ORF » Species Summary » Danio rerio » ntng2b cDNA ORF clone

ntng2b cDNA ORF clone, Danio rerio(zebrafish)

The following ntng2b gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ntng2b 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
ODa25468 XM_021468967.1
Latest version!		 Danio rerio netrin g2b (ntng2b), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 9-11 $174.30
$249.00
ODa150975 XM_021468965.1
Latest version!		 Danio rerio netrin g2b (ntng2b), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00
ODa150976 XM_021468966.1
Latest version!		 Danio rerio netrin g2b (ntng2b), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00
ODa51517 XM_009295099.3
Latest version!		 Danio rerio netrin g2b (ntng2b), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00
ODa51519 XM_009295101.2
Latest version!		 Danio rerio netrin g2b (ntng2b), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00
ODa51521 XM_009295103.3
Latest version!		 Danio rerio netrin g2b (ntng2b), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00
ODa51523 XM_021468964.1
Latest version!		 Danio rerio netrin g2b (ntng2b), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00
ODa56957 XM_017353009.2
Latest version!		 Danio rerio netrin g2b (ntng2b), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00
ODa56958 XM_017353010.1
Latest version!		 Danio rerio netrin g2b (ntng2b), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00
View Old Accession Versions >>
ODa51521 XM_009295103.2 Danio rerio netrin g2b (ntng2b), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00
ODa56957 XM_017353009.1 Danio rerio netrin g2b (ntng2b), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00
ODa51517 XM_009295099.2 Danio rerio netrin g2b (ntng2b), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00
Hide Old Accession Versions >>

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

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

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

  • Reference Sequences (Refseq)
    ntng2b ( XM_021468967.1 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_021324642.1 Danio rerio netrin g2b (ntng2b), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID ODa25468
    Clone ID Related Accession (Same CDS sequence) XM_021468967.1
    Accession Version XM_021468967.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 693bp)
    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 netrin-G2-like isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: 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
    ATGGACGGCA ACTTACAGTG TCAGTGTGAA CACAACACCA CCGGCCAGGA CTGCCAGCGC 
    TGCAAAAAAG GATATAAAGC CAAGACCTGG AAACCAGGAT CGTATTTACC AACTCCGAAC 
    GGATCCCCAA ACACATGTTC TCAGGCATTG GCTGGTTCTT CTTCTGGATC CAATTGTGAA 
    TGTAACGGAC ACTCGAATCG CTGCAGTTAC ATCGACTTCC TGAACATAGT GACGTGCGTG 
    AGCTGCAAAC ACAACACGAG GGGGCAGAAC TGCGAACACT GTCGCATGAG CTACTACAAA 
    AACATGTCTG CAGAGCCTGA TGATGAGAAC GTGTGTATCG AGTGTAACTG TAATGCGTTG 
    GGCTCAGTTC ATGACCGCTG CAACGGCACC GGCTTCTGTC AGTGTAAAGA AGGCACAACC 
    GGAGTCAAAT GTGATGAATG TCTCCCGGGC TACTATTGGA AACAGGGCTG TTTACCGAAC 
    GTGTGCGACG ACGAGTTACT CTTGTGCCAG AACGGAGGGA CGTGCGTTCA GAATCAGCGC 
    TGCATCTGCA CACCAGACTT TAAGGGTGTT TTGTGCCAAC ATTCGCGCTG TGAAGAAGGC 
    AAAAAGTGCA ACGGCGCCAG CGCTCTCCGT TTGAGCCTGG CACTCCTGCT CTGCCCGCTT 
    CTCGCCACCC TGCTGGGCTC CACCGCCTCC TGA

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

    RefSeq XP_021324642.1
    CDS58..750
    Translation

    Target ORF information:

    RefSeq Version XM_021468967.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio netrin g2b (ntng2b), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021468967.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    ATGGACGGCA ACTTACAGTG TCAGTGTGAA CACAACACCA CCGGCCAGGA CTGCCAGCGC 
    TGCAAAAAAG GATATAAAGC CAAGACCTGG AAACCAGGAT CGTATTTACC AACTCCGAAC 
    GGATCCCCAA ACACATGTTC TCAGGCATTG GCTGGTTCTT CTTCTGGATC CAATTGTGAA 
    TGTAACGGAC ACTCGAATCG CTGCAGTTAC ATCGACTTCC TGAACATAGT GACGTGCGTG 
    AGCTGCAAAC ACAACACGAG GGGGCAGAAC TGCGAACACT GTCGCATGAG CTACTACAAA 
    AACATGTCTG CAGAGCCTGA TGATGAGAAC GTGTGTATCG AGTGTAACTG TAATGCGTTG 
    GGCTCAGTTC ATGACCGCTG CAACGGCACC GGCTTCTGTC AGTGTAAAGA AGGCACAACC 
    GGAGTCAAAT GTGATGAATG TCTCCCGGGC TACTATTGGA AACAGGGCTG TTTACCGAAC 
    GTGTGCGACG ACGAGTTACT CTTGTGCCAG AACGGAGGGA CGTGCGTTCA GAATCAGCGC 
    TGCATCTGCA CACCAGACTT TAAGGGTGTT TTGTGCCAAC ATTCGCGCTG TGAAGAAGGC 
    AAAAAGTGCA ACGGCGCCAG CGCTCTCCGT TTGAGCCTGG CACTCCTGCT CTGCCCGCTT 
    CTCGCCACCC TGCTGGGCTC CACCGCCTCC TGA

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

    ntng2b ( XM_021468965.1 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_021324640.1 Danio rerio netrin g2b (ntng2b), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID ODa150975
    Clone ID Related Accession (Same CDS sequence) XM_021468965.1
    Accession Version XM_021468965.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4404bp)
    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 filaggrin-2-like isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGACGGCA ACTTACAGTG TCAGTGTGAA CACAACACCA CCGGCCAGGA CTGCCAGCGC 
    TGCAAAAAAG GATATAAAGC CAAGACCTGG AAACCAGGAT CGTATTTACC AACTCCGAAC 
    GGATCCCCAA ACACATGTTC TCAGGCATTG GCTGGTTCTT CTTCTGGATC CATGACCGAT 
    ACCTCAGCTG AAGAGTTCAC TACAGTTGTA ACAGAATCGC CAGTGTTGGA CACAGATGCT 
    CCTCCGGCAC ATGTAGATAC TGTAAACCAC GTCCCATCAG CTGAAATAGA CCCCAAGGCA 
    CTTTATACCA CCCCAAAAGC CACGCCCCCT TCTCATATTT TCAGAGAGGA CACTCCCCGC 
    ACGGCCACAC CTCCAGAGGA GGAGCCTGTG CACATACATA TACAGAGCAA AGCACCACCA 
    GTGGAGGATT CTGGGGAAGT TGAAGAGATT TCTGAAAAGA AAGAGATGAC TTCAGGGAGA 
    CATGAAGTAT CTGAAGATGT AAAGAGAGTG GAGACTTTTC TGGAACATAA CAGACACAGG 
    GAAGAAACTG CACCTGAACC TGTTGGATCA GTGCGGGAGT CTGCCGAGCC AAAGCCAGAG 
    TCGATTCCAA AGCCAATTTT GGAAACACAC AAGCCACTAC ACAAACCTCA AGTTCATGTG 
    TCTACAGCGG AATCTCATGG AGCAGCACAA ACATCACATG AATCAGTAAC AAAGCATCAT 
    GAACCAATTC AGAAACTTCA TGAGTCAACA GTGAAACCTC ACTCAATGCA TACAACCCAT 
    GAGACTATAC AGAAACCTCA TGAACCAAAA GTGAATTCTC ATGAATCAAT GCATAAACCC 
    CATGAGCAAA TTGTAAATCT TAATGAATCA ATGTATAAGC CTCATCAGCC AATATGGGAT 
    CCACATTCAT CGCCGCAAAA ACCTTTTGAG CCAAACGTGA ACCCCCTTGA GTCAGTAGTG 
    AATATTCATG AGTCAACGCA TAAATCACAT GAAGCAGTAG TGAATCCTCA GGAATCAATG 
    AATAACCCTC ATGGGTCAGT AGTAAACCCT CACAAGTCAG GGCATAACCC TCATGGGTCA 
    GTAGTGAACC CTCACGGGTC AGGGCATAAC CCTCATGGGT CAGTAGTCAA CCCTCACGAG 
    TCAGGGCATA ACCCTCATGG GTCAGTAGTG AATCCTCACG AGTCAGGGCA TAACCCTCAT 
    GGGTCAGTAG TGAATCCTCA CGAGTCAGGG CATAACCCTC ATGGGTCAAT AGTAAACCCT 
    TATGAGTCAG GGCATAACTC TTATGGGTCA GTAGTGAACC CTCACGGGTC AGTAGTGAAC 
    CCTCACGGGT CAGGGCATAA CCCTCATGGG TCAGTAGTGA ATCCTCACGA GTCAGGGCAT 
    AACCCTCATG GGTCAATAGT GAACCCTCAC GGGTCAGGGC ATAACCCTCA TGGGTCAGTA 
    GTGAAACCTC ACGGGTCAGT AGTGAACCCT CACGAGTCAG GGCATAACCC TCATGGAACA 
    GTAGTGAATC CTCACGAGTC AGGGCATAAC CCTCATGGGT CAATAGTAAA CCCTCTTGAG 
    TCAGGGCACA ACCCTCATGG GTCGGTAGTG AATCCTCATG GCTCAGGGCT TAACCCTCAT 
    GGGTCAGTAG TGAATCCTCA CGAGTCAGGG CATAACCCTC ATGGGTCAGT AGTGAACCCT 
    CACGAGTCAG GGCATAACCC TCATGGGTCA GTAGTGAATC CTCACGAGTC AGGGCATAAC 
    CCTCATGGGT CAGTAGTGAA TCCTCACGAG TCAGGGCATA ACCCTCATGG GTCAGTAGTG 
    AATTCTCACG AGTCAGGGCA TAACCCTCAT GGGTCAGTAG TGAATACTCA CGAGTCAGGG 
    CATAACCCTC ATGGGTCAGT AGTGAATCCT CACGAGTCAG GGCATAACCC TCATGGGTCA 
    GTAGTGAATA TTCATAGTTC AGAGCAGAAA TCTCATGATC CAGTAGGGAA TCCGCATGGG 
    TCAGAGCATA ACCTTCATGG GTCAGAGGTG AATCATCATG GATCAGAACA TAAATCTCAT 
    GAGCCACTAG TAAACCCCCA TGGGTCAGAG CATAGTCCTC ATAGGTCAGA AGTGGATCCT 
    CATGGGTCAG TAGTGAATCC TCATGGGTCA GGGCATAAAT CTCATGACCC AGTTATGAAT 
    CCCCATGATC CAGTAGTAAA TCCTCATGGG TCAGAGCATA AATCTCACGA TGCAGTAGTG 
    AATCATCATG GGTCAGTGGA TAAATCTCAT GAACCAGTAG TGAATGCTCA TGGGTCAGAG 
    CATAAGCCTC ATGGGTCAGG TCATAAACCT CATGAGTCAG TAGTGAATCC TCATGGATTG 
    GAGCATAAAT CTCATGACCT AGAAGTAAAT CCTCATGGTT CAAAGCACAA CACACATGAG 
    CCAATAGTGA ATCCTCATGG GACAGAGCAT AACCCTCATG GGTCATCAGC AAATCCTCAT 
    GAGTCAGATC ATAAATCTCA TGAGCCAGTA GTTAATCCAC ATGGGTCAGG GCACAACCCT 
    CATGGGTCAG GGCATAACCC TCACAACCCA GTAGTGAATC CTCATGTGTC AGAGCATAAA 
    TCTCATGACC CAGTAGTACA CCCTCATGGG TCAGGGCATA ACAAACATGA GCCAATAGTT 
    AATCCTATTG GGTCAGGGCA TAACTCCCAT GGGTCAGTAG TGAATCCTCA TGGGTCAGAG 
    CATAACCCTC ATGGGTCAGT AGTGAATCCT CATGGGTCAG AGCATAACCC TCATGGGTCA 
    GTAGTGAATC CTCATGGGTC AGAGCATAAC CCTCATGGGT CAGTAGTGAA TACTCATGGC 
    TCAGGGCATA ACTCTCATGG GTCAGTAGCA AATCCTCATG GCTCAGAGAA TAACCCACAT 
    GGGTCAGAGC ATAACTCTCA TGGGTCAGTA GCAAATCCTC ATGGGTCAGG GCATACATTT 
    CATGGGTCAA TAGCAAATCC TCATGTGTCA GCGGAAAACC CTCATGGGTC AGTAGCGAAT 
    CCTCATGGGT CAGAGCATAA CTCTCATGGG TCAGTAGCGA ATCCTCACGG GTCAGAGCAT 
    AACCCTCATG GGTCAGAAGC GAATCCTCAT GGGTCAGAGC ATAACTCTCA TGGATCAGTA 
    GCAAATCCTC ATGGGTCAGG GCATAAGCCA CATGGGTCAG AGTATAACCC TCATGGGTCA 
    GTAGCGAATC CTCTTGTGTC AGAGTATAAC ACTCATGGGT CAGTAGCGAA TCCTCATGGG 
    TCAGCGCATA ACCCTCATGG GTCAGTAGCG AATCCTCATG GGTCAGGGCA TGACCCACAT 
    GGGTCAGAGT ATAACCCTCA TGGGTCAGTA GAAAACCCTC AGGGGTCAGC GCCTAACTCT 
    CATGGATCGG TAGCAAATCC TCATGGGTCA GTAGAAAATC CTCATGCGTC AGCGCATAAC 
    TCTCATGGAT CGGTAGCAAA TCCTCATGGG TCAGCGCATA ACTCTCATGG GTCGGTAGCA 
    AGTCCTCATG GGTCAGCGCA TAACTCTCAT GGGTCAGGGC ATAATCCTCA TGGGTCAGGG 
    CATAATCCTC ATGAGTCAGG GCATAAAACT CATGGGCCAA GGCATAAGCC TCATGGGTCA 
    GTAGTGTATC CTCATGAGCC AATGCATAAC CCTCATGGAC ACCTACATAA TGAACCAAAA 
    AGTGAGTCAC ATGGGCCGAT ACCAGAGTCT GCCAGGACAA CAGACGAATC CGTGCTGCCA 
    ATCTCAGCAT TGGAGTCTGA TCCAAACATC GAGATGGTTT CAATACACAT GTCACCTGAA 
    GAGAAAAAGG AGGGATATAC TCATAAAGCT CTTATGAAGT TCTTATTATC TGGCGGGAAA 
    CAGACTGTAC AGCTAAAAGG CATCATATAT GACGACTTTC AAGATTGTGA ATGTAACGGA 
    CACTCGAATC GCTGCAGTTA CATCGACTTC CTGAACATAG TGACGTGCGT GAGCTGCAAA 
    CACAACACGA GGGGGCAGAA CTGCGAACAC TGTCGCATGA GCTACTACAA AAACATGTCT 
    GCAGAGCCTG ATGATGAGAA CGTGTGTATC GAGTGTAACT GTAATGCGTT GGGCTCAGTT 
    CATGACCGCT GCAACGGCAC CGGCTTCTGT CAGTGTAAAG AAGGCACAAC CGGAGTCAAA 
    TGTGATGAAT GTCTCCCGGG CTACTATTGG AAACAGGGCT GTTTACCGAA CGTGTGCGAC 
    GACGAGTTAC TCTTGTGCCA GAACGGAGGG ACGTGCGTTC AGAATCAGCG CTGCATCTGC 
    ACACCAGACT TTAAGGGTGT TTTGTGCCAA CATTCGCGCT GTGAAGAAGG CAAAAAGTGC 
    AACGGCGCCA GCGCTCTCCG TTTGAGCCTG GCACTCCTGC TCTGCCCGCT TCTCGCCACC 
    CTGCTGGGCT CCACCGCCTC CTGA

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

    RefSeq XP_021324640.1
    CDS62..4465
    Translation

    Target ORF information:

    RefSeq Version XM_021468965.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio netrin g2b (ntng2b), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021468965.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGACGGCA ACTTACAGTG TCAGTGTGAA CACAACACCA CCGGCCAGGA CTGCCAGCGC 
    TGCAAAAAAG GATATAAAGC CAAGACCTGG AAACCAGGAT CGTATTTACC AACTCCGAAC 
    GGATCCCCAA ACACATGTTC TCAGGCATTG GCTGGTTCTT CTTCTGGATC CATGACCGAT 
    ACCTCAGCTG AAGAGTTCAC TACAGTTGTA ACAGAATCGC CAGTGTTGGA CACAGATGCT 
    CCTCCGGCAC ATGTAGATAC TGTAAACCAC GTCCCATCAG CTGAAATAGA CCCCAAGGCA 
    CTTTATACCA CCCCAAAAGC CACGCCCCCT TCTCATATTT TCAGAGAGGA CACTCCCCGC 
    ACGGCCACAC CTCCAGAGGA GGAGCCTGTG CACATACATA TACAGAGCAA AGCACCACCA 
    GTGGAGGATT CTGGGGAAGT TGAAGAGATT TCTGAAAAGA AAGAGATGAC TTCAGGGAGA 
    CATGAAGTAT CTGAAGATGT AAAGAGAGTG GAGACTTTTC TGGAACATAA CAGACACAGG 
    GAAGAAACTG CACCTGAACC TGTTGGATCA GTGCGGGAGT CTGCCGAGCC AAAGCCAGAG 
    TCGATTCCAA AGCCAATTTT GGAAACACAC AAGCCACTAC ACAAACCTCA AGTTCATGTG 
    TCTACAGCGG AATCTCATGG AGCAGCACAA ACATCACATG AATCAGTAAC AAAGCATCAT 
    GAACCAATTC AGAAACTTCA TGAGTCAACA GTGAAACCTC ACTCAATGCA TACAACCCAT 
    GAGACTATAC AGAAACCTCA TGAACCAAAA GTGAATTCTC ATGAATCAAT GCATAAACCC 
    CATGAGCAAA TTGTAAATCT TAATGAATCA ATGTATAAGC CTCATCAGCC AATATGGGAT 
    CCACATTCAT CGCCGCAAAA ACCTTTTGAG CCAAACGTGA ACCCCCTTGA GTCAGTAGTG 
    AATATTCATG AGTCAACGCA TAAATCACAT GAAGCAGTAG TGAATCCTCA GGAATCAATG 
    AATAACCCTC ATGGGTCAGT AGTAAACCCT CACAAGTCAG GGCATAACCC TCATGGGTCA 
    GTAGTGAACC CTCACGGGTC AGGGCATAAC CCTCATGGGT CAGTAGTCAA CCCTCACGAG 
    TCAGGGCATA ACCCTCATGG GTCAGTAGTG AATCCTCACG AGTCAGGGCA TAACCCTCAT 
    GGGTCAGTAG TGAATCCTCA CGAGTCAGGG CATAACCCTC ATGGGTCAAT AGTAAACCCT 
    TATGAGTCAG GGCATAACTC TTATGGGTCA GTAGTGAACC CTCACGGGTC AGTAGTGAAC 
    CCTCACGGGT CAGGGCATAA CCCTCATGGG TCAGTAGTGA ATCCTCACGA GTCAGGGCAT 
    AACCCTCATG GGTCAATAGT GAACCCTCAC GGGTCAGGGC ATAACCCTCA TGGGTCAGTA 
    GTGAAACCTC ACGGGTCAGT AGTGAACCCT CACGAGTCAG GGCATAACCC TCATGGAACA 
    GTAGTGAATC CTCACGAGTC AGGGCATAAC CCTCATGGGT CAATAGTAAA CCCTCTTGAG 
    TCAGGGCACA ACCCTCATGG GTCGGTAGTG AATCCTCATG GCTCAGGGCT TAACCCTCAT 
    GGGTCAGTAG TGAATCCTCA CGAGTCAGGG CATAACCCTC ATGGGTCAGT AGTGAACCCT 
    CACGAGTCAG GGCATAACCC TCATGGGTCA GTAGTGAATC CTCACGAGTC AGGGCATAAC 
    CCTCATGGGT CAGTAGTGAA TCCTCACGAG TCAGGGCATA ACCCTCATGG GTCAGTAGTG 
    AATTCTCACG AGTCAGGGCA TAACCCTCAT GGGTCAGTAG TGAATACTCA CGAGTCAGGG 
    CATAACCCTC ATGGGTCAGT AGTGAATCCT CACGAGTCAG GGCATAACCC TCATGGGTCA 
    GTAGTGAATA TTCATAGTTC AGAGCAGAAA TCTCATGATC CAGTAGGGAA TCCGCATGGG 
    TCAGAGCATA ACCTTCATGG GTCAGAGGTG AATCATCATG GATCAGAACA TAAATCTCAT 
    GAGCCACTAG TAAACCCCCA TGGGTCAGAG CATAGTCCTC ATAGGTCAGA AGTGGATCCT 
    CATGGGTCAG TAGTGAATCC TCATGGGTCA GGGCATAAAT CTCATGACCC AGTTATGAAT 
    CCCCATGATC CAGTAGTAAA TCCTCATGGG TCAGAGCATA AATCTCACGA TGCAGTAGTG 
    AATCATCATG GGTCAGTGGA TAAATCTCAT GAACCAGTAG TGAATGCTCA TGGGTCAGAG 
    CATAAGCCTC ATGGGTCAGG TCATAAACCT CATGAGTCAG TAGTGAATCC TCATGGATTG 
    GAGCATAAAT CTCATGACCT AGAAGTAAAT CCTCATGGTT CAAAGCACAA CACACATGAG 
    CCAATAGTGA ATCCTCATGG GACAGAGCAT AACCCTCATG GGTCATCAGC AAATCCTCAT 
    GAGTCAGATC ATAAATCTCA TGAGCCAGTA GTTAATCCAC ATGGGTCAGG GCACAACCCT 
    CATGGGTCAG GGCATAACCC TCACAACCCA GTAGTGAATC CTCATGTGTC AGAGCATAAA 
    TCTCATGACC CAGTAGTACA CCCTCATGGG TCAGGGCATA ACAAACATGA GCCAATAGTT 
    AATCCTATTG GGTCAGGGCA TAACTCCCAT GGGTCAGTAG TGAATCCTCA TGGGTCAGAG 
    CATAACCCTC ATGGGTCAGT AGTGAATCCT CATGGGTCAG AGCATAACCC TCATGGGTCA 
    GTAGTGAATC CTCATGGGTC AGAGCATAAC CCTCATGGGT CAGTAGTGAA TACTCATGGC 
    TCAGGGCATA ACTCTCATGG GTCAGTAGCA AATCCTCATG GCTCAGAGAA TAACCCACAT 
    GGGTCAGAGC ATAACTCTCA TGGGTCAGTA GCAAATCCTC ATGGGTCAGG GCATACATTT 
    CATGGGTCAA TAGCAAATCC TCATGTGTCA GCGGAAAACC CTCATGGGTC AGTAGCGAAT 
    CCTCATGGGT CAGAGCATAA CTCTCATGGG TCAGTAGCGA ATCCTCACGG GTCAGAGCAT 
    AACCCTCATG GGTCAGAAGC GAATCCTCAT GGGTCAGAGC ATAACTCTCA TGGATCAGTA 
    GCAAATCCTC ATGGGTCAGG GCATAAGCCA CATGGGTCAG AGTATAACCC TCATGGGTCA 
    GTAGCGAATC CTCTTGTGTC AGAGTATAAC ACTCATGGGT CAGTAGCGAA TCCTCATGGG 
    TCAGCGCATA ACCCTCATGG GTCAGTAGCG AATCCTCATG GGTCAGGGCA TGACCCACAT 
    GGGTCAGAGT ATAACCCTCA TGGGTCAGTA GAAAACCCTC AGGGGTCAGC GCCTAACTCT 
    CATGGATCGG TAGCAAATCC TCATGGGTCA GTAGAAAATC CTCATGCGTC AGCGCATAAC 
    TCTCATGGAT CGGTAGCAAA TCCTCATGGG TCAGCGCATA ACTCTCATGG GTCGGTAGCA 
    AGTCCTCATG GGTCAGCGCA TAACTCTCAT GGGTCAGGGC ATAATCCTCA TGGGTCAGGG 
    CATAATCCTC ATGAGTCAGG GCATAAAACT CATGGGCCAA GGCATAAGCC TCATGGGTCA 
    GTAGTGTATC CTCATGAGCC AATGCATAAC CCTCATGGAC ACCTACATAA TGAACCAAAA 
    AGTGAGTCAC ATGGGCCGAT ACCAGAGTCT GCCAGGACAA CAGACGAATC CGTGCTGCCA 
    ATCTCAGCAT TGGAGTCTGA TCCAAACATC GAGATGGTTT CAATACACAT GTCACCTGAA 
    GAGAAAAAGG AGGGATATAC TCATAAAGCT CTTATGAAGT TCTTATTATC TGGCGGGAAA 
    CAGACTGTAC AGCTAAAAGG CATCATATAT GACGACTTTC AAGATTGTGA ATGTAACGGA 
    CACTCGAATC GCTGCAGTTA CATCGACTTC CTGAACATAG TGACGTGCGT GAGCTGCAAA 
    CACAACACGA GGGGGCAGAA CTGCGAACAC TGTCGCATGA GCTACTACAA AAACATGTCT 
    GCAGAGCCTG ATGATGAGAA CGTGTGTATC GAGTGTAACT GTAATGCGTT GGGCTCAGTT 
    CATGACCGCT GCAACGGCAC CGGCTTCTGT CAGTGTAAAG AAGGCACAAC CGGAGTCAAA 
    TGTGATGAAT GTCTCCCGGG CTACTATTGG AAACAGGGCT GTTTACCGAA CGTGTGCGAC 
    GACGAGTTAC TCTTGTGCCA GAACGGAGGG ACGTGCGTTC AGAATCAGCG CTGCATCTGC 
    ACACCAGACT TTAAGGGTGT TTTGTGCCAA CATTCGCGCT GTGAAGAAGG CAAAAAGTGC 
    AACGGCGCCA GCGCTCTCCG TTTGAGCCTG GCACTCCTGC TCTGCCCGCT TCTCGCCACC 
    CTGCTGGGCT CCACCGCCTC CTGA

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

    ntng2b ( XM_021468966.1 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_021324641.1 Danio rerio netrin g2b (ntng2b), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID ODa150976
    Clone ID Related Accession (Same CDS sequence) XM_021468966.1
    Accession Version XM_021468966.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4362bp)
    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 filaggrin-2-like isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGACGGCA ACTTACAGTG TCAGTGTGAA CACAACACCA CCGGCCAGGA CTGCCAGCGC 
    TGCAAAAAAG GATATAAAGC CAAGACCTGG AAACCAGGAT CGTATTTACC AACTCCGAAC 
    GGATCCCCAA ACACATGTTC TCAGGCATTG GCTGGTTCTT CTTCTGGATC CATGACCGAT 
    ACCTCAGCTG AAGAGTTCAC TACAGTTGTA ACAGAATCGC CAGTGTTGGA CACAGATGCT 
    CCTCCGGCAC ATGTAGATAC TGTAAACCAC GTCCCATCAG CTGAAATAGA CCCCAAGGCA 
    CTTTATACCA CCCCAAAAGC CACGCCCCCT TCTCATATTT TCAGAGAGGA CACTCCCCGC 
    ACGGCCACAC CTCCAGAGGA GGAGCCTGTG CACATACATA TACAGAGCAA AGCACCACCA 
    GTGGAGGATT CTGGGGAAGT TGAAGAGATT TCTGAAAAGA AAGAGATGAC TTCAGGGAGA 
    CATGAAGTAT CTGAAGATGT AAAGAGAGTG GAGACTTTTC TGGAACATAA CAGACACAGG 
    GAAGAAACTG CACCTGAACC TGTTGGATCA GTGCGGGAGT CTGCCGAGCC AAAGCCAGAG 
    TCGATTCCAA AGCCAATTTT GGAAACACAC AAGCCACTAC ACAAACCTCA AGTTCATGTG 
    TCTACAGCGG AATCTCATGG AGCAGCACAA ACATCACATG AATCAGTAAC AAAGCATCAT 
    GAACCAATTC AGAAACTTCA TGAGTCAACA GTGAAACCTC ACTCAATGCA TACAACCCAT 
    GAGACTATAC AGAAACCTCA TGAACCAAAA GTGAATTCTC ATGAATCAAT GCATAAACCC 
    CATGAGCAAA TTGTAAATCT TAATGAATCA ATGTATAAGC CTCATCAGCC AATATGGGAT 
    CCACATTCAT CGCCGCAAAA ACCTTTTGAG CCAAACGTGA ACCCCCTTGA GTCAGTAGTG 
    AATATTCATG AGTCAACGCA TAAATCACAT GAAGCAGTAG TGAATCCTCA GGAATCAATG 
    AATAACCCTC ATGGGTCAGT AGTAAACCCT CACAAGTCAG GGCATAACCC TCATGGGTCA 
    GTAGTGAACC CTCACGGGTC AGGGCATAAC CCTCATGGGT CAGTAGTCAA CCCTCACGAG 
    TCAGGGCATA ACCCTCATGG GTCAGTAGTG AATCCTCACG AGTCAGGGCA TAACCCTCAT 
    GGGTCAGTAG TGAATCCTCA CGAGTCAGGG CATAACCCTC ATGGGTCAGT AGTGAATCCT 
    CACGAGTCAG GGCATAACCC TCATGGGTCA GTAGTGAACC CTCACGAGTC AGGGCATAAC 
    CCTCATGGGT CAGTAGTGAA CCCTCACGAG TCAGGGCATA ACCCTCATGG GTCAGTAGTG 
    AACCCTCACG AGTCAGGGCA TAACCCTCAT GGGTCAGTAG TGAACCCTCA CGAGTCAGGG 
    CATAATCCTC ATGGAACAGT AGTGAATCCT CACGAGTCAG GGCATAACCC TCATGGGTCA 
    GTAGTGAACC CTCACGAGTC AGGGCATAAT CCTCATGGAA CAGTAGTGAA TCCTCACGAG 
    TCAGGGCATA ACCCTCATGG GTCAATAGTA AACCCTCTTG ATTCAGGGCA CAACCCTCAT 
    GGGTCGGTAG TGAATCCTCA TGGCTCAGGG CTTAACCCTC ATGGGTCAGT AGTGAATCCT 
    CACGAGTCAG GGCATAACCC TCATGGGTCA GTAGTGAATC CTCACGAGTC AGGGCATAAC 
    CCTCATGGGT CAGTAGTGAA TTCTCACGAG TCAGGGCATA ACCCTCATGG GTCAGTAGTG 
    AATACTCACG AGTCAGGGCA TAACCCTCAT GGGTCAGTAG TGAATCCTCA CGAGTCAGGG 
    CATAACCCTC ATGGGTCAGT AGTGAATATT CATAGTTCAG AGCAGAAATC TCATGATCCA 
    GTAGGGAATC CGCATGGGTC AGAGCATAAC CTTCATGGGT CAGAGGTGAA TCATCATGGA 
    TCAGAACATA AATCTCATGA GCCACTAGTA AACCCCCATG GGTCAGAGCA TAGTCCTCAT 
    AGGTCAGAAG TGGATCCTCA TGGGTCAGTA GTGAATCCTC ATGGGTCAGG GCATAAATCT 
    CATGACCCAG TTATGAATCC CCATGATCCA GTAGTAAATC CTCATGGGTC AGAGCATAAA 
    TCTCACGATG CAGTAGTGAA TCATCATGGG TCAGTGGATA AATCTCATGA ACCAGTAGTG 
    AATGCTCATG GGTCAGAGCA TAAGCCTCAT GGGTCAGGTC ATAAACCTCA TGAGTCAGTA 
    GTGAATCCTC ATGGATTGGA GCATAAATCT CATGACCTAG AAGTAAATCC TCATGGTTCA 
    AAGCACAACA CACATGAGCC AATAGTGAAT CCTCATGGGA CAGAGCATAA CCCTCATGGG 
    TCATCAGCAA ATCCTCATGA GTCAGATCAT AAATCTCATG AGCCAGTAGT TAATCCACAT 
    GGGTCAGGGC ACAACCCTCA TGGGTCAGGG CATAACCCTC ACAACCCAGT AGTGAATCCT 
    CATGTGTCAG AGCATAAATC TCATGACCCA GTAGTACACC CTCATGGGTC AGGGCATAAC 
    AAACATGAGC CAATAGTTAA TCCTATTGGG TCAGGGCATA ACTCCCATGG GTCAGTAGTG 
    AATCCTCATG GGTCAGAGCA TAACCCTCAT GGGTCAGTAG TGAATCCTCA TGGGTCAGAG 
    CATAACCCTC ATGGGTCAGT AGTGAATCCT CATGGGTCAG AGCATAACCC TCATGGGTCA 
    GTAGTGAATA CTCATGGCTC AGGGCATAAC TCTCATGGGT CAGTAGCAAA TCCTCATGGC 
    TCAGAGAATA ACCCACATGG GTCAGAGCAT AACTCTCATG GGTCAGTAGC AAATCCTCAT 
    GGGTCAGGGC ATACATTTCA TGGGTCAATA GCAAATCCTC ATGTGTCAGC GGAAAACCCT 
    CATGGGTCAG TAGCGAATCC TCATGGGTCA GAGCATAACT CTCATGGGTC AGTAGCGAAT 
    CCTCACGGGT CAGAGCATAA CCCTCATGGG TCAGAAGCGA ATCCTCATGG GTCAGAGCAT 
    AACTCTCATG GATCAGTAGC AAATCCTCAT GGGTCAGGGC ATAAGCCACA TGGGTCAGAG 
    TATAACCCTC ATGGGTCAGT AGCGAATCCT CTTGTGTCAG AGTATAACAC TCATGGGTCA 
    GTAGCGAATC CTCATGGGTC AGCGCATAAC CCTCATGGGT CAGTAGCGAA TCCTCATGGG 
    TCAGGGCATG ACCCACATGG GTCAGAGTAT AACCCTCATG GGTCAGTAGA AAACCCTCAG 
    GGGTCAGCGC CTAACTCTCA TGGATCGGTA GCAAATCCTC ATGGGTCAGT AGAAAATCCT 
    CATGCGTCAG CGCATAACTC TCATGGATCG GTAGCAAATC CTCATGGGTC AGCGCATAAC 
    TCTCATGGGT CGGTAGCAAG TCCTCATGGG TCAGCGCATA ACTCTCATGG GTCAGGGCAT 
    AATCCTCATG GGTCAGGGCA TAATCCTCAT GAGTCAGGGC ATAAAACTCA TGGGCCAAGG 
    CATAAGCCTC ATGGGTCAGT AGTGTATCCT CATGAGCCAA TGCATAACCC TCATGGACAC 
    CTACATAATG AACCAAAAAG TGAGTCACAT GGGCCGATAC CAGAGTCTGC CAGGACAACA 
    GACGAATCCG TGCTGCCAAT CTCAGCATTG GAGTCTGATC CAAACATCGA GATGGTTTCA 
    ATACACATGT CACCTGAAGA GAAAAAGGAG GGATATACTC ATAAAGCTCT TATGAAGTTC 
    TTATTATCTG GCGGGAAACA GACTGTACAG CTAAAAGGCA TCATATATGA CGACTTTCAA 
    GATTGTGAAT GTAACGGACA CTCGAATCGC TGCAGTTACA TCGACTTCCT GAACATAGTG 
    ACGTGCGTGA GCTGCAAACA CAACACGAGG GGGCAGAACT GCGAACACTG TCGCATGAGC 
    TACTACAAAA ACATGTCTGC AGAGCCTGAT GATGAGAACG TGTGTATCGA GTGTAACTGT 
    AATGCGTTGG GCTCAGTTCA TGACCGCTGC AACGGCACCG GCTTCTGTCA GTGTAAAGAA 
    GGCACAACCG GAGTCAAATG TGATGAATGT CTCCCGGGCT ACTATTGGAA ACAGGGCTGT 
    TTACCGAACG TGTGCGACGA CGAGTTACTC TTGTGCCAGA ACGGAGGGAC GTGCGTTCAG 
    AATCAGCGCT GCATCTGCAC ACCAGACTTT AAGGGTGTTT TGTGCCAACA TTCGCGCTGT 
    GAAGAAGGCA AAAAGTGCAA CGGCGCCAGC GCTCTCCGTT TGAGCCTGGC ACTCCTGCTC 
    TGCCCGCTTC TCGCCACCCT GCTGGGCTCC ACCGCCTCCT GA

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

    RefSeq XP_021324641.1
    CDS62..4423
    Translation

    Target ORF information:

    RefSeq Version XM_021468966.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio netrin g2b (ntng2b), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021468966.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGACGGCA ACTTACAGTG TCAGTGTGAA CACAACACCA CCGGCCAGGA CTGCCAGCGC 
    TGCAAAAAAG GATATAAAGC CAAGACCTGG AAACCAGGAT CGTATTTACC AACTCCGAAC 
    GGATCCCCAA ACACATGTTC TCAGGCATTG GCTGGTTCTT CTTCTGGATC CATGACCGAT 
    ACCTCAGCTG AAGAGTTCAC TACAGTTGTA ACAGAATCGC CAGTGTTGGA CACAGATGCT 
    CCTCCGGCAC ATGTAGATAC TGTAAACCAC GTCCCATCAG CTGAAATAGA CCCCAAGGCA 
    CTTTATACCA CCCCAAAAGC CACGCCCCCT TCTCATATTT TCAGAGAGGA CACTCCCCGC 
    ACGGCCACAC CTCCAGAGGA GGAGCCTGTG CACATACATA TACAGAGCAA AGCACCACCA 
    GTGGAGGATT CTGGGGAAGT TGAAGAGATT TCTGAAAAGA AAGAGATGAC TTCAGGGAGA 
    CATGAAGTAT CTGAAGATGT AAAGAGAGTG GAGACTTTTC TGGAACATAA CAGACACAGG 
    GAAGAAACTG CACCTGAACC TGTTGGATCA GTGCGGGAGT CTGCCGAGCC AAAGCCAGAG 
    TCGATTCCAA AGCCAATTTT GGAAACACAC AAGCCACTAC ACAAACCTCA AGTTCATGTG 
    TCTACAGCGG AATCTCATGG AGCAGCACAA ACATCACATG AATCAGTAAC AAAGCATCAT 
    GAACCAATTC AGAAACTTCA TGAGTCAACA GTGAAACCTC ACTCAATGCA TACAACCCAT 
    GAGACTATAC AGAAACCTCA TGAACCAAAA GTGAATTCTC ATGAATCAAT GCATAAACCC 
    CATGAGCAAA TTGTAAATCT TAATGAATCA ATGTATAAGC CTCATCAGCC AATATGGGAT 
    CCACATTCAT CGCCGCAAAA ACCTTTTGAG CCAAACGTGA ACCCCCTTGA GTCAGTAGTG 
    AATATTCATG AGTCAACGCA TAAATCACAT GAAGCAGTAG TGAATCCTCA GGAATCAATG 
    AATAACCCTC ATGGGTCAGT AGTAAACCCT CACAAGTCAG GGCATAACCC TCATGGGTCA 
    GTAGTGAACC CTCACGGGTC AGGGCATAAC CCTCATGGGT CAGTAGTCAA CCCTCACGAG 
    TCAGGGCATA ACCCTCATGG GTCAGTAGTG AATCCTCACG AGTCAGGGCA TAACCCTCAT 
    GGGTCAGTAG TGAATCCTCA CGAGTCAGGG CATAACCCTC ATGGGTCAGT AGTGAATCCT 
    CACGAGTCAG GGCATAACCC TCATGGGTCA GTAGTGAACC CTCACGAGTC AGGGCATAAC 
    CCTCATGGGT CAGTAGTGAA CCCTCACGAG TCAGGGCATA ACCCTCATGG GTCAGTAGTG 
    AACCCTCACG AGTCAGGGCA TAACCCTCAT GGGTCAGTAG TGAACCCTCA CGAGTCAGGG 
    CATAATCCTC ATGGAACAGT AGTGAATCCT CACGAGTCAG GGCATAACCC TCATGGGTCA 
    GTAGTGAACC CTCACGAGTC AGGGCATAAT CCTCATGGAA CAGTAGTGAA TCCTCACGAG 
    TCAGGGCATA ACCCTCATGG GTCAATAGTA AACCCTCTTG ATTCAGGGCA CAACCCTCAT 
    GGGTCGGTAG TGAATCCTCA TGGCTCAGGG CTTAACCCTC ATGGGTCAGT AGTGAATCCT 
    CACGAGTCAG GGCATAACCC TCATGGGTCA GTAGTGAATC CTCACGAGTC AGGGCATAAC 
    CCTCATGGGT CAGTAGTGAA TTCTCACGAG TCAGGGCATA ACCCTCATGG GTCAGTAGTG 
    AATACTCACG AGTCAGGGCA TAACCCTCAT GGGTCAGTAG TGAATCCTCA CGAGTCAGGG 
    CATAACCCTC ATGGGTCAGT AGTGAATATT CATAGTTCAG AGCAGAAATC TCATGATCCA 
    GTAGGGAATC CGCATGGGTC AGAGCATAAC CTTCATGGGT CAGAGGTGAA TCATCATGGA 
    TCAGAACATA AATCTCATGA GCCACTAGTA AACCCCCATG GGTCAGAGCA TAGTCCTCAT 
    AGGTCAGAAG TGGATCCTCA TGGGTCAGTA GTGAATCCTC ATGGGTCAGG GCATAAATCT 
    CATGACCCAG TTATGAATCC CCATGATCCA GTAGTAAATC CTCATGGGTC AGAGCATAAA 
    TCTCACGATG CAGTAGTGAA TCATCATGGG TCAGTGGATA AATCTCATGA ACCAGTAGTG 
    AATGCTCATG GGTCAGAGCA TAAGCCTCAT GGGTCAGGTC ATAAACCTCA TGAGTCAGTA 
    GTGAATCCTC ATGGATTGGA GCATAAATCT CATGACCTAG AAGTAAATCC TCATGGTTCA 
    AAGCACAACA CACATGAGCC AATAGTGAAT CCTCATGGGA CAGAGCATAA CCCTCATGGG 
    TCATCAGCAA ATCCTCATGA GTCAGATCAT AAATCTCATG AGCCAGTAGT TAATCCACAT 
    GGGTCAGGGC ACAACCCTCA TGGGTCAGGG CATAACCCTC ACAACCCAGT AGTGAATCCT 
    CATGTGTCAG AGCATAAATC TCATGACCCA GTAGTACACC CTCATGGGTC AGGGCATAAC 
    AAACATGAGC CAATAGTTAA TCCTATTGGG TCAGGGCATA ACTCCCATGG GTCAGTAGTG 
    AATCCTCATG GGTCAGAGCA TAACCCTCAT GGGTCAGTAG TGAATCCTCA TGGGTCAGAG 
    CATAACCCTC ATGGGTCAGT AGTGAATCCT CATGGGTCAG AGCATAACCC TCATGGGTCA 
    GTAGTGAATA CTCATGGCTC AGGGCATAAC TCTCATGGGT CAGTAGCAAA TCCTCATGGC 
    TCAGAGAATA ACCCACATGG GTCAGAGCAT AACTCTCATG GGTCAGTAGC AAATCCTCAT 
    GGGTCAGGGC ATACATTTCA TGGGTCAATA GCAAATCCTC ATGTGTCAGC GGAAAACCCT 
    CATGGGTCAG TAGCGAATCC TCATGGGTCA GAGCATAACT CTCATGGGTC AGTAGCGAAT 
    CCTCACGGGT CAGAGCATAA CCCTCATGGG TCAGAAGCGA ATCCTCATGG GTCAGAGCAT 
    AACTCTCATG GATCAGTAGC AAATCCTCAT GGGTCAGGGC ATAAGCCACA TGGGTCAGAG 
    TATAACCCTC ATGGGTCAGT AGCGAATCCT CTTGTGTCAG AGTATAACAC TCATGGGTCA 
    GTAGCGAATC CTCATGGGTC AGCGCATAAC CCTCATGGGT CAGTAGCGAA TCCTCATGGG 
    TCAGGGCATG ACCCACATGG GTCAGAGTAT AACCCTCATG GGTCAGTAGA AAACCCTCAG 
    GGGTCAGCGC CTAACTCTCA TGGATCGGTA GCAAATCCTC ATGGGTCAGT AGAAAATCCT 
    CATGCGTCAG CGCATAACTC TCATGGATCG GTAGCAAATC CTCATGGGTC AGCGCATAAC 
    TCTCATGGGT CGGTAGCAAG TCCTCATGGG TCAGCGCATA ACTCTCATGG GTCAGGGCAT 
    AATCCTCATG GGTCAGGGCA TAATCCTCAT GAGTCAGGGC ATAAAACTCA TGGGCCAAGG 
    CATAAGCCTC ATGGGTCAGT AGTGTATCCT CATGAGCCAA TGCATAACCC TCATGGACAC 
    CTACATAATG AACCAAAAAG TGAGTCACAT GGGCCGATAC CAGAGTCTGC CAGGACAACA 
    GACGAATCCG TGCTGCCAAT CTCAGCATTG GAGTCTGATC CAAACATCGA GATGGTTTCA 
    ATACACATGT CACCTGAAGA GAAAAAGGAG GGATATACTC ATAAAGCTCT TATGAAGTTC 
    TTATTATCTG GCGGGAAACA GACTGTACAG CTAAAAGGCA TCATATATGA CGACTTTCAA 
    GATTGTGAAT GTAACGGACA CTCGAATCGC TGCAGTTACA TCGACTTCCT GAACATAGTG 
    ACGTGCGTGA GCTGCAAACA CAACACGAGG GGGCAGAACT GCGAACACTG TCGCATGAGC 
    TACTACAAAA ACATGTCTGC AGAGCCTGAT GATGAGAACG TGTGTATCGA GTGTAACTGT 
    AATGCGTTGG GCTCAGTTCA TGACCGCTGC AACGGCACCG GCTTCTGTCA GTGTAAAGAA 
    GGCACAACCG GAGTCAAATG TGATGAATGT CTCCCGGGCT ACTATTGGAA ACAGGGCTGT 
    TTACCGAACG TGTGCGACGA CGAGTTACTC TTGTGCCAGA ACGGAGGGAC GTGCGTTCAG 
    AATCAGCGCT GCATCTGCAC ACCAGACTTT AAGGGTGTTT TGTGCCAACA TTCGCGCTGT 
    GAAGAAGGCA AAAAGTGCAA CGGCGCCAGC GCTCTCCGTT TGAGCCTGGC ACTCCTGCTC 
    TGCCCGCTTC TCGCCACCCT GCTGGGCTCC ACCGCCTCCT GA

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

    ntng2b ( XM_009295099.2 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_009293374.1 Danio rerio netrin g2b (ntng2b), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ODa51517
    Clone ID Related Accession (Same CDS sequence) XM_009295099.2 , XM_009295099.3
    Accession Version XM_009295099.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4740bp)
    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 filaggrin-2-like isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.6) 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_009295099.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGGACGGCA ACTTACAGTG TCAGTGTGAA CACAACACCA CCGGCCAGGA CTGCCAGCGC 
    TGCAAAAAAG GATATAAAGC CAAGACCTGG AAACCAGGAT CGTATTTACC AACTCCGAAC 
    GGATCCCCAA ACACATGTTC TCAGGCATTG GCTGGTTCTT CTTCTGGATC CATGACCGAT 
    ACCTCAGCTG AAGAGTTCAC TACAGTTGTA ACAGAATCGC CAGTGTTGGA CACAGATGCT 
    CCTCCGGCAC ATGTAGATAC TGTAAACCAC GTCCCATCAG CTGAAATAGA CCCCAAGGCA 
    CTTTATACCA CCCCAAAAGC CACGCCCCCT TCTCATATTT TCAGAGAGGA CACTCCCCGC 
    ACGGCCACAC CTCCAGAGGA GGAGCCTGTG CACATACATA TACAGAGCAA AGCACCACCA 
    GTGGAGGATT CTGGGGAAGT TGAAGAGATT TCTGAAAAGA AAGAGATGAC TTCAGGGAGA 
    CATGAAGTAT CTGAAGATGT AAAGAGAGTG GAGACTTTTC TGGAACATAA CAGACACAGG 
    GAAGAAACTG CACCTGAACC TGTTGGATCA GTGCGGGAGT CTGCCGAGCC AAAGCCAGAG 
    TCGATTCCAA AGCCAATTTT GGAAACACAC AAGCCACTAC ACAAACCTCA AGTTCATGTG 
    TCTACAGCGG AATCTCATGG AGCAGCACAA ACATCACATG AATCAGTAAC AAAGCATCAT 
    GAACCAATTC AGAAACTTCA TGAGTCAACA GTGAAACCTC ACTCAATGCA TACAACCCAT 
    GAGACTATAC AGAAACCTCA TGAACCAAAA GTGAATTCTC ATGAATCAAT GCATAAACCC 
    CATGAGCAAA TTGTAAATCT TAATGAATCA ATGTATAAGC CTCATCAGCC AATATGGGAT 
    CCACATTCAT CGCCGCAAAA ACCTTTTGAG CCAAACGTGA ACCCCCTTGA GTCAGTAGTG 
    AATATTCATG AGTCAACGCA TAAATCACAT GAAGCAGTAG TGAATCCTCA GGAATCAATG 
    AATAACCCTC ATGGGTCAGT AGTAAACCCT CACAAGTCAG GGCATAACCC TCATGGGTCA 
    GTAGTGAACC CTCACGGGTC AGGGCATAAC CCTCATGGGT CAGTAGTCAA CCCTCACGAG 
    TCAGGGCATA ACCCTCATGG GTCAGTAGTG AATCCTCACG AGTCAGGGCA TAACCCTCAT 
    GGGTCAGTAG TGAATCCTCA CGAGTCAGGG CATAACCCTC ATGGGTCAAT AGTAAACCCT 
    TATGAGTCAG GGCATAACTC TTATGGGTCA GTAGTGAACC CTCACGGGTC AGTAGTGAAC 
    CCTCACGGGT CAGGGCATAA CCCTCATGGG TCAGTAGTGA ATCCTCACGA GTCAGGGCAT 
    AACCCTCATG GGTCAATAGT GAACCCTCAC GGGTCAGGGC ATAACCCTCA TGGGTCAGTA 
    GTGAAACCTC ACGGGTCAGT AGTGAACCCT CACGAGTCAG GGCATAACCC TCATGGAACA 
    GTAGTGAATC CTCACGAGTC AGGGCATAAC CCTCATGGGT CAATAGTAAA CCCTCTTGAG 
    TCAGGGCACA ACCCTCATGG GTCGGTAGTG AATCCTCATG GCTCAGGGCT TAACCCTCAT 
    GGGTCAGTAG TGAATCCTCA CGAGTCAGGG CATAACCCTC ATGGGTCAGT AGTGAACCCT 
    CACGAGTCAG GGCATAACCC TCATGGGTCA GTAGTGAACC CTCACGAGTC AGGGCATAAC 
    CCTCATGGGT CAGTAGTGAA CCCTCACGAG TCAGGGCATA ACCCTCATGG GTCAGTAGTG 
    AACCCTCACG AGTCAGGGCA TAATCCTCAT GGAACAGTAG TGAATCCTCA CGAGTCAGGG 
    CATAACCCTC ATGGGTCAGT AGTGAACCCT CACGAGTCAG GGCATAATCC TCATGGAACA 
    GTAGTGAATC CTCACGAGTC AGGGCATAAC CCTCATGGGT CAATAGTAAA CCCTCTTGAT 
    TCAGGGCACA ACCCTCATGG GTCGGTAGTG AATCCTCATG GCTCAGGGCT TAACCCTCAT 
    GGGTCAGTAG TGAATCCTCA CGAGTCAGGG CATAACCCTC ATGGGTCAGT AGTGAATCCT 
    CACGAGTCAG GGCATAACCC TCATGGGTCA GTAGTGAATT CTCACGAGTC AGGGCATAAC 
    CCTCATGGGT CAGTAGTGAA TACTCACGAG TCAGGGCATA ACCCTCATGG GTCAGTAGTG 
    AATCCTCACG AGTCAGGGCA TAACCCTCAT GGGTCAGTAG TGAATATTCA TAGTTCAGAG 
    CAGAAATCTC ATGATCCAGT AGGGAATCCG CATGGGTCAG AGCATAACCT TCATGGGTCA 
    GAGGTGAATC ATCATGGATC AGAACATAAA TCTCATGAGC CACTAGTAAA CCCCCATGGG 
    TCAGAGCATA GTCCTCATAG GTCAGAAGTG GATCCTCATG GGTCAGTAGT GAATCCTCAT 
    GGGTCAGGGC ATAAATCTCA TGACCCAGTT ATGAATCCCC ATGATCCAGT AGTAAATCCT 
    CATGGGTCAG AGCATAAATC TCACGATGCA GTAGTGAATC ATCATGGGTC AGTGGATAAA 
    TCTCATGAAC CAGTAGTGAA TGCTCATGGG TCAGAGCATA AGCCTCATGG GTCAGGTCAT 
    AAACCTCATG AGTCAGTAGT GAATCCTCAT GGATTGGAGC ATAAATCTCA TGACCTAGAA 
    GTAAATCCTC ATGGTTCAAA GCACAACACA CATGAGCCAA TAGTGAATCC TCATGGGACA 
    GAGCATAACC CTCATGGGTC ATCAGCAAAT CCTCATGAGT CAGATCATAA ATCTCATGAG 
    CCAGTAGTTA ATCCACATGG GTCAGGGCAC AACCCTCATG GGTCAGGGCA TAACCCTCAC 
    AACCCAGTAG TGAATCCTCA TGTGTCAGAG CATAAATCTC ATGACCCAGT AGTACACCCT 
    CATGGGTCAG GGCATAACAA ACATGAGCCA ATAGTTAATC CTATTGGGTC AGGGCATAAC 
    TCCCATGGGT CAGTAGTGAA TCCTCATGGG TCAGAGCATA ACCCTCATGG GTCAGTAGTG 
    AATCCTCATG GGTCAGAGCA TAACCCTCAT GGGTCAGTAG TGAATCCTCA TGGGTCAGAG 
    CATAACCCTC ATGGGTCAGT AGTGAATACT CATGGCTCAG GGCATAACTC TCATGGGTCA 
    GTAGCAAATC CTCATGGCTC AGAGAATAAC CCACATGGGT CAGAGCATAA CTCTCATGGG 
    TCAGTAGCAA ATCCTCATGG GTCAGGGCAT ACATTTCATG GGTCAATAGC AAATCCTCAT 
    GTGTCAGCGG AAAACCCTCA TGGGTCAGTA GCGAATCCTC ATGGGTCAGA GCATAACTCT 
    CATGGGTCAG TAGCGAATCC TCACGGGTCA GAGCATAACC CTCATGGGTC AGAAGCGAAT 
    CCTCATGGGT CAGAGCATAA CTCTCATGGA TCAGTAGCAA ATCCTCATGG GTCAGGGCAT 
    AAGCCACATG GGTCAGAGTA TAACCCTCAT GGGTCAGTAG CGAATCCTCT TGTGTCAGAG 
    TATAACACTC ATGGGTCAGT AGCGAATCCT CATGGGTCAG CGCATAACCC TCATGGGTCA 
    GTAGCGAATC CTCATGGGTC AGGGCATGAC CCACATGGGT CAGAGTATAA CCCTCATGGG 
    TCAGTAGAAA ACCCTCAGGG GTCAGCGCCT AACTCTCATG GATCGGTAGC AAATCCTCAT 
    GGGTCAGTAG AAAATCCTCA TGCGTCAGCG CATAACTCTC ATGGATCGGT AGCAAATCCT 
    CATGGGTCAG CGCATAACTC TCATGGGTCG GTAGCAAGTC CTCATGGGTC AGCGCATAAC 
    TCTCATGGGT CAGGGCATAA TCCTCATGGG TCAGGGCATA ATCCTCATGA GTCAGGGCAT 
    AAAACTCATG GGCCAAGGCA TAAGCCTCAT GGGTCAGTAG TGTATCCTCA TGAGCCAATG 
    CATAACCCTC ATGGACACCT ACATAATGAA CCAAAAAGTG AGTCACATGG GCCGATACCA 
    GAGTCTGCCA GGACAACAGA CGAATCCGTG CTGCCAATCT CAGCATTGGA GTCTGATCCA 
    AACATCGAGA TGGTTTCAAT ACACATGTCA CCTGAAGAGA AAAAGGAGGG ATATACTCAT 
    AAAGCTCTTA TGAAGTTCTT ATTATCTGGC GGGAAACAGA CTGTACAGCT AAAAGGCATC 
    ATATATGACG ACTTTCAAGA TTGTGAATGT AACGGACACT CGAATCGCTG CAGTTACATC 
    GACTTCCTGA ACATAGTGAC GTGCGTGAGC TGCAAACACA ACACGAGGGG GCAGAACTGC 
    GAACACTGTC GCATGAGCTA CTACAAAAAC ATGTCTGCAG AGCCTGATGA TGAGAACGTG 
    TGTATCGAGT GTAACTGTAA TGCGTTGGGC TCAGTTCATG ACCGCTGCAA CGGCACCGGC 
    TTCTGTCAGT GTAAAGAAGG CACAACCGGA GTCAAATGTG ATGAATGTCT CCCGGGCTAC 
    TATTGGAAAC AGGGCTGTTT ACCGAACGTG TGCGACGACG AGTTACTCTT GTGCCAGAAC 
    GGAGGGACGT GCGTTCAGAA TCAGCGCTGC ATCTGCACAC CAGACTTTAA GGGTGTTTTG 
    TGCCAACATT CGCGCTGTGA AGAAGGCAAA AAGTGCAACG GCGCCAGCGC TCTCCGTTTG 
    AGCCTGGCAC TCCTGCTCTG CCCGCTTCTC GCCACCCTGC TGGGCTCCAC CGCCTCCTGA

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

    RefSeq XP_009293374.1
    CDS60..4799
    Translation

    Target ORF information:

    RefSeq Version XM_009295099.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio netrin g2b (ntng2b), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_009295099.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGGACGGCA ACTTACAGTG TCAGTGTGAA CACAACACCA CCGGCCAGGA CTGCCAGCGC 
    TGCAAAAAAG GATATAAAGC CAAGACCTGG AAACCAGGAT CGTATTTACC AACTCCGAAC 
    GGATCCCCAA ACACATGTTC TCAGGCATTG GCTGGTTCTT CTTCTGGATC CATGACCGAT 
    ACCTCAGCTG AAGAGTTCAC TACAGTTGTA ACAGAATCGC CAGTGTTGGA CACAGATGCT 
    CCTCCGGCAC ATGTAGATAC TGTAAACCAC GTCCCATCAG CTGAAATAGA CCCCAAGGCA 
    CTTTATACCA CCCCAAAAGC CACGCCCCCT TCTCATATTT TCAGAGAGGA CACTCCCCGC 
    ACGGCCACAC CTCCAGAGGA GGAGCCTGTG CACATACATA TACAGAGCAA AGCACCACCA 
    GTGGAGGATT CTGGGGAAGT TGAAGAGATT TCTGAAAAGA AAGAGATGAC TTCAGGGAGA 
    CATGAAGTAT CTGAAGATGT AAAGAGAGTG GAGACTTTTC TGGAACATAA CAGACACAGG 
    GAAGAAACTG CACCTGAACC TGTTGGATCA GTGCGGGAGT CTGCCGAGCC AAAGCCAGAG 
    TCGATTCCAA AGCCAATTTT GGAAACACAC AAGCCACTAC ACAAACCTCA AGTTCATGTG 
    TCTACAGCGG AATCTCATGG AGCAGCACAA ACATCACATG AATCAGTAAC AAAGCATCAT 
    GAACCAATTC AGAAACTTCA TGAGTCAACA GTGAAACCTC ACTCAATGCA TACAACCCAT 
    GAGACTATAC AGAAACCTCA TGAACCAAAA GTGAATTCTC ATGAATCAAT GCATAAACCC 
    CATGAGCAAA TTGTAAATCT TAATGAATCA ATGTATAAGC CTCATCAGCC AATATGGGAT 
    CCACATTCAT CGCCGCAAAA ACCTTTTGAG CCAAACGTGA ACCCCCTTGA GTCAGTAGTG 
    AATATTCATG AGTCAACGCA TAAATCACAT GAAGCAGTAG TGAATCCTCA GGAATCAATG 
    AATAACCCTC ATGGGTCAGT AGTAAACCCT CACAAGTCAG GGCATAACCC TCATGGGTCA 
    GTAGTGAACC CTCACGGGTC AGGGCATAAC CCTCATGGGT CAGTAGTCAA CCCTCACGAG 
    TCAGGGCATA ACCCTCATGG GTCAGTAGTG AATCCTCACG AGTCAGGGCA TAACCCTCAT 
    GGGTCAGTAG TGAATCCTCA CGAGTCAGGG CATAACCCTC ATGGGTCAAT AGTAAACCCT 
    TATGAGTCAG GGCATAACTC TTATGGGTCA GTAGTGAACC CTCACGGGTC AGTAGTGAAC 
    CCTCACGGGT CAGGGCATAA CCCTCATGGG TCAGTAGTGA ATCCTCACGA GTCAGGGCAT 
    AACCCTCATG GGTCAATAGT GAACCCTCAC GGGTCAGGGC ATAACCCTCA TGGGTCAGTA 
    GTGAAACCTC ACGGGTCAGT AGTGAACCCT CACGAGTCAG GGCATAACCC TCATGGAACA 
    GTAGTGAATC CTCACGAGTC AGGGCATAAC CCTCATGGGT CAATAGTAAA CCCTCTTGAG 
    TCAGGGCACA ACCCTCATGG GTCGGTAGTG AATCCTCATG GCTCAGGGCT TAACCCTCAT 
    GGGTCAGTAG TGAATCCTCA CGAGTCAGGG CATAACCCTC ATGGGTCAGT AGTGAACCCT 
    CACGAGTCAG GGCATAACCC TCATGGGTCA GTAGTGAACC CTCACGAGTC AGGGCATAAC 
    CCTCATGGGT CAGTAGTGAA CCCTCACGAG TCAGGGCATA ACCCTCATGG GTCAGTAGTG 
    AACCCTCACG AGTCAGGGCA TAATCCTCAT GGAACAGTAG TGAATCCTCA CGAGTCAGGG 
    CATAACCCTC ATGGGTCAGT AGTGAACCCT CACGAGTCAG GGCATAATCC TCATGGAACA 
    GTAGTGAATC CTCACGAGTC AGGGCATAAC CCTCATGGGT CAATAGTAAA CCCTCTTGAT 
    TCAGGGCACA ACCCTCATGG GTCGGTAGTG AATCCTCATG GCTCAGGGCT TAACCCTCAT 
    GGGTCAGTAG TGAATCCTCA CGAGTCAGGG CATAACCCTC ATGGGTCAGT AGTGAATCCT 
    CACGAGTCAG GGCATAACCC TCATGGGTCA GTAGTGAATT CTCACGAGTC AGGGCATAAC 
    CCTCATGGGT CAGTAGTGAA TACTCACGAG TCAGGGCATA ACCCTCATGG GTCAGTAGTG 
    AATCCTCACG AGTCAGGGCA TAACCCTCAT GGGTCAGTAG TGAATATTCA TAGTTCAGAG 
    CAGAAATCTC ATGATCCAGT AGGGAATCCG CATGGGTCAG AGCATAACCT TCATGGGTCA 
    GAGGTGAATC ATCATGGATC AGAACATAAA TCTCATGAGC CACTAGTAAA CCCCCATGGG 
    TCAGAGCATA GTCCTCATAG GTCAGAAGTG GATCCTCATG GGTCAGTAGT GAATCCTCAT 
    GGGTCAGGGC ATAAATCTCA TGACCCAGTT ATGAATCCCC ATGATCCAGT AGTAAATCCT 
    CATGGGTCAG AGCATAAATC TCACGATGCA GTAGTGAATC ATCATGGGTC AGTGGATAAA 
    TCTCATGAAC CAGTAGTGAA TGCTCATGGG TCAGAGCATA AGCCTCATGG GTCAGGTCAT 
    AAACCTCATG AGTCAGTAGT GAATCCTCAT GGATTGGAGC ATAAATCTCA TGACCTAGAA 
    GTAAATCCTC ATGGTTCAAA GCACAACACA CATGAGCCAA TAGTGAATCC TCATGGGACA 
    GAGCATAACC CTCATGGGTC ATCAGCAAAT CCTCATGAGT CAGATCATAA ATCTCATGAG 
    CCAGTAGTTA ATCCACATGG GTCAGGGCAC AACCCTCATG GGTCAGGGCA TAACCCTCAC 
    AACCCAGTAG TGAATCCTCA TGTGTCAGAG CATAAATCTC ATGACCCAGT AGTACACCCT 
    CATGGGTCAG GGCATAACAA ACATGAGCCA ATAGTTAATC CTATTGGGTC AGGGCATAAC 
    TCCCATGGGT CAGTAGTGAA TCCTCATGGG TCAGAGCATA ACCCTCATGG GTCAGTAGTG 
    AATCCTCATG GGTCAGAGCA TAACCCTCAT GGGTCAGTAG TGAATCCTCA TGGGTCAGAG 
    CATAACCCTC ATGGGTCAGT AGTGAATACT CATGGCTCAG GGCATAACTC TCATGGGTCA 
    GTAGCAAATC CTCATGGCTC AGAGAATAAC CCACATGGGT CAGAGCATAA CTCTCATGGG 
    TCAGTAGCAA ATCCTCATGG GTCAGGGCAT ACATTTCATG GGTCAATAGC AAATCCTCAT 
    GTGTCAGCGG AAAACCCTCA TGGGTCAGTA GCGAATCCTC ATGGGTCAGA GCATAACTCT 
    CATGGGTCAG TAGCGAATCC TCACGGGTCA GAGCATAACC CTCATGGGTC AGAAGCGAAT 
    CCTCATGGGT CAGAGCATAA CTCTCATGGA TCAGTAGCAA ATCCTCATGG GTCAGGGCAT 
    AAGCCACATG GGTCAGAGTA TAACCCTCAT GGGTCAGTAG CGAATCCTCT TGTGTCAGAG 
    TATAACACTC ATGGGTCAGT AGCGAATCCT CATGGGTCAG CGCATAACCC TCATGGGTCA 
    GTAGCGAATC CTCATGGGTC AGGGCATGAC CCACATGGGT CAGAGTATAA CCCTCATGGG 
    TCAGTAGAAA ACCCTCAGGG GTCAGCGCCT AACTCTCATG GATCGGTAGC AAATCCTCAT 
    GGGTCAGTAG AAAATCCTCA TGCGTCAGCG CATAACTCTC ATGGATCGGT AGCAAATCCT 
    CATGGGTCAG CGCATAACTC TCATGGGTCG GTAGCAAGTC CTCATGGGTC AGCGCATAAC 
    TCTCATGGGT CAGGGCATAA TCCTCATGGG TCAGGGCATA ATCCTCATGA GTCAGGGCAT 
    AAAACTCATG GGCCAAGGCA TAAGCCTCAT GGGTCAGTAG TGTATCCTCA TGAGCCAATG 
    CATAACCCTC ATGGACACCT ACATAATGAA CCAAAAAGTG AGTCACATGG GCCGATACCA 
    GAGTCTGCCA GGACAACAGA CGAATCCGTG CTGCCAATCT CAGCATTGGA GTCTGATCCA 
    AACATCGAGA TGGTTTCAAT ACACATGTCA CCTGAAGAGA AAAAGGAGGG ATATACTCAT 
    AAAGCTCTTA TGAAGTTCTT ATTATCTGGC GGGAAACAGA CTGTACAGCT AAAAGGCATC 
    ATATATGACG ACTTTCAAGA TTGTGAATGT AACGGACACT CGAATCGCTG CAGTTACATC 
    GACTTCCTGA ACATAGTGAC GTGCGTGAGC TGCAAACACA ACACGAGGGG GCAGAACTGC 
    GAACACTGTC GCATGAGCTA CTACAAAAAC ATGTCTGCAG AGCCTGATGA TGAGAACGTG 
    TGTATCGAGT GTAACTGTAA TGCGTTGGGC TCAGTTCATG ACCGCTGCAA CGGCACCGGC 
    TTCTGTCAGT GTAAAGAAGG CACAACCGGA GTCAAATGTG ATGAATGTCT CCCGGGCTAC 
    TATTGGAAAC AGGGCTGTTT ACCGAACGTG TGCGACGACG AGTTACTCTT GTGCCAGAAC 
    GGAGGGACGT GCGTTCAGAA TCAGCGCTGC ATCTGCACAC CAGACTTTAA GGGTGTTTTG 
    TGCCAACATT CGCGCTGTGA AGAAGGCAAA AAGTGCAACG GCGCCAGCGC TCTCCGTTTG 
    AGCCTGGCAC TCCTGCTCTG CCCGCTTCTC GCCACCCTGC TGGGCTCCAC CGCCTCCTGA

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

    ntng2b ( XM_009295099.3 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_009293374.1 Danio rerio netrin g2b (ntng2b), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ODa51517
    Clone ID Related Accession (Same CDS sequence) XM_009295099.2 , XM_009295099.3
    Accession Version XM_009295099.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4740bp)
    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 filaggrin-2-like isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.7) 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_009295099.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGGACGGCA ACTTACAGTG TCAGTGTGAA CACAACACCA CCGGCCAGGA CTGCCAGCGC 
    TGCAAAAAAG GATATAAAGC CAAGACCTGG AAACCAGGAT CGTATTTACC AACTCCGAAC 
    GGATCCCCAA ACACATGTTC TCAGGCATTG GCTGGTTCTT CTTCTGGATC CATGACCGAT 
    ACCTCAGCTG AAGAGTTCAC TACAGTTGTA ACAGAATCGC CAGTGTTGGA CACAGATGCT 
    CCTCCGGCAC ATGTAGATAC TGTAAACCAC GTCCCATCAG CTGAAATAGA CCCCAAGGCA 
    CTTTATACCA CCCCAAAAGC CACGCCCCCT TCTCATATTT TCAGAGAGGA CACTCCCCGC 
    ACGGCCACAC CTCCAGAGGA GGAGCCTGTG CACATACATA TACAGAGCAA AGCACCACCA 
    GTGGAGGATT CTGGGGAAGT TGAAGAGATT TCTGAAAAGA AAGAGATGAC TTCAGGGAGA 
    CATGAAGTAT CTGAAGATGT AAAGAGAGTG GAGACTTTTC TGGAACATAA CAGACACAGG 
    GAAGAAACTG CACCTGAACC TGTTGGATCA GTGCGGGAGT CTGCCGAGCC AAAGCCAGAG 
    TCGATTCCAA AGCCAATTTT GGAAACACAC AAGCCACTAC ACAAACCTCA AGTTCATGTG 
    TCTACAGCGG AATCTCATGG AGCAGCACAA ACATCACATG AATCAGTAAC AAAGCATCAT 
    GAACCAATTC AGAAACTTCA TGAGTCAACA GTGAAACCTC ACTCAATGCA TACAACCCAT 
    GAGACTATAC AGAAACCTCA TGAACCAAAA GTGAATTCTC ATGAATCAAT GCATAAACCC 
    CATGAGCAAA TTGTAAATCT TAATGAATCA ATGTATAAGC CTCATCAGCC AATATGGGAT 
    CCACATTCAT CGCCGCAAAA ACCTTTTGAG CCAAACGTGA ACCCCCTTGA GTCAGTAGTG 
    AATATTCATG AGTCAACGCA TAAATCACAT GAAGCAGTAG TGAATCCTCA GGAATCAATG 
    AATAACCCTC ATGGGTCAGT AGTAAACCCT CACAAGTCAG GGCATAACCC TCATGGGTCA 
    GTAGTGAACC CTCACGGGTC AGGGCATAAC CCTCATGGGT CAGTAGTCAA CCCTCACGAG 
    TCAGGGCATA ACCCTCATGG GTCAGTAGTG AATCCTCACG AGTCAGGGCA TAACCCTCAT 
    GGGTCAGTAG TGAATCCTCA CGAGTCAGGG CATAACCCTC ATGGGTCAAT AGTAAACCCT 
    TATGAGTCAG GGCATAACTC TTATGGGTCA GTAGTGAACC CTCACGGGTC AGTAGTGAAC 
    CCTCACGGGT CAGGGCATAA CCCTCATGGG TCAGTAGTGA ATCCTCACGA GTCAGGGCAT 
    AACCCTCATG GGTCAATAGT GAACCCTCAC GGGTCAGGGC ATAACCCTCA TGGGTCAGTA 
    GTGAAACCTC ACGGGTCAGT AGTGAACCCT CACGAGTCAG GGCATAACCC TCATGGAACA 
    GTAGTGAATC CTCACGAGTC AGGGCATAAC CCTCATGGGT CAATAGTAAA CCCTCTTGAG 
    TCAGGGCACA ACCCTCATGG GTCGGTAGTG AATCCTCATG GCTCAGGGCT TAACCCTCAT 
    GGGTCAGTAG TGAATCCTCA CGAGTCAGGG CATAACCCTC ATGGGTCAGT AGTGAACCCT 
    CACGAGTCAG GGCATAACCC TCATGGGTCA GTAGTGAACC CTCACGAGTC AGGGCATAAC 
    CCTCATGGGT CAGTAGTGAA CCCTCACGAG TCAGGGCATA ACCCTCATGG GTCAGTAGTG 
    AACCCTCACG AGTCAGGGCA TAATCCTCAT GGAACAGTAG TGAATCCTCA CGAGTCAGGG 
    CATAACCCTC ATGGGTCAGT AGTGAACCCT CACGAGTCAG GGCATAATCC TCATGGAACA 
    GTAGTGAATC CTCACGAGTC AGGGCATAAC CCTCATGGGT CAATAGTAAA CCCTCTTGAT 
    TCAGGGCACA ACCCTCATGG GTCGGTAGTG AATCCTCATG GCTCAGGGCT TAACCCTCAT 
    GGGTCAGTAG TGAATCCTCA CGAGTCAGGG CATAACCCTC ATGGGTCAGT AGTGAATCCT 
    CACGAGTCAG GGCATAACCC TCATGGGTCA GTAGTGAATT CTCACGAGTC AGGGCATAAC 
    CCTCATGGGT CAGTAGTGAA TACTCACGAG TCAGGGCATA ACCCTCATGG GTCAGTAGTG 
    AATCCTCACG AGTCAGGGCA TAACCCTCAT GGGTCAGTAG TGAATATTCA TAGTTCAGAG 
    CAGAAATCTC ATGATCCAGT AGGGAATCCG CATGGGTCAG AGCATAACCT TCATGGGTCA 
    GAGGTGAATC ATCATGGATC AGAACATAAA TCTCATGAGC CACTAGTAAA CCCCCATGGG 
    TCAGAGCATA GTCCTCATAG GTCAGAAGTG GATCCTCATG GGTCAGTAGT GAATCCTCAT 
    GGGTCAGGGC ATAAATCTCA TGACCCAGTT ATGAATCCCC ATGATCCAGT AGTAAATCCT 
    CATGGGTCAG AGCATAAATC TCACGATGCA GTAGTGAATC ATCATGGGTC AGTGGATAAA 
    TCTCATGAAC CAGTAGTGAA TGCTCATGGG TCAGAGCATA AGCCTCATGG GTCAGGTCAT 
    AAACCTCATG AGTCAGTAGT GAATCCTCAT GGATTGGAGC ATAAATCTCA TGACCTAGAA 
    GTAAATCCTC ATGGTTCAAA GCACAACACA CATGAGCCAA TAGTGAATCC TCATGGGACA 
    GAGCATAACC CTCATGGGTC ATCAGCAAAT CCTCATGAGT CAGATCATAA ATCTCATGAG 
    CCAGTAGTTA ATCCACATGG GTCAGGGCAC AACCCTCATG GGTCAGGGCA TAACCCTCAC 
    AACCCAGTAG TGAATCCTCA TGTGTCAGAG CATAAATCTC ATGACCCAGT AGTACACCCT 
    CATGGGTCAG GGCATAACAA ACATGAGCCA ATAGTTAATC CTATTGGGTC AGGGCATAAC 
    TCCCATGGGT CAGTAGTGAA TCCTCATGGG TCAGAGCATA ACCCTCATGG GTCAGTAGTG 
    AATCCTCATG GGTCAGAGCA TAACCCTCAT GGGTCAGTAG TGAATCCTCA TGGGTCAGAG 
    CATAACCCTC ATGGGTCAGT AGTGAATACT CATGGCTCAG GGCATAACTC TCATGGGTCA 
    GTAGCAAATC CTCATGGCTC AGAGAATAAC CCACATGGGT CAGAGCATAA CTCTCATGGG 
    TCAGTAGCAA ATCCTCATGG GTCAGGGCAT ACATTTCATG GGTCAATAGC AAATCCTCAT 
    GTGTCAGCGG AAAACCCTCA TGGGTCAGTA GCGAATCCTC ATGGGTCAGA GCATAACTCT 
    CATGGGTCAG TAGCGAATCC TCACGGGTCA GAGCATAACC CTCATGGGTC AGAAGCGAAT 
    CCTCATGGGT CAGAGCATAA CTCTCATGGA TCAGTAGCAA ATCCTCATGG GTCAGGGCAT 
    AAGCCACATG GGTCAGAGTA TAACCCTCAT GGGTCAGTAG CGAATCCTCT TGTGTCAGAG 
    TATAACACTC ATGGGTCAGT AGCGAATCCT CATGGGTCAG CGCATAACCC TCATGGGTCA 
    GTAGCGAATC CTCATGGGTC AGGGCATGAC CCACATGGGT CAGAGTATAA CCCTCATGGG 
    TCAGTAGAAA ACCCTCAGGG GTCAGCGCCT AACTCTCATG GATCGGTAGC AAATCCTCAT 
    GGGTCAGTAG AAAATCCTCA TGCGTCAGCG CATAACTCTC ATGGATCGGT AGCAAATCCT 
    CATGGGTCAG CGCATAACTC TCATGGGTCG GTAGCAAGTC CTCATGGGTC AGCGCATAAC 
    TCTCATGGGT CAGGGCATAA TCCTCATGGG TCAGGGCATA ATCCTCATGA GTCAGGGCAT 
    AAAACTCATG GGCCAAGGCA TAAGCCTCAT GGGTCAGTAG TGTATCCTCA TGAGCCAATG 
    CATAACCCTC ATGGACACCT ACATAATGAA CCAAAAAGTG AGTCACATGG GCCGATACCA 
    GAGTCTGCCA GGACAACAGA CGAATCCGTG CTGCCAATCT CAGCATTGGA GTCTGATCCA 
    AACATCGAGA TGGTTTCAAT ACACATGTCA CCTGAAGAGA AAAAGGAGGG ATATACTCAT 
    AAAGCTCTTA TGAAGTTCTT ATTATCTGGC GGGAAACAGA CTGTACAGCT AAAAGGCATC 
    ATATATGACG ACTTTCAAGA TTGTGAATGT AACGGACACT CGAATCGCTG CAGTTACATC 
    GACTTCCTGA ACATAGTGAC GTGCGTGAGC TGCAAACACA ACACGAGGGG GCAGAACTGC 
    GAACACTGTC GCATGAGCTA CTACAAAAAC ATGTCTGCAG AGCCTGATGA TGAGAACGTG 
    TGTATCGAGT GTAACTGTAA TGCGTTGGGC TCAGTTCATG ACCGCTGCAA CGGCACCGGC 
    TTCTGTCAGT GTAAAGAAGG CACAACCGGA GTCAAATGTG ATGAATGTCT CCCGGGCTAC 
    TATTGGAAAC AGGGCTGTTT ACCGAACGTG TGCGACGACG AGTTACTCTT GTGCCAGAAC 
    GGAGGGACGT GCGTTCAGAA TCAGCGCTGC ATCTGCACAC CAGACTTTAA GGGTGTTTTG 
    TGCCAACATT CGCGCTGTGA AGAAGGCAAA AAGTGCAACG GCGCCAGCGC TCTCCGTTTG 
    AGCCTGGCAC TCCTGCTCTG CCCGCTTCTC GCCACCCTGC TGGGCTCCAC CGCCTCCTGA

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

    RefSeq XP_009293374.1
    CDS62..4801
    Translation

    Target ORF information:

    RefSeq Version XM_009295099.3
    Organism Danio rerio(zebrafish)
    Definition Danio rerio netrin g2b (ntng2b), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_009295099.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGGACGGCA ACTTACAGTG TCAGTGTGAA CACAACACCA CCGGCCAGGA CTGCCAGCGC 
    TGCAAAAAAG GATATAAAGC CAAGACCTGG AAACCAGGAT CGTATTTACC AACTCCGAAC 
    GGATCCCCAA ACACATGTTC TCAGGCATTG GCTGGTTCTT CTTCTGGATC CATGACCGAT 
    ACCTCAGCTG AAGAGTTCAC TACAGTTGTA ACAGAATCGC CAGTGTTGGA CACAGATGCT 
    CCTCCGGCAC ATGTAGATAC TGTAAACCAC GTCCCATCAG CTGAAATAGA CCCCAAGGCA 
    CTTTATACCA CCCCAAAAGC CACGCCCCCT TCTCATATTT TCAGAGAGGA CACTCCCCGC 
    ACGGCCACAC CTCCAGAGGA GGAGCCTGTG CACATACATA TACAGAGCAA AGCACCACCA 
    GTGGAGGATT CTGGGGAAGT TGAAGAGATT TCTGAAAAGA AAGAGATGAC TTCAGGGAGA 
    CATGAAGTAT CTGAAGATGT AAAGAGAGTG GAGACTTTTC TGGAACATAA CAGACACAGG 
    GAAGAAACTG CACCTGAACC TGTTGGATCA GTGCGGGAGT CTGCCGAGCC AAAGCCAGAG 
    TCGATTCCAA AGCCAATTTT GGAAACACAC AAGCCACTAC ACAAACCTCA AGTTCATGTG 
    TCTACAGCGG AATCTCATGG AGCAGCACAA ACATCACATG AATCAGTAAC AAAGCATCAT 
    GAACCAATTC AGAAACTTCA TGAGTCAACA GTGAAACCTC ACTCAATGCA TACAACCCAT 
    GAGACTATAC AGAAACCTCA TGAACCAAAA GTGAATTCTC ATGAATCAAT GCATAAACCC 
    CATGAGCAAA TTGTAAATCT TAATGAATCA ATGTATAAGC CTCATCAGCC AATATGGGAT 
    CCACATTCAT CGCCGCAAAA ACCTTTTGAG CCAAACGTGA ACCCCCTTGA GTCAGTAGTG 
    AATATTCATG AGTCAACGCA TAAATCACAT GAAGCAGTAG TGAATCCTCA GGAATCAATG 
    AATAACCCTC ATGGGTCAGT AGTAAACCCT CACAAGTCAG GGCATAACCC TCATGGGTCA 
    GTAGTGAACC CTCACGGGTC AGGGCATAAC CCTCATGGGT CAGTAGTCAA CCCTCACGAG 
    TCAGGGCATA ACCCTCATGG GTCAGTAGTG AATCCTCACG AGTCAGGGCA TAACCCTCAT 
    GGGTCAGTAG TGAATCCTCA CGAGTCAGGG CATAACCCTC ATGGGTCAAT AGTAAACCCT 
    TATGAGTCAG GGCATAACTC TTATGGGTCA GTAGTGAACC CTCACGGGTC AGTAGTGAAC 
    CCTCACGGGT CAGGGCATAA CCCTCATGGG TCAGTAGTGA ATCCTCACGA GTCAGGGCAT 
    AACCCTCATG GGTCAATAGT GAACCCTCAC GGGTCAGGGC ATAACCCTCA TGGGTCAGTA 
    GTGAAACCTC ACGGGTCAGT AGTGAACCCT CACGAGTCAG GGCATAACCC TCATGGAACA 
    GTAGTGAATC CTCACGAGTC AGGGCATAAC CCTCATGGGT CAATAGTAAA CCCTCTTGAG 
    TCAGGGCACA ACCCTCATGG GTCGGTAGTG AATCCTCATG GCTCAGGGCT TAACCCTCAT 
    GGGTCAGTAG TGAATCCTCA CGAGTCAGGG CATAACCCTC ATGGGTCAGT AGTGAACCCT 
    CACGAGTCAG GGCATAACCC TCATGGGTCA GTAGTGAACC CTCACGAGTC AGGGCATAAC 
    CCTCATGGGT CAGTAGTGAA CCCTCACGAG TCAGGGCATA ACCCTCATGG GTCAGTAGTG 
    AACCCTCACG AGTCAGGGCA TAATCCTCAT GGAACAGTAG TGAATCCTCA CGAGTCAGGG 
    CATAACCCTC ATGGGTCAGT AGTGAACCCT CACGAGTCAG GGCATAATCC TCATGGAACA 
    GTAGTGAATC CTCACGAGTC AGGGCATAAC CCTCATGGGT CAATAGTAAA CCCTCTTGAT 
    TCAGGGCACA ACCCTCATGG GTCGGTAGTG AATCCTCATG GCTCAGGGCT TAACCCTCAT 
    GGGTCAGTAG TGAATCCTCA CGAGTCAGGG CATAACCCTC ATGGGTCAGT AGTGAATCCT 
    CACGAGTCAG GGCATAACCC TCATGGGTCA GTAGTGAATT CTCACGAGTC AGGGCATAAC 
    CCTCATGGGT CAGTAGTGAA TACTCACGAG TCAGGGCATA ACCCTCATGG GTCAGTAGTG 
    AATCCTCACG AGTCAGGGCA TAACCCTCAT GGGTCAGTAG TGAATATTCA TAGTTCAGAG 
    CAGAAATCTC ATGATCCAGT AGGGAATCCG CATGGGTCAG AGCATAACCT TCATGGGTCA 
    GAGGTGAATC ATCATGGATC AGAACATAAA TCTCATGAGC CACTAGTAAA CCCCCATGGG 
    TCAGAGCATA GTCCTCATAG GTCAGAAGTG GATCCTCATG GGTCAGTAGT GAATCCTCAT 
    GGGTCAGGGC ATAAATCTCA TGACCCAGTT ATGAATCCCC ATGATCCAGT AGTAAATCCT 
    CATGGGTCAG AGCATAAATC TCACGATGCA GTAGTGAATC ATCATGGGTC AGTGGATAAA 
    TCTCATGAAC CAGTAGTGAA TGCTCATGGG TCAGAGCATA AGCCTCATGG GTCAGGTCAT 
    AAACCTCATG AGTCAGTAGT GAATCCTCAT GGATTGGAGC ATAAATCTCA TGACCTAGAA 
    GTAAATCCTC ATGGTTCAAA GCACAACACA CATGAGCCAA TAGTGAATCC TCATGGGACA 
    GAGCATAACC CTCATGGGTC ATCAGCAAAT CCTCATGAGT CAGATCATAA ATCTCATGAG 
    CCAGTAGTTA ATCCACATGG GTCAGGGCAC AACCCTCATG GGTCAGGGCA TAACCCTCAC 
    AACCCAGTAG TGAATCCTCA TGTGTCAGAG CATAAATCTC ATGACCCAGT AGTACACCCT 
    CATGGGTCAG GGCATAACAA ACATGAGCCA ATAGTTAATC CTATTGGGTC AGGGCATAAC 
    TCCCATGGGT CAGTAGTGAA TCCTCATGGG TCAGAGCATA ACCCTCATGG GTCAGTAGTG 
    AATCCTCATG GGTCAGAGCA TAACCCTCAT GGGTCAGTAG TGAATCCTCA TGGGTCAGAG 
    CATAACCCTC ATGGGTCAGT AGTGAATACT CATGGCTCAG GGCATAACTC TCATGGGTCA 
    GTAGCAAATC CTCATGGCTC AGAGAATAAC CCACATGGGT CAGAGCATAA CTCTCATGGG 
    TCAGTAGCAA ATCCTCATGG GTCAGGGCAT ACATTTCATG GGTCAATAGC AAATCCTCAT 
    GTGTCAGCGG AAAACCCTCA TGGGTCAGTA GCGAATCCTC ATGGGTCAGA GCATAACTCT 
    CATGGGTCAG TAGCGAATCC TCACGGGTCA GAGCATAACC CTCATGGGTC AGAAGCGAAT 
    CCTCATGGGT CAGAGCATAA CTCTCATGGA TCAGTAGCAA ATCCTCATGG GTCAGGGCAT 
    AAGCCACATG GGTCAGAGTA TAACCCTCAT GGGTCAGTAG CGAATCCTCT TGTGTCAGAG 
    TATAACACTC ATGGGTCAGT AGCGAATCCT CATGGGTCAG CGCATAACCC TCATGGGTCA 
    GTAGCGAATC CTCATGGGTC AGGGCATGAC CCACATGGGT CAGAGTATAA CCCTCATGGG 
    TCAGTAGAAA ACCCTCAGGG GTCAGCGCCT AACTCTCATG GATCGGTAGC AAATCCTCAT 
    GGGTCAGTAG AAAATCCTCA TGCGTCAGCG CATAACTCTC ATGGATCGGT AGCAAATCCT 
    CATGGGTCAG CGCATAACTC TCATGGGTCG GTAGCAAGTC CTCATGGGTC AGCGCATAAC 
    TCTCATGGGT CAGGGCATAA TCCTCATGGG TCAGGGCATA ATCCTCATGA GTCAGGGCAT 
    AAAACTCATG GGCCAAGGCA TAAGCCTCAT GGGTCAGTAG TGTATCCTCA TGAGCCAATG 
    CATAACCCTC ATGGACACCT ACATAATGAA CCAAAAAGTG AGTCACATGG GCCGATACCA 
    GAGTCTGCCA GGACAACAGA CGAATCCGTG CTGCCAATCT CAGCATTGGA GTCTGATCCA 
    AACATCGAGA TGGTTTCAAT ACACATGTCA CCTGAAGAGA AAAAGGAGGG ATATACTCAT 
    AAAGCTCTTA TGAAGTTCTT ATTATCTGGC GGGAAACAGA CTGTACAGCT AAAAGGCATC 
    ATATATGACG ACTTTCAAGA TTGTGAATGT AACGGACACT CGAATCGCTG CAGTTACATC 
    GACTTCCTGA ACATAGTGAC GTGCGTGAGC TGCAAACACA ACACGAGGGG GCAGAACTGC 
    GAACACTGTC GCATGAGCTA CTACAAAAAC ATGTCTGCAG AGCCTGATGA TGAGAACGTG 
    TGTATCGAGT GTAACTGTAA TGCGTTGGGC TCAGTTCATG ACCGCTGCAA CGGCACCGGC 
    TTCTGTCAGT GTAAAGAAGG CACAACCGGA GTCAAATGTG ATGAATGTCT CCCGGGCTAC 
    TATTGGAAAC AGGGCTGTTT ACCGAACGTG TGCGACGACG AGTTACTCTT GTGCCAGAAC 
    GGAGGGACGT GCGTTCAGAA TCAGCGCTGC ATCTGCACAC CAGACTTTAA GGGTGTTTTG 
    TGCCAACATT CGCGCTGTGA AGAAGGCAAA AAGTGCAACG GCGCCAGCGC TCTCCGTTTG 
    AGCCTGGCAC TCCTGCTCTG CCCGCTTCTC GCCACCCTGC TGGGCTCCAC CGCCTCCTGA

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

    ntng2b ( XM_009295101.2 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_009293376.1 Danio rerio netrin g2b (ntng2b), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ODa51519
    Clone ID Related Accession (Same CDS sequence) XM_009295101.2
    Accession Version XM_009295101.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4677bp)
    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 filaggrin-2-like isoform X2
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.6) 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_009295101.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGACGGCA ACTTACAGTG TCAGTGTGAA CACAACACCA CCGGCCAGGA CTGCCAGCGC 
    TGCAAAAAAG GATATAAAGC CAAGACCTGG AAACCAGGAT CGTATTTACC AACTCCGAAC 
    GGATCCCCAA ACACATGTTC TCAGGCATTG GCTGGTTCTT CTTCTGGATC CAATGCTCCT 
    CCGGCACATG TAGATACTGT AAACCACGTC CCATCAGCTG AAATAGACCC CAAGGCACTT 
    TATACCACCC CAAAAGCCAC GCCCCCTTCT CATATTTTCA GAGAGGACAC TCCCCGCACG 
    GCCACACCTC CAGAGGAGGA GCCTGTGCAC ATACATATAC AGAGCAAAGC ACCACCAGTG 
    GAGGATTCTG GGGAAGTTGA AGAGATTTCT GAAAAGAAAG AGATGACTTC AGGGAGACAT 
    GAAGTATCTG AAGATGTAAA GAGAGTGGAG ACTTTTCTGG AACATAACAG ACACAGGGAA 
    GAAACTGCAC CTGAACCTGT TGGATCAGTG CGGGAGTCTG CCGAGCCAAA GCCAGAGTCG 
    ATTCCAAAGC CAATTTTGGA AACACACAAG CCACTACACA AACCTCAAGT TCATGTGTCT 
    ACAGCGGAAT CTCATGGAGC AGCACAAACA TCACATGAAT CAGTAACAAA GCATCATGAA 
    CCAATTCAGA AACTTCATGA GTCAACAGTG AAACCTCACT CAATGCATAC AACCCATGAG 
    ACTATACAGA AACCTCATGA ACCAAAAGTG AATTCTCATG AATCAATGCA TAAACCCCAT 
    GAGCAAATTG TAAATCTTAA TGAATCAATG TATAAGCCTC ATCAGCCAAT ATGGGATCCA 
    CATTCATCGC CGCAAAAACC TTTTGAGCCA AACGTGAACC CCCTTGAGTC AGTAGTGAAT 
    ATTCATGAGT CAACGCATAA ATCACATGAA GCAGTAGTGA ATCCTCAGGA ATCAATGAAT 
    AACCCTCATG GGTCAGTAGT AAACCCTCAC AAGTCAGGGC ATAACCCTCA TGGGTCAGTA 
    GTGAACCCTC ACGGGTCAGG GCATAACCCT CATGGGTCAG TAGTCAACCC TCACGAGTCA 
    GGGCATAACC CTCATGGGTC AGTAGTGAAT CCTCACGAGT CAGGGCATAA CCCTCATGGG 
    TCAGTAGTGA ATCCTCACGA GTCAGGGCAT AACCCTCATG GGTCAATAGT AAACCCTTAT 
    GAGTCAGGGC ATAACTCTTA TGGGTCAGTA GTGAACCCTC ACGGGTCAGT AGTGAACCCT 
    CACGGGTCAG GGCATAACCC TCATGGGTCA GTAGTGAATC CTCACGAGTC AGGGCATAAC 
    CCTCATGGGT CAATAGTGAA CCCTCACGGG TCAGGGCATA ACCCTCATGG GTCAGTAGTG 
    AAACCTCACG GGTCAGTAGT GAACCCTCAC GAGTCAGGGC ATAACCCTCA TGGAACAGTA 
    GTGAATCCTC ACGAGTCAGG GCATAACCCT CATGGGTCAA TAGTAAACCC TCTTGAGTCA 
    GGGCACAACC CTCATGGGTC GGTAGTGAAT CCTCATGGCT CAGGGCTTAA CCCTCATGGG 
    TCAGTAGTGA ATCCTCACGA GTCAGGGCAT AACCCTCATG GGTCAGTAGT GAACCCTCAC 
    GAGTCAGGGC ATAACCCTCA TGGGTCAGTA GTGAACCCTC ACGAGTCAGG GCATAACCCT 
    CATGGGTCAG TAGTGAACCC TCACGAGTCA GGGCATAACC CTCATGGGTC AGTAGTGAAC 
    CCTCACGAGT CAGGGCATAA TCCTCATGGA ACAGTAGTGA ATCCTCACGA GTCAGGGCAT 
    AACCCTCATG GGTCAGTAGT GAACCCTCAC GAGTCAGGGC ATAATCCTCA TGGAACAGTA 
    GTGAATCCTC ACGAGTCAGG GCATAACCCT CATGGGTCAA TAGTAAACCC TCTTGATTCA 
    GGGCACAACC CTCATGGGTC GGTAGTGAAT CCTCATGGCT CAGGGCTTAA CCCTCATGGG 
    TCAGTAGTGA ATCCTCACGA GTCAGGGCAT AACCCTCATG GGTCAGTAGT GAATCCTCAC 
    GAGTCAGGGC ATAACCCTCA TGGGTCAGTA GTGAATTCTC ACGAGTCAGG GCATAACCCT 
    CATGGGTCAG TAGTGAATAC TCACGAGTCA GGGCATAACC CTCATGGGTC AGTAGTGAAT 
    CCTCACGAGT CAGGGCATAA CCCTCATGGG TCAGTAGTGA ATATTCATAG TTCAGAGCAG 
    AAATCTCATG ATCCAGTAGG GAATCCGCAT GGGTCAGAGC ATAACCTTCA TGGGTCAGAG 
    GTGAATCATC ATGGATCAGA ACATAAATCT CATGAGCCAC TAGTAAACCC CCATGGGTCA 
    GAGCATAGTC CTCATAGGTC AGAAGTGGAT CCTCATGGGT CAGTAGTGAA TCCTCATGGG 
    TCAGGGCATA AATCTCATGA CCCAGTTATG AATCCCCATG ATCCAGTAGT AAATCCTCAT 
    GGGTCAGAGC ATAAATCTCA CGATGCAGTA GTGAATCATC ATGGGTCAGT GGATAAATCT 
    CATGAACCAG TAGTGAATGC TCATGGGTCA GAGCATAAGC CTCATGGGTC AGGTCATAAA 
    CCTCATGAGT CAGTAGTGAA TCCTCATGGA TTGGAGCATA AATCTCATGA CCTAGAAGTA 
    AATCCTCATG GTTCAAAGCA CAACACACAT GAGCCAATAG TGAATCCTCA TGGGACAGAG 
    CATAACCCTC ATGGGTCATC AGCAAATCCT CATGAGTCAG ATCATAAATC TCATGAGCCA 
    GTAGTTAATC CACATGGGTC AGGGCACAAC CCTCATGGGT CAGGGCATAA CCCTCACAAC 
    CCAGTAGTGA ATCCTCATGT GTCAGAGCAT AAATCTCATG ACCCAGTAGT ACACCCTCAT 
    GGGTCAGGGC ATAACAAACA TGAGCCAATA GTTAATCCTA TTGGGTCAGG GCATAACTCC 
    CATGGGTCAG TAGTGAATCC TCATGGGTCA GAGCATAACC CTCATGGGTC AGTAGTGAAT 
    CCTCATGGGT CAGAGCATAA CCCTCATGGG TCAGTAGTGA ATCCTCATGG GTCAGAGCAT 
    AACCCTCATG GGTCAGTAGT GAATACTCAT GGCTCAGGGC ATAACTCTCA TGGGTCAGTA 
    GCAAATCCTC ATGGCTCAGA GAATAACCCA CATGGGTCAG AGCATAACTC TCATGGGTCA 
    GTAGCAAATC CTCATGGGTC AGGGCATACA TTTCATGGGT CAATAGCAAA TCCTCATGTG 
    TCAGCGGAAA ACCCTCATGG GTCAGTAGCG AATCCTCATG GGTCAGAGCA TAACTCTCAT 
    GGGTCAGTAG CGAATCCTCA CGGGTCAGAG CATAACCCTC ATGGGTCAGA AGCGAATCCT 
    CATGGGTCAG AGCATAACTC TCATGGATCA GTAGCAAATC CTCATGGGTC AGGGCATAAG 
    CCACATGGGT CAGAGTATAA CCCTCATGGG TCAGTAGCGA ATCCTCTTGT GTCAGAGTAT 
    AACACTCATG GGTCAGTAGC GAATCCTCAT GGGTCAGCGC ATAACCCTCA TGGGTCAGTA 
    GCGAATCCTC ATGGGTCAGG GCATGACCCA CATGGGTCAG AGTATAACCC TCATGGGTCA 
    GTAGAAAACC CTCAGGGGTC AGCGCCTAAC TCTCATGGAT CGGTAGCAAA TCCTCATGGG 
    TCAGTAGAAA ATCCTCATGC GTCAGCGCAT AACTCTCATG GATCGGTAGC AAATCCTCAT 
    GGGTCAGCGC ATAACTCTCA TGGGTCGGTA GCAAGTCCTC ATGGGTCAGC GCATAACTCT 
    CATGGGTCAG GGCATAATCC TCATGGGTCA GGGCATAATC CTCATGAGTC AGGGCATAAA 
    ACTCATGGGC CAAGGCATAA GCCTCATGGG TCAGTAGTGT ATCCTCATGA GCCAATGCAT 
    AACCCTCATG GACACCTACA TAATGAACCA AAAAGTGAGT CACATGGGCC GATACCAGAG 
    TCTGCCAGGA CAACAGACGA ATCCGTGCTG CCAATCTCAG CATTGGAGTC TGATCCAAAC 
    ATCGAGATGG TTTCAATACA CATGTCACCT GAAGAGAAAA AGGAGGGATA TACTCATAAA 
    GCTCTTATGA AGTTCTTATT ATCTGGCGGG AAACAGACTG TACAGCTAAA AGGCATCATA 
    TATGACGACT TTCAAGATTG TGAATGTAAC GGACACTCGA ATCGCTGCAG TTACATCGAC 
    TTCCTGAACA TAGTGACGTG CGTGAGCTGC AAACACAACA CGAGGGGGCA GAACTGCGAA 
    CACTGTCGCA TGAGCTACTA CAAAAACATG TCTGCAGAGC CTGATGATGA GAACGTGTGT 
    ATCGAGTGTA ACTGTAATGC GTTGGGCTCA GTTCATGACC GCTGCAACGG CACCGGCTTC 
    TGTCAGTGTA AAGAAGGCAC AACCGGAGTC AAATGTGATG AATGTCTCCC GGGCTACTAT 
    TGGAAACAGG GCTGTTTACC GAACGTGTGC GACGACGAGT TACTCTTGTG CCAGAACGGA 
    GGGACGTGCG TTCAGAATCA GCGCTGCATC TGCACACCAG ACTTTAAGGG TGTTTTGTGC 
    CAACATTCGC GCTGTGAAGA AGGCAAAAAG TGCAACGGCG CCAGCGCTCT CCGTTTGAGC 
    CTGGCACTCC TGCTCTGCCC GCTTCTCGCC ACCCTGCTGG GCTCCACCGC CTCCTGA

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

    RefSeq XP_009293376.1
    CDS60..4736
    Translation

    Target ORF information:

    RefSeq Version XM_009295101.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio netrin g2b (ntng2b), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_009295101.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGACGGCA ACTTACAGTG TCAGTGTGAA CACAACACCA CCGGCCAGGA CTGCCAGCGC 
    TGCAAAAAAG GATATAAAGC CAAGACCTGG AAACCAGGAT CGTATTTACC AACTCCGAAC 
    GGATCCCCAA ACACATGTTC TCAGGCATTG GCTGGTTCTT CTTCTGGATC CAATGCTCCT 
    CCGGCACATG TAGATACTGT AAACCACGTC CCATCAGCTG AAATAGACCC CAAGGCACTT 
    TATACCACCC CAAAAGCCAC GCCCCCTTCT CATATTTTCA GAGAGGACAC TCCCCGCACG 
    GCCACACCTC CAGAGGAGGA GCCTGTGCAC ATACATATAC AGAGCAAAGC ACCACCAGTG 
    GAGGATTCTG GGGAAGTTGA AGAGATTTCT GAAAAGAAAG AGATGACTTC AGGGAGACAT 
    GAAGTATCTG AAGATGTAAA GAGAGTGGAG ACTTTTCTGG AACATAACAG ACACAGGGAA 
    GAAACTGCAC CTGAACCTGT TGGATCAGTG CGGGAGTCTG CCGAGCCAAA GCCAGAGTCG 
    ATTCCAAAGC CAATTTTGGA AACACACAAG CCACTACACA AACCTCAAGT TCATGTGTCT 
    ACAGCGGAAT CTCATGGAGC AGCACAAACA TCACATGAAT CAGTAACAAA GCATCATGAA 
    CCAATTCAGA AACTTCATGA GTCAACAGTG AAACCTCACT CAATGCATAC AACCCATGAG 
    ACTATACAGA AACCTCATGA ACCAAAAGTG AATTCTCATG AATCAATGCA TAAACCCCAT 
    GAGCAAATTG TAAATCTTAA TGAATCAATG TATAAGCCTC ATCAGCCAAT ATGGGATCCA 
    CATTCATCGC CGCAAAAACC TTTTGAGCCA AACGTGAACC CCCTTGAGTC AGTAGTGAAT 
    ATTCATGAGT CAACGCATAA ATCACATGAA GCAGTAGTGA ATCCTCAGGA ATCAATGAAT 
    AACCCTCATG GGTCAGTAGT AAACCCTCAC AAGTCAGGGC ATAACCCTCA TGGGTCAGTA 
    GTGAACCCTC ACGGGTCAGG GCATAACCCT CATGGGTCAG TAGTCAACCC TCACGAGTCA 
    GGGCATAACC CTCATGGGTC AGTAGTGAAT CCTCACGAGT CAGGGCATAA CCCTCATGGG 
    TCAGTAGTGA ATCCTCACGA GTCAGGGCAT AACCCTCATG GGTCAATAGT AAACCCTTAT 
    GAGTCAGGGC ATAACTCTTA TGGGTCAGTA GTGAACCCTC ACGGGTCAGT AGTGAACCCT 
    CACGGGTCAG GGCATAACCC TCATGGGTCA GTAGTGAATC CTCACGAGTC AGGGCATAAC 
    CCTCATGGGT CAATAGTGAA CCCTCACGGG TCAGGGCATA ACCCTCATGG GTCAGTAGTG 
    AAACCTCACG GGTCAGTAGT GAACCCTCAC GAGTCAGGGC ATAACCCTCA TGGAACAGTA 
    GTGAATCCTC ACGAGTCAGG GCATAACCCT CATGGGTCAA TAGTAAACCC TCTTGAGTCA 
    GGGCACAACC CTCATGGGTC GGTAGTGAAT CCTCATGGCT CAGGGCTTAA CCCTCATGGG 
    TCAGTAGTGA ATCCTCACGA GTCAGGGCAT AACCCTCATG GGTCAGTAGT GAACCCTCAC 
    GAGTCAGGGC ATAACCCTCA TGGGTCAGTA GTGAACCCTC ACGAGTCAGG GCATAACCCT 
    CATGGGTCAG TAGTGAACCC TCACGAGTCA GGGCATAACC CTCATGGGTC AGTAGTGAAC 
    CCTCACGAGT CAGGGCATAA TCCTCATGGA ACAGTAGTGA ATCCTCACGA GTCAGGGCAT 
    AACCCTCATG GGTCAGTAGT GAACCCTCAC GAGTCAGGGC ATAATCCTCA TGGAACAGTA 
    GTGAATCCTC ACGAGTCAGG GCATAACCCT CATGGGTCAA TAGTAAACCC TCTTGATTCA 
    GGGCACAACC CTCATGGGTC GGTAGTGAAT CCTCATGGCT CAGGGCTTAA CCCTCATGGG 
    TCAGTAGTGA ATCCTCACGA GTCAGGGCAT AACCCTCATG GGTCAGTAGT GAATCCTCAC 
    GAGTCAGGGC ATAACCCTCA TGGGTCAGTA GTGAATTCTC ACGAGTCAGG GCATAACCCT 
    CATGGGTCAG TAGTGAATAC TCACGAGTCA GGGCATAACC CTCATGGGTC AGTAGTGAAT 
    CCTCACGAGT CAGGGCATAA CCCTCATGGG TCAGTAGTGA ATATTCATAG TTCAGAGCAG 
    AAATCTCATG ATCCAGTAGG GAATCCGCAT GGGTCAGAGC ATAACCTTCA TGGGTCAGAG 
    GTGAATCATC ATGGATCAGA ACATAAATCT CATGAGCCAC TAGTAAACCC CCATGGGTCA 
    GAGCATAGTC CTCATAGGTC AGAAGTGGAT CCTCATGGGT CAGTAGTGAA TCCTCATGGG 
    TCAGGGCATA AATCTCATGA CCCAGTTATG AATCCCCATG ATCCAGTAGT AAATCCTCAT 
    GGGTCAGAGC ATAAATCTCA CGATGCAGTA GTGAATCATC ATGGGTCAGT GGATAAATCT 
    CATGAACCAG TAGTGAATGC TCATGGGTCA GAGCATAAGC CTCATGGGTC AGGTCATAAA 
    CCTCATGAGT CAGTAGTGAA TCCTCATGGA TTGGAGCATA AATCTCATGA CCTAGAAGTA 
    AATCCTCATG GTTCAAAGCA CAACACACAT GAGCCAATAG TGAATCCTCA TGGGACAGAG 
    CATAACCCTC ATGGGTCATC AGCAAATCCT CATGAGTCAG ATCATAAATC TCATGAGCCA 
    GTAGTTAATC CACATGGGTC AGGGCACAAC CCTCATGGGT CAGGGCATAA CCCTCACAAC 
    CCAGTAGTGA ATCCTCATGT GTCAGAGCAT AAATCTCATG ACCCAGTAGT ACACCCTCAT 
    GGGTCAGGGC ATAACAAACA TGAGCCAATA GTTAATCCTA TTGGGTCAGG GCATAACTCC 
    CATGGGTCAG TAGTGAATCC TCATGGGTCA GAGCATAACC CTCATGGGTC AGTAGTGAAT 
    CCTCATGGGT CAGAGCATAA CCCTCATGGG TCAGTAGTGA ATCCTCATGG GTCAGAGCAT 
    AACCCTCATG GGTCAGTAGT GAATACTCAT GGCTCAGGGC ATAACTCTCA TGGGTCAGTA 
    GCAAATCCTC ATGGCTCAGA GAATAACCCA CATGGGTCAG AGCATAACTC TCATGGGTCA 
    GTAGCAAATC CTCATGGGTC AGGGCATACA TTTCATGGGT CAATAGCAAA TCCTCATGTG 
    TCAGCGGAAA ACCCTCATGG GTCAGTAGCG AATCCTCATG GGTCAGAGCA TAACTCTCAT 
    GGGTCAGTAG CGAATCCTCA CGGGTCAGAG CATAACCCTC ATGGGTCAGA AGCGAATCCT 
    CATGGGTCAG AGCATAACTC TCATGGATCA GTAGCAAATC CTCATGGGTC AGGGCATAAG 
    CCACATGGGT CAGAGTATAA CCCTCATGGG TCAGTAGCGA ATCCTCTTGT GTCAGAGTAT 
    AACACTCATG GGTCAGTAGC GAATCCTCAT GGGTCAGCGC ATAACCCTCA TGGGTCAGTA 
    GCGAATCCTC ATGGGTCAGG GCATGACCCA CATGGGTCAG AGTATAACCC TCATGGGTCA 
    GTAGAAAACC CTCAGGGGTC AGCGCCTAAC TCTCATGGAT CGGTAGCAAA TCCTCATGGG 
    TCAGTAGAAA ATCCTCATGC GTCAGCGCAT AACTCTCATG GATCGGTAGC AAATCCTCAT 
    GGGTCAGCGC ATAACTCTCA TGGGTCGGTA GCAAGTCCTC ATGGGTCAGC GCATAACTCT 
    CATGGGTCAG GGCATAATCC TCATGGGTCA GGGCATAATC CTCATGAGTC AGGGCATAAA 
    ACTCATGGGC CAAGGCATAA GCCTCATGGG TCAGTAGTGT ATCCTCATGA GCCAATGCAT 
    AACCCTCATG GACACCTACA TAATGAACCA AAAAGTGAGT CACATGGGCC GATACCAGAG 
    TCTGCCAGGA CAACAGACGA ATCCGTGCTG CCAATCTCAG CATTGGAGTC TGATCCAAAC 
    ATCGAGATGG TTTCAATACA CATGTCACCT GAAGAGAAAA AGGAGGGATA TACTCATAAA 
    GCTCTTATGA AGTTCTTATT ATCTGGCGGG AAACAGACTG TACAGCTAAA AGGCATCATA 
    TATGACGACT TTCAAGATTG TGAATGTAAC GGACACTCGA ATCGCTGCAG TTACATCGAC 
    TTCCTGAACA TAGTGACGTG CGTGAGCTGC AAACACAACA CGAGGGGGCA GAACTGCGAA 
    CACTGTCGCA TGAGCTACTA CAAAAACATG TCTGCAGAGC CTGATGATGA GAACGTGTGT 
    ATCGAGTGTA ACTGTAATGC GTTGGGCTCA GTTCATGACC GCTGCAACGG CACCGGCTTC 
    TGTCAGTGTA AAGAAGGCAC AACCGGAGTC AAATGTGATG AATGTCTCCC GGGCTACTAT 
    TGGAAACAGG GCTGTTTACC GAACGTGTGC GACGACGAGT TACTCTTGTG CCAGAACGGA 
    GGGACGTGCG TTCAGAATCA GCGCTGCATC TGCACACCAG ACTTTAAGGG TGTTTTGTGC 
    CAACATTCGC GCTGTGAAGA AGGCAAAAAG TGCAACGGCG CCAGCGCTCT CCGTTTGAGC 
    CTGGCACTCC TGCTCTGCCC GCTTCTCGCC ACCCTGCTGG GCTCCACCGC CTCCTGA

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

    ntng2b ( XM_009295103.3 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_009293378.1 Danio rerio netrin g2b (ntng2b), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ODa51521
    Clone ID Related Accession (Same CDS sequence) XM_009295103.3 , XM_009295103.2
    Accession Version XM_009295103.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4563bp)
    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 filaggrin-2-like isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.7) 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_009295103.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGACGGCA ACTTACAGTG TCAGTGTGAA CACAACACCA CCGGCCAGGA CTGCCAGCGC 
    TGCAAAAAAG GATATAAAGC CAAGACCTGG AAACCAGGAT CGTATTTACC AACTCCGAAC 
    GGATCCCCAA ACACATGTTC TCAGGCATTG GCTGGTTCTT CTTCTGGATC CATGACCGAT 
    ACCTCAGCTG AAGAGTTCAC TACAGTTGTA ACAGAATCGC CAGTGTTGGA CACAGCACCA 
    CCAGTGGAGG ATTCTGGGGA AGTTGAAGAG ATTTCTGAAA AGAAAGAGAT GACTTCAGGG 
    AGACATGAAG TATCTGAAGA TGTAAAGAGA GTGGAGACTT TTCTGGAACA TAACAGACAC 
    AGGGAAGAAA CTGCACCTGA ACCTGTTGGA TCAGTGCGGG AGTCTGCCGA GCCAAAGCCA 
    GAGTCGATTC CAAAGCCAAT TTTGGAAACA CACAAGCCAC TACACAAACC TCAAGTTCAT 
    GTGTCTACAG CGGAATCTCA TGGAGCAGCA CAAACATCAC ATGAATCAGT AACAAAGCAT 
    CATGAACCAA TTCAGAAACT TCATGAGTCA ACAGTGAAAC CTCACTCAAT GCATACAACC 
    CATGAGACTA TACAGAAACC TCATGAACCA AAAGTGAATT CTCATGAATC AATGCATAAA 
    CCCCATGAGC AAATTGTAAA TCTTAATGAA TCAATGTATA AGCCTCATCA GCCAATATGG 
    GATCCACATT CATCGCCGCA AAAACCTTTT GAGCCAAACG TGAACCCCCT TGAGTCAGTA 
    GTGAATATTC ATGAGTCAAC GCATAAATCA CATGAAGCAG TAGTGAATCC TCAGGAATCA 
    ATGAATAACC CTCATGGGTC AGTAGTAAAC CCTCACAAGT CAGGGCATAA CCCTCATGGG 
    TCAGTAGTGA ACCCTCACGG GTCAGGGCAT AACCCTCATG GGTCAGTAGT CAACCCTCAC 
    GAGTCAGGGC ATAACCCTCA TGGGTCAGTA GTGAATCCTC ACGAGTCAGG GCATAACCCT 
    CATGGGTCAG TAGTGAATCC TCACGAGTCA GGGCATAACC CTCATGGGTC AATAGTAAAC 
    CCTTATGAGT CAGGGCATAA CTCTTATGGG TCAGTAGTGA ACCCTCACGG GTCAGTAGTG 
    AACCCTCACG GGTCAGGGCA TAACCCTCAT GGGTCAGTAG TGAATCCTCA CGAGTCAGGG 
    CATAACCCTC ATGGGTCAAT AGTGAACCCT CACGGGTCAG GGCATAACCC TCATGGGTCA 
    GTAGTGAAAC CTCACGGGTC AGTAGTGAAC CCTCACGAGT CAGGGCATAA CCCTCATGGA 
    ACAGTAGTGA ATCCTCACGA GTCAGGGCAT AACCCTCATG GGTCAATAGT AAACCCTCTT 
    GAGTCAGGGC ACAACCCTCA TGGGTCGGTA GTGAATCCTC ATGGCTCAGG GCTTAACCCT 
    CATGGGTCAG TAGTGAATCC TCACGAGTCA GGGCATAACC CTCATGGGTC AGTAGTGAAC 
    CCTCACGAGT CAGGGCATAA CCCTCATGGG TCAGTAGTGA ACCCTCACGA GTCAGGGCAT 
    AACCCTCATG GGTCAGTAGT GAACCCTCAC GAGTCAGGGC ATAACCCTCA TGGGTCAGTA 
    GTGAACCCTC ACGAGTCAGG GCATAATCCT CATGGAACAG TAGTGAATCC TCACGAGTCA 
    GGGCATAACC CTCATGGGTC AGTAGTGAAC CCTCACGAGT CAGGGCATAA TCCTCATGGA 
    ACAGTAGTGA ATCCTCACGA GTCAGGGCAT AACCCTCATG GGTCAATAGT AAACCCTCTT 
    GATTCAGGGC ACAACCCTCA TGGGTCGGTA GTGAATCCTC ATGGCTCAGG GCTTAACCCT 
    CATGGGTCAG TAGTGAATCC TCACGAGTCA GGGCATAACC CTCATGGGTC AGTAGTGAAT 
    CCTCACGAGT CAGGGCATAA CCCTCATGGG TCAGTAGTGA ATTCTCACGA GTCAGGGCAT 
    AACCCTCATG GGTCAGTAGT GAATACTCAC GAGTCAGGGC ATAACCCTCA TGGGTCAGTA 
    GTGAATCCTC ACGAGTCAGG GCATAACCCT CATGGGTCAG TAGTGAATAT TCATAGTTCA 
    GAGCAGAAAT CTCATGATCC AGTAGGGAAT CCGCATGGGT CAGAGCATAA CCTTCATGGG 
    TCAGAGGTGA ATCATCATGG ATCAGAACAT AAATCTCATG AGCCACTAGT AAACCCCCAT 
    GGGTCAGAGC ATAGTCCTCA TAGGTCAGAA GTGGATCCTC ATGGGTCAGT AGTGAATCCT 
    CATGGGTCAG GGCATAAATC TCATGACCCA GTTATGAATC CCCATGATCC AGTAGTAAAT 
    CCTCATGGGT CAGAGCATAA ATCTCACGAT GCAGTAGTGA ATCATCATGG GTCAGTGGAT 
    AAATCTCATG AACCAGTAGT GAATGCTCAT GGGTCAGAGC ATAAGCCTCA TGGGTCAGGT 
    CATAAACCTC ATGAGTCAGT AGTGAATCCT CATGGATTGG AGCATAAATC TCATGACCTA 
    GAAGTAAATC CTCATGGTTC AAAGCACAAC ACACATGAGC CAATAGTGAA TCCTCATGGG 
    ACAGAGCATA ACCCTCATGG GTCATCAGCA AATCCTCATG AGTCAGATCA TAAATCTCAT 
    GAGCCAGTAG TTAATCCACA TGGGTCAGGG CACAACCCTC ATGGGTCAGG GCATAACCCT 
    CACAACCCAG TAGTGAATCC TCATGTGTCA GAGCATAAAT CTCATGACCC AGTAGTACAC 
    CCTCATGGGT CAGGGCATAA CAAACATGAG CCAATAGTTA ATCCTATTGG GTCAGGGCAT 
    AACTCCCATG GGTCAGTAGT GAATCCTCAT GGGTCAGAGC ATAACCCTCA TGGGTCAGTA 
    GTGAATCCTC ATGGGTCAGA GCATAACCCT CATGGGTCAG TAGTGAATCC TCATGGGTCA 
    GAGCATAACC CTCATGGGTC AGTAGTGAAT ACTCATGGCT CAGGGCATAA CTCTCATGGG 
    TCAGTAGCAA ATCCTCATGG CTCAGAGAAT AACCCACATG GGTCAGAGCA TAACTCTCAT 
    GGGTCAGTAG CAAATCCTCA TGGGTCAGGG CATACATTTC ATGGGTCAAT AGCAAATCCT 
    CATGTGTCAG CGGAAAACCC TCATGGGTCA GTAGCGAATC CTCATGGGTC AGAGCATAAC 
    TCTCATGGGT CAGTAGCGAA TCCTCACGGG TCAGAGCATA ACCCTCATGG GTCAGAAGCG 
    AATCCTCATG GGTCAGAGCA TAACTCTCAT GGATCAGTAG CAAATCCTCA TGGGTCAGGG 
    CATAAGCCAC ATGGGTCAGA GTATAACCCT CATGGGTCAG TAGCGAATCC TCTTGTGTCA 
    GAGTATAACA CTCATGGGTC AGTAGCGAAT CCTCATGGGT CAGCGCATAA CCCTCATGGG 
    TCAGTAGCGA ATCCTCATGG GTCAGGGCAT GACCCACATG GGTCAGAGTA TAACCCTCAT 
    GGGTCAGTAG AAAACCCTCA GGGGTCAGCG CCTAACTCTC ATGGATCGGT AGCAAATCCT 
    CATGGGTCAG TAGAAAATCC TCATGCGTCA GCGCATAACT CTCATGGATC GGTAGCAAAT 
    CCTCATGGGT CAGCGCATAA CTCTCATGGG TCGGTAGCAA GTCCTCATGG GTCAGCGCAT 
    AACTCTCATG GGTCAGGGCA TAATCCTCAT GGGTCAGGGC ATAATCCTCA TGAGTCAGGG 
    CATAAAACTC ATGGGCCAAG GCATAAGCCT CATGGGTCAG TAGTGTATCC TCATGAGCCA 
    ATGCATAACC CTCATGGACA CCTACATAAT GAACCAAAAA GTGAGTCACA TGGGCCGATA 
    CCAGAGTCTG CCAGGACAAC AGACGAATCC GTGCTGCCAA TCTCAGCATT GGAGTCTGAT 
    CCAAACATCG AGATGGTTTC AATACACATG TCACCTGAAG AGAAAAAGGA GGGATATACT 
    CATAAAGCTC TTATGAAGTT CTTATTATCT GGCGGGAAAC AGACTGTACA GCTAAAAGGC 
    ATCATATATG ACGACTTTCA AGATTGTGAA TGTAACGGAC ACTCGAATCG CTGCAGTTAC 
    ATCGACTTCC TGAACATAGT GACGTGCGTG AGCTGCAAAC ACAACACGAG GGGGCAGAAC 
    TGCGAACACT GTCGCATGAG CTACTACAAA AACATGTCTG CAGAGCCTGA TGATGAGAAC 
    GTGTGTATCG AGTGTAACTG TAATGCGTTG GGCTCAGTTC ATGACCGCTG CAACGGCACC 
    GGCTTCTGTC AGTGTAAAGA AGGCACAACC GGAGTCAAAT GTGATGAATG TCTCCCGGGC 
    TACTATTGGA AACAGGGCTG TTTACCGAAC GTGTGCGACG ACGAGTTACT CTTGTGCCAG 
    AACGGAGGGA CGTGCGTTCA GAATCAGCGC TGCATCTGCA CACCAGACTT TAAGGGTGTT 
    TTGTGCCAAC ATTCGCGCTG TGAAGAAGGC AAAAAGTGCA ACGGCGCCAG CGCTCTCCGT 
    TTGAGCCTGG CACTCCTGCT CTGCCCGCTT CTCGCCACCC TGCTGGGCTC CACCGCCTCC 
    TGA

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

    RefSeq XP_009293378.1
    CDS62..4624
    Translation

    Target ORF information:

    RefSeq Version XM_009295103.3
    Organism Danio rerio(zebrafish)
    Definition Danio rerio netrin g2b (ntng2b), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_009295103.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGACGGCA ACTTACAGTG TCAGTGTGAA CACAACACCA CCGGCCAGGA CTGCCAGCGC 
    TGCAAAAAAG GATATAAAGC CAAGACCTGG AAACCAGGAT CGTATTTACC AACTCCGAAC 
    GGATCCCCAA ACACATGTTC TCAGGCATTG GCTGGTTCTT CTTCTGGATC CATGACCGAT 
    ACCTCAGCTG AAGAGTTCAC TACAGTTGTA ACAGAATCGC CAGTGTTGGA CACAGCACCA 
    CCAGTGGAGG ATTCTGGGGA AGTTGAAGAG ATTTCTGAAA AGAAAGAGAT GACTTCAGGG 
    AGACATGAAG TATCTGAAGA TGTAAAGAGA GTGGAGACTT TTCTGGAACA TAACAGACAC 
    AGGGAAGAAA CTGCACCTGA ACCTGTTGGA TCAGTGCGGG AGTCTGCCGA GCCAAAGCCA 
    GAGTCGATTC CAAAGCCAAT TTTGGAAACA CACAAGCCAC TACACAAACC TCAAGTTCAT 
    GTGTCTACAG CGGAATCTCA TGGAGCAGCA CAAACATCAC ATGAATCAGT AACAAAGCAT 
    CATGAACCAA TTCAGAAACT TCATGAGTCA ACAGTGAAAC CTCACTCAAT GCATACAACC 
    CATGAGACTA TACAGAAACC TCATGAACCA AAAGTGAATT CTCATGAATC AATGCATAAA 
    CCCCATGAGC AAATTGTAAA TCTTAATGAA TCAATGTATA AGCCTCATCA GCCAATATGG 
    GATCCACATT CATCGCCGCA AAAACCTTTT GAGCCAAACG TGAACCCCCT TGAGTCAGTA 
    GTGAATATTC ATGAGTCAAC GCATAAATCA CATGAAGCAG TAGTGAATCC TCAGGAATCA 
    ATGAATAACC CTCATGGGTC AGTAGTAAAC CCTCACAAGT CAGGGCATAA CCCTCATGGG 
    TCAGTAGTGA ACCCTCACGG GTCAGGGCAT AACCCTCATG GGTCAGTAGT CAACCCTCAC 
    GAGTCAGGGC ATAACCCTCA TGGGTCAGTA GTGAATCCTC ACGAGTCAGG GCATAACCCT 
    CATGGGTCAG TAGTGAATCC TCACGAGTCA GGGCATAACC CTCATGGGTC AATAGTAAAC 
    CCTTATGAGT CAGGGCATAA CTCTTATGGG TCAGTAGTGA ACCCTCACGG GTCAGTAGTG 
    AACCCTCACG GGTCAGGGCA TAACCCTCAT GGGTCAGTAG TGAATCCTCA CGAGTCAGGG 
    CATAACCCTC ATGGGTCAAT AGTGAACCCT CACGGGTCAG GGCATAACCC TCATGGGTCA 
    GTAGTGAAAC CTCACGGGTC AGTAGTGAAC CCTCACGAGT CAGGGCATAA CCCTCATGGA 
    ACAGTAGTGA ATCCTCACGA GTCAGGGCAT AACCCTCATG GGTCAATAGT AAACCCTCTT 
    GAGTCAGGGC ACAACCCTCA TGGGTCGGTA GTGAATCCTC ATGGCTCAGG GCTTAACCCT 
    CATGGGTCAG TAGTGAATCC TCACGAGTCA GGGCATAACC CTCATGGGTC AGTAGTGAAC 
    CCTCACGAGT CAGGGCATAA CCCTCATGGG TCAGTAGTGA ACCCTCACGA GTCAGGGCAT 
    AACCCTCATG GGTCAGTAGT GAACCCTCAC GAGTCAGGGC ATAACCCTCA TGGGTCAGTA 
    GTGAACCCTC ACGAGTCAGG GCATAATCCT CATGGAACAG TAGTGAATCC TCACGAGTCA 
    GGGCATAACC CTCATGGGTC AGTAGTGAAC CCTCACGAGT CAGGGCATAA TCCTCATGGA 
    ACAGTAGTGA ATCCTCACGA GTCAGGGCAT AACCCTCATG GGTCAATAGT AAACCCTCTT 
    GATTCAGGGC ACAACCCTCA TGGGTCGGTA GTGAATCCTC ATGGCTCAGG GCTTAACCCT 
    CATGGGTCAG TAGTGAATCC TCACGAGTCA GGGCATAACC CTCATGGGTC AGTAGTGAAT 
    CCTCACGAGT CAGGGCATAA CCCTCATGGG TCAGTAGTGA ATTCTCACGA GTCAGGGCAT 
    AACCCTCATG GGTCAGTAGT GAATACTCAC GAGTCAGGGC ATAACCCTCA TGGGTCAGTA 
    GTGAATCCTC ACGAGTCAGG GCATAACCCT CATGGGTCAG TAGTGAATAT TCATAGTTCA 
    GAGCAGAAAT CTCATGATCC AGTAGGGAAT CCGCATGGGT CAGAGCATAA CCTTCATGGG 
    TCAGAGGTGA ATCATCATGG ATCAGAACAT AAATCTCATG AGCCACTAGT AAACCCCCAT 
    GGGTCAGAGC ATAGTCCTCA TAGGTCAGAA GTGGATCCTC ATGGGTCAGT AGTGAATCCT 
    CATGGGTCAG GGCATAAATC TCATGACCCA GTTATGAATC CCCATGATCC AGTAGTAAAT 
    CCTCATGGGT CAGAGCATAA ATCTCACGAT GCAGTAGTGA ATCATCATGG GTCAGTGGAT 
    AAATCTCATG AACCAGTAGT GAATGCTCAT GGGTCAGAGC ATAAGCCTCA TGGGTCAGGT 
    CATAAACCTC ATGAGTCAGT AGTGAATCCT CATGGATTGG AGCATAAATC TCATGACCTA 
    GAAGTAAATC CTCATGGTTC AAAGCACAAC ACACATGAGC CAATAGTGAA TCCTCATGGG 
    ACAGAGCATA ACCCTCATGG GTCATCAGCA AATCCTCATG AGTCAGATCA TAAATCTCAT 
    GAGCCAGTAG TTAATCCACA TGGGTCAGGG CACAACCCTC ATGGGTCAGG GCATAACCCT 
    CACAACCCAG TAGTGAATCC TCATGTGTCA GAGCATAAAT CTCATGACCC AGTAGTACAC 
    CCTCATGGGT CAGGGCATAA CAAACATGAG CCAATAGTTA ATCCTATTGG GTCAGGGCAT 
    AACTCCCATG GGTCAGTAGT GAATCCTCAT GGGTCAGAGC ATAACCCTCA TGGGTCAGTA 
    GTGAATCCTC ATGGGTCAGA GCATAACCCT CATGGGTCAG TAGTGAATCC TCATGGGTCA 
    GAGCATAACC CTCATGGGTC AGTAGTGAAT ACTCATGGCT CAGGGCATAA CTCTCATGGG 
    TCAGTAGCAA ATCCTCATGG CTCAGAGAAT AACCCACATG GGTCAGAGCA TAACTCTCAT 
    GGGTCAGTAG CAAATCCTCA TGGGTCAGGG CATACATTTC ATGGGTCAAT AGCAAATCCT 
    CATGTGTCAG CGGAAAACCC TCATGGGTCA GTAGCGAATC CTCATGGGTC AGAGCATAAC 
    TCTCATGGGT CAGTAGCGAA TCCTCACGGG TCAGAGCATA ACCCTCATGG GTCAGAAGCG 
    AATCCTCATG GGTCAGAGCA TAACTCTCAT GGATCAGTAG CAAATCCTCA TGGGTCAGGG 
    CATAAGCCAC ATGGGTCAGA GTATAACCCT CATGGGTCAG TAGCGAATCC TCTTGTGTCA 
    GAGTATAACA CTCATGGGTC AGTAGCGAAT CCTCATGGGT CAGCGCATAA CCCTCATGGG 
    TCAGTAGCGA ATCCTCATGG GTCAGGGCAT GACCCACATG GGTCAGAGTA TAACCCTCAT 
    GGGTCAGTAG AAAACCCTCA GGGGTCAGCG CCTAACTCTC ATGGATCGGT AGCAAATCCT 
    CATGGGTCAG TAGAAAATCC TCATGCGTCA GCGCATAACT CTCATGGATC GGTAGCAAAT 
    CCTCATGGGT CAGCGCATAA CTCTCATGGG TCGGTAGCAA GTCCTCATGG GTCAGCGCAT 
    AACTCTCATG GGTCAGGGCA TAATCCTCAT GGGTCAGGGC ATAATCCTCA TGAGTCAGGG 
    CATAAAACTC ATGGGCCAAG GCATAAGCCT CATGGGTCAG TAGTGTATCC TCATGAGCCA 
    ATGCATAACC CTCATGGACA CCTACATAAT GAACCAAAAA GTGAGTCACA TGGGCCGATA 
    CCAGAGTCTG CCAGGACAAC AGACGAATCC GTGCTGCCAA TCTCAGCATT GGAGTCTGAT 
    CCAAACATCG AGATGGTTTC AATACACATG TCACCTGAAG AGAAAAAGGA GGGATATACT 
    CATAAAGCTC TTATGAAGTT CTTATTATCT GGCGGGAAAC AGACTGTACA GCTAAAAGGC 
    ATCATATATG ACGACTTTCA AGATTGTGAA TGTAACGGAC ACTCGAATCG CTGCAGTTAC 
    ATCGACTTCC TGAACATAGT GACGTGCGTG AGCTGCAAAC ACAACACGAG GGGGCAGAAC 
    TGCGAACACT GTCGCATGAG CTACTACAAA AACATGTCTG CAGAGCCTGA TGATGAGAAC 
    GTGTGTATCG AGTGTAACTG TAATGCGTTG GGCTCAGTTC ATGACCGCTG CAACGGCACC 
    GGCTTCTGTC AGTGTAAAGA AGGCACAACC GGAGTCAAAT GTGATGAATG TCTCCCGGGC 
    TACTATTGGA AACAGGGCTG TTTACCGAAC GTGTGCGACG ACGAGTTACT CTTGTGCCAG 
    AACGGAGGGA CGTGCGTTCA GAATCAGCGC TGCATCTGCA CACCAGACTT TAAGGGTGTT 
    TTGTGCCAAC ATTCGCGCTG TGAAGAAGGC AAAAAGTGCA ACGGCGCCAG CGCTCTCCGT 
    TTGAGCCTGG CACTCCTGCT CTGCCCGCTT CTCGCCACCC TGCTGGGCTC CACCGCCTCC 
    TGA

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

    ntng2b ( XM_009295103.2 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_009293378.1 Danio rerio netrin g2b (ntng2b), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID ODa51521
    Clone ID Related Accession (Same CDS sequence) XM_009295103.3 , XM_009295103.2
    Accession Version XM_009295103.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4563bp)
    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 filaggrin-2-like isoform X3
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.6) 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_009295103.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGACGGCA ACTTACAGTG TCAGTGTGAA CACAACACCA CCGGCCAGGA CTGCCAGCGC 
    TGCAAAAAAG GATATAAAGC CAAGACCTGG AAACCAGGAT CGTATTTACC AACTCCGAAC 
    GGATCCCCAA ACACATGTTC TCAGGCATTG GCTGGTTCTT CTTCTGGATC CATGACCGAT 
    ACCTCAGCTG AAGAGTTCAC TACAGTTGTA ACAGAATCGC CAGTGTTGGA CACAGCACCA 
    CCAGTGGAGG ATTCTGGGGA AGTTGAAGAG ATTTCTGAAA AGAAAGAGAT GACTTCAGGG 
    AGACATGAAG TATCTGAAGA TGTAAAGAGA GTGGAGACTT TTCTGGAACA TAACAGACAC 
    AGGGAAGAAA CTGCACCTGA ACCTGTTGGA TCAGTGCGGG AGTCTGCCGA GCCAAAGCCA 
    GAGTCGATTC CAAAGCCAAT TTTGGAAACA CACAAGCCAC TACACAAACC TCAAGTTCAT 
    GTGTCTACAG CGGAATCTCA TGGAGCAGCA CAAACATCAC ATGAATCAGT AACAAAGCAT 
    CATGAACCAA TTCAGAAACT TCATGAGTCA ACAGTGAAAC CTCACTCAAT GCATACAACC 
    CATGAGACTA TACAGAAACC TCATGAACCA AAAGTGAATT CTCATGAATC AATGCATAAA 
    CCCCATGAGC AAATTGTAAA TCTTAATGAA TCAATGTATA AGCCTCATCA GCCAATATGG 
    GATCCACATT CATCGCCGCA AAAACCTTTT GAGCCAAACG TGAACCCCCT TGAGTCAGTA 
    GTGAATATTC ATGAGTCAAC GCATAAATCA CATGAAGCAG TAGTGAATCC TCAGGAATCA 
    ATGAATAACC CTCATGGGTC AGTAGTAAAC CCTCACAAGT CAGGGCATAA CCCTCATGGG 
    TCAGTAGTGA ACCCTCACGG GTCAGGGCAT AACCCTCATG GGTCAGTAGT CAACCCTCAC 
    GAGTCAGGGC ATAACCCTCA TGGGTCAGTA GTGAATCCTC ACGAGTCAGG GCATAACCCT 
    CATGGGTCAG TAGTGAATCC TCACGAGTCA GGGCATAACC CTCATGGGTC AATAGTAAAC 
    CCTTATGAGT CAGGGCATAA CTCTTATGGG TCAGTAGTGA ACCCTCACGG GTCAGTAGTG 
    AACCCTCACG GGTCAGGGCA TAACCCTCAT GGGTCAGTAG TGAATCCTCA CGAGTCAGGG 
    CATAACCCTC ATGGGTCAAT AGTGAACCCT CACGGGTCAG GGCATAACCC TCATGGGTCA 
    GTAGTGAAAC CTCACGGGTC AGTAGTGAAC CCTCACGAGT CAGGGCATAA CCCTCATGGA 
    ACAGTAGTGA ATCCTCACGA GTCAGGGCAT AACCCTCATG GGTCAATAGT AAACCCTCTT 
    GAGTCAGGGC ACAACCCTCA TGGGTCGGTA GTGAATCCTC ATGGCTCAGG GCTTAACCCT 
    CATGGGTCAG TAGTGAATCC TCACGAGTCA GGGCATAACC CTCATGGGTC AGTAGTGAAC 
    CCTCACGAGT CAGGGCATAA CCCTCATGGG TCAGTAGTGA ACCCTCACGA GTCAGGGCAT 
    AACCCTCATG GGTCAGTAGT GAACCCTCAC GAGTCAGGGC ATAACCCTCA TGGGTCAGTA 
    GTGAACCCTC ACGAGTCAGG GCATAATCCT CATGGAACAG TAGTGAATCC TCACGAGTCA 
    GGGCATAACC CTCATGGGTC AGTAGTGAAC CCTCACGAGT CAGGGCATAA TCCTCATGGA 
    ACAGTAGTGA ATCCTCACGA GTCAGGGCAT AACCCTCATG GGTCAATAGT AAACCCTCTT 
    GATTCAGGGC ACAACCCTCA TGGGTCGGTA GTGAATCCTC ATGGCTCAGG GCTTAACCCT 
    CATGGGTCAG TAGTGAATCC TCACGAGTCA GGGCATAACC CTCATGGGTC AGTAGTGAAT 
    CCTCACGAGT CAGGGCATAA CCCTCATGGG TCAGTAGTGA ATTCTCACGA GTCAGGGCAT 
    AACCCTCATG GGTCAGTAGT GAATACTCAC GAGTCAGGGC ATAACCCTCA TGGGTCAGTA 
    GTGAATCCTC ACGAGTCAGG GCATAACCCT CATGGGTCAG TAGTGAATAT TCATAGTTCA 
    GAGCAGAAAT CTCATGATCC AGTAGGGAAT CCGCATGGGT CAGAGCATAA CCTTCATGGG 
    TCAGAGGTGA ATCATCATGG ATCAGAACAT AAATCTCATG AGCCACTAGT AAACCCCCAT 
    GGGTCAGAGC ATAGTCCTCA TAGGTCAGAA GTGGATCCTC ATGGGTCAGT AGTGAATCCT 
    CATGGGTCAG GGCATAAATC TCATGACCCA GTTATGAATC CCCATGATCC AGTAGTAAAT 
    CCTCATGGGT CAGAGCATAA ATCTCACGAT GCAGTAGTGA ATCATCATGG GTCAGTGGAT 
    AAATCTCATG AACCAGTAGT GAATGCTCAT GGGTCAGAGC ATAAGCCTCA TGGGTCAGGT 
    CATAAACCTC ATGAGTCAGT AGTGAATCCT CATGGATTGG AGCATAAATC TCATGACCTA 
    GAAGTAAATC CTCATGGTTC AAAGCACAAC ACACATGAGC CAATAGTGAA TCCTCATGGG 
    ACAGAGCATA ACCCTCATGG GTCATCAGCA AATCCTCATG AGTCAGATCA TAAATCTCAT 
    GAGCCAGTAG TTAATCCACA TGGGTCAGGG CACAACCCTC ATGGGTCAGG GCATAACCCT 
    CACAACCCAG TAGTGAATCC TCATGTGTCA GAGCATAAAT CTCATGACCC AGTAGTACAC 
    CCTCATGGGT CAGGGCATAA CAAACATGAG CCAATAGTTA ATCCTATTGG GTCAGGGCAT 
    AACTCCCATG GGTCAGTAGT GAATCCTCAT GGGTCAGAGC ATAACCCTCA TGGGTCAGTA 
    GTGAATCCTC ATGGGTCAGA GCATAACCCT CATGGGTCAG TAGTGAATCC TCATGGGTCA 
    GAGCATAACC CTCATGGGTC AGTAGTGAAT ACTCATGGCT CAGGGCATAA CTCTCATGGG 
    TCAGTAGCAA ATCCTCATGG CTCAGAGAAT AACCCACATG GGTCAGAGCA TAACTCTCAT 
    GGGTCAGTAG CAAATCCTCA TGGGTCAGGG CATACATTTC ATGGGTCAAT AGCAAATCCT 
    CATGTGTCAG CGGAAAACCC TCATGGGTCA GTAGCGAATC CTCATGGGTC AGAGCATAAC 
    TCTCATGGGT CAGTAGCGAA TCCTCACGGG TCAGAGCATA ACCCTCATGG GTCAGAAGCG 
    AATCCTCATG GGTCAGAGCA TAACTCTCAT GGATCAGTAG CAAATCCTCA TGGGTCAGGG 
    CATAAGCCAC ATGGGTCAGA GTATAACCCT CATGGGTCAG TAGCGAATCC TCTTGTGTCA 
    GAGTATAACA CTCATGGGTC AGTAGCGAAT CCTCATGGGT CAGCGCATAA CCCTCATGGG 
    TCAGTAGCGA ATCCTCATGG GTCAGGGCAT GACCCACATG GGTCAGAGTA TAACCCTCAT 
    GGGTCAGTAG AAAACCCTCA GGGGTCAGCG CCTAACTCTC ATGGATCGGT AGCAAATCCT 
    CATGGGTCAG TAGAAAATCC TCATGCGTCA GCGCATAACT CTCATGGATC GGTAGCAAAT 
    CCTCATGGGT CAGCGCATAA CTCTCATGGG TCGGTAGCAA GTCCTCATGG GTCAGCGCAT 
    AACTCTCATG GGTCAGGGCA TAATCCTCAT GGGTCAGGGC ATAATCCTCA TGAGTCAGGG 
    CATAAAACTC ATGGGCCAAG GCATAAGCCT CATGGGTCAG TAGTGTATCC TCATGAGCCA 
    ATGCATAACC CTCATGGACA CCTACATAAT GAACCAAAAA GTGAGTCACA TGGGCCGATA 
    CCAGAGTCTG CCAGGACAAC AGACGAATCC GTGCTGCCAA TCTCAGCATT GGAGTCTGAT 
    CCAAACATCG AGATGGTTTC AATACACATG TCACCTGAAG AGAAAAAGGA GGGATATACT 
    CATAAAGCTC TTATGAAGTT CTTATTATCT GGCGGGAAAC AGACTGTACA GCTAAAAGGC 
    ATCATATATG ACGACTTTCA AGATTGTGAA TGTAACGGAC ACTCGAATCG CTGCAGTTAC 
    ATCGACTTCC TGAACATAGT GACGTGCGTG AGCTGCAAAC ACAACACGAG GGGGCAGAAC 
    TGCGAACACT GTCGCATGAG CTACTACAAA AACATGTCTG CAGAGCCTGA TGATGAGAAC 
    GTGTGTATCG AGTGTAACTG TAATGCGTTG GGCTCAGTTC ATGACCGCTG CAACGGCACC 
    GGCTTCTGTC AGTGTAAAGA AGGCACAACC GGAGTCAAAT GTGATGAATG TCTCCCGGGC 
    TACTATTGGA AACAGGGCTG TTTACCGAAC GTGTGCGACG ACGAGTTACT CTTGTGCCAG 
    AACGGAGGGA CGTGCGTTCA GAATCAGCGC TGCATCTGCA CACCAGACTT TAAGGGTGTT 
    TTGTGCCAAC ATTCGCGCTG TGAAGAAGGC AAAAAGTGCA ACGGCGCCAG CGCTCTCCGT 
    TTGAGCCTGG CACTCCTGCT CTGCCCGCTT CTCGCCACCC TGCTGGGCTC CACCGCCTCC 
    TGA

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

    RefSeq XP_009293378.1
    CDS60..4622
    Translation

    Target ORF information:

    RefSeq Version XM_009295103.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio netrin g2b (ntng2b), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_009295103.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGACGGCA ACTTACAGTG TCAGTGTGAA CACAACACCA CCGGCCAGGA CTGCCAGCGC 
    TGCAAAAAAG GATATAAAGC CAAGACCTGG AAACCAGGAT CGTATTTACC AACTCCGAAC 
    GGATCCCCAA ACACATGTTC TCAGGCATTG GCTGGTTCTT CTTCTGGATC CATGACCGAT 
    ACCTCAGCTG AAGAGTTCAC TACAGTTGTA ACAGAATCGC CAGTGTTGGA CACAGCACCA 
    CCAGTGGAGG ATTCTGGGGA AGTTGAAGAG ATTTCTGAAA AGAAAGAGAT GACTTCAGGG 
    AGACATGAAG TATCTGAAGA TGTAAAGAGA GTGGAGACTT TTCTGGAACA TAACAGACAC 
    AGGGAAGAAA CTGCACCTGA ACCTGTTGGA TCAGTGCGGG AGTCTGCCGA GCCAAAGCCA 
    GAGTCGATTC CAAAGCCAAT TTTGGAAACA CACAAGCCAC TACACAAACC TCAAGTTCAT 
    GTGTCTACAG CGGAATCTCA TGGAGCAGCA CAAACATCAC ATGAATCAGT AACAAAGCAT 
    CATGAACCAA TTCAGAAACT TCATGAGTCA ACAGTGAAAC CTCACTCAAT GCATACAACC 
    CATGAGACTA TACAGAAACC TCATGAACCA AAAGTGAATT CTCATGAATC AATGCATAAA 
    CCCCATGAGC AAATTGTAAA TCTTAATGAA TCAATGTATA AGCCTCATCA GCCAATATGG 
    GATCCACATT CATCGCCGCA AAAACCTTTT GAGCCAAACG TGAACCCCCT TGAGTCAGTA 
    GTGAATATTC ATGAGTCAAC GCATAAATCA CATGAAGCAG TAGTGAATCC TCAGGAATCA 
    ATGAATAACC CTCATGGGTC AGTAGTAAAC CCTCACAAGT CAGGGCATAA CCCTCATGGG 
    TCAGTAGTGA ACCCTCACGG GTCAGGGCAT AACCCTCATG GGTCAGTAGT CAACCCTCAC 
    GAGTCAGGGC ATAACCCTCA TGGGTCAGTA GTGAATCCTC ACGAGTCAGG GCATAACCCT 
    CATGGGTCAG TAGTGAATCC TCACGAGTCA GGGCATAACC CTCATGGGTC AATAGTAAAC 
    CCTTATGAGT CAGGGCATAA CTCTTATGGG TCAGTAGTGA ACCCTCACGG GTCAGTAGTG 
    AACCCTCACG GGTCAGGGCA TAACCCTCAT GGGTCAGTAG TGAATCCTCA CGAGTCAGGG 
    CATAACCCTC ATGGGTCAAT AGTGAACCCT CACGGGTCAG GGCATAACCC TCATGGGTCA 
    GTAGTGAAAC CTCACGGGTC AGTAGTGAAC CCTCACGAGT CAGGGCATAA CCCTCATGGA 
    ACAGTAGTGA ATCCTCACGA GTCAGGGCAT AACCCTCATG GGTCAATAGT AAACCCTCTT 
    GAGTCAGGGC ACAACCCTCA TGGGTCGGTA GTGAATCCTC ATGGCTCAGG GCTTAACCCT 
    CATGGGTCAG TAGTGAATCC TCACGAGTCA GGGCATAACC CTCATGGGTC AGTAGTGAAC 
    CCTCACGAGT CAGGGCATAA CCCTCATGGG TCAGTAGTGA ACCCTCACGA GTCAGGGCAT 
    AACCCTCATG GGTCAGTAGT GAACCCTCAC GAGTCAGGGC ATAACCCTCA TGGGTCAGTA 
    GTGAACCCTC ACGAGTCAGG GCATAATCCT CATGGAACAG TAGTGAATCC TCACGAGTCA 
    GGGCATAACC CTCATGGGTC AGTAGTGAAC CCTCACGAGT CAGGGCATAA TCCTCATGGA 
    ACAGTAGTGA ATCCTCACGA GTCAGGGCAT AACCCTCATG GGTCAATAGT AAACCCTCTT 
    GATTCAGGGC ACAACCCTCA TGGGTCGGTA GTGAATCCTC ATGGCTCAGG GCTTAACCCT 
    CATGGGTCAG TAGTGAATCC TCACGAGTCA GGGCATAACC CTCATGGGTC AGTAGTGAAT 
    CCTCACGAGT CAGGGCATAA CCCTCATGGG TCAGTAGTGA ATTCTCACGA GTCAGGGCAT 
    AACCCTCATG GGTCAGTAGT GAATACTCAC GAGTCAGGGC ATAACCCTCA TGGGTCAGTA 
    GTGAATCCTC ACGAGTCAGG GCATAACCCT CATGGGTCAG TAGTGAATAT TCATAGTTCA 
    GAGCAGAAAT CTCATGATCC AGTAGGGAAT CCGCATGGGT CAGAGCATAA CCTTCATGGG 
    TCAGAGGTGA ATCATCATGG ATCAGAACAT AAATCTCATG AGCCACTAGT AAACCCCCAT 
    GGGTCAGAGC ATAGTCCTCA TAGGTCAGAA GTGGATCCTC ATGGGTCAGT AGTGAATCCT 
    CATGGGTCAG GGCATAAATC TCATGACCCA GTTATGAATC CCCATGATCC AGTAGTAAAT 
    CCTCATGGGT CAGAGCATAA ATCTCACGAT GCAGTAGTGA ATCATCATGG GTCAGTGGAT 
    AAATCTCATG AACCAGTAGT GAATGCTCAT GGGTCAGAGC ATAAGCCTCA TGGGTCAGGT 
    CATAAACCTC ATGAGTCAGT AGTGAATCCT CATGGATTGG AGCATAAATC TCATGACCTA 
    GAAGTAAATC CTCATGGTTC AAAGCACAAC ACACATGAGC CAATAGTGAA TCCTCATGGG 
    ACAGAGCATA ACCCTCATGG GTCATCAGCA AATCCTCATG AGTCAGATCA TAAATCTCAT 
    GAGCCAGTAG TTAATCCACA TGGGTCAGGG CACAACCCTC ATGGGTCAGG GCATAACCCT 
    CACAACCCAG TAGTGAATCC TCATGTGTCA GAGCATAAAT CTCATGACCC AGTAGTACAC 
    CCTCATGGGT CAGGGCATAA CAAACATGAG CCAATAGTTA ATCCTATTGG GTCAGGGCAT 
    AACTCCCATG GGTCAGTAGT GAATCCTCAT GGGTCAGAGC ATAACCCTCA TGGGTCAGTA 
    GTGAATCCTC ATGGGTCAGA GCATAACCCT CATGGGTCAG TAGTGAATCC TCATGGGTCA 
    GAGCATAACC CTCATGGGTC AGTAGTGAAT ACTCATGGCT CAGGGCATAA CTCTCATGGG 
    TCAGTAGCAA ATCCTCATGG CTCAGAGAAT AACCCACATG GGTCAGAGCA TAACTCTCAT 
    GGGTCAGTAG CAAATCCTCA TGGGTCAGGG CATACATTTC ATGGGTCAAT AGCAAATCCT 
    CATGTGTCAG CGGAAAACCC TCATGGGTCA GTAGCGAATC CTCATGGGTC AGAGCATAAC 
    TCTCATGGGT CAGTAGCGAA TCCTCACGGG TCAGAGCATA ACCCTCATGG GTCAGAAGCG 
    AATCCTCATG GGTCAGAGCA TAACTCTCAT GGATCAGTAG CAAATCCTCA TGGGTCAGGG 
    CATAAGCCAC ATGGGTCAGA GTATAACCCT CATGGGTCAG TAGCGAATCC TCTTGTGTCA 
    GAGTATAACA CTCATGGGTC AGTAGCGAAT CCTCATGGGT CAGCGCATAA CCCTCATGGG 
    TCAGTAGCGA ATCCTCATGG GTCAGGGCAT GACCCACATG GGTCAGAGTA TAACCCTCAT 
    GGGTCAGTAG AAAACCCTCA GGGGTCAGCG CCTAACTCTC ATGGATCGGT AGCAAATCCT 
    CATGGGTCAG TAGAAAATCC TCATGCGTCA GCGCATAACT CTCATGGATC GGTAGCAAAT 
    CCTCATGGGT CAGCGCATAA CTCTCATGGG TCGGTAGCAA GTCCTCATGG GTCAGCGCAT 
    AACTCTCATG GGTCAGGGCA TAATCCTCAT GGGTCAGGGC ATAATCCTCA TGAGTCAGGG 
    CATAAAACTC ATGGGCCAAG GCATAAGCCT CATGGGTCAG TAGTGTATCC TCATGAGCCA 
    ATGCATAACC CTCATGGACA CCTACATAAT GAACCAAAAA GTGAGTCACA TGGGCCGATA 
    CCAGAGTCTG CCAGGACAAC AGACGAATCC GTGCTGCCAA TCTCAGCATT GGAGTCTGAT 
    CCAAACATCG AGATGGTTTC AATACACATG TCACCTGAAG AGAAAAAGGA GGGATATACT 
    CATAAAGCTC TTATGAAGTT CTTATTATCT GGCGGGAAAC AGACTGTACA GCTAAAAGGC 
    ATCATATATG ACGACTTTCA AGATTGTGAA TGTAACGGAC ACTCGAATCG CTGCAGTTAC 
    ATCGACTTCC TGAACATAGT GACGTGCGTG AGCTGCAAAC ACAACACGAG GGGGCAGAAC 
    TGCGAACACT GTCGCATGAG CTACTACAAA AACATGTCTG CAGAGCCTGA TGATGAGAAC 
    GTGTGTATCG AGTGTAACTG TAATGCGTTG GGCTCAGTTC ATGACCGCTG CAACGGCACC 
    GGCTTCTGTC AGTGTAAAGA AGGCACAACC GGAGTCAAAT GTGATGAATG TCTCCCGGGC 
    TACTATTGGA AACAGGGCTG TTTACCGAAC GTGTGCGACG ACGAGTTACT CTTGTGCCAG 
    AACGGAGGGA CGTGCGTTCA GAATCAGCGC TGCATCTGCA CACCAGACTT TAAGGGTGTT 
    TTGTGCCAAC ATTCGCGCTG TGAAGAAGGC AAAAAGTGCA ACGGCGCCAG CGCTCTCCGT 
    TTGAGCCTGG CACTCCTGCT CTGCCCGCTT CTCGCCACCC TGCTGGGCTC CACCGCCTCC 
    TGA

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

    ntng2b ( XM_021468964.1 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_021324639.1 Danio rerio netrin g2b (ntng2b), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID ODa51523
    Clone ID Related Accession (Same CDS sequence) XM_021468964.1
    Accession Version XM_021468964.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4509bp)
    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 filaggrin-2-like isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGACGGCA ACTTACAGTG TCAGTGTGAA CACAACACCA CCGGCCAGGA CTGCCAGCGC 
    TGCAAAAAAG GATATAAAGC CAAGACCTGG AAACCAGGAT CGTATTTACC AACTCCGAAC 
    GGATCCCCAA ACACATGTTC TCAGGCATTG GCTGGTTCTT CTTCTGGATC CATGACCGAT 
    ACCTCAGCTG AAGAGTTCAC TACAGTTGTA ACAGAATCGC CAGTGTTGGA CACAGATGCT 
    CCTCCGGCAC ATGTAGATAC TGTAAACCAC GTCCCATCAG CTGAAATAGA CCCCAAGGCA 
    CTTTATACCA CCCCAAAAGC CACGCCCCCT TCTCATATTT TCAGAGAGGA CACTCCCCGC 
    ACGGCCACAC CTCCAGAGGA GGAGCCTGTG CACATACATA TACAGAGCAA AGCACCACCA 
    GTGGAGGATT CTGGGGAAGT TGAAGAGATT TCTGAAAAGA AAGAGATGAC TTCAGGGAGA 
    CATGAAGTAT CTGAAGATGT AAAGAGAGTG GAGACTTTTC TGGAACATAA CAGACACAGG 
    GAAGAAACTG CACCTGAACC TGTTGGATCA GTGCGGGAGT CTGCCGAGCC AAAGCCAGAG 
    TCGATTCCAA AGCCAATTTT GGAAACACAC AAGCCACTAC ACAAACCTCA AGTTCATGTG 
    TCTACAGCGG AATCTCATGG AGCAGCACAA ACATCACATG AATCAGTAAC AAAGCATCAT 
    GAACCAATTC AGAAACTTCA TGAGTCAACA GTGAAACCTC ACTCAATGCA TACAACCCAT 
    GAGACTATAC AGAAACCTCA TGAACCAAAA GTGAATTCTC ATGAATCAAT GCATAAACCC 
    CATGAGCAAA TTGTAAATCT TAATGAATCA ATGTATAAGC CTCATCAGCC AATATGGGAT 
    CCACATTCAT CGCCGCAAAA ACCTTTTGAG CCAAACGTGA ACCCCCTTGA GTCAGTAGTG 
    AATATTCATG AGTCAACGCA TAAATCACAT GAAGCAGTAG TGAATCCTCA GGAATCAATG 
    AATAACCCTC ATGGGTCAGT AGTAAACCCT CACAAGTCAG GGCATAACCC TCATGGGTCA 
    GTAGTGAACC CTCACGGGTC AGGGCATAAC CCTCATGGGT CAGTAGTGAA TCCTCACGAG 
    TCAGGGCATA ACCCTCATGG GTCAATAGTG AACCCTCACG GGTCAGGGCA TAACCCTCAT 
    GGGTCAGTAG TGAAACCTCA CGGGTCAGTA GTGAACCCTC ACGAGTCAGG GCATAACCCT 
    CATGGAACAG TAGTGAATCC TCACGAGTCA GGGCATAACC CTCATGGGTC AATAGTAAAC 
    CCTCTTGAGT CAGGGCACAA CCCTCATGGG TCGGTAGTGA ATCCTCATGG CTCAGGGCTT 
    AACCCTCATG GGTCAGTAGT GAATCCTCAC GAGTCAGGGC ATAACCCTCA TGGGTCAGTA 
    GTGAACCCTC ACGAGTCAGG GCATAACCCT CATGGGTCAG TAGTGAACCC TCACGAGTCA 
    GGGCATAACC CTCATGGGTC AGTAGTGAAC CCTCACGAGT CAGGGCATAA CCCTCATGGG 
    TCAGTAGTGA ACCCTCACGA GTCAGGGCAT AATCCTCATG GAACAGTAGT GAATCCTCAC 
    GAGTCAGGGC ATAACCCTCA TGGGTCAGTA GTGAACCCTC ACGAGTCAGG GCATAATCCT 
    CATGGAACAG TAGTGAATCC TCACGAGTCA GGGCATAACC CTCATGGGTC AATAGTAAAC 
    CCTCTTGATT CAGGGCACAA CCCTCATGGG TCGGTAGTGA ATCCTCATGG CTCAGGGCTT 
    AACCCTCATG GGTCAGTAGT GAATCCTCAC GAGTCAGGGC ATAACCCTCA TGGGTCAGTA 
    GTGAATCCTC ACGAGTCAGG GCATAACCCT CATGGGTCAG TAGTGAATTC TCACGAGTCA 
    GGGCATAACC CTCATGGGTC AGTAGTGAAT ACTCACGAGT CAGGGCATAA CCCTCATGGG 
    TCAGTAGTGA ATCCTCACGA GTCAGGGCAT AACCCTCATG GGTCAGTAGT GAATATTCAT 
    AGTTCAGAGC AGAAATCTCA TGATCCAGTA GGGAATCCGC ATGGGTCAGA GCATAACCTT 
    CATGGGTCAG AGGTGAATCA TCATGGATCA GAACATAAAT CTCATGAGCC ACTAGTAAAC 
    CCCCATGGGT CAGAGCATAG TCCTCATAGG TCAGAAGTGG ATCCTCATGG GTCAGTAGTG 
    AATCCTCATG GGTCAGGGCA TAAATCTCAT GACCCAGTTA TGAATCCCCA TGATCCAGTA 
    GTAAATCCTC ATGGGTCAGA GCATAAATCT CACGATGCAG TAGTGAATCA TCATGGGTCA 
    GTGGATAAAT CTCATGAACC AGTAGTGAAT GCTCATGGGT CAGAGCATAA GCCTCATGGG 
    TCAGGTCATA AACCTCATGA GTCAGTAGTG AATCCTCATG GATTGGAGCA TAAATCTCAT 
    GACCTAGAAG TAAATCCTCA TGGTTCAAAG CACAACACAC ATGAGCCAAT AGTGAATCCT 
    CATGGGACAG AGCATAACCC TCATGGGTCA TCAGCAAATC CTCATGAGTC AGATCATAAA 
    TCTCATGAGC CAGTAGTTAA TCCACATGGG TCAGGGCACA ACCCTCATGG GTCAGGGCAT 
    AACCCTCACA ACCCAGTAGT GAATCCTCAT GTGTCAGAGC ATAAATCTCA TGACCCAGTA 
    GTACACCCTC ATGGGTCAGG GCATAACAAA CATGAGCCAA TAGTTAATCC TATTGGGTCA 
    GGGCATAACT CCCATGGGTC AGTAGTGAAT CCTCATGGGT CAGAGCATAA CCCTCATGGG 
    TCAGTAGTGA ATCCTCATGG GTCAGAGCAT AACCCTCATG GGTCAGTAGT GAATCCTCAT 
    GGGTCAGAGC ATAACCCTCA TGGGTCAGTA GTGAATACTC ATGGCTCAGG GCATAACTCT 
    CATGGGTCAG TAGCAAATCC TCATGGCTCA GAGAATAACC CACATGGGTC AGAGCATAAC 
    TCTCATGGGT CAGTAGCAAA TCCTCATGGG TCAGGGCATA CATTTCATGG GTCAATAGCA 
    AATCCTCATG TGTCAGCGGA AAACCCTCAT GGGTCAGTAG CGAATCCTCA TGGGTCAGAG 
    CATAACTCTC ATGGGTCAGT AGCGAATCCT CACGGGTCAG AGCATAACCC TCATGGGTCA 
    GAAGCGAATC CTCATGGGTC AGAGCATAAC TCTCATGGAT CAGTAGCAAA TCCTCATGGG 
    TCAGGGCATA AGCCACATGG GTCAGAGTAT AACCCTCATG GGTCAGTAGC GAATCCTCTT 
    GTGTCAGAGT ATAACACTCA TGGGTCAGTA GCGAATCCTC ATGGGTCAGC GCATAACCCT 
    CATGGGTCAG TAGCGAATCC TCATGGGTCA GGGCATGACC CACATGGGTC AGAGTATAAC 
    CCTCATGGGT CAGTAGAAAA CCCTCAGGGG TCAGCGCCTA ACTCTCATGG ATCGGTAGCA 
    AATCCTCATG GGTCAGTAGA AAATCCTCAT GCGTCAGCGC ATAACTCTCA TGGATCGGTA 
    GCAAATCCTC ATGGGTCAGC GCATAACTCT CATGGGTCGG TAGCAAGTCC TCATGGGTCA 
    GCGCATAACT CTCATGGGTC AGGGCATAAT CCTCATGGGT CAGGGCATAA TCCTCATGAG 
    TCAGGGCATA AAACTCATGG GCCAAGGCAT AAGCCTCATG GGTCAGTAGT GTATCCTCAT 
    GAGCCAATGC ATAACCCTCA TGGACACCTA CATAATGAAC CAAAAAGTGA GTCACATGGG 
    CCGATACCAG AGTCTGCCAG GACAACAGAC GAATCCGTGC TGCCAATCTC AGCATTGGAG 
    TCTGATCCAA ACATCGAGAT GGTTTCAATA CACATGTCAC CTGAAGAGAA AAAGGAGGGA 
    TATACTCATA AAGCTCTTAT GAAGTTCTTA TTATCTGGCG GGAAACAGAC TGTACAGCTA 
    AAAGGCATCA TATATGACGA CTTTCAAGAT TGTGAATGTA ACGGACACTC GAATCGCTGC 
    AGTTACATCG ACTTCCTGAA CATAGTGACG TGCGTGAGCT GCAAACACAA CACGAGGGGG 
    CAGAACTGCG AACACTGTCG CATGAGCTAC TACAAAAACA TGTCTGCAGA GCCTGATGAT 
    GAGAACGTGT GTATCGAGTG TAACTGTAAT GCGTTGGGCT CAGTTCATGA CCGCTGCAAC 
    GGCACCGGCT TCTGTCAGTG TAAAGAAGGC ACAACCGGAG TCAAATGTGA TGAATGTCTC 
    CCGGGCTACT ATTGGAAACA GGGCTGTTTA CCGAACGTGT GCGACGACGA GTTACTCTTG 
    TGCCAGAACG GAGGGACGTG CGTTCAGAAT CAGCGCTGCA TCTGCACACC AGACTTTAAG 
    GGTGTTTTGT GCCAACATTC GCGCTGTGAA GAAGGCAAAA AGTGCAACGG CGCCAGCGCT 
    CTCCGTTTGA GCCTGGCACT CCTGCTCTGC CCGCTTCTCG CCACCCTGCT GGGCTCCACC 
    GCCTCCTGA

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

    RefSeq XP_021324639.1
    CDS62..4570
    Translation

    Target ORF information:

    RefSeq Version XM_021468964.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio netrin g2b (ntng2b), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021468964.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGACGGCA ACTTACAGTG TCAGTGTGAA CACAACACCA CCGGCCAGGA CTGCCAGCGC 
    TGCAAAAAAG GATATAAAGC CAAGACCTGG AAACCAGGAT CGTATTTACC AACTCCGAAC 
    GGATCCCCAA ACACATGTTC TCAGGCATTG GCTGGTTCTT CTTCTGGATC CATGACCGAT 
    ACCTCAGCTG AAGAGTTCAC TACAGTTGTA ACAGAATCGC CAGTGTTGGA CACAGATGCT 
    CCTCCGGCAC ATGTAGATAC TGTAAACCAC GTCCCATCAG CTGAAATAGA CCCCAAGGCA 
    CTTTATACCA CCCCAAAAGC CACGCCCCCT TCTCATATTT TCAGAGAGGA CACTCCCCGC 
    ACGGCCACAC CTCCAGAGGA GGAGCCTGTG CACATACATA TACAGAGCAA AGCACCACCA 
    GTGGAGGATT CTGGGGAAGT TGAAGAGATT TCTGAAAAGA AAGAGATGAC TTCAGGGAGA 
    CATGAAGTAT CTGAAGATGT AAAGAGAGTG GAGACTTTTC TGGAACATAA CAGACACAGG 
    GAAGAAACTG CACCTGAACC TGTTGGATCA GTGCGGGAGT CTGCCGAGCC AAAGCCAGAG 
    TCGATTCCAA AGCCAATTTT GGAAACACAC AAGCCACTAC ACAAACCTCA AGTTCATGTG 
    TCTACAGCGG AATCTCATGG AGCAGCACAA ACATCACATG AATCAGTAAC AAAGCATCAT 
    GAACCAATTC AGAAACTTCA TGAGTCAACA GTGAAACCTC ACTCAATGCA TACAACCCAT 
    GAGACTATAC AGAAACCTCA TGAACCAAAA GTGAATTCTC ATGAATCAAT GCATAAACCC 
    CATGAGCAAA TTGTAAATCT TAATGAATCA ATGTATAAGC CTCATCAGCC AATATGGGAT 
    CCACATTCAT CGCCGCAAAA ACCTTTTGAG CCAAACGTGA ACCCCCTTGA GTCAGTAGTG 
    AATATTCATG AGTCAACGCA TAAATCACAT GAAGCAGTAG TGAATCCTCA GGAATCAATG 
    AATAACCCTC ATGGGTCAGT AGTAAACCCT CACAAGTCAG GGCATAACCC TCATGGGTCA 
    GTAGTGAACC CTCACGGGTC AGGGCATAAC CCTCATGGGT CAGTAGTGAA TCCTCACGAG 
    TCAGGGCATA ACCCTCATGG GTCAATAGTG AACCCTCACG GGTCAGGGCA TAACCCTCAT 
    GGGTCAGTAG TGAAACCTCA CGGGTCAGTA GTGAACCCTC ACGAGTCAGG GCATAACCCT 
    CATGGAACAG TAGTGAATCC TCACGAGTCA GGGCATAACC CTCATGGGTC AATAGTAAAC 
    CCTCTTGAGT CAGGGCACAA CCCTCATGGG TCGGTAGTGA ATCCTCATGG CTCAGGGCTT 
    AACCCTCATG GGTCAGTAGT GAATCCTCAC GAGTCAGGGC ATAACCCTCA TGGGTCAGTA 
    GTGAACCCTC ACGAGTCAGG GCATAACCCT CATGGGTCAG TAGTGAACCC TCACGAGTCA 
    GGGCATAACC CTCATGGGTC AGTAGTGAAC CCTCACGAGT CAGGGCATAA CCCTCATGGG 
    TCAGTAGTGA ACCCTCACGA GTCAGGGCAT AATCCTCATG GAACAGTAGT GAATCCTCAC 
    GAGTCAGGGC ATAACCCTCA TGGGTCAGTA GTGAACCCTC ACGAGTCAGG GCATAATCCT 
    CATGGAACAG TAGTGAATCC TCACGAGTCA GGGCATAACC CTCATGGGTC AATAGTAAAC 
    CCTCTTGATT CAGGGCACAA CCCTCATGGG TCGGTAGTGA ATCCTCATGG CTCAGGGCTT 
    AACCCTCATG GGTCAGTAGT GAATCCTCAC GAGTCAGGGC ATAACCCTCA TGGGTCAGTA 
    GTGAATCCTC ACGAGTCAGG GCATAACCCT CATGGGTCAG TAGTGAATTC TCACGAGTCA 
    GGGCATAACC CTCATGGGTC AGTAGTGAAT ACTCACGAGT CAGGGCATAA CCCTCATGGG 
    TCAGTAGTGA ATCCTCACGA GTCAGGGCAT AACCCTCATG GGTCAGTAGT GAATATTCAT 
    AGTTCAGAGC AGAAATCTCA TGATCCAGTA GGGAATCCGC ATGGGTCAGA GCATAACCTT 
    CATGGGTCAG AGGTGAATCA TCATGGATCA GAACATAAAT CTCATGAGCC ACTAGTAAAC 
    CCCCATGGGT CAGAGCATAG TCCTCATAGG TCAGAAGTGG ATCCTCATGG GTCAGTAGTG 
    AATCCTCATG GGTCAGGGCA TAAATCTCAT GACCCAGTTA TGAATCCCCA TGATCCAGTA 
    GTAAATCCTC ATGGGTCAGA GCATAAATCT CACGATGCAG TAGTGAATCA TCATGGGTCA 
    GTGGATAAAT CTCATGAACC AGTAGTGAAT GCTCATGGGT CAGAGCATAA GCCTCATGGG 
    TCAGGTCATA AACCTCATGA GTCAGTAGTG AATCCTCATG GATTGGAGCA TAAATCTCAT 
    GACCTAGAAG TAAATCCTCA TGGTTCAAAG CACAACACAC ATGAGCCAAT AGTGAATCCT 
    CATGGGACAG AGCATAACCC TCATGGGTCA TCAGCAAATC CTCATGAGTC AGATCATAAA 
    TCTCATGAGC CAGTAGTTAA TCCACATGGG TCAGGGCACA ACCCTCATGG GTCAGGGCAT 
    AACCCTCACA ACCCAGTAGT GAATCCTCAT GTGTCAGAGC ATAAATCTCA TGACCCAGTA 
    GTACACCCTC ATGGGTCAGG GCATAACAAA CATGAGCCAA TAGTTAATCC TATTGGGTCA 
    GGGCATAACT CCCATGGGTC AGTAGTGAAT CCTCATGGGT CAGAGCATAA CCCTCATGGG 
    TCAGTAGTGA ATCCTCATGG GTCAGAGCAT AACCCTCATG GGTCAGTAGT GAATCCTCAT 
    GGGTCAGAGC ATAACCCTCA TGGGTCAGTA GTGAATACTC ATGGCTCAGG GCATAACTCT 
    CATGGGTCAG TAGCAAATCC TCATGGCTCA GAGAATAACC CACATGGGTC AGAGCATAAC 
    TCTCATGGGT CAGTAGCAAA TCCTCATGGG TCAGGGCATA CATTTCATGG GTCAATAGCA 
    AATCCTCATG TGTCAGCGGA AAACCCTCAT GGGTCAGTAG CGAATCCTCA TGGGTCAGAG 
    CATAACTCTC ATGGGTCAGT AGCGAATCCT CACGGGTCAG AGCATAACCC TCATGGGTCA 
    GAAGCGAATC CTCATGGGTC AGAGCATAAC TCTCATGGAT CAGTAGCAAA TCCTCATGGG 
    TCAGGGCATA AGCCACATGG GTCAGAGTAT AACCCTCATG GGTCAGTAGC GAATCCTCTT 
    GTGTCAGAGT ATAACACTCA TGGGTCAGTA GCGAATCCTC ATGGGTCAGC GCATAACCCT 
    CATGGGTCAG TAGCGAATCC TCATGGGTCA GGGCATGACC CACATGGGTC AGAGTATAAC 
    CCTCATGGGT CAGTAGAAAA CCCTCAGGGG TCAGCGCCTA ACTCTCATGG ATCGGTAGCA 
    AATCCTCATG GGTCAGTAGA AAATCCTCAT GCGTCAGCGC ATAACTCTCA TGGATCGGTA 
    GCAAATCCTC ATGGGTCAGC GCATAACTCT CATGGGTCGG TAGCAAGTCC TCATGGGTCA 
    GCGCATAACT CTCATGGGTC AGGGCATAAT CCTCATGGGT CAGGGCATAA TCCTCATGAG 
    TCAGGGCATA AAACTCATGG GCCAAGGCAT AAGCCTCATG GGTCAGTAGT GTATCCTCAT 
    GAGCCAATGC ATAACCCTCA TGGACACCTA CATAATGAAC CAAAAAGTGA GTCACATGGG 
    CCGATACCAG AGTCTGCCAG GACAACAGAC GAATCCGTGC TGCCAATCTC AGCATTGGAG 
    TCTGATCCAA ACATCGAGAT GGTTTCAATA CACATGTCAC CTGAAGAGAA AAAGGAGGGA 
    TATACTCATA AAGCTCTTAT GAAGTTCTTA TTATCTGGCG GGAAACAGAC TGTACAGCTA 
    AAAGGCATCA TATATGACGA CTTTCAAGAT TGTGAATGTA ACGGACACTC GAATCGCTGC 
    AGTTACATCG ACTTCCTGAA CATAGTGACG TGCGTGAGCT GCAAACACAA CACGAGGGGG 
    CAGAACTGCG AACACTGTCG CATGAGCTAC TACAAAAACA TGTCTGCAGA GCCTGATGAT 
    GAGAACGTGT GTATCGAGTG TAACTGTAAT GCGTTGGGCT CAGTTCATGA CCGCTGCAAC 
    GGCACCGGCT TCTGTCAGTG TAAAGAAGGC ACAACCGGAG TCAAATGTGA TGAATGTCTC 
    CCGGGCTACT ATTGGAAACA GGGCTGTTTA CCGAACGTGT GCGACGACGA GTTACTCTTG 
    TGCCAGAACG GAGGGACGTG CGTTCAGAAT CAGCGCTGCA TCTGCACACC AGACTTTAAG 
    GGTGTTTTGT GCCAACATTC GCGCTGTGAA GAAGGCAAAA AGTGCAACGG CGCCAGCGCT 
    CTCCGTTTGA GCCTGGCACT CCTGCTCTGC CCGCTTCTCG CCACCCTGCT GGGCTCCACC 
    GCCTCCTGA

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

    ntng2b ( XM_017353009.2 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_017208498.1 Danio rerio netrin g2b (ntng2b), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID ODa56957
    Clone ID Related Accession (Same CDS sequence) XM_017353009.2 , XM_017353009.1
    Accession Version XM_017353009.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4500bp)
    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 filaggrin-2-like isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.7) 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_017353009.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGACGGCA ACTTACAGTG TCAGTGTGAA CACAACACCA CCGGCCAGGA CTGCCAGCGC 
    TGCAAAAAAG GATATAAAGC CAAGACCTGG AAACCAGGAT CGTATTTACC AACTCCGAAC 
    GGATCCCCAA ACACATGTTC TCAGGCATTG GCTGGTTCTT CTTCTGGATC CACACCACCA 
    GTGGAGGATT CTGGGGAAGT TGAAGAGATT TCTGAAAAGA AAGAGATGAC TTCAGGGAGA 
    CATGAAGTAT CTGAAGATGT AAAGAGAGTG GAGACTTTTC TGGAACATAA CAGACACAGG 
    GAAGAAACTG CACCTGAACC TGTTGGATCA GTGCGGGAGT CTGCCGAGCC AAAGCCAGAG 
    TCGATTCCAA AGCCAATTTT GGAAACACAC AAGCCACTAC ACAAACCTCA AGTTCATGTG 
    TCTACAGCGG AATCTCATGG AGCAGCACAA ACATCACATG AATCAGTAAC AAAGCATCAT 
    GAACCAATTC AGAAACTTCA TGAGTCAACA GTGAAACCTC ACTCAATGCA TACAACCCAT 
    GAGACTATAC AGAAACCTCA TGAACCAAAA GTGAATTCTC ATGAATCAAT GCATAAACCC 
    CATGAGCAAA TTGTAAATCT TAATGAATCA ATGTATAAGC CTCATCAGCC AATATGGGAT 
    CCACATTCAT CGCCGCAAAA ACCTTTTGAG CCAAACGTGA ACCCCCTTGA GTCAGTAGTG 
    AATATTCATG AGTCAACGCA TAAATCACAT GAAGCAGTAG TGAATCCTCA GGAATCAATG 
    AATAACCCTC ATGGGTCAGT AGTAAACCCT CACAAGTCAG GGCATAACCC TCATGGGTCA 
    GTAGTGAACC CTCACGGGTC AGGGCATAAC CCTCATGGGT CAGTAGTCAA CCCTCACGAG 
    TCAGGGCATA ACCCTCATGG GTCAGTAGTG AATCCTCACG AGTCAGGGCA TAACCCTCAT 
    GGGTCAGTAG TGAATCCTCA CGAGTCAGGG CATAACCCTC ATGGGTCAAT AGTAAACCCT 
    TATGAGTCAG GGCATAACTC TTATGGGTCA GTAGTGAACC CTCACGGGTC AGTAGTGAAC 
    CCTCACGGGT CAGGGCATAA CCCTCATGGG TCAGTAGTGA ATCCTCACGA GTCAGGGCAT 
    AACCCTCATG GGTCAATAGT GAACCCTCAC GGGTCAGGGC ATAACCCTCA TGGGTCAGTA 
    GTGAAACCTC ACGGGTCAGT AGTGAACCCT CACGAGTCAG GGCATAACCC TCATGGAACA 
    GTAGTGAATC CTCACGAGTC AGGGCATAAC CCTCATGGGT CAATAGTAAA CCCTCTTGAG 
    TCAGGGCACA ACCCTCATGG GTCGGTAGTG AATCCTCATG GCTCAGGGCT TAACCCTCAT 
    GGGTCAGTAG TGAATCCTCA CGAGTCAGGG CATAACCCTC ATGGGTCAGT AGTGAACCCT 
    CACGAGTCAG GGCATAACCC TCATGGGTCA GTAGTGAACC CTCACGAGTC AGGGCATAAC 
    CCTCATGGGT CAGTAGTGAA CCCTCACGAG TCAGGGCATA ACCCTCATGG GTCAGTAGTG 
    AACCCTCACG AGTCAGGGCA TAATCCTCAT GGAACAGTAG TGAATCCTCA CGAGTCAGGG 
    CATAACCCTC ATGGGTCAGT AGTGAACCCT CACGAGTCAG GGCATAATCC TCATGGAACA 
    GTAGTGAATC CTCACGAGTC AGGGCATAAC CCTCATGGGT CAATAGTAAA CCCTCTTGAT 
    TCAGGGCACA ACCCTCATGG GTCGGTAGTG AATCCTCATG GCTCAGGGCT TAACCCTCAT 
    GGGTCAGTAG TGAATCCTCA CGAGTCAGGG CATAACCCTC ATGGGTCAGT AGTGAATCCT 
    CACGAGTCAG GGCATAACCC TCATGGGTCA GTAGTGAATT CTCACGAGTC AGGGCATAAC 
    CCTCATGGGT CAGTAGTGAA TACTCACGAG TCAGGGCATA ACCCTCATGG GTCAGTAGTG 
    AATCCTCACG AGTCAGGGCA TAACCCTCAT GGGTCAGTAG TGAATATTCA TAGTTCAGAG 
    CAGAAATCTC ATGATCCAGT AGGGAATCCG CATGGGTCAG AGCATAACCT TCATGGGTCA 
    GAGGTGAATC ATCATGGATC AGAACATAAA TCTCATGAGC CACTAGTAAA CCCCCATGGG 
    TCAGAGCATA GTCCTCATAG GTCAGAAGTG GATCCTCATG GGTCAGTAGT GAATCCTCAT 
    GGGTCAGGGC ATAAATCTCA TGACCCAGTT ATGAATCCCC ATGATCCAGT AGTAAATCCT 
    CATGGGTCAG AGCATAAATC TCACGATGCA GTAGTGAATC ATCATGGGTC AGTGGATAAA 
    TCTCATGAAC CAGTAGTGAA TGCTCATGGG TCAGAGCATA AGCCTCATGG GTCAGGTCAT 
    AAACCTCATG AGTCAGTAGT GAATCCTCAT GGATTGGAGC ATAAATCTCA TGACCTAGAA 
    GTAAATCCTC ATGGTTCAAA GCACAACACA CATGAGCCAA TAGTGAATCC TCATGGGACA 
    GAGCATAACC CTCATGGGTC ATCAGCAAAT CCTCATGAGT CAGATCATAA ATCTCATGAG 
    CCAGTAGTTA ATCCACATGG GTCAGGGCAC AACCCTCATG GGTCAGGGCA TAACCCTCAC 
    AACCCAGTAG TGAATCCTCA TGTGTCAGAG CATAAATCTC ATGACCCAGT AGTACACCCT 
    CATGGGTCAG GGCATAACAA ACATGAGCCA ATAGTTAATC CTATTGGGTC AGGGCATAAC 
    TCCCATGGGT CAGTAGTGAA TCCTCATGGG TCAGAGCATA ACCCTCATGG GTCAGTAGTG 
    AATCCTCATG GGTCAGAGCA TAACCCTCAT GGGTCAGTAG TGAATCCTCA TGGGTCAGAG 
    CATAACCCTC ATGGGTCAGT AGTGAATACT CATGGCTCAG GGCATAACTC TCATGGGTCA 
    GTAGCAAATC CTCATGGCTC AGAGAATAAC CCACATGGGT CAGAGCATAA CTCTCATGGG 
    TCAGTAGCAA ATCCTCATGG GTCAGGGCAT ACATTTCATG GGTCAATAGC AAATCCTCAT 
    GTGTCAGCGG AAAACCCTCA TGGGTCAGTA GCGAATCCTC ATGGGTCAGA GCATAACTCT 
    CATGGGTCAG TAGCGAATCC TCACGGGTCA GAGCATAACC CTCATGGGTC AGAAGCGAAT 
    CCTCATGGGT CAGAGCATAA CTCTCATGGA TCAGTAGCAA ATCCTCATGG GTCAGGGCAT 
    AAGCCACATG GGTCAGAGTA TAACCCTCAT GGGTCAGTAG CGAATCCTCT TGTGTCAGAG 
    TATAACACTC ATGGGTCAGT AGCGAATCCT CATGGGTCAG CGCATAACCC TCATGGGTCA 
    GTAGCGAATC CTCATGGGTC AGGGCATGAC CCACATGGGT CAGAGTATAA CCCTCATGGG 
    TCAGTAGAAA ACCCTCAGGG GTCAGCGCCT AACTCTCATG GATCGGTAGC AAATCCTCAT 
    GGGTCAGTAG AAAATCCTCA TGCGTCAGCG CATAACTCTC ATGGATCGGT AGCAAATCCT 
    CATGGGTCAG CGCATAACTC TCATGGGTCG GTAGCAAGTC CTCATGGGTC AGCGCATAAC 
    TCTCATGGGT CAGGGCATAA TCCTCATGGG TCAGGGCATA ATCCTCATGA GTCAGGGCAT 
    AAAACTCATG GGCCAAGGCA TAAGCCTCAT GGGTCAGTAG TGTATCCTCA TGAGCCAATG 
    CATAACCCTC ATGGACACCT ACATAATGAA CCAAAAAGTG AGTCACATGG GCCGATACCA 
    GAGTCTGCCA GGACAACAGA CGAATCCGTG CTGCCAATCT CAGCATTGGA GTCTGATCCA 
    AACATCGAGA TGGTTTCAAT ACACATGTCA CCTGAAGAGA AAAAGGAGGG ATATACTCAT 
    AAAGCTCTTA TGAAGTTCTT ATTATCTGGC GGGAAACAGA CTGTACAGCT AAAAGGCATC 
    ATATATGACG ACTTTCAAGA TTGTGAATGT AACGGACACT CGAATCGCTG CAGTTACATC 
    GACTTCCTGA ACATAGTGAC GTGCGTGAGC TGCAAACACA ACACGAGGGG GCAGAACTGC 
    GAACACTGTC GCATGAGCTA CTACAAAAAC ATGTCTGCAG AGCCTGATGA TGAGAACGTG 
    TGTATCGAGT GTAACTGTAA TGCGTTGGGC TCAGTTCATG ACCGCTGCAA CGGCACCGGC 
    TTCTGTCAGT GTAAAGAAGG CACAACCGGA GTCAAATGTG ATGAATGTCT CCCGGGCTAC 
    TATTGGAAAC AGGGCTGTTT ACCGAACGTG TGCGACGACG AGTTACTCTT GTGCCAGAAC 
    GGAGGGACGT GCGTTCAGAA TCAGCGCTGC ATCTGCACAC CAGACTTTAA GGGTGTTTTG 
    TGCCAACATT CGCGCTGTGA AGAAGGCAAA AAGTGCAACG GCGCCAGCGC TCTCCGTTTG 
    AGCCTGGCAC TCCTGCTCTG CCCGCTTCTC GCCACCCTGC TGGGCTCCAC CGCCTCCTGA

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

    RefSeq XP_017208498.1
    CDS62..4561
    Translation

    Target ORF information:

    RefSeq Version XM_017353009.2
    Organism Danio rerio(zebrafish)
    Definition Danio rerio netrin g2b (ntng2b), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017353009.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGACGGCA ACTTACAGTG TCAGTGTGAA CACAACACCA CCGGCCAGGA CTGCCAGCGC 
    TGCAAAAAAG GATATAAAGC CAAGACCTGG AAACCAGGAT CGTATTTACC AACTCCGAAC 
    GGATCCCCAA ACACATGTTC TCAGGCATTG GCTGGTTCTT CTTCTGGATC CACACCACCA 
    GTGGAGGATT CTGGGGAAGT TGAAGAGATT TCTGAAAAGA AAGAGATGAC TTCAGGGAGA 
    CATGAAGTAT CTGAAGATGT AAAGAGAGTG GAGACTTTTC TGGAACATAA CAGACACAGG 
    GAAGAAACTG CACCTGAACC TGTTGGATCA GTGCGGGAGT CTGCCGAGCC AAAGCCAGAG 
    TCGATTCCAA AGCCAATTTT GGAAACACAC AAGCCACTAC ACAAACCTCA AGTTCATGTG 
    TCTACAGCGG AATCTCATGG AGCAGCACAA ACATCACATG AATCAGTAAC AAAGCATCAT 
    GAACCAATTC AGAAACTTCA TGAGTCAACA GTGAAACCTC ACTCAATGCA TACAACCCAT 
    GAGACTATAC AGAAACCTCA TGAACCAAAA GTGAATTCTC ATGAATCAAT GCATAAACCC 
    CATGAGCAAA TTGTAAATCT TAATGAATCA ATGTATAAGC CTCATCAGCC AATATGGGAT 
    CCACATTCAT CGCCGCAAAA ACCTTTTGAG CCAAACGTGA ACCCCCTTGA GTCAGTAGTG 
    AATATTCATG AGTCAACGCA TAAATCACAT GAAGCAGTAG TGAATCCTCA GGAATCAATG 
    AATAACCCTC ATGGGTCAGT AGTAAACCCT CACAAGTCAG GGCATAACCC TCATGGGTCA 
    GTAGTGAACC CTCACGGGTC AGGGCATAAC CCTCATGGGT CAGTAGTCAA CCCTCACGAG 
    TCAGGGCATA ACCCTCATGG GTCAGTAGTG AATCCTCACG AGTCAGGGCA TAACCCTCAT 
    GGGTCAGTAG TGAATCCTCA CGAGTCAGGG CATAACCCTC ATGGGTCAAT AGTAAACCCT 
    TATGAGTCAG GGCATAACTC TTATGGGTCA GTAGTGAACC CTCACGGGTC AGTAGTGAAC 
    CCTCACGGGT CAGGGCATAA CCCTCATGGG TCAGTAGTGA ATCCTCACGA GTCAGGGCAT 
    AACCCTCATG GGTCAATAGT GAACCCTCAC GGGTCAGGGC ATAACCCTCA TGGGTCAGTA 
    GTGAAACCTC ACGGGTCAGT AGTGAACCCT CACGAGTCAG GGCATAACCC TCATGGAACA 
    GTAGTGAATC CTCACGAGTC AGGGCATAAC CCTCATGGGT CAATAGTAAA CCCTCTTGAG 
    TCAGGGCACA ACCCTCATGG GTCGGTAGTG AATCCTCATG GCTCAGGGCT TAACCCTCAT 
    GGGTCAGTAG TGAATCCTCA CGAGTCAGGG CATAACCCTC ATGGGTCAGT AGTGAACCCT 
    CACGAGTCAG GGCATAACCC TCATGGGTCA GTAGTGAACC CTCACGAGTC AGGGCATAAC 
    CCTCATGGGT CAGTAGTGAA CCCTCACGAG TCAGGGCATA ACCCTCATGG GTCAGTAGTG 
    AACCCTCACG AGTCAGGGCA TAATCCTCAT GGAACAGTAG TGAATCCTCA CGAGTCAGGG 
    CATAACCCTC ATGGGTCAGT AGTGAACCCT CACGAGTCAG GGCATAATCC TCATGGAACA 
    GTAGTGAATC CTCACGAGTC AGGGCATAAC CCTCATGGGT CAATAGTAAA CCCTCTTGAT 
    TCAGGGCACA ACCCTCATGG GTCGGTAGTG AATCCTCATG GCTCAGGGCT TAACCCTCAT 
    GGGTCAGTAG TGAATCCTCA CGAGTCAGGG CATAACCCTC ATGGGTCAGT AGTGAATCCT 
    CACGAGTCAG GGCATAACCC TCATGGGTCA GTAGTGAATT CTCACGAGTC AGGGCATAAC 
    CCTCATGGGT CAGTAGTGAA TACTCACGAG TCAGGGCATA ACCCTCATGG GTCAGTAGTG 
    AATCCTCACG AGTCAGGGCA TAACCCTCAT GGGTCAGTAG TGAATATTCA TAGTTCAGAG 
    CAGAAATCTC ATGATCCAGT AGGGAATCCG CATGGGTCAG AGCATAACCT TCATGGGTCA 
    GAGGTGAATC ATCATGGATC AGAACATAAA TCTCATGAGC CACTAGTAAA CCCCCATGGG 
    TCAGAGCATA GTCCTCATAG GTCAGAAGTG GATCCTCATG GGTCAGTAGT GAATCCTCAT 
    GGGTCAGGGC ATAAATCTCA TGACCCAGTT ATGAATCCCC ATGATCCAGT AGTAAATCCT 
    CATGGGTCAG AGCATAAATC TCACGATGCA GTAGTGAATC ATCATGGGTC AGTGGATAAA 
    TCTCATGAAC CAGTAGTGAA TGCTCATGGG TCAGAGCATA AGCCTCATGG GTCAGGTCAT 
    AAACCTCATG AGTCAGTAGT GAATCCTCAT GGATTGGAGC ATAAATCTCA TGACCTAGAA 
    GTAAATCCTC ATGGTTCAAA GCACAACACA CATGAGCCAA TAGTGAATCC TCATGGGACA 
    GAGCATAACC CTCATGGGTC ATCAGCAAAT CCTCATGAGT CAGATCATAA ATCTCATGAG 
    CCAGTAGTTA ATCCACATGG GTCAGGGCAC AACCCTCATG GGTCAGGGCA TAACCCTCAC 
    AACCCAGTAG TGAATCCTCA TGTGTCAGAG CATAAATCTC ATGACCCAGT AGTACACCCT 
    CATGGGTCAG GGCATAACAA ACATGAGCCA ATAGTTAATC CTATTGGGTC AGGGCATAAC 
    TCCCATGGGT CAGTAGTGAA TCCTCATGGG TCAGAGCATA ACCCTCATGG GTCAGTAGTG 
    AATCCTCATG GGTCAGAGCA TAACCCTCAT GGGTCAGTAG TGAATCCTCA TGGGTCAGAG 
    CATAACCCTC ATGGGTCAGT AGTGAATACT CATGGCTCAG GGCATAACTC TCATGGGTCA 
    GTAGCAAATC CTCATGGCTC AGAGAATAAC CCACATGGGT CAGAGCATAA CTCTCATGGG 
    TCAGTAGCAA ATCCTCATGG GTCAGGGCAT ACATTTCATG GGTCAATAGC AAATCCTCAT 
    GTGTCAGCGG AAAACCCTCA TGGGTCAGTA GCGAATCCTC ATGGGTCAGA GCATAACTCT 
    CATGGGTCAG TAGCGAATCC TCACGGGTCA GAGCATAACC CTCATGGGTC AGAAGCGAAT 
    CCTCATGGGT CAGAGCATAA CTCTCATGGA TCAGTAGCAA ATCCTCATGG GTCAGGGCAT 
    AAGCCACATG GGTCAGAGTA TAACCCTCAT GGGTCAGTAG CGAATCCTCT TGTGTCAGAG 
    TATAACACTC ATGGGTCAGT AGCGAATCCT CATGGGTCAG CGCATAACCC TCATGGGTCA 
    GTAGCGAATC CTCATGGGTC AGGGCATGAC CCACATGGGT CAGAGTATAA CCCTCATGGG 
    TCAGTAGAAA ACCCTCAGGG GTCAGCGCCT AACTCTCATG GATCGGTAGC AAATCCTCAT 
    GGGTCAGTAG AAAATCCTCA TGCGTCAGCG CATAACTCTC ATGGATCGGT AGCAAATCCT 
    CATGGGTCAG CGCATAACTC TCATGGGTCG GTAGCAAGTC CTCATGGGTC AGCGCATAAC 
    TCTCATGGGT CAGGGCATAA TCCTCATGGG TCAGGGCATA ATCCTCATGA GTCAGGGCAT 
    AAAACTCATG GGCCAAGGCA TAAGCCTCAT GGGTCAGTAG TGTATCCTCA TGAGCCAATG 
    CATAACCCTC ATGGACACCT ACATAATGAA CCAAAAAGTG AGTCACATGG GCCGATACCA 
    GAGTCTGCCA GGACAACAGA CGAATCCGTG CTGCCAATCT CAGCATTGGA GTCTGATCCA 
    AACATCGAGA TGGTTTCAAT ACACATGTCA CCTGAAGAGA AAAAGGAGGG ATATACTCAT 
    AAAGCTCTTA TGAAGTTCTT ATTATCTGGC GGGAAACAGA CTGTACAGCT AAAAGGCATC 
    ATATATGACG ACTTTCAAGA TTGTGAATGT AACGGACACT CGAATCGCTG CAGTTACATC 
    GACTTCCTGA ACATAGTGAC GTGCGTGAGC TGCAAACACA ACACGAGGGG GCAGAACTGC 
    GAACACTGTC GCATGAGCTA CTACAAAAAC ATGTCTGCAG AGCCTGATGA TGAGAACGTG 
    TGTATCGAGT GTAACTGTAA TGCGTTGGGC TCAGTTCATG ACCGCTGCAA CGGCACCGGC 
    TTCTGTCAGT GTAAAGAAGG CACAACCGGA GTCAAATGTG ATGAATGTCT CCCGGGCTAC 
    TATTGGAAAC AGGGCTGTTT ACCGAACGTG TGCGACGACG AGTTACTCTT GTGCCAGAAC 
    GGAGGGACGT GCGTTCAGAA TCAGCGCTGC ATCTGCACAC CAGACTTTAA GGGTGTTTTG 
    TGCCAACATT CGCGCTGTGA AGAAGGCAAA AAGTGCAACG GCGCCAGCGC TCTCCGTTTG 
    AGCCTGGCAC TCCTGCTCTG CCCGCTTCTC GCCACCCTGC TGGGCTCCAC CGCCTCCTGA

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

    ntng2b ( XM_017353009.1 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_017208498.1 Danio rerio netrin g2b (ntng2b), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID ODa56957
    Clone ID Related Accession (Same CDS sequence) XM_017353009.2 , XM_017353009.1
    Accession Version XM_017353009.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4500bp)
    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 filaggrin-2-like isoform X4
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGACGGCA ACTTACAGTG TCAGTGTGAA CACAACACCA CCGGCCAGGA CTGCCAGCGC 
    TGCAAAAAAG GATATAAAGC CAAGACCTGG AAACCAGGAT CGTATTTACC AACTCCGAAC 
    GGATCCCCAA ACACATGTTC TCAGGCATTG GCTGGTTCTT CTTCTGGATC CACACCACCA 
    GTGGAGGATT CTGGGGAAGT TGAAGAGATT TCTGAAAAGA AAGAGATGAC TTCAGGGAGA 
    CATGAAGTAT CTGAAGATGT AAAGAGAGTG GAGACTTTTC TGGAACATAA CAGACACAGG 
    GAAGAAACTG CACCTGAACC TGTTGGATCA GTGCGGGAGT CTGCCGAGCC AAAGCCAGAG 
    TCGATTCCAA AGCCAATTTT GGAAACACAC AAGCCACTAC ACAAACCTCA AGTTCATGTG 
    TCTACAGCGG AATCTCATGG AGCAGCACAA ACATCACATG AATCAGTAAC AAAGCATCAT 
    GAACCAATTC AGAAACTTCA TGAGTCAACA GTGAAACCTC ACTCAATGCA TACAACCCAT 
    GAGACTATAC AGAAACCTCA TGAACCAAAA GTGAATTCTC ATGAATCAAT GCATAAACCC 
    CATGAGCAAA TTGTAAATCT TAATGAATCA ATGTATAAGC CTCATCAGCC AATATGGGAT 
    CCACATTCAT CGCCGCAAAA ACCTTTTGAG CCAAACGTGA ACCCCCTTGA GTCAGTAGTG 
    AATATTCATG AGTCAACGCA TAAATCACAT GAAGCAGTAG TGAATCCTCA GGAATCAATG 
    AATAACCCTC ATGGGTCAGT AGTAAACCCT CACAAGTCAG GGCATAACCC TCATGGGTCA 
    GTAGTGAACC CTCACGGGTC AGGGCATAAC CCTCATGGGT CAGTAGTCAA CCCTCACGAG 
    TCAGGGCATA ACCCTCATGG GTCAGTAGTG AATCCTCACG AGTCAGGGCA TAACCCTCAT 
    GGGTCAGTAG TGAATCCTCA CGAGTCAGGG CATAACCCTC ATGGGTCAAT AGTAAACCCT 
    TATGAGTCAG GGCATAACTC TTATGGGTCA GTAGTGAACC CTCACGGGTC AGTAGTGAAC 
    CCTCACGGGT CAGGGCATAA CCCTCATGGG TCAGTAGTGA ATCCTCACGA GTCAGGGCAT 
    AACCCTCATG GGTCAATAGT GAACCCTCAC GGGTCAGGGC ATAACCCTCA TGGGTCAGTA 
    GTGAAACCTC ACGGGTCAGT AGTGAACCCT CACGAGTCAG GGCATAACCC TCATGGAACA 
    GTAGTGAATC CTCACGAGTC AGGGCATAAC CCTCATGGGT CAATAGTAAA CCCTCTTGAG 
    TCAGGGCACA ACCCTCATGG GTCGGTAGTG AATCCTCATG GCTCAGGGCT TAACCCTCAT 
    GGGTCAGTAG TGAATCCTCA CGAGTCAGGG CATAACCCTC ATGGGTCAGT AGTGAACCCT 
    CACGAGTCAG GGCATAACCC TCATGGGTCA GTAGTGAACC CTCACGAGTC AGGGCATAAC 
    CCTCATGGGT CAGTAGTGAA CCCTCACGAG TCAGGGCATA ACCCTCATGG GTCAGTAGTG 
    AACCCTCACG AGTCAGGGCA TAATCCTCAT GGAACAGTAG TGAATCCTCA CGAGTCAGGG 
    CATAACCCTC ATGGGTCAGT AGTGAACCCT CACGAGTCAG GGCATAATCC TCATGGAACA 
    GTAGTGAATC CTCACGAGTC AGGGCATAAC CCTCATGGGT CAATAGTAAA CCCTCTTGAT 
    TCAGGGCACA ACCCTCATGG GTCGGTAGTG AATCCTCATG GCTCAGGGCT TAACCCTCAT 
    GGGTCAGTAG TGAATCCTCA CGAGTCAGGG CATAACCCTC ATGGGTCAGT AGTGAATCCT 
    CACGAGTCAG GGCATAACCC TCATGGGTCA GTAGTGAATT CTCACGAGTC AGGGCATAAC 
    CCTCATGGGT CAGTAGTGAA TACTCACGAG TCAGGGCATA ACCCTCATGG GTCAGTAGTG 
    AATCCTCACG AGTCAGGGCA TAACCCTCAT GGGTCAGTAG TGAATATTCA TAGTTCAGAG 
    CAGAAATCTC ATGATCCAGT AGGGAATCCG CATGGGTCAG AGCATAACCT TCATGGGTCA 
    GAGGTGAATC ATCATGGATC AGAACATAAA TCTCATGAGC CACTAGTAAA CCCCCATGGG 
    TCAGAGCATA GTCCTCATAG GTCAGAAGTG GATCCTCATG GGTCAGTAGT GAATCCTCAT 
    GGGTCAGGGC ATAAATCTCA TGACCCAGTT ATGAATCCCC ATGATCCAGT AGTAAATCCT 
    CATGGGTCAG AGCATAAATC TCACGATGCA GTAGTGAATC ATCATGGGTC AGTGGATAAA 
    TCTCATGAAC CAGTAGTGAA TGCTCATGGG TCAGAGCATA AGCCTCATGG GTCAGGTCAT 
    AAACCTCATG AGTCAGTAGT GAATCCTCAT GGATTGGAGC ATAAATCTCA TGACCTAGAA 
    GTAAATCCTC ATGGTTCAAA GCACAACACA CATGAGCCAA TAGTGAATCC TCATGGGACA 
    GAGCATAACC CTCATGGGTC ATCAGCAAAT CCTCATGAGT CAGATCATAA ATCTCATGAG 
    CCAGTAGTTA ATCCACATGG GTCAGGGCAC AACCCTCATG GGTCAGGGCA TAACCCTCAC 
    AACCCAGTAG TGAATCCTCA TGTGTCAGAG CATAAATCTC ATGACCCAGT AGTACACCCT 
    CATGGGTCAG GGCATAACAA ACATGAGCCA ATAGTTAATC CTATTGGGTC AGGGCATAAC 
    TCCCATGGGT CAGTAGTGAA TCCTCATGGG TCAGAGCATA ACCCTCATGG GTCAGTAGTG 
    AATCCTCATG GGTCAGAGCA TAACCCTCAT GGGTCAGTAG TGAATCCTCA TGGGTCAGAG 
    CATAACCCTC ATGGGTCAGT AGTGAATACT CATGGCTCAG GGCATAACTC TCATGGGTCA 
    GTAGCAAATC CTCATGGCTC AGAGAATAAC CCACATGGGT CAGAGCATAA CTCTCATGGG 
    TCAGTAGCAA ATCCTCATGG GTCAGGGCAT ACATTTCATG GGTCAATAGC AAATCCTCAT 
    GTGTCAGCGG AAAACCCTCA TGGGTCAGTA GCGAATCCTC ATGGGTCAGA GCATAACTCT 
    CATGGGTCAG TAGCGAATCC TCACGGGTCA GAGCATAACC CTCATGGGTC AGAAGCGAAT 
    CCTCATGGGT CAGAGCATAA CTCTCATGGA TCAGTAGCAA ATCCTCATGG GTCAGGGCAT 
    AAGCCACATG GGTCAGAGTA TAACCCTCAT GGGTCAGTAG CGAATCCTCT TGTGTCAGAG 
    TATAACACTC ATGGGTCAGT AGCGAATCCT CATGGGTCAG CGCATAACCC TCATGGGTCA 
    GTAGCGAATC CTCATGGGTC AGGGCATGAC CCACATGGGT CAGAGTATAA CCCTCATGGG 
    TCAGTAGAAA ACCCTCAGGG GTCAGCGCCT AACTCTCATG GATCGGTAGC AAATCCTCAT 
    GGGTCAGTAG AAAATCCTCA TGCGTCAGCG CATAACTCTC ATGGATCGGT AGCAAATCCT 
    CATGGGTCAG CGCATAACTC TCATGGGTCG GTAGCAAGTC CTCATGGGTC AGCGCATAAC 
    TCTCATGGGT CAGGGCATAA TCCTCATGGG TCAGGGCATA ATCCTCATGA GTCAGGGCAT 
    AAAACTCATG GGCCAAGGCA TAAGCCTCAT GGGTCAGTAG TGTATCCTCA TGAGCCAATG 
    CATAACCCTC ATGGACACCT ACATAATGAA CCAAAAAGTG AGTCACATGG GCCGATACCA 
    GAGTCTGCCA GGACAACAGA CGAATCCGTG CTGCCAATCT CAGCATTGGA GTCTGATCCA 
    AACATCGAGA TGGTTTCAAT ACACATGTCA CCTGAAGAGA AAAAGGAGGG ATATACTCAT 
    AAAGCTCTTA TGAAGTTCTT ATTATCTGGC GGGAAACAGA CTGTACAGCT AAAAGGCATC 
    ATATATGACG ACTTTCAAGA TTGTGAATGT AACGGACACT CGAATCGCTG CAGTTACATC 
    GACTTCCTGA ACATAGTGAC GTGCGTGAGC TGCAAACACA ACACGAGGGG GCAGAACTGC 
    GAACACTGTC GCATGAGCTA CTACAAAAAC ATGTCTGCAG AGCCTGATGA TGAGAACGTG 
    TGTATCGAGT GTAACTGTAA TGCGTTGGGC TCAGTTCATG ACCGCTGCAA CGGCACCGGC 
    TTCTGTCAGT GTAAAGAAGG CACAACCGGA GTCAAATGTG ATGAATGTCT CCCGGGCTAC 
    TATTGGAAAC AGGGCTGTTT ACCGAACGTG TGCGACGACG AGTTACTCTT GTGCCAGAAC 
    GGAGGGACGT GCGTTCAGAA TCAGCGCTGC ATCTGCACAC CAGACTTTAA GGGTGTTTTG 
    TGCCAACATT CGCGCTGTGA AGAAGGCAAA AAGTGCAACG GCGCCAGCGC TCTCCGTTTG 
    AGCCTGGCAC TCCTGCTCTG CCCGCTTCTC GCCACCCTGC TGGGCTCCAC CGCCTCCTGA

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

    RefSeq XP_017208498.1
    CDS60..4559
    Translation

    Target ORF information:

    RefSeq Version XM_017353009.1
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio netrin g2b (ntng2b), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017353009.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGACGGCA ACTTACAGTG TCAGTGTGAA CACAACACCA CCGGCCAGGA CTGCCAGCGC 
    TGCAAAAAAG GATATAAAGC CAAGACCTGG AAACCAGGAT CGTATTTACC AACTCCGAAC 
    GGATCCCCAA ACACATGTTC TCAGGCATTG GCTGGTTCTT CTTCTGGATC CACACCACCA 
    GTGGAGGATT CTGGGGAAGT TGAAGAGATT TCTGAAAAGA AAGAGATGAC TTCAGGGAGA 
    CATGAAGTAT CTGAAGATGT AAAGAGAGTG GAGACTTTTC TGGAACATAA CAGACACAGG 
    GAAGAAACTG CACCTGAACC TGTTGGATCA GTGCGGGAGT CTGCCGAGCC AAAGCCAGAG 
    TCGATTCCAA AGCCAATTTT GGAAACACAC AAGCCACTAC ACAAACCTCA AGTTCATGTG 
    TCTACAGCGG AATCTCATGG AGCAGCACAA ACATCACATG AATCAGTAAC AAAGCATCAT 
    GAACCAATTC AGAAACTTCA TGAGTCAACA GTGAAACCTC ACTCAATGCA TACAACCCAT 
    GAGACTATAC AGAAACCTCA TGAACCAAAA GTGAATTCTC ATGAATCAAT GCATAAACCC 
    CATGAGCAAA TTGTAAATCT TAATGAATCA ATGTATAAGC CTCATCAGCC AATATGGGAT 
    CCACATTCAT CGCCGCAAAA ACCTTTTGAG CCAAACGTGA ACCCCCTTGA GTCAGTAGTG 
    AATATTCATG AGTCAACGCA TAAATCACAT GAAGCAGTAG TGAATCCTCA GGAATCAATG 
    AATAACCCTC ATGGGTCAGT AGTAAACCCT CACAAGTCAG GGCATAACCC TCATGGGTCA 
    GTAGTGAACC CTCACGGGTC AGGGCATAAC CCTCATGGGT CAGTAGTCAA CCCTCACGAG 
    TCAGGGCATA ACCCTCATGG GTCAGTAGTG AATCCTCACG AGTCAGGGCA TAACCCTCAT 
    GGGTCAGTAG TGAATCCTCA CGAGTCAGGG CATAACCCTC ATGGGTCAAT AGTAAACCCT 
    TATGAGTCAG GGCATAACTC TTATGGGTCA GTAGTGAACC CTCACGGGTC AGTAGTGAAC 
    CCTCACGGGT CAGGGCATAA CCCTCATGGG TCAGTAGTGA ATCCTCACGA GTCAGGGCAT 
    AACCCTCATG GGTCAATAGT GAACCCTCAC GGGTCAGGGC ATAACCCTCA TGGGTCAGTA 
    GTGAAACCTC ACGGGTCAGT AGTGAACCCT CACGAGTCAG GGCATAACCC TCATGGAACA 
    GTAGTGAATC CTCACGAGTC AGGGCATAAC CCTCATGGGT CAATAGTAAA CCCTCTTGAG 
    TCAGGGCACA ACCCTCATGG GTCGGTAGTG AATCCTCATG GCTCAGGGCT TAACCCTCAT 
    GGGTCAGTAG TGAATCCTCA CGAGTCAGGG CATAACCCTC ATGGGTCAGT AGTGAACCCT 
    CACGAGTCAG GGCATAACCC TCATGGGTCA GTAGTGAACC CTCACGAGTC AGGGCATAAC 
    CCTCATGGGT CAGTAGTGAA CCCTCACGAG TCAGGGCATA ACCCTCATGG GTCAGTAGTG 
    AACCCTCACG AGTCAGGGCA TAATCCTCAT GGAACAGTAG TGAATCCTCA CGAGTCAGGG 
    CATAACCCTC ATGGGTCAGT AGTGAACCCT CACGAGTCAG GGCATAATCC TCATGGAACA 
    GTAGTGAATC CTCACGAGTC AGGGCATAAC CCTCATGGGT CAATAGTAAA CCCTCTTGAT 
    TCAGGGCACA ACCCTCATGG GTCGGTAGTG AATCCTCATG GCTCAGGGCT TAACCCTCAT 
    GGGTCAGTAG TGAATCCTCA CGAGTCAGGG CATAACCCTC ATGGGTCAGT AGTGAATCCT 
    CACGAGTCAG GGCATAACCC TCATGGGTCA GTAGTGAATT CTCACGAGTC AGGGCATAAC 
    CCTCATGGGT CAGTAGTGAA TACTCACGAG TCAGGGCATA ACCCTCATGG GTCAGTAGTG 
    AATCCTCACG AGTCAGGGCA TAACCCTCAT GGGTCAGTAG TGAATATTCA TAGTTCAGAG 
    CAGAAATCTC ATGATCCAGT AGGGAATCCG CATGGGTCAG AGCATAACCT TCATGGGTCA 
    GAGGTGAATC ATCATGGATC AGAACATAAA TCTCATGAGC CACTAGTAAA CCCCCATGGG 
    TCAGAGCATA GTCCTCATAG GTCAGAAGTG GATCCTCATG GGTCAGTAGT GAATCCTCAT 
    GGGTCAGGGC ATAAATCTCA TGACCCAGTT ATGAATCCCC ATGATCCAGT AGTAAATCCT 
    CATGGGTCAG AGCATAAATC TCACGATGCA GTAGTGAATC ATCATGGGTC AGTGGATAAA 
    TCTCATGAAC CAGTAGTGAA TGCTCATGGG TCAGAGCATA AGCCTCATGG GTCAGGTCAT 
    AAACCTCATG AGTCAGTAGT GAATCCTCAT GGATTGGAGC ATAAATCTCA TGACCTAGAA 
    GTAAATCCTC ATGGTTCAAA GCACAACACA CATGAGCCAA TAGTGAATCC TCATGGGACA 
    GAGCATAACC CTCATGGGTC ATCAGCAAAT CCTCATGAGT CAGATCATAA ATCTCATGAG 
    CCAGTAGTTA ATCCACATGG GTCAGGGCAC AACCCTCATG GGTCAGGGCA TAACCCTCAC 
    AACCCAGTAG TGAATCCTCA TGTGTCAGAG CATAAATCTC ATGACCCAGT AGTACACCCT 
    CATGGGTCAG GGCATAACAA ACATGAGCCA ATAGTTAATC CTATTGGGTC AGGGCATAAC 
    TCCCATGGGT CAGTAGTGAA TCCTCATGGG TCAGAGCATA ACCCTCATGG GTCAGTAGTG 
    AATCCTCATG GGTCAGAGCA TAACCCTCAT GGGTCAGTAG TGAATCCTCA TGGGTCAGAG 
    CATAACCCTC ATGGGTCAGT AGTGAATACT CATGGCTCAG GGCATAACTC TCATGGGTCA 
    GTAGCAAATC CTCATGGCTC AGAGAATAAC CCACATGGGT CAGAGCATAA CTCTCATGGG 
    TCAGTAGCAA ATCCTCATGG GTCAGGGCAT ACATTTCATG GGTCAATAGC AAATCCTCAT 
    GTGTCAGCGG AAAACCCTCA TGGGTCAGTA GCGAATCCTC ATGGGTCAGA GCATAACTCT 
    CATGGGTCAG TAGCGAATCC TCACGGGTCA GAGCATAACC CTCATGGGTC AGAAGCGAAT 
    CCTCATGGGT CAGAGCATAA CTCTCATGGA TCAGTAGCAA ATCCTCATGG GTCAGGGCAT 
    AAGCCACATG GGTCAGAGTA TAACCCTCAT GGGTCAGTAG CGAATCCTCT TGTGTCAGAG 
    TATAACACTC ATGGGTCAGT AGCGAATCCT CATGGGTCAG CGCATAACCC TCATGGGTCA 
    GTAGCGAATC CTCATGGGTC AGGGCATGAC CCACATGGGT CAGAGTATAA CCCTCATGGG 
    TCAGTAGAAA ACCCTCAGGG GTCAGCGCCT AACTCTCATG GATCGGTAGC AAATCCTCAT 
    GGGTCAGTAG AAAATCCTCA TGCGTCAGCG CATAACTCTC ATGGATCGGT AGCAAATCCT 
    CATGGGTCAG CGCATAACTC TCATGGGTCG GTAGCAAGTC CTCATGGGTC AGCGCATAAC 
    TCTCATGGGT CAGGGCATAA TCCTCATGGG TCAGGGCATA ATCCTCATGA GTCAGGGCAT 
    AAAACTCATG GGCCAAGGCA TAAGCCTCAT GGGTCAGTAG TGTATCCTCA TGAGCCAATG 
    CATAACCCTC ATGGACACCT ACATAATGAA CCAAAAAGTG AGTCACATGG GCCGATACCA 
    GAGTCTGCCA GGACAACAGA CGAATCCGTG CTGCCAATCT CAGCATTGGA GTCTGATCCA 
    AACATCGAGA TGGTTTCAAT ACACATGTCA CCTGAAGAGA AAAAGGAGGG ATATACTCAT 
    AAAGCTCTTA TGAAGTTCTT ATTATCTGGC GGGAAACAGA CTGTACAGCT AAAAGGCATC 
    ATATATGACG ACTTTCAAGA TTGTGAATGT AACGGACACT CGAATCGCTG CAGTTACATC 
    GACTTCCTGA ACATAGTGAC GTGCGTGAGC TGCAAACACA ACACGAGGGG GCAGAACTGC 
    GAACACTGTC GCATGAGCTA CTACAAAAAC ATGTCTGCAG AGCCTGATGA TGAGAACGTG 
    TGTATCGAGT GTAACTGTAA TGCGTTGGGC TCAGTTCATG ACCGCTGCAA CGGCACCGGC 
    TTCTGTCAGT GTAAAGAAGG CACAACCGGA GTCAAATGTG ATGAATGTCT CCCGGGCTAC 
    TATTGGAAAC AGGGCTGTTT ACCGAACGTG TGCGACGACG AGTTACTCTT GTGCCAGAAC 
    GGAGGGACGT GCGTTCAGAA TCAGCGCTGC ATCTGCACAC CAGACTTTAA GGGTGTTTTG 
    TGCCAACATT CGCGCTGTGA AGAAGGCAAA AAGTGCAACG GCGCCAGCGC TCTCCGTTTG 
    AGCCTGGCAC TCCTGCTCTG CCCGCTTCTC GCCACCCTGC TGGGCTCCAC CGCCTCCTGA

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

    ntng2b ( XM_017353010.1 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_017208499.1 Danio rerio netrin g2b (ntng2b), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID ODa56958
    Clone ID Related Accession (Same CDS sequence) XM_017353010.1
    Accession Version XM_017353010.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4275bp)
    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 filaggrin-2-like isoform X5
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGACTTCAG GGAGACATGA AGTATCTGAA GATGTAAAGA GAGTGGAGAC TTTTCTGGAA 
    CATAACAGAC ACAGGGAAGA AACTGCACCT GAACCTGTTG GATCAGTGCG GGAGTCTGCC 
    GAGCCAAAGC CAGAGTCGAT TCCAAAGCCA ATTTTGGAAA CACACAAGCC ACTACACAAA 
    CCTCAAGTTC ATGTGTCTAC AGCGGAATCT CATGGAGCAG CACAAACATC ACATGAATCA 
    GTAACAAAGC ATCATGAACC AATTCAGAAA CTTCATGAGT CAACAGTGAA ACCTCACTCA 
    ATGCATACAA CCCATGAGAC TATACAGAAA CCTCATGAAC CAAAAGTGAA TTCTCATGAA 
    TCAATGCATA AACCCCATGA GCAAATTGTA AATCTTAATG AATCAATGTA TAAGCCTCAT 
    CAGCCAATAT GGGATCCACA TTCATCGCCG CAAAAACCTT TTGAGCCAAA CGTGAACCCC 
    CTTGAGTCAG TAGTGAATAT TCATGAGTCA ACGCATAAAT CACATGAAGC AGTAGTGAAT 
    CCTCAGGAAT CAATGAATAA CCCTCATGGG TCAGTAGTAA ACCCTCACAA GTCAGGGCAT 
    AACCCTCATG GGTCAGTAGT GAACCCTCAC GGGTCAGGGC ATAACCCTCA TGGGTCAGTA 
    GTCAACCCTC ACGAGTCAGG GCATAACCCT CATGGGTCAG TAGTGAATCC TCACGAGTCA 
    GGGCATAACC CTCATGGGTC AGTAGTGAAT CCTCACGAGT CAGGGCATAA CCCTCATGGG 
    TCAATAGTAA ACCCTTATGA GTCAGGGCAT AACTCTTATG GGTCAGTAGT GAACCCTCAC 
    GGGTCAGTAG TGAACCCTCA CGGGTCAGGG CATAACCCTC ATGGGTCAGT AGTGAATCCT 
    CACGAGTCAG GGCATAACCC TCATGGGTCA ATAGTGAACC CTCACGGGTC AGGGCATAAC 
    CCTCATGGGT CAGTAGTGAA ACCTCACGGG TCAGTAGTGA ACCCTCACGA GTCAGGGCAT 
    AACCCTCATG GAACAGTAGT GAATCCTCAC GAGTCAGGGC ATAACCCTCA TGGGTCAATA 
    GTAAACCCTC TTGAGTCAGG GCACAACCCT CATGGGTCGG TAGTGAATCC TCATGGCTCA 
    GGGCTTAACC CTCATGGGTC AGTAGTGAAT CCTCACGAGT CAGGGCATAA CCCTCATGGG 
    TCAGTAGTGA ACCCTCACGA GTCAGGGCAT AACCCTCATG GGTCAGTAGT GAACCCTCAC 
    GAGTCAGGGC ATAACCCTCA TGGGTCAGTA GTGAACCCTC ACGAGTCAGG GCATAACCCT 
    CATGGGTCAG TAGTGAACCC TCACGAGTCA GGGCATAATC CTCATGGAAC AGTAGTGAAT 
    CCTCACGAGT CAGGGCATAA CCCTCATGGG TCAGTAGTGA ACCCTCACGA GTCAGGGCAT 
    AATCCTCATG GAACAGTAGT GAATCCTCAC GAGTCAGGGC ATAACCCTCA TGGGTCAATA 
    GTAAACCCTC TTGATTCAGG GCACAACCCT CATGGGTCGG TAGTGAATCC TCATGGCTCA 
    GGGCTTAACC CTCATGGGTC AGTAGTGAAT CCTCACGAGT CAGGGCATAA CCCTCATGGG 
    TCAGTAGTGA ATCCTCACGA GTCAGGGCAT AACCCTCATG GGTCAGTAGT GAATTCTCAC 
    GAGTCAGGGC ATAACCCTCA TGGGTCAGTA GTGAATACTC ACGAGTCAGG GCATAACCCT 
    CATGGGTCAG TAGTGAATCC TCACGAGTCA GGGCATAACC CTCATGGGTC AGTAGTGAAT 
    ATTCATAGTT CAGAGCAGAA ATCTCATGAT CCAGTAGGGA ATCCGCATGG GTCAGAGCAT 
    AACCTTCATG GGTCAGAGGT GAATCATCAT GGATCAGAAC ATAAATCTCA TGAGCCACTA 
    GTAAACCCCC ATGGGTCAGA GCATAGTCCT CATAGGTCAG AAGTGGATCC TCATGGGTCA 
    GTAGTGAATC CTCATGGGTC AGGGCATAAA TCTCATGACC CAGTTATGAA TCCCCATGAT 
    CCAGTAGTAA ATCCTCATGG GTCAGAGCAT AAATCTCACG ATGCAGTAGT GAATCATCAT 
    GGGTCAGTGG ATAAATCTCA TGAACCAGTA GTGAATGCTC ATGGGTCAGA GCATAAGCCT 
    CATGGGTCAG GTCATAAACC TCATGAGTCA GTAGTGAATC CTCATGGATT GGAGCATAAA 
    TCTCATGACC TAGAAGTAAA TCCTCATGGT TCAAAGCACA ACACACATGA GCCAATAGTG 
    AATCCTCATG GGACAGAGCA TAACCCTCAT GGGTCATCAG CAAATCCTCA TGAGTCAGAT 
    CATAAATCTC ATGAGCCAGT AGTTAATCCA CATGGGTCAG GGCACAACCC TCATGGGTCA 
    GGGCATAACC CTCACAACCC AGTAGTGAAT CCTCATGTGT CAGAGCATAA ATCTCATGAC 
    CCAGTAGTAC ACCCTCATGG GTCAGGGCAT AACAAACATG AGCCAATAGT TAATCCTATT 
    GGGTCAGGGC ATAACTCCCA TGGGTCAGTA GTGAATCCTC ATGGGTCAGA GCATAACCCT 
    CATGGGTCAG TAGTGAATCC TCATGGGTCA GAGCATAACC CTCATGGGTC AGTAGTGAAT 
    CCTCATGGGT CAGAGCATAA CCCTCATGGG TCAGTAGTGA ATACTCATGG CTCAGGGCAT 
    AACTCTCATG GGTCAGTAGC AAATCCTCAT GGCTCAGAGA ATAACCCACA TGGGTCAGAG 
    CATAACTCTC ATGGGTCAGT AGCAAATCCT CATGGGTCAG GGCATACATT TCATGGGTCA 
    ATAGCAAATC CTCATGTGTC AGCGGAAAAC CCTCATGGGT CAGTAGCGAA TCCTCATGGG 
    TCAGAGCATA ACTCTCATGG GTCAGTAGCG AATCCTCACG GGTCAGAGCA TAACCCTCAT 
    GGGTCAGAAG CGAATCCTCA TGGGTCAGAG CATAACTCTC ATGGATCAGT AGCAAATCCT 
    CATGGGTCAG GGCATAAGCC ACATGGGTCA GAGTATAACC CTCATGGGTC AGTAGCGAAT 
    CCTCTTGTGT CAGAGTATAA CACTCATGGG TCAGTAGCGA ATCCTCATGG GTCAGCGCAT 
    AACCCTCATG GGTCAGTAGC GAATCCTCAT GGGTCAGGGC ATGACCCACA TGGGTCAGAG 
    TATAACCCTC ATGGGTCAGT AGAAAACCCT CAGGGGTCAG CGCCTAACTC TCATGGATCG 
    GTAGCAAATC CTCATGGGTC AGTAGAAAAT CCTCATGCGT CAGCGCATAA CTCTCATGGA 
    TCGGTAGCAA ATCCTCATGG GTCAGCGCAT AACTCTCATG GGTCGGTAGC AAGTCCTCAT 
    GGGTCAGCGC ATAACTCTCA TGGGTCAGGG CATAATCCTC ATGGGTCAGG GCATAATCCT 
    CATGAGTCAG GGCATAAAAC TCATGGGCCA AGGCATAAGC CTCATGGGTC AGTAGTGTAT 
    CCTCATGAGC CAATGCATAA CCCTCATGGA CACCTACATA ATGAACCAAA AAGTGAGTCA 
    CATGGGCCGA TACCAGAGTC TGCCAGGACA ACAGACGAAT CCGTGCTGCC AATCTCAGCA 
    TTGGAGTCTG ATCCAAACAT CGAGATGGTT TCAATACACA TGTCACCTGA AGAGAAAAAG 
    GAGGGATATA CTCATAAAGC TCTTATGAAG TTCTTATTAT CTGGCGGGAA ACAGACTGTA 
    CAGCTAAAAG GCATCATATA TGACGACTTT CAAGATTGTG AATGTAACGG ACACTCGAAT 
    CGCTGCAGTT ACATCGACTT CCTGAACATA GTGACGTGCG TGAGCTGCAA ACACAACACG 
    AGGGGGCAGA ACTGCGAACA CTGTCGCATG AGCTACTACA AAAACATGTC TGCAGAGCCT 
    GATGATGAGA ACGTGTGTAT CGAGTGTAAC TGTAATGCGT TGGGCTCAGT TCATGACCGC 
    TGCAACGGCA CCGGCTTCTG TCAGTGTAAA GAAGGCACAA CCGGAGTCAA ATGTGATGAA 
    TGTCTCCCGG GCTACTATTG GAAACAGGGC TGTTTACCGA ACGTGTGCGA CGACGAGTTA 
    CTCTTGTGCC AGAACGGAGG GACGTGCGTT CAGAATCAGC GCTGCATCTG CACACCAGAC 
    TTTAAGGGTG TTTTGTGCCA ACATTCGCGC TGTGAAGAAG GCAAAAAGTG CAACGGCGCC 
    AGCGCTCTCC GTTTGAGCCT GGCACTCCTG CTCTGCCCGC TTCTCGCCAC CCTGCTGGGC 
    TCCACCGCCT CCTGA

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

    RefSeq XP_017208499.1
    CDS185..4459
    Translation

    Target ORF information:

    RefSeq Version XM_017353010.1
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio netrin g2b (ntng2b), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017353010.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGACTTCAG GGAGACATGA AGTATCTGAA GATGTAAAGA GAGTGGAGAC TTTTCTGGAA 
    CATAACAGAC ACAGGGAAGA AACTGCACCT GAACCTGTTG GATCAGTGCG GGAGTCTGCC 
    GAGCCAAAGC CAGAGTCGAT TCCAAAGCCA ATTTTGGAAA CACACAAGCC ACTACACAAA 
    CCTCAAGTTC ATGTGTCTAC AGCGGAATCT CATGGAGCAG CACAAACATC ACATGAATCA 
    GTAACAAAGC ATCATGAACC AATTCAGAAA CTTCATGAGT CAACAGTGAA ACCTCACTCA 
    ATGCATACAA CCCATGAGAC TATACAGAAA CCTCATGAAC CAAAAGTGAA TTCTCATGAA 
    TCAATGCATA AACCCCATGA GCAAATTGTA AATCTTAATG AATCAATGTA TAAGCCTCAT 
    CAGCCAATAT GGGATCCACA TTCATCGCCG CAAAAACCTT TTGAGCCAAA CGTGAACCCC 
    CTTGAGTCAG TAGTGAATAT TCATGAGTCA ACGCATAAAT CACATGAAGC AGTAGTGAAT 
    CCTCAGGAAT CAATGAATAA CCCTCATGGG TCAGTAGTAA ACCCTCACAA GTCAGGGCAT 
    AACCCTCATG GGTCAGTAGT GAACCCTCAC GGGTCAGGGC ATAACCCTCA TGGGTCAGTA 
    GTCAACCCTC ACGAGTCAGG GCATAACCCT CATGGGTCAG TAGTGAATCC TCACGAGTCA 
    GGGCATAACC CTCATGGGTC AGTAGTGAAT CCTCACGAGT CAGGGCATAA CCCTCATGGG 
    TCAATAGTAA ACCCTTATGA GTCAGGGCAT AACTCTTATG GGTCAGTAGT GAACCCTCAC 
    GGGTCAGTAG TGAACCCTCA CGGGTCAGGG CATAACCCTC ATGGGTCAGT AGTGAATCCT 
    CACGAGTCAG GGCATAACCC TCATGGGTCA ATAGTGAACC CTCACGGGTC AGGGCATAAC 
    CCTCATGGGT CAGTAGTGAA ACCTCACGGG TCAGTAGTGA ACCCTCACGA GTCAGGGCAT 
    AACCCTCATG GAACAGTAGT GAATCCTCAC GAGTCAGGGC ATAACCCTCA TGGGTCAATA 
    GTAAACCCTC TTGAGTCAGG GCACAACCCT CATGGGTCGG TAGTGAATCC TCATGGCTCA 
    GGGCTTAACC CTCATGGGTC AGTAGTGAAT CCTCACGAGT CAGGGCATAA CCCTCATGGG 
    TCAGTAGTGA ACCCTCACGA GTCAGGGCAT AACCCTCATG GGTCAGTAGT GAACCCTCAC 
    GAGTCAGGGC ATAACCCTCA TGGGTCAGTA GTGAACCCTC ACGAGTCAGG GCATAACCCT 
    CATGGGTCAG TAGTGAACCC TCACGAGTCA GGGCATAATC CTCATGGAAC AGTAGTGAAT 
    CCTCACGAGT CAGGGCATAA CCCTCATGGG TCAGTAGTGA ACCCTCACGA GTCAGGGCAT 
    AATCCTCATG GAACAGTAGT GAATCCTCAC GAGTCAGGGC ATAACCCTCA TGGGTCAATA 
    GTAAACCCTC TTGATTCAGG GCACAACCCT CATGGGTCGG TAGTGAATCC TCATGGCTCA 
    GGGCTTAACC CTCATGGGTC AGTAGTGAAT CCTCACGAGT CAGGGCATAA CCCTCATGGG 
    TCAGTAGTGA ATCCTCACGA GTCAGGGCAT AACCCTCATG GGTCAGTAGT GAATTCTCAC 
    GAGTCAGGGC ATAACCCTCA TGGGTCAGTA GTGAATACTC ACGAGTCAGG GCATAACCCT 
    CATGGGTCAG TAGTGAATCC TCACGAGTCA GGGCATAACC CTCATGGGTC AGTAGTGAAT 
    ATTCATAGTT CAGAGCAGAA ATCTCATGAT CCAGTAGGGA ATCCGCATGG GTCAGAGCAT 
    AACCTTCATG GGTCAGAGGT GAATCATCAT GGATCAGAAC ATAAATCTCA TGAGCCACTA 
    GTAAACCCCC ATGGGTCAGA GCATAGTCCT CATAGGTCAG AAGTGGATCC TCATGGGTCA 
    GTAGTGAATC CTCATGGGTC AGGGCATAAA TCTCATGACC CAGTTATGAA TCCCCATGAT 
    CCAGTAGTAA ATCCTCATGG GTCAGAGCAT AAATCTCACG ATGCAGTAGT GAATCATCAT 
    GGGTCAGTGG ATAAATCTCA TGAACCAGTA GTGAATGCTC ATGGGTCAGA GCATAAGCCT 
    CATGGGTCAG GTCATAAACC TCATGAGTCA GTAGTGAATC CTCATGGATT GGAGCATAAA 
    TCTCATGACC TAGAAGTAAA TCCTCATGGT TCAAAGCACA ACACACATGA GCCAATAGTG 
    AATCCTCATG GGACAGAGCA TAACCCTCAT GGGTCATCAG CAAATCCTCA TGAGTCAGAT 
    CATAAATCTC ATGAGCCAGT AGTTAATCCA CATGGGTCAG GGCACAACCC TCATGGGTCA 
    GGGCATAACC CTCACAACCC AGTAGTGAAT CCTCATGTGT CAGAGCATAA ATCTCATGAC 
    CCAGTAGTAC ACCCTCATGG GTCAGGGCAT AACAAACATG AGCCAATAGT TAATCCTATT 
    GGGTCAGGGC ATAACTCCCA TGGGTCAGTA GTGAATCCTC ATGGGTCAGA GCATAACCCT 
    CATGGGTCAG TAGTGAATCC TCATGGGTCA GAGCATAACC CTCATGGGTC AGTAGTGAAT 
    CCTCATGGGT CAGAGCATAA CCCTCATGGG TCAGTAGTGA ATACTCATGG CTCAGGGCAT 
    AACTCTCATG GGTCAGTAGC AAATCCTCAT GGCTCAGAGA ATAACCCACA TGGGTCAGAG 
    CATAACTCTC ATGGGTCAGT AGCAAATCCT CATGGGTCAG GGCATACATT TCATGGGTCA 
    ATAGCAAATC CTCATGTGTC AGCGGAAAAC CCTCATGGGT CAGTAGCGAA TCCTCATGGG 
    TCAGAGCATA ACTCTCATGG GTCAGTAGCG AATCCTCACG GGTCAGAGCA TAACCCTCAT 
    GGGTCAGAAG CGAATCCTCA TGGGTCAGAG CATAACTCTC ATGGATCAGT AGCAAATCCT 
    CATGGGTCAG GGCATAAGCC ACATGGGTCA GAGTATAACC CTCATGGGTC AGTAGCGAAT 
    CCTCTTGTGT CAGAGTATAA CACTCATGGG TCAGTAGCGA ATCCTCATGG GTCAGCGCAT 
    AACCCTCATG GGTCAGTAGC GAATCCTCAT GGGTCAGGGC ATGACCCACA TGGGTCAGAG 
    TATAACCCTC ATGGGTCAGT AGAAAACCCT CAGGGGTCAG CGCCTAACTC TCATGGATCG 
    GTAGCAAATC CTCATGGGTC AGTAGAAAAT CCTCATGCGT CAGCGCATAA CTCTCATGGA 
    TCGGTAGCAA ATCCTCATGG GTCAGCGCAT AACTCTCATG GGTCGGTAGC AAGTCCTCAT 
    GGGTCAGCGC ATAACTCTCA TGGGTCAGGG CATAATCCTC ATGGGTCAGG GCATAATCCT 
    CATGAGTCAG GGCATAAAAC TCATGGGCCA AGGCATAAGC CTCATGGGTC AGTAGTGTAT 
    CCTCATGAGC CAATGCATAA CCCTCATGGA CACCTACATA ATGAACCAAA AAGTGAGTCA 
    CATGGGCCGA TACCAGAGTC TGCCAGGACA ACAGACGAAT CCGTGCTGCC AATCTCAGCA 
    TTGGAGTCTG ATCCAAACAT CGAGATGGTT TCAATACACA TGTCACCTGA AGAGAAAAAG 
    GAGGGATATA CTCATAAAGC TCTTATGAAG TTCTTATTAT CTGGCGGGAA ACAGACTGTA 
    CAGCTAAAAG GCATCATATA TGACGACTTT CAAGATTGTG AATGTAACGG ACACTCGAAT 
    CGCTGCAGTT ACATCGACTT CCTGAACATA GTGACGTGCG TGAGCTGCAA ACACAACACG 
    AGGGGGCAGA ACTGCGAACA CTGTCGCATG AGCTACTACA AAAACATGTC TGCAGAGCCT 
    GATGATGAGA ACGTGTGTAT CGAGTGTAAC TGTAATGCGT TGGGCTCAGT TCATGACCGC 
    TGCAACGGCA CCGGCTTCTG TCAGTGTAAA GAAGGCACAA CCGGAGTCAA ATGTGATGAA 
    TGTCTCCCGG GCTACTATTG GAAACAGGGC TGTTTACCGA ACGTGTGCGA CGACGAGTTA 
    CTCTTGTGCC AGAACGGAGG GACGTGCGTT CAGAATCAGC GCTGCATCTG CACACCAGAC 
    TTTAAGGGTG TTTTGTGCCA ACATTCGCGC TGTGAAGAAG GCAAAAAGTG CAACGGCGCC 
    AGCGCTCTCC GTTTGAGCCT GGCACTCCTG CTCTGCCCGC TTCTCGCCAC CCTGCTGGGC 
    TCCACCGCCT CCTGA

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

見積依頼

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03-6811-6573
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