ORF » Species Summary » Danio rerio » mast1b cDNA ORF clone

mast1b cDNA ORF clone, Danio rerio(zebrafish)

The following mast1b gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the mast1b 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
ODa47036 XM_009299113.3
Latest version!		 Danio rerio microtubule associated serine/threonine kinase 1b (mast1b), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
ODa47037 XM_009299114.2
Latest version!		 Danio rerio microtubule associated serine/threonine kinase 1b (mast1b), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
View Old Accession Versions >>
ODa47036 XM_009299113.2 Danio rerio microtubule associated serine/threonine kinase 1b (mast1b), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
Hide Old Accession Versions >>

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

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

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

  • Reference Sequences (Refseq)
    mast1b ( XM_009299113.2 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_009297388.1 Danio rerio microtubule associated serine/threonine kinase 1b (mast1b), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ODa47036
    Clone ID Related Accession (Same CDS sequence) XM_009299113.2 , XM_009299113.3
    Accession Version XM_009299113.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4905bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product microtubule-associated serine/threonine-protein kinase 1 isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007114.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_009299113.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 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
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGGATGATT CGGGGATAAT CAGACGCAGG CGGCTGCAGG ATCTTCCACT GCCTCGTAAA 
    AACAGCAGTT GCCGCAGCAA CCGGAAGAGT CTGATTCTGA CCTCCACCTC CCCGACTTTG 
    CCCCGCCCAC ACTCGCCATT ACCAGGACAC ATAGGAAGTA GTCCTCTGGA CAGCCCTCGT 
    AACTTCTCTC CCAGTACTCC TGCACATTTC TCCTTCGCTT CCTCTAGACG AGATGGGCGT 
    CGCTGGTCCC TGGCGTCTCT TCCATCTTCT GGATATGGAA CCAACACACC CAGTTCAACG 
    TCTTCCAGCT CGTCTCAGGA GCGTCTGCAT CAGCTGCCGT CTCAGCCCAC CATGGACGAG 
    CTGCACTTTC TGTCCAAACA CTTCGGCAGC ACAGAGAGCA TCACCGATGA TGATGGAGGA 
    CGCTGCTCAC CTCACATAAG ACCACGCTCA CGCAGCCTGA GTCCGGGCCG CTCTCACTCC 
    TGCTACGACA ATGAGATCAT CATGATGAAT CATGTTTACA GGGAACGCTT CCCTAAGGCC 
    ACGGCGCAGA TGGAGGGCAG GTTGTGTGAT TTTGTCCACT CGTACTGTCC TGAGAACGTC 
    CTGCCTCTGG CTGACGGGGT CCTCAGCTTC ATCCATCACC AGATCATCGA GCTGTCCAGA 
    GACTGCCTGA CCAAATCTAG AGAGGGCCTC ATCACATCCG TCTACTTCTT TGAGCTGCAG 
    GAGAATCTGG AGAAACTTCT GGATGATGCG TATAAGCGGT CAGAGAGTTC AGAGTTGACC 
    TTTGTCACAG AGTTGGTAAA GAAGATCTTC TTCATCATCG CTCGACCTGC TCGACTTCTG 
    GAGTGTTTGG AGTTTAACCC TGAAGAGTTC TACCATCTGC TGGAAGCGGC TGAAGATCAC 
    GCTAAAGAAG GTCACCTGAT GAAGACGGAC ATCCCGCGCT ACATCATCAG TCAGCTGGGT 
    CTGACACGAG ACCCTCTGGA GGAGATGGTC AGTCGGGAGC ATTATGACAG CGAGGGTCCC 
    GTCACACCAG AGACAGACGA CTCTGCAGAG GGAAAAATGA AACCCATGAA GCCACCAGGA 
    GAGGCAGATT TCCAAACCAT CAAACTCATC AGCAATGGAG CCTACGGCGA GGTGTATCTG 
    GTCCGTCATC TGGAGACCCG GCAGCGCTTC GCGATGAAGA AAATCAACAA GCAGAACCTG 
    ATTCTGAGGA ACCAGATCCA GCAGGCGTTT GTGGAGCGAG ACATCCTGAC CTTTGCTGAG 
    AACCCGTTCG TGGTCAGCAT GTTCTGCTCC TTTGAGACCA GAAGACACCT GTGTATGGTC 
    ATGGAGTATG TGGAGGGAGG TGATTGTGCC ACACTGCTCA AAAACATCGG AGCGCTGCCT 
    GTGGAAATGG CCCGTATGTA CTTTGCAGAA ACCGTCCTGG CTCTGGAGTA CATCCACAAC 
    TATGGCATCG TGCATCGAGA TCTCAAACCT GACAATCTGC TCATCACGTC AATGGGTCAC 
    ATTAAACTCA CCGATTTCGG TTTGTCCAAA ATGGGCCTCA TGAGTCTCAC CACAAATTTG 
    TATGAAGGAC ACATCGAGAA GGACACCAGG GAGTTCCTGG ATAAACAGGT TTGTGGCACA 
    CCGGAGTACA TCGCCCCTGA GGTGATCCTG CGGCAGGGCT ATGGGAAGCC GGTGGACTGG 
    TGGGCGATGG GCATCATCCT CTATGAGTTC CTGGTGGGCT GCGTGCCGTT CTTCGGCGAC 
    ACTCCAGAGG AGCTGTTCGG TCAGGTGATC TCAGATGATA TTGTGTGGCC CGAGGATGAT 
    GACGCACTTC CTCCGGACGC ACAGCACCTG ATCTCATCTT TACTTCAGAC CAGCCCACTG 
    CTCAGACTGG GCACAGGCGG AGCATTTGAG GTGAAGCAGC ATCCGTTCTT CGGCGATCTG 
    GACTGGGGCA GTTTACTCCG CCAGAAAGCT GAGTTCATCC CAAACCTGGA GTCTGAAGAA 
    GACACCAGCT ACTTTGACAC ACGATCAGAG CGATATCATC ACGTTCACTC GTACGATGAG 
    GACGACACTA ATGATGACGA GCCTGTGGAG ATTCACCGCT TCTCCTCCTG CTCGCCACGA 
    TTCAGCAAGG TGTACAGCAG CATGGAGCAT CTGTCCCAGC TGGAGCACAA ACCTGTGGTG 
    ACCCGCCGAG AGCCCAAACC TCACAGAGAA GACCGGGCCA AGAGAGAGAG CATGGGCAGC 
    CTGACCCTCC GAGACAAGAC CTGGAGAACC GGATCCCCAG AGATGAAGCG TCTGTCGTGT 
    TCGGAGTCGT CCTTCACCGA ATCAGACTCC AGTCCTCCCG GAGCTCGCCG CCGTTTCTCA 
    GCGCTGATGG ACACACACCG CTTCGCTTCT CCACTGGAGG GAGACAGTGA CACACACACA 
    CGCCAGCCGC CCGTCAAAAC CAGAGGGACG TCACTAGAGG GCGCCAGTGT TCCCGTCAGT 
    TCCGGACTGT TTGAGTCCAG CTCTGCCGTG TCAGTGGGAC ATCCTGGAGA CAAGCTTCTG 
    CGTCCCGCTG AAGGTCCATC AGCTCCTCTG CACATGCCGG AGCCCTTCAG TGCACGAGTA 
    GGAAGTGACC TCGTCTTACG AAGAGCACGA CATCATCAGA TACCGAGCGA CAGTGAGAAA 
    CGAACCGCCA CTCGCTCCGG CACAAAAGTC ATCAAGTCGG CCTCCGCCAC GGCGCTGTCT 
    GTCATTATAC CTGCAGTTGA GCAGCATGGT ACGTCTCCGC TGGCCAGTCC CATGTCTCCT 
    CGATCCGTCT CATCCAATCC CTCGTCTCGT GACTCATCTC CGAGTCGTGA TTATTCGCCT 
    ACGGTCAATG TCCTGCGCTC ACCGATCACC ATCCATCGCT CTGGGAAGAA GTACGGCTTC 
    ACTCTGCGAG CCATCAGAGT CTACATGGGC GACAGTCACG TGTATAGCGT ACATCACATG 
    GTCTGGCATG TAGAATGTGG TGGGCCGGCC CAGGAGGCGG GGCTTTGTGC TGGTGACCTC 
    ATCACACATG TGAATGGAGA GCCTGTGCAC GGATTGGTGC ACACAGAGGT GGTGGAGCTC 
    ATTCTGAAGA GTGGCAGCAA AGTAACAGTG ACGACTACTC CGTTCGAAAA CACCTCCATA 
    AAGATTGGTC CCGCCAGGAA GCTGAGCTAC AAAGCCAAGA TGGCCAGACG CAACAAGAAA 
    TCAGCAGCAA AAGATGGACA AGAGAGTAAG AAACGCAGCT CTCTCTTTCG TAAGATCACT 
    AAGCAGTCAA ACCTTCTTCA CACCAGTCGT AGTCTGTCTT CTCTGAATCG CTCGCTGTCG 
    TCTGGAGACA GTCTGCCTGG ATCTCCCACA CATAACCTGT CTGCCCGCTC TCCGACACAG 
    ACGTACCGCT CTCCGCCAGA CTCCACCTAC CTCGGCACGT CATCCCAGAG CAGCTCTCCC 
    GCATCCAGCA CACCAAACTC GCCTGCTACA TCTCAGCACA TGCGTCCAAG CTCTCTTTAT 
    GGCCTCTCAC CCAAACTCCA CCGCCAGTAT CGTTCTGCAC GCTGCAAATC TGCCGGGAAT 
    ATTCCTCTGT CCCCATTGGC TCACACACCA TCCCCGACTT CGTCCTCTCC ACCACCCATA 
    GCGGGACACA TCGTTGGCAG CTCCAACACC ACCCAGGCCT TCCCTGCAAA GCTTCACGCC 
    TCCCCTCCAA TAACACGTCC ACGACCTAAA AGTGCAGAAC CACCCCGTTC CCCTCTTCTC 
    CAAAGGGTGC AGTCCGCCGA GAAGCTCGGT CCACCTTCTC CGCCATCCTC GTCATCTTCT 
    GATAGGAAGG GAGGGCTTGG CATTAGAAAG CATGGTTTGG ATGTTGTGCA TGCCGAATAC 
    CGCCGGGAGT CCTTCCACTG CGAGCATGCC CTCCAGAGCT TGATGGAGAT AGAAGGAGAA 
    AACACGCCCA GTGCTCTACC CTCTCCACCT GATCAAACGC CAACGCACAT GCCCATCAAG 
    CACACGTTGA GTCCAGCAAG GCAACTCGGG AGGCAAGACT CAATCATGGA TAGAGAGTTT 
    GAAGGGAAAT CGAAGCAGGC TGACTCAAGC GAAGCAATTT TGAAGACTGC ATCAAAAACT 
    GAACCAGTAG CAATCATTGT AGATCTTAAA TCAACCCCGT TGGGTGAAAC AACCCAGAGG 
    GATAAAGTAG CCTCTAAGTT TGAGTCTTCC CAAGTTTCAG TTGCCTCAAT GGGGAAGGTT 
    GTAGCCAAGG ATGTGGGAAA GATTGAATCT TCTAGTACTT TGGTAACTGG CCCCAAGATC 
    CCAGATTGGA CGCCAATTGT CCAGAGCTCT GGAGTACAGG AACTCAAACC TCATCAAACC 
    GAGAGTCCTA AAGGGCTGGA GAATGGCAAA GACATTGGAA AGATCCCAGT GAAAGAGAAA 
    ACCCAATTGA CAAAGACTCC AGAGGCAAGC AAGTCAAGTA AAGGACCTTT AAATGTTGAG 
    GGGACTGGAT CTGGTTCTAT TGGTACACCT AAAGTCTCAG AAGCAGTTCC AAGCCAGTCT 
    AAGAGCATTC AGGAACGGGC TCAAACTCCA TCAGGGTCAA CTCGAGGCCC TCAGGAGGAA 
    AGATGTCGCC TCGAAGCAGT CGAAGTCTCT CCTCCCTCTC CATCTCCAAT TGCTAGGTCA 
    CCTTGCACAA GCAAGTCAAG GGCCATTTCT CCTGGTGACC GGTCCAGTTT TGTGACCCAG 
    CTGACCAGTG TGGCTAAAAC TGTGCTTGGG CCAATGAAAT TGGGCTCCCA GGATGGGGGG 
    AAGGCCAAAG ACAGCTCCAA GACAAATGAG GACAAACGAG CCGCCACATT GGGAAAGTCC 
    GAGGCCTCAT CTGGGGGTCG CCGAGGATTG ACGGGAACTT GGCCTGGCCC TGGATCATCA 
    TCAAAGCCTG AAAAGGCATC AAAGAGCTCT TCCAAGCATT CATAA

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

    RefSeq XP_009297388.1
    CDS311..5215
    Translation

    Target ORF information:

    RefSeq Version XM_009299113.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio microtubule associated serine/threonine kinase 1b (mast1b), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_009299113.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGGATGATT CGGGGATAAT CAGACGCAGG CGGCTGCAGG ATCTTCCACT GCCTCGTAAA 
    AACAGCAGTT GCCGCAGCAA CCGGAAGAGT CTGATTCTGA CCTCCACCTC CCCGACTTTG 
    CCCCGCCCAC ACTCGCCATT ACCAGGACAC ATAGGAAGTA GTCCTCTGGA CAGCCCTCGT 
    AACTTCTCTC CCAGTACTCC TGCACATTTC TCCTTCGCTT CCTCTAGACG AGATGGGCGT 
    CGCTGGTCCC TGGCGTCTCT TCCATCTTCT GGATATGGAA CCAACACACC CAGTTCAACG 
    TCTTCCAGCT CGTCTCAGGA GCGTCTGCAT CAGCTGCCGT CTCAGCCCAC CATGGACGAG 
    CTGCACTTTC TGTCCAAACA CTTCGGCAGC ACAGAGAGCA TCACCGATGA TGATGGAGGA 
    CGCTGCTCAC CTCACATAAG ACCACGCTCA CGCAGCCTGA GTCCGGGCCG CTCTCACTCC 
    TGCTACGACA ATGAGATCAT CATGATGAAT CATGTTTACA GGGAACGCTT CCCTAAGGCC 
    ACGGCGCAGA TGGAGGGCAG GTTGTGTGAT TTTGTCCACT CGTACTGTCC TGAGAACGTC 
    CTGCCTCTGG CTGACGGGGT CCTCAGCTTC ATCCATCACC AGATCATCGA GCTGTCCAGA 
    GACTGCCTGA CCAAATCTAG AGAGGGCCTC ATCACATCCG TCTACTTCTT TGAGCTGCAG 
    GAGAATCTGG AGAAACTTCT GGATGATGCG TATAAGCGGT CAGAGAGTTC AGAGTTGACC 
    TTTGTCACAG AGTTGGTAAA GAAGATCTTC TTCATCATCG CTCGACCTGC TCGACTTCTG 
    GAGTGTTTGG AGTTTAACCC TGAAGAGTTC TACCATCTGC TGGAAGCGGC TGAAGATCAC 
    GCTAAAGAAG GTCACCTGAT GAAGACGGAC ATCCCGCGCT ACATCATCAG TCAGCTGGGT 
    CTGACACGAG ACCCTCTGGA GGAGATGGTC AGTCGGGAGC ATTATGACAG CGAGGGTCCC 
    GTCACACCAG AGACAGACGA CTCTGCAGAG GGAAAAATGA AACCCATGAA GCCACCAGGA 
    GAGGCAGATT TCCAAACCAT CAAACTCATC AGCAATGGAG CCTACGGCGA GGTGTATCTG 
    GTCCGTCATC TGGAGACCCG GCAGCGCTTC GCGATGAAGA AAATCAACAA GCAGAACCTG 
    ATTCTGAGGA ACCAGATCCA GCAGGCGTTT GTGGAGCGAG ACATCCTGAC CTTTGCTGAG 
    AACCCGTTCG TGGTCAGCAT GTTCTGCTCC TTTGAGACCA GAAGACACCT GTGTATGGTC 
    ATGGAGTATG TGGAGGGAGG TGATTGTGCC ACACTGCTCA AAAACATCGG AGCGCTGCCT 
    GTGGAAATGG CCCGTATGTA CTTTGCAGAA ACCGTCCTGG CTCTGGAGTA CATCCACAAC 
    TATGGCATCG TGCATCGAGA TCTCAAACCT GACAATCTGC TCATCACGTC AATGGGTCAC 
    ATTAAACTCA CCGATTTCGG TTTGTCCAAA ATGGGCCTCA TGAGTCTCAC CACAAATTTG 
    TATGAAGGAC ACATCGAGAA GGACACCAGG GAGTTCCTGG ATAAACAGGT TTGTGGCACA 
    CCGGAGTACA TCGCCCCTGA GGTGATCCTG CGGCAGGGCT ATGGGAAGCC GGTGGACTGG 
    TGGGCGATGG GCATCATCCT CTATGAGTTC CTGGTGGGCT GCGTGCCGTT CTTCGGCGAC 
    ACTCCAGAGG AGCTGTTCGG TCAGGTGATC TCAGATGATA TTGTGTGGCC CGAGGATGAT 
    GACGCACTTC CTCCGGACGC ACAGCACCTG ATCTCATCTT TACTTCAGAC CAGCCCACTG 
    CTCAGACTGG GCACAGGCGG AGCATTTGAG GTGAAGCAGC ATCCGTTCTT CGGCGATCTG 
    GACTGGGGCA GTTTACTCCG CCAGAAAGCT GAGTTCATCC CAAACCTGGA GTCTGAAGAA 
    GACACCAGCT ACTTTGACAC ACGATCAGAG CGATATCATC ACGTTCACTC GTACGATGAG 
    GACGACACTA ATGATGACGA GCCTGTGGAG ATTCACCGCT TCTCCTCCTG CTCGCCACGA 
    TTCAGCAAGG TGTACAGCAG CATGGAGCAT CTGTCCCAGC TGGAGCACAA ACCTGTGGTG 
    ACCCGCCGAG AGCCCAAACC TCACAGAGAA GACCGGGCCA AGAGAGAGAG CATGGGCAGC 
    CTGACCCTCC GAGACAAGAC CTGGAGAACC GGATCCCCAG AGATGAAGCG TCTGTCGTGT 
    TCGGAGTCGT CCTTCACCGA ATCAGACTCC AGTCCTCCCG GAGCTCGCCG CCGTTTCTCA 
    GCGCTGATGG ACACACACCG CTTCGCTTCT CCACTGGAGG GAGACAGTGA CACACACACA 
    CGCCAGCCGC CCGTCAAAAC CAGAGGGACG TCACTAGAGG GCGCCAGTGT TCCCGTCAGT 
    TCCGGACTGT TTGAGTCCAG CTCTGCCGTG TCAGTGGGAC ATCCTGGAGA CAAGCTTCTG 
    CGTCCCGCTG AAGGTCCATC AGCTCCTCTG CACATGCCGG AGCCCTTCAG TGCACGAGTA 
    GGAAGTGACC TCGTCTTACG AAGAGCACGA CATCATCAGA TACCGAGCGA CAGTGAGAAA 
    CGAACCGCCA CTCGCTCCGG CACAAAAGTC ATCAAGTCGG CCTCCGCCAC GGCGCTGTCT 
    GTCATTATAC CTGCAGTTGA GCAGCATGGT ACGTCTCCGC TGGCCAGTCC CATGTCTCCT 
    CGATCCGTCT CATCCAATCC CTCGTCTCGT GACTCATCTC CGAGTCGTGA TTATTCGCCT 
    ACGGTCAATG TCCTGCGCTC ACCGATCACC ATCCATCGCT CTGGGAAGAA GTACGGCTTC 
    ACTCTGCGAG CCATCAGAGT CTACATGGGC GACAGTCACG TGTATAGCGT ACATCACATG 
    GTCTGGCATG TAGAATGTGG TGGGCCGGCC CAGGAGGCGG GGCTTTGTGC TGGTGACCTC 
    ATCACACATG TGAATGGAGA GCCTGTGCAC GGATTGGTGC ACACAGAGGT GGTGGAGCTC 
    ATTCTGAAGA GTGGCAGCAA AGTAACAGTG ACGACTACTC CGTTCGAAAA CACCTCCATA 
    AAGATTGGTC CCGCCAGGAA GCTGAGCTAC AAAGCCAAGA TGGCCAGACG CAACAAGAAA 
    TCAGCAGCAA AAGATGGACA AGAGAGTAAG AAACGCAGCT CTCTCTTTCG TAAGATCACT 
    AAGCAGTCAA ACCTTCTTCA CACCAGTCGT AGTCTGTCTT CTCTGAATCG CTCGCTGTCG 
    TCTGGAGACA GTCTGCCTGG ATCTCCCACA CATAACCTGT CTGCCCGCTC TCCGACACAG 
    ACGTACCGCT CTCCGCCAGA CTCCACCTAC CTCGGCACGT CATCCCAGAG CAGCTCTCCC 
    GCATCCAGCA CACCAAACTC GCCTGCTACA TCTCAGCACA TGCGTCCAAG CTCTCTTTAT 
    GGCCTCTCAC CCAAACTCCA CCGCCAGTAT CGTTCTGCAC GCTGCAAATC TGCCGGGAAT 
    ATTCCTCTGT CCCCATTGGC TCACACACCA TCCCCGACTT CGTCCTCTCC ACCACCCATA 
    GCGGGACACA TCGTTGGCAG CTCCAACACC ACCCAGGCCT TCCCTGCAAA GCTTCACGCC 
    TCCCCTCCAA TAACACGTCC ACGACCTAAA AGTGCAGAAC CACCCCGTTC CCCTCTTCTC 
    CAAAGGGTGC AGTCCGCCGA GAAGCTCGGT CCACCTTCTC CGCCATCCTC GTCATCTTCT 
    GATAGGAAGG GAGGGCTTGG CATTAGAAAG CATGGTTTGG ATGTTGTGCA TGCCGAATAC 
    CGCCGGGAGT CCTTCCACTG CGAGCATGCC CTCCAGAGCT TGATGGAGAT AGAAGGAGAA 
    AACACGCCCA GTGCTCTACC CTCTCCACCT GATCAAACGC CAACGCACAT GCCCATCAAG 
    CACACGTTGA GTCCAGCAAG GCAACTCGGG AGGCAAGACT CAATCATGGA TAGAGAGTTT 
    GAAGGGAAAT CGAAGCAGGC TGACTCAAGC GAAGCAATTT TGAAGACTGC ATCAAAAACT 
    GAACCAGTAG CAATCATTGT AGATCTTAAA TCAACCCCGT TGGGTGAAAC AACCCAGAGG 
    GATAAAGTAG CCTCTAAGTT TGAGTCTTCC CAAGTTTCAG TTGCCTCAAT GGGGAAGGTT 
    GTAGCCAAGG ATGTGGGAAA GATTGAATCT TCTAGTACTT TGGTAACTGG CCCCAAGATC 
    CCAGATTGGA CGCCAATTGT CCAGAGCTCT GGAGTACAGG AACTCAAACC TCATCAAACC 
    GAGAGTCCTA AAGGGCTGGA GAATGGCAAA GACATTGGAA AGATCCCAGT GAAAGAGAAA 
    ACCCAATTGA CAAAGACTCC AGAGGCAAGC AAGTCAAGTA AAGGACCTTT AAATGTTGAG 
    GGGACTGGAT CTGGTTCTAT TGGTACACCT AAAGTCTCAG AAGCAGTTCC AAGCCAGTCT 
    AAGAGCATTC AGGAACGGGC TCAAACTCCA TCAGGGTCAA CTCGAGGCCC TCAGGAGGAA 
    AGATGTCGCC TCGAAGCAGT CGAAGTCTCT CCTCCCTCTC CATCTCCAAT TGCTAGGTCA 
    CCTTGCACAA GCAAGTCAAG GGCCATTTCT CCTGGTGACC GGTCCAGTTT TGTGACCCAG 
    CTGACCAGTG TGGCTAAAAC TGTGCTTGGG CCAATGAAAT TGGGCTCCCA GGATGGGGGG 
    AAGGCCAAAG ACAGCTCCAA GACAAATGAG GACAAACGAG CCGCCACATT GGGAAAGTCC 
    GAGGCCTCAT CTGGGGGTCG CCGAGGATTG ACGGGAACTT GGCCTGGCCC TGGATCATCA 
    TCAAAGCCTG AAAAGGCATC AAAGAGCTCT TCCAAGCATT CATAA

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

    mast1b ( XM_009299113.3 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_009297388.1 Danio rerio microtubule associated serine/threonine kinase 1b (mast1b), mRNA.
    Price & Availability↑
    CloneID ODa47036
    Clone ID Related Accession (Same CDS sequence) XM_009299113.2 , XM_009299113.3
    Accession Version XM_009299113.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4905bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product microtubule-associated serine/threonine-protein kinase 1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007114.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_009299113.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGGATGATT CGGGGATAAT CAGACGCAGG CGGCTGCAGG ATCTTCCACT GCCTCGTAAA 
    AACAGCAGTT GCCGCAGCAA CCGGAAGAGT CTGATTCTGA CCTCCACCTC CCCGACTTTG 
    CCCCGCCCAC ACTCGCCATT ACCAGGACAC ATAGGAAGTA GTCCTCTGGA CAGCCCTCGT 
    AACTTCTCTC CCAGTACTCC TGCACATTTC TCCTTCGCTT CCTCTAGACG AGATGGGCGT 
    CGCTGGTCCC TGGCGTCTCT TCCATCTTCT GGATATGGAA CCAACACACC CAGTTCAACG 
    TCTTCCAGCT CGTCTCAGGA GCGTCTGCAT CAGCTGCCGT CTCAGCCCAC CATGGACGAG 
    CTGCACTTTC TGTCCAAACA CTTCGGCAGC ACAGAGAGCA TCACCGATGA TGATGGAGGA 
    CGCTGCTCAC CTCACATAAG ACCACGCTCA CGCAGCCTGA GTCCGGGCCG CTCTCACTCC 
    TGCTACGACA ATGAGATCAT CATGATGAAT CATGTTTACA GGGAACGCTT CCCTAAGGCC 
    ACGGCGCAGA TGGAGGGCAG GTTGTGTGAT TTTGTCCACT CGTACTGTCC TGAGAACGTC 
    CTGCCTCTGG CTGACGGGGT CCTCAGCTTC ATCCATCACC AGATCATCGA GCTGTCCAGA 
    GACTGCCTGA CCAAATCTAG AGAGGGCCTC ATCACATCCG TCTACTTCTT TGAGCTGCAG 
    GAGAATCTGG AGAAACTTCT GGATGATGCG TATAAGCGGT CAGAGAGTTC AGAGTTGACC 
    TTTGTCACAG AGTTGGTAAA GAAGATCTTC TTCATCATCG CTCGACCTGC TCGACTTCTG 
    GAGTGTTTGG AGTTTAACCC TGAAGAGTTC TACCATCTGC TGGAAGCGGC TGAAGATCAC 
    GCTAAAGAAG GTCACCTGAT GAAGACGGAC ATCCCGCGCT ACATCATCAG TCAGCTGGGT 
    CTGACACGAG ACCCTCTGGA GGAGATGGTC AGTCGGGAGC ATTATGACAG CGAGGGTCCC 
    GTCACACCAG AGACAGACGA CTCTGCAGAG GGAAAAATGA AACCCATGAA GCCACCAGGA 
    GAGGCAGATT TCCAAACCAT CAAACTCATC AGCAATGGAG CCTACGGCGA GGTGTATCTG 
    GTCCGTCATC TGGAGACCCG GCAGCGCTTC GCGATGAAGA AAATCAACAA GCAGAACCTG 
    ATTCTGAGGA ACCAGATCCA GCAGGCGTTT GTGGAGCGAG ACATCCTGAC CTTTGCTGAG 
    AACCCGTTCG TGGTCAGCAT GTTCTGCTCC TTTGAGACCA GAAGACACCT GTGTATGGTC 
    ATGGAGTATG TGGAGGGAGG TGATTGTGCC ACACTGCTCA AAAACATCGG AGCGCTGCCT 
    GTGGAAATGG CCCGTATGTA CTTTGCAGAA ACCGTCCTGG CTCTGGAGTA CATCCACAAC 
    TATGGCATCG TGCATCGAGA TCTCAAACCT GACAATCTGC TCATCACGTC AATGGGTCAC 
    ATTAAACTCA CCGATTTCGG TTTGTCCAAA ATGGGCCTCA TGAGTCTCAC CACAAATTTG 
    TATGAAGGAC ACATCGAGAA GGACACCAGG GAGTTCCTGG ATAAACAGGT TTGTGGCACA 
    CCGGAGTACA TCGCCCCTGA GGTGATCCTG CGGCAGGGCT ATGGGAAGCC GGTGGACTGG 
    TGGGCGATGG GCATCATCCT CTATGAGTTC CTGGTGGGCT GCGTGCCGTT CTTCGGCGAC 
    ACTCCAGAGG AGCTGTTCGG TCAGGTGATC TCAGATGATA TTGTGTGGCC CGAGGATGAT 
    GACGCACTTC CTCCGGACGC ACAGCACCTG ATCTCATCTT TACTTCAGAC CAGCCCACTG 
    CTCAGACTGG GCACAGGCGG AGCATTTGAG GTGAAGCAGC ATCCGTTCTT CGGCGATCTG 
    GACTGGGGCA GTTTACTCCG CCAGAAAGCT GAGTTCATCC CAAACCTGGA GTCTGAAGAA 
    GACACCAGCT ACTTTGACAC ACGATCAGAG CGATATCATC ACGTTCACTC GTACGATGAG 
    GACGACACTA ATGATGACGA GCCTGTGGAG ATTCACCGCT TCTCCTCCTG CTCGCCACGA 
    TTCAGCAAGG TGTACAGCAG CATGGAGCAT CTGTCCCAGC TGGAGCACAA ACCTGTGGTG 
    ACCCGCCGAG AGCCCAAACC TCACAGAGAA GACCGGGCCA AGAGAGAGAG CATGGGCAGC 
    CTGACCCTCC GAGACAAGAC CTGGAGAACC GGATCCCCAG AGATGAAGCG TCTGTCGTGT 
    TCGGAGTCGT CCTTCACCGA ATCAGACTCC AGTCCTCCCG GAGCTCGCCG CCGTTTCTCA 
    GCGCTGATGG ACACACACCG CTTCGCTTCT CCACTGGAGG GAGACAGTGA CACACACACA 
    CGCCAGCCGC CCGTCAAAAC CAGAGGGACG TCACTAGAGG GCGCCAGTGT TCCCGTCAGT 
    TCCGGACTGT TTGAGTCCAG CTCTGCCGTG TCAGTGGGAC ATCCTGGAGA CAAGCTTCTG 
    CGTCCCGCTG AAGGTCCATC AGCTCCTCTG CACATGCCGG AGCCCTTCAG TGCACGAGTA 
    GGAAGTGACC TCGTCTTACG AAGAGCACGA CATCATCAGA TACCGAGCGA CAGTGAGAAA 
    CGAACCGCCA CTCGCTCCGG CACAAAAGTC ATCAAGTCGG CCTCCGCCAC GGCGCTGTCT 
    GTCATTATAC CTGCAGTTGA GCAGCATGGT ACGTCTCCGC TGGCCAGTCC CATGTCTCCT 
    CGATCCGTCT CATCCAATCC CTCGTCTCGT GACTCATCTC CGAGTCGTGA TTATTCGCCT 
    ACGGTCAATG TCCTGCGCTC ACCGATCACC ATCCATCGCT CTGGGAAGAA GTACGGCTTC 
    ACTCTGCGAG CCATCAGAGT CTACATGGGC GACAGTCACG TGTATAGCGT ACATCACATG 
    GTCTGGCATG TAGAATGTGG TGGGCCGGCC CAGGAGGCGG GGCTTTGTGC TGGTGACCTC 
    ATCACACATG TGAATGGAGA GCCTGTGCAC GGATTGGTGC ACACAGAGGT GGTGGAGCTC 
    ATTCTGAAGA GTGGCAGCAA AGTAACAGTG ACGACTACTC CGTTCGAAAA CACCTCCATA 
    AAGATTGGTC CCGCCAGGAA GCTGAGCTAC AAAGCCAAGA TGGCCAGACG CAACAAGAAA 
    TCAGCAGCAA AAGATGGACA AGAGAGTAAG AAACGCAGCT CTCTCTTTCG TAAGATCACT 
    AAGCAGTCAA ACCTTCTTCA CACCAGTCGT AGTCTGTCTT CTCTGAATCG CTCGCTGTCG 
    TCTGGAGACA GTCTGCCTGG ATCTCCCACA CATAACCTGT CTGCCCGCTC TCCGACACAG 
    ACGTACCGCT CTCCGCCAGA CTCCACCTAC CTCGGCACGT CATCCCAGAG CAGCTCTCCC 
    GCATCCAGCA CACCAAACTC GCCTGCTACA TCTCAGCACA TGCGTCCAAG CTCTCTTTAT 
    GGCCTCTCAC CCAAACTCCA CCGCCAGTAT CGTTCTGCAC GCTGCAAATC TGCCGGGAAT 
    ATTCCTCTGT CCCCATTGGC TCACACACCA TCCCCGACTT CGTCCTCTCC ACCACCCATA 
    GCGGGACACA TCGTTGGCAG CTCCAACACC ACCCAGGCCT TCCCTGCAAA GCTTCACGCC 
    TCCCCTCCAA TAACACGTCC ACGACCTAAA AGTGCAGAAC CACCCCGTTC CCCTCTTCTC 
    CAAAGGGTGC AGTCCGCCGA GAAGCTCGGT CCACCTTCTC CGCCATCCTC GTCATCTTCT 
    GATAGGAAGG GAGGGCTTGG CATTAGAAAG CATGGTTTGG ATGTTGTGCA TGCCGAATAC 
    CGCCGGGAGT CCTTCCACTG CGAGCATGCC CTCCAGAGCT TGATGGAGAT AGAAGGAGAA 
    AACACGCCCA GTGCTCTACC CTCTCCACCT GATCAAACGC CAACGCACAT GCCCATCAAG 
    CACACGTTGA GTCCAGCAAG GCAACTCGGG AGGCAAGACT CAATCATGGA TAGAGAGTTT 
    GAAGGGAAAT CGAAGCAGGC TGACTCAAGC GAAGCAATTT TGAAGACTGC ATCAAAAACT 
    GAACCAGTAG CAATCATTGT AGATCTTAAA TCAACCCCGT TGGGTGAAAC AACCCAGAGG 
    GATAAAGTAG CCTCTAAGTT TGAGTCTTCC CAAGTTTCAG TTGCCTCAAT GGGGAAGGTT 
    GTAGCCAAGG ATGTGGGAAA GATTGAATCT TCTAGTACTT TGGTAACTGG CCCCAAGATC 
    CCAGATTGGA CGCCAATTGT CCAGAGCTCT GGAGTACAGG AACTCAAACC TCATCAAACC 
    GAGAGTCCTA AAGGGCTGGA GAATGGCAAA GACATTGGAA AGATCCCAGT GAAAGAGAAA 
    ACCCAATTGA CAAAGACTCC AGAGGCAAGC AAGTCAAGTA AAGGACCTTT AAATGTTGAG 
    GGGACTGGAT CTGGTTCTAT TGGTACACCT AAAGTCTCAG AAGCAGTTCC AAGCCAGTCT 
    AAGAGCATTC AGGAACGGGC TCAAACTCCA TCAGGGTCAA CTCGAGGCCC TCAGGAGGAA 
    AGATGTCGCC TCGAAGCAGT CGAAGTCTCT CCTCCCTCTC CATCTCCAAT TGCTAGGTCA 
    CCTTGCACAA GCAAGTCAAG GGCCATTTCT CCTGGTGACC GGTCCAGTTT TGTGACCCAG 
    CTGACCAGTG TGGCTAAAAC TGTGCTTGGG CCAATGAAAT TGGGCTCCCA GGATGGGGGG 
    AAGGCCAAAG ACAGCTCCAA GACAAATGAG GACAAACGAG CCGCCACATT GGGAAAGTCC 
    GAGGCCTCAT CTGGGGGTCG CCGAGGATTG ACGGGAACTT GGCCTGGCCC TGGATCATCA 
    TCAAAGCCTG AAAAGGCATC AAAGAGCTCT TCCAAGCATT CATAA

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

    RefSeq XP_009297388.1
    CDS305..5209
    Translation

    Target ORF information:

    RefSeq Version XM_009299113.3
    Organism Danio rerio(zebrafish)
    Definition Danio rerio microtubule associated serine/threonine kinase 1b (mast1b), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_009299113.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGGATGATT CGGGGATAAT CAGACGCAGG CGGCTGCAGG ATCTTCCACT GCCTCGTAAA 
    AACAGCAGTT GCCGCAGCAA CCGGAAGAGT CTGATTCTGA CCTCCACCTC CCCGACTTTG 
    CCCCGCCCAC ACTCGCCATT ACCAGGACAC ATAGGAAGTA GTCCTCTGGA CAGCCCTCGT 
    AACTTCTCTC CCAGTACTCC TGCACATTTC TCCTTCGCTT CCTCTAGACG AGATGGGCGT 
    CGCTGGTCCC TGGCGTCTCT TCCATCTTCT GGATATGGAA CCAACACACC CAGTTCAACG 
    TCTTCCAGCT CGTCTCAGGA GCGTCTGCAT CAGCTGCCGT CTCAGCCCAC CATGGACGAG 
    CTGCACTTTC TGTCCAAACA CTTCGGCAGC ACAGAGAGCA TCACCGATGA TGATGGAGGA 
    CGCTGCTCAC CTCACATAAG ACCACGCTCA CGCAGCCTGA GTCCGGGCCG CTCTCACTCC 
    TGCTACGACA ATGAGATCAT CATGATGAAT CATGTTTACA GGGAACGCTT CCCTAAGGCC 
    ACGGCGCAGA TGGAGGGCAG GTTGTGTGAT TTTGTCCACT CGTACTGTCC TGAGAACGTC 
    CTGCCTCTGG CTGACGGGGT CCTCAGCTTC ATCCATCACC AGATCATCGA GCTGTCCAGA 
    GACTGCCTGA CCAAATCTAG AGAGGGCCTC ATCACATCCG TCTACTTCTT TGAGCTGCAG 
    GAGAATCTGG AGAAACTTCT GGATGATGCG TATAAGCGGT CAGAGAGTTC AGAGTTGACC 
    TTTGTCACAG AGTTGGTAAA GAAGATCTTC TTCATCATCG CTCGACCTGC TCGACTTCTG 
    GAGTGTTTGG AGTTTAACCC TGAAGAGTTC TACCATCTGC TGGAAGCGGC TGAAGATCAC 
    GCTAAAGAAG GTCACCTGAT GAAGACGGAC ATCCCGCGCT ACATCATCAG TCAGCTGGGT 
    CTGACACGAG ACCCTCTGGA GGAGATGGTC AGTCGGGAGC ATTATGACAG CGAGGGTCCC 
    GTCACACCAG AGACAGACGA CTCTGCAGAG GGAAAAATGA AACCCATGAA GCCACCAGGA 
    GAGGCAGATT TCCAAACCAT CAAACTCATC AGCAATGGAG CCTACGGCGA GGTGTATCTG 
    GTCCGTCATC TGGAGACCCG GCAGCGCTTC GCGATGAAGA AAATCAACAA GCAGAACCTG 
    ATTCTGAGGA ACCAGATCCA GCAGGCGTTT GTGGAGCGAG ACATCCTGAC CTTTGCTGAG 
    AACCCGTTCG TGGTCAGCAT GTTCTGCTCC TTTGAGACCA GAAGACACCT GTGTATGGTC 
    ATGGAGTATG TGGAGGGAGG TGATTGTGCC ACACTGCTCA AAAACATCGG AGCGCTGCCT 
    GTGGAAATGG CCCGTATGTA CTTTGCAGAA ACCGTCCTGG CTCTGGAGTA CATCCACAAC 
    TATGGCATCG TGCATCGAGA TCTCAAACCT GACAATCTGC TCATCACGTC AATGGGTCAC 
    ATTAAACTCA CCGATTTCGG TTTGTCCAAA ATGGGCCTCA TGAGTCTCAC CACAAATTTG 
    TATGAAGGAC ACATCGAGAA GGACACCAGG GAGTTCCTGG ATAAACAGGT TTGTGGCACA 
    CCGGAGTACA TCGCCCCTGA GGTGATCCTG CGGCAGGGCT ATGGGAAGCC GGTGGACTGG 
    TGGGCGATGG GCATCATCCT CTATGAGTTC CTGGTGGGCT GCGTGCCGTT CTTCGGCGAC 
    ACTCCAGAGG AGCTGTTCGG TCAGGTGATC TCAGATGATA TTGTGTGGCC CGAGGATGAT 
    GACGCACTTC CTCCGGACGC ACAGCACCTG ATCTCATCTT TACTTCAGAC CAGCCCACTG 
    CTCAGACTGG GCACAGGCGG AGCATTTGAG GTGAAGCAGC ATCCGTTCTT CGGCGATCTG 
    GACTGGGGCA GTTTACTCCG CCAGAAAGCT GAGTTCATCC CAAACCTGGA GTCTGAAGAA 
    GACACCAGCT ACTTTGACAC ACGATCAGAG CGATATCATC ACGTTCACTC GTACGATGAG 
    GACGACACTA ATGATGACGA GCCTGTGGAG ATTCACCGCT TCTCCTCCTG CTCGCCACGA 
    TTCAGCAAGG TGTACAGCAG CATGGAGCAT CTGTCCCAGC TGGAGCACAA ACCTGTGGTG 
    ACCCGCCGAG AGCCCAAACC TCACAGAGAA GACCGGGCCA AGAGAGAGAG CATGGGCAGC 
    CTGACCCTCC GAGACAAGAC CTGGAGAACC GGATCCCCAG AGATGAAGCG TCTGTCGTGT 
    TCGGAGTCGT CCTTCACCGA ATCAGACTCC AGTCCTCCCG GAGCTCGCCG CCGTTTCTCA 
    GCGCTGATGG ACACACACCG CTTCGCTTCT CCACTGGAGG GAGACAGTGA CACACACACA 
    CGCCAGCCGC CCGTCAAAAC CAGAGGGACG TCACTAGAGG GCGCCAGTGT TCCCGTCAGT 
    TCCGGACTGT TTGAGTCCAG CTCTGCCGTG TCAGTGGGAC ATCCTGGAGA CAAGCTTCTG 
    CGTCCCGCTG AAGGTCCATC AGCTCCTCTG CACATGCCGG AGCCCTTCAG TGCACGAGTA 
    GGAAGTGACC TCGTCTTACG AAGAGCACGA CATCATCAGA TACCGAGCGA CAGTGAGAAA 
    CGAACCGCCA CTCGCTCCGG CACAAAAGTC ATCAAGTCGG CCTCCGCCAC GGCGCTGTCT 
    GTCATTATAC CTGCAGTTGA GCAGCATGGT ACGTCTCCGC TGGCCAGTCC CATGTCTCCT 
    CGATCCGTCT CATCCAATCC CTCGTCTCGT GACTCATCTC CGAGTCGTGA TTATTCGCCT 
    ACGGTCAATG TCCTGCGCTC ACCGATCACC ATCCATCGCT CTGGGAAGAA GTACGGCTTC 
    ACTCTGCGAG CCATCAGAGT CTACATGGGC GACAGTCACG TGTATAGCGT ACATCACATG 
    GTCTGGCATG TAGAATGTGG TGGGCCGGCC CAGGAGGCGG GGCTTTGTGC TGGTGACCTC 
    ATCACACATG TGAATGGAGA GCCTGTGCAC GGATTGGTGC ACACAGAGGT GGTGGAGCTC 
    ATTCTGAAGA GTGGCAGCAA AGTAACAGTG ACGACTACTC CGTTCGAAAA CACCTCCATA 
    AAGATTGGTC CCGCCAGGAA GCTGAGCTAC AAAGCCAAGA TGGCCAGACG CAACAAGAAA 
    TCAGCAGCAA AAGATGGACA AGAGAGTAAG AAACGCAGCT CTCTCTTTCG TAAGATCACT 
    AAGCAGTCAA ACCTTCTTCA CACCAGTCGT AGTCTGTCTT CTCTGAATCG CTCGCTGTCG 
    TCTGGAGACA GTCTGCCTGG ATCTCCCACA CATAACCTGT CTGCCCGCTC TCCGACACAG 
    ACGTACCGCT CTCCGCCAGA CTCCACCTAC CTCGGCACGT CATCCCAGAG CAGCTCTCCC 
    GCATCCAGCA CACCAAACTC GCCTGCTACA TCTCAGCACA TGCGTCCAAG CTCTCTTTAT 
    GGCCTCTCAC CCAAACTCCA CCGCCAGTAT CGTTCTGCAC GCTGCAAATC TGCCGGGAAT 
    ATTCCTCTGT CCCCATTGGC TCACACACCA TCCCCGACTT CGTCCTCTCC ACCACCCATA 
    GCGGGACACA TCGTTGGCAG CTCCAACACC ACCCAGGCCT TCCCTGCAAA GCTTCACGCC 
    TCCCCTCCAA TAACACGTCC ACGACCTAAA AGTGCAGAAC CACCCCGTTC CCCTCTTCTC 
    CAAAGGGTGC AGTCCGCCGA GAAGCTCGGT CCACCTTCTC CGCCATCCTC GTCATCTTCT 
    GATAGGAAGG GAGGGCTTGG CATTAGAAAG CATGGTTTGG ATGTTGTGCA TGCCGAATAC 
    CGCCGGGAGT CCTTCCACTG CGAGCATGCC CTCCAGAGCT TGATGGAGAT AGAAGGAGAA 
    AACACGCCCA GTGCTCTACC CTCTCCACCT GATCAAACGC CAACGCACAT GCCCATCAAG 
    CACACGTTGA GTCCAGCAAG GCAACTCGGG AGGCAAGACT CAATCATGGA TAGAGAGTTT 
    GAAGGGAAAT CGAAGCAGGC TGACTCAAGC GAAGCAATTT TGAAGACTGC ATCAAAAACT 
    GAACCAGTAG CAATCATTGT AGATCTTAAA TCAACCCCGT TGGGTGAAAC AACCCAGAGG 
    GATAAAGTAG CCTCTAAGTT TGAGTCTTCC CAAGTTTCAG TTGCCTCAAT GGGGAAGGTT 
    GTAGCCAAGG ATGTGGGAAA GATTGAATCT TCTAGTACTT TGGTAACTGG CCCCAAGATC 
    CCAGATTGGA CGCCAATTGT CCAGAGCTCT GGAGTACAGG AACTCAAACC TCATCAAACC 
    GAGAGTCCTA AAGGGCTGGA GAATGGCAAA GACATTGGAA AGATCCCAGT GAAAGAGAAA 
    ACCCAATTGA CAAAGACTCC AGAGGCAAGC AAGTCAAGTA AAGGACCTTT AAATGTTGAG 
    GGGACTGGAT CTGGTTCTAT TGGTACACCT AAAGTCTCAG AAGCAGTTCC AAGCCAGTCT 
    AAGAGCATTC AGGAACGGGC TCAAACTCCA TCAGGGTCAA CTCGAGGCCC TCAGGAGGAA 
    AGATGTCGCC TCGAAGCAGT CGAAGTCTCT CCTCCCTCTC CATCTCCAAT TGCTAGGTCA 
    CCTTGCACAA GCAAGTCAAG GGCCATTTCT CCTGGTGACC GGTCCAGTTT TGTGACCCAG 
    CTGACCAGTG TGGCTAAAAC TGTGCTTGGG CCAATGAAAT TGGGCTCCCA GGATGGGGGG 
    AAGGCCAAAG ACAGCTCCAA GACAAATGAG GACAAACGAG CCGCCACATT GGGAAAGTCC 
    GAGGCCTCAT CTGGGGGTCG CCGAGGATTG ACGGGAACTT GGCCTGGCCC TGGATCATCA 
    TCAAAGCCTG AAAAGGCATC AAAGAGCTCT TCCAAGCATT CATAA

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

    mast1b ( XM_009299114.2 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_009297389.1 Danio rerio microtubule associated serine/threonine kinase 1b (mast1b), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ODa47037
    Clone ID Related Accession (Same CDS sequence) XM_009299114.2
    Accession Version XM_009299114.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4869bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product microtubule-associated serine/threonine-protein kinase 1 isoform X2
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007114.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_009299114.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 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
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGCAGGCCG GTGGGTTTCG GCGCACTAAA AGTTGCCGCA GCAACCGGAA GAGTCTGATT 
    CTGACCTCCA CCTCCCCGAC TTTGCCCCGC CCACACTCGC CATTACCAGG ACACATAGGA 
    AGTAGTCCTC TGGACAGCCC TCGTAACTTC TCTCCCAGTA CTCCTGCACA TTTCTCCTTC 
    GCTTCCTCTA GACGAGATGG GCGTCGCTGG TCCCTGGCGT CTCTTCCATC TTCTGGATAT 
    GGAACCAACA CACCCAGTTC AACGTCTTCC AGCTCGTCTC AGGAGCGTCT GCATCAGCTG 
    CCGTCTCAGC CCACCATGGA CGAGCTGCAC TTTCTGTCCA AACACTTCGG CAGCACAGAG 
    AGCATCACCG ATGATGATGG AGGACGCTGC TCACCTCACA TAAGACCACG CTCACGCAGC 
    CTGAGTCCGG GCCGCTCTCA CTCCTGCTAC GACAATGAGA TCATCATGAT GAATCATGTT 
    TACAGGGAAC GCTTCCCTAA GGCCACGGCG CAGATGGAGG GCAGGTTGTG TGATTTTGTC 
    CACTCGTACT GTCCTGAGAA CGTCCTGCCT CTGGCTGACG GGGTCCTCAG CTTCATCCAT 
    CACCAGATCA TCGAGCTGTC CAGAGACTGC CTGACCAAAT CTAGAGAGGG CCTCATCACA 
    TCCGTCTACT TCTTTGAGCT GCAGGAGAAT CTGGAGAAAC TTCTGGATGA TGCGTATAAG 
    CGGTCAGAGA GTTCAGAGTT GACCTTTGTC ACAGAGTTGG TAAAGAAGAT CTTCTTCATC 
    ATCGCTCGAC CTGCTCGACT TCTGGAGTGT TTGGAGTTTA ACCCTGAAGA GTTCTACCAT 
    CTGCTGGAAG CGGCTGAAGA TCACGCTAAA GAAGGTCACC TGATGAAGAC GGACATCCCG 
    CGCTACATCA TCAGTCAGCT GGGTCTGACA CGAGACCCTC TGGAGGAGAT GGTCAGTCGG 
    GAGCATTATG ACAGCGAGGG TCCCGTCACA CCAGAGACAG ACGACTCTGC AGAGGGAAAA 
    ATGAAACCCA TGAAGCCACC AGGAGAGGCA GATTTCCAAA CCATCAAACT CATCAGCAAT 
    GGAGCCTACG GCGAGGTGTA TCTGGTCCGT CATCTGGAGA CCCGGCAGCG CTTCGCGATG 
    AAGAAAATCA ACAAGCAGAA CCTGATTCTG AGGAACCAGA TCCAGCAGGC GTTTGTGGAG 
    CGAGACATCC TGACCTTTGC TGAGAACCCG TTCGTGGTCA GCATGTTCTG CTCCTTTGAG 
    ACCAGAAGAC ACCTGTGTAT GGTCATGGAG TATGTGGAGG GAGGTGATTG TGCCACACTG 
    CTCAAAAACA TCGGAGCGCT GCCTGTGGAA ATGGCCCGTA TGTACTTTGC AGAAACCGTC 
    CTGGCTCTGG AGTACATCCA CAACTATGGC ATCGTGCATC GAGATCTCAA ACCTGACAAT 
    CTGCTCATCA CGTCAATGGG TCACATTAAA CTCACCGATT TCGGTTTGTC CAAAATGGGC 
    CTCATGAGTC TCACCACAAA TTTGTATGAA GGACACATCG AGAAGGACAC CAGGGAGTTC 
    CTGGATAAAC AGGTTTGTGG CACACCGGAG TACATCGCCC CTGAGGTGAT CCTGCGGCAG 
    GGCTATGGGA AGCCGGTGGA CTGGTGGGCG ATGGGCATCA TCCTCTATGA GTTCCTGGTG 
    GGCTGCGTGC CGTTCTTCGG CGACACTCCA GAGGAGCTGT TCGGTCAGGT GATCTCAGAT 
    GATATTGTGT GGCCCGAGGA TGATGACGCA CTTCCTCCGG ACGCACAGCA CCTGATCTCA 
    TCTTTACTTC AGACCAGCCC ACTGCTCAGA CTGGGCACAG GCGGAGCATT TGAGGTGAAG 
    CAGCATCCGT TCTTCGGCGA TCTGGACTGG GGCAGTTTAC TCCGCCAGAA AGCTGAGTTC 
    ATCCCAAACC TGGAGTCTGA AGAAGACACC AGCTACTTTG ACACACGATC AGAGCGATAT 
    CATCACGTTC ACTCGTACGA TGAGGACGAC ACTAATGATG ACGAGCCTGT GGAGATTCAC 
    CGCTTCTCCT CCTGCTCGCC ACGATTCAGC AAGGTGTACA GCAGCATGGA GCATCTGTCC 
    CAGCTGGAGC ACAAACCTGT GGTGACCCGC CGAGAGCCCA AACCTCACAG AGAAGACCGG 
    GCCAAGAGAG AGAGCATGGG CAGCCTGACC CTCCGAGACA AGACCTGGAG AACCGGATCC 
    CCAGAGATGA AGCGTCTGTC GTGTTCGGAG TCGTCCTTCA CCGAATCAGA CTCCAGTCCT 
    CCCGGAGCTC GCCGCCGTTT CTCAGCGCTG ATGGACACAC ACCGCTTCGC TTCTCCACTG 
    GAGGGAGACA GTGACACACA CACACGCCAG CCGCCCGTCA AAACCAGAGG GACGTCACTA 
    GAGGGCGCCA GTGTTCCCGT CAGTTCCGGA CTGTTTGAGT CCAGCTCTGC CGTGTCAGTG 
    GGACATCCTG GAGACAAGCT TCTGCGTCCC GCTGAAGGTC CATCAGCTCC TCTGCACATG 
    CCGGAGCCCT TCAGTGCACG AGTAGGAAGT GACCTCGTCT TACGAAGAGC ACGACATCAT 
    CAGATACCGA GCGACAGTGA GAAACGAACC GCCACTCGCT CCGGCACAAA AGTCATCAAG 
    TCGGCCTCCG CCACGGCGCT GTCTGTCATT ATACCTGCAG TTGAGCAGCA TGGTACGTCT 
    CCGCTGGCCA GTCCCATGTC TCCTCGATCC GTCTCATCCA ATCCCTCGTC TCGTGACTCA 
    TCTCCGAGTC GTGATTATTC GCCTACGGTC AATGTCCTGC GCTCACCGAT CACCATCCAT 
    CGCTCTGGGA AGAAGTACGG CTTCACTCTG CGAGCCATCA GAGTCTACAT GGGCGACAGT 
    CACGTGTATA GCGTACATCA CATGGTCTGG CATGTAGAAT GTGGTGGGCC GGCCCAGGAG 
    GCGGGGCTTT GTGCTGGTGA CCTCATCACA CATGTGAATG GAGAGCCTGT GCACGGATTG 
    GTGCACACAG AGGTGGTGGA GCTCATTCTG AAGAGTGGCA GCAAAGTAAC AGTGACGACT 
    ACTCCGTTCG AAAACACCTC CATAAAGATT GGTCCCGCCA GGAAGCTGAG CTACAAAGCC 
    AAGATGGCCA GACGCAACAA GAAATCAGCA GCAAAAGATG GACAAGAGAG TAAGAAACGC 
    AGCTCTCTCT TTCGTAAGAT CACTAAGCAG TCAAACCTTC TTCACACCAG TCGTAGTCTG 
    TCTTCTCTGA ATCGCTCGCT GTCGTCTGGA GACAGTCTGC CTGGATCTCC CACACATAAC 
    CTGTCTGCCC GCTCTCCGAC ACAGACGTAC CGCTCTCCGC CAGACTCCAC CTACCTCGGC 
    ACGTCATCCC AGAGCAGCTC TCCCGCATCC AGCACACCAA ACTCGCCTGC TACATCTCAG 
    CACATGCGTC CAAGCTCTCT TTATGGCCTC TCACCCAAAC TCCACCGCCA GTATCGTTCT 
    GCACGCTGCA AATCTGCCGG GAATATTCCT CTGTCCCCAT TGGCTCACAC ACCATCCCCG 
    ACTTCGTCCT CTCCACCACC CATAGCGGGA CACATCGTTG GCAGCTCCAA CACCACCCAG 
    GCCTTCCCTG CAAAGCTTCA CGCCTCCCCT CCAATAACAC GTCCACGACC TAAAAGTGCA 
    GAACCACCCC GTTCCCCTCT TCTCCAAAGG GTGCAGTCCG CCGAGAAGCT CGGTCCACCT 
    TCTCCGCCAT CCTCGTCATC TTCTGATAGG AAGGGAGGGC TTGGCATTAG AAAGCATGGT 
    TTGGATGTTG TGCATGCCGA ATACCGCCGG GAGTCCTTCC ACTGCGAGCA TGCCCTCCAG 
    AGCTTGATGG AGATAGAAGG AGAAAACACG CCCAGTGCTC TACCCTCTCC ACCTGATCAA 
    ACGCCAACGC ACATGCCCAT CAAGCACACG TTGAGTCCAG CAAGGCAACT CGGGAGGCAA 
    GACTCAATCA TGGATAGAGA GTTTGAAGGG AAATCGAAGC AGGCTGACTC AAGCGAAGCA 
    ATTTTGAAGA CTGCATCAAA AACTGAACCA GTAGCAATCA TTGTAGATCT TAAATCAACC 
    CCGTTGGGTG AAACAACCCA GAGGGATAAA GTAGCCTCTA AGTTTGAGTC TTCCCAAGTT 
    TCAGTTGCCT CAATGGGGAA GGTTGTAGCC AAGGATGTGG GAAAGATTGA ATCTTCTAGT 
    ACTTTGGTAA CTGGCCCCAA GATCCCAGAT TGGACGCCAA TTGTCCAGAG CTCTGGAGTA 
    CAGGAACTCA AACCTCATCA AACCGAGAGT CCTAAAGGGC TGGAGAATGG CAAAGACATT 
    GGAAAGATCC CAGTGAAAGA GAAAACCCAA TTGACAAAGA CTCCAGAGGC AAGCAAGTCA 
    AGTAAAGGAC CTTTAAATGT TGAGGGGACT GGATCTGGTT CTATTGGTAC ACCTAAAGTC 
    TCAGAAGCAG TTCCAAGCCA GTCTAAGAGC ATTCAGGAAC GGGCTCAAAC TCCATCAGGG 
    TCAACTCGAG GCCCTCAGGA GGAAAGATGT CGCCTCGAAG CAGTCGAAGT CTCTCCTCCC 
    TCTCCATCTC CAATTGCTAG GTCACCTTGC ACAAGCAAGT CAAGGGCCAT TTCTCCTGGT 
    GACCGGTCCA GTTTTGTGAC CCAGCTGACC AGTGTGGCTA AAACTGTGCT TGGGCCAATG 
    AAATTGGGCT CCCAGGATGG GGGGAAGGCC AAAGACAGCT CCAAGACAAA TGAGGACAAA 
    CGAGCCGCCA CATTGGGAAA GTCCGAGGCC TCATCTGGGG GTCGCCGAGG ATTGACGGGA 
    ACTTGGCCTG GCCCTGGATC ATCATCAAAG CCTGAAAAGG CATCAAAGAG CTCTTCCAAG 
    CATTCATAA

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

    RefSeq XP_009297389.1
    CDS78..4946
    Translation

    Target ORF information:

    RefSeq Version XM_009299114.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio microtubule associated serine/threonine kinase 1b (mast1b), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_009299114.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGCAGGCCG GTGGGTTTCG GCGCACTAAA AGTTGCCGCA GCAACCGGAA GAGTCTGATT 
    CTGACCTCCA CCTCCCCGAC TTTGCCCCGC CCACACTCGC CATTACCAGG ACACATAGGA 
    AGTAGTCCTC TGGACAGCCC TCGTAACTTC TCTCCCAGTA CTCCTGCACA TTTCTCCTTC 
    GCTTCCTCTA GACGAGATGG GCGTCGCTGG TCCCTGGCGT CTCTTCCATC TTCTGGATAT 
    GGAACCAACA CACCCAGTTC AACGTCTTCC AGCTCGTCTC AGGAGCGTCT GCATCAGCTG 
    CCGTCTCAGC CCACCATGGA CGAGCTGCAC TTTCTGTCCA AACACTTCGG CAGCACAGAG 
    AGCATCACCG ATGATGATGG AGGACGCTGC TCACCTCACA TAAGACCACG CTCACGCAGC 
    CTGAGTCCGG GCCGCTCTCA CTCCTGCTAC GACAATGAGA TCATCATGAT GAATCATGTT 
    TACAGGGAAC GCTTCCCTAA GGCCACGGCG CAGATGGAGG GCAGGTTGTG TGATTTTGTC 
    CACTCGTACT GTCCTGAGAA CGTCCTGCCT CTGGCTGACG GGGTCCTCAG CTTCATCCAT 
    CACCAGATCA TCGAGCTGTC CAGAGACTGC CTGACCAAAT CTAGAGAGGG CCTCATCACA 
    TCCGTCTACT TCTTTGAGCT GCAGGAGAAT CTGGAGAAAC TTCTGGATGA TGCGTATAAG 
    CGGTCAGAGA GTTCAGAGTT GACCTTTGTC ACAGAGTTGG TAAAGAAGAT CTTCTTCATC 
    ATCGCTCGAC CTGCTCGACT TCTGGAGTGT TTGGAGTTTA ACCCTGAAGA GTTCTACCAT 
    CTGCTGGAAG CGGCTGAAGA TCACGCTAAA GAAGGTCACC TGATGAAGAC GGACATCCCG 
    CGCTACATCA TCAGTCAGCT GGGTCTGACA CGAGACCCTC TGGAGGAGAT GGTCAGTCGG 
    GAGCATTATG ACAGCGAGGG TCCCGTCACA CCAGAGACAG ACGACTCTGC AGAGGGAAAA 
    ATGAAACCCA TGAAGCCACC AGGAGAGGCA GATTTCCAAA CCATCAAACT CATCAGCAAT 
    GGAGCCTACG GCGAGGTGTA TCTGGTCCGT CATCTGGAGA CCCGGCAGCG CTTCGCGATG 
    AAGAAAATCA ACAAGCAGAA CCTGATTCTG AGGAACCAGA TCCAGCAGGC GTTTGTGGAG 
    CGAGACATCC TGACCTTTGC TGAGAACCCG TTCGTGGTCA GCATGTTCTG CTCCTTTGAG 
    ACCAGAAGAC ACCTGTGTAT GGTCATGGAG TATGTGGAGG GAGGTGATTG TGCCACACTG 
    CTCAAAAACA TCGGAGCGCT GCCTGTGGAA ATGGCCCGTA TGTACTTTGC AGAAACCGTC 
    CTGGCTCTGG AGTACATCCA CAACTATGGC ATCGTGCATC GAGATCTCAA ACCTGACAAT 
    CTGCTCATCA CGTCAATGGG TCACATTAAA CTCACCGATT TCGGTTTGTC CAAAATGGGC 
    CTCATGAGTC TCACCACAAA TTTGTATGAA GGACACATCG AGAAGGACAC CAGGGAGTTC 
    CTGGATAAAC AGGTTTGTGG CACACCGGAG TACATCGCCC CTGAGGTGAT CCTGCGGCAG 
    GGCTATGGGA AGCCGGTGGA CTGGTGGGCG ATGGGCATCA TCCTCTATGA GTTCCTGGTG 
    GGCTGCGTGC CGTTCTTCGG CGACACTCCA GAGGAGCTGT TCGGTCAGGT GATCTCAGAT 
    GATATTGTGT GGCCCGAGGA TGATGACGCA CTTCCTCCGG ACGCACAGCA CCTGATCTCA 
    TCTTTACTTC AGACCAGCCC ACTGCTCAGA CTGGGCACAG GCGGAGCATT TGAGGTGAAG 
    CAGCATCCGT TCTTCGGCGA TCTGGACTGG GGCAGTTTAC TCCGCCAGAA AGCTGAGTTC 
    ATCCCAAACC TGGAGTCTGA AGAAGACACC AGCTACTTTG ACACACGATC AGAGCGATAT 
    CATCACGTTC ACTCGTACGA TGAGGACGAC ACTAATGATG ACGAGCCTGT GGAGATTCAC 
    CGCTTCTCCT CCTGCTCGCC ACGATTCAGC AAGGTGTACA GCAGCATGGA GCATCTGTCC 
    CAGCTGGAGC ACAAACCTGT GGTGACCCGC CGAGAGCCCA AACCTCACAG AGAAGACCGG 
    GCCAAGAGAG AGAGCATGGG CAGCCTGACC CTCCGAGACA AGACCTGGAG AACCGGATCC 
    CCAGAGATGA AGCGTCTGTC GTGTTCGGAG TCGTCCTTCA CCGAATCAGA CTCCAGTCCT 
    CCCGGAGCTC GCCGCCGTTT CTCAGCGCTG ATGGACACAC ACCGCTTCGC TTCTCCACTG 
    GAGGGAGACA GTGACACACA CACACGCCAG CCGCCCGTCA AAACCAGAGG GACGTCACTA 
    GAGGGCGCCA GTGTTCCCGT CAGTTCCGGA CTGTTTGAGT CCAGCTCTGC CGTGTCAGTG 
    GGACATCCTG GAGACAAGCT TCTGCGTCCC GCTGAAGGTC CATCAGCTCC TCTGCACATG 
    CCGGAGCCCT TCAGTGCACG AGTAGGAAGT GACCTCGTCT TACGAAGAGC ACGACATCAT 
    CAGATACCGA GCGACAGTGA GAAACGAACC GCCACTCGCT CCGGCACAAA AGTCATCAAG 
    TCGGCCTCCG CCACGGCGCT GTCTGTCATT ATACCTGCAG TTGAGCAGCA TGGTACGTCT 
    CCGCTGGCCA GTCCCATGTC TCCTCGATCC GTCTCATCCA ATCCCTCGTC TCGTGACTCA 
    TCTCCGAGTC GTGATTATTC GCCTACGGTC AATGTCCTGC GCTCACCGAT CACCATCCAT 
    CGCTCTGGGA AGAAGTACGG CTTCACTCTG CGAGCCATCA GAGTCTACAT GGGCGACAGT 
    CACGTGTATA GCGTACATCA CATGGTCTGG CATGTAGAAT GTGGTGGGCC GGCCCAGGAG 
    GCGGGGCTTT GTGCTGGTGA CCTCATCACA CATGTGAATG GAGAGCCTGT GCACGGATTG 
    GTGCACACAG AGGTGGTGGA GCTCATTCTG AAGAGTGGCA GCAAAGTAAC AGTGACGACT 
    ACTCCGTTCG AAAACACCTC CATAAAGATT GGTCCCGCCA GGAAGCTGAG CTACAAAGCC 
    AAGATGGCCA GACGCAACAA GAAATCAGCA GCAAAAGATG GACAAGAGAG TAAGAAACGC 
    AGCTCTCTCT TTCGTAAGAT CACTAAGCAG TCAAACCTTC TTCACACCAG TCGTAGTCTG 
    TCTTCTCTGA ATCGCTCGCT GTCGTCTGGA GACAGTCTGC CTGGATCTCC CACACATAAC 
    CTGTCTGCCC GCTCTCCGAC ACAGACGTAC CGCTCTCCGC CAGACTCCAC CTACCTCGGC 
    ACGTCATCCC AGAGCAGCTC TCCCGCATCC AGCACACCAA ACTCGCCTGC TACATCTCAG 
    CACATGCGTC CAAGCTCTCT TTATGGCCTC TCACCCAAAC TCCACCGCCA GTATCGTTCT 
    GCACGCTGCA AATCTGCCGG GAATATTCCT CTGTCCCCAT TGGCTCACAC ACCATCCCCG 
    ACTTCGTCCT CTCCACCACC CATAGCGGGA CACATCGTTG GCAGCTCCAA CACCACCCAG 
    GCCTTCCCTG CAAAGCTTCA CGCCTCCCCT CCAATAACAC GTCCACGACC TAAAAGTGCA 
    GAACCACCCC GTTCCCCTCT TCTCCAAAGG GTGCAGTCCG CCGAGAAGCT CGGTCCACCT 
    TCTCCGCCAT CCTCGTCATC TTCTGATAGG AAGGGAGGGC TTGGCATTAG AAAGCATGGT 
    TTGGATGTTG TGCATGCCGA ATACCGCCGG GAGTCCTTCC ACTGCGAGCA TGCCCTCCAG 
    AGCTTGATGG AGATAGAAGG AGAAAACACG CCCAGTGCTC TACCCTCTCC ACCTGATCAA 
    ACGCCAACGC ACATGCCCAT CAAGCACACG TTGAGTCCAG CAAGGCAACT CGGGAGGCAA 
    GACTCAATCA TGGATAGAGA GTTTGAAGGG AAATCGAAGC AGGCTGACTC AAGCGAAGCA 
    ATTTTGAAGA CTGCATCAAA AACTGAACCA GTAGCAATCA TTGTAGATCT TAAATCAACC 
    CCGTTGGGTG AAACAACCCA GAGGGATAAA GTAGCCTCTA AGTTTGAGTC TTCCCAAGTT 
    TCAGTTGCCT CAATGGGGAA GGTTGTAGCC AAGGATGTGG GAAAGATTGA ATCTTCTAGT 
    ACTTTGGTAA CTGGCCCCAA GATCCCAGAT TGGACGCCAA TTGTCCAGAG CTCTGGAGTA 
    CAGGAACTCA AACCTCATCA AACCGAGAGT CCTAAAGGGC TGGAGAATGG CAAAGACATT 
    GGAAAGATCC CAGTGAAAGA GAAAACCCAA TTGACAAAGA CTCCAGAGGC AAGCAAGTCA 
    AGTAAAGGAC CTTTAAATGT TGAGGGGACT GGATCTGGTT CTATTGGTAC ACCTAAAGTC 
    TCAGAAGCAG TTCCAAGCCA GTCTAAGAGC ATTCAGGAAC GGGCTCAAAC TCCATCAGGG 
    TCAACTCGAG GCCCTCAGGA GGAAAGATGT CGCCTCGAAG CAGTCGAAGT CTCTCCTCCC 
    TCTCCATCTC CAATTGCTAG GTCACCTTGC ACAAGCAAGT CAAGGGCCAT TTCTCCTGGT 
    GACCGGTCCA GTTTTGTGAC CCAGCTGACC AGTGTGGCTA AAACTGTGCT TGGGCCAATG 
    AAATTGGGCT CCCAGGATGG GGGGAAGGCC AAAGACAGCT CCAAGACAAA TGAGGACAAA 
    CGAGCCGCCA CATTGGGAAA GTCCGAGGCC TCATCTGGGG GTCGCCGAGG ATTGACGGGA 
    ACTTGGCCTG GCCCTGGATC ATCATCAAAG CCTGAAAAGG CATCAAAGAG CTCTTCCAAG 
    CATTCATAA

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

見積依頼

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