GGAGGGCCGT CTGCAGGAGT TCCTGACGGC CTACGCGCCC 
    GGCGCCCGGC TGGCGCTGGC TGATGGCGTC TTGGGCTTCA TCCACCACCA GATCGTCGAG 
    CTGGCCCGAG ACTGCTTGGC CAAGTCTGGC GAGAACCTCG TCACCTCCCG CTACTTCCTA 
    GAGATGCAGG AGAAGCTGGA GCGGCTTCTG CAGGATGCCC ATGAGCGTTC GGACAGTGAG 
    GAGGTCAGCT TCATCGTCCA GCTTGTCCGG AAACTGCTGA TCATCATCTC ACGGCCAGCT 
    CGGCTGCTGG AGTGTCTGGA GTTTGACCCT GAGGAATTTT ACCACCTGCT GGAGGCGGCT 
    GAGGGCCATG CGCGGGAGGG CCAAGGCATT AAGACTGACC TTCCACAGTA CATCATTGGG 
    CAGCTGGGCC TGGCCAAGGA CCCCCTGGAG GAGATGGTGC CACTGAGTCA CCTCGAAGAA 
    GAACAGCCCC CAGCACCTGA GTCCCCAGAG AGCCGCGCCC TGGTCGGCCA GTCACGGAGG 
    AAGCCATGCG AAAGCGACTT TGAGACCATC AAACTCATTA GCAACGGAGC CTATGGGGCC 
    GTCTACCTGG TGCGGCACCG TGACACACGG CAGCGCTTTG CCATCAAGAA GATCAACAAA 
    CAGAACTTGA TCCTGCGTAA CCAGATCCAG CAGGTCTTTG TGGAGCGTGA CATTCTCACC 
    TTTGCCGAGA ACCCCTTTGT GGTCAGCATG TTCTGCTCCT TTGAGACCCG GCGCCACCTA 
    TGTATGGTCA TGGAATACGT GGAAGGCGGC GACTGCGCCA CGCTCCTGAA GAACATGGGC 
    CCGCTGCCCG TGGACATGGC CCGCCTGTAC TTCGCCGAGA CGGTGTTGGC GCTGGAGTAC 
    CTGCATAACT ATGGCATCGT GCACCGTGAC CTCAAACCAG ACAATCTGCT CATCACCTCG 
    CTTGGCCACA TCAAGCTCAC GGACTTCGGC CTGTCCAAGA TCGGCCTCAT GAGCATGGCC 
    ACCAACCTCT ATGAGGGCCA CATCGAGAAG GACGCCCGAG AGTTCATCGA CAAGCAGGTG 
    TGTGGGACGC CGGAGTACAT AGCCCCCGAG GTGATCTTCC GCCAGGGCTA TGGGAAGCCA 
    GTGGACTGGT GGGCCATGGG CGTCGTCCTC TATGAGTTTC TGGTGGGCTG CGTGCCTTTC 
    TTTGGAGATA CCCCCGAGGA ACTCTTCGGT CAGGTGGTCA GCGATGAGAT CATGTGGCCA 
    GAGGGAGATG AGGCCCTTCC AGCAGACGCC CAGGACCTCA TCACCAGGTT GCTCCGGCAG 
    AGCCCGCTGG ACCGTCTGGG CACTGGTGGC ACCCACGAAG TGAAGCAGCA CCCCTTTTTC 
    CTGGCCCTGG ACTGGGCAGG GCTTCTCCGA CACAAAGCCG AGTTCGTGCC CCAGCTCGAA 
    GCTGAGGATG ATACCAGCTA CTTTGACACA CGTTCGGAAC GTTACCGCCA TCTGGGCTCC 
    GAGGACGACG AGACCAATGA TGAAGAATCG TCCACAGAGA TCCCCCAGTT CTCCTCCTGC 
    TCCCACCGGT TCAGCAAGGT CTACAGCAGC TCTGAGTTCC TGGCCGTCCA GCCCACTCCT 
    ACCTTCGCTG AAAGGAGCTT CAGTGAAGAC CGGGAGGAGG GGTGGGAGCG CAGCGAAGTG 
    GACTATGGCC GCCGGCTGAG TGCTGACATC CGGCTGAGGT CCTGGACATC CTCTGGATCC 
    TCCTGTCAGT CATCTTCGTC CCAGCCCGAG CGGGGTCCCA GCCCATCTCT CCTGAATACC 
    ATCAGCCTGG ACACAATGCC CAAGTTTGCC TTCTCATCAG AGGATGAGGG GGTAGGCCCA 
    GGCCCTGCAG GCCCCAAGAG GCCCGTCTTC ATTCTAGGGG AGCCTGACCC CCCACCAGCG 
    GCCACCCCAG TGATGCCCAA GCCCTCGAGC CTTTCTGCCG ACACAGCTGC TCTCAGCCAC 
    GCCCGCCTAC GGAGCAATAG CATCGGCGCC CGACACTCCA CACCAAGGCC TCTGGATGCC 
    GGCCGGGGCC GCCGCCTTGG GGGCCCAAGA GACCCAGCCC CTGAGAAGTC CAGAGCCTCC 
    TCCAGCGGTG GCAGTGGTGG CGGCAGTGGG GGCCGCGTGC CCAAGTCAGC CTCTGTCTCT 
    GCCCTGTCCC TCATCATCAC GGCAGATGAT GGCAGCGGCG GCCCCCTCAT GAGCCCCCTT 
    TCCCCGCGCT CTCTGTCCTC GAACCCGTCG TCCCGTGACT CTTCGCCGAG CCGAGACCCG 
    TCCCCCGTGT GTGGCAGCCT GCGGCCCCCC ATCGTTATCC ACAGCTCTGG CAAGAAGTAC 
    GGCTTCAGCC TGCGGGCGAT CCGCGTCTAC ATGGGTGATA GCGACGTCTA CACTGTGCAC 
    CACGTCGTCT GGAGTGTGGA GGACGGAAGC CCCGCCCAGG AGGCGGGCCT GCGGGCTGGG 
    GACCTCATCA CCCACATCAA CGGGGAGTCA GTGCTGGGGC TGGTGCACAT GGACGTCGTG 
    GAGCTGCTGC TGAAGAGCGG CAACAAGATA TCCCTGCGGA CCACAGCCCT GGAGAACACC 
    TCCATCAAGG TGGGCCCCGC CCGGAAGAAT GTGGCCAAGG GCCGCATGGC ACGCAGGAGC 
    AAGAGGAGCC GTCGGCGGGA GACCCAGGAT CGGTGCGCGG CAGTGACCAC CAGGGAGCGG 
    CGGAAGTCAC TTTTCAAGAA GATCTCCAAG CAGACCTCCG TGCTGCACAC CAGCCGCAGC 
    TTCTCCTCCG GACTCCACCA CTCACTGTCA TCCAGTGAGA GCCTCCCCGG CTCGCCCACC 
    CACAGCCTCT CCCCCAGCCC CACCACTCCC TGCCGAAGCC CAGCCCCTGA TGTCCCAGCA 
    GATACCACTG CATCCCCACC CAGCGCATCC CCGAGCTCCA GCAGCCCCGC CTCCCCAGCT 
    GCTGCTGGCC ACACCCGCCC CAGCTCCCTG CACGGCCTGG CTGCCAAGCT TGGGCCACCC 
    CGCCCCAAGA CTGGCCGCCG CAAGTCCACC AGCAGCATCC CGCCCTCCCC GCTGGCCTGC 
    CCGCCCATCT CCGCGCCCCC ACCCCGCTCG CCCTCGCCCC TGCCCGGGCA CCCGCCCGCA 
    CCTGCCCGAT CCCCGCGGCT GCGCCGGGGC CAGTCAGCTG ACAAGCTGGG CACAGGGGAG 
    CGGCTGGATG GGGAGGCGGG GCGGCGCACT CGTGGGCCAG AGGCCGAGCT CGTGGTCATG 
    CGGCGGCTGC ACCTGTCCGA GCGCCGAGAC TCCTTCAAGA AGCAGGAGGC CGTGCAGGAG 
    GTTAGCTTCG ATGAGCCGCA GGAGGAGGCC ACTGGGCTGC CCACCTCAGT GCCACAGATC 
    GCCGTGGAGG GCGAGGAAGC CGTGCCAGTA GCTCTCGGGC CCACCGGAAG AGACTGA

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

    RefSeq XP_016881995.1
    CDS49..4305
    Translation

    Target ORF information:

    RefSeq Version XM_017026506.1
    Organism Homo sapiens(human)
    Definition Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017026506.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGATACAGT TGGTGGGGAG GTGCTTGAAG GCCCCAGTGG TTGGGGGTTG CTGGGGGACT 
    GGGACATTGC CCCGAGAGCC GGCACTGTTT CCAGCCTTGG CCCAAGCTGT GGGCAGAGTG 
    TTGGACCGTG AATCAATGAG GACTGCCGAG GGCAAAGTCC TGGACCTTGG GGCAGGACAG 
    AGCCAAAGAC TCCACAAGGG ATGTCCACTC CCTGCCACCT TCCCTGTGCC CCACTGGGTC 
    CACCGGGGCC TCAAGAGGGC CAGAGTGAGA CACAGACACC CCCAGACCGT GGGGTTTGCG 
    CTGAGAGGGA GGAAGGACAG AGCTGGCGGC GCCTGGTGCT GGTGGGGGTG CAGCTGCCGC 
    AGCGGGAACC GCAAGAGCTT GGTGGTAGGA ACGCCCTCCC CGACCCTCTC CCGGCCCCTG 
    TCGCCATTGT CGGTCCCAAC GGGCAGCAGC CCCTTGGATA GTCCTCGGAA TTTCTCGGCT 
    GCCTCTGCCC TAAATTTCCC CTTTGCCCGG AGCCACATCC CACGCATGGA CAGGGCAGAC 
    GGCAGAAGAT GGTCCCTCGC GTCTCTCCCA TCTTCCGGCT ATGGAACCAA CACACCCAGC 
    TCCACCCTCT CGTCAAGCTC ATCCTCCCGG GAACGTCTCC ACCAGCTTCC CTTCCAGCCG 
    ACGCCGGACG AGCTGCACTT CCTGTCCAAG CACTTCCGCA GCTCAGAGAA TGTGCTTGAT 
    GAGGAAGGCG GCCGGTCACC CCGCCTCCGA CCCCGCTCTC GCAGTCTCAG CCCGGGCCGT 
    GCAACGGGGA CCTTCGACAA TGAGATTGTC ATGATGAATC ACGTGTACCG GGAGAGGTTC 
    CCCAAGGCCA CAGCACAGAT GGAGGGCCGT CTGCAGGAGT TCCTGACGGC CTACGCGCCC 
    GGCGCCCGGC TGGCGCTGGC TGATGGCGTC TTGGGCTTCA TCCACCACCA GATCGTCGAG 
    CTGGCCCGAG ACTGCTTGGC CAAGTCTGGC GAGAACCTCG TCACCTCCCG CTACTTCCTA 
    GAGATGCAGG AGAAGCTGGA GCGGCTTCTG CAGGATGCCC ATGAGCGTTC GGACAGTGAG 
    GAGGTCAGCT TCATCGTCCA GCTTGTCCGG AAACTGCTGA TCATCATCTC ACGGCCAGCT 
    CGGCTGCTGG AGTGTCTGGA GTTTGACCCT GAGGAATTTT ACCACCTGCT GGAGGCGGCT 
    GAGGGCCATG CGCGGGAGGG CCAAGGCATT AAGACTGACC TTCCACAGTA CATCATTGGG 
    CAGCTGGGCC TGGCCAAGGA CCCCCTGGAG GAGATGGTGC CACTGAGTCA CCTCGAAGAA 
    GAACAGCCCC CAGCACCTGA GTCCCCAGAG AGCCGCGCCC TGGTCGGCCA GTCACGGAGG 
    AAGCCATGCG AAAGCGACTT TGAGACCATC AAACTCATTA GCAACGGAGC CTATGGGGCC 
    GTCTACCTGG TGCGGCACCG TGACACACGG CAGCGCTTTG CCATCAAGAA GATCAACAAA 
    CAGAACTTGA TCCTGCGTAA CCAGATCCAG CAGGTCTTTG TGGAGCGTGA CATTCTCACC 
    TTTGCCGAGA ACCCCTTTGT GGTCAGCATG TTCTGCTCCT TTGAGACCCG GCGCCACCTA 
    TGTATGGTCA TGGAATACGT GGAAGGCGGC GACTGCGCCA CGCTCCTGAA GAACATGGGC 
    CCGCTGCCCG TGGACATGGC CCGCCTGTAC TTCGCCGAGA CGGTGTTGGC GCTGGAGTAC 
    CTGCATAACT ATGGCATCGT GCACCGTGAC CTCAAACCAG ACAATCTGCT CATCACCTCG 
    CTTGGCCACA TCAAGCTCAC GGACTTCGGC CTGTCCAAGA TCGGCCTCAT GAGCATGGCC 
    ACCAACCTCT ATGAGGGCCA CATCGAGAAG GACGCCCGAG AGTTCATCGA CAAGCAGGTG 
    TGTGGGACGC CGGAGTACAT AGCCCCCGAG GTGATCTTCC GCCAGGGCTA TGGGAAGCCA 
    GTGGACTGGT GGGCCATGGG CGTCGTCCTC TATGAGTTTC TGGTGGGCTG CGTGCCTTTC 
    TTTGGAGATA CCCCCGAGGA ACTCTTCGGT CAGGTGGTCA GCGATGAGAT CATGTGGCCA 
    GAGGGAGATG AGGCCCTTCC AGCAGACGCC CAGGACCTCA TCACCAGGTT GCTCCGGCAG 
    AGCCCGCTGG ACCGTCTGGG CACTGGTGGC ACCCACGAAG TGAAGCAGCA CCCCTTTTTC 
    CTGGCCCTGG ACTGGGCAGG GCTTCTCCGA CACAAAGCCG AGTTCGTGCC CCAGCTCGAA 
    GCTGAGGATG ATACCAGCTA CTTTGACACA CGTTCGGAAC GTTACCGCCA TCTGGGCTCC 
    GAGGACGACG AGACCAATGA TGAAGAATCG TCCACAGAGA TCCCCCAGTT CTCCTCCTGC 
    TCCCACCGGT TCAGCAAGGT CTACAGCAGC TCTGAGTTCC TGGCCGTCCA GCCCACTCCT 
    ACCTTCGCTG AAAGGAGCTT CAGTGAAGAC CGGGAGGAGG GGTGGGAGCG CAGCGAAGTG 
    GACTATGGCC GCCGGCTGAG TGCTGACATC CGGCTGAGGT CCTGGACATC CTCTGGATCC 
    TCCTGTCAGT CATCTTCGTC CCAGCCCGAG CGGGGTCCCA GCCCATCTCT CCTGAATACC 
    ATCAGCCTGG ACACAATGCC CAAGTTTGCC TTCTCATCAG AGGATGAGGG GGTAGGCCCA 
    GGCCCTGCAG GCCCCAAGAG GCCCGTCTTC ATTCTAGGGG AGCCTGACCC CCCACCAGCG 
    GCCACCCCAG TGATGCCCAA GCCCTCGAGC CTTTCTGCCG ACACAGCTGC TCTCAGCCAC 
    GCCCGCCTAC GGAGCAATAG CATCGGCGCC CGACACTCCA CACCAAGGCC TCTGGATGCC 
    GGCCGGGGCC GCCGCCTTGG GGGCCCAAGA GACCCAGCCC CTGAGAAGTC CAGAGCCTCC 
    TCCAGCGGTG GCAGTGGTGG CGGCAGTGGG GGCCGCGTGC CCAAGTCAGC CTCTGTCTCT 
    GCCCTGTCCC TCATCATCAC GGCAGATGAT GGCAGCGGCG GCCCCCTCAT GAGCCCCCTT 
    TCCCCGCGCT CTCTGTCCTC GAACCCGTCG TCCCGTGACT CTTCGCCGAG CCGAGACCCG 
    TCCCCCGTGT GTGGCAGCCT GCGGCCCCCC ATCGTTATCC ACAGCTCTGG CAAGAAGTAC 
    GGCTTCAGCC TGCGGGCGAT CCGCGTCTAC ATGGGTGATA GCGACGTCTA CACTGTGCAC 
    CACGTCGTCT GGAGTGTGGA GGACGGAAGC CCCGCCCAGG AGGCGGGCCT GCGGGCTGGG 
    GACCTCATCA CCCACATCAA CGGGGAGTCA GTGCTGGGGC TGGTGCACAT GGACGTCGTG 
    GAGCTGCTGC TGAAGAGCGG CAACAAGATA TCCCTGCGGA CCACAGCCCT GGAGAACACC 
    TCCATCAAGG TGGGCCCCGC CCGGAAGAAT GTGGCCAAGG GCCGCATGGC ACGCAGGAGC 
    AAGAGGAGCC GTCGGCGGGA GACCCAGGAT CGGTGCGCGG CAGTGACCAC CAGGGAGCGG 
    CGGAAGTCAC TTTTCAAGAA GATCTCCAAG CAGACCTCCG TGCTGCACAC CAGCCGCAGC 
    TTCTCCTCCG GACTCCACCA CTCACTGTCA TCCAGTGAGA GCCTCCCCGG CTCGCCCACC 
    CACAGCCTCT CCCCCAGCCC CACCACTCCC TGCCGAAGCC CAGCCCCTGA TGTCCCAGCA 
    GATACCACTG CATCCCCACC CAGCGCATCC CCGAGCTCCA GCAGCCCCGC CTCCCCAGCT 
    GCTGCTGGCC ACACCCGCCC CAGCTCCCTG CACGGCCTGG CTGCCAAGCT TGGGCCACCC 
    CGCCCCAAGA CTGGCCGCCG CAAGTCCACC AGCAGCATCC CGCCCTCCCC GCTGGCCTGC 
    CCGCCCATCT CCGCGCCCCC ACCCCGCTCG CCCTCGCCCC TGCCCGGGCA CCCGCCCGCA 
    CCTGCCCGAT CCCCGCGGCT GCGCCGGGGC CAGTCAGCTG ACAAGCTGGG CACAGGGGAG 
    CGGCTGGATG GGGAGGCGGG GCGGCGCACT CGTGGGCCAG AGGCCGAGCT CGTGGTCATG 
    CGGCGGCTGC ACCTGTCCGA GCGCCGAGAC TCCTTCAAGA AGCAGGAGGC CGTGCAGGAG 
    GTTAGCTTCG ATGAGCCGCA GGAGGAGGCC ACTGGGCTGC CCACCTCAGT GCCACAGATC 
    GCCGTGGAGG GCGAGGAAGC CGTGCCAGTA GCTCTCGGGC CCACCGGAAG AGACTGA

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

    MAST3 ( XM_017026507.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016881996.1 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OHu88321
    Clone ID Related Accession (Same CDS sequence) XM_017026507.1
    Accession Version XM_017026507.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4239bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product microtubule-associated serine/threonine-protein kinase 3 isoform X3
    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 EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGATACAGT TGGTGGGGAG GTGCTTGAAG GCCCCAGTGG TTGGGGGTTG CTGGGGGACT 
    GGGACATTGC CCCGAGAGCC GGCACTGTTT CCAGCCTTGG CCCAAGCTGT GGGCAGAGTG 
    TTGGACCGTG AATCAATGAG GACTGCCGAG GGCAAAGTCC TGGACCTTGG GGCAGGACAG 
    AGCCAAAGAC TCCACAAGGG ATGTCCACTC CCTGCCACCT TCCCTGTGCC CCACTGGGTC 
    CACCGGGGCC TCAAGAGGGC CAGAGTGAGA CACAGACACC CCCAGACCGT GGGGTTTGCG 
    CTGAGAGGGA GGAAGGACAG AGCTGGCGGC GCCTGGTGCT GGTGGGGGTG CAGCTGCCGC 
    AGCGGGAACC GCAAGAGCTT GGTGGTAGGA ACGCCCTCCC CGACCCTCTC CCGGCCCCTG 
    TCGCCATTGT CGGTCCCAAC GGCAGGCAGC AGCCCCTTGG ATAGTCCTCG GAATTTCTCG 
    GCTGCCTCTG CCCTAAATTT CCCCTTTGCC CGGAGGGCAG ACGGCAGAAG ATGGTCCCTC 
    GCGTCTCTCC CATCTTCCGG CTATGGAACC AACACACCCA GCTCCACCCT CTCGTCAAGC 
    TCATCCTCCC GGGAACGTCT CCACCAGCTT CCCTTCCAGC CGACGCCGGA CGAGCTGCAC 
    TTCCTGTCCA AGCACTTCCG CAGCTCAGAG AATGTGCTTG ATGAGGAAGG CGGCCGGTCA 
    CCCCGCCTCC GACCCCGCTC TCGCAGTCTC AGCCCGGGCC GTGCAACGGG GACCTTCGAC 
    AATGAGATTG TCATGATGAA TCACGTGTAC CGGGAGAGGT TCCCCAAGGC CACAGCACAG 
    ATGGAGGGCC GTCTGCAGGA GTTCCTGACG GCCTACGCGC CCGGCGCCCG GCTGGCGCTG 
    GCTGATGGCG TCTTGGGCTT CATCCACCAC CAGATCGTCG AGCTGGCCCG AGACTGCTTG 
    GCCAAGTCTG GCGAGAACCT CGTCACCTCC CGCTACTTCC TAGAGATGCA GGAGAAGCTG 
    GAGCGGCTTC TGCAGGATGC CCATGAGCGT TCGGACAGTG AGGAGGTCAG CTTCATCGTC 
    CAGCTTGTCC GGAAACTGCT GATCATCATC TCACGGCCAG CTCGGCTGCT GGAGTGTCTG 
    GAGTTTGACC CTGAGGAATT TTACCACCTG CTGGAGGCGG CTGAGGGCCA TGCGCGGGAG 
    GGCCAAGGCA TTAAGACTGA CCTTCCACAG TACATCATTG GGCAGCTGGG CCTGGCCAAG 
    GACCCCCTGG AGGAGATGGT GCCACTGAGT CACCTCGAAG AAGAACAGCC CCCAGCACCT 
    GAGTCCCCAG AGAGCCGCGC CCTGGTCGGC CAGTCACGGA GGAAGCCATG CGAAAGCGAC 
    TTTGAGACCA TCAAACTCAT TAGCAACGGA GCCTATGGGG CCGTCTACCT GGTGCGGCAC 
    CGTGACACAC GGCAGCGCTT TGCCATCAAG AAGATCAACA AACAGAACTT GATCCTGCGT 
    AACCAGATCC AGCAGGTCTT TGTGGAGCGT GACATTCTCA CCTTTGCCGA GAACCCCTTT 
    GTGGTCAGCA TGTTCTGCTC CTTTGAGACC CGGCGCCACC TATGTATGGT CATGGAATAC 
    GTGGAAGGCG GCGACTGCGC CACGCTCCTG AAGAACATGG GCCCGCTGCC CGTGGACATG 
    GCCCGCCTGT ACTTCGCCGA GACGGTGTTG GCGCTGGAGT ACCTGCATAA CTATGGCATC 
    GTGCACCGTG ACCTCAAACC AGACAATCTG CTCATCACCT CGCTTGGCCA CATCAAGCTC 
    ACGGACTTCG GCCTGTCCAA GATCGGCCTC ATGAGCATGG CCACCAACCT CTATGAGGGC 
    CACATCGAGA AGGACGCCCG AGAGTTCATC GACAAGCAGG TGTGTGGGAC GCCGGAGTAC 
    ATAGCCCCCG AGGTGATCTT CCGCCAGGGC TATGGGAAGC CAGTGGACTG GTGGGCCATG 
    GGCGTCGTCC TCTATGAGTT TCTGGTGGGC TGCGTGCCTT TCTTTGGAGA TACCCCCGAG 
    GAACTCTTCG GTCAGGTGGT CAGCGATGAG ATCATGTGGC CAGAGGGAGA TGAGGCCCTT 
    CCAGCAGACG CCCAGGACCT CATCACCAGG TTGCTCCGGC AGAGCCCGCT GGACCGTCTG 
    GGCACTGGTG GCACCCACGA AGTGAAGCAG CACCCCTTTT TCCTGGCCCT GGACTGGGCA 
    GGGCTTCTCC GACACAAAGC CGAGTTCGTG CCCCAGCTCG AAGCTGAGGA TGATACCAGC 
    TACTTTGACA CACGTTCGGA ACGTTACCGC CATCTGGGCT CCGAGGACGA CGAGACCAAT 
    GATGAAGAAT CGTCCACAGA GATCCCCCAG TTCTCCTCCT GCTCCCACCG GTTCAGCAAG 
    GTCTACAGCA GCTCTGAGTT CCTGGCCGTC CAGCCCACTC CTACCTTCGC TGAAAGGAGC 
    TTCAGTGAAG ACCGGGAGGA GGGGTGGGAG CGCAGCGAAG TGGACTATGG CCGCCGGCTG 
    AGTGCTGACA TCCGGCTGAG GTCCTGGACA TCCTCTGGAT CCTCCTGTCA GTCATCTTCG 
    TCCCAGCCCG AGCGGGGTCC CAGCCCATCT CTCCTGAATA CCATCAGCCT GGACACAATG 
    CCCAAGTTTG CCTTCTCATC AGAGGATGAG GGGGTAGGCC CAGGCCCTGC AGGCCCCAAG 
    AGGCCCGTCT TCATTCTAGG GGAGCCTGAC CCCCCACCAG CGGCCACCCC AGTGATGCCC 
    AAGCCCTCGA GCCTTTCTGC CGACACAGCT GCTCTCAGCC ACGCCCGCCT ACGGAGCAAT 
    AGCATCGGCG CCCGACACTC CACACCAAGG CCTCTGGATG CCGGCCGGGG CCGCCGCCTT 
    GGGGGCCCAA GAGACCCAGC CCCTGAGAAG TCCAGAGCCT CCTCCAGCGG TGGCAGTGGT 
    GGCGGCAGTG GGGGCCGCGT GCCCAAGTCA GCCTCTGTCT CTGCCCTGTC CCTCATCATC 
    ACGGCAGATG ATGGCAGCGG CGGCCCCCTC ATGAGCCCCC TTTCCCCGCG CTCTCTGTCC 
    TCGAACCCGT CGTCCCGTGA CTCTTCGCCG AGCCGAGACC CGTCCCCCGT GTGTGGCAGC 
    CTGCGGCCCC CCATCGTTAT CCACAGCTCT GGCAAGAAGT ACGGCTTCAG CCTGCGGGCG 
    ATCCGCGTCT ACATGGGTGA TAGCGACGTC TACACTGTGC ACCACGTCGT CTGGAGTGTG 
    GAGGACGGAA GCCCCGCCCA GGAGGCGGGC CTGCGGGCTG GGGACCTCAT CACCCACATC 
    AACGGGGAGT CAGTGCTGGG GCTGGTGCAC ATGGACGTCG TGGAGCTGCT GCTGAAGAGC 
    GGCAACAAGA TATCCCTGCG GACCACAGCC CTGGAGAACA CCTCCATCAA GGTGGGCCCC 
    GCCCGGAAGA ATGTGGCCAA GGGCCGCATG GCACGCAGGA GCAAGAGGAG CCGTCGGCGG 
    GAGACCCAGG ATCGGTGCGC GGCAGTGACC ACCAGGGAGC GGCGGAAGTC ACTTTTCAAG 
    AAGATCTCCA AGCAGACCTC CGTGCTGCAC ACCAGCCGCA GCTTCTCCTC CGGACTCCAC 
    CACTCACTGT CATCCAGTGA GAGCCTCCCC GGCTCGCCCA CCCACAGCCT CTCCCCCAGC 
    CCCACCACTC CCTGCCGAAG CCCAGCCCCT GATGTCCCAG CAGATACCAC TGCATCCCCA 
    CCCAGCGCAT CCCCGAGCTC CAGCAGCCCC GCCTCCCCAG CTGCTGCTGG CCACACCCGC 
    CCCAGCTCCC TGCACGGCCT GGCTGCCAAG CTTGGGCCAC CCCGCCCCAA GACTGGCCGC 
    CGCAAGTCCA CCAGCAGCAT CCCGCCCTCC CCGCTGGCCT GCCCGCCCAT CTCCGCGCCC 
    CCACCCCGCT CGCCCTCGCC CCTGCCCGGG CACCCGCCCG CACCTGCCCG ATCCCCGCGG 
    CTGCGCCGGG GCCAGTCAGC TGACAAGCTG GGCACAGGGG AGCGGCTGGA TGGGGAGGCG 
    GGGCGGCGCA CTCGTGGGCC AGAGGCCGAG CTCGTGGTCA TGCGGCGGCT GCACCTGTCC 
    GAGCGCCGAG ACTCCTTCAA GAAGCAGGAG GCCGTGCAGG AGGTTAGCTT CGATGAGCCG 
    CAGGAGGAGG CCACTGGGCT GCCCACCTCA GTGCCACAGA TCGCCGTGGA GGGCGAGGAA 
    GCCGTGCCAG TAGCTCTCGG GCCCACCGGA AGAGACTGA

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

    RefSeq XP_016881996.1
    CDS49..4287
    Translation

    Target ORF information:

    RefSeq Version XM_017026507.1
    Organism Homo sapiens(human)
    Definition Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017026507.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGATACAGT TGGTGGGGAG GTGCTTGAAG GCCCCAGTGG TTGGGGGTTG CTGGGGGACT 
    GGGACATTGC CCCGAGAGCC GGCACTGTTT CCAGCCTTGG CCCAAGCTGT GGGCAGAGTG 
    TTGGACCGTG AATCAATGAG GACTGCCGAG GGCAAAGTCC TGGACCTTGG GGCAGGACAG 
    AGCCAAAGAC TCCACAAGGG ATGTCCACTC CCTGCCACCT TCCCTGTGCC CCACTGGGTC 
    CACCGGGGCC TCAAGAGGGC CAGAGTGAGA CACAGACACC CCCAGACCGT GGGGTTTGCG 
    CTGAGAGGGA GGAAGGACAG AGCTGGCGGC GCCTGGTGCT GGTGGGGGTG CAGCTGCCGC 
    AGCGGGAACC GCAAGAGCTT GGTGGTAGGA ACGCCCTCCC CGACCCTCTC CCGGCCCCTG 
    TCGCCATTGT CGGTCCCAAC GGCAGGCAGC AGCCCCTTGG ATAGTCCTCG GAATTTCTCG 
    GCTGCCTCTG CCCTAAATTT CCCCTTTGCC CGGAGGGCAG ACGGCAGAAG ATGGTCCCTC 
    GCGTCTCTCC CATCTTCCGG CTATGGAACC AACACACCCA GCTCCACCCT CTCGTCAAGC 
    TCATCCTCCC GGGAACGTCT CCACCAGCTT CCCTTCCAGC CGACGCCGGA CGAGCTGCAC 
    TTCCTGTCCA AGCACTTCCG CAGCTCAGAG AATGTGCTTG ATGAGGAAGG CGGCCGGTCA 
    CCCCGCCTCC GACCCCGCTC TCGCAGTCTC AGCCCGGGCC GTGCAACGGG GACCTTCGAC 
    AATGAGATTG TCATGATGAA TCACGTGTAC CGGGAGAGGT TCCCCAAGGC CACAGCACAG 
    ATGGAGGGCC GTCTGCAGGA GTTCCTGACG GCCTACGCGC CCGGCGCCCG GCTGGCGCTG 
    GCTGATGGCG TCTTGGGCTT CATCCACCAC CAGATCGTCG AGCTGGCCCG AGACTGCTTG 
    GCCAAGTCTG GCGAGAACCT CGTCACCTCC CGCTACTTCC TAGAGATGCA GGAGAAGCTG 
    GAGCGGCTTC TGCAGGATGC CCATGAGCGT TCGGACAGTG AGGAGGTCAG CTTCATCGTC 
    CAGCTTGTCC GGAAACTGCT GATCATCATC TCACGGCCAG CTCGGCTGCT GGAGTGTCTG 
    GAGTTTGACC CTGAGGAATT TTACCACCTG CTGGAGGCGG CTGAGGGCCA TGCGCGGGAG 
    GGCCAAGGCA TTAAGACTGA CCTTCCACAG TACATCATTG GGCAGCTGGG CCTGGCCAAG 
    GACCCCCTGG AGGAGATGGT GCCACTGAGT CACCTCGAAG AAGAACAGCC CCCAGCACCT 
    GAGTCCCCAG AGAGCCGCGC CCTGGTCGGC CAGTCACGGA GGAAGCCATG CGAAAGCGAC 
    TTTGAGACCA TCAAACTCAT TAGCAACGGA GCCTATGGGG CCGTCTACCT GGTGCGGCAC 
    CGTGACACAC GGCAGCGCTT TGCCATCAAG AAGATCAACA AACAGAACTT GATCCTGCGT 
    AACCAGATCC AGCAGGTCTT TGTGGAGCGT GACATTCTCA CCTTTGCCGA GAACCCCTTT 
    GTGGTCAGCA TGTTCTGCTC CTTTGAGACC CGGCGCCACC TATGTATGGT CATGGAATAC 
    GTGGAAGGCG GCGACTGCGC CACGCTCCTG AAGAACATGG GCCCGCTGCC CGTGGACATG 
    GCCCGCCTGT ACTTCGCCGA GACGGTGTTG GCGCTGGAGT ACCTGCATAA CTATGGCATC 
    GTGCACCGTG ACCTCAAACC AGACAATCTG CTCATCACCT CGCTTGGCCA CATCAAGCTC 
    ACGGACTTCG GCCTGTCCAA GATCGGCCTC ATGAGCATGG CCACCAACCT CTATGAGGGC 
    CACATCGAGA AGGACGCCCG AGAGTTCATC GACAAGCAGG TGTGTGGGAC GCCGGAGTAC 
    ATAGCCCCCG AGGTGATCTT CCGCCAGGGC TATGGGAAGC CAGTGGACTG GTGGGCCATG 
    GGCGTCGTCC TCTATGAGTT TCTGGTGGGC TGCGTGCCTT TCTTTGGAGA TACCCCCGAG 
    GAACTCTTCG GTCAGGTGGT CAGCGATGAG ATCATGTGGC CAGAGGGAGA TGAGGCCCTT 
    CCAGCAGACG CCCAGGACCT CATCACCAGG TTGCTCCGGC AGAGCCCGCT GGACCGTCTG 
    GGCACTGGTG GCACCCACGA AGTGAAGCAG CACCCCTTTT TCCTGGCCCT GGACTGGGCA 
    GGGCTTCTCC GACACAAAGC CGAGTTCGTG CCCCAGCTCG AAGCTGAGGA TGATACCAGC 
    TACTTTGACA CACGTTCGGA ACGTTACCGC CATCTGGGCT CCGAGGACGA CGAGACCAAT 
    GATGAAGAAT CGTCCACAGA GATCCCCCAG TTCTCCTCCT GCTCCCACCG GTTCAGCAAG 
    GTCTACAGCA GCTCTGAGTT CCTGGCCGTC CAGCCCACTC CTACCTTCGC TGAAAGGAGC 
    TTCAGTGAAG ACCGGGAGGA GGGGTGGGAG CGCAGCGAAG TGGACTATGG CCGCCGGCTG 
    AGTGCTGACA TCCGGCTGAG GTCCTGGACA TCCTCTGGAT CCTCCTGTCA GTCATCTTCG 
    TCCCAGCCCG AGCGGGGTCC CAGCCCATCT CTCCTGAATA CCATCAGCCT GGACACAATG 
    CCCAAGTTTG CCTTCTCATC AGAGGATGAG GGGGTAGGCC CAGGCCCTGC AGGCCCCAAG 
    AGGCCCGTCT TCATTCTAGG GGAGCCTGAC CCCCCACCAG CGGCCACCCC AGTGATGCCC 
    AAGCCCTCGA GCCTTTCTGC CGACACAGCT GCTCTCAGCC ACGCCCGCCT ACGGAGCAAT 
    AGCATCGGCG CCCGACACTC CACACCAAGG CCTCTGGATG CCGGCCGGGG CCGCCGCCTT 
    GGGGGCCCAA GAGACCCAGC CCCTGAGAAG TCCAGAGCCT CCTCCAGCGG TGGCAGTGGT 
    GGCGGCAGTG GGGGCCGCGT GCCCAAGTCA GCCTCTGTCT CTGCCCTGTC CCTCATCATC 
    ACGGCAGATG ATGGCAGCGG CGGCCCCCTC ATGAGCCCCC TTTCCCCGCG CTCTCTGTCC 
    TCGAACCCGT CGTCCCGTGA CTCTTCGCCG AGCCGAGACC CGTCCCCCGT GTGTGGCAGC 
    CTGCGGCCCC CCATCGTTAT CCACAGCTCT GGCAAGAAGT ACGGCTTCAG CCTGCGGGCG 
    ATCCGCGTCT ACATGGGTGA TAGCGACGTC TACACTGTGC ACCACGTCGT CTGGAGTGTG 
    GAGGACGGAA GCCCCGCCCA GGAGGCGGGC CTGCGGGCTG GGGACCTCAT CACCCACATC 
    AACGGGGAGT CAGTGCTGGG GCTGGTGCAC ATGGACGTCG TGGAGCTGCT GCTGAAGAGC 
    GGCAACAAGA TATCCCTGCG GACCACAGCC CTGGAGAACA CCTCCATCAA GGTGGGCCCC 
    GCCCGGAAGA ATGTGGCCAA GGGCCGCATG GCACGCAGGA GCAAGAGGAG CCGTCGGCGG 
    GAGACCCAGG ATCGGTGCGC GGCAGTGACC ACCAGGGAGC GGCGGAAGTC ACTTTTCAAG 
    AAGATCTCCA AGCAGACCTC CGTGCTGCAC ACCAGCCGCA GCTTCTCCTC CGGACTCCAC 
    CACTCACTGT CATCCAGTGA GAGCCTCCCC GGCTCGCCCA CCCACAGCCT CTCCCCCAGC 
    CCCACCACTC CCTGCCGAAG CCCAGCCCCT GATGTCCCAG CAGATACCAC TGCATCCCCA 
    CCCAGCGCAT CCCCGAGCTC CAGCAGCCCC GCCTCCCCAG CTGCTGCTGG CCACACCCGC 
    CCCAGCTCCC TGCACGGCCT GGCTGCCAAG CTTGGGCCAC CCCGCCCCAA GACTGGCCGC 
    CGCAAGTCCA CCAGCAGCAT CCCGCCCTCC CCGCTGGCCT GCCCGCCCAT CTCCGCGCCC 
    CCACCCCGCT CGCCCTCGCC CCTGCCCGGG CACCCGCCCG CACCTGCCCG ATCCCCGCGG 
    CTGCGCCGGG GCCAGTCAGC TGACAAGCTG GGCACAGGGG AGCGGCTGGA TGGGGAGGCG 
    GGGCGGCGCA CTCGTGGGCC AGAGGCCGAG CTCGTGGTCA TGCGGCGGCT GCACCTGTCC 
    GAGCGCCGAG ACTCCTTCAA GAAGCAGGAG GCCGTGCAGG AGGTTAGCTT CGATGAGCCG 
    CAGGAGGAGG CCACTGGGCT GCCCACCTCA GTGCCACAGA TCGCCGTGGA GGGCGAGGAA 
    GCCGTGCCAG TAGCTCTCGG GCCCACCGGA AGAGACTGA

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

    MAST3 ( XM_017026508.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016881997.1 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OHu88322
    Clone ID Related Accession (Same CDS sequence) XM_017026508.1
    Accession Version XM_017026508.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4236bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product microtubule-associated serine/threonine-protein kinase 3 isoform X4
    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 EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGATACAGT TGGTGGGGAG GTGCTTGAAG GCCCCAGTGG TTGGGGGTTG CTGGGGGACT 
    GGGACATTGC CCCGAGAGCC GGCACTGTTT CCAGCCTTGG CCCAAGCTGT GGGCAGAGTG 
    TTGGACCGTG AATCAATGAG GACTGCCGAG GGCAAAGTCC TGGACCTTGG GGCAGGACAG 
    AGCCAAAGAC TCCACAAGGG ATGTCCACTC CCTGCCACCT TCCCTGTGCC CCACTGGGTC 
    CACCGGGGCC TCAAGAGGGC CAGAGTGAGA CACAGACACC CCCAGACCGT GGGGTTTGCG 
    CTGAGAGGGA GGAAGGACAG AGCTGGCGGC GCCTGGTGCT GGTGGGGGTG CAGCTGCCGC 
    AGCGGGAACC GCAAGAGCTT GGTGGTAGGA ACGCCCTCCC CGACCCTCTC CCGGCCCCTG 
    TCGCCATTGT CGGTCCCAAC GGGCAGCAGC CCCTTGGATA GTCCTCGGAA TTTCTCGGCT 
    GCCTCTGCCC TAAATTTCCC CTTTGCCCGG AGGGCAGACG GCAGAAGATG GTCCCTCGCG 
    TCTCTCCCAT CTTCCGGCTA TGGAACCAAC ACACCCAGCT CCACCCTCTC GTCAAGCTCA 
    TCCTCCCGGG AACGTCTCCA CCAGCTTCCC TTCCAGCCGA CGCCGGACGA GCTGCACTTC 
    CTGTCCAAGC ACTTCCGCAG CTCAGAGAAT GTGCTTGATG AGGAAGGCGG CCGGTCACCC 
    CGCCTCCGAC CCCGCTCTCG CAGTCTCAGC CCGGGCCGTG CAACGGGGAC CTTCGACAAT 
    GAGATTGTCA TGATGAATCA CGTGTACCGG GAGAGGTTCC CCAAGGCCAC AGCACAGATG 
    GAGGGCCGTC TGCAGGAGTT CCTGACGGCC TACGCGCCCG GCGCCCGGCT GGCGCTGGCT 
    GATGGCGTCT TGGGCTTCAT CCACCACCAG ATCGTCGAGC TGGCCCGAGA CTGCTTGGCC 
    AAGTCTGGCG AGAACCTCGT CACCTCCCGC TACTTCCTAG AGATGCAGGA GAAGCTGGAG 
    CGGCTTCTGC AGGATGCCCA TGAGCGTTCG GACAGTGAGG AGGTCAGCTT CATCGTCCAG 
    CTTGTCCGGA AACTGCTGAT CATCATCTCA CGGCCAGCTC GGCTGCTGGA GTGTCTGGAG 
    TTTGACCCTG AGGAATTTTA CCACCTGCTG GAGGCGGCTG AGGGCCATGC GCGGGAGGGC 
    CAAGGCATTA AGACTGACCT TCCACAGTAC ATCATTGGGC AGCTGGGCCT GGCCAAGGAC 
    CCCCTGGAGG AGATGGTGCC ACTGAGTCAC CTCGAAGAAG AACAGCCCCC AGCACCTGAG 
    TCCCCAGAGA GCCGCGCCCT GGTCGGCCAG TCACGGAGGA AGCCATGCGA AAGCGACTTT 
    GAGACCATCA AACTCATTAG CAACGGAGCC TATGGGGCCG TCTACCTGGT GCGGCACCGT 
    GACACACGGC AGCGCTTTGC CATCAAGAAG ATCAACAAAC AGAACTTGAT CCTGCGTAAC 
    CAGATCCAGC AGGTCTTTGT GGAGCGTGAC ATTCTCACCT TTGCCGAGAA CCCCTTTGTG 
    GTCAGCATGT TCTGCTCCTT TGAGACCCGG CGCCACCTAT GTATGGTCAT GGAATACGTG 
    GAAGGCGGCG ACTGCGCCAC GCTCCTGAAG AACATGGGCC CGCTGCCCGT GGACATGGCC 
    CGCCTGTACT TCGCCGAGAC GGTGTTGGCG CTGGAGTACC TGCATAACTA TGGCATCGTG 
    CACCGTGACC TCAAACCAGA CAATCTGCTC ATCACCTCGC TTGGCCACAT CAAGCTCACG 
    GACTTCGGCC TGTCCAAGAT CGGCCTCATG AGCATGGCCA CCAACCTCTA TGAGGGCCAC 
    ATCGAGAAGG ACGCCCGAGA GTTCATCGAC AAGCAGGTGT GTGGGACGCC GGAGTACATA 
    GCCCCCGAGG TGATCTTCCG CCAGGGCTAT GGGAAGCCAG TGGACTGGTG GGCCATGGGC 
    GTCGTCCTCT ATGAGTTTCT GGTGGGCTGC GTGCCTTTCT TTGGAGATAC CCCCGAGGAA 
    CTCTTCGGTC AGGTGGTCAG CGATGAGATC ATGTGGCCAG AGGGAGATGA GGCCCTTCCA 
    GCAGACGCCC AGGACCTCAT CACCAGGTTG CTCCGGCAGA GCCCGCTGGA CCGTCTGGGC 
    ACTGGTGGCA CCCACGAAGT GAAGCAGCAC CCCTTTTTCC TGGCCCTGGA CTGGGCAGGG 
    CTTCTCCGAC ACAAAGCCGA GTTCGTGCCC CAGCTCGAAG CTGAGGATGA TACCAGCTAC 
    TTTGACACAC GTTCGGAACG TTACCGCCAT CTGGGCTCCG AGGACGACGA GACCAATGAT 
    GAAGAATCGT CCACAGAGAT CCCCCAGTTC TCCTCCTGCT CCCACCGGTT CAGCAAGGTC 
    TACAGCAGCT CTGAGTTCCT GGCCGTCCAG CCCACTCCTA CCTTCGCTGA AAGGAGCTTC 
    AGTGAAGACC GGGAGGAGGG GTGGGAGCGC AGCGAAGTGG ACTATGGCCG CCGGCTGAGT 
    GCTGACATCC GGCTGAGGTC CTGGACATCC TCTGGATCCT CCTGTCAGTC ATCTTCGTCC 
    CAGCCCGAGC GGGGTCCCAG CCCATCTCTC CTGAATACCA TCAGCCTGGA CACAATGCCC 
    AAGTTTGCCT TCTCATCAGA GGATGAGGGG GTAGGCCCAG GCCCTGCAGG CCCCAAGAGG 
    CCCGTCTTCA TTCTAGGGGA GCCTGACCCC CCACCAGCGG CCACCCCAGT GATGCCCAAG 
    CCCTCGAGCC TTTCTGCCGA CACAGCTGCT CTCAGCCACG CCCGCCTACG GAGCAATAGC 
    ATCGGCGCCC GACACTCCAC ACCAAGGCCT CTGGATGCCG GCCGGGGCCG CCGCCTTGGG 
    GGCCCAAGAG ACCCAGCCCC TGAGAAGTCC AGAGCCTCCT CCAGCGGTGG CAGTGGTGGC 
    GGCAGTGGGG GCCGCGTGCC CAAGTCAGCC TCTGTCTCTG CCCTGTCCCT CATCATCACG 
    GCAGATGATG GCAGCGGCGG CCCCCTCATG AGCCCCCTTT CCCCGCGCTC TCTGTCCTCG 
    AACCCGTCGT CCCGTGACTC TTCGCCGAGC CGAGACCCGT CCCCCGTGTG TGGCAGCCTG 
    CGGCCCCCCA TCGTTATCCA CAGCTCTGGC AAGAAGTACG GCTTCAGCCT GCGGGCGATC 
    CGCGTCTACA TGGGTGATAG CGACGTCTAC ACTGTGCACC ACGTCGTCTG GAGTGTGGAG 
    GACGGAAGCC CCGCCCAGGA GGCGGGCCTG CGGGCTGGGG ACCTCATCAC CCACATCAAC 
    GGGGAGTCAG TGCTGGGGCT GGTGCACATG GACGTCGTGG AGCTGCTGCT GAAGAGCGGC 
    AACAAGATAT CCCTGCGGAC CACAGCCCTG GAGAACACCT CCATCAAGGT GGGCCCCGCC 
    CGGAAGAATG TGGCCAAGGG CCGCATGGCA CGCAGGAGCA AGAGGAGCCG TCGGCGGGAG 
    ACCCAGGATC GGTGCGCGGC AGTGACCACC AGGGAGCGGC GGAAGTCACT TTTCAAGAAG 
    ATCTCCAAGC AGACCTCCGT GCTGCACACC AGCCGCAGCT TCTCCTCCGG ACTCCACCAC 
    TCACTGTCAT CCAGTGAGAG CCTCCCCGGC TCGCCCACCC ACAGCCTCTC CCCCAGCCCC 
    ACCACTCCCT GCCGAAGCCC AGCCCCTGAT GTCCCAGCAG ATACCACTGC ATCCCCACCC 
    AGCGCATCCC CGAGCTCCAG CAGCCCCGCC TCCCCAGCTG CTGCTGGCCA CACCCGCCCC 
    AGCTCCCTGC ACGGCCTGGC TGCCAAGCTT GGGCCACCCC GCCCCAAGAC TGGCCGCCGC 
    AAGTCCACCA GCAGCATCCC GCCCTCCCCG CTGGCCTGCC CGCCCATCTC CGCGCCCCCA 
    CCCCGCTCGC CCTCGCCCCT GCCCGGGCAC CCGCCCGCAC CTGCCCGATC CCCGCGGCTG 
    CGCCGGGGCC AGTCAGCTGA CAAGCTGGGC ACAGGGGAGC GGCTGGATGG GGAGGCGGGG 
    CGGCGCACTC GTGGGCCAGA GGCCGAGCTC GTGGTCATGC GGCGGCTGCA CCTGTCCGAG 
    CGCCGAGACT CCTTCAAGAA GCAGGAGGCC GTGCAGGAGG TTAGCTTCGA TGAGCCGCAG 
    GAGGAGGCCA CTGGGCTGCC CACCTCAGTG CCACAGATCG CCGTGGAGGG CGAGGAAGCC 
    GTGCCAGTAG CTCTCGGGCC CACCGGAAGA GACTGA

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

    RefSeq XP_016881997.1
    CDS50..4285
    Translation

    Target ORF information:

    RefSeq Version XM_017026508.1
    Organism Homo sapiens(human)
    Definition Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017026508.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGATACAGT TGGTGGGGAG GTGCTTGAAG GCCCCAGTGG TTGGGGGTTG CTGGGGGACT 
    GGGACATTGC CCCGAGAGCC GGCACTGTTT CCAGCCTTGG CCCAAGCTGT GGGCAGAGTG 
    TTGGACCGTG AATCAATGAG GACTGCCGAG GGCAAAGTCC TGGACCTTGG GGCAGGACAG 
    AGCCAAAGAC TCCACAAGGG ATGTCCACTC CCTGCCACCT TCCCTGTGCC CCACTGGGTC 
    CACCGGGGCC TCAAGAGGGC CAGAGTGAGA CACAGACACC CCCAGACCGT GGGGTTTGCG 
    CTGAGAGGGA GGAAGGACAG AGCTGGCGGC GCCTGGTGCT GGTGGGGGTG CAGCTGCCGC 
    AGCGGGAACC GCAAGAGCTT GGTGGTAGGA ACGCCCTCCC CGACCCTCTC CCGGCCCCTG 
    TCGCCATTGT CGGTCCCAAC GGGCAGCAGC CCCTTGGATA GTCCTCGGAA TTTCTCGGCT 
    GCCTCTGCCC TAAATTTCCC CTTTGCCCGG AGGGCAGACG GCAGAAGATG GTCCCTCGCG 
    TCTCTCCCAT CTTCCGGCTA TGGAACCAAC ACACCCAGCT CCACCCTCTC GTCAAGCTCA 
    TCCTCCCGGG AACGTCTCCA CCAGCTTCCC TTCCAGCCGA CGCCGGACGA GCTGCACTTC 
    CTGTCCAAGC ACTTCCGCAG CTCAGAGAAT GTGCTTGATG AGGAAGGCGG CCGGTCACCC 
    CGCCTCCGAC CCCGCTCTCG CAGTCTCAGC CCGGGCCGTG CAACGGGGAC CTTCGACAAT 
    GAGATTGTCA TGATGAATCA CGTGTACCGG GAGAGGTTCC CCAAGGCCAC AGCACAGATG 
    GAGGGCCGTC TGCAGGAGTT CCTGACGGCC TACGCGCCCG GCGCCCGGCT GGCGCTGGCT 
    GATGGCGTCT TGGGCTTCAT CCACCACCAG ATCGTCGAGC TGGCCCGAGA CTGCTTGGCC 
    AAGTCTGGCG AGAACCTCGT CACCTCCCGC TACTTCCTAG AGATGCAGGA GAAGCTGGAG 
    CGGCTTCTGC AGGATGCCCA TGAGCGTTCG GACAGTGAGG AGGTCAGCTT CATCGTCCAG 
    CTTGTCCGGA AACTGCTGAT CATCATCTCA CGGCCAGCTC GGCTGCTGGA GTGTCTGGAG 
    TTTGACCCTG AGGAATTTTA CCACCTGCTG GAGGCGGCTG AGGGCCATGC GCGGGAGGGC 
    CAAGGCATTA AGACTGACCT TCCACAGTAC ATCATTGGGC AGCTGGGCCT GGCCAAGGAC 
    CCCCTGGAGG AGATGGTGCC ACTGAGTCAC CTCGAAGAAG AACAGCCCCC AGCACCTGAG 
    TCCCCAGAGA GCCGCGCCCT GGTCGGCCAG TCACGGAGGA AGCCATGCGA AAGCGACTTT 
    GAGACCATCA AACTCATTAG CAACGGAGCC TATGGGGCCG TCTACCTGGT GCGGCACCGT 
    GACACACGGC AGCGCTTTGC CATCAAGAAG ATCAACAAAC AGAACTTGAT CCTGCGTAAC 
    CAGATCCAGC AGGTCTTTGT GGAGCGTGAC ATTCTCACCT TTGCCGAGAA CCCCTTTGTG 
    GTCAGCATGT TCTGCTCCTT TGAGACCCGG CGCCACCTAT GTATGGTCAT GGAATACGTG 
    GAAGGCGGCG ACTGCGCCAC GCTCCTGAAG AACATGGGCC CGCTGCCCGT GGACATGGCC 
    CGCCTGTACT TCGCCGAGAC GGTGTTGGCG CTGGAGTACC TGCATAACTA TGGCATCGTG 
    CACCGTGACC TCAAACCAGA CAATCTGCTC ATCACCTCGC TTGGCCACAT CAAGCTCACG 
    GACTTCGGCC TGTCCAAGAT CGGCCTCATG AGCATGGCCA CCAACCTCTA TGAGGGCCAC 
    ATCGAGAAGG ACGCCCGAGA GTTCATCGAC AAGCAGGTGT GTGGGACGCC GGAGTACATA 
    GCCCCCGAGG TGATCTTCCG CCAGGGCTAT GGGAAGCCAG TGGACTGGTG GGCCATGGGC 
    GTCGTCCTCT ATGAGTTTCT GGTGGGCTGC GTGCCTTTCT TTGGAGATAC CCCCGAGGAA 
    CTCTTCGGTC AGGTGGTCAG CGATGAGATC ATGTGGCCAG AGGGAGATGA GGCCCTTCCA 
    GCAGACGCCC AGGACCTCAT CACCAGGTTG CTCCGGCAGA GCCCGCTGGA CCGTCTGGGC 
    ACTGGTGGCA CCCACGAAGT GAAGCAGCAC CCCTTTTTCC TGGCCCTGGA CTGGGCAGGG 
    CTTCTCCGAC ACAAAGCCGA GTTCGTGCCC CAGCTCGAAG CTGAGGATGA TACCAGCTAC 
    TTTGACACAC GTTCGGAACG TTACCGCCAT CTGGGCTCCG AGGACGACGA GACCAATGAT 
    GAAGAATCGT CCACAGAGAT CCCCCAGTTC TCCTCCTGCT CCCACCGGTT CAGCAAGGTC 
    TACAGCAGCT CTGAGTTCCT GGCCGTCCAG CCCACTCCTA CCTTCGCTGA AAGGAGCTTC 
    AGTGAAGACC GGGAGGAGGG GTGGGAGCGC AGCGAAGTGG ACTATGGCCG CCGGCTGAGT 
    GCTGACATCC GGCTGAGGTC CTGGACATCC TCTGGATCCT CCTGTCAGTC ATCTTCGTCC 
    CAGCCCGAGC GGGGTCCCAG CCCATCTCTC CTGAATACCA TCAGCCTGGA CACAATGCCC 
    AAGTTTGCCT TCTCATCAGA GGATGAGGGG GTAGGCCCAG GCCCTGCAGG CCCCAAGAGG 
    CCCGTCTTCA TTCTAGGGGA GCCTGACCCC CCACCAGCGG CCACCCCAGT GATGCCCAAG 
    CCCTCGAGCC TTTCTGCCGA CACAGCTGCT CTCAGCCACG CCCGCCTACG GAGCAATAGC 
    ATCGGCGCCC GACACTCCAC ACCAAGGCCT CTGGATGCCG GCCGGGGCCG CCGCCTTGGG 
    GGCCCAAGAG ACCCAGCCCC TGAGAAGTCC AGAGCCTCCT CCAGCGGTGG CAGTGGTGGC 
    GGCAGTGGGG GCCGCGTGCC CAAGTCAGCC TCTGTCTCTG CCCTGTCCCT CATCATCACG 
    GCAGATGATG GCAGCGGCGG CCCCCTCATG AGCCCCCTTT CCCCGCGCTC TCTGTCCTCG 
    AACCCGTCGT CCCGTGACTC TTCGCCGAGC CGAGACCCGT CCCCCGTGTG TGGCAGCCTG 
    CGGCCCCCCA TCGTTATCCA CAGCTCTGGC AAGAAGTACG GCTTCAGCCT GCGGGCGATC 
    CGCGTCTACA TGGGTGATAG CGACGTCTAC ACTGTGCACC ACGTCGTCTG GAGTGTGGAG 
    GACGGAAGCC CCGCCCAGGA GGCGGGCCTG CGGGCTGGGG ACCTCATCAC CCACATCAAC 
    GGGGAGTCAG TGCTGGGGCT GGTGCACATG GACGTCGTGG AGCTGCTGCT GAAGAGCGGC 
    AACAAGATAT CCCTGCGGAC CACAGCCCTG GAGAACACCT CCATCAAGGT GGGCCCCGCC 
    CGGAAGAATG TGGCCAAGGG CCGCATGGCA CGCAGGAGCA AGAGGAGCCG TCGGCGGGAG 
    ACCCAGGATC GGTGCGCGGC AGTGACCACC AGGGAGCGGC GGAAGTCACT TTTCAAGAAG 
    ATCTCCAAGC AGACCTCCGT GCTGCACACC AGCCGCAGCT TCTCCTCCGG ACTCCACCAC 
    TCACTGTCAT CCAGTGAGAG CCTCCCCGGC TCGCCCACCC ACAGCCTCTC CCCCAGCCCC 
    ACCACTCCCT GCCGAAGCCC AGCCCCTGAT GTCCCAGCAG ATACCACTGC ATCCCCACCC 
    AGCGCATCCC CGAGCTCCAG CAGCCCCGCC TCCCCAGCTG CTGCTGGCCA CACCCGCCCC 
    AGCTCCCTGC ACGGCCTGGC TGCCAAGCTT GGGCCACCCC GCCCCAAGAC TGGCCGCCGC 
    AAGTCCACCA GCAGCATCCC GCCCTCCCCG CTGGCCTGCC CGCCCATCTC CGCGCCCCCA 
    CCCCGCTCGC CCTCGCCCCT GCCCGGGCAC CCGCCCGCAC CTGCCCGATC CCCGCGGCTG 
    CGCCGGGGCC AGTCAGCTGA CAAGCTGGGC ACAGGGGAGC GGCTGGATGG GGAGGCGGGG 
    CGGCGCACTC GTGGGCCAGA GGCCGAGCTC GTGGTCATGC GGCGGCTGCA CCTGTCCGAG 
    CGCCGAGACT CCTTCAAGAA GCAGGAGGCC GTGCAGGAGG TTAGCTTCGA TGAGCCGCAG 
    GAGGAGGCCA CTGGGCTGCC CACCTCAGTG CCACAGATCG CCGTGGAGGG CGAGGAAGCC 
    GTGCCAGTAG CTCTCGGGCC CACCGGAAGA GACTGA

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

    MAST3 ( XM_017026509.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016881998.1 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OHu88323
    Clone ID Related Accession (Same CDS sequence) XM_017026509.1
    Accession Version XM_017026509.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4233bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product microtubule-associated serine/threonine-protein kinase 3 isoform X5
    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 EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGATACAGT TGGTGGGGAG GTGCTTGAAG GCCCCAGTGG TTGGGGGTTG CTGGGGGACT 
    GGGACATTGC CCCGAGAGCC GGCACTGTTT CCAGCCTTGG CCCAAGCTGT GGGCAGAGTG 
    TTGGACCGTG AATCAATGAG GACTGCCGAG GGCAAAGTCC TGGACCTTGG GGCAGGACAG 
    AGCCAAAGAC TCCACAAGGG ATGTCCACTC CCTGCCACCT TCCCTGTGCC CCACTGGGTC 
    CACCGGGGCC TCAAGAGGGC CAGAGTGAGA CACAGACACC CCCAGACCGT GGGGTTTGCG 
    CTGAGAGGGA GGAAGGACAG AGCTGGCGGC GCCTGGTGCT GGTGGGGGTG CAGCTGCCGC 
    AGCGGGAACC GCAAGAGCTT GGTGGTAGGA ACGCCCTCCC CGACCCTCTC CCGGCCCCTG 
    TCGCCATTGT CGGTCCCAAC GGCAGGCAGC AGCCCCTTGG ATAGTCCTCG GAATTTCTCG 
    GCTGCCTCTG CCCTAAATTT CCCCTTTGCC CGGAGCCACA TCCCACGCAT GGACAGGGCA 
    GACGGCAGAA GATGGTCCCT CGCGTCTCTC CCATCTTCCG GCTATGGAAC CAACACACCC 
    AGCTCCACCC TCTCGTCAAG CTCATCCTCC CGGGAACGTC TCCACCAGCT TCCCTTCCAG 
    CCGACGCCGG ACGAGCTGCA CTTCCTGTCC AAGCACTTCC GCAGCTCAGA GAATGTGCTT 
    GATGAGGAAG GCGGCCGGTC ACCCCGCCTC CGACCCCGCT CTCGCAGTCT CAGCCCGGGC 
    CGTGCAACGG GGACCTTCGA CAATGAGATT GTCATGATGA ATCACGTGTA CCGGGAGAGG 
    TTCCCCAAGG CCACAGCACA GATGGAGGGC CGTCTGCAGG AGTTCCTGAC GGCCTACGCG 
    CCCGGCGCCC GGCTGGCGCT GGCTGATGGC GTCTTGGGCT TCATCCACCA CCAGATCGTC 
    GAGCTGGCCC GAGACTGCTT GGCCAAGTCT GGCGAGAACC TCGTCACCTC CCGCTACTTC 
    CTAGAGATGC AGGAGAAGCT GGAGCGGCTT CTGCAGGATG CCCATGAGCG TTCGGACAGT 
    GAGGAGGTCA GCTTCATCGT CCAGCTTGTC CGGAAACTGC TGATCATCAT CTCACGGCCA 
    GCTCGGCTGC TGGAGTGTCT GGAGTTTGAC CCTGAGGAAT TTTACCACCT GCTGGAGGCG 
    GCTGAGGGCC ATGCGCGGGA GGGCCAAGGC ATTAAGACTG ACCTTCCACA GTACATCATT 
    GGGCAGCTGG GCCTGGCCAA GGACCCCCTG GAGGAGATGG TGCCACTGAG TCACCTCGAA 
    GAAGAACAGC CCCCAGCACC TGAGTCCCCA GAGAGCCGCG CCCTGGTCGG CCAGTCACGG 
    AGGAAGCCAT GCGAAAGCGA CTTTGAGACC ATCAAACTCA TTAGCAACGG AGCCTATGGG 
    GCCGTCTACC TGGTGCGGCA CCGTGACACA CGGCAGCGCT TTGCCATCAA GAAGATCAAC 
    AAACAGAACT TGATCCTGCG TAACCAGATC CAGCAGGTCT TTGTGGAGCG TGACATTCTC 
    ACCTTTGCCG AGAACCCCTT TGTGGTCAGC ATGTTCTGCT CCTTTGAGAC CCGGCGCCAC 
    CTATGTATGG TCATGGAATA CGTGGAAGGC GGCGACTGCG CCACGCTCCT GAAGAACATG 
    GGCCCGCTGC CCGTGGACAT GGCCCGCCTG TACTTCGCCG AGACGGTGTT GGCGCTGGAG 
    TACCTGCATA ACTATGGCAT CGTGCACCGT GACCTCAAAC CAGACAATCT GCTCATCACC 
    TCGCTTGGCC ACATCAAGCT CACGGACTTC GGCCTGTCCA AGATCGGCCT CATGAGCATG 
    GCCACCAACC TCTATGAGGG CCACATCGAG AAGGACGCCC GAGAGTTCAT CGACAAGCAG 
    GTGTGTGGGA CGCCGGAGTA CATAGCCCCC GAGGTGATCT TCCGCCAGGG CTATGGGAAG 
    CCAGTGGACT GGTGGGCCAT GGGCGTCGTC CTCTATGAGT TTCTGGTGGG CTGCGTGCCT 
    TTCTTTGGAG ATACCCCCGA GGAACTCTTC GGTCAGGTGG TCAGCGATGA GATCATGTGG 
    CCAGAGGGAG ATGAGGCCCT TCCAGCAGAC GCCCAGGACC TCATCACCAG GTTGCTCCGG 
    CAGAGCCCGC TGGACCGTCT GGGCACTGGT GGCACCCACG AAGTGAAGCA GCACCCCTTT 
    TTCCTGGCCC TGGACTGGGC AGGGCTTCTC CGACACAAAG CCGAGTTCGT GCCCCAGCTC 
    GAAGCTGAGG ATGATACCAG CTACTTTGAC ACACGTTCGG AACGTTACCG CCATCTGGGC 
    TCCGAGGACG ACGAGACCAA TGATGAAGAA TCGTCCACAG AGATCCCCCA GTTCTCCTCC 
    TGCTCCCACC GGTTCAGCAA GGTCTACAGC AGCTCTGAGT TCCTGGCCGT CCAGCCCACT 
    CCTACCTTCG CTGAAAGGAG CTTCAGTGAA GACCGGGAGG AGGGGTGGGA GCGCAGCGAA 
    GTGGACTATG GCCGCCGGCT GAGTGCTGAC ATCCGGCTGA GGTCCTGGAC ATCCTCTGGA 
    TCCTCCTGTC AGTCATCTTC GTCCCAGCCC GAGCGGGGTC CCAGCCCATC TCTCCTGAAT 
    ACCATCAGCC TGGACACAAT GCCCAAGTTT GCCTTCTCAT CAGAGGATGA GGGGGTAGGC 
    CCAGGCCCTG CAGGCCCCAA GAGGCCCGTC TTCATTCTAG GGGAGCCTGA CCCCCCACCA 
    GCGGCCACCC CAGTGATGCC CAAGCCCTCG AGCCTTTCTG CCGACACAGC TGCTCTCAGC 
    CACGCCCGCC TACGGAGCAA TAGCATCGGC GCCCGACACT CCACACCAAG GCCTCTGGAT 
    GCCGGCCGGG GCCGCCGCCT TGGGGGCCCA AGAGACCCAG CCCCTGAGAA GTCCAGAGCC 
    TCCTCCAGCG GTGGCAGTGG TGGCGGCAGT GGGGGCCGCG TGCCCAAGTC AGCCTCTGTC 
    TCTGCCCTGT CCCTCATCAT CACGGCAGAT GATGGCAGCG GCGGCCCCCT CATGAGCCCC 
    CTTTCCCCGC GCTCTCTGTC CTCGAACCCG TCGTCCCGTG ACTCTTCGCC GAGCCGAGAC 
    CCGTCCCCCG TGTGTGGCAG CCTGCGGCCC CCCATCGTTA TCCACAGCTC TGGCAAGAAG 
    TACGGCTTCA GCCTGCGGGC GATCCGCGTC TACATGGGTG ATAGCGACGT CTACACTGTG 
    CACCACGTCG TCTGGAGTGT GGAGGACGGA AGCCCCGCCC AGGAGGCGGG CCTGCGGGCT 
    GGGGACCTCA TCACCCACAT CAACGGGGAG TCAGTGCTGG GGCTGGTGCA CATGGACGTC 
    GTGGAGCTGC TGCTGAAGAG CGGCAACAAG ATATCCCTGC GGACCACAGC CCTGGAGAAC 
    ACCTCCATCA AGGTGGGCCC CGCCCGGAAG AATGTGGCCA AGGGCCGCAT GGCACGCAGG 
    AGCAAGAGGA GCCGTCGGCG GGAGACCCAG GATCGGCGGA AGTCACTTTT CAAGAAGATC 
    TCCAAGCAGA CCTCCGTGCT GCACACCAGC CGCAGCTTCT CCTCCGGACT CCACCACTCA 
    CTGTCATCCA GTGAGAGCCT CCCCGGCTCG CCCACCCACA GCCTCTCCCC CAGCCCCACC 
    ACTCCCTGCC GAAGCCCAGC CCCTGATGTC CCAGCAGATA CCACTGCATC CCCACCCAGC 
    GCATCCCCGA GCTCCAGCAG CCCCGCCTCC CCAGCTGCTG CTGGCCACAC CCGCCCCAGC 
    TCCCTGCACG GCCTGGCTGC CAAGCTTGGG CCACCCCGCC CCAAGACTGG CCGCCGCAAG 
    TCCACCAGCA GCATCCCGCC CTCCCCGCTG GCCTGCCCGC CCATCTCCGC GCCCCCACCC 
    CGCTCGCCCT CGCCCCTGCC CGGGCACCCG CCCGCACCTG CCCGATCCCC GCGGCTGCGC 
    CGGGGCCAGT CAGCTGACAA GCTGGGCACA GGGGAGCGGC TGGATGGGGA GGCGGGGCGG 
    CGCACTCGTG GGCCAGAGGC CGAGCTCGTG GTCATGCGGC GGCTGCACCT GTCCGAGCGC 
    CGAGACTCCT TCAAGAAGCA GGAGGCCGTG CAGGAGGTTA GCTTCGATGA GCCGCAGGAG 
    GAGGCCACTG GGCTGCCCAC CTCAGTGCCA CAGATCGCCG TGGAGGGCGA GGAAGCCGTG 
    CCAGTAGCTC TCGGGCCCAC CGGAAGAGAC TGA

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

    RefSeq XP_016881998.1
    CDS49..4281
    Translation

    Target ORF information:

    RefSeq Version XM_017026509.1
    Organism Homo sapiens(human)
    Definition Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017026509.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGATACAGT TGGTGGGGAG GTGCTTGAAG GCCCCAGTGG TTGGGGGTTG CTGGGGGACT 
    GGGACATTGC CCCGAGAGCC GGCACTGTTT CCAGCCTTGG CCCAAGCTGT GGGCAGAGTG 
    TTGGACCGTG AATCAATGAG GACTGCCGAG GGCAAAGTCC TGGACCTTGG GGCAGGACAG 
    AGCCAAAGAC TCCACAAGGG ATGTCCACTC CCTGCCACCT TCCCTGTGCC CCACTGGGTC 
    CACCGGGGCC TCAAGAGGGC CAGAGTGAGA CACAGACACC CCCAGACCGT GGGGTTTGCG 
    CTGAGAGGGA GGAAGGACAG AGCTGGCGGC GCCTGGTGCT GGTGGGGGTG CAGCTGCCGC 
    AGCGGGAACC GCAAGAGCTT GGTGGTAGGA ACGCCCTCCC CGACCCTCTC CCGGCCCCTG 
    TCGCCATTGT CGGTCCCAAC GGCAGGCAGC AGCCCCTTGG ATAGTCCTCG GAATTTCTCG 
    GCTGCCTCTG CCCTAAATTT CCCCTTTGCC CGGAGCCACA TCCCACGCAT GGACAGGGCA 
    GACGGCAGAA GATGGTCCCT CGCGTCTCTC CCATCTTCCG GCTATGGAAC CAACACACCC 
    AGCTCCACCC TCTCGTCAAG CTCATCCTCC CGGGAACGTC TCCACCAGCT TCCCTTCCAG 
    CCGACGCCGG ACGAGCTGCA CTTCCTGTCC AAGCACTTCC GCAGCTCAGA GAATGTGCTT 
    GATGAGGAAG GCGGCCGGTC ACCCCGCCTC CGACCCCGCT CTCGCAGTCT CAGCCCGGGC 
    CGTGCAACGG GGACCTTCGA CAATGAGATT GTCATGATGA ATCACGTGTA CCGGGAGAGG 
    TTCCCCAAGG CCACAGCACA GATGGAGGGC CGTCTGCAGG AGTTCCTGAC GGCCTACGCG 
    CCCGGCGCCC GGCTGGCGCT GGCTGATGGC GTCTTGGGCT TCATCCACCA CCAGATCGTC 
    GAGCTGGCCC GAGACTGCTT GGCCAAGTCT GGCGAGAACC TCGTCACCTC CCGCTACTTC 
    CTAGAGATGC AGGAGAAGCT GGAGCGGCTT CTGCAGGATG CCCATGAGCG TTCGGACAGT 
    GAGGAGGTCA GCTTCATCGT CCAGCTTGTC CGGAAACTGC TGATCATCAT CTCACGGCCA 
    GCTCGGCTGC TGGAGTGTCT GGAGTTTGAC CCTGAGGAAT TTTACCACCT GCTGGAGGCG 
    GCTGAGGGCC ATGCGCGGGA GGGCCAAGGC ATTAAGACTG ACCTTCCACA GTACATCATT 
    GGGCAGCTGG GCCTGGCCAA GGACCCCCTG GAGGAGATGG TGCCACTGAG TCACCTCGAA 
    GAAGAACAGC CCCCAGCACC TGAGTCCCCA GAGAGCCGCG CCCTGGTCGG CCAGTCACGG 
    AGGAAGCCAT GCGAAAGCGA CTTTGAGACC ATCAAACTCA TTAGCAACGG AGCCTATGGG 
    GCCGTCTACC TGGTGCGGCA CCGTGACACA CGGCAGCGCT TTGCCATCAA GAAGATCAAC 
    AAACAGAACT TGATCCTGCG TAACCAGATC CAGCAGGTCT TTGTGGAGCG TGACATTCTC 
    ACCTTTGCCG AGAACCCCTT TGTGGTCAGC ATGTTCTGCT CCTTTGAGAC CCGGCGCCAC 
    CTATGTATGG TCATGGAATA CGTGGAAGGC GGCGACTGCG CCACGCTCCT GAAGAACATG 
    GGCCCGCTGC CCGTGGACAT GGCCCGCCTG TACTTCGCCG AGACGGTGTT GGCGCTGGAG 
    TACCTGCATA ACTATGGCAT CGTGCACCGT GACCTCAAAC CAGACAATCT GCTCATCACC 
    TCGCTTGGCC ACATCAAGCT CACGGACTTC GGCCTGTCCA AGATCGGCCT CATGAGCATG 
    GCCACCAACC TCTATGAGGG CCACATCGAG AAGGACGCCC GAGAGTTCAT CGACAAGCAG 
    GTGTGTGGGA CGCCGGAGTA CATAGCCCCC GAGGTGATCT TCCGCCAGGG CTATGGGAAG 
    CCAGTGGACT GGTGGGCCAT GGGCGTCGTC CTCTATGAGT TTCTGGTGGG CTGCGTGCCT 
    TTCTTTGGAG ATACCCCCGA GGAACTCTTC GGTCAGGTGG TCAGCGATGA GATCATGTGG 
    CCAGAGGGAG ATGAGGCCCT TCCAGCAGAC GCCCAGGACC TCATCACCAG GTTGCTCCGG 
    CAGAGCCCGC TGGACCGTCT GGGCACTGGT GGCACCCACG AAGTGAAGCA GCACCCCTTT 
    TTCCTGGCCC TGGACTGGGC AGGGCTTCTC CGACACAAAG CCGAGTTCGT GCCCCAGCTC 
    GAAGCTGAGG ATGATACCAG CTACTTTGAC ACACGTTCGG AACGTTACCG CCATCTGGGC 
    TCCGAGGACG ACGAGACCAA TGATGAAGAA TCGTCCACAG AGATCCCCCA GTTCTCCTCC 
    TGCTCCCACC GGTTCAGCAA GGTCTACAGC AGCTCTGAGT TCCTGGCCGT CCAGCCCACT 
    CCTACCTTCG CTGAAAGGAG CTTCAGTGAA GACCGGGAGG AGGGGTGGGA GCGCAGCGAA 
    GTGGACTATG GCCGCCGGCT GAGTGCTGAC ATCCGGCTGA GGTCCTGGAC ATCCTCTGGA 
    TCCTCCTGTC AGTCATCTTC GTCCCAGCCC GAGCGGGGTC CCAGCCCATC TCTCCTGAAT 
    ACCATCAGCC TGGACACAAT GCCCAAGTTT GCCTTCTCAT CAGAGGATGA GGGGGTAGGC 
    CCAGGCCCTG CAGGCCCCAA GAGGCCCGTC TTCATTCTAG GGGAGCCTGA CCCCCCACCA 
    GCGGCCACCC CAGTGATGCC CAAGCCCTCG AGCCTTTCTG CCGACACAGC TGCTCTCAGC 
    CACGCCCGCC TACGGAGCAA TAGCATCGGC GCCCGACACT CCACACCAAG GCCTCTGGAT 
    GCCGGCCGGG GCCGCCGCCT TGGGGGCCCA AGAGACCCAG CCCCTGAGAA GTCCAGAGCC 
    TCCTCCAGCG GTGGCAGTGG TGGCGGCAGT GGGGGCCGCG TGCCCAAGTC AGCCTCTGTC 
    TCTGCCCTGT CCCTCATCAT CACGGCAGAT GATGGCAGCG GCGGCCCCCT CATGAGCCCC 
    CTTTCCCCGC GCTCTCTGTC CTCGAACCCG TCGTCCCGTG ACTCTTCGCC GAGCCGAGAC 
    CCGTCCCCCG TGTGTGGCAG CCTGCGGCCC CCCATCGTTA TCCACAGCTC TGGCAAGAAG 
    TACGGCTTCA GCCTGCGGGC GATCCGCGTC TACATGGGTG ATAGCGACGT CTACACTGTG 
    CACCACGTCG TCTGGAGTGT GGAGGACGGA AGCCCCGCCC AGGAGGCGGG CCTGCGGGCT 
    GGGGACCTCA TCACCCACAT CAACGGGGAG TCAGTGCTGG GGCTGGTGCA CATGGACGTC 
    GTGGAGCTGC TGCTGAAGAG CGGCAACAAG ATATCCCTGC GGACCACAGC CCTGGAGAAC 
    ACCTCCATCA AGGTGGGCCC CGCCCGGAAG AATGTGGCCA AGGGCCGCAT GGCACGCAGG 
    AGCAAGAGGA GCCGTCGGCG GGAGACCCAG GATCGGCGGA AGTCACTTTT CAAGAAGATC 
    TCCAAGCAGA CCTCCGTGCT GCACACCAGC CGCAGCTTCT CCTCCGGACT CCACCACTCA 
    CTGTCATCCA GTGAGAGCCT CCCCGGCTCG CCCACCCACA GCCTCTCCCC CAGCCCCACC 
    ACTCCCTGCC GAAGCCCAGC CCCTGATGTC CCAGCAGATA CCACTGCATC CCCACCCAGC 
    GCATCCCCGA GCTCCAGCAG CCCCGCCTCC CCAGCTGCTG CTGGCCACAC CCGCCCCAGC 
    TCCCTGCACG GCCTGGCTGC CAAGCTTGGG CCACCCCGCC CCAAGACTGG CCGCCGCAAG 
    TCCACCAGCA GCATCCCGCC CTCCCCGCTG GCCTGCCCGC CCATCTCCGC GCCCCCACCC 
    CGCTCGCCCT CGCCCCTGCC CGGGCACCCG CCCGCACCTG CCCGATCCCC GCGGCTGCGC 
    CGGGGCCAGT CAGCTGACAA GCTGGGCACA GGGGAGCGGC TGGATGGGGA GGCGGGGCGG 
    CGCACTCGTG GGCCAGAGGC CGAGCTCGTG GTCATGCGGC GGCTGCACCT GTCCGAGCGC 
    CGAGACTCCT TCAAGAAGCA GGAGGCCGTG CAGGAGGTTA GCTTCGATGA GCCGCAGGAG 
    GAGGCCACTG GGCTGCCCAC CTCAGTGCCA CAGATCGCCG TGGAGGGCGA GGAAGCCGTG 
    CCAGTAGCTC TCGGGCCCAC CGGAAGAGAC TGA

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

    MAST3 ( XM_017026510.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016881999.1 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OHu88324
    Clone ID Related Accession (Same CDS sequence) XM_017026510.1 , XM_017026510.2
    Accession Version XM_017026510.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4212bp)
    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 3 isoform X6
    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 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
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGATACAGT TGGTGGGGAG GTGCTTGAAG GCCCCAGTGG TTGGGGGTTG CTGGGGGACT 
    GGGACATTGC CCCGAGAGCC GGCACTGTTT CCAGCCTTGG CCCAAGCTGT GGGCAGAGTG 
    TTGGACCGTG AATCAATGAG GACTGCCGAG GGCAAAGTCC TGGACCTTGG GGCAGGACAG 
    AGCCAAAGAC TCCACAAGGG ATGTCCACTC CCTGCCACCT TCCCTGTGCC CCACTGGGTC 
    CACCGGGGCC TCAAGAGGGC CAGAGTGAGA CACAGACACC CCCAGACCGT GGGGTTTGCG 
    CTGAGAGGGA GGAAGGACAG AGCTGGCGGC GCCTGGTGCT GGTGGGGGTG CAGCTGCCGC 
    AGCGGGAACC GCAAGAGCTT GGTGGTAGGA ACGCCCTCCC CGACCCTCTC CCGGCCCCTG 
    TCGCCATTGT CGGTCCCAAC GGCAGGCAGC AGCCCCTTGG ATAGTCCTCG GAATTTCTCG 
    GCTGCCTCTG CCCTAAATTT CCCCTTTGCC CGGAGGGCAG ACGGCAGAAG ATGGTCCCTC 
    GCGTCTCTCC CATCTTCCGG CTATGGAACC AACACACCCA GCTCCACCCT CTCGTCAAGC 
    TCATCCTCCC GGGAACGTCT CCACCAGCTT CCCTTCCAGC CGACGCCGGA CGAGCTGCAC 
    TTCCTGTCCA AGCACTTCCG CAGCTCAGAG AATGTGCTTG ATGAGGAAGG CGGCCGGTCA 
    CCCCGCCTCC GACCCCGCTC TCGCAGTCTC AGCCCGGGCC GTGCAACGGG GACCTTCGAC 
    AATGAGATTG TCATGATGAA TCACGTGTAC CGGGAGAGGT TCCCCAAGGC CACAGCACAG 
    ATGGAGGGCC GTCTGCAGGA GTTCCTGACG GCCTACGCGC CCGGCGCCCG GCTGGCGCTG 
    GCTGATGGCG TCTTGGGCTT CATCCACCAC CAGATCGTCG AGCTGGCCCG AGACTGCTTG 
    GCCAAGTCTG GCGAGAACCT CGTCACCTCC CGCTACTTCC TAGAGATGCA GGAGAAGCTG 
    GAGCGGCTTC TGCAGGATGC CCATGAGCGT TCGGACAGTG AGGAGGTCAG CTTCATCGTC 
    CAGCTTGTCC GGAAACTGCT GATCATCATC TCACGGCCAG CTCGGCTGCT GGAGTGTCTG 
    GAGTTTGACC CTGAGGAATT TTACCACCTG CTGGAGGCGG CTGAGGGCCA TGCGCGGGAG 
    GGCCAAGGCA TTAAGACTGA CCTTCCACAG TACATCATTG GGCAGCTGGG CCTGGCCAAG 
    GACCCCCTGG AGGAGATGGT GCCACTGAGT CACCTCGAAG AAGAACAGCC CCCAGCACCT 
    GAGTCCCCAG AGAGCCGCGC CCTGGTCGGC CAGTCACGGA GGAAGCCATG CGAAAGCGAC 
    TTTGAGACCA TCAAACTCAT TAGCAACGGA GCCTATGGGG CCGTCTACCT GGTGCGGCAC 
    CGTGACACAC GGCAGCGCTT TGCCATCAAG AAGATCAACA AACAGAACTT GATCCTGCGT 
    AACCAGATCC AGCAGGTCTT TGTGGAGCGT GACATTCTCA CCTTTGCCGA GAACCCCTTT 
    GTGGTCAGCA TGTTCTGCTC CTTTGAGACC CGGCGCCACC TATGTATGGT CATGGAATAC 
    GTGGAAGGCG GCGACTGCGC CACGCTCCTG AAGAACATGG GCCCGCTGCC CGTGGACATG 
    GCCCGCCTGT ACTTCGCCGA GACGGTGTTG GCGCTGGAGT ACCTGCATAA CTATGGCATC 
    GTGCACCGTG ACCTCAAACC AGACAATCTG CTCATCACCT CGCTTGGCCA CATCAAGCTC 
    ACGGACTTCG GCCTGTCCAA GATCGGCCTC ATGAGCATGG CCACCAACCT CTATGAGGGC 
    CACATCGAGA AGGACGCCCG AGAGTTCATC GACAAGCAGG TGTGTGGGAC GCCGGAGTAC 
    ATAGCCCCCG AGGTGATCTT CCGCCAGGGC TATGGGAAGC CAGTGGACTG GTGGGCCATG 
    GGCGTCGTCC TCTATGAGTT TCTGGTGGGC TGCGTGCCTT TCTTTGGAGA TACCCCCGAG 
    GAACTCTTCG GTCAGGTGGT CAGCGATGAG ATCATGTGGC CAGAGGGAGA TGAGGCCCTT 
    CCAGCAGACG CCCAGGACCT CATCACCAGG TTGCTCCGGC AGAGCCCGCT GGACCGTCTG 
    GGCACTGGTG GCACCCACGA AGTGAAGCAG CACCCCTTTT TCCTGGCCCT GGACTGGGCA 
    GGGCTTCTCC GACACAAAGC CGAGTTCGTG CCCCAGCTCG AAGCTGAGGA TGATACCAGC 
    TACTTTGACA CACGTTCGGA ACGTTACCGC CATCTGGGCT CCGAGGACGA CGAGACCAAT 
    GATGAAGAAT CGTCCACAGA GATCCCCCAG TTCTCCTCCT GCTCCCACCG GTTCAGCAAG 
    GTCTACAGCA GCTCTGAGTT CCTGGCCGTC CAGCCCACTC CTACCTTCGC TGAAAGGAGC 
    TTCAGTGAAG ACCGGGAGGA GGGGTGGGAG CGCAGCGAAG TGGACTATGG CCGCCGGCTG 
    AGTGCTGACA TCCGGCTGAG GTCCTGGACA TCCTCTGGAT CCTCCTGTCA GTCATCTTCG 
    TCCCAGCCCG AGCGGGGTCC CAGCCCATCT CTCCTGAATA CCATCAGCCT GGACACAATG 
    CCCAAGTTTG CCTTCTCATC AGAGGATGAG GGGGTAGGCC CAGGCCCTGC AGGCCCCAAG 
    AGGCCCGTCT TCATTCTAGG GGAGCCTGAC CCCCCACCAG CGGCCACCCC AGTGATGCCC 
    AAGCCCTCGA GCCTTTCTGC CGACACAGCT GCTCTCAGCC ACGCCCGCCT ACGGAGCAAT 
    AGCATCGGCG CCCGACACTC CACACCAAGG CCTCTGGATG CCGGCCGGGG CCGCCGCCTT 
    GGGGGCCCAA GAGACCCAGC CCCTGAGAAG TCCAGAGCCT CCTCCAGCGG TGGCAGTGGT 
    GGCGGCAGTG GGGGCCGCGT GCCCAAGTCA GCCTCTGTCT CTGCCCTGTC CCTCATCATC 
    ACGGCAGATG ATGGCAGCGG CGGCCCCCTC ATGAGCCCCC TTTCCCCGCG CTCTCTGTCC 
    TCGAACCCGT CGTCCCGTGA CTCTTCGCCG AGCCGAGACC CGTCCCCCGT GTGTGGCAGC 
    CTGCGGCCCC CCATCGTTAT CCACAGCTCT GGCAAGAAGT ACGGCTTCAG CCTGCGGGCG 
    ATCCGCGTCT ACATGGGTGA TAGCGACGTC TACACTGTGC ACCACGTCGT CTGGAGTGTG 
    GAGGACGGAA GCCCCGCCCA GGAGGCGGGC CTGCGGGCTG GGGACCTCAT CACCCACATC 
    AACGGGGAGT CAGTGCTGGG GCTGGTGCAC ATGGACGTCG TGGAGCTGCT GCTGAAGAGC 
    GGCAACAAGA TATCCCTGCG GACCACAGCC CTGGAGAACA CCTCCATCAA GGTGGGCCCC 
    GCCCGGAAGA ATGTGGCCAA GGGCCGCATG GCACGCAGGA GCAAGAGGAG CCGTCGGCGG 
    GAGACCCAGG ATCGGCGGAA GTCACTTTTC AAGAAGATCT CCAAGCAGAC CTCCGTGCTG 
    CACACCAGCC GCAGCTTCTC CTCCGGACTC CACCACTCAC TGTCATCCAG TGAGAGCCTC 
    CCCGGCTCGC CCACCCACAG CCTCTCCCCC AGCCCCACCA CTCCCTGCCG AAGCCCAGCC 
    CCTGATGTCC CAGCAGATAC CACTGCATCC CCACCCAGCG CATCCCCGAG CTCCAGCAGC 
    CCCGCCTCCC CAGCTGCTGC TGGCCACACC CGCCCCAGCT CCCTGCACGG CCTGGCTGCC 
    AAGCTTGGGC CACCCCGCCC CAAGACTGGC CGCCGCAAGT CCACCAGCAG CATCCCGCCC 
    TCCCCGCTGG CCTGCCCGCC CATCTCCGCG CCCCCACCCC GCTCGCCCTC GCCCCTGCCC 
    GGGCACCCGC CCGCACCTGC CCGATCCCCG CGGCTGCGCC GGGGCCAGTC AGCTGACAAG 
    CTGGGCACAG GGGAGCGGCT GGATGGGGAG GCGGGGCGGC GCACTCGTGG GCCAGAGGCC 
    GAGCTCGTGG TCATGCGGCG GCTGCACCTG TCCGAGCGCC GAGACTCCTT CAAGAAGCAG 
    GAGGCCGTGC AGGAGGTTAG CTTCGATGAG CCGCAGGAGG AGGCCACTGG GCTGCCCACC 
    TCAGTGCCAC AGATCGCCGT GGAGGGCGAG GAAGCCGTGC CAGTAGCTCT CGGGCCCACC 
    GGAAGAGACT GA

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

    RefSeq XP_016881999.1
    CDS50..4261
    Translation

    Target ORF information:

    RefSeq Version XM_017026510.1
    Organism Homo sapiens(human)
    Definition Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017026510.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGATACAGT TGGTGGGGAG GTGCTTGAAG GCCCCAGTGG TTGGGGGTTG CTGGGGGACT 
    GGGACATTGC CCCGAGAGCC GGCACTGTTT CCAGCCTTGG CCCAAGCTGT GGGCAGAGTG 
    TTGGACCGTG AATCAATGAG GACTGCCGAG GGCAAAGTCC TGGACCTTGG GGCAGGACAG 
    AGCCAAAGAC TCCACAAGGG ATGTCCACTC CCTGCCACCT TCCCTGTGCC CCACTGGGTC 
    CACCGGGGCC TCAAGAGGGC CAGAGTGAGA CACAGACACC CCCAGACCGT GGGGTTTGCG 
    CTGAGAGGGA GGAAGGACAG AGCTGGCGGC GCCTGGTGCT GGTGGGGGTG CAGCTGCCGC 
    AGCGGGAACC GCAAGAGCTT GGTGGTAGGA ACGCCCTCCC CGACCCTCTC CCGGCCCCTG 
    TCGCCATTGT CGGTCCCAAC GGCAGGCAGC AGCCCCTTGG ATAGTCCTCG GAATTTCTCG 
    GCTGCCTCTG CCCTAAATTT CCCCTTTGCC CGGAGGGCAG ACGGCAGAAG ATGGTCCCTC 
    GCGTCTCTCC CATCTTCCGG CTATGGAACC AACACACCCA GCTCCACCCT CTCGTCAAGC 
    TCATCCTCCC GGGAACGTCT CCACCAGCTT CCCTTCCAGC CGACGCCGGA CGAGCTGCAC 
    TTCCTGTCCA AGCACTTCCG CAGCTCAGAG AATGTGCTTG ATGAGGAAGG CGGCCGGTCA 
    CCCCGCCTCC GACCCCGCTC TCGCAGTCTC AGCCCGGGCC GTGCAACGGG GACCTTCGAC 
    AATGAGATTG TCATGATGAA TCACGTGTAC CGGGAGAGGT TCCCCAAGGC CACAGCACAG 
    ATGGAGGGCC GTCTGCAGGA GTTCCTGACG GCCTACGCGC CCGGCGCCCG GCTGGCGCTG 
    GCTGATGGCG TCTTGGGCTT CATCCACCAC CAGATCGTCG AGCTGGCCCG AGACTGCTTG 
    GCCAAGTCTG GCGAGAACCT CGTCACCTCC CGCTACTTCC TAGAGATGCA GGAGAAGCTG 
    GAGCGGCTTC TGCAGGATGC CCATGAGCGT TCGGACAGTG AGGAGGTCAG CTTCATCGTC 
    CAGCTTGTCC GGAAACTGCT GATCATCATC TCACGGCCAG CTCGGCTGCT GGAGTGTCTG 
    GAGTTTGACC CTGAGGAATT TTACCACCTG CTGGAGGCGG CTGAGGGCCA TGCGCGGGAG 
    GGCCAAGGCA TTAAGACTGA CCTTCCACAG TACATCATTG GGCAGCTGGG CCTGGCCAAG 
    GACCCCCTGG AGGAGATGGT GCCACTGAGT CACCTCGAAG AAGAACAGCC CCCAGCACCT 
    GAGTCCCCAG AGAGCCGCGC CCTGGTCGGC CAGTCACGGA GGAAGCCATG CGAAAGCGAC 
    TTTGAGACCA TCAAACTCAT TAGCAACGGA GCCTATGGGG CCGTCTACCT GGTGCGGCAC 
    CGTGACACAC GGCAGCGCTT TGCCATCAAG AAGATCAACA AACAGAACTT GATCCTGCGT 
    AACCAGATCC AGCAGGTCTT TGTGGAGCGT GACATTCTCA CCTTTGCCGA GAACCCCTTT 
    GTGGTCAGCA TGTTCTGCTC CTTTGAGACC CGGCGCCACC TATGTATGGT CATGGAATAC 
    GTGGAAGGCG GCGACTGCGC CACGCTCCTG AAGAACATGG GCCCGCTGCC CGTGGACATG 
    GCCCGCCTGT ACTTCGCCGA GACGGTGTTG GCGCTGGAGT ACCTGCATAA CTATGGCATC 
    GTGCACCGTG ACCTCAAACC AGACAATCTG CTCATCACCT CGCTTGGCCA CATCAAGCTC 
    ACGGACTTCG GCCTGTCCAA GATCGGCCTC ATGAGCATGG CCACCAACCT CTATGAGGGC 
    CACATCGAGA AGGACGCCCG AGAGTTCATC GACAAGCAGG TGTGTGGGAC GCCGGAGTAC 
    ATAGCCCCCG AGGTGATCTT CCGCCAGGGC TATGGGAAGC CAGTGGACTG GTGGGCCATG 
    GGCGTCGTCC TCTATGAGTT TCTGGTGGGC TGCGTGCCTT TCTTTGGAGA TACCCCCGAG 
    GAACTCTTCG GTCAGGTGGT CAGCGATGAG ATCATGTGGC CAGAGGGAGA TGAGGCCCTT 
    CCAGCAGACG CCCAGGACCT CATCACCAGG TTGCTCCGGC AGAGCCCGCT GGACCGTCTG 
    GGCACTGGTG GCACCCACGA AGTGAAGCAG CACCCCTTTT TCCTGGCCCT GGACTGGGCA 
    GGGCTTCTCC GACACAAAGC CGAGTTCGTG CCCCAGCTCG AAGCTGAGGA TGATACCAGC 
    TACTTTGACA CACGTTCGGA ACGTTACCGC CATCTGGGCT CCGAGGACGA CGAGACCAAT 
    GATGAAGAAT CGTCCACAGA GATCCCCCAG TTCTCCTCCT GCTCCCACCG GTTCAGCAAG 
    GTCTACAGCA GCTCTGAGTT CCTGGCCGTC CAGCCCACTC CTACCTTCGC TGAAAGGAGC 
    TTCAGTGAAG ACCGGGAGGA GGGGTGGGAG CGCAGCGAAG TGGACTATGG CCGCCGGCTG 
    AGTGCTGACA TCCGGCTGAG GTCCTGGACA TCCTCTGGAT CCTCCTGTCA GTCATCTTCG 
    TCCCAGCCCG AGCGGGGTCC CAGCCCATCT CTCCTGAATA CCATCAGCCT GGACACAATG 
    CCCAAGTTTG CCTTCTCATC AGAGGATGAG GGGGTAGGCC CAGGCCCTGC AGGCCCCAAG 
    AGGCCCGTCT TCATTCTAGG GGAGCCTGAC CCCCCACCAG CGGCCACCCC AGTGATGCCC 
    AAGCCCTCGA GCCTTTCTGC CGACACAGCT GCTCTCAGCC ACGCCCGCCT ACGGAGCAAT 
    AGCATCGGCG CCCGACACTC CACACCAAGG CCTCTGGATG CCGGCCGGGG CCGCCGCCTT 
    GGGGGCCCAA GAGACCCAGC CCCTGAGAAG TCCAGAGCCT CCTCCAGCGG TGGCAGTGGT 
    GGCGGCAGTG GGGGCCGCGT GCCCAAGTCA GCCTCTGTCT CTGCCCTGTC CCTCATCATC 
    ACGGCAGATG ATGGCAGCGG CGGCCCCCTC ATGAGCCCCC TTTCCCCGCG CTCTCTGTCC 
    TCGAACCCGT CGTCCCGTGA CTCTTCGCCG AGCCGAGACC CGTCCCCCGT GTGTGGCAGC 
    CTGCGGCCCC CCATCGTTAT CCACAGCTCT GGCAAGAAGT ACGGCTTCAG CCTGCGGGCG 
    ATCCGCGTCT ACATGGGTGA TAGCGACGTC TACACTGTGC ACCACGTCGT CTGGAGTGTG 
    GAGGACGGAA GCCCCGCCCA GGAGGCGGGC CTGCGGGCTG GGGACCTCAT CACCCACATC 
    AACGGGGAGT CAGTGCTGGG GCTGGTGCAC ATGGACGTCG TGGAGCTGCT GCTGAAGAGC 
    GGCAACAAGA TATCCCTGCG GACCACAGCC CTGGAGAACA CCTCCATCAA GGTGGGCCCC 
    GCCCGGAAGA ATGTGGCCAA GGGCCGCATG GCACGCAGGA GCAAGAGGAG CCGTCGGCGG 
    GAGACCCAGG ATCGGCGGAA GTCACTTTTC AAGAAGATCT CCAAGCAGAC CTCCGTGCTG 
    CACACCAGCC GCAGCTTCTC CTCCGGACTC CACCACTCAC TGTCATCCAG TGAGAGCCTC 
    CCCGGCTCGC CCACCCACAG CCTCTCCCCC AGCCCCACCA CTCCCTGCCG AAGCCCAGCC 
    CCTGATGTCC CAGCAGATAC CACTGCATCC CCACCCAGCG CATCCCCGAG CTCCAGCAGC 
    CCCGCCTCCC CAGCTGCTGC TGGCCACACC CGCCCCAGCT CCCTGCACGG CCTGGCTGCC 
    AAGCTTGGGC CACCCCGCCC CAAGACTGGC CGCCGCAAGT CCACCAGCAG CATCCCGCCC 
    TCCCCGCTGG CCTGCCCGCC CATCTCCGCG CCCCCACCCC GCTCGCCCTC GCCCCTGCCC 
    GGGCACCCGC CCGCACCTGC CCGATCCCCG CGGCTGCGCC GGGGCCAGTC AGCTGACAAG 
    CTGGGCACAG GGGAGCGGCT GGATGGGGAG GCGGGGCGGC GCACTCGTGG GCCAGAGGCC 
    GAGCTCGTGG TCATGCGGCG GCTGCACCTG TCCGAGCGCC GAGACTCCTT CAAGAAGCAG 
    GAGGCCGTGC AGGAGGTTAG CTTCGATGAG CCGCAGGAGG AGGCCACTGG GCTGCCCACC 
    TCAGTGCCAC AGATCGCCGT GGAGGGCGAG GAAGCCGTGC CAGTAGCTCT CGGGCCCACC 
    GGAAGAGACT GA

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

    MAST3 ( XM_017026510.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016881999.1 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OHu88324
    Clone ID Related Accession (Same CDS sequence) XM_017026510.1 , XM_017026510.2
    Accession Version XM_017026510.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4212bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product microtubule-associated serine/threonine-protein kinase 3 isoform X6
    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 EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017026510.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGATACAGT TGGTGGGGAG GTGCTTGAAG GCCCCAGTGG TTGGGGGTTG CTGGGGGACT 
    GGGACATTGC CCCGAGAGCC GGCACTGTTT CCAGCCTTGG CCCAAGCTGT GGGCAGAGTG 
    TTGGACCGTG AATCAATGAG GACTGCCGAG GGCAAAGTCC TGGACCTTGG GGCAGGACAG 
    AGCCAAAGAC TCCACAAGGG ATGTCCACTC CCTGCCACCT TCCCTGTGCC CCACTGGGTC 
    CACCGGGGCC TCAAGAGGGC CAGAGTGAGA CACAGACACC CCCAGACCGT GGGGTTTGCG 
    CTGAGAGGGA GGAAGGACAG AGCTGGCGGC GCCTGGTGCT GGTGGGGGTG CAGCTGCCGC 
    AGCGGGAACC GCAAGAGCTT GGTGGTAGGA ACGCCCTCCC CGACCCTCTC CCGGCCCCTG 
    TCGCCATTGT CGGTCCCAAC GGCAGGCAGC AGCCCCTTGG ATAGTCCTCG GAATTTCTCG 
    GCTGCCTCTG CCCTAAATTT CCCCTTTGCC CGGAGGGCAG ACGGCAGAAG ATGGTCCCTC 
    GCGTCTCTCC CATCTTCCGG CTATGGAACC AACACACCCA GCTCCACCCT CTCGTCAAGC 
    TCATCCTCCC GGGAACGTCT CCACCAGCTT CCCTTCCAGC CGACGCCGGA CGAGCTGCAC 
    TTCCTGTCCA AGCACTTCCG CAGCTCAGAG AATGTGCTTG ATGAGGAAGG CGGCCGGTCA 
    CCCCGCCTCC GACCCCGCTC TCGCAGTCTC AGCCCGGGCC GTGCAACGGG GACCTTCGAC 
    AATGAGATTG TCATGATGAA TCACGTGTAC CGGGAGAGGT TCCCCAAGGC CACAGCACAG 
    ATGGAGGGCC GTCTGCAGGA GTTCCTGACG GCCTACGCGC CCGGCGCCCG GCTGGCGCTG 
    GCTGATGGCG TCTTGGGCTT CATCCACCAC CAGATCGTCG AGCTGGCCCG AGACTGCTTG 
    GCCAAGTCTG GCGAGAACCT CGTCACCTCC CGCTACTTCC TAGAGATGCA GGAGAAGCTG 
    GAGCGGCTTC TGCAGGATGC CCATGAGCGT TCGGACAGTG AGGAGGTCAG CTTCATCGTC 
    CAGCTTGTCC GGAAACTGCT GATCATCATC TCACGGCCAG CTCGGCTGCT GGAGTGTCTG 
    GAGTTTGACC CTGAGGAATT TTACCACCTG CTGGAGGCGG CTGAGGGCCA TGCGCGGGAG 
    GGCCAAGGCA TTAAGACTGA CCTTCCACAG TACATCATTG GGCAGCTGGG CCTGGCCAAG 
    GACCCCCTGG AGGAGATGGT GCCACTGAGT CACCTCGAAG AAGAACAGCC CCCAGCACCT 
    GAGTCCCCAG AGAGCCGCGC CCTGGTCGGC CAGTCACGGA GGAAGCCATG CGAAAGCGAC 
    TTTGAGACCA TCAAACTCAT TAGCAACGGA GCCTATGGGG CCGTCTACCT GGTGCGGCAC 
    CGTGACACAC GGCAGCGCTT TGCCATCAAG AAGATCAACA AACAGAACTT GATCCTGCGT 
    AACCAGATCC AGCAGGTCTT TGTGGAGCGT GACATTCTCA CCTTTGCCGA GAACCCCTTT 
    GTGGTCAGCA TGTTCTGCTC CTTTGAGACC CGGCGCCACC TATGTATGGT CATGGAATAC 
    GTGGAAGGCG GCGACTGCGC CACGCTCCTG AAGAACATGG GCCCGCTGCC CGTGGACATG 
    GCCCGCCTGT ACTTCGCCGA GACGGTGTTG GCGCTGGAGT ACCTGCATAA CTATGGCATC 
    GTGCACCGTG ACCTCAAACC AGACAATCTG CTCATCACCT CGCTTGGCCA CATCAAGCTC 
    ACGGACTTCG GCCTGTCCAA GATCGGCCTC ATGAGCATGG CCACCAACCT CTATGAGGGC 
    CACATCGAGA AGGACGCCCG AGAGTTCATC GACAAGCAGG TGTGTGGGAC GCCGGAGTAC 
    ATAGCCCCCG AGGTGATCTT CCGCCAGGGC TATGGGAAGC CAGTGGACTG GTGGGCCATG 
    GGCGTCGTCC TCTATGAGTT TCTGGTGGGC TGCGTGCCTT TCTTTGGAGA TACCCCCGAG 
    GAACTCTTCG GTCAGGTGGT CAGCGATGAG ATCATGTGGC CAGAGGGAGA TGAGGCCCTT 
    CCAGCAGACG CCCAGGACCT CATCACCAGG TTGCTCCGGC AGAGCCCGCT GGACCGTCTG 
    GGCACTGGTG GCACCCACGA AGTGAAGCAG CACCCCTTTT TCCTGGCCCT GGACTGGGCA 
    GGGCTTCTCC GACACAAAGC CGAGTTCGTG CCCCAGCTCG AAGCTGAGGA TGATACCAGC 
    TACTTTGACA CACGTTCGGA ACGTTACCGC CATCTGGGCT CCGAGGACGA CGAGACCAAT 
    GATGAAGAAT CGTCCACAGA GATCCCCCAG TTCTCCTCCT GCTCCCACCG GTTCAGCAAG 
    GTCTACAGCA GCTCTGAGTT CCTGGCCGTC CAGCCCACTC CTACCTTCGC TGAAAGGAGC 
    TTCAGTGAAG ACCGGGAGGA GGGGTGGGAG CGCAGCGAAG TGGACTATGG CCGCCGGCTG 
    AGTGCTGACA TCCGGCTGAG GTCCTGGACA TCCTCTGGAT CCTCCTGTCA GTCATCTTCG 
    TCCCAGCCCG AGCGGGGTCC CAGCCCATCT CTCCTGAATA CCATCAGCCT GGACACAATG 
    CCCAAGTTTG CCTTCTCATC AGAGGATGAG GGGGTAGGCC CAGGCCCTGC AGGCCCCAAG 
    AGGCCCGTCT TCATTCTAGG GGAGCCTGAC CCCCCACCAG CGGCCACCCC AGTGATGCCC 
    AAGCCCTCGA GCCTTTCTGC CGACACAGCT GCTCTCAGCC ACGCCCGCCT ACGGAGCAAT 
    AGCATCGGCG CCCGACACTC CACACCAAGG CCTCTGGATG CCGGCCGGGG CCGCCGCCTT 
    GGGGGCCCAA GAGACCCAGC CCCTGAGAAG TCCAGAGCCT CCTCCAGCGG TGGCAGTGGT 
    GGCGGCAGTG GGGGCCGCGT GCCCAAGTCA GCCTCTGTCT CTGCCCTGTC CCTCATCATC 
    ACGGCAGATG ATGGCAGCGG CGGCCCCCTC ATGAGCCCCC TTTCCCCGCG CTCTCTGTCC 
    TCGAACCCGT CGTCCCGTGA CTCTTCGCCG AGCCGAGACC CGTCCCCCGT GTGTGGCAGC 
    CTGCGGCCCC CCATCGTTAT CCACAGCTCT GGCAAGAAGT ACGGCTTCAG CCTGCGGGCG 
    ATCCGCGTCT ACATGGGTGA TAGCGACGTC TACACTGTGC ACCACGTCGT CTGGAGTGTG 
    GAGGACGGAA GCCCCGCCCA GGAGGCGGGC CTGCGGGCTG GGGACCTCAT CACCCACATC 
    AACGGGGAGT CAGTGCTGGG GCTGGTGCAC ATGGACGTCG TGGAGCTGCT GCTGAAGAGC 
    GGCAACAAGA TATCCCTGCG GACCACAGCC CTGGAGAACA CCTCCATCAA GGTGGGCCCC 
    GCCCGGAAGA ATGTGGCCAA GGGCCGCATG GCACGCAGGA GCAAGAGGAG CCGTCGGCGG 
    GAGACCCAGG ATCGGCGGAA GTCACTTTTC AAGAAGATCT CCAAGCAGAC CTCCGTGCTG 
    CACACCAGCC GCAGCTTCTC CTCCGGACTC CACCACTCAC TGTCATCCAG TGAGAGCCTC 
    CCCGGCTCGC CCACCCACAG CCTCTCCCCC AGCCCCACCA CTCCCTGCCG AAGCCCAGCC 
    CCTGATGTCC CAGCAGATAC CACTGCATCC CCACCCAGCG CATCCCCGAG CTCCAGCAGC 
    CCCGCCTCCC CAGCTGCTGC TGGCCACACC CGCCCCAGCT CCCTGCACGG CCTGGCTGCC 
    AAGCTTGGGC CACCCCGCCC CAAGACTGGC CGCCGCAAGT CCACCAGCAG CATCCCGCCC 
    TCCCCGCTGG CCTGCCCGCC CATCTCCGCG CCCCCACCCC GCTCGCCCTC GCCCCTGCCC 
    GGGCACCCGC CCGCACCTGC CCGATCCCCG CGGCTGCGCC GGGGCCAGTC AGCTGACAAG 
    CTGGGCACAG GGGAGCGGCT GGATGGGGAG GCGGGGCGGC GCACTCGTGG GCCAGAGGCC 
    GAGCTCGTGG TCATGCGGCG GCTGCACCTG TCCGAGCGCC GAGACTCCTT CAAGAAGCAG 
    GAGGCCGTGC AGGAGGTTAG CTTCGATGAG CCGCAGGAGG AGGCCACTGG GCTGCCCACC 
    TCAGTGCCAC AGATCGCCGT GGAGGGCGAG GAAGCCGTGC CAGTAGCTCT CGGGCCCACC 
    GGAAGAGACT GA

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

    RefSeq XP_016881999.1
    CDS49..4260
    Translation

    Target ORF information:

    RefSeq Version XM_017026510.2
    Organism Homo sapiens(human)
    Definition Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017026510.2

    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
    ATGATACAGT TGGTGGGGAG GTGCTTGAAG GCCCCAGTGG TTGGGGGTTG CTGGGGGACT 
    GGGACATTGC CCCGAGAGCC GGCACTGTTT CCAGCCTTGG CCCAAGCTGT GGGCAGAGTG 
    TTGGACCGTG AATCAATGAG GACTGCCGAG GGCAAAGTCC TGGACCTTGG GGCAGGACAG 
    AGCCAAAGAC TCCACAAGGG ATGTCCACTC CCTGCCACCT TCCCTGTGCC CCACTGGGTC 
    CACCGGGGCC TCAAGAGGGC CAGAGTGAGA CACAGACACC CCCAGACCGT GGGGTTTGCG 
    CTGAGAGGGA GGAAGGACAG AGCTGGCGGC GCCTGGTGCT GGTGGGGGTG CAGCTGCCGC 
    AGCGGGAACC GCAAGAGCTT GGTGGTAGGA ACGCCCTCCC CGACCCTCTC CCGGCCCCTG 
    TCGCCATTGT CGGTCCCAAC GGCAGGCAGC AGCCCCTTGG ATAGTCCTCG GAATTTCTCG 
    GCTGCCTCTG CCCTAAATTT CCCCTTTGCC CGGAGGGCAG ACGGCAGAAG ATGGTCCCTC 
    GCGTCTCTCC CATCTTCCGG CTATGGAACC AACACACCCA GCTCCACCCT CTCGTCAAGC 
    TCATCCTCCC GGGAACGTCT CCACCAGCTT CCCTTCCAGC CGACGCCGGA CGAGCTGCAC 
    TTCCTGTCCA AGCACTTCCG CAGCTCAGAG AATGTGCTTG ATGAGGAAGG CGGCCGGTCA 
    CCCCGCCTCC GACCCCGCTC TCGCAGTCTC AGCCCGGGCC GTGCAACGGG GACCTTCGAC 
    AATGAGATTG TCATGATGAA TCACGTGTAC CGGGAGAGGT TCCCCAAGGC CACAGCACAG 
    ATGGAGGGCC GTCTGCAGGA GTTCCTGACG GCCTACGCGC CCGGCGCCCG GCTGGCGCTG 
    GCTGATGGCG TCTTGGGCTT CATCCACCAC CAGATCGTCG AGCTGGCCCG AGACTGCTTG 
    GCCAAGTCTG GCGAGAACCT CGTCACCTCC CGCTACTTCC TAGAGATGCA GGAGAAGCTG 
    GAGCGGCTTC TGCAGGATGC CCATGAGCGT TCGGACAGTG AGGAGGTCAG CTTCATCGTC 
    CAGCTTGTCC GGAAACTGCT GATCATCATC TCACGGCCAG CTCGGCTGCT GGAGTGTCTG 
    GAGTTTGACC CTGAGGAATT TTACCACCTG CTGGAGGCGG CTGAGGGCCA TGCGCGGGAG 
    GGCCAAGGCA TTAAGACTGA CCTTCCACAG TACATCATTG GGCAGCTGGG CCTGGCCAAG 
    GACCCCCTGG AGGAGATGGT GCCACTGAGT CACCTCGAAG AAGAACAGCC CCCAGCACCT 
    GAGTCCCCAG AGAGCCGCGC CCTGGTCGGC CAGTCACGGA GGAAGCCATG CGAAAGCGAC 
    TTTGAGACCA TCAAACTCAT TAGCAACGGA GCCTATGGGG CCGTCTACCT GGTGCGGCAC 
    CGTGACACAC GGCAGCGCTT TGCCATCAAG AAGATCAACA AACAGAACTT GATCCTGCGT 
    AACCAGATCC AGCAGGTCTT TGTGGAGCGT GACATTCTCA CCTTTGCCGA GAACCCCTTT 
    GTGGTCAGCA TGTTCTGCTC CTTTGAGACC CGGCGCCACC TATGTATGGT CATGGAATAC 
    GTGGAAGGCG GCGACTGCGC CACGCTCCTG AAGAACATGG GCCCGCTGCC CGTGGACATG 
    GCCCGCCTGT ACTTCGCCGA GACGGTGTTG GCGCTGGAGT ACCTGCATAA CTATGGCATC 
    GTGCACCGTG ACCTCAAACC AGACAATCTG CTCATCACCT CGCTTGGCCA CATCAAGCTC 
    ACGGACTTCG GCCTGTCCAA GATCGGCCTC ATGAGCATGG CCACCAACCT CTATGAGGGC 
    CACATCGAGA AGGACGCCCG AGAGTTCATC GACAAGCAGG TGTGTGGGAC GCCGGAGTAC 
    ATAGCCCCCG AGGTGATCTT CCGCCAGGGC TATGGGAAGC CAGTGGACTG GTGGGCCATG 
    GGCGTCGTCC TCTATGAGTT TCTGGTGGGC TGCGTGCCTT TCTTTGGAGA TACCCCCGAG 
    GAACTCTTCG GTCAGGTGGT CAGCGATGAG ATCATGTGGC CAGAGGGAGA TGAGGCCCTT 
    CCAGCAGACG CCCAGGACCT CATCACCAGG TTGCTCCGGC AGAGCCCGCT GGACCGTCTG 
    GGCACTGGTG GCACCCACGA AGTGAAGCAG CACCCCTTTT TCCTGGCCCT GGACTGGGCA 
    GGGCTTCTCC GACACAAAGC CGAGTTCGTG CCCCAGCTCG AAGCTGAGGA TGATACCAGC 
    TACTTTGACA CACGTTCGGA ACGTTACCGC CATCTGGGCT CCGAGGACGA CGAGACCAAT 
    GATGAAGAAT CGTCCACAGA GATCCCCCAG TTCTCCTCCT GCTCCCACCG GTTCAGCAAG 
    GTCTACAGCA GCTCTGAGTT CCTGGCCGTC CAGCCCACTC CTACCTTCGC TGAAAGGAGC 
    TTCAGTGAAG ACCGGGAGGA GGGGTGGGAG CGCAGCGAAG TGGACTATGG CCGCCGGCTG 
    AGTGCTGACA TCCGGCTGAG GTCCTGGACA TCCTCTGGAT CCTCCTGTCA GTCATCTTCG 
    TCCCAGCCCG AGCGGGGTCC CAGCCCATCT CTCCTGAATA CCATCAGCCT GGACACAATG 
    CCCAAGTTTG CCTTCTCATC AGAGGATGAG GGGGTAGGCC CAGGCCCTGC AGGCCCCAAG 
    AGGCCCGTCT TCATTCTAGG GGAGCCTGAC CCCCCACCAG CGGCCACCCC AGTGATGCCC 
    AAGCCCTCGA GCCTTTCTGC CGACACAGCT GCTCTCAGCC ACGCCCGCCT ACGGAGCAAT 
    AGCATCGGCG CCCGACACTC CACACCAAGG CCTCTGGATG CCGGCCGGGG CCGCCGCCTT 
    GGGGGCCCAA GAGACCCAGC CCCTGAGAAG TCCAGAGCCT CCTCCAGCGG TGGCAGTGGT 
    GGCGGCAGTG GGGGCCGCGT GCCCAAGTCA GCCTCTGTCT CTGCCCTGTC CCTCATCATC 
    ACGGCAGATG ATGGCAGCGG CGGCCCCCTC ATGAGCCCCC TTTCCCCGCG CTCTCTGTCC 
    TCGAACCCGT CGTCCCGTGA CTCTTCGCCG AGCCGAGACC CGTCCCCCGT GTGTGGCAGC 
    CTGCGGCCCC CCATCGTTAT CCACAGCTCT GGCAAGAAGT ACGGCTTCAG CCTGCGGGCG 
    ATCCGCGTCT ACATGGGTGA TAGCGACGTC TACACTGTGC ACCACGTCGT CTGGAGTGTG 
    GAGGACGGAA GCCCCGCCCA GGAGGCGGGC CTGCGGGCTG GGGACCTCAT CACCCACATC 
    AACGGGGAGT CAGTGCTGGG GCTGGTGCAC ATGGACGTCG TGGAGCTGCT GCTGAAGAGC 
    GGCAACAAGA TATCCCTGCG GACCACAGCC CTGGAGAACA CCTCCATCAA GGTGGGCCCC 
    GCCCGGAAGA ATGTGGCCAA GGGCCGCATG GCACGCAGGA GCAAGAGGAG CCGTCGGCGG 
    GAGACCCAGG ATCGGCGGAA GTCACTTTTC AAGAAGATCT CCAAGCAGAC CTCCGTGCTG 
    CACACCAGCC GCAGCTTCTC CTCCGGACTC CACCACTCAC TGTCATCCAG TGAGAGCCTC 
    CCCGGCTCGC CCACCCACAG CCTCTCCCCC AGCCCCACCA CTCCCTGCCG AAGCCCAGCC 
    CCTGATGTCC CAGCAGATAC CACTGCATCC CCACCCAGCG CATCCCCGAG CTCCAGCAGC 
    CCCGCCTCCC CAGCTGCTGC TGGCCACACC CGCCCCAGCT CCCTGCACGG CCTGGCTGCC 
    AAGCTTGGGC CACCCCGCCC CAAGACTGGC CGCCGCAAGT CCACCAGCAG CATCCCGCCC 
    TCCCCGCTGG CCTGCCCGCC CATCTCCGCG CCCCCACCCC GCTCGCCCTC GCCCCTGCCC 
    GGGCACCCGC CCGCACCTGC CCGATCCCCG CGGCTGCGCC GGGGCCAGTC AGCTGACAAG 
    CTGGGCACAG GGGAGCGGCT GGATGGGGAG GCGGGGCGGC GCACTCGTGG GCCAGAGGCC 
    GAGCTCGTGG TCATGCGGCG GCTGCACCTG TCCGAGCGCC GAGACTCCTT CAAGAAGCAG 
    GAGGCCGTGC AGGAGGTTAG CTTCGATGAG CCGCAGGAGG AGGCCACTGG GCTGCCCACC 
    TCAGTGCCAC AGATCGCCGT GGAGGGCGAG GAAGCCGTGC CAGTAGCTCT CGGGCCCACC 
    GGAAGAGACT GA

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

    MAST3 ( XM_017026511.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016882000.1 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OHu88325
    Clone ID Related Accession (Same CDS sequence) XM_017026511.1
    Accession Version XM_017026511.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4044bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product microtubule-associated serine/threonine-protein kinase 3 isoform X8
    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 EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGAAGTCCC GCAGGGACAA GCTGCACATC CCGGCGCTGA CCCTCGATCT GTCTCCGAGC 
    AGCCAGAGCC CGTCCCTGCT GGGTCCCAGC AGCCCCTGCA GCCCCTGTAG CCCCTCCTTG 
    GGCCTGCACC CCTGGAGCTG CCGCAGCGGG AACCGCAAGA GCTTGGTGGT AGGAACGCCC 
    TCCCCGACCC TCTCCCGGCC CCTGTCGCCA TTGTCGGTCC CAACGGCAGG CAGCAGCCCC 
    TTGGATAGTC CTCGGAATTT CTCGGCTGCC TCTGCCCTAA ATTTCCCCTT TGCCCGGAGC 
    CACATCCCAC GCATGGACAG GGCAGACGGC AGAAGATGGT CCCTCGCGTC TCTCCCATCT 
    TCCGGCTATG GAACCAACAC ACCCAGCTCC ACCCTCTCGT CAAGCTCATC CTCCCGGGAA 
    CGTCTCCACC AGCTTCCCTT CCAGCCGACG CCGGACGAGC TGCACTTCCT GTCCAAGCAC 
    TTCCGCAGCT CAGAGAATGT GCTTGATGAG GAAGGCGGCC GGTCACCCCG CCTCCGACCC 
    CGCTCTCGCA GTCTCAGCCC GGGCCGTGCA ACGGGGACCT TCGACAATGA GATTGTCATG 
    ATGAATCACG TGTACCGGGA GAGGTTCCCC AAGGCCACAG CACAGATGGA GGGCCGTCTG 
    CAGGAGTTCC TGACGGCCTA CGCGCCCGGC GCCCGGCTGG CGCTGGCTGA TGGCGTCTTG 
    GGCTTCATCC ACCACCAGAT CGTCGAGCTG GCCCGAGACT GCTTGGCCAA GTCTGGCGAG 
    AACCTCGTCA CCTCCCGCTA CTTCCTAGAG ATGCAGGAGA AGCTGGAGCG GCTTCTGCAG 
    GATGCCCATG AGCGTTCGGA CAGTGAGGAG GTCAGCTTCA TCGTCCAGCT TGTCCGGAAA 
    CTGCTGATCA TCATCTCACG GCCAGCTCGG CTGCTGGAGT GTCTGGAGTT TGACCCTGAG 
    GAATTTTACC ACCTGCTGGA GGCGGCTGAG GGCCATGCGC GGGAGGGCCA AGGCATTAAG 
    ACTGACCTTC CACAGTACAT CATTGGGCAG CTGGGCCTGG CCAAGGACCC CCTGGAGGAG 
    ATGGTGCCAC TGAGTCACCT CGAAGAAGAA CAGCCCCCAG CACCTGAGTC CCCAGAGAGC 
    CGCGCCCTGG TCGGCCAGTC ACGGAGGAAG CCATGCGAAA GCGACTTTGA GACCATCAAA 
    CTCATTAGCA ACGGAGCCTA TGGGGCCGTC TACCTGGTGC GGCACCGTGA CACACGGCAG 
    CGCTTTGCCA TCAAGAAGAT CAACAAACAG AACTTGATCC TGCGTAACCA GATCCAGCAG 
    GTCTTTGTGG AGCGTGACAT TCTCACCTTT GCCGAGAACC CCTTTGTGGT CAGCATGTTC 
    TGCTCCTTTG AGACCCGGCG CCACCTATGT ATGGTCATGG AATACGTGGA AGGCGGCGAC 
    TGCGCCACGC TCCTGAAGAA CATGGGCCCG CTGCCCGTGG ACATGGCCCG CCTGTACTTC 
    GCCGAGACGG TGTTGGCGCT GGAGTACCTG CATAACTATG GCATCGTGCA CCGTGACCTC 
    AAACCAGACA ATCTGCTCAT CACCTCGCTT GGCCACATCA AGCTCACGGA CTTCGGCCTG 
    TCCAAGATCG GCCTCATGAG CATGGCCACC AACCTCTATG AGGGCCACAT CGAGAAGGAC 
    GCCCGAGAGT TCATCGACAA GCAGGTGTGT GGGACGCCGG AGTACATAGC CCCCGAGGTG 
    ATCTTCCGCC AGGGCTATGG GAAGCCAGTG GACTGGTGGG CCATGGGCGT CGTCCTCTAT 
    GAGTTTCTGG TGGGCTGCGT GCCTTTCTTT GGAGATACCC CCGAGGAACT CTTCGGTCAG 
    GTGGTCAGCG ATGAGATCAT GTGGCCAGAG GGAGATGAGG CCCTTCCAGC AGACGCCCAG 
    GACCTCATCA CCAGGTTGCT CCGGCAGAGC CCGCTGGACC GTCTGGGCAC TGGTGGCACC 
    CACGAAGTGA AGCAGCACCC CTTTTTCCTG GCCCTGGACT GGGCAGGGCT TCTCCGACAC 
    AAAGCCGAGT TCGTGCCCCA GCTCGAAGCT GAGGATGATA CCAGCTACTT TGACACACGT 
    TCGGAACGTT ACCGCCATCT GGGCTCCGAG GACGACGAGA CCAATGATGA AGAATCGTCC 
    ACAGAGATCC CCCAGTTCTC CTCCTGCTCC CACCGGTTCA GCAAGGTCTA CAGCAGCTCT 
    GAGTTCCTGG CCGTCCAGCC CACTCCTACC TTCGCTGAAA GGAGCTTCAG TGAAGACCGG 
    GAGGAGGGGT GGGAGCGCAG CGAAGTGGAC TATGGCCGCC GGCTGAGTGC TGACATCCGG 
    CTGAGGTCCT GGACATCCTC TGGATCCTCC TGTCAGTCAT CTTCGTCCCA GCCCGAGCGG 
    GGTCCCAGCC CATCTCTCCT GAATACCATC AGCCTGGACA CAATGCCCAA GTTTGCCTTC 
    TCATCAGAGG ATGAGGGGGT AGGCCCAGGC CCTGCAGGCC CCAAGAGGCC CGTCTTCATT 
    CTAGGGGAGC CTGACCCCCC ACCAGCGGCC ACCCCAGTGA TGCCCAAGCC CTCGAGCCTT 
    TCTGCCGACA CAGCTGCTCT CAGCCACGCC CGCCTACGGA GCAATAGCAT CGGCGCCCGA 
    CACTCCACAC CAAGGCCTCT GGATGCCGGC CGGGGCCGCC GCCTTGGGGG CCCAAGAGAC 
    CCAGCCCCTG AGAAGTCCAG AGCCTCCTCC AGCGGTGGCA GTGGTGGCGG CAGTGGGGGC 
    CGCGTGCCCA AGTCAGCCTC TGTCTCTGCC CTGTCCCTCA TCATCACGGC AGATGATGGC 
    AGCGGCGGCC CCCTCATGAG CCCCCTTTCC CCGCGCTCTC TGTCCTCGAA CCCGTCGTCC 
    CGTGACTCTT CGCCGAGCCG AGACCCGTCC CCCGTGTGTG GCAGCCTGCG GCCCCCCATC 
    GTTATCCACA GCTCTGGCAA GAAGTACGGC TTCAGCCTGC GGGCGATCCG CGTCTACATG 
    GGTGATAGCG ACGTCTACAC TGTGCACCAC GTCGTCTGGA GTGTGGAGGA CGGAAGCCCC 
    GCCCAGGAGG CGGGCCTGCG GGCTGGGGAC CTCATCACCC ACATCAACGG GGAGTCAGTG 
    CTGGGGCTGG TGCACATGGA CGTCGTGGAG CTGCTGCTGA AGAGCGGCAA CAAGATATCC 
    CTGCGGACCA CAGCCCTGGA GAACACCTCC ATCAAGGTGG GCCCCGCCCG GAAGAATGTG 
    GCCAAGGGCC GCATGGCACG CAGGAGCAAG AGGAGCCGTC GGCGGGAGAC CCAGGATCGG 
    TGCGCGGCAG TGACCACCAG GGAGCGGCGG AAGTCACTTT TCAAGAAGAT CTCCAAGCAG 
    ACCTCCGTGC TGCACACCAG CCGCAGCTTC TCCTCCGGAC TCCACCACTC ACTGTCATCC 
    AGTGAGAGCC TCCCCGGCTC GCCCACCCAC AGCCTCTCCC CCAGCCCCAC CACTCCCTGC 
    CGAAGCCCAG CCCCTGATGT CCCAGCAGAT ACCACTGCAT CCCCACCCAG CGCATCCCCG 
    AGCTCCAGCA GCCCCGCCTC CCCAGCTGCT GCTGGCCACA CCCGCCCCAG CTCCCTGCAC 
    GGCCTGGCTG CCAAGCTTGG GCCACCCCGC CCCAAGACTG GCCGCCGCAA GTCCACCAGC 
    AGCATCCCGC CCTCCCCGCT GGCCTGCCCG CCCATCTCCG CGCCCCCACC CCGCTCGCCC 
    TCGCCCCTGC CCGGGCACCC GCCCGCACCT GCCCGATCCC CGCGGCTGCG CCGGGGCCAG 
    TCAGCTGACA AGCTGGGCAC AGGGGAGCGG CTGGATGGGG AGGCGGGGCG GCGCACTCGT 
    GGGCCAGAGG CCGAGCTCGT GGTCATGCGG CGGCTGCACC TGTCCGAGCG CCGAGACTCC 
    TTCAAGAAGC AGGAGGCCGT GCAGGAGGTT AGCTTCGATG AGCCGCAGGA GGAGGCCACT 
    GGGCTGCCCA CCTCAGTGCC ACAGATCGCC GTGGAGGGCG AGGAAGCCGT GCCAGTAGCT 
    CTCGGGCCCA CCGGAAGAGA CTGA

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

    RefSeq XP_016882000.1
    CDS352..4395
    Translation

    Target ORF information:

    RefSeq Version XM_017026511.1
    Organism Homo sapiens(human)
    Definition Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017026511.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGAAGTCCC GCAGGGACAA GCTGCACATC CCGGCGCTGA CCCTCGATCT GTCTCCGAGC 
    AGCCAGAGCC CGTCCCTGCT GGGTCCCAGC AGCCCCTGCA GCCCCTGTAG CCCCTCCTTG 
    GGCCTGCACC CCTGGAGCTG CCGCAGCGGG AACCGCAAGA GCTTGGTGGT AGGAACGCCC 
    TCCCCGACCC TCTCCCGGCC CCTGTCGCCA TTGTCGGTCC CAACGGCAGG CAGCAGCCCC 
    TTGGATAGTC CTCGGAATTT CTCGGCTGCC TCTGCCCTAA ATTTCCCCTT TGCCCGGAGC 
    CACATCCCAC GCATGGACAG GGCAGACGGC AGAAGATGGT CCCTCGCGTC TCTCCCATCT 
    TCCGGCTATG GAACCAACAC ACCCAGCTCC ACCCTCTCGT CAAGCTCATC CTCCCGGGAA 
    CGTCTCCACC AGCTTCCCTT CCAGCCGACG CCGGACGAGC TGCACTTCCT GTCCAAGCAC 
    TTCCGCAGCT CAGAGAATGT GCTTGATGAG GAAGGCGGCC GGTCACCCCG CCTCCGACCC 
    CGCTCTCGCA GTCTCAGCCC GGGCCGTGCA ACGGGGACCT TCGACAATGA GATTGTCATG 
    ATGAATCACG TGTACCGGGA GAGGTTCCCC AAGGCCACAG CACAGATGGA GGGCCGTCTG 
    CAGGAGTTCC TGACGGCCTA CGCGCCCGGC GCCCGGCTGG CGCTGGCTGA TGGCGTCTTG 
    GGCTTCATCC ACCACCAGAT CGTCGAGCTG GCCCGAGACT GCTTGGCCAA GTCTGGCGAG 
    AACCTCGTCA CCTCCCGCTA CTTCCTAGAG ATGCAGGAGA AGCTGGAGCG GCTTCTGCAG 
    GATGCCCATG AGCGTTCGGA CAGTGAGGAG GTCAGCTTCA TCGTCCAGCT TGTCCGGAAA 
    CTGCTGATCA TCATCTCACG GCCAGCTCGG CTGCTGGAGT GTCTGGAGTT TGACCCTGAG 
    GAATTTTACC ACCTGCTGGA GGCGGCTGAG GGCCATGCGC GGGAGGGCCA AGGCATTAAG 
    ACTGACCTTC CACAGTACAT CATTGGGCAG CTGGGCCTGG CCAAGGACCC CCTGGAGGAG 
    ATGGTGCCAC TGAGTCACCT CGAAGAAGAA CAGCCCCCAG CACCTGAGTC CCCAGAGAGC 
    CGCGCCCTGG TCGGCCAGTC ACGGAGGAAG CCATGCGAAA GCGACTTTGA GACCATCAAA 
    CTCATTAGCA ACGGAGCCTA TGGGGCCGTC TACCTGGTGC GGCACCGTGA CACACGGCAG 
    CGCTTTGCCA TCAAGAAGAT CAACAAACAG AACTTGATCC TGCGTAACCA GATCCAGCAG 
    GTCTTTGTGG AGCGTGACAT TCTCACCTTT GCCGAGAACC CCTTTGTGGT CAGCATGTTC 
    TGCTCCTTTG AGACCCGGCG CCACCTATGT ATGGTCATGG AATACGTGGA AGGCGGCGAC 
    TGCGCCACGC TCCTGAAGAA CATGGGCCCG CTGCCCGTGG ACATGGCCCG CCTGTACTTC 
    GCCGAGACGG TGTTGGCGCT GGAGTACCTG CATAACTATG GCATCGTGCA CCGTGACCTC 
    AAACCAGACA ATCTGCTCAT CACCTCGCTT GGCCACATCA AGCTCACGGA CTTCGGCCTG 
    TCCAAGATCG GCCTCATGAG CATGGCCACC AACCTCTATG AGGGCCACAT CGAGAAGGAC 
    GCCCGAGAGT TCATCGACAA GCAGGTGTGT GGGACGCCGG AGTACATAGC CCCCGAGGTG 
    ATCTTCCGCC AGGGCTATGG GAAGCCAGTG GACTGGTGGG CCATGGGCGT CGTCCTCTAT 
    GAGTTTCTGG TGGGCTGCGT GCCTTTCTTT GGAGATACCC CCGAGGAACT CTTCGGTCAG 
    GTGGTCAGCG ATGAGATCAT GTGGCCAGAG GGAGATGAGG CCCTTCCAGC AGACGCCCAG 
    GACCTCATCA CCAGGTTGCT CCGGCAGAGC CCGCTGGACC GTCTGGGCAC TGGTGGCACC 
    CACGAAGTGA AGCAGCACCC CTTTTTCCTG GCCCTGGACT GGGCAGGGCT TCTCCGACAC 
    AAAGCCGAGT TCGTGCCCCA GCTCGAAGCT GAGGATGATA CCAGCTACTT TGACACACGT 
    TCGGAACGTT ACCGCCATCT GGGCTCCGAG GACGACGAGA CCAATGATGA AGAATCGTCC 
    ACAGAGATCC CCCAGTTCTC CTCCTGCTCC CACCGGTTCA GCAAGGTCTA CAGCAGCTCT 
    GAGTTCCTGG CCGTCCAGCC CACTCCTACC TTCGCTGAAA GGAGCTTCAG TGAAGACCGG 
    GAGGAGGGGT GGGAGCGCAG CGAAGTGGAC TATGGCCGCC GGCTGAGTGC TGACATCCGG 
    CTGAGGTCCT GGACATCCTC TGGATCCTCC TGTCAGTCAT CTTCGTCCCA GCCCGAGCGG 
    GGTCCCAGCC CATCTCTCCT GAATACCATC AGCCTGGACA CAATGCCCAA GTTTGCCTTC 
    TCATCAGAGG ATGAGGGGGT AGGCCCAGGC CCTGCAGGCC CCAAGAGGCC CGTCTTCATT 
    CTAGGGGAGC CTGACCCCCC ACCAGCGGCC ACCCCAGTGA TGCCCAAGCC CTCGAGCCTT 
    TCTGCCGACA CAGCTGCTCT CAGCCACGCC CGCCTACGGA GCAATAGCAT CGGCGCCCGA 
    CACTCCACAC CAAGGCCTCT GGATGCCGGC CGGGGCCGCC GCCTTGGGGG CCCAAGAGAC 
    CCAGCCCCTG AGAAGTCCAG AGCCTCCTCC AGCGGTGGCA GTGGTGGCGG CAGTGGGGGC 
    CGCGTGCCCA AGTCAGCCTC TGTCTCTGCC CTGTCCCTCA TCATCACGGC AGATGATGGC 
    AGCGGCGGCC CCCTCATGAG CCCCCTTTCC CCGCGCTCTC TGTCCTCGAA CCCGTCGTCC 
    CGTGACTCTT CGCCGAGCCG AGACCCGTCC CCCGTGTGTG GCAGCCTGCG GCCCCCCATC 
    GTTATCCACA GCTCTGGCAA GAAGTACGGC TTCAGCCTGC GGGCGATCCG CGTCTACATG 
    GGTGATAGCG ACGTCTACAC TGTGCACCAC GTCGTCTGGA GTGTGGAGGA CGGAAGCCCC 
    GCCCAGGAGG CGGGCCTGCG GGCTGGGGAC CTCATCACCC ACATCAACGG GGAGTCAGTG 
    CTGGGGCTGG TGCACATGGA CGTCGTGGAG CTGCTGCTGA AGAGCGGCAA CAAGATATCC 
    CTGCGGACCA CAGCCCTGGA GAACACCTCC ATCAAGGTGG GCCCCGCCCG GAAGAATGTG 
    GCCAAGGGCC GCATGGCACG CAGGAGCAAG AGGAGCCGTC GGCGGGAGAC CCAGGATCGG 
    TGCGCGGCAG TGACCACCAG GGAGCGGCGG AAGTCACTTT TCAAGAAGAT CTCCAAGCAG 
    ACCTCCGTGC TGCACACCAG CCGCAGCTTC TCCTCCGGAC TCCACCACTC ACTGTCATCC 
    AGTGAGAGCC TCCCCGGCTC GCCCACCCAC AGCCTCTCCC CCAGCCCCAC CACTCCCTGC 
    CGAAGCCCAG CCCCTGATGT CCCAGCAGAT ACCACTGCAT CCCCACCCAG CGCATCCCCG 
    AGCTCCAGCA GCCCCGCCTC CCCAGCTGCT GCTGGCCACA CCCGCCCCAG CTCCCTGCAC 
    GGCCTGGCTG CCAAGCTTGG GCCACCCCGC CCCAAGACTG GCCGCCGCAA GTCCACCAGC 
    AGCATCCCGC CCTCCCCGCT GGCCTGCCCG CCCATCTCCG CGCCCCCACC CCGCTCGCCC 
    TCGCCCCTGC CCGGGCACCC GCCCGCACCT GCCCGATCCC CGCGGCTGCG CCGGGGCCAG 
    TCAGCTGACA AGCTGGGCAC AGGGGAGCGG CTGGATGGGG AGGCGGGGCG GCGCACTCGT 
    GGGCCAGAGG CCGAGCTCGT GGTCATGCGG CGGCTGCACC TGTCCGAGCG CCGAGACTCC 
    TTCAAGAAGC AGGAGGCCGT GCAGGAGGTT AGCTTCGATG AGCCGCAGGA GGAGGCCACT 
    GGGCTGCCCA CCTCAGTGCC ACAGATCGCC GTGGAGGGCG AGGAAGCCGT GCCAGTAGCT 
    CTCGGGCCCA CCGGAAGAGA CTGA

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

    MAST3 ( XM_017026512.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016882001.1 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X12, mRNA.
    Price & Availability↑
    CloneID OHu88326
    Clone ID Related Accession (Same CDS sequence) XM_017026512.1
    Accession Version XM_017026512.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3957bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product microtubule-associated serine/threonine-protein kinase 3 isoform X12
    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 EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGGACGAGT CGAGCCTCCT GCGGCGCCGC GGGCTCCAGA AGGAGCTGAG CCTGCCACGC 
    CGAGGACGTG GCTGCCGCAG CGGGAACCGC AAGAGCTTGG TGGTAGGAAC GCCCTCCCCG 
    ACCCTCTCCC GGCCCCTGTC GCCATTGTCG GTCCCAACGG CAGGCAGCAG CCCCTTGGAT 
    AGTCCTCGGA ATTTCTCGGC TGCCTCTGCC CTAAATTTCC CCTTTGCCCG GAGGGCAGAC 
    GGCAGAAGAT GGTCCCTCGC GTCTCTCCCA TCTTCCGGCT ATGGAACCAA CACACCCAGC 
    TCCACCCTCT CGTCAAGCTC ATCCTCCCGG GAACGTCTCC ACCAGCTTCC CTTCCAGCCG 
    ACGCCGGACG AGCTGCACTT CCTGTCCAAG CACTTCCGCA GCTCAGAGAA TGTGCTTGAT 
    GAGGAAGGCG GCCGGTCACC CCGCCTCCGA CCCCGCTCTC GCAGTCTCAG CCCGGGCCGT 
    GCAACGGGGA CCTTCGACAA TGAGATTGTC ATGATGAATC ACGTGTACCG GGAGAGGTTC 
    CCCAAGGCCA CAGCACAGAT GGAGGGCCGT CTGCAGGAGT TCCTGACGGC CTACGCGCCC 
    GGCGCCCGGC TGGCGCTGGC TGATGGCGTC TTGGGCTTCA TCCACCACCA GATCGTCGAG 
    CTGGCCCGAG ACTGCTTGGC CAAGTCTGGC GAGAACCTCG TCACCTCCCG CTACTTCCTA 
    GAGATGCAGG AGAAGCTGGA GCGGCTTCTG CAGGATGCCC ATGAGCGTTC GGACAGTGAG 
    GAGGTCAGCT TCATCGTCCA GCTTGTCCGG AAACTGCTGA TCATCATCTC ACGGCCAGCT 
    CGGCTGCTGG AGTGTCTGGA GTTTGACCCT GAGGAATTTT ACCACCTGCT GGAGGCGGCT 
    GAGGGCCATG CGCGGGAGGG CCAAGGCATT AAGACTGACC TTCCACAGTA CATCATTGGG 
    CAGCTGGGCC TGGCCAAGGA CCCCCTGGAG GAGATGGTGC CACTGAGTCA CCTCGAAGAA 
    GAACAGCCCC CAGCACCTGA GTCCCCAGAG AGCCGCGCCC TGGTCGGCCA GTCACGGAGG 
    AAGCCATGCG AAAGCGACTT TGAGACCATC AAACTCATTA GCAACGGAGC CTATGGGGCC 
    GTCTACCTGG TGCGGCACCG TGACACACGG CAGCGCTTTG CCATCAAGAA GATCAACAAA 
    CAGAACTTGA TCCTGCGTAA CCAGATCCAG CAGGTCTTTG TGGAGCGTGA CATTCTCACC 
    TTTGCCGAGA ACCCCTTTGT GGTCAGCATG TTCTGCTCCT TTGAGACCCG GCGCCACCTA 
    TGTATGGTCA TGGAATACGT GGAAGGCGGC GACTGCGCCA CGCTCCTGAA GAACATGGGC 
    CCGCTGCCCG TGGACATGGC CCGCCTGTAC TTCGCCGAGA CGGTGTTGGC GCTGGAGTAC 
    CTGCATAACT ATGGCATCGT GCACCGTGAC CTCAAACCAG ACAATCTGCT CATCACCTCG 
    CTTGGCCACA TCAAGCTCAC GGACTTCGGC CTGTCCAAGA TCGGCCTCAT GAGCATGGCC 
    ACCAACCTCT ATGAGGGCCA CATCGAGAAG GACGCCCGAG AGTTCATCGA CAAGCAGGTG 
    TGTGGGACGC CGGAGTACAT AGCCCCCGAG GTGATCTTCC GCCAGGGCTA TGGGAAGCCA 
    GTGGACTGGT GGGCCATGGG CGTCGTCCTC TATGAGTTTC TGGTGGGCTG CGTGCCTTTC 
    TTTGGAGATA CCCCCGAGGA ACTCTTCGGT CAGGTGGTCA GCGATGAGAT CATGTGGCCA 
    GAGGGAGATG AGGCCCTTCC AGCAGACGCC CAGGACCTCA TCACCAGGTT GCTCCGGCAG 
    AGCCCGCTGG ACCGTCTGGG CACTGGTGGC ACCCACGAAG TGAAGCAGCA CCCCTTTTTC 
    CTGGCCCTGG ACTGGGCAGG GCTTCTCCGA CACAAAGCCG AGTTCGTGCC CCAGCTCGAA 
    GCTGAGGATG ATACCAGCTA CTTTGACACA CGTTCGGAAC GTTACCGCCA TCTGGGCTCC 
    GAGGACGACG AGACCAATGA TGAAGAATCG TCCACAGAGA TCCCCCAGTT CTCCTCCTGC 
    TCCCACCGGT TCAGCAAGGT CTACAGCAGC TCTGAGTTCC TGGCCGTCCA GCCCACTCCT 
    ACCTTCGCTG AAAGGAGCTT CAGTGAAGAC CGGGAGGAGG GGTGGGAGCG CAGCGAAGTG 
    GACTATGGCC GCCGGCTGAG TGCTGACATC CGGCTGAGGT CCTGGACATC CTCTGGATCC 
    TCCTGTCAGT CATCTTCGTC CCAGCCCGAG CGGGGTCCCA GCCCATCTCT CCTGAATACC 
    ATCAGCCTGG ACACAATGCC CAAGTTTGCC TTCTCATCAG AGGATGAGGG GGTAGGCCCA 
    GGCCCTGCAG GCCCCAAGAG GCCCGTCTTC ATTCTAGGGG AGCCTGACCC CCCACCAGCG 
    GCCACCCCAG TGATGCCCAA GCCCTCGAGC CTTTCTGCCG ACACAGCTGC TCTCAGCCAC 
    GCCCGCCTAC GGAGCAATAG CATCGGCGCC CGACACTCCA CACCAAGGCC TCTGGATGCC 
    GGCCGGGGCC GCCGCCTTGG GGGCCCAAGA GACCCAGCCC CTGAGAAGTC CAGAGCCTCC 
    TCCAGCGGTG GCAGTGGTGG CGGCAGTGGG GGCCGCGTGC CCAAGTCAGC CTCTGTCTCT 
    GCCCTGTCCC TCATCATCAC GGCAGATGAT GGCAGCGGCG GCCCCCTCAT GAGCCCCCTT 
    TCCCCGCGCT CTCTGTCCTC GAACCCGTCG TCCCGTGACT CTTCGCCGAG CCGAGACCCG 
    TCCCCCGTGT GTGGCAGCCT GCGGCCCCCC ATCGTTATCC ACAGCTCTGG CAAGAAGTAC 
    GGCTTCAGCC TGCGGGCGAT CCGCGTCTAC ATGGGTGATA GCGACGTCTA CACTGTGCAC 
    CACGTCGTCT GGAGTGTGGA GGACGGAAGC CCCGCCCAGG AGGCGGGCCT GCGGGCTGGG 
    GACCTCATCA CCCACATCAA CGGGGAGTCA GTGCTGGGGC TGGTGCACAT GGACGTCGTG 
    GAGCTGCTGC TGAAGAGCGG CAACAAGATA TCCCTGCGGA CCACAGCCCT GGAGAACACC 
    TCCATCAAGG TGGGCCCCGC CCGGAAGAAT GTGGCCAAGG GCCGCATGGC ACGCAGGAGC 
    AAGAGGAGCC GTCGGCGGGA GACCCAGGAT CGGTGCGCGG CAGTGACCAC CAGGGAGCGG 
    CGGAAGTCAC TTTTCAAGAA GATCTCCAAG CAGACCTCCG TGCTGCACAC CAGCCGCAGC 
    TTCTCCTCCG GACTCCACCA CTCACTGTCA TCCAGTGAGA GCCTCCCCGG CTCGCCCACC 
    CACAGCCTCT CCCCCAGCCC CACCACTCCC TGCCGAAGCC CAGCCCCTGA TGTCCCAGCA 
    GATACCACTG CATCCCCACC CAGCGCATCC CCGAGCTCCA GCAGCCCCGC CTCCCCAGCT 
    GCTGCTGGCC ACACCCGCCC CAGCTCCCTG CACGGCCTGG CTGCCAAGCT TGGGCCACCC 
    CGCCCCAAGA CTGGCCGCCG CAAGTCCACC AGCAGCATCC CGCCCTCCCC GCTGGCCTGC 
    CCGCCCATCT CCGCGCCCCC ACCCCGCTCG CCCTCGCCCC TGCCCGGGCA CCCGCCCGCA 
    CCTGCCCGAT CCCCGCGGCT GCGCCGGGGC CAGTCAGCTG ACAAGCTGGG CACAGGGGAG 
    CGGCTGGATG GGGAGGCGGG GCGGCGCACT CGTGGGCCAG AGGCCGAGCT CGTGGTCATG 
    CGGCGGCTGC ACCTGTCCGA GCGCCGAGAC TCCTTCAAGA AGCAGGAGGC CGTGCAGGAG 
    GTTAGCTTCG ATGAGCCGCA GGAGGAGGCC ACTGGGCTGC CCACCTCAGT GCCACAGATC 
    GCCGTGGAGG GCGAGGAAGC CGTGCCAGTA GCTCTCGGGC CCACCGGAAG AGACTGA

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

    RefSeq XP_016882001.1
    CDS30..3986
    Translation

    Target ORF information:

    RefSeq Version XM_017026512.1
    Organism Homo sapiens(human)
    Definition Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X12, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017026512.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGGACGAGT CGAGCCTCCT GCGGCGCCGC GGGCTCCAGA AGGAGCTGAG CCTGCCACGC 
    CGAGGACGTG GCTGCCGCAG CGGGAACCGC AAGAGCTTGG TGGTAGGAAC GCCCTCCCCG 
    ACCCTCTCCC GGCCCCTGTC GCCATTGTCG GTCCCAACGG CAGGCAGCAG CCCCTTGGAT 
    AGTCCTCGGA ATTTCTCGGC TGCCTCTGCC CTAAATTTCC CCTTTGCCCG GAGGGCAGAC 
    GGCAGAAGAT GGTCCCTCGC GTCTCTCCCA TCTTCCGGCT ATGGAACCAA CACACCCAGC 
    TCCACCCTCT CGTCAAGCTC ATCCTCCCGG GAACGTCTCC ACCAGCTTCC CTTCCAGCCG 
    ACGCCGGACG AGCTGCACTT CCTGTCCAAG CACTTCCGCA GCTCAGAGAA TGTGCTTGAT 
    GAGGAAGGCG GCCGGTCACC CCGCCTCCGA CCCCGCTCTC GCAGTCTCAG CCCGGGCCGT 
    GCAACGGGGA CCTTCGACAA TGAGATTGTC ATGATGAATC ACGTGTACCG GGAGAGGTTC 
    CCCAAGGCCA CAGCACAGAT GGAGGGCCGT CTGCAGGAGT TCCTGACGGC CTACGCGCCC 
    GGCGCCCGGC TGGCGCTGGC TGATGGCGTC TTGGGCTTCA TCCACCACCA GATCGTCGAG 
    CTGGCCCGAG ACTGCTTGGC CAAGTCTGGC GAGAACCTCG TCACCTCCCG CTACTTCCTA 
    GAGATGCAGG AGAAGCTGGA GCGGCTTCTG CAGGATGCCC ATGAGCGTTC GGACAGTGAG 
    GAGGTCAGCT TCATCGTCCA GCTTGTCCGG AAACTGCTGA TCATCATCTC ACGGCCAGCT 
    CGGCTGCTGG AGTGTCTGGA GTTTGACCCT GAGGAATTTT ACCACCTGCT GGAGGCGGCT 
    GAGGGCCATG CGCGGGAGGG CCAAGGCATT AAGACTGACC TTCCACAGTA CATCATTGGG 
    CAGCTGGGCC TGGCCAAGGA CCCCCTGGAG GAGATGGTGC CACTGAGTCA CCTCGAAGAA 
    GAACAGCCCC CAGCACCTGA GTCCCCAGAG AGCCGCGCCC TGGTCGGCCA GTCACGGAGG 
    AAGCCATGCG AAAGCGACTT TGAGACCATC AAACTCATTA GCAACGGAGC CTATGGGGCC 
    GTCTACCTGG TGCGGCACCG TGACACACGG CAGCGCTTTG CCATCAAGAA GATCAACAAA 
    CAGAACTTGA TCCTGCGTAA CCAGATCCAG CAGGTCTTTG TGGAGCGTGA CATTCTCACC 
    TTTGCCGAGA ACCCCTTTGT GGTCAGCATG TTCTGCTCCT TTGAGACCCG GCGCCACCTA 
    TGTATGGTCA TGGAATACGT GGAAGGCGGC GACTGCGCCA CGCTCCTGAA GAACATGGGC 
    CCGCTGCCCG TGGACATGGC CCGCCTGTAC TTCGCCGAGA CGGTGTTGGC GCTGGAGTAC 
    CTGCATAACT ATGGCATCGT GCACCGTGAC CTCAAACCAG ACAATCTGCT CATCACCTCG 
    CTTGGCCACA TCAAGCTCAC GGACTTCGGC CTGTCCAAGA TCGGCCTCAT GAGCATGGCC 
    ACCAACCTCT ATGAGGGCCA CATCGAGAAG GACGCCCGAG AGTTCATCGA CAAGCAGGTG 
    TGTGGGACGC CGGAGTACAT AGCCCCCGAG GTGATCTTCC GCCAGGGCTA TGGGAAGCCA 
    GTGGACTGGT GGGCCATGGG CGTCGTCCTC TATGAGTTTC TGGTGGGCTG CGTGCCTTTC 
    TTTGGAGATA CCCCCGAGGA ACTCTTCGGT CAGGTGGTCA GCGATGAGAT CATGTGGCCA 
    GAGGGAGATG AGGCCCTTCC AGCAGACGCC CAGGACCTCA TCACCAGGTT GCTCCGGCAG 
    AGCCCGCTGG ACCGTCTGGG CACTGGTGGC ACCCACGAAG TGAAGCAGCA CCCCTTTTTC 
    CTGGCCCTGG ACTGGGCAGG GCTTCTCCGA CACAAAGCCG AGTTCGTGCC CCAGCTCGAA 
    GCTGAGGATG ATACCAGCTA CTTTGACACA CGTTCGGAAC GTTACCGCCA TCTGGGCTCC 
    GAGGACGACG AGACCAATGA TGAAGAATCG TCCACAGAGA TCCCCCAGTT CTCCTCCTGC 
    TCCCACCGGT TCAGCAAGGT CTACAGCAGC TCTGAGTTCC TGGCCGTCCA GCCCACTCCT 
    ACCTTCGCTG AAAGGAGCTT CAGTGAAGAC CGGGAGGAGG GGTGGGAGCG CAGCGAAGTG 
    GACTATGGCC GCCGGCTGAG TGCTGACATC CGGCTGAGGT CCTGGACATC CTCTGGATCC 
    TCCTGTCAGT CATCTTCGTC CCAGCCCGAG CGGGGTCCCA GCCCATCTCT CCTGAATACC 
    ATCAGCCTGG ACACAATGCC CAAGTTTGCC TTCTCATCAG AGGATGAGGG GGTAGGCCCA 
    GGCCCTGCAG GCCCCAAGAG GCCCGTCTTC ATTCTAGGGG AGCCTGACCC CCCACCAGCG 
    GCCACCCCAG TGATGCCCAA GCCCTCGAGC CTTTCTGCCG ACACAGCTGC TCTCAGCCAC 
    GCCCGCCTAC GGAGCAATAG CATCGGCGCC CGACACTCCA CACCAAGGCC TCTGGATGCC 
    GGCCGGGGCC GCCGCCTTGG GGGCCCAAGA GACCCAGCCC CTGAGAAGTC CAGAGCCTCC 
    TCCAGCGGTG GCAGTGGTGG CGGCAGTGGG GGCCGCGTGC CCAAGTCAGC CTCTGTCTCT 
    GCCCTGTCCC TCATCATCAC GGCAGATGAT GGCAGCGGCG GCCCCCTCAT GAGCCCCCTT 
    TCCCCGCGCT CTCTGTCCTC GAACCCGTCG TCCCGTGACT CTTCGCCGAG CCGAGACCCG 
    TCCCCCGTGT GTGGCAGCCT GCGGCCCCCC ATCGTTATCC ACAGCTCTGG CAAGAAGTAC 
    GGCTTCAGCC TGCGGGCGAT CCGCGTCTAC ATGGGTGATA GCGACGTCTA CACTGTGCAC 
    CACGTCGTCT GGAGTGTGGA GGACGGAAGC CCCGCCCAGG AGGCGGGCCT GCGGGCTGGG 
    GACCTCATCA CCCACATCAA CGGGGAGTCA GTGCTGGGGC TGGTGCACAT GGACGTCGTG 
    GAGCTGCTGC TGAAGAGCGG CAACAAGATA TCCCTGCGGA CCACAGCCCT GGAGAACACC 
    TCCATCAAGG TGGGCCCCGC CCGGAAGAAT GTGGCCAAGG GCCGCATGGC ACGCAGGAGC 
    AAGAGGAGCC GTCGGCGGGA GACCCAGGAT CGGTGCGCGG CAGTGACCAC CAGGGAGCGG 
    CGGAAGTCAC TTTTCAAGAA GATCTCCAAG CAGACCTCCG TGCTGCACAC CAGCCGCAGC 
    TTCTCCTCCG GACTCCACCA CTCACTGTCA TCCAGTGAGA GCCTCCCCGG CTCGCCCACC 
    CACAGCCTCT CCCCCAGCCC CACCACTCCC TGCCGAAGCC CAGCCCCTGA TGTCCCAGCA 
    GATACCACTG CATCCCCACC CAGCGCATCC CCGAGCTCCA GCAGCCCCGC CTCCCCAGCT 
    GCTGCTGGCC ACACCCGCCC CAGCTCCCTG CACGGCCTGG CTGCCAAGCT TGGGCCACCC 
    CGCCCCAAGA CTGGCCGCCG CAAGTCCACC AGCAGCATCC CGCCCTCCCC GCTGGCCTGC 
    CCGCCCATCT CCGCGCCCCC ACCCCGCTCG CCCTCGCCCC TGCCCGGGCA CCCGCCCGCA 
    CCTGCCCGAT CCCCGCGGCT GCGCCGGGGC CAGTCAGCTG ACAAGCTGGG CACAGGGGAG 
    CGGCTGGATG GGGAGGCGGG GCGGCGCACT CGTGGGCCAG AGGCCGAGCT CGTGGTCATG 
    CGGCGGCTGC ACCTGTCCGA GCGCCGAGAC TCCTTCAAGA AGCAGGAGGC CGTGCAGGAG 
    GTTAGCTTCG ATGAGCCGCA GGAGGAGGCC ACTGGGCTGC CCACCTCAGT GCCACAGATC 
    GCCGTGGAGG GCGAGGAAGC CGTGCCAGTA GCTCTCGGGC CCACCGGAAG AGACTGA

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

    MAST3 ( XM_017026513.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016882002.1 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X13, mRNA.
    Price & Availability↑
    CloneID OHu88327
    Clone ID Related Accession (Same CDS sequence) XM_017026513.1
    Accession Version XM_017026513.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3954bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product microtubule-associated serine/threonine-protein kinase 3 isoform X13
    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 EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGGACGAGT CGAGCCTCCT GCGGCGCCGC GGGCTCCAGA AGGAGCTGAG CCTGCCACGC 
    CGAGGACGTG GCTGCCGCAG CGGGAACCGC AAGAGCTTGG TGGTAGGAAC GCCCTCCCCG 
    ACCCTCTCCC GGCCCCTGTC GCCATTGTCG GTCCCAACGG GCAGCAGCCC CTTGGATAGT 
    CCTCGGAATT TCTCGGCTGC CTCTGCCCTA AATTTCCCCT TTGCCCGGAG GGCAGACGGC 
    AGAAGATGGT CCCTCGCGTC TCTCCCATCT TCCGGCTATG GAACCAACAC ACCCAGCTCC 
    ACCCTCTCGT CAAGCTCATC CTCCCGGGAA CGTCTCCACC AGCTTCCCTT CCAGCCGACG 
    CCGGACGAGC TGCACTTCCT GTCCAAGCAC TTCCGCAGCT CAGAGAATGT GCTTGATGAG 
    GAAGGCGGCC GGTCACCCCG CCTCCGACCC CGCTCTCGCA GTCTCAGCCC GGGCCGTGCA 
    ACGGGGACCT TCGACAATGA GATTGTCATG ATGAATCACG TGTACCGGGA GAGGTTCCCC 
    AAGGCCACAG CACAGATGGA GGGCCGTCTG CAGGAGTTCC TGACGGCCTA CGCGCCCGGC 
    GCCCGGCTGG CGCTGGCTGA TGGCGTCTTG GGCTTCATCC ACCACCAGAT CGTCGAGCTG 
    GCCCGAGACT GCTTGGCCAA GTCTGGCGAG AACCTCGTCA CCTCCCGCTA CTTCCTAGAG 
    ATGCAGGAGA AGCTGGAGCG GCTTCTGCAG GATGCCCATG AGCGTTCGGA CAGTGAGGAG 
    GTCAGCTTCA TCGTCCAGCT TGTCCGGAAA CTGCTGATCA TCATCTCACG GCCAGCTCGG 
    CTGCTGGAGT GTCTGGAGTT TGACCCTGAG GAATTTTACC ACCTGCTGGA GGCGGCTGAG 
    GGCCATGCGC GGGAGGGCCA AGGCATTAAG ACTGACCTTC CACAGTACAT CATTGGGCAG 
    CTGGGCCTGG CCAAGGACCC CCTGGAGGAG ATGGTGCCAC TGAGTCACCT CGAAGAAGAA 
    CAGCCCCCAG CACCTGAGTC CCCAGAGAGC CGCGCCCTGG TCGGCCAGTC ACGGAGGAAG 
    CCATGCGAAA GCGACTTTGA GACCATCAAA CTCATTAGCA ACGGAGCCTA TGGGGCCGTC 
    TACCTGGTGC GGCACCGTGA CACACGGCAG CGCTTTGCCA TCAAGAAGAT CAACAAACAG 
    AACTTGATCC TGCGTAACCA GATCCAGCAG GTCTTTGTGG AGCGTGACAT TCTCACCTTT 
    GCCGAGAACC CCTTTGTGGT CAGCATGTTC TGCTCCTTTG AGACCCGGCG CCACCTATGT 
    ATGGTCATGG AATACGTGGA AGGCGGCGAC TGCGCCACGC TCCTGAAGAA CATGGGCCCG 
    CTGCCCGTGG ACATGGCCCG CCTGTACTTC GCCGAGACGG TGTTGGCGCT GGAGTACCTG 
    CATAACTATG GCATCGTGCA CCGTGACCTC AAACCAGACA ATCTGCTCAT CACCTCGCTT 
    GGCCACATCA AGCTCACGGA CTTCGGCCTG TCCAAGATCG GCCTCATGAG CATGGCCACC 
    AACCTCTATG AGGGCCACAT CGAGAAGGAC GCCCGAGAGT TCATCGACAA GCAGGTGTGT 
    GGGACGCCGG AGTACATAGC CCCCGAGGTG ATCTTCCGCC AGGGCTATGG GAAGCCAGTG 
    GACTGGTGGG CCATGGGCGT CGTCCTCTAT GAGTTTCTGG TGGGCTGCGT GCCTTTCTTT 
    GGAGATACCC CCGAGGAACT CTTCGGTCAG GTGGTCAGCG ATGAGATCAT GTGGCCAGAG 
    GGAGATGAGG CCCTTCCAGC AGACGCCCAG GACCTCATCA CCAGGTTGCT CCGGCAGAGC 
    CCGCTGGACC GTCTGGGCAC TGGTGGCACC CACGAAGTGA AGCAGCACCC CTTTTTCCTG 
    GCCCTGGACT GGGCAGGGCT TCTCCGACAC AAAGCCGAGT TCGTGCCCCA GCTCGAAGCT 
    GAGGATGATA CCAGCTACTT TGACACACGT TCGGAACGTT ACCGCCATCT GGGCTCCGAG 
    GACGACGAGA CCAATGATGA AGAATCGTCC ACAGAGATCC CCCAGTTCTC CTCCTGCTCC 
    CACCGGTTCA GCAAGGTCTA CAGCAGCTCT GAGTTCCTGG CCGTCCAGCC CACTCCTACC 
    TTCGCTGAAA GGAGCTTCAG TGAAGACCGG GAGGAGGGGT GGGAGCGCAG CGAAGTGGAC 
    TATGGCCGCC GGCTGAGTGC TGACATCCGG CTGAGGTCCT GGACATCCTC TGGATCCTCC 
    TGTCAGTCAT CTTCGTCCCA GCCCGAGCGG GGTCCCAGCC CATCTCTCCT GAATACCATC 
    AGCCTGGACA CAATGCCCAA GTTTGCCTTC TCATCAGAGG ATGAGGGGGT AGGCCCAGGC 
    CCTGCAGGCC CCAAGAGGCC CGTCTTCATT CTAGGGGAGC CTGACCCCCC ACCAGCGGCC 
    ACCCCAGTGA TGCCCAAGCC CTCGAGCCTT TCTGCCGACA CAGCTGCTCT CAGCCACGCC 
    CGCCTACGGA GCAATAGCAT CGGCGCCCGA CACTCCACAC CAAGGCCTCT GGATGCCGGC 
    CGGGGCCGCC GCCTTGGGGG CCCAAGAGAC CCAGCCCCTG AGAAGTCCAG AGCCTCCTCC 
    AGCGGTGGCA GTGGTGGCGG CAGTGGGGGC CGCGTGCCCA AGTCAGCCTC TGTCTCTGCC 
    CTGTCCCTCA TCATCACGGC AGATGATGGC AGCGGCGGCC CCCTCATGAG CCCCCTTTCC 
    CCGCGCTCTC TGTCCTCGAA CCCGTCGTCC CGTGACTCTT CGCCGAGCCG AGACCCGTCC 
    CCCGTGTGTG GCAGCCTGCG GCCCCCCATC GTTATCCACA GCTCTGGCAA GAAGTACGGC 
    TTCAGCCTGC GGGCGATCCG CGTCTACATG GGTGATAGCG ACGTCTACAC TGTGCACCAC 
    GTCGTCTGGA GTGTGGAGGA CGGAAGCCCC GCCCAGGAGG CGGGCCTGCG GGCTGGGGAC 
    CTCATCACCC ACATCAACGG GGAGTCAGTG CTGGGGCTGG TGCACATGGA CGTCGTGGAG 
    CTGCTGCTGA AGAGCGGCAA CAAGATATCC CTGCGGACCA CAGCCCTGGA GAACACCTCC 
    ATCAAGGTGG GCCCCGCCCG GAAGAATGTG GCCAAGGGCC GCATGGCACG CAGGAGCAAG 
    AGGAGCCGTC GGCGGGAGAC CCAGGATCGG TGCGCGGCAG TGACCACCAG GGAGCGGCGG 
    AAGTCACTTT TCAAGAAGAT CTCCAAGCAG ACCTCCGTGC TGCACACCAG CCGCAGCTTC 
    TCCTCCGGAC TCCACCACTC ACTGTCATCC AGTGAGAGCC TCCCCGGCTC GCCCACCCAC 
    AGCCTCTCCC CCAGCCCCAC CACTCCCTGC CGAAGCCCAG CCCCTGATGT CCCAGCAGAT 
    ACCACTGCAT CCCCACCCAG CGCATCCCCG AGCTCCAGCA GCCCCGCCTC CCCAGCTGCT 
    GCTGGCCACA CCCGCCCCAG CTCCCTGCAC GGCCTGGCTG CCAAGCTTGG GCCACCCCGC 
    CCCAAGACTG GCCGCCGCAA GTCCACCAGC AGCATCCCGC CCTCCCCGCT GGCCTGCCCG 
    CCCATCTCCG CGCCCCCACC CCGCTCGCCC TCGCCCCTGC CCGGGCACCC GCCCGCACCT 
    GCCCGATCCC CGCGGCTGCG CCGGGGCCAG TCAGCTGACA AGCTGGGCAC AGGGGAGCGG 
    CTGGATGGGG AGGCGGGGCG GCGCACTCGT GGGCCAGAGG CCGAGCTCGT GGTCATGCGG 
    CGGCTGCACC TGTCCGAGCG CCGAGACTCC TTCAAGAAGC AGGAGGCCGT GCAGGAGGTT 
    AGCTTCGATG AGCCGCAGGA GGAGGCCACT GGGCTGCCCA CCTCAGTGCC ACAGATCGCC 
    GTGGAGGGCG AGGAAGCCGT GCCAGTAGCT CTCGGGCCCA CCGGAAGAGA CTGA

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

    RefSeq XP_016882002.1
    CDS30..3983
    Translation

    Target ORF information:

    RefSeq Version XM_017026513.1
    Organism Homo sapiens(human)
    Definition Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X13, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017026513.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGGACGAGT CGAGCCTCCT GCGGCGCCGC GGGCTCCAGA AGGAGCTGAG CCTGCCACGC 
    CGAGGACGTG GCTGCCGCAG CGGGAACCGC AAGAGCTTGG TGGTAGGAAC GCCCTCCCCG 
    ACCCTCTCCC GGCCCCTGTC GCCATTGTCG GTCCCAACGG GCAGCAGCCC CTTGGATAGT 
    CCTCGGAATT TCTCGGCTGC CTCTGCCCTA AATTTCCCCT TTGCCCGGAG GGCAGACGGC 
    AGAAGATGGT CCCTCGCGTC TCTCCCATCT TCCGGCTATG GAACCAACAC ACCCAGCTCC 
    ACCCTCTCGT CAAGCTCATC CTCCCGGGAA CGTCTCCACC AGCTTCCCTT CCAGCCGACG 
    CCGGACGAGC TGCACTTCCT GTCCAAGCAC TTCCGCAGCT CAGAGAATGT GCTTGATGAG 
    GAAGGCGGCC GGTCACCCCG CCTCCGACCC CGCTCTCGCA GTCTCAGCCC GGGCCGTGCA 
    ACGGGGACCT TCGACAATGA GATTGTCATG ATGAATCACG TGTACCGGGA GAGGTTCCCC 
    AAGGCCACAG CACAGATGGA GGGCCGTCTG CAGGAGTTCC TGACGGCCTA CGCGCCCGGC 
    GCCCGGCTGG CGCTGGCTGA TGGCGTCTTG GGCTTCATCC ACCACCAGAT CGTCGAGCTG 
    GCCCGAGACT GCTTGGCCAA GTCTGGCGAG AACCTCGTCA CCTCCCGCTA CTTCCTAGAG 
    ATGCAGGAGA AGCTGGAGCG GCTTCTGCAG GATGCCCATG AGCGTTCGGA CAGTGAGGAG 
    GTCAGCTTCA TCGTCCAGCT TGTCCGGAAA CTGCTGATCA TCATCTCACG GCCAGCTCGG 
    CTGCTGGAGT GTCTGGAGTT TGACCCTGAG GAATTTTACC ACCTGCTGGA GGCGGCTGAG 
    GGCCATGCGC GGGAGGGCCA AGGCATTAAG ACTGACCTTC CACAGTACAT CATTGGGCAG 
    CTGGGCCTGG CCAAGGACCC CCTGGAGGAG ATGGTGCCAC TGAGTCACCT CGAAGAAGAA 
    CAGCCCCCAG CACCTGAGTC CCCAGAGAGC CGCGCCCTGG TCGGCCAGTC ACGGAGGAAG 
    CCATGCGAAA GCGACTTTGA GACCATCAAA CTCATTAGCA ACGGAGCCTA TGGGGCCGTC 
    TACCTGGTGC GGCACCGTGA CACACGGCAG CGCTTTGCCA TCAAGAAGAT CAACAAACAG 
    AACTTGATCC TGCGTAACCA GATCCAGCAG GTCTTTGTGG AGCGTGACAT TCTCACCTTT 
    GCCGAGAACC CCTTTGTGGT CAGCATGTTC TGCTCCTTTG AGACCCGGCG CCACCTATGT 
    ATGGTCATGG AATACGTGGA AGGCGGCGAC TGCGCCACGC TCCTGAAGAA CATGGGCCCG 
    CTGCCCGTGG ACATGGCCCG CCTGTACTTC GCCGAGACGG TGTTGGCGCT GGAGTACCTG 
    CATAACTATG GCATCGTGCA CCGTGACCTC AAACCAGACA ATCTGCTCAT CACCTCGCTT 
    GGCCACATCA AGCTCACGGA CTTCGGCCTG TCCAAGATCG GCCTCATGAG CATGGCCACC 
    AACCTCTATG AGGGCCACAT CGAGAAGGAC GCCCGAGAGT TCATCGACAA GCAGGTGTGT 
    GGGACGCCGG AGTACATAGC CCCCGAGGTG ATCTTCCGCC AGGGCTATGG GAAGCCAGTG 
    GACTGGTGGG CCATGGGCGT CGTCCTCTAT GAGTTTCTGG TGGGCTGCGT GCCTTTCTTT 
    GGAGATACCC CCGAGGAACT CTTCGGTCAG GTGGTCAGCG ATGAGATCAT GTGGCCAGAG 
    GGAGATGAGG CCCTTCCAGC AGACGCCCAG GACCTCATCA CCAGGTTGCT CCGGCAGAGC 
    CCGCTGGACC GTCTGGGCAC TGGTGGCACC CACGAAGTGA AGCAGCACCC CTTTTTCCTG 
    GCCCTGGACT GGGCAGGGCT TCTCCGACAC AAAGCCGAGT TCGTGCCCCA GCTCGAAGCT 
    GAGGATGATA CCAGCTACTT TGACACACGT TCGGAACGTT ACCGCCATCT GGGCTCCGAG 
    GACGACGAGA CCAATGATGA AGAATCGTCC ACAGAGATCC CCCAGTTCTC CTCCTGCTCC 
    CACCGGTTCA GCAAGGTCTA CAGCAGCTCT GAGTTCCTGG CCGTCCAGCC CACTCCTACC 
    TTCGCTGAAA GGAGCTTCAG TGAAGACCGG GAGGAGGGGT GGGAGCGCAG CGAAGTGGAC 
    TATGGCCGCC GGCTGAGTGC TGACATCCGG CTGAGGTCCT GGACATCCTC TGGATCCTCC 
    TGTCAGTCAT CTTCGTCCCA GCCCGAGCGG GGTCCCAGCC CATCTCTCCT GAATACCATC 
    AGCCTGGACA CAATGCCCAA GTTTGCCTTC TCATCAGAGG ATGAGGGGGT AGGCCCAGGC 
    CCTGCAGGCC CCAAGAGGCC CGTCTTCATT CTAGGGGAGC CTGACCCCCC ACCAGCGGCC 
    ACCCCAGTGA TGCCCAAGCC CTCGAGCCTT TCTGCCGACA CAGCTGCTCT CAGCCACGCC 
    CGCCTACGGA GCAATAGCAT CGGCGCCCGA CACTCCACAC CAAGGCCTCT GGATGCCGGC 
    CGGGGCCGCC GCCTTGGGGG CCCAAGAGAC CCAGCCCCTG AGAAGTCCAG AGCCTCCTCC 
    AGCGGTGGCA GTGGTGGCGG CAGTGGGGGC CGCGTGCCCA AGTCAGCCTC TGTCTCTGCC 
    CTGTCCCTCA TCATCACGGC AGATGATGGC AGCGGCGGCC CCCTCATGAG CCCCCTTTCC 
    CCGCGCTCTC TGTCCTCGAA CCCGTCGTCC CGTGACTCTT CGCCGAGCCG AGACCCGTCC 
    CCCGTGTGTG GCAGCCTGCG GCCCCCCATC GTTATCCACA GCTCTGGCAA GAAGTACGGC 
    TTCAGCCTGC GGGCGATCCG CGTCTACATG GGTGATAGCG ACGTCTACAC TGTGCACCAC 
    GTCGTCTGGA GTGTGGAGGA CGGAAGCCCC GCCCAGGAGG CGGGCCTGCG GGCTGGGGAC 
    CTCATCACCC ACATCAACGG GGAGTCAGTG CTGGGGCTGG TGCACATGGA CGTCGTGGAG 
    CTGCTGCTGA AGAGCGGCAA CAAGATATCC CTGCGGACCA CAGCCCTGGA GAACACCTCC 
    ATCAAGGTGG GCCCCGCCCG GAAGAATGTG GCCAAGGGCC GCATGGCACG CAGGAGCAAG 
    AGGAGCCGTC GGCGGGAGAC CCAGGATCGG TGCGCGGCAG TGACCACCAG GGAGCGGCGG 
    AAGTCACTTT TCAAGAAGAT CTCCAAGCAG ACCTCCGTGC TGCACACCAG CCGCAGCTTC 
    TCCTCCGGAC TCCACCACTC ACTGTCATCC AGTGAGAGCC TCCCCGGCTC GCCCACCCAC 
    AGCCTCTCCC CCAGCCCCAC CACTCCCTGC CGAAGCCCAG CCCCTGATGT CCCAGCAGAT 
    ACCACTGCAT CCCCACCCAG CGCATCCCCG AGCTCCAGCA GCCCCGCCTC CCCAGCTGCT 
    GCTGGCCACA CCCGCCCCAG CTCCCTGCAC GGCCTGGCTG CCAAGCTTGG GCCACCCCGC 
    CCCAAGACTG GCCGCCGCAA GTCCACCAGC AGCATCCCGC CCTCCCCGCT GGCCTGCCCG 
    CCCATCTCCG CGCCCCCACC CCGCTCGCCC TCGCCCCTGC CCGGGCACCC GCCCGCACCT 
    GCCCGATCCC CGCGGCTGCG CCGGGGCCAG TCAGCTGACA AGCTGGGCAC AGGGGAGCGG 
    CTGGATGGGG AGGCGGGGCG GCGCACTCGT GGGCCAGAGG CCGAGCTCGT GGTCATGCGG 
    CGGCTGCACC TGTCCGAGCG CCGAGACTCC TTCAAGAAGC AGGAGGCCGT GCAGGAGGTT 
    AGCTTCGATG AGCCGCAGGA GGAGGCCACT GGGCTGCCCA CCTCAGTGCC ACAGATCGCC 
    GTGGAGGGCG AGGAAGCCGT GCCAGTAGCT CTCGGGCCCA CCGGAAGAGA CTGA

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

    MAST3 ( XM_017026516.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016882005.1 Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X20, mRNA.
    Price & Availability↑
    CloneID OHu88328
    Clone ID Related Accession (Same CDS sequence) XM_017026516.1
    Accession Version XM_017026516.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4230bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product microtubule-associated serine/threonine-protein kinase 3 isoform X18
    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 EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGATACAGT TGGTGGGGAG GTGCTTGAAG GCCCCAGTGG TTGGGGGTTG CTGGGGGACT 
    GGGACATTGC CCCGAGAGCC GGCACTGTTT CCAGCCTTGG CCCAAGCTGT GGGCAGAGTG 
    TTGGACCGTG AATCAATGAG GACTGCCGAG GGCAAAGTCC TGGACCTTGG GGCAGGACAG 
    AGCCAAAGAC TCCACAAGGG ATGTCCACTC CCTGCCACCT TCCCTGTGCC CCACTGGGTC 
    CACCGGGGCC TCAAGAGGGC CAGAGTGAGA CACAGACACC CCCAGACCGT GGGGTTTGCG 
    CTGAGAGGGA GGAAGGACAG AGCTGGCGGC GCCTGGTGCT GGTGGGGGTG CAGCTGCCGC 
    AGCGGGAACC GCAAGAGCTT GGTGGTAGGA ACGCCCTCCC CGACCCTCTC CCGGCCCCTG 
    TCGCCATTGT CGGTCCCAAC GGGCAGCAGC CCCTTGGATA GTCCTCGGAA TTTCTCGGCT 
    GCCTCTGCCC TAAATTTCCC CTTTGCCCGG AGCCACATCC CACGCATGGA CAGGGCAGAC 
    GGCAGAAGAT GGTCCCTCGC GTCTCTCCCA TCTTCCGGCT ATGGAACCAA CACACCCAGC 
    TCCACCCTCT CGTCAAGCTC ATCCTCCCGG GAACGTCTCC ACCAGCTTCC CTTCCAGCCG 
    ACGCCGGACG AGCTGCACTT CCTGTCCAAG CACTTCCGCA GCTCAGAGAA TGTGCTTGAT 
    GAGGAAGGCG GCCGGTCACC CCGCCTCCGA CCCCGCTCTC GCAGTCTCAG CCCGGGCCGT 
    GCAACGGGGA CCTTCGACAA TGAGATTGTC ATGATGAATC ACGTGTACCG GGAGAGGTTC 
    CCCAAGGCCA CAGCACAGAT GGAGGGCCGT CTGCAGGAGT TCCTGACGGC CTACGCGCCC 
    GGCGCCCGGC TGGCGCTGGC TGATGGCGTC TTGGGCTTCA TCCACCACCA GATCGTCGAG 
    CTGGCCCGAG ACTGCTTGGC CAAGTCTGGC GAGAACCTCG TCACCTCCCG CTACTTCCTA 
    GAGATGCAGG AGAAGCTGGA GCGGCTTCTG CAGGATGCCC ATGAGCGTTC GGACAGTGAG 
    GAGGTCAGCT TCATCGTCCA GCTTGTCCGG AAACTGCTGA TCATCATCTC ACGGCCAGCT 
    CGGCTGCTGG AGTGTCTGGA GTTTGACCCT GAGGAATTTT ACCACCTGCT GGAGGCGGCT 
    GAGGGCCATG CGCGGGAGGG CCAAGGCATT AAGACTGACC TTCCACAGTA CATCATTGGG 
    CAGCTGGGCC TGGCCAAGGA CCCCCTGGAG GAGATGGTGC CACTGAGTCA CCTCGAAGAA 
    GAACAGCCCC CAGCACCTGA GTCCCCAGAG AGCCGCGCCC TGGTCGGCCA GTCACGGAGG 
    AAGCCATGCG AAAGCGACTT TGAGACCATC AAACTCATTA GCAACGGAGC CTATGGGGCC 
    GTCTACCTGG TGCGGCACCG TGACACACGG CAGCGCTTTG CCATCAAGAA GATCAACAAA 
    CAGAACTTGA TCCTGCGTAA CCAGATCCAG CAGGTCTTTG TGGAGCGTGA CATTCTCACC 
    TTTGCCGAGA ACCCCTTTGT GGTCAGCATG TTCTGCTCCT TTGAGACCCG GCGCCACCTA 
    TGTATGGTCA TGGAATACGT GGAAGGCGGC GACTGCGCCA CGCTCCTGAA GAACATGGGC 
    CCGCTGCCCG TGGACATGGC CCGCCTGTAC TTCGCCGAGA CGGTGTTGGC GCTGGAGTAC 
    CTGCATAACT ATGGCATCGT GCACCGTGAC CTCAAACCAG ACAATCTGCT CATCACCTCG 
    CTTGGCCACA TCAAGCTCAC GGACTTCGGC CTGTCCAAGA TCGGCCTCAT GAGCATGGCC 
    ACCAACCTCT ATGAGGGCCA CATCGAGAAG GACGCCCGAG AGTTCATCGA CAAGCAGGTG 
    TGTGGGACGC CGGAGTACAT AGCCCCCGAG GTGATCTTCC GCCAGGGCTA TGGGAAGCCA 
    GTGGACTGGT GGGCCATGGG CGTCGTCCTC TATGAGTTTC TGGTGGGCTG CGTGCCTTTC 
    TTTGGAGATA CCCCCGAGGA ACTCTTCGGT CAGGTGGTCA GCGATGAGAT CATGTGGCCA 
    GAGGGAGATG AGGCCCTTCC AGCAGACGCC CAGGACCTCA TCACCAGGTT GCTCCGGCAG 
    AGCCCGCTGG ACCGTCTGGG CACTGGTGGC ACCCACGAAG TGAAGCAGCA CCCCTTTTTC 
    CTGGCCCTGG ACTGGGCAGG GCTTCTCCGA CACAAAGCCG AGTTCGTGCC CCAGCTCGAA 
    GCTGAGGATG ATACCAGCTA CTTTGACACA CGTTCGGAAC GTTACCGCCA TCTGGGCTCC 
    GAGGACGACG AGACCAATGA TGAAGAATCG TCCACAGAGA TCCCCCAGTT CTCCTCCTGC 
    TCCCACCGGT TCAGCAAGGT CTACAGCAGC TCTGAGTTCC TGGCCGTCCA GCCCACTCCT 
    ACCTTCGCTG AAAGGAGCTT CAGTGAAGAC CGGGAGGAGG GGTGGGAGCG CAGCGAAGTG 
    GACTATGGCC GCCGGCTGAG TGCTGACATC CGGCTGAGGT CCTGGACATC CTCTGGATCC 
    TCCTGTCAGT CATCTTCGTC CCAGCCCGAG CGGGGTCCCA GCCCATCTCT CCTGAATACC 
    ATCAGCCTGG ACACAATGCC CAAGTTTGCC TTCTCATCAG AGGATGAGGG GGTAGGCCCA 
    GGCCCTGCAG GCCCCAAGAG GCCCGTCTTC ATTCTAGGGG AGCCTGACCC CCCACCAGCG 
    GCCACCCCAG TGATGCCCAA GCCCTCGAGC CTTTCTGCCG ACACAGCTGC TCTCAGCCAC 
    GCCCGCCTAC GGAGCAATAG CATCGGCGCC CGACACTCCA CACCAAGGCC TCTGGATGCC 
    GGCCGGGGCC GCCGCCTTGG GGGCCCAAGA GACCCAGCCC CTGAGAAGTC CAGAGCCTCC 
    TCCAGCGGTG GCAGTGGTGG CGGCAGTGGG GGCCGCGTGC CCAAGTCAGC CTCTGTCTCT 
    GCCCTGTCCC TCATCATCAC GGCAGATGAT GGCAGCGGCG GCCCCCTCAT GAGCCCCCTT 
    TCCCCGCGCT CTCTGTCCTC GAACCCGTCG TCCCGTGACT CTTCGCCGAG CCGAGACCCG 
    TCCCCCGTGT GTGGCAGCCT GCGGCCCCCC ATCGTTATCC ACAGCTCTGG CAAGAAGTAC 
    GGCTTCAGCC TGCGGGCGAT CCGCGTCTAC ATGGGTGATA GCGACGTCTA CACTGTGCAC 
    CACGTCGTCT GGAGTGTGGA GGACGGAAGC CCCGCCCAGG AGGCGGGCCT GCGGGCTGGG 
    GACCTCATCA CCCACATCAA CGGGGAGTCA GTGCTGGGGC TGGTGCACAT GGACGTCGTG 
    GAGCTGCTGC TGAAGAGCGG CAACAAGATA TCCCTGCGGA CCACAGCCCT GGAGAACACC 
    TCCATCAAGG TGGGCCCCGC CCGGAAGAAT GTGGCCAAGG GCCGCATGGC ACGCAGGAGC 
    AAGAGGAGCC GTCGGCGGGA GACCCAGGAT CGGCGGAAGT CACTTTTCAA GAAGATCTCC 
    AAGCAGACCT CCGTGCTGCA CACCAGCCGC AGCTTCTCCT CCGGACTCCA CCACTCACTG 
    TCATCCAGTG AGAGCCTCCC CGGCTCGCCC ACCCACAGCC TCTCCCCCAG CCCCACCACT 
    CCCTGCCGAA GCCCAGCCCC TGATGTCCCA GCAGATACCA CTGCATCCCC ACCCAGCGCA 
    TCCCCGAGCT CCAGCAGCCC CGCCTCCCCA GCTGCTGCTG GCCACACCCG CCCCAGCTCC 
    CTGCACGGCC TGGCTGCCAA GCTTGGGCCA CCCCGCCCCA AGACTGGCCG CCGCAAGTCC 
    ACCAGCAGCA TCCCGCCCTC CCCGCTGGCC TGCCCGCCCA TCTCCGCGCC CCCACCCCGC 
    TCGCCCTCGC CCCTGCCCGG GCACCCGCCC GCACCTGCCC GATCCCCGCG GCTGCGCCGG 
    GGCCAGTCAG CTGACAAGCT GGGCACAGGG GAGCGGCTGG ATGGGGAGGC GGGGCGGCGC 
    ACTCGTGGGC CAGAGGCCGA GCTCGTGGTC ATGCGGCGGC TGCACCTGTC CGAGCGCCGA 
    GACTCCTTCA AGAAGCAGGA GGCCGTGCAG GAGGTTAGCT TCGATGAGCC GCAGGAGGAG 
    GCCACTGGGC TGCCCACCTC AGTGCCACAG ATCGCCGTGG AGGGCGAGGA AGCCGTGCCA 
    GTAGCTCTCG GGCCCACCGG AAGAGACTGA

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

    RefSeq XP_016882005.1
    CDS49..4278
    Translation

    Target ORF information:

    RefSeq Version XM_017026516.1
    Organism Homo sapiens(human)
    Definition Homo sapiens microtubule associated serine/threonine kinase 3 (MAST3), transcript variant X20, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017026516.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGATACAGT TGGTGGGGAG GTGCTTGAAG GCCCCAGTGG TTGGGGGTTG CTGGGGGACT 
    GGGACATTGC CCCGAGAGCC GGCACTGTTT CCAGCCTTGG CCCAAGCTGT GGGCAGAGTG 
    TTGGACCGTG AATCAATGAG GACTGCCGAG GGCAAAGTCC TGGACCTTGG GGCAGGACAG 
    AGCCAAAGAC TCCACAAGGG ATGTCCACTC CCTGCCACCT TCCCTGTGCC CCACTGGGTC 
    CACCGGGGCC TCAAGAGGGC CAGAGTGAGA CACAGACACC CCCAGACCGT GGGGTTTGCG 
    CTGAGAGGGA GGAAGGACAG AGCTGGCGGC GCCTGGTGCT GGTGGGGGTG CAGCTGCCGC 
    AGCGGGAACC GCAAGAGCTT GGTGGTAGGA ACGCCCTCCC CGACCCTCTC CCGGCCCCTG 
    TCGCCATTGT CGGTCCCAAC GGGCAGCAGC CCCTTGGATA GTCCTCGGAA TTTCTCGGCT 
    GCCTCTGCCC TAAATTTCCC CTTTGCCCGG AGCCACATCC CACGCATGGA CAGGGCAGAC 
    GGCAGAAGAT GGTCCCTCGC GTCTCTCCCA TCTTCCGGCT ATGGAACCAA CACACCCAGC 
    TCCACCCTCT CGTCAAGCTC ATCCTCCCGG GAACGTCTCC ACCAGCTTCC CTTCCAGCCG 
    ACGCCGGACG AGCTGCACTT CCTGTCCAAG CACTTCCGCA GCTCAGAGAA TGTGCTTGAT 
    GAGGAAGGCG GCCGGTCACC CCGCCTCCGA CCCCGCTCTC GCAGTCTCAG CCCGGGCCGT 
    GCAACGGGGA CCTTCGACAA TGAGATTGTC ATGATGAATC ACGTGTACCG GGAGAGGTTC 
    CCCAAGGCCA CAGCACAGAT GGAGGGCCGT CTGCAGGAGT TCCTGACGGC CTACGCGCCC 
    GGCGCCCGGC TGGCGCTGGC TGATGGCGTC TTGGGCTTCA TCCACCACCA GATCGTCGAG 
    CTGGCCCGAG ACTGCTTGGC CAAGTCTGGC GAGAACCTCG TCACCTCCCG CTACTTCCTA 
    GAGATGCAGG AGAAGCTGGA GCGGCTTCTG CAGGATGCCC ATGAGCGTTC GGACAGTGAG 
    GAGGTCAGCT TCATCGTCCA GCTTGTCCGG AAACTGCTGA TCATCATCTC ACGGCCAGCT 
    CGGCTGCTGG AGTGTCTGGA GTTTGACCCT GAGGAATTTT ACCACCTGCT GGAGGCGGCT 
    GAGGGCCATG CGCGGGAGGG CCAAGGCATT AAGACTGACC TTCCACAGTA CATCATTGGG 
    CAGCTGGGCC TGGCCAAGGA CCCCCTGGAG GAGATGGTGC CACTGAGTCA CCTCGAAGAA 
    GAACAGCCCC CAGCACCTGA GTCCCCAGAG AGCCGCGCCC TGGTCGGCCA GTCACGGAGG 
    AAGCCATGCG AAAGCGACTT TGAGACCATC AAACTCATTA GCAACGGAGC CTATGGGGCC 
    GTCTACCTGG TGCGGCACCG TGACACACGG CAGCGCTTTG CCATCAAGAA GATCAACAAA 
    CAGAACTTGA TCCTGCGTAA CCAGATCCAG CAGGTCTTTG TGGAGCGTGA CATTCTCACC 
    TTTGCCGAGA ACCCCTTTGT GGTCAGCATG TTCTGCTCCT TTGAGACCCG GCGCCACCTA 
    TGTATGGTCA TGGAATACGT GGAAGGCGGC GACTGCGCCA CGCTCCTGAA GAACATGGGC 
    CCGCTGCCCG TGGACATGGC CCGCCTGTAC TTCGCCGAGA CGGTGTTGGC GCTGGAGTAC 
    CTGCATAACT ATGGCATCGT GCACCGTGAC CTCAAACCAG ACAATCTGCT CATCACCTCG 
    CTTGGCCACA TCAAGCTCAC GGACTTCGGC CTGTCCAAGA TCGGCCTCAT GAGCATGGCC 
    ACCAACCTCT ATGAGGGCCA CATCGAGAAG GACGCCCGAG AGTTCATCGA CAAGCAGGTG 
    TGTGGGACGC CGGAGTACAT AGCCCCCGAG GTGATCTTCC GCCAGGGCTA TGGGAAGCCA 
    GTGGACTGGT GGGCCATGGG CGTCGTCCTC TATGAGTTTC TGGTGGGCTG CGTGCCTTTC 
    TTTGGAGATA CCCCCGAGGA ACTCTTCGGT CAGGTGGTCA GCGATGAGAT CATGTGGCCA 
    GAGGGAGATG AGGCCCTTCC AGCAGACGCC CAGGACCTCA TCACCAGGTT GCTCCGGCAG 
    AGCCCGCTGG ACCGTCTGGG CACTGGTGGC ACCCACGAAG TGAAGCAGCA CCCCTTTTTC 
    CTGGCCCTGG ACTGGGCAGG GCTTCTCCGA CACAAAGCCG AGTTCGTGCC CCAGCTCGAA 
    GCTGAGGATG ATACCAGCTA CTTTGACACA CGTTCGGAAC GTTACCGCCA TCTGGGCTCC 
    GAGGACGACG AGACCAATGA TGAAGAATCG TCCACAGAGA TCCCCCAGTT CTCCTCCTGC 
    TCCCACCGGT TCAGCAAGGT CTACAGCAGC TCTGAGTTCC TGGCCGTCCA GCCCACTCCT 
    ACCTTCGCTG AAAGGAGCTT CAGTGAAGAC CGGGAGGAGG GGTGGGAGCG CAGCGAAGTG 
    GACTATGGCC GCCGGCTGAG TGCTGACATC CGGCTGAGGT CCTGGACATC CTCTGGATCC 
    TCCTGTCAGT CATCTTCGTC CCAGCCCGAG CGGGGTCCCA GCCCATCTCT CCTGAATACC 
    ATCAGCCTGG ACACAATGCC CAAGTTTGCC TTCTCATCAG AGGATGAGGG GGTAGGCCCA 
    GGCCCTGCAG GCCCCAAGAG GCCCGTCTTC ATTCTAGGGG AGCCTGACCC CCCACCAGCG 
    GCCACCCCAG TGATGCCCAA GCCCTCGAGC CTTTCTGCCG ACACAGCTGC TCTCAGCCAC 
    GCCCGCCTAC GGAGCAATAG CATCGGCGCC CGACACTCCA CACCAAGGCC TCTGGATGCC 
    GGCCGGGGCC GCCGCCTTGG GGGCCCAAGA GACCCAGCCC CTGAGAAGTC CAGAGCCTCC 
    TCCAGCGGTG GCAGTGGTGG CGGCAGTGGG GGCCGCGTGC CCAAGTCAGC CTCTGTCTCT 
    GCCCTGTCCC TCATCATCAC GGCAGATGAT GGCAGCGGCG GCCCCCTCAT GAGCCCCCTT 
    TCCCCGCGCT CTCTGTCCTC GAACCCGTCG TCCCGTGACT CTTCGCCGAG CCGAGACCCG 
    TCCCCCGTGT GTGGCAGCCT GCGGCCCCCC ATCGTTATCC ACAGCTCTGG CAAGAAGTAC 
    GGCTTCAGCC TGCGGGCGAT CCGCGTCTAC ATGGGTGATA GCGACGTCTA CACTGTGCAC 
    CACGTCGTCT GGAGTGTGGA GGACGGAAGC CCCGCCCAGG AGGCGGGCCT GCGGGCTGGG 
    GACCTCATCA CCCACATCAA CGGGGAGTCA GTGCTGGGGC TGGTGCACAT GGACGTCGTG 
    GAGCTGCTGC TGAAGAGCGG CAACAAGATA TCCCTGCGGA CCACAGCCCT GGAGAACACC 
    TCCATCAAGG TGGGCCCCGC CCGGAAGAAT GTGGCCAAGG GCCGCATGGC ACGCAGGAGC 
    AAGAGGAGCC GTCGGCGGGA GACCCAGGAT CGGCGGAAGT CACTTTTCAA GAAGATCTCC 
    AAGCAGACCT CCGTGCTGCA CACCAGCCGC AGCTTCTCCT CCGGACTCCA CCACTCACTG 
    TCATCCAGTG AGAGCCTCCC CGGCTCGCCC ACCCACAGCC TCTCCCCCAG CCCCACCACT 
    CCCTGCCGAA GCCCAGCCCC TGATGTCCCA GCAGATACCA CTGCATCCCC ACCCAGCGCA 
    TCCCCGAGCT CCAGCAGCCC CGCCTCCCCA GCTGCTGCTG GCCACACCCG CCCCAGCTCC 
    CTGCACGGCC TGGCTGCCAA GCTTGGGCCA CCCCGCCCCA AGACTGGCCG CCGCAAGTCC 
    ACCAGCAGCA TCCCGCCCTC CCCGCTGGCC TGCCCGCCCA TCTCCGCGCC CCCACCCCGC 
    TCGCCCTCGC CCCTGCCCGG GCACCCGCCC GCACCTGCCC GATCCCCGCG GCTGCGCCGG 
    GGCCAGTCAG CTGACAAGCT GGGCACAGGG GAGCGGCTGG ATGGGGAGGC GGGGCGGCGC 
    ACTCGTGGGC CAGAGGCCGA GCTCGTGGTC ATGCGGCGGC TGCACCTGTC CGAGCGCCGA 
    GACTCCTTCA AGAAGCAGGA GGCCGTGCAG GAGGTTAGCT TCGATGAGCC GCAGGAGGAG 
    GCCACTGGGC TGCCCACCTC AGTGCCACAG ATCGCCGTGG AGGGCGAGGA AGCCGTGCCA 
    GTAGCTCTCG GGCCCACCGG AAGAGACTGA

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

見積依頼

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