ORF » Species Summary » Xenopus tropicalis » mast3 cDNA ORF clone

mast3 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

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
OXa42038 XM_018097011.1
Latest version!		 Xenopus tropicalis microtubule associated serine/threonine kinase 3 (mast3), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OXa42039 XM_018097015.1
Latest version!		 Xenopus tropicalis microtubule associated serine/threonine kinase 3 (mast3), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OXa42040 XM_018097016.1
Latest version!		 Xenopus tropicalis microtubule associated serine/threonine kinase 3 (mast3), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OXa48540 XM_031905199.1
Latest version!		 Xenopus tropicalis microtubule associated serine/threonine kinase 3 (mast3), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa48541 XM_031905204.1
Latest version!		 Xenopus tropicalis microtubule associated serine/threonine kinase 3 (mast3), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa48542 XM_031905206.1
Latest version!		 Xenopus tropicalis microtubule associated serine/threonine kinase 3 (mast3), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa48543 XM_031905211.1
Latest version!		 Xenopus tropicalis microtubule associated serine/threonine kinase 3 (mast3), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa48544 XM_012954212.3
Latest version!		 Xenopus tropicalis microtubule associated serine/threonine kinase 3 (mast3), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa48545 XM_031905219.1
Latest version!		 Xenopus tropicalis microtubule associated serine/threonine kinase 3 (mast3), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa48546 XM_012954218.2
Latest version!		 Xenopus tropicalis microtubule associated serine/threonine kinase 3 (mast3), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa48547 XM_018097017.2
Latest version!		 Xenopus tropicalis microtubule associated serine/threonine kinase 3 (mast3), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa48548 XM_031905235.1
Latest version!		 Xenopus tropicalis microtubule associated serine/threonine kinase 3 (mast3), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa04275 XM_012954218.1
Latest version!		 Xenopus tropicalis microtubule associated serine/threonine kinase 3 (mast3), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
OXa36104 XM_012954212.2
Latest version!		 Xenopus tropicalis microtubule associated serine/threonine kinase 3 (mast3), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
OXa36105 XM_018097017.1
Latest version!		 Xenopus tropicalis microtubule associated serine/threonine kinase 3 (mast3), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    mast3 ( XM_018097011.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_017952500.1 Xenopus tropicalis microtubule associated serine/threonine kinase 3 (mast3), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OXa42038
    Clone ID Related Accession (Same CDS sequence) XM_018097011.1
    Accession Version XM_018097011.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4452bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030677.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
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    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGAAATCCA GAAGAGACAA GCTTAAAATC CCATCTTTAA CATTAGATTT ATCTCCGAAC 
    AACCAAAGCC CGACTCTGCT CAGCCCTTGT AGTCCTTGCA GCCCAAACAG CCCCCTGCAA 
    ACATTACACC CGTGGAGTTG CCGGAGCAGC AACAGGAAGA GTCTGGTGGT GGGTTCCCCA 
    TCGCCTACAC TGTCACGCCC TCTCTCTCCA CTTTCTGTGC CTACAGGAAG CAGTCCTTTG 
    GATAGCCCAA GGAATTTTTC CACAAGTGCA TCTGTTAACT TCCCATTTGC CCGCAGTCAT 
    GGCCCTCGTG CAGACAGAGC TGATGGTCGC AGATGGTCTC TTGCATCTCT TCCATCTTCT 
    GGATATGGCA CGAACACTCC GAGCTCCACT CTTTCGTCTT CCTCTTCTTC CCAGGAAAGG 
    CTGCACCAGC TTCCATTTCA GCCCACTGCA GATGAACTGC ATTTCCTTTC CAAACATTTC 
    CGAAGTACAG AGAGCATTAC AGATGAGGAT GGACGGCGTT CTCCTTGCAT GCGCCCCCGC 
    TCTCGTAGCC TCAGCCCAGG TCGTGCATCA TCAAACTTTG ACAATGAAAT AATTATGATG 
    AACCATGTTT ACAAAGAGAG ATTCCCAAAG GCTACAGCGC AGATGGAAGA ACGGTTGCAG 
    GACATCATCA CTCATTTCTG CCCCAGCCAA ACACTTCCGC TGGCCGATGG TGTTTTGGGC 
    TTCATTCACC ATCAGATTAT CGAGCTGGCT CGGGATTGCC TGGACAAATC TAAGGGGGCA 
    CTGATAACCT CCCGTTACTT TCTGGAGCTG CAAGAAAAGC TAGAGAAAAT GCTGCAAGAT 
    GCACACAATC GTTCAGAGAG TGAGGAAGTT ATGTTCACAA ACCATTTGGC AAGGAAACTG 
    CTGATGGTCA TTGCCCGCCC AGCAAGACTA CTGGAATGTT TGGAGTTTGA TCCAGAGCAG 
    TTTTATCATC TGCTGGAAGC TGCAGAAGGT CAGGCCAAGG TTGGCCAGGG GATAAAGACG 
    GACATCCCTC GTTATATAAT CAACCAACTA GGTCTCACAA AGGACCCACT AGAAGAGATT 
    GTTCAACTGG ATCACTATGA TACAGAATCC TCCCTGCTAT TAGACCAAGA AGATTATCAA 
    GATCCATGTA TTTCAAGTAC TCCGTCACGA AAAAAACCTT GCGAGAGTGA CTTTGAAACC 
    ATCAAATTGA TTAGCAATGG AGCTTATGGT GCTGTTTATC TAGTCCGGCA CAAGGAAATG 
    CGGCAGCGTT TTGCCATGAA GAAGATAAAC AAGCAGAATC TGATACTGCG CAACCAAATT 
    CAGCAAGTAT TTGTGGAGAG AGACATCCTA ACCTTTGCAG AGAATCCTTT TGTAGTCAGC 
    ATGTTCTGCT CGTTTGAGAC ACGTCGACAT CTTTGTATGG TGATGGAGTA TGTGGAAGGG 
    GGAGACTGTG CTACGCTTCT AAAGAACATG GGACCGTTGC CAGTTGATAT GAGCCGCATG 
    TATTTTGCTG AAACTGTGCT AGCACTAGAA TATCTGCACA ACTATGGGAT AGTTCACAGA 
    GACCTTAAAC CTGACAATTT GCTGATTACA TCACTGGGAC ACATCAAGCT GACAGATTTT 
    GGACTTTCCA AAATTGGCCT TATGAACATG ACTACAAACT TGTATGAAGG GCATATCGAG 
    AAGGACACAA GGGAGTTTCT GGACAAACAA GTGTGTGGGA CCCCTGAATA CATTGCACCT 
    GAGGTGATCC TACGGCAGGG ATATGGGAAG CCTGTGGACT GGTGGGCGAT GGGCATTATT 
    CTTTATGAGT TTCTTGTTGG CTGTGTACCA TTCTTTGGAG ACACACCAGA AGAACTATTT 
    GGACAAGTGA TCAGTGATGA AATTATATGG CCAGGAGGAG AGGAAGCACT TCCTACTGAT 
    GCTCAGGATC TAATTACCCG GCTGCTGCGC CAAAACCCCC TGGAACGTTT AGGGACAGGT 
    GGGGCCCAAG AAGTAAAGCA GCATACGTTC TTCCTTCCGT TGGACTGGAA TGGGCTTCTA 
    AGGCAGAAAG CAGAGTTTGT TCCCCAGTTG GAAGCAGAGG ACGACACCAG TTATTTTGAC 
    ACTCGATCAG AACGGTATCA TCATTTAGCT TCTGAGGAAG ATGAGGAAAC AAATGACGAT 
    GAGTCCTCGG TGGAAATCCG TCAGTTTTCT TCTTGCTCCC ATCGTTTCAG CAAGGTATAT 
    AGCAGTTCTG AGCATTTAGC AACACAGCTC AATCTGAGTT TCTCTTCCAC TGAACGAAGT 
    CACAGTGATG AAAAGGAGGA GCACAGTGAC AGGTGGGAGA GGACTCTGTC TATTGAGGAA 
    GAAAAGAATC GACTAGGCCC TGAAAACAGG TTAAGGTCCT GGACATCATC TGGTTCGTCC 
    CATCATTCCT GGCTAAGTGA AAGAAGTGCC AGCCCTAATG TTCTGACCAG CACCTGCAGT 
    CTGGATACCA TGCCCAAGTT TGCTTTTTCC TCTGAAGAGG AGTCTTCTGA TCACAAACCT 
    GAAAGACCAA CTTTTACTTT AGGTGAAATG AAAGGGACTC CTCCAAAACC TACTTCTCTC 
    TGTGCAGACA TTGTCAGTCT TAGCAGAACC CGCCTACGGA GCAACAGCAC TGGAGCCAAG 
    AACTCCACTC CTCGCCCTCT GGAAGCGGGT GTTACCCGCC GGCTGCGTGG GCAGAGAGAT 
    ACACCTGAAA AACACAGTTC TTCCACAGGG AGCCGGGTCC CCAAATCTGC ATCTGTCTCT 
    GCCCTGTCTC TAATAATAAC AGCAGATGAT TTTGGCAGTG GATCACTTGC AAGTCCTATT 
    TCCCCTCGTT CTCTCTCATC TAATCCATCC TCAAGGGACT CCTCACCCAG CCGTGAGTCT 
    ACAGTTGCAG TATCTAGCTT ACGCCCACCC ATCATAATCC ACAGCTCAGG AAAAAAGTAT 
    GGCTTTACCC TACGAGCCAT AAGAGTCTAC ATGGGAGAGA GTGATGTTTA TACTGTACAC 
    CATATGGTTT GGAGCATAGA AGATGGAAGT CCAGCCCATG AGGCAGGCCT TAGAGCTGGT 
    GACCTTATCA CACATGTGAA TGGCGAGTCT GTTCTTGGGC TTGTGCACAT GGATGTAGTT 
    GAGCTGCTGT TAAAGAGTGG CAGCAAAGTC TCCTTAAGGA CAACCCCCCT GGAAAACACC 
    TCTATAAAGA TTGGGCCAGC TAGGAAAAAC AGTTGCAAGG GCCGCATGGC AAGGAGGACA 
    AAAAAGAGCA GAAAACGGGA GAGCCAAGAC AGGAAGCGCT CTTTGTTTAA GAAAATTTCC 
    AAGCAGTCCA CAGTGCTACA GACCAGTAGA AGCTTCTCAT CTGGGCTTCA CCAATCTCTG 
    TCTTCCAGTG AGAGCCTTCC AGCTTCTCCC ACTCATAGTT TGTCTCCAGG TCCCACCACT 
    CCAAGTCGTA GCCCTGCCCC TGATGCAGCT GGTGATGCTG CTTCACCACA GAGTACTTCA 
    CCCTGCTCCA GCACACCAAG CTCACCTGCA GGACACATCC GACCAAGCTC CCTTCAGTGC 
    CTAACCCCCA AACTCAGTGG ACAGCGCTAC AAAGTTGGGC GCAGGAAATC TACCAGCAGC 
    ATCCCACCTT CCCCATTGGC TTGCACACCT TCACCGGTTC CACAGGCACC CTCATCTCCT 
    CAACGCTCTC CTTCCCCACT ATTACCTAGT CATCCAAGGA GTGGACATTG TGGCCTCCAG 
    GGCAAGACGT TATCACCACC AACCATCGTA AGACAAAGTG CTCGAAATCG AGCAACTGAT 
    GCACCCAGGT CACCTTTACT AAAGAGAGTG CAGTCTGTAG AAAAGATGGC AGCATTTTTG 
    TCCAGTGGGC GTAAGGCAAG CCCAGTTGAT ATCCAGCACT GGGAGGACAC AGTGGATATG 
    TTAGAGGGTA TGTCAGAATC CAGGACCAGG GATTGGAGCT CAGAGAAACA TGAGCGTGAC 
    CCAGAGGTGG TGGTAATGAG AAGGCTTAAT CTTTCAGAGA GACGGGACTC CTTCAAGAAG 
    CAAGAAGCTG TGCAAGAAGT TAGTTTTGAT GAACCAGACA CAGGAGCTGG AGAAGTGGCA 
    CCTGACAACA AGAAAATAGG GAGCTGCTCA AGTTTGTGGG AAAGATTGCC CCACCAAACT 
    TCCTGGATAC AAGCACGGAC GGGGATATCA ACATCTGTGA CAACACAGCA AGAGGCTTCA 
    TGTCGCCTTG TGCCACAAAT AGCTGTACAG ACCTCTGAGA GTGATGAGCA AGAAAAGAGC 
    CAAGGAGTCT GGGAGTGCCA AGGATTTTAC CCCTTACAGT TGTCAGGCAA GGACAACTGC 
    CCCCTTGTAA CATGGCTGTC AGAACCCACG GCTGCCAGTT CAGATAGGAA CCTGCCTGAA 
    TCTGGAAAAG TTAGTGAGTG CCAGGCTCCC TTTGCTTTAT CATCCAAACG TGACTCGAAA 
    AAAACTAGCT GA

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

    RefSeq XP_017952500.1
    CDS19..4470
    Translation

    Target ORF information:

    RefSeq Version XM_018097011.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_018097011.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGAAATCCA GAAGAGACAA GCTTAAAATC CCATCTTTAA CATTAGATTT ATCTCCGAAC 
    AACCAAAGCC CGACTCTGCT CAGCCCTTGT AGTCCTTGCA GCCCAAACAG CCCCCTGCAA 
    ACATTACACC CGTGGAGTTG CCGGAGCAGC AACAGGAAGA GTCTGGTGGT GGGTTCCCCA 
    TCGCCTACAC TGTCACGCCC TCTCTCTCCA CTTTCTGTGC CTACAGGAAG CAGTCCTTTG 
    GATAGCCCAA GGAATTTTTC CACAAGTGCA TCTGTTAACT TCCCATTTGC CCGCAGTCAT 
    GGCCCTCGTG CAGACAGAGC TGATGGTCGC AGATGGTCTC TTGCATCTCT TCCATCTTCT 
    GGATATGGCA CGAACACTCC GAGCTCCACT CTTTCGTCTT CCTCTTCTTC CCAGGAAAGG 
    CTGCACCAGC TTCCATTTCA GCCCACTGCA GATGAACTGC ATTTCCTTTC CAAACATTTC 
    CGAAGTACAG AGAGCATTAC AGATGAGGAT GGACGGCGTT CTCCTTGCAT GCGCCCCCGC 
    TCTCGTAGCC TCAGCCCAGG TCGTGCATCA TCAAACTTTG ACAATGAAAT AATTATGATG 
    AACCATGTTT ACAAAGAGAG ATTCCCAAAG GCTACAGCGC AGATGGAAGA ACGGTTGCAG 
    GACATCATCA CTCATTTCTG CCCCAGCCAA ACACTTCCGC TGGCCGATGG TGTTTTGGGC 
    TTCATTCACC ATCAGATTAT CGAGCTGGCT CGGGATTGCC TGGACAAATC TAAGGGGGCA 
    CTGATAACCT CCCGTTACTT TCTGGAGCTG CAAGAAAAGC TAGAGAAAAT GCTGCAAGAT 
    GCACACAATC GTTCAGAGAG TGAGGAAGTT ATGTTCACAA ACCATTTGGC AAGGAAACTG 
    CTGATGGTCA TTGCCCGCCC AGCAAGACTA CTGGAATGTT TGGAGTTTGA TCCAGAGCAG 
    TTTTATCATC TGCTGGAAGC TGCAGAAGGT CAGGCCAAGG TTGGCCAGGG GATAAAGACG 
    GACATCCCTC GTTATATAAT CAACCAACTA GGTCTCACAA AGGACCCACT AGAAGAGATT 
    GTTCAACTGG ATCACTATGA TACAGAATCC TCCCTGCTAT TAGACCAAGA AGATTATCAA 
    GATCCATGTA TTTCAAGTAC TCCGTCACGA AAAAAACCTT GCGAGAGTGA CTTTGAAACC 
    ATCAAATTGA TTAGCAATGG AGCTTATGGT GCTGTTTATC TAGTCCGGCA CAAGGAAATG 
    CGGCAGCGTT TTGCCATGAA GAAGATAAAC AAGCAGAATC TGATACTGCG CAACCAAATT 
    CAGCAAGTAT TTGTGGAGAG AGACATCCTA ACCTTTGCAG AGAATCCTTT TGTAGTCAGC 
    ATGTTCTGCT CGTTTGAGAC ACGTCGACAT CTTTGTATGG TGATGGAGTA TGTGGAAGGG 
    GGAGACTGTG CTACGCTTCT AAAGAACATG GGACCGTTGC CAGTTGATAT GAGCCGCATG 
    TATTTTGCTG AAACTGTGCT AGCACTAGAA TATCTGCACA ACTATGGGAT AGTTCACAGA 
    GACCTTAAAC CTGACAATTT GCTGATTACA TCACTGGGAC ACATCAAGCT GACAGATTTT 
    GGACTTTCCA AAATTGGCCT TATGAACATG ACTACAAACT TGTATGAAGG GCATATCGAG 
    AAGGACACAA GGGAGTTTCT GGACAAACAA GTGTGTGGGA CCCCTGAATA CATTGCACCT 
    GAGGTGATCC TACGGCAGGG ATATGGGAAG CCTGTGGACT GGTGGGCGAT GGGCATTATT 
    CTTTATGAGT TTCTTGTTGG CTGTGTACCA TTCTTTGGAG ACACACCAGA AGAACTATTT 
    GGACAAGTGA TCAGTGATGA AATTATATGG CCAGGAGGAG AGGAAGCACT TCCTACTGAT 
    GCTCAGGATC TAATTACCCG GCTGCTGCGC CAAAACCCCC TGGAACGTTT AGGGACAGGT 
    GGGGCCCAAG AAGTAAAGCA GCATACGTTC TTCCTTCCGT TGGACTGGAA TGGGCTTCTA 
    AGGCAGAAAG CAGAGTTTGT TCCCCAGTTG GAAGCAGAGG ACGACACCAG TTATTTTGAC 
    ACTCGATCAG AACGGTATCA TCATTTAGCT TCTGAGGAAG ATGAGGAAAC AAATGACGAT 
    GAGTCCTCGG TGGAAATCCG TCAGTTTTCT TCTTGCTCCC ATCGTTTCAG CAAGGTATAT 
    AGCAGTTCTG AGCATTTAGC AACACAGCTC AATCTGAGTT TCTCTTCCAC TGAACGAAGT 
    CACAGTGATG AAAAGGAGGA GCACAGTGAC AGGTGGGAGA GGACTCTGTC TATTGAGGAA 
    GAAAAGAATC GACTAGGCCC TGAAAACAGG TTAAGGTCCT GGACATCATC TGGTTCGTCC 
    CATCATTCCT GGCTAAGTGA AAGAAGTGCC AGCCCTAATG TTCTGACCAG CACCTGCAGT 
    CTGGATACCA TGCCCAAGTT TGCTTTTTCC TCTGAAGAGG AGTCTTCTGA TCACAAACCT 
    GAAAGACCAA CTTTTACTTT AGGTGAAATG AAAGGGACTC CTCCAAAACC TACTTCTCTC 
    TGTGCAGACA TTGTCAGTCT TAGCAGAACC CGCCTACGGA GCAACAGCAC TGGAGCCAAG 
    AACTCCACTC CTCGCCCTCT GGAAGCGGGT GTTACCCGCC GGCTGCGTGG GCAGAGAGAT 
    ACACCTGAAA AACACAGTTC TTCCACAGGG AGCCGGGTCC CCAAATCTGC ATCTGTCTCT 
    GCCCTGTCTC TAATAATAAC AGCAGATGAT TTTGGCAGTG GATCACTTGC AAGTCCTATT 
    TCCCCTCGTT CTCTCTCATC TAATCCATCC TCAAGGGACT CCTCACCCAG CCGTGAGTCT 
    ACAGTTGCAG TATCTAGCTT ACGCCCACCC ATCATAATCC ACAGCTCAGG AAAAAAGTAT 
    GGCTTTACCC TACGAGCCAT AAGAGTCTAC ATGGGAGAGA GTGATGTTTA TACTGTACAC 
    CATATGGTTT GGAGCATAGA AGATGGAAGT CCAGCCCATG AGGCAGGCCT TAGAGCTGGT 
    GACCTTATCA CACATGTGAA TGGCGAGTCT GTTCTTGGGC TTGTGCACAT GGATGTAGTT 
    GAGCTGCTGT TAAAGAGTGG CAGCAAAGTC TCCTTAAGGA CAACCCCCCT GGAAAACACC 
    TCTATAAAGA TTGGGCCAGC TAGGAAAAAC AGTTGCAAGG GCCGCATGGC AAGGAGGACA 
    AAAAAGAGCA GAAAACGGGA GAGCCAAGAC AGGAAGCGCT CTTTGTTTAA GAAAATTTCC 
    AAGCAGTCCA CAGTGCTACA GACCAGTAGA AGCTTCTCAT CTGGGCTTCA CCAATCTCTG 
    TCTTCCAGTG AGAGCCTTCC AGCTTCTCCC ACTCATAGTT TGTCTCCAGG TCCCACCACT 
    CCAAGTCGTA GCCCTGCCCC TGATGCAGCT GGTGATGCTG CTTCACCACA GAGTACTTCA 
    CCCTGCTCCA GCACACCAAG CTCACCTGCA GGACACATCC GACCAAGCTC CCTTCAGTGC 
    CTAACCCCCA AACTCAGTGG ACAGCGCTAC AAAGTTGGGC GCAGGAAATC TACCAGCAGC 
    ATCCCACCTT CCCCATTGGC TTGCACACCT TCACCGGTTC CACAGGCACC CTCATCTCCT 
    CAACGCTCTC CTTCCCCACT ATTACCTAGT CATCCAAGGA GTGGACATTG TGGCCTCCAG 
    GGCAAGACGT TATCACCACC AACCATCGTA AGACAAAGTG CTCGAAATCG AGCAACTGAT 
    GCACCCAGGT CACCTTTACT AAAGAGAGTG CAGTCTGTAG AAAAGATGGC AGCATTTTTG 
    TCCAGTGGGC GTAAGGCAAG CCCAGTTGAT ATCCAGCACT GGGAGGACAC AGTGGATATG 
    TTAGAGGGTA TGTCAGAATC CAGGACCAGG GATTGGAGCT CAGAGAAACA TGAGCGTGAC 
    CCAGAGGTGG TGGTAATGAG AAGGCTTAAT CTTTCAGAGA GACGGGACTC CTTCAAGAAG 
    CAAGAAGCTG TGCAAGAAGT TAGTTTTGAT GAACCAGACA CAGGAGCTGG AGAAGTGGCA 
    CCTGACAACA AGAAAATAGG GAGCTGCTCA AGTTTGTGGG AAAGATTGCC CCACCAAACT 
    TCCTGGATAC AAGCACGGAC GGGGATATCA ACATCTGTGA CAACACAGCA AGAGGCTTCA 
    TGTCGCCTTG TGCCACAAAT AGCTGTACAG ACCTCTGAGA GTGATGAGCA AGAAAAGAGC 
    CAAGGAGTCT GGGAGTGCCA AGGATTTTAC CCCTTACAGT TGTCAGGCAA GGACAACTGC 
    CCCCTTGTAA CATGGCTGTC AGAACCCACG GCTGCCAGTT CAGATAGGAA CCTGCCTGAA 
    TCTGGAAAAG TTAGTGAGTG CCAGGCTCCC TTTGCTTTAT CATCCAAACG TGACTCGAAA 
    AAAACTAGCT GA

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

    mast3 ( XM_018097015.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_017952504.1 Xenopus tropicalis microtubule associated serine/threonine kinase 3 (mast3), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OXa42039
    Clone ID Related Accession (Same CDS sequence) XM_018097015.1
    Accession Version XM_018097015.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4434bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030677.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGAAATCCA GAAGAGACAA GCTTAAAATC CCATCTTTAA CATTAGATTT ATCTCCGAAC 
    AACCAAAGCC CGACTCTGCT CAGCCCTTGT AGTCCTTGCA GCCCAAACAG CCCCCTGCAA 
    ACATTACACC CGTGGAGTTG CCGGAGCAGC AACAGGAAGA GTCTGGTGGT GGGTTCCCCA 
    TCGCCTACAC TGTCACGCCC TCTCTCTCCA CTTTCTGTGC CTACAGCAGG AAGCAGTCCT 
    TTGGATAGCC CAAGGAATTT TTCCACAAGT GCATCTGTTA ACTTCCCATT TGCCCGCAGA 
    GCTGATGGTC GCAGATGGTC TCTTGCATCT CTTCCATCTT CTGGATATGG CACGAACACT 
    CCGAGCTCCA CTCTTTCGTC TTCCTCTTCT TCCCAGGAAA GGCTGCACCA GCTTCCATTT 
    CAGCCCACTG CAGATGAACT GCATTTCCTT TCCAAACATT TCCGAAGTAC AGAGAGCATT 
    ACAGATGAGG ATGGACGGCG TTCTCCTTGC ATGCGCCCCC GCTCTCGTAG CCTCAGCCCA 
    GGTCGTGCAT CATCAAACTT TGACAATGAA ATAATTATGA TGAACCATGT TTACAAAGAG 
    AGATTCCCAA AGGCTACAGC GCAGATGGAA GAACGGTTGC AGGACATCAT CACTCATTTC 
    TGCCCCAGCC AAACACTTCC GCTGGCCGAT GGTGTTTTGG GCTTCATTCA CCATCAGATT 
    ATCGAGCTGG CTCGGGATTG CCTGGACAAA TCTAAGGGGG CACTGATAAC CTCCCGTTAC 
    TTTCTGGAGC TGCAAGAAAA GCTAGAGAAA ATGCTGCAAG ATGCACACAA TCGTTCAGAG 
    AGTGAGGAAG TTATGTTCAC AAACCATTTG GCAAGGAAAC TGCTGATGGT CATTGCCCGC 
    CCAGCAAGAC TACTGGAATG TTTGGAGTTT GATCCAGAGC AGTTTTATCA TCTGCTGGAA 
    GCTGCAGAAG GTCAGGCCAA GGTTGGCCAG GGGATAAAGA CGGACATCCC TCGTTATATA 
    ATCAACCAAC TAGGTCTCAC AAAGGACCCA CTAGAAGAGA TTGTTCAACT GGATCACTAT 
    GATACAGAAT CCTCCCTGCT ATTAGACCAA GAAGATTATC AAGATCCATG TATTTCAAGT 
    ACTCCGTCAC GAAAAAAACC TTGCGAGAGT GACTTTGAAA CCATCAAATT GATTAGCAAT 
    GGAGCTTATG GTGCTGTTTA TCTAGTCCGG CACAAGGAAA TGCGGCAGCG TTTTGCCATG 
    AAGAAGATAA ACAAGCAGAA TCTGATACTG CGCAACCAAA TTCAGCAAGT ATTTGTGGAG 
    AGAGACATCC TAACCTTTGC AGAGAATCCT TTTGTAGTCA GCATGTTCTG CTCGTTTGAG 
    ACACGTCGAC ATCTTTGTAT GGTGATGGAG TATGTGGAAG GGGGAGACTG TGCTACGCTT 
    CTAAAGAACA TGGGACCGTT GCCAGTTGAT ATGAGCCGCA TGTATTTTGC TGAAACTGTG 
    CTAGCACTAG AATATCTGCA CAACTATGGG ATAGTTCACA GAGACCTTAA ACCTGACAAT 
    TTGCTGATTA CATCACTGGG ACACATCAAG CTGACAGATT TTGGACTTTC CAAAATTGGC 
    CTTATGAACA TGACTACAAA CTTGTATGAA GGGCATATCG AGAAGGACAC AAGGGAGTTT 
    CTGGACAAAC AAGTGTGTGG GACCCCTGAA TACATTGCAC CTGAGGTGAT CCTACGGCAG 
    GGATATGGGA AGCCTGTGGA CTGGTGGGCG ATGGGCATTA TTCTTTATGA GTTTCTTGTT 
    GGCTGTGTAC CATTCTTTGG AGACACACCA GAAGAACTAT TTGGACAAGT GATCAGTGAT 
    GAAATTATAT GGCCAGGAGG AGAGGAAGCA CTTCCTACTG ATGCTCAGGA TCTAATTACC 
    CGGCTGCTGC GCCAAAACCC CCTGGAACGT TTAGGGACAG GTGGGGCCCA AGAAGTAAAG 
    CAGCATACGT TCTTCCTTCC GTTGGACTGG AATGGGCTTC TAAGGCAGAA AGCAGAGTTT 
    GTTCCCCAGT TGGAAGCAGA GGACGACACC AGTTATTTTG ACACTCGATC AGAACGGTAT 
    CATCATTTAG CTTCTGAGGA AGATGAGGAA ACAAATGACG ATGAGTCCTC GGTGGAAATC 
    CGTCAGTTTT CTTCTTGCTC CCATCGTTTC AGCAAGGTAT ATAGCAGTTC TGAGCATTTA 
    GCAACACAGC TCAATCTGAG TTTCTCTTCC ACTGAACGAA GTCACAGTGA TGAAAAGGAG 
    GAGCACAGTG ACAGGTGGGA GAGGACTCTG TCTATTGAGG AAGAAAAGAA TCGACTAGGC 
    CCTGAAAACA GGTTAAGGTC CTGGACATCA TCTGGTTCGT CCCATCATTC CTGGCTAAGT 
    GAAAGAAGTG CCAGCCCTAA TGTTCTGACC AGCACCTGCA GTCTGGATAC CATGCCCAAG 
    TTTGCTTTTT CCTCTGAAGA GGAGTCTTCT GATCACAAAC CTGAAAGACC AACTTTTACT 
    TTAGGTGAAA TGAAAGGGAC TCCTCCAAAA CCTACTTCTC TCTGTGCAGA CATTGTCAGT 
    CTTAGCAGAA CCCGCCTACG GAGCAACAGC ACTGGAGCCA AGAACTCCAC TCCTCGCCCT 
    CTGGAAGCGG GTGTTACCCG CCGGCTGCGT GGGCAGAGAG ATACACCTGA AAAACACAGT 
    TCTTCCACAG GGAGCCGGGT CCCCAAATCT GCATCTGTCT CTGCCCTGTC TCTAATAATA 
    ACAGCAGATG ATTTTGGCAG TGGATCACTT GCAAGTCCTA TTTCCCCTCG TTCTCTCTCA 
    TCTAATCCAT CCTCAAGGGA CTCCTCACCC AGCCGTGAGT CTACAGTTGC AGTATCTAGC 
    TTACGCCCAC CCATCATAAT CCACAGCTCA GGAAAAAAGT ATGGCTTTAC CCTACGAGCC 
    ATAAGAGTCT ACATGGGAGA GAGTGATGTT TATACTGTAC ACCATATGGT TTGGAGCATA 
    GAAGATGGAA GTCCAGCCCA TGAGGCAGGC CTTAGAGCTG GTGACCTTAT CACACATGTG 
    AATGGCGAGT CTGTTCTTGG GCTTGTGCAC ATGGATGTAG TTGAGCTGCT GTTAAAGAGT 
    GGCAGCAAAG TCTCCTTAAG GACAACCCCC CTGGAAAACA CCTCTATAAA GATTGGGCCA 
    GCTAGGAAAA ACAGTTGCAA GGGCCGCATG GCAAGGAGGA CAAAAAAGAG CAGAAAACGG 
    GAGAGCCAAG ACAGGAAGCG CTCTTTGTTT AAGAAAATTT CCAAGCAGTC CACAGTGCTA 
    CAGACCAGTA GAAGCTTCTC ATCTGGGCTT CACCAATCTC TGTCTTCCAG TGAGAGCCTT 
    CCAGCTTCTC CCACTCATAG TTTGTCTCCA GGTCCCACCA CTCCAAGTCG TAGCCCTGCC 
    CCTGATGCAG CTGGTGATGC TGCTTCACCA CAGAGTACTT CACCCTGCTC CAGCACACCA 
    AGCTCACCTG CAGGACACAT CCGACCAAGC TCCCTTCAGT GCCTAACCCC CAAACTCAGT 
    GGACAGCGCT ACAAAGTTGG GCGCAGGAAA TCTACCAGCA GCATCCCACC TTCCCCATTG 
    GCTTGCACAC CTTCACCGGT TCCACAGGCA CCCTCATCTC CTCAACGCTC TCCTTCCCCA 
    CTATTACCTA GTCATCCAAG GAGTGGACAT TGTGGCCTCC AGGGCAAGAC GTTATCACCA 
    CCAACCATCG TAAGACAAAG TGCTCGAAAT CGAGCAACTG ATGCACCCAG GTCACCTTTA 
    CTAAAGAGAG TGCAGTCTGT AGAAAAGATG GCAGCATTTT TGTCCAGTGG GCGTAAGGCA 
    AGCCCAGTTG ATATCCAGCA CTGGGAGGAC ACAGTGGATA TGTTAGAGGG TATGTCAGAA 
    TCCAGGACCA GGGATTGGAG CTCAGAGAAA CATGAGCGTG ACCCAGAGGT GGTGGTAATG 
    AGAAGGCTTA ATCTTTCAGA GAGACGGGAC TCCTTCAAGA AGCAAGAAGC TGTGCAAGAA 
    GTTAGTTTTG ATGAACCAGA CACAGGAGCT GGAGAAGTGG CACCTGACAA CAAGAAAATA 
    GGGAGCTGCT CAAGTTTGTG GGAAAGATTG CCCCACCAAA CTTCCTGGAT ACAAGCACGG 
    ACGGGGATAT CAACATCTGT GACAACACAG CAAGAGGCTT CATGTCGCCT TGTGCCACAA 
    ATAGCTGTAC AGACCTCTGA GAGTGATGAG CAAGAAAAGA GCCAAGGAGT CTGGGAGTGC 
    CAAGGATTTT ACCCCTTACA GTTGTCAGGC AAGGACAACT GCCCCCTTGT AACATGGCTG 
    TCAGAACCCA CGGCTGCCAG TTCAGATAGG AACCTGCCTG AATCTGGAAA AGTTAGTGAG 
    TGCCAGGCTC CCTTTGCTTT ATCATCCAAA CGTGACTCGA AAAAAACTAG CTGA

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

    RefSeq XP_017952504.1
    CDS17..4450
    Translation

    Target ORF information:

    RefSeq Version XM_018097015.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_018097015.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGAAATCCA GAAGAGACAA GCTTAAAATC CCATCTTTAA CATTAGATTT ATCTCCGAAC 
    AACCAAAGCC CGACTCTGCT CAGCCCTTGT AGTCCTTGCA GCCCAAACAG CCCCCTGCAA 
    ACATTACACC CGTGGAGTTG CCGGAGCAGC AACAGGAAGA GTCTGGTGGT GGGTTCCCCA 
    TCGCCTACAC TGTCACGCCC TCTCTCTCCA CTTTCTGTGC CTACAGCAGG AAGCAGTCCT 
    TTGGATAGCC CAAGGAATTT TTCCACAAGT GCATCTGTTA ACTTCCCATT TGCCCGCAGA 
    GCTGATGGTC GCAGATGGTC TCTTGCATCT CTTCCATCTT CTGGATATGG CACGAACACT 
    CCGAGCTCCA CTCTTTCGTC TTCCTCTTCT TCCCAGGAAA GGCTGCACCA GCTTCCATTT 
    CAGCCCACTG CAGATGAACT GCATTTCCTT TCCAAACATT TCCGAAGTAC AGAGAGCATT 
    ACAGATGAGG ATGGACGGCG TTCTCCTTGC ATGCGCCCCC GCTCTCGTAG CCTCAGCCCA 
    GGTCGTGCAT CATCAAACTT TGACAATGAA ATAATTATGA TGAACCATGT TTACAAAGAG 
    AGATTCCCAA AGGCTACAGC GCAGATGGAA GAACGGTTGC AGGACATCAT CACTCATTTC 
    TGCCCCAGCC AAACACTTCC GCTGGCCGAT GGTGTTTTGG GCTTCATTCA CCATCAGATT 
    ATCGAGCTGG CTCGGGATTG CCTGGACAAA TCTAAGGGGG CACTGATAAC CTCCCGTTAC 
    TTTCTGGAGC TGCAAGAAAA GCTAGAGAAA ATGCTGCAAG ATGCACACAA TCGTTCAGAG 
    AGTGAGGAAG TTATGTTCAC AAACCATTTG GCAAGGAAAC TGCTGATGGT CATTGCCCGC 
    CCAGCAAGAC TACTGGAATG TTTGGAGTTT GATCCAGAGC AGTTTTATCA TCTGCTGGAA 
    GCTGCAGAAG GTCAGGCCAA GGTTGGCCAG GGGATAAAGA CGGACATCCC TCGTTATATA 
    ATCAACCAAC TAGGTCTCAC AAAGGACCCA CTAGAAGAGA TTGTTCAACT GGATCACTAT 
    GATACAGAAT CCTCCCTGCT ATTAGACCAA GAAGATTATC AAGATCCATG TATTTCAAGT 
    ACTCCGTCAC GAAAAAAACC TTGCGAGAGT GACTTTGAAA CCATCAAATT GATTAGCAAT 
    GGAGCTTATG GTGCTGTTTA TCTAGTCCGG CACAAGGAAA TGCGGCAGCG TTTTGCCATG 
    AAGAAGATAA ACAAGCAGAA TCTGATACTG CGCAACCAAA TTCAGCAAGT ATTTGTGGAG 
    AGAGACATCC TAACCTTTGC AGAGAATCCT TTTGTAGTCA GCATGTTCTG CTCGTTTGAG 
    ACACGTCGAC ATCTTTGTAT GGTGATGGAG TATGTGGAAG GGGGAGACTG TGCTACGCTT 
    CTAAAGAACA TGGGACCGTT GCCAGTTGAT ATGAGCCGCA TGTATTTTGC TGAAACTGTG 
    CTAGCACTAG AATATCTGCA CAACTATGGG ATAGTTCACA GAGACCTTAA ACCTGACAAT 
    TTGCTGATTA CATCACTGGG ACACATCAAG CTGACAGATT TTGGACTTTC CAAAATTGGC 
    CTTATGAACA TGACTACAAA CTTGTATGAA GGGCATATCG AGAAGGACAC AAGGGAGTTT 
    CTGGACAAAC AAGTGTGTGG GACCCCTGAA TACATTGCAC CTGAGGTGAT CCTACGGCAG 
    GGATATGGGA AGCCTGTGGA CTGGTGGGCG ATGGGCATTA TTCTTTATGA GTTTCTTGTT 
    GGCTGTGTAC CATTCTTTGG AGACACACCA GAAGAACTAT TTGGACAAGT GATCAGTGAT 
    GAAATTATAT GGCCAGGAGG AGAGGAAGCA CTTCCTACTG ATGCTCAGGA TCTAATTACC 
    CGGCTGCTGC GCCAAAACCC CCTGGAACGT TTAGGGACAG GTGGGGCCCA AGAAGTAAAG 
    CAGCATACGT TCTTCCTTCC GTTGGACTGG AATGGGCTTC TAAGGCAGAA AGCAGAGTTT 
    GTTCCCCAGT TGGAAGCAGA GGACGACACC AGTTATTTTG ACACTCGATC AGAACGGTAT 
    CATCATTTAG CTTCTGAGGA AGATGAGGAA ACAAATGACG ATGAGTCCTC GGTGGAAATC 
    CGTCAGTTTT CTTCTTGCTC CCATCGTTTC AGCAAGGTAT ATAGCAGTTC TGAGCATTTA 
    GCAACACAGC TCAATCTGAG TTTCTCTTCC ACTGAACGAA GTCACAGTGA TGAAAAGGAG 
    GAGCACAGTG ACAGGTGGGA GAGGACTCTG TCTATTGAGG AAGAAAAGAA TCGACTAGGC 
    CCTGAAAACA GGTTAAGGTC CTGGACATCA TCTGGTTCGT CCCATCATTC CTGGCTAAGT 
    GAAAGAAGTG CCAGCCCTAA TGTTCTGACC AGCACCTGCA GTCTGGATAC CATGCCCAAG 
    TTTGCTTTTT CCTCTGAAGA GGAGTCTTCT GATCACAAAC CTGAAAGACC AACTTTTACT 
    TTAGGTGAAA TGAAAGGGAC TCCTCCAAAA CCTACTTCTC TCTGTGCAGA CATTGTCAGT 
    CTTAGCAGAA CCCGCCTACG GAGCAACAGC ACTGGAGCCA AGAACTCCAC TCCTCGCCCT 
    CTGGAAGCGG GTGTTACCCG CCGGCTGCGT GGGCAGAGAG ATACACCTGA AAAACACAGT 
    TCTTCCACAG GGAGCCGGGT CCCCAAATCT GCATCTGTCT CTGCCCTGTC TCTAATAATA 
    ACAGCAGATG ATTTTGGCAG TGGATCACTT GCAAGTCCTA TTTCCCCTCG TTCTCTCTCA 
    TCTAATCCAT CCTCAAGGGA CTCCTCACCC AGCCGTGAGT CTACAGTTGC AGTATCTAGC 
    TTACGCCCAC CCATCATAAT CCACAGCTCA GGAAAAAAGT ATGGCTTTAC CCTACGAGCC 
    ATAAGAGTCT ACATGGGAGA GAGTGATGTT TATACTGTAC ACCATATGGT TTGGAGCATA 
    GAAGATGGAA GTCCAGCCCA TGAGGCAGGC CTTAGAGCTG GTGACCTTAT CACACATGTG 
    AATGGCGAGT CTGTTCTTGG GCTTGTGCAC ATGGATGTAG TTGAGCTGCT GTTAAAGAGT 
    GGCAGCAAAG TCTCCTTAAG GACAACCCCC CTGGAAAACA CCTCTATAAA GATTGGGCCA 
    GCTAGGAAAA ACAGTTGCAA GGGCCGCATG GCAAGGAGGA CAAAAAAGAG CAGAAAACGG 
    GAGAGCCAAG ACAGGAAGCG CTCTTTGTTT AAGAAAATTT CCAAGCAGTC CACAGTGCTA 
    CAGACCAGTA GAAGCTTCTC ATCTGGGCTT CACCAATCTC TGTCTTCCAG TGAGAGCCTT 
    CCAGCTTCTC CCACTCATAG TTTGTCTCCA GGTCCCACCA CTCCAAGTCG TAGCCCTGCC 
    CCTGATGCAG CTGGTGATGC TGCTTCACCA CAGAGTACTT CACCCTGCTC CAGCACACCA 
    AGCTCACCTG CAGGACACAT CCGACCAAGC TCCCTTCAGT GCCTAACCCC CAAACTCAGT 
    GGACAGCGCT ACAAAGTTGG GCGCAGGAAA TCTACCAGCA GCATCCCACC TTCCCCATTG 
    GCTTGCACAC CTTCACCGGT TCCACAGGCA CCCTCATCTC CTCAACGCTC TCCTTCCCCA 
    CTATTACCTA GTCATCCAAG GAGTGGACAT TGTGGCCTCC AGGGCAAGAC GTTATCACCA 
    CCAACCATCG TAAGACAAAG TGCTCGAAAT CGAGCAACTG ATGCACCCAG GTCACCTTTA 
    CTAAAGAGAG TGCAGTCTGT AGAAAAGATG GCAGCATTTT TGTCCAGTGG GCGTAAGGCA 
    AGCCCAGTTG ATATCCAGCA CTGGGAGGAC ACAGTGGATA TGTTAGAGGG TATGTCAGAA 
    TCCAGGACCA GGGATTGGAG CTCAGAGAAA CATGAGCGTG ACCCAGAGGT GGTGGTAATG 
    AGAAGGCTTA ATCTTTCAGA GAGACGGGAC TCCTTCAAGA AGCAAGAAGC TGTGCAAGAA 
    GTTAGTTTTG ATGAACCAGA CACAGGAGCT GGAGAAGTGG CACCTGACAA CAAGAAAATA 
    GGGAGCTGCT CAAGTTTGTG GGAAAGATTG CCCCACCAAA CTTCCTGGAT ACAAGCACGG 
    ACGGGGATAT CAACATCTGT GACAACACAG CAAGAGGCTT CATGTCGCCT TGTGCCACAA 
    ATAGCTGTAC AGACCTCTGA GAGTGATGAG CAAGAAAAGA GCCAAGGAGT CTGGGAGTGC 
    CAAGGATTTT ACCCCTTACA GTTGTCAGGC AAGGACAACT GCCCCCTTGT AACATGGCTG 
    TCAGAACCCA CGGCTGCCAG TTCAGATAGG AACCTGCCTG AATCTGGAAA AGTTAGTGAG 
    TGCCAGGCTC CCTTTGCTTT ATCATCCAAA CGTGACTCGA AAAAAACTAG CTGA

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

    mast3 ( XM_018097016.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_017952505.1 Xenopus tropicalis microtubule associated serine/threonine kinase 3 (mast3), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OXa42040
    Clone ID Related Accession (Same CDS sequence) XM_018097016.1
    Accession Version XM_018097016.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4431bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030677.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGAAATCCA GAAGAGACAA GCTTAAAATC CCATCTTTAA CATTAGATTT ATCTCCGAAC 
    AACCAAAGCC CGACTCTGCT CAGCCCTTGT AGTCCTTGCA GCCCAAACAG CCCCCTGCAA 
    ACATTACACC CGTGGAGTTG CCGGAGCAGC AACAGGAAGA GTCTGGTGGT GGGTTCCCCA 
    TCGCCTACAC TGTCACGCCC TCTCTCTCCA CTTTCTGTGC CTACAGGAAG CAGTCCTTTG 
    GATAGCCCAA GGAATTTTTC CACAAGTGCA TCTGTTAACT TCCCATTTGC CCGCAGAGCT 
    GATGGTCGCA GATGGTCTCT TGCATCTCTT CCATCTTCTG GATATGGCAC GAACACTCCG 
    AGCTCCACTC TTTCGTCTTC CTCTTCTTCC CAGGAAAGGC TGCACCAGCT TCCATTTCAG 
    CCCACTGCAG ATGAACTGCA TTTCCTTTCC AAACATTTCC GAAGTACAGA GAGCATTACA 
    GATGAGGATG GACGGCGTTC TCCTTGCATG CGCCCCCGCT CTCGTAGCCT CAGCCCAGGT 
    CGTGCATCAT CAAACTTTGA CAATGAAATA ATTATGATGA ACCATGTTTA CAAAGAGAGA 
    TTCCCAAAGG CTACAGCGCA GATGGAAGAA CGGTTGCAGG ACATCATCAC TCATTTCTGC 
    CCCAGCCAAA CACTTCCGCT GGCCGATGGT GTTTTGGGCT TCATTCACCA TCAGATTATC 
    GAGCTGGCTC GGGATTGCCT GGACAAATCT AAGGGGGCAC TGATAACCTC CCGTTACTTT 
    CTGGAGCTGC AAGAAAAGCT AGAGAAAATG CTGCAAGATG CACACAATCG TTCAGAGAGT 
    GAGGAAGTTA TGTTCACAAA CCATTTGGCA AGGAAACTGC TGATGGTCAT TGCCCGCCCA 
    GCAAGACTAC TGGAATGTTT GGAGTTTGAT CCAGAGCAGT TTTATCATCT GCTGGAAGCT 
    GCAGAAGGTC AGGCCAAGGT TGGCCAGGGG ATAAAGACGG ACATCCCTCG TTATATAATC 
    AACCAACTAG GTCTCACAAA GGACCCACTA GAAGAGATTG TTCAACTGGA TCACTATGAT 
    ACAGAATCCT CCCTGCTATT AGACCAAGAA GATTATCAAG ATCCATGTAT TTCAAGTACT 
    CCGTCACGAA AAAAACCTTG CGAGAGTGAC TTTGAAACCA TCAAATTGAT TAGCAATGGA 
    GCTTATGGTG CTGTTTATCT AGTCCGGCAC AAGGAAATGC GGCAGCGTTT TGCCATGAAG 
    AAGATAAACA AGCAGAATCT GATACTGCGC AACCAAATTC AGCAAGTATT TGTGGAGAGA 
    GACATCCTAA CCTTTGCAGA GAATCCTTTT GTAGTCAGCA TGTTCTGCTC GTTTGAGACA 
    CGTCGACATC TTTGTATGGT GATGGAGTAT GTGGAAGGGG GAGACTGTGC TACGCTTCTA 
    AAGAACATGG GACCGTTGCC AGTTGATATG AGCCGCATGT ATTTTGCTGA AACTGTGCTA 
    GCACTAGAAT ATCTGCACAA CTATGGGATA GTTCACAGAG ACCTTAAACC TGACAATTTG 
    CTGATTACAT CACTGGGACA CATCAAGCTG ACAGATTTTG GACTTTCCAA AATTGGCCTT 
    ATGAACATGA CTACAAACTT GTATGAAGGG CATATCGAGA AGGACACAAG GGAGTTTCTG 
    GACAAACAAG TGTGTGGGAC CCCTGAATAC ATTGCACCTG AGGTGATCCT ACGGCAGGGA 
    TATGGGAAGC CTGTGGACTG GTGGGCGATG GGCATTATTC TTTATGAGTT TCTTGTTGGC 
    TGTGTACCAT TCTTTGGAGA CACACCAGAA GAACTATTTG GACAAGTGAT CAGTGATGAA 
    ATTATATGGC CAGGAGGAGA GGAAGCACTT CCTACTGATG CTCAGGATCT AATTACCCGG 
    CTGCTGCGCC AAAACCCCCT GGAACGTTTA GGGACAGGTG GGGCCCAAGA AGTAAAGCAG 
    CATACGTTCT TCCTTCCGTT GGACTGGAAT GGGCTTCTAA GGCAGAAAGC AGAGTTTGTT 
    CCCCAGTTGG AAGCAGAGGA CGACACCAGT TATTTTGACA CTCGATCAGA ACGGTATCAT 
    CATTTAGCTT CTGAGGAAGA TGAGGAAACA AATGACGATG AGTCCTCGGT GGAAATCCGT 
    CAGTTTTCTT CTTGCTCCCA TCGTTTCAGC AAGGTATATA GCAGTTCTGA GCATTTAGCA 
    ACACAGCTCA ATCTGAGTTT CTCTTCCACT GAACGAAGTC ACAGTGATGA AAAGGAGGAG 
    CACAGTGACA GGTGGGAGAG GACTCTGTCT ATTGAGGAAG AAAAGAATCG ACTAGGCCCT 
    GAAAACAGGT TAAGGTCCTG GACATCATCT GGTTCGTCCC ATCATTCCTG GCTAAGTGAA 
    AGAAGTGCCA GCCCTAATGT TCTGACCAGC ACCTGCAGTC TGGATACCAT GCCCAAGTTT 
    GCTTTTTCCT CTGAAGAGGA GTCTTCTGAT CACAAACCTG AAAGACCAAC TTTTACTTTA 
    GGTGAAATGA AAGGGACTCC TCCAAAACCT ACTTCTCTCT GTGCAGACAT TGTCAGTCTT 
    AGCAGAACCC GCCTACGGAG CAACAGCACT GGAGCCAAGA ACTCCACTCC TCGCCCTCTG 
    GAAGCGGGTG TTACCCGCCG GCTGCGTGGG CAGAGAGATA CACCTGAAAA ACACAGTTCT 
    TCCACAGGGA GCCGGGTCCC CAAATCTGCA TCTGTCTCTG CCCTGTCTCT AATAATAACA 
    GCAGATGATT TTGGCAGTGG ATCACTTGCA AGTCCTATTT CCCCTCGTTC TCTCTCATCT 
    AATCCATCCT CAAGGGACTC CTCACCCAGC CGTGAGTCTA CAGTTGCAGT ATCTAGCTTA 
    CGCCCACCCA TCATAATCCA CAGCTCAGGA AAAAAGTATG GCTTTACCCT ACGAGCCATA 
    AGAGTCTACA TGGGAGAGAG TGATGTTTAT ACTGTACACC ATATGGTTTG GAGCATAGAA 
    GATGGAAGTC CAGCCCATGA GGCAGGCCTT AGAGCTGGTG ACCTTATCAC ACATGTGAAT 
    GGCGAGTCTG TTCTTGGGCT TGTGCACATG GATGTAGTTG AGCTGCTGTT AAAGAGTGGC 
    AGCAAAGTCT CCTTAAGGAC AACCCCCCTG GAAAACACCT CTATAAAGAT TGGGCCAGCT 
    AGGAAAAACA GTTGCAAGGG CCGCATGGCA AGGAGGACAA AAAAGAGCAG AAAACGGGAG 
    AGCCAAGACA GGAAGCGCTC TTTGTTTAAG AAAATTTCCA AGCAGTCCAC AGTGCTACAG 
    ACCAGTAGAA GCTTCTCATC TGGGCTTCAC CAATCTCTGT CTTCCAGTGA GAGCCTTCCA 
    GCTTCTCCCA CTCATAGTTT GTCTCCAGGT CCCACCACTC CAAGTCGTAG CCCTGCCCCT 
    GATGCAGCTG GTGATGCTGC TTCACCACAG AGTACTTCAC CCTGCTCCAG CACACCAAGC 
    TCACCTGCAG GACACATCCG ACCAAGCTCC CTTCAGTGCC TAACCCCCAA ACTCAGTGGA 
    CAGCGCTACA AAGTTGGGCG CAGGAAATCT ACCAGCAGCA TCCCACCTTC CCCATTGGCT 
    TGCACACCTT CACCGGTTCC ACAGGCACCC TCATCTCCTC AACGCTCTCC TTCCCCACTA 
    TTACCTAGTC ATCCAAGGAG TGGACATTGT GGCCTCCAGG GCAAGACGTT ATCACCACCA 
    ACCATCGTAA GACAAAGTGC TCGAAATCGA GCAACTGATG CACCCAGGTC ACCTTTACTA 
    AAGAGAGTGC AGTCTGTAGA AAAGATGGCA GCATTTTTGT CCAGTGGGCG TAAGGCAAGC 
    CCAGTTGATA TCCAGCACTG GGAGGACACA GTGGATATGT TAGAGGGTAT GTCAGAATCC 
    AGGACCAGGG ATTGGAGCTC AGAGAAACAT GAGCGTGACC CAGAGGTGGT GGTAATGAGA 
    AGGCTTAATC TTTCAGAGAG ACGGGACTCC TTCAAGAAGC AAGAAGCTGT GCAAGAAGTT 
    AGTTTTGATG AACCAGACAC AGGAGCTGGA GAAGTGGCAC CTGACAACAA GAAAATAGGG 
    AGCTGCTCAA GTTTGTGGGA AAGATTGCCC CACCAAACTT CCTGGATACA AGCACGGACG 
    GGGATATCAA CATCTGTGAC AACACAGCAA GAGGCTTCAT GTCGCCTTGT GCCACAAATA 
    GCTGTACAGA CCTCTGAGAG TGATGAGCAA GAAAAGAGCC AAGGAGTCTG GGAGTGCCAA 
    GGATTTTACC CCTTACAGTT GTCAGGCAAG GACAACTGCC CCCTTGTAAC ATGGCTGTCA 
    GAACCCACGG CTGCCAGTTC AGATAGGAAC CTGCCTGAAT CTGGAAAAGT TAGTGAGTGC 
    CAGGCTCCCT TTGCTTTATC ATCCAAACGT GACTCGAAAA AAACTAGCTG A

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

    RefSeq XP_017952505.1
    CDS18..4448
    Translation

    Target ORF information:

    RefSeq Version XM_018097016.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_018097016.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGAAATCCA GAAGAGACAA GCTTAAAATC CCATCTTTAA CATTAGATTT ATCTCCGAAC 
    AACCAAAGCC CGACTCTGCT CAGCCCTTGT AGTCCTTGCA GCCCAAACAG CCCCCTGCAA 
    ACATTACACC CGTGGAGTTG CCGGAGCAGC AACAGGAAGA GTCTGGTGGT GGGTTCCCCA 
    TCGCCTACAC TGTCACGCCC TCTCTCTCCA CTTTCTGTGC CTACAGGAAG CAGTCCTTTG 
    GATAGCCCAA GGAATTTTTC CACAAGTGCA TCTGTTAACT TCCCATTTGC CCGCAGAGCT 
    GATGGTCGCA GATGGTCTCT TGCATCTCTT CCATCTTCTG GATATGGCAC GAACACTCCG 
    AGCTCCACTC TTTCGTCTTC CTCTTCTTCC CAGGAAAGGC TGCACCAGCT TCCATTTCAG 
    CCCACTGCAG ATGAACTGCA TTTCCTTTCC AAACATTTCC GAAGTACAGA GAGCATTACA 
    GATGAGGATG GACGGCGTTC TCCTTGCATG CGCCCCCGCT CTCGTAGCCT CAGCCCAGGT 
    CGTGCATCAT CAAACTTTGA CAATGAAATA ATTATGATGA ACCATGTTTA CAAAGAGAGA 
    TTCCCAAAGG CTACAGCGCA GATGGAAGAA CGGTTGCAGG ACATCATCAC TCATTTCTGC 
    CCCAGCCAAA CACTTCCGCT GGCCGATGGT GTTTTGGGCT TCATTCACCA TCAGATTATC 
    GAGCTGGCTC GGGATTGCCT GGACAAATCT AAGGGGGCAC TGATAACCTC CCGTTACTTT 
    CTGGAGCTGC AAGAAAAGCT AGAGAAAATG CTGCAAGATG CACACAATCG TTCAGAGAGT 
    GAGGAAGTTA TGTTCACAAA CCATTTGGCA AGGAAACTGC TGATGGTCAT TGCCCGCCCA 
    GCAAGACTAC TGGAATGTTT GGAGTTTGAT CCAGAGCAGT TTTATCATCT GCTGGAAGCT 
    GCAGAAGGTC AGGCCAAGGT TGGCCAGGGG ATAAAGACGG ACATCCCTCG TTATATAATC 
    AACCAACTAG GTCTCACAAA GGACCCACTA GAAGAGATTG TTCAACTGGA TCACTATGAT 
    ACAGAATCCT CCCTGCTATT AGACCAAGAA GATTATCAAG ATCCATGTAT TTCAAGTACT 
    CCGTCACGAA AAAAACCTTG CGAGAGTGAC TTTGAAACCA TCAAATTGAT TAGCAATGGA 
    GCTTATGGTG CTGTTTATCT AGTCCGGCAC AAGGAAATGC GGCAGCGTTT TGCCATGAAG 
    AAGATAAACA AGCAGAATCT GATACTGCGC AACCAAATTC AGCAAGTATT TGTGGAGAGA 
    GACATCCTAA CCTTTGCAGA GAATCCTTTT GTAGTCAGCA TGTTCTGCTC GTTTGAGACA 
    CGTCGACATC TTTGTATGGT GATGGAGTAT GTGGAAGGGG GAGACTGTGC TACGCTTCTA 
    AAGAACATGG GACCGTTGCC AGTTGATATG AGCCGCATGT ATTTTGCTGA AACTGTGCTA 
    GCACTAGAAT ATCTGCACAA CTATGGGATA GTTCACAGAG ACCTTAAACC TGACAATTTG 
    CTGATTACAT CACTGGGACA CATCAAGCTG ACAGATTTTG GACTTTCCAA AATTGGCCTT 
    ATGAACATGA CTACAAACTT GTATGAAGGG CATATCGAGA AGGACACAAG GGAGTTTCTG 
    GACAAACAAG TGTGTGGGAC CCCTGAATAC ATTGCACCTG AGGTGATCCT ACGGCAGGGA 
    TATGGGAAGC CTGTGGACTG GTGGGCGATG GGCATTATTC TTTATGAGTT TCTTGTTGGC 
    TGTGTACCAT TCTTTGGAGA CACACCAGAA GAACTATTTG GACAAGTGAT CAGTGATGAA 
    ATTATATGGC CAGGAGGAGA GGAAGCACTT CCTACTGATG CTCAGGATCT AATTACCCGG 
    CTGCTGCGCC AAAACCCCCT GGAACGTTTA GGGACAGGTG GGGCCCAAGA AGTAAAGCAG 
    CATACGTTCT TCCTTCCGTT GGACTGGAAT GGGCTTCTAA GGCAGAAAGC AGAGTTTGTT 
    CCCCAGTTGG AAGCAGAGGA CGACACCAGT TATTTTGACA CTCGATCAGA ACGGTATCAT 
    CATTTAGCTT CTGAGGAAGA TGAGGAAACA AATGACGATG AGTCCTCGGT GGAAATCCGT 
    CAGTTTTCTT CTTGCTCCCA TCGTTTCAGC AAGGTATATA GCAGTTCTGA GCATTTAGCA 
    ACACAGCTCA ATCTGAGTTT CTCTTCCACT GAACGAAGTC ACAGTGATGA AAAGGAGGAG 
    CACAGTGACA GGTGGGAGAG GACTCTGTCT ATTGAGGAAG AAAAGAATCG ACTAGGCCCT 
    GAAAACAGGT TAAGGTCCTG GACATCATCT GGTTCGTCCC ATCATTCCTG GCTAAGTGAA 
    AGAAGTGCCA GCCCTAATGT TCTGACCAGC ACCTGCAGTC TGGATACCAT GCCCAAGTTT 
    GCTTTTTCCT CTGAAGAGGA GTCTTCTGAT CACAAACCTG AAAGACCAAC TTTTACTTTA 
    GGTGAAATGA AAGGGACTCC TCCAAAACCT ACTTCTCTCT GTGCAGACAT TGTCAGTCTT 
    AGCAGAACCC GCCTACGGAG CAACAGCACT GGAGCCAAGA ACTCCACTCC TCGCCCTCTG 
    GAAGCGGGTG TTACCCGCCG GCTGCGTGGG CAGAGAGATA CACCTGAAAA ACACAGTTCT 
    TCCACAGGGA GCCGGGTCCC CAAATCTGCA TCTGTCTCTG CCCTGTCTCT AATAATAACA 
    GCAGATGATT TTGGCAGTGG ATCACTTGCA AGTCCTATTT CCCCTCGTTC TCTCTCATCT 
    AATCCATCCT CAAGGGACTC CTCACCCAGC CGTGAGTCTA CAGTTGCAGT ATCTAGCTTA 
    CGCCCACCCA TCATAATCCA CAGCTCAGGA AAAAAGTATG GCTTTACCCT ACGAGCCATA 
    AGAGTCTACA TGGGAGAGAG TGATGTTTAT ACTGTACACC ATATGGTTTG GAGCATAGAA 
    GATGGAAGTC CAGCCCATGA GGCAGGCCTT AGAGCTGGTG ACCTTATCAC ACATGTGAAT 
    GGCGAGTCTG TTCTTGGGCT TGTGCACATG GATGTAGTTG AGCTGCTGTT AAAGAGTGGC 
    AGCAAAGTCT CCTTAAGGAC AACCCCCCTG GAAAACACCT CTATAAAGAT TGGGCCAGCT 
    AGGAAAAACA GTTGCAAGGG CCGCATGGCA AGGAGGACAA AAAAGAGCAG AAAACGGGAG 
    AGCCAAGACA GGAAGCGCTC TTTGTTTAAG AAAATTTCCA AGCAGTCCAC AGTGCTACAG 
    ACCAGTAGAA GCTTCTCATC TGGGCTTCAC CAATCTCTGT CTTCCAGTGA GAGCCTTCCA 
    GCTTCTCCCA CTCATAGTTT GTCTCCAGGT CCCACCACTC CAAGTCGTAG CCCTGCCCCT 
    GATGCAGCTG GTGATGCTGC TTCACCACAG AGTACTTCAC CCTGCTCCAG CACACCAAGC 
    TCACCTGCAG GACACATCCG ACCAAGCTCC CTTCAGTGCC TAACCCCCAA ACTCAGTGGA 
    CAGCGCTACA AAGTTGGGCG CAGGAAATCT ACCAGCAGCA TCCCACCTTC CCCATTGGCT 
    TGCACACCTT CACCGGTTCC ACAGGCACCC TCATCTCCTC AACGCTCTCC TTCCCCACTA 
    TTACCTAGTC ATCCAAGGAG TGGACATTGT GGCCTCCAGG GCAAGACGTT ATCACCACCA 
    ACCATCGTAA GACAAAGTGC TCGAAATCGA GCAACTGATG CACCCAGGTC ACCTTTACTA 
    AAGAGAGTGC AGTCTGTAGA AAAGATGGCA GCATTTTTGT CCAGTGGGCG TAAGGCAAGC 
    CCAGTTGATA TCCAGCACTG GGAGGACACA GTGGATATGT TAGAGGGTAT GTCAGAATCC 
    AGGACCAGGG ATTGGAGCTC AGAGAAACAT GAGCGTGACC CAGAGGTGGT GGTAATGAGA 
    AGGCTTAATC TTTCAGAGAG ACGGGACTCC TTCAAGAAGC AAGAAGCTGT GCAAGAAGTT 
    AGTTTTGATG AACCAGACAC AGGAGCTGGA GAAGTGGCAC CTGACAACAA GAAAATAGGG 
    AGCTGCTCAA GTTTGTGGGA AAGATTGCCC CACCAAACTT CCTGGATACA AGCACGGACG 
    GGGATATCAA CATCTGTGAC AACACAGCAA GAGGCTTCAT GTCGCCTTGT GCCACAAATA 
    GCTGTACAGA CCTCTGAGAG TGATGAGCAA GAAAAGAGCC AAGGAGTCTG GGAGTGCCAA 
    GGATTTTACC CCTTACAGTT GTCAGGCAAG GACAACTGCC CCCTTGTAAC ATGGCTGTCA 
    GAACCCACGG CTGCCAGTTC AGATAGGAAC CTGCCTGAAT CTGGAAAAGT TAGTGAGTGC 
    CAGGCTCCCT TTGCTTTATC ATCCAAACGT GACTCGAAAA AAACTAGCTG A

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

    mast3 ( XM_031905199.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031761059.1 Xenopus tropicalis microtubule associated serine/threonine kinase 3 (mast3), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OXa48540
    Clone ID Related Accession (Same CDS sequence) XM_031905199.1
    Accession Version XM_031905199.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4479bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030677.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGATGAGC CCAGCATCCT AAGGAGGCGA GGGTTGCAGA AAGAGTTAAG TCTGCCACGC 
    CGTGGGAGCA TTTTATCTCC GAACAACCAA AGCCCGACTC TGCTCAGCCC TTGTAGTCCT 
    TGCAGCCCAA ACAGCCCCCT GCAAACATTA CACCCGTGGA GTTGCCGGAG CAGCAACAGG 
    AAGAGTCTGG TGGTGGGTTC CCCATCGCCT ACACTGTCAC GCCCTCTCTC TCCACTTTCT 
    GTGCCTACAG CAGGAAGCAG TCCTTTGGAT AGCCCAAGGA ATTTTTCCAC AAGTGCATCT 
    GTTAACTTCC CATTTGCCCG CAGTCATGGC CCTCGTGCAG ACAGAGCTGA TGGTCGCAGA 
    TGGTCTCTTG CATCTCTTCC ATCTTCTGGA TATGGCACGA ACACTCCGAG CTCCACTCTT 
    TCGTCTTCCT CTTCTTCCCA GGAAAGGCTG CACCAGCTTC CATTTCAGCC CACTGCAGAT 
    GAACTGCATT TCCTTTCCAA ACATTTCCGA AGTACAGAGA GCATTACAGA TGAGGATGGA 
    CGGCGTTCTC CTTGCATGCG CCCCCGCTCT CGTAGCCTCA GCCCAGGTCG TGCATCATCA 
    AACTTTGACA ATGAAATAAT TATGATGAAC CATGTTTACA AAGAGAGATT CCCAAAGGCT 
    ACAGCGCAGA TGGAAGAACG GTTGCAGGAC ATCATCACTC ATTTCTGCCC CAGCCAAACA 
    CTTCCGCTGG CCGATGGTGT TTTGGGCTTC ATTCACCATC AGATTATCGA GCTGGCTCGG 
    GATTGCCTGG ACAAATCTAA GGGGGCACTG ATAACCTCCC GTTACTTTCT GGAGCTGCAA 
    GAAAAGCTAG AGAAAATGCT GCAAGATGCA CACAATCGTT CAGAGAGTGA GGAAGTTATG 
    TTCACAAACC ATTTGGCAAG GAAACTGCTG ATGGTCATTG CCCGCCCAGC AAGACTACTG 
    GAATGTTTGG AGTTTGATCC AGAGCAGTTT TATCATCTGC TGGAAGCTGC AGAAGGTCAG 
    GCCAAGGTTG GCCAGGGGAT AAAGACGGAC ATCCCTCGTT ATATAATCAA CCAACTAGGT 
    CTCACAAAGG ACCCACTAGA AGAGATTGTT CAACTGGATC ACTATGATAC AGAATCCTCC 
    CTGCTATTAG ACCAAGAAGA TTATCAAGAT CCATGTATTT CAAGTACTCC GTCACGAAAA 
    AAACCTTGCG AGAGTGACTT TGAAACCATC AAATTGATTA GCAATGGAGC TTATGGTGCT 
    GTATATCTAG TCCGGCACAA GGAAATGCGA CAGCGTTTTG CCATGAAGAA GATAAACAAG 
    CAGAATCTGA TACTGCGCAA CCAAATTCAG CAAGTATTTG TGGAGAGAGA CATCCTAACC 
    TTTGCAGAGA ATCCTTTTGT AGTCAGCATG TTCTGCTCGT TTGAGACACG TCGACATCTC 
    TGTATGGTGA TGGAGTATGT GGAAGGGGGA GACTGTGCTA CGCTTCTAAA GAACATGGGA 
    CCGTTGCCAG TTGATATGAG CCGCATGTAT TTTGCTGAAA CTGTGCTAGC ACTAGAATAT 
    CTGCACAACT ATGGGATAGT TCACAGAGAC CTTAAACCTG ACAATTTGCT GATTACATCA 
    CTGGGACACA TCAAGCTGAC AGATTTTGGA CTTTCCAAAA TTGGCCTTAT GAACATGACT 
    ACAAACTTGT ATGAAGGGCA TATCGAGAAG GACACAAGGG AGTTTCTGGA CAAACAAGTG 
    TGTGGGACCC CTGAATACAT TGCACCTGAG GTGATCCTAC GGCAGGGATA TGGGAAGCCT 
    GTGGACTGGT GGGCGATGGG CATTATTCTT TATGAGTTTC TTGTTGGCTG TGTACCATTC 
    TTTGGAGACA CACCAGAAGA ACTATTTGGA CAAGTGATCA GTGATGAAAT TATATGGCCA 
    GGAGGAGAGG AAGCACTTCC TACTGATGCT CAGGATCTAA TTACCCGGCT GCTGCGCCAA 
    AACCCCCTGG AACGTTTAGG GACAGGTGGG GCCCAAGAAG TAAAGCAGCA TACGTTCTTC 
    CTTCCGTTGG ACTGGAATGG GCTTCTAAGG CAGAAAGCAG AGTTTGTTCC CCAGTTGGAA 
    GCAGAGGACG ACACCAGTTA TTTTGACACT CGATCAGAAC GGTATCATCA TTTAGCTTCT 
    GAGGAAGATG AGGAAACAAA TGACGATGAG TCCTCGGTGG AAATCCGTCA GTTTTCTTCT 
    TGCTCCCATC GTTTCAGCAA GGTATATAGC AGTTCTGAGC ATTTAGCAAC ACAGCTCAAT 
    CTGAGTTTCT CTTCCACTGA ACGAAGTCAC AGTGATGAAA AGGAGGAGCA CAGTGACAGG 
    TGGGAGAGGA CTCTGTCTAT TGAGGAAGAA AAGAATCGAC TAGGCCCTGA AAACAGGTTA 
    AGGTCCTGGA CATCATCTGG TTCGTCCCAT CATTCCTGGC TAAGTGAAAG AAGTGCCAGC 
    CCTAATGTTC TGACCAGCAC CTGCAGTCTG GATACCATGC CCAAGTTTGC TTTTTCCTCT 
    GAAGAGGAGT CTTCTGATCA CAAACCTGAA AGACCAACTT TTACTTTAGG TGAAATGAAA 
    GGGACTCCTC CAAAACCTAC TTCTCTCTGT GCAGACATTG TCAGTCTTAG CAGAACCCGC 
    CTACGGAGCA ACAGCACTGG AGCCAAGAAC TCCACTCCTC GCCCTCTGGA AGCGGGTGTT 
    ACCCGCCGGC TGCGTGGGCA GAGAGATACA CCTGAAAAAC ACAGTTCTTC CACAGGGAGC 
    CGGGTCCCCA AATCTGCATC TGTCTCTGCC CTGTCTCTAA TAATAACAGC AGATGATTTT 
    GGCAGTGGAT CACTTGCAAG TCCTATTTCC CCTCGTTCTC TCTCATCTAA TCCATCCTCA 
    AGGGACTCCT CACCCAGCCG TGAGTCTACA GTTGCAGTAT CTAGCTTACG CCCACCCATC 
    ATAATCCACA GCTCAGGAAA AAAGTATGGC TTTACCCTAC GAGCCATAAG AGTCTACATG 
    GGAGAGAGTG ATGTTTATAC TGTACACCAT ATGGTTTGGA GCATAGAAGA TGGAAGTCCA 
    GCCCATGAGG CAGGCCTTAG AGCTGGTGAC CTTATCACAC ATGTGAATGG CGAGTCTGTT 
    CTTGGGCTTG TGCACATGGA TGTAGTTGAG CTGCTGTTAA AGAGTGGCAG CAAAGTCTCC 
    TTAAGGACAA CCCCCCTGGA AAACACCTCT ATAAAGATTG GGCCAGCTAG GAAAAACAGT 
    TGCAAGGGCC GCATGGCAAG GAGGACAAAA AAGAGCAGAA AACGGGAGAG CCAAGACAGG 
    AAGCGCTCTT TGTTTAAGAA AATTTCCAAG CAGTCCACAG TGCTACAGAC CAGTAGAAGC 
    TTCTCATCTG GGCTTCACCA ATCTCTGTCT TCCAGTGAGA GCCTTCCAGC TTCTCCCACT 
    CATAGTTTGT CTCCAGGTCC CACCACTCCA AGTCGTAGCC CTGCCCCTGA TGCAGCTGGT 
    GATGCTGCTT CACCACAGAG TACTTCACCC TGCTCCAGCA CACCAAGCTC ACCTGCAGGA 
    CACATCCGAC CAAGCTCCCT TCAGTGCCTA ACCCCCAAAC TCAGTGGACA GCGCTACAAA 
    GTTGGGCGCA GGAAATCTAC CAGCAGCATC CCACCTTCCC CATTGGCTTG CACACCTTCA 
    CCGGTTCCAC AGGCACCCTC ATCTCCTCAA CGCTCTCCTT CCCCACTATT ACCTAGTCAT 
    CCAAGGAGTG GACATTGTGG CCTCCAGGGC AAGACGTTAT CACCACCAAC CATCGTAAGA 
    CAAAGTGCTC GAAATCGAGC AACTGATGCA CCCAGGTCAC CTTTACTAAA GAGAGTGCAG 
    TCTGTAGAAA AGATGGCAGC ATTTTTGTCC AGTGGGCGTA AGGCAAGCCC AGTTGATATC 
    CAGCACTGGG AGGACACAGT GGATATGTTA GAGGGTATGT CAGAATCCAG GACCAGGGAT 
    TGGAGCTCAG AGAAACATGA GCGTGACCCA GAGGTGGTGG TAATGAGAAG GCTTAATCTT 
    TCAGAGAGAC GGGACTCCTT CAAGAAGCAA GAAGCTGTGC AAGAAGTTAG TTTTGATGAA 
    CCAGACACAG GAGCTGGAGA AGTGGCACCT GACAACAAGA AAATAGGGAG CTGCTCAAGT 
    TTGTGGGAAA GATTGCCCCA CCAAACTTCC TGGATACAAG CACGGACGGG GATATCAACA 
    TCTGTGACAA CACAGCAAGA GGCTTCATGT CGCCTTGTGC CACAAATAGC TGTACAGACC 
    TCTGAGAGTG ATGAGCAAGA AAAGAGCCAA GGAGTCTGGG AGTGCCAAGG ATTTTACCCC 
    TTACAGTTGT CAGGCAAGGA CAACTGCCCC CTTGTAACAT GGCTGTCAGA ACCCACGGCT 
    GCCAGTTCAG ATAGGAACCT GCCTGAATCT GGAAAAGTTA GTGAGTGCCA GGCTCCCTTT 
    GCTTTATCAT CCAAACGTGA CTCGAAAAAA ACTAGCTGA

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

    RefSeq XP_031761059.1
    CDS16..4494
    Translation

    Target ORF information:

    RefSeq Version XM_031905199.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_031905199.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGATGAGC CCAGCATCCT AAGGAGGCGA GGGTTGCAGA AAGAGTTAAG TCTGCCACGC 
    CGTGGGAGCA TTTTATCTCC GAACAACCAA AGCCCGACTC TGCTCAGCCC TTGTAGTCCT 
    TGCAGCCCAA ACAGCCCCCT GCAAACATTA CACCCGTGGA GTTGCCGGAG CAGCAACAGG 
    AAGAGTCTGG TGGTGGGTTC CCCATCGCCT ACACTGTCAC GCCCTCTCTC TCCACTTTCT 
    GTGCCTACAG CAGGAAGCAG TCCTTTGGAT AGCCCAAGGA ATTTTTCCAC AAGTGCATCT 
    GTTAACTTCC CATTTGCCCG CAGTCATGGC CCTCGTGCAG ACAGAGCTGA TGGTCGCAGA 
    TGGTCTCTTG CATCTCTTCC ATCTTCTGGA TATGGCACGA ACACTCCGAG CTCCACTCTT 
    TCGTCTTCCT CTTCTTCCCA GGAAAGGCTG CACCAGCTTC CATTTCAGCC CACTGCAGAT 
    GAACTGCATT TCCTTTCCAA ACATTTCCGA AGTACAGAGA GCATTACAGA TGAGGATGGA 
    CGGCGTTCTC CTTGCATGCG CCCCCGCTCT CGTAGCCTCA GCCCAGGTCG TGCATCATCA 
    AACTTTGACA ATGAAATAAT TATGATGAAC CATGTTTACA AAGAGAGATT CCCAAAGGCT 
    ACAGCGCAGA TGGAAGAACG GTTGCAGGAC ATCATCACTC ATTTCTGCCC CAGCCAAACA 
    CTTCCGCTGG CCGATGGTGT TTTGGGCTTC ATTCACCATC AGATTATCGA GCTGGCTCGG 
    GATTGCCTGG ACAAATCTAA GGGGGCACTG ATAACCTCCC GTTACTTTCT GGAGCTGCAA 
    GAAAAGCTAG AGAAAATGCT GCAAGATGCA CACAATCGTT CAGAGAGTGA GGAAGTTATG 
    TTCACAAACC ATTTGGCAAG GAAACTGCTG ATGGTCATTG CCCGCCCAGC AAGACTACTG 
    GAATGTTTGG AGTTTGATCC AGAGCAGTTT TATCATCTGC TGGAAGCTGC AGAAGGTCAG 
    GCCAAGGTTG GCCAGGGGAT AAAGACGGAC ATCCCTCGTT ATATAATCAA CCAACTAGGT 
    CTCACAAAGG ACCCACTAGA AGAGATTGTT CAACTGGATC ACTATGATAC AGAATCCTCC 
    CTGCTATTAG ACCAAGAAGA TTATCAAGAT CCATGTATTT CAAGTACTCC GTCACGAAAA 
    AAACCTTGCG AGAGTGACTT TGAAACCATC AAATTGATTA GCAATGGAGC TTATGGTGCT 
    GTATATCTAG TCCGGCACAA GGAAATGCGA CAGCGTTTTG CCATGAAGAA GATAAACAAG 
    CAGAATCTGA TACTGCGCAA CCAAATTCAG CAAGTATTTG TGGAGAGAGA CATCCTAACC 
    TTTGCAGAGA ATCCTTTTGT AGTCAGCATG TTCTGCTCGT TTGAGACACG TCGACATCTC 
    TGTATGGTGA TGGAGTATGT GGAAGGGGGA GACTGTGCTA CGCTTCTAAA GAACATGGGA 
    CCGTTGCCAG TTGATATGAG CCGCATGTAT TTTGCTGAAA CTGTGCTAGC ACTAGAATAT 
    CTGCACAACT ATGGGATAGT TCACAGAGAC CTTAAACCTG ACAATTTGCT GATTACATCA 
    CTGGGACACA TCAAGCTGAC AGATTTTGGA CTTTCCAAAA TTGGCCTTAT GAACATGACT 
    ACAAACTTGT ATGAAGGGCA TATCGAGAAG GACACAAGGG AGTTTCTGGA CAAACAAGTG 
    TGTGGGACCC CTGAATACAT TGCACCTGAG GTGATCCTAC GGCAGGGATA TGGGAAGCCT 
    GTGGACTGGT GGGCGATGGG CATTATTCTT TATGAGTTTC TTGTTGGCTG TGTACCATTC 
    TTTGGAGACA CACCAGAAGA ACTATTTGGA CAAGTGATCA GTGATGAAAT TATATGGCCA 
    GGAGGAGAGG AAGCACTTCC TACTGATGCT CAGGATCTAA TTACCCGGCT GCTGCGCCAA 
    AACCCCCTGG AACGTTTAGG GACAGGTGGG GCCCAAGAAG TAAAGCAGCA TACGTTCTTC 
    CTTCCGTTGG ACTGGAATGG GCTTCTAAGG CAGAAAGCAG AGTTTGTTCC CCAGTTGGAA 
    GCAGAGGACG ACACCAGTTA TTTTGACACT CGATCAGAAC GGTATCATCA TTTAGCTTCT 
    GAGGAAGATG AGGAAACAAA TGACGATGAG TCCTCGGTGG AAATCCGTCA GTTTTCTTCT 
    TGCTCCCATC GTTTCAGCAA GGTATATAGC AGTTCTGAGC ATTTAGCAAC ACAGCTCAAT 
    CTGAGTTTCT CTTCCACTGA ACGAAGTCAC AGTGATGAAA AGGAGGAGCA CAGTGACAGG 
    TGGGAGAGGA CTCTGTCTAT TGAGGAAGAA AAGAATCGAC TAGGCCCTGA AAACAGGTTA 
    AGGTCCTGGA CATCATCTGG TTCGTCCCAT CATTCCTGGC TAAGTGAAAG AAGTGCCAGC 
    CCTAATGTTC TGACCAGCAC CTGCAGTCTG GATACCATGC CCAAGTTTGC TTTTTCCTCT 
    GAAGAGGAGT CTTCTGATCA CAAACCTGAA AGACCAACTT TTACTTTAGG TGAAATGAAA 
    GGGACTCCTC CAAAACCTAC TTCTCTCTGT GCAGACATTG TCAGTCTTAG CAGAACCCGC 
    CTACGGAGCA ACAGCACTGG AGCCAAGAAC TCCACTCCTC GCCCTCTGGA AGCGGGTGTT 
    ACCCGCCGGC TGCGTGGGCA GAGAGATACA CCTGAAAAAC ACAGTTCTTC CACAGGGAGC 
    CGGGTCCCCA AATCTGCATC TGTCTCTGCC CTGTCTCTAA TAATAACAGC AGATGATTTT 
    GGCAGTGGAT CACTTGCAAG TCCTATTTCC CCTCGTTCTC TCTCATCTAA TCCATCCTCA 
    AGGGACTCCT CACCCAGCCG TGAGTCTACA GTTGCAGTAT CTAGCTTACG CCCACCCATC 
    ATAATCCACA GCTCAGGAAA AAAGTATGGC TTTACCCTAC GAGCCATAAG AGTCTACATG 
    GGAGAGAGTG ATGTTTATAC TGTACACCAT ATGGTTTGGA GCATAGAAGA TGGAAGTCCA 
    GCCCATGAGG CAGGCCTTAG AGCTGGTGAC CTTATCACAC ATGTGAATGG CGAGTCTGTT 
    CTTGGGCTTG TGCACATGGA TGTAGTTGAG CTGCTGTTAA AGAGTGGCAG CAAAGTCTCC 
    TTAAGGACAA CCCCCCTGGA AAACACCTCT ATAAAGATTG GGCCAGCTAG GAAAAACAGT 
    TGCAAGGGCC GCATGGCAAG GAGGACAAAA AAGAGCAGAA AACGGGAGAG CCAAGACAGG 
    AAGCGCTCTT TGTTTAAGAA AATTTCCAAG CAGTCCACAG TGCTACAGAC CAGTAGAAGC 
    TTCTCATCTG GGCTTCACCA ATCTCTGTCT TCCAGTGAGA GCCTTCCAGC TTCTCCCACT 
    CATAGTTTGT CTCCAGGTCC CACCACTCCA AGTCGTAGCC CTGCCCCTGA TGCAGCTGGT 
    GATGCTGCTT CACCACAGAG TACTTCACCC TGCTCCAGCA CACCAAGCTC ACCTGCAGGA 
    CACATCCGAC CAAGCTCCCT TCAGTGCCTA ACCCCCAAAC TCAGTGGACA GCGCTACAAA 
    GTTGGGCGCA GGAAATCTAC CAGCAGCATC CCACCTTCCC CATTGGCTTG CACACCTTCA 
    CCGGTTCCAC AGGCACCCTC ATCTCCTCAA CGCTCTCCTT CCCCACTATT ACCTAGTCAT 
    CCAAGGAGTG GACATTGTGG CCTCCAGGGC AAGACGTTAT CACCACCAAC CATCGTAAGA 
    CAAAGTGCTC GAAATCGAGC AACTGATGCA CCCAGGTCAC CTTTACTAAA GAGAGTGCAG 
    TCTGTAGAAA AGATGGCAGC ATTTTTGTCC AGTGGGCGTA AGGCAAGCCC AGTTGATATC 
    CAGCACTGGG AGGACACAGT GGATATGTTA GAGGGTATGT CAGAATCCAG GACCAGGGAT 
    TGGAGCTCAG AGAAACATGA GCGTGACCCA GAGGTGGTGG TAATGAGAAG GCTTAATCTT 
    TCAGAGAGAC GGGACTCCTT CAAGAAGCAA GAAGCTGTGC AAGAAGTTAG TTTTGATGAA 
    CCAGACACAG GAGCTGGAGA AGTGGCACCT GACAACAAGA AAATAGGGAG CTGCTCAAGT 
    TTGTGGGAAA GATTGCCCCA CCAAACTTCC TGGATACAAG CACGGACGGG GATATCAACA 
    TCTGTGACAA CACAGCAAGA GGCTTCATGT CGCCTTGTGC CACAAATAGC TGTACAGACC 
    TCTGAGAGTG ATGAGCAAGA AAAGAGCCAA GGAGTCTGGG AGTGCCAAGG ATTTTACCCC 
    TTACAGTTGT CAGGCAAGGA CAACTGCCCC CTTGTAACAT GGCTGTCAGA ACCCACGGCT 
    GCCAGTTCAG ATAGGAACCT GCCTGAATCT GGAAAAGTTA GTGAGTGCCA GGCTCCCTTT 
    GCTTTATCAT CCAAACGTGA CTCGAAAAAA ACTAGCTGA

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

    mast3 ( XM_031905204.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031761064.1 Xenopus tropicalis microtubule associated serine/threonine kinase 3 (mast3), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OXa48541
    Clone ID Related Accession (Same CDS sequence) XM_031905204.1
    Accession Version XM_031905204.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4476bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030677.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGATGAGC CCAGCATCCT AAGGAGGCGA GGGTTGCAGA AAGAGTTAAG TCTGCCACGC 
    CGTGGGAGCA TTTTATCTCC GAACAACCAA AGCCCGACTC TGCTCAGCCC TTGTAGTCCT 
    TGCAGCCCAA ACAGCCCCCT GCAAACATTA CACCCGTGGA GTTGCCGGAG CAGCAACAGG 
    AAGAGTCTGG TGGTGGGTTC CCCATCGCCT ACACTGTCAC GCCCTCTCTC TCCACTTTCT 
    GTGCCTACAG CAGGAAGCAG TCCTTTGGAT AGCCCAAGGA ATTTTTCCAC AAGTGCATCT 
    GTTAACTTCC CATTTGCCCG CAGTCATGGC CCTCGTGCAG ACAGAGCTGA TGGTCGCAGA 
    TGGTCTCTTG CATCTCTTCC ATCTTCTGGA TATGGCACGA ACACTCCGAG CTCCACTCTT 
    TCGTCTTCCT CTTCTTCCCA GGAAAGGCTG CACCAGCTTC CATTTCAGCC CACTGCAGAT 
    GAACTGCATT TCCTTTCCAA ACATTTCCGA AGTACAGAGA GCATTACAGA TGAGGATGGA 
    CGGCGTTCTC CTTGCATGCG CCCCCGCTCT CGTAGCCTCA GCCCAGGTCG TGCATCATCA 
    AACTTTGACA ATGAAATAAT TATGATGAAC CATGTTTACA AAGAGAGATT CCCAAAGGCT 
    ACAGCGCAGA TGGAAGAACG GTTGCAGGAC ATCATCACTC ATTTCTGCCC CAGCCAAACA 
    CTTCCGCTGG CCGATGGTGT TTTGGGCTTC ATTCACCATC AGATTATCGA GCTGGCTCGG 
    GATTGCCTGG ACAAATCTAA GGGGGCACTG ATAACCTCCC GTTACTTTCT GGAGCTGCAA 
    GAAAAGCTAG AGAAAATGCT GCAAGATGCA CACAATCGTT CAGAGAGTGA GGAAGTTATG 
    TTCACAAACC ATTTGGCAAG GAAACTGCTG ATGGTCATTG CCCGCCCAGC AAGACTACTG 
    GAATGTTTGG AGTTTGATCC AGAGCAGTTT TATCATCTGC TGGAAGCTGC AGAAGGTCAG 
    GCCAAGGTTG GCCAGGGGAT AAAGACGGAC ATCCCTCGTT ATATAATCAA CCAACTAGGT 
    CTCACAAAGG ACCCACTAGA AGAGATTGTT CAACTGGATC ACTATGATAC AGAATCCTCC 
    CTGCTATTAG ACCAAGAAGA TTATCAAGAT CCATGTATTT CAAGTACTCC GTCACGAAAA 
    AAACCTTGCG AGAGTGACTT TGAAACCATC AAATTGATTA GCAATGGAGC TTATGGTGCT 
    GTATATCTAG TCCGGCACAA GGAAATGCGA CAGCGTTTTG CCATGAAGAA GATAAACAAG 
    CAGAATCTGA TACTGCGCAA CCAAATTCAG CAAGTATTTG TGGAGAGAGA CATCCTAACC 
    TTTGCAGAGA ATCCTTTTGT AGTCAGCATG TTCTGCTCGT TTGAGACACG TCGACATCTC 
    TGTATGGTGA TGGAGTATGT GGAAGGGGGA GACTGTGCTA CGCTTCTAAA GAACATGGGA 
    CCGTTGCCAG TTGATATGAG CCGCATGTAT TTTGCTGAAA CTGTGCTAGC ACTAGAATAT 
    CTGCACAACT ATGGGATAGT TCACAGAGAC CTTAAACCTG ACAATTTGCT GATTACATCA 
    CTGGGACACA TCAAGCTGAC AGATTTTGGA CTTTCCAAAA TTGGCCTTAT GAACATGACT 
    ACAAACTTGT ATGAAGGGCA TATCGAGAAG GACACAAGGG AGTTTCTGGA CAAACAAGTG 
    TGTGGGACCC CTGAATACAT TGCACCTGAG GTGATCCTAC GGCAGGGATA TGGGAAGCCT 
    GTGGACTGGT GGGCGATGGG CATTATTCTT TATGAGTTTC TTGTTGGCTG TGTACCATTC 
    TTTGGAGACA CACCAGAAGA ACTATTTGGA CAAGTGATCA GTGATGAAAT TATATGGCCA 
    GGAGGAGAGG AAGCACTTCC TACTGATGCT CAGGATCTAA TTACCCGGCT GCTGCGCCAA 
    AACCCCCTGG AACGTTTAGG GACAGGTGGG GCCCAAGAAG TAAAGCAGCA TACGTTCTTC 
    CTTCCGTTGG ACTGGAATGG GCTTCTAAGG CAGAAAGCAG AGTTTGTTCC CCAGTTGGAA 
    GCAGAGGACG ACACCAGTTA TTTTGACACT CGATCAGAAC GGTATCATCA TTTAGCTTCT 
    GAGGAAGATG AGGAAACAAA TGACGATGAG TCCTCGGTGG AAATCCGTCA GTTTTCTTCT 
    TGCTCCCATC GTTTCAGCAA GGTATATAGC AGTTCTGAGC ATTTAGCAAC ACAGCTCAAT 
    CTGAGTTTCT CTTCCACTGA ACGAAGTCAC AGTGATGAAA AGGAGGAGCA CAGTGACAGG 
    TGGGAGAGGA CTCTGTCTAT TGAGGAAGAA AAGAATCGAC TAGGCCCTGA AAACAGGTTA 
    AGGTCCTGGA CATCATCTGG TTCGTCCCAT CATTCCTGGC TAAGTGAAAG AAGTGCCAGC 
    CCTAATGTTC TGACCAGCAC CTGCAGTCTG GATACCATGC CCAAGTTTGC TTTTTCCTCT 
    GAAGAGGAGT CTTCTGATCA CAAACCTGAA AGACCAACTT TTACTTTAGG TGAAATGAAA 
    GGGACTCCTC CAAAACCTAC TTCTCTCTGT GACATTGTCA GTCTTAGCAG AACCCGCCTA 
    CGGAGCAACA GCACTGGAGC CAAGAACTCC ACTCCTCGCC CTCTGGAAGC GGGTGTTACC 
    CGCCGGCTGC GTGGGCAGAG AGATACACCT GAAAAACACA GTTCTTCCAC AGGGAGCCGG 
    GTCCCCAAAT CTGCATCTGT CTCTGCCCTG TCTCTAATAA TAACAGCAGA TGATTTTGGC 
    AGTGGATCAC TTGCAAGTCC TATTTCCCCT CGTTCTCTCT CATCTAATCC ATCCTCAAGG 
    GACTCCTCAC CCAGCCGTGA GTCTACAGTT GCAGTATCTA GCTTACGCCC ACCCATCATA 
    ATCCACAGCT CAGGAAAAAA GTATGGCTTT ACCCTACGAG CCATAAGAGT CTACATGGGA 
    GAGAGTGATG TTTATACTGT ACACCATATG GTTTGGAGCA TAGAAGATGG AAGTCCAGCC 
    CATGAGGCAG GCCTTAGAGC TGGTGACCTT ATCACACATG TGAATGGCGA GTCTGTTCTT 
    GGGCTTGTGC ACATGGATGT AGTTGAGCTG CTGTTAAAGA GTGGCAGCAA AGTCTCCTTA 
    AGGACAACCC CCCTGGAAAA CACCTCTATA AAGATTGGGC CAGCTAGGAA AAACAGTTGC 
    AAGGGCCGCA TGGCAAGGAG GACAAAAAAG AGCAGAAAAC GGGAGAGCCA AGACAGGAAG 
    CGCTCTTTGT TTAAGAAAAT TTCCAAGCAG TCCACAGTGC TACAGACCAG TAGAAGCTTC 
    TCATCTGGGC TTCACCAATC TCTGTCTTCC AGTGAGAGCC TTCCAGCTTC TCCCACTCAT 
    AGTTTGTCTC CAGGTCCCAC CACTCCAAGT CGTAGCCCTG CCCCTGATGC AGCTGGTGAT 
    GCTGCTTCAC CACAGAGTAC TTCACCCTGC TCCAGCACAC CAAGCTCACC TGCAGGACAC 
    ATCCGACCAA GCTCCCTTCA GTGCCTAACC CCCAAACTCA GTGGACAGCG CTACAAAGTT 
    GGGCGCAGGA AATCTACCAG CAGCATCCCA CCTTCCCCAT TGGCTTGCAC ACCTTCACCG 
    GTTCCACAGG CACCCTCATC TCCTCAACGC TCTCCTTCCC CACTATTACC TAGTCATCCA 
    AGGAGTGGAC ATTGTGGCCT CCAGGGCAAG ACGTTATCAC CACCAACCAT CGTAAGACAA 
    AGTGCTCGAA ATCGAGCAAC TGATGCACCC AGGTCACCTT TACTAAAGAG AGTGCAGTCT 
    GTAGAAAAGA TGGCAGCATT TTTGTCCAGT GGGCGTAAGG CAAGCCCAGT TGATATCCAG 
    CACTGGGAGG ACACAGTGGA TATGTTAGAG GGTATGTCAG AATCCAGGAC CAGGGATTGG 
    AGCTCAGAGA AACATGAGCG TGACCCAGAG GTGGTGGTAA TGAGAAGGCT TAATCTTTCA 
    GAGAGACGGG ACTCCTTCAA GAAGCAAGAA GCTGTGCAAG AAGTTAGTTT TGATGAACCA 
    GACACAGGAG CTGGAGAAGT GGCACCTGAC AACAAGAAAA TAGGGAGCTG CTCAAGTTTG 
    TGGGAAAGAT TGCCCCACCA AACTTCCTGG ATACAAGCAC GGACGGGGAT ATCAACATCT 
    GTGACAACAC AGCAAGAGGC TTCATGTCGC CTTGTGCCAC AAATAGCTGT ACAGACCTCT 
    GAGAGTGATG AGCAAGAAAA GAGCCAAGGA GTCTGGGAGT GCCAAGGATT TTACCCCTTA 
    CAGTTGTCAG GCAAGGACAA CTGCCCCCTT GTAACATGGC TGTCAGAACC CACGGCTGCC 
    AGTTCAGATA GGAACCTGCC TGAATCTGGA AAAGTTAGTG AGTGCCAGGC TCCCTTTGCT 
    TTATCATCCA AACGTGACTC GAAAAAAACT AGCTGA

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

    RefSeq XP_031761064.1
    CDS16..4491
    Translation

    Target ORF information:

    RefSeq Version XM_031905204.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_031905204.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGATGAGC CCAGCATCCT AAGGAGGCGA GGGTTGCAGA AAGAGTTAAG TCTGCCACGC 
    CGTGGGAGCA TTTTATCTCC GAACAACCAA AGCCCGACTC TGCTCAGCCC TTGTAGTCCT 
    TGCAGCCCAA ACAGCCCCCT GCAAACATTA CACCCGTGGA GTTGCCGGAG CAGCAACAGG 
    AAGAGTCTGG TGGTGGGTTC CCCATCGCCT ACACTGTCAC GCCCTCTCTC TCCACTTTCT 
    GTGCCTACAG CAGGAAGCAG TCCTTTGGAT AGCCCAAGGA ATTTTTCCAC AAGTGCATCT 
    GTTAACTTCC CATTTGCCCG CAGTCATGGC CCTCGTGCAG ACAGAGCTGA TGGTCGCAGA 
    TGGTCTCTTG CATCTCTTCC ATCTTCTGGA TATGGCACGA ACACTCCGAG CTCCACTCTT 
    TCGTCTTCCT CTTCTTCCCA GGAAAGGCTG CACCAGCTTC CATTTCAGCC CACTGCAGAT 
    GAACTGCATT TCCTTTCCAA ACATTTCCGA AGTACAGAGA GCATTACAGA TGAGGATGGA 
    CGGCGTTCTC CTTGCATGCG CCCCCGCTCT CGTAGCCTCA GCCCAGGTCG TGCATCATCA 
    AACTTTGACA ATGAAATAAT TATGATGAAC CATGTTTACA AAGAGAGATT CCCAAAGGCT 
    ACAGCGCAGA TGGAAGAACG GTTGCAGGAC ATCATCACTC ATTTCTGCCC CAGCCAAACA 
    CTTCCGCTGG CCGATGGTGT TTTGGGCTTC ATTCACCATC AGATTATCGA GCTGGCTCGG 
    GATTGCCTGG ACAAATCTAA GGGGGCACTG ATAACCTCCC GTTACTTTCT GGAGCTGCAA 
    GAAAAGCTAG AGAAAATGCT GCAAGATGCA CACAATCGTT CAGAGAGTGA GGAAGTTATG 
    TTCACAAACC ATTTGGCAAG GAAACTGCTG ATGGTCATTG CCCGCCCAGC AAGACTACTG 
    GAATGTTTGG AGTTTGATCC AGAGCAGTTT TATCATCTGC TGGAAGCTGC AGAAGGTCAG 
    GCCAAGGTTG GCCAGGGGAT AAAGACGGAC ATCCCTCGTT ATATAATCAA CCAACTAGGT 
    CTCACAAAGG ACCCACTAGA AGAGATTGTT CAACTGGATC ACTATGATAC AGAATCCTCC 
    CTGCTATTAG ACCAAGAAGA TTATCAAGAT CCATGTATTT CAAGTACTCC GTCACGAAAA 
    AAACCTTGCG AGAGTGACTT TGAAACCATC AAATTGATTA GCAATGGAGC TTATGGTGCT 
    GTATATCTAG TCCGGCACAA GGAAATGCGA CAGCGTTTTG CCATGAAGAA GATAAACAAG 
    CAGAATCTGA TACTGCGCAA CCAAATTCAG CAAGTATTTG TGGAGAGAGA CATCCTAACC 
    TTTGCAGAGA ATCCTTTTGT AGTCAGCATG TTCTGCTCGT TTGAGACACG TCGACATCTC 
    TGTATGGTGA TGGAGTATGT GGAAGGGGGA GACTGTGCTA CGCTTCTAAA GAACATGGGA 
    CCGTTGCCAG TTGATATGAG CCGCATGTAT TTTGCTGAAA CTGTGCTAGC ACTAGAATAT 
    CTGCACAACT ATGGGATAGT TCACAGAGAC CTTAAACCTG ACAATTTGCT GATTACATCA 
    CTGGGACACA TCAAGCTGAC AGATTTTGGA CTTTCCAAAA TTGGCCTTAT GAACATGACT 
    ACAAACTTGT ATGAAGGGCA TATCGAGAAG GACACAAGGG AGTTTCTGGA CAAACAAGTG 
    TGTGGGACCC CTGAATACAT TGCACCTGAG GTGATCCTAC GGCAGGGATA TGGGAAGCCT 
    GTGGACTGGT GGGCGATGGG CATTATTCTT TATGAGTTTC TTGTTGGCTG TGTACCATTC 
    TTTGGAGACA CACCAGAAGA ACTATTTGGA CAAGTGATCA GTGATGAAAT TATATGGCCA 
    GGAGGAGAGG AAGCACTTCC TACTGATGCT CAGGATCTAA TTACCCGGCT GCTGCGCCAA 
    AACCCCCTGG AACGTTTAGG GACAGGTGGG GCCCAAGAAG TAAAGCAGCA TACGTTCTTC 
    CTTCCGTTGG ACTGGAATGG GCTTCTAAGG CAGAAAGCAG AGTTTGTTCC CCAGTTGGAA 
    GCAGAGGACG ACACCAGTTA TTTTGACACT CGATCAGAAC GGTATCATCA TTTAGCTTCT 
    GAGGAAGATG AGGAAACAAA TGACGATGAG TCCTCGGTGG AAATCCGTCA GTTTTCTTCT 
    TGCTCCCATC GTTTCAGCAA GGTATATAGC AGTTCTGAGC ATTTAGCAAC ACAGCTCAAT 
    CTGAGTTTCT CTTCCACTGA ACGAAGTCAC AGTGATGAAA AGGAGGAGCA CAGTGACAGG 
    TGGGAGAGGA CTCTGTCTAT TGAGGAAGAA AAGAATCGAC TAGGCCCTGA AAACAGGTTA 
    AGGTCCTGGA CATCATCTGG TTCGTCCCAT CATTCCTGGC TAAGTGAAAG AAGTGCCAGC 
    CCTAATGTTC TGACCAGCAC CTGCAGTCTG GATACCATGC CCAAGTTTGC TTTTTCCTCT 
    GAAGAGGAGT CTTCTGATCA CAAACCTGAA AGACCAACTT TTACTTTAGG TGAAATGAAA 
    GGGACTCCTC CAAAACCTAC TTCTCTCTGT GACATTGTCA GTCTTAGCAG AACCCGCCTA 
    CGGAGCAACA GCACTGGAGC CAAGAACTCC ACTCCTCGCC CTCTGGAAGC GGGTGTTACC 
    CGCCGGCTGC GTGGGCAGAG AGATACACCT GAAAAACACA GTTCTTCCAC AGGGAGCCGG 
    GTCCCCAAAT CTGCATCTGT CTCTGCCCTG TCTCTAATAA TAACAGCAGA TGATTTTGGC 
    AGTGGATCAC TTGCAAGTCC TATTTCCCCT CGTTCTCTCT CATCTAATCC ATCCTCAAGG 
    GACTCCTCAC CCAGCCGTGA GTCTACAGTT GCAGTATCTA GCTTACGCCC ACCCATCATA 
    ATCCACAGCT CAGGAAAAAA GTATGGCTTT ACCCTACGAG CCATAAGAGT CTACATGGGA 
    GAGAGTGATG TTTATACTGT ACACCATATG GTTTGGAGCA TAGAAGATGG AAGTCCAGCC 
    CATGAGGCAG GCCTTAGAGC TGGTGACCTT ATCACACATG TGAATGGCGA GTCTGTTCTT 
    GGGCTTGTGC ACATGGATGT AGTTGAGCTG CTGTTAAAGA GTGGCAGCAA AGTCTCCTTA 
    AGGACAACCC CCCTGGAAAA CACCTCTATA AAGATTGGGC CAGCTAGGAA AAACAGTTGC 
    AAGGGCCGCA TGGCAAGGAG GACAAAAAAG AGCAGAAAAC GGGAGAGCCA AGACAGGAAG 
    CGCTCTTTGT TTAAGAAAAT TTCCAAGCAG TCCACAGTGC TACAGACCAG TAGAAGCTTC 
    TCATCTGGGC TTCACCAATC TCTGTCTTCC AGTGAGAGCC TTCCAGCTTC TCCCACTCAT 
    AGTTTGTCTC CAGGTCCCAC CACTCCAAGT CGTAGCCCTG CCCCTGATGC AGCTGGTGAT 
    GCTGCTTCAC CACAGAGTAC TTCACCCTGC TCCAGCACAC CAAGCTCACC TGCAGGACAC 
    ATCCGACCAA GCTCCCTTCA GTGCCTAACC CCCAAACTCA GTGGACAGCG CTACAAAGTT 
    GGGCGCAGGA AATCTACCAG CAGCATCCCA CCTTCCCCAT TGGCTTGCAC ACCTTCACCG 
    GTTCCACAGG CACCCTCATC TCCTCAACGC TCTCCTTCCC CACTATTACC TAGTCATCCA 
    AGGAGTGGAC ATTGTGGCCT CCAGGGCAAG ACGTTATCAC CACCAACCAT CGTAAGACAA 
    AGTGCTCGAA ATCGAGCAAC TGATGCACCC AGGTCACCTT TACTAAAGAG AGTGCAGTCT 
    GTAGAAAAGA TGGCAGCATT TTTGTCCAGT GGGCGTAAGG CAAGCCCAGT TGATATCCAG 
    CACTGGGAGG ACACAGTGGA TATGTTAGAG GGTATGTCAG AATCCAGGAC CAGGGATTGG 
    AGCTCAGAGA AACATGAGCG TGACCCAGAG GTGGTGGTAA TGAGAAGGCT TAATCTTTCA 
    GAGAGACGGG ACTCCTTCAA GAAGCAAGAA GCTGTGCAAG AAGTTAGTTT TGATGAACCA 
    GACACAGGAG CTGGAGAAGT GGCACCTGAC AACAAGAAAA TAGGGAGCTG CTCAAGTTTG 
    TGGGAAAGAT TGCCCCACCA AACTTCCTGG ATACAAGCAC GGACGGGGAT ATCAACATCT 
    GTGACAACAC AGCAAGAGGC TTCATGTCGC CTTGTGCCAC AAATAGCTGT ACAGACCTCT 
    GAGAGTGATG AGCAAGAAAA GAGCCAAGGA GTCTGGGAGT GCCAAGGATT TTACCCCTTA 
    CAGTTGTCAG GCAAGGACAA CTGCCCCCTT GTAACATGGC TGTCAGAACC CACGGCTGCC 
    AGTTCAGATA GGAACCTGCC TGAATCTGGA AAAGTTAGTG AGTGCCAGGC TCCCTTTGCT 
    TTATCATCCA AACGTGACTC GAAAAAAACT AGCTGA

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

    mast3 ( XM_031905206.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031761066.1 Xenopus tropicalis microtubule associated serine/threonine kinase 3 (mast3), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OXa48542
    Clone ID Related Accession (Same CDS sequence) XM_031905206.1
    Accession Version XM_031905206.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4476bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030677.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGATGAGC CCAGCATCCT AAGGAGGCGA GGGTTGCAGA AAGAGTTAAG TCTGCCACGC 
    CGTGGGAGCA TTTTATCTCC GAACAACCAA AGCCCGACTC TGCTCAGCCC TTGTAGTCCT 
    TGCAGCCCAA ACAGCCCCCT GCAAACATTA CACCCGTGGA GTTGCCGGAG CAGCAACAGG 
    AAGAGTCTGG TGGTGGGTTC CCCATCGCCT ACACTGTCAC GCCCTCTCTC TCCACTTTCT 
    GTGCCTACAG GAAGCAGTCC TTTGGATAGC CCAAGGAATT TTTCCACAAG TGCATCTGTT 
    AACTTCCCAT TTGCCCGCAG TCATGGCCCT CGTGCAGACA GAGCTGATGG TCGCAGATGG 
    TCTCTTGCAT CTCTTCCATC TTCTGGATAT GGCACGAACA CTCCGAGCTC CACTCTTTCG 
    TCTTCCTCTT CTTCCCAGGA AAGGCTGCAC CAGCTTCCAT TTCAGCCCAC TGCAGATGAA 
    CTGCATTTCC TTTCCAAACA TTTCCGAAGT ACAGAGAGCA TTACAGATGA GGATGGACGG 
    CGTTCTCCTT GCATGCGCCC CCGCTCTCGT AGCCTCAGCC CAGGTCGTGC ATCATCAAAC 
    TTTGACAATG AAATAATTAT GATGAACCAT GTTTACAAAG AGAGATTCCC AAAGGCTACA 
    GCGCAGATGG AAGAACGGTT GCAGGACATC ATCACTCATT TCTGCCCCAG CCAAACACTT 
    CCGCTGGCCG ATGGTGTTTT GGGCTTCATT CACCATCAGA TTATCGAGCT GGCTCGGGAT 
    TGCCTGGACA AATCTAAGGG GGCACTGATA ACCTCCCGTT ACTTTCTGGA GCTGCAAGAA 
    AAGCTAGAGA AAATGCTGCA AGATGCACAC AATCGTTCAG AGAGTGAGGA AGTTATGTTC 
    ACAAACCATT TGGCAAGGAA ACTGCTGATG GTCATTGCCC GCCCAGCAAG ACTACTGGAA 
    TGTTTGGAGT TTGATCCAGA GCAGTTTTAT CATCTGCTGG AAGCTGCAGA AGGTCAGGCC 
    AAGGTTGGCC AGGGGATAAA GACGGACATC CCTCGTTATA TAATCAACCA ACTAGGTCTC 
    ACAAAGGACC CACTAGAAGA GATTGTTCAA CTGGATCACT ATGATACAGA ATCCTCCCTG 
    CTATTAGACC AAGAAGATTA TCAAGATCCA TGTATTTCAA GTACTCCGTC ACGAAAAAAA 
    CCTTGCGAGA GTGACTTTGA AACCATCAAA TTGATTAGCA ATGGAGCTTA TGGTGCTGTA 
    TATCTAGTCC GGCACAAGGA AATGCGACAG CGTTTTGCCA TGAAGAAGAT AAACAAGCAG 
    AATCTGATAC TGCGCAACCA AATTCAGCAA GTATTTGTGG AGAGAGACAT CCTAACCTTT 
    GCAGAGAATC CTTTTGTAGT CAGCATGTTC TGCTCGTTTG AGACACGTCG ACATCTCTGT 
    ATGGTGATGG AGTATGTGGA AGGGGGAGAC TGTGCTACGC TTCTAAAGAA CATGGGACCG 
    TTGCCAGTTG ATATGAGCCG CATGTATTTT GCTGAAACTG TGCTAGCACT AGAATATCTG 
    CACAACTATG GGATAGTTCA CAGAGACCTT AAACCTGACA ATTTGCTGAT TACATCACTG 
    GGACACATCA AGCTGACAGA TTTTGGACTT TCCAAAATTG GCCTTATGAA CATGACTACA 
    AACTTGTATG AAGGGCATAT CGAGAAGGAC ACAAGGGAGT TTCTGGACAA ACAAGTGTGT 
    GGGACCCCTG AATACATTGC ACCTGAGGTG ATCCTACGGC AGGGATATGG GAAGCCTGTG 
    GACTGGTGGG CGATGGGCAT TATTCTTTAT GAGTTTCTTG TTGGCTGTGT ACCATTCTTT 
    GGAGACACAC CAGAAGAACT ATTTGGACAA GTGATCAGTG ATGAAATTAT ATGGCCAGGA 
    GGAGAGGAAG CACTTCCTAC TGATGCTCAG GATCTAATTA CCCGGCTGCT GCGCCAAAAC 
    CCCCTGGAAC GTTTAGGGAC AGGTGGGGCC CAAGAAGTAA AGCAGCATAC GTTCTTCCTT 
    CCGTTGGACT GGAATGGGCT TCTAAGGCAG AAAGCAGAGT TTGTTCCCCA GTTGGAAGCA 
    GAGGACGACA CCAGTTATTT TGACACTCGA TCAGAACGGT ATCATCATTT AGCTTCTGAG 
    GAAGATGAGG AAACAAATGA CGATGAGTCC TCGGTGGAAA TCCGTCAGTT TTCTTCTTGC 
    TCCCATCGTT TCAGCAAGGT ATATAGCAGT TCTGAGCATT TAGCAACACA GCTCAATCTG 
    AGTTTCTCTT CCACTGAACG AAGTCACAGT GATGAAAAGG AGGAGCACAG TGACAGGTGG 
    GAGAGGACTC TGTCTATTGA GGAAGAAAAG AATCGACTAG GCCCTGAAAA CAGGTTAAGG 
    TCCTGGACAT CATCTGGTTC GTCCCATCAT TCCTGGCTAA GTGAAAGAAG TGCCAGCCCT 
    AATGTTCTGA CCAGCACCTG CAGTCTGGAT ACCATGCCCA AGTTTGCTTT TTCCTCTGAA 
    GAGGAGTCTT CTGATCACAA ACCTGAAAGA CCAACTTTTA CTTTAGGTGA AATGAAAGGG 
    ACTCCTCCAA AACCTACTTC TCTCTGTGCA GACATTGTCA GTCTTAGCAG AACCCGCCTA 
    CGGAGCAACA GCACTGGAGC CAAGAACTCC ACTCCTCGCC CTCTGGAAGC GGGTGTTACC 
    CGCCGGCTGC GTGGGCAGAG AGATACACCT GAAAAACACA GTTCTTCCAC AGGGAGCCGG 
    GTCCCCAAAT CTGCATCTGT CTCTGCCCTG TCTCTAATAA TAACAGCAGA TGATTTTGGC 
    AGTGGATCAC TTGCAAGTCC TATTTCCCCT CGTTCTCTCT CATCTAATCC ATCCTCAAGG 
    GACTCCTCAC CCAGCCGTGA GTCTACAGTT GCAGTATCTA GCTTACGCCC ACCCATCATA 
    ATCCACAGCT CAGGAAAAAA GTATGGCTTT ACCCTACGAG CCATAAGAGT CTACATGGGA 
    GAGAGTGATG TTTATACTGT ACACCATATG GTTTGGAGCA TAGAAGATGG AAGTCCAGCC 
    CATGAGGCAG GCCTTAGAGC TGGTGACCTT ATCACACATG TGAATGGCGA GTCTGTTCTT 
    GGGCTTGTGC ACATGGATGT AGTTGAGCTG CTGTTAAAGA GTGGCAGCAA AGTCTCCTTA 
    AGGACAACCC CCCTGGAAAA CACCTCTATA AAGATTGGGC CAGCTAGGAA AAACAGTTGC 
    AAGGGCCGCA TGGCAAGGAG GACAAAAAAG AGCAGAAAAC GGGAGAGCCA AGACAGGAAG 
    CGCTCTTTGT TTAAGAAAAT TTCCAAGCAG TCCACAGTGC TACAGACCAG TAGAAGCTTC 
    TCATCTGGGC TTCACCAATC TCTGTCTTCC AGTGAGAGCC TTCCAGCTTC TCCCACTCAT 
    AGTTTGTCTC CAGGTCCCAC CACTCCAAGT CGTAGCCCTG CCCCTGATGC AGCTGGTGAT 
    GCTGCTTCAC CACAGAGTAC TTCACCCTGC TCCAGCACAC CAAGCTCACC TGCAGGACAC 
    ATCCGACCAA GCTCCCTTCA GTGCCTAACC CCCAAACTCA GTGGACAGCG CTACAAAGTT 
    GGGCGCAGGA AATCTACCAG CAGCATCCCA CCTTCCCCAT TGGCTTGCAC ACCTTCACCG 
    GTTCCACAGG CACCCTCATC TCCTCAACGC TCTCCTTCCC CACTATTACC TAGTCATCCA 
    AGGAGTGGAC ATTGTGGCCT CCAGGGCAAG ACGTTATCAC CACCAACCAT CGTAAGACAA 
    AGTGCTCGAA ATCGAGCAAC TGATGCACCC AGGTCACCTT TACTAAAGAG AGTGCAGTCT 
    GTAGAAAAGA TGGCAGCATT TTTGTCCAGT GGGCGTAAGG CAAGCCCAGT TGATATCCAG 
    CACTGGGAGG ACACAGTGGA TATGTTAGAG GGTATGTCAG AATCCAGGAC CAGGGATTGG 
    AGCTCAGAGA AACATGAGCG TGACCCAGAG GTGGTGGTAA TGAGAAGGCT TAATCTTTCA 
    GAGAGACGGG ACTCCTTCAA GAAGCAAGAA GCTGTGCAAG AAGTTAGTTT TGATGAACCA 
    GACACAGGAG CTGGAGAAGT GGCACCTGAC AACAAGAAAA TAGGGAGCTG CTCAAGTTTG 
    TGGGAAAGAT TGCCCCACCA AACTTCCTGG ATACAAGCAC GGACGGGGAT ATCAACATCT 
    GTGACAACAC AGCAAGAGGC TTCATGTCGC CTTGTGCCAC AAATAGCTGT ACAGACCTCT 
    GAGAGTGATG AGCAAGAAAA GAGCCAAGGA GTCTGGGAGT GCCAAGGATT TTACCCCTTA 
    CAGTTGTCAG GCAAGGACAA CTGCCCCCTT GTAACATGGC TGTCAGAACC CACGGCTGCC 
    AGTTCAGATA GGAACCTGCC TGAATCTGGA AAAGTTAGTG AGTGCCAGGC TCCCTTTGCT 
    TTATCATCCA AACGTGACTC GAAAAAAACT AGCTGA

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

    RefSeq XP_031761066.1
    CDS16..4491
    Translation

    Target ORF information:

    RefSeq Version XM_031905206.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_031905206.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGATGAGC CCAGCATCCT AAGGAGGCGA GGGTTGCAGA AAGAGTTAAG TCTGCCACGC 
    CGTGGGAGCA TTTTATCTCC GAACAACCAA AGCCCGACTC TGCTCAGCCC TTGTAGTCCT 
    TGCAGCCCAA ACAGCCCCCT GCAAACATTA CACCCGTGGA GTTGCCGGAG CAGCAACAGG 
    AAGAGTCTGG TGGTGGGTTC CCCATCGCCT ACACTGTCAC GCCCTCTCTC TCCACTTTCT 
    GTGCCTACAG GAAGCAGTCC TTTGGATAGC CCAAGGAATT TTTCCACAAG TGCATCTGTT 
    AACTTCCCAT TTGCCCGCAG TCATGGCCCT CGTGCAGACA GAGCTGATGG TCGCAGATGG 
    TCTCTTGCAT CTCTTCCATC TTCTGGATAT GGCACGAACA CTCCGAGCTC CACTCTTTCG 
    TCTTCCTCTT CTTCCCAGGA AAGGCTGCAC CAGCTTCCAT TTCAGCCCAC TGCAGATGAA 
    CTGCATTTCC TTTCCAAACA TTTCCGAAGT ACAGAGAGCA TTACAGATGA GGATGGACGG 
    CGTTCTCCTT GCATGCGCCC CCGCTCTCGT AGCCTCAGCC CAGGTCGTGC ATCATCAAAC 
    TTTGACAATG AAATAATTAT GATGAACCAT GTTTACAAAG AGAGATTCCC AAAGGCTACA 
    GCGCAGATGG AAGAACGGTT GCAGGACATC ATCACTCATT TCTGCCCCAG CCAAACACTT 
    CCGCTGGCCG ATGGTGTTTT GGGCTTCATT CACCATCAGA TTATCGAGCT GGCTCGGGAT 
    TGCCTGGACA AATCTAAGGG GGCACTGATA ACCTCCCGTT ACTTTCTGGA GCTGCAAGAA 
    AAGCTAGAGA AAATGCTGCA AGATGCACAC AATCGTTCAG AGAGTGAGGA AGTTATGTTC 
    ACAAACCATT TGGCAAGGAA ACTGCTGATG GTCATTGCCC GCCCAGCAAG ACTACTGGAA 
    TGTTTGGAGT TTGATCCAGA GCAGTTTTAT CATCTGCTGG AAGCTGCAGA AGGTCAGGCC 
    AAGGTTGGCC AGGGGATAAA GACGGACATC CCTCGTTATA TAATCAACCA ACTAGGTCTC 
    ACAAAGGACC CACTAGAAGA GATTGTTCAA CTGGATCACT ATGATACAGA ATCCTCCCTG 
    CTATTAGACC AAGAAGATTA TCAAGATCCA TGTATTTCAA GTACTCCGTC ACGAAAAAAA 
    CCTTGCGAGA GTGACTTTGA AACCATCAAA TTGATTAGCA ATGGAGCTTA TGGTGCTGTA 
    TATCTAGTCC GGCACAAGGA AATGCGACAG CGTTTTGCCA TGAAGAAGAT AAACAAGCAG 
    AATCTGATAC TGCGCAACCA AATTCAGCAA GTATTTGTGG AGAGAGACAT CCTAACCTTT 
    GCAGAGAATC CTTTTGTAGT CAGCATGTTC TGCTCGTTTG AGACACGTCG ACATCTCTGT 
    ATGGTGATGG AGTATGTGGA AGGGGGAGAC TGTGCTACGC TTCTAAAGAA CATGGGACCG 
    TTGCCAGTTG ATATGAGCCG CATGTATTTT GCTGAAACTG TGCTAGCACT AGAATATCTG 
    CACAACTATG GGATAGTTCA CAGAGACCTT AAACCTGACA ATTTGCTGAT TACATCACTG 
    GGACACATCA AGCTGACAGA TTTTGGACTT TCCAAAATTG GCCTTATGAA CATGACTACA 
    AACTTGTATG AAGGGCATAT CGAGAAGGAC ACAAGGGAGT TTCTGGACAA ACAAGTGTGT 
    GGGACCCCTG AATACATTGC ACCTGAGGTG ATCCTACGGC AGGGATATGG GAAGCCTGTG 
    GACTGGTGGG CGATGGGCAT TATTCTTTAT GAGTTTCTTG TTGGCTGTGT ACCATTCTTT 
    GGAGACACAC CAGAAGAACT ATTTGGACAA GTGATCAGTG ATGAAATTAT ATGGCCAGGA 
    GGAGAGGAAG CACTTCCTAC TGATGCTCAG GATCTAATTA CCCGGCTGCT GCGCCAAAAC 
    CCCCTGGAAC GTTTAGGGAC AGGTGGGGCC CAAGAAGTAA AGCAGCATAC GTTCTTCCTT 
    CCGTTGGACT GGAATGGGCT TCTAAGGCAG AAAGCAGAGT TTGTTCCCCA GTTGGAAGCA 
    GAGGACGACA CCAGTTATTT TGACACTCGA TCAGAACGGT ATCATCATTT AGCTTCTGAG 
    GAAGATGAGG AAACAAATGA CGATGAGTCC TCGGTGGAAA TCCGTCAGTT TTCTTCTTGC 
    TCCCATCGTT TCAGCAAGGT ATATAGCAGT TCTGAGCATT TAGCAACACA GCTCAATCTG 
    AGTTTCTCTT CCACTGAACG AAGTCACAGT GATGAAAAGG AGGAGCACAG TGACAGGTGG 
    GAGAGGACTC TGTCTATTGA GGAAGAAAAG AATCGACTAG GCCCTGAAAA CAGGTTAAGG 
    TCCTGGACAT CATCTGGTTC GTCCCATCAT TCCTGGCTAA GTGAAAGAAG TGCCAGCCCT 
    AATGTTCTGA CCAGCACCTG CAGTCTGGAT ACCATGCCCA AGTTTGCTTT TTCCTCTGAA 
    GAGGAGTCTT CTGATCACAA ACCTGAAAGA CCAACTTTTA CTTTAGGTGA AATGAAAGGG 
    ACTCCTCCAA AACCTACTTC TCTCTGTGCA GACATTGTCA GTCTTAGCAG AACCCGCCTA 
    CGGAGCAACA GCACTGGAGC CAAGAACTCC ACTCCTCGCC CTCTGGAAGC GGGTGTTACC 
    CGCCGGCTGC GTGGGCAGAG AGATACACCT GAAAAACACA GTTCTTCCAC AGGGAGCCGG 
    GTCCCCAAAT CTGCATCTGT CTCTGCCCTG TCTCTAATAA TAACAGCAGA TGATTTTGGC 
    AGTGGATCAC TTGCAAGTCC TATTTCCCCT CGTTCTCTCT CATCTAATCC ATCCTCAAGG 
    GACTCCTCAC CCAGCCGTGA GTCTACAGTT GCAGTATCTA GCTTACGCCC ACCCATCATA 
    ATCCACAGCT CAGGAAAAAA GTATGGCTTT ACCCTACGAG CCATAAGAGT CTACATGGGA 
    GAGAGTGATG TTTATACTGT ACACCATATG GTTTGGAGCA TAGAAGATGG AAGTCCAGCC 
    CATGAGGCAG GCCTTAGAGC TGGTGACCTT ATCACACATG TGAATGGCGA GTCTGTTCTT 
    GGGCTTGTGC ACATGGATGT AGTTGAGCTG CTGTTAAAGA GTGGCAGCAA AGTCTCCTTA 
    AGGACAACCC CCCTGGAAAA CACCTCTATA AAGATTGGGC CAGCTAGGAA AAACAGTTGC 
    AAGGGCCGCA TGGCAAGGAG GACAAAAAAG AGCAGAAAAC GGGAGAGCCA AGACAGGAAG 
    CGCTCTTTGT TTAAGAAAAT TTCCAAGCAG TCCACAGTGC TACAGACCAG TAGAAGCTTC 
    TCATCTGGGC TTCACCAATC TCTGTCTTCC AGTGAGAGCC TTCCAGCTTC TCCCACTCAT 
    AGTTTGTCTC CAGGTCCCAC CACTCCAAGT CGTAGCCCTG CCCCTGATGC AGCTGGTGAT 
    GCTGCTTCAC CACAGAGTAC TTCACCCTGC TCCAGCACAC CAAGCTCACC TGCAGGACAC 
    ATCCGACCAA GCTCCCTTCA GTGCCTAACC CCCAAACTCA GTGGACAGCG CTACAAAGTT 
    GGGCGCAGGA AATCTACCAG CAGCATCCCA CCTTCCCCAT TGGCTTGCAC ACCTTCACCG 
    GTTCCACAGG CACCCTCATC TCCTCAACGC TCTCCTTCCC CACTATTACC TAGTCATCCA 
    AGGAGTGGAC ATTGTGGCCT CCAGGGCAAG ACGTTATCAC CACCAACCAT CGTAAGACAA 
    AGTGCTCGAA ATCGAGCAAC TGATGCACCC AGGTCACCTT TACTAAAGAG AGTGCAGTCT 
    GTAGAAAAGA TGGCAGCATT TTTGTCCAGT GGGCGTAAGG CAAGCCCAGT TGATATCCAG 
    CACTGGGAGG ACACAGTGGA TATGTTAGAG GGTATGTCAG AATCCAGGAC CAGGGATTGG 
    AGCTCAGAGA AACATGAGCG TGACCCAGAG GTGGTGGTAA TGAGAAGGCT TAATCTTTCA 
    GAGAGACGGG ACTCCTTCAA GAAGCAAGAA GCTGTGCAAG AAGTTAGTTT TGATGAACCA 
    GACACAGGAG CTGGAGAAGT GGCACCTGAC AACAAGAAAA TAGGGAGCTG CTCAAGTTTG 
    TGGGAAAGAT TGCCCCACCA AACTTCCTGG ATACAAGCAC GGACGGGGAT ATCAACATCT 
    GTGACAACAC AGCAAGAGGC TTCATGTCGC CTTGTGCCAC AAATAGCTGT ACAGACCTCT 
    GAGAGTGATG AGCAAGAAAA GAGCCAAGGA GTCTGGGAGT GCCAAGGATT TTACCCCTTA 
    CAGTTGTCAG GCAAGGACAA CTGCCCCCTT GTAACATGGC TGTCAGAACC CACGGCTGCC 
    AGTTCAGATA GGAACCTGCC TGAATCTGGA AAAGTTAGTG AGTGCCAGGC TCCCTTTGCT 
    TTATCATCCA AACGTGACTC GAAAAAAACT AGCTGA

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

    mast3 ( XM_031905211.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031761071.1 Xenopus tropicalis microtubule associated serine/threonine kinase 3 (mast3), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OXa48543
    Clone ID Related Accession (Same CDS sequence) XM_031905211.1
    Accession Version XM_031905211.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4458bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030677.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGATGAGC CCAGCATCCT AAGGAGGCGA GGGTTGCAGA AAGAGTTAAG TCTGCCACGC 
    CGTGGGAGCA TTTTATCTCC GAACAACCAA AGCCCGACTC TGCTCAGCCC TTGTAGTCCT 
    TGCAGCCCAA ACAGCCCCCT GCAAACATTA CACCCGTGGA GTTGCCGGAG CAGCAACAGG 
    AAGAGTCTGG TGGTGGGTTC CCCATCGCCT ACACTGTCAC GCCCTCTCTC TCCACTTTCT 
    GTGCCTACAG CAGGAAGCAG TCCTTTGGAT AGCCCAAGGA ATTTTTCCAC AAGTGCATCT 
    GTTAACTTCC CATTTGCCCG CAGAGCTGAT GGTCGCAGAT GGTCTCTTGC ATCTCTTCCA 
    TCTTCTGGAT ATGGCACGAA CACTCCGAGC TCCACTCTTT CGTCTTCCTC TTCTTCCCAG 
    GAAAGGCTGC ACCAGCTTCC ATTTCAGCCC ACTGCAGATG AACTGCATTT CCTTTCCAAA 
    CATTTCCGAA GTACAGAGAG CATTACAGAT GAGGATGGAC GGCGTTCTCC TTGCATGCGC 
    CCCCGCTCTC GTAGCCTCAG CCCAGGTCGT GCATCATCAA ACTTTGACAA TGAAATAATT 
    ATGATGAACC ATGTTTACAA AGAGAGATTC CCAAAGGCTA CAGCGCAGAT GGAAGAACGG 
    TTGCAGGACA TCATCACTCA TTTCTGCCCC AGCCAAACAC TTCCGCTGGC CGATGGTGTT 
    TTGGGCTTCA TTCACCATCA GATTATCGAG CTGGCTCGGG ATTGCCTGGA CAAATCTAAG 
    GGGGCACTGA TAACCTCCCG TTACTTTCTG GAGCTGCAAG AAAAGCTAGA GAAAATGCTG 
    CAAGATGCAC ACAATCGTTC AGAGAGTGAG GAAGTTATGT TCACAAACCA TTTGGCAAGG 
    AAACTGCTGA TGGTCATTGC CCGCCCAGCA AGACTACTGG AATGTTTGGA GTTTGATCCA 
    GAGCAGTTTT ATCATCTGCT GGAAGCTGCA GAAGGTCAGG CCAAGGTTGG CCAGGGGATA 
    AAGACGGACA TCCCTCGTTA TATAATCAAC CAACTAGGTC TCACAAAGGA CCCACTAGAA 
    GAGATTGTTC AACTGGATCA CTATGATACA GAATCCTCCC TGCTATTAGA CCAAGAAGAT 
    TATCAAGATC CATGTATTTC AAGTACTCCG TCACGAAAAA AACCTTGCGA GAGTGACTTT 
    GAAACCATCA AATTGATTAG CAATGGAGCT TATGGTGCTG TATATCTAGT CCGGCACAAG 
    GAAATGCGAC AGCGTTTTGC CATGAAGAAG ATAAACAAGC AGAATCTGAT ACTGCGCAAC 
    CAAATTCAGC AAGTATTTGT GGAGAGAGAC ATCCTAACCT TTGCAGAGAA TCCTTTTGTA 
    GTCAGCATGT TCTGCTCGTT TGAGACACGT CGACATCTCT GTATGGTGAT GGAGTATGTG 
    GAAGGGGGAG ACTGTGCTAC GCTTCTAAAG AACATGGGAC CGTTGCCAGT TGATATGAGC 
    CGCATGTATT TTGCTGAAAC TGTGCTAGCA CTAGAATATC TGCACAACTA TGGGATAGTT 
    CACAGAGACC TTAAACCTGA CAATTTGCTG ATTACATCAC TGGGACACAT CAAGCTGACA 
    GATTTTGGAC TTTCCAAAAT TGGCCTTATG AACATGACTA CAAACTTGTA TGAAGGGCAT 
    ATCGAGAAGG ACACAAGGGA GTTTCTGGAC AAACAAGTGT GTGGGACCCC TGAATACATT 
    GCACCTGAGG TGATCCTACG GCAGGGATAT GGGAAGCCTG TGGACTGGTG GGCGATGGGC 
    ATTATTCTTT ATGAGTTTCT TGTTGGCTGT GTACCATTCT TTGGAGACAC ACCAGAAGAA 
    CTATTTGGAC AAGTGATCAG TGATGAAATT ATATGGCCAG GAGGAGAGGA AGCACTTCCT 
    ACTGATGCTC AGGATCTAAT TACCCGGCTG CTGCGCCAAA ACCCCCTGGA ACGTTTAGGG 
    ACAGGTGGGG CCCAAGAAGT AAAGCAGCAT ACGTTCTTCC TTCCGTTGGA CTGGAATGGG 
    CTTCTAAGGC AGAAAGCAGA GTTTGTTCCC CAGTTGGAAG CAGAGGACGA CACCAGTTAT 
    TTTGACACTC GATCAGAACG GTATCATCAT TTAGCTTCTG AGGAAGATGA GGAAACAAAT 
    GACGATGAGT CCTCGGTGGA AATCCGTCAG TTTTCTTCTT GCTCCCATCG TTTCAGCAAG 
    GTATATAGCA GTTCTGAGCA TTTAGCAACA CAGCTCAATC TGAGTTTCTC TTCCACTGAA 
    CGAAGTCACA GTGATGAAAA GGAGGAGCAC AGTGACAGGT GGGAGAGGAC TCTGTCTATT 
    GAGGAAGAAA AGAATCGACT AGGCCCTGAA AACAGGTTAA GGTCCTGGAC ATCATCTGGT 
    TCGTCCCATC ATTCCTGGCT AAGTGAAAGA AGTGCCAGCC CTAATGTTCT GACCAGCACC 
    TGCAGTCTGG ATACCATGCC CAAGTTTGCT TTTTCCTCTG AAGAGGAGTC TTCTGATCAC 
    AAACCTGAAA GACCAACTTT TACTTTAGGT GAAATGAAAG GGACTCCTCC AAAACCTACT 
    TCTCTCTGTG CAGACATTGT CAGTCTTAGC AGAACCCGCC TACGGAGCAA CAGCACTGGA 
    GCCAAGAACT CCACTCCTCG CCCTCTGGAA GCGGGTGTTA CCCGCCGGCT GCGTGGGCAG 
    AGAGATACAC CTGAAAAACA CAGTTCTTCC ACAGGGAGCC GGGTCCCCAA ATCTGCATCT 
    GTCTCTGCCC TGTCTCTAAT AATAACAGCA GATGATTTTG GCAGTGGATC ACTTGCAAGT 
    CCTATTTCCC CTCGTTCTCT CTCATCTAAT CCATCCTCAA GGGACTCCTC ACCCAGCCGT 
    GAGTCTACAG TTGCAGTATC TAGCTTACGC CCACCCATCA TAATCCACAG CTCAGGAAAA 
    AAGTATGGCT TTACCCTACG AGCCATAAGA GTCTACATGG GAGAGAGTGA TGTTTATACT 
    GTACACCATA TGGTTTGGAG CATAGAAGAT GGAAGTCCAG CCCATGAGGC AGGCCTTAGA 
    GCTGGTGACC TTATCACACA TGTGAATGGC GAGTCTGTTC TTGGGCTTGT GCACATGGAT 
    GTAGTTGAGC TGCTGTTAAA GAGTGGCAGC AAAGTCTCCT TAAGGACAAC CCCCCTGGAA 
    AACACCTCTA TAAAGATTGG GCCAGCTAGG AAAAACAGTT GCAAGGGCCG CATGGCAAGG 
    AGGACAAAAA AGAGCAGAAA ACGGGAGAGC CAAGACAGGA AGCGCTCTTT GTTTAAGAAA 
    ATTTCCAAGC AGTCCACAGT GCTACAGACC AGTAGAAGCT TCTCATCTGG GCTTCACCAA 
    TCTCTGTCTT CCAGTGAGAG CCTTCCAGCT TCTCCCACTC ATAGTTTGTC TCCAGGTCCC 
    ACCACTCCAA GTCGTAGCCC TGCCCCTGAT GCAGCTGGTG ATGCTGCTTC ACCACAGAGT 
    ACTTCACCCT GCTCCAGCAC ACCAAGCTCA CCTGCAGGAC ACATCCGACC AAGCTCCCTT 
    CAGTGCCTAA CCCCCAAACT CAGTGGACAG CGCTACAAAG TTGGGCGCAG GAAATCTACC 
    AGCAGCATCC CACCTTCCCC ATTGGCTTGC ACACCTTCAC CGGTTCCACA GGCACCCTCA 
    TCTCCTCAAC GCTCTCCTTC CCCACTATTA CCTAGTCATC CAAGGAGTGG ACATTGTGGC 
    CTCCAGGGCA AGACGTTATC ACCACCAACC ATCGTAAGAC AAAGTGCTCG AAATCGAGCA 
    ACTGATGCAC CCAGGTCACC TTTACTAAAG AGAGTGCAGT CTGTAGAAAA GATGGCAGCA 
    TTTTTGTCCA GTGGGCGTAA GGCAAGCCCA GTTGATATCC AGCACTGGGA GGACACAGTG 
    GATATGTTAG AGGGTATGTC AGAATCCAGG ACCAGGGATT GGAGCTCAGA GAAACATGAG 
    CGTGACCCAG AGGTGGTGGT AATGAGAAGG CTTAATCTTT CAGAGAGACG GGACTCCTTC 
    AAGAAGCAAG AAGCTGTGCA AGAAGTTAGT TTTGATGAAC CAGACACAGG AGCTGGAGAA 
    GTGGCACCTG ACAACAAGAA AATAGGGAGC TGCTCAAGTT TGTGGGAAAG ATTGCCCCAC 
    CAAACTTCCT GGATACAAGC ACGGACGGGG ATATCAACAT CTGTGACAAC ACAGCAAGAG 
    GCTTCATGTC GCCTTGTGCC ACAAATAGCT GTACAGACCT CTGAGAGTGA TGAGCAAGAA 
    AAGAGCCAAG GAGTCTGGGA GTGCCAAGGA TTTTACCCCT TACAGTTGTC AGGCAAGGAC 
    AACTGCCCCC TTGTAACATG GCTGTCAGAA CCCACGGCTG CCAGTTCAGA TAGGAACCTG 
    CCTGAATCTG GAAAAGTTAG TGAGTGCCAG GCTCCCTTTG CTTTATCATC CAAACGTGAC 
    TCGAAAAAAA CTAGCTGA

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

    RefSeq XP_031761071.1
    CDS16..4473
    Translation

    Target ORF information:

    RefSeq Version XM_031905211.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_031905211.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGATGAGC CCAGCATCCT AAGGAGGCGA GGGTTGCAGA AAGAGTTAAG TCTGCCACGC 
    CGTGGGAGCA TTTTATCTCC GAACAACCAA AGCCCGACTC TGCTCAGCCC TTGTAGTCCT 
    TGCAGCCCAA ACAGCCCCCT GCAAACATTA CACCCGTGGA GTTGCCGGAG CAGCAACAGG 
    AAGAGTCTGG TGGTGGGTTC CCCATCGCCT ACACTGTCAC GCCCTCTCTC TCCACTTTCT 
    GTGCCTACAG CAGGAAGCAG TCCTTTGGAT AGCCCAAGGA ATTTTTCCAC AAGTGCATCT 
    GTTAACTTCC CATTTGCCCG CAGAGCTGAT GGTCGCAGAT GGTCTCTTGC ATCTCTTCCA 
    TCTTCTGGAT ATGGCACGAA CACTCCGAGC TCCACTCTTT CGTCTTCCTC TTCTTCCCAG 
    GAAAGGCTGC ACCAGCTTCC ATTTCAGCCC ACTGCAGATG AACTGCATTT CCTTTCCAAA 
    CATTTCCGAA GTACAGAGAG CATTACAGAT GAGGATGGAC GGCGTTCTCC TTGCATGCGC 
    CCCCGCTCTC GTAGCCTCAG CCCAGGTCGT GCATCATCAA ACTTTGACAA TGAAATAATT 
    ATGATGAACC ATGTTTACAA AGAGAGATTC CCAAAGGCTA CAGCGCAGAT GGAAGAACGG 
    TTGCAGGACA TCATCACTCA TTTCTGCCCC AGCCAAACAC TTCCGCTGGC CGATGGTGTT 
    TTGGGCTTCA TTCACCATCA GATTATCGAG CTGGCTCGGG ATTGCCTGGA CAAATCTAAG 
    GGGGCACTGA TAACCTCCCG TTACTTTCTG GAGCTGCAAG AAAAGCTAGA GAAAATGCTG 
    CAAGATGCAC ACAATCGTTC AGAGAGTGAG GAAGTTATGT TCACAAACCA TTTGGCAAGG 
    AAACTGCTGA TGGTCATTGC CCGCCCAGCA AGACTACTGG AATGTTTGGA GTTTGATCCA 
    GAGCAGTTTT ATCATCTGCT GGAAGCTGCA GAAGGTCAGG CCAAGGTTGG CCAGGGGATA 
    AAGACGGACA TCCCTCGTTA TATAATCAAC CAACTAGGTC TCACAAAGGA CCCACTAGAA 
    GAGATTGTTC AACTGGATCA CTATGATACA GAATCCTCCC TGCTATTAGA CCAAGAAGAT 
    TATCAAGATC CATGTATTTC AAGTACTCCG TCACGAAAAA AACCTTGCGA GAGTGACTTT 
    GAAACCATCA AATTGATTAG CAATGGAGCT TATGGTGCTG TATATCTAGT CCGGCACAAG 
    GAAATGCGAC AGCGTTTTGC CATGAAGAAG ATAAACAAGC AGAATCTGAT ACTGCGCAAC 
    CAAATTCAGC AAGTATTTGT GGAGAGAGAC ATCCTAACCT TTGCAGAGAA TCCTTTTGTA 
    GTCAGCATGT TCTGCTCGTT TGAGACACGT CGACATCTCT GTATGGTGAT GGAGTATGTG 
    GAAGGGGGAG ACTGTGCTAC GCTTCTAAAG AACATGGGAC CGTTGCCAGT TGATATGAGC 
    CGCATGTATT TTGCTGAAAC TGTGCTAGCA CTAGAATATC TGCACAACTA TGGGATAGTT 
    CACAGAGACC TTAAACCTGA CAATTTGCTG ATTACATCAC TGGGACACAT CAAGCTGACA 
    GATTTTGGAC TTTCCAAAAT TGGCCTTATG AACATGACTA CAAACTTGTA TGAAGGGCAT 
    ATCGAGAAGG ACACAAGGGA GTTTCTGGAC AAACAAGTGT GTGGGACCCC TGAATACATT 
    GCACCTGAGG TGATCCTACG GCAGGGATAT GGGAAGCCTG TGGACTGGTG GGCGATGGGC 
    ATTATTCTTT ATGAGTTTCT TGTTGGCTGT GTACCATTCT TTGGAGACAC ACCAGAAGAA 
    CTATTTGGAC AAGTGATCAG TGATGAAATT ATATGGCCAG GAGGAGAGGA AGCACTTCCT 
    ACTGATGCTC AGGATCTAAT TACCCGGCTG CTGCGCCAAA ACCCCCTGGA ACGTTTAGGG 
    ACAGGTGGGG CCCAAGAAGT AAAGCAGCAT ACGTTCTTCC TTCCGTTGGA CTGGAATGGG 
    CTTCTAAGGC AGAAAGCAGA GTTTGTTCCC CAGTTGGAAG CAGAGGACGA CACCAGTTAT 
    TTTGACACTC GATCAGAACG GTATCATCAT TTAGCTTCTG AGGAAGATGA GGAAACAAAT 
    GACGATGAGT CCTCGGTGGA AATCCGTCAG TTTTCTTCTT GCTCCCATCG TTTCAGCAAG 
    GTATATAGCA GTTCTGAGCA TTTAGCAACA CAGCTCAATC TGAGTTTCTC TTCCACTGAA 
    CGAAGTCACA GTGATGAAAA GGAGGAGCAC AGTGACAGGT GGGAGAGGAC TCTGTCTATT 
    GAGGAAGAAA AGAATCGACT AGGCCCTGAA AACAGGTTAA GGTCCTGGAC ATCATCTGGT 
    TCGTCCCATC ATTCCTGGCT AAGTGAAAGA AGTGCCAGCC CTAATGTTCT GACCAGCACC 
    TGCAGTCTGG ATACCATGCC CAAGTTTGCT TTTTCCTCTG AAGAGGAGTC TTCTGATCAC 
    AAACCTGAAA GACCAACTTT TACTTTAGGT GAAATGAAAG GGACTCCTCC AAAACCTACT 
    TCTCTCTGTG CAGACATTGT CAGTCTTAGC AGAACCCGCC TACGGAGCAA CAGCACTGGA 
    GCCAAGAACT CCACTCCTCG CCCTCTGGAA GCGGGTGTTA CCCGCCGGCT GCGTGGGCAG 
    AGAGATACAC CTGAAAAACA CAGTTCTTCC ACAGGGAGCC GGGTCCCCAA ATCTGCATCT 
    GTCTCTGCCC TGTCTCTAAT AATAACAGCA GATGATTTTG GCAGTGGATC ACTTGCAAGT 
    CCTATTTCCC CTCGTTCTCT CTCATCTAAT CCATCCTCAA GGGACTCCTC ACCCAGCCGT 
    GAGTCTACAG TTGCAGTATC TAGCTTACGC CCACCCATCA TAATCCACAG CTCAGGAAAA 
    AAGTATGGCT TTACCCTACG AGCCATAAGA GTCTACATGG GAGAGAGTGA TGTTTATACT 
    GTACACCATA TGGTTTGGAG CATAGAAGAT GGAAGTCCAG CCCATGAGGC AGGCCTTAGA 
    GCTGGTGACC TTATCACACA TGTGAATGGC GAGTCTGTTC TTGGGCTTGT GCACATGGAT 
    GTAGTTGAGC TGCTGTTAAA GAGTGGCAGC AAAGTCTCCT TAAGGACAAC CCCCCTGGAA 
    AACACCTCTA TAAAGATTGG GCCAGCTAGG AAAAACAGTT GCAAGGGCCG CATGGCAAGG 
    AGGACAAAAA AGAGCAGAAA ACGGGAGAGC CAAGACAGGA AGCGCTCTTT GTTTAAGAAA 
    ATTTCCAAGC AGTCCACAGT GCTACAGACC AGTAGAAGCT TCTCATCTGG GCTTCACCAA 
    TCTCTGTCTT CCAGTGAGAG CCTTCCAGCT TCTCCCACTC ATAGTTTGTC TCCAGGTCCC 
    ACCACTCCAA GTCGTAGCCC TGCCCCTGAT GCAGCTGGTG ATGCTGCTTC ACCACAGAGT 
    ACTTCACCCT GCTCCAGCAC ACCAAGCTCA CCTGCAGGAC ACATCCGACC AAGCTCCCTT 
    CAGTGCCTAA CCCCCAAACT CAGTGGACAG CGCTACAAAG TTGGGCGCAG GAAATCTACC 
    AGCAGCATCC CACCTTCCCC ATTGGCTTGC ACACCTTCAC CGGTTCCACA GGCACCCTCA 
    TCTCCTCAAC GCTCTCCTTC CCCACTATTA CCTAGTCATC CAAGGAGTGG ACATTGTGGC 
    CTCCAGGGCA AGACGTTATC ACCACCAACC ATCGTAAGAC AAAGTGCTCG AAATCGAGCA 
    ACTGATGCAC CCAGGTCACC TTTACTAAAG AGAGTGCAGT CTGTAGAAAA GATGGCAGCA 
    TTTTTGTCCA GTGGGCGTAA GGCAAGCCCA GTTGATATCC AGCACTGGGA GGACACAGTG 
    GATATGTTAG AGGGTATGTC AGAATCCAGG ACCAGGGATT GGAGCTCAGA GAAACATGAG 
    CGTGACCCAG AGGTGGTGGT AATGAGAAGG CTTAATCTTT CAGAGAGACG GGACTCCTTC 
    AAGAAGCAAG AAGCTGTGCA AGAAGTTAGT TTTGATGAAC CAGACACAGG AGCTGGAGAA 
    GTGGCACCTG ACAACAAGAA AATAGGGAGC TGCTCAAGTT TGTGGGAAAG ATTGCCCCAC 
    CAAACTTCCT GGATACAAGC ACGGACGGGG ATATCAACAT CTGTGACAAC ACAGCAAGAG 
    GCTTCATGTC GCCTTGTGCC ACAAATAGCT GTACAGACCT CTGAGAGTGA TGAGCAAGAA 
    AAGAGCCAAG GAGTCTGGGA GTGCCAAGGA TTTTACCCCT TACAGTTGTC AGGCAAGGAC 
    AACTGCCCCC TTGTAACATG GCTGTCAGAA CCCACGGCTG CCAGTTCAGA TAGGAACCTG 
    CCTGAATCTG GAAAAGTTAG TGAGTGCCAG GCTCCCTTTG CTTTATCATC CAAACGTGAC 
    TCGAAAAAAA CTAGCTGA

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

    mast3 ( XM_012954212.3 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012809666.1 Xenopus tropicalis microtubule associated serine/threonine kinase 3 (mast3), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OXa48544
    Clone ID Related Accession (Same CDS sequence) XM_012954212.3
    Accession Version XM_012954212.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4455bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030677.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012954212.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGAAATCCA GAAGAGACAA GCTTAAAATC CCATCTTTAA CATTAGATTT ATCTCCGAAC 
    AACCAAAGCC CGACTCTGCT CAGCCCTTGT AGTCCTTGCA GCCCAAACAG CCCCCTGCAA 
    ACATTACACC CGTGGAGTTG CCGGAGCAGC AACAGGAAGA GTCTGGTGGT GGGTTCCCCA 
    TCGCCTACAC TGTCACGCCC TCTCTCTCCA CTTTCTGTGC CTACAGCAGG AAGCAGTCCT 
    TTGGATAGCC CAAGGAATTT TTCCACAAGT GCATCTGTTA ACTTCCCATT TGCCCGCAGT 
    CATGGCCCTC GTGCAGACAG AGCTGATGGT CGCAGATGGT CTCTTGCATC TCTTCCATCT 
    TCTGGATATG GCACGAACAC TCCGAGCTCC ACTCTTTCGT CTTCCTCTTC TTCCCAGGAA 
    AGGCTGCACC AGCTTCCATT TCAGCCCACT GCAGATGAAC TGCATTTCCT TTCCAAACAT 
    TTCCGAAGTA CAGAGAGCAT TACAGATGAG GATGGACGGC GTTCTCCTTG CATGCGCCCC 
    CGCTCTCGTA GCCTCAGCCC AGGTCGTGCA TCATCAAACT TTGACAATGA AATAATTATG 
    ATGAACCATG TTTACAAAGA GAGATTCCCA AAGGCTACAG CGCAGATGGA AGAACGGTTG 
    CAGGACATCA TCACTCATTT CTGCCCCAGC CAAACACTTC CGCTGGCCGA TGGTGTTTTG 
    GGCTTCATTC ACCATCAGAT TATCGAGCTG GCTCGGGATT GCCTGGACAA ATCTAAGGGG 
    GCACTGATAA CCTCCCGTTA CTTTCTGGAG CTGCAAGAAA AGCTAGAGAA AATGCTGCAA 
    GATGCACACA ATCGTTCAGA GAGTGAGGAA GTTATGTTCA CAAACCATTT GGCAAGGAAA 
    CTGCTGATGG TCATTGCCCG CCCAGCAAGA CTACTGGAAT GTTTGGAGTT TGATCCAGAG 
    CAGTTTTATC ATCTGCTGGA AGCTGCAGAA GGTCAGGCCA AGGTTGGCCA GGGGATAAAG 
    ACGGACATCC CTCGTTATAT AATCAACCAA CTAGGTCTCA CAAAGGACCC ACTAGAAGAG 
    ATTGTTCAAC TGGATCACTA TGATACAGAA TCCTCCCTGC TATTAGACCA AGAAGATTAT 
    CAAGATCCAT GTATTTCAAG TACTCCGTCA CGAAAAAAAC CTTGCGAGAG TGACTTTGAA 
    ACCATCAAAT TGATTAGCAA TGGAGCTTAT GGTGCTGTAT ATCTAGTCCG GCACAAGGAA 
    ATGCGACAGC GTTTTGCCAT GAAGAAGATA AACAAGCAGA ATCTGATACT GCGCAACCAA 
    ATTCAGCAAG TATTTGTGGA GAGAGACATC CTAACCTTTG CAGAGAATCC TTTTGTAGTC 
    AGCATGTTCT GCTCGTTTGA GACACGTCGA CATCTCTGTA TGGTGATGGA GTATGTGGAA 
    GGGGGAGACT GTGCTACGCT TCTAAAGAAC ATGGGACCGT TGCCAGTTGA TATGAGCCGC 
    ATGTATTTTG CTGAAACTGT GCTAGCACTA GAATATCTGC ACAACTATGG GATAGTTCAC 
    AGAGACCTTA AACCTGACAA TTTGCTGATT ACATCACTGG GACACATCAA GCTGACAGAT 
    TTTGGACTTT CCAAAATTGG CCTTATGAAC ATGACTACAA ACTTGTATGA AGGGCATATC 
    GAGAAGGACA CAAGGGAGTT TCTGGACAAA CAAGTGTGTG GGACCCCTGA ATACATTGCA 
    CCTGAGGTGA TCCTACGGCA GGGATATGGG AAGCCTGTGG ACTGGTGGGC GATGGGCATT 
    ATTCTTTATG AGTTTCTTGT TGGCTGTGTA CCATTCTTTG GAGACACACC AGAAGAACTA 
    TTTGGACAAG TGATCAGTGA TGAAATTATA TGGCCAGGAG GAGAGGAAGC ACTTCCTACT 
    GATGCTCAGG ATCTAATTAC CCGGCTGCTG CGCCAAAACC CCCTGGAACG TTTAGGGACA 
    GGTGGGGCCC AAGAAGTAAA GCAGCATACG TTCTTCCTTC CGTTGGACTG GAATGGGCTT 
    CTAAGGCAGA AAGCAGAGTT TGTTCCCCAG TTGGAAGCAG AGGACGACAC CAGTTATTTT 
    GACACTCGAT CAGAACGGTA TCATCATTTA GCTTCTGAGG AAGATGAGGA AACAAATGAC 
    GATGAGTCCT CGGTGGAAAT CCGTCAGTTT TCTTCTTGCT CCCATCGTTT CAGCAAGGTA 
    TATAGCAGTT CTGAGCATTT AGCAACACAG CTCAATCTGA GTTTCTCTTC CACTGAACGA 
    AGTCACAGTG ATGAAAAGGA GGAGCACAGT GACAGGTGGG AGAGGACTCT GTCTATTGAG 
    GAAGAAAAGA ATCGACTAGG CCCTGAAAAC AGGTTAAGGT CCTGGACATC ATCTGGTTCG 
    TCCCATCATT CCTGGCTAAG TGAAAGAAGT GCCAGCCCTA ATGTTCTGAC CAGCACCTGC 
    AGTCTGGATA CCATGCCCAA GTTTGCTTTT TCCTCTGAAG AGGAGTCTTC TGATCACAAA 
    CCTGAAAGAC CAACTTTTAC TTTAGGTGAA ATGAAAGGGA CTCCTCCAAA ACCTACTTCT 
    CTCTGTGCAG ACATTGTCAG TCTTAGCAGA ACCCGCCTAC GGAGCAACAG CACTGGAGCC 
    AAGAACTCCA CTCCTCGCCC TCTGGAAGCG GGTGTTACCC GCCGGCTGCG TGGGCAGAGA 
    GATACACCTG AAAAACACAG TTCTTCCACA GGGAGCCGGG TCCCCAAATC TGCATCTGTC 
    TCTGCCCTGT CTCTAATAAT AACAGCAGAT GATTTTGGCA GTGGATCACT TGCAAGTCCT 
    ATTTCCCCTC GTTCTCTCTC ATCTAATCCA TCCTCAAGGG ACTCCTCACC CAGCCGTGAG 
    TCTACAGTTG CAGTATCTAG CTTACGCCCA CCCATCATAA TCCACAGCTC AGGAAAAAAG 
    TATGGCTTTA CCCTACGAGC CATAAGAGTC TACATGGGAG AGAGTGATGT TTATACTGTA 
    CACCATATGG TTTGGAGCAT AGAAGATGGA AGTCCAGCCC ATGAGGCAGG CCTTAGAGCT 
    GGTGACCTTA TCACACATGT GAATGGCGAG TCTGTTCTTG GGCTTGTGCA CATGGATGTA 
    GTTGAGCTGC TGTTAAAGAG TGGCAGCAAA GTCTCCTTAA GGACAACCCC CCTGGAAAAC 
    ACCTCTATAA AGATTGGGCC AGCTAGGAAA AACAGTTGCA AGGGCCGCAT GGCAAGGAGG 
    ACAAAAAAGA GCAGAAAACG GGAGAGCCAA GACAGGAAGC GCTCTTTGTT TAAGAAAATT 
    TCCAAGCAGT CCACAGTGCT ACAGACCAGT AGAAGCTTCT CATCTGGGCT TCACCAATCT 
    CTGTCTTCCA GTGAGAGCCT TCCAGCTTCT CCCACTCATA GTTTGTCTCC AGGTCCCACC 
    ACTCCAAGTC GTAGCCCTGC CCCTGATGCA GCTGGTGATG CTGCTTCACC ACAGAGTACT 
    TCACCCTGCT CCAGCACACC AAGCTCACCT GCAGGACACA TCCGACCAAG CTCCCTTCAG 
    TGCCTAACCC CCAAACTCAG TGGACAGCGC TACAAAGTTG GGCGCAGGAA ATCTACCAGC 
    AGCATCCCAC CTTCCCCATT GGCTTGCACA CCTTCACCGG TTCCACAGGC ACCCTCATCT 
    CCTCAACGCT CTCCTTCCCC ACTATTACCT AGTCATCCAA GGAGTGGACA TTGTGGCCTC 
    CAGGGCAAGA CGTTATCACC ACCAACCATC GTAAGACAAA GTGCTCGAAA TCGAGCAACT 
    GATGCACCCA GGTCACCTTT ACTAAAGAGA GTGCAGTCTG TAGAAAAGAT GGCAGCATTT 
    TTGTCCAGTG GGCGTAAGGC AAGCCCAGTT GATATCCAGC ACTGGGAGGA CACAGTGGAT 
    ATGTTAGAGG GTATGTCAGA ATCCAGGACC AGGGATTGGA GCTCAGAGAA ACATGAGCGT 
    GACCCAGAGG TGGTGGTAAT GAGAAGGCTT AATCTTTCAG AGAGACGGGA CTCCTTCAAG 
    AAGCAAGAAG CTGTGCAAGA AGTTAGTTTT GATGAACCAG ACACAGGAGC TGGAGAAGTG 
    GCACCTGACA ACAAGAAAAT AGGGAGCTGC TCAAGTTTGT GGGAAAGATT GCCCCACCAA 
    ACTTCCTGGA TACAAGCACG GACGGGGATA TCAACATCTG TGACAACACA GCAAGAGGCT 
    TCATGTCGCC TTGTGCCACA AATAGCTGTA CAGACCTCTG AGAGTGATGA GCAAGAAAAG 
    AGCCAAGGAG TCTGGGAGTG CCAAGGATTT TACCCCTTAC AGTTGTCAGG CAAGGACAAC 
    TGCCCCCTTG TAACATGGCT GTCAGAACCC ACGGCTGCCA GTTCAGATAG GAACCTGCCT 
    GAATCTGGAA AAGTTAGTGA GTGCCAGGCT CCCTTTGCTT TATCATCCAA ACGTGACTCG 
    AAAAAAACTA GCTGA

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

    RefSeq XP_012809666.1
    CDS51..4505
    Translation

    Target ORF information:

    RefSeq Version XM_012954212.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_012954212.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGAAATCCA GAAGAGACAA GCTTAAAATC CCATCTTTAA CATTAGATTT ATCTCCGAAC 
    AACCAAAGCC CGACTCTGCT CAGCCCTTGT AGTCCTTGCA GCCCAAACAG CCCCCTGCAA 
    ACATTACACC CGTGGAGTTG CCGGAGCAGC AACAGGAAGA GTCTGGTGGT GGGTTCCCCA 
    TCGCCTACAC TGTCACGCCC TCTCTCTCCA CTTTCTGTGC CTACAGCAGG AAGCAGTCCT 
    TTGGATAGCC CAAGGAATTT TTCCACAAGT GCATCTGTTA ACTTCCCATT TGCCCGCAGT 
    CATGGCCCTC GTGCAGACAG AGCTGATGGT CGCAGATGGT CTCTTGCATC TCTTCCATCT 
    TCTGGATATG GCACGAACAC TCCGAGCTCC ACTCTTTCGT CTTCCTCTTC TTCCCAGGAA 
    AGGCTGCACC AGCTTCCATT TCAGCCCACT GCAGATGAAC TGCATTTCCT TTCCAAACAT 
    TTCCGAAGTA CAGAGAGCAT TACAGATGAG GATGGACGGC GTTCTCCTTG CATGCGCCCC 
    CGCTCTCGTA GCCTCAGCCC AGGTCGTGCA TCATCAAACT TTGACAATGA AATAATTATG 
    ATGAACCATG TTTACAAAGA GAGATTCCCA AAGGCTACAG CGCAGATGGA AGAACGGTTG 
    CAGGACATCA TCACTCATTT CTGCCCCAGC CAAACACTTC CGCTGGCCGA TGGTGTTTTG 
    GGCTTCATTC ACCATCAGAT TATCGAGCTG GCTCGGGATT GCCTGGACAA ATCTAAGGGG 
    GCACTGATAA CCTCCCGTTA CTTTCTGGAG CTGCAAGAAA AGCTAGAGAA AATGCTGCAA 
    GATGCACACA ATCGTTCAGA GAGTGAGGAA GTTATGTTCA CAAACCATTT GGCAAGGAAA 
    CTGCTGATGG TCATTGCCCG CCCAGCAAGA CTACTGGAAT GTTTGGAGTT TGATCCAGAG 
    CAGTTTTATC ATCTGCTGGA AGCTGCAGAA GGTCAGGCCA AGGTTGGCCA GGGGATAAAG 
    ACGGACATCC CTCGTTATAT AATCAACCAA CTAGGTCTCA CAAAGGACCC ACTAGAAGAG 
    ATTGTTCAAC TGGATCACTA TGATACAGAA TCCTCCCTGC TATTAGACCA AGAAGATTAT 
    CAAGATCCAT GTATTTCAAG TACTCCGTCA CGAAAAAAAC CTTGCGAGAG TGACTTTGAA 
    ACCATCAAAT TGATTAGCAA TGGAGCTTAT GGTGCTGTAT ATCTAGTCCG GCACAAGGAA 
    ATGCGACAGC GTTTTGCCAT GAAGAAGATA AACAAGCAGA ATCTGATACT GCGCAACCAA 
    ATTCAGCAAG TATTTGTGGA GAGAGACATC CTAACCTTTG CAGAGAATCC TTTTGTAGTC 
    AGCATGTTCT GCTCGTTTGA GACACGTCGA CATCTCTGTA TGGTGATGGA GTATGTGGAA 
    GGGGGAGACT GTGCTACGCT TCTAAAGAAC ATGGGACCGT TGCCAGTTGA TATGAGCCGC 
    ATGTATTTTG CTGAAACTGT GCTAGCACTA GAATATCTGC ACAACTATGG GATAGTTCAC 
    AGAGACCTTA AACCTGACAA TTTGCTGATT ACATCACTGG GACACATCAA GCTGACAGAT 
    TTTGGACTTT CCAAAATTGG CCTTATGAAC ATGACTACAA ACTTGTATGA AGGGCATATC 
    GAGAAGGACA CAAGGGAGTT TCTGGACAAA CAAGTGTGTG GGACCCCTGA ATACATTGCA 
    CCTGAGGTGA TCCTACGGCA GGGATATGGG AAGCCTGTGG ACTGGTGGGC GATGGGCATT 
    ATTCTTTATG AGTTTCTTGT TGGCTGTGTA CCATTCTTTG GAGACACACC AGAAGAACTA 
    TTTGGACAAG TGATCAGTGA TGAAATTATA TGGCCAGGAG GAGAGGAAGC ACTTCCTACT 
    GATGCTCAGG ATCTAATTAC CCGGCTGCTG CGCCAAAACC CCCTGGAACG TTTAGGGACA 
    GGTGGGGCCC AAGAAGTAAA GCAGCATACG TTCTTCCTTC CGTTGGACTG GAATGGGCTT 
    CTAAGGCAGA AAGCAGAGTT TGTTCCCCAG TTGGAAGCAG AGGACGACAC CAGTTATTTT 
    GACACTCGAT CAGAACGGTA TCATCATTTA GCTTCTGAGG AAGATGAGGA AACAAATGAC 
    GATGAGTCCT CGGTGGAAAT CCGTCAGTTT TCTTCTTGCT CCCATCGTTT CAGCAAGGTA 
    TATAGCAGTT CTGAGCATTT AGCAACACAG CTCAATCTGA GTTTCTCTTC CACTGAACGA 
    AGTCACAGTG ATGAAAAGGA GGAGCACAGT GACAGGTGGG AGAGGACTCT GTCTATTGAG 
    GAAGAAAAGA ATCGACTAGG CCCTGAAAAC AGGTTAAGGT CCTGGACATC ATCTGGTTCG 
    TCCCATCATT CCTGGCTAAG TGAAAGAAGT GCCAGCCCTA ATGTTCTGAC CAGCACCTGC 
    AGTCTGGATA CCATGCCCAA GTTTGCTTTT TCCTCTGAAG AGGAGTCTTC TGATCACAAA 
    CCTGAAAGAC CAACTTTTAC TTTAGGTGAA ATGAAAGGGA CTCCTCCAAA ACCTACTTCT 
    CTCTGTGCAG ACATTGTCAG TCTTAGCAGA ACCCGCCTAC GGAGCAACAG CACTGGAGCC 
    AAGAACTCCA CTCCTCGCCC TCTGGAAGCG GGTGTTACCC GCCGGCTGCG TGGGCAGAGA 
    GATACACCTG AAAAACACAG TTCTTCCACA GGGAGCCGGG TCCCCAAATC TGCATCTGTC 
    TCTGCCCTGT CTCTAATAAT AACAGCAGAT GATTTTGGCA GTGGATCACT TGCAAGTCCT 
    ATTTCCCCTC GTTCTCTCTC ATCTAATCCA TCCTCAAGGG ACTCCTCACC CAGCCGTGAG 
    TCTACAGTTG CAGTATCTAG CTTACGCCCA CCCATCATAA TCCACAGCTC AGGAAAAAAG 
    TATGGCTTTA CCCTACGAGC CATAAGAGTC TACATGGGAG AGAGTGATGT TTATACTGTA 
    CACCATATGG TTTGGAGCAT AGAAGATGGA AGTCCAGCCC ATGAGGCAGG CCTTAGAGCT 
    GGTGACCTTA TCACACATGT GAATGGCGAG TCTGTTCTTG GGCTTGTGCA CATGGATGTA 
    GTTGAGCTGC TGTTAAAGAG TGGCAGCAAA GTCTCCTTAA GGACAACCCC CCTGGAAAAC 
    ACCTCTATAA AGATTGGGCC AGCTAGGAAA AACAGTTGCA AGGGCCGCAT GGCAAGGAGG 
    ACAAAAAAGA GCAGAAAACG GGAGAGCCAA GACAGGAAGC GCTCTTTGTT TAAGAAAATT 
    TCCAAGCAGT CCACAGTGCT ACAGACCAGT AGAAGCTTCT CATCTGGGCT TCACCAATCT 
    CTGTCTTCCA GTGAGAGCCT TCCAGCTTCT CCCACTCATA GTTTGTCTCC AGGTCCCACC 
    ACTCCAAGTC GTAGCCCTGC CCCTGATGCA GCTGGTGATG CTGCTTCACC ACAGAGTACT 
    TCACCCTGCT CCAGCACACC AAGCTCACCT GCAGGACACA TCCGACCAAG CTCCCTTCAG 
    TGCCTAACCC CCAAACTCAG TGGACAGCGC TACAAAGTTG GGCGCAGGAA ATCTACCAGC 
    AGCATCCCAC CTTCCCCATT GGCTTGCACA CCTTCACCGG TTCCACAGGC ACCCTCATCT 
    CCTCAACGCT CTCCTTCCCC ACTATTACCT AGTCATCCAA GGAGTGGACA TTGTGGCCTC 
    CAGGGCAAGA CGTTATCACC ACCAACCATC GTAAGACAAA GTGCTCGAAA TCGAGCAACT 
    GATGCACCCA GGTCACCTTT ACTAAAGAGA GTGCAGTCTG TAGAAAAGAT GGCAGCATTT 
    TTGTCCAGTG GGCGTAAGGC AAGCCCAGTT GATATCCAGC ACTGGGAGGA CACAGTGGAT 
    ATGTTAGAGG GTATGTCAGA ATCCAGGACC AGGGATTGGA GCTCAGAGAA ACATGAGCGT 
    GACCCAGAGG TGGTGGTAAT GAGAAGGCTT AATCTTTCAG AGAGACGGGA CTCCTTCAAG 
    AAGCAAGAAG CTGTGCAAGA AGTTAGTTTT GATGAACCAG ACACAGGAGC TGGAGAAGTG 
    GCACCTGACA ACAAGAAAAT AGGGAGCTGC TCAAGTTTGT GGGAAAGATT GCCCCACCAA 
    ACTTCCTGGA TACAAGCACG GACGGGGATA TCAACATCTG TGACAACACA GCAAGAGGCT 
    TCATGTCGCC TTGTGCCACA AATAGCTGTA CAGACCTCTG AGAGTGATGA GCAAGAAAAG 
    AGCCAAGGAG TCTGGGAGTG CCAAGGATTT TACCCCTTAC AGTTGTCAGG CAAGGACAAC 
    TGCCCCCTTG TAACATGGCT GTCAGAACCC ACGGCTGCCA GTTCAGATAG GAACCTGCCT 
    GAATCTGGAA AAGTTAGTGA GTGCCAGGCT CCCTTTGCTT TATCATCCAA ACGTGACTCG 
    AAAAAAACTA GCTGA

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

    mast3 ( XM_031905219.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031761079.1 Xenopus tropicalis microtubule associated serine/threonine kinase 3 (mast3), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OXa48545
    Clone ID Related Accession (Same CDS sequence) XM_031905219.1
    Accession Version XM_031905219.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4455bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030677.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGATGAGC CCAGCATCCT AAGGAGGCGA GGGTTGCAGA AAGAGTTAAG TCTGCCACGC 
    CGTGGGAGCA TTTTATCTCC GAACAACCAA AGCCCGACTC TGCTCAGCCC TTGTAGTCCT 
    TGCAGCCCAA ACAGCCCCCT GCAAACATTA CACCCGTGGA GTTGCCGGAG CAGCAACAGG 
    AAGAGTCTGG TGGTGGGTTC CCCATCGCCT ACACTGTCAC GCCCTCTCTC TCCACTTTCT 
    GTGCCTACAG GAAGCAGTCC TTTGGATAGC CCAAGGAATT TTTCCACAAG TGCATCTGTT 
    AACTTCCCAT TTGCCCGCAG AGCTGATGGT CGCAGATGGT CTCTTGCATC TCTTCCATCT 
    TCTGGATATG GCACGAACAC TCCGAGCTCC ACTCTTTCGT CTTCCTCTTC TTCCCAGGAA 
    AGGCTGCACC AGCTTCCATT TCAGCCCACT GCAGATGAAC TGCATTTCCT TTCCAAACAT 
    TTCCGAAGTA CAGAGAGCAT TACAGATGAG GATGGACGGC GTTCTCCTTG CATGCGCCCC 
    CGCTCTCGTA GCCTCAGCCC AGGTCGTGCA TCATCAAACT TTGACAATGA AATAATTATG 
    ATGAACCATG TTTACAAAGA GAGATTCCCA AAGGCTACAG CGCAGATGGA AGAACGGTTG 
    CAGGACATCA TCACTCATTT CTGCCCCAGC CAAACACTTC CGCTGGCCGA TGGTGTTTTG 
    GGCTTCATTC ACCATCAGAT TATCGAGCTG GCTCGGGATT GCCTGGACAA ATCTAAGGGG 
    GCACTGATAA CCTCCCGTTA CTTTCTGGAG CTGCAAGAAA AGCTAGAGAA AATGCTGCAA 
    GATGCACACA ATCGTTCAGA GAGTGAGGAA GTTATGTTCA CAAACCATTT GGCAAGGAAA 
    CTGCTGATGG TCATTGCCCG CCCAGCAAGA CTACTGGAAT GTTTGGAGTT TGATCCAGAG 
    CAGTTTTATC ATCTGCTGGA AGCTGCAGAA GGTCAGGCCA AGGTTGGCCA GGGGATAAAG 
    ACGGACATCC CTCGTTATAT AATCAACCAA CTAGGTCTCA CAAAGGACCC ACTAGAAGAG 
    ATTGTTCAAC TGGATCACTA TGATACAGAA TCCTCCCTGC TATTAGACCA AGAAGATTAT 
    CAAGATCCAT GTATTTCAAG TACTCCGTCA CGAAAAAAAC CTTGCGAGAG TGACTTTGAA 
    ACCATCAAAT TGATTAGCAA TGGAGCTTAT GGTGCTGTAT ATCTAGTCCG GCACAAGGAA 
    ATGCGACAGC GTTTTGCCAT GAAGAAGATA AACAAGCAGA ATCTGATACT GCGCAACCAA 
    ATTCAGCAAG TATTTGTGGA GAGAGACATC CTAACCTTTG CAGAGAATCC TTTTGTAGTC 
    AGCATGTTCT GCTCGTTTGA GACACGTCGA CATCTCTGTA TGGTGATGGA GTATGTGGAA 
    GGGGGAGACT GTGCTACGCT TCTAAAGAAC ATGGGACCGT TGCCAGTTGA TATGAGCCGC 
    ATGTATTTTG CTGAAACTGT GCTAGCACTA GAATATCTGC ACAACTATGG GATAGTTCAC 
    AGAGACCTTA AACCTGACAA TTTGCTGATT ACATCACTGG GACACATCAA GCTGACAGAT 
    TTTGGACTTT CCAAAATTGG CCTTATGAAC ATGACTACAA ACTTGTATGA AGGGCATATC 
    GAGAAGGACA CAAGGGAGTT TCTGGACAAA CAAGTGTGTG GGACCCCTGA ATACATTGCA 
    CCTGAGGTGA TCCTACGGCA GGGATATGGG AAGCCTGTGG ACTGGTGGGC GATGGGCATT 
    ATTCTTTATG AGTTTCTTGT TGGCTGTGTA CCATTCTTTG GAGACACACC AGAAGAACTA 
    TTTGGACAAG TGATCAGTGA TGAAATTATA TGGCCAGGAG GAGAGGAAGC ACTTCCTACT 
    GATGCTCAGG ATCTAATTAC CCGGCTGCTG CGCCAAAACC CCCTGGAACG TTTAGGGACA 
    GGTGGGGCCC AAGAAGTAAA GCAGCATACG TTCTTCCTTC CGTTGGACTG GAATGGGCTT 
    CTAAGGCAGA AAGCAGAGTT TGTTCCCCAG TTGGAAGCAG AGGACGACAC CAGTTATTTT 
    GACACTCGAT CAGAACGGTA TCATCATTTA GCTTCTGAGG AAGATGAGGA AACAAATGAC 
    GATGAGTCCT CGGTGGAAAT CCGTCAGTTT TCTTCTTGCT CCCATCGTTT CAGCAAGGTA 
    TATAGCAGTT CTGAGCATTT AGCAACACAG CTCAATCTGA GTTTCTCTTC CACTGAACGA 
    AGTCACAGTG ATGAAAAGGA GGAGCACAGT GACAGGTGGG AGAGGACTCT GTCTATTGAG 
    GAAGAAAAGA ATCGACTAGG CCCTGAAAAC AGGTTAAGGT CCTGGACATC ATCTGGTTCG 
    TCCCATCATT CCTGGCTAAG TGAAAGAAGT GCCAGCCCTA ATGTTCTGAC CAGCACCTGC 
    AGTCTGGATA CCATGCCCAA GTTTGCTTTT TCCTCTGAAG AGGAGTCTTC TGATCACAAA 
    CCTGAAAGAC CAACTTTTAC TTTAGGTGAA ATGAAAGGGA CTCCTCCAAA ACCTACTTCT 
    CTCTGTGCAG ACATTGTCAG TCTTAGCAGA ACCCGCCTAC GGAGCAACAG CACTGGAGCC 
    AAGAACTCCA CTCCTCGCCC TCTGGAAGCG GGTGTTACCC GCCGGCTGCG TGGGCAGAGA 
    GATACACCTG AAAAACACAG TTCTTCCACA GGGAGCCGGG TCCCCAAATC TGCATCTGTC 
    TCTGCCCTGT CTCTAATAAT AACAGCAGAT GATTTTGGCA GTGGATCACT TGCAAGTCCT 
    ATTTCCCCTC GTTCTCTCTC ATCTAATCCA TCCTCAAGGG ACTCCTCACC CAGCCGTGAG 
    TCTACAGTTG CAGTATCTAG CTTACGCCCA CCCATCATAA TCCACAGCTC AGGAAAAAAG 
    TATGGCTTTA CCCTACGAGC CATAAGAGTC TACATGGGAG AGAGTGATGT TTATACTGTA 
    CACCATATGG TTTGGAGCAT AGAAGATGGA AGTCCAGCCC ATGAGGCAGG CCTTAGAGCT 
    GGTGACCTTA TCACACATGT GAATGGCGAG TCTGTTCTTG GGCTTGTGCA CATGGATGTA 
    GTTGAGCTGC TGTTAAAGAG TGGCAGCAAA GTCTCCTTAA GGACAACCCC CCTGGAAAAC 
    ACCTCTATAA AGATTGGGCC AGCTAGGAAA AACAGTTGCA AGGGCCGCAT GGCAAGGAGG 
    ACAAAAAAGA GCAGAAAACG GGAGAGCCAA GACAGGAAGC GCTCTTTGTT TAAGAAAATT 
    TCCAAGCAGT CCACAGTGCT ACAGACCAGT AGAAGCTTCT CATCTGGGCT TCACCAATCT 
    CTGTCTTCCA GTGAGAGCCT TCCAGCTTCT CCCACTCATA GTTTGTCTCC AGGTCCCACC 
    ACTCCAAGTC GTAGCCCTGC CCCTGATGCA GCTGGTGATG CTGCTTCACC ACAGAGTACT 
    TCACCCTGCT CCAGCACACC AAGCTCACCT GCAGGACACA TCCGACCAAG CTCCCTTCAG 
    TGCCTAACCC CCAAACTCAG TGGACAGCGC TACAAAGTTG GGCGCAGGAA ATCTACCAGC 
    AGCATCCCAC CTTCCCCATT GGCTTGCACA CCTTCACCGG TTCCACAGGC ACCCTCATCT 
    CCTCAACGCT CTCCTTCCCC ACTATTACCT AGTCATCCAA GGAGTGGACA TTGTGGCCTC 
    CAGGGCAAGA CGTTATCACC ACCAACCATC GTAAGACAAA GTGCTCGAAA TCGAGCAACT 
    GATGCACCCA GGTCACCTTT ACTAAAGAGA GTGCAGTCTG TAGAAAAGAT GGCAGCATTT 
    TTGTCCAGTG GGCGTAAGGC AAGCCCAGTT GATATCCAGC ACTGGGAGGA CACAGTGGAT 
    ATGTTAGAGG GTATGTCAGA ATCCAGGACC AGGGATTGGA GCTCAGAGAA ACATGAGCGT 
    GACCCAGAGG TGGTGGTAAT GAGAAGGCTT AATCTTTCAG AGAGACGGGA CTCCTTCAAG 
    AAGCAAGAAG CTGTGCAAGA AGTTAGTTTT GATGAACCAG ACACAGGAGC TGGAGAAGTG 
    GCACCTGACA ACAAGAAAAT AGGGAGCTGC TCAAGTTTGT GGGAAAGATT GCCCCACCAA 
    ACTTCCTGGA TACAAGCACG GACGGGGATA TCAACATCTG TGACAACACA GCAAGAGGCT 
    TCATGTCGCC TTGTGCCACA AATAGCTGTA CAGACCTCTG AGAGTGATGA GCAAGAAAAG 
    AGCCAAGGAG TCTGGGAGTG CCAAGGATTT TACCCCTTAC AGTTGTCAGG CAAGGACAAC 
    TGCCCCCTTG TAACATGGCT GTCAGAACCC ACGGCTGCCA GTTCAGATAG GAACCTGCCT 
    GAATCTGGAA AAGTTAGTGA GTGCCAGGCT CCCTTTGCTT TATCATCCAA ACGTGACTCG 
    AAAAAAACTA GCTGA

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

    RefSeq XP_031761079.1
    CDS16..4470
    Translation

    Target ORF information:

    RefSeq Version XM_031905219.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_031905219.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGATGAGC CCAGCATCCT AAGGAGGCGA GGGTTGCAGA AAGAGTTAAG TCTGCCACGC 
    CGTGGGAGCA TTTTATCTCC GAACAACCAA AGCCCGACTC TGCTCAGCCC TTGTAGTCCT 
    TGCAGCCCAA ACAGCCCCCT GCAAACATTA CACCCGTGGA GTTGCCGGAG CAGCAACAGG 
    AAGAGTCTGG TGGTGGGTTC CCCATCGCCT ACACTGTCAC GCCCTCTCTC TCCACTTTCT 
    GTGCCTACAG GAAGCAGTCC TTTGGATAGC CCAAGGAATT TTTCCACAAG TGCATCTGTT 
    AACTTCCCAT TTGCCCGCAG AGCTGATGGT CGCAGATGGT CTCTTGCATC TCTTCCATCT 
    TCTGGATATG GCACGAACAC TCCGAGCTCC ACTCTTTCGT CTTCCTCTTC TTCCCAGGAA 
    AGGCTGCACC AGCTTCCATT TCAGCCCACT GCAGATGAAC TGCATTTCCT TTCCAAACAT 
    TTCCGAAGTA CAGAGAGCAT TACAGATGAG GATGGACGGC GTTCTCCTTG CATGCGCCCC 
    CGCTCTCGTA GCCTCAGCCC AGGTCGTGCA TCATCAAACT TTGACAATGA AATAATTATG 
    ATGAACCATG TTTACAAAGA GAGATTCCCA AAGGCTACAG CGCAGATGGA AGAACGGTTG 
    CAGGACATCA TCACTCATTT CTGCCCCAGC CAAACACTTC CGCTGGCCGA TGGTGTTTTG 
    GGCTTCATTC ACCATCAGAT TATCGAGCTG GCTCGGGATT GCCTGGACAA ATCTAAGGGG 
    GCACTGATAA CCTCCCGTTA CTTTCTGGAG CTGCAAGAAA AGCTAGAGAA AATGCTGCAA 
    GATGCACACA ATCGTTCAGA GAGTGAGGAA GTTATGTTCA CAAACCATTT GGCAAGGAAA 
    CTGCTGATGG TCATTGCCCG CCCAGCAAGA CTACTGGAAT GTTTGGAGTT TGATCCAGAG 
    CAGTTTTATC ATCTGCTGGA AGCTGCAGAA GGTCAGGCCA AGGTTGGCCA GGGGATAAAG 
    ACGGACATCC CTCGTTATAT AATCAACCAA CTAGGTCTCA CAAAGGACCC ACTAGAAGAG 
    ATTGTTCAAC TGGATCACTA TGATACAGAA TCCTCCCTGC TATTAGACCA AGAAGATTAT 
    CAAGATCCAT GTATTTCAAG TACTCCGTCA CGAAAAAAAC CTTGCGAGAG TGACTTTGAA 
    ACCATCAAAT TGATTAGCAA TGGAGCTTAT GGTGCTGTAT ATCTAGTCCG GCACAAGGAA 
    ATGCGACAGC GTTTTGCCAT GAAGAAGATA AACAAGCAGA ATCTGATACT GCGCAACCAA 
    ATTCAGCAAG TATTTGTGGA GAGAGACATC CTAACCTTTG CAGAGAATCC TTTTGTAGTC 
    AGCATGTTCT GCTCGTTTGA GACACGTCGA CATCTCTGTA TGGTGATGGA GTATGTGGAA 
    GGGGGAGACT GTGCTACGCT TCTAAAGAAC ATGGGACCGT TGCCAGTTGA TATGAGCCGC 
    ATGTATTTTG CTGAAACTGT GCTAGCACTA GAATATCTGC ACAACTATGG GATAGTTCAC 
    AGAGACCTTA AACCTGACAA TTTGCTGATT ACATCACTGG GACACATCAA GCTGACAGAT 
    TTTGGACTTT CCAAAATTGG CCTTATGAAC ATGACTACAA ACTTGTATGA AGGGCATATC 
    GAGAAGGACA CAAGGGAGTT TCTGGACAAA CAAGTGTGTG GGACCCCTGA ATACATTGCA 
    CCTGAGGTGA TCCTACGGCA GGGATATGGG AAGCCTGTGG ACTGGTGGGC GATGGGCATT 
    ATTCTTTATG AGTTTCTTGT TGGCTGTGTA CCATTCTTTG GAGACACACC AGAAGAACTA 
    TTTGGACAAG TGATCAGTGA TGAAATTATA TGGCCAGGAG GAGAGGAAGC ACTTCCTACT 
    GATGCTCAGG ATCTAATTAC CCGGCTGCTG CGCCAAAACC CCCTGGAACG TTTAGGGACA 
    GGTGGGGCCC AAGAAGTAAA GCAGCATACG TTCTTCCTTC CGTTGGACTG GAATGGGCTT 
    CTAAGGCAGA AAGCAGAGTT TGTTCCCCAG TTGGAAGCAG AGGACGACAC CAGTTATTTT 
    GACACTCGAT CAGAACGGTA TCATCATTTA GCTTCTGAGG AAGATGAGGA AACAAATGAC 
    GATGAGTCCT CGGTGGAAAT CCGTCAGTTT TCTTCTTGCT CCCATCGTTT CAGCAAGGTA 
    TATAGCAGTT CTGAGCATTT AGCAACACAG CTCAATCTGA GTTTCTCTTC CACTGAACGA 
    AGTCACAGTG ATGAAAAGGA GGAGCACAGT GACAGGTGGG AGAGGACTCT GTCTATTGAG 
    GAAGAAAAGA ATCGACTAGG CCCTGAAAAC AGGTTAAGGT CCTGGACATC ATCTGGTTCG 
    TCCCATCATT CCTGGCTAAG TGAAAGAAGT GCCAGCCCTA ATGTTCTGAC CAGCACCTGC 
    AGTCTGGATA CCATGCCCAA GTTTGCTTTT TCCTCTGAAG AGGAGTCTTC TGATCACAAA 
    CCTGAAAGAC CAACTTTTAC TTTAGGTGAA ATGAAAGGGA CTCCTCCAAA ACCTACTTCT 
    CTCTGTGCAG ACATTGTCAG TCTTAGCAGA ACCCGCCTAC GGAGCAACAG CACTGGAGCC 
    AAGAACTCCA CTCCTCGCCC TCTGGAAGCG GGTGTTACCC GCCGGCTGCG TGGGCAGAGA 
    GATACACCTG AAAAACACAG TTCTTCCACA GGGAGCCGGG TCCCCAAATC TGCATCTGTC 
    TCTGCCCTGT CTCTAATAAT AACAGCAGAT GATTTTGGCA GTGGATCACT TGCAAGTCCT 
    ATTTCCCCTC GTTCTCTCTC ATCTAATCCA TCCTCAAGGG ACTCCTCACC CAGCCGTGAG 
    TCTACAGTTG CAGTATCTAG CTTACGCCCA CCCATCATAA TCCACAGCTC AGGAAAAAAG 
    TATGGCTTTA CCCTACGAGC CATAAGAGTC TACATGGGAG AGAGTGATGT TTATACTGTA 
    CACCATATGG TTTGGAGCAT AGAAGATGGA AGTCCAGCCC ATGAGGCAGG CCTTAGAGCT 
    GGTGACCTTA TCACACATGT GAATGGCGAG TCTGTTCTTG GGCTTGTGCA CATGGATGTA 
    GTTGAGCTGC TGTTAAAGAG TGGCAGCAAA GTCTCCTTAA GGACAACCCC CCTGGAAAAC 
    ACCTCTATAA AGATTGGGCC AGCTAGGAAA AACAGTTGCA AGGGCCGCAT GGCAAGGAGG 
    ACAAAAAAGA GCAGAAAACG GGAGAGCCAA GACAGGAAGC GCTCTTTGTT TAAGAAAATT 
    TCCAAGCAGT CCACAGTGCT ACAGACCAGT AGAAGCTTCT CATCTGGGCT TCACCAATCT 
    CTGTCTTCCA GTGAGAGCCT TCCAGCTTCT CCCACTCATA GTTTGTCTCC AGGTCCCACC 
    ACTCCAAGTC GTAGCCCTGC CCCTGATGCA GCTGGTGATG CTGCTTCACC ACAGAGTACT 
    TCACCCTGCT CCAGCACACC AAGCTCACCT GCAGGACACA TCCGACCAAG CTCCCTTCAG 
    TGCCTAACCC CCAAACTCAG TGGACAGCGC TACAAAGTTG GGCGCAGGAA ATCTACCAGC 
    AGCATCCCAC CTTCCCCATT GGCTTGCACA CCTTCACCGG TTCCACAGGC ACCCTCATCT 
    CCTCAACGCT CTCCTTCCCC ACTATTACCT AGTCATCCAA GGAGTGGACA TTGTGGCCTC 
    CAGGGCAAGA CGTTATCACC ACCAACCATC GTAAGACAAA GTGCTCGAAA TCGAGCAACT 
    GATGCACCCA GGTCACCTTT ACTAAAGAGA GTGCAGTCTG TAGAAAAGAT GGCAGCATTT 
    TTGTCCAGTG GGCGTAAGGC AAGCCCAGTT GATATCCAGC ACTGGGAGGA CACAGTGGAT 
    ATGTTAGAGG GTATGTCAGA ATCCAGGACC AGGGATTGGA GCTCAGAGAA ACATGAGCGT 
    GACCCAGAGG TGGTGGTAAT GAGAAGGCTT AATCTTTCAG AGAGACGGGA CTCCTTCAAG 
    AAGCAAGAAG CTGTGCAAGA AGTTAGTTTT GATGAACCAG ACACAGGAGC TGGAGAAGTG 
    GCACCTGACA ACAAGAAAAT AGGGAGCTGC TCAAGTTTGT GGGAAAGATT GCCCCACCAA 
    ACTTCCTGGA TACAAGCACG GACGGGGATA TCAACATCTG TGACAACACA GCAAGAGGCT 
    TCATGTCGCC TTGTGCCACA AATAGCTGTA CAGACCTCTG AGAGTGATGA GCAAGAAAAG 
    AGCCAAGGAG TCTGGGAGTG CCAAGGATTT TACCCCTTAC AGTTGTCAGG CAAGGACAAC 
    TGCCCCCTTG TAACATGGCT GTCAGAACCC ACGGCTGCCA GTTCAGATAG GAACCTGCCT 
    GAATCTGGAA AAGTTAGTGA GTGCCAGGCT CCCTTTGCTT TATCATCCAA ACGTGACTCG 
    AAAAAAACTA GCTGA

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

    mast3 ( XM_012954218.2 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012809672.1 Xenopus tropicalis microtubule associated serine/threonine kinase 3 (mast3), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OXa48546
    Clone ID Related Accession (Same CDS sequence) XM_012954218.2
    Accession Version XM_012954218.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4452bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030677.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012954218.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGAAATCCA GAAGAGACAA GCTTAAAATC CCATCTTTAA CATTAGATTT ATCTCCGAAC 
    AACCAAAGCC CGACTCTGCT CAGCCCTTGT AGTCCTTGCA GCCCAAACAG CCCCCTGCAA 
    ACATTACACC CGTGGAGTTG CCGGAGCAGC AACAGGAAGA GTCTGGTGGT GGGTTCCCCA 
    TCGCCTACAC TGTCACGCCC TCTCTCTCCA CTTTCTGTGC CTACAGCAGG AAGCAGTCCT 
    TTGGATAGCC CAAGGAATTT TTCCACAAGT GCATCTGTTA ACTTCCCATT TGCCCGCAGT 
    CATGGCCCTC GTGCAGACAG AGCTGATGGT CGCAGATGGT CTCTTGCATC TCTTCCATCT 
    TCTGGATATG GCACGAACAC TCCGAGCTCC ACTCTTTCGT CTTCCTCTTC TTCCCAGGAA 
    AGGCTGCACC AGCTTCCATT TCAGCCCACT GCAGATGAAC TGCATTTCCT TTCCAAACAT 
    TTCCGAAGTA CAGAGAGCAT TACAGATGAG GATGGACGGC GTTCTCCTTG CATGCGCCCC 
    CGCTCTCGTA GCCTCAGCCC AGGTCGTGCA TCATCAAACT TTGACAATGA AATAATTATG 
    ATGAACCATG TTTACAAAGA GAGATTCCCA AAGGCTACAG CGCAGATGGA AGAACGGTTG 
    CAGGACATCA TCACTCATTT CTGCCCCAGC CAAACACTTC CGCTGGCCGA TGGTGTTTTG 
    GGCTTCATTC ACCATCAGAT TATCGAGCTG GCTCGGGATT GCCTGGACAA ATCTAAGGGG 
    GCACTGATAA CCTCCCGTTA CTTTCTGGAG CTGCAAGAAA AGCTAGAGAA AATGCTGCAA 
    GATGCACACA ATCGTTCAGA GAGTGAGGAA GTTATGTTCA CAAACCATTT GGCAAGGAAA 
    CTGCTGATGG TCATTGCCCG CCCAGCAAGA CTACTGGAAT GTTTGGAGTT TGATCCAGAG 
    CAGTTTTATC ATCTGCTGGA AGCTGCAGAA GGTCAGGCCA AGGTTGGCCA GGGGATAAAG 
    ACGGACATCC CTCGTTATAT AATCAACCAA CTAGGTCTCA CAAAGGACCC ACTAGAAGAG 
    ATTGTTCAAC TGGATCACTA TGATACAGAA TCCTCCCTGC TATTAGACCA AGAAGATTAT 
    CAAGATCCAT GTATTTCAAG TACTCCGTCA CGAAAAAAAC CTTGCGAGAG TGACTTTGAA 
    ACCATCAAAT TGATTAGCAA TGGAGCTTAT GGTGCTGTAT ATCTAGTCCG GCACAAGGAA 
    ATGCGACAGC GTTTTGCCAT GAAGAAGATA AACAAGCAGA ATCTGATACT GCGCAACCAA 
    ATTCAGCAAG TATTTGTGGA GAGAGACATC CTAACCTTTG CAGAGAATCC TTTTGTAGTC 
    AGCATGTTCT GCTCGTTTGA GACACGTCGA CATCTCTGTA TGGTGATGGA GTATGTGGAA 
    GGGGGAGACT GTGCTACGCT TCTAAAGAAC ATGGGACCGT TGCCAGTTGA TATGAGCCGC 
    ATGTATTTTG CTGAAACTGT GCTAGCACTA GAATATCTGC ACAACTATGG GATAGTTCAC 
    AGAGACCTTA AACCTGACAA TTTGCTGATT ACATCACTGG GACACATCAA GCTGACAGAT 
    TTTGGACTTT CCAAAATTGG CCTTATGAAC ATGACTACAA ACTTGTATGA AGGGCATATC 
    GAGAAGGACA CAAGGGAGTT TCTGGACAAA CAAGTGTGTG GGACCCCTGA ATACATTGCA 
    CCTGAGGTGA TCCTACGGCA GGGATATGGG AAGCCTGTGG ACTGGTGGGC GATGGGCATT 
    ATTCTTTATG AGTTTCTTGT TGGCTGTGTA CCATTCTTTG GAGACACACC AGAAGAACTA 
    TTTGGACAAG TGATCAGTGA TGAAATTATA TGGCCAGGAG GAGAGGAAGC ACTTCCTACT 
    GATGCTCAGG ATCTAATTAC CCGGCTGCTG CGCCAAAACC CCCTGGAACG TTTAGGGACA 
    GGTGGGGCCC AAGAAGTAAA GCAGCATACG TTCTTCCTTC CGTTGGACTG GAATGGGCTT 
    CTAAGGCAGA AAGCAGAGTT TGTTCCCCAG TTGGAAGCAG AGGACGACAC CAGTTATTTT 
    GACACTCGAT CAGAACGGTA TCATCATTTA GCTTCTGAGG AAGATGAGGA AACAAATGAC 
    GATGAGTCCT CGGTGGAAAT CCGTCAGTTT TCTTCTTGCT CCCATCGTTT CAGCAAGGTA 
    TATAGCAGTT CTGAGCATTT AGCAACACAG CTCAATCTGA GTTTCTCTTC CACTGAACGA 
    AGTCACAGTG ATGAAAAGGA GGAGCACAGT GACAGGTGGG AGAGGACTCT GTCTATTGAG 
    GAAGAAAAGA ATCGACTAGG CCCTGAAAAC AGGTTAAGGT CCTGGACATC ATCTGGTTCG 
    TCCCATCATT CCTGGCTAAG TGAAAGAAGT GCCAGCCCTA ATGTTCTGAC CAGCACCTGC 
    AGTCTGGATA CCATGCCCAA GTTTGCTTTT TCCTCTGAAG AGGAGTCTTC TGATCACAAA 
    CCTGAAAGAC CAACTTTTAC TTTAGGTGAA ATGAAAGGGA CTCCTCCAAA ACCTACTTCT 
    CTCTGTGACA TTGTCAGTCT TAGCAGAACC CGCCTACGGA GCAACAGCAC TGGAGCCAAG 
    AACTCCACTC CTCGCCCTCT GGAAGCGGGT GTTACCCGCC GGCTGCGTGG GCAGAGAGAT 
    ACACCTGAAA AACACAGTTC TTCCACAGGG AGCCGGGTCC CCAAATCTGC ATCTGTCTCT 
    GCCCTGTCTC TAATAATAAC AGCAGATGAT TTTGGCAGTG GATCACTTGC AAGTCCTATT 
    TCCCCTCGTT CTCTCTCATC TAATCCATCC TCAAGGGACT CCTCACCCAG CCGTGAGTCT 
    ACAGTTGCAG TATCTAGCTT ACGCCCACCC ATCATAATCC ACAGCTCAGG AAAAAAGTAT 
    GGCTTTACCC TACGAGCCAT AAGAGTCTAC ATGGGAGAGA GTGATGTTTA TACTGTACAC 
    CATATGGTTT GGAGCATAGA AGATGGAAGT CCAGCCCATG AGGCAGGCCT TAGAGCTGGT 
    GACCTTATCA CACATGTGAA TGGCGAGTCT GTTCTTGGGC TTGTGCACAT GGATGTAGTT 
    GAGCTGCTGT TAAAGAGTGG CAGCAAAGTC TCCTTAAGGA CAACCCCCCT GGAAAACACC 
    TCTATAAAGA TTGGGCCAGC TAGGAAAAAC AGTTGCAAGG GCCGCATGGC AAGGAGGACA 
    AAAAAGAGCA GAAAACGGGA GAGCCAAGAC AGGAAGCGCT CTTTGTTTAA GAAAATTTCC 
    AAGCAGTCCA CAGTGCTACA GACCAGTAGA AGCTTCTCAT CTGGGCTTCA CCAATCTCTG 
    TCTTCCAGTG AGAGCCTTCC AGCTTCTCCC ACTCATAGTT TGTCTCCAGG TCCCACCACT 
    CCAAGTCGTA GCCCTGCCCC TGATGCAGCT GGTGATGCTG CTTCACCACA GAGTACTTCA 
    CCCTGCTCCA GCACACCAAG CTCACCTGCA GGACACATCC GACCAAGCTC CCTTCAGTGC 
    CTAACCCCCA AACTCAGTGG ACAGCGCTAC AAAGTTGGGC GCAGGAAATC TACCAGCAGC 
    ATCCCACCTT CCCCATTGGC TTGCACACCT TCACCGGTTC CACAGGCACC CTCATCTCCT 
    CAACGCTCTC CTTCCCCACT ATTACCTAGT CATCCAAGGA GTGGACATTG TGGCCTCCAG 
    GGCAAGACGT TATCACCACC AACCATCGTA AGACAAAGTG CTCGAAATCG AGCAACTGAT 
    GCACCCAGGT CACCTTTACT AAAGAGAGTG CAGTCTGTAG AAAAGATGGC AGCATTTTTG 
    TCCAGTGGGC GTAAGGCAAG CCCAGTTGAT ATCCAGCACT GGGAGGACAC AGTGGATATG 
    TTAGAGGGTA TGTCAGAATC CAGGACCAGG GATTGGAGCT CAGAGAAACA TGAGCGTGAC 
    CCAGAGGTGG TGGTAATGAG AAGGCTTAAT CTTTCAGAGA GACGGGACTC CTTCAAGAAG 
    CAAGAAGCTG TGCAAGAAGT TAGTTTTGAT GAACCAGACA CAGGAGCTGG AGAAGTGGCA 
    CCTGACAACA AGAAAATAGG GAGCTGCTCA AGTTTGTGGG AAAGATTGCC CCACCAAACT 
    TCCTGGATAC AAGCACGGAC GGGGATATCA ACATCTGTGA CAACACAGCA AGAGGCTTCA 
    TGTCGCCTTG TGCCACAAAT AGCTGTACAG ACCTCTGAGA GTGATGAGCA AGAAAAGAGC 
    CAAGGAGTCT GGGAGTGCCA AGGATTTTAC CCCTTACAGT TGTCAGGCAA GGACAACTGC 
    CCCCTTGTAA CATGGCTGTC AGAACCCACG GCTGCCAGTT CAGATAGGAA CCTGCCTGAA 
    TCTGGAAAAG TTAGTGAGTG CCAGGCTCCC TTTGCTTTAT CATCCAAACG TGACTCGAAA 
    AAAACTAGCT GA

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

    RefSeq XP_012809672.1
    CDS51..4502
    Translation

    Target ORF information:

    RefSeq Version XM_012954218.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_012954218.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGAAATCCA GAAGAGACAA GCTTAAAATC CCATCTTTAA CATTAGATTT ATCTCCGAAC 
    AACCAAAGCC CGACTCTGCT CAGCCCTTGT AGTCCTTGCA GCCCAAACAG CCCCCTGCAA 
    ACATTACACC CGTGGAGTTG CCGGAGCAGC AACAGGAAGA GTCTGGTGGT GGGTTCCCCA 
    TCGCCTACAC TGTCACGCCC TCTCTCTCCA CTTTCTGTGC CTACAGCAGG AAGCAGTCCT 
    TTGGATAGCC CAAGGAATTT TTCCACAAGT GCATCTGTTA ACTTCCCATT TGCCCGCAGT 
    CATGGCCCTC GTGCAGACAG AGCTGATGGT CGCAGATGGT CTCTTGCATC TCTTCCATCT 
    TCTGGATATG GCACGAACAC TCCGAGCTCC ACTCTTTCGT CTTCCTCTTC TTCCCAGGAA 
    AGGCTGCACC AGCTTCCATT TCAGCCCACT GCAGATGAAC TGCATTTCCT TTCCAAACAT 
    TTCCGAAGTA CAGAGAGCAT TACAGATGAG GATGGACGGC GTTCTCCTTG CATGCGCCCC 
    CGCTCTCGTA GCCTCAGCCC AGGTCGTGCA TCATCAAACT TTGACAATGA AATAATTATG 
    ATGAACCATG TTTACAAAGA GAGATTCCCA AAGGCTACAG CGCAGATGGA AGAACGGTTG 
    CAGGACATCA TCACTCATTT CTGCCCCAGC CAAACACTTC CGCTGGCCGA TGGTGTTTTG 
    GGCTTCATTC ACCATCAGAT TATCGAGCTG GCTCGGGATT GCCTGGACAA ATCTAAGGGG 
    GCACTGATAA CCTCCCGTTA CTTTCTGGAG CTGCAAGAAA AGCTAGAGAA AATGCTGCAA 
    GATGCACACA ATCGTTCAGA GAGTGAGGAA GTTATGTTCA CAAACCATTT GGCAAGGAAA 
    CTGCTGATGG TCATTGCCCG CCCAGCAAGA CTACTGGAAT GTTTGGAGTT TGATCCAGAG 
    CAGTTTTATC ATCTGCTGGA AGCTGCAGAA GGTCAGGCCA AGGTTGGCCA GGGGATAAAG 
    ACGGACATCC CTCGTTATAT AATCAACCAA CTAGGTCTCA CAAAGGACCC ACTAGAAGAG 
    ATTGTTCAAC TGGATCACTA TGATACAGAA TCCTCCCTGC TATTAGACCA AGAAGATTAT 
    CAAGATCCAT GTATTTCAAG TACTCCGTCA CGAAAAAAAC CTTGCGAGAG TGACTTTGAA 
    ACCATCAAAT TGATTAGCAA TGGAGCTTAT GGTGCTGTAT ATCTAGTCCG GCACAAGGAA 
    ATGCGACAGC GTTTTGCCAT GAAGAAGATA AACAAGCAGA ATCTGATACT GCGCAACCAA 
    ATTCAGCAAG TATTTGTGGA GAGAGACATC CTAACCTTTG CAGAGAATCC TTTTGTAGTC 
    AGCATGTTCT GCTCGTTTGA GACACGTCGA CATCTCTGTA TGGTGATGGA GTATGTGGAA 
    GGGGGAGACT GTGCTACGCT TCTAAAGAAC ATGGGACCGT TGCCAGTTGA TATGAGCCGC 
    ATGTATTTTG CTGAAACTGT GCTAGCACTA GAATATCTGC ACAACTATGG GATAGTTCAC 
    AGAGACCTTA AACCTGACAA TTTGCTGATT ACATCACTGG GACACATCAA GCTGACAGAT 
    TTTGGACTTT CCAAAATTGG CCTTATGAAC ATGACTACAA ACTTGTATGA AGGGCATATC 
    GAGAAGGACA CAAGGGAGTT TCTGGACAAA CAAGTGTGTG GGACCCCTGA ATACATTGCA 
    CCTGAGGTGA TCCTACGGCA GGGATATGGG AAGCCTGTGG ACTGGTGGGC GATGGGCATT 
    ATTCTTTATG AGTTTCTTGT TGGCTGTGTA CCATTCTTTG GAGACACACC AGAAGAACTA 
    TTTGGACAAG TGATCAGTGA TGAAATTATA TGGCCAGGAG GAGAGGAAGC ACTTCCTACT 
    GATGCTCAGG ATCTAATTAC CCGGCTGCTG CGCCAAAACC CCCTGGAACG TTTAGGGACA 
    GGTGGGGCCC AAGAAGTAAA GCAGCATACG TTCTTCCTTC CGTTGGACTG GAATGGGCTT 
    CTAAGGCAGA AAGCAGAGTT TGTTCCCCAG TTGGAAGCAG AGGACGACAC CAGTTATTTT 
    GACACTCGAT CAGAACGGTA TCATCATTTA GCTTCTGAGG AAGATGAGGA AACAAATGAC 
    GATGAGTCCT CGGTGGAAAT CCGTCAGTTT TCTTCTTGCT CCCATCGTTT CAGCAAGGTA 
    TATAGCAGTT CTGAGCATTT AGCAACACAG CTCAATCTGA GTTTCTCTTC CACTGAACGA 
    AGTCACAGTG ATGAAAAGGA GGAGCACAGT GACAGGTGGG AGAGGACTCT GTCTATTGAG 
    GAAGAAAAGA ATCGACTAGG CCCTGAAAAC AGGTTAAGGT CCTGGACATC ATCTGGTTCG 
    TCCCATCATT CCTGGCTAAG TGAAAGAAGT GCCAGCCCTA ATGTTCTGAC CAGCACCTGC 
    AGTCTGGATA CCATGCCCAA GTTTGCTTTT TCCTCTGAAG AGGAGTCTTC TGATCACAAA 
    CCTGAAAGAC CAACTTTTAC TTTAGGTGAA ATGAAAGGGA CTCCTCCAAA ACCTACTTCT 
    CTCTGTGACA TTGTCAGTCT TAGCAGAACC CGCCTACGGA GCAACAGCAC TGGAGCCAAG 
    AACTCCACTC CTCGCCCTCT GGAAGCGGGT GTTACCCGCC GGCTGCGTGG GCAGAGAGAT 
    ACACCTGAAA AACACAGTTC TTCCACAGGG AGCCGGGTCC CCAAATCTGC ATCTGTCTCT 
    GCCCTGTCTC TAATAATAAC AGCAGATGAT TTTGGCAGTG GATCACTTGC AAGTCCTATT 
    TCCCCTCGTT CTCTCTCATC TAATCCATCC TCAAGGGACT CCTCACCCAG CCGTGAGTCT 
    ACAGTTGCAG TATCTAGCTT ACGCCCACCC ATCATAATCC ACAGCTCAGG AAAAAAGTAT 
    GGCTTTACCC TACGAGCCAT AAGAGTCTAC ATGGGAGAGA GTGATGTTTA TACTGTACAC 
    CATATGGTTT GGAGCATAGA AGATGGAAGT CCAGCCCATG AGGCAGGCCT TAGAGCTGGT 
    GACCTTATCA CACATGTGAA TGGCGAGTCT GTTCTTGGGC TTGTGCACAT GGATGTAGTT 
    GAGCTGCTGT TAAAGAGTGG CAGCAAAGTC TCCTTAAGGA CAACCCCCCT GGAAAACACC 
    TCTATAAAGA TTGGGCCAGC TAGGAAAAAC AGTTGCAAGG GCCGCATGGC AAGGAGGACA 
    AAAAAGAGCA GAAAACGGGA GAGCCAAGAC AGGAAGCGCT CTTTGTTTAA GAAAATTTCC 
    AAGCAGTCCA CAGTGCTACA GACCAGTAGA AGCTTCTCAT CTGGGCTTCA CCAATCTCTG 
    TCTTCCAGTG AGAGCCTTCC AGCTTCTCCC ACTCATAGTT TGTCTCCAGG TCCCACCACT 
    CCAAGTCGTA GCCCTGCCCC TGATGCAGCT GGTGATGCTG CTTCACCACA GAGTACTTCA 
    CCCTGCTCCA GCACACCAAG CTCACCTGCA GGACACATCC GACCAAGCTC CCTTCAGTGC 
    CTAACCCCCA AACTCAGTGG ACAGCGCTAC AAAGTTGGGC GCAGGAAATC TACCAGCAGC 
    ATCCCACCTT CCCCATTGGC TTGCACACCT TCACCGGTTC CACAGGCACC CTCATCTCCT 
    CAACGCTCTC CTTCCCCACT ATTACCTAGT CATCCAAGGA GTGGACATTG TGGCCTCCAG 
    GGCAAGACGT TATCACCACC AACCATCGTA AGACAAAGTG CTCGAAATCG AGCAACTGAT 
    GCACCCAGGT CACCTTTACT AAAGAGAGTG CAGTCTGTAG AAAAGATGGC AGCATTTTTG 
    TCCAGTGGGC GTAAGGCAAG CCCAGTTGAT ATCCAGCACT GGGAGGACAC AGTGGATATG 
    TTAGAGGGTA TGTCAGAATC CAGGACCAGG GATTGGAGCT CAGAGAAACA TGAGCGTGAC 
    CCAGAGGTGG TGGTAATGAG AAGGCTTAAT CTTTCAGAGA GACGGGACTC CTTCAAGAAG 
    CAAGAAGCTG TGCAAGAAGT TAGTTTTGAT GAACCAGACA CAGGAGCTGG AGAAGTGGCA 
    CCTGACAACA AGAAAATAGG GAGCTGCTCA AGTTTGTGGG AAAGATTGCC CCACCAAACT 
    TCCTGGATAC AAGCACGGAC GGGGATATCA ACATCTGTGA CAACACAGCA AGAGGCTTCA 
    TGTCGCCTTG TGCCACAAAT AGCTGTACAG ACCTCTGAGA GTGATGAGCA AGAAAAGAGC 
    CAAGGAGTCT GGGAGTGCCA AGGATTTTAC CCCTTACAGT TGTCAGGCAA GGACAACTGC 
    CCCCTTGTAA CATGGCTGTC AGAACCCACG GCTGCCAGTT CAGATAGGAA CCTGCCTGAA 
    TCTGGAAAAG TTAGTGAGTG CCAGGCTCCC TTTGCTTTAT CATCCAAACG TGACTCGAAA 
    AAAACTAGCT GA

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

    mast3 ( XM_018097017.2 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_017952506.1 Xenopus tropicalis microtubule associated serine/threonine kinase 3 (mast3), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OXa48547
    Clone ID Related Accession (Same CDS sequence) XM_018097017.2
    Accession Version XM_018097017.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4401bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030677.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_018097017.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGTCGGACC CAAGTTATTG GACAGCGTTC CAGGGTTGCA AGGGACGCCT AGCAAAGGGG 
    GCCTTACTGC AACGTTCAAA AAGTTGCCGG AGCAGCAACA GGAAGAGTCT GGTGGTGGGT 
    TCCCCATCGC CTACACTGTC ACGCCCTCTC TCTCCACTTT CTGTGCCTAC AGCAGGAAGC 
    AGTCCTTTGG ATAGCCCAAG GAATTTTTCC ACAAGTGCAT CTGTTAACTT CCCATTTGCC 
    CGCAGTCATG GCCCTCGTGC AGACAGAGCT GATGGTCGCA GATGGTCTCT TGCATCTCTT 
    CCATCTTCTG GATATGGCAC GAACACTCCG AGCTCCACTC TTTCGTCTTC CTCTTCTTCC 
    CAGGAAAGGC TGCACCAGCT TCCATTTCAG CCCACTGCAG ATGAACTGCA TTTCCTTTCC 
    AAACATTTCC GAAGTACAGA GAGCATTACA GATGAGGATG GACGGCGTTC TCCTTGCATG 
    CGCCCCCGCT CTCGTAGCCT CAGCCCAGGT CGTGCATCAT CAAACTTTGA CAATGAAATA 
    ATTATGATGA ACCATGTTTA CAAAGAGAGA TTCCCAAAGG CTACAGCGCA GATGGAAGAA 
    CGGTTGCAGG ACATCATCAC TCATTTCTGC CCCAGCCAAA CACTTCCGCT GGCCGATGGT 
    GTTTTGGGCT TCATTCACCA TCAGATTATC GAGCTGGCTC GGGATTGCCT GGACAAATCT 
    AAGGGGGCAC TGATAACCTC CCGTTACTTT CTGGAGCTGC AAGAAAAGCT AGAGAAAATG 
    CTGCAAGATG CACACAATCG TTCAGAGAGT GAGGAAGTTA TGTTCACAAA CCATTTGGCA 
    AGGAAACTGC TGATGGTCAT TGCCCGCCCA GCAAGACTAC TGGAATGTTT GGAGTTTGAT 
    CCAGAGCAGT TTTATCATCT GCTGGAAGCT GCAGAAGGTC AGGCCAAGGT TGGCCAGGGG 
    ATAAAGACGG ACATCCCTCG TTATATAATC AACCAACTAG GTCTCACAAA GGACCCACTA 
    GAAGAGATTG TTCAACTGGA TCACTATGAT ACAGAATCCT CCCTGCTATT AGACCAAGAA 
    GATTATCAAG ATCCATGTAT TTCAAGTACT CCGTCACGAA AAAAACCTTG CGAGAGTGAC 
    TTTGAAACCA TCAAATTGAT TAGCAATGGA GCTTATGGTG CTGTATATCT AGTCCGGCAC 
    AAGGAAATGC GACAGCGTTT TGCCATGAAG AAGATAAACA AGCAGAATCT GATACTGCGC 
    AACCAAATTC AGCAAGTATT TGTGGAGAGA GACATCCTAA CCTTTGCAGA GAATCCTTTT 
    GTAGTCAGCA TGTTCTGCTC GTTTGAGACA CGTCGACATC TCTGTATGGT GATGGAGTAT 
    GTGGAAGGGG GAGACTGTGC TACGCTTCTA AAGAACATGG GACCGTTGCC AGTTGATATG 
    AGCCGCATGT ATTTTGCTGA AACTGTGCTA GCACTAGAAT ATCTGCACAA CTATGGGATA 
    GTTCACAGAG ACCTTAAACC TGACAATTTG CTGATTACAT CACTGGGACA CATCAAGCTG 
    ACAGATTTTG GACTTTCCAA AATTGGCCTT ATGAACATGA CTACAAACTT GTATGAAGGG 
    CATATCGAGA AGGACACAAG GGAGTTTCTG GACAAACAAG TGTGTGGGAC CCCTGAATAC 
    ATTGCACCTG AGGTGATCCT ACGGCAGGGA TATGGGAAGC CTGTGGACTG GTGGGCGATG 
    GGCATTATTC TTTATGAGTT TCTTGTTGGC TGTGTACCAT TCTTTGGAGA CACACCAGAA 
    GAACTATTTG GACAAGTGAT CAGTGATGAA ATTATATGGC CAGGAGGAGA GGAAGCACTT 
    CCTACTGATG CTCAGGATCT AATTACCCGG CTGCTGCGCC AAAACCCCCT GGAACGTTTA 
    GGGACAGGTG GGGCCCAAGA AGTAAAGCAG CATACGTTCT TCCTTCCGTT GGACTGGAAT 
    GGGCTTCTAA GGCAGAAAGC AGAGTTTGTT CCCCAGTTGG AAGCAGAGGA CGACACCAGT 
    TATTTTGACA CTCGATCAGA ACGGTATCAT CATTTAGCTT CTGAGGAAGA TGAGGAAACA 
    AATGACGATG AGTCCTCGGT GGAAATCCGT CAGTTTTCTT CTTGCTCCCA TCGTTTCAGC 
    AAGGTATATA GCAGTTCTGA GCATTTAGCA ACACAGCTCA ATCTGAGTTT CTCTTCCACT 
    GAACGAAGTC ACAGTGATGA AAAGGAGGAG CACAGTGACA GGTGGGAGAG GACTCTGTCT 
    ATTGAGGAAG AAAAGAATCG ACTAGGCCCT GAAAACAGGT TAAGGTCCTG GACATCATCT 
    GGTTCGTCCC ATCATTCCTG GCTAAGTGAA AGAAGTGCCA GCCCTAATGT TCTGACCAGC 
    ACCTGCAGTC TGGATACCAT GCCCAAGTTT GCTTTTTCCT CTGAAGAGGA GTCTTCTGAT 
    CACAAACCTG AAAGACCAAC TTTTACTTTA GGTGAAATGA AAGGGACTCC TCCAAAACCT 
    ACTTCTCTCT GTGCAGACAT TGTCAGTCTT AGCAGAACCC GCCTACGGAG CAACAGCACT 
    GGAGCCAAGA ACTCCACTCC TCGCCCTCTG GAAGCGGGTG TTACCCGCCG GCTGCGTGGG 
    CAGAGAGATA CACCTGAAAA ACACAGTTCT TCCACAGGGA GCCGGGTCCC CAAATCTGCA 
    TCTGTCTCTG CCCTGTCTCT AATAATAACA GCAGATGATT TTGGCAGTGG ATCACTTGCA 
    AGTCCTATTT CCCCTCGTTC TCTCTCATCT AATCCATCCT CAAGGGACTC CTCACCCAGC 
    CGTGAGTCTA CAGTTGCAGT ATCTAGCTTA CGCCCACCCA TCATAATCCA CAGCTCAGGA 
    AAAAAGTATG GCTTTACCCT ACGAGCCATA AGAGTCTACA TGGGAGAGAG TGATGTTTAT 
    ACTGTACACC ATATGGTTTG GAGCATAGAA GATGGAAGTC CAGCCCATGA GGCAGGCCTT 
    AGAGCTGGTG ACCTTATCAC ACATGTGAAT GGCGAGTCTG TTCTTGGGCT TGTGCACATG 
    GATGTAGTTG AGCTGCTGTT AAAGAGTGGC AGCAAAGTCT CCTTAAGGAC AACCCCCCTG 
    GAAAACACCT CTATAAAGAT TGGGCCAGCT AGGAAAAACA GTTGCAAGGG CCGCATGGCA 
    AGGAGGACAA AAAAGAGCAG AAAACGGGAG AGCCAAGACA GGAAGCGCTC TTTGTTTAAG 
    AAAATTTCCA AGCAGTCCAC AGTGCTACAG ACCAGTAGAA GCTTCTCATC TGGGCTTCAC 
    CAATCTCTGT CTTCCAGTGA GAGCCTTCCA GCTTCTCCCA CTCATAGTTT GTCTCCAGGT 
    CCCACCACTC CAAGTCGTAG CCCTGCCCCT GATGCAGCTG GTGATGCTGC TTCACCACAG 
    AGTACTTCAC CCTGCTCCAG CACACCAAGC TCACCTGCAG GACACATCCG ACCAAGCTCC 
    CTTCAGTGCC TAACCCCCAA ACTCAGTGGA CAGCGCTACA AAGTTGGGCG CAGGAAATCT 
    ACCAGCAGCA TCCCACCTTC CCCATTGGCT TGCACACCTT CACCGGTTCC ACAGGCACCC 
    TCATCTCCTC AACGCTCTCC TTCCCCACTA TTACCTAGTC ATCCAAGGAG TGGACATTGT 
    GGCCTCCAGG GCAAGACGTT ATCACCACCA ACCATCGTAA GACAAAGTGC TCGAAATCGA 
    GCAACTGATG CACCCAGGTC ACCTTTACTA AAGAGAGTGC AGTCTGTAGA AAAGATGGCA 
    GCATTTTTGT CCAGTGGGCG TAAGGCAAGC CCAGTTGATA TCCAGCACTG GGAGGACACA 
    GTGGATATGT TAGAGGGTAT GTCAGAATCC AGGACCAGGG ATTGGAGCTC AGAGAAACAT 
    GAGCGTGACC CAGAGGTGGT GGTAATGAGA AGGCTTAATC TTTCAGAGAG ACGGGACTCC 
    TTCAAGAAGC AAGAAGCTGT GCAAGAAGTT AGTTTTGATG AACCAGACAC AGGAGCTGGA 
    GAAGTGGCAC CTGACAACAA GAAAATAGGG AGCTGCTCAA GTTTGTGGGA AAGATTGCCC 
    CACCAAACTT CCTGGATACA AGCACGGACG GGGATATCAA CATCTGTGAC AACACAGCAA 
    GAGGCTTCAT GTCGCCTTGT GCCACAAATA GCTGTACAGA CCTCTGAGAG TGATGAGCAA 
    GAAAAGAGCC AAGGAGTCTG GGAGTGCCAA GGATTTTACC CCTTACAGTT GTCAGGCAAG 
    GACAACTGCC CCCTTGTAAC ATGGCTGTCA GAACCCACGG CTGCCAGTTC AGATAGGAAC 
    CTGCCTGAAT CTGGAAAAGT TAGTGAGTGC CAGGCTCCCT TTGCTTTATC ATCCAAACGT 
    GACTCGAAAA AAACTAGCTG A

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

    RefSeq XP_017952506.1
    CDS847..5247
    Translation

    Target ORF information:

    RefSeq Version XM_018097017.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_018097017.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGTCGGACC CAAGTTATTG GACAGCGTTC CAGGGTTGCA AGGGACGCCT AGCAAAGGGG 
    GCCTTACTGC AACGTTCAAA AAGTTGCCGG AGCAGCAACA GGAAGAGTCT GGTGGTGGGT 
    TCCCCATCGC CTACACTGTC ACGCCCTCTC TCTCCACTTT CTGTGCCTAC AGCAGGAAGC 
    AGTCCTTTGG ATAGCCCAAG GAATTTTTCC ACAAGTGCAT CTGTTAACTT CCCATTTGCC 
    CGCAGTCATG GCCCTCGTGC AGACAGAGCT GATGGTCGCA GATGGTCTCT TGCATCTCTT 
    CCATCTTCTG GATATGGCAC GAACACTCCG AGCTCCACTC TTTCGTCTTC CTCTTCTTCC 
    CAGGAAAGGC TGCACCAGCT TCCATTTCAG CCCACTGCAG ATGAACTGCA TTTCCTTTCC 
    AAACATTTCC GAAGTACAGA GAGCATTACA GATGAGGATG GACGGCGTTC TCCTTGCATG 
    CGCCCCCGCT CTCGTAGCCT CAGCCCAGGT CGTGCATCAT CAAACTTTGA CAATGAAATA 
    ATTATGATGA ACCATGTTTA CAAAGAGAGA TTCCCAAAGG CTACAGCGCA GATGGAAGAA 
    CGGTTGCAGG ACATCATCAC TCATTTCTGC CCCAGCCAAA CACTTCCGCT GGCCGATGGT 
    GTTTTGGGCT TCATTCACCA TCAGATTATC GAGCTGGCTC GGGATTGCCT GGACAAATCT 
    AAGGGGGCAC TGATAACCTC CCGTTACTTT CTGGAGCTGC AAGAAAAGCT AGAGAAAATG 
    CTGCAAGATG CACACAATCG TTCAGAGAGT GAGGAAGTTA TGTTCACAAA CCATTTGGCA 
    AGGAAACTGC TGATGGTCAT TGCCCGCCCA GCAAGACTAC TGGAATGTTT GGAGTTTGAT 
    CCAGAGCAGT TTTATCATCT GCTGGAAGCT GCAGAAGGTC AGGCCAAGGT TGGCCAGGGG 
    ATAAAGACGG ACATCCCTCG TTATATAATC AACCAACTAG GTCTCACAAA GGACCCACTA 
    GAAGAGATTG TTCAACTGGA TCACTATGAT ACAGAATCCT CCCTGCTATT AGACCAAGAA 
    GATTATCAAG ATCCATGTAT TTCAAGTACT CCGTCACGAA AAAAACCTTG CGAGAGTGAC 
    TTTGAAACCA TCAAATTGAT TAGCAATGGA GCTTATGGTG CTGTATATCT AGTCCGGCAC 
    AAGGAAATGC GACAGCGTTT TGCCATGAAG AAGATAAACA AGCAGAATCT GATACTGCGC 
    AACCAAATTC AGCAAGTATT TGTGGAGAGA GACATCCTAA CCTTTGCAGA GAATCCTTTT 
    GTAGTCAGCA TGTTCTGCTC GTTTGAGACA CGTCGACATC TCTGTATGGT GATGGAGTAT 
    GTGGAAGGGG GAGACTGTGC TACGCTTCTA AAGAACATGG GACCGTTGCC AGTTGATATG 
    AGCCGCATGT ATTTTGCTGA AACTGTGCTA GCACTAGAAT ATCTGCACAA CTATGGGATA 
    GTTCACAGAG ACCTTAAACC TGACAATTTG CTGATTACAT CACTGGGACA CATCAAGCTG 
    ACAGATTTTG GACTTTCCAA AATTGGCCTT ATGAACATGA CTACAAACTT GTATGAAGGG 
    CATATCGAGA AGGACACAAG GGAGTTTCTG GACAAACAAG TGTGTGGGAC CCCTGAATAC 
    ATTGCACCTG AGGTGATCCT ACGGCAGGGA TATGGGAAGC CTGTGGACTG GTGGGCGATG 
    GGCATTATTC TTTATGAGTT TCTTGTTGGC TGTGTACCAT TCTTTGGAGA CACACCAGAA 
    GAACTATTTG GACAAGTGAT CAGTGATGAA ATTATATGGC CAGGAGGAGA GGAAGCACTT 
    CCTACTGATG CTCAGGATCT AATTACCCGG CTGCTGCGCC AAAACCCCCT GGAACGTTTA 
    GGGACAGGTG GGGCCCAAGA AGTAAAGCAG CATACGTTCT TCCTTCCGTT GGACTGGAAT 
    GGGCTTCTAA GGCAGAAAGC AGAGTTTGTT CCCCAGTTGG AAGCAGAGGA CGACACCAGT 
    TATTTTGACA CTCGATCAGA ACGGTATCAT CATTTAGCTT CTGAGGAAGA TGAGGAAACA 
    AATGACGATG AGTCCTCGGT GGAAATCCGT CAGTTTTCTT CTTGCTCCCA TCGTTTCAGC 
    AAGGTATATA GCAGTTCTGA GCATTTAGCA ACACAGCTCA ATCTGAGTTT CTCTTCCACT 
    GAACGAAGTC ACAGTGATGA AAAGGAGGAG CACAGTGACA GGTGGGAGAG GACTCTGTCT 
    ATTGAGGAAG AAAAGAATCG ACTAGGCCCT GAAAACAGGT TAAGGTCCTG GACATCATCT 
    GGTTCGTCCC ATCATTCCTG GCTAAGTGAA AGAAGTGCCA GCCCTAATGT TCTGACCAGC 
    ACCTGCAGTC TGGATACCAT GCCCAAGTTT GCTTTTTCCT CTGAAGAGGA GTCTTCTGAT 
    CACAAACCTG AAAGACCAAC TTTTACTTTA GGTGAAATGA AAGGGACTCC TCCAAAACCT 
    ACTTCTCTCT GTGCAGACAT TGTCAGTCTT AGCAGAACCC GCCTACGGAG CAACAGCACT 
    GGAGCCAAGA ACTCCACTCC TCGCCCTCTG GAAGCGGGTG TTACCCGCCG GCTGCGTGGG 
    CAGAGAGATA CACCTGAAAA ACACAGTTCT TCCACAGGGA GCCGGGTCCC CAAATCTGCA 
    TCTGTCTCTG CCCTGTCTCT AATAATAACA GCAGATGATT TTGGCAGTGG ATCACTTGCA 
    AGTCCTATTT CCCCTCGTTC TCTCTCATCT AATCCATCCT CAAGGGACTC CTCACCCAGC 
    CGTGAGTCTA CAGTTGCAGT ATCTAGCTTA CGCCCACCCA TCATAATCCA CAGCTCAGGA 
    AAAAAGTATG GCTTTACCCT ACGAGCCATA AGAGTCTACA TGGGAGAGAG TGATGTTTAT 
    ACTGTACACC ATATGGTTTG GAGCATAGAA GATGGAAGTC CAGCCCATGA GGCAGGCCTT 
    AGAGCTGGTG ACCTTATCAC ACATGTGAAT GGCGAGTCTG TTCTTGGGCT TGTGCACATG 
    GATGTAGTTG AGCTGCTGTT AAAGAGTGGC AGCAAAGTCT CCTTAAGGAC AACCCCCCTG 
    GAAAACACCT CTATAAAGAT TGGGCCAGCT AGGAAAAACA GTTGCAAGGG CCGCATGGCA 
    AGGAGGACAA AAAAGAGCAG AAAACGGGAG AGCCAAGACA GGAAGCGCTC TTTGTTTAAG 
    AAAATTTCCA AGCAGTCCAC AGTGCTACAG ACCAGTAGAA GCTTCTCATC TGGGCTTCAC 
    CAATCTCTGT CTTCCAGTGA GAGCCTTCCA GCTTCTCCCA CTCATAGTTT GTCTCCAGGT 
    CCCACCACTC CAAGTCGTAG CCCTGCCCCT GATGCAGCTG GTGATGCTGC TTCACCACAG 
    AGTACTTCAC CCTGCTCCAG CACACCAAGC TCACCTGCAG GACACATCCG ACCAAGCTCC 
    CTTCAGTGCC TAACCCCCAA ACTCAGTGGA CAGCGCTACA AAGTTGGGCG CAGGAAATCT 
    ACCAGCAGCA TCCCACCTTC CCCATTGGCT TGCACACCTT CACCGGTTCC ACAGGCACCC 
    TCATCTCCTC AACGCTCTCC TTCCCCACTA TTACCTAGTC ATCCAAGGAG TGGACATTGT 
    GGCCTCCAGG GCAAGACGTT ATCACCACCA ACCATCGTAA GACAAAGTGC TCGAAATCGA 
    GCAACTGATG CACCCAGGTC ACCTTTACTA AAGAGAGTGC AGTCTGTAGA AAAGATGGCA 
    GCATTTTTGT CCAGTGGGCG TAAGGCAAGC CCAGTTGATA TCCAGCACTG GGAGGACACA 
    GTGGATATGT TAGAGGGTAT GTCAGAATCC AGGACCAGGG ATTGGAGCTC AGAGAAACAT 
    GAGCGTGACC CAGAGGTGGT GGTAATGAGA AGGCTTAATC TTTCAGAGAG ACGGGACTCC 
    TTCAAGAAGC AAGAAGCTGT GCAAGAAGTT AGTTTTGATG AACCAGACAC AGGAGCTGGA 
    GAAGTGGCAC CTGACAACAA GAAAATAGGG AGCTGCTCAA GTTTGTGGGA AAGATTGCCC 
    CACCAAACTT CCTGGATACA AGCACGGACG GGGATATCAA CATCTGTGAC AACACAGCAA 
    GAGGCTTCAT GTCGCCTTGT GCCACAAATA GCTGTACAGA CCTCTGAGAG TGATGAGCAA 
    GAAAAGAGCC AAGGAGTCTG GGAGTGCCAA GGATTTTACC CCTTACAGTT GTCAGGCAAG 
    GACAACTGCC CCCTTGTAAC ATGGCTGTCA GAACCCACGG CTGCCAGTTC AGATAGGAAC 
    CTGCCTGAAT CTGGAAAAGT TAGTGAGTGC CAGGCTCCCT TTGCTTTATC ATCCAAACGT 
    GACTCGAAAA AAACTAGCTG A

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

    mast3 ( XM_031905235.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031761095.1 Xenopus tropicalis microtubule associated serine/threonine kinase 3 (mast3), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OXa48548
    Clone ID Related Accession (Same CDS sequence) XM_031905235.1
    Accession Version XM_031905235.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4377bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030677.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGTCGGACC CAAGTTATTG GACAGCGTTC CAGGGTTGCA AGGGACGCCT AGCAAAGGGG 
    GCCTTACTGC AACGTTCAAA AAGTTGCCGG AGCAGCAACA GGAAGAGTCT GGTGGTGGGT 
    TCCCCATCGC CTACACTGTC ACGCCCTCTC TCTCCACTTT CTGTGCCTAC AGGAAGCAGT 
    CCTTTGGATA GCCCAAGGAA TTTTTCCACA AGTGCATCTG TTAACTTCCC ATTTGCCCGC 
    AGAGCTGATG GTCGCAGATG GTCTCTTGCA TCTCTTCCAT CTTCTGGATA TGGCACGAAC 
    ACTCCGAGCT CCACTCTTTC GTCTTCCTCT TCTTCCCAGG AAAGGCTGCA CCAGCTTCCA 
    TTTCAGCCCA CTGCAGATGA ACTGCATTTC CTTTCCAAAC ATTTCCGAAG TACAGAGAGC 
    ATTACAGATG AGGATGGACG GCGTTCTCCT TGCATGCGCC CCCGCTCTCG TAGCCTCAGC 
    CCAGGTCGTG CATCATCAAA CTTTGACAAT GAAATAATTA TGATGAACCA TGTTTACAAA 
    GAGAGATTCC CAAAGGCTAC AGCGCAGATG GAAGAACGGT TGCAGGACAT CATCACTCAT 
    TTCTGCCCCA GCCAAACACT TCCGCTGGCC GATGGTGTTT TGGGCTTCAT TCACCATCAG 
    ATTATCGAGC TGGCTCGGGA TTGCCTGGAC AAATCTAAGG GGGCACTGAT AACCTCCCGT 
    TACTTTCTGG AGCTGCAAGA AAAGCTAGAG AAAATGCTGC AAGATGCACA CAATCGTTCA 
    GAGAGTGAGG AAGTTATGTT CACAAACCAT TTGGCAAGGA AACTGCTGAT GGTCATTGCC 
    CGCCCAGCAA GACTACTGGA ATGTTTGGAG TTTGATCCAG AGCAGTTTTA TCATCTGCTG 
    GAAGCTGCAG AAGGTCAGGC CAAGGTTGGC CAGGGGATAA AGACGGACAT CCCTCGTTAT 
    ATAATCAACC AACTAGGTCT CACAAAGGAC CCACTAGAAG AGATTGTTCA ACTGGATCAC 
    TATGATACAG AATCCTCCCT GCTATTAGAC CAAGAAGATT ATCAAGATCC ATGTATTTCA 
    AGTACTCCGT CACGAAAAAA ACCTTGCGAG AGTGACTTTG AAACCATCAA ATTGATTAGC 
    AATGGAGCTT ATGGTGCTGT ATATCTAGTC CGGCACAAGG AAATGCGACA GCGTTTTGCC 
    ATGAAGAAGA TAAACAAGCA GAATCTGATA CTGCGCAACC AAATTCAGCA AGTATTTGTG 
    GAGAGAGACA TCCTAACCTT TGCAGAGAAT CCTTTTGTAG TCAGCATGTT CTGCTCGTTT 
    GAGACACGTC GACATCTCTG TATGGTGATG GAGTATGTGG AAGGGGGAGA CTGTGCTACG 
    CTTCTAAAGA ACATGGGACC GTTGCCAGTT GATATGAGCC GCATGTATTT TGCTGAAACT 
    GTGCTAGCAC TAGAATATCT GCACAACTAT GGGATAGTTC ACAGAGACCT TAAACCTGAC 
    AATTTGCTGA TTACATCACT GGGACACATC AAGCTGACAG ATTTTGGACT TTCCAAAATT 
    GGCCTTATGA ACATGACTAC AAACTTGTAT GAAGGGCATA TCGAGAAGGA CACAAGGGAG 
    TTTCTGGACA AACAAGTGTG TGGGACCCCT GAATACATTG CACCTGAGGT GATCCTACGG 
    CAGGGATATG GGAAGCCTGT GGACTGGTGG GCGATGGGCA TTATTCTTTA TGAGTTTCTT 
    GTTGGCTGTG TACCATTCTT TGGAGACACA CCAGAAGAAC TATTTGGACA AGTGATCAGT 
    GATGAAATTA TATGGCCAGG AGGAGAGGAA GCACTTCCTA CTGATGCTCA GGATCTAATT 
    ACCCGGCTGC TGCGCCAAAA CCCCCTGGAA CGTTTAGGGA CAGGTGGGGC CCAAGAAGTA 
    AAGCAGCATA CGTTCTTCCT TCCGTTGGAC TGGAATGGGC TTCTAAGGCA GAAAGCAGAG 
    TTTGTTCCCC AGTTGGAAGC AGAGGACGAC ACCAGTTATT TTGACACTCG ATCAGAACGG 
    TATCATCATT TAGCTTCTGA GGAAGATGAG GAAACAAATG ACGATGAGTC CTCGGTGGAA 
    ATCCGTCAGT TTTCTTCTTG CTCCCATCGT TTCAGCAAGG TATATAGCAG TTCTGAGCAT 
    TTAGCAACAC AGCTCAATCT GAGTTTCTCT TCCACTGAAC GAAGTCACAG TGATGAAAAG 
    GAGGAGCACA GTGACAGGTG GGAGAGGACT CTGTCTATTG AGGAAGAAAA GAATCGACTA 
    GGCCCTGAAA ACAGGTTAAG GTCCTGGACA TCATCTGGTT CGTCCCATCA TTCCTGGCTA 
    AGTGAAAGAA GTGCCAGCCC TAATGTTCTG ACCAGCACCT GCAGTCTGGA TACCATGCCC 
    AAGTTTGCTT TTTCCTCTGA AGAGGAGTCT TCTGATCACA AACCTGAAAG ACCAACTTTT 
    ACTTTAGGTG AAATGAAAGG GACTCCTCCA AAACCTACTT CTCTCTGTGC AGACATTGTC 
    AGTCTTAGCA GAACCCGCCT ACGGAGCAAC AGCACTGGAG CCAAGAACTC CACTCCTCGC 
    CCTCTGGAAG CGGGTGTTAC CCGCCGGCTG CGTGGGCAGA GAGATACACC TGAAAAACAC 
    AGTTCTTCCA CAGGGAGCCG GGTCCCCAAA TCTGCATCTG TCTCTGCCCT GTCTCTAATA 
    ATAACAGCAG ATGATTTTGG CAGTGGATCA CTTGCAAGTC CTATTTCCCC TCGTTCTCTC 
    TCATCTAATC CATCCTCAAG GGACTCCTCA CCCAGCCGTG AGTCTACAGT TGCAGTATCT 
    AGCTTACGCC CACCCATCAT AATCCACAGC TCAGGAAAAA AGTATGGCTT TACCCTACGA 
    GCCATAAGAG TCTACATGGG AGAGAGTGAT GTTTATACTG TACACCATAT GGTTTGGAGC 
    ATAGAAGATG GAAGTCCAGC CCATGAGGCA GGCCTTAGAG CTGGTGACCT TATCACACAT 
    GTGAATGGCG AGTCTGTTCT TGGGCTTGTG CACATGGATG TAGTTGAGCT GCTGTTAAAG 
    AGTGGCAGCA AAGTCTCCTT AAGGACAACC CCCCTGGAAA ACACCTCTAT AAAGATTGGG 
    CCAGCTAGGA AAAACAGTTG CAAGGGCCGC ATGGCAAGGA GGACAAAAAA GAGCAGAAAA 
    CGGGAGAGCC AAGACAGGAA GCGCTCTTTG TTTAAGAAAA TTTCCAAGCA GTCCACAGTG 
    CTACAGACCA GTAGAAGCTT CTCATCTGGG CTTCACCAAT CTCTGTCTTC CAGTGAGAGC 
    CTTCCAGCTT CTCCCACTCA TAGTTTGTCT CCAGGTCCCA CCACTCCAAG TCGTAGCCCT 
    GCCCCTGATG CAGCTGGTGA TGCTGCTTCA CCACAGAGTA CTTCACCCTG CTCCAGCACA 
    CCAAGCTCAC CTGCAGGACA CATCCGACCA AGCTCCCTTC AGTGCCTAAC CCCCAAACTC 
    AGTGGACAGC GCTACAAAGT TGGGCGCAGG AAATCTACCA GCAGCATCCC ACCTTCCCCA 
    TTGGCTTGCA CACCTTCACC GGTTCCACAG GCACCCTCAT CTCCTCAACG CTCTCCTTCC 
    CCACTATTAC CTAGTCATCC AAGGAGTGGA CATTGTGGCC TCCAGGGCAA GACGTTATCA 
    CCACCAACCA TCGTAAGACA AAGTGCTCGA AATCGAGCAA CTGATGCACC CAGGTCACCT 
    TTACTAAAGA GAGTGCAGTC TGTAGAAAAG ATGGCAGCAT TTTTGTCCAG TGGGCGTAAG 
    GCAAGCCCAG TTGATATCCA GCACTGGGAG GACACAGTGG ATATGTTAGA GGGTATGTCA 
    GAATCCAGGA CCAGGGATTG GAGCTCAGAG AAACATGAGC GTGACCCAGA GGTGGTGGTA 
    ATGAGAAGGC TTAATCTTTC AGAGAGACGG GACTCCTTCA AGAAGCAAGA AGCTGTGCAA 
    GAAGTTAGTT TTGATGAACC AGACACAGGA GCTGGAGAAG TGGCACCTGA CAACAAGAAA 
    ATAGGGAGCT GCTCAAGTTT GTGGGAAAGA TTGCCCCACC AAACTTCCTG GATACAAGCA 
    CGGACGGGGA TATCAACATC TGTGACAACA CAGCAAGAGG CTTCATGTCG CCTTGTGCCA 
    CAAATAGCTG TACAGACCTC TGAGAGTGAT GAGCAAGAAA AGAGCCAAGG AGTCTGGGAG 
    TGCCAAGGAT TTTACCCCTT ACAGTTGTCA GGCAAGGACA ACTGCCCCCT TGTAACATGG 
    CTGTCAGAAC CCACGGCTGC CAGTTCAGAT AGGAACCTGC CTGAATCTGG AAAAGTTAGT 
    GAGTGCCAGG CTCCCTTTGC TTTATCATCC AAACGTGACT CGAAAAAAAC TAGCTGA

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

    RefSeq XP_031761095.1
    CDS1027..5403
    Translation

    Target ORF information:

    RefSeq Version XM_031905235.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_031905235.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGTCGGACC CAAGTTATTG GACAGCGTTC CAGGGTTGCA AGGGACGCCT AGCAAAGGGG 
    GCCTTACTGC AACGTTCAAA AAGTTGCCGG AGCAGCAACA GGAAGAGTCT GGTGGTGGGT 
    TCCCCATCGC CTACACTGTC ACGCCCTCTC TCTCCACTTT CTGTGCCTAC AGGAAGCAGT 
    CCTTTGGATA GCCCAAGGAA TTTTTCCACA AGTGCATCTG TTAACTTCCC ATTTGCCCGC 
    AGAGCTGATG GTCGCAGATG GTCTCTTGCA TCTCTTCCAT CTTCTGGATA TGGCACGAAC 
    ACTCCGAGCT CCACTCTTTC GTCTTCCTCT TCTTCCCAGG AAAGGCTGCA CCAGCTTCCA 
    TTTCAGCCCA CTGCAGATGA ACTGCATTTC CTTTCCAAAC ATTTCCGAAG TACAGAGAGC 
    ATTACAGATG AGGATGGACG GCGTTCTCCT TGCATGCGCC CCCGCTCTCG TAGCCTCAGC 
    CCAGGTCGTG CATCATCAAA CTTTGACAAT GAAATAATTA TGATGAACCA TGTTTACAAA 
    GAGAGATTCC CAAAGGCTAC AGCGCAGATG GAAGAACGGT TGCAGGACAT CATCACTCAT 
    TTCTGCCCCA GCCAAACACT TCCGCTGGCC GATGGTGTTT TGGGCTTCAT TCACCATCAG 
    ATTATCGAGC TGGCTCGGGA TTGCCTGGAC AAATCTAAGG GGGCACTGAT AACCTCCCGT 
    TACTTTCTGG AGCTGCAAGA AAAGCTAGAG AAAATGCTGC AAGATGCACA CAATCGTTCA 
    GAGAGTGAGG AAGTTATGTT CACAAACCAT TTGGCAAGGA AACTGCTGAT GGTCATTGCC 
    CGCCCAGCAA GACTACTGGA ATGTTTGGAG TTTGATCCAG AGCAGTTTTA TCATCTGCTG 
    GAAGCTGCAG AAGGTCAGGC CAAGGTTGGC CAGGGGATAA AGACGGACAT CCCTCGTTAT 
    ATAATCAACC AACTAGGTCT CACAAAGGAC CCACTAGAAG AGATTGTTCA ACTGGATCAC 
    TATGATACAG AATCCTCCCT GCTATTAGAC CAAGAAGATT ATCAAGATCC ATGTATTTCA 
    AGTACTCCGT CACGAAAAAA ACCTTGCGAG AGTGACTTTG AAACCATCAA ATTGATTAGC 
    AATGGAGCTT ATGGTGCTGT ATATCTAGTC CGGCACAAGG AAATGCGACA GCGTTTTGCC 
    ATGAAGAAGA TAAACAAGCA GAATCTGATA CTGCGCAACC AAATTCAGCA AGTATTTGTG 
    GAGAGAGACA TCCTAACCTT TGCAGAGAAT CCTTTTGTAG TCAGCATGTT CTGCTCGTTT 
    GAGACACGTC GACATCTCTG TATGGTGATG GAGTATGTGG AAGGGGGAGA CTGTGCTACG 
    CTTCTAAAGA ACATGGGACC GTTGCCAGTT GATATGAGCC GCATGTATTT TGCTGAAACT 
    GTGCTAGCAC TAGAATATCT GCACAACTAT GGGATAGTTC ACAGAGACCT TAAACCTGAC 
    AATTTGCTGA TTACATCACT GGGACACATC AAGCTGACAG ATTTTGGACT TTCCAAAATT 
    GGCCTTATGA ACATGACTAC AAACTTGTAT GAAGGGCATA TCGAGAAGGA CACAAGGGAG 
    TTTCTGGACA AACAAGTGTG TGGGACCCCT GAATACATTG CACCTGAGGT GATCCTACGG 
    CAGGGATATG GGAAGCCTGT GGACTGGTGG GCGATGGGCA TTATTCTTTA TGAGTTTCTT 
    GTTGGCTGTG TACCATTCTT TGGAGACACA CCAGAAGAAC TATTTGGACA AGTGATCAGT 
    GATGAAATTA TATGGCCAGG AGGAGAGGAA GCACTTCCTA CTGATGCTCA GGATCTAATT 
    ACCCGGCTGC TGCGCCAAAA CCCCCTGGAA CGTTTAGGGA CAGGTGGGGC CCAAGAAGTA 
    AAGCAGCATA CGTTCTTCCT TCCGTTGGAC TGGAATGGGC TTCTAAGGCA GAAAGCAGAG 
    TTTGTTCCCC AGTTGGAAGC AGAGGACGAC ACCAGTTATT TTGACACTCG ATCAGAACGG 
    TATCATCATT TAGCTTCTGA GGAAGATGAG GAAACAAATG ACGATGAGTC CTCGGTGGAA 
    ATCCGTCAGT TTTCTTCTTG CTCCCATCGT TTCAGCAAGG TATATAGCAG TTCTGAGCAT 
    TTAGCAACAC AGCTCAATCT GAGTTTCTCT TCCACTGAAC GAAGTCACAG TGATGAAAAG 
    GAGGAGCACA GTGACAGGTG GGAGAGGACT CTGTCTATTG AGGAAGAAAA GAATCGACTA 
    GGCCCTGAAA ACAGGTTAAG GTCCTGGACA TCATCTGGTT CGTCCCATCA TTCCTGGCTA 
    AGTGAAAGAA GTGCCAGCCC TAATGTTCTG ACCAGCACCT GCAGTCTGGA TACCATGCCC 
    AAGTTTGCTT TTTCCTCTGA AGAGGAGTCT TCTGATCACA AACCTGAAAG ACCAACTTTT 
    ACTTTAGGTG AAATGAAAGG GACTCCTCCA AAACCTACTT CTCTCTGTGC AGACATTGTC 
    AGTCTTAGCA GAACCCGCCT ACGGAGCAAC AGCACTGGAG CCAAGAACTC CACTCCTCGC 
    CCTCTGGAAG CGGGTGTTAC CCGCCGGCTG CGTGGGCAGA GAGATACACC TGAAAAACAC 
    AGTTCTTCCA CAGGGAGCCG GGTCCCCAAA TCTGCATCTG TCTCTGCCCT GTCTCTAATA 
    ATAACAGCAG ATGATTTTGG CAGTGGATCA CTTGCAAGTC CTATTTCCCC TCGTTCTCTC 
    TCATCTAATC CATCCTCAAG GGACTCCTCA CCCAGCCGTG AGTCTACAGT TGCAGTATCT 
    AGCTTACGCC CACCCATCAT AATCCACAGC TCAGGAAAAA AGTATGGCTT TACCCTACGA 
    GCCATAAGAG TCTACATGGG AGAGAGTGAT GTTTATACTG TACACCATAT GGTTTGGAGC 
    ATAGAAGATG GAAGTCCAGC CCATGAGGCA GGCCTTAGAG CTGGTGACCT TATCACACAT 
    GTGAATGGCG AGTCTGTTCT TGGGCTTGTG CACATGGATG TAGTTGAGCT GCTGTTAAAG 
    AGTGGCAGCA AAGTCTCCTT AAGGACAACC CCCCTGGAAA ACACCTCTAT AAAGATTGGG 
    CCAGCTAGGA AAAACAGTTG CAAGGGCCGC ATGGCAAGGA GGACAAAAAA GAGCAGAAAA 
    CGGGAGAGCC AAGACAGGAA GCGCTCTTTG TTTAAGAAAA TTTCCAAGCA GTCCACAGTG 
    CTACAGACCA GTAGAAGCTT CTCATCTGGG CTTCACCAAT CTCTGTCTTC CAGTGAGAGC 
    CTTCCAGCTT CTCCCACTCA TAGTTTGTCT CCAGGTCCCA CCACTCCAAG TCGTAGCCCT 
    GCCCCTGATG CAGCTGGTGA TGCTGCTTCA CCACAGAGTA CTTCACCCTG CTCCAGCACA 
    CCAAGCTCAC CTGCAGGACA CATCCGACCA AGCTCCCTTC AGTGCCTAAC CCCCAAACTC 
    AGTGGACAGC GCTACAAAGT TGGGCGCAGG AAATCTACCA GCAGCATCCC ACCTTCCCCA 
    TTGGCTTGCA CACCTTCACC GGTTCCACAG GCACCCTCAT CTCCTCAACG CTCTCCTTCC 
    CCACTATTAC CTAGTCATCC AAGGAGTGGA CATTGTGGCC TCCAGGGCAA GACGTTATCA 
    CCACCAACCA TCGTAAGACA AAGTGCTCGA AATCGAGCAA CTGATGCACC CAGGTCACCT 
    TTACTAAAGA GAGTGCAGTC TGTAGAAAAG ATGGCAGCAT TTTTGTCCAG TGGGCGTAAG 
    GCAAGCCCAG TTGATATCCA GCACTGGGAG GACACAGTGG ATATGTTAGA GGGTATGTCA 
    GAATCCAGGA CCAGGGATTG GAGCTCAGAG AAACATGAGC GTGACCCAGA GGTGGTGGTA 
    ATGAGAAGGC TTAATCTTTC AGAGAGACGG GACTCCTTCA AGAAGCAAGA AGCTGTGCAA 
    GAAGTTAGTT TTGATGAACC AGACACAGGA GCTGGAGAAG TGGCACCTGA CAACAAGAAA 
    ATAGGGAGCT GCTCAAGTTT GTGGGAAAGA TTGCCCCACC AAACTTCCTG GATACAAGCA 
    CGGACGGGGA TATCAACATC TGTGACAACA CAGCAAGAGG CTTCATGTCG CCTTGTGCCA 
    CAAATAGCTG TACAGACCTC TGAGAGTGAT GAGCAAGAAA AGAGCCAAGG AGTCTGGGAG 
    TGCCAAGGAT TTTACCCCTT ACAGTTGTCA GGCAAGGACA ACTGCCCCCT TGTAACATGG 
    CTGTCAGAAC CCACGGCTGC CAGTTCAGAT AGGAACCTGC CTGAATCTGG AAAAGTTAGT 
    GAGTGCCAGG CTCCCTTTGC TTTATCATCC AAACGTGACT CGAAAAAAAC TAGCTGA

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

    mast3 ( XM_012954218.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012809672.1 Xenopus tropicalis microtubule associated serine/threonine kinase 3 (mast3), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OXa04275
    Clone ID Related Accession (Same CDS sequence) XM_012954218.1
    Accession Version XM_012954218.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4452bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030677.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGAAATCCA GAAGAGACAA GCTTAAAATC CCATCTTTAA CATTAGATTT ATCTCCGAAC 
    AACCAAAGCC CGACTCTGCT CAGCCCTTGT AGTCCTTGCA GCCCAAACAG CCCCCTGCAA 
    ACATTACACC CGTGGAGTTG CCGGAGCAGC AACAGGAAGA GTCTGGTGGT GGGTTCCCCA 
    TCGCCTACAC TGTCACGCCC TCTCTCTCCA CTTTCTGTGC CTACAGCAGG AAGCAGTCCT 
    TTGGATAGCC CAAGGAATTT TTCCACAAGT GCATCTGTTA ACTTCCCATT TGCCCGCAGT 
    CATGGCCCTC GTGCAGACAG AGCTGATGGT CGCAGATGGT CTCTTGCATC TCTTCCATCT 
    TCTGGATATG GCACGAACAC TCCGAGCTCC ACTCTTTCGT CTTCCTCTTC TTCCCAGGAA 
    AGGCTGCACC AGCTTCCATT TCAGCCCACT GCAGATGAAC TGCATTTCCT TTCCAAACAT 
    TTCCGAAGTA CAGAGAGCAT TACAGATGAG GATGGACGGC GTTCTCCTTG CATGCGCCCC 
    CGCTCTCGTA GCCTCAGCCC AGGTCGTGCA TCATCAAACT TTGACAATGA AATAATTATG 
    ATGAACCATG TTTACAAAGA GAGATTCCCA AAGGCTACAG CGCAGATGGA AGAACGGTTG 
    CAGGACATCA TCACTCATTT CTGCCCCAGC CAAACACTTC CGCTGGCCGA TGGTGTTTTG 
    GGCTTCATTC ACCATCAGAT TATCGAGCTG GCTCGGGATT GCCTGGACAA ATCTAAGGGG 
    GCACTGATAA CCTCCCGTTA CTTTCTGGAG CTGCAAGAAA AGCTAGAGAA AATGCTGCAA 
    GATGCACACA ATCGTTCAGA GAGTGAGGAA GTTATGTTCA CAAACCATTT GGCAAGGAAA 
    CTGCTGATGG TCATTGCCCG CCCAGCAAGA CTACTGGAAT GTTTGGAGTT TGATCCAGAG 
    CAGTTTTATC ATCTGCTGGA AGCTGCAGAA GGTCAGGCCA AGGTTGGCCA GGGGATAAAG 
    ACGGACATCC CTCGTTATAT AATCAACCAA CTAGGTCTCA CAAAGGACCC ACTAGAAGAG 
    ATTGTTCAAC TGGATCACTA TGATACAGAA TCCTCCCTGC TATTAGACCA AGAAGATTAT 
    CAAGATCCAT GTATTTCAAG TACTCCGTCA CGAAAAAAAC CTTGCGAGAG TGACTTTGAA 
    ACCATCAAAT TGATTAGCAA TGGAGCTTAT GGTGCTGTTT ATCTAGTCCG GCACAAGGAA 
    ATGCGGCAGC GTTTTGCCAT GAAGAAGATA AACAAGCAGA ATCTGATACT GCGCAACCAA 
    ATTCAGCAAG TATTTGTGGA GAGAGACATC CTAACCTTTG CAGAGAATCC TTTTGTAGTC 
    AGCATGTTCT GCTCGTTTGA GACACGTCGA CATCTTTGTA TGGTGATGGA GTATGTGGAA 
    GGGGGAGACT GTGCTACGCT TCTAAAGAAC ATGGGACCGT TGCCAGTTGA TATGAGCCGC 
    ATGTATTTTG CTGAAACTGT GCTAGCACTA GAATATCTGC ACAACTATGG GATAGTTCAC 
    AGAGACCTTA AACCTGACAA TTTGCTGATT ACATCACTGG GACACATCAA GCTGACAGAT 
    TTTGGACTTT CCAAAATTGG CCTTATGAAC ATGACTACAA ACTTGTATGA AGGGCATATC 
    GAGAAGGACA CAAGGGAGTT TCTGGACAAA CAAGTGTGTG GGACCCCTGA ATACATTGCA 
    CCTGAGGTGA TCCTACGGCA GGGATATGGG AAGCCTGTGG ACTGGTGGGC GATGGGCATT 
    ATTCTTTATG AGTTTCTTGT TGGCTGTGTA CCATTCTTTG GAGACACACC AGAAGAACTA 
    TTTGGACAAG TGATCAGTGA TGAAATTATA TGGCCAGGAG GAGAGGAAGC ACTTCCTACT 
    GATGCTCAGG ATCTAATTAC CCGGCTGCTG CGCCAAAACC CCCTGGAACG TTTAGGGACA 
    GGTGGGGCCC AAGAAGTAAA GCAGCATACG TTCTTCCTTC CGTTGGACTG GAATGGGCTT 
    CTAAGGCAGA AAGCAGAGTT TGTTCCCCAG TTGGAAGCAG AGGACGACAC CAGTTATTTT 
    GACACTCGAT CAGAACGGTA TCATCATTTA GCTTCTGAGG AAGATGAGGA AACAAATGAC 
    GATGAGTCCT CGGTGGAAAT CCGTCAGTTT TCTTCTTGCT CCCATCGTTT CAGCAAGGTA 
    TATAGCAGTT CTGAGCATTT AGCAACACAG CTCAATCTGA GTTTCTCTTC CACTGAACGA 
    AGTCACAGTG ATGAAAAGGA GGAGCACAGT GACAGGTGGG AGAGGACTCT GTCTATTGAG 
    GAAGAAAAGA ATCGACTAGG CCCTGAAAAC AGGTTAAGGT CCTGGACATC ATCTGGTTCG 
    TCCCATCATT CCTGGCTAAG TGAAAGAAGT GCCAGCCCTA ATGTTCTGAC CAGCACCTGC 
    AGTCTGGATA CCATGCCCAA GTTTGCTTTT TCCTCTGAAG AGGAGTCTTC TGATCACAAA 
    CCTGAAAGAC CAACTTTTAC TTTAGGTGAA ATGAAAGGGA CTCCTCCAAA ACCTACTTCT 
    CTCTGTGACA TTGTCAGTCT TAGCAGAACC CGCCTACGGA GCAACAGCAC TGGAGCCAAG 
    AACTCCACTC CTCGCCCTCT GGAAGCGGGT GTTACCCGCC GGCTGCGTGG GCAGAGAGAT 
    ACACCTGAAA AACACAGTTC TTCCACAGGG AGCCGGGTCC CCAAATCTGC ATCTGTCTCT 
    GCCCTGTCTC TAATAATAAC AGCAGATGAT TTTGGCAGTG GATCACTTGC AAGTCCTATT 
    TCCCCTCGTT CTCTCTCATC TAATCCATCC TCAAGGGACT CCTCACCCAG CCGTGAGTCT 
    ACAGTTGCAG TATCTAGCTT ACGCCCACCC ATCATAATCC ACAGCTCAGG AAAAAAGTAT 
    GGCTTTACCC TACGAGCCAT AAGAGTCTAC ATGGGAGAGA GTGATGTTTA TACTGTACAC 
    CATATGGTTT GGAGCATAGA AGATGGAAGT CCAGCCCATG AGGCAGGCCT TAGAGCTGGT 
    GACCTTATCA CACATGTGAA TGGCGAGTCT GTTCTTGGGC TTGTGCACAT GGATGTAGTT 
    GAGCTGCTGT TAAAGAGTGG CAGCAAAGTC TCCTTAAGGA CAACCCCCCT GGAAAACACC 
    TCTATAAAGA TTGGGCCAGC TAGGAAAAAC AGTTGCAAGG GCCGCATGGC AAGGAGGACA 
    AAAAAGAGCA GAAAACGGGA GAGCCAAGAC AGGAAGCGCT CTTTGTTTAA GAAAATTTCC 
    AAGCAGTCCA CAGTGCTACA GACCAGTAGA AGCTTCTCAT CTGGGCTTCA CCAATCTCTG 
    TCTTCCAGTG AGAGCCTTCC AGCTTCTCCC ACTCATAGTT TGTCTCCAGG TCCCACCACT 
    CCAAGTCGTA GCCCTGCCCC TGATGCAGCT GGTGATGCTG CTTCACCACA GAGTACTTCA 
    CCCTGCTCCA GCACACCAAG CTCACCTGCA GGACACATCC GACCAAGCTC CCTTCAGTGC 
    CTAACCCCCA AACTCAGTGG ACAGCGCTAC AAAGTTGGGC GCAGGAAATC TACCAGCAGC 
    ATCCCACCTT CCCCATTGGC TTGCACACCT TCACCGGTTC CACAGGCACC CTCATCTCCT 
    CAACGCTCTC CTTCCCCACT ATTACCTAGT CATCCAAGGA GTGGACATTG TGGCCTCCAG 
    GGCAAGACGT TATCACCACC AACCATCGTA AGACAAAGTG CTCGAAATCG AGCAACTGAT 
    GCACCCAGGT CACCTTTACT AAAGAGAGTG CAGTCTGTAG AAAAGATGGC AGCATTTTTG 
    TCCAGTGGGC GTAAGGCAAG CCCAGTTGAT ATCCAGCACT GGGAGGACAC AGTGGATATG 
    TTAGAGGGTA TGTCAGAATC CAGGACCAGG GATTGGAGCT CAGAGAAACA TGAGCGTGAC 
    CCAGAGGTGG TGGTAATGAG AAGGCTTAAT CTTTCAGAGA GACGGGACTC CTTCAAGAAG 
    CAAGAAGCTG TGCAAGAAGT TAGTTTTGAT GAACCAGACA CAGGAGCTGG AGAAGTGGCA 
    CCTGACAACA AGAAAATAGG GAGCTGCTCA AGTTTGTGGG AAAGATTGCC CCACCAAACT 
    TCCTGGATAC AAGCACGGAC GGGGATATCA ACATCTGTGA CAACACAGCA AGAGGCTTCA 
    TGTCGCCTTG TGCCACAAAT AGCTGTACAG ACCTCTGAGA GTGATGAGCA AGAAAAGAGC 
    CAAGGAGTCT GGGAGTGCCA AGGATTTTAC CCCTTACAGT TGTCAGGCAA GGACAACTGC 
    CCCCTTGTAA CATGGCTGTC AGAACCCACG GCTGCCAGTT CAGATAGGAA CCTGCCTGAA 
    TCTGGAAAAG TTAGTGAGTG CCAGGCTCCC TTTGCTTTAT CATCCAAACG TGACTCGAAA 
    AAAACTAGCT GA

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

    RefSeq XP_012809672.1
    CDS64..4515
    Translation

    Target ORF information:

    RefSeq Version XM_012954218.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_012954218.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGAAATCCA GAAGAGACAA GCTTAAAATC CCATCTTTAA CATTAGATTT ATCTCCGAAC 
    AACCAAAGCC CGACTCTGCT CAGCCCTTGT AGTCCTTGCA GCCCAAACAG CCCCCTGCAA 
    ACATTACACC CGTGGAGTTG CCGGAGCAGC AACAGGAAGA GTCTGGTGGT GGGTTCCCCA 
    TCGCCTACAC TGTCACGCCC TCTCTCTCCA CTTTCTGTGC CTACAGCAGG AAGCAGTCCT 
    TTGGATAGCC CAAGGAATTT TTCCACAAGT GCATCTGTTA ACTTCCCATT TGCCCGCAGT 
    CATGGCCCTC GTGCAGACAG AGCTGATGGT CGCAGATGGT CTCTTGCATC TCTTCCATCT 
    TCTGGATATG GCACGAACAC TCCGAGCTCC ACTCTTTCGT CTTCCTCTTC TTCCCAGGAA 
    AGGCTGCACC AGCTTCCATT TCAGCCCACT GCAGATGAAC TGCATTTCCT TTCCAAACAT 
    TTCCGAAGTA CAGAGAGCAT TACAGATGAG GATGGACGGC GTTCTCCTTG CATGCGCCCC 
    CGCTCTCGTA GCCTCAGCCC AGGTCGTGCA TCATCAAACT TTGACAATGA AATAATTATG 
    ATGAACCATG TTTACAAAGA GAGATTCCCA AAGGCTACAG CGCAGATGGA AGAACGGTTG 
    CAGGACATCA TCACTCATTT CTGCCCCAGC CAAACACTTC CGCTGGCCGA TGGTGTTTTG 
    GGCTTCATTC ACCATCAGAT TATCGAGCTG GCTCGGGATT GCCTGGACAA ATCTAAGGGG 
    GCACTGATAA CCTCCCGTTA CTTTCTGGAG CTGCAAGAAA AGCTAGAGAA AATGCTGCAA 
    GATGCACACA ATCGTTCAGA GAGTGAGGAA GTTATGTTCA CAAACCATTT GGCAAGGAAA 
    CTGCTGATGG TCATTGCCCG CCCAGCAAGA CTACTGGAAT GTTTGGAGTT TGATCCAGAG 
    CAGTTTTATC ATCTGCTGGA AGCTGCAGAA GGTCAGGCCA AGGTTGGCCA GGGGATAAAG 
    ACGGACATCC CTCGTTATAT AATCAACCAA CTAGGTCTCA CAAAGGACCC ACTAGAAGAG 
    ATTGTTCAAC TGGATCACTA TGATACAGAA TCCTCCCTGC TATTAGACCA AGAAGATTAT 
    CAAGATCCAT GTATTTCAAG TACTCCGTCA CGAAAAAAAC CTTGCGAGAG TGACTTTGAA 
    ACCATCAAAT TGATTAGCAA TGGAGCTTAT GGTGCTGTTT ATCTAGTCCG GCACAAGGAA 
    ATGCGGCAGC GTTTTGCCAT GAAGAAGATA AACAAGCAGA ATCTGATACT GCGCAACCAA 
    ATTCAGCAAG TATTTGTGGA GAGAGACATC CTAACCTTTG CAGAGAATCC TTTTGTAGTC 
    AGCATGTTCT GCTCGTTTGA GACACGTCGA CATCTTTGTA TGGTGATGGA GTATGTGGAA 
    GGGGGAGACT GTGCTACGCT TCTAAAGAAC ATGGGACCGT TGCCAGTTGA TATGAGCCGC 
    ATGTATTTTG CTGAAACTGT GCTAGCACTA GAATATCTGC ACAACTATGG GATAGTTCAC 
    AGAGACCTTA AACCTGACAA TTTGCTGATT ACATCACTGG GACACATCAA GCTGACAGAT 
    TTTGGACTTT CCAAAATTGG CCTTATGAAC ATGACTACAA ACTTGTATGA AGGGCATATC 
    GAGAAGGACA CAAGGGAGTT TCTGGACAAA CAAGTGTGTG GGACCCCTGA ATACATTGCA 
    CCTGAGGTGA TCCTACGGCA GGGATATGGG AAGCCTGTGG ACTGGTGGGC GATGGGCATT 
    ATTCTTTATG AGTTTCTTGT TGGCTGTGTA CCATTCTTTG GAGACACACC AGAAGAACTA 
    TTTGGACAAG TGATCAGTGA TGAAATTATA TGGCCAGGAG GAGAGGAAGC ACTTCCTACT 
    GATGCTCAGG ATCTAATTAC CCGGCTGCTG CGCCAAAACC CCCTGGAACG TTTAGGGACA 
    GGTGGGGCCC AAGAAGTAAA GCAGCATACG TTCTTCCTTC CGTTGGACTG GAATGGGCTT 
    CTAAGGCAGA AAGCAGAGTT TGTTCCCCAG TTGGAAGCAG AGGACGACAC CAGTTATTTT 
    GACACTCGAT CAGAACGGTA TCATCATTTA GCTTCTGAGG AAGATGAGGA AACAAATGAC 
    GATGAGTCCT CGGTGGAAAT CCGTCAGTTT TCTTCTTGCT CCCATCGTTT CAGCAAGGTA 
    TATAGCAGTT CTGAGCATTT AGCAACACAG CTCAATCTGA GTTTCTCTTC CACTGAACGA 
    AGTCACAGTG ATGAAAAGGA GGAGCACAGT GACAGGTGGG AGAGGACTCT GTCTATTGAG 
    GAAGAAAAGA ATCGACTAGG CCCTGAAAAC AGGTTAAGGT CCTGGACATC ATCTGGTTCG 
    TCCCATCATT CCTGGCTAAG TGAAAGAAGT GCCAGCCCTA ATGTTCTGAC CAGCACCTGC 
    AGTCTGGATA CCATGCCCAA GTTTGCTTTT TCCTCTGAAG AGGAGTCTTC TGATCACAAA 
    CCTGAAAGAC CAACTTTTAC TTTAGGTGAA ATGAAAGGGA CTCCTCCAAA ACCTACTTCT 
    CTCTGTGACA TTGTCAGTCT TAGCAGAACC CGCCTACGGA GCAACAGCAC TGGAGCCAAG 
    AACTCCACTC CTCGCCCTCT GGAAGCGGGT GTTACCCGCC GGCTGCGTGG GCAGAGAGAT 
    ACACCTGAAA AACACAGTTC TTCCACAGGG AGCCGGGTCC CCAAATCTGC ATCTGTCTCT 
    GCCCTGTCTC TAATAATAAC AGCAGATGAT TTTGGCAGTG GATCACTTGC AAGTCCTATT 
    TCCCCTCGTT CTCTCTCATC TAATCCATCC TCAAGGGACT CCTCACCCAG CCGTGAGTCT 
    ACAGTTGCAG TATCTAGCTT ACGCCCACCC ATCATAATCC ACAGCTCAGG AAAAAAGTAT 
    GGCTTTACCC TACGAGCCAT AAGAGTCTAC ATGGGAGAGA GTGATGTTTA TACTGTACAC 
    CATATGGTTT GGAGCATAGA AGATGGAAGT CCAGCCCATG AGGCAGGCCT TAGAGCTGGT 
    GACCTTATCA CACATGTGAA TGGCGAGTCT GTTCTTGGGC TTGTGCACAT GGATGTAGTT 
    GAGCTGCTGT TAAAGAGTGG CAGCAAAGTC TCCTTAAGGA CAACCCCCCT GGAAAACACC 
    TCTATAAAGA TTGGGCCAGC TAGGAAAAAC AGTTGCAAGG GCCGCATGGC AAGGAGGACA 
    AAAAAGAGCA GAAAACGGGA GAGCCAAGAC AGGAAGCGCT CTTTGTTTAA GAAAATTTCC 
    AAGCAGTCCA CAGTGCTACA GACCAGTAGA AGCTTCTCAT CTGGGCTTCA CCAATCTCTG 
    TCTTCCAGTG AGAGCCTTCC AGCTTCTCCC ACTCATAGTT TGTCTCCAGG TCCCACCACT 
    CCAAGTCGTA GCCCTGCCCC TGATGCAGCT GGTGATGCTG CTTCACCACA GAGTACTTCA 
    CCCTGCTCCA GCACACCAAG CTCACCTGCA GGACACATCC GACCAAGCTC CCTTCAGTGC 
    CTAACCCCCA AACTCAGTGG ACAGCGCTAC AAAGTTGGGC GCAGGAAATC TACCAGCAGC 
    ATCCCACCTT CCCCATTGGC TTGCACACCT TCACCGGTTC CACAGGCACC CTCATCTCCT 
    CAACGCTCTC CTTCCCCACT ATTACCTAGT CATCCAAGGA GTGGACATTG TGGCCTCCAG 
    GGCAAGACGT TATCACCACC AACCATCGTA AGACAAAGTG CTCGAAATCG AGCAACTGAT 
    GCACCCAGGT CACCTTTACT AAAGAGAGTG CAGTCTGTAG AAAAGATGGC AGCATTTTTG 
    TCCAGTGGGC GTAAGGCAAG CCCAGTTGAT ATCCAGCACT GGGAGGACAC AGTGGATATG 
    TTAGAGGGTA TGTCAGAATC CAGGACCAGG GATTGGAGCT CAGAGAAACA TGAGCGTGAC 
    CCAGAGGTGG TGGTAATGAG AAGGCTTAAT CTTTCAGAGA GACGGGACTC CTTCAAGAAG 
    CAAGAAGCTG TGCAAGAAGT TAGTTTTGAT GAACCAGACA CAGGAGCTGG AGAAGTGGCA 
    CCTGACAACA AGAAAATAGG GAGCTGCTCA AGTTTGTGGG AAAGATTGCC CCACCAAACT 
    TCCTGGATAC AAGCACGGAC GGGGATATCA ACATCTGTGA CAACACAGCA AGAGGCTTCA 
    TGTCGCCTTG TGCCACAAAT AGCTGTACAG ACCTCTGAGA GTGATGAGCA AGAAAAGAGC 
    CAAGGAGTCT GGGAGTGCCA AGGATTTTAC CCCTTACAGT TGTCAGGCAA GGACAACTGC 
    CCCCTTGTAA CATGGCTGTC AGAACCCACG GCTGCCAGTT CAGATAGGAA CCTGCCTGAA 
    TCTGGAAAAG TTAGTGAGTG CCAGGCTCCC TTTGCTTTAT CATCCAAACG TGACTCGAAA 
    AAAACTAGCT GA

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

    mast3 ( XM_012954212.2 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012809666.1 Xenopus tropicalis microtubule associated serine/threonine kinase 3 (mast3), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OXa36104
    Clone ID Related Accession (Same CDS sequence) XM_012954212.2
    Accession Version XM_012954212.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4455bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030677.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012954212.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGAAATCCA GAAGAGACAA GCTTAAAATC CCATCTTTAA CATTAGATTT ATCTCCGAAC 
    AACCAAAGCC CGACTCTGCT CAGCCCTTGT AGTCCTTGCA GCCCAAACAG CCCCCTGCAA 
    ACATTACACC CGTGGAGTTG CCGGAGCAGC AACAGGAAGA GTCTGGTGGT GGGTTCCCCA 
    TCGCCTACAC TGTCACGCCC TCTCTCTCCA CTTTCTGTGC CTACAGCAGG AAGCAGTCCT 
    TTGGATAGCC CAAGGAATTT TTCCACAAGT GCATCTGTTA ACTTCCCATT TGCCCGCAGT 
    CATGGCCCTC GTGCAGACAG AGCTGATGGT CGCAGATGGT CTCTTGCATC TCTTCCATCT 
    TCTGGATATG GCACGAACAC TCCGAGCTCC ACTCTTTCGT CTTCCTCTTC TTCCCAGGAA 
    AGGCTGCACC AGCTTCCATT TCAGCCCACT GCAGATGAAC TGCATTTCCT TTCCAAACAT 
    TTCCGAAGTA CAGAGAGCAT TACAGATGAG GATGGACGGC GTTCTCCTTG CATGCGCCCC 
    CGCTCTCGTA GCCTCAGCCC AGGTCGTGCA TCATCAAACT TTGACAATGA AATAATTATG 
    ATGAACCATG TTTACAAAGA GAGATTCCCA AAGGCTACAG CGCAGATGGA AGAACGGTTG 
    CAGGACATCA TCACTCATTT CTGCCCCAGC CAAACACTTC CGCTGGCCGA TGGTGTTTTG 
    GGCTTCATTC ACCATCAGAT TATCGAGCTG GCTCGGGATT GCCTGGACAA ATCTAAGGGG 
    GCACTGATAA CCTCCCGTTA CTTTCTGGAG CTGCAAGAAA AGCTAGAGAA AATGCTGCAA 
    GATGCACACA ATCGTTCAGA GAGTGAGGAA GTTATGTTCA CAAACCATTT GGCAAGGAAA 
    CTGCTGATGG TCATTGCCCG CCCAGCAAGA CTACTGGAAT GTTTGGAGTT TGATCCAGAG 
    CAGTTTTATC ATCTGCTGGA AGCTGCAGAA GGTCAGGCCA AGGTTGGCCA GGGGATAAAG 
    ACGGACATCC CTCGTTATAT AATCAACCAA CTAGGTCTCA CAAAGGACCC ACTAGAAGAG 
    ATTGTTCAAC TGGATCACTA TGATACAGAA TCCTCCCTGC TATTAGACCA AGAAGATTAT 
    CAAGATCCAT GTATTTCAAG TACTCCGTCA CGAAAAAAAC CTTGCGAGAG TGACTTTGAA 
    ACCATCAAAT TGATTAGCAA TGGAGCTTAT GGTGCTGTTT ATCTAGTCCG GCACAAGGAA 
    ATGCGGCAGC GTTTTGCCAT GAAGAAGATA AACAAGCAGA ATCTGATACT GCGCAACCAA 
    ATTCAGCAAG TATTTGTGGA GAGAGACATC CTAACCTTTG CAGAGAATCC TTTTGTAGTC 
    AGCATGTTCT GCTCGTTTGA GACACGTCGA CATCTTTGTA TGGTGATGGA GTATGTGGAA 
    GGGGGAGACT GTGCTACGCT TCTAAAGAAC ATGGGACCGT TGCCAGTTGA TATGAGCCGC 
    ATGTATTTTG CTGAAACTGT GCTAGCACTA GAATATCTGC ACAACTATGG GATAGTTCAC 
    AGAGACCTTA AACCTGACAA TTTGCTGATT ACATCACTGG GACACATCAA GCTGACAGAT 
    TTTGGACTTT CCAAAATTGG CCTTATGAAC ATGACTACAA ACTTGTATGA AGGGCATATC 
    GAGAAGGACA CAAGGGAGTT TCTGGACAAA CAAGTGTGTG GGACCCCTGA ATACATTGCA 
    CCTGAGGTGA TCCTACGGCA GGGATATGGG AAGCCTGTGG ACTGGTGGGC GATGGGCATT 
    ATTCTTTATG AGTTTCTTGT TGGCTGTGTA CCATTCTTTG GAGACACACC AGAAGAACTA 
    TTTGGACAAG TGATCAGTGA TGAAATTATA TGGCCAGGAG GAGAGGAAGC ACTTCCTACT 
    GATGCTCAGG ATCTAATTAC CCGGCTGCTG CGCCAAAACC CCCTGGAACG TTTAGGGACA 
    GGTGGGGCCC AAGAAGTAAA GCAGCATACG TTCTTCCTTC CGTTGGACTG GAATGGGCTT 
    CTAAGGCAGA AAGCAGAGTT TGTTCCCCAG TTGGAAGCAG AGGACGACAC CAGTTATTTT 
    GACACTCGAT CAGAACGGTA TCATCATTTA GCTTCTGAGG AAGATGAGGA AACAAATGAC 
    GATGAGTCCT CGGTGGAAAT CCGTCAGTTT TCTTCTTGCT CCCATCGTTT CAGCAAGGTA 
    TATAGCAGTT CTGAGCATTT AGCAACACAG CTCAATCTGA GTTTCTCTTC CACTGAACGA 
    AGTCACAGTG ATGAAAAGGA GGAGCACAGT GACAGGTGGG AGAGGACTCT GTCTATTGAG 
    GAAGAAAAGA ATCGACTAGG CCCTGAAAAC AGGTTAAGGT CCTGGACATC ATCTGGTTCG 
    TCCCATCATT CCTGGCTAAG TGAAAGAAGT GCCAGCCCTA ATGTTCTGAC CAGCACCTGC 
    AGTCTGGATA CCATGCCCAA GTTTGCTTTT TCCTCTGAAG AGGAGTCTTC TGATCACAAA 
    CCTGAAAGAC CAACTTTTAC TTTAGGTGAA ATGAAAGGGA CTCCTCCAAA ACCTACTTCT 
    CTCTGTGCAG ACATTGTCAG TCTTAGCAGA ACCCGCCTAC GGAGCAACAG CACTGGAGCC 
    AAGAACTCCA CTCCTCGCCC TCTGGAAGCG GGTGTTACCC GCCGGCTGCG TGGGCAGAGA 
    GATACACCTG AAAAACACAG TTCTTCCACA GGGAGCCGGG TCCCCAAATC TGCATCTGTC 
    TCTGCCCTGT CTCTAATAAT AACAGCAGAT GATTTTGGCA GTGGATCACT TGCAAGTCCT 
    ATTTCCCCTC GTTCTCTCTC ATCTAATCCA TCCTCAAGGG ACTCCTCACC CAGCCGTGAG 
    TCTACAGTTG CAGTATCTAG CTTACGCCCA CCCATCATAA TCCACAGCTC AGGAAAAAAG 
    TATGGCTTTA CCCTACGAGC CATAAGAGTC TACATGGGAG AGAGTGATGT TTATACTGTA 
    CACCATATGG TTTGGAGCAT AGAAGATGGA AGTCCAGCCC ATGAGGCAGG CCTTAGAGCT 
    GGTGACCTTA TCACACATGT GAATGGCGAG TCTGTTCTTG GGCTTGTGCA CATGGATGTA 
    GTTGAGCTGC TGTTAAAGAG TGGCAGCAAA GTCTCCTTAA GGACAACCCC CCTGGAAAAC 
    ACCTCTATAA AGATTGGGCC AGCTAGGAAA AACAGTTGCA AGGGCCGCAT GGCAAGGAGG 
    ACAAAAAAGA GCAGAAAACG GGAGAGCCAA GACAGGAAGC GCTCTTTGTT TAAGAAAATT 
    TCCAAGCAGT CCACAGTGCT ACAGACCAGT AGAAGCTTCT CATCTGGGCT TCACCAATCT 
    CTGTCTTCCA GTGAGAGCCT TCCAGCTTCT CCCACTCATA GTTTGTCTCC AGGTCCCACC 
    ACTCCAAGTC GTAGCCCTGC CCCTGATGCA GCTGGTGATG CTGCTTCACC ACAGAGTACT 
    TCACCCTGCT CCAGCACACC AAGCTCACCT GCAGGACACA TCCGACCAAG CTCCCTTCAG 
    TGCCTAACCC CCAAACTCAG TGGACAGCGC TACAAAGTTG GGCGCAGGAA ATCTACCAGC 
    AGCATCCCAC CTTCCCCATT GGCTTGCACA CCTTCACCGG TTCCACAGGC ACCCTCATCT 
    CCTCAACGCT CTCCTTCCCC ACTATTACCT AGTCATCCAA GGAGTGGACA TTGTGGCCTC 
    CAGGGCAAGA CGTTATCACC ACCAACCATC GTAAGACAAA GTGCTCGAAA TCGAGCAACT 
    GATGCACCCA GGTCACCTTT ACTAAAGAGA GTGCAGTCTG TAGAAAAGAT GGCAGCATTT 
    TTGTCCAGTG GGCGTAAGGC AAGCCCAGTT GATATCCAGC ACTGGGAGGA CACAGTGGAT 
    ATGTTAGAGG GTATGTCAGA ATCCAGGACC AGGGATTGGA GCTCAGAGAA ACATGAGCGT 
    GACCCAGAGG TGGTGGTAAT GAGAAGGCTT AATCTTTCAG AGAGACGGGA CTCCTTCAAG 
    AAGCAAGAAG CTGTGCAAGA AGTTAGTTTT GATGAACCAG ACACAGGAGC TGGAGAAGTG 
    GCACCTGACA ACAAGAAAAT AGGGAGCTGC TCAAGTTTGT GGGAAAGATT GCCCCACCAA 
    ACTTCCTGGA TACAAGCACG GACGGGGATA TCAACATCTG TGACAACACA GCAAGAGGCT 
    TCATGTCGCC TTGTGCCACA AATAGCTGTA CAGACCTCTG AGAGTGATGA GCAAGAAAAG 
    AGCCAAGGAG TCTGGGAGTG CCAAGGATTT TACCCCTTAC AGTTGTCAGG CAAGGACAAC 
    TGCCCCCTTG TAACATGGCT GTCAGAACCC ACGGCTGCCA GTTCAGATAG GAACCTGCCT 
    GAATCTGGAA AAGTTAGTGA GTGCCAGGCT CCCTTTGCTT TATCATCCAA ACGTGACTCG 
    AAAAAAACTA GCTGA

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

    RefSeq XP_012809666.1
    CDS51..4505
    Translation

    Target ORF information:

    RefSeq Version XM_012954212.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_012954212.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGAAATCCA GAAGAGACAA GCTTAAAATC CCATCTTTAA CATTAGATTT ATCTCCGAAC 
    AACCAAAGCC CGACTCTGCT CAGCCCTTGT AGTCCTTGCA GCCCAAACAG CCCCCTGCAA 
    ACATTACACC CGTGGAGTTG CCGGAGCAGC AACAGGAAGA GTCTGGTGGT GGGTTCCCCA 
    TCGCCTACAC TGTCACGCCC TCTCTCTCCA CTTTCTGTGC CTACAGCAGG AAGCAGTCCT 
    TTGGATAGCC CAAGGAATTT TTCCACAAGT GCATCTGTTA ACTTCCCATT TGCCCGCAGT 
    CATGGCCCTC GTGCAGACAG AGCTGATGGT CGCAGATGGT CTCTTGCATC TCTTCCATCT 
    TCTGGATATG GCACGAACAC TCCGAGCTCC ACTCTTTCGT CTTCCTCTTC TTCCCAGGAA 
    AGGCTGCACC AGCTTCCATT TCAGCCCACT GCAGATGAAC TGCATTTCCT TTCCAAACAT 
    TTCCGAAGTA CAGAGAGCAT TACAGATGAG GATGGACGGC GTTCTCCTTG CATGCGCCCC 
    CGCTCTCGTA GCCTCAGCCC AGGTCGTGCA TCATCAAACT TTGACAATGA AATAATTATG 
    ATGAACCATG TTTACAAAGA GAGATTCCCA AAGGCTACAG CGCAGATGGA AGAACGGTTG 
    CAGGACATCA TCACTCATTT CTGCCCCAGC CAAACACTTC CGCTGGCCGA TGGTGTTTTG 
    GGCTTCATTC ACCATCAGAT TATCGAGCTG GCTCGGGATT GCCTGGACAA ATCTAAGGGG 
    GCACTGATAA CCTCCCGTTA CTTTCTGGAG CTGCAAGAAA AGCTAGAGAA AATGCTGCAA 
    GATGCACACA ATCGTTCAGA GAGTGAGGAA GTTATGTTCA CAAACCATTT GGCAAGGAAA 
    CTGCTGATGG TCATTGCCCG CCCAGCAAGA CTACTGGAAT GTTTGGAGTT TGATCCAGAG 
    CAGTTTTATC ATCTGCTGGA AGCTGCAGAA GGTCAGGCCA AGGTTGGCCA GGGGATAAAG 
    ACGGACATCC CTCGTTATAT AATCAACCAA CTAGGTCTCA CAAAGGACCC ACTAGAAGAG 
    ATTGTTCAAC TGGATCACTA TGATACAGAA TCCTCCCTGC TATTAGACCA AGAAGATTAT 
    CAAGATCCAT GTATTTCAAG TACTCCGTCA CGAAAAAAAC CTTGCGAGAG TGACTTTGAA 
    ACCATCAAAT TGATTAGCAA TGGAGCTTAT GGTGCTGTTT ATCTAGTCCG GCACAAGGAA 
    ATGCGGCAGC GTTTTGCCAT GAAGAAGATA AACAAGCAGA ATCTGATACT GCGCAACCAA 
    ATTCAGCAAG TATTTGTGGA GAGAGACATC CTAACCTTTG CAGAGAATCC TTTTGTAGTC 
    AGCATGTTCT GCTCGTTTGA GACACGTCGA CATCTTTGTA TGGTGATGGA GTATGTGGAA 
    GGGGGAGACT GTGCTACGCT TCTAAAGAAC ATGGGACCGT TGCCAGTTGA TATGAGCCGC 
    ATGTATTTTG CTGAAACTGT GCTAGCACTA GAATATCTGC ACAACTATGG GATAGTTCAC 
    AGAGACCTTA AACCTGACAA TTTGCTGATT ACATCACTGG GACACATCAA GCTGACAGAT 
    TTTGGACTTT CCAAAATTGG CCTTATGAAC ATGACTACAA ACTTGTATGA AGGGCATATC 
    GAGAAGGACA CAAGGGAGTT TCTGGACAAA CAAGTGTGTG GGACCCCTGA ATACATTGCA 
    CCTGAGGTGA TCCTACGGCA GGGATATGGG AAGCCTGTGG ACTGGTGGGC GATGGGCATT 
    ATTCTTTATG AGTTTCTTGT TGGCTGTGTA CCATTCTTTG GAGACACACC AGAAGAACTA 
    TTTGGACAAG TGATCAGTGA TGAAATTATA TGGCCAGGAG GAGAGGAAGC ACTTCCTACT 
    GATGCTCAGG ATCTAATTAC CCGGCTGCTG CGCCAAAACC CCCTGGAACG TTTAGGGACA 
    GGTGGGGCCC AAGAAGTAAA GCAGCATACG TTCTTCCTTC CGTTGGACTG GAATGGGCTT 
    CTAAGGCAGA AAGCAGAGTT TGTTCCCCAG TTGGAAGCAG AGGACGACAC CAGTTATTTT 
    GACACTCGAT CAGAACGGTA TCATCATTTA GCTTCTGAGG AAGATGAGGA AACAAATGAC 
    GATGAGTCCT CGGTGGAAAT CCGTCAGTTT TCTTCTTGCT CCCATCGTTT CAGCAAGGTA 
    TATAGCAGTT CTGAGCATTT AGCAACACAG CTCAATCTGA GTTTCTCTTC CACTGAACGA 
    AGTCACAGTG ATGAAAAGGA GGAGCACAGT GACAGGTGGG AGAGGACTCT GTCTATTGAG 
    GAAGAAAAGA ATCGACTAGG CCCTGAAAAC AGGTTAAGGT CCTGGACATC ATCTGGTTCG 
    TCCCATCATT CCTGGCTAAG TGAAAGAAGT GCCAGCCCTA ATGTTCTGAC CAGCACCTGC 
    AGTCTGGATA CCATGCCCAA GTTTGCTTTT TCCTCTGAAG AGGAGTCTTC TGATCACAAA 
    CCTGAAAGAC CAACTTTTAC TTTAGGTGAA ATGAAAGGGA CTCCTCCAAA ACCTACTTCT 
    CTCTGTGCAG ACATTGTCAG TCTTAGCAGA ACCCGCCTAC GGAGCAACAG CACTGGAGCC 
    AAGAACTCCA CTCCTCGCCC TCTGGAAGCG GGTGTTACCC GCCGGCTGCG TGGGCAGAGA 
    GATACACCTG AAAAACACAG TTCTTCCACA GGGAGCCGGG TCCCCAAATC TGCATCTGTC 
    TCTGCCCTGT CTCTAATAAT AACAGCAGAT GATTTTGGCA GTGGATCACT TGCAAGTCCT 
    ATTTCCCCTC GTTCTCTCTC ATCTAATCCA TCCTCAAGGG ACTCCTCACC CAGCCGTGAG 
    TCTACAGTTG CAGTATCTAG CTTACGCCCA CCCATCATAA TCCACAGCTC AGGAAAAAAG 
    TATGGCTTTA CCCTACGAGC CATAAGAGTC TACATGGGAG AGAGTGATGT TTATACTGTA 
    CACCATATGG TTTGGAGCAT AGAAGATGGA AGTCCAGCCC ATGAGGCAGG CCTTAGAGCT 
    GGTGACCTTA TCACACATGT GAATGGCGAG TCTGTTCTTG GGCTTGTGCA CATGGATGTA 
    GTTGAGCTGC TGTTAAAGAG TGGCAGCAAA GTCTCCTTAA GGACAACCCC CCTGGAAAAC 
    ACCTCTATAA AGATTGGGCC AGCTAGGAAA AACAGTTGCA AGGGCCGCAT GGCAAGGAGG 
    ACAAAAAAGA GCAGAAAACG GGAGAGCCAA GACAGGAAGC GCTCTTTGTT TAAGAAAATT 
    TCCAAGCAGT CCACAGTGCT ACAGACCAGT AGAAGCTTCT CATCTGGGCT TCACCAATCT 
    CTGTCTTCCA GTGAGAGCCT TCCAGCTTCT CCCACTCATA GTTTGTCTCC AGGTCCCACC 
    ACTCCAAGTC GTAGCCCTGC CCCTGATGCA GCTGGTGATG CTGCTTCACC ACAGAGTACT 
    TCACCCTGCT CCAGCACACC AAGCTCACCT GCAGGACACA TCCGACCAAG CTCCCTTCAG 
    TGCCTAACCC CCAAACTCAG TGGACAGCGC TACAAAGTTG GGCGCAGGAA ATCTACCAGC 
    AGCATCCCAC CTTCCCCATT GGCTTGCACA CCTTCACCGG TTCCACAGGC ACCCTCATCT 
    CCTCAACGCT CTCCTTCCCC ACTATTACCT AGTCATCCAA GGAGTGGACA TTGTGGCCTC 
    CAGGGCAAGA CGTTATCACC ACCAACCATC GTAAGACAAA GTGCTCGAAA TCGAGCAACT 
    GATGCACCCA GGTCACCTTT ACTAAAGAGA GTGCAGTCTG TAGAAAAGAT GGCAGCATTT 
    TTGTCCAGTG GGCGTAAGGC AAGCCCAGTT GATATCCAGC ACTGGGAGGA CACAGTGGAT 
    ATGTTAGAGG GTATGTCAGA ATCCAGGACC AGGGATTGGA GCTCAGAGAA ACATGAGCGT 
    GACCCAGAGG TGGTGGTAAT GAGAAGGCTT AATCTTTCAG AGAGACGGGA CTCCTTCAAG 
    AAGCAAGAAG CTGTGCAAGA AGTTAGTTTT GATGAACCAG ACACAGGAGC TGGAGAAGTG 
    GCACCTGACA ACAAGAAAAT AGGGAGCTGC TCAAGTTTGT GGGAAAGATT GCCCCACCAA 
    ACTTCCTGGA TACAAGCACG GACGGGGATA TCAACATCTG TGACAACACA GCAAGAGGCT 
    TCATGTCGCC TTGTGCCACA AATAGCTGTA CAGACCTCTG AGAGTGATGA GCAAGAAAAG 
    AGCCAAGGAG TCTGGGAGTG CCAAGGATTT TACCCCTTAC AGTTGTCAGG CAAGGACAAC 
    TGCCCCCTTG TAACATGGCT GTCAGAACCC ACGGCTGCCA GTTCAGATAG GAACCTGCCT 
    GAATCTGGAA AAGTTAGTGA GTGCCAGGCT CCCTTTGCTT TATCATCCAA ACGTGACTCG 
    AAAAAAACTA GCTGA

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

    mast3 ( XM_018097017.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_017952506.1 Xenopus tropicalis microtubule associated serine/threonine kinase 3 (mast3), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OXa36105
    Clone ID Related Accession (Same CDS sequence) XM_018097017.1
    Accession Version XM_018097017.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4401bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030677.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGTCGGACC CAAGTTATTG GACAGCGTTC CAGGGTTGCA AGGGACGCCT AGCAAAGGGG 
    GCCTTACTGC AACGTTCAAA AAGTTGCCGG AGCAGCAACA GGAAGAGTCT GGTGGTGGGT 
    TCCCCATCGC CTACACTGTC ACGCCCTCTC TCTCCACTTT CTGTGCCTAC AGCAGGAAGC 
    AGTCCTTTGG ATAGCCCAAG GAATTTTTCC ACAAGTGCAT CTGTTAACTT CCCATTTGCC 
    CGCAGTCATG GCCCTCGTGC AGACAGAGCT GATGGTCGCA GATGGTCTCT TGCATCTCTT 
    CCATCTTCTG GATATGGCAC GAACACTCCG AGCTCCACTC TTTCGTCTTC CTCTTCTTCC 
    CAGGAAAGGC TGCACCAGCT TCCATTTCAG CCCACTGCAG ATGAACTGCA TTTCCTTTCC 
    AAACATTTCC GAAGTACAGA GAGCATTACA GATGAGGATG GACGGCGTTC TCCTTGCATG 
    CGCCCCCGCT CTCGTAGCCT CAGCCCAGGT CGTGCATCAT CAAACTTTGA CAATGAAATA 
    ATTATGATGA ACCATGTTTA CAAAGAGAGA TTCCCAAAGG CTACAGCGCA GATGGAAGAA 
    CGGTTGCAGG ACATCATCAC TCATTTCTGC CCCAGCCAAA CACTTCCGCT GGCCGATGGT 
    GTTTTGGGCT TCATTCACCA TCAGATTATC GAGCTGGCTC GGGATTGCCT GGACAAATCT 
    AAGGGGGCAC TGATAACCTC CCGTTACTTT CTGGAGCTGC AAGAAAAGCT AGAGAAAATG 
    CTGCAAGATG CACACAATCG TTCAGAGAGT GAGGAAGTTA TGTTCACAAA CCATTTGGCA 
    AGGAAACTGC TGATGGTCAT TGCCCGCCCA GCAAGACTAC TGGAATGTTT GGAGTTTGAT 
    CCAGAGCAGT TTTATCATCT GCTGGAAGCT GCAGAAGGTC AGGCCAAGGT TGGCCAGGGG 
    ATAAAGACGG ACATCCCTCG TTATATAATC AACCAACTAG GTCTCACAAA GGACCCACTA 
    GAAGAGATTG TTCAACTGGA TCACTATGAT ACAGAATCCT CCCTGCTATT AGACCAAGAA 
    GATTATCAAG ATCCATGTAT TTCAAGTACT CCGTCACGAA AAAAACCTTG CGAGAGTGAC 
    TTTGAAACCA TCAAATTGAT TAGCAATGGA GCTTATGGTG CTGTTTATCT AGTCCGGCAC 
    AAGGAAATGC GGCAGCGTTT TGCCATGAAG AAGATAAACA AGCAGAATCT GATACTGCGC 
    AACCAAATTC AGCAAGTATT TGTGGAGAGA GACATCCTAA CCTTTGCAGA GAATCCTTTT 
    GTAGTCAGCA TGTTCTGCTC GTTTGAGACA CGTCGACATC TTTGTATGGT GATGGAGTAT 
    GTGGAAGGGG GAGACTGTGC TACGCTTCTA AAGAACATGG GACCGTTGCC AGTTGATATG 
    AGCCGCATGT ATTTTGCTGA AACTGTGCTA GCACTAGAAT ATCTGCACAA CTATGGGATA 
    GTTCACAGAG ACCTTAAACC TGACAATTTG CTGATTACAT CACTGGGACA CATCAAGCTG 
    ACAGATTTTG GACTTTCCAA AATTGGCCTT ATGAACATGA CTACAAACTT GTATGAAGGG 
    CATATCGAGA AGGACACAAG GGAGTTTCTG GACAAACAAG TGTGTGGGAC CCCTGAATAC 
    ATTGCACCTG AGGTGATCCT ACGGCAGGGA TATGGGAAGC CTGTGGACTG GTGGGCGATG 
    GGCATTATTC TTTATGAGTT TCTTGTTGGC TGTGTACCAT TCTTTGGAGA CACACCAGAA 
    GAACTATTTG GACAAGTGAT CAGTGATGAA ATTATATGGC CAGGAGGAGA GGAAGCACTT 
    CCTACTGATG CTCAGGATCT AATTACCCGG CTGCTGCGCC AAAACCCCCT GGAACGTTTA 
    GGGACAGGTG GGGCCCAAGA AGTAAAGCAG CATACGTTCT TCCTTCCGTT GGACTGGAAT 
    GGGCTTCTAA GGCAGAAAGC AGAGTTTGTT CCCCAGTTGG AAGCAGAGGA CGACACCAGT 
    TATTTTGACA CTCGATCAGA ACGGTATCAT CATTTAGCTT CTGAGGAAGA TGAGGAAACA 
    AATGACGATG AGTCCTCGGT GGAAATCCGT CAGTTTTCTT CTTGCTCCCA TCGTTTCAGC 
    AAGGTATATA GCAGTTCTGA GCATTTAGCA ACACAGCTCA ATCTGAGTTT CTCTTCCACT 
    GAACGAAGTC ACAGTGATGA AAAGGAGGAG CACAGTGACA GGTGGGAGAG GACTCTGTCT 
    ATTGAGGAAG AAAAGAATCG ACTAGGCCCT GAAAACAGGT TAAGGTCCTG GACATCATCT 
    GGTTCGTCCC ATCATTCCTG GCTAAGTGAA AGAAGTGCCA GCCCTAATGT TCTGACCAGC 
    ACCTGCAGTC TGGATACCAT GCCCAAGTTT GCTTTTTCCT CTGAAGAGGA GTCTTCTGAT 
    CACAAACCTG AAAGACCAAC TTTTACTTTA GGTGAAATGA AAGGGACTCC TCCAAAACCT 
    ACTTCTCTCT GTGCAGACAT TGTCAGTCTT AGCAGAACCC GCCTACGGAG CAACAGCACT 
    GGAGCCAAGA ACTCCACTCC TCGCCCTCTG GAAGCGGGTG TTACCCGCCG GCTGCGTGGG 
    CAGAGAGATA CACCTGAAAA ACACAGTTCT TCCACAGGGA GCCGGGTCCC CAAATCTGCA 
    TCTGTCTCTG CCCTGTCTCT AATAATAACA GCAGATGATT TTGGCAGTGG ATCACTTGCA 
    AGTCCTATTT CCCCTCGTTC TCTCTCATCT AATCCATCCT CAAGGGACTC CTCACCCAGC 
    CGTGAGTCTA CAGTTGCAGT ATCTAGCTTA CGCCCACCCA TCATAATCCA CAGCTCAGGA 
    AAAAAGTATG GCTTTACCCT ACGAGCCATA AGAGTCTACA TGGGAGAGAG TGATGTTTAT 
    ACTGTACACC ATATGGTTTG GAGCATAGAA GATGGAAGTC CAGCCCATGA GGCAGGCCTT 
    AGAGCTGGTG ACCTTATCAC ACATGTGAAT GGCGAGTCTG TTCTTGGGCT TGTGCACATG 
    GATGTAGTTG AGCTGCTGTT AAAGAGTGGC AGCAAAGTCT CCTTAAGGAC AACCCCCCTG 
    GAAAACACCT CTATAAAGAT TGGGCCAGCT AGGAAAAACA GTTGCAAGGG CCGCATGGCA 
    AGGAGGACAA AAAAGAGCAG AAAACGGGAG AGCCAAGACA GGAAGCGCTC TTTGTTTAAG 
    AAAATTTCCA AGCAGTCCAC AGTGCTACAG ACCAGTAGAA GCTTCTCATC TGGGCTTCAC 
    CAATCTCTGT CTTCCAGTGA GAGCCTTCCA GCTTCTCCCA CTCATAGTTT GTCTCCAGGT 
    CCCACCACTC CAAGTCGTAG CCCTGCCCCT GATGCAGCTG GTGATGCTGC TTCACCACAG 
    AGTACTTCAC CCTGCTCCAG CACACCAAGC TCACCTGCAG GACACATCCG ACCAAGCTCC 
    CTTCAGTGCC TAACCCCCAA ACTCAGTGGA CAGCGCTACA AAGTTGGGCG CAGGAAATCT 
    ACCAGCAGCA TCCCACCTTC CCCATTGGCT TGCACACCTT CACCGGTTCC ACAGGCACCC 
    TCATCTCCTC AACGCTCTCC TTCCCCACTA TTACCTAGTC ATCCAAGGAG TGGACATTGT 
    GGCCTCCAGG GCAAGACGTT ATCACCACCA ACCATCGTAA GACAAAGTGC TCGAAATCGA 
    GCAACTGATG CACCCAGGTC ACCTTTACTA AAGAGAGTGC AGTCTGTAGA AAAGATGGCA 
    GCATTTTTGT CCAGTGGGCG TAAGGCAAGC CCAGTTGATA TCCAGCACTG GGAGGACACA 
    GTGGATATGT TAGAGGGTAT GTCAGAATCC AGGACCAGGG ATTGGAGCTC AGAGAAACAT 
    GAGCGTGACC CAGAGGTGGT GGTAATGAGA AGGCTTAATC TTTCAGAGAG ACGGGACTCC 
    TTCAAGAAGC AAGAAGCTGT GCAAGAAGTT AGTTTTGATG AACCAGACAC AGGAGCTGGA 
    GAAGTGGCAC CTGACAACAA GAAAATAGGG AGCTGCTCAA GTTTGTGGGA AAGATTGCCC 
    CACCAAACTT CCTGGATACA AGCACGGACG GGGATATCAA CATCTGTGAC AACACAGCAA 
    GAGGCTTCAT GTCGCCTTGT GCCACAAATA GCTGTACAGA CCTCTGAGAG TGATGAGCAA 
    GAAAAGAGCC AAGGAGTCTG GGAGTGCCAA GGATTTTACC CCTTACAGTT GTCAGGCAAG 
    GACAACTGCC CCCTTGTAAC ATGGCTGTCA GAACCCACGG CTGCCAGTTC AGATAGGAAC 
    CTGCCTGAAT CTGGAAAAGT TAGTGAGTGC CAGGCTCCCT TTGCTTTATC ATCCAAACGT 
    GACTCGAAAA AAACTAGCTG A

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

    RefSeq XP_017952506.1
    CDS876..5276
    Translation

    Target ORF information:

    RefSeq Version XM_018097017.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_018097017.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGTCGGACC CAAGTTATTG GACAGCGTTC CAGGGTTGCA AGGGACGCCT AGCAAAGGGG 
    GCCTTACTGC AACGTTCAAA AAGTTGCCGG AGCAGCAACA GGAAGAGTCT GGTGGTGGGT 
    TCCCCATCGC CTACACTGTC ACGCCCTCTC TCTCCACTTT CTGTGCCTAC AGCAGGAAGC 
    AGTCCTTTGG ATAGCCCAAG GAATTTTTCC ACAAGTGCAT CTGTTAACTT CCCATTTGCC 
    CGCAGTCATG GCCCTCGTGC AGACAGAGCT GATGGTCGCA GATGGTCTCT TGCATCTCTT 
    CCATCTTCTG GATATGGCAC GAACACTCCG AGCTCCACTC TTTCGTCTTC CTCTTCTTCC 
    CAGGAAAGGC TGCACCAGCT TCCATTTCAG CCCACTGCAG ATGAACTGCA TTTCCTTTCC 
    AAACATTTCC GAAGTACAGA GAGCATTACA GATGAGGATG GACGGCGTTC TCCTTGCATG 
    CGCCCCCGCT CTCGTAGCCT CAGCCCAGGT CGTGCATCAT CAAACTTTGA CAATGAAATA 
    ATTATGATGA ACCATGTTTA CAAAGAGAGA TTCCCAAAGG CTACAGCGCA GATGGAAGAA 
    CGGTTGCAGG ACATCATCAC TCATTTCTGC CCCAGCCAAA CACTTCCGCT GGCCGATGGT 
    GTTTTGGGCT TCATTCACCA TCAGATTATC GAGCTGGCTC GGGATTGCCT GGACAAATCT 
    AAGGGGGCAC TGATAACCTC CCGTTACTTT CTGGAGCTGC AAGAAAAGCT AGAGAAAATG 
    CTGCAAGATG CACACAATCG TTCAGAGAGT GAGGAAGTTA TGTTCACAAA CCATTTGGCA 
    AGGAAACTGC TGATGGTCAT TGCCCGCCCA GCAAGACTAC TGGAATGTTT GGAGTTTGAT 
    CCAGAGCAGT TTTATCATCT GCTGGAAGCT GCAGAAGGTC AGGCCAAGGT TGGCCAGGGG 
    ATAAAGACGG ACATCCCTCG TTATATAATC AACCAACTAG GTCTCACAAA GGACCCACTA 
    GAAGAGATTG TTCAACTGGA TCACTATGAT ACAGAATCCT CCCTGCTATT AGACCAAGAA 
    GATTATCAAG ATCCATGTAT TTCAAGTACT CCGTCACGAA AAAAACCTTG CGAGAGTGAC 
    TTTGAAACCA TCAAATTGAT TAGCAATGGA GCTTATGGTG CTGTTTATCT AGTCCGGCAC 
    AAGGAAATGC GGCAGCGTTT TGCCATGAAG AAGATAAACA AGCAGAATCT GATACTGCGC 
    AACCAAATTC AGCAAGTATT TGTGGAGAGA GACATCCTAA CCTTTGCAGA GAATCCTTTT 
    GTAGTCAGCA TGTTCTGCTC GTTTGAGACA CGTCGACATC TTTGTATGGT GATGGAGTAT 
    GTGGAAGGGG GAGACTGTGC TACGCTTCTA AAGAACATGG GACCGTTGCC AGTTGATATG 
    AGCCGCATGT ATTTTGCTGA AACTGTGCTA GCACTAGAAT ATCTGCACAA CTATGGGATA 
    GTTCACAGAG ACCTTAAACC TGACAATTTG CTGATTACAT CACTGGGACA CATCAAGCTG 
    ACAGATTTTG GACTTTCCAA AATTGGCCTT ATGAACATGA CTACAAACTT GTATGAAGGG 
    CATATCGAGA AGGACACAAG GGAGTTTCTG GACAAACAAG TGTGTGGGAC CCCTGAATAC 
    ATTGCACCTG AGGTGATCCT ACGGCAGGGA TATGGGAAGC CTGTGGACTG GTGGGCGATG 
    GGCATTATTC TTTATGAGTT TCTTGTTGGC TGTGTACCAT TCTTTGGAGA CACACCAGAA 
    GAACTATTTG GACAAGTGAT CAGTGATGAA ATTATATGGC CAGGAGGAGA GGAAGCACTT 
    CCTACTGATG CTCAGGATCT AATTACCCGG CTGCTGCGCC AAAACCCCCT GGAACGTTTA 
    GGGACAGGTG GGGCCCAAGA AGTAAAGCAG CATACGTTCT TCCTTCCGTT GGACTGGAAT 
    GGGCTTCTAA GGCAGAAAGC AGAGTTTGTT CCCCAGTTGG AAGCAGAGGA CGACACCAGT 
    TATTTTGACA CTCGATCAGA ACGGTATCAT CATTTAGCTT CTGAGGAAGA TGAGGAAACA 
    AATGACGATG AGTCCTCGGT GGAAATCCGT CAGTTTTCTT CTTGCTCCCA TCGTTTCAGC 
    AAGGTATATA GCAGTTCTGA GCATTTAGCA ACACAGCTCA ATCTGAGTTT CTCTTCCACT 
    GAACGAAGTC ACAGTGATGA AAAGGAGGAG CACAGTGACA GGTGGGAGAG GACTCTGTCT 
    ATTGAGGAAG AAAAGAATCG ACTAGGCCCT GAAAACAGGT TAAGGTCCTG GACATCATCT 
    GGTTCGTCCC ATCATTCCTG GCTAAGTGAA AGAAGTGCCA GCCCTAATGT TCTGACCAGC 
    ACCTGCAGTC TGGATACCAT GCCCAAGTTT GCTTTTTCCT CTGAAGAGGA GTCTTCTGAT 
    CACAAACCTG AAAGACCAAC TTTTACTTTA GGTGAAATGA AAGGGACTCC TCCAAAACCT 
    ACTTCTCTCT GTGCAGACAT TGTCAGTCTT AGCAGAACCC GCCTACGGAG CAACAGCACT 
    GGAGCCAAGA ACTCCACTCC TCGCCCTCTG GAAGCGGGTG TTACCCGCCG GCTGCGTGGG 
    CAGAGAGATA CACCTGAAAA ACACAGTTCT TCCACAGGGA GCCGGGTCCC CAAATCTGCA 
    TCTGTCTCTG CCCTGTCTCT AATAATAACA GCAGATGATT TTGGCAGTGG ATCACTTGCA 
    AGTCCTATTT CCCCTCGTTC TCTCTCATCT AATCCATCCT CAAGGGACTC CTCACCCAGC 
    CGTGAGTCTA CAGTTGCAGT ATCTAGCTTA CGCCCACCCA TCATAATCCA CAGCTCAGGA 
    AAAAAGTATG GCTTTACCCT ACGAGCCATA AGAGTCTACA TGGGAGAGAG TGATGTTTAT 
    ACTGTACACC ATATGGTTTG GAGCATAGAA GATGGAAGTC CAGCCCATGA GGCAGGCCTT 
    AGAGCTGGTG ACCTTATCAC ACATGTGAAT GGCGAGTCTG TTCTTGGGCT TGTGCACATG 
    GATGTAGTTG AGCTGCTGTT AAAGAGTGGC AGCAAAGTCT CCTTAAGGAC AACCCCCCTG 
    GAAAACACCT CTATAAAGAT TGGGCCAGCT AGGAAAAACA GTTGCAAGGG CCGCATGGCA 
    AGGAGGACAA AAAAGAGCAG AAAACGGGAG AGCCAAGACA GGAAGCGCTC TTTGTTTAAG 
    AAAATTTCCA AGCAGTCCAC AGTGCTACAG ACCAGTAGAA GCTTCTCATC TGGGCTTCAC 
    CAATCTCTGT CTTCCAGTGA GAGCCTTCCA GCTTCTCCCA CTCATAGTTT GTCTCCAGGT 
    CCCACCACTC CAAGTCGTAG CCCTGCCCCT GATGCAGCTG GTGATGCTGC TTCACCACAG 
    AGTACTTCAC CCTGCTCCAG CACACCAAGC TCACCTGCAG GACACATCCG ACCAAGCTCC 
    CTTCAGTGCC TAACCCCCAA ACTCAGTGGA CAGCGCTACA AAGTTGGGCG CAGGAAATCT 
    ACCAGCAGCA TCCCACCTTC CCCATTGGCT TGCACACCTT CACCGGTTCC ACAGGCACCC 
    TCATCTCCTC AACGCTCTCC TTCCCCACTA TTACCTAGTC ATCCAAGGAG TGGACATTGT 
    GGCCTCCAGG GCAAGACGTT ATCACCACCA ACCATCGTAA GACAAAGTGC TCGAAATCGA 
    GCAACTGATG CACCCAGGTC ACCTTTACTA AAGAGAGTGC AGTCTGTAGA AAAGATGGCA 
    GCATTTTTGT CCAGTGGGCG TAAGGCAAGC CCAGTTGATA TCCAGCACTG GGAGGACACA 
    GTGGATATGT TAGAGGGTAT GTCAGAATCC AGGACCAGGG ATTGGAGCTC AGAGAAACAT 
    GAGCGTGACC CAGAGGTGGT GGTAATGAGA AGGCTTAATC TTTCAGAGAG ACGGGACTCC 
    TTCAAGAAGC AAGAAGCTGT GCAAGAAGTT AGTTTTGATG AACCAGACAC AGGAGCTGGA 
    GAAGTGGCAC CTGACAACAA GAAAATAGGG AGCTGCTCAA GTTTGTGGGA AAGATTGCCC 
    CACCAAACTT CCTGGATACA AGCACGGACG GGGATATCAA CATCTGTGAC AACACAGCAA 
    GAGGCTTCAT GTCGCCTTGT GCCACAAATA GCTGTACAGA CCTCTGAGAG TGATGAGCAA 
    GAAAAGAGCC AAGGAGTCTG GGAGTGCCAA GGATTTTACC CCTTACAGTT GTCAGGCAAG 
    GACAACTGCC CCCTTGTAAC ATGGCTGTCA GAACCCACGG CTGCCAGTTC AGATAGGAAC 
    CTGCCTGAAT CTGGAAAAGT TAGTGAGTGC CAGGCTCCCT TTGCTTTATC ATCCAAACGT 
    GACTCGAAAA AAACTAGCTG A

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

見積依頼

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03-6811-6573
050-3174-7589(受注専用)

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