ORF » Species Summary » Maylandia zebra » LOC101478771 cDNA ORF clone

LOC101478771 cDNA ORF clone, Maylandia zebra(zebra mbuna)

The following LOC101478771 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC101478771 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
OMa04309 XM_012919356.2
Latest version!		 Maylandia zebra matrin-3 (LOC101478771), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMa04309 XM_012919355.2
Latest version!		 Maylandia zebra matrin-3 (LOC101478771), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMa04310 XM_004552091.3
Latest version!		 Maylandia zebra matrin-3 (LOC101478771), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMa04311 XM_012919357.2
Latest version!		 Maylandia zebra matrin-3 (LOC101478771), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OMa366872 XM_012919356.3
Latest version!		 Maylandia zebra matrin-3 (LOC101478771), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMa366872 XM_012919355.3
Latest version!		 Maylandia zebra matrin-3 (LOC101478771), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMa366873 XM_004552091.4
Latest version!		 Maylandia zebra matrin-3 (LOC101478771), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMa366874 XM_012919357.3
Latest version!		 Maylandia zebra matrin-3 (LOC101478771), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
View Old Accession Versions >>
OMa04311 XM_012919357.1 Maylandia zebra matrin-3-like (LOC101478771), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OMa04310 XM_004552091.2 Maylandia zebra matrin-3-like (LOC101478771), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMa04309 XM_012919355.1 Maylandia zebra matrin-3-like (LOC101478771), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMa04309 XM_012919356.1 Maylandia zebra matrin-3-like (LOC101478771), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
Hide Old Accession Versions >>

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** 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)
    LOC101478771 ( XM_012919355.2 ) cDNA ORF clone, Maylandia zebra(zebra mbuna) -> XP_012774809.1 Maylandia zebra matrin-3 (LOC101478771), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OMa04309
    Clone ID Related Accession (Same CDS sequence) XM_012919355.2 , XM_012919356.1 , XM_012919355.1 , XM_012919356.2
    Accession Version XM_012919355.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4059bp)
    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 1511884800000
    Organism Maylandia zebra(zebra mbuna)
    Product matrin-3 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014444742.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Nov 30, 2017 this sequence version replaced XM_012919355.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Maylandia zebra Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGTCTCAGA ATTACCCGTA CAGAAAGCCG CCGCCTGACA CCGACCTCAG AACTGATCCC 
    GGGCCTTACA GATCTGTGGA CTACCGCCAC TCCTCAGCGG ACCGTGACTT TTACAGGCAG 
    CCACAAGACT CCTTCTCTGT CTCCTCCTCC TGCCCGTCCT CGTCCAGGGG CTCTGGAGTG 
    CTGCAGTCAT CGCAGGACAA TGTTCTGAGC ATCCTGAGCA GCTGCGGTCT GGAGCCCAGT 
    GATCTGGCGC TGCTAGCTGA GCTGCCCGAA GACGTCCTCA CTATTGAGTC TCTGCCACAC 
    ATCCTCAGAC AGATCAAATG CAAGAAAGGG ACCGTCAAAC CTTTCCCTCC CCGGGCTCCG 
    TCTCCCTCCT CCTCTTCCTC CTACCCTCCC AGCTCCTCCT CCTCTAGAGA CTGGGACCAG 
    CTCCATCGCA CGTCGGTCCA GTACCCGCTG GACCACCTGC CACCACCACC TCCTCCCTCG 
    GAGCAGCTCA TGGATCGCTG GAATAATCCG ATTACCGTGA GCTCCGGCCG AGCAGAGCTG 
    CCACCATCGT CATCCTTATC ATCGTCGTCG TTGGGGTACA CGGTGGACTT CCACCGCAGG 
    CAGGGCCCCT CTGATTATGG TAAGGCTGGT CCAGTTCCTT CTTACAGCCC AGCGAGGCGA 
    GGAGATAGAG CGCCGTCATC TCGATTCTCT GAGGCTGGAC CAGCTGATTA CAGGTCATCA 
    GCGCTGGTGA CGGCTTCTCC TCTTCCTAGC GAGCACCAGT CCAAACCTCT GGCAAGCCGC 
    CGTGACACGT CCTCCACGAG GAGCAGTCAG TCCTCGCCCT CAATGCCTAC ACGGAAAGAA 
    GCTCTGGATT TCCACGGGAA GGTCCCGCCG TCGTTCCCGT ACTCGTGCTC GCTGTGTGAT 
    ATCACTGTAC TGTCGCAGAA GGTTTGGATT CAGCACGTGA CTGGCAGGCA CCATGCAGAT 
    GGACAGCTCA GCCTCCTGCA GCAGTTTCCT AACTGGGACT GCCGCATGCA GACGGTCCGA 
    AGGGACGATA AATCTGAGAA GAAGAAAGAT GGAGGAAAAG GCGCCCCGGC AGCTAGTCAA 
    ACATCGCAGT CGAATAGCAA GTGGAAGCAG AAGAAGGTAA AGAAGAATTT GGAGAAAGGG 
    AAGGTAGTGT GCATCAAGTT TCCGTCTCAG TCTGTCGATG AGAAATACCT CAGGAAGCTT 
    GCAGAACCGT TCGGGAAGAT CATCAAGGTC ATCATGTTTC CGTCTCTGGG CTTCGTGGAG 
    ATGGGCTCGG TTGATCAGGC CAAAGACTTG GTGAAGTTTC ACAGCAATTA TCCTCCAACT 
    GTGAACGGAG AGCAGCTCGT GTTCAGCGTC TCCAGCGCCT TCAACTTTCT CCAGAGCTCC 
    CGGGTGGTGA GTTTCACGCC CGCTCCATCG GGAGAAGACG GAAAATCCGA CCTGATCAAT 
    ATCATCAAAC GCTTCGGCCC GCCGCTCTAC ACCCTGTTCC TGCCATCAAT GGTGTTCATT 
    GAGATGAAGA ACGCCCCTGA TGCTCAGAAG CTGGTGGATT ATTATCTGTC CAACACTCTG 
    AGGATCAACA GTGACTTGAT TTGTGTCTCC TTCTCTGGAG AGTACAAGAC TCTCATGCGG 
    GTTTCAAAAG CCAAGAGGTA CGAAGAAGAA AACGAAAGTA CAAAGAAGAG TACCACCAAG 
    AGGACAAGGA GCTCAAGCCG AGACAGAACG ACAGAAAATA AGAAAAGAAG GTCCAGATCC 
    AGAGACAAGG CCAGCAAAGA GGAACGGACC AGAACAAGGT CCAGGTCCAG GGATAAATCT 
    AAAGAAAAAT CCAGCAGAGA TGCCAAAACT AGATCTAGGT CCCAAGACAA GTTGGATAGA 
    AAAAGGAAGA GCAGAACCCG GTCCAGGTCC AGAGATAAGT CCACTAGTGA GAAGCGGACC 
    AGGACCAGGT CTAAGTCAGG GTCCAGAGAA AAAACAAAAG AAAAATCCAA CAAGGAAAGC 
    AAGAAAGGGT CCCAAGCGAA GAAGCCAGAC GAATCGAGAG AAAAATCCAA CAGAGACCAG 
    AAGACCAGGT CCGCATCCAG AGACAAGTCC AGCAGAGAGA CAAAAGCCAA GTCTACAACC 
    CAAGAAAAGT CAAGCAAAGA AAGAAAAAGC AGGAGCAAAT CTAGATCCGT GGAAAAATCC 
    AGCAGAGATA AGAAATCCAG GTCTAGAGAG AGATCCAGCA ACAAGTCCTC CAGACGGGAC 
    GGAGAAAAGA CGGCAGAACC AGAGAAACCA GATGCAGAGT CCACATCCAA AGGACAACCG 
    TCTCCTCTCG AAGACTCCAA ACCTGAAGTT TCAAACACAG AAGAAGTGGA GGGGGAGGCA 
    GCGTTGCCTG GAGAGGAGAG CGACATCGAG GGGATGGAGG TGATTGCTGA GGATGGAGAG 
    AATCTGGCAG ATGACGATGA GGAGGCTCTG CAAGAGGAAG AGAAAAAAGA GAGTCCTAAA 
    GAGAGAGCAC CTGAAAAAGA TGAAGTAAAG GAGGTGATAG GTGGAGAGCC TGGCAATGAG 
    GAGAAACCTG CGTCGGAGAA GGAGATAAAG AAGGAAGAGA AGGAGGAAGT AGAGGAGTCA 
    AAGGAAGCAA CAGAGACTCC TCTACAGGAG GATTTGGAGG ACTTCCCTGT AGACCTGGAA 
    AACTGCATCA CTCTGGATGA ACTGGAAGAA GATGACTCTG ACGACCAAGG TGGAGAATCA 
    GCAGATGAGC CCAAGTCAAC ATCGAAATCC AGCAGGGTTT TTTACTTCGG CCACCTGCCA 
    CCTAATTATG CCCTCTTTGA CTTCTTCCAA CTGCTGCGAA ATTTTGGGAA GGTGGTGCGC 
    TATTACCTGA TTGGCAATCG ACGAGAGGGT TTCATTGAGA TGTCGAGTTC TTCAGCGGCC 
    CTGAAAGCTG TTGAAGAGCT CGTCAGCAAA CCAGCCATCC ACAACTGCCC CAAACTCAAA 
    GCCCGCATCT CCACCAAATA CTACAGACTT GACAACGGAT GGGTTGTTCA CTCGGACGGC 
    AGCAATGACA AGGACAGTCG AGGCAGGAAG CGCGAGAAAC GAAGCAAATC CAAGACCTCA 
    GACCAGGACG AGACCGACAG GAGGTCTAAA GGGAGGAAGG AGTCCCCGAA GAAGACATCA 
    GAGAAATCAG GCAAAAAGAC TCCAGAAAAA GATTCTGGGT CAAAAAAGCC TCCAGAGAAA 
    GACTCATCAG GGAAAAAGAC CCCAAAGAAA GAGTCCACAT CCAAAACGTC TCCAGAAAAG 
    GATGCCAAAA ACATCTTGGA AACGAAATCC ACTGGGAAAA AGACTCCAGC GAAAGATTTG 
    CCATCTAAAA AAACTTCAGG TAAGGATTCT ACAACAAAAA AGACTCCAGC GAAAAAGTCC 
    GCATCCAGAA AGACTCTGGA AACCAAGTCT ACATTCAGAG AAACTTCAGC AGAAGAGTCC 
    AAAAAGTCTC CAAAGAGGGA ATCGTTGGAC AAAGAGCCTC CAGAAAAGGT CCTTAAAAAC 
    GGCCCGGAGA AGGAATCCGC AGGGAGAAAG ACTCCTGAGA AAGGGTCATC GTGTGCAGAG 
    ATTCCAGACA GCGAGACGCT GGAACCAAAA GGAGCTCCTG ACAATAATTC AGTGCCTCAG 
    ACAACTGTGA AGAAAGAACT AAAGAAAGAA AATGCTCAAC AAAATGAGGA ACCAGCAGCT 
    GATAAAGCGC CATCTGAAAA AGATTATATC AAAAAGGAAA CACCACGCAC ATTCAAGCAG 
    GAGGAGGAGG AAACGCCAAT AGATGTTTGT ATGGAAGCAG GACCAAATGT GAAAGATGCA 
    GAGAGTCCAG ATCCACCAGT CTCCTCTACA GAGCCCTCAA AACCACCACC TGAACAGGAC 
    GCGAAGCCCC AGTTTGAACC TGCAGAGGGC GCTGCTGAAC CTCAGAAACC CACCAAACCT 
    GTTGGGACGG AGTTCGTGCG ACCGGTCGTC GGTTATTTCT GTAACCTGTG TCAGCAGATC 
    TTCGCTGAAG AGGATGAAGC CAAACAGCAG CACTGCAGCA GCCTGTCGCA TTACAGCAAA 
    TACCAGGAGA AGACTGGGAG GGATCCGTGG ACGAGCTGA

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

    RefSeq XP_012774809.1
    CDS186..4244
    Translation

    Target ORF information:

    RefSeq Version XM_012919355.2
    Organism Maylandia zebra(zebra mbuna)
    Definition Maylandia zebra matrin-3 (LOC101478771), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012919355.2

    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
    ATGTCTCAGA ATTACCCGTA CAGAAAGCCG CCGCCTGACA CCGACCTCAG AACTGATCCC 
    GGGCCTTACA GATCTGTGGA CTACCGCCAC TCCTCAGCGG ACCGTGACTT TTACAGGCAG 
    CCACAAGACT CCTTCTCTGT CTCCTCCTCC TGCCCGTCCT CGTCCAGGGG CTCTGGAGTG 
    CTGCAGTCAT CGCAGGACAA TGTTCTGAGC ATCCTGAGCA GCTGCGGTCT GGAGCCCAGT 
    GATCTGGCGC TGCTAGCTGA GCTGCCCGAA GACGTCCTCA CTATTGAGTC TCTGCCACAC 
    ATCCTCAGAC AGATCAAATG CAAGAAAGGG ACCGTCAAAC CTTTCCCTCC CCGGGCTCCG 
    TCTCCCTCCT CCTCTTCCTC CTACCCTCCC AGCTCCTCCT CCTCTAGAGA CTGGGACCAG 
    CTCCATCGCA CGTCGGTCCA GTACCCGCTG GACCACCTGC CACCACCACC TCCTCCCTCG 
    GAGCAGCTCA TGGATCGCTG GAATAATCCG ATTACCGTGA GCTCCGGCCG AGCAGAGCTG 
    CCACCATCGT CATCCTTATC ATCGTCGTCG TTGGGGTACA CGGTGGACTT CCACCGCAGG 
    CAGGGCCCCT CTGATTATGG TAAGGCTGGT CCAGTTCCTT CTTACAGCCC AGCGAGGCGA 
    GGAGATAGAG CGCCGTCATC TCGATTCTCT GAGGCTGGAC CAGCTGATTA CAGGTCATCA 
    GCGCTGGTGA CGGCTTCTCC TCTTCCTAGC GAGCACCAGT CCAAACCTCT GGCAAGCCGC 
    CGTGACACGT CCTCCACGAG GAGCAGTCAG TCCTCGCCCT CAATGCCTAC ACGGAAAGAA 
    GCTCTGGATT TCCACGGGAA GGTCCCGCCG TCGTTCCCGT ACTCGTGCTC GCTGTGTGAT 
    ATCACTGTAC TGTCGCAGAA GGTTTGGATT CAGCACGTGA CTGGCAGGCA CCATGCAGAT 
    GGACAGCTCA GCCTCCTGCA GCAGTTTCCT AACTGGGACT GCCGCATGCA GACGGTCCGA 
    AGGGACGATA AATCTGAGAA GAAGAAAGAT GGAGGAAAAG GCGCCCCGGC AGCTAGTCAA 
    ACATCGCAGT CGAATAGCAA GTGGAAGCAG AAGAAGGTAA AGAAGAATTT GGAGAAAGGG 
    AAGGTAGTGT GCATCAAGTT TCCGTCTCAG TCTGTCGATG AGAAATACCT CAGGAAGCTT 
    GCAGAACCGT TCGGGAAGAT CATCAAGGTC ATCATGTTTC CGTCTCTGGG CTTCGTGGAG 
    ATGGGCTCGG TTGATCAGGC CAAAGACTTG GTGAAGTTTC ACAGCAATTA TCCTCCAACT 
    GTGAACGGAG AGCAGCTCGT GTTCAGCGTC TCCAGCGCCT TCAACTTTCT CCAGAGCTCC 
    CGGGTGGTGA GTTTCACGCC CGCTCCATCG GGAGAAGACG GAAAATCCGA CCTGATCAAT 
    ATCATCAAAC GCTTCGGCCC GCCGCTCTAC ACCCTGTTCC TGCCATCAAT GGTGTTCATT 
    GAGATGAAGA ACGCCCCTGA TGCTCAGAAG CTGGTGGATT ATTATCTGTC CAACACTCTG 
    AGGATCAACA GTGACTTGAT TTGTGTCTCC TTCTCTGGAG AGTACAAGAC TCTCATGCGG 
    GTTTCAAAAG CCAAGAGGTA CGAAGAAGAA AACGAAAGTA CAAAGAAGAG TACCACCAAG 
    AGGACAAGGA GCTCAAGCCG AGACAGAACG ACAGAAAATA AGAAAAGAAG GTCCAGATCC 
    AGAGACAAGG CCAGCAAAGA GGAACGGACC AGAACAAGGT CCAGGTCCAG GGATAAATCT 
    AAAGAAAAAT CCAGCAGAGA TGCCAAAACT AGATCTAGGT CCCAAGACAA GTTGGATAGA 
    AAAAGGAAGA GCAGAACCCG GTCCAGGTCC AGAGATAAGT CCACTAGTGA GAAGCGGACC 
    AGGACCAGGT CTAAGTCAGG GTCCAGAGAA AAAACAAAAG AAAAATCCAA CAAGGAAAGC 
    AAGAAAGGGT CCCAAGCGAA GAAGCCAGAC GAATCGAGAG AAAAATCCAA CAGAGACCAG 
    AAGACCAGGT CCGCATCCAG AGACAAGTCC AGCAGAGAGA CAAAAGCCAA GTCTACAACC 
    CAAGAAAAGT CAAGCAAAGA AAGAAAAAGC AGGAGCAAAT CTAGATCCGT GGAAAAATCC 
    AGCAGAGATA AGAAATCCAG GTCTAGAGAG AGATCCAGCA ACAAGTCCTC CAGACGGGAC 
    GGAGAAAAGA CGGCAGAACC AGAGAAACCA GATGCAGAGT CCACATCCAA AGGACAACCG 
    TCTCCTCTCG AAGACTCCAA ACCTGAAGTT TCAAACACAG AAGAAGTGGA GGGGGAGGCA 
    GCGTTGCCTG GAGAGGAGAG CGACATCGAG GGGATGGAGG TGATTGCTGA GGATGGAGAG 
    AATCTGGCAG ATGACGATGA GGAGGCTCTG CAAGAGGAAG AGAAAAAAGA GAGTCCTAAA 
    GAGAGAGCAC CTGAAAAAGA TGAAGTAAAG GAGGTGATAG GTGGAGAGCC TGGCAATGAG 
    GAGAAACCTG CGTCGGAGAA GGAGATAAAG AAGGAAGAGA AGGAGGAAGT AGAGGAGTCA 
    AAGGAAGCAA CAGAGACTCC TCTACAGGAG GATTTGGAGG ACTTCCCTGT AGACCTGGAA 
    AACTGCATCA CTCTGGATGA ACTGGAAGAA GATGACTCTG ACGACCAAGG TGGAGAATCA 
    GCAGATGAGC CCAAGTCAAC ATCGAAATCC AGCAGGGTTT TTTACTTCGG CCACCTGCCA 
    CCTAATTATG CCCTCTTTGA CTTCTTCCAA CTGCTGCGAA ATTTTGGGAA GGTGGTGCGC 
    TATTACCTGA TTGGCAATCG ACGAGAGGGT TTCATTGAGA TGTCGAGTTC TTCAGCGGCC 
    CTGAAAGCTG TTGAAGAGCT CGTCAGCAAA CCAGCCATCC ACAACTGCCC CAAACTCAAA 
    GCCCGCATCT CCACCAAATA CTACAGACTT GACAACGGAT GGGTTGTTCA CTCGGACGGC 
    AGCAATGACA AGGACAGTCG AGGCAGGAAG CGCGAGAAAC GAAGCAAATC CAAGACCTCA 
    GACCAGGACG AGACCGACAG GAGGTCTAAA GGGAGGAAGG AGTCCCCGAA GAAGACATCA 
    GAGAAATCAG GCAAAAAGAC TCCAGAAAAA GATTCTGGGT CAAAAAAGCC TCCAGAGAAA 
    GACTCATCAG GGAAAAAGAC CCCAAAGAAA GAGTCCACAT CCAAAACGTC TCCAGAAAAG 
    GATGCCAAAA ACATCTTGGA AACGAAATCC ACTGGGAAAA AGACTCCAGC GAAAGATTTG 
    CCATCTAAAA AAACTTCAGG TAAGGATTCT ACAACAAAAA AGACTCCAGC GAAAAAGTCC 
    GCATCCAGAA AGACTCTGGA AACCAAGTCT ACATTCAGAG AAACTTCAGC AGAAGAGTCC 
    AAAAAGTCTC CAAAGAGGGA ATCGTTGGAC AAAGAGCCTC CAGAAAAGGT CCTTAAAAAC 
    GGCCCGGAGA AGGAATCCGC AGGGAGAAAG ACTCCTGAGA AAGGGTCATC GTGTGCAGAG 
    ATTCCAGACA GCGAGACGCT GGAACCAAAA GGAGCTCCTG ACAATAATTC AGTGCCTCAG 
    ACAACTGTGA AGAAAGAACT AAAGAAAGAA AATGCTCAAC AAAATGAGGA ACCAGCAGCT 
    GATAAAGCGC CATCTGAAAA AGATTATATC AAAAAGGAAA CACCACGCAC ATTCAAGCAG 
    GAGGAGGAGG AAACGCCAAT AGATGTTTGT ATGGAAGCAG GACCAAATGT GAAAGATGCA 
    GAGAGTCCAG ATCCACCAGT CTCCTCTACA GAGCCCTCAA AACCACCACC TGAACAGGAC 
    GCGAAGCCCC AGTTTGAACC TGCAGAGGGC GCTGCTGAAC CTCAGAAACC CACCAAACCT 
    GTTGGGACGG AGTTCGTGCG ACCGGTCGTC GGTTATTTCT GTAACCTGTG TCAGCAGATC 
    TTCGCTGAAG AGGATGAAGC CAAACAGCAG CACTGCAGCA GCCTGTCGCA TTACAGCAAA 
    TACCAGGAGA AGACTGGGAG GGATCCGTGG ACGAGCTGA

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

    LOC101478771 ( XM_012919356.1 ) cDNA ORF clone, Maylandia zebra(zebra mbuna) -> XP_012774810.1 Maylandia zebra matrin-3-like (LOC101478771), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OMa04309
    Clone ID Related Accession (Same CDS sequence) XM_012919355.2 , XM_012919356.1 , XM_012919355.1 , XM_012919356.2
    Accession Version XM_012919356.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4059bp)
    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 1444838400000
    Organism Maylandia zebra(Zebra mbuna)
    Product matrin-3-like isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014444742.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Maylandia zebra Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 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
    ATGTCTCAGA ATTACCCGTA CAGAAAGCCG CCGCCTGACA CCGACCTCAG AACTGATCCC 
    GGGCCTTACA GATCTGTGGA CTACCGCCAC TCCTCAGCGG ACCGTGACTT TTACAGGCAG 
    CCACAAGACT CCTTCTCTGT CTCCTCCTCC TGCCCGTCCT CGTCCAGGGG CTCTGGAGTG 
    CTGCAGTCAT CGCAGGACAA TGTTCTGAGC ATCCTGAGCA GCTGCGGTCT GGAGCCCAGT 
    GATCTGGCGC TGCTAGCTGA GCTGCCCGAA GACGTCCTCA CTATTGAGTC TCTGCCACAC 
    ATCCTCAGAC AGATCAAATG CAAGAAAGGG ACCGTCAAAC CTTTCCCTCC CCGGGCTCCG 
    TCTCCCTCCT CCTCTTCCTC CTACCCTCCC AGCTCCTCCT CCTCTAGAGA CTGGGACCAG 
    CTCCATCGCA CGTCGGTCCA GTACCCGCTG GACCACCTGC CACCACCACC TCCTCCCTCG 
    GAGCAGCTCA TGGATCGCTG GAATAATCCG ATTACCGTGA GCTCCGGCCG AGCAGAGCTG 
    CCACCATCGT CATCCTTATC ATCGTCGTCG TTGGGGTACA CGGTGGACTT CCACCGCAGG 
    CAGGGCCCCT CTGATTATGG TAAGGCTGGT CCAGTTCCTT CTTACAGCCC AGCGAGGCGA 
    GGAGATAGAG CGCCGTCATC TCGATTCTCT GAGGCTGGAC CAGCTGATTA CAGGTCATCA 
    GCGCTGGTGA CGGCTTCTCC TCTTCCTAGC GAGCACCAGT CCAAACCTCT GGCAAGCCGC 
    CGTGACACGT CCTCCACGAG GAGCAGTCAG TCCTCGCCCT CAATGCCTAC ACGGAAAGAA 
    GCTCTGGATT TCCACGGGAA GGTCCCGCCG TCGTTCCCGT ACTCGTGCTC GCTGTGTGAT 
    ATCACTGTAC TGTCGCAGAA GGTTTGGATT CAGCACGTGA CTGGCAGGCA CCATGCAGAT 
    GGACAGCTCA GCCTCCTGCA GCAGTTTCCT AACTGGGACT GCCGCATGCA GACGGTCCGA 
    AGGGACGATA AATCTGAGAA GAAGAAAGAT GGAGGAAAAG GCGCCCCGGC AGCTAGTCAA 
    ACATCGCAGT CGAATAGCAA GTGGAAGCAG AAGAAGGTAA AGAAGAATTT GGAGAAAGGG 
    AAGGTAGTGT GCATCAAGTT TCCGTCTCAG TCTGTCGATG AGAAATACCT CAGGAAGCTT 
    GCAGAACCGT TCGGGAAGAT CATCAAGGTC ATCATGTTTC CGTCTCTGGG CTTCGTGGAG 
    ATGGGCTCGG TTGATCAGGC CAAAGACTTG GTGAAGTTTC ACAGCAATTA TCCTCCAACT 
    GTGAACGGAG AGCAGCTCGT GTTCAGCGTC TCCAGCGCCT TCAACTTTCT CCAGAGCTCC 
    CGGGTGGTGA GTTTCACGCC CGCTCCATCG GGAGAAGACG GAAAATCCGA CCTGATCAAT 
    ATCATCAAAC GCTTCGGCCC GCCGCTCTAC ACCCTGTTCC TGCCATCAAT GGTGTTCATT 
    GAGATGAAGA ACGCCCCTGA TGCTCAGAAG CTGGTGGATT ATTATCTGTC CAACACTCTG 
    AGGATCAACA GTGACTTGAT TTGTGTCTCC TTCTCTGGAG AGTACAAGAC TCTCATGCGG 
    GTTTCAAAAG CCAAGAGGTA CGAAGAAGAA AACGAAAGTA CAAAGAAGAG TACCACCAAG 
    AGGACAAGGA GCTCAAGCCG AGACAGAACG ACAGAAAATA AGAAAAGAAG GTCCAGATCC 
    AGAGACAAGG CCAGCAAAGA GGAACGGACC AGAACAAGGT CCAGGTCCAG GGATAAATCT 
    AAAGAAAAAT CCAGCAGAGA TGCCAAAACT AGATCTAGGT CCCAAGACAA GTTGGATAGA 
    AAAAGGAAGA GCAGAACCCG GTCCAGGTCC AGAGATAAGT CCACTAGTGA GAAGCGGACC 
    AGGACCAGGT CTAAGTCAGG GTCCAGAGAA AAAACAAAAG AAAAATCCAA CAAGGAAAGC 
    AAGAAAGGGT CCCAAGCGAA GAAGCCAGAC GAATCGAGAG AAAAATCCAA CAGAGACCAG 
    AAGACCAGGT CCGCATCCAG AGACAAGTCC AGCAGAGAGA CAAAAGCCAA GTCTACAACC 
    CAAGAAAAGT CAAGCAAAGA AAGAAAAAGC AGGAGCAAAT CTAGATCCGT GGAAAAATCC 
    AGCAGAGATA AGAAATCCAG GTCTAGAGAG AGATCCAGCA ACAAGTCCTC CAGACGGGAC 
    GGAGAAAAGA CGGCAGAACC AGAGAAACCA GATGCAGAGT CCACATCCAA AGGACAACCG 
    TCTCCTCTCG AAGACTCCAA ACCTGAAGTT TCAAACACAG AAGAAGTGGA GGGGGAGGCA 
    GCGTTGCCTG GAGAGGAGAG CGACATCGAG GGGATGGAGG TGATTGCTGA GGATGGAGAG 
    AATCTGGCAG ATGACGATGA GGAGGCTCTG CAAGAGGAAG AGAAAAAAGA GAGTCCTAAA 
    GAGAGAGCAC CTGAAAAAGA TGAAGTAAAG GAGGTGATAG GTGGAGAGCC TGGCAATGAG 
    GAGAAACCTG CGTCGGAGAA GGAGATAAAG AAGGAAGAGA AGGAGGAAGT AGAGGAGTCA 
    AAGGAAGCAA CAGAGACTCC TCTACAGGAG GATTTGGAGG ACTTCCCTGT AGACCTGGAA 
    AACTGCATCA CTCTGGATGA ACTGGAAGAA GATGACTCTG ACGACCAAGG TGGAGAATCA 
    GCAGATGAGC CCAAGTCAAC ATCGAAATCC AGCAGGGTTT TTTACTTCGG CCACCTGCCA 
    CCTAATTATG CCCTCTTTGA CTTCTTCCAA CTGCTGCGAA ATTTTGGGAA GGTGGTGCGC 
    TATTACCTGA TTGGCAATCG ACGAGAGGGT TTCATTGAGA TGTCGAGTTC TTCAGCGGCC 
    CTGAAAGCTG TTGAAGAGCT CGTCAGCAAA CCAGCCATCC ACAACTGCCC CAAACTCAAA 
    GCCCGCATCT CCACCAAATA CTACAGACTT GACAACGGAT GGGTTGTTCA CTCGGACGGC 
    AGCAATGACA AGGACAGTCG AGGCAGGAAG CGCGAGAAAC GAAGCAAATC CAAGACCTCA 
    GACCAGGACG AGACCGACAG GAGGTCTAAA GGGAGGAAGG AGTCCCCGAA GAAGACATCA 
    GAGAAATCAG GCAAAAAGAC TCCAGAAAAA GATTCTGGGT CAAAAAAGCC TCCAGAGAAA 
    GACTCATCAG GGAAAAAGAC CCCAAAGAAA GAGTCCACAT CCAAAACGTC TCCAGAAAAG 
    GATGCCAAAA ACATCTTGGA AACGAAATCC ACTGGGAAAA AGACTCCAGC GAAAGATTTG 
    CCATCTAAAA AAACTTCAGG TAAGGATTCT ACAACAAAAA AGACTCCAGC GAAAAAGTCC 
    GCATCCAGAA AGACTCTGGA AACCAAGTCT ACATTCAGAG AAACTTCAGC AGAAGAGTCC 
    AAAAAGTCTC CAAAGAGGGA ATCGTTGGAC AAAGAGCCTC CAGAAAAGGT CCTTAAAAAC 
    GGCCCGGAGA AGGAATCCGC AGGGAGAAAG ACTCCTGAGA AAGGGTCATC GTGTGCAGAG 
    ATTCCAGACA GCGAGACGCT GGAACCAAAA GGAGCTCCTG ACAATAATTC AGTGCCTCAG 
    ACAACTGTGA AGAAAGAACT AAAGAAAGAA AATGCTCAAC AAAATGAGGA ACCAGCAGCT 
    GATAAAGCGC CATCTGAAAA AGATTATATC AAAAAGGAAA CACCACGCAC ATTCAAGCAG 
    GAGGAGGAGG AAACGCCAAT AGATGTTTGT ATGGAAGCAG GACCAAATGT GAAAGATGCA 
    GAGAGTCCAG ATCCACCAGT CTCCTCTACA GAGCCCTCAA AACCACCACC TGAACAGGAC 
    GCGAAGCCCC AGTTTGAACC TGCAGAGGGC GCTGCTGAAC CTCAGAAACC CACCAAACCT 
    GTTGGGACGG AGTTCGTGCG ACCGGTCGTC GGTTATTTCT GTAACCTGTG TCAGCAGATC 
    TTCGCTGAAG AGGATGAAGC CAAACAGCAG CACTGCAGCA GCCTGTCGCA TTACAGCAAA 
    TACCAGGAGA AGACTGGGAG GGATCCGTGG ACGAGCTGA

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

    RefSeq XP_012774810.1
    CDS254..4312
    Translation

    Target ORF information:

    RefSeq Version XM_012919356.1
    Organism Maylandia zebra(Zebra mbuna)
    Definition Maylandia zebra matrin-3-like (LOC101478771), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012919356.1

    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
    ATGTCTCAGA ATTACCCGTA CAGAAAGCCG CCGCCTGACA CCGACCTCAG AACTGATCCC 
    GGGCCTTACA GATCTGTGGA CTACCGCCAC TCCTCAGCGG ACCGTGACTT TTACAGGCAG 
    CCACAAGACT CCTTCTCTGT CTCCTCCTCC TGCCCGTCCT CGTCCAGGGG CTCTGGAGTG 
    CTGCAGTCAT CGCAGGACAA TGTTCTGAGC ATCCTGAGCA GCTGCGGTCT GGAGCCCAGT 
    GATCTGGCGC TGCTAGCTGA GCTGCCCGAA GACGTCCTCA CTATTGAGTC TCTGCCACAC 
    ATCCTCAGAC AGATCAAATG CAAGAAAGGG ACCGTCAAAC CTTTCCCTCC CCGGGCTCCG 
    TCTCCCTCCT CCTCTTCCTC CTACCCTCCC AGCTCCTCCT CCTCTAGAGA CTGGGACCAG 
    CTCCATCGCA CGTCGGTCCA GTACCCGCTG GACCACCTGC CACCACCACC TCCTCCCTCG 
    GAGCAGCTCA TGGATCGCTG GAATAATCCG ATTACCGTGA GCTCCGGCCG AGCAGAGCTG 
    CCACCATCGT CATCCTTATC ATCGTCGTCG TTGGGGTACA CGGTGGACTT CCACCGCAGG 
    CAGGGCCCCT CTGATTATGG TAAGGCTGGT CCAGTTCCTT CTTACAGCCC AGCGAGGCGA 
    GGAGATAGAG CGCCGTCATC TCGATTCTCT GAGGCTGGAC CAGCTGATTA CAGGTCATCA 
    GCGCTGGTGA CGGCTTCTCC TCTTCCTAGC GAGCACCAGT CCAAACCTCT GGCAAGCCGC 
    CGTGACACGT CCTCCACGAG GAGCAGTCAG TCCTCGCCCT CAATGCCTAC ACGGAAAGAA 
    GCTCTGGATT TCCACGGGAA GGTCCCGCCG TCGTTCCCGT ACTCGTGCTC GCTGTGTGAT 
    ATCACTGTAC TGTCGCAGAA GGTTTGGATT CAGCACGTGA CTGGCAGGCA CCATGCAGAT 
    GGACAGCTCA GCCTCCTGCA GCAGTTTCCT AACTGGGACT GCCGCATGCA GACGGTCCGA 
    AGGGACGATA AATCTGAGAA GAAGAAAGAT GGAGGAAAAG GCGCCCCGGC AGCTAGTCAA 
    ACATCGCAGT CGAATAGCAA GTGGAAGCAG AAGAAGGTAA AGAAGAATTT GGAGAAAGGG 
    AAGGTAGTGT GCATCAAGTT TCCGTCTCAG TCTGTCGATG AGAAATACCT CAGGAAGCTT 
    GCAGAACCGT TCGGGAAGAT CATCAAGGTC ATCATGTTTC CGTCTCTGGG CTTCGTGGAG 
    ATGGGCTCGG TTGATCAGGC CAAAGACTTG GTGAAGTTTC ACAGCAATTA TCCTCCAACT 
    GTGAACGGAG AGCAGCTCGT GTTCAGCGTC TCCAGCGCCT TCAACTTTCT CCAGAGCTCC 
    CGGGTGGTGA GTTTCACGCC CGCTCCATCG GGAGAAGACG GAAAATCCGA CCTGATCAAT 
    ATCATCAAAC GCTTCGGCCC GCCGCTCTAC ACCCTGTTCC TGCCATCAAT GGTGTTCATT 
    GAGATGAAGA ACGCCCCTGA TGCTCAGAAG CTGGTGGATT ATTATCTGTC CAACACTCTG 
    AGGATCAACA GTGACTTGAT TTGTGTCTCC TTCTCTGGAG AGTACAAGAC TCTCATGCGG 
    GTTTCAAAAG CCAAGAGGTA CGAAGAAGAA AACGAAAGTA CAAAGAAGAG TACCACCAAG 
    AGGACAAGGA GCTCAAGCCG AGACAGAACG ACAGAAAATA AGAAAAGAAG GTCCAGATCC 
    AGAGACAAGG CCAGCAAAGA GGAACGGACC AGAACAAGGT CCAGGTCCAG GGATAAATCT 
    AAAGAAAAAT CCAGCAGAGA TGCCAAAACT AGATCTAGGT CCCAAGACAA GTTGGATAGA 
    AAAAGGAAGA GCAGAACCCG GTCCAGGTCC AGAGATAAGT CCACTAGTGA GAAGCGGACC 
    AGGACCAGGT CTAAGTCAGG GTCCAGAGAA AAAACAAAAG AAAAATCCAA CAAGGAAAGC 
    AAGAAAGGGT CCCAAGCGAA GAAGCCAGAC GAATCGAGAG AAAAATCCAA CAGAGACCAG 
    AAGACCAGGT CCGCATCCAG AGACAAGTCC AGCAGAGAGA CAAAAGCCAA GTCTACAACC 
    CAAGAAAAGT CAAGCAAAGA AAGAAAAAGC AGGAGCAAAT CTAGATCCGT GGAAAAATCC 
    AGCAGAGATA AGAAATCCAG GTCTAGAGAG AGATCCAGCA ACAAGTCCTC CAGACGGGAC 
    GGAGAAAAGA CGGCAGAACC AGAGAAACCA GATGCAGAGT CCACATCCAA AGGACAACCG 
    TCTCCTCTCG AAGACTCCAA ACCTGAAGTT TCAAACACAG AAGAAGTGGA GGGGGAGGCA 
    GCGTTGCCTG GAGAGGAGAG CGACATCGAG GGGATGGAGG TGATTGCTGA GGATGGAGAG 
    AATCTGGCAG ATGACGATGA GGAGGCTCTG CAAGAGGAAG AGAAAAAAGA GAGTCCTAAA 
    GAGAGAGCAC CTGAAAAAGA TGAAGTAAAG GAGGTGATAG GTGGAGAGCC TGGCAATGAG 
    GAGAAACCTG CGTCGGAGAA GGAGATAAAG AAGGAAGAGA AGGAGGAAGT AGAGGAGTCA 
    AAGGAAGCAA CAGAGACTCC TCTACAGGAG GATTTGGAGG ACTTCCCTGT AGACCTGGAA 
    AACTGCATCA CTCTGGATGA ACTGGAAGAA GATGACTCTG ACGACCAAGG TGGAGAATCA 
    GCAGATGAGC CCAAGTCAAC ATCGAAATCC AGCAGGGTTT TTTACTTCGG CCACCTGCCA 
    CCTAATTATG CCCTCTTTGA CTTCTTCCAA CTGCTGCGAA ATTTTGGGAA GGTGGTGCGC 
    TATTACCTGA TTGGCAATCG ACGAGAGGGT TTCATTGAGA TGTCGAGTTC TTCAGCGGCC 
    CTGAAAGCTG TTGAAGAGCT CGTCAGCAAA CCAGCCATCC ACAACTGCCC CAAACTCAAA 
    GCCCGCATCT CCACCAAATA CTACAGACTT GACAACGGAT GGGTTGTTCA CTCGGACGGC 
    AGCAATGACA AGGACAGTCG AGGCAGGAAG CGCGAGAAAC GAAGCAAATC CAAGACCTCA 
    GACCAGGACG AGACCGACAG GAGGTCTAAA GGGAGGAAGG AGTCCCCGAA GAAGACATCA 
    GAGAAATCAG GCAAAAAGAC TCCAGAAAAA GATTCTGGGT CAAAAAAGCC TCCAGAGAAA 
    GACTCATCAG GGAAAAAGAC CCCAAAGAAA GAGTCCACAT CCAAAACGTC TCCAGAAAAG 
    GATGCCAAAA ACATCTTGGA AACGAAATCC ACTGGGAAAA AGACTCCAGC GAAAGATTTG 
    CCATCTAAAA AAACTTCAGG TAAGGATTCT ACAACAAAAA AGACTCCAGC GAAAAAGTCC 
    GCATCCAGAA AGACTCTGGA AACCAAGTCT ACATTCAGAG AAACTTCAGC AGAAGAGTCC 
    AAAAAGTCTC CAAAGAGGGA ATCGTTGGAC AAAGAGCCTC CAGAAAAGGT CCTTAAAAAC 
    GGCCCGGAGA AGGAATCCGC AGGGAGAAAG ACTCCTGAGA AAGGGTCATC GTGTGCAGAG 
    ATTCCAGACA GCGAGACGCT GGAACCAAAA GGAGCTCCTG ACAATAATTC AGTGCCTCAG 
    ACAACTGTGA AGAAAGAACT AAAGAAAGAA AATGCTCAAC AAAATGAGGA ACCAGCAGCT 
    GATAAAGCGC CATCTGAAAA AGATTATATC AAAAAGGAAA CACCACGCAC ATTCAAGCAG 
    GAGGAGGAGG AAACGCCAAT AGATGTTTGT ATGGAAGCAG GACCAAATGT GAAAGATGCA 
    GAGAGTCCAG ATCCACCAGT CTCCTCTACA GAGCCCTCAA AACCACCACC TGAACAGGAC 
    GCGAAGCCCC AGTTTGAACC TGCAGAGGGC GCTGCTGAAC CTCAGAAACC CACCAAACCT 
    GTTGGGACGG AGTTCGTGCG ACCGGTCGTC GGTTATTTCT GTAACCTGTG TCAGCAGATC 
    TTCGCTGAAG AGGATGAAGC CAAACAGCAG CACTGCAGCA GCCTGTCGCA TTACAGCAAA 
    TACCAGGAGA AGACTGGGAG GGATCCGTGG ACGAGCTGA

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

    LOC101478771 ( XM_012919355.1 ) cDNA ORF clone, Maylandia zebra(zebra mbuna) -> XP_012774809.1 Maylandia zebra matrin-3-like (LOC101478771), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OMa04309
    Clone ID Related Accession (Same CDS sequence) XM_012919355.2 , XM_012919356.1 , XM_012919355.1 , XM_012919356.2
    Accession Version XM_012919355.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4059bp)
    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 1444838400000
    Organism Maylandia zebra(Zebra mbuna)
    Product matrin-3-like isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014444742.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Maylandia zebra Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 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
    ATGTCTCAGA ATTACCCGTA CAGAAAGCCG CCGCCTGACA CCGACCTCAG AACTGATCCC 
    GGGCCTTACA GATCTGTGGA CTACCGCCAC TCCTCAGCGG ACCGTGACTT TTACAGGCAG 
    CCACAAGACT CCTTCTCTGT CTCCTCCTCC TGCCCGTCCT CGTCCAGGGG CTCTGGAGTG 
    CTGCAGTCAT CGCAGGACAA TGTTCTGAGC ATCCTGAGCA GCTGCGGTCT GGAGCCCAGT 
    GATCTGGCGC TGCTAGCTGA GCTGCCCGAA GACGTCCTCA CTATTGAGTC TCTGCCACAC 
    ATCCTCAGAC AGATCAAATG CAAGAAAGGG ACCGTCAAAC CTTTCCCTCC CCGGGCTCCG 
    TCTCCCTCCT CCTCTTCCTC CTACCCTCCC AGCTCCTCCT CCTCTAGAGA CTGGGACCAG 
    CTCCATCGCA CGTCGGTCCA GTACCCGCTG GACCACCTGC CACCACCACC TCCTCCCTCG 
    GAGCAGCTCA TGGATCGCTG GAATAATCCG ATTACCGTGA GCTCCGGCCG AGCAGAGCTG 
    CCACCATCGT CATCCTTATC ATCGTCGTCG TTGGGGTACA CGGTGGACTT CCACCGCAGG 
    CAGGGCCCCT CTGATTATGG TAAGGCTGGT CCAGTTCCTT CTTACAGCCC AGCGAGGCGA 
    GGAGATAGAG CGCCGTCATC TCGATTCTCT GAGGCTGGAC CAGCTGATTA CAGGTCATCA 
    GCGCTGGTGA CGGCTTCTCC TCTTCCTAGC GAGCACCAGT CCAAACCTCT GGCAAGCCGC 
    CGTGACACGT CCTCCACGAG GAGCAGTCAG TCCTCGCCCT CAATGCCTAC ACGGAAAGAA 
    GCTCTGGATT TCCACGGGAA GGTCCCGCCG TCGTTCCCGT ACTCGTGCTC GCTGTGTGAT 
    ATCACTGTAC TGTCGCAGAA GGTTTGGATT CAGCACGTGA CTGGCAGGCA CCATGCAGAT 
    GGACAGCTCA GCCTCCTGCA GCAGTTTCCT AACTGGGACT GCCGCATGCA GACGGTCCGA 
    AGGGACGATA AATCTGAGAA GAAGAAAGAT GGAGGAAAAG GCGCCCCGGC AGCTAGTCAA 
    ACATCGCAGT CGAATAGCAA GTGGAAGCAG AAGAAGGTAA AGAAGAATTT GGAGAAAGGG 
    AAGGTAGTGT GCATCAAGTT TCCGTCTCAG TCTGTCGATG AGAAATACCT CAGGAAGCTT 
    GCAGAACCGT TCGGGAAGAT CATCAAGGTC ATCATGTTTC CGTCTCTGGG CTTCGTGGAG 
    ATGGGCTCGG TTGATCAGGC CAAAGACTTG GTGAAGTTTC ACAGCAATTA TCCTCCAACT 
    GTGAACGGAG AGCAGCTCGT GTTCAGCGTC TCCAGCGCCT TCAACTTTCT CCAGAGCTCC 
    CGGGTGGTGA GTTTCACGCC CGCTCCATCG GGAGAAGACG GAAAATCCGA CCTGATCAAT 
    ATCATCAAAC GCTTCGGCCC GCCGCTCTAC ACCCTGTTCC TGCCATCAAT GGTGTTCATT 
    GAGATGAAGA ACGCCCCTGA TGCTCAGAAG CTGGTGGATT ATTATCTGTC CAACACTCTG 
    AGGATCAACA GTGACTTGAT TTGTGTCTCC TTCTCTGGAG AGTACAAGAC TCTCATGCGG 
    GTTTCAAAAG CCAAGAGGTA CGAAGAAGAA AACGAAAGTA CAAAGAAGAG TACCACCAAG 
    AGGACAAGGA GCTCAAGCCG AGACAGAACG ACAGAAAATA AGAAAAGAAG GTCCAGATCC 
    AGAGACAAGG CCAGCAAAGA GGAACGGACC AGAACAAGGT CCAGGTCCAG GGATAAATCT 
    AAAGAAAAAT CCAGCAGAGA TGCCAAAACT AGATCTAGGT CCCAAGACAA GTTGGATAGA 
    AAAAGGAAGA GCAGAACCCG GTCCAGGTCC AGAGATAAGT CCACTAGTGA GAAGCGGACC 
    AGGACCAGGT CTAAGTCAGG GTCCAGAGAA AAAACAAAAG AAAAATCCAA CAAGGAAAGC 
    AAGAAAGGGT CCCAAGCGAA GAAGCCAGAC GAATCGAGAG AAAAATCCAA CAGAGACCAG 
    AAGACCAGGT CCGCATCCAG AGACAAGTCC AGCAGAGAGA CAAAAGCCAA GTCTACAACC 
    CAAGAAAAGT CAAGCAAAGA AAGAAAAAGC AGGAGCAAAT CTAGATCCGT GGAAAAATCC 
    AGCAGAGATA AGAAATCCAG GTCTAGAGAG AGATCCAGCA ACAAGTCCTC CAGACGGGAC 
    GGAGAAAAGA CGGCAGAACC AGAGAAACCA GATGCAGAGT CCACATCCAA AGGACAACCG 
    TCTCCTCTCG AAGACTCCAA ACCTGAAGTT TCAAACACAG AAGAAGTGGA GGGGGAGGCA 
    GCGTTGCCTG GAGAGGAGAG CGACATCGAG GGGATGGAGG TGATTGCTGA GGATGGAGAG 
    AATCTGGCAG ATGACGATGA GGAGGCTCTG CAAGAGGAAG AGAAAAAAGA GAGTCCTAAA 
    GAGAGAGCAC CTGAAAAAGA TGAAGTAAAG GAGGTGATAG GTGGAGAGCC TGGCAATGAG 
    GAGAAACCTG CGTCGGAGAA GGAGATAAAG AAGGAAGAGA AGGAGGAAGT AGAGGAGTCA 
    AAGGAAGCAA CAGAGACTCC TCTACAGGAG GATTTGGAGG ACTTCCCTGT AGACCTGGAA 
    AACTGCATCA CTCTGGATGA ACTGGAAGAA GATGACTCTG ACGACCAAGG TGGAGAATCA 
    GCAGATGAGC CCAAGTCAAC ATCGAAATCC AGCAGGGTTT TTTACTTCGG CCACCTGCCA 
    CCTAATTATG CCCTCTTTGA CTTCTTCCAA CTGCTGCGAA ATTTTGGGAA GGTGGTGCGC 
    TATTACCTGA TTGGCAATCG ACGAGAGGGT TTCATTGAGA TGTCGAGTTC TTCAGCGGCC 
    CTGAAAGCTG TTGAAGAGCT CGTCAGCAAA CCAGCCATCC ACAACTGCCC CAAACTCAAA 
    GCCCGCATCT CCACCAAATA CTACAGACTT GACAACGGAT GGGTTGTTCA CTCGGACGGC 
    AGCAATGACA AGGACAGTCG AGGCAGGAAG CGCGAGAAAC GAAGCAAATC CAAGACCTCA 
    GACCAGGACG AGACCGACAG GAGGTCTAAA GGGAGGAAGG AGTCCCCGAA GAAGACATCA 
    GAGAAATCAG GCAAAAAGAC TCCAGAAAAA GATTCTGGGT CAAAAAAGCC TCCAGAGAAA 
    GACTCATCAG GGAAAAAGAC CCCAAAGAAA GAGTCCACAT CCAAAACGTC TCCAGAAAAG 
    GATGCCAAAA ACATCTTGGA AACGAAATCC ACTGGGAAAA AGACTCCAGC GAAAGATTTG 
    CCATCTAAAA AAACTTCAGG TAAGGATTCT ACAACAAAAA AGACTCCAGC GAAAAAGTCC 
    GCATCCAGAA AGACTCTGGA AACCAAGTCT ACATTCAGAG AAACTTCAGC AGAAGAGTCC 
    AAAAAGTCTC CAAAGAGGGA ATCGTTGGAC AAAGAGCCTC CAGAAAAGGT CCTTAAAAAC 
    GGCCCGGAGA AGGAATCCGC AGGGAGAAAG ACTCCTGAGA AAGGGTCATC GTGTGCAGAG 
    ATTCCAGACA GCGAGACGCT GGAACCAAAA GGAGCTCCTG ACAATAATTC AGTGCCTCAG 
    ACAACTGTGA AGAAAGAACT AAAGAAAGAA AATGCTCAAC AAAATGAGGA ACCAGCAGCT 
    GATAAAGCGC CATCTGAAAA AGATTATATC AAAAAGGAAA CACCACGCAC ATTCAAGCAG 
    GAGGAGGAGG AAACGCCAAT AGATGTTTGT ATGGAAGCAG GACCAAATGT GAAAGATGCA 
    GAGAGTCCAG ATCCACCAGT CTCCTCTACA GAGCCCTCAA AACCACCACC TGAACAGGAC 
    GCGAAGCCCC AGTTTGAACC TGCAGAGGGC GCTGCTGAAC CTCAGAAACC CACCAAACCT 
    GTTGGGACGG AGTTCGTGCG ACCGGTCGTC GGTTATTTCT GTAACCTGTG TCAGCAGATC 
    TTCGCTGAAG AGGATGAAGC CAAACAGCAG CACTGCAGCA GCCTGTCGCA TTACAGCAAA 
    TACCAGGAGA AGACTGGGAG GGATCCGTGG ACGAGCTGA

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

    RefSeq XP_012774809.1
    CDS185..4243
    Translation

    Target ORF information:

    RefSeq Version XM_012919355.1
    Organism Maylandia zebra(Zebra mbuna)
    Definition Maylandia zebra matrin-3-like (LOC101478771), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012919355.1

    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
    ATGTCTCAGA ATTACCCGTA CAGAAAGCCG CCGCCTGACA CCGACCTCAG AACTGATCCC 
    GGGCCTTACA GATCTGTGGA CTACCGCCAC TCCTCAGCGG ACCGTGACTT TTACAGGCAG 
    CCACAAGACT CCTTCTCTGT CTCCTCCTCC TGCCCGTCCT CGTCCAGGGG CTCTGGAGTG 
    CTGCAGTCAT CGCAGGACAA TGTTCTGAGC ATCCTGAGCA GCTGCGGTCT GGAGCCCAGT 
    GATCTGGCGC TGCTAGCTGA GCTGCCCGAA GACGTCCTCA CTATTGAGTC TCTGCCACAC 
    ATCCTCAGAC AGATCAAATG CAAGAAAGGG ACCGTCAAAC CTTTCCCTCC CCGGGCTCCG 
    TCTCCCTCCT CCTCTTCCTC CTACCCTCCC AGCTCCTCCT CCTCTAGAGA CTGGGACCAG 
    CTCCATCGCA CGTCGGTCCA GTACCCGCTG GACCACCTGC CACCACCACC TCCTCCCTCG 
    GAGCAGCTCA TGGATCGCTG GAATAATCCG ATTACCGTGA GCTCCGGCCG AGCAGAGCTG 
    CCACCATCGT CATCCTTATC ATCGTCGTCG TTGGGGTACA CGGTGGACTT CCACCGCAGG 
    CAGGGCCCCT CTGATTATGG TAAGGCTGGT CCAGTTCCTT CTTACAGCCC AGCGAGGCGA 
    GGAGATAGAG CGCCGTCATC TCGATTCTCT GAGGCTGGAC CAGCTGATTA CAGGTCATCA 
    GCGCTGGTGA CGGCTTCTCC TCTTCCTAGC GAGCACCAGT CCAAACCTCT GGCAAGCCGC 
    CGTGACACGT CCTCCACGAG GAGCAGTCAG TCCTCGCCCT CAATGCCTAC ACGGAAAGAA 
    GCTCTGGATT TCCACGGGAA GGTCCCGCCG TCGTTCCCGT ACTCGTGCTC GCTGTGTGAT 
    ATCACTGTAC TGTCGCAGAA GGTTTGGATT CAGCACGTGA CTGGCAGGCA CCATGCAGAT 
    GGACAGCTCA GCCTCCTGCA GCAGTTTCCT AACTGGGACT GCCGCATGCA GACGGTCCGA 
    AGGGACGATA AATCTGAGAA GAAGAAAGAT GGAGGAAAAG GCGCCCCGGC AGCTAGTCAA 
    ACATCGCAGT CGAATAGCAA GTGGAAGCAG AAGAAGGTAA AGAAGAATTT GGAGAAAGGG 
    AAGGTAGTGT GCATCAAGTT TCCGTCTCAG TCTGTCGATG AGAAATACCT CAGGAAGCTT 
    GCAGAACCGT TCGGGAAGAT CATCAAGGTC ATCATGTTTC CGTCTCTGGG CTTCGTGGAG 
    ATGGGCTCGG TTGATCAGGC CAAAGACTTG GTGAAGTTTC ACAGCAATTA TCCTCCAACT 
    GTGAACGGAG AGCAGCTCGT GTTCAGCGTC TCCAGCGCCT TCAACTTTCT CCAGAGCTCC 
    CGGGTGGTGA GTTTCACGCC CGCTCCATCG GGAGAAGACG GAAAATCCGA CCTGATCAAT 
    ATCATCAAAC GCTTCGGCCC GCCGCTCTAC ACCCTGTTCC TGCCATCAAT GGTGTTCATT 
    GAGATGAAGA ACGCCCCTGA TGCTCAGAAG CTGGTGGATT ATTATCTGTC CAACACTCTG 
    AGGATCAACA GTGACTTGAT TTGTGTCTCC TTCTCTGGAG AGTACAAGAC TCTCATGCGG 
    GTTTCAAAAG CCAAGAGGTA CGAAGAAGAA AACGAAAGTA CAAAGAAGAG TACCACCAAG 
    AGGACAAGGA GCTCAAGCCG AGACAGAACG ACAGAAAATA AGAAAAGAAG GTCCAGATCC 
    AGAGACAAGG CCAGCAAAGA GGAACGGACC AGAACAAGGT CCAGGTCCAG GGATAAATCT 
    AAAGAAAAAT CCAGCAGAGA TGCCAAAACT AGATCTAGGT CCCAAGACAA GTTGGATAGA 
    AAAAGGAAGA GCAGAACCCG GTCCAGGTCC AGAGATAAGT CCACTAGTGA GAAGCGGACC 
    AGGACCAGGT CTAAGTCAGG GTCCAGAGAA AAAACAAAAG AAAAATCCAA CAAGGAAAGC 
    AAGAAAGGGT CCCAAGCGAA GAAGCCAGAC GAATCGAGAG AAAAATCCAA CAGAGACCAG 
    AAGACCAGGT CCGCATCCAG AGACAAGTCC AGCAGAGAGA CAAAAGCCAA GTCTACAACC 
    CAAGAAAAGT CAAGCAAAGA AAGAAAAAGC AGGAGCAAAT CTAGATCCGT GGAAAAATCC 
    AGCAGAGATA AGAAATCCAG GTCTAGAGAG AGATCCAGCA ACAAGTCCTC CAGACGGGAC 
    GGAGAAAAGA CGGCAGAACC AGAGAAACCA GATGCAGAGT CCACATCCAA AGGACAACCG 
    TCTCCTCTCG AAGACTCCAA ACCTGAAGTT TCAAACACAG AAGAAGTGGA GGGGGAGGCA 
    GCGTTGCCTG GAGAGGAGAG CGACATCGAG GGGATGGAGG TGATTGCTGA GGATGGAGAG 
    AATCTGGCAG ATGACGATGA GGAGGCTCTG CAAGAGGAAG AGAAAAAAGA GAGTCCTAAA 
    GAGAGAGCAC CTGAAAAAGA TGAAGTAAAG GAGGTGATAG GTGGAGAGCC TGGCAATGAG 
    GAGAAACCTG CGTCGGAGAA GGAGATAAAG AAGGAAGAGA AGGAGGAAGT AGAGGAGTCA 
    AAGGAAGCAA CAGAGACTCC TCTACAGGAG GATTTGGAGG ACTTCCCTGT AGACCTGGAA 
    AACTGCATCA CTCTGGATGA ACTGGAAGAA GATGACTCTG ACGACCAAGG TGGAGAATCA 
    GCAGATGAGC CCAAGTCAAC ATCGAAATCC AGCAGGGTTT TTTACTTCGG CCACCTGCCA 
    CCTAATTATG CCCTCTTTGA CTTCTTCCAA CTGCTGCGAA ATTTTGGGAA GGTGGTGCGC 
    TATTACCTGA TTGGCAATCG ACGAGAGGGT TTCATTGAGA TGTCGAGTTC TTCAGCGGCC 
    CTGAAAGCTG TTGAAGAGCT CGTCAGCAAA CCAGCCATCC ACAACTGCCC CAAACTCAAA 
    GCCCGCATCT CCACCAAATA CTACAGACTT GACAACGGAT GGGTTGTTCA CTCGGACGGC 
    AGCAATGACA AGGACAGTCG AGGCAGGAAG CGCGAGAAAC GAAGCAAATC CAAGACCTCA 
    GACCAGGACG AGACCGACAG GAGGTCTAAA GGGAGGAAGG AGTCCCCGAA GAAGACATCA 
    GAGAAATCAG GCAAAAAGAC TCCAGAAAAA GATTCTGGGT CAAAAAAGCC TCCAGAGAAA 
    GACTCATCAG GGAAAAAGAC CCCAAAGAAA GAGTCCACAT CCAAAACGTC TCCAGAAAAG 
    GATGCCAAAA ACATCTTGGA AACGAAATCC ACTGGGAAAA AGACTCCAGC GAAAGATTTG 
    CCATCTAAAA AAACTTCAGG TAAGGATTCT ACAACAAAAA AGACTCCAGC GAAAAAGTCC 
    GCATCCAGAA AGACTCTGGA AACCAAGTCT ACATTCAGAG AAACTTCAGC AGAAGAGTCC 
    AAAAAGTCTC CAAAGAGGGA ATCGTTGGAC AAAGAGCCTC CAGAAAAGGT CCTTAAAAAC 
    GGCCCGGAGA AGGAATCCGC AGGGAGAAAG ACTCCTGAGA AAGGGTCATC GTGTGCAGAG 
    ATTCCAGACA GCGAGACGCT GGAACCAAAA GGAGCTCCTG ACAATAATTC AGTGCCTCAG 
    ACAACTGTGA AGAAAGAACT AAAGAAAGAA AATGCTCAAC AAAATGAGGA ACCAGCAGCT 
    GATAAAGCGC CATCTGAAAA AGATTATATC AAAAAGGAAA CACCACGCAC ATTCAAGCAG 
    GAGGAGGAGG AAACGCCAAT AGATGTTTGT ATGGAAGCAG GACCAAATGT GAAAGATGCA 
    GAGAGTCCAG ATCCACCAGT CTCCTCTACA GAGCCCTCAA AACCACCACC TGAACAGGAC 
    GCGAAGCCCC AGTTTGAACC TGCAGAGGGC GCTGCTGAAC CTCAGAAACC CACCAAACCT 
    GTTGGGACGG AGTTCGTGCG ACCGGTCGTC GGTTATTTCT GTAACCTGTG TCAGCAGATC 
    TTCGCTGAAG AGGATGAAGC CAAACAGCAG CACTGCAGCA GCCTGTCGCA TTACAGCAAA 
    TACCAGGAGA AGACTGGGAG GGATCCGTGG ACGAGCTGA

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

    LOC101478771 ( XM_012919356.2 ) cDNA ORF clone, Maylandia zebra(zebra mbuna) -> XP_012774810.1 Maylandia zebra matrin-3 (LOC101478771), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OMa04309
    Clone ID Related Accession (Same CDS sequence) XM_012919355.2 , XM_012919356.1 , XM_012919355.1 , XM_012919356.2
    Accession Version XM_012919356.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4059bp)
    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 1511884800000
    Organism Maylandia zebra(zebra mbuna)
    Product matrin-3 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014444742.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Nov 30, 2017 this sequence version replaced XM_012919356.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Maylandia zebra Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGTCTCAGA ATTACCCGTA CAGAAAGCCG CCGCCTGACA CCGACCTCAG AACTGATCCC 
    GGGCCTTACA GATCTGTGGA CTACCGCCAC TCCTCAGCGG ACCGTGACTT TTACAGGCAG 
    CCACAAGACT CCTTCTCTGT CTCCTCCTCC TGCCCGTCCT CGTCCAGGGG CTCTGGAGTG 
    CTGCAGTCAT CGCAGGACAA TGTTCTGAGC ATCCTGAGCA GCTGCGGTCT GGAGCCCAGT 
    GATCTGGCGC TGCTAGCTGA GCTGCCCGAA GACGTCCTCA CTATTGAGTC TCTGCCACAC 
    ATCCTCAGAC AGATCAAATG CAAGAAAGGG ACCGTCAAAC CTTTCCCTCC CCGGGCTCCG 
    TCTCCCTCCT CCTCTTCCTC CTACCCTCCC AGCTCCTCCT CCTCTAGAGA CTGGGACCAG 
    CTCCATCGCA CGTCGGTCCA GTACCCGCTG GACCACCTGC CACCACCACC TCCTCCCTCG 
    GAGCAGCTCA TGGATCGCTG GAATAATCCG ATTACCGTGA GCTCCGGCCG AGCAGAGCTG 
    CCACCATCGT CATCCTTATC ATCGTCGTCG TTGGGGTACA CGGTGGACTT CCACCGCAGG 
    CAGGGCCCCT CTGATTATGG TAAGGCTGGT CCAGTTCCTT CTTACAGCCC AGCGAGGCGA 
    GGAGATAGAG CGCCGTCATC TCGATTCTCT GAGGCTGGAC CAGCTGATTA CAGGTCATCA 
    GCGCTGGTGA CGGCTTCTCC TCTTCCTAGC GAGCACCAGT CCAAACCTCT GGCAAGCCGC 
    CGTGACACGT CCTCCACGAG GAGCAGTCAG TCCTCGCCCT CAATGCCTAC ACGGAAAGAA 
    GCTCTGGATT TCCACGGGAA GGTCCCGCCG TCGTTCCCGT ACTCGTGCTC GCTGTGTGAT 
    ATCACTGTAC TGTCGCAGAA GGTTTGGATT CAGCACGTGA CTGGCAGGCA CCATGCAGAT 
    GGACAGCTCA GCCTCCTGCA GCAGTTTCCT AACTGGGACT GCCGCATGCA GACGGTCCGA 
    AGGGACGATA AATCTGAGAA GAAGAAAGAT GGAGGAAAAG GCGCCCCGGC AGCTAGTCAA 
    ACATCGCAGT CGAATAGCAA GTGGAAGCAG AAGAAGGTAA AGAAGAATTT GGAGAAAGGG 
    AAGGTAGTGT GCATCAAGTT TCCGTCTCAG TCTGTCGATG AGAAATACCT CAGGAAGCTT 
    GCAGAACCGT TCGGGAAGAT CATCAAGGTC ATCATGTTTC CGTCTCTGGG CTTCGTGGAG 
    ATGGGCTCGG TTGATCAGGC CAAAGACTTG GTGAAGTTTC ACAGCAATTA TCCTCCAACT 
    GTGAACGGAG AGCAGCTCGT GTTCAGCGTC TCCAGCGCCT TCAACTTTCT CCAGAGCTCC 
    CGGGTGGTGA GTTTCACGCC CGCTCCATCG GGAGAAGACG GAAAATCCGA CCTGATCAAT 
    ATCATCAAAC GCTTCGGCCC GCCGCTCTAC ACCCTGTTCC TGCCATCAAT GGTGTTCATT 
    GAGATGAAGA ACGCCCCTGA TGCTCAGAAG CTGGTGGATT ATTATCTGTC CAACACTCTG 
    AGGATCAACA GTGACTTGAT TTGTGTCTCC TTCTCTGGAG AGTACAAGAC TCTCATGCGG 
    GTTTCAAAAG CCAAGAGGTA CGAAGAAGAA AACGAAAGTA CAAAGAAGAG TACCACCAAG 
    AGGACAAGGA GCTCAAGCCG AGACAGAACG ACAGAAAATA AGAAAAGAAG GTCCAGATCC 
    AGAGACAAGG CCAGCAAAGA GGAACGGACC AGAACAAGGT CCAGGTCCAG GGATAAATCT 
    AAAGAAAAAT CCAGCAGAGA TGCCAAAACT AGATCTAGGT CCCAAGACAA GTTGGATAGA 
    AAAAGGAAGA GCAGAACCCG GTCCAGGTCC AGAGATAAGT CCACTAGTGA GAAGCGGACC 
    AGGACCAGGT CTAAGTCAGG GTCCAGAGAA AAAACAAAAG AAAAATCCAA CAAGGAAAGC 
    AAGAAAGGGT CCCAAGCGAA GAAGCCAGAC GAATCGAGAG AAAAATCCAA CAGAGACCAG 
    AAGACCAGGT CCGCATCCAG AGACAAGTCC AGCAGAGAGA CAAAAGCCAA GTCTACAACC 
    CAAGAAAAGT CAAGCAAAGA AAGAAAAAGC AGGAGCAAAT CTAGATCCGT GGAAAAATCC 
    AGCAGAGATA AGAAATCCAG GTCTAGAGAG AGATCCAGCA ACAAGTCCTC CAGACGGGAC 
    GGAGAAAAGA CGGCAGAACC AGAGAAACCA GATGCAGAGT CCACATCCAA AGGACAACCG 
    TCTCCTCTCG AAGACTCCAA ACCTGAAGTT TCAAACACAG AAGAAGTGGA GGGGGAGGCA 
    GCGTTGCCTG GAGAGGAGAG CGACATCGAG GGGATGGAGG TGATTGCTGA GGATGGAGAG 
    AATCTGGCAG ATGACGATGA GGAGGCTCTG CAAGAGGAAG AGAAAAAAGA GAGTCCTAAA 
    GAGAGAGCAC CTGAAAAAGA TGAAGTAAAG GAGGTGATAG GTGGAGAGCC TGGCAATGAG 
    GAGAAACCTG CGTCGGAGAA GGAGATAAAG AAGGAAGAGA AGGAGGAAGT AGAGGAGTCA 
    AAGGAAGCAA CAGAGACTCC TCTACAGGAG GATTTGGAGG ACTTCCCTGT AGACCTGGAA 
    AACTGCATCA CTCTGGATGA ACTGGAAGAA GATGACTCTG ACGACCAAGG TGGAGAATCA 
    GCAGATGAGC CCAAGTCAAC ATCGAAATCC AGCAGGGTTT TTTACTTCGG CCACCTGCCA 
    CCTAATTATG CCCTCTTTGA CTTCTTCCAA CTGCTGCGAA ATTTTGGGAA GGTGGTGCGC 
    TATTACCTGA TTGGCAATCG ACGAGAGGGT TTCATTGAGA TGTCGAGTTC TTCAGCGGCC 
    CTGAAAGCTG TTGAAGAGCT CGTCAGCAAA CCAGCCATCC ACAACTGCCC CAAACTCAAA 
    GCCCGCATCT CCACCAAATA CTACAGACTT GACAACGGAT GGGTTGTTCA CTCGGACGGC 
    AGCAATGACA AGGACAGTCG AGGCAGGAAG CGCGAGAAAC GAAGCAAATC CAAGACCTCA 
    GACCAGGACG AGACCGACAG GAGGTCTAAA GGGAGGAAGG AGTCCCCGAA GAAGACATCA 
    GAGAAATCAG GCAAAAAGAC TCCAGAAAAA GATTCTGGGT CAAAAAAGCC TCCAGAGAAA 
    GACTCATCAG GGAAAAAGAC CCCAAAGAAA GAGTCCACAT CCAAAACGTC TCCAGAAAAG 
    GATGCCAAAA ACATCTTGGA AACGAAATCC ACTGGGAAAA AGACTCCAGC GAAAGATTTG 
    CCATCTAAAA AAACTTCAGG TAAGGATTCT ACAACAAAAA AGACTCCAGC GAAAAAGTCC 
    GCATCCAGAA AGACTCTGGA AACCAAGTCT ACATTCAGAG AAACTTCAGC AGAAGAGTCC 
    AAAAAGTCTC CAAAGAGGGA ATCGTTGGAC AAAGAGCCTC CAGAAAAGGT CCTTAAAAAC 
    GGCCCGGAGA AGGAATCCGC AGGGAGAAAG ACTCCTGAGA AAGGGTCATC GTGTGCAGAG 
    ATTCCAGACA GCGAGACGCT GGAACCAAAA GGAGCTCCTG ACAATAATTC AGTGCCTCAG 
    ACAACTGTGA AGAAAGAACT AAAGAAAGAA AATGCTCAAC AAAATGAGGA ACCAGCAGCT 
    GATAAAGCGC CATCTGAAAA AGATTATATC AAAAAGGAAA CACCACGCAC ATTCAAGCAG 
    GAGGAGGAGG AAACGCCAAT AGATGTTTGT ATGGAAGCAG GACCAAATGT GAAAGATGCA 
    GAGAGTCCAG ATCCACCAGT CTCCTCTACA GAGCCCTCAA AACCACCACC TGAACAGGAC 
    GCGAAGCCCC AGTTTGAACC TGCAGAGGGC GCTGCTGAAC CTCAGAAACC CACCAAACCT 
    GTTGGGACGG AGTTCGTGCG ACCGGTCGTC GGTTATTTCT GTAACCTGTG TCAGCAGATC 
    TTCGCTGAAG AGGATGAAGC CAAACAGCAG CACTGCAGCA GCCTGTCGCA TTACAGCAAA 
    TACCAGGAGA AGACTGGGAG GGATCCGTGG ACGAGCTGA

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

    RefSeq XP_012774810.1
    CDS255..4313
    Translation

    Target ORF information:

    RefSeq Version XM_012919356.2
    Organism Maylandia zebra(zebra mbuna)
    Definition Maylandia zebra matrin-3 (LOC101478771), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012919356.2

    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
    ATGTCTCAGA ATTACCCGTA CAGAAAGCCG CCGCCTGACA CCGACCTCAG AACTGATCCC 
    GGGCCTTACA GATCTGTGGA CTACCGCCAC TCCTCAGCGG ACCGTGACTT TTACAGGCAG 
    CCACAAGACT CCTTCTCTGT CTCCTCCTCC TGCCCGTCCT CGTCCAGGGG CTCTGGAGTG 
    CTGCAGTCAT CGCAGGACAA TGTTCTGAGC ATCCTGAGCA GCTGCGGTCT GGAGCCCAGT 
    GATCTGGCGC TGCTAGCTGA GCTGCCCGAA GACGTCCTCA CTATTGAGTC TCTGCCACAC 
    ATCCTCAGAC AGATCAAATG CAAGAAAGGG ACCGTCAAAC CTTTCCCTCC CCGGGCTCCG 
    TCTCCCTCCT CCTCTTCCTC CTACCCTCCC AGCTCCTCCT CCTCTAGAGA CTGGGACCAG 
    CTCCATCGCA CGTCGGTCCA GTACCCGCTG GACCACCTGC CACCACCACC TCCTCCCTCG 
    GAGCAGCTCA TGGATCGCTG GAATAATCCG ATTACCGTGA GCTCCGGCCG AGCAGAGCTG 
    CCACCATCGT CATCCTTATC ATCGTCGTCG TTGGGGTACA CGGTGGACTT CCACCGCAGG 
    CAGGGCCCCT CTGATTATGG TAAGGCTGGT CCAGTTCCTT CTTACAGCCC AGCGAGGCGA 
    GGAGATAGAG CGCCGTCATC TCGATTCTCT GAGGCTGGAC CAGCTGATTA CAGGTCATCA 
    GCGCTGGTGA CGGCTTCTCC TCTTCCTAGC GAGCACCAGT CCAAACCTCT GGCAAGCCGC 
    CGTGACACGT CCTCCACGAG GAGCAGTCAG TCCTCGCCCT CAATGCCTAC ACGGAAAGAA 
    GCTCTGGATT TCCACGGGAA GGTCCCGCCG TCGTTCCCGT ACTCGTGCTC GCTGTGTGAT 
    ATCACTGTAC TGTCGCAGAA GGTTTGGATT CAGCACGTGA CTGGCAGGCA CCATGCAGAT 
    GGACAGCTCA GCCTCCTGCA GCAGTTTCCT AACTGGGACT GCCGCATGCA GACGGTCCGA 
    AGGGACGATA AATCTGAGAA GAAGAAAGAT GGAGGAAAAG GCGCCCCGGC AGCTAGTCAA 
    ACATCGCAGT CGAATAGCAA GTGGAAGCAG AAGAAGGTAA AGAAGAATTT GGAGAAAGGG 
    AAGGTAGTGT GCATCAAGTT TCCGTCTCAG TCTGTCGATG AGAAATACCT CAGGAAGCTT 
    GCAGAACCGT TCGGGAAGAT CATCAAGGTC ATCATGTTTC CGTCTCTGGG CTTCGTGGAG 
    ATGGGCTCGG TTGATCAGGC CAAAGACTTG GTGAAGTTTC ACAGCAATTA TCCTCCAACT 
    GTGAACGGAG AGCAGCTCGT GTTCAGCGTC TCCAGCGCCT TCAACTTTCT CCAGAGCTCC 
    CGGGTGGTGA GTTTCACGCC CGCTCCATCG GGAGAAGACG GAAAATCCGA CCTGATCAAT 
    ATCATCAAAC GCTTCGGCCC GCCGCTCTAC ACCCTGTTCC TGCCATCAAT GGTGTTCATT 
    GAGATGAAGA ACGCCCCTGA TGCTCAGAAG CTGGTGGATT ATTATCTGTC CAACACTCTG 
    AGGATCAACA GTGACTTGAT TTGTGTCTCC TTCTCTGGAG AGTACAAGAC TCTCATGCGG 
    GTTTCAAAAG CCAAGAGGTA CGAAGAAGAA AACGAAAGTA CAAAGAAGAG TACCACCAAG 
    AGGACAAGGA GCTCAAGCCG AGACAGAACG ACAGAAAATA AGAAAAGAAG GTCCAGATCC 
    AGAGACAAGG CCAGCAAAGA GGAACGGACC AGAACAAGGT CCAGGTCCAG GGATAAATCT 
    AAAGAAAAAT CCAGCAGAGA TGCCAAAACT AGATCTAGGT CCCAAGACAA GTTGGATAGA 
    AAAAGGAAGA GCAGAACCCG GTCCAGGTCC AGAGATAAGT CCACTAGTGA GAAGCGGACC 
    AGGACCAGGT CTAAGTCAGG GTCCAGAGAA AAAACAAAAG AAAAATCCAA CAAGGAAAGC 
    AAGAAAGGGT CCCAAGCGAA GAAGCCAGAC GAATCGAGAG AAAAATCCAA CAGAGACCAG 
    AAGACCAGGT CCGCATCCAG AGACAAGTCC AGCAGAGAGA CAAAAGCCAA GTCTACAACC 
    CAAGAAAAGT CAAGCAAAGA AAGAAAAAGC AGGAGCAAAT CTAGATCCGT GGAAAAATCC 
    AGCAGAGATA AGAAATCCAG GTCTAGAGAG AGATCCAGCA ACAAGTCCTC CAGACGGGAC 
    GGAGAAAAGA CGGCAGAACC AGAGAAACCA GATGCAGAGT CCACATCCAA AGGACAACCG 
    TCTCCTCTCG AAGACTCCAA ACCTGAAGTT TCAAACACAG AAGAAGTGGA GGGGGAGGCA 
    GCGTTGCCTG GAGAGGAGAG CGACATCGAG GGGATGGAGG TGATTGCTGA GGATGGAGAG 
    AATCTGGCAG ATGACGATGA GGAGGCTCTG CAAGAGGAAG AGAAAAAAGA GAGTCCTAAA 
    GAGAGAGCAC CTGAAAAAGA TGAAGTAAAG GAGGTGATAG GTGGAGAGCC TGGCAATGAG 
    GAGAAACCTG CGTCGGAGAA GGAGATAAAG AAGGAAGAGA AGGAGGAAGT AGAGGAGTCA 
    AAGGAAGCAA CAGAGACTCC TCTACAGGAG GATTTGGAGG ACTTCCCTGT AGACCTGGAA 
    AACTGCATCA CTCTGGATGA ACTGGAAGAA GATGACTCTG ACGACCAAGG TGGAGAATCA 
    GCAGATGAGC CCAAGTCAAC ATCGAAATCC AGCAGGGTTT TTTACTTCGG CCACCTGCCA 
    CCTAATTATG CCCTCTTTGA CTTCTTCCAA CTGCTGCGAA ATTTTGGGAA GGTGGTGCGC 
    TATTACCTGA TTGGCAATCG ACGAGAGGGT TTCATTGAGA TGTCGAGTTC TTCAGCGGCC 
    CTGAAAGCTG TTGAAGAGCT CGTCAGCAAA CCAGCCATCC ACAACTGCCC CAAACTCAAA 
    GCCCGCATCT CCACCAAATA CTACAGACTT GACAACGGAT GGGTTGTTCA CTCGGACGGC 
    AGCAATGACA AGGACAGTCG AGGCAGGAAG CGCGAGAAAC GAAGCAAATC CAAGACCTCA 
    GACCAGGACG AGACCGACAG GAGGTCTAAA GGGAGGAAGG AGTCCCCGAA GAAGACATCA 
    GAGAAATCAG GCAAAAAGAC TCCAGAAAAA GATTCTGGGT CAAAAAAGCC TCCAGAGAAA 
    GACTCATCAG GGAAAAAGAC CCCAAAGAAA GAGTCCACAT CCAAAACGTC TCCAGAAAAG 
    GATGCCAAAA ACATCTTGGA AACGAAATCC ACTGGGAAAA AGACTCCAGC GAAAGATTTG 
    CCATCTAAAA AAACTTCAGG TAAGGATTCT ACAACAAAAA AGACTCCAGC GAAAAAGTCC 
    GCATCCAGAA AGACTCTGGA AACCAAGTCT ACATTCAGAG AAACTTCAGC AGAAGAGTCC 
    AAAAAGTCTC CAAAGAGGGA ATCGTTGGAC AAAGAGCCTC CAGAAAAGGT CCTTAAAAAC 
    GGCCCGGAGA AGGAATCCGC AGGGAGAAAG ACTCCTGAGA AAGGGTCATC GTGTGCAGAG 
    ATTCCAGACA GCGAGACGCT GGAACCAAAA GGAGCTCCTG ACAATAATTC AGTGCCTCAG 
    ACAACTGTGA AGAAAGAACT AAAGAAAGAA AATGCTCAAC AAAATGAGGA ACCAGCAGCT 
    GATAAAGCGC CATCTGAAAA AGATTATATC AAAAAGGAAA CACCACGCAC ATTCAAGCAG 
    GAGGAGGAGG AAACGCCAAT AGATGTTTGT ATGGAAGCAG GACCAAATGT GAAAGATGCA 
    GAGAGTCCAG ATCCACCAGT CTCCTCTACA GAGCCCTCAA AACCACCACC TGAACAGGAC 
    GCGAAGCCCC AGTTTGAACC TGCAGAGGGC GCTGCTGAAC CTCAGAAACC CACCAAACCT 
    GTTGGGACGG AGTTCGTGCG ACCGGTCGTC GGTTATTTCT GTAACCTGTG TCAGCAGATC 
    TTCGCTGAAG AGGATGAAGC CAAACAGCAG CACTGCAGCA GCCTGTCGCA TTACAGCAAA 
    TACCAGGAGA AGACTGGGAG GGATCCGTGG ACGAGCTGA

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

    LOC101478771 ( XM_004552091.3 ) cDNA ORF clone, Maylandia zebra(zebra mbuna) -> XP_004552148.1 Maylandia zebra matrin-3 (LOC101478771), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OMa04310
    Clone ID Related Accession (Same CDS sequence) XM_004552091.3 , XM_004552091.2
    Accession Version XM_004552091.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4050bp)
    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 1511884800000
    Organism Maylandia zebra(zebra mbuna)
    Product matrin-3 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014444742.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Nov 30, 2017 this sequence version replaced XM_004552091.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Maylandia zebra Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGTCTCAGA ATTACCCGTA CAGAAAGCCG CCGCCTGACA CCGACCTCAG AACTGATCCC 
    GGGCCTTACA GATCTGTGGA CTACCGCCAC TCCTCAGCGG ACCGTGACTT TTACAGGCAG 
    CCACAAGACT CCTTCTCTGT CTCCTCCTCC TGCCCGTCCT CGTCCAGGGG CTCTGGAGTG 
    CTGCAGTCAT CGCAGGACAA TGTTCTGAGC ATCCTGAGCA GCTGCGGTCT GGAGCCCAGT 
    GATCTGGCGC TGCTAGCTGA GCTGCCCGAA GACGTCCTCA CTATTGAGTC TCTGCCACAC 
    ATCCTCAGAC AGATCAAATG CAAGAAAGGG ACCGTCAAAC CTTTCCCTCC CCGGGCTCCG 
    TCTCCCTCCT CCTCTTCCTC CTACCCTCCC AGCTCCTCCT CCTCTAGAGA CTGGGACCAG 
    CTCCATCGCA CGTCGGTCCA GTACCCGCTG GACCACCTGC CACCACCACC TCCTCCCTCG 
    GAGCAGCTCA TGGATCGCTG GAATAATCCG ATTACCGTGA GCTCCGGCCG AGCAGAGCTG 
    CCACCATCGT CATCCTTATC ATCGTCGTCG TTGGGGTACA CGGTGGACTT CCACCGCAGG 
    CAGGGCCCCT CTGATTATGG TAAGGCTGGT CCAGTTCCTT CTTACAGCCC AGCGAGGCGA 
    GGAGATAGAG CGCCGTCATC TCGATTCTCT GAGGCTGGAC CAGCTGATTA CAGGTCATCA 
    GCGCTGGTGA CGGCTTCTCC TCTTCCTAGC GAGCACCAGT CCAAACCTCT GGCAAGCCGC 
    CGTGACACGT CCTCCACGAG GAGCAGTCAG TCCTCGCCCT CAATGCCTAC ACGGAAAGAA 
    GCTCTGGATT TCCACGGGAA GGTCCCGCCG TCGTTCCCGT ACTCGTGCTC GCTGTGTGAT 
    ATCACTGTAC TGTCGCAGAA GGTTTGGATT CAGCACGTGA CTGGCAGGCA CCATGCAGAT 
    GGACAGCTCA GCCTCCTGCA GCAGTTTCCT AACTGGGACT GCCGCATGCA GACGGTCCGA 
    AGGGACGATA AATCTGAGAA GAAGAAAGAT GGAGGAAAAG GCGCCCCGGC AGCTAGTCAA 
    ACATCGCAGT CGAATAGCAA GTGGAAGCAG AAGAAGAATT TGGAGAAAGG GAAGGTAGTG 
    TGCATCAAGT TTCCGTCTCA GTCTGTCGAT GAGAAATACC TCAGGAAGCT TGCAGAACCG 
    TTCGGGAAGA TCATCAAGGT CATCATGTTT CCGTCTCTGG GCTTCGTGGA GATGGGCTCG 
    GTTGATCAGG CCAAAGACTT GGTGAAGTTT CACAGCAATT ATCCTCCAAC TGTGAACGGA 
    GAGCAGCTCG TGTTCAGCGT CTCCAGCGCC TTCAACTTTC TCCAGAGCTC CCGGGTGGTG 
    AGTTTCACGC CCGCTCCATC GGGAGAAGAC GGAAAATCCG ACCTGATCAA TATCATCAAA 
    CGCTTCGGCC CGCCGCTCTA CACCCTGTTC CTGCCATCAA TGGTGTTCAT TGAGATGAAG 
    AACGCCCCTG ATGCTCAGAA GCTGGTGGAT TATTATCTGT CCAACACTCT GAGGATCAAC 
    AGTGACTTGA TTTGTGTCTC CTTCTCTGGA GAGTACAAGA CTCTCATGCG GGTTTCAAAA 
    GCCAAGAGGT ACGAAGAAGA AAACGAAAGT ACAAAGAAGA GTACCACCAA GAGGACAAGG 
    AGCTCAAGCC GAGACAGAAC GACAGAAAAT AAGAAAAGAA GGTCCAGATC CAGAGACAAG 
    GCCAGCAAAG AGGAACGGAC CAGAACAAGG TCCAGGTCCA GGGATAAATC TAAAGAAAAA 
    TCCAGCAGAG ATGCCAAAAC TAGATCTAGG TCCCAAGACA AGTTGGATAG AAAAAGGAAG 
    AGCAGAACCC GGTCCAGGTC CAGAGATAAG TCCACTAGTG AGAAGCGGAC CAGGACCAGG 
    TCTAAGTCAG GGTCCAGAGA AAAAACAAAA GAAAAATCCA ACAAGGAAAG CAAGAAAGGG 
    TCCCAAGCGA AGAAGCCAGA CGAATCGAGA GAAAAATCCA ACAGAGACCA GAAGACCAGG 
    TCCGCATCCA GAGACAAGTC CAGCAGAGAG ACAAAAGCCA AGTCTACAAC CCAAGAAAAG 
    TCAAGCAAAG AAAGAAAAAG CAGGAGCAAA TCTAGATCCG TGGAAAAATC CAGCAGAGAT 
    AAGAAATCCA GGTCTAGAGA GAGATCCAGC AACAAGTCCT CCAGACGGGA CGGAGAAAAG 
    ACGGCAGAAC CAGAGAAACC AGATGCAGAG TCCACATCCA AAGGACAACC GTCTCCTCTC 
    GAAGACTCCA AACCTGAAGT TTCAAACACA GAAGAAGTGG AGGGGGAGGC AGCGTTGCCT 
    GGAGAGGAGA GCGACATCGA GGGGATGGAG GTGATTGCTG AGGATGGAGA GAATCTGGCA 
    GATGACGATG AGGAGGCTCT GCAAGAGGAA GAGAAAAAAG AGAGTCCTAA AGAGAGAGCA 
    CCTGAAAAAG ATGAAGTAAA GGAGGTGATA GGTGGAGAGC CTGGCAATGA GGAGAAACCT 
    GCGTCGGAGA AGGAGATAAA GAAGGAAGAG AAGGAGGAAG TAGAGGAGTC AAAGGAAGCA 
    ACAGAGACTC CTCTACAGGA GGATTTGGAG GACTTCCCTG TAGACCTGGA AAACTGCATC 
    ACTCTGGATG AACTGGAAGA AGATGACTCT GACGACCAAG GTGGAGAATC AGCAGATGAG 
    CCCAAGTCAA CATCGAAATC CAGCAGGGTT TTTTACTTCG GCCACCTGCC ACCTAATTAT 
    GCCCTCTTTG ACTTCTTCCA ACTGCTGCGA AATTTTGGGA AGGTGGTGCG CTATTACCTG 
    ATTGGCAATC GACGAGAGGG TTTCATTGAG ATGTCGAGTT CTTCAGCGGC CCTGAAAGCT 
    GTTGAAGAGC TCGTCAGCAA ACCAGCCATC CACAACTGCC CCAAACTCAA AGCCCGCATC 
    TCCACCAAAT ACTACAGACT TGACAACGGA TGGGTTGTTC ACTCGGACGG CAGCAATGAC 
    AAGGACAGTC GAGGCAGGAA GCGCGAGAAA CGAAGCAAAT CCAAGACCTC AGACCAGGAC 
    GAGACCGACA GGAGGTCTAA AGGGAGGAAG GAGTCCCCGA AGAAGACATC AGAGAAATCA 
    GGCAAAAAGA CTCCAGAAAA AGATTCTGGG TCAAAAAAGC CTCCAGAGAA AGACTCATCA 
    GGGAAAAAGA CCCCAAAGAA AGAGTCCACA TCCAAAACGT CTCCAGAAAA GGATGCCAAA 
    AACATCTTGG AAACGAAATC CACTGGGAAA AAGACTCCAG CGAAAGATTT GCCATCTAAA 
    AAAACTTCAG GTAAGGATTC TACAACAAAA AAGACTCCAG CGAAAAAGTC CGCATCCAGA 
    AAGACTCTGG AAACCAAGTC TACATTCAGA GAAACTTCAG CAGAAGAGTC CAAAAAGTCT 
    CCAAAGAGGG AATCGTTGGA CAAAGAGCCT CCAGAAAAGG TCCTTAAAAA CGGCCCGGAG 
    AAGGAATCCG CAGGGAGAAA GACTCCTGAG AAAGGGTCAT CGTGTGCAGA GATTCCAGAC 
    AGCGAGACGC TGGAACCAAA AGGAGCTCCT GACAATAATT CAGTGCCTCA GACAACTGTG 
    AAGAAAGAAC TAAAGAAAGA AAATGCTCAA CAAAATGAGG AACCAGCAGC TGATAAAGCG 
    CCATCTGAAA AAGATTATAT CAAAAAGGAA ACACCACGCA CATTCAAGCA GGAGGAGGAG 
    GAAACGCCAA TAGATGTTTG TATGGAAGCA GGACCAAATG TGAAAGATGC AGAGAGTCCA 
    GATCCACCAG TCTCCTCTAC AGAGCCCTCA AAACCACCAC CTGAACAGGA CGCGAAGCCC 
    CAGTTTGAAC CTGCAGAGGG CGCTGCTGAA CCTCAGAAAC CCACCAAACC TGTTGGGACG 
    GAGTTCGTGC GACCGGTCGT CGGTTATTTC TGTAACCTGT GTCAGCAGAT CTTCGCTGAA 
    GAGGATGAAG CCAAACAGCA GCACTGCAGC AGCCTGTCGC ATTACAGCAA ATACCAGGAG 
    AAGACTGGGA GGGATCCGTG GACGAGCTGA

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

    RefSeq XP_004552148.1
    CDS186..4235
    Translation

    Target ORF information:

    RefSeq Version XM_004552091.3
    Organism Maylandia zebra(zebra mbuna)
    Definition Maylandia zebra matrin-3 (LOC101478771), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_004552091.3

    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
    ATGTCTCAGA ATTACCCGTA CAGAAAGCCG CCGCCTGACA CCGACCTCAG AACTGATCCC 
    GGGCCTTACA GATCTGTGGA CTACCGCCAC TCCTCAGCGG ACCGTGACTT TTACAGGCAG 
    CCACAAGACT CCTTCTCTGT CTCCTCCTCC TGCCCGTCCT CGTCCAGGGG CTCTGGAGTG 
    CTGCAGTCAT CGCAGGACAA TGTTCTGAGC ATCCTGAGCA GCTGCGGTCT GGAGCCCAGT 
    GATCTGGCGC TGCTAGCTGA GCTGCCCGAA GACGTCCTCA CTATTGAGTC TCTGCCACAC 
    ATCCTCAGAC AGATCAAATG CAAGAAAGGG ACCGTCAAAC CTTTCCCTCC CCGGGCTCCG 
    TCTCCCTCCT CCTCTTCCTC CTACCCTCCC AGCTCCTCCT CCTCTAGAGA CTGGGACCAG 
    CTCCATCGCA CGTCGGTCCA GTACCCGCTG GACCACCTGC CACCACCACC TCCTCCCTCG 
    GAGCAGCTCA TGGATCGCTG GAATAATCCG ATTACCGTGA GCTCCGGCCG AGCAGAGCTG 
    CCACCATCGT CATCCTTATC ATCGTCGTCG TTGGGGTACA CGGTGGACTT CCACCGCAGG 
    CAGGGCCCCT CTGATTATGG TAAGGCTGGT CCAGTTCCTT CTTACAGCCC AGCGAGGCGA 
    GGAGATAGAG CGCCGTCATC TCGATTCTCT GAGGCTGGAC CAGCTGATTA CAGGTCATCA 
    GCGCTGGTGA CGGCTTCTCC TCTTCCTAGC GAGCACCAGT CCAAACCTCT GGCAAGCCGC 
    CGTGACACGT CCTCCACGAG GAGCAGTCAG TCCTCGCCCT CAATGCCTAC ACGGAAAGAA 
    GCTCTGGATT TCCACGGGAA GGTCCCGCCG TCGTTCCCGT ACTCGTGCTC GCTGTGTGAT 
    ATCACTGTAC TGTCGCAGAA GGTTTGGATT CAGCACGTGA CTGGCAGGCA CCATGCAGAT 
    GGACAGCTCA GCCTCCTGCA GCAGTTTCCT AACTGGGACT GCCGCATGCA GACGGTCCGA 
    AGGGACGATA AATCTGAGAA GAAGAAAGAT GGAGGAAAAG GCGCCCCGGC AGCTAGTCAA 
    ACATCGCAGT CGAATAGCAA GTGGAAGCAG AAGAAGAATT TGGAGAAAGG GAAGGTAGTG 
    TGCATCAAGT TTCCGTCTCA GTCTGTCGAT GAGAAATACC TCAGGAAGCT TGCAGAACCG 
    TTCGGGAAGA TCATCAAGGT CATCATGTTT CCGTCTCTGG GCTTCGTGGA GATGGGCTCG 
    GTTGATCAGG CCAAAGACTT GGTGAAGTTT CACAGCAATT ATCCTCCAAC TGTGAACGGA 
    GAGCAGCTCG TGTTCAGCGT CTCCAGCGCC TTCAACTTTC TCCAGAGCTC CCGGGTGGTG 
    AGTTTCACGC CCGCTCCATC GGGAGAAGAC GGAAAATCCG ACCTGATCAA TATCATCAAA 
    CGCTTCGGCC CGCCGCTCTA CACCCTGTTC CTGCCATCAA TGGTGTTCAT TGAGATGAAG 
    AACGCCCCTG ATGCTCAGAA GCTGGTGGAT TATTATCTGT CCAACACTCT GAGGATCAAC 
    AGTGACTTGA TTTGTGTCTC CTTCTCTGGA GAGTACAAGA CTCTCATGCG GGTTTCAAAA 
    GCCAAGAGGT ACGAAGAAGA AAACGAAAGT ACAAAGAAGA GTACCACCAA GAGGACAAGG 
    AGCTCAAGCC GAGACAGAAC GACAGAAAAT AAGAAAAGAA GGTCCAGATC CAGAGACAAG 
    GCCAGCAAAG AGGAACGGAC CAGAACAAGG TCCAGGTCCA GGGATAAATC TAAAGAAAAA 
    TCCAGCAGAG ATGCCAAAAC TAGATCTAGG TCCCAAGACA AGTTGGATAG AAAAAGGAAG 
    AGCAGAACCC GGTCCAGGTC CAGAGATAAG TCCACTAGTG AGAAGCGGAC CAGGACCAGG 
    TCTAAGTCAG GGTCCAGAGA AAAAACAAAA GAAAAATCCA ACAAGGAAAG CAAGAAAGGG 
    TCCCAAGCGA AGAAGCCAGA CGAATCGAGA GAAAAATCCA ACAGAGACCA GAAGACCAGG 
    TCCGCATCCA GAGACAAGTC CAGCAGAGAG ACAAAAGCCA AGTCTACAAC CCAAGAAAAG 
    TCAAGCAAAG AAAGAAAAAG CAGGAGCAAA TCTAGATCCG TGGAAAAATC CAGCAGAGAT 
    AAGAAATCCA GGTCTAGAGA GAGATCCAGC AACAAGTCCT CCAGACGGGA CGGAGAAAAG 
    ACGGCAGAAC CAGAGAAACC AGATGCAGAG TCCACATCCA AAGGACAACC GTCTCCTCTC 
    GAAGACTCCA AACCTGAAGT TTCAAACACA GAAGAAGTGG AGGGGGAGGC AGCGTTGCCT 
    GGAGAGGAGA GCGACATCGA GGGGATGGAG GTGATTGCTG AGGATGGAGA GAATCTGGCA 
    GATGACGATG AGGAGGCTCT GCAAGAGGAA GAGAAAAAAG AGAGTCCTAA AGAGAGAGCA 
    CCTGAAAAAG ATGAAGTAAA GGAGGTGATA GGTGGAGAGC CTGGCAATGA GGAGAAACCT 
    GCGTCGGAGA AGGAGATAAA GAAGGAAGAG AAGGAGGAAG TAGAGGAGTC AAAGGAAGCA 
    ACAGAGACTC CTCTACAGGA GGATTTGGAG GACTTCCCTG TAGACCTGGA AAACTGCATC 
    ACTCTGGATG AACTGGAAGA AGATGACTCT GACGACCAAG GTGGAGAATC AGCAGATGAG 
    CCCAAGTCAA CATCGAAATC CAGCAGGGTT TTTTACTTCG GCCACCTGCC ACCTAATTAT 
    GCCCTCTTTG ACTTCTTCCA ACTGCTGCGA AATTTTGGGA AGGTGGTGCG CTATTACCTG 
    ATTGGCAATC GACGAGAGGG TTTCATTGAG ATGTCGAGTT CTTCAGCGGC CCTGAAAGCT 
    GTTGAAGAGC TCGTCAGCAA ACCAGCCATC CACAACTGCC CCAAACTCAA AGCCCGCATC 
    TCCACCAAAT ACTACAGACT TGACAACGGA TGGGTTGTTC ACTCGGACGG CAGCAATGAC 
    AAGGACAGTC GAGGCAGGAA GCGCGAGAAA CGAAGCAAAT CCAAGACCTC AGACCAGGAC 
    GAGACCGACA GGAGGTCTAA AGGGAGGAAG GAGTCCCCGA AGAAGACATC AGAGAAATCA 
    GGCAAAAAGA CTCCAGAAAA AGATTCTGGG TCAAAAAAGC CTCCAGAGAA AGACTCATCA 
    GGGAAAAAGA CCCCAAAGAA AGAGTCCACA TCCAAAACGT CTCCAGAAAA GGATGCCAAA 
    AACATCTTGG AAACGAAATC CACTGGGAAA AAGACTCCAG CGAAAGATTT GCCATCTAAA 
    AAAACTTCAG GTAAGGATTC TACAACAAAA AAGACTCCAG CGAAAAAGTC CGCATCCAGA 
    AAGACTCTGG AAACCAAGTC TACATTCAGA GAAACTTCAG CAGAAGAGTC CAAAAAGTCT 
    CCAAAGAGGG AATCGTTGGA CAAAGAGCCT CCAGAAAAGG TCCTTAAAAA CGGCCCGGAG 
    AAGGAATCCG CAGGGAGAAA GACTCCTGAG AAAGGGTCAT CGTGTGCAGA GATTCCAGAC 
    AGCGAGACGC TGGAACCAAA AGGAGCTCCT GACAATAATT CAGTGCCTCA GACAACTGTG 
    AAGAAAGAAC TAAAGAAAGA AAATGCTCAA CAAAATGAGG AACCAGCAGC TGATAAAGCG 
    CCATCTGAAA AAGATTATAT CAAAAAGGAA ACACCACGCA CATTCAAGCA GGAGGAGGAG 
    GAAACGCCAA TAGATGTTTG TATGGAAGCA GGACCAAATG TGAAAGATGC AGAGAGTCCA 
    GATCCACCAG TCTCCTCTAC AGAGCCCTCA AAACCACCAC CTGAACAGGA CGCGAAGCCC 
    CAGTTTGAAC CTGCAGAGGG CGCTGCTGAA CCTCAGAAAC CCACCAAACC TGTTGGGACG 
    GAGTTCGTGC GACCGGTCGT CGGTTATTTC TGTAACCTGT GTCAGCAGAT CTTCGCTGAA 
    GAGGATGAAG CCAAACAGCA GCACTGCAGC AGCCTGTCGC ATTACAGCAA ATACCAGGAG 
    AAGACTGGGA GGGATCCGTG GACGAGCTGA

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

    LOC101478771 ( XM_004552091.2 ) cDNA ORF clone, Maylandia zebra(zebra mbuna) -> XP_004552148.1 Maylandia zebra matrin-3-like (LOC101478771), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OMa04310
    Clone ID Related Accession (Same CDS sequence) XM_004552091.3 , XM_004552091.2
    Accession Version XM_004552091.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4050bp)
    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 1444838400000
    Organism Maylandia zebra(Zebra mbuna)
    Product matrin-3-like isoform X2
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014444742.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 17, 2015 this sequence version replaced XM_004552091.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Maylandia zebra Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 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
    ATGTCTCAGA ATTACCCGTA CAGAAAGCCG CCGCCTGACA CCGACCTCAG AACTGATCCC 
    GGGCCTTACA GATCTGTGGA CTACCGCCAC TCCTCAGCGG ACCGTGACTT TTACAGGCAG 
    CCACAAGACT CCTTCTCTGT CTCCTCCTCC TGCCCGTCCT CGTCCAGGGG CTCTGGAGTG 
    CTGCAGTCAT CGCAGGACAA TGTTCTGAGC ATCCTGAGCA GCTGCGGTCT GGAGCCCAGT 
    GATCTGGCGC TGCTAGCTGA GCTGCCCGAA GACGTCCTCA CTATTGAGTC TCTGCCACAC 
    ATCCTCAGAC AGATCAAATG CAAGAAAGGG ACCGTCAAAC CTTTCCCTCC CCGGGCTCCG 
    TCTCCCTCCT CCTCTTCCTC CTACCCTCCC AGCTCCTCCT CCTCTAGAGA CTGGGACCAG 
    CTCCATCGCA CGTCGGTCCA GTACCCGCTG GACCACCTGC CACCACCACC TCCTCCCTCG 
    GAGCAGCTCA TGGATCGCTG GAATAATCCG ATTACCGTGA GCTCCGGCCG AGCAGAGCTG 
    CCACCATCGT CATCCTTATC ATCGTCGTCG TTGGGGTACA CGGTGGACTT CCACCGCAGG 
    CAGGGCCCCT CTGATTATGG TAAGGCTGGT CCAGTTCCTT CTTACAGCCC AGCGAGGCGA 
    GGAGATAGAG CGCCGTCATC TCGATTCTCT GAGGCTGGAC CAGCTGATTA CAGGTCATCA 
    GCGCTGGTGA CGGCTTCTCC TCTTCCTAGC GAGCACCAGT CCAAACCTCT GGCAAGCCGC 
    CGTGACACGT CCTCCACGAG GAGCAGTCAG TCCTCGCCCT CAATGCCTAC ACGGAAAGAA 
    GCTCTGGATT TCCACGGGAA GGTCCCGCCG TCGTTCCCGT ACTCGTGCTC GCTGTGTGAT 
    ATCACTGTAC TGTCGCAGAA GGTTTGGATT CAGCACGTGA CTGGCAGGCA CCATGCAGAT 
    GGACAGCTCA GCCTCCTGCA GCAGTTTCCT AACTGGGACT GCCGCATGCA GACGGTCCGA 
    AGGGACGATA AATCTGAGAA GAAGAAAGAT GGAGGAAAAG GCGCCCCGGC AGCTAGTCAA 
    ACATCGCAGT CGAATAGCAA GTGGAAGCAG AAGAAGAATT TGGAGAAAGG GAAGGTAGTG 
    TGCATCAAGT TTCCGTCTCA GTCTGTCGAT GAGAAATACC TCAGGAAGCT TGCAGAACCG 
    TTCGGGAAGA TCATCAAGGT CATCATGTTT CCGTCTCTGG GCTTCGTGGA GATGGGCTCG 
    GTTGATCAGG CCAAAGACTT GGTGAAGTTT CACAGCAATT ATCCTCCAAC TGTGAACGGA 
    GAGCAGCTCG TGTTCAGCGT CTCCAGCGCC TTCAACTTTC TCCAGAGCTC CCGGGTGGTG 
    AGTTTCACGC CCGCTCCATC GGGAGAAGAC GGAAAATCCG ACCTGATCAA TATCATCAAA 
    CGCTTCGGCC CGCCGCTCTA CACCCTGTTC CTGCCATCAA TGGTGTTCAT TGAGATGAAG 
    AACGCCCCTG ATGCTCAGAA GCTGGTGGAT TATTATCTGT CCAACACTCT GAGGATCAAC 
    AGTGACTTGA TTTGTGTCTC CTTCTCTGGA GAGTACAAGA CTCTCATGCG GGTTTCAAAA 
    GCCAAGAGGT ACGAAGAAGA AAACGAAAGT ACAAAGAAGA GTACCACCAA GAGGACAAGG 
    AGCTCAAGCC GAGACAGAAC GACAGAAAAT AAGAAAAGAA GGTCCAGATC CAGAGACAAG 
    GCCAGCAAAG AGGAACGGAC CAGAACAAGG TCCAGGTCCA GGGATAAATC TAAAGAAAAA 
    TCCAGCAGAG ATGCCAAAAC TAGATCTAGG TCCCAAGACA AGTTGGATAG AAAAAGGAAG 
    AGCAGAACCC GGTCCAGGTC CAGAGATAAG TCCACTAGTG AGAAGCGGAC CAGGACCAGG 
    TCTAAGTCAG GGTCCAGAGA AAAAACAAAA GAAAAATCCA ACAAGGAAAG CAAGAAAGGG 
    TCCCAAGCGA AGAAGCCAGA CGAATCGAGA GAAAAATCCA ACAGAGACCA GAAGACCAGG 
    TCCGCATCCA GAGACAAGTC CAGCAGAGAG ACAAAAGCCA AGTCTACAAC CCAAGAAAAG 
    TCAAGCAAAG AAAGAAAAAG CAGGAGCAAA TCTAGATCCG TGGAAAAATC CAGCAGAGAT 
    AAGAAATCCA GGTCTAGAGA GAGATCCAGC AACAAGTCCT CCAGACGGGA CGGAGAAAAG 
    ACGGCAGAAC CAGAGAAACC AGATGCAGAG TCCACATCCA AAGGACAACC GTCTCCTCTC 
    GAAGACTCCA AACCTGAAGT TTCAAACACA GAAGAAGTGG AGGGGGAGGC AGCGTTGCCT 
    GGAGAGGAGA GCGACATCGA GGGGATGGAG GTGATTGCTG AGGATGGAGA GAATCTGGCA 
    GATGACGATG AGGAGGCTCT GCAAGAGGAA GAGAAAAAAG AGAGTCCTAA AGAGAGAGCA 
    CCTGAAAAAG ATGAAGTAAA GGAGGTGATA GGTGGAGAGC CTGGCAATGA GGAGAAACCT 
    GCGTCGGAGA AGGAGATAAA GAAGGAAGAG AAGGAGGAAG TAGAGGAGTC AAAGGAAGCA 
    ACAGAGACTC CTCTACAGGA GGATTTGGAG GACTTCCCTG TAGACCTGGA AAACTGCATC 
    ACTCTGGATG AACTGGAAGA AGATGACTCT GACGACCAAG GTGGAGAATC AGCAGATGAG 
    CCCAAGTCAA CATCGAAATC CAGCAGGGTT TTTTACTTCG GCCACCTGCC ACCTAATTAT 
    GCCCTCTTTG ACTTCTTCCA ACTGCTGCGA AATTTTGGGA AGGTGGTGCG CTATTACCTG 
    ATTGGCAATC GACGAGAGGG TTTCATTGAG ATGTCGAGTT CTTCAGCGGC CCTGAAAGCT 
    GTTGAAGAGC TCGTCAGCAA ACCAGCCATC CACAACTGCC CCAAACTCAA AGCCCGCATC 
    TCCACCAAAT ACTACAGACT TGACAACGGA TGGGTTGTTC ACTCGGACGG CAGCAATGAC 
    AAGGACAGTC GAGGCAGGAA GCGCGAGAAA CGAAGCAAAT CCAAGACCTC AGACCAGGAC 
    GAGACCGACA GGAGGTCTAA AGGGAGGAAG GAGTCCCCGA AGAAGACATC AGAGAAATCA 
    GGCAAAAAGA CTCCAGAAAA AGATTCTGGG TCAAAAAAGC CTCCAGAGAA AGACTCATCA 
    GGGAAAAAGA CCCCAAAGAA AGAGTCCACA TCCAAAACGT CTCCAGAAAA GGATGCCAAA 
    AACATCTTGG AAACGAAATC CACTGGGAAA AAGACTCCAG CGAAAGATTT GCCATCTAAA 
    AAAACTTCAG GTAAGGATTC TACAACAAAA AAGACTCCAG CGAAAAAGTC CGCATCCAGA 
    AAGACTCTGG AAACCAAGTC TACATTCAGA GAAACTTCAG CAGAAGAGTC CAAAAAGTCT 
    CCAAAGAGGG AATCGTTGGA CAAAGAGCCT CCAGAAAAGG TCCTTAAAAA CGGCCCGGAG 
    AAGGAATCCG CAGGGAGAAA GACTCCTGAG AAAGGGTCAT CGTGTGCAGA GATTCCAGAC 
    AGCGAGACGC TGGAACCAAA AGGAGCTCCT GACAATAATT CAGTGCCTCA GACAACTGTG 
    AAGAAAGAAC TAAAGAAAGA AAATGCTCAA CAAAATGAGG AACCAGCAGC TGATAAAGCG 
    CCATCTGAAA AAGATTATAT CAAAAAGGAA ACACCACGCA CATTCAAGCA GGAGGAGGAG 
    GAAACGCCAA TAGATGTTTG TATGGAAGCA GGACCAAATG TGAAAGATGC AGAGAGTCCA 
    GATCCACCAG TCTCCTCTAC AGAGCCCTCA AAACCACCAC CTGAACAGGA CGCGAAGCCC 
    CAGTTTGAAC CTGCAGAGGG CGCTGCTGAA CCTCAGAAAC CCACCAAACC TGTTGGGACG 
    GAGTTCGTGC GACCGGTCGT CGGTTATTTC TGTAACCTGT GTCAGCAGAT CTTCGCTGAA 
    GAGGATGAAG CCAAACAGCA GCACTGCAGC AGCCTGTCGC ATTACAGCAA ATACCAGGAG 
    AAGACTGGGA GGGATCCGTG GACGAGCTGA

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

    RefSeq XP_004552148.1
    CDS185..4234
    Translation

    Target ORF information:

    RefSeq Version XM_004552091.2
    Organism Maylandia zebra(Zebra mbuna)
    Definition Maylandia zebra matrin-3-like (LOC101478771), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_004552091.2

    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
    ATGTCTCAGA ATTACCCGTA CAGAAAGCCG CCGCCTGACA CCGACCTCAG AACTGATCCC 
    GGGCCTTACA GATCTGTGGA CTACCGCCAC TCCTCAGCGG ACCGTGACTT TTACAGGCAG 
    CCACAAGACT CCTTCTCTGT CTCCTCCTCC TGCCCGTCCT CGTCCAGGGG CTCTGGAGTG 
    CTGCAGTCAT CGCAGGACAA TGTTCTGAGC ATCCTGAGCA GCTGCGGTCT GGAGCCCAGT 
    GATCTGGCGC TGCTAGCTGA GCTGCCCGAA GACGTCCTCA CTATTGAGTC TCTGCCACAC 
    ATCCTCAGAC AGATCAAATG CAAGAAAGGG ACCGTCAAAC CTTTCCCTCC CCGGGCTCCG 
    TCTCCCTCCT CCTCTTCCTC CTACCCTCCC AGCTCCTCCT CCTCTAGAGA CTGGGACCAG 
    CTCCATCGCA CGTCGGTCCA GTACCCGCTG GACCACCTGC CACCACCACC TCCTCCCTCG 
    GAGCAGCTCA TGGATCGCTG GAATAATCCG ATTACCGTGA GCTCCGGCCG AGCAGAGCTG 
    CCACCATCGT CATCCTTATC ATCGTCGTCG TTGGGGTACA CGGTGGACTT CCACCGCAGG 
    CAGGGCCCCT CTGATTATGG TAAGGCTGGT CCAGTTCCTT CTTACAGCCC AGCGAGGCGA 
    GGAGATAGAG CGCCGTCATC TCGATTCTCT GAGGCTGGAC CAGCTGATTA CAGGTCATCA 
    GCGCTGGTGA CGGCTTCTCC TCTTCCTAGC GAGCACCAGT CCAAACCTCT GGCAAGCCGC 
    CGTGACACGT CCTCCACGAG GAGCAGTCAG TCCTCGCCCT CAATGCCTAC ACGGAAAGAA 
    GCTCTGGATT TCCACGGGAA GGTCCCGCCG TCGTTCCCGT ACTCGTGCTC GCTGTGTGAT 
    ATCACTGTAC TGTCGCAGAA GGTTTGGATT CAGCACGTGA CTGGCAGGCA CCATGCAGAT 
    GGACAGCTCA GCCTCCTGCA GCAGTTTCCT AACTGGGACT GCCGCATGCA GACGGTCCGA 
    AGGGACGATA AATCTGAGAA GAAGAAAGAT GGAGGAAAAG GCGCCCCGGC AGCTAGTCAA 
    ACATCGCAGT CGAATAGCAA GTGGAAGCAG AAGAAGAATT TGGAGAAAGG GAAGGTAGTG 
    TGCATCAAGT TTCCGTCTCA GTCTGTCGAT GAGAAATACC TCAGGAAGCT TGCAGAACCG 
    TTCGGGAAGA TCATCAAGGT CATCATGTTT CCGTCTCTGG GCTTCGTGGA GATGGGCTCG 
    GTTGATCAGG CCAAAGACTT GGTGAAGTTT CACAGCAATT ATCCTCCAAC TGTGAACGGA 
    GAGCAGCTCG TGTTCAGCGT CTCCAGCGCC TTCAACTTTC TCCAGAGCTC CCGGGTGGTG 
    AGTTTCACGC CCGCTCCATC GGGAGAAGAC GGAAAATCCG ACCTGATCAA TATCATCAAA 
    CGCTTCGGCC CGCCGCTCTA CACCCTGTTC CTGCCATCAA TGGTGTTCAT TGAGATGAAG 
    AACGCCCCTG ATGCTCAGAA GCTGGTGGAT TATTATCTGT CCAACACTCT GAGGATCAAC 
    AGTGACTTGA TTTGTGTCTC CTTCTCTGGA GAGTACAAGA CTCTCATGCG GGTTTCAAAA 
    GCCAAGAGGT ACGAAGAAGA AAACGAAAGT ACAAAGAAGA GTACCACCAA GAGGACAAGG 
    AGCTCAAGCC GAGACAGAAC GACAGAAAAT AAGAAAAGAA GGTCCAGATC CAGAGACAAG 
    GCCAGCAAAG AGGAACGGAC CAGAACAAGG TCCAGGTCCA GGGATAAATC TAAAGAAAAA 
    TCCAGCAGAG ATGCCAAAAC TAGATCTAGG TCCCAAGACA AGTTGGATAG AAAAAGGAAG 
    AGCAGAACCC GGTCCAGGTC CAGAGATAAG TCCACTAGTG AGAAGCGGAC CAGGACCAGG 
    TCTAAGTCAG GGTCCAGAGA AAAAACAAAA GAAAAATCCA ACAAGGAAAG CAAGAAAGGG 
    TCCCAAGCGA AGAAGCCAGA CGAATCGAGA GAAAAATCCA ACAGAGACCA GAAGACCAGG 
    TCCGCATCCA GAGACAAGTC CAGCAGAGAG ACAAAAGCCA AGTCTACAAC CCAAGAAAAG 
    TCAAGCAAAG AAAGAAAAAG CAGGAGCAAA TCTAGATCCG TGGAAAAATC CAGCAGAGAT 
    AAGAAATCCA GGTCTAGAGA GAGATCCAGC AACAAGTCCT CCAGACGGGA CGGAGAAAAG 
    ACGGCAGAAC CAGAGAAACC AGATGCAGAG TCCACATCCA AAGGACAACC GTCTCCTCTC 
    GAAGACTCCA AACCTGAAGT TTCAAACACA GAAGAAGTGG AGGGGGAGGC AGCGTTGCCT 
    GGAGAGGAGA GCGACATCGA GGGGATGGAG GTGATTGCTG AGGATGGAGA GAATCTGGCA 
    GATGACGATG AGGAGGCTCT GCAAGAGGAA GAGAAAAAAG AGAGTCCTAA AGAGAGAGCA 
    CCTGAAAAAG ATGAAGTAAA GGAGGTGATA GGTGGAGAGC CTGGCAATGA GGAGAAACCT 
    GCGTCGGAGA AGGAGATAAA GAAGGAAGAG AAGGAGGAAG TAGAGGAGTC AAAGGAAGCA 
    ACAGAGACTC CTCTACAGGA GGATTTGGAG GACTTCCCTG TAGACCTGGA AAACTGCATC 
    ACTCTGGATG AACTGGAAGA AGATGACTCT GACGACCAAG GTGGAGAATC AGCAGATGAG 
    CCCAAGTCAA CATCGAAATC CAGCAGGGTT TTTTACTTCG GCCACCTGCC ACCTAATTAT 
    GCCCTCTTTG ACTTCTTCCA ACTGCTGCGA AATTTTGGGA AGGTGGTGCG CTATTACCTG 
    ATTGGCAATC GACGAGAGGG TTTCATTGAG ATGTCGAGTT CTTCAGCGGC CCTGAAAGCT 
    GTTGAAGAGC TCGTCAGCAA ACCAGCCATC CACAACTGCC CCAAACTCAA AGCCCGCATC 
    TCCACCAAAT ACTACAGACT TGACAACGGA TGGGTTGTTC ACTCGGACGG CAGCAATGAC 
    AAGGACAGTC GAGGCAGGAA GCGCGAGAAA CGAAGCAAAT CCAAGACCTC AGACCAGGAC 
    GAGACCGACA GGAGGTCTAA AGGGAGGAAG GAGTCCCCGA AGAAGACATC AGAGAAATCA 
    GGCAAAAAGA CTCCAGAAAA AGATTCTGGG TCAAAAAAGC CTCCAGAGAA AGACTCATCA 
    GGGAAAAAGA CCCCAAAGAA AGAGTCCACA TCCAAAACGT CTCCAGAAAA GGATGCCAAA 
    AACATCTTGG AAACGAAATC CACTGGGAAA AAGACTCCAG CGAAAGATTT GCCATCTAAA 
    AAAACTTCAG GTAAGGATTC TACAACAAAA AAGACTCCAG CGAAAAAGTC CGCATCCAGA 
    AAGACTCTGG AAACCAAGTC TACATTCAGA GAAACTTCAG CAGAAGAGTC CAAAAAGTCT 
    CCAAAGAGGG AATCGTTGGA CAAAGAGCCT CCAGAAAAGG TCCTTAAAAA CGGCCCGGAG 
    AAGGAATCCG CAGGGAGAAA GACTCCTGAG AAAGGGTCAT CGTGTGCAGA GATTCCAGAC 
    AGCGAGACGC TGGAACCAAA AGGAGCTCCT GACAATAATT CAGTGCCTCA GACAACTGTG 
    AAGAAAGAAC TAAAGAAAGA AAATGCTCAA CAAAATGAGG AACCAGCAGC TGATAAAGCG 
    CCATCTGAAA AAGATTATAT CAAAAAGGAA ACACCACGCA CATTCAAGCA GGAGGAGGAG 
    GAAACGCCAA TAGATGTTTG TATGGAAGCA GGACCAAATG TGAAAGATGC AGAGAGTCCA 
    GATCCACCAG TCTCCTCTAC AGAGCCCTCA AAACCACCAC CTGAACAGGA CGCGAAGCCC 
    CAGTTTGAAC CTGCAGAGGG CGCTGCTGAA CCTCAGAAAC CCACCAAACC TGTTGGGACG 
    GAGTTCGTGC GACCGGTCGT CGGTTATTTC TGTAACCTGT GTCAGCAGAT CTTCGCTGAA 
    GAGGATGAAG CCAAACAGCA GCACTGCAGC AGCCTGTCGC ATTACAGCAA ATACCAGGAG 
    AAGACTGGGA GGGATCCGTG GACGAGCTGA

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

    LOC101478771 ( XM_012919357.2 ) cDNA ORF clone, Maylandia zebra(zebra mbuna) -> XP_012774811.1 Maylandia zebra matrin-3 (LOC101478771), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OMa04311
    Clone ID Related Accession (Same CDS sequence) XM_012919357.2 , XM_012919357.1
    Accession Version XM_012919357.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3054bp)
    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 1511884800000
    Organism Maylandia zebra(zebra mbuna)
    Product neurofilament heavy polypeptide isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014444742.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Nov 30, 2017 this sequence version replaced XM_012919357.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Maylandia zebra Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    ATGCAGACGG TCCGAAGGGA CGATAAATCT GAGAAGAAGA AAGATGGAGG AAAAGGCGCC 
    CCGGCAGCTA GTCAAACATC GCAGTCGAAT AGCAAGTGGA AGCAGAAGAA GGTAAAGAAG 
    AATTTGGAGA AAGGGAAGGT AGTGTGCATC AAGTTTCCGT CTCAGTCTGT CGATGAGAAA 
    TACCTCAGGA AGCTTGCAGA ACCGTTCGGG AAGATCATCA AGGTCATCAT GTTTCCGTCT 
    CTGGGCTTCG TGGAGATGGG CTCGGTTGAT CAGGCCAAAG ACTTGGTGAA GTTTCACAGC 
    AATTATCCTC CAACTGTGAA CGGAGAGCAG CTCGTGTTCA GCGTCTCCAG CGCCTTCAAC 
    TTTCTCCAGA GCTCCCGGGT GGTGAGTTTC ACGCCCGCTC CATCGGGAGA AGACGGAAAA 
    TCCGACCTGA TCAATATCAT CAAACGCTTC GGCCCGCCGC TCTACACCCT GTTCCTGCCA 
    TCAATGGTGT TCATTGAGAT GAAGAACGCC CCTGATGCTC AGAAGCTGGT GGATTATTAT 
    CTGTCCAACA CTCTGAGGAT CAACAGTGAC TTGATTTGTG TCTCCTTCTC TGGAGAGTAC 
    AAGACTCTCA TGCGGGTTTC AAAAGCCAAG AGGTACGAAG AAGAAAACGA AAGTACAAAG 
    AAGAGTACCA CCAAGAGGAC AAGGAGCTCA AGCCGAGACA GAACGACAGA AAATAAGAAA 
    AGAAGGTCCA GATCCAGAGA CAAGGCCAGC AAAGAGGAAC GGACCAGAAC AAGGTCCAGG 
    TCCAGGGATA AATCTAAAGA AAAATCCAGC AGAGATGCCA AAACTAGATC TAGGTCCCAA 
    GACAAGTTGG ATAGAAAAAG GAAGAGCAGA ACCCGGTCCA GGTCCAGAGA TAAGTCCACT 
    AGTGAGAAGC GGACCAGGAC CAGGTCTAAG TCAGGGTCCA GAGAAAAAAC AAAAGAAAAA 
    TCCAACAAGG AAAGCAAGAA AGGGTCCCAA GCGAAGAAGC CAGACGAATC GAGAGAAAAA 
    TCCAACAGAG ACCAGAAGAC CAGGTCCGCA TCCAGAGACA AGTCCAGCAG AGAGACAAAA 
    GCCAAGTCTA CAACCCAAGA AAAGTCAAGC AAAGAAAGAA AAAGCAGGAG CAAATCTAGA 
    TCCGTGGAAA AATCCAGCAG AGATAAGAAA TCCAGGTCTA GAGAGAGATC CAGCAACAAG 
    TCCTCCAGAC GGGACGGAGA AAAGACGGCA GAACCAGAGA AACCAGATGC AGAGTCCACA 
    TCCAAAGGAC AACCGTCTCC TCTCGAAGAC TCCAAACCTG AAGTTTCAAA CACAGAAGAA 
    GTGGAGGGGG AGGCAGCGTT GCCTGGAGAG GAGAGCGACA TCGAGGGGAT GGAGGTGATT 
    GCTGAGGATG GAGAGAATCT GGCAGATGAC GATGAGGAGG CTCTGCAAGA GGAAGAGAAA 
    AAAGAGAGTC CTAAAGAGAG AGCACCTGAA AAAGATGAAG TAAAGGAGGT GATAGGTGGA 
    GAGCCTGGCA ATGAGGAGAA ACCTGCGTCG GAGAAGGAGA TAAAGAAGGA AGAGAAGGAG 
    GAAGTAGAGG AGTCAAAGGA AGCAACAGAG ACTCCTCTAC AGGAGGATTT GGAGGACTTC 
    CCTGTAGACC TGGAAAACTG CATCACTCTG GATGAACTGG AAGAAGATGA CTCTGACGAC 
    CAAGGTGGAG AATCAGCAGA TGAGCCCAAG TCAACATCGA AATCCAGCAG GGTTTTTTAC 
    TTCGGCCACC TGCCACCTAA TTATGCCCTC TTTGACTTCT TCCAACTGCT GCGAAATTTT 
    GGGAAGGTGG TGCGCTATTA CCTGATTGGC AATCGACGAG AGGGTTTCAT TGAGATGTCG 
    AGTTCTTCAG CGGCCCTGAA AGCTGTTGAA GAGCTCGTCA GCAAACCAGC CATCCACAAC 
    TGCCCCAAAC TCAAAGCCCG CATCTCCACC AAATACTACA GACTTGACAA CGGATGGGTT 
    GTTCACTCGG ACGGCAGCAA TGACAAGGAC AGTCGAGGCA GGAAGCGCGA GAAACGAAGC 
    AAATCCAAGA CCTCAGACCA GGACGAGACC GACAGGAGGT CTAAAGGGAG GAAGGAGTCC 
    CCGAAGAAGA CATCAGAGAA ATCAGGCAAA AAGACTCCAG AAAAAGATTC TGGGTCAAAA 
    AAGCCTCCAG AGAAAGACTC ATCAGGGAAA AAGACCCCAA AGAAAGAGTC CACATCCAAA 
    ACGTCTCCAG AAAAGGATGC CAAAAACATC TTGGAAACGA AATCCACTGG GAAAAAGACT 
    CCAGCGAAAG ATTTGCCATC TAAAAAAACT TCAGGTAAGG ATTCTACAAC AAAAAAGACT 
    CCAGCGAAAA AGTCCGCATC CAGAAAGACT CTGGAAACCA AGTCTACATT CAGAGAAACT 
    TCAGCAGAAG AGTCCAAAAA GTCTCCAAAG AGGGAATCGT TGGACAAAGA GCCTCCAGAA 
    AAGGTCCTTA AAAACGGCCC GGAGAAGGAA TCCGCAGGGA GAAAGACTCC TGAGAAAGGG 
    TCATCGTGTG CAGAGATTCC AGACAGCGAG ACGCTGGAAC CAAAAGGAGC TCCTGACAAT 
    AATTCAGTGC CTCAGACAAC TGTGAAGAAA GAACTAAAGA AAGAAAATGC TCAACAAAAT 
    GAGGAACCAG CAGCTGATAA AGCGCCATCT GAAAAAGATT ATATCAAAAA GGAAACACCA 
    CGCACATTCA AGCAGGAGGA GGAGGAAACG CCAATAGATG TTTGTATGGA AGCAGGACCA 
    AATGTGAAAG ATGCAGAGAG TCCAGATCCA CCAGTCTCCT CTACAGAGCC CTCAAAACCA 
    CCACCTGAAC AGGACGCGAA GCCCCAGTTT GAACCTGCAG AGGGCGCTGC TGAACCTCAG 
    AAACCCACCA AACCTGTTGG GACGGAGTTC GTGCGACCGG TCGTCGGTTA TTTCTGTAAC 
    CTGTGTCAGC AGATCTTCGC TGAAGAGGAT GAAGCCAAAC AGCAGCACTG CAGCAGCCTG 
    TCGCATTACA GCAAATACCA GGAGAAGACT GGGAGGGATC CGTGGACGAG CTGA

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

    RefSeq XP_012774811.1
    CDS235..3288
    Translation

    Target ORF information:

    RefSeq Version XM_012919357.2
    Organism Maylandia zebra(zebra mbuna)
    Definition Maylandia zebra matrin-3 (LOC101478771), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012919357.2

    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
    ATGCAGACGG TCCGAAGGGA CGATAAATCT GAGAAGAAGA AAGATGGAGG AAAAGGCGCC 
    CCGGCAGCTA GTCAAACATC GCAGTCGAAT AGCAAGTGGA AGCAGAAGAA GGTAAAGAAG 
    AATTTGGAGA AAGGGAAGGT AGTGTGCATC AAGTTTCCGT CTCAGTCTGT CGATGAGAAA 
    TACCTCAGGA AGCTTGCAGA ACCGTTCGGG AAGATCATCA AGGTCATCAT GTTTCCGTCT 
    CTGGGCTTCG TGGAGATGGG CTCGGTTGAT CAGGCCAAAG ACTTGGTGAA GTTTCACAGC 
    AATTATCCTC CAACTGTGAA CGGAGAGCAG CTCGTGTTCA GCGTCTCCAG CGCCTTCAAC 
    TTTCTCCAGA GCTCCCGGGT GGTGAGTTTC ACGCCCGCTC CATCGGGAGA AGACGGAAAA 
    TCCGACCTGA TCAATATCAT CAAACGCTTC GGCCCGCCGC TCTACACCCT GTTCCTGCCA 
    TCAATGGTGT TCATTGAGAT GAAGAACGCC CCTGATGCTC AGAAGCTGGT GGATTATTAT 
    CTGTCCAACA CTCTGAGGAT CAACAGTGAC TTGATTTGTG TCTCCTTCTC TGGAGAGTAC 
    AAGACTCTCA TGCGGGTTTC AAAAGCCAAG AGGTACGAAG AAGAAAACGA AAGTACAAAG 
    AAGAGTACCA CCAAGAGGAC AAGGAGCTCA AGCCGAGACA GAACGACAGA AAATAAGAAA 
    AGAAGGTCCA GATCCAGAGA CAAGGCCAGC AAAGAGGAAC GGACCAGAAC AAGGTCCAGG 
    TCCAGGGATA AATCTAAAGA AAAATCCAGC AGAGATGCCA AAACTAGATC TAGGTCCCAA 
    GACAAGTTGG ATAGAAAAAG GAAGAGCAGA ACCCGGTCCA GGTCCAGAGA TAAGTCCACT 
    AGTGAGAAGC GGACCAGGAC CAGGTCTAAG TCAGGGTCCA GAGAAAAAAC AAAAGAAAAA 
    TCCAACAAGG AAAGCAAGAA AGGGTCCCAA GCGAAGAAGC CAGACGAATC GAGAGAAAAA 
    TCCAACAGAG ACCAGAAGAC CAGGTCCGCA TCCAGAGACA AGTCCAGCAG AGAGACAAAA 
    GCCAAGTCTA CAACCCAAGA AAAGTCAAGC AAAGAAAGAA AAAGCAGGAG CAAATCTAGA 
    TCCGTGGAAA AATCCAGCAG AGATAAGAAA TCCAGGTCTA GAGAGAGATC CAGCAACAAG 
    TCCTCCAGAC GGGACGGAGA AAAGACGGCA GAACCAGAGA AACCAGATGC AGAGTCCACA 
    TCCAAAGGAC AACCGTCTCC TCTCGAAGAC TCCAAACCTG AAGTTTCAAA CACAGAAGAA 
    GTGGAGGGGG AGGCAGCGTT GCCTGGAGAG GAGAGCGACA TCGAGGGGAT GGAGGTGATT 
    GCTGAGGATG GAGAGAATCT GGCAGATGAC GATGAGGAGG CTCTGCAAGA GGAAGAGAAA 
    AAAGAGAGTC CTAAAGAGAG AGCACCTGAA AAAGATGAAG TAAAGGAGGT GATAGGTGGA 
    GAGCCTGGCA ATGAGGAGAA ACCTGCGTCG GAGAAGGAGA TAAAGAAGGA AGAGAAGGAG 
    GAAGTAGAGG AGTCAAAGGA AGCAACAGAG ACTCCTCTAC AGGAGGATTT GGAGGACTTC 
    CCTGTAGACC TGGAAAACTG CATCACTCTG GATGAACTGG AAGAAGATGA CTCTGACGAC 
    CAAGGTGGAG AATCAGCAGA TGAGCCCAAG TCAACATCGA AATCCAGCAG GGTTTTTTAC 
    TTCGGCCACC TGCCACCTAA TTATGCCCTC TTTGACTTCT TCCAACTGCT GCGAAATTTT 
    GGGAAGGTGG TGCGCTATTA CCTGATTGGC AATCGACGAG AGGGTTTCAT TGAGATGTCG 
    AGTTCTTCAG CGGCCCTGAA AGCTGTTGAA GAGCTCGTCA GCAAACCAGC CATCCACAAC 
    TGCCCCAAAC TCAAAGCCCG CATCTCCACC AAATACTACA GACTTGACAA CGGATGGGTT 
    GTTCACTCGG ACGGCAGCAA TGACAAGGAC AGTCGAGGCA GGAAGCGCGA GAAACGAAGC 
    AAATCCAAGA CCTCAGACCA GGACGAGACC GACAGGAGGT CTAAAGGGAG GAAGGAGTCC 
    CCGAAGAAGA CATCAGAGAA ATCAGGCAAA AAGACTCCAG AAAAAGATTC TGGGTCAAAA 
    AAGCCTCCAG AGAAAGACTC ATCAGGGAAA AAGACCCCAA AGAAAGAGTC CACATCCAAA 
    ACGTCTCCAG AAAAGGATGC CAAAAACATC TTGGAAACGA AATCCACTGG GAAAAAGACT 
    CCAGCGAAAG ATTTGCCATC TAAAAAAACT TCAGGTAAGG ATTCTACAAC AAAAAAGACT 
    CCAGCGAAAA AGTCCGCATC CAGAAAGACT CTGGAAACCA AGTCTACATT CAGAGAAACT 
    TCAGCAGAAG AGTCCAAAAA GTCTCCAAAG AGGGAATCGT TGGACAAAGA GCCTCCAGAA 
    AAGGTCCTTA AAAACGGCCC GGAGAAGGAA TCCGCAGGGA GAAAGACTCC TGAGAAAGGG 
    TCATCGTGTG CAGAGATTCC AGACAGCGAG ACGCTGGAAC CAAAAGGAGC TCCTGACAAT 
    AATTCAGTGC CTCAGACAAC TGTGAAGAAA GAACTAAAGA AAGAAAATGC TCAACAAAAT 
    GAGGAACCAG CAGCTGATAA AGCGCCATCT GAAAAAGATT ATATCAAAAA GGAAACACCA 
    CGCACATTCA AGCAGGAGGA GGAGGAAACG CCAATAGATG TTTGTATGGA AGCAGGACCA 
    AATGTGAAAG ATGCAGAGAG TCCAGATCCA CCAGTCTCCT CTACAGAGCC CTCAAAACCA 
    CCACCTGAAC AGGACGCGAA GCCCCAGTTT GAACCTGCAG AGGGCGCTGC TGAACCTCAG 
    AAACCCACCA AACCTGTTGG GACGGAGTTC GTGCGACCGG TCGTCGGTTA TTTCTGTAAC 
    CTGTGTCAGC AGATCTTCGC TGAAGAGGAT GAAGCCAAAC AGCAGCACTG CAGCAGCCTG 
    TCGCATTACA GCAAATACCA GGAGAAGACT GGGAGGGATC CGTGGACGAG CTGA

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

    LOC101478771 ( XM_012919357.1 ) cDNA ORF clone, Maylandia zebra(zebra mbuna) -> XP_012774811.1 Maylandia zebra matrin-3-like (LOC101478771), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OMa04311
    Clone ID Related Accession (Same CDS sequence) XM_012919357.2 , XM_012919357.1
    Accession Version XM_012919357.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3054bp)
    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 1444838400000
    Organism Maylandia zebra(Zebra mbuna)
    Product neurofilament heavy polypeptide-like isoform X3
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014444742.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Maylandia zebra Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 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
    ATGCAGACGG TCCGAAGGGA CGATAAATCT GAGAAGAAGA AAGATGGAGG AAAAGGCGCC 
    CCGGCAGCTA GTCAAACATC GCAGTCGAAT AGCAAGTGGA AGCAGAAGAA GGTAAAGAAG 
    AATTTGGAGA AAGGGAAGGT AGTGTGCATC AAGTTTCCGT CTCAGTCTGT CGATGAGAAA 
    TACCTCAGGA AGCTTGCAGA ACCGTTCGGG AAGATCATCA AGGTCATCAT GTTTCCGTCT 
    CTGGGCTTCG TGGAGATGGG CTCGGTTGAT CAGGCCAAAG ACTTGGTGAA GTTTCACAGC 
    AATTATCCTC CAACTGTGAA CGGAGAGCAG CTCGTGTTCA GCGTCTCCAG CGCCTTCAAC 
    TTTCTCCAGA GCTCCCGGGT GGTGAGTTTC ACGCCCGCTC CATCGGGAGA AGACGGAAAA 
    TCCGACCTGA TCAATATCAT CAAACGCTTC GGCCCGCCGC TCTACACCCT GTTCCTGCCA 
    TCAATGGTGT TCATTGAGAT GAAGAACGCC CCTGATGCTC AGAAGCTGGT GGATTATTAT 
    CTGTCCAACA CTCTGAGGAT CAACAGTGAC TTGATTTGTG TCTCCTTCTC TGGAGAGTAC 
    AAGACTCTCA TGCGGGTTTC AAAAGCCAAG AGGTACGAAG AAGAAAACGA AAGTACAAAG 
    AAGAGTACCA CCAAGAGGAC AAGGAGCTCA AGCCGAGACA GAACGACAGA AAATAAGAAA 
    AGAAGGTCCA GATCCAGAGA CAAGGCCAGC AAAGAGGAAC GGACCAGAAC AAGGTCCAGG 
    TCCAGGGATA AATCTAAAGA AAAATCCAGC AGAGATGCCA AAACTAGATC TAGGTCCCAA 
    GACAAGTTGG ATAGAAAAAG GAAGAGCAGA ACCCGGTCCA GGTCCAGAGA TAAGTCCACT 
    AGTGAGAAGC GGACCAGGAC CAGGTCTAAG TCAGGGTCCA GAGAAAAAAC AAAAGAAAAA 
    TCCAACAAGG AAAGCAAGAA AGGGTCCCAA GCGAAGAAGC CAGACGAATC GAGAGAAAAA 
    TCCAACAGAG ACCAGAAGAC CAGGTCCGCA TCCAGAGACA AGTCCAGCAG AGAGACAAAA 
    GCCAAGTCTA CAACCCAAGA AAAGTCAAGC AAAGAAAGAA AAAGCAGGAG CAAATCTAGA 
    TCCGTGGAAA AATCCAGCAG AGATAAGAAA TCCAGGTCTA GAGAGAGATC CAGCAACAAG 
    TCCTCCAGAC GGGACGGAGA AAAGACGGCA GAACCAGAGA AACCAGATGC AGAGTCCACA 
    TCCAAAGGAC AACCGTCTCC TCTCGAAGAC TCCAAACCTG AAGTTTCAAA CACAGAAGAA 
    GTGGAGGGGG AGGCAGCGTT GCCTGGAGAG GAGAGCGACA TCGAGGGGAT GGAGGTGATT 
    GCTGAGGATG GAGAGAATCT GGCAGATGAC GATGAGGAGG CTCTGCAAGA GGAAGAGAAA 
    AAAGAGAGTC CTAAAGAGAG AGCACCTGAA AAAGATGAAG TAAAGGAGGT GATAGGTGGA 
    GAGCCTGGCA ATGAGGAGAA ACCTGCGTCG GAGAAGGAGA TAAAGAAGGA AGAGAAGGAG 
    GAAGTAGAGG AGTCAAAGGA AGCAACAGAG ACTCCTCTAC AGGAGGATTT GGAGGACTTC 
    CCTGTAGACC TGGAAAACTG CATCACTCTG GATGAACTGG AAGAAGATGA CTCTGACGAC 
    CAAGGTGGAG AATCAGCAGA TGAGCCCAAG TCAACATCGA AATCCAGCAG GGTTTTTTAC 
    TTCGGCCACC TGCCACCTAA TTATGCCCTC TTTGACTTCT TCCAACTGCT GCGAAATTTT 
    GGGAAGGTGG TGCGCTATTA CCTGATTGGC AATCGACGAG AGGGTTTCAT TGAGATGTCG 
    AGTTCTTCAG CGGCCCTGAA AGCTGTTGAA GAGCTCGTCA GCAAACCAGC CATCCACAAC 
    TGCCCCAAAC TCAAAGCCCG CATCTCCACC AAATACTACA GACTTGACAA CGGATGGGTT 
    GTTCACTCGG ACGGCAGCAA TGACAAGGAC AGTCGAGGCA GGAAGCGCGA GAAACGAAGC 
    AAATCCAAGA CCTCAGACCA GGACGAGACC GACAGGAGGT CTAAAGGGAG GAAGGAGTCC 
    CCGAAGAAGA CATCAGAGAA ATCAGGCAAA AAGACTCCAG AAAAAGATTC TGGGTCAAAA 
    AAGCCTCCAG AGAAAGACTC ATCAGGGAAA AAGACCCCAA AGAAAGAGTC CACATCCAAA 
    ACGTCTCCAG AAAAGGATGC CAAAAACATC TTGGAAACGA AATCCACTGG GAAAAAGACT 
    CCAGCGAAAG ATTTGCCATC TAAAAAAACT TCAGGTAAGG ATTCTACAAC AAAAAAGACT 
    CCAGCGAAAA AGTCCGCATC CAGAAAGACT CTGGAAACCA AGTCTACATT CAGAGAAACT 
    TCAGCAGAAG AGTCCAAAAA GTCTCCAAAG AGGGAATCGT TGGACAAAGA GCCTCCAGAA 
    AAGGTCCTTA AAAACGGCCC GGAGAAGGAA TCCGCAGGGA GAAAGACTCC TGAGAAAGGG 
    TCATCGTGTG CAGAGATTCC AGACAGCGAG ACGCTGGAAC CAAAAGGAGC TCCTGACAAT 
    AATTCAGTGC CTCAGACAAC TGTGAAGAAA GAACTAAAGA AAGAAAATGC TCAACAAAAT 
    GAGGAACCAG CAGCTGATAA AGCGCCATCT GAAAAAGATT ATATCAAAAA GGAAACACCA 
    CGCACATTCA AGCAGGAGGA GGAGGAAACG CCAATAGATG TTTGTATGGA AGCAGGACCA 
    AATGTGAAAG ATGCAGAGAG TCCAGATCCA CCAGTCTCCT CTACAGAGCC CTCAAAACCA 
    CCACCTGAAC AGGACGCGAA GCCCCAGTTT GAACCTGCAG AGGGCGCTGC TGAACCTCAG 
    AAACCCACCA AACCTGTTGG GACGGAGTTC GTGCGACCGG TCGTCGGTTA TTTCTGTAAC 
    CTGTGTCAGC AGATCTTCGC TGAAGAGGAT GAAGCCAAAC AGCAGCACTG CAGCAGCCTG 
    TCGCATTACA GCAAATACCA GGAGAAGACT GGGAGGGATC CGTGGACGAG CTGA

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

    RefSeq XP_012774811.1
    CDS234..3287
    Translation

    Target ORF information:

    RefSeq Version XM_012919357.1
    Organism Maylandia zebra(Zebra mbuna)
    Definition Maylandia zebra matrin-3-like (LOC101478771), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012919357.1

    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
    ATGCAGACGG TCCGAAGGGA CGATAAATCT GAGAAGAAGA AAGATGGAGG AAAAGGCGCC 
    CCGGCAGCTA GTCAAACATC GCAGTCGAAT AGCAAGTGGA AGCAGAAGAA GGTAAAGAAG 
    AATTTGGAGA AAGGGAAGGT AGTGTGCATC AAGTTTCCGT CTCAGTCTGT CGATGAGAAA 
    TACCTCAGGA AGCTTGCAGA ACCGTTCGGG AAGATCATCA AGGTCATCAT GTTTCCGTCT 
    CTGGGCTTCG TGGAGATGGG CTCGGTTGAT CAGGCCAAAG ACTTGGTGAA GTTTCACAGC 
    AATTATCCTC CAACTGTGAA CGGAGAGCAG CTCGTGTTCA GCGTCTCCAG CGCCTTCAAC 
    TTTCTCCAGA GCTCCCGGGT GGTGAGTTTC ACGCCCGCTC CATCGGGAGA AGACGGAAAA 
    TCCGACCTGA TCAATATCAT CAAACGCTTC GGCCCGCCGC TCTACACCCT GTTCCTGCCA 
    TCAATGGTGT TCATTGAGAT GAAGAACGCC CCTGATGCTC AGAAGCTGGT GGATTATTAT 
    CTGTCCAACA CTCTGAGGAT CAACAGTGAC TTGATTTGTG TCTCCTTCTC TGGAGAGTAC 
    AAGACTCTCA TGCGGGTTTC AAAAGCCAAG AGGTACGAAG AAGAAAACGA AAGTACAAAG 
    AAGAGTACCA CCAAGAGGAC AAGGAGCTCA AGCCGAGACA GAACGACAGA AAATAAGAAA 
    AGAAGGTCCA GATCCAGAGA CAAGGCCAGC AAAGAGGAAC GGACCAGAAC AAGGTCCAGG 
    TCCAGGGATA AATCTAAAGA AAAATCCAGC AGAGATGCCA AAACTAGATC TAGGTCCCAA 
    GACAAGTTGG ATAGAAAAAG GAAGAGCAGA ACCCGGTCCA GGTCCAGAGA TAAGTCCACT 
    AGTGAGAAGC GGACCAGGAC CAGGTCTAAG TCAGGGTCCA GAGAAAAAAC AAAAGAAAAA 
    TCCAACAAGG AAAGCAAGAA AGGGTCCCAA GCGAAGAAGC CAGACGAATC GAGAGAAAAA 
    TCCAACAGAG ACCAGAAGAC CAGGTCCGCA TCCAGAGACA AGTCCAGCAG AGAGACAAAA 
    GCCAAGTCTA CAACCCAAGA AAAGTCAAGC AAAGAAAGAA AAAGCAGGAG CAAATCTAGA 
    TCCGTGGAAA AATCCAGCAG AGATAAGAAA TCCAGGTCTA GAGAGAGATC CAGCAACAAG 
    TCCTCCAGAC GGGACGGAGA AAAGACGGCA GAACCAGAGA AACCAGATGC AGAGTCCACA 
    TCCAAAGGAC AACCGTCTCC TCTCGAAGAC TCCAAACCTG AAGTTTCAAA CACAGAAGAA 
    GTGGAGGGGG AGGCAGCGTT GCCTGGAGAG GAGAGCGACA TCGAGGGGAT GGAGGTGATT 
    GCTGAGGATG GAGAGAATCT GGCAGATGAC GATGAGGAGG CTCTGCAAGA GGAAGAGAAA 
    AAAGAGAGTC CTAAAGAGAG AGCACCTGAA AAAGATGAAG TAAAGGAGGT GATAGGTGGA 
    GAGCCTGGCA ATGAGGAGAA ACCTGCGTCG GAGAAGGAGA TAAAGAAGGA AGAGAAGGAG 
    GAAGTAGAGG AGTCAAAGGA AGCAACAGAG ACTCCTCTAC AGGAGGATTT GGAGGACTTC 
    CCTGTAGACC TGGAAAACTG CATCACTCTG GATGAACTGG AAGAAGATGA CTCTGACGAC 
    CAAGGTGGAG AATCAGCAGA TGAGCCCAAG TCAACATCGA AATCCAGCAG GGTTTTTTAC 
    TTCGGCCACC TGCCACCTAA TTATGCCCTC TTTGACTTCT TCCAACTGCT GCGAAATTTT 
    GGGAAGGTGG TGCGCTATTA CCTGATTGGC AATCGACGAG AGGGTTTCAT TGAGATGTCG 
    AGTTCTTCAG CGGCCCTGAA AGCTGTTGAA GAGCTCGTCA GCAAACCAGC CATCCACAAC 
    TGCCCCAAAC TCAAAGCCCG CATCTCCACC AAATACTACA GACTTGACAA CGGATGGGTT 
    GTTCACTCGG ACGGCAGCAA TGACAAGGAC AGTCGAGGCA GGAAGCGCGA GAAACGAAGC 
    AAATCCAAGA CCTCAGACCA GGACGAGACC GACAGGAGGT CTAAAGGGAG GAAGGAGTCC 
    CCGAAGAAGA CATCAGAGAA ATCAGGCAAA AAGACTCCAG AAAAAGATTC TGGGTCAAAA 
    AAGCCTCCAG AGAAAGACTC ATCAGGGAAA AAGACCCCAA AGAAAGAGTC CACATCCAAA 
    ACGTCTCCAG AAAAGGATGC CAAAAACATC TTGGAAACGA AATCCACTGG GAAAAAGACT 
    CCAGCGAAAG ATTTGCCATC TAAAAAAACT TCAGGTAAGG ATTCTACAAC AAAAAAGACT 
    CCAGCGAAAA AGTCCGCATC CAGAAAGACT CTGGAAACCA AGTCTACATT CAGAGAAACT 
    TCAGCAGAAG AGTCCAAAAA GTCTCCAAAG AGGGAATCGT TGGACAAAGA GCCTCCAGAA 
    AAGGTCCTTA AAAACGGCCC GGAGAAGGAA TCCGCAGGGA GAAAGACTCC TGAGAAAGGG 
    TCATCGTGTG CAGAGATTCC AGACAGCGAG ACGCTGGAAC CAAAAGGAGC TCCTGACAAT 
    AATTCAGTGC CTCAGACAAC TGTGAAGAAA GAACTAAAGA AAGAAAATGC TCAACAAAAT 
    GAGGAACCAG CAGCTGATAA AGCGCCATCT GAAAAAGATT ATATCAAAAA GGAAACACCA 
    CGCACATTCA AGCAGGAGGA GGAGGAAACG CCAATAGATG TTTGTATGGA AGCAGGACCA 
    AATGTGAAAG ATGCAGAGAG TCCAGATCCA CCAGTCTCCT CTACAGAGCC CTCAAAACCA 
    CCACCTGAAC AGGACGCGAA GCCCCAGTTT GAACCTGCAG AGGGCGCTGC TGAACCTCAG 
    AAACCCACCA AACCTGTTGG GACGGAGTTC GTGCGACCGG TCGTCGGTTA TTTCTGTAAC 
    CTGTGTCAGC AGATCTTCGC TGAAGAGGAT GAAGCCAAAC AGCAGCACTG CAGCAGCCTG 
    TCGCATTACA GCAAATACCA GGAGAAGACT GGGAGGGATC CGTGGACGAG CTGA

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

    LOC101478771 ( XM_012919355.3 ) cDNA ORF clone, Maylandia zebra(zebra mbuna) -> XP_012774809.2 Maylandia zebra matrin-3 (LOC101478771), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OMa366872
    Clone ID Related Accession (Same CDS sequence) XM_012919355.3 , XM_012919356.3
    Accession Version XM_012919355.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4059bp)
    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 1524412800000
    Organism Maylandia zebra(zebra mbuna)
    Product matrin-3 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036781.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 24, 2018 this sequence version replaced XM_012919355.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Maylandia zebra Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGTCTCAGA ATTACCCGTA CAGAAAGCCG CCGCCTGACA CCGACCTCAG AACTGATCCC 
    GGGCCTTACA GATCTGTGGA CTACCGCCAC TCCTCAGCGG ACCGTGACTT TTACAGGCAG 
    CCACAAGACT CCTTCTCTGT CTCCTCCTCC TGCCCGTCCT CGTCCAGGGG CTCTGGAGTG 
    CTGCAGTCAT CGCAGGACAA TGTTCTGAGC ATCCTGAGCA GCTGCGGTCT GGAGCCCAGT 
    GATCTGGCGC TGCTAGCTGA GCTGCCCGAA GACGTCCTCA CTATTGAGTC TCTGCCACAC 
    ATCCTCAGAC AGATCAAATG CAAGAAAGGG ACCGTCAAAC CTTTCCCTCC CCGGGCTCCG 
    TCTCCCTCCT CCTCTTCCTC CTACCCTCCC AGCTCCTCCT CCTCTAGAGA CTGGGACCAG 
    CTCCATCGCA CGTCGGTCCA GTACCCGCTG GACCACCTGC CACCACCACC TCCTCCCTCG 
    GAGCAGCTCA TGGATCGCTG GAATAATCCG ATTACCGTGA GCTCCGGCCG AGCAGAGCTG 
    CCACCATCGT CATCCTTATC ATCGTCGTCG TTGGGGTACA CGGTGGACTT CCACCGCAGG 
    CAGGGCCCCT CTGATTATGG TAAGGCTGGT CCAGTTCCTT CTTACAGCCC AGCGAGGCGA 
    GGAGATAGAG CGCCGTCATC TCGATTCTCT GAGGCTGGAC CAGCTGATTA CAGGTCATCA 
    GCGCTGGTGA CGGCTTCTCC TCTTCCTAGC GAGCACCAGT CCAAACCTCT GGCAAGCCGC 
    CGTGACACGT CCTCCACGAG GAGCAGTCAG TCCTCGCCCT CAATGCCTAC ACGGAAAGAA 
    GCTCTGGATT TCCACGGGAA GGTCCCGCCG TCGTTCCCGT ACTCGTGCTC GCTGTGTGAT 
    ATCACTGTAC TGTCGCAGAA GGTTTGGATT CAGCACGTGA CCGGCAGGCA CCATGCAGAT 
    GGACAGCTCA GCCTCCTGCA GCAGTTTCCT AACTGGGACT GCCGCATGCA GACGGTCCGA 
    AGGGACGATA AATCTGAGAA GAAGAAAGAT GGAGGAAAAG GCGCCCCGGC AGCTAGTCAA 
    ACATCGCAGT CGAATAGCAA GTGGAAGCAG AAGAAGGTAA AGAAGAATTT GGAGAAAGGG 
    AAGGTAGTGT GCATCAAGTT TCCGTCTCAG TCTGTCGATG AGAAATACCT CAGGAAGCTT 
    GCAGAACCGT TCGGGAAGAT CATCAAGGTC ATCATGTTTC CGTCTCTGGG CTTCGTGGAG 
    ATGGGCTCGG TTGATCAGGC CAAAGACTTG GTGAAGTTTC ACAGCAATTA TCCTCCAACT 
    GTGAACGGAG AGCAGCTCGT GTTCAGCGTC TCCAGCGCCT TCAACTTTCT CCAGAGCTCC 
    CGGGTGGTGA GTTTCACGCC CGCTCCATCG GGAGAAGACG GAAAATCCGA CCTGATCAAT 
    ATCATCAAAC GCTTCGGCCC GCCGCTCTAC ACCCTGTTCC TGCCATCAAT GGTGTTCATT 
    GAGATGAAGA ACGCCCCTGA TGCTCAGAAG CTGGTGGATT ATTATCTGTC CAACACTCTG 
    AGGATCAACA GTGACTTGAT TTGTGTCTCC TTCTCTGGAG AGTACAAGAC TCTCATGCGG 
    GTTTCAAAAG CCAAGAGGTA CGAAGAAGAA AACGAAAGTA CAAAGAAGAG TACCACCAAG 
    AGGACAAGGA GCTCAAGCCG AGACAGAACG ACAGAAAATA AGAAAAGAAG GTCCAGATCC 
    AGAGACAAGG CCAGCAAAGA GGAACGGACC AGAACAAGGT CCAGGTCCAG GGATAAATCT 
    AAAGAAAAAT CCAGCAGAGA TGCCAAAACT AGATCTAGGT CCCAAGACAA GTTGGATAGA 
    AAAAGGAAGA GCAGAACCCG GTCCAGGTCC AGAGATAAGT CCACTAGTGA GAAGCGGACC 
    AGGACCAGGT CTAAGTCAGG GTCCAGAGAA AAAACAAAAG AAAAATCCAA CAAGGAAAGC 
    AAGAAAGGGT CCCAAGCGAA GAAGCCAGAC GAATCGAGAG AAAAATCCAA CAGAGACCAG 
    AAGACCAGGT CCGCATCCAG AGACAAGTCC AGCAGAGAGA CAAAAGCCAA GTCTACAACC 
    CAAGAAAAGT CAAGCAAAGA AAGAAAAAGC AGGAGCAAAT CTAGATCCGT GGAAAAATCC 
    AGCAGAGATA AGAAATCCAG GTCTAGAGAG AGATCCAGCA ACAAGTCCTC CAGACGGGAC 
    GGAGAAAAGA CGGCAGAACC AGAGAAACCA GATGCAGAGT CCACATCCAA AGGACAACCG 
    TCTCCTCTCG AAGACTCCAA ACCTGAAGTT TCAAACACAG AAGAAGTGGA GGGGGAGGCA 
    GCGTTGCCTG GAGAGGAGAG CGACATCGAG GGGATGGAGG TGATTGCTGA GGATGGAGAG 
    AATCTGGCAG ATGACGATGA GGAGGCTCTG CAAGAGGAAG AGAAAAAAGA GAGTCCTAAA 
    GAGAGAGCAC CTGAAAAAGA TGAAGTAAAG GAGGTGATAG GTGGAGAGCC TGGCAATGAG 
    GAGAAACCTG CGTCGGAGAA GGAGATAAAG AAGGAAGAGA AGGAGGAAGT AGAGGAGTCA 
    AAGGAAGCAA CAGAGACTCC TCTACAGGAG GATTTGGAGG ACTTCCCTGT AGACCTGGAA 
    AACTGCATCA CTCTGGATGA ACTGGAAGAA GATGACTCTG ACGACCAAGG TGGAGAATCA 
    GCAGATGAGC CCAAGTCAAC ATCGAAATCC AGCAGGGTTT TTTACTTCGG CCACCTGCCA 
    CCTAATTACG CCCTCTTTGA CTTCTTCCAA CTGCTGCGAA ATTTTGGGAA GGTGGTGCGC 
    TATTACCTGA TTGGCAATCG ACGAGAGGGT TTCATTGAGA TGTCGAGTTC TTCAGCGGCC 
    CTGAAAGCTG TTGAAGAGCT CGTCAGCAAA CCAGCCATCC ACAACTGCCC CAAACTCAAA 
    GCCCGCATCT CCACCAAATA CTACAGACTT GACAACGGAT GGGTTGTTCA CTCGGACGGC 
    AGCAATGACA AGGACAGTCG AGGCAGGAAG CGCGAGAAAC GAAGCAAATC CAAGACCTCA 
    GACCAGGACG AGACCGACAG GAGGTCTAAA GGGAGGAAGG AGTCCCCGAA GAAGACATCA 
    GAGAAATCAG GCAAAAAGAC TCCAGAAAAA GATTCTGGGT CAAAAAAGCC TCCAGAGAAA 
    GACTCATCAG GGAAAAAGAC CCCAAAGAAA GAGTCCACAT CCAAAACGTC TCCAGAAAAG 
    GATGCCAAAA ACATCTTGGA AACGAAATCC ACTGGGAAAA AGACTCCAGC GAAAGATTTG 
    CCATCTAAAA AAACTTCAGG TAAGGATTCT ACAACAAAAA AGACTCCAGC GAAAAAGTCC 
    GCATCCAGAA AGACTCTGGA AAACAAGTCT ACATTCAGAG AAACTTCAGC AGAAGAGTCC 
    AAAAAGTCTC CAAAGAGGGA ATCGTTGGAC AAAGAGCCTC CAGAAAAGGT CCTTAAAAAC 
    GGCCCGGAGA AGGAATCCGC AGGGAGAAAG ACTCCTGAGA AAGGGTCATC GTGTGCAGAG 
    ATTCCAGACA GCGAGACGCT GGAACCAAAA GGAGCTCCTG ACAATAATTC AGTGCCTCAG 
    ACAACTGTGA AGAAAGAACT AAAGAAAGAA AATACTCAAC AAAATGAGGA ACCAGCAGCT 
    GATAAAGCGC CATCTGAAAA AGATTATATC AAAAAGGAAA CACCACGCAC ATTCAAGCAG 
    GAGGAGGAGG AAACACCAAT AGATGTTTGT ATGGAAGCAG GACCAAATGT GAAAGATGCA 
    GAGAGTCCAG ATCCACCAGT CTCCTCTACA GAGCCCTCAA AACCACCACC TGAACAGGAC 
    GCGAAGCCCC AGTTTGAACC TGCAGAGGGC GCTGCTGAAC CTCAGAAACC CACCAAACCT 
    GTTGGGACGG AGTTCGTGCG ACCGGTCGTC GGTTATTTCT GTAACCTGTG TCAGCAGATC 
    TTCGCTGAAG AGGATGAAGC CAAACAGCAG CACTGCAGCA GCCTGTCGCA TTACAGCAAA 
    TACCAGGAGA AGACTGGGAG GGATCCGTGG ACGAGCTGA

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

    RefSeq XP_012774809.2
    CDS186..4244
    Translation

    Target ORF information:

    RefSeq Version XM_012919355.3
    Organism Maylandia zebra(zebra mbuna)
    Definition Maylandia zebra matrin-3 (LOC101478771), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012919355.3

    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
    ATGTCTCAGA ATTACCCGTA CAGAAAGCCG CCGCCTGACA CCGACCTCAG AACTGATCCC 
    GGGCCTTACA GATCTGTGGA CTACCGCCAC TCCTCAGCGG ACCGTGACTT TTACAGGCAG 
    CCACAAGACT CCTTCTCTGT CTCCTCCTCC TGCCCGTCCT CGTCCAGGGG CTCTGGAGTG 
    CTGCAGTCAT CGCAGGACAA TGTTCTGAGC ATCCTGAGCA GCTGCGGTCT GGAGCCCAGT 
    GATCTGGCGC TGCTAGCTGA GCTGCCCGAA GACGTCCTCA CTATTGAGTC TCTGCCACAC 
    ATCCTCAGAC AGATCAAATG CAAGAAAGGG ACCGTCAAAC CTTTCCCTCC CCGGGCTCCG 
    TCTCCCTCCT CCTCTTCCTC CTACCCTCCC AGCTCCTCCT CCTCTAGAGA CTGGGACCAG 
    CTCCATCGCA CGTCGGTCCA GTACCCGCTG GACCACCTGC CACCACCACC TCCTCCCTCG 
    GAGCAGCTCA TGGATCGCTG GAATAATCCG ATTACCGTGA GCTCCGGCCG AGCAGAGCTG 
    CCACCATCGT CATCCTTATC ATCGTCGTCG TTGGGGTACA CGGTGGACTT CCACCGCAGG 
    CAGGGCCCCT CTGATTATGG TAAGGCTGGT CCAGTTCCTT CTTACAGCCC AGCGAGGCGA 
    GGAGATAGAG CGCCGTCATC TCGATTCTCT GAGGCTGGAC CAGCTGATTA CAGGTCATCA 
    GCGCTGGTGA CGGCTTCTCC TCTTCCTAGC GAGCACCAGT CCAAACCTCT GGCAAGCCGC 
    CGTGACACGT CCTCCACGAG GAGCAGTCAG TCCTCGCCCT CAATGCCTAC ACGGAAAGAA 
    GCTCTGGATT TCCACGGGAA GGTCCCGCCG TCGTTCCCGT ACTCGTGCTC GCTGTGTGAT 
    ATCACTGTAC TGTCGCAGAA GGTTTGGATT CAGCACGTGA CCGGCAGGCA CCATGCAGAT 
    GGACAGCTCA GCCTCCTGCA GCAGTTTCCT AACTGGGACT GCCGCATGCA GACGGTCCGA 
    AGGGACGATA AATCTGAGAA GAAGAAAGAT GGAGGAAAAG GCGCCCCGGC AGCTAGTCAA 
    ACATCGCAGT CGAATAGCAA GTGGAAGCAG AAGAAGGTAA AGAAGAATTT GGAGAAAGGG 
    AAGGTAGTGT GCATCAAGTT TCCGTCTCAG TCTGTCGATG AGAAATACCT CAGGAAGCTT 
    GCAGAACCGT TCGGGAAGAT CATCAAGGTC ATCATGTTTC CGTCTCTGGG CTTCGTGGAG 
    ATGGGCTCGG TTGATCAGGC CAAAGACTTG GTGAAGTTTC ACAGCAATTA TCCTCCAACT 
    GTGAACGGAG AGCAGCTCGT GTTCAGCGTC TCCAGCGCCT TCAACTTTCT CCAGAGCTCC 
    CGGGTGGTGA GTTTCACGCC CGCTCCATCG GGAGAAGACG GAAAATCCGA CCTGATCAAT 
    ATCATCAAAC GCTTCGGCCC GCCGCTCTAC ACCCTGTTCC TGCCATCAAT GGTGTTCATT 
    GAGATGAAGA ACGCCCCTGA TGCTCAGAAG CTGGTGGATT ATTATCTGTC CAACACTCTG 
    AGGATCAACA GTGACTTGAT TTGTGTCTCC TTCTCTGGAG AGTACAAGAC TCTCATGCGG 
    GTTTCAAAAG CCAAGAGGTA CGAAGAAGAA AACGAAAGTA CAAAGAAGAG TACCACCAAG 
    AGGACAAGGA GCTCAAGCCG AGACAGAACG ACAGAAAATA AGAAAAGAAG GTCCAGATCC 
    AGAGACAAGG CCAGCAAAGA GGAACGGACC AGAACAAGGT CCAGGTCCAG GGATAAATCT 
    AAAGAAAAAT CCAGCAGAGA TGCCAAAACT AGATCTAGGT CCCAAGACAA GTTGGATAGA 
    AAAAGGAAGA GCAGAACCCG GTCCAGGTCC AGAGATAAGT CCACTAGTGA GAAGCGGACC 
    AGGACCAGGT CTAAGTCAGG GTCCAGAGAA AAAACAAAAG AAAAATCCAA CAAGGAAAGC 
    AAGAAAGGGT CCCAAGCGAA GAAGCCAGAC GAATCGAGAG AAAAATCCAA CAGAGACCAG 
    AAGACCAGGT CCGCATCCAG AGACAAGTCC AGCAGAGAGA CAAAAGCCAA GTCTACAACC 
    CAAGAAAAGT CAAGCAAAGA AAGAAAAAGC AGGAGCAAAT CTAGATCCGT GGAAAAATCC 
    AGCAGAGATA AGAAATCCAG GTCTAGAGAG AGATCCAGCA ACAAGTCCTC CAGACGGGAC 
    GGAGAAAAGA CGGCAGAACC AGAGAAACCA GATGCAGAGT CCACATCCAA AGGACAACCG 
    TCTCCTCTCG AAGACTCCAA ACCTGAAGTT TCAAACACAG AAGAAGTGGA GGGGGAGGCA 
    GCGTTGCCTG GAGAGGAGAG CGACATCGAG GGGATGGAGG TGATTGCTGA GGATGGAGAG 
    AATCTGGCAG ATGACGATGA GGAGGCTCTG CAAGAGGAAG AGAAAAAAGA GAGTCCTAAA 
    GAGAGAGCAC CTGAAAAAGA TGAAGTAAAG GAGGTGATAG GTGGAGAGCC TGGCAATGAG 
    GAGAAACCTG CGTCGGAGAA GGAGATAAAG AAGGAAGAGA AGGAGGAAGT AGAGGAGTCA 
    AAGGAAGCAA CAGAGACTCC TCTACAGGAG GATTTGGAGG ACTTCCCTGT AGACCTGGAA 
    AACTGCATCA CTCTGGATGA ACTGGAAGAA GATGACTCTG ACGACCAAGG TGGAGAATCA 
    GCAGATGAGC CCAAGTCAAC ATCGAAATCC AGCAGGGTTT TTTACTTCGG CCACCTGCCA 
    CCTAATTACG CCCTCTTTGA CTTCTTCCAA CTGCTGCGAA ATTTTGGGAA GGTGGTGCGC 
    TATTACCTGA TTGGCAATCG ACGAGAGGGT TTCATTGAGA TGTCGAGTTC TTCAGCGGCC 
    CTGAAAGCTG TTGAAGAGCT CGTCAGCAAA CCAGCCATCC ACAACTGCCC CAAACTCAAA 
    GCCCGCATCT CCACCAAATA CTACAGACTT GACAACGGAT GGGTTGTTCA CTCGGACGGC 
    AGCAATGACA AGGACAGTCG AGGCAGGAAG CGCGAGAAAC GAAGCAAATC CAAGACCTCA 
    GACCAGGACG AGACCGACAG GAGGTCTAAA GGGAGGAAGG AGTCCCCGAA GAAGACATCA 
    GAGAAATCAG GCAAAAAGAC TCCAGAAAAA GATTCTGGGT CAAAAAAGCC TCCAGAGAAA 
    GACTCATCAG GGAAAAAGAC CCCAAAGAAA GAGTCCACAT CCAAAACGTC TCCAGAAAAG 
    GATGCCAAAA ACATCTTGGA AACGAAATCC ACTGGGAAAA AGACTCCAGC GAAAGATTTG 
    CCATCTAAAA AAACTTCAGG TAAGGATTCT ACAACAAAAA AGACTCCAGC GAAAAAGTCC 
    GCATCCAGAA AGACTCTGGA AAACAAGTCT ACATTCAGAG AAACTTCAGC AGAAGAGTCC 
    AAAAAGTCTC CAAAGAGGGA ATCGTTGGAC AAAGAGCCTC CAGAAAAGGT CCTTAAAAAC 
    GGCCCGGAGA AGGAATCCGC AGGGAGAAAG ACTCCTGAGA AAGGGTCATC GTGTGCAGAG 
    ATTCCAGACA GCGAGACGCT GGAACCAAAA GGAGCTCCTG ACAATAATTC AGTGCCTCAG 
    ACAACTGTGA AGAAAGAACT AAAGAAAGAA AATACTCAAC AAAATGAGGA ACCAGCAGCT 
    GATAAAGCGC CATCTGAAAA AGATTATATC AAAAAGGAAA CACCACGCAC ATTCAAGCAG 
    GAGGAGGAGG AAACACCAAT AGATGTTTGT ATGGAAGCAG GACCAAATGT GAAAGATGCA 
    GAGAGTCCAG ATCCACCAGT CTCCTCTACA GAGCCCTCAA AACCACCACC TGAACAGGAC 
    GCGAAGCCCC AGTTTGAACC TGCAGAGGGC GCTGCTGAAC CTCAGAAACC CACCAAACCT 
    GTTGGGACGG AGTTCGTGCG ACCGGTCGTC GGTTATTTCT GTAACCTGTG TCAGCAGATC 
    TTCGCTGAAG AGGATGAAGC CAAACAGCAG CACTGCAGCA GCCTGTCGCA TTACAGCAAA 
    TACCAGGAGA AGACTGGGAG GGATCCGTGG ACGAGCTGA

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

    LOC101478771 ( XM_012919356.3 ) cDNA ORF clone, Maylandia zebra(zebra mbuna) -> XP_012774810.2 Maylandia zebra matrin-3 (LOC101478771), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OMa366872
    Clone ID Related Accession (Same CDS sequence) XM_012919355.3 , XM_012919356.3
    Accession Version XM_012919356.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4059bp)
    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 1524412800000
    Organism Maylandia zebra(zebra mbuna)
    Product matrin-3 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036781.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 24, 2018 this sequence version replaced XM_012919356.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Maylandia zebra Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGTCTCAGA ATTACCCGTA CAGAAAGCCG CCGCCTGACA CCGACCTCAG AACTGATCCC 
    GGGCCTTACA GATCTGTGGA CTACCGCCAC TCCTCAGCGG ACCGTGACTT TTACAGGCAG 
    CCACAAGACT CCTTCTCTGT CTCCTCCTCC TGCCCGTCCT CGTCCAGGGG CTCTGGAGTG 
    CTGCAGTCAT CGCAGGACAA TGTTCTGAGC ATCCTGAGCA GCTGCGGTCT GGAGCCCAGT 
    GATCTGGCGC TGCTAGCTGA GCTGCCCGAA GACGTCCTCA CTATTGAGTC TCTGCCACAC 
    ATCCTCAGAC AGATCAAATG CAAGAAAGGG ACCGTCAAAC CTTTCCCTCC CCGGGCTCCG 
    TCTCCCTCCT CCTCTTCCTC CTACCCTCCC AGCTCCTCCT CCTCTAGAGA CTGGGACCAG 
    CTCCATCGCA CGTCGGTCCA GTACCCGCTG GACCACCTGC CACCACCACC TCCTCCCTCG 
    GAGCAGCTCA TGGATCGCTG GAATAATCCG ATTACCGTGA GCTCCGGCCG AGCAGAGCTG 
    CCACCATCGT CATCCTTATC ATCGTCGTCG TTGGGGTACA CGGTGGACTT CCACCGCAGG 
    CAGGGCCCCT CTGATTATGG TAAGGCTGGT CCAGTTCCTT CTTACAGCCC AGCGAGGCGA 
    GGAGATAGAG CGCCGTCATC TCGATTCTCT GAGGCTGGAC CAGCTGATTA CAGGTCATCA 
    GCGCTGGTGA CGGCTTCTCC TCTTCCTAGC GAGCACCAGT CCAAACCTCT GGCAAGCCGC 
    CGTGACACGT CCTCCACGAG GAGCAGTCAG TCCTCGCCCT CAATGCCTAC ACGGAAAGAA 
    GCTCTGGATT TCCACGGGAA GGTCCCGCCG TCGTTCCCGT ACTCGTGCTC GCTGTGTGAT 
    ATCACTGTAC TGTCGCAGAA GGTTTGGATT CAGCACGTGA CCGGCAGGCA CCATGCAGAT 
    GGACAGCTCA GCCTCCTGCA GCAGTTTCCT AACTGGGACT GCCGCATGCA GACGGTCCGA 
    AGGGACGATA AATCTGAGAA GAAGAAAGAT GGAGGAAAAG GCGCCCCGGC AGCTAGTCAA 
    ACATCGCAGT CGAATAGCAA GTGGAAGCAG AAGAAGGTAA AGAAGAATTT GGAGAAAGGG 
    AAGGTAGTGT GCATCAAGTT TCCGTCTCAG TCTGTCGATG AGAAATACCT CAGGAAGCTT 
    GCAGAACCGT TCGGGAAGAT CATCAAGGTC ATCATGTTTC CGTCTCTGGG CTTCGTGGAG 
    ATGGGCTCGG TTGATCAGGC CAAAGACTTG GTGAAGTTTC ACAGCAATTA TCCTCCAACT 
    GTGAACGGAG AGCAGCTCGT GTTCAGCGTC TCCAGCGCCT TCAACTTTCT CCAGAGCTCC 
    CGGGTGGTGA GTTTCACGCC CGCTCCATCG GGAGAAGACG GAAAATCCGA CCTGATCAAT 
    ATCATCAAAC GCTTCGGCCC GCCGCTCTAC ACCCTGTTCC TGCCATCAAT GGTGTTCATT 
    GAGATGAAGA ACGCCCCTGA TGCTCAGAAG CTGGTGGATT ATTATCTGTC CAACACTCTG 
    AGGATCAACA GTGACTTGAT TTGTGTCTCC TTCTCTGGAG AGTACAAGAC TCTCATGCGG 
    GTTTCAAAAG CCAAGAGGTA CGAAGAAGAA AACGAAAGTA CAAAGAAGAG TACCACCAAG 
    AGGACAAGGA GCTCAAGCCG AGACAGAACG ACAGAAAATA AGAAAAGAAG GTCCAGATCC 
    AGAGACAAGG CCAGCAAAGA GGAACGGACC AGAACAAGGT CCAGGTCCAG GGATAAATCT 
    AAAGAAAAAT CCAGCAGAGA TGCCAAAACT AGATCTAGGT CCCAAGACAA GTTGGATAGA 
    AAAAGGAAGA GCAGAACCCG GTCCAGGTCC AGAGATAAGT CCACTAGTGA GAAGCGGACC 
    AGGACCAGGT CTAAGTCAGG GTCCAGAGAA AAAACAAAAG AAAAATCCAA CAAGGAAAGC 
    AAGAAAGGGT CCCAAGCGAA GAAGCCAGAC GAATCGAGAG AAAAATCCAA CAGAGACCAG 
    AAGACCAGGT CCGCATCCAG AGACAAGTCC AGCAGAGAGA CAAAAGCCAA GTCTACAACC 
    CAAGAAAAGT CAAGCAAAGA AAGAAAAAGC AGGAGCAAAT CTAGATCCGT GGAAAAATCC 
    AGCAGAGATA AGAAATCCAG GTCTAGAGAG AGATCCAGCA ACAAGTCCTC CAGACGGGAC 
    GGAGAAAAGA CGGCAGAACC AGAGAAACCA GATGCAGAGT CCACATCCAA AGGACAACCG 
    TCTCCTCTCG AAGACTCCAA ACCTGAAGTT TCAAACACAG AAGAAGTGGA GGGGGAGGCA 
    GCGTTGCCTG GAGAGGAGAG CGACATCGAG GGGATGGAGG TGATTGCTGA GGATGGAGAG 
    AATCTGGCAG ATGACGATGA GGAGGCTCTG CAAGAGGAAG AGAAAAAAGA GAGTCCTAAA 
    GAGAGAGCAC CTGAAAAAGA TGAAGTAAAG GAGGTGATAG GTGGAGAGCC TGGCAATGAG 
    GAGAAACCTG CGTCGGAGAA GGAGATAAAG AAGGAAGAGA AGGAGGAAGT AGAGGAGTCA 
    AAGGAAGCAA CAGAGACTCC TCTACAGGAG GATTTGGAGG ACTTCCCTGT AGACCTGGAA 
    AACTGCATCA CTCTGGATGA ACTGGAAGAA GATGACTCTG ACGACCAAGG TGGAGAATCA 
    GCAGATGAGC CCAAGTCAAC ATCGAAATCC AGCAGGGTTT TTTACTTCGG CCACCTGCCA 
    CCTAATTACG CCCTCTTTGA CTTCTTCCAA CTGCTGCGAA ATTTTGGGAA GGTGGTGCGC 
    TATTACCTGA TTGGCAATCG ACGAGAGGGT TTCATTGAGA TGTCGAGTTC TTCAGCGGCC 
    CTGAAAGCTG TTGAAGAGCT CGTCAGCAAA CCAGCCATCC ACAACTGCCC CAAACTCAAA 
    GCCCGCATCT CCACCAAATA CTACAGACTT GACAACGGAT GGGTTGTTCA CTCGGACGGC 
    AGCAATGACA AGGACAGTCG AGGCAGGAAG CGCGAGAAAC GAAGCAAATC CAAGACCTCA 
    GACCAGGACG AGACCGACAG GAGGTCTAAA GGGAGGAAGG AGTCCCCGAA GAAGACATCA 
    GAGAAATCAG GCAAAAAGAC TCCAGAAAAA GATTCTGGGT CAAAAAAGCC TCCAGAGAAA 
    GACTCATCAG GGAAAAAGAC CCCAAAGAAA GAGTCCACAT CCAAAACGTC TCCAGAAAAG 
    GATGCCAAAA ACATCTTGGA AACGAAATCC ACTGGGAAAA AGACTCCAGC GAAAGATTTG 
    CCATCTAAAA AAACTTCAGG TAAGGATTCT ACAACAAAAA AGACTCCAGC GAAAAAGTCC 
    GCATCCAGAA AGACTCTGGA AAACAAGTCT ACATTCAGAG AAACTTCAGC AGAAGAGTCC 
    AAAAAGTCTC CAAAGAGGGA ATCGTTGGAC AAAGAGCCTC CAGAAAAGGT CCTTAAAAAC 
    GGCCCGGAGA AGGAATCCGC AGGGAGAAAG ACTCCTGAGA AAGGGTCATC GTGTGCAGAG 
    ATTCCAGACA GCGAGACGCT GGAACCAAAA GGAGCTCCTG ACAATAATTC AGTGCCTCAG 
    ACAACTGTGA AGAAAGAACT AAAGAAAGAA AATACTCAAC AAAATGAGGA ACCAGCAGCT 
    GATAAAGCGC CATCTGAAAA AGATTATATC AAAAAGGAAA CACCACGCAC ATTCAAGCAG 
    GAGGAGGAGG AAACACCAAT AGATGTTTGT ATGGAAGCAG GACCAAATGT GAAAGATGCA 
    GAGAGTCCAG ATCCACCAGT CTCCTCTACA GAGCCCTCAA AACCACCACC TGAACAGGAC 
    GCGAAGCCCC AGTTTGAACC TGCAGAGGGC GCTGCTGAAC CTCAGAAACC CACCAAACCT 
    GTTGGGACGG AGTTCGTGCG ACCGGTCGTC GGTTATTTCT GTAACCTGTG TCAGCAGATC 
    TTCGCTGAAG AGGATGAAGC CAAACAGCAG CACTGCAGCA GCCTGTCGCA TTACAGCAAA 
    TACCAGGAGA AGACTGGGAG GGATCCGTGG ACGAGCTGA

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

    RefSeq XP_012774810.2
    CDS255..4313
    Translation

    Target ORF information:

    RefSeq Version XM_012919356.3
    Organism Maylandia zebra(zebra mbuna)
    Definition Maylandia zebra matrin-3 (LOC101478771), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012919356.3

    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
    ATGTCTCAGA ATTACCCGTA CAGAAAGCCG CCGCCTGACA CCGACCTCAG AACTGATCCC 
    GGGCCTTACA GATCTGTGGA CTACCGCCAC TCCTCAGCGG ACCGTGACTT TTACAGGCAG 
    CCACAAGACT CCTTCTCTGT CTCCTCCTCC TGCCCGTCCT CGTCCAGGGG CTCTGGAGTG 
    CTGCAGTCAT CGCAGGACAA TGTTCTGAGC ATCCTGAGCA GCTGCGGTCT GGAGCCCAGT 
    GATCTGGCGC TGCTAGCTGA GCTGCCCGAA GACGTCCTCA CTATTGAGTC TCTGCCACAC 
    ATCCTCAGAC AGATCAAATG CAAGAAAGGG ACCGTCAAAC CTTTCCCTCC CCGGGCTCCG 
    TCTCCCTCCT CCTCTTCCTC CTACCCTCCC AGCTCCTCCT CCTCTAGAGA CTGGGACCAG 
    CTCCATCGCA CGTCGGTCCA GTACCCGCTG GACCACCTGC CACCACCACC TCCTCCCTCG 
    GAGCAGCTCA TGGATCGCTG GAATAATCCG ATTACCGTGA GCTCCGGCCG AGCAGAGCTG 
    CCACCATCGT CATCCTTATC ATCGTCGTCG TTGGGGTACA CGGTGGACTT CCACCGCAGG 
    CAGGGCCCCT CTGATTATGG TAAGGCTGGT CCAGTTCCTT CTTACAGCCC AGCGAGGCGA 
    GGAGATAGAG CGCCGTCATC TCGATTCTCT GAGGCTGGAC CAGCTGATTA CAGGTCATCA 
    GCGCTGGTGA CGGCTTCTCC TCTTCCTAGC GAGCACCAGT CCAAACCTCT GGCAAGCCGC 
    CGTGACACGT CCTCCACGAG GAGCAGTCAG TCCTCGCCCT CAATGCCTAC ACGGAAAGAA 
    GCTCTGGATT TCCACGGGAA GGTCCCGCCG TCGTTCCCGT ACTCGTGCTC GCTGTGTGAT 
    ATCACTGTAC TGTCGCAGAA GGTTTGGATT CAGCACGTGA CCGGCAGGCA CCATGCAGAT 
    GGACAGCTCA GCCTCCTGCA GCAGTTTCCT AACTGGGACT GCCGCATGCA GACGGTCCGA 
    AGGGACGATA AATCTGAGAA GAAGAAAGAT GGAGGAAAAG GCGCCCCGGC AGCTAGTCAA 
    ACATCGCAGT CGAATAGCAA GTGGAAGCAG AAGAAGGTAA AGAAGAATTT GGAGAAAGGG 
    AAGGTAGTGT GCATCAAGTT TCCGTCTCAG TCTGTCGATG AGAAATACCT CAGGAAGCTT 
    GCAGAACCGT TCGGGAAGAT CATCAAGGTC ATCATGTTTC CGTCTCTGGG CTTCGTGGAG 
    ATGGGCTCGG TTGATCAGGC CAAAGACTTG GTGAAGTTTC ACAGCAATTA TCCTCCAACT 
    GTGAACGGAG AGCAGCTCGT GTTCAGCGTC TCCAGCGCCT TCAACTTTCT CCAGAGCTCC 
    CGGGTGGTGA GTTTCACGCC CGCTCCATCG GGAGAAGACG GAAAATCCGA CCTGATCAAT 
    ATCATCAAAC GCTTCGGCCC GCCGCTCTAC ACCCTGTTCC TGCCATCAAT GGTGTTCATT 
    GAGATGAAGA ACGCCCCTGA TGCTCAGAAG CTGGTGGATT ATTATCTGTC CAACACTCTG 
    AGGATCAACA GTGACTTGAT TTGTGTCTCC TTCTCTGGAG AGTACAAGAC TCTCATGCGG 
    GTTTCAAAAG CCAAGAGGTA CGAAGAAGAA AACGAAAGTA CAAAGAAGAG TACCACCAAG 
    AGGACAAGGA GCTCAAGCCG AGACAGAACG ACAGAAAATA AGAAAAGAAG GTCCAGATCC 
    AGAGACAAGG CCAGCAAAGA GGAACGGACC AGAACAAGGT CCAGGTCCAG GGATAAATCT 
    AAAGAAAAAT CCAGCAGAGA TGCCAAAACT AGATCTAGGT CCCAAGACAA GTTGGATAGA 
    AAAAGGAAGA GCAGAACCCG GTCCAGGTCC AGAGATAAGT CCACTAGTGA GAAGCGGACC 
    AGGACCAGGT CTAAGTCAGG GTCCAGAGAA AAAACAAAAG AAAAATCCAA CAAGGAAAGC 
    AAGAAAGGGT CCCAAGCGAA GAAGCCAGAC GAATCGAGAG AAAAATCCAA CAGAGACCAG 
    AAGACCAGGT CCGCATCCAG AGACAAGTCC AGCAGAGAGA CAAAAGCCAA GTCTACAACC 
    CAAGAAAAGT CAAGCAAAGA AAGAAAAAGC AGGAGCAAAT CTAGATCCGT GGAAAAATCC 
    AGCAGAGATA AGAAATCCAG GTCTAGAGAG AGATCCAGCA ACAAGTCCTC CAGACGGGAC 
    GGAGAAAAGA CGGCAGAACC AGAGAAACCA GATGCAGAGT CCACATCCAA AGGACAACCG 
    TCTCCTCTCG AAGACTCCAA ACCTGAAGTT TCAAACACAG AAGAAGTGGA GGGGGAGGCA 
    GCGTTGCCTG GAGAGGAGAG CGACATCGAG GGGATGGAGG TGATTGCTGA GGATGGAGAG 
    AATCTGGCAG ATGACGATGA GGAGGCTCTG CAAGAGGAAG AGAAAAAAGA GAGTCCTAAA 
    GAGAGAGCAC CTGAAAAAGA TGAAGTAAAG GAGGTGATAG GTGGAGAGCC TGGCAATGAG 
    GAGAAACCTG CGTCGGAGAA GGAGATAAAG AAGGAAGAGA AGGAGGAAGT AGAGGAGTCA 
    AAGGAAGCAA CAGAGACTCC TCTACAGGAG GATTTGGAGG ACTTCCCTGT AGACCTGGAA 
    AACTGCATCA CTCTGGATGA ACTGGAAGAA GATGACTCTG ACGACCAAGG TGGAGAATCA 
    GCAGATGAGC CCAAGTCAAC ATCGAAATCC AGCAGGGTTT TTTACTTCGG CCACCTGCCA 
    CCTAATTACG CCCTCTTTGA CTTCTTCCAA CTGCTGCGAA ATTTTGGGAA GGTGGTGCGC 
    TATTACCTGA TTGGCAATCG ACGAGAGGGT TTCATTGAGA TGTCGAGTTC TTCAGCGGCC 
    CTGAAAGCTG TTGAAGAGCT CGTCAGCAAA CCAGCCATCC ACAACTGCCC CAAACTCAAA 
    GCCCGCATCT CCACCAAATA CTACAGACTT GACAACGGAT GGGTTGTTCA CTCGGACGGC 
    AGCAATGACA AGGACAGTCG AGGCAGGAAG CGCGAGAAAC GAAGCAAATC CAAGACCTCA 
    GACCAGGACG AGACCGACAG GAGGTCTAAA GGGAGGAAGG AGTCCCCGAA GAAGACATCA 
    GAGAAATCAG GCAAAAAGAC TCCAGAAAAA GATTCTGGGT CAAAAAAGCC TCCAGAGAAA 
    GACTCATCAG GGAAAAAGAC CCCAAAGAAA GAGTCCACAT CCAAAACGTC TCCAGAAAAG 
    GATGCCAAAA ACATCTTGGA AACGAAATCC ACTGGGAAAA AGACTCCAGC GAAAGATTTG 
    CCATCTAAAA AAACTTCAGG TAAGGATTCT ACAACAAAAA AGACTCCAGC GAAAAAGTCC 
    GCATCCAGAA AGACTCTGGA AAACAAGTCT ACATTCAGAG AAACTTCAGC AGAAGAGTCC 
    AAAAAGTCTC CAAAGAGGGA ATCGTTGGAC AAAGAGCCTC CAGAAAAGGT CCTTAAAAAC 
    GGCCCGGAGA AGGAATCCGC AGGGAGAAAG ACTCCTGAGA AAGGGTCATC GTGTGCAGAG 
    ATTCCAGACA GCGAGACGCT GGAACCAAAA GGAGCTCCTG ACAATAATTC AGTGCCTCAG 
    ACAACTGTGA AGAAAGAACT AAAGAAAGAA AATACTCAAC AAAATGAGGA ACCAGCAGCT 
    GATAAAGCGC CATCTGAAAA AGATTATATC AAAAAGGAAA CACCACGCAC ATTCAAGCAG 
    GAGGAGGAGG AAACACCAAT AGATGTTTGT ATGGAAGCAG GACCAAATGT GAAAGATGCA 
    GAGAGTCCAG ATCCACCAGT CTCCTCTACA GAGCCCTCAA AACCACCACC TGAACAGGAC 
    GCGAAGCCCC AGTTTGAACC TGCAGAGGGC GCTGCTGAAC CTCAGAAACC CACCAAACCT 
    GTTGGGACGG AGTTCGTGCG ACCGGTCGTC GGTTATTTCT GTAACCTGTG TCAGCAGATC 
    TTCGCTGAAG AGGATGAAGC CAAACAGCAG CACTGCAGCA GCCTGTCGCA TTACAGCAAA 
    TACCAGGAGA AGACTGGGAG GGATCCGTGG ACGAGCTGA

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

    LOC101478771 ( XM_004552091.4 ) cDNA ORF clone, Maylandia zebra(zebra mbuna) -> XP_004552148.2 Maylandia zebra matrin-3 (LOC101478771), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OMa366873
    Clone ID Related Accession (Same CDS sequence) XM_004552091.4
    Accession Version XM_004552091.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4050bp)
    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 1524412800000
    Organism Maylandia zebra(zebra mbuna)
    Product matrin-3 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036781.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 24, 2018 this sequence version replaced XM_004552091.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Maylandia zebra Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGTCTCAGA ATTACCCGTA CAGAAAGCCG CCGCCTGACA CCGACCTCAG AACTGATCCC 
    GGGCCTTACA GATCTGTGGA CTACCGCCAC TCCTCAGCGG ACCGTGACTT TTACAGGCAG 
    CCACAAGACT CCTTCTCTGT CTCCTCCTCC TGCCCGTCCT CGTCCAGGGG CTCTGGAGTG 
    CTGCAGTCAT CGCAGGACAA TGTTCTGAGC ATCCTGAGCA GCTGCGGTCT GGAGCCCAGT 
    GATCTGGCGC TGCTAGCTGA GCTGCCCGAA GACGTCCTCA CTATTGAGTC TCTGCCACAC 
    ATCCTCAGAC AGATCAAATG CAAGAAAGGG ACCGTCAAAC CTTTCCCTCC CCGGGCTCCG 
    TCTCCCTCCT CCTCTTCCTC CTACCCTCCC AGCTCCTCCT CCTCTAGAGA CTGGGACCAG 
    CTCCATCGCA CGTCGGTCCA GTACCCGCTG GACCACCTGC CACCACCACC TCCTCCCTCG 
    GAGCAGCTCA TGGATCGCTG GAATAATCCG ATTACCGTGA GCTCCGGCCG AGCAGAGCTG 
    CCACCATCGT CATCCTTATC ATCGTCGTCG TTGGGGTACA CGGTGGACTT CCACCGCAGG 
    CAGGGCCCCT CTGATTATGG TAAGGCTGGT CCAGTTCCTT CTTACAGCCC AGCGAGGCGA 
    GGAGATAGAG CGCCGTCATC TCGATTCTCT GAGGCTGGAC CAGCTGATTA CAGGTCATCA 
    GCGCTGGTGA CGGCTTCTCC TCTTCCTAGC GAGCACCAGT CCAAACCTCT GGCAAGCCGC 
    CGTGACACGT CCTCCACGAG GAGCAGTCAG TCCTCGCCCT CAATGCCTAC ACGGAAAGAA 
    GCTCTGGATT TCCACGGGAA GGTCCCGCCG TCGTTCCCGT ACTCGTGCTC GCTGTGTGAT 
    ATCACTGTAC TGTCGCAGAA GGTTTGGATT CAGCACGTGA CCGGCAGGCA CCATGCAGAT 
    GGACAGCTCA GCCTCCTGCA GCAGTTTCCT AACTGGGACT GCCGCATGCA GACGGTCCGA 
    AGGGACGATA AATCTGAGAA GAAGAAAGAT GGAGGAAAAG GCGCCCCGGC AGCTAGTCAA 
    ACATCGCAGT CGAATAGCAA GTGGAAGCAG AAGAAGAATT TGGAGAAAGG GAAGGTAGTG 
    TGCATCAAGT TTCCGTCTCA GTCTGTCGAT GAGAAATACC TCAGGAAGCT TGCAGAACCG 
    TTCGGGAAGA TCATCAAGGT CATCATGTTT CCGTCTCTGG GCTTCGTGGA GATGGGCTCG 
    GTTGATCAGG CCAAAGACTT GGTGAAGTTT CACAGCAATT ATCCTCCAAC TGTGAACGGA 
    GAGCAGCTCG TGTTCAGCGT CTCCAGCGCC TTCAACTTTC TCCAGAGCTC CCGGGTGGTG 
    AGTTTCACGC CCGCTCCATC GGGAGAAGAC GGAAAATCCG ACCTGATCAA TATCATCAAA 
    CGCTTCGGCC CGCCGCTCTA CACCCTGTTC CTGCCATCAA TGGTGTTCAT TGAGATGAAG 
    AACGCCCCTG ATGCTCAGAA GCTGGTGGAT TATTATCTGT CCAACACTCT GAGGATCAAC 
    AGTGACTTGA TTTGTGTCTC CTTCTCTGGA GAGTACAAGA CTCTCATGCG GGTTTCAAAA 
    GCCAAGAGGT ACGAAGAAGA AAACGAAAGT ACAAAGAAGA GTACCACCAA GAGGACAAGG 
    AGCTCAAGCC GAGACAGAAC GACAGAAAAT AAGAAAAGAA GGTCCAGATC CAGAGACAAG 
    GCCAGCAAAG AGGAACGGAC CAGAACAAGG TCCAGGTCCA GGGATAAATC TAAAGAAAAA 
    TCCAGCAGAG ATGCCAAAAC TAGATCTAGG TCCCAAGACA AGTTGGATAG AAAAAGGAAG 
    AGCAGAACCC GGTCCAGGTC CAGAGATAAG TCCACTAGTG AGAAGCGGAC CAGGACCAGG 
    TCTAAGTCAG GGTCCAGAGA AAAAACAAAA GAAAAATCCA ACAAGGAAAG CAAGAAAGGG 
    TCCCAAGCGA AGAAGCCAGA CGAATCGAGA GAAAAATCCA ACAGAGACCA GAAGACCAGG 
    TCCGCATCCA GAGACAAGTC CAGCAGAGAG ACAAAAGCCA AGTCTACAAC CCAAGAAAAG 
    TCAAGCAAAG AAAGAAAAAG CAGGAGCAAA TCTAGATCCG TGGAAAAATC CAGCAGAGAT 
    AAGAAATCCA GGTCTAGAGA GAGATCCAGC AACAAGTCCT CCAGACGGGA CGGAGAAAAG 
    ACGGCAGAAC CAGAGAAACC AGATGCAGAG TCCACATCCA AAGGACAACC GTCTCCTCTC 
    GAAGACTCCA AACCTGAAGT TTCAAACACA GAAGAAGTGG AGGGGGAGGC AGCGTTGCCT 
    GGAGAGGAGA GCGACATCGA GGGGATGGAG GTGATTGCTG AGGATGGAGA GAATCTGGCA 
    GATGACGATG AGGAGGCTCT GCAAGAGGAA GAGAAAAAAG AGAGTCCTAA AGAGAGAGCA 
    CCTGAAAAAG ATGAAGTAAA GGAGGTGATA GGTGGAGAGC CTGGCAATGA GGAGAAACCT 
    GCGTCGGAGA AGGAGATAAA GAAGGAAGAG AAGGAGGAAG TAGAGGAGTC AAAGGAAGCA 
    ACAGAGACTC CTCTACAGGA GGATTTGGAG GACTTCCCTG TAGACCTGGA AAACTGCATC 
    ACTCTGGATG AACTGGAAGA AGATGACTCT GACGACCAAG GTGGAGAATC AGCAGATGAG 
    CCCAAGTCAA CATCGAAATC CAGCAGGGTT TTTTACTTCG GCCACCTGCC ACCTAATTAC 
    GCCCTCTTTG ACTTCTTCCA ACTGCTGCGA AATTTTGGGA AGGTGGTGCG CTATTACCTG 
    ATTGGCAATC GACGAGAGGG TTTCATTGAG ATGTCGAGTT CTTCAGCGGC CCTGAAAGCT 
    GTTGAAGAGC TCGTCAGCAA ACCAGCCATC CACAACTGCC CCAAACTCAA AGCCCGCATC 
    TCCACCAAAT ACTACAGACT TGACAACGGA TGGGTTGTTC ACTCGGACGG CAGCAATGAC 
    AAGGACAGTC GAGGCAGGAA GCGCGAGAAA CGAAGCAAAT CCAAGACCTC AGACCAGGAC 
    GAGACCGACA GGAGGTCTAA AGGGAGGAAG GAGTCCCCGA AGAAGACATC AGAGAAATCA 
    GGCAAAAAGA CTCCAGAAAA AGATTCTGGG TCAAAAAAGC CTCCAGAGAA AGACTCATCA 
    GGGAAAAAGA CCCCAAAGAA AGAGTCCACA TCCAAAACGT CTCCAGAAAA GGATGCCAAA 
    AACATCTTGG AAACGAAATC CACTGGGAAA AAGACTCCAG CGAAAGATTT GCCATCTAAA 
    AAAACTTCAG GTAAGGATTC TACAACAAAA AAGACTCCAG CGAAAAAGTC CGCATCCAGA 
    AAGACTCTGG AAAACAAGTC TACATTCAGA GAAACTTCAG CAGAAGAGTC CAAAAAGTCT 
    CCAAAGAGGG AATCGTTGGA CAAAGAGCCT CCAGAAAAGG TCCTTAAAAA CGGCCCGGAG 
    AAGGAATCCG CAGGGAGAAA GACTCCTGAG AAAGGGTCAT CGTGTGCAGA GATTCCAGAC 
    AGCGAGACGC TGGAACCAAA AGGAGCTCCT GACAATAATT CAGTGCCTCA GACAACTGTG 
    AAGAAAGAAC TAAAGAAAGA AAATACTCAA CAAAATGAGG AACCAGCAGC TGATAAAGCG 
    CCATCTGAAA AAGATTATAT CAAAAAGGAA ACACCACGCA CATTCAAGCA GGAGGAGGAG 
    GAAACACCAA TAGATGTTTG TATGGAAGCA GGACCAAATG TGAAAGATGC AGAGAGTCCA 
    GATCCACCAG TCTCCTCTAC AGAGCCCTCA AAACCACCAC CTGAACAGGA CGCGAAGCCC 
    CAGTTTGAAC CTGCAGAGGG CGCTGCTGAA CCTCAGAAAC CCACCAAACC TGTTGGGACG 
    GAGTTCGTGC GACCGGTCGT CGGTTATTTC TGTAACCTGT GTCAGCAGAT CTTCGCTGAA 
    GAGGATGAAG CCAAACAGCA GCACTGCAGC AGCCTGTCGC ATTACAGCAA ATACCAGGAG 
    AAGACTGGGA GGGATCCGTG GACGAGCTGA

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

    RefSeq XP_004552148.2
    CDS186..4235
    Translation

    Target ORF information:

    RefSeq Version XM_004552091.4
    Organism Maylandia zebra(zebra mbuna)
    Definition Maylandia zebra matrin-3 (LOC101478771), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_004552091.4

    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
    ATGTCTCAGA ATTACCCGTA CAGAAAGCCG CCGCCTGACA CCGACCTCAG AACTGATCCC 
    GGGCCTTACA GATCTGTGGA CTACCGCCAC TCCTCAGCGG ACCGTGACTT TTACAGGCAG 
    CCACAAGACT CCTTCTCTGT CTCCTCCTCC TGCCCGTCCT CGTCCAGGGG CTCTGGAGTG 
    CTGCAGTCAT CGCAGGACAA TGTTCTGAGC ATCCTGAGCA GCTGCGGTCT GGAGCCCAGT 
    GATCTGGCGC TGCTAGCTGA GCTGCCCGAA GACGTCCTCA CTATTGAGTC TCTGCCACAC 
    ATCCTCAGAC AGATCAAATG CAAGAAAGGG ACCGTCAAAC CTTTCCCTCC CCGGGCTCCG 
    TCTCCCTCCT CCTCTTCCTC CTACCCTCCC AGCTCCTCCT CCTCTAGAGA CTGGGACCAG 
    CTCCATCGCA CGTCGGTCCA GTACCCGCTG GACCACCTGC CACCACCACC TCCTCCCTCG 
    GAGCAGCTCA TGGATCGCTG GAATAATCCG ATTACCGTGA GCTCCGGCCG AGCAGAGCTG 
    CCACCATCGT CATCCTTATC ATCGTCGTCG TTGGGGTACA CGGTGGACTT CCACCGCAGG 
    CAGGGCCCCT CTGATTATGG TAAGGCTGGT CCAGTTCCTT CTTACAGCCC AGCGAGGCGA 
    GGAGATAGAG CGCCGTCATC TCGATTCTCT GAGGCTGGAC CAGCTGATTA CAGGTCATCA 
    GCGCTGGTGA CGGCTTCTCC TCTTCCTAGC GAGCACCAGT CCAAACCTCT GGCAAGCCGC 
    CGTGACACGT CCTCCACGAG GAGCAGTCAG TCCTCGCCCT CAATGCCTAC ACGGAAAGAA 
    GCTCTGGATT TCCACGGGAA GGTCCCGCCG TCGTTCCCGT ACTCGTGCTC GCTGTGTGAT 
    ATCACTGTAC TGTCGCAGAA GGTTTGGATT CAGCACGTGA CCGGCAGGCA CCATGCAGAT 
    GGACAGCTCA GCCTCCTGCA GCAGTTTCCT AACTGGGACT GCCGCATGCA GACGGTCCGA 
    AGGGACGATA AATCTGAGAA GAAGAAAGAT GGAGGAAAAG GCGCCCCGGC AGCTAGTCAA 
    ACATCGCAGT CGAATAGCAA GTGGAAGCAG AAGAAGAATT TGGAGAAAGG GAAGGTAGTG 
    TGCATCAAGT TTCCGTCTCA GTCTGTCGAT GAGAAATACC TCAGGAAGCT TGCAGAACCG 
    TTCGGGAAGA TCATCAAGGT CATCATGTTT CCGTCTCTGG GCTTCGTGGA GATGGGCTCG 
    GTTGATCAGG CCAAAGACTT GGTGAAGTTT CACAGCAATT ATCCTCCAAC TGTGAACGGA 
    GAGCAGCTCG TGTTCAGCGT CTCCAGCGCC TTCAACTTTC TCCAGAGCTC CCGGGTGGTG 
    AGTTTCACGC CCGCTCCATC GGGAGAAGAC GGAAAATCCG ACCTGATCAA TATCATCAAA 
    CGCTTCGGCC CGCCGCTCTA CACCCTGTTC CTGCCATCAA TGGTGTTCAT TGAGATGAAG 
    AACGCCCCTG ATGCTCAGAA GCTGGTGGAT TATTATCTGT CCAACACTCT GAGGATCAAC 
    AGTGACTTGA TTTGTGTCTC CTTCTCTGGA GAGTACAAGA CTCTCATGCG GGTTTCAAAA 
    GCCAAGAGGT ACGAAGAAGA AAACGAAAGT ACAAAGAAGA GTACCACCAA GAGGACAAGG 
    AGCTCAAGCC GAGACAGAAC GACAGAAAAT AAGAAAAGAA GGTCCAGATC CAGAGACAAG 
    GCCAGCAAAG AGGAACGGAC CAGAACAAGG TCCAGGTCCA GGGATAAATC TAAAGAAAAA 
    TCCAGCAGAG ATGCCAAAAC TAGATCTAGG TCCCAAGACA AGTTGGATAG AAAAAGGAAG 
    AGCAGAACCC GGTCCAGGTC CAGAGATAAG TCCACTAGTG AGAAGCGGAC CAGGACCAGG 
    TCTAAGTCAG GGTCCAGAGA AAAAACAAAA GAAAAATCCA ACAAGGAAAG CAAGAAAGGG 
    TCCCAAGCGA AGAAGCCAGA CGAATCGAGA GAAAAATCCA ACAGAGACCA GAAGACCAGG 
    TCCGCATCCA GAGACAAGTC CAGCAGAGAG ACAAAAGCCA AGTCTACAAC CCAAGAAAAG 
    TCAAGCAAAG AAAGAAAAAG CAGGAGCAAA TCTAGATCCG TGGAAAAATC CAGCAGAGAT 
    AAGAAATCCA GGTCTAGAGA GAGATCCAGC AACAAGTCCT CCAGACGGGA CGGAGAAAAG 
    ACGGCAGAAC CAGAGAAACC AGATGCAGAG TCCACATCCA AAGGACAACC GTCTCCTCTC 
    GAAGACTCCA AACCTGAAGT TTCAAACACA GAAGAAGTGG AGGGGGAGGC AGCGTTGCCT 
    GGAGAGGAGA GCGACATCGA GGGGATGGAG GTGATTGCTG AGGATGGAGA GAATCTGGCA 
    GATGACGATG AGGAGGCTCT GCAAGAGGAA GAGAAAAAAG AGAGTCCTAA AGAGAGAGCA 
    CCTGAAAAAG ATGAAGTAAA GGAGGTGATA GGTGGAGAGC CTGGCAATGA GGAGAAACCT 
    GCGTCGGAGA AGGAGATAAA GAAGGAAGAG AAGGAGGAAG TAGAGGAGTC AAAGGAAGCA 
    ACAGAGACTC CTCTACAGGA GGATTTGGAG GACTTCCCTG TAGACCTGGA AAACTGCATC 
    ACTCTGGATG AACTGGAAGA AGATGACTCT GACGACCAAG GTGGAGAATC AGCAGATGAG 
    CCCAAGTCAA CATCGAAATC CAGCAGGGTT TTTTACTTCG GCCACCTGCC ACCTAATTAC 
    GCCCTCTTTG ACTTCTTCCA ACTGCTGCGA AATTTTGGGA AGGTGGTGCG CTATTACCTG 
    ATTGGCAATC GACGAGAGGG TTTCATTGAG ATGTCGAGTT CTTCAGCGGC CCTGAAAGCT 
    GTTGAAGAGC TCGTCAGCAA ACCAGCCATC CACAACTGCC CCAAACTCAA AGCCCGCATC 
    TCCACCAAAT ACTACAGACT TGACAACGGA TGGGTTGTTC ACTCGGACGG CAGCAATGAC 
    AAGGACAGTC GAGGCAGGAA GCGCGAGAAA CGAAGCAAAT CCAAGACCTC AGACCAGGAC 
    GAGACCGACA GGAGGTCTAA AGGGAGGAAG GAGTCCCCGA AGAAGACATC AGAGAAATCA 
    GGCAAAAAGA CTCCAGAAAA AGATTCTGGG TCAAAAAAGC CTCCAGAGAA AGACTCATCA 
    GGGAAAAAGA CCCCAAAGAA AGAGTCCACA TCCAAAACGT CTCCAGAAAA GGATGCCAAA 
    AACATCTTGG AAACGAAATC CACTGGGAAA AAGACTCCAG CGAAAGATTT GCCATCTAAA 
    AAAACTTCAG GTAAGGATTC TACAACAAAA AAGACTCCAG CGAAAAAGTC CGCATCCAGA 
    AAGACTCTGG AAAACAAGTC TACATTCAGA GAAACTTCAG CAGAAGAGTC CAAAAAGTCT 
    CCAAAGAGGG AATCGTTGGA CAAAGAGCCT CCAGAAAAGG TCCTTAAAAA CGGCCCGGAG 
    AAGGAATCCG CAGGGAGAAA GACTCCTGAG AAAGGGTCAT CGTGTGCAGA GATTCCAGAC 
    AGCGAGACGC TGGAACCAAA AGGAGCTCCT GACAATAATT CAGTGCCTCA GACAACTGTG 
    AAGAAAGAAC TAAAGAAAGA AAATACTCAA CAAAATGAGG AACCAGCAGC TGATAAAGCG 
    CCATCTGAAA AAGATTATAT CAAAAAGGAA ACACCACGCA CATTCAAGCA GGAGGAGGAG 
    GAAACACCAA TAGATGTTTG TATGGAAGCA GGACCAAATG TGAAAGATGC AGAGAGTCCA 
    GATCCACCAG TCTCCTCTAC AGAGCCCTCA AAACCACCAC CTGAACAGGA CGCGAAGCCC 
    CAGTTTGAAC CTGCAGAGGG CGCTGCTGAA CCTCAGAAAC CCACCAAACC TGTTGGGACG 
    GAGTTCGTGC GACCGGTCGT CGGTTATTTC TGTAACCTGT GTCAGCAGAT CTTCGCTGAA 
    GAGGATGAAG CCAAACAGCA GCACTGCAGC AGCCTGTCGC ATTACAGCAA ATACCAGGAG 
    AAGACTGGGA GGGATCCGTG GACGAGCTGA

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

    LOC101478771 ( XM_012919357.3 ) cDNA ORF clone, Maylandia zebra(zebra mbuna) -> XP_012774811.2 Maylandia zebra matrin-3 (LOC101478771), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OMa366874
    Clone ID Related Accession (Same CDS sequence) XM_012919357.3
    Accession Version XM_012919357.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3054bp)
    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 1524412800000
    Organism Maylandia zebra(zebra mbuna)
    Product neurofilament heavy polypeptide isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036781.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 24, 2018 this sequence version replaced XM_012919357.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Maylandia zebra Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    ATGCAGACGG TCCGAAGGGA CGATAAATCT GAGAAGAAGA AAGATGGAGG AAAAGGCGCC 
    CCGGCAGCTA GTCAAACATC GCAGTCGAAT AGCAAGTGGA AGCAGAAGAA GGTAAAGAAG 
    AATTTGGAGA AAGGGAAGGT AGTGTGCATC AAGTTTCCGT CTCAGTCTGT CGATGAGAAA 
    TACCTCAGGA AGCTTGCAGA ACCGTTCGGG AAGATCATCA AGGTCATCAT GTTTCCGTCT 
    CTGGGCTTCG TGGAGATGGG CTCGGTTGAT CAGGCCAAAG ACTTGGTGAA GTTTCACAGC 
    AATTATCCTC CAACTGTGAA CGGAGAGCAG CTCGTGTTCA GCGTCTCCAG CGCCTTCAAC 
    TTTCTCCAGA GCTCCCGGGT GGTGAGTTTC ACGCCCGCTC CATCGGGAGA AGACGGAAAA 
    TCCGACCTGA TCAATATCAT CAAACGCTTC GGCCCGCCGC TCTACACCCT GTTCCTGCCA 
    TCAATGGTGT TCATTGAGAT GAAGAACGCC CCTGATGCTC AGAAGCTGGT GGATTATTAT 
    CTGTCCAACA CTCTGAGGAT CAACAGTGAC TTGATTTGTG TCTCCTTCTC TGGAGAGTAC 
    AAGACTCTCA TGCGGGTTTC AAAAGCCAAG AGGTACGAAG AAGAAAACGA AAGTACAAAG 
    AAGAGTACCA CCAAGAGGAC AAGGAGCTCA AGCCGAGACA GAACGACAGA AAATAAGAAA 
    AGAAGGTCCA GATCCAGAGA CAAGGCCAGC AAAGAGGAAC GGACCAGAAC AAGGTCCAGG 
    TCCAGGGATA AATCTAAAGA AAAATCCAGC AGAGATGCCA AAACTAGATC TAGGTCCCAA 
    GACAAGTTGG ATAGAAAAAG GAAGAGCAGA ACCCGGTCCA GGTCCAGAGA TAAGTCCACT 
    AGTGAGAAGC GGACCAGGAC CAGGTCTAAG TCAGGGTCCA GAGAAAAAAC AAAAGAAAAA 
    TCCAACAAGG AAAGCAAGAA AGGGTCCCAA GCGAAGAAGC CAGACGAATC GAGAGAAAAA 
    TCCAACAGAG ACCAGAAGAC CAGGTCCGCA TCCAGAGACA AGTCCAGCAG AGAGACAAAA 
    GCCAAGTCTA CAACCCAAGA AAAGTCAAGC AAAGAAAGAA AAAGCAGGAG CAAATCTAGA 
    TCCGTGGAAA AATCCAGCAG AGATAAGAAA TCCAGGTCTA GAGAGAGATC CAGCAACAAG 
    TCCTCCAGAC GGGACGGAGA AAAGACGGCA GAACCAGAGA AACCAGATGC AGAGTCCACA 
    TCCAAAGGAC AACCGTCTCC TCTCGAAGAC TCCAAACCTG AAGTTTCAAA CACAGAAGAA 
    GTGGAGGGGG AGGCAGCGTT GCCTGGAGAG GAGAGCGACA TCGAGGGGAT GGAGGTGATT 
    GCTGAGGATG GAGAGAATCT GGCAGATGAC GATGAGGAGG CTCTGCAAGA GGAAGAGAAA 
    AAAGAGAGTC CTAAAGAGAG AGCACCTGAA AAAGATGAAG TAAAGGAGGT GATAGGTGGA 
    GAGCCTGGCA ATGAGGAGAA ACCTGCGTCG GAGAAGGAGA TAAAGAAGGA AGAGAAGGAG 
    GAAGTAGAGG AGTCAAAGGA AGCAACAGAG ACTCCTCTAC AGGAGGATTT GGAGGACTTC 
    CCTGTAGACC TGGAAAACTG CATCACTCTG GATGAACTGG AAGAAGATGA CTCTGACGAC 
    CAAGGTGGAG AATCAGCAGA TGAGCCCAAG TCAACATCGA AATCCAGCAG GGTTTTTTAC 
    TTCGGCCACC TGCCACCTAA TTACGCCCTC TTTGACTTCT TCCAACTGCT GCGAAATTTT 
    GGGAAGGTGG TGCGCTATTA CCTGATTGGC AATCGACGAG AGGGTTTCAT TGAGATGTCG 
    AGTTCTTCAG CGGCCCTGAA AGCTGTTGAA GAGCTCGTCA GCAAACCAGC CATCCACAAC 
    TGCCCCAAAC TCAAAGCCCG CATCTCCACC AAATACTACA GACTTGACAA CGGATGGGTT 
    GTTCACTCGG ACGGCAGCAA TGACAAGGAC AGTCGAGGCA GGAAGCGCGA GAAACGAAGC 
    AAATCCAAGA CCTCAGACCA GGACGAGACC GACAGGAGGT CTAAAGGGAG GAAGGAGTCC 
    CCGAAGAAGA CATCAGAGAA ATCAGGCAAA AAGACTCCAG AAAAAGATTC TGGGTCAAAA 
    AAGCCTCCAG AGAAAGACTC ATCAGGGAAA AAGACCCCAA AGAAAGAGTC CACATCCAAA 
    ACGTCTCCAG AAAAGGATGC CAAAAACATC TTGGAAACGA AATCCACTGG GAAAAAGACT 
    CCAGCGAAAG ATTTGCCATC TAAAAAAACT TCAGGTAAGG ATTCTACAAC AAAAAAGACT 
    CCAGCGAAAA AGTCCGCATC CAGAAAGACT CTGGAAAACA AGTCTACATT CAGAGAAACT 
    TCAGCAGAAG AGTCCAAAAA GTCTCCAAAG AGGGAATCGT TGGACAAAGA GCCTCCAGAA 
    AAGGTCCTTA AAAACGGCCC GGAGAAGGAA TCCGCAGGGA GAAAGACTCC TGAGAAAGGG 
    TCATCGTGTG CAGAGATTCC AGACAGCGAG ACGCTGGAAC CAAAAGGAGC TCCTGACAAT 
    AATTCAGTGC CTCAGACAAC TGTGAAGAAA GAACTAAAGA AAGAAAATAC TCAACAAAAT 
    GAGGAACCAG CAGCTGATAA AGCGCCATCT GAAAAAGATT ATATCAAAAA GGAAACACCA 
    CGCACATTCA AGCAGGAGGA GGAGGAAACA CCAATAGATG TTTGTATGGA AGCAGGACCA 
    AATGTGAAAG ATGCAGAGAG TCCAGATCCA CCAGTCTCCT CTACAGAGCC CTCAAAACCA 
    CCACCTGAAC AGGACGCGAA GCCCCAGTTT GAACCTGCAG AGGGCGCTGC TGAACCTCAG 
    AAACCCACCA AACCTGTTGG GACGGAGTTC GTGCGACCGG TCGTCGGTTA TTTCTGTAAC 
    CTGTGTCAGC AGATCTTCGC TGAAGAGGAT GAAGCCAAAC AGCAGCACTG CAGCAGCCTG 
    TCGCATTACA GCAAATACCA GGAGAAGACT GGGAGGGATC CGTGGACGAG CTGA

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

    RefSeq XP_012774811.2
    CDS235..3288
    Translation

    Target ORF information:

    RefSeq Version XM_012919357.3
    Organism Maylandia zebra(zebra mbuna)
    Definition Maylandia zebra matrin-3 (LOC101478771), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012919357.3

    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
    ATGCAGACGG TCCGAAGGGA CGATAAATCT GAGAAGAAGA AAGATGGAGG AAAAGGCGCC 
    CCGGCAGCTA GTCAAACATC GCAGTCGAAT AGCAAGTGGA AGCAGAAGAA GGTAAAGAAG 
    AATTTGGAGA AAGGGAAGGT AGTGTGCATC AAGTTTCCGT CTCAGTCTGT CGATGAGAAA 
    TACCTCAGGA AGCTTGCAGA ACCGTTCGGG AAGATCATCA AGGTCATCAT GTTTCCGTCT 
    CTGGGCTTCG TGGAGATGGG CTCGGTTGAT CAGGCCAAAG ACTTGGTGAA GTTTCACAGC 
    AATTATCCTC CAACTGTGAA CGGAGAGCAG CTCGTGTTCA GCGTCTCCAG CGCCTTCAAC 
    TTTCTCCAGA GCTCCCGGGT GGTGAGTTTC ACGCCCGCTC CATCGGGAGA AGACGGAAAA 
    TCCGACCTGA TCAATATCAT CAAACGCTTC GGCCCGCCGC TCTACACCCT GTTCCTGCCA 
    TCAATGGTGT TCATTGAGAT GAAGAACGCC CCTGATGCTC AGAAGCTGGT GGATTATTAT 
    CTGTCCAACA CTCTGAGGAT CAACAGTGAC TTGATTTGTG TCTCCTTCTC TGGAGAGTAC 
    AAGACTCTCA TGCGGGTTTC AAAAGCCAAG AGGTACGAAG AAGAAAACGA AAGTACAAAG 
    AAGAGTACCA CCAAGAGGAC AAGGAGCTCA AGCCGAGACA GAACGACAGA AAATAAGAAA 
    AGAAGGTCCA GATCCAGAGA CAAGGCCAGC AAAGAGGAAC GGACCAGAAC AAGGTCCAGG 
    TCCAGGGATA AATCTAAAGA AAAATCCAGC AGAGATGCCA AAACTAGATC TAGGTCCCAA 
    GACAAGTTGG ATAGAAAAAG GAAGAGCAGA ACCCGGTCCA GGTCCAGAGA TAAGTCCACT 
    AGTGAGAAGC GGACCAGGAC CAGGTCTAAG TCAGGGTCCA GAGAAAAAAC AAAAGAAAAA 
    TCCAACAAGG AAAGCAAGAA AGGGTCCCAA GCGAAGAAGC CAGACGAATC GAGAGAAAAA 
    TCCAACAGAG ACCAGAAGAC CAGGTCCGCA TCCAGAGACA AGTCCAGCAG AGAGACAAAA 
    GCCAAGTCTA CAACCCAAGA AAAGTCAAGC AAAGAAAGAA AAAGCAGGAG CAAATCTAGA 
    TCCGTGGAAA AATCCAGCAG AGATAAGAAA TCCAGGTCTA GAGAGAGATC CAGCAACAAG 
    TCCTCCAGAC GGGACGGAGA AAAGACGGCA GAACCAGAGA AACCAGATGC AGAGTCCACA 
    TCCAAAGGAC AACCGTCTCC TCTCGAAGAC TCCAAACCTG AAGTTTCAAA CACAGAAGAA 
    GTGGAGGGGG AGGCAGCGTT GCCTGGAGAG GAGAGCGACA TCGAGGGGAT GGAGGTGATT 
    GCTGAGGATG GAGAGAATCT GGCAGATGAC GATGAGGAGG CTCTGCAAGA GGAAGAGAAA 
    AAAGAGAGTC CTAAAGAGAG AGCACCTGAA AAAGATGAAG TAAAGGAGGT GATAGGTGGA 
    GAGCCTGGCA ATGAGGAGAA ACCTGCGTCG GAGAAGGAGA TAAAGAAGGA AGAGAAGGAG 
    GAAGTAGAGG AGTCAAAGGA AGCAACAGAG ACTCCTCTAC AGGAGGATTT GGAGGACTTC 
    CCTGTAGACC TGGAAAACTG CATCACTCTG GATGAACTGG AAGAAGATGA CTCTGACGAC 
    CAAGGTGGAG AATCAGCAGA TGAGCCCAAG TCAACATCGA AATCCAGCAG GGTTTTTTAC 
    TTCGGCCACC TGCCACCTAA TTACGCCCTC TTTGACTTCT TCCAACTGCT GCGAAATTTT 
    GGGAAGGTGG TGCGCTATTA CCTGATTGGC AATCGACGAG AGGGTTTCAT TGAGATGTCG 
    AGTTCTTCAG CGGCCCTGAA AGCTGTTGAA GAGCTCGTCA GCAAACCAGC CATCCACAAC 
    TGCCCCAAAC TCAAAGCCCG CATCTCCACC AAATACTACA GACTTGACAA CGGATGGGTT 
    GTTCACTCGG ACGGCAGCAA TGACAAGGAC AGTCGAGGCA GGAAGCGCGA GAAACGAAGC 
    AAATCCAAGA CCTCAGACCA GGACGAGACC GACAGGAGGT CTAAAGGGAG GAAGGAGTCC 
    CCGAAGAAGA CATCAGAGAA ATCAGGCAAA AAGACTCCAG AAAAAGATTC TGGGTCAAAA 
    AAGCCTCCAG AGAAAGACTC ATCAGGGAAA AAGACCCCAA AGAAAGAGTC CACATCCAAA 
    ACGTCTCCAG AAAAGGATGC CAAAAACATC TTGGAAACGA AATCCACTGG GAAAAAGACT 
    CCAGCGAAAG ATTTGCCATC TAAAAAAACT TCAGGTAAGG ATTCTACAAC AAAAAAGACT 
    CCAGCGAAAA AGTCCGCATC CAGAAAGACT CTGGAAAACA AGTCTACATT CAGAGAAACT 
    TCAGCAGAAG AGTCCAAAAA GTCTCCAAAG AGGGAATCGT TGGACAAAGA GCCTCCAGAA 
    AAGGTCCTTA AAAACGGCCC GGAGAAGGAA TCCGCAGGGA GAAAGACTCC TGAGAAAGGG 
    TCATCGTGTG CAGAGATTCC AGACAGCGAG ACGCTGGAAC CAAAAGGAGC TCCTGACAAT 
    AATTCAGTGC CTCAGACAAC TGTGAAGAAA GAACTAAAGA AAGAAAATAC TCAACAAAAT 
    GAGGAACCAG CAGCTGATAA AGCGCCATCT GAAAAAGATT ATATCAAAAA GGAAACACCA 
    CGCACATTCA AGCAGGAGGA GGAGGAAACA CCAATAGATG TTTGTATGGA AGCAGGACCA 
    AATGTGAAAG ATGCAGAGAG TCCAGATCCA CCAGTCTCCT CTACAGAGCC CTCAAAACCA 
    CCACCTGAAC AGGACGCGAA GCCCCAGTTT GAACCTGCAG AGGGCGCTGC TGAACCTCAG 
    AAACCCACCA AACCTGTTGG GACGGAGTTC GTGCGACCGG TCGTCGGTTA TTTCTGTAAC 
    CTGTGTCAGC AGATCTTCGC TGAAGAGGAT GAAGCCAAAC AGCAGCACTG CAGCAGCCTG 
    TCGCATTACA GCAAATACCA GGAGAAGACT GGGAGGGATC CGTGGACGAG CTGA

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

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