zgc:172352 cDNA ORF clone, Danio rerio(zebrafish)

The following zgc:172352 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the zgc:172352 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
ODa35559 NM_001114412.1
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Danio rerio zgc:172352 (zgc:172352), mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
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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)
    CloneID ODa35559
    Clone ID Related Accession (Same CDS sequence) NM_001114412.1
    Accession Version NM_001114412.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3372bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-01-26
    Organism Danio rerio(zebrafish)
    Product nck-associated protein 1-like
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from BC155665.1. On Feb 10, 2008 this sequence version replaced XM_679890.2. ##Evidence-Data-START## Transcript exon combination :: BC155665.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA2168446, SAMEA2168447 [ECO:0000350] ##Evidence-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
    ATGGCCTACC AGCTGAAACT GGCGGAGAAG CTGCTGATCC TCCGTGACCG TGGGCAGGGT 
    GTGCTGGTGC GCATCAACCA CATCAAGAAG GTTTTCTCAG ACCCAAAGCG AAGACCTTCA
    TACTTCACTG ATAAAAGCAT GGAGTCTGCC ATAAAATACA TCAACAGAAA ATTCCCCAAC
    ATCGACTTCA GGGGTGGCAG TCAACAGCTG AGCAGCATTC AGAAACAGAA GACCGCCGTG
    CTGGAGTGTC TGCACAGCTA CTACGAGTCC TTCATAGATG TCATGGAGTT CAGGGACCAT
    GTTTATGAGC TGTTGAACAC AATCGACGCC TGTCAGTGCT TCTTTAACAT CATTGTGAAT
    TTTGACCTGA CCAAGAATTA CCTGGACCTC GTGGTCACCT ACGCCTCTGT CATCTACATG
    CTGTCCCGCA TTGAGGACAA GAAAGCCATA GTGGGAATGT ATAACTCTGC GTATGAGCTG
    TCCAACGGGA ACAGTGATCC CTCGTACCCT CGTCTGGGAC AGATGTTCTT AGAGTACGAA
    CACCCCTGGA AGAAGCTGTC TGAGGAGTTC GGTCCACACA CTAAGGCGGT GACGGAGGCT
    GTTCTCTCTC TGCATCTGGT GTATCCGCGC AGGAATCTGA CTGCAGATCA GTGGCGCAGT
    GCTCAGCTCC TGTCCCTGCT GGCTTCACCC GCCGCCATGC TGAGCCCGGC CTGCTGTGAC
    ACTGTGGCGT GTGAGTATCT GTCCATGGAG GTGATGGAGC GCTGGATCCT CATCGGGTTC
    CTGTTGTGTC ATGCGAGTCT CAACACCAAC GCAAACTCTC AGAGTCTGTG GAAGATGGCG
    CTGCGCAACG GCCTGTACAT CAGCATCATC AGAGACGAGC TGCTCAACAT ACACAAGCTC
    TCAGAGGAGT TCTTCGACAG TCTTAAAGGG TACAGTAAAC GCATCGCTGA CATCAAGGAG
    TGTAAAGAGC ACGTGCTGGC CAACTGCGGT GCGTTGCGCA GAGAGAAGCG CAGCTATCTG
    AGGAACGCCC TGAAGGAGCT GACTAAAGTG CTGGAGGACG AGCCGGCGCT GCTGGGACCC
    AAGGTGTTGT TTGTGTTCAT GGCGCTGTCG TTCTCTCGGG ATGAAGTGCT GTGGCTCGTG
    CGGCACATGG AGAACATCCC CAAAACCAAA ACACCGGAGG ATTACGCAGA CCCGCAGATG
    GCCGAGCTGC TCTTCTACAT GGAGAAGTTG CGCGCGCTGC TGCTGCGTCA CAGATACGTG
    GTTCAGCGAT ATCATCTGCA GTATCTGGCA CAGTACGACG CGCTCGTGCT CAACGACACC
    ATTCAGGGCA TGCTCGTGTG TCCAGAGGAG GAGTCTGTGC TCATGTCCTC ATTCGTCTCC
    ACTCTGTCTG CGCTCAGCCT CAAACACTTG GATGCAGGAG AACAGTTTGA CCTCAAGCCA
    CTCAGACTGG ACTGGTTACG ACTGCAGGTG TACACCAGTG TGGGTAAAGC TCCTCTGGCC
    CTGAAGGATT ACCCAGAGCT GGCCAAGATC ATGAACGTGT CTCAGTTTCA CAGCCGCATG
    CTGGACAGTG TGGAGGAACT GCTGTGGGAG ACCACGGACC TGTCTGTGCT CTGTTTTCAC
    GCGCGTGTGT TTGAGAAGCT CTTCTCTCAG AGCAGCGAGG ATGTGTGTGT GCAGCGATAC
    CTCATGGGCT TCCCGCTCGT CTGCTCACAC TTCAGCCAGA GTCTCCATCC ACTCTGCCCA
    GAGGAGACTG AAGATCTAGA GAAGCAGAGC CTGAAGCTGT GTGTGTCGTT TCTGGAAGAG
    ATCTCACGTC AGACCAGTGC GGTGGTGCTG GAGATCTGTG CTGAGCAGTG GAACCTGCAC
    GAAAAGCTGC TGCCCAAACA CAGCGCTCAG ACCATCAGCA CAGCCCGCAA CAAAAAACTG
    AAGAAGGTGC AGCCCAAGAA AGGAGACGCT CCCAGGGAGA AGCCGGGGGC CGAGAGCCTG
    CGCAAGGACA GAGCCTTCGT CACCAATCTG GATAAGATGC ACCAGACCCT GACAGAGCTG
    TGCTCCTCGT TCAGCATCTG CACTGATTTC TCCGTCTGCA GACACGTCAT CGTGCCGGCC
    GAGTTCCTGC TCACACAGCT GGAGATCAGA CTCAACAAGG TGTTTGTGCA GATGGCGGGC
    TACAATCAGA GCACTCATGA GATCTCGCGT CCGTCAGATC TTGCGTCAGG AATGCAGGCG
    TACGTCAGCG CGATACACAC TCTCAGCTCC TACATCAACA TCGACGTCTC GCGCCTCGTC
    AAGAGTGTGT TACTGCAGCA GACACAGCCG CTCGACTCTT ACGGCGCGCA GACCATCACC
    ACACTCTACA CCAACTGGTA TCTGGAGGGT CTCCTCCGTC AGGCCAGCAG TGCTCTGATC
    GTCCACTGCC CCACCACACA GTGCTTCATA AACCAGAACA CCGAGAACGA GCAGAACTTC
    CACGCCGAGG AGTACTCTGA CATTGGAGGT TTGCGCTCGT TGGCTGAACT GATCGGTCCT
    TATGGGATGA AGTTTTTAAG CGAGAACCTC ATGTGGCACA TCATATCTCA GGTTGGAGAA
    CTGAAGAAAC TTGTCAGCGA CAACATGGAT GTCCTGGTGC AGATGAGGGC AAACTACGAG
    GATCCCGAAG CCATGAGTGA ACTCCAGAAG AAGCTCGCAG GCTGTGAGAA CGTGCTGAAG
    AGAATGACCA TCATCGGGGT GATCCTGTCC TTCCGCTCCA TGGTCCAAGA AGCTCTGGAG
    GAGATCATGG ACAGACACTG CCCGTTCCTC ATGAAGCCCA TCAGATGCCT GAAGGACTTC
    GTCTGTCCAG AGATCGACAT CAAGGTCACT CTGGGTGTGT ATGAAATGGC GTCGGCCGCT
    GGTTTGCCCT GTGAGATCGA CCCCGCGCTG GTTTCCGCAT TAGCAAACAT GCAGACAGAT
    AACCCGTCGA TGGAGGAGGA GTATAAGATC AGCTGTCTGC TGCTGGTGTA CATCGCCGTT
    TCCCTGCCGT CGCTCTGCCT GGATCCAAAC TCATTCTACA GCCGCGAGCA CGGAGGTCAC
    CAGAACAACA TCCACTGTTT GGCGACTGCG GTGAACCACG TGGCAGCGGC CATGTTCACC
    GTCCAGAGGA AGAACATCCA GACGCAGATG CAGGAGTTCC TGAAGGTGGC GTCCTCTGTC
    CTACTCCAGC TCGGTCAGAA TGTGGACAAC AGAGAGATCA AGAACAGGGA TTCGGTTTAT
    ATCCTTCTGC ACATGATCGT GGAGCAGTCG CCGTTCTTGA GTCAGGATAT GCTGGAGATG
    TGTTTTCCCT ACGTGCTCCT CAGAAACGCA TACAGAGAAG TGCACAAAGT CTTCATCCAC
    ACCATGGGCT GA

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

    RefSeq NP_001107884.1
    CDS17..3388
    Translation

    Target ORF information:

    RefSeq Version NM_001114412.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio zgc:172352 (zgc:172352), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001114412.1

    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
    ATGGCCTACC AGCTGAAACT GGCGGAGAAG CTGCTGATCC TCCGTGACCG TGGGCAGGGT 
    GTGCTGGTGC GCATCAACCA CATCAAGAAG GTTTTCTCAG ACCCAAAGCG AAGACCTTCA
    TACTTCACTG ATAAAAGCAT GGAGTCTGCC ATAAAATACA TCAACAGAAA ATTCCCCAAC
    ATCGACTTCA GGGGTGGCAG TCAACAGCTG AGCAGCATTC AGAAACAGAA GACCGCCGTG
    CTGGAGTGTC TGCACAGCTA CTACGAGTCC TTCATAGATG TCATGGAGTT CAGGGACCAT
    GTTTATGAGC TGTTGAACAC AATCGACGCC TGTCAGTGCT TCTTTAACAT CATTGTGAAT
    TTTGACCTGA CCAAGAATTA CCTGGACCTC GTGGTCACCT ACGCCTCTGT CATCTACATG
    CTGTCCCGCA TTGAGGACAA GAAAGCCATA GTGGGAATGT ATAACTCTGC GTATGAGCTG
    TCCAACGGGA ACAGTGATCC CTCGTACCCT CGTCTGGGAC AGATGTTCTT AGAGTACGAA
    CACCCCTGGA AGAAGCTGTC TGAGGAGTTC GGTCCACACA CTAAGGCGGT GACGGAGGCT
    GTTCTCTCTC TGCATCTGGT GTATCCGCGC AGGAATCTGA CTGCAGATCA GTGGCGCAGT
    GCTCAGCTCC TGTCCCTGCT GGCTTCACCC GCCGCCATGC TGAGCCCGGC CTGCTGTGAC
    ACTGTGGCGT GTGAGTATCT GTCCATGGAG GTGATGGAGC GCTGGATCCT CATCGGGTTC
    CTGTTGTGTC ATGCGAGTCT CAACACCAAC GCAAACTCTC AGAGTCTGTG GAAGATGGCG
    CTGCGCAACG GCCTGTACAT CAGCATCATC AGAGACGAGC TGCTCAACAT ACACAAGCTC
    TCAGAGGAGT TCTTCGACAG TCTTAAAGGG TACAGTAAAC GCATCGCTGA CATCAAGGAG
    TGTAAAGAGC ACGTGCTGGC CAACTGCGGT GCGTTGCGCA GAGAGAAGCG CAGCTATCTG
    AGGAACGCCC TGAAGGAGCT GACTAAAGTG CTGGAGGACG AGCCGGCGCT GCTGGGACCC
    AAGGTGTTGT TTGTGTTCAT GGCGCTGTCG TTCTCTCGGG ATGAAGTGCT GTGGCTCGTG
    CGGCACATGG AGAACATCCC CAAAACCAAA ACACCGGAGG ATTACGCAGA CCCGCAGATG
    GCCGAGCTGC TCTTCTACAT GGAGAAGTTG CGCGCGCTGC TGCTGCGTCA CAGATACGTG
    GTTCAGCGAT ATCATCTGCA GTATCTGGCA CAGTACGACG CGCTCGTGCT CAACGACACC
    ATTCAGGGCA TGCTCGTGTG TCCAGAGGAG GAGTCTGTGC TCATGTCCTC ATTCGTCTCC
    ACTCTGTCTG CGCTCAGCCT CAAACACTTG GATGCAGGAG AACAGTTTGA CCTCAAGCCA
    CTCAGACTGG ACTGGTTACG ACTGCAGGTG TACACCAGTG TGGGTAAAGC TCCTCTGGCC
    CTGAAGGATT ACCCAGAGCT GGCCAAGATC ATGAACGTGT CTCAGTTTCA CAGCCGCATG
    CTGGACAGTG TGGAGGAACT GCTGTGGGAG ACCACGGACC TGTCTGTGCT CTGTTTTCAC
    GCGCGTGTGT TTGAGAAGCT CTTCTCTCAG AGCAGCGAGG ATGTGTGTGT GCAGCGATAC
    CTCATGGGCT TCCCGCTCGT CTGCTCACAC TTCAGCCAGA GTCTCCATCC ACTCTGCCCA
    GAGGAGACTG AAGATCTAGA GAAGCAGAGC CTGAAGCTGT GTGTGTCGTT TCTGGAAGAG
    ATCTCACGTC AGACCAGTGC GGTGGTGCTG GAGATCTGTG CTGAGCAGTG GAACCTGCAC
    GAAAAGCTGC TGCCCAAACA CAGCGCTCAG ACCATCAGCA CAGCCCGCAA CAAAAAACTG
    AAGAAGGTGC AGCCCAAGAA AGGAGACGCT CCCAGGGAGA AGCCGGGGGC CGAGAGCCTG
    CGCAAGGACA GAGCCTTCGT CACCAATCTG GATAAGATGC ACCAGACCCT GACAGAGCTG
    TGCTCCTCGT TCAGCATCTG CACTGATTTC TCCGTCTGCA GACACGTCAT CGTGCCGGCC
    GAGTTCCTGC TCACACAGCT GGAGATCAGA CTCAACAAGG TGTTTGTGCA GATGGCGGGC
    TACAATCAGA GCACTCATGA GATCTCGCGT CCGTCAGATC TTGCGTCAGG AATGCAGGCG
    TACGTCAGCG CGATACACAC TCTCAGCTCC TACATCAACA TCGACGTCTC GCGCCTCGTC
    AAGAGTGTGT TACTGCAGCA GACACAGCCG CTCGACTCTT ACGGCGCGCA GACCATCACC
    ACACTCTACA CCAACTGGTA TCTGGAGGGT CTCCTCCGTC AGGCCAGCAG TGCTCTGATC
    GTCCACTGCC CCACCACACA GTGCTTCATA AACCAGAACA CCGAGAACGA GCAGAACTTC
    CACGCCGAGG AGTACTCTGA CATTGGAGGT TTGCGCTCGT TGGCTGAACT GATCGGTCCT
    TATGGGATGA AGTTTTTAAG CGAGAACCTC ATGTGGCACA TCATATCTCA GGTTGGAGAA
    CTGAAGAAAC TTGTCAGCGA CAACATGGAT GTCCTGGTGC AGATGAGGGC AAACTACGAG
    GATCCCGAAG CCATGAGTGA ACTCCAGAAG AAGCTCGCAG GCTGTGAGAA CGTGCTGAAG
    AGAATGACCA TCATCGGGGT GATCCTGTCC TTCCGCTCCA TGGTCCAAGA AGCTCTGGAG
    GAGATCATGG ACAGACACTG CCCGTTCCTC ATGAAGCCCA TCAGATGCCT GAAGGACTTC
    GTCTGTCCAG AGATCGACAT CAAGGTCACT CTGGGTGTGT ATGAAATGGC GTCGGCCGCT
    GGTTTGCCCT GTGAGATCGA CCCCGCGCTG GTTTCCGCAT TAGCAAACAT GCAGACAGAT
    AACCCGTCGA TGGAGGAGGA GTATAAGATC AGCTGTCTGC TGCTGGTGTA CATCGCCGTT
    TCCCTGCCGT CGCTCTGCCT GGATCCAAAC TCATTCTACA GCCGCGAGCA CGGAGGTCAC
    CAGAACAACA TCCACTGTTT GGCGACTGCG GTGAACCACG TGGCAGCGGC CATGTTCACC
    GTCCAGAGGA AGAACATCCA GACGCAGATG CAGGAGTTCC TGAAGGTGGC GTCCTCTGTC
    CTACTCCAGC TCGGTCAGAA TGTGGACAAC AGAGAGATCA AGAACAGGGA TTCGGTTTAT
    ATCCTTCTGC ACATGATCGT GGAGCAGTCG CCGTTCTTGA GTCAGGATAT GCTGGAGATG
    TGTTTTCCCT ACGTGCTCCT CAGAAACGCA TACAGAGAAG TGCACAAAGT CTTCATCCAC
    ACCATGGGCT GA

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

  • PubMed

    Evolution of complexity in the zebrafish synapse proteome.
    Nature communications814613(2017 Mar)
    Bay?s ?,Collins MO,Reig-Viader R,Gou G,Goulding D,Izquierdo A,Choudhary JS,Emes RD,Grant SG


    Phylogenetic-based propagation of functional annotations within the Gene Ontology consortium.
    Briefings in bioinformatics12(5)449-62(2011 Sep)
    Gaudet P,Livstone MS,Lewis SE,Thomas PD


    Generation and initial analysis of more than 15,000 full-length human and mouse cDNA sequences.
    Proceedings of the National Academy of Sciences of the United States of America99(26)16899-903(2002 Dec)
    Strausberg RL,Feingold EA,Grouse LH,Derge JG,Klausner RD,Collins FS,Wagner L,Shenmen CM,Schuler GD,Altschul SF,Zeeberg B,Buetow KH,Schaefer CF,Bhat NK,Hopkins RF,Jordan H,Moore T,Max SI,Wang J,Hsieh F,Diatchenko L,Marusina K,Farmer AA,Rubin GM,Hong L,Stapleton M,Soares MB,Bonaldo MF,Casavant TL,Scheetz TE,Brownstein MJ,Usdin TB,Toshiyuki S,Carninci P,Prange C,Raha SS,Loquellano NA,Peters GJ,Abramson RD,Mullahy SJ,Bosak SA,McEwan PJ,McKernan KJ,Malek JA,Gunaratne PH,Richards S,Worley KC,Hale S,Garcia AM,Gay LJ,Hulyk SW,Villalon DK,Muzny DM,Sodergren EJ,Lu X,Gibbs RA,Fahey J,Helton E,Ketteman M,Madan A,Rodrigues S,Sanchez A,Whiting M,Madan A,Young AC,Shevchenko Y,Bouffard GG,Blakesley RW,Touchman JW,Green ED,Dickson MC,Rodriguez AC,Grimwood J,Schmutz J,Myers RM,Butterfield YS,Krzywinski MI,Skalska U,Smailus DE,Schnerch A,Schein JE,Jones SJ,Marra MA,