ORF » Species Summary » Danio rerio » matr3l1.1 cDNA ORF clone

matr3l1.1 cDNA ORF clone, Danio rerio(zebrafish)

The following matr3l1.1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the matr3l1.1 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
ODa19532 NM_001007136.1
Latest version!		 Danio rerio matrin 3-like 1.1 (matr3l1.1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $510.30
$729.00
ODa19532 XM_005173121.4
Latest version!		 Danio rerio matrin 3-like 1.1 (matr3l1.1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $510.30
$729.00
ODa42305 XM_009291032.3
Latest version!		 Danio rerio matrin 3-like 1.1 (matr3l1.1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 15-17 $713.30
$1019.00
ODa42305 XM_009291033.3
Latest version!		 Danio rerio matrin 3-like 1.1 (matr3l1.1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 15-17 $713.30
$1019.00
ODa42306 XM_009291034.3
Latest version!		 Danio rerio matrin 3-like 1.1 (matr3l1.1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 15-17 $713.30
$1019.00
View Old Accession Versions >>
ODa19532 XM_005173121.3 Danio rerio matrin 3-like 1.1 (matr3l1.1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $510.30
$729.00
ODa42306 XM_009291034.2 Danio rerio matrin 3-like 1.1 (matr3l1.1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 15-17 $713.30
$1019.00
ODa42305 XM_009291033.2 Danio rerio matrin 3-like 1.1 (matr3l1.1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 15-17 $713.30
$1019.00
ODa42305 XM_009291032.2 Danio rerio matrin 3-like 1.1 (matr3l1.1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 15-17 $713.30
$1019.00
Hide Old Accession Versions >>

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

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

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

  • Reference Sequences (Refseq)
    matr3l1.1 ( NM_001007136.1 ) cDNA ORF clone, Danio rerio(zebrafish) -> NP_001007137.1 Danio rerio matrin 3-like 1.1 (matr3l1.1), mRNA.
    Price & Availability↑
    CloneID ODa19532
    Clone ID Related Accession (Same CDS sequence) NM_001007136.1 , XM_005173121.4 , XM_005173121.3
    Accession Version NM_001007136.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2787bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-08-05
    Organism Danio rerio(zebrafish)
    Product uncharacterized protein LOC556124
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AL645792.7. On Mar 21, 2008 this sequence version replaced XM_678856.2. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA2168446, SAMEA2168447 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## inferred exon combination :: based on alignments, homology ##RefSeq-Attributes-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
    ATGGACCCCA ACACGCTAAT AGTCAACTCA GTCTTGTGGA AAAATATCCA GCGTGGGATC 
    AGACAATCCA TTCTGCACGG AGGTAGAGTC ATTCCTAATC CTATTTATAC GTTTCATAAA 
    TTGTACATTT TCATAAATGT TTGGAACGTG CTATTTGTAT TTATCTTTTA CAGGAATGAG 
    CCTGAATCCG AGAGACCAAA GCATGGAACA ATCCAGGCAA GAGATAGAAT CTCAAGCCAA 
    AAAATTGGAC CATCAGGCAG CAGAAGTGGA GCTTCGACCA GTAGAAGTGC ACCAACAAGC 
    CGTAGAAAAC AAAATAAAAT TGAACCTCCA TCAAAGTGCA AAGTGGTGTG TGTAAAGTTT 
    GAAAACAATG AAGTGGATGA AACCTACCTG AAACATTTGC TTGGCCAGTT TGGGGCGATT 
    GTCAAAATTA TTATGTTTCC TAATCTGGCT TTGGCAGAGA TGGGAACGAT GGGTCAAGCA 
    GAGGATATTG TAAAATATTT CTCACAAAAC CCCTTGAGGT TCAAAGGGAA AAAGCTGGAA 
    TTTTCTCTGT CTGCAGCCTT CAGTTTTCTA CAGGGCTCTC GTGTGGTGAG CTTTTCACCA 
    ATACCATCTG GAGAAGGCGT AAGCTCTGAG TTGATGGCCA TTGCCAAGCG ATTCGGATCA 
    GTAATACAAT CACAGTTTCT GCCACACCGG GGTTATGTGG AGATGGCTCT TGTGGAAGAG 
    GCCAGCAAAT TAGTGGACCA CTATTCAACT AATTCACTGA AGTTAAAAGG AAAAACCATT 
    ACTGTAGCAT TTTCAACTGA ATACCAGACG CTTAGTGATC TGGAAACTGA CAAATATAAA 
    TTACCAGCTC ATCAAAGCAG CAACAGGAGG AGAGAGAGGA GAAGTTACAG CCCCAGAAGG 
    AGGTCCTCCC AAAGAGACTC TCCCAGCCCC AAACGAAGGG CCTCTGAGGA GGGCTCCCAT 
    CCTAGCCAGG GTCACGATGC CAAGAAACGA GTAGAAAGTC GACGCTCTAG AGAGGATAGC 
    TCATCCAAAT CACATTCCAA AAATGGCTCT CCTTCAAGAG ACCTGGTCGT GAAAACCGAA 
    GAAGAGGAGG GTGAGGGGGA GATGGTTGAA GAAGACAACC AGTCTGACAA CATGGATGAA 
    GGTAGTGATC TTGAAGGGCT TGCAGTTATA GCAGATGATG GTGAAGAACT AAATACAGAG 
    GATGAATACA CGGTAGATGA AGACCTTGAT GACGAGGCAC TTGATACCTC AGATGCTCTG 
    ATCGATGCAC CTGAAGATAT GCAAACAGTG AGCGAGTCAA GCCAGACTGT ACCTTCAGAC 
    ATGAACACAT CGGACATACA GCCAGAGACC ACAGAGGGTG AACCTAGTGC TATAATTTCA 
    GAAAGATTAA ATGAAGAAGG GAATGAGGAA GCCCAGGAGC CTCAACAAGG TGAGCAAAAA 
    GAGCTTCAAG AGGAAAAGGA GCCCCCACGA GAAGAACAAA AAGGAGAGCA GAAAGAAGAG 
    CTTAATCAAG AAGAGCAAAT AGAAGAACTT AAACAAGACG AACAGAAAGA AGACCTTCAA 
    CCAGAAGATA AAAAAGAAGA GCTGCAAGAA GTGGAGCACA AAGAGAGTCA AGATAAAGAA 
    AATGAGCAAA ACAATGAAAC CATGACAGTG GAAGAGGAGG CGGCAGATTC CTCAGAGAAT 
    CTAGAAAACG CACTGACAGA GCAAGGTGAT GAAAATAAGA TTTCCGCCCT AGAAACAGAG 
    GAACAGTATG GCAGAGTTCT TGAGGTGGCA GGTTTTCCAG TTGCTAAAAA GTACAGTGAA 
    GCAGATTTGC TGAAAATTGG GGAAAAATAT GGAGATGTGG CAGGCTGTTG TTTGGTTCGT 
    AGCAATCGAA AGGTGGAAAA GGCATTAATT GAAATGGTGA ATGCTGATGA TGCTGCAAAA 
    CTTGAAGCTG ATTGTAAGAA GCAGCATATT AAACTAGGTG GCAAAATCTT GAGGATAAAA 
    GTGTCTCAGA AATACAGCCA AGTGAATGAA GGGAACGATG TTGACCCCGA GCCTGCGAAA 
    GTGGAAGGCA ATGACTTAGT GAATGTTGAA GATGCAACTC TGAATTTTGA AGATAAAAAT 
    ACTGAGCCCA CATGTTCAGT GGCACCCATT GAAGAGAGTA CAGTCCTGAT GTCAGAGACC 
    GAAACCACTG AAGAACCTGA TACTCCAATG GAAACCAACA CAGACTCAAT TACGCAAACA 
    TCTAGTGATG AGGAGGAAGG GTATGGCAGA GTGATCCGGG TTCGACATCT TCCAGTGTCT 
    GATGAATACA CTGATGCAGA TTTTCTGAAC ATCGCAAAAC CATACGGGAC AGTAATACGT 
    CACTGGATGT TTCGCCTCCA TCGAACAGGA CTAATTGAGA TGGAGACTGC ATCCGATGCT 
    GAGAAGGTTT TGTCTGCAGC CAAAATGAAA AAAATTACAG TTGCTGGAAA ACATCCCAAG 
    ATTGCAGTGT CCACCAAACA TGCCAATTTA AATAAAAGGT ACTTTCTATA CCAATCTGAG 
    TTGGAGAAGA CAAAAGATGA ATCCAGCACA CAGAATGATG AGAAGCAGGT TACTGAAGCG 
    GACAATGGAA CTGGAACACA AGCGGAAACA CAAACACTCC TGATGGATCC AGTGGGGATG 
    GAGTTTGTTC GACCTGTGGT GGGTTATTTC TGCAACTTGT GTAATGCCAT CTATGCCAGT 
    GAGGAAGAGG CCAAGGGTGA ACACTGCAGG ACCCCATTGC ATCATCAAAA GCTGAAGGAA 
    CACAATGAAC AAAACGGTTT AAAATAA

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

    RefSeq NP_001007137.1
    CDS117..2903
    Translation

    Target ORF information:

    RefSeq Version NM_001007136.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio matrin 3-like 1.1 (matr3l1.1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001007136.1

    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
    ATGGACCCCA ACACGCTAAT AGTCAACTCA GTCTTGTGGA AAAATATCCA GCGTGGGATC 
    AGACAATCCA TTCTGCACGG AGGTAGAGTC ATTCCTAATC CTATTTATAC GTTTCATAAA 
    TTGTACATTT TCATAAATGT TTGGAACGTG CTATTTGTAT TTATCTTTTA CAGGAATGAG 
    CCTGAATCCG AGAGACCAAA GCATGGAACA ATCCAGGCAA GAGATAGAAT CTCAAGCCAA 
    AAAATTGGAC CATCAGGCAG CAGAAGTGGA GCTTCGACCA GTAGAAGTGC ACCAACAAGC 
    CGTAGAAAAC AAAATAAAAT TGAACCTCCA TCAAAGTGCA AAGTGGTGTG TGTAAAGTTT 
    GAAAACAATG AAGTGGATGA AACCTACCTG AAACATTTGC TTGGCCAGTT TGGGGCGATT 
    GTCAAAATTA TTATGTTTCC TAATCTGGCT TTGGCAGAGA TGGGAACGAT GGGTCAAGCA 
    GAGGATATTG TAAAATATTT CTCACAAAAC CCCTTGAGGT TCAAAGGGAA AAAGCTGGAA 
    TTTTCTCTGT CTGCAGCCTT CAGTTTTCTA CAGGGCTCTC GTGTGGTGAG CTTTTCACCA 
    ATACCATCTG GAGAAGGCGT AAGCTCTGAG TTGATGGCCA TTGCCAAGCG ATTCGGATCA 
    GTAATACAAT CACAGTTTCT GCCACACCGG GGTTATGTGG AGATGGCTCT TGTGGAAGAG 
    GCCAGCAAAT TAGTGGACCA CTATTCAACT AATTCACTGA AGTTAAAAGG AAAAACCATT 
    ACTGTAGCAT TTTCAACTGA ATACCAGACG CTTAGTGATC TGGAAACTGA CAAATATAAA 
    TTACCAGCTC ATCAAAGCAG CAACAGGAGG AGAGAGAGGA GAAGTTACAG CCCCAGAAGG 
    AGGTCCTCCC AAAGAGACTC TCCCAGCCCC AAACGAAGGG CCTCTGAGGA GGGCTCCCAT 
    CCTAGCCAGG GTCACGATGC CAAGAAACGA GTAGAAAGTC GACGCTCTAG AGAGGATAGC 
    TCATCCAAAT CACATTCCAA AAATGGCTCT CCTTCAAGAG ACCTGGTCGT GAAAACCGAA 
    GAAGAGGAGG GTGAGGGGGA GATGGTTGAA GAAGACAACC AGTCTGACAA CATGGATGAA 
    GGTAGTGATC TTGAAGGGCT TGCAGTTATA GCAGATGATG GTGAAGAACT AAATACAGAG 
    GATGAATACA CGGTAGATGA AGACCTTGAT GACGAGGCAC TTGATACCTC AGATGCTCTG 
    ATCGATGCAC CTGAAGATAT GCAAACAGTG AGCGAGTCAA GCCAGACTGT ACCTTCAGAC 
    ATGAACACAT CGGACATACA GCCAGAGACC ACAGAGGGTG AACCTAGTGC TATAATTTCA 
    GAAAGATTAA ATGAAGAAGG GAATGAGGAA GCCCAGGAGC CTCAACAAGG TGAGCAAAAA 
    GAGCTTCAAG AGGAAAAGGA GCCCCCACGA GAAGAACAAA AAGGAGAGCA GAAAGAAGAG 
    CTTAATCAAG AAGAGCAAAT AGAAGAACTT AAACAAGACG AACAGAAAGA AGACCTTCAA 
    CCAGAAGATA AAAAAGAAGA GCTGCAAGAA GTGGAGCACA AAGAGAGTCA AGATAAAGAA 
    AATGAGCAAA ACAATGAAAC CATGACAGTG GAAGAGGAGG CGGCAGATTC CTCAGAGAAT 
    CTAGAAAACG CACTGACAGA GCAAGGTGAT GAAAATAAGA TTTCCGCCCT AGAAACAGAG 
    GAACAGTATG GCAGAGTTCT TGAGGTGGCA GGTTTTCCAG TTGCTAAAAA GTACAGTGAA 
    GCAGATTTGC TGAAAATTGG GGAAAAATAT GGAGATGTGG CAGGCTGTTG TTTGGTTCGT 
    AGCAATCGAA AGGTGGAAAA GGCATTAATT GAAATGGTGA ATGCTGATGA TGCTGCAAAA 
    CTTGAAGCTG ATTGTAAGAA GCAGCATATT AAACTAGGTG GCAAAATCTT GAGGATAAAA 
    GTGTCTCAGA AATACAGCCA AGTGAATGAA GGGAACGATG TTGACCCCGA GCCTGCGAAA 
    GTGGAAGGCA ATGACTTAGT GAATGTTGAA GATGCAACTC TGAATTTTGA AGATAAAAAT 
    ACTGAGCCCA CATGTTCAGT GGCACCCATT GAAGAGAGTA CAGTCCTGAT GTCAGAGACC 
    GAAACCACTG AAGAACCTGA TACTCCAATG GAAACCAACA CAGACTCAAT TACGCAAACA 
    TCTAGTGATG AGGAGGAAGG GTATGGCAGA GTGATCCGGG TTCGACATCT TCCAGTGTCT 
    GATGAATACA CTGATGCAGA TTTTCTGAAC ATCGCAAAAC CATACGGGAC AGTAATACGT 
    CACTGGATGT TTCGCCTCCA TCGAACAGGA CTAATTGAGA TGGAGACTGC ATCCGATGCT 
    GAGAAGGTTT TGTCTGCAGC CAAAATGAAA AAAATTACAG TTGCTGGAAA ACATCCCAAG 
    ATTGCAGTGT CCACCAAACA TGCCAATTTA AATAAAAGGT ACTTTCTATA CCAATCTGAG 
    TTGGAGAAGA CAAAAGATGA ATCCAGCACA CAGAATGATG AGAAGCAGGT TACTGAAGCG 
    GACAATGGAA CTGGAACACA AGCGGAAACA CAAACACTCC TGATGGATCC AGTGGGGATG 
    GAGTTTGTTC GACCTGTGGT GGGTTATTTC TGCAACTTGT GTAATGCCAT CTATGCCAGT 
    GAGGAAGAGG CCAAGGGTGA ACACTGCAGG ACCCCATTGC ATCATCAAAA GCTGAAGGAA 
    CACAATGAAC AAAACGGTTT AAAATAA

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

    matr3l1.1 ( XM_005173121.4 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_005173178.1 Danio rerio matrin 3-like 1.1 (matr3l1.1), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID ODa19532
    Clone ID Related Accession (Same CDS sequence) NM_001007136.1 , XM_005173121.4 , XM_005173121.3
    Accession Version XM_005173121.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2787bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product uncharacterized protein LOC556124 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007125.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_005173121.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    ATGGACCCCA ACACGCTAAT AGTCAACTCA GTCTTGTGGA AAAATATCCA GCGTGGGATC 
    AGACAATCCA TTCTGCACGG AGGTAGAGTC ATTCCTAATC CTATTTATAC GTTTCATAAA 
    TTGTACATTT TCATAAATGT TTGGAACGTG CTATTTGTAT TTATCTTTTA CAGGAATGAG 
    CCTGAATCCG AGAGACCAAA GCATGGAACA ATCCAGGCAA GAGATAGAAT CTCAAGCCAA 
    AAAATTGGAC CATCAGGCAG CAGAAGTGGA GCTTCGACCA GTAGAAGTGC ACCAACAAGC 
    CGTAGAAAAC AAAATAAAAT TGAACCTCCA TCAAAGTGCA AAGTGGTGTG TGTAAAGTTT 
    GAAAACAATG AAGTGGATGA AACCTACCTG AAACATTTGC TTGGCCAGTT TGGGGCGATT 
    GTCAAAATTA TTATGTTTCC TAATCTGGCT TTGGCAGAGA TGGGAACGAT GGGTCAAGCA 
    GAGGATATTG TAAAATATTT CTCACAAAAC CCCTTGAGGT TCAAAGGGAA AAAGCTGGAA 
    TTTTCTCTGT CTGCAGCCTT CAGTTTTCTA CAGGGCTCTC GTGTGGTGAG CTTTTCACCA 
    ATACCATCTG GAGAAGGCGT AAGCTCTGAG TTGATGGCCA TTGCCAAGCG ATTCGGATCA 
    GTAATACAAT CACAGTTTCT GCCACACCGG GGTTATGTGG AGATGGCTCT TGTGGAAGAG 
    GCCAGCAAAT TAGTGGACCA CTATTCAACT AATTCACTGA AGTTAAAAGG AAAAACCATT 
    ACTGTAGCAT TTTCAACTGA ATACCAGACG CTTAGTGATC TGGAAACTGA CAAATATAAA 
    TTACCAGCTC ATCAAAGCAG CAACAGGAGG AGAGAGAGGA GAAGTTACAG CCCCAGAAGG 
    AGGTCCTCCC AAAGAGACTC TCCCAGCCCC AAACGAAGGG CCTCTGAGGA GGGCTCCCAT 
    CCTAGCCAGG GTCACGATGC CAAGAAACGA GTAGAAAGTC GACGCTCTAG AGAGGATAGC 
    TCATCCAAAT CACATTCCAA AAATGGCTCT CCTTCAAGAG ACCTGGTCGT GAAAACCGAA 
    GAAGAGGAGG GTGAGGGGGA GATGGTTGAA GAAGACAACC AGTCTGACAA CATGGATGAA 
    GGTAGTGATC TTGAAGGGCT TGCAGTTATA GCAGATGATG GTGAAGAACT AAATACAGAG 
    GATGAATACA CGGTAGATGA AGACCTTGAT GACGAGGCAC TTGATACCTC AGATGCTCTG 
    ATCGATGCAC CTGAAGATAT GCAAACAGTG AGCGAGTCAA GCCAGACTGT ACCTTCAGAC 
    ATGAACACAT CGGACATACA GCCAGAGACC ACAGAGGGTG AACCTAGTGC TATAATTTCA 
    GAAAGATTAA ATGAAGAAGG GAATGAGGAA GCCCAGGAGC CTCAACAAGG TGAGCAAAAA 
    GAGCTTCAAG AGGAAAAGGA GCCCCCACGA GAAGAACAAA AAGGAGAGCA GAAAGAAGAG 
    CTTAATCAAG AAGAGCAAAT AGAAGAACTT AAACAAGACG AACAGAAAGA AGACCTTCAA 
    CCAGAAGATA AAAAAGAAGA GCTGCAAGAA GTGGAGCACA AAGAGAGTCA AGATAAAGAA 
    AATGAGCAAA ACAATGAAAC CATGACAGTG GAAGAGGAGG CGGCAGATTC CTCAGAGAAT 
    CTAGAAAACG CACTGACAGA GCAAGGTGAT GAAAATAAGA TTTCCGCCCT AGAAACAGAG 
    GAACAGTATG GCAGAGTTCT TGAGGTGGCA GGTTTTCCAG TTGCTAAAAA GTACAGTGAA 
    GCAGATTTGC TGAAAATTGG GGAAAAATAT GGAGATGTGG CAGGCTGTTG TTTGGTTCGT 
    AGCAATCGAA AGGTGGAAAA GGCATTAATT GAAATGGTGA ATGCTGATGA TGCTGCAAAA 
    CTTGAAGCTG ATTGTAAGAA GCAGCATATT AAACTAGGTG GCAAAATCTT GAGGATAAAA 
    GTGTCTCAGA AATACAGCCA AGTGAATGAA GGGAACGATG TTGACCCCGA GCCTGCGAAA 
    GTGGAAGGCA ATGACTTAGT GAATGTTGAA GATGCAACTC TGAATTTTGA AGATAAAAAT 
    ACTGAGCCCA CATGTTCAGT GGCACCCATT GAAGAGAGTA CAGTCCTGAT GTCAGAGACC 
    GAAACCACTG AAGAACCTGA TACTCCAATG GAAACCAACA CAGACTCAAT TACGCAAACA 
    TCTAGTGATG AGGAGGAAGG GTATGGCAGA GTGATCCGGG TTCGACATCT TCCAGTGTCT 
    GATGAATACA CTGATGCAGA TTTTCTGAAC ATCGCAAAAC CATACGGGAC AGTAATACGT 
    CACTGGATGT TTCGCCTCCA TCGAACAGGA CTAATTGAGA TGGAGACTGC ATCCGATGCT 
    GAGAAGGTTT TGTCTGCAGC CAAAATGAAA AAAATTACAG TTGCTGGAAA ACATCCCAAG 
    ATTGCAGTGT CCACCAAACA TGCCAATTTA AATAAAAGGT ACTTTCTATA CCAATCTGAG 
    TTGGAGAAGA CAAAAGATGA ATCCAGCACA CAGAATGATG AGAAGCAGGT TACTGAAGCG 
    GACAATGGAA CTGGAACACA AGCGGAAACA CAAACACTCC TGATGGATCC AGTGGGGATG 
    GAGTTTGTTC GACCTGTGGT GGGTTATTTC TGCAACTTGT GTAATGCCAT CTATGCCAGT 
    GAGGAAGAGG CCAAGGGTGA ACACTGCAGG ACCCCATTGC ATCATCAAAA GCTGAAGGAA 
    CACAATGAAC AAAACGGTTT AAAATAA

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

    RefSeq XP_005173178.1
    CDS158..2944
    Translation

    Target ORF information:

    RefSeq Version XM_005173121.4
    Organism Danio rerio(zebrafish)
    Definition Danio rerio matrin 3-like 1.1 (matr3l1.1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005173121.4

    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
    ATGGACCCCA ACACGCTAAT AGTCAACTCA GTCTTGTGGA AAAATATCCA GCGTGGGATC 
    AGACAATCCA TTCTGCACGG AGGTAGAGTC ATTCCTAATC CTATTTATAC GTTTCATAAA 
    TTGTACATTT TCATAAATGT TTGGAACGTG CTATTTGTAT TTATCTTTTA CAGGAATGAG 
    CCTGAATCCG AGAGACCAAA GCATGGAACA ATCCAGGCAA GAGATAGAAT CTCAAGCCAA 
    AAAATTGGAC CATCAGGCAG CAGAAGTGGA GCTTCGACCA GTAGAAGTGC ACCAACAAGC 
    CGTAGAAAAC AAAATAAAAT TGAACCTCCA TCAAAGTGCA AAGTGGTGTG TGTAAAGTTT 
    GAAAACAATG AAGTGGATGA AACCTACCTG AAACATTTGC TTGGCCAGTT TGGGGCGATT 
    GTCAAAATTA TTATGTTTCC TAATCTGGCT TTGGCAGAGA TGGGAACGAT GGGTCAAGCA 
    GAGGATATTG TAAAATATTT CTCACAAAAC CCCTTGAGGT TCAAAGGGAA AAAGCTGGAA 
    TTTTCTCTGT CTGCAGCCTT CAGTTTTCTA CAGGGCTCTC GTGTGGTGAG CTTTTCACCA 
    ATACCATCTG GAGAAGGCGT AAGCTCTGAG TTGATGGCCA TTGCCAAGCG ATTCGGATCA 
    GTAATACAAT CACAGTTTCT GCCACACCGG GGTTATGTGG AGATGGCTCT TGTGGAAGAG 
    GCCAGCAAAT TAGTGGACCA CTATTCAACT AATTCACTGA AGTTAAAAGG AAAAACCATT 
    ACTGTAGCAT TTTCAACTGA ATACCAGACG CTTAGTGATC TGGAAACTGA CAAATATAAA 
    TTACCAGCTC ATCAAAGCAG CAACAGGAGG AGAGAGAGGA GAAGTTACAG CCCCAGAAGG 
    AGGTCCTCCC AAAGAGACTC TCCCAGCCCC AAACGAAGGG CCTCTGAGGA GGGCTCCCAT 
    CCTAGCCAGG GTCACGATGC CAAGAAACGA GTAGAAAGTC GACGCTCTAG AGAGGATAGC 
    TCATCCAAAT CACATTCCAA AAATGGCTCT CCTTCAAGAG ACCTGGTCGT GAAAACCGAA 
    GAAGAGGAGG GTGAGGGGGA GATGGTTGAA GAAGACAACC AGTCTGACAA CATGGATGAA 
    GGTAGTGATC TTGAAGGGCT TGCAGTTATA GCAGATGATG GTGAAGAACT AAATACAGAG 
    GATGAATACA CGGTAGATGA AGACCTTGAT GACGAGGCAC TTGATACCTC AGATGCTCTG 
    ATCGATGCAC CTGAAGATAT GCAAACAGTG AGCGAGTCAA GCCAGACTGT ACCTTCAGAC 
    ATGAACACAT CGGACATACA GCCAGAGACC ACAGAGGGTG AACCTAGTGC TATAATTTCA 
    GAAAGATTAA ATGAAGAAGG GAATGAGGAA GCCCAGGAGC CTCAACAAGG TGAGCAAAAA 
    GAGCTTCAAG AGGAAAAGGA GCCCCCACGA GAAGAACAAA AAGGAGAGCA GAAAGAAGAG 
    CTTAATCAAG AAGAGCAAAT AGAAGAACTT AAACAAGACG AACAGAAAGA AGACCTTCAA 
    CCAGAAGATA AAAAAGAAGA GCTGCAAGAA GTGGAGCACA AAGAGAGTCA AGATAAAGAA 
    AATGAGCAAA ACAATGAAAC CATGACAGTG GAAGAGGAGG CGGCAGATTC CTCAGAGAAT 
    CTAGAAAACG CACTGACAGA GCAAGGTGAT GAAAATAAGA TTTCCGCCCT AGAAACAGAG 
    GAACAGTATG GCAGAGTTCT TGAGGTGGCA GGTTTTCCAG TTGCTAAAAA GTACAGTGAA 
    GCAGATTTGC TGAAAATTGG GGAAAAATAT GGAGATGTGG CAGGCTGTTG TTTGGTTCGT 
    AGCAATCGAA AGGTGGAAAA GGCATTAATT GAAATGGTGA ATGCTGATGA TGCTGCAAAA 
    CTTGAAGCTG ATTGTAAGAA GCAGCATATT AAACTAGGTG GCAAAATCTT GAGGATAAAA 
    GTGTCTCAGA AATACAGCCA AGTGAATGAA GGGAACGATG TTGACCCCGA GCCTGCGAAA 
    GTGGAAGGCA ATGACTTAGT GAATGTTGAA GATGCAACTC TGAATTTTGA AGATAAAAAT 
    ACTGAGCCCA CATGTTCAGT GGCACCCATT GAAGAGAGTA CAGTCCTGAT GTCAGAGACC 
    GAAACCACTG AAGAACCTGA TACTCCAATG GAAACCAACA CAGACTCAAT TACGCAAACA 
    TCTAGTGATG AGGAGGAAGG GTATGGCAGA GTGATCCGGG TTCGACATCT TCCAGTGTCT 
    GATGAATACA CTGATGCAGA TTTTCTGAAC ATCGCAAAAC CATACGGGAC AGTAATACGT 
    CACTGGATGT TTCGCCTCCA TCGAACAGGA CTAATTGAGA TGGAGACTGC ATCCGATGCT 
    GAGAAGGTTT TGTCTGCAGC CAAAATGAAA AAAATTACAG TTGCTGGAAA ACATCCCAAG 
    ATTGCAGTGT CCACCAAACA TGCCAATTTA AATAAAAGGT ACTTTCTATA CCAATCTGAG 
    TTGGAGAAGA CAAAAGATGA ATCCAGCACA CAGAATGATG AGAAGCAGGT TACTGAAGCG 
    GACAATGGAA CTGGAACACA AGCGGAAACA CAAACACTCC TGATGGATCC AGTGGGGATG 
    GAGTTTGTTC GACCTGTGGT GGGTTATTTC TGCAACTTGT GTAATGCCAT CTATGCCAGT 
    GAGGAAGAGG CCAAGGGTGA ACACTGCAGG ACCCCATTGC ATCATCAAAA GCTGAAGGAA 
    CACAATGAAC AAAACGGTTT AAAATAA

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

    matr3l1.1 ( XM_005173121.3 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_005173178.1 Danio rerio matrin 3-like 1.1 (matr3l1.1), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID ODa19532
    Clone ID Related Accession (Same CDS sequence) NM_001007136.1 , XM_005173121.4 , XM_005173121.3
    Accession Version XM_005173121.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2787bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product uncharacterized protein LOC556124 isoform X3
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007125.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_005173121.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    ATGGACCCCA ACACGCTAAT AGTCAACTCA GTCTTGTGGA AAAATATCCA GCGTGGGATC 
    AGACAATCCA TTCTGCACGG AGGTAGAGTC ATTCCTAATC CTATTTATAC GTTTCATAAA 
    TTGTACATTT TCATAAATGT TTGGAACGTG CTATTTGTAT TTATCTTTTA CAGGAATGAG 
    CCTGAATCCG AGAGACCAAA GCATGGAACA ATCCAGGCAA GAGATAGAAT CTCAAGCCAA 
    AAAATTGGAC CATCAGGCAG CAGAAGTGGA GCTTCGACCA GTAGAAGTGC ACCAACAAGC 
    CGTAGAAAAC AAAATAAAAT TGAACCTCCA TCAAAGTGCA AAGTGGTGTG TGTAAAGTTT 
    GAAAACAATG AAGTGGATGA AACCTACCTG AAACATTTGC TTGGCCAGTT TGGGGCGATT 
    GTCAAAATTA TTATGTTTCC TAATCTGGCT TTGGCAGAGA TGGGAACGAT GGGTCAAGCA 
    GAGGATATTG TAAAATATTT CTCACAAAAC CCCTTGAGGT TCAAAGGGAA AAAGCTGGAA 
    TTTTCTCTGT CTGCAGCCTT CAGTTTTCTA CAGGGCTCTC GTGTGGTGAG CTTTTCACCA 
    ATACCATCTG GAGAAGGCGT AAGCTCTGAG TTGATGGCCA TTGCCAAGCG ATTCGGATCA 
    GTAATACAAT CACAGTTTCT GCCACACCGG GGTTATGTGG AGATGGCTCT TGTGGAAGAG 
    GCCAGCAAAT TAGTGGACCA CTATTCAACT AATTCACTGA AGTTAAAAGG AAAAACCATT 
    ACTGTAGCAT TTTCAACTGA ATACCAGACG CTTAGTGATC TGGAAACTGA CAAATATAAA 
    TTACCAGCTC ATCAAAGCAG CAACAGGAGG AGAGAGAGGA GAAGTTACAG CCCCAGAAGG 
    AGGTCCTCCC AAAGAGACTC TCCCAGCCCC AAACGAAGGG CCTCTGAGGA GGGCTCCCAT 
    CCTAGCCAGG GTCACGATGC CAAGAAACGA GTAGAAAGTC GACGCTCTAG AGAGGATAGC 
    TCATCCAAAT CACATTCCAA AAATGGCTCT CCTTCAAGAG ACCTGGTCGT GAAAACCGAA 
    GAAGAGGAGG GTGAGGGGGA GATGGTTGAA GAAGACAACC AGTCTGACAA CATGGATGAA 
    GGTAGTGATC TTGAAGGGCT TGCAGTTATA GCAGATGATG GTGAAGAACT AAATACAGAG 
    GATGAATACA CGGTAGATGA AGACCTTGAT GACGAGGCAC TTGATACCTC AGATGCTCTG 
    ATCGATGCAC CTGAAGATAT GCAAACAGTG AGCGAGTCAA GCCAGACTGT ACCTTCAGAC 
    ATGAACACAT CGGACATACA GCCAGAGACC ACAGAGGGTG AACCTAGTGC TATAATTTCA 
    GAAAGATTAA ATGAAGAAGG GAATGAGGAA GCCCAGGAGC CTCAACAAGG TGAGCAAAAA 
    GAGCTTCAAG AGGAAAAGGA GCCCCCACGA GAAGAACAAA AAGGAGAGCA GAAAGAAGAG 
    CTTAATCAAG AAGAGCAAAT AGAAGAACTT AAACAAGACG AACAGAAAGA AGACCTTCAA 
    CCAGAAGATA AAAAAGAAGA GCTGCAAGAA GTGGAGCACA AAGAGAGTCA AGATAAAGAA 
    AATGAGCAAA ACAATGAAAC CATGACAGTG GAAGAGGAGG CGGCAGATTC CTCAGAGAAT 
    CTAGAAAACG CACTGACAGA GCAAGGTGAT GAAAATAAGA TTTCCGCCCT AGAAACAGAG 
    GAACAGTATG GCAGAGTTCT TGAGGTGGCA GGTTTTCCAG TTGCTAAAAA GTACAGTGAA 
    GCAGATTTGC TGAAAATTGG GGAAAAATAT GGAGATGTGG CAGGCTGTTG TTTGGTTCGT 
    AGCAATCGAA AGGTGGAAAA GGCATTAATT GAAATGGTGA ATGCTGATGA TGCTGCAAAA 
    CTTGAAGCTG ATTGTAAGAA GCAGCATATT AAACTAGGTG GCAAAATCTT GAGGATAAAA 
    GTGTCTCAGA AATACAGCCA AGTGAATGAA GGGAACGATG TTGACCCCGA GCCTGCGAAA 
    GTGGAAGGCA ATGACTTAGT GAATGTTGAA GATGCAACTC TGAATTTTGA AGATAAAAAT 
    ACTGAGCCCA CATGTTCAGT GGCACCCATT GAAGAGAGTA CAGTCCTGAT GTCAGAGACC 
    GAAACCACTG AAGAACCTGA TACTCCAATG GAAACCAACA CAGACTCAAT TACGCAAACA 
    TCTAGTGATG AGGAGGAAGG GTATGGCAGA GTGATCCGGG TTCGACATCT TCCAGTGTCT 
    GATGAATACA CTGATGCAGA TTTTCTGAAC ATCGCAAAAC CATACGGGAC AGTAATACGT 
    CACTGGATGT TTCGCCTCCA TCGAACAGGA CTAATTGAGA TGGAGACTGC ATCCGATGCT 
    GAGAAGGTTT TGTCTGCAGC CAAAATGAAA AAAATTACAG TTGCTGGAAA ACATCCCAAG 
    ATTGCAGTGT CCACCAAACA TGCCAATTTA AATAAAAGGT ACTTTCTATA CCAATCTGAG 
    TTGGAGAAGA CAAAAGATGA ATCCAGCACA CAGAATGATG AGAAGCAGGT TACTGAAGCG 
    GACAATGGAA CTGGAACACA AGCGGAAACA CAAACACTCC TGATGGATCC AGTGGGGATG 
    GAGTTTGTTC GACCTGTGGT GGGTTATTTC TGCAACTTGT GTAATGCCAT CTATGCCAGT 
    GAGGAAGAGG CCAAGGGTGA ACACTGCAGG ACCCCATTGC ATCATCAAAA GCTGAAGGAA 
    CACAATGAAC AAAACGGTTT AAAATAA

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

    RefSeq XP_005173178.1
    CDS108..2894
    Translation

    Target ORF information:

    RefSeq Version XM_005173121.3
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio matrin 3-like 1.1 (matr3l1.1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005173121.3

    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
    ATGGACCCCA ACACGCTAAT AGTCAACTCA GTCTTGTGGA AAAATATCCA GCGTGGGATC 
    AGACAATCCA TTCTGCACGG AGGTAGAGTC ATTCCTAATC CTATTTATAC GTTTCATAAA 
    TTGTACATTT TCATAAATGT TTGGAACGTG CTATTTGTAT TTATCTTTTA CAGGAATGAG 
    CCTGAATCCG AGAGACCAAA GCATGGAACA ATCCAGGCAA GAGATAGAAT CTCAAGCCAA 
    AAAATTGGAC CATCAGGCAG CAGAAGTGGA GCTTCGACCA GTAGAAGTGC ACCAACAAGC 
    CGTAGAAAAC AAAATAAAAT TGAACCTCCA TCAAAGTGCA AAGTGGTGTG TGTAAAGTTT 
    GAAAACAATG AAGTGGATGA AACCTACCTG AAACATTTGC TTGGCCAGTT TGGGGCGATT 
    GTCAAAATTA TTATGTTTCC TAATCTGGCT TTGGCAGAGA TGGGAACGAT GGGTCAAGCA 
    GAGGATATTG TAAAATATTT CTCACAAAAC CCCTTGAGGT TCAAAGGGAA AAAGCTGGAA 
    TTTTCTCTGT CTGCAGCCTT CAGTTTTCTA CAGGGCTCTC GTGTGGTGAG CTTTTCACCA 
    ATACCATCTG GAGAAGGCGT AAGCTCTGAG TTGATGGCCA TTGCCAAGCG ATTCGGATCA 
    GTAATACAAT CACAGTTTCT GCCACACCGG GGTTATGTGG AGATGGCTCT TGTGGAAGAG 
    GCCAGCAAAT TAGTGGACCA CTATTCAACT AATTCACTGA AGTTAAAAGG AAAAACCATT 
    ACTGTAGCAT TTTCAACTGA ATACCAGACG CTTAGTGATC TGGAAACTGA CAAATATAAA 
    TTACCAGCTC ATCAAAGCAG CAACAGGAGG AGAGAGAGGA GAAGTTACAG CCCCAGAAGG 
    AGGTCCTCCC AAAGAGACTC TCCCAGCCCC AAACGAAGGG CCTCTGAGGA GGGCTCCCAT 
    CCTAGCCAGG GTCACGATGC CAAGAAACGA GTAGAAAGTC GACGCTCTAG AGAGGATAGC 
    TCATCCAAAT CACATTCCAA AAATGGCTCT CCTTCAAGAG ACCTGGTCGT GAAAACCGAA 
    GAAGAGGAGG GTGAGGGGGA GATGGTTGAA GAAGACAACC AGTCTGACAA CATGGATGAA 
    GGTAGTGATC TTGAAGGGCT TGCAGTTATA GCAGATGATG GTGAAGAACT AAATACAGAG 
    GATGAATACA CGGTAGATGA AGACCTTGAT GACGAGGCAC TTGATACCTC AGATGCTCTG 
    ATCGATGCAC CTGAAGATAT GCAAACAGTG AGCGAGTCAA GCCAGACTGT ACCTTCAGAC 
    ATGAACACAT CGGACATACA GCCAGAGACC ACAGAGGGTG AACCTAGTGC TATAATTTCA 
    GAAAGATTAA ATGAAGAAGG GAATGAGGAA GCCCAGGAGC CTCAACAAGG TGAGCAAAAA 
    GAGCTTCAAG AGGAAAAGGA GCCCCCACGA GAAGAACAAA AAGGAGAGCA GAAAGAAGAG 
    CTTAATCAAG AAGAGCAAAT AGAAGAACTT AAACAAGACG AACAGAAAGA AGACCTTCAA 
    CCAGAAGATA AAAAAGAAGA GCTGCAAGAA GTGGAGCACA AAGAGAGTCA AGATAAAGAA 
    AATGAGCAAA ACAATGAAAC CATGACAGTG GAAGAGGAGG CGGCAGATTC CTCAGAGAAT 
    CTAGAAAACG CACTGACAGA GCAAGGTGAT GAAAATAAGA TTTCCGCCCT AGAAACAGAG 
    GAACAGTATG GCAGAGTTCT TGAGGTGGCA GGTTTTCCAG TTGCTAAAAA GTACAGTGAA 
    GCAGATTTGC TGAAAATTGG GGAAAAATAT GGAGATGTGG CAGGCTGTTG TTTGGTTCGT 
    AGCAATCGAA AGGTGGAAAA GGCATTAATT GAAATGGTGA ATGCTGATGA TGCTGCAAAA 
    CTTGAAGCTG ATTGTAAGAA GCAGCATATT AAACTAGGTG GCAAAATCTT GAGGATAAAA 
    GTGTCTCAGA AATACAGCCA AGTGAATGAA GGGAACGATG TTGACCCCGA GCCTGCGAAA 
    GTGGAAGGCA ATGACTTAGT GAATGTTGAA GATGCAACTC TGAATTTTGA AGATAAAAAT 
    ACTGAGCCCA CATGTTCAGT GGCACCCATT GAAGAGAGTA CAGTCCTGAT GTCAGAGACC 
    GAAACCACTG AAGAACCTGA TACTCCAATG GAAACCAACA CAGACTCAAT TACGCAAACA 
    TCTAGTGATG AGGAGGAAGG GTATGGCAGA GTGATCCGGG TTCGACATCT TCCAGTGTCT 
    GATGAATACA CTGATGCAGA TTTTCTGAAC ATCGCAAAAC CATACGGGAC AGTAATACGT 
    CACTGGATGT TTCGCCTCCA TCGAACAGGA CTAATTGAGA TGGAGACTGC ATCCGATGCT 
    GAGAAGGTTT TGTCTGCAGC CAAAATGAAA AAAATTACAG TTGCTGGAAA ACATCCCAAG 
    ATTGCAGTGT CCACCAAACA TGCCAATTTA AATAAAAGGT ACTTTCTATA CCAATCTGAG 
    TTGGAGAAGA CAAAAGATGA ATCCAGCACA CAGAATGATG AGAAGCAGGT TACTGAAGCG 
    GACAATGGAA CTGGAACACA AGCGGAAACA CAAACACTCC TGATGGATCC AGTGGGGATG 
    GAGTTTGTTC GACCTGTGGT GGGTTATTTC TGCAACTTGT GTAATGCCAT CTATGCCAGT 
    GAGGAAGAGG CCAAGGGTGA ACACTGCAGG ACCCCATTGC ATCATCAAAA GCTGAAGGAA 
    CACAATGAAC AAAACGGTTT AAAATAA

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

    matr3l1.1 ( XM_009291033.3 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_009289308.1 Danio rerio matrin 3-like 1.1 (matr3l1.1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ODa42305
    Clone ID Related Accession (Same CDS sequence) XM_009291033.3 , XM_009291033.2 , XM_009291032.2 , XM_009291032.3
    Accession Version XM_009291033.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3762bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product uncharacterized protein LOC556124 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007125.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_009291033.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGTCTTATA ATCCACCATA CCGAAACCCT CAAGGGGACA AAGATGCACG AATCTATACC 
    CGGGACTCGA GCGCTTACAG GTCAGGAATT AGGAGCACAA CTCCGCACCG GACATCTTCA 
    TCCTCATCAG AACAGCCCGT ATTCCCGCCG AATAAGGCAT TGTCCTTTCT GCATAGCTGC 
    GGACTGGATG CTGAAGATCT TCAAACTCTG GCCAAGCTTC CCGAGCATCT CATCACAACC 
    GATACCCTTC CTGACCTTCT CACAGAAATC AAAAAGAAGA AATTGTCCCA CACTTCTTCA 
    CCCAGGTCCA GTGTGCTCCC AGCCGCGTCG TCAGCTCGCT CCTGGGACGA TAGGAGCCAC 
    GCTCAGTCGG TTGAGTATCC TTTAGATTTG CCTGCCCGTC AGTCGTATTC CCTTAATCGA 
    GAGCAAGCCC AAACCTGGGA TGACAACTGG GGAGATGTCC AGCAAACAAG CTCTCCAGCA 
    GCATCAAGCT ACGTTGTTGA GTATAACCAT CTGAAAGAGA AAAAGTCATA CTATGATGAA 
    CCGTCTTATC CCCCAGAACC ATCAAGAGAA ATGTCTTACT CTAACTATGG CAAAGAAGTT 
    GGTCACTCGT CGCATTTTTC CAGCAGAGAC GCCAGTCATT CCTCACATCT GTCCAGTAGG 
    GACAGTCAAT CCTCACGTCG GTCAAGCAGA GACCTCGGTC AGACCTCACA GCACTCCAGC 
    AGATACATCA GTCAGTCCTC AGTACGGTCG AGTAGAGACG TCGCTCCATC CTCACACCTG 
    TCTAGCAGAG ATGTCGGAGT ACATTCACAC ATCGCCCAAC CTTCGCCCAT GTCCAACAGA 
    AACGTTGGTA TACCCTCACT CCTCTCCATA AGAGACCTCG CTCCAGCCTC ACATCTGTCC 
    AGCAGAGCTG TCAGGCAGCC CTCTTGGAAG AAAGGCTCGG CTCCTAGAGT ACCTACCAGG 
    AAAGAGGCAT CCGATTTCCA CGGGAGGACT CCACCGGTGT TTCCCTACGC ATGCGTACTC 
    TGTGAAATCA CGGTCCTCTC TGACAAGGAC TGGTCTGTGC ATATAAATGG ACCCCAACAC 
    GCTAATAGTC AACTCAGTCT TGTGGAAAAA TATCCAGCGT GGGATCAGAC AATCCATTCT 
    GCACGGAGGA ATGAGCCTGA ATCCGAGAGA CCAAAGCATG GAACAATCCA GGCAAGAGAT 
    AGAATCTCAA GCCAAAAAAT TGGACCATCA GGCAGCAGAA GTGGAGCTTC GACCAGTAGA 
    AGTGCACCAA CAAGCCGTAG AAAACAAAAT AAAATTGAAC CTCCATCAAA GTGCAAAGTG 
    GTGTGTGTAA AGTTTGAAAA CAATGAAGTG GATGAAACCT ACCTGAAACA TTTGCTTGGC 
    CAGTTTGGGG CGATTGTCAA AATTATTATG TTTCCTAATC TGGCTTTGGC AGAGATGGGA 
    ACGATGGGTC AAGCAGAGGA TATTGTAAAA TATTTCTCAC AAAACCCCTT GAGGTTCAAA 
    GGGAAAAAGC TGGAATTTTC TCTGTCTGCA GCCTTCAGTT TTCTACAGGG CTCTCGTGTG 
    GTGAGCTTTT CACCAATACC ATCTGGAGAA GGCGTAAGCT CTGAGTTGAT GGCCATTGCC 
    AAGCGATTCG GATCAGTAAT ACAATCACAG TTTCTGCCAC ACCGGGGTTA TGTGGAGATG 
    GCTCTTGTGG AAGAGGCCAG CAAATTAGTG GACCACTATT CAACTAATTC ACTGAAGTTA 
    AAAGGAAAAA CCATTACTGT AGCATTTTCA ACTGAATACC AGACGCTTAG TGATCTGGAA 
    ACTGACAAAT ATAAATTACC AGCTCATCAA AGCAGCAACA GGAGGAGAGA GAGGAGAAGT 
    TACAGCCCCA GAAGGAGGTC CTCCCAAAGA GACTCTCCCA GCCCCAAACG AAGGGCCTCT 
    GAGGAGGGCT CCCATCCTAG CCAGGGTCAC GATGCCAAGA AACGAGTAGA AAGTCGACGC 
    TCTAGAGAGG ATAGCTCATC CAAATCACAT TCCAAAAATG GCTCTCCTTC AAGAGACCTG 
    GTCGTGAAAA CCGAAGAAGA GGAGGGTGAG GGGGAGATGG TTGAAGAAGA CAACCAGTCT 
    GACAACATGG ATGAAGGTAG TGATCTTGAA GGGCTTGCAG TTATAGCAGA TGATGGTGAA 
    GAACTAAATA CAGAGGATGA ATACACGGTA GATGAAGACC TTGATGACGA GGCACTTGAT 
    ACCTCAGATG CTCTGATCGA TGCACCTGAA GATATGCAAA CAGTGAGCGA GTCAAGCCAG 
    ACTGTACCTT CAGACATGAA CACATCGGAC ATACAGCCAG AGACCACAGA GGGTGAACCT 
    AGTGCTATAA TTTCAGAAAG ATTAAATGAA GAAGGGAATG AGGAAGCCCA GGAGCCTCAA 
    CAAGGTGAGC AAAAAGAGCT TCAAGAGGAA AAGGAGCCCC CACGAGAAGA ACAAAAAGGA 
    GAGCAGAAAG AAGAGCTTAA TCAAGAAGAG CAAATAGAAG AACTTAAACA AGACGAACAG 
    AAAGAAGACC TTCAACCAGA AGATAAAAAA GAAGAGCTGC AAGAAGTGGA GCACAAAGAG 
    AGTCAAGATA AAGAAAATGA GCAAAACAAT GAAACCATGA CAGTGGAAGA GGAGGCGGCA 
    GATTCCTCAG AGAATCTAGA AAACGCACTG ACAGAGCAAG GTGATGAAAA TAAGATTTCC 
    GCCCTAGAAA CAGAGGAACA GTATGGCAGA GTTCTTGAGG TGGCAGGTTT TCCAGTTGCT 
    AAAAAGTACA GTGAAGCAGA TTTGCTGAAA ATTGGGGAAA AATATGGAGA TGTGGCAGGC 
    TGTTGTTTGG TTCGTAGCAA TCGAAAGGTG GAAAAGGCAT TAATTGAAAT GGTGAATGCT 
    GATGATGCTG CAAAACTTGA AGCTGATTGT AAGAAGCAGC ATATTAAACT AGGTGGCAAA 
    ATCTTGAGGA TAAAAGTGTC TCAGAAATAC AGCCAAGTGA ATGAAGGGAA CGATGTTGAC 
    CCCGAGCCTG CGAAAGTGGA AGGCAATGAC TTAGTGAATG TTGAAGATGC AACTCTGAAT 
    TTTGAAGATA AAAATACTGA GCCCACATGT TCAGTGGCAC CCATTGAAGA GAGTACAGTC 
    CTGATGTCAG AGACCGAAAC CACTGAAGAA CCTGATACTC CAATGGAAAC CAACACAGAC 
    TCAATTACGC AAACATCTAG TGATGAGGAG GAAGGGTATG GCAGAGTGAT CCGGGTTCGA 
    CATCTTCCAG TGTCTGATGA ATACACTGAT GCAGATTTTC TGAACATCGC AAAACCATAC 
    GGGACAGTAA TACGTCACTG GATGTTTCGC CTCCATCGAA CAGGACTAAT TGAGATGGAG 
    ACTGCATCCG ATGCTGAGAA GGTTTTGTCT GCAGCCAAAA TGAAAAAAAT TACAGTTGCT 
    GGAAAACATC CCAAGATTGC AGTGTCCACC AAACATGCCA ATTTAAATAA AAGGTACTTT 
    CTATACCAAT CTGAGTTGGA GAAGACAAAA GATGAATCCA GCACACAGAA TGATGAGAAG 
    CAGGTTACTG AAGCGGACAA TGGAACTGGA ACACAAGCGG AAACACAAAC ACTCCTGATG 
    GATCCAGTGG GGATGGAGTT TGTTCGACCT GTGGTGGGTT ATTTCTGCAA CTTGTGTAAT 
    GCCATCTATG CCAGTGAGGA AGAGGCCAAG GGTGAACACT GCAGGACCCC ATTGCATCAT 
    CAAAAGCTGA AGGAACACAA TGAACAAAAC GGTTTAAAAT AA

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

    RefSeq XP_009289308.1
    CDS177..3938
    Translation

    Target ORF information:

    RefSeq Version XM_009291033.3
    Organism Danio rerio(zebrafish)
    Definition Danio rerio matrin 3-like 1.1 (matr3l1.1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_009291033.3

    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
    ATGTCTTATA ATCCACCATA CCGAAACCCT CAAGGGGACA AAGATGCACG AATCTATACC 
    CGGGACTCGA GCGCTTACAG GTCAGGAATT AGGAGCACAA CTCCGCACCG GACATCTTCA 
    TCCTCATCAG AACAGCCCGT ATTCCCGCCG AATAAGGCAT TGTCCTTTCT GCATAGCTGC 
    GGACTGGATG CTGAAGATCT TCAAACTCTG GCCAAGCTTC CCGAGCATCT CATCACAACC 
    GATACCCTTC CTGACCTTCT CACAGAAATC AAAAAGAAGA AATTGTCCCA CACTTCTTCA 
    CCCAGGTCCA GTGTGCTCCC AGCCGCGTCG TCAGCTCGCT CCTGGGACGA TAGGAGCCAC 
    GCTCAGTCGG TTGAGTATCC TTTAGATTTG CCTGCCCGTC AGTCGTATTC CCTTAATCGA 
    GAGCAAGCCC AAACCTGGGA TGACAACTGG GGAGATGTCC AGCAAACAAG CTCTCCAGCA 
    GCATCAAGCT ACGTTGTTGA GTATAACCAT CTGAAAGAGA AAAAGTCATA CTATGATGAA 
    CCGTCTTATC CCCCAGAACC ATCAAGAGAA ATGTCTTACT CTAACTATGG CAAAGAAGTT 
    GGTCACTCGT CGCATTTTTC CAGCAGAGAC GCCAGTCATT CCTCACATCT GTCCAGTAGG 
    GACAGTCAAT CCTCACGTCG GTCAAGCAGA GACCTCGGTC AGACCTCACA GCACTCCAGC 
    AGATACATCA GTCAGTCCTC AGTACGGTCG AGTAGAGACG TCGCTCCATC CTCACACCTG 
    TCTAGCAGAG ATGTCGGAGT ACATTCACAC ATCGCCCAAC CTTCGCCCAT GTCCAACAGA 
    AACGTTGGTA TACCCTCACT CCTCTCCATA AGAGACCTCG CTCCAGCCTC ACATCTGTCC 
    AGCAGAGCTG TCAGGCAGCC CTCTTGGAAG AAAGGCTCGG CTCCTAGAGT ACCTACCAGG 
    AAAGAGGCAT CCGATTTCCA CGGGAGGACT CCACCGGTGT TTCCCTACGC ATGCGTACTC 
    TGTGAAATCA CGGTCCTCTC TGACAAGGAC TGGTCTGTGC ATATAAATGG ACCCCAACAC 
    GCTAATAGTC AACTCAGTCT TGTGGAAAAA TATCCAGCGT GGGATCAGAC AATCCATTCT 
    GCACGGAGGA ATGAGCCTGA ATCCGAGAGA CCAAAGCATG GAACAATCCA GGCAAGAGAT 
    AGAATCTCAA GCCAAAAAAT TGGACCATCA GGCAGCAGAA GTGGAGCTTC GACCAGTAGA 
    AGTGCACCAA CAAGCCGTAG AAAACAAAAT AAAATTGAAC CTCCATCAAA GTGCAAAGTG 
    GTGTGTGTAA AGTTTGAAAA CAATGAAGTG GATGAAACCT ACCTGAAACA TTTGCTTGGC 
    CAGTTTGGGG CGATTGTCAA AATTATTATG TTTCCTAATC TGGCTTTGGC AGAGATGGGA 
    ACGATGGGTC AAGCAGAGGA TATTGTAAAA TATTTCTCAC AAAACCCCTT GAGGTTCAAA 
    GGGAAAAAGC TGGAATTTTC TCTGTCTGCA GCCTTCAGTT TTCTACAGGG CTCTCGTGTG 
    GTGAGCTTTT CACCAATACC ATCTGGAGAA GGCGTAAGCT CTGAGTTGAT GGCCATTGCC 
    AAGCGATTCG GATCAGTAAT ACAATCACAG TTTCTGCCAC ACCGGGGTTA TGTGGAGATG 
    GCTCTTGTGG AAGAGGCCAG CAAATTAGTG GACCACTATT CAACTAATTC ACTGAAGTTA 
    AAAGGAAAAA CCATTACTGT AGCATTTTCA ACTGAATACC AGACGCTTAG TGATCTGGAA 
    ACTGACAAAT ATAAATTACC AGCTCATCAA AGCAGCAACA GGAGGAGAGA GAGGAGAAGT 
    TACAGCCCCA GAAGGAGGTC CTCCCAAAGA GACTCTCCCA GCCCCAAACG AAGGGCCTCT 
    GAGGAGGGCT CCCATCCTAG CCAGGGTCAC GATGCCAAGA AACGAGTAGA AAGTCGACGC 
    TCTAGAGAGG ATAGCTCATC CAAATCACAT TCCAAAAATG GCTCTCCTTC AAGAGACCTG 
    GTCGTGAAAA CCGAAGAAGA GGAGGGTGAG GGGGAGATGG TTGAAGAAGA CAACCAGTCT 
    GACAACATGG ATGAAGGTAG TGATCTTGAA GGGCTTGCAG TTATAGCAGA TGATGGTGAA 
    GAACTAAATA CAGAGGATGA ATACACGGTA GATGAAGACC TTGATGACGA GGCACTTGAT 
    ACCTCAGATG CTCTGATCGA TGCACCTGAA GATATGCAAA CAGTGAGCGA GTCAAGCCAG 
    ACTGTACCTT CAGACATGAA CACATCGGAC ATACAGCCAG AGACCACAGA GGGTGAACCT 
    AGTGCTATAA TTTCAGAAAG ATTAAATGAA GAAGGGAATG AGGAAGCCCA GGAGCCTCAA 
    CAAGGTGAGC AAAAAGAGCT TCAAGAGGAA AAGGAGCCCC CACGAGAAGA ACAAAAAGGA 
    GAGCAGAAAG AAGAGCTTAA TCAAGAAGAG CAAATAGAAG AACTTAAACA AGACGAACAG 
    AAAGAAGACC TTCAACCAGA AGATAAAAAA GAAGAGCTGC AAGAAGTGGA GCACAAAGAG 
    AGTCAAGATA AAGAAAATGA GCAAAACAAT GAAACCATGA CAGTGGAAGA GGAGGCGGCA 
    GATTCCTCAG AGAATCTAGA AAACGCACTG ACAGAGCAAG GTGATGAAAA TAAGATTTCC 
    GCCCTAGAAA CAGAGGAACA GTATGGCAGA GTTCTTGAGG TGGCAGGTTT TCCAGTTGCT 
    AAAAAGTACA GTGAAGCAGA TTTGCTGAAA ATTGGGGAAA AATATGGAGA TGTGGCAGGC 
    TGTTGTTTGG TTCGTAGCAA TCGAAAGGTG GAAAAGGCAT TAATTGAAAT GGTGAATGCT 
    GATGATGCTG CAAAACTTGA AGCTGATTGT AAGAAGCAGC ATATTAAACT AGGTGGCAAA 
    ATCTTGAGGA TAAAAGTGTC TCAGAAATAC AGCCAAGTGA ATGAAGGGAA CGATGTTGAC 
    CCCGAGCCTG CGAAAGTGGA AGGCAATGAC TTAGTGAATG TTGAAGATGC AACTCTGAAT 
    TTTGAAGATA AAAATACTGA GCCCACATGT TCAGTGGCAC CCATTGAAGA GAGTACAGTC 
    CTGATGTCAG AGACCGAAAC CACTGAAGAA CCTGATACTC CAATGGAAAC CAACACAGAC 
    TCAATTACGC AAACATCTAG TGATGAGGAG GAAGGGTATG GCAGAGTGAT CCGGGTTCGA 
    CATCTTCCAG TGTCTGATGA ATACACTGAT GCAGATTTTC TGAACATCGC AAAACCATAC 
    GGGACAGTAA TACGTCACTG GATGTTTCGC CTCCATCGAA CAGGACTAAT TGAGATGGAG 
    ACTGCATCCG ATGCTGAGAA GGTTTTGTCT GCAGCCAAAA TGAAAAAAAT TACAGTTGCT 
    GGAAAACATC CCAAGATTGC AGTGTCCACC AAACATGCCA ATTTAAATAA AAGGTACTTT 
    CTATACCAAT CTGAGTTGGA GAAGACAAAA GATGAATCCA GCACACAGAA TGATGAGAAG 
    CAGGTTACTG AAGCGGACAA TGGAACTGGA ACACAAGCGG AAACACAAAC ACTCCTGATG 
    GATCCAGTGG GGATGGAGTT TGTTCGACCT GTGGTGGGTT ATTTCTGCAA CTTGTGTAAT 
    GCCATCTATG CCAGTGAGGA AGAGGCCAAG GGTGAACACT GCAGGACCCC ATTGCATCAT 
    CAAAAGCTGA AGGAACACAA TGAACAAAAC GGTTTAAAAT AA

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

    matr3l1.1 ( XM_009291033.2 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_009289308.1 Danio rerio matrin 3-like 1.1 (matr3l1.1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ODa42305
    Clone ID Related Accession (Same CDS sequence) XM_009291033.3 , XM_009291033.2 , XM_009291032.2 , XM_009291032.3
    Accession Version XM_009291033.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3762bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product uncharacterized protein LOC556124 isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007125.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_009291033.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGTCTTATA ATCCACCATA CCGAAACCCT CAAGGGGACA AAGATGCACG AATCTATACC 
    CGGGACTCGA GCGCTTACAG GTCAGGAATT AGGAGCACAA CTCCGCACCG GACATCTTCA 
    TCCTCATCAG AACAGCCCGT ATTCCCGCCG AATAAGGCAT TGTCCTTTCT GCATAGCTGC 
    GGACTGGATG CTGAAGATCT TCAAACTCTG GCCAAGCTTC CCGAGCATCT CATCACAACC 
    GATACCCTTC CTGACCTTCT CACAGAAATC AAAAAGAAGA AATTGTCCCA CACTTCTTCA 
    CCCAGGTCCA GTGTGCTCCC AGCCGCGTCG TCAGCTCGCT CCTGGGACGA TAGGAGCCAC 
    GCTCAGTCGG TTGAGTATCC TTTAGATTTG CCTGCCCGTC AGTCGTATTC CCTTAATCGA 
    GAGCAAGCCC AAACCTGGGA TGACAACTGG GGAGATGTCC AGCAAACAAG CTCTCCAGCA 
    GCATCAAGCT ACGTTGTTGA GTATAACCAT CTGAAAGAGA AAAAGTCATA CTATGATGAA 
    CCGTCTTATC CCCCAGAACC ATCAAGAGAA ATGTCTTACT CTAACTATGG CAAAGAAGTT 
    GGTCACTCGT CGCATTTTTC CAGCAGAGAC GCCAGTCATT CCTCACATCT GTCCAGTAGG 
    GACAGTCAAT CCTCACGTCG GTCAAGCAGA GACCTCGGTC AGACCTCACA GCACTCCAGC 
    AGATACATCA GTCAGTCCTC AGTACGGTCG AGTAGAGACG TCGCTCCATC CTCACACCTG 
    TCTAGCAGAG ATGTCGGAGT ACATTCACAC ATCGCCCAAC CTTCGCCCAT GTCCAACAGA 
    AACGTTGGTA TACCCTCACT CCTCTCCATA AGAGACCTCG CTCCAGCCTC ACATCTGTCC 
    AGCAGAGCTG TCAGGCAGCC CTCTTGGAAG AAAGGCTCGG CTCCTAGAGT ACCTACCAGG 
    AAAGAGGCAT CCGATTTCCA CGGGAGGACT CCACCGGTGT TTCCCTACGC ATGCGTACTC 
    TGTGAAATCA CGGTCCTCTC TGACAAGGAC TGGTCTGTGC ATATAAATGG ACCCCAACAC 
    GCTAATAGTC AACTCAGTCT TGTGGAAAAA TATCCAGCGT GGGATCAGAC AATCCATTCT 
    GCACGGAGGA ATGAGCCTGA ATCCGAGAGA CCAAAGCATG GAACAATCCA GGCAAGAGAT 
    AGAATCTCAA GCCAAAAAAT TGGACCATCA GGCAGCAGAA GTGGAGCTTC GACCAGTAGA 
    AGTGCACCAA CAAGCCGTAG AAAACAAAAT AAAATTGAAC CTCCATCAAA GTGCAAAGTG 
    GTGTGTGTAA AGTTTGAAAA CAATGAAGTG GATGAAACCT ACCTGAAACA TTTGCTTGGC 
    CAGTTTGGGG CGATTGTCAA AATTATTATG TTTCCTAATC TGGCTTTGGC AGAGATGGGA 
    ACGATGGGTC AAGCAGAGGA TATTGTAAAA TATTTCTCAC AAAACCCCTT GAGGTTCAAA 
    GGGAAAAAGC TGGAATTTTC TCTGTCTGCA GCCTTCAGTT TTCTACAGGG CTCTCGTGTG 
    GTGAGCTTTT CACCAATACC ATCTGGAGAA GGCGTAAGCT CTGAGTTGAT GGCCATTGCC 
    AAGCGATTCG GATCAGTAAT ACAATCACAG TTTCTGCCAC ACCGGGGTTA TGTGGAGATG 
    GCTCTTGTGG AAGAGGCCAG CAAATTAGTG GACCACTATT CAACTAATTC ACTGAAGTTA 
    AAAGGAAAAA CCATTACTGT AGCATTTTCA ACTGAATACC AGACGCTTAG TGATCTGGAA 
    ACTGACAAAT ATAAATTACC AGCTCATCAA AGCAGCAACA GGAGGAGAGA GAGGAGAAGT 
    TACAGCCCCA GAAGGAGGTC CTCCCAAAGA GACTCTCCCA GCCCCAAACG AAGGGCCTCT 
    GAGGAGGGCT CCCATCCTAG CCAGGGTCAC GATGCCAAGA AACGAGTAGA AAGTCGACGC 
    TCTAGAGAGG ATAGCTCATC CAAATCACAT TCCAAAAATG GCTCTCCTTC AAGAGACCTG 
    GTCGTGAAAA CCGAAGAAGA GGAGGGTGAG GGGGAGATGG TTGAAGAAGA CAACCAGTCT 
    GACAACATGG ATGAAGGTAG TGATCTTGAA GGGCTTGCAG TTATAGCAGA TGATGGTGAA 
    GAACTAAATA CAGAGGATGA ATACACGGTA GATGAAGACC TTGATGACGA GGCACTTGAT 
    ACCTCAGATG CTCTGATCGA TGCACCTGAA GATATGCAAA CAGTGAGCGA GTCAAGCCAG 
    ACTGTACCTT CAGACATGAA CACATCGGAC ATACAGCCAG AGACCACAGA GGGTGAACCT 
    AGTGCTATAA TTTCAGAAAG ATTAAATGAA GAAGGGAATG AGGAAGCCCA GGAGCCTCAA 
    CAAGGTGAGC AAAAAGAGCT TCAAGAGGAA AAGGAGCCCC CACGAGAAGA ACAAAAAGGA 
    GAGCAGAAAG AAGAGCTTAA TCAAGAAGAG CAAATAGAAG AACTTAAACA AGACGAACAG 
    AAAGAAGACC TTCAACCAGA AGATAAAAAA GAAGAGCTGC AAGAAGTGGA GCACAAAGAG 
    AGTCAAGATA AAGAAAATGA GCAAAACAAT GAAACCATGA CAGTGGAAGA GGAGGCGGCA 
    GATTCCTCAG AGAATCTAGA AAACGCACTG ACAGAGCAAG GTGATGAAAA TAAGATTTCC 
    GCCCTAGAAA CAGAGGAACA GTATGGCAGA GTTCTTGAGG TGGCAGGTTT TCCAGTTGCT 
    AAAAAGTACA GTGAAGCAGA TTTGCTGAAA ATTGGGGAAA AATATGGAGA TGTGGCAGGC 
    TGTTGTTTGG TTCGTAGCAA TCGAAAGGTG GAAAAGGCAT TAATTGAAAT GGTGAATGCT 
    GATGATGCTG CAAAACTTGA AGCTGATTGT AAGAAGCAGC ATATTAAACT AGGTGGCAAA 
    ATCTTGAGGA TAAAAGTGTC TCAGAAATAC AGCCAAGTGA ATGAAGGGAA CGATGTTGAC 
    CCCGAGCCTG CGAAAGTGGA AGGCAATGAC TTAGTGAATG TTGAAGATGC AACTCTGAAT 
    TTTGAAGATA AAAATACTGA GCCCACATGT TCAGTGGCAC CCATTGAAGA GAGTACAGTC 
    CTGATGTCAG AGACCGAAAC CACTGAAGAA CCTGATACTC CAATGGAAAC CAACACAGAC 
    TCAATTACGC AAACATCTAG TGATGAGGAG GAAGGGTATG GCAGAGTGAT CCGGGTTCGA 
    CATCTTCCAG TGTCTGATGA ATACACTGAT GCAGATTTTC TGAACATCGC AAAACCATAC 
    GGGACAGTAA TACGTCACTG GATGTTTCGC CTCCATCGAA CAGGACTAAT TGAGATGGAG 
    ACTGCATCCG ATGCTGAGAA GGTTTTGTCT GCAGCCAAAA TGAAAAAAAT TACAGTTGCT 
    GGAAAACATC CCAAGATTGC AGTGTCCACC AAACATGCCA ATTTAAATAA AAGGTACTTT 
    CTATACCAAT CTGAGTTGGA GAAGACAAAA GATGAATCCA GCACACAGAA TGATGAGAAG 
    CAGGTTACTG AAGCGGACAA TGGAACTGGA ACACAAGCGG AAACACAAAC ACTCCTGATG 
    GATCCAGTGG GGATGGAGTT TGTTCGACCT GTGGTGGGTT ATTTCTGCAA CTTGTGTAAT 
    GCCATCTATG CCAGTGAGGA AGAGGCCAAG GGTGAACACT GCAGGACCCC ATTGCATCAT 
    CAAAAGCTGA AGGAACACAA TGAACAAAAC GGTTTAAAAT AA

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

    RefSeq XP_009289308.1
    CDS165..3926
    Translation

    Target ORF information:

    RefSeq Version XM_009291033.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio matrin 3-like 1.1 (matr3l1.1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_009291033.2

    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
    ATGTCTTATA ATCCACCATA CCGAAACCCT CAAGGGGACA AAGATGCACG AATCTATACC 
    CGGGACTCGA GCGCTTACAG GTCAGGAATT AGGAGCACAA CTCCGCACCG GACATCTTCA 
    TCCTCATCAG AACAGCCCGT ATTCCCGCCG AATAAGGCAT TGTCCTTTCT GCATAGCTGC 
    GGACTGGATG CTGAAGATCT TCAAACTCTG GCCAAGCTTC CCGAGCATCT CATCACAACC 
    GATACCCTTC CTGACCTTCT CACAGAAATC AAAAAGAAGA AATTGTCCCA CACTTCTTCA 
    CCCAGGTCCA GTGTGCTCCC AGCCGCGTCG TCAGCTCGCT CCTGGGACGA TAGGAGCCAC 
    GCTCAGTCGG TTGAGTATCC TTTAGATTTG CCTGCCCGTC AGTCGTATTC CCTTAATCGA 
    GAGCAAGCCC AAACCTGGGA TGACAACTGG GGAGATGTCC AGCAAACAAG CTCTCCAGCA 
    GCATCAAGCT ACGTTGTTGA GTATAACCAT CTGAAAGAGA AAAAGTCATA CTATGATGAA 
    CCGTCTTATC CCCCAGAACC ATCAAGAGAA ATGTCTTACT CTAACTATGG CAAAGAAGTT 
    GGTCACTCGT CGCATTTTTC CAGCAGAGAC GCCAGTCATT CCTCACATCT GTCCAGTAGG 
    GACAGTCAAT CCTCACGTCG GTCAAGCAGA GACCTCGGTC AGACCTCACA GCACTCCAGC 
    AGATACATCA GTCAGTCCTC AGTACGGTCG AGTAGAGACG TCGCTCCATC CTCACACCTG 
    TCTAGCAGAG ATGTCGGAGT ACATTCACAC ATCGCCCAAC CTTCGCCCAT GTCCAACAGA 
    AACGTTGGTA TACCCTCACT CCTCTCCATA AGAGACCTCG CTCCAGCCTC ACATCTGTCC 
    AGCAGAGCTG TCAGGCAGCC CTCTTGGAAG AAAGGCTCGG CTCCTAGAGT ACCTACCAGG 
    AAAGAGGCAT CCGATTTCCA CGGGAGGACT CCACCGGTGT TTCCCTACGC ATGCGTACTC 
    TGTGAAATCA CGGTCCTCTC TGACAAGGAC TGGTCTGTGC ATATAAATGG ACCCCAACAC 
    GCTAATAGTC AACTCAGTCT TGTGGAAAAA TATCCAGCGT GGGATCAGAC AATCCATTCT 
    GCACGGAGGA ATGAGCCTGA ATCCGAGAGA CCAAAGCATG GAACAATCCA GGCAAGAGAT 
    AGAATCTCAA GCCAAAAAAT TGGACCATCA GGCAGCAGAA GTGGAGCTTC GACCAGTAGA 
    AGTGCACCAA CAAGCCGTAG AAAACAAAAT AAAATTGAAC CTCCATCAAA GTGCAAAGTG 
    GTGTGTGTAA AGTTTGAAAA CAATGAAGTG GATGAAACCT ACCTGAAACA TTTGCTTGGC 
    CAGTTTGGGG CGATTGTCAA AATTATTATG TTTCCTAATC TGGCTTTGGC AGAGATGGGA 
    ACGATGGGTC AAGCAGAGGA TATTGTAAAA TATTTCTCAC AAAACCCCTT GAGGTTCAAA 
    GGGAAAAAGC TGGAATTTTC TCTGTCTGCA GCCTTCAGTT TTCTACAGGG CTCTCGTGTG 
    GTGAGCTTTT CACCAATACC ATCTGGAGAA GGCGTAAGCT CTGAGTTGAT GGCCATTGCC 
    AAGCGATTCG GATCAGTAAT ACAATCACAG TTTCTGCCAC ACCGGGGTTA TGTGGAGATG 
    GCTCTTGTGG AAGAGGCCAG CAAATTAGTG GACCACTATT CAACTAATTC ACTGAAGTTA 
    AAAGGAAAAA CCATTACTGT AGCATTTTCA ACTGAATACC AGACGCTTAG TGATCTGGAA 
    ACTGACAAAT ATAAATTACC AGCTCATCAA AGCAGCAACA GGAGGAGAGA GAGGAGAAGT 
    TACAGCCCCA GAAGGAGGTC CTCCCAAAGA GACTCTCCCA GCCCCAAACG AAGGGCCTCT 
    GAGGAGGGCT CCCATCCTAG CCAGGGTCAC GATGCCAAGA AACGAGTAGA AAGTCGACGC 
    TCTAGAGAGG ATAGCTCATC CAAATCACAT TCCAAAAATG GCTCTCCTTC AAGAGACCTG 
    GTCGTGAAAA CCGAAGAAGA GGAGGGTGAG GGGGAGATGG TTGAAGAAGA CAACCAGTCT 
    GACAACATGG ATGAAGGTAG TGATCTTGAA GGGCTTGCAG TTATAGCAGA TGATGGTGAA 
    GAACTAAATA CAGAGGATGA ATACACGGTA GATGAAGACC TTGATGACGA GGCACTTGAT 
    ACCTCAGATG CTCTGATCGA TGCACCTGAA GATATGCAAA CAGTGAGCGA GTCAAGCCAG 
    ACTGTACCTT CAGACATGAA CACATCGGAC ATACAGCCAG AGACCACAGA GGGTGAACCT 
    AGTGCTATAA TTTCAGAAAG ATTAAATGAA GAAGGGAATG AGGAAGCCCA GGAGCCTCAA 
    CAAGGTGAGC AAAAAGAGCT TCAAGAGGAA AAGGAGCCCC CACGAGAAGA ACAAAAAGGA 
    GAGCAGAAAG AAGAGCTTAA TCAAGAAGAG CAAATAGAAG AACTTAAACA AGACGAACAG 
    AAAGAAGACC TTCAACCAGA AGATAAAAAA GAAGAGCTGC AAGAAGTGGA GCACAAAGAG 
    AGTCAAGATA AAGAAAATGA GCAAAACAAT GAAACCATGA CAGTGGAAGA GGAGGCGGCA 
    GATTCCTCAG AGAATCTAGA AAACGCACTG ACAGAGCAAG GTGATGAAAA TAAGATTTCC 
    GCCCTAGAAA CAGAGGAACA GTATGGCAGA GTTCTTGAGG TGGCAGGTTT TCCAGTTGCT 
    AAAAAGTACA GTGAAGCAGA TTTGCTGAAA ATTGGGGAAA AATATGGAGA TGTGGCAGGC 
    TGTTGTTTGG TTCGTAGCAA TCGAAAGGTG GAAAAGGCAT TAATTGAAAT GGTGAATGCT 
    GATGATGCTG CAAAACTTGA AGCTGATTGT AAGAAGCAGC ATATTAAACT AGGTGGCAAA 
    ATCTTGAGGA TAAAAGTGTC TCAGAAATAC AGCCAAGTGA ATGAAGGGAA CGATGTTGAC 
    CCCGAGCCTG CGAAAGTGGA AGGCAATGAC TTAGTGAATG TTGAAGATGC AACTCTGAAT 
    TTTGAAGATA AAAATACTGA GCCCACATGT TCAGTGGCAC CCATTGAAGA GAGTACAGTC 
    CTGATGTCAG AGACCGAAAC CACTGAAGAA CCTGATACTC CAATGGAAAC CAACACAGAC 
    TCAATTACGC AAACATCTAG TGATGAGGAG GAAGGGTATG GCAGAGTGAT CCGGGTTCGA 
    CATCTTCCAG TGTCTGATGA ATACACTGAT GCAGATTTTC TGAACATCGC AAAACCATAC 
    GGGACAGTAA TACGTCACTG GATGTTTCGC CTCCATCGAA CAGGACTAAT TGAGATGGAG 
    ACTGCATCCG ATGCTGAGAA GGTTTTGTCT GCAGCCAAAA TGAAAAAAAT TACAGTTGCT 
    GGAAAACATC CCAAGATTGC AGTGTCCACC AAACATGCCA ATTTAAATAA AAGGTACTTT 
    CTATACCAAT CTGAGTTGGA GAAGACAAAA GATGAATCCA GCACACAGAA TGATGAGAAG 
    CAGGTTACTG AAGCGGACAA TGGAACTGGA ACACAAGCGG AAACACAAAC ACTCCTGATG 
    GATCCAGTGG GGATGGAGTT TGTTCGACCT GTGGTGGGTT ATTTCTGCAA CTTGTGTAAT 
    GCCATCTATG CCAGTGAGGA AGAGGCCAAG GGTGAACACT GCAGGACCCC ATTGCATCAT 
    CAAAAGCTGA AGGAACACAA TGAACAAAAC GGTTTAAAAT AA

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

    matr3l1.1 ( XM_009291032.2 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_009289307.1 Danio rerio matrin 3-like 1.1 (matr3l1.1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ODa42305
    Clone ID Related Accession (Same CDS sequence) XM_009291033.3 , XM_009291033.2 , XM_009291032.2 , XM_009291032.3
    Accession Version XM_009291032.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3762bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product uncharacterized protein LOC556124 isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007125.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_009291032.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGTCTTATA ATCCACCATA CCGAAACCCT CAAGGGGACA AAGATGCACG AATCTATACC 
    CGGGACTCGA GCGCTTACAG GTCAGGAATT AGGAGCACAA CTCCGCACCG GACATCTTCA 
    TCCTCATCAG AACAGCCCGT ATTCCCGCCG AATAAGGCAT TGTCCTTTCT GCATAGCTGC 
    GGACTGGATG CTGAAGATCT TCAAACTCTG GCCAAGCTTC CCGAGCATCT CATCACAACC 
    GATACCCTTC CTGACCTTCT CACAGAAATC AAAAAGAAGA AATTGTCCCA CACTTCTTCA 
    CCCAGGTCCA GTGTGCTCCC AGCCGCGTCG TCAGCTCGCT CCTGGGACGA TAGGAGCCAC 
    GCTCAGTCGG TTGAGTATCC TTTAGATTTG CCTGCCCGTC AGTCGTATTC CCTTAATCGA 
    GAGCAAGCCC AAACCTGGGA TGACAACTGG GGAGATGTCC AGCAAACAAG CTCTCCAGCA 
    GCATCAAGCT ACGTTGTTGA GTATAACCAT CTGAAAGAGA AAAAGTCATA CTATGATGAA 
    CCGTCTTATC CCCCAGAACC ATCAAGAGAA ATGTCTTACT CTAACTATGG CAAAGAAGTT 
    GGTCACTCGT CGCATTTTTC CAGCAGAGAC GCCAGTCATT CCTCACATCT GTCCAGTAGG 
    GACAGTCAAT CCTCACGTCG GTCAAGCAGA GACCTCGGTC AGACCTCACA GCACTCCAGC 
    AGATACATCA GTCAGTCCTC AGTACGGTCG AGTAGAGACG TCGCTCCATC CTCACACCTG 
    TCTAGCAGAG ATGTCGGAGT ACATTCACAC ATCGCCCAAC CTTCGCCCAT GTCCAACAGA 
    AACGTTGGTA TACCCTCACT CCTCTCCATA AGAGACCTCG CTCCAGCCTC ACATCTGTCC 
    AGCAGAGCTG TCAGGCAGCC CTCTTGGAAG AAAGGCTCGG CTCCTAGAGT ACCTACCAGG 
    AAAGAGGCAT CCGATTTCCA CGGGAGGACT CCACCGGTGT TTCCCTACGC ATGCGTACTC 
    TGTGAAATCA CGGTCCTCTC TGACAAGGAC TGGTCTGTGC ATATAAATGG ACCCCAACAC 
    GCTAATAGTC AACTCAGTCT TGTGGAAAAA TATCCAGCGT GGGATCAGAC AATCCATTCT 
    GCACGGAGGA ATGAGCCTGA ATCCGAGAGA CCAAAGCATG GAACAATCCA GGCAAGAGAT 
    AGAATCTCAA GCCAAAAAAT TGGACCATCA GGCAGCAGAA GTGGAGCTTC GACCAGTAGA 
    AGTGCACCAA CAAGCCGTAG AAAACAAAAT AAAATTGAAC CTCCATCAAA GTGCAAAGTG 
    GTGTGTGTAA AGTTTGAAAA CAATGAAGTG GATGAAACCT ACCTGAAACA TTTGCTTGGC 
    CAGTTTGGGG CGATTGTCAA AATTATTATG TTTCCTAATC TGGCTTTGGC AGAGATGGGA 
    ACGATGGGTC AAGCAGAGGA TATTGTAAAA TATTTCTCAC AAAACCCCTT GAGGTTCAAA 
    GGGAAAAAGC TGGAATTTTC TCTGTCTGCA GCCTTCAGTT TTCTACAGGG CTCTCGTGTG 
    GTGAGCTTTT CACCAATACC ATCTGGAGAA GGCGTAAGCT CTGAGTTGAT GGCCATTGCC 
    AAGCGATTCG GATCAGTAAT ACAATCACAG TTTCTGCCAC ACCGGGGTTA TGTGGAGATG 
    GCTCTTGTGG AAGAGGCCAG CAAATTAGTG GACCACTATT CAACTAATTC ACTGAAGTTA 
    AAAGGAAAAA CCATTACTGT AGCATTTTCA ACTGAATACC AGACGCTTAG TGATCTGGAA 
    ACTGACAAAT ATAAATTACC AGCTCATCAA AGCAGCAACA GGAGGAGAGA GAGGAGAAGT 
    TACAGCCCCA GAAGGAGGTC CTCCCAAAGA GACTCTCCCA GCCCCAAACG AAGGGCCTCT 
    GAGGAGGGCT CCCATCCTAG CCAGGGTCAC GATGCCAAGA AACGAGTAGA AAGTCGACGC 
    TCTAGAGAGG ATAGCTCATC CAAATCACAT TCCAAAAATG GCTCTCCTTC AAGAGACCTG 
    GTCGTGAAAA CCGAAGAAGA GGAGGGTGAG GGGGAGATGG TTGAAGAAGA CAACCAGTCT 
    GACAACATGG ATGAAGGTAG TGATCTTGAA GGGCTTGCAG TTATAGCAGA TGATGGTGAA 
    GAACTAAATA CAGAGGATGA ATACACGGTA GATGAAGACC TTGATGACGA GGCACTTGAT 
    ACCTCAGATG CTCTGATCGA TGCACCTGAA GATATGCAAA CAGTGAGCGA GTCAAGCCAG 
    ACTGTACCTT CAGACATGAA CACATCGGAC ATACAGCCAG AGACCACAGA GGGTGAACCT 
    AGTGCTATAA TTTCAGAAAG ATTAAATGAA GAAGGGAATG AGGAAGCCCA GGAGCCTCAA 
    CAAGGTGAGC AAAAAGAGCT TCAAGAGGAA AAGGAGCCCC CACGAGAAGA ACAAAAAGGA 
    GAGCAGAAAG AAGAGCTTAA TCAAGAAGAG CAAATAGAAG AACTTAAACA AGACGAACAG 
    AAAGAAGACC TTCAACCAGA AGATAAAAAA GAAGAGCTGC AAGAAGTGGA GCACAAAGAG 
    AGTCAAGATA AAGAAAATGA GCAAAACAAT GAAACCATGA CAGTGGAAGA GGAGGCGGCA 
    GATTCCTCAG AGAATCTAGA AAACGCACTG ACAGAGCAAG GTGATGAAAA TAAGATTTCC 
    GCCCTAGAAA CAGAGGAACA GTATGGCAGA GTTCTTGAGG TGGCAGGTTT TCCAGTTGCT 
    AAAAAGTACA GTGAAGCAGA TTTGCTGAAA ATTGGGGAAA AATATGGAGA TGTGGCAGGC 
    TGTTGTTTGG TTCGTAGCAA TCGAAAGGTG GAAAAGGCAT TAATTGAAAT GGTGAATGCT 
    GATGATGCTG CAAAACTTGA AGCTGATTGT AAGAAGCAGC ATATTAAACT AGGTGGCAAA 
    ATCTTGAGGA TAAAAGTGTC TCAGAAATAC AGCCAAGTGA ATGAAGGGAA CGATGTTGAC 
    CCCGAGCCTG CGAAAGTGGA AGGCAATGAC TTAGTGAATG TTGAAGATGC AACTCTGAAT 
    TTTGAAGATA AAAATACTGA GCCCACATGT TCAGTGGCAC CCATTGAAGA GAGTACAGTC 
    CTGATGTCAG AGACCGAAAC CACTGAAGAA CCTGATACTC CAATGGAAAC CAACACAGAC 
    TCAATTACGC AAACATCTAG TGATGAGGAG GAAGGGTATG GCAGAGTGAT CCGGGTTCGA 
    CATCTTCCAG TGTCTGATGA ATACACTGAT GCAGATTTTC TGAACATCGC AAAACCATAC 
    GGGACAGTAA TACGTCACTG GATGTTTCGC CTCCATCGAA CAGGACTAAT TGAGATGGAG 
    ACTGCATCCG ATGCTGAGAA GGTTTTGTCT GCAGCCAAAA TGAAAAAAAT TACAGTTGCT 
    GGAAAACATC CCAAGATTGC AGTGTCCACC AAACATGCCA ATTTAAATAA AAGGTACTTT 
    CTATACCAAT CTGAGTTGGA GAAGACAAAA GATGAATCCA GCACACAGAA TGATGAGAAG 
    CAGGTTACTG AAGCGGACAA TGGAACTGGA ACACAAGCGG AAACACAAAC ACTCCTGATG 
    GATCCAGTGG GGATGGAGTT TGTTCGACCT GTGGTGGGTT ATTTCTGCAA CTTGTGTAAT 
    GCCATCTATG CCAGTGAGGA AGAGGCCAAG GGTGAACACT GCAGGACCCC ATTGCATCAT 
    CAAAAGCTGA AGGAACACAA TGAACAAAAC GGTTTAAAAT AA

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

    RefSeq XP_009289307.1
    CDS287..4048
    Translation

    Target ORF information:

    RefSeq Version XM_009291032.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio matrin 3-like 1.1 (matr3l1.1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_009291032.2

    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
    ATGTCTTATA ATCCACCATA CCGAAACCCT CAAGGGGACA AAGATGCACG AATCTATACC 
    CGGGACTCGA GCGCTTACAG GTCAGGAATT AGGAGCACAA CTCCGCACCG GACATCTTCA 
    TCCTCATCAG AACAGCCCGT ATTCCCGCCG AATAAGGCAT TGTCCTTTCT GCATAGCTGC 
    GGACTGGATG CTGAAGATCT TCAAACTCTG GCCAAGCTTC CCGAGCATCT CATCACAACC 
    GATACCCTTC CTGACCTTCT CACAGAAATC AAAAAGAAGA AATTGTCCCA CACTTCTTCA 
    CCCAGGTCCA GTGTGCTCCC AGCCGCGTCG TCAGCTCGCT CCTGGGACGA TAGGAGCCAC 
    GCTCAGTCGG TTGAGTATCC TTTAGATTTG CCTGCCCGTC AGTCGTATTC CCTTAATCGA 
    GAGCAAGCCC AAACCTGGGA TGACAACTGG GGAGATGTCC AGCAAACAAG CTCTCCAGCA 
    GCATCAAGCT ACGTTGTTGA GTATAACCAT CTGAAAGAGA AAAAGTCATA CTATGATGAA 
    CCGTCTTATC CCCCAGAACC ATCAAGAGAA ATGTCTTACT CTAACTATGG CAAAGAAGTT 
    GGTCACTCGT CGCATTTTTC CAGCAGAGAC GCCAGTCATT CCTCACATCT GTCCAGTAGG 
    GACAGTCAAT CCTCACGTCG GTCAAGCAGA GACCTCGGTC AGACCTCACA GCACTCCAGC 
    AGATACATCA GTCAGTCCTC AGTACGGTCG AGTAGAGACG TCGCTCCATC CTCACACCTG 
    TCTAGCAGAG ATGTCGGAGT ACATTCACAC ATCGCCCAAC CTTCGCCCAT GTCCAACAGA 
    AACGTTGGTA TACCCTCACT CCTCTCCATA AGAGACCTCG CTCCAGCCTC ACATCTGTCC 
    AGCAGAGCTG TCAGGCAGCC CTCTTGGAAG AAAGGCTCGG CTCCTAGAGT ACCTACCAGG 
    AAAGAGGCAT CCGATTTCCA CGGGAGGACT CCACCGGTGT TTCCCTACGC ATGCGTACTC 
    TGTGAAATCA CGGTCCTCTC TGACAAGGAC TGGTCTGTGC ATATAAATGG ACCCCAACAC 
    GCTAATAGTC AACTCAGTCT TGTGGAAAAA TATCCAGCGT GGGATCAGAC AATCCATTCT 
    GCACGGAGGA ATGAGCCTGA ATCCGAGAGA CCAAAGCATG GAACAATCCA GGCAAGAGAT 
    AGAATCTCAA GCCAAAAAAT TGGACCATCA GGCAGCAGAA GTGGAGCTTC GACCAGTAGA 
    AGTGCACCAA CAAGCCGTAG AAAACAAAAT AAAATTGAAC CTCCATCAAA GTGCAAAGTG 
    GTGTGTGTAA AGTTTGAAAA CAATGAAGTG GATGAAACCT ACCTGAAACA TTTGCTTGGC 
    CAGTTTGGGG CGATTGTCAA AATTATTATG TTTCCTAATC TGGCTTTGGC AGAGATGGGA 
    ACGATGGGTC AAGCAGAGGA TATTGTAAAA TATTTCTCAC AAAACCCCTT GAGGTTCAAA 
    GGGAAAAAGC TGGAATTTTC TCTGTCTGCA GCCTTCAGTT TTCTACAGGG CTCTCGTGTG 
    GTGAGCTTTT CACCAATACC ATCTGGAGAA GGCGTAAGCT CTGAGTTGAT GGCCATTGCC 
    AAGCGATTCG GATCAGTAAT ACAATCACAG TTTCTGCCAC ACCGGGGTTA TGTGGAGATG 
    GCTCTTGTGG AAGAGGCCAG CAAATTAGTG GACCACTATT CAACTAATTC ACTGAAGTTA 
    AAAGGAAAAA CCATTACTGT AGCATTTTCA ACTGAATACC AGACGCTTAG TGATCTGGAA 
    ACTGACAAAT ATAAATTACC AGCTCATCAA AGCAGCAACA GGAGGAGAGA GAGGAGAAGT 
    TACAGCCCCA GAAGGAGGTC CTCCCAAAGA GACTCTCCCA GCCCCAAACG AAGGGCCTCT 
    GAGGAGGGCT CCCATCCTAG CCAGGGTCAC GATGCCAAGA AACGAGTAGA AAGTCGACGC 
    TCTAGAGAGG ATAGCTCATC CAAATCACAT TCCAAAAATG GCTCTCCTTC AAGAGACCTG 
    GTCGTGAAAA CCGAAGAAGA GGAGGGTGAG GGGGAGATGG TTGAAGAAGA CAACCAGTCT 
    GACAACATGG ATGAAGGTAG TGATCTTGAA GGGCTTGCAG TTATAGCAGA TGATGGTGAA 
    GAACTAAATA CAGAGGATGA ATACACGGTA GATGAAGACC TTGATGACGA GGCACTTGAT 
    ACCTCAGATG CTCTGATCGA TGCACCTGAA GATATGCAAA CAGTGAGCGA GTCAAGCCAG 
    ACTGTACCTT CAGACATGAA CACATCGGAC ATACAGCCAG AGACCACAGA GGGTGAACCT 
    AGTGCTATAA TTTCAGAAAG ATTAAATGAA GAAGGGAATG AGGAAGCCCA GGAGCCTCAA 
    CAAGGTGAGC AAAAAGAGCT TCAAGAGGAA AAGGAGCCCC CACGAGAAGA ACAAAAAGGA 
    GAGCAGAAAG AAGAGCTTAA TCAAGAAGAG CAAATAGAAG AACTTAAACA AGACGAACAG 
    AAAGAAGACC TTCAACCAGA AGATAAAAAA GAAGAGCTGC AAGAAGTGGA GCACAAAGAG 
    AGTCAAGATA AAGAAAATGA GCAAAACAAT GAAACCATGA CAGTGGAAGA GGAGGCGGCA 
    GATTCCTCAG AGAATCTAGA AAACGCACTG ACAGAGCAAG GTGATGAAAA TAAGATTTCC 
    GCCCTAGAAA CAGAGGAACA GTATGGCAGA GTTCTTGAGG TGGCAGGTTT TCCAGTTGCT 
    AAAAAGTACA GTGAAGCAGA TTTGCTGAAA ATTGGGGAAA AATATGGAGA TGTGGCAGGC 
    TGTTGTTTGG TTCGTAGCAA TCGAAAGGTG GAAAAGGCAT TAATTGAAAT GGTGAATGCT 
    GATGATGCTG CAAAACTTGA AGCTGATTGT AAGAAGCAGC ATATTAAACT AGGTGGCAAA 
    ATCTTGAGGA TAAAAGTGTC TCAGAAATAC AGCCAAGTGA ATGAAGGGAA CGATGTTGAC 
    CCCGAGCCTG CGAAAGTGGA AGGCAATGAC TTAGTGAATG TTGAAGATGC AACTCTGAAT 
    TTTGAAGATA AAAATACTGA GCCCACATGT TCAGTGGCAC CCATTGAAGA GAGTACAGTC 
    CTGATGTCAG AGACCGAAAC CACTGAAGAA CCTGATACTC CAATGGAAAC CAACACAGAC 
    TCAATTACGC AAACATCTAG TGATGAGGAG GAAGGGTATG GCAGAGTGAT CCGGGTTCGA 
    CATCTTCCAG TGTCTGATGA ATACACTGAT GCAGATTTTC TGAACATCGC AAAACCATAC 
    GGGACAGTAA TACGTCACTG GATGTTTCGC CTCCATCGAA CAGGACTAAT TGAGATGGAG 
    ACTGCATCCG ATGCTGAGAA GGTTTTGTCT GCAGCCAAAA TGAAAAAAAT TACAGTTGCT 
    GGAAAACATC CCAAGATTGC AGTGTCCACC AAACATGCCA ATTTAAATAA AAGGTACTTT 
    CTATACCAAT CTGAGTTGGA GAAGACAAAA GATGAATCCA GCACACAGAA TGATGAGAAG 
    CAGGTTACTG AAGCGGACAA TGGAACTGGA ACACAAGCGG AAACACAAAC ACTCCTGATG 
    GATCCAGTGG GGATGGAGTT TGTTCGACCT GTGGTGGGTT ATTTCTGCAA CTTGTGTAAT 
    GCCATCTATG CCAGTGAGGA AGAGGCCAAG GGTGAACACT GCAGGACCCC ATTGCATCAT 
    CAAAAGCTGA AGGAACACAA TGAACAAAAC GGTTTAAAAT AA

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

    matr3l1.1 ( XM_009291032.3 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_009289307.1 Danio rerio matrin 3-like 1.1 (matr3l1.1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ODa42305
    Clone ID Related Accession (Same CDS sequence) XM_009291033.3 , XM_009291033.2 , XM_009291032.2 , XM_009291032.3
    Accession Version XM_009291032.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3762bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product uncharacterized protein LOC556124 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007125.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_009291032.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGTCTTATA ATCCACCATA CCGAAACCCT CAAGGGGACA AAGATGCACG AATCTATACC 
    CGGGACTCGA GCGCTTACAG GTCAGGAATT AGGAGCACAA CTCCGCACCG GACATCTTCA 
    TCCTCATCAG AACAGCCCGT ATTCCCGCCG AATAAGGCAT TGTCCTTTCT GCATAGCTGC 
    GGACTGGATG CTGAAGATCT TCAAACTCTG GCCAAGCTTC CCGAGCATCT CATCACAACC 
    GATACCCTTC CTGACCTTCT CACAGAAATC AAAAAGAAGA AATTGTCCCA CACTTCTTCA 
    CCCAGGTCCA GTGTGCTCCC AGCCGCGTCG TCAGCTCGCT CCTGGGACGA TAGGAGCCAC 
    GCTCAGTCGG TTGAGTATCC TTTAGATTTG CCTGCCCGTC AGTCGTATTC CCTTAATCGA 
    GAGCAAGCCC AAACCTGGGA TGACAACTGG GGAGATGTCC AGCAAACAAG CTCTCCAGCA 
    GCATCAAGCT ACGTTGTTGA GTATAACCAT CTGAAAGAGA AAAAGTCATA CTATGATGAA 
    CCGTCTTATC CCCCAGAACC ATCAAGAGAA ATGTCTTACT CTAACTATGG CAAAGAAGTT 
    GGTCACTCGT CGCATTTTTC CAGCAGAGAC GCCAGTCATT CCTCACATCT GTCCAGTAGG 
    GACAGTCAAT CCTCACGTCG GTCAAGCAGA GACCTCGGTC AGACCTCACA GCACTCCAGC 
    AGATACATCA GTCAGTCCTC AGTACGGTCG AGTAGAGACG TCGCTCCATC CTCACACCTG 
    TCTAGCAGAG ATGTCGGAGT ACATTCACAC ATCGCCCAAC CTTCGCCCAT GTCCAACAGA 
    AACGTTGGTA TACCCTCACT CCTCTCCATA AGAGACCTCG CTCCAGCCTC ACATCTGTCC 
    AGCAGAGCTG TCAGGCAGCC CTCTTGGAAG AAAGGCTCGG CTCCTAGAGT ACCTACCAGG 
    AAAGAGGCAT CCGATTTCCA CGGGAGGACT CCACCGGTGT TTCCCTACGC ATGCGTACTC 
    TGTGAAATCA CGGTCCTCTC TGACAAGGAC TGGTCTGTGC ATATAAATGG ACCCCAACAC 
    GCTAATAGTC AACTCAGTCT TGTGGAAAAA TATCCAGCGT GGGATCAGAC AATCCATTCT 
    GCACGGAGGA ATGAGCCTGA ATCCGAGAGA CCAAAGCATG GAACAATCCA GGCAAGAGAT 
    AGAATCTCAA GCCAAAAAAT TGGACCATCA GGCAGCAGAA GTGGAGCTTC GACCAGTAGA 
    AGTGCACCAA CAAGCCGTAG AAAACAAAAT AAAATTGAAC CTCCATCAAA GTGCAAAGTG 
    GTGTGTGTAA AGTTTGAAAA CAATGAAGTG GATGAAACCT ACCTGAAACA TTTGCTTGGC 
    CAGTTTGGGG CGATTGTCAA AATTATTATG TTTCCTAATC TGGCTTTGGC AGAGATGGGA 
    ACGATGGGTC AAGCAGAGGA TATTGTAAAA TATTTCTCAC AAAACCCCTT GAGGTTCAAA 
    GGGAAAAAGC TGGAATTTTC TCTGTCTGCA GCCTTCAGTT TTCTACAGGG CTCTCGTGTG 
    GTGAGCTTTT CACCAATACC ATCTGGAGAA GGCGTAAGCT CTGAGTTGAT GGCCATTGCC 
    AAGCGATTCG GATCAGTAAT ACAATCACAG TTTCTGCCAC ACCGGGGTTA TGTGGAGATG 
    GCTCTTGTGG AAGAGGCCAG CAAATTAGTG GACCACTATT CAACTAATTC ACTGAAGTTA 
    AAAGGAAAAA CCATTACTGT AGCATTTTCA ACTGAATACC AGACGCTTAG TGATCTGGAA 
    ACTGACAAAT ATAAATTACC AGCTCATCAA AGCAGCAACA GGAGGAGAGA GAGGAGAAGT 
    TACAGCCCCA GAAGGAGGTC CTCCCAAAGA GACTCTCCCA GCCCCAAACG AAGGGCCTCT 
    GAGGAGGGCT CCCATCCTAG CCAGGGTCAC GATGCCAAGA AACGAGTAGA AAGTCGACGC 
    TCTAGAGAGG ATAGCTCATC CAAATCACAT TCCAAAAATG GCTCTCCTTC AAGAGACCTG 
    GTCGTGAAAA CCGAAGAAGA GGAGGGTGAG GGGGAGATGG TTGAAGAAGA CAACCAGTCT 
    GACAACATGG ATGAAGGTAG TGATCTTGAA GGGCTTGCAG TTATAGCAGA TGATGGTGAA 
    GAACTAAATA CAGAGGATGA ATACACGGTA GATGAAGACC TTGATGACGA GGCACTTGAT 
    ACCTCAGATG CTCTGATCGA TGCACCTGAA GATATGCAAA CAGTGAGCGA GTCAAGCCAG 
    ACTGTACCTT CAGACATGAA CACATCGGAC ATACAGCCAG AGACCACAGA GGGTGAACCT 
    AGTGCTATAA TTTCAGAAAG ATTAAATGAA GAAGGGAATG AGGAAGCCCA GGAGCCTCAA 
    CAAGGTGAGC AAAAAGAGCT TCAAGAGGAA AAGGAGCCCC CACGAGAAGA ACAAAAAGGA 
    GAGCAGAAAG AAGAGCTTAA TCAAGAAGAG CAAATAGAAG AACTTAAACA AGACGAACAG 
    AAAGAAGACC TTCAACCAGA AGATAAAAAA GAAGAGCTGC AAGAAGTGGA GCACAAAGAG 
    AGTCAAGATA AAGAAAATGA GCAAAACAAT GAAACCATGA CAGTGGAAGA GGAGGCGGCA 
    GATTCCTCAG AGAATCTAGA AAACGCACTG ACAGAGCAAG GTGATGAAAA TAAGATTTCC 
    GCCCTAGAAA CAGAGGAACA GTATGGCAGA GTTCTTGAGG TGGCAGGTTT TCCAGTTGCT 
    AAAAAGTACA GTGAAGCAGA TTTGCTGAAA ATTGGGGAAA AATATGGAGA TGTGGCAGGC 
    TGTTGTTTGG TTCGTAGCAA TCGAAAGGTG GAAAAGGCAT TAATTGAAAT GGTGAATGCT 
    GATGATGCTG CAAAACTTGA AGCTGATTGT AAGAAGCAGC ATATTAAACT AGGTGGCAAA 
    ATCTTGAGGA TAAAAGTGTC TCAGAAATAC AGCCAAGTGA ATGAAGGGAA CGATGTTGAC 
    CCCGAGCCTG CGAAAGTGGA AGGCAATGAC TTAGTGAATG TTGAAGATGC AACTCTGAAT 
    TTTGAAGATA AAAATACTGA GCCCACATGT TCAGTGGCAC CCATTGAAGA GAGTACAGTC 
    CTGATGTCAG AGACCGAAAC CACTGAAGAA CCTGATACTC CAATGGAAAC CAACACAGAC 
    TCAATTACGC AAACATCTAG TGATGAGGAG GAAGGGTATG GCAGAGTGAT CCGGGTTCGA 
    CATCTTCCAG TGTCTGATGA ATACACTGAT GCAGATTTTC TGAACATCGC AAAACCATAC 
    GGGACAGTAA TACGTCACTG GATGTTTCGC CTCCATCGAA CAGGACTAAT TGAGATGGAG 
    ACTGCATCCG ATGCTGAGAA GGTTTTGTCT GCAGCCAAAA TGAAAAAAAT TACAGTTGCT 
    GGAAAACATC CCAAGATTGC AGTGTCCACC AAACATGCCA ATTTAAATAA AAGGTACTTT 
    CTATACCAAT CTGAGTTGGA GAAGACAAAA GATGAATCCA GCACACAGAA TGATGAGAAG 
    CAGGTTACTG AAGCGGACAA TGGAACTGGA ACACAAGCGG AAACACAAAC ACTCCTGATG 
    GATCCAGTGG GGATGGAGTT TGTTCGACCT GTGGTGGGTT ATTTCTGCAA CTTGTGTAAT 
    GCCATCTATG CCAGTGAGGA AGAGGCCAAG GGTGAACACT GCAGGACCCC ATTGCATCAT 
    CAAAAGCTGA AGGAACACAA TGAACAAAAC GGTTTAAAAT AA

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

    RefSeq XP_009289307.1
    CDS304..4065
    Translation

    Target ORF information:

    RefSeq Version XM_009291032.3
    Organism Danio rerio(zebrafish)
    Definition Danio rerio matrin 3-like 1.1 (matr3l1.1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_009291032.3

    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
    ATGTCTTATA ATCCACCATA CCGAAACCCT CAAGGGGACA AAGATGCACG AATCTATACC 
    CGGGACTCGA GCGCTTACAG GTCAGGAATT AGGAGCACAA CTCCGCACCG GACATCTTCA 
    TCCTCATCAG AACAGCCCGT ATTCCCGCCG AATAAGGCAT TGTCCTTTCT GCATAGCTGC 
    GGACTGGATG CTGAAGATCT TCAAACTCTG GCCAAGCTTC CCGAGCATCT CATCACAACC 
    GATACCCTTC CTGACCTTCT CACAGAAATC AAAAAGAAGA AATTGTCCCA CACTTCTTCA 
    CCCAGGTCCA GTGTGCTCCC AGCCGCGTCG TCAGCTCGCT CCTGGGACGA TAGGAGCCAC 
    GCTCAGTCGG TTGAGTATCC TTTAGATTTG CCTGCCCGTC AGTCGTATTC CCTTAATCGA 
    GAGCAAGCCC AAACCTGGGA TGACAACTGG GGAGATGTCC AGCAAACAAG CTCTCCAGCA 
    GCATCAAGCT ACGTTGTTGA GTATAACCAT CTGAAAGAGA AAAAGTCATA CTATGATGAA 
    CCGTCTTATC CCCCAGAACC ATCAAGAGAA ATGTCTTACT CTAACTATGG CAAAGAAGTT 
    GGTCACTCGT CGCATTTTTC CAGCAGAGAC GCCAGTCATT CCTCACATCT GTCCAGTAGG 
    GACAGTCAAT CCTCACGTCG GTCAAGCAGA GACCTCGGTC AGACCTCACA GCACTCCAGC 
    AGATACATCA GTCAGTCCTC AGTACGGTCG AGTAGAGACG TCGCTCCATC CTCACACCTG 
    TCTAGCAGAG ATGTCGGAGT ACATTCACAC ATCGCCCAAC CTTCGCCCAT GTCCAACAGA 
    AACGTTGGTA TACCCTCACT CCTCTCCATA AGAGACCTCG CTCCAGCCTC ACATCTGTCC 
    AGCAGAGCTG TCAGGCAGCC CTCTTGGAAG AAAGGCTCGG CTCCTAGAGT ACCTACCAGG 
    AAAGAGGCAT CCGATTTCCA CGGGAGGACT CCACCGGTGT TTCCCTACGC ATGCGTACTC 
    TGTGAAATCA CGGTCCTCTC TGACAAGGAC TGGTCTGTGC ATATAAATGG ACCCCAACAC 
    GCTAATAGTC AACTCAGTCT TGTGGAAAAA TATCCAGCGT GGGATCAGAC AATCCATTCT 
    GCACGGAGGA ATGAGCCTGA ATCCGAGAGA CCAAAGCATG GAACAATCCA GGCAAGAGAT 
    AGAATCTCAA GCCAAAAAAT TGGACCATCA GGCAGCAGAA GTGGAGCTTC GACCAGTAGA 
    AGTGCACCAA CAAGCCGTAG AAAACAAAAT AAAATTGAAC CTCCATCAAA GTGCAAAGTG 
    GTGTGTGTAA AGTTTGAAAA CAATGAAGTG GATGAAACCT ACCTGAAACA TTTGCTTGGC 
    CAGTTTGGGG CGATTGTCAA AATTATTATG TTTCCTAATC TGGCTTTGGC AGAGATGGGA 
    ACGATGGGTC AAGCAGAGGA TATTGTAAAA TATTTCTCAC AAAACCCCTT GAGGTTCAAA 
    GGGAAAAAGC TGGAATTTTC TCTGTCTGCA GCCTTCAGTT TTCTACAGGG CTCTCGTGTG 
    GTGAGCTTTT CACCAATACC ATCTGGAGAA GGCGTAAGCT CTGAGTTGAT GGCCATTGCC 
    AAGCGATTCG GATCAGTAAT ACAATCACAG TTTCTGCCAC ACCGGGGTTA TGTGGAGATG 
    GCTCTTGTGG AAGAGGCCAG CAAATTAGTG GACCACTATT CAACTAATTC ACTGAAGTTA 
    AAAGGAAAAA CCATTACTGT AGCATTTTCA ACTGAATACC AGACGCTTAG TGATCTGGAA 
    ACTGACAAAT ATAAATTACC AGCTCATCAA AGCAGCAACA GGAGGAGAGA GAGGAGAAGT 
    TACAGCCCCA GAAGGAGGTC CTCCCAAAGA GACTCTCCCA GCCCCAAACG AAGGGCCTCT 
    GAGGAGGGCT CCCATCCTAG CCAGGGTCAC GATGCCAAGA AACGAGTAGA AAGTCGACGC 
    TCTAGAGAGG ATAGCTCATC CAAATCACAT TCCAAAAATG GCTCTCCTTC AAGAGACCTG 
    GTCGTGAAAA CCGAAGAAGA GGAGGGTGAG GGGGAGATGG TTGAAGAAGA CAACCAGTCT 
    GACAACATGG ATGAAGGTAG TGATCTTGAA GGGCTTGCAG TTATAGCAGA TGATGGTGAA 
    GAACTAAATA CAGAGGATGA ATACACGGTA GATGAAGACC TTGATGACGA GGCACTTGAT 
    ACCTCAGATG CTCTGATCGA TGCACCTGAA GATATGCAAA CAGTGAGCGA GTCAAGCCAG 
    ACTGTACCTT CAGACATGAA CACATCGGAC ATACAGCCAG AGACCACAGA GGGTGAACCT 
    AGTGCTATAA TTTCAGAAAG ATTAAATGAA GAAGGGAATG AGGAAGCCCA GGAGCCTCAA 
    CAAGGTGAGC AAAAAGAGCT TCAAGAGGAA AAGGAGCCCC CACGAGAAGA ACAAAAAGGA 
    GAGCAGAAAG AAGAGCTTAA TCAAGAAGAG CAAATAGAAG AACTTAAACA AGACGAACAG 
    AAAGAAGACC TTCAACCAGA AGATAAAAAA GAAGAGCTGC AAGAAGTGGA GCACAAAGAG 
    AGTCAAGATA AAGAAAATGA GCAAAACAAT GAAACCATGA CAGTGGAAGA GGAGGCGGCA 
    GATTCCTCAG AGAATCTAGA AAACGCACTG ACAGAGCAAG GTGATGAAAA TAAGATTTCC 
    GCCCTAGAAA CAGAGGAACA GTATGGCAGA GTTCTTGAGG TGGCAGGTTT TCCAGTTGCT 
    AAAAAGTACA GTGAAGCAGA TTTGCTGAAA ATTGGGGAAA AATATGGAGA TGTGGCAGGC 
    TGTTGTTTGG TTCGTAGCAA TCGAAAGGTG GAAAAGGCAT TAATTGAAAT GGTGAATGCT 
    GATGATGCTG CAAAACTTGA AGCTGATTGT AAGAAGCAGC ATATTAAACT AGGTGGCAAA 
    ATCTTGAGGA TAAAAGTGTC TCAGAAATAC AGCCAAGTGA ATGAAGGGAA CGATGTTGAC 
    CCCGAGCCTG CGAAAGTGGA AGGCAATGAC TTAGTGAATG TTGAAGATGC AACTCTGAAT 
    TTTGAAGATA AAAATACTGA GCCCACATGT TCAGTGGCAC CCATTGAAGA GAGTACAGTC 
    CTGATGTCAG AGACCGAAAC CACTGAAGAA CCTGATACTC CAATGGAAAC CAACACAGAC 
    TCAATTACGC AAACATCTAG TGATGAGGAG GAAGGGTATG GCAGAGTGAT CCGGGTTCGA 
    CATCTTCCAG TGTCTGATGA ATACACTGAT GCAGATTTTC TGAACATCGC AAAACCATAC 
    GGGACAGTAA TACGTCACTG GATGTTTCGC CTCCATCGAA CAGGACTAAT TGAGATGGAG 
    ACTGCATCCG ATGCTGAGAA GGTTTTGTCT GCAGCCAAAA TGAAAAAAAT TACAGTTGCT 
    GGAAAACATC CCAAGATTGC AGTGTCCACC AAACATGCCA ATTTAAATAA AAGGTACTTT 
    CTATACCAAT CTGAGTTGGA GAAGACAAAA GATGAATCCA GCACACAGAA TGATGAGAAG 
    CAGGTTACTG AAGCGGACAA TGGAACTGGA ACACAAGCGG AAACACAAAC ACTCCTGATG 
    GATCCAGTGG GGATGGAGTT TGTTCGACCT GTGGTGGGTT ATTTCTGCAA CTTGTGTAAT 
    GCCATCTATG CCAGTGAGGA AGAGGCCAAG GGTGAACACT GCAGGACCCC ATTGCATCAT 
    CAAAAGCTGA AGGAACACAA TGAACAAAAC GGTTTAAAAT AA

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

    matr3l1.1 ( XM_009291034.3 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_009289309.1 Danio rerio matrin 3-like 1.1 (matr3l1.1), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID ODa42306
    Clone ID Related Accession (Same CDS sequence) XM_009291034.3 , XM_009291034.2
    Accession Version XM_009291034.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3759bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product uncharacterized protein LOC556124 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007125.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_009291034.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGTCTTATA ATCCACCATA CCGAAACCCT CAAGGGGACA AAGATGCACG AATCTATACC 
    CGGGACTCGA GCGCTTACAG GTCAGGAATT AGGAGCACAA CTCCGCACCG GACATCTTCA 
    TCCTCATCAG AACAGCCCGT ATTCCCGCCG AATAAGGCAT TGTCCTTTCT GCATAGCTGC 
    GGACTGGATG CTGAAGATCT TCAAACTCTG GCCAAGCTTC CCGAGCATCT CATCACAACC 
    GATACCCTTC CTGACCTTCT CACAGAAATC AAAAAGAAGA AATTGTCCCA CACTTCTTCA 
    CCCAGGTCCA GTGTGCTCCC AGCCGCGTCG TCAGCTCGCT CCTGGGACGA TAGGAGCCAC 
    GCTCAGTCGG TTGAGTATCC TTTAGATTTG CCTGCCCGTC AGTCGTATTC CCTTAATCGA 
    GAGCAAGCCC AAACCTGGGA TGACAACTGG GGAGATGTCC AGCAAACAAG CTCTCCAGCA 
    GCATCAAGCT ACGTTGTTGA GTATAACCAT CTGAAAGAGA AAAAGTCATA CTATGATGAA 
    CCGTCTTATC CCCCAGAACC ATCAAGAGAA ATGTCTTACT CTAACTATGG CAAAGAAGTT 
    GGTCACTCGT CGCATTTTTC CAGCAGAGAC GCCAGTCATT CCTCACATCT GTCCAGTAGG 
    GACAGTCAAT CCTCACGTCG GTCAAGCAGA GACCTCGGTC AGACCTCACA GCACTCCAGC 
    AGATACATCA GTCAGTCCTC AGTACGGTCG AGTAGAGACG TCGCTCCATC CTCACACCTG 
    TCTAGCAGAG ATGTCGGAGT ACATTCACAC ATCGCCCAAC CTTCGCCCAT GTCCAACAGA 
    AACGTTGGTA TACCCTCACT CCTCTCCATA AGAGACCTCG CTCCAGCCTC ACATCTGTCC 
    AGCAGAGCTG TCAGGCAGCC CTCTTGGAAG AAAGGCTCGG CTCCTAGAGT ACCTACCAGG 
    AAAGAGGCAT CCGATTTCCA CGGGAGGACT CCACCGGTGT TTCCCTACGC ATGCGTACTC 
    TGTGAAATCA CGGTCCTCTC TGACAAGGAC TGGTCTGTGC ATATAAATGG ACCCCAACAC 
    GCTAATAGTC AACTCAGTCT TGTGGAAAAA TATCCAGCGT GGGATCAGAC AATCCATTCT 
    GCACGGAGGA ATGAGCCTGA ATCCGAGAGA CCAAAGCATG GAACAATCCA GGCAAGAGAT 
    AGAATCTCAA GCCAAAAAAT TGGACCATCA GGCAGCAGAA GTGGAGCTTC GACCAGTAGA 
    AGTGCACCAA CAAGCCGTAG AAAACAAAAT AAAATTGAAC CTCCATCAAA GTGCAAAGTG 
    GTGTGTGTAA AGTTTGAAAA CAATGAAGTG GATGAAACCT ACCTGAAACA TTTGCTTGGC 
    CAGTTTGGGG CGATTGTCAA AATTATTATG TTTCCTAATC TGGCTTTGGC AGAGATGGGA 
    ACGATGGGTC AAGCAGAGGA TATTGTAAAA TATTTCTCAC AAAACCCCTT GAGGTTCAAA 
    GGGAAAAAGC TGGAATTTTC TCTGTCTGCA GCCTTCAGTT TTCTACAGGG CTCTCGTGTG 
    GTGAGCTTTT CACCAATACC ATCTGGAGAA GGCGTAAGCT CTGAGTTGAT GGCCATTGCC 
    AAGCGATTCG GATCAGTAAT ACAATCACAG TTTCTGCCAC ACCGGGGTTA TGTGGAGATG 
    GCTCTTGTGG AAGAGGCCAG CAAATTAGTG GACCACTATT CAACTAATTC ACTGAAGTTA 
    AAAGGAAAAA CCATTACTGT AGCATTTTCA ACTGAATACC AGACGCTTAG TGATCTGGAA 
    ACTGACAAAT ATAAATTACC AGCTCATCAA AGCAGCAACA GGAGGAGAGA GAGGAGAAGT 
    TACAGCCCCA GAAGGAGGTC CTCCCAAAGA GACTCTCCCA GCCCCAAACG AAGGGCCTCT 
    GAGGAGGGCT CCCATCCTAG CCAGGGTCAC GATGCCAAGA AACGAGTAGA AAGTCGACGC 
    TCTAGAGAGG ATAGCTCATC CAAATCACAT TCCAAAAATG GCTCTCCTTC AAGAGACCTG 
    GTCGTGAAAA CCGAAGAAGA GGAGGGTGAG GGGGAGATGG TTGAAGAAGA CAACCAGTCT 
    GACAACATGG ATGAAGGTAG TGATCTTGAA GGGCTTGCAG TTATAGCAGA TGATGGTGAA 
    GAACTAAATA CAGAGGATGA ATACACGGTA GATGAAGACC TTGATGACGA GGCACTTGAT 
    ACCTCAGATG CTCTGATCGA TGCACCTGAA GATATGCAAA CAGTGAGCGA GTCAAGCCAG 
    ACTGTACCTT CAGACATGAA CACATCGGAC ATACAGCCAG AGACCACAGA GGGTGAACCT 
    AGTGCTATAA TTTCAGAAAG ATTAAATGAA GAAGGGAATG AGGAAGCCCA GGAGCCTCAA 
    CAAGGTGAGC AAAAAGAGCT TCAAGAGGAA AAGGAGCCCC CACGAGAAGA ACAAAAAGGA 
    GAGCAGAAAG AAGAGCTTAA TCAAGAAGAG CAAATAGAAG AACTTAAACA AGACGAACAG 
    AAAGAAGACC TTCAACCAGA AGATAAAAAA GAAGAGCTGC AAGAAGTGGA GCACAAAGAG 
    AGTCAAGATA AAGAAAATGA GCAAAACAAT GAAACCATGA CAGTGGAAGA GGAGGCGGCA 
    GATTCCTCAG AGAATCTAGA AAACGCACTG ACAGAGCAAG GTGATGAAAA TAAGATTTCC 
    GCCCTAGAAA CAGAGGAACA GTATGGCAGA GTTCTTGAGG TGGCAGGTTT TCCAGTTGCT 
    AAAAAGTACA GTGAAGCAGA TTTGCTGAAA ATTGGGGAAA AATATGGAGA TGTGGCAGGC 
    TGTTGTTTGG TTCGTAGCAA TCGAAAGGTG GAAAAGGCAT TAATTGAAAT GGTGAATGCT 
    GATGATGCTG CAAAACTTGA AGCTGATTGT AAGAAGCAGC ATATTAAACT AGGTGGCAAA 
    ATCTTGAGGA TAAAAGTGTC TCAGAAATAC AGCCAAGTGA ATGAAGGGAA CGATGTTGAC 
    CCCGAGCCTG CGAAAGTGGA AGGCAATGAC TTAGTGAATG TTGAAGATGC AACTCTGAAT 
    TTTGAAGATA AAAATACTGA GCCCACATGT TCAGTGGCAC CCATTGAAGA GAGTACAGTC 
    CTGATGTCAG AGACCGAAAC CACTGAAGAA CCTGATACTC CAATGGAAAC CAACACAGAC 
    TCAATTACGC AAACATCTAG TGATGAGGAG GAAGGGTATG GCAGAGTGAT CCGGGTTCGA 
    CATCTTCCAG TGTCTGATGA ATACACTGAT GCAGATTTTC TGAACATCGC AAAACCATAC 
    GGGACAGTAA TACGTCACTG GATGTTTCGC CTCCATCGAA CAGGACTAAT TGAGATGGAG 
    ACTGCATCCG ATGCTGAGAA GGTTTTGTCT GCAGCCAAAA TGAAAAAAAT TACAGTTGCT 
    GGAAAACATC CCAAGATTGC AGTGTCCACC AAACATGCCA ATTTAAATAA AAGGTACTTT 
    CTATACCAAT CTGAGTTGGA GAAGACAAAA GATGAATCCA GCACACAGAA TGATGAGCAG 
    GTTACTGAAG CGGACAATGG AACTGGAACA CAAGCGGAAA CACAAACACT CCTGATGGAT 
    CCAGTGGGGA TGGAGTTTGT TCGACCTGTG GTGGGTTATT TCTGCAACTT GTGTAATGCC 
    ATCTATGCCA GTGAGGAAGA GGCCAAGGGT GAACACTGCA GGACCCCATT GCATCATCAA 
    AAGCTGAAGG AACACAATGA ACAAAACGGT TTAAAATAA

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

    RefSeq XP_009289309.1
    CDS821..4579
    Translation

    Target ORF information:

    RefSeq Version XM_009291034.3
    Organism Danio rerio(zebrafish)
    Definition Danio rerio matrin 3-like 1.1 (matr3l1.1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_009291034.3

    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
    ATGTCTTATA ATCCACCATA CCGAAACCCT CAAGGGGACA AAGATGCACG AATCTATACC 
    CGGGACTCGA GCGCTTACAG GTCAGGAATT AGGAGCACAA CTCCGCACCG GACATCTTCA 
    TCCTCATCAG AACAGCCCGT ATTCCCGCCG AATAAGGCAT TGTCCTTTCT GCATAGCTGC 
    GGACTGGATG CTGAAGATCT TCAAACTCTG GCCAAGCTTC CCGAGCATCT CATCACAACC 
    GATACCCTTC CTGACCTTCT CACAGAAATC AAAAAGAAGA AATTGTCCCA CACTTCTTCA 
    CCCAGGTCCA GTGTGCTCCC AGCCGCGTCG TCAGCTCGCT CCTGGGACGA TAGGAGCCAC 
    GCTCAGTCGG TTGAGTATCC TTTAGATTTG CCTGCCCGTC AGTCGTATTC CCTTAATCGA 
    GAGCAAGCCC AAACCTGGGA TGACAACTGG GGAGATGTCC AGCAAACAAG CTCTCCAGCA 
    GCATCAAGCT ACGTTGTTGA GTATAACCAT CTGAAAGAGA AAAAGTCATA CTATGATGAA 
    CCGTCTTATC CCCCAGAACC ATCAAGAGAA ATGTCTTACT CTAACTATGG CAAAGAAGTT 
    GGTCACTCGT CGCATTTTTC CAGCAGAGAC GCCAGTCATT CCTCACATCT GTCCAGTAGG 
    GACAGTCAAT CCTCACGTCG GTCAAGCAGA GACCTCGGTC AGACCTCACA GCACTCCAGC 
    AGATACATCA GTCAGTCCTC AGTACGGTCG AGTAGAGACG TCGCTCCATC CTCACACCTG 
    TCTAGCAGAG ATGTCGGAGT ACATTCACAC ATCGCCCAAC CTTCGCCCAT GTCCAACAGA 
    AACGTTGGTA TACCCTCACT CCTCTCCATA AGAGACCTCG CTCCAGCCTC ACATCTGTCC 
    AGCAGAGCTG TCAGGCAGCC CTCTTGGAAG AAAGGCTCGG CTCCTAGAGT ACCTACCAGG 
    AAAGAGGCAT CCGATTTCCA CGGGAGGACT CCACCGGTGT TTCCCTACGC ATGCGTACTC 
    TGTGAAATCA CGGTCCTCTC TGACAAGGAC TGGTCTGTGC ATATAAATGG ACCCCAACAC 
    GCTAATAGTC AACTCAGTCT TGTGGAAAAA TATCCAGCGT GGGATCAGAC AATCCATTCT 
    GCACGGAGGA ATGAGCCTGA ATCCGAGAGA CCAAAGCATG GAACAATCCA GGCAAGAGAT 
    AGAATCTCAA GCCAAAAAAT TGGACCATCA GGCAGCAGAA GTGGAGCTTC GACCAGTAGA 
    AGTGCACCAA CAAGCCGTAG AAAACAAAAT AAAATTGAAC CTCCATCAAA GTGCAAAGTG 
    GTGTGTGTAA AGTTTGAAAA CAATGAAGTG GATGAAACCT ACCTGAAACA TTTGCTTGGC 
    CAGTTTGGGG CGATTGTCAA AATTATTATG TTTCCTAATC TGGCTTTGGC AGAGATGGGA 
    ACGATGGGTC AAGCAGAGGA TATTGTAAAA TATTTCTCAC AAAACCCCTT GAGGTTCAAA 
    GGGAAAAAGC TGGAATTTTC TCTGTCTGCA GCCTTCAGTT TTCTACAGGG CTCTCGTGTG 
    GTGAGCTTTT CACCAATACC ATCTGGAGAA GGCGTAAGCT CTGAGTTGAT GGCCATTGCC 
    AAGCGATTCG GATCAGTAAT ACAATCACAG TTTCTGCCAC ACCGGGGTTA TGTGGAGATG 
    GCTCTTGTGG AAGAGGCCAG CAAATTAGTG GACCACTATT CAACTAATTC ACTGAAGTTA 
    AAAGGAAAAA CCATTACTGT AGCATTTTCA ACTGAATACC AGACGCTTAG TGATCTGGAA 
    ACTGACAAAT ATAAATTACC AGCTCATCAA AGCAGCAACA GGAGGAGAGA GAGGAGAAGT 
    TACAGCCCCA GAAGGAGGTC CTCCCAAAGA GACTCTCCCA GCCCCAAACG AAGGGCCTCT 
    GAGGAGGGCT CCCATCCTAG CCAGGGTCAC GATGCCAAGA AACGAGTAGA AAGTCGACGC 
    TCTAGAGAGG ATAGCTCATC CAAATCACAT TCCAAAAATG GCTCTCCTTC AAGAGACCTG 
    GTCGTGAAAA CCGAAGAAGA GGAGGGTGAG GGGGAGATGG TTGAAGAAGA CAACCAGTCT 
    GACAACATGG ATGAAGGTAG TGATCTTGAA GGGCTTGCAG TTATAGCAGA TGATGGTGAA 
    GAACTAAATA CAGAGGATGA ATACACGGTA GATGAAGACC TTGATGACGA GGCACTTGAT 
    ACCTCAGATG CTCTGATCGA TGCACCTGAA GATATGCAAA CAGTGAGCGA GTCAAGCCAG 
    ACTGTACCTT CAGACATGAA CACATCGGAC ATACAGCCAG AGACCACAGA GGGTGAACCT 
    AGTGCTATAA TTTCAGAAAG ATTAAATGAA GAAGGGAATG AGGAAGCCCA GGAGCCTCAA 
    CAAGGTGAGC AAAAAGAGCT TCAAGAGGAA AAGGAGCCCC CACGAGAAGA ACAAAAAGGA 
    GAGCAGAAAG AAGAGCTTAA TCAAGAAGAG CAAATAGAAG AACTTAAACA AGACGAACAG 
    AAAGAAGACC TTCAACCAGA AGATAAAAAA GAAGAGCTGC AAGAAGTGGA GCACAAAGAG 
    AGTCAAGATA AAGAAAATGA GCAAAACAAT GAAACCATGA CAGTGGAAGA GGAGGCGGCA 
    GATTCCTCAG AGAATCTAGA AAACGCACTG ACAGAGCAAG GTGATGAAAA TAAGATTTCC 
    GCCCTAGAAA CAGAGGAACA GTATGGCAGA GTTCTTGAGG TGGCAGGTTT TCCAGTTGCT 
    AAAAAGTACA GTGAAGCAGA TTTGCTGAAA ATTGGGGAAA AATATGGAGA TGTGGCAGGC 
    TGTTGTTTGG TTCGTAGCAA TCGAAAGGTG GAAAAGGCAT TAATTGAAAT GGTGAATGCT 
    GATGATGCTG CAAAACTTGA AGCTGATTGT AAGAAGCAGC ATATTAAACT AGGTGGCAAA 
    ATCTTGAGGA TAAAAGTGTC TCAGAAATAC AGCCAAGTGA ATGAAGGGAA CGATGTTGAC 
    CCCGAGCCTG CGAAAGTGGA AGGCAATGAC TTAGTGAATG TTGAAGATGC AACTCTGAAT 
    TTTGAAGATA AAAATACTGA GCCCACATGT TCAGTGGCAC CCATTGAAGA GAGTACAGTC 
    CTGATGTCAG AGACCGAAAC CACTGAAGAA CCTGATACTC CAATGGAAAC CAACACAGAC 
    TCAATTACGC AAACATCTAG TGATGAGGAG GAAGGGTATG GCAGAGTGAT CCGGGTTCGA 
    CATCTTCCAG TGTCTGATGA ATACACTGAT GCAGATTTTC TGAACATCGC AAAACCATAC 
    GGGACAGTAA TACGTCACTG GATGTTTCGC CTCCATCGAA CAGGACTAAT TGAGATGGAG 
    ACTGCATCCG ATGCTGAGAA GGTTTTGTCT GCAGCCAAAA TGAAAAAAAT TACAGTTGCT 
    GGAAAACATC CCAAGATTGC AGTGTCCACC AAACATGCCA ATTTAAATAA AAGGTACTTT 
    CTATACCAAT CTGAGTTGGA GAAGACAAAA GATGAATCCA GCACACAGAA TGATGAGCAG 
    GTTACTGAAG CGGACAATGG AACTGGAACA CAAGCGGAAA CACAAACACT CCTGATGGAT 
    CCAGTGGGGA TGGAGTTTGT TCGACCTGTG GTGGGTTATT TCTGCAACTT GTGTAATGCC 
    ATCTATGCCA GTGAGGAAGA GGCCAAGGGT GAACACTGCA GGACCCCATT GCATCATCAA 
    AAGCTGAAGG AACACAATGA ACAAAACGGT TTAAAATAA

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

    matr3l1.1 ( XM_009291034.2 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_009289309.1 Danio rerio matrin 3-like 1.1 (matr3l1.1), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID ODa42306
    Clone ID Related Accession (Same CDS sequence) XM_009291034.3 , XM_009291034.2
    Accession Version XM_009291034.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3759bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product uncharacterized protein LOC556124 isoform X2
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007125.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_009291034.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGTCTTATA ATCCACCATA CCGAAACCCT CAAGGGGACA AAGATGCACG AATCTATACC 
    CGGGACTCGA GCGCTTACAG GTCAGGAATT AGGAGCACAA CTCCGCACCG GACATCTTCA 
    TCCTCATCAG AACAGCCCGT ATTCCCGCCG AATAAGGCAT TGTCCTTTCT GCATAGCTGC 
    GGACTGGATG CTGAAGATCT TCAAACTCTG GCCAAGCTTC CCGAGCATCT CATCACAACC 
    GATACCCTTC CTGACCTTCT CACAGAAATC AAAAAGAAGA AATTGTCCCA CACTTCTTCA 
    CCCAGGTCCA GTGTGCTCCC AGCCGCGTCG TCAGCTCGCT CCTGGGACGA TAGGAGCCAC 
    GCTCAGTCGG TTGAGTATCC TTTAGATTTG CCTGCCCGTC AGTCGTATTC CCTTAATCGA 
    GAGCAAGCCC AAACCTGGGA TGACAACTGG GGAGATGTCC AGCAAACAAG CTCTCCAGCA 
    GCATCAAGCT ACGTTGTTGA GTATAACCAT CTGAAAGAGA AAAAGTCATA CTATGATGAA 
    CCGTCTTATC CCCCAGAACC ATCAAGAGAA ATGTCTTACT CTAACTATGG CAAAGAAGTT 
    GGTCACTCGT CGCATTTTTC CAGCAGAGAC GCCAGTCATT CCTCACATCT GTCCAGTAGG 
    GACAGTCAAT CCTCACGTCG GTCAAGCAGA GACCTCGGTC AGACCTCACA GCACTCCAGC 
    AGATACATCA GTCAGTCCTC AGTACGGTCG AGTAGAGACG TCGCTCCATC CTCACACCTG 
    TCTAGCAGAG ATGTCGGAGT ACATTCACAC ATCGCCCAAC CTTCGCCCAT GTCCAACAGA 
    AACGTTGGTA TACCCTCACT CCTCTCCATA AGAGACCTCG CTCCAGCCTC ACATCTGTCC 
    AGCAGAGCTG TCAGGCAGCC CTCTTGGAAG AAAGGCTCGG CTCCTAGAGT ACCTACCAGG 
    AAAGAGGCAT CCGATTTCCA CGGGAGGACT CCACCGGTGT TTCCCTACGC ATGCGTACTC 
    TGTGAAATCA CGGTCCTCTC TGACAAGGAC TGGTCTGTGC ATATAAATGG ACCCCAACAC 
    GCTAATAGTC AACTCAGTCT TGTGGAAAAA TATCCAGCGT GGGATCAGAC AATCCATTCT 
    GCACGGAGGA ATGAGCCTGA ATCCGAGAGA CCAAAGCATG GAACAATCCA GGCAAGAGAT 
    AGAATCTCAA GCCAAAAAAT TGGACCATCA GGCAGCAGAA GTGGAGCTTC GACCAGTAGA 
    AGTGCACCAA CAAGCCGTAG AAAACAAAAT AAAATTGAAC CTCCATCAAA GTGCAAAGTG 
    GTGTGTGTAA AGTTTGAAAA CAATGAAGTG GATGAAACCT ACCTGAAACA TTTGCTTGGC 
    CAGTTTGGGG CGATTGTCAA AATTATTATG TTTCCTAATC TGGCTTTGGC AGAGATGGGA 
    ACGATGGGTC AAGCAGAGGA TATTGTAAAA TATTTCTCAC AAAACCCCTT GAGGTTCAAA 
    GGGAAAAAGC TGGAATTTTC TCTGTCTGCA GCCTTCAGTT TTCTACAGGG CTCTCGTGTG 
    GTGAGCTTTT CACCAATACC ATCTGGAGAA GGCGTAAGCT CTGAGTTGAT GGCCATTGCC 
    AAGCGATTCG GATCAGTAAT ACAATCACAG TTTCTGCCAC ACCGGGGTTA TGTGGAGATG 
    GCTCTTGTGG AAGAGGCCAG CAAATTAGTG GACCACTATT CAACTAATTC ACTGAAGTTA 
    AAAGGAAAAA CCATTACTGT AGCATTTTCA ACTGAATACC AGACGCTTAG TGATCTGGAA 
    ACTGACAAAT ATAAATTACC AGCTCATCAA AGCAGCAACA GGAGGAGAGA GAGGAGAAGT 
    TACAGCCCCA GAAGGAGGTC CTCCCAAAGA GACTCTCCCA GCCCCAAACG AAGGGCCTCT 
    GAGGAGGGCT CCCATCCTAG CCAGGGTCAC GATGCCAAGA AACGAGTAGA AAGTCGACGC 
    TCTAGAGAGG ATAGCTCATC CAAATCACAT TCCAAAAATG GCTCTCCTTC AAGAGACCTG 
    GTCGTGAAAA CCGAAGAAGA GGAGGGTGAG GGGGAGATGG TTGAAGAAGA CAACCAGTCT 
    GACAACATGG ATGAAGGTAG TGATCTTGAA GGGCTTGCAG TTATAGCAGA TGATGGTGAA 
    GAACTAAATA CAGAGGATGA ATACACGGTA GATGAAGACC TTGATGACGA GGCACTTGAT 
    ACCTCAGATG CTCTGATCGA TGCACCTGAA GATATGCAAA CAGTGAGCGA GTCAAGCCAG 
    ACTGTACCTT CAGACATGAA CACATCGGAC ATACAGCCAG AGACCACAGA GGGTGAACCT 
    AGTGCTATAA TTTCAGAAAG ATTAAATGAA GAAGGGAATG AGGAAGCCCA GGAGCCTCAA 
    CAAGGTGAGC AAAAAGAGCT TCAAGAGGAA AAGGAGCCCC CACGAGAAGA ACAAAAAGGA 
    GAGCAGAAAG AAGAGCTTAA TCAAGAAGAG CAAATAGAAG AACTTAAACA AGACGAACAG 
    AAAGAAGACC TTCAACCAGA AGATAAAAAA GAAGAGCTGC AAGAAGTGGA GCACAAAGAG 
    AGTCAAGATA AAGAAAATGA GCAAAACAAT GAAACCATGA CAGTGGAAGA GGAGGCGGCA 
    GATTCCTCAG AGAATCTAGA AAACGCACTG ACAGAGCAAG GTGATGAAAA TAAGATTTCC 
    GCCCTAGAAA CAGAGGAACA GTATGGCAGA GTTCTTGAGG TGGCAGGTTT TCCAGTTGCT 
    AAAAAGTACA GTGAAGCAGA TTTGCTGAAA ATTGGGGAAA AATATGGAGA TGTGGCAGGC 
    TGTTGTTTGG TTCGTAGCAA TCGAAAGGTG GAAAAGGCAT TAATTGAAAT GGTGAATGCT 
    GATGATGCTG CAAAACTTGA AGCTGATTGT AAGAAGCAGC ATATTAAACT AGGTGGCAAA 
    ATCTTGAGGA TAAAAGTGTC TCAGAAATAC AGCCAAGTGA ATGAAGGGAA CGATGTTGAC 
    CCCGAGCCTG CGAAAGTGGA AGGCAATGAC TTAGTGAATG TTGAAGATGC AACTCTGAAT 
    TTTGAAGATA AAAATACTGA GCCCACATGT TCAGTGGCAC CCATTGAAGA GAGTACAGTC 
    CTGATGTCAG AGACCGAAAC CACTGAAGAA CCTGATACTC CAATGGAAAC CAACACAGAC 
    TCAATTACGC AAACATCTAG TGATGAGGAG GAAGGGTATG GCAGAGTGAT CCGGGTTCGA 
    CATCTTCCAG TGTCTGATGA ATACACTGAT GCAGATTTTC TGAACATCGC AAAACCATAC 
    GGGACAGTAA TACGTCACTG GATGTTTCGC CTCCATCGAA CAGGACTAAT TGAGATGGAG 
    ACTGCATCCG ATGCTGAGAA GGTTTTGTCT GCAGCCAAAA TGAAAAAAAT TACAGTTGCT 
    GGAAAACATC CCAAGATTGC AGTGTCCACC AAACATGCCA ATTTAAATAA AAGGTACTTT 
    CTATACCAAT CTGAGTTGGA GAAGACAAAA GATGAATCCA GCACACAGAA TGATGAGCAG 
    GTTACTGAAG CGGACAATGG AACTGGAACA CAAGCGGAAA CACAAACACT CCTGATGGAT 
    CCAGTGGGGA TGGAGTTTGT TCGACCTGTG GTGGGTTATT TCTGCAACTT GTGTAATGCC 
    ATCTATGCCA GTGAGGAAGA GGCCAAGGGT GAACACTGCA GGACCCCATT GCATCATCAA 
    AAGCTGAAGG AACACAATGA ACAAAACGGT TTAAAATAA

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

    RefSeq XP_009289309.1
    CDS810..4568
    Translation

    Target ORF information:

    RefSeq Version XM_009291034.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio matrin 3-like 1.1 (matr3l1.1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_009291034.2

    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
    ATGTCTTATA ATCCACCATA CCGAAACCCT CAAGGGGACA AAGATGCACG AATCTATACC 
    CGGGACTCGA GCGCTTACAG GTCAGGAATT AGGAGCACAA CTCCGCACCG GACATCTTCA 
    TCCTCATCAG AACAGCCCGT ATTCCCGCCG AATAAGGCAT TGTCCTTTCT GCATAGCTGC 
    GGACTGGATG CTGAAGATCT TCAAACTCTG GCCAAGCTTC CCGAGCATCT CATCACAACC 
    GATACCCTTC CTGACCTTCT CACAGAAATC AAAAAGAAGA AATTGTCCCA CACTTCTTCA 
    CCCAGGTCCA GTGTGCTCCC AGCCGCGTCG TCAGCTCGCT CCTGGGACGA TAGGAGCCAC 
    GCTCAGTCGG TTGAGTATCC TTTAGATTTG CCTGCCCGTC AGTCGTATTC CCTTAATCGA 
    GAGCAAGCCC AAACCTGGGA TGACAACTGG GGAGATGTCC AGCAAACAAG CTCTCCAGCA 
    GCATCAAGCT ACGTTGTTGA GTATAACCAT CTGAAAGAGA AAAAGTCATA CTATGATGAA 
    CCGTCTTATC CCCCAGAACC ATCAAGAGAA ATGTCTTACT CTAACTATGG CAAAGAAGTT 
    GGTCACTCGT CGCATTTTTC CAGCAGAGAC GCCAGTCATT CCTCACATCT GTCCAGTAGG 
    GACAGTCAAT CCTCACGTCG GTCAAGCAGA GACCTCGGTC AGACCTCACA GCACTCCAGC 
    AGATACATCA GTCAGTCCTC AGTACGGTCG AGTAGAGACG TCGCTCCATC CTCACACCTG 
    TCTAGCAGAG ATGTCGGAGT ACATTCACAC ATCGCCCAAC CTTCGCCCAT GTCCAACAGA 
    AACGTTGGTA TACCCTCACT CCTCTCCATA AGAGACCTCG CTCCAGCCTC ACATCTGTCC 
    AGCAGAGCTG TCAGGCAGCC CTCTTGGAAG AAAGGCTCGG CTCCTAGAGT ACCTACCAGG 
    AAAGAGGCAT CCGATTTCCA CGGGAGGACT CCACCGGTGT TTCCCTACGC ATGCGTACTC 
    TGTGAAATCA CGGTCCTCTC TGACAAGGAC TGGTCTGTGC ATATAAATGG ACCCCAACAC 
    GCTAATAGTC AACTCAGTCT TGTGGAAAAA TATCCAGCGT GGGATCAGAC AATCCATTCT 
    GCACGGAGGA ATGAGCCTGA ATCCGAGAGA CCAAAGCATG GAACAATCCA GGCAAGAGAT 
    AGAATCTCAA GCCAAAAAAT TGGACCATCA GGCAGCAGAA GTGGAGCTTC GACCAGTAGA 
    AGTGCACCAA CAAGCCGTAG AAAACAAAAT AAAATTGAAC CTCCATCAAA GTGCAAAGTG 
    GTGTGTGTAA AGTTTGAAAA CAATGAAGTG GATGAAACCT ACCTGAAACA TTTGCTTGGC 
    CAGTTTGGGG CGATTGTCAA AATTATTATG TTTCCTAATC TGGCTTTGGC AGAGATGGGA 
    ACGATGGGTC AAGCAGAGGA TATTGTAAAA TATTTCTCAC AAAACCCCTT GAGGTTCAAA 
    GGGAAAAAGC TGGAATTTTC TCTGTCTGCA GCCTTCAGTT TTCTACAGGG CTCTCGTGTG 
    GTGAGCTTTT CACCAATACC ATCTGGAGAA GGCGTAAGCT CTGAGTTGAT GGCCATTGCC 
    AAGCGATTCG GATCAGTAAT ACAATCACAG TTTCTGCCAC ACCGGGGTTA TGTGGAGATG 
    GCTCTTGTGG AAGAGGCCAG CAAATTAGTG GACCACTATT CAACTAATTC ACTGAAGTTA 
    AAAGGAAAAA CCATTACTGT AGCATTTTCA ACTGAATACC AGACGCTTAG TGATCTGGAA 
    ACTGACAAAT ATAAATTACC AGCTCATCAA AGCAGCAACA GGAGGAGAGA GAGGAGAAGT 
    TACAGCCCCA GAAGGAGGTC CTCCCAAAGA GACTCTCCCA GCCCCAAACG AAGGGCCTCT 
    GAGGAGGGCT CCCATCCTAG CCAGGGTCAC GATGCCAAGA AACGAGTAGA AAGTCGACGC 
    TCTAGAGAGG ATAGCTCATC CAAATCACAT TCCAAAAATG GCTCTCCTTC AAGAGACCTG 
    GTCGTGAAAA CCGAAGAAGA GGAGGGTGAG GGGGAGATGG TTGAAGAAGA CAACCAGTCT 
    GACAACATGG ATGAAGGTAG TGATCTTGAA GGGCTTGCAG TTATAGCAGA TGATGGTGAA 
    GAACTAAATA CAGAGGATGA ATACACGGTA GATGAAGACC TTGATGACGA GGCACTTGAT 
    ACCTCAGATG CTCTGATCGA TGCACCTGAA GATATGCAAA CAGTGAGCGA GTCAAGCCAG 
    ACTGTACCTT CAGACATGAA CACATCGGAC ATACAGCCAG AGACCACAGA GGGTGAACCT 
    AGTGCTATAA TTTCAGAAAG ATTAAATGAA GAAGGGAATG AGGAAGCCCA GGAGCCTCAA 
    CAAGGTGAGC AAAAAGAGCT TCAAGAGGAA AAGGAGCCCC CACGAGAAGA ACAAAAAGGA 
    GAGCAGAAAG AAGAGCTTAA TCAAGAAGAG CAAATAGAAG AACTTAAACA AGACGAACAG 
    AAAGAAGACC TTCAACCAGA AGATAAAAAA GAAGAGCTGC AAGAAGTGGA GCACAAAGAG 
    AGTCAAGATA AAGAAAATGA GCAAAACAAT GAAACCATGA CAGTGGAAGA GGAGGCGGCA 
    GATTCCTCAG AGAATCTAGA AAACGCACTG ACAGAGCAAG GTGATGAAAA TAAGATTTCC 
    GCCCTAGAAA CAGAGGAACA GTATGGCAGA GTTCTTGAGG TGGCAGGTTT TCCAGTTGCT 
    AAAAAGTACA GTGAAGCAGA TTTGCTGAAA ATTGGGGAAA AATATGGAGA TGTGGCAGGC 
    TGTTGTTTGG TTCGTAGCAA TCGAAAGGTG GAAAAGGCAT TAATTGAAAT GGTGAATGCT 
    GATGATGCTG CAAAACTTGA AGCTGATTGT AAGAAGCAGC ATATTAAACT AGGTGGCAAA 
    ATCTTGAGGA TAAAAGTGTC TCAGAAATAC AGCCAAGTGA ATGAAGGGAA CGATGTTGAC 
    CCCGAGCCTG CGAAAGTGGA AGGCAATGAC TTAGTGAATG TTGAAGATGC AACTCTGAAT 
    TTTGAAGATA AAAATACTGA GCCCACATGT TCAGTGGCAC CCATTGAAGA GAGTACAGTC 
    CTGATGTCAG AGACCGAAAC CACTGAAGAA CCTGATACTC CAATGGAAAC CAACACAGAC 
    TCAATTACGC AAACATCTAG TGATGAGGAG GAAGGGTATG GCAGAGTGAT CCGGGTTCGA 
    CATCTTCCAG TGTCTGATGA ATACACTGAT GCAGATTTTC TGAACATCGC AAAACCATAC 
    GGGACAGTAA TACGTCACTG GATGTTTCGC CTCCATCGAA CAGGACTAAT TGAGATGGAG 
    ACTGCATCCG ATGCTGAGAA GGTTTTGTCT GCAGCCAAAA TGAAAAAAAT TACAGTTGCT 
    GGAAAACATC CCAAGATTGC AGTGTCCACC AAACATGCCA ATTTAAATAA AAGGTACTTT 
    CTATACCAAT CTGAGTTGGA GAAGACAAAA GATGAATCCA GCACACAGAA TGATGAGCAG 
    GTTACTGAAG CGGACAATGG AACTGGAACA CAAGCGGAAA CACAAACACT CCTGATGGAT 
    CCAGTGGGGA TGGAGTTTGT TCGACCTGTG GTGGGTTATT TCTGCAACTT GTGTAATGCC 
    ATCTATGCCA GTGAGGAAGA GGCCAAGGGT GAACACTGCA GGACCCCATT GCATCATCAA 
    AAGCTGAAGG AACACAATGA ACAAAACGGT TTAAAATAA

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

見積依頼

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