rreb1a cDNA ORF clone, Danio rerio(zebrafish)

  • Gene

  • Clones

  • gRNAs

The following rreb1a gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the rreb1a 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
ODa57687 XM_017353936.1
Latest version!
Danio rerio ras responsive element binding protein 1a (rreb1a), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
ODa28233 XM_002666582.6
Latest version!
Danio rerio ras responsive element binding protein 1a (rreb1a), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $1021.30
$1459.00
ODa28234 XM_005162477.4
Latest version!
Danio rerio ras responsive element binding protein 1a (rreb1a), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $1021.30
$1459.00
View Old Accession Versions >>
ODa28234 XM_005162477.3 Danio rerio ras responsive element binding protein 1a (rreb1a), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $1021.30
$1459.00
ODa28233 XM_002666582.5 Danio rerio ras responsive element binding protein 1a (rreb1a), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $1021.30
$1459.00
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)
    CloneID ODa57687
    Clone ID Related Accession (Same CDS sequence) XM_017353936.1
    Accession Version XM_017353936.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5040bp)
    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 ras-responsive element-binding protein 1 isoform X2
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007135.6) 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
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGCTTGTTG CTATGGAAAA TTCAGCAGAA GAGGCGAGAA CAGAATCAGC GAATTGCAGC 
    CTTACTGGGG AAGAGGAGGC GGAGCAAAGT GATGAGCGCC AGAGCCCCGC CCCTACAGAA
    GCTCACACAG AGGGTTCTGC TGGCGTAGAA GAGGAAGGAA ACGAATGGAA GAATGGACGG
    AATGAAGCAG ACGGAGAGAT GGAGGCAGTA GATGGAGTGG ACTTGACCTC CATAAACTCC
    ATGATGAACA CAGTGATGAA AGCCGCTCAG CTGAACGGTG GCGTAGACTC CGCCCACAGC
    ACACCCAATA AGGTGCCCGC CAAAAGCCCC GGCACCAACC GCAGCGGAAG AAAGAGCCAG
    GAAGCCAAAG ATGAGAGCGG GTGTATCGCC TGTCCTCTGT GCGATAAGGG CTTTCAGAAC
    CAGCACCAGC TCACCATGCA CATCCGCCAG CACAACACTG ACAGCGGGAC TTCAGACCAC
    TCGTGCAGTA TCTGCGGGAA GTCTCTGAGC TCGGCCAGCT CTCTGGACCG TCACATGCTA
    GTGCACAGCG GAGAGAGACC CTACAAATGC ACCGTGTGCC ATCAGACCTT CACCACCAAC
    GGCAACATGC ACAGACACAT GAAGATCCAT GAGAAGGACT CTGCCAGCTC CATCCCCAAC
    AGTCCGACTC TCTCCCCAAC TAAGCGACGG CGTTCCTCCA CAGCCAAACG CAAACTAAGT
    CAAGATGAAG ACTGCGAGAA GACAGAGGAG CCGTCCAGCA AAAAGGTGCT GGAGGACAGT
    GGAGCAGATG AGCAGGGATC GAACAAAGGA CAGGACGAGC TCTTGACCTG CTCGATCTGC
    TTCAAGAACT TCACCTGCAA AAATGACTAC GACACCCACA TGGAAATCCA TCCCGACACT
    ACATTAAGAT GTGATTTATG CTGCGTCTCC TTCCGGACAC CTCGAAGTTT GCTTCGCCAC
    AATGCAGCTA CCCATAAGCA GCTACCCACA GACCCCAGTG GACGACCCTT TATTCAGAAC
    AATCCATCCA TCCCTCTCGG CTTTAATGAT CTGGCTTTCA TTGACTTTTC ATGCCTCAAG
    TTCCCTCGTA TTGCCCAGAT TTGGTGTGAA ACAAACCTTC GTCGGTGTAC TGGCAAATTC
    CATCGTTTTG TATGCGACTC GTGCGATAAG GCATTCCCTC TTAGCTCAGC TCTGGACTTA
    CACAAAGCCT CACATGAGGA GTCCAGTGGC ACCCAAGAAA CAACTTCACC CTTAGTTGAG
    AAAGACGAGC TTCCCAATGA CAAAAGCAGC TTCATGGACT TTCTGGGCTT GCAGCACATC
    TCTCAGGTCA AGCCTGCCCC TTCTGAAGAG GATGCCCTGC AGGCTAAGCT AGATAGTATC
    CGGGTTATTC ACGTAGAGCC GAATCAGTCC ACCGTACCTC AAGAGCCTGG TCTTGTTGGA
    AGTGTCAACC TATCTCTTGT AGACCCTACG ACTCTTCATG GTTTGTCCCA CCAAGAGGCT
    CTCAAACTAC TGTCCCTTCA GCCATTCCAG ACTGGCTTTC TGGTGCAGCC AGATGGTGGT
    ATGGTGGTGA AGCCTGTTTG TGGTGATACC AGCACAGAAC TTGCAGATAT ACAGCAAATA
    CTCAAAGTAG CTTCTGCTGC TCCAAACCAG ATTGCTCTTC CACCTTTATC CAAGGCCCCA
    TGTAGTACTG GACAGTCAGG CTACAAGCAG ATGCCTCCAC TCAAGCCAAA ACCATTGGTG
    GCCCCCAGAA CCAGCATGGT AGCTTCAACT CCACCGCCTC TATTGAACAC CCAACAAGCT
    TCACTGGGCT GTATCAGCCC AAGCCTTCCA CCTCCTGCCA GCCATCCCAT CAAGGTGGCT
    AGGGAGAACT CTTCATCTTC CTCGTCCTCT TCTGCCAGTA ACCAGGCTTC TGCAGAGAGG
    ATTCAAATGG AGGCGGAGTG CATGGGAGAT GCACATACTC CGATGGACAT GGATGAAAGA
    CATATCAAGC AGGAGAATAG CAAATTAGAA GAGACCACTG GAAAAAAGGG AACATCTCAA
    AAAGGCTCAT ACCCCTGTCG ATTTTGTGAC CAGGTCTTTG CATTCTCAGG TGTGCTCCAG
    GCACACATGC GTTATCATTT GGGCGTCCTT CCCCACCAAT GTAATATATG TGATTATGTT
    GCACCAGACA AGGCAACACT GATCCGTCAT TTGAGAACAC ACAGTGGTGA GCGACCCTAT
    GTCTGCCGGC TCTGCCTTTA CCCGTTTACA GTCAAGGCTA ACTGTGAGCG TCACCTTCGC
    AAAAAGCACA TGAAAAGCAG TCGCAAGGAG ATTGAGAAAA ACATTAAGTA TGTTACCTCG
    TCCACGTCAA CATCAGATGT CGTAGAGCAG GCTGGGACCA GTGAAACTAC CTGCCGCTTC
    TGTGGTGAAG ACCTAAAGAC CTTTCGGGCC CTGCAGATTC ACCTGCGCAC ACACAATGGC
    TGCCAGCGAA AGCCATTTGA GTGCAAGCGT TGTGGAGCAG CCTTCCTGGC CAAACGTAAC
    TGCATCCATC ATCTTCTGAA GCAACATCCG GAGGTCCAAG AGCAGGATAT TGAAGACCAC
    ATAATCACTC TTCTAGCTCC ATCATCCCAA AATAGCCCAA GCCCATCTCC TCTCAATGGC
    GTTCCTACTA ACAACGTGGT GCAGCCCATC AAGGTGGAGG ACCTTAGCTT CTACACTGTA
    GATATGGATC AACCACTAGA CTTTTCTAAC AAAAGTCGAG GGGCCAACAA CAACAATGCT
    GGAAGTGTAA GTGGATCGCC TGCGATCAAA ATTGAACCTG TCTCTTTTGA CTCTTCCATG
    GAGCCCATTG ACCTCTCTAT TCCTAAGAAT CCTATGAAGA AGCTTAAACA AGACATCGAG
    GCTGCTTTAC CAAGAGCGGT TAAGAAAGAA CCTTCATCTG TTAGCATTCT TGCAAAGGCA
    CTTCAGGCTG ATAAGTCTAT TGATGAAAAG TGCCAACCGC TTGGGTGCTA CCAAGTTCCT
    GTAGCTTTGA CGTCTCTTAC TGGTAGCACT AGCGCTGCAG GAAGACCCTT GCGTCTAAAA
    CCCCTGCTTC CTAAACCTTC CTCTGCTGGT GTGAAGGAGC TTCCACCCCT AGCATCCATT
    GCTCAGATCA TCTCCTCTGT GTCCGGTGCC CCTGACCTTC TAAAACGTGA CAACACTAAT
    AGTCTTAAGA CTGATATTGA TACACCTGCC AAGCAGGAAT CACCAGAGAC CCTAAAAGAG
    GAGCTTTCGG TAGAGATCTC CAAAAAGAGG ACTAGGAAAA GGCCTTCCAA CGGCATAGCA
    AAAGAGAAAA CCGTGATGAA TGCTCCAGAC CTGAGTATTG ACTTGGAGTC TAGTGGGGAG
    TTTGCTAGTG TTGAAAGGAT GTTGGCAAAC ACTGATGCTA ACAAGTTCAG CGCCTATCTT
    CAGACCAACA CAATCGAGTT GGCAAGAAAA GGCAGGCAGC AGCCAGGTGC TGGTGACGAG
    AAAGAGATGA AAGATGAGAA ACACTTGCCA GTCCAGCAGA CTGTTCAACA GTCTAAAGGG
    AAGAAAAATG CGTACTCAAA TTCTGTGCAG AAGATGATTT GCCCATTTTG TCCCAGAGTT
    TTCCCATGGG CCAGCTCGCT TCAGCGCCAC ATGCTAACAC ACACAGGTCA GAAGCCATAT
    CCTTGCCCCC AATGTGATGC CTTCTTCTCA ACCAAATCCA ACTGTGAAAG ACATCTTTTG
    CGCAAGCATG GCATTTCCAA CCGAGTGCTT AGACGCAATG GTGTAATACC CAAACCTAAG
    GATGCAGAGG ATGGCTCGCC AGAGAGCGCA GATAGCACAT CTGAGGCAGA GCTTCCTATG
    GGTGAGGCAA TGGATCTAAC AAGTTCAGAC CCTGAGAAGT CTGTAGCATC TGATGCTGAG
    AAACCATCAC CAGCTAAACC TACAGAGGCA GCCGTGGTAG AGCCTCTTCC TCAAAAAGAG
    GATGACAAAA CATCCCTCGA GTCTTTGAAG CATAATGACA CCGAAATAGA GGATGACCAT
    TTAAATAGCA ATAAGACCCT TGACTTGACC TTTGTCTCCA AAGCAAAGGA CGTCAATATT
    ACTGAGAAGG AGCAGCCACA GTCCTCCCCC GTAGCAGATG AAGAAATATC TGACAAAGCA
    AAAGCTCACG AGGAGTCTAA ATTAACCTGC AAAATATGCA AGAAGAGTTT CCGCTACGTT
    AAAACCCTCA CCAGACATGA GAAAGCTCAC CAGCTGGACA TGACACAAGA CGCTGGTGTT
    ACTAATGGAC AAAACCTCAC AAAATCAGAT GATCCCATTG TGCCTTGTGA AAAGAAAGAG
    GTTACAGAAG AAGAAGTGGA GAGCGTAAGG AAGGGTAAAG CTGAAACGGA AGGAAATGGC
    AGCGTGGTGG AAAGCGGGCC TGATGAGGAT AAAGAGGAGA GAAGTGATGA AGAGGAACCT
    GCAACTGAAC CAAAGAGTGC TGGGAGAGAA CCTGGTAGCA AACCGGACAA AAGGAAAAAG
    GTGTGCAGTA TATGCAACAA ACGCTTCTGG AGCCTTCAGG ACCTGACTAG ACATATGCGC
    TCGCACACAG GTGAGAGGCC GTACAAGTGC CAGACATGCG AGCGCACCTT CACCCTCAAG
    CACAGTTTGG TTCGACATCA GCGAATCCAC CAGAAGCTGC GTGGAGTGGA TAGTGATGGT
    TCCACATGTG GAGCTGCAGG GGGAGCGGAT GAGGAGGGCT TCAGCGGACG TTCGGCCAGC
    GAAAGCGAAT GCACACCCAC CAGCACAAAC CCGCCCTCTG AGAACGAAAG TGAAATGACA
    GACACTGTGA AGGGGGAACC AACCTCGTAT GTGAACAAGG GAGCAGCCGC GGACGCAGAA
    GAGTATAATC TGAGCTCTGA GACAGAACCT GCAGCAGAAA CACCCAAAGA AACTCCAGCA
    GAGGATTCTC CAGCCACATC AGAGCCGGGA TTCATCCAAG GTTTACTGGA GATCCATACC
    AAGCCCACTA CTGAGCACAT TTTGCCCACC TCCGAGCCAG CGCTTCTTGG AGTGGAGTGA

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

    RefSeq XP_017209425.1
    CDS242..5281
    Translation

    Target ORF information:

    RefSeq Version XM_017353936.1
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio ras responsive element binding protein 1a (rreb1a), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017353936.1

    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
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGCTTGTTG CTATGGAAAA TTCAGCAGAA GAGGCGAGAA CAGAATCAGC GAATTGCAGC 
    CTTACTGGGG AAGAGGAGGC GGAGCAAAGT GATGAGCGCC AGAGCCCCGC CCCTACAGAA
    GCTCACACAG AGGGTTCTGC TGGCGTAGAA GAGGAAGGAA ACGAATGGAA GAATGGACGG
    AATGAAGCAG ACGGAGAGAT GGAGGCAGTA GATGGAGTGG ACTTGACCTC CATAAACTCC
    ATGATGAACA CAGTGATGAA AGCCGCTCAG CTGAACGGTG GCGTAGACTC CGCCCACAGC
    ACACCCAATA AGGTGCCCGC CAAAAGCCCC GGCACCAACC GCAGCGGAAG AAAGAGCCAG
    GAAGCCAAAG ATGAGAGCGG GTGTATCGCC TGTCCTCTGT GCGATAAGGG CTTTCAGAAC
    CAGCACCAGC TCACCATGCA CATCCGCCAG CACAACACTG ACAGCGGGAC TTCAGACCAC
    TCGTGCAGTA TCTGCGGGAA GTCTCTGAGC TCGGCCAGCT CTCTGGACCG TCACATGCTA
    GTGCACAGCG GAGAGAGACC CTACAAATGC ACCGTGTGCC ATCAGACCTT CACCACCAAC
    GGCAACATGC ACAGACACAT GAAGATCCAT GAGAAGGACT CTGCCAGCTC CATCCCCAAC
    AGTCCGACTC TCTCCCCAAC TAAGCGACGG CGTTCCTCCA CAGCCAAACG CAAACTAAGT
    CAAGATGAAG ACTGCGAGAA GACAGAGGAG CCGTCCAGCA AAAAGGTGCT GGAGGACAGT
    GGAGCAGATG AGCAGGGATC GAACAAAGGA CAGGACGAGC TCTTGACCTG CTCGATCTGC
    TTCAAGAACT TCACCTGCAA AAATGACTAC GACACCCACA TGGAAATCCA TCCCGACACT
    ACATTAAGAT GTGATTTATG CTGCGTCTCC TTCCGGACAC CTCGAAGTTT GCTTCGCCAC
    AATGCAGCTA CCCATAAGCA GCTACCCACA GACCCCAGTG GACGACCCTT TATTCAGAAC
    AATCCATCCA TCCCTCTCGG CTTTAATGAT CTGGCTTTCA TTGACTTTTC ATGCCTCAAG
    TTCCCTCGTA TTGCCCAGAT TTGGTGTGAA ACAAACCTTC GTCGGTGTAC TGGCAAATTC
    CATCGTTTTG TATGCGACTC GTGCGATAAG GCATTCCCTC TTAGCTCAGC TCTGGACTTA
    CACAAAGCCT CACATGAGGA GTCCAGTGGC ACCCAAGAAA CAACTTCACC CTTAGTTGAG
    AAAGACGAGC TTCCCAATGA CAAAAGCAGC TTCATGGACT TTCTGGGCTT GCAGCACATC
    TCTCAGGTCA AGCCTGCCCC TTCTGAAGAG GATGCCCTGC AGGCTAAGCT AGATAGTATC
    CGGGTTATTC ACGTAGAGCC GAATCAGTCC ACCGTACCTC AAGAGCCTGG TCTTGTTGGA
    AGTGTCAACC TATCTCTTGT AGACCCTACG ACTCTTCATG GTTTGTCCCA CCAAGAGGCT
    CTCAAACTAC TGTCCCTTCA GCCATTCCAG ACTGGCTTTC TGGTGCAGCC AGATGGTGGT
    ATGGTGGTGA AGCCTGTTTG TGGTGATACC AGCACAGAAC TTGCAGATAT ACAGCAAATA
    CTCAAAGTAG CTTCTGCTGC TCCAAACCAG ATTGCTCTTC CACCTTTATC CAAGGCCCCA
    TGTAGTACTG GACAGTCAGG CTACAAGCAG ATGCCTCCAC TCAAGCCAAA ACCATTGGTG
    GCCCCCAGAA CCAGCATGGT AGCTTCAACT CCACCGCCTC TATTGAACAC CCAACAAGCT
    TCACTGGGCT GTATCAGCCC AAGCCTTCCA CCTCCTGCCA GCCATCCCAT CAAGGTGGCT
    AGGGAGAACT CTTCATCTTC CTCGTCCTCT TCTGCCAGTA ACCAGGCTTC TGCAGAGAGG
    ATTCAAATGG AGGCGGAGTG CATGGGAGAT GCACATACTC CGATGGACAT GGATGAAAGA
    CATATCAAGC AGGAGAATAG CAAATTAGAA GAGACCACTG GAAAAAAGGG AACATCTCAA
    AAAGGCTCAT ACCCCTGTCG ATTTTGTGAC CAGGTCTTTG CATTCTCAGG TGTGCTCCAG
    GCACACATGC GTTATCATTT GGGCGTCCTT CCCCACCAAT GTAATATATG TGATTATGTT
    GCACCAGACA AGGCAACACT GATCCGTCAT TTGAGAACAC ACAGTGGTGA GCGACCCTAT
    GTCTGCCGGC TCTGCCTTTA CCCGTTTACA GTCAAGGCTA ACTGTGAGCG TCACCTTCGC
    AAAAAGCACA TGAAAAGCAG TCGCAAGGAG ATTGAGAAAA ACATTAAGTA TGTTACCTCG
    TCCACGTCAA CATCAGATGT CGTAGAGCAG GCTGGGACCA GTGAAACTAC CTGCCGCTTC
    TGTGGTGAAG ACCTAAAGAC CTTTCGGGCC CTGCAGATTC ACCTGCGCAC ACACAATGGC
    TGCCAGCGAA AGCCATTTGA GTGCAAGCGT TGTGGAGCAG CCTTCCTGGC CAAACGTAAC
    TGCATCCATC ATCTTCTGAA GCAACATCCG GAGGTCCAAG AGCAGGATAT TGAAGACCAC
    ATAATCACTC TTCTAGCTCC ATCATCCCAA AATAGCCCAA GCCCATCTCC TCTCAATGGC
    GTTCCTACTA ACAACGTGGT GCAGCCCATC AAGGTGGAGG ACCTTAGCTT CTACACTGTA
    GATATGGATC AACCACTAGA CTTTTCTAAC AAAAGTCGAG GGGCCAACAA CAACAATGCT
    GGAAGTGTAA GTGGATCGCC TGCGATCAAA ATTGAACCTG TCTCTTTTGA CTCTTCCATG
    GAGCCCATTG ACCTCTCTAT TCCTAAGAAT CCTATGAAGA AGCTTAAACA AGACATCGAG
    GCTGCTTTAC CAAGAGCGGT TAAGAAAGAA CCTTCATCTG TTAGCATTCT TGCAAAGGCA
    CTTCAGGCTG ATAAGTCTAT TGATGAAAAG TGCCAACCGC TTGGGTGCTA CCAAGTTCCT
    GTAGCTTTGA CGTCTCTTAC TGGTAGCACT AGCGCTGCAG GAAGACCCTT GCGTCTAAAA
    CCCCTGCTTC CTAAACCTTC CTCTGCTGGT GTGAAGGAGC TTCCACCCCT AGCATCCATT
    GCTCAGATCA TCTCCTCTGT GTCCGGTGCC CCTGACCTTC TAAAACGTGA CAACACTAAT
    AGTCTTAAGA CTGATATTGA TACACCTGCC AAGCAGGAAT CACCAGAGAC CCTAAAAGAG
    GAGCTTTCGG TAGAGATCTC CAAAAAGAGG ACTAGGAAAA GGCCTTCCAA CGGCATAGCA
    AAAGAGAAAA CCGTGATGAA TGCTCCAGAC CTGAGTATTG ACTTGGAGTC TAGTGGGGAG
    TTTGCTAGTG TTGAAAGGAT GTTGGCAAAC ACTGATGCTA ACAAGTTCAG CGCCTATCTT
    CAGACCAACA CAATCGAGTT GGCAAGAAAA GGCAGGCAGC AGCCAGGTGC TGGTGACGAG
    AAAGAGATGA AAGATGAGAA ACACTTGCCA GTCCAGCAGA CTGTTCAACA GTCTAAAGGG
    AAGAAAAATG CGTACTCAAA TTCTGTGCAG AAGATGATTT GCCCATTTTG TCCCAGAGTT
    TTCCCATGGG CCAGCTCGCT TCAGCGCCAC ATGCTAACAC ACACAGGTCA GAAGCCATAT
    CCTTGCCCCC AATGTGATGC CTTCTTCTCA ACCAAATCCA ACTGTGAAAG ACATCTTTTG
    CGCAAGCATG GCATTTCCAA CCGAGTGCTT AGACGCAATG GTGTAATACC CAAACCTAAG
    GATGCAGAGG ATGGCTCGCC AGAGAGCGCA GATAGCACAT CTGAGGCAGA GCTTCCTATG
    GGTGAGGCAA TGGATCTAAC AAGTTCAGAC CCTGAGAAGT CTGTAGCATC TGATGCTGAG
    AAACCATCAC CAGCTAAACC TACAGAGGCA GCCGTGGTAG AGCCTCTTCC TCAAAAAGAG
    GATGACAAAA CATCCCTCGA GTCTTTGAAG CATAATGACA CCGAAATAGA GGATGACCAT
    TTAAATAGCA ATAAGACCCT TGACTTGACC TTTGTCTCCA AAGCAAAGGA CGTCAATATT
    ACTGAGAAGG AGCAGCCACA GTCCTCCCCC GTAGCAGATG AAGAAATATC TGACAAAGCA
    AAAGCTCACG AGGAGTCTAA ATTAACCTGC AAAATATGCA AGAAGAGTTT CCGCTACGTT
    AAAACCCTCA CCAGACATGA GAAAGCTCAC CAGCTGGACA TGACACAAGA CGCTGGTGTT
    ACTAATGGAC AAAACCTCAC AAAATCAGAT GATCCCATTG TGCCTTGTGA AAAGAAAGAG
    GTTACAGAAG AAGAAGTGGA GAGCGTAAGG AAGGGTAAAG CTGAAACGGA AGGAAATGGC
    AGCGTGGTGG AAAGCGGGCC TGATGAGGAT AAAGAGGAGA GAAGTGATGA AGAGGAACCT
    GCAACTGAAC CAAAGAGTGC TGGGAGAGAA CCTGGTAGCA AACCGGACAA AAGGAAAAAG
    GTGTGCAGTA TATGCAACAA ACGCTTCTGG AGCCTTCAGG ACCTGACTAG ACATATGCGC
    TCGCACACAG GTGAGAGGCC GTACAAGTGC CAGACATGCG AGCGCACCTT CACCCTCAAG
    CACAGTTTGG TTCGACATCA GCGAATCCAC CAGAAGCTGC GTGGAGTGGA TAGTGATGGT
    TCCACATGTG GAGCTGCAGG GGGAGCGGAT GAGGAGGGCT TCAGCGGACG TTCGGCCAGC
    GAAAGCGAAT GCACACCCAC CAGCACAAAC CCGCCCTCTG AGAACGAAAG TGAAATGACA
    GACACTGTGA AGGGGGAACC AACCTCGTAT GTGAACAAGG GAGCAGCCGC GGACGCAGAA
    GAGTATAATC TGAGCTCTGA GACAGAACCT GCAGCAGAAA CACCCAAAGA AACTCCAGCA
    GAGGATTCTC CAGCCACATC AGAGCCGGGA TTCATCCAAG GTTTACTGGA GATCCATACC
    AAGCCCACTA CTGAGCACAT TTTGCCCACC TCCGAGCCAG CGCTTCTTGG AGTGGAGTGA

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

    CloneID ODa28233
    Clone ID Related Accession (Same CDS sequence) XM_002666582.5 , XM_002666582.6
    Accession Version XM_002666582.5 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5070bp)
    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 ras-responsive element-binding protein 1 isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007135.6) 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_002666582.4. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    ATGTCTCGGC GAAAGCAACC CAACCCCAAC AAAGTCAAAC CTATGGAAAA TTCAGCAGAA 
    GAGGCGAGAA CAGAATCAGC GAATTGCAGC CTTACTGGGG AAGAGGAGGC GGAGCAAAGT
    GATGAGCGCC AGAGCCCCGC CCCTACAGAA GCTCACACAG AGGGTTCTGC TGGCGTAGAA
    GAGGAAGGAA ACGAATGGAA GAATGGACGG AATGAAGCAG ACGGAGAGAT GGAGGCAGTA
    GATGGAGTGG ACTTGACCTC CATAAACTCC ATGATGAACA CAGTGATGAA AGCCGCTCAG
    CTGAACGGTG GCGTAGACTC CGCCCACAGC ACACCCAATA AGGTGCCCGC CAAAAGCCCC
    GGCACCAACC GCAGCGGAAG AAAGAGCCAG GAAGCCAAAG ATGAGAGCGG GTGTATCGCC
    TGTCCTCTGT GCGATAAGGG CTTTCAGAAC CAGCACCAGC TCACCATGCA CATCCGCCAG
    CACAACACTG ACAGCGGGAC TTCAGACCAC TCGTGCAGTA TCTGCGGGAA GTCTCTGAGC
    TCGGCCAGCT CTCTGGACCG TCACATGCTA GTGCACAGCG GAGAGAGACC CTACAAATGC
    ACCGTGTGCC ATCAGACCTT CACCACCAAC GGCAACATGC ACAGACACAT GAAGATCCAT
    GAGAAGGACT CTGCCAGCTC CATCCCCAAC AGTCCGACTC TCTCCCCAAC TAAGCGACGG
    CGTTCCTCCA CAGCCAAACG CAAACTAAGT CAAGATGAAG ACTGCGAGAA GACAGAGGAG
    CCGTCCAGCA AAAAGGTGCT GGAGGACAGT GGAGCAGATG AGCAGGGATC GAACAAAGGA
    CAGGACGAGC TCTTGACCTG CTCGATCTGC TTCAAGAACT TCACCTGCAA AAATGACTAC
    GACACCCACA TGGAAATCCA TCCCGACACT ACATTAAGAT GTGATTTATG CTGCGTCTCC
    TTCCGGACAC CTCGAAGTTT GCTTCGCCAC AATGCAGCTA CCCATAAGCA GCTACCCACA
    GACCCCAGTG GACGACCCTT TATTCAGAAC AATCCATCCA TCCCTCTCGG CTTTAATGAT
    CTGGCTTTCA TTGACTTTTC ATGCCTCAAG TTCCCTCGTA TTGCCCAGAT TTGGTGTGAA
    ACAAACCTTC GTCGGTGTAC TGGCAAATTC CATCGTTTTG TATGCGACTC GTGCGATAAG
    GCATTCCCTC TTAGCTCAGC TCTGGACTTA CACAAAGCCT CACATGAGGA GTCCAGTGGC
    ACCCAAGAAA CAACTTCACC CTTAGTTGAG AAAGACGAGC TTCCCAATGA CAAAAGCAGC
    TTCATGGACT TTCTGGGCTT GCAGCACATC TCTCAGGTCA AGCCTGCCCC TTCTGAAGAG
    GATGCCCTGC AGGCTAAGCT AGATAGTATC CGGGTTATTC ACGTAGAGCC GAATCAGTCC
    ACCGTACCTC AAGAGCCTGG TCTTGTTGGA AGTGTCAACC TATCTCTTGT AGACCCTACG
    ACTCTTCATG GTTTGTCCCA CCAAGAGGCT CTCAAACTAC TGTCCCTTCA GCCATTCCAG
    ACTGGCTTTC TGGTGCAGCC AGATGGTGGT ATGGTGGTGA AGCCTGTTTG TGGTGATACC
    AGCACAGAAC TTGCAGATAT ACAGCAAATA CTCAAAGTAG CTTCTGCTGC TCCAAACCAG
    ATTGCTCTTC CACCTTTATC CAAGGCCCCA TGTAGTACTG GACAGTCAGG CTACAAGCAG
    ATGCCTCCAC TCAAGCCAAA ACCATTGGTG GCCCCCAGAA CCAGCATGGT AGCTTCAACT
    CCACCGCCTC TATTGAACAC CCAACAAGCT TCACTGGGCT GTATCAGCCC AAGCCTTCCA
    CCTCCTGCCA GCCATCCCAT CAAGGTGGCT AGGGAGAACT CTTCATCTTC CTCGTCCTCT
    TCTGCCAGTA ACCAGGCTTC TGCAGAGAGG ATTCAAATGG AGGCGGAGTG CATGGGAGAT
    GCACATACTC CGATGGACAT GGATGAAAGA CATATCAAGC AGGAGAATAG CAAATTAGAA
    GAGACCACTG GAAAAAAGGG AACATCTCAA AAAGGCTCAT ACCCCTGTCG ATTTTGTGAC
    CAGGTCTTTG CATTCTCAGG TGTGCTCCAG GCACACATGC GTTATCATTT GGGCGTCCTT
    CCCCACCAAT GTAATATATG TGATTATGTT GCACCAGACA AGGCAACACT GATCCGTCAT
    TTGAGAACAC ACAGTGGTGA GCGACCCTAT GTCTGCCGGC TCTGCCTTTA CCCGTTTACA
    GTCAAGGCTA ACTGTGAGCG TCACCTTCGC AAAAAGCACA TGAAAAGCAG TCGCAAGGAG
    ATTGAGAAAA ACATTAAGTA TGTTACCTCG TCCACGTCAA CATCAGATGT CGTAGAGCAG
    GCTGGGACCA GTGAAACTAC CTGCCGCTTC TGTGGTGAAG ACCTAAAGAC CTTTCGGGCC
    CTGCAGATTC ACCTGCGCAC ACACAATGGC TGCCAGCGAA AGCCATTTGA GTGCAAGCGT
    TGTGGAGCAG CCTTCCTGGC CAAACGTAAC TGCATCCATC ATCTTCTGAA GCAACATCCG
    GAGGTCCAAG AGCAGGATAT TGAAGACCAC ATAATCACTC TTCTAGCTCC ATCATCCCAA
    AATAGCCCAA GCCCATCTCC TCTCAATGGC GTTCCTACTA ACAACGTGGT GCAGCCCATC
    AAGGTGGAGG ACCTTAGCTT CTACACTGTA GATATGGATC AACCACTAGA CTTTTCTAAC
    AAAAGTCGAG GGGCCAACAA CAACAATGCT GGAAGTGTAA GTGGATCGCC TGCGATCAAA
    ATTGAACCTG TCTCTTTTGA CTCTTCCATG GAGCCCATTG ACCTCTCTAT TCCTAAGAAT
    CCTATGAAGA AGCTTAAACA AGACATCGAG GCTGCTTTAC CAAGAGCGGT TAAGAAAGAA
    CCTTCATCTG TTAGCATTCT TGCAAAGGCA CTTCAGGCTG ATAAGTCTAT TGATGAAAAG
    TGCCAACCGC TTGGGTGCTA CCAAGTTCCT GTAGCTTTGA CGTCTCTTAC TGGTAGCACT
    AGCGCTGCAG GAAGACCCTT GCGTCTAAAA CCCCTGCTTC CTAAACCTTC CTCTGCTGGT
    GTGAAGGAGC TTCCACCCCT AGCATCCATT GCTCAGATCA TCTCCTCTGT GTCCGGTGCC
    CCTGACCTTC TAAAACGTGA CAACACTAAT AGTCTTAAGA CTGATATTGA TACACCTGCC
    AAGCAGGAAT CACCAGAGAC CCTAAAAGAG GAGCTTTCGG TAGAGATCTC CAAAAAGAGG
    ACTAGGAAAA GGCCTTCCAA CGGCATAGCA AAAGAGAAAA CCGTGATGAA TGCTCCAGAC
    CTGAGTATTG ACTTGGAGTC TAGTGGGGAG TTTGCTAGTG TTGAAAGGAT GTTGGCAAAC
    ACTGATGCTA ACAAGTTCAG CGCCTATCTT CAGACCAACA CAATCGAGTT GGCAAGAAAA
    GGCAGGCAGC AGCCAGGTGC TGGTGACGAG AAAGAGATGA AAGATGAGAA ACACTTGCCA
    GTCCAGCAGA CTGTTCAACA GTCTAAAGGG AAGAAAAATG CGTACTCAAA TTCTGTGCAG
    AAGATGATTT GCCCATTTTG TCCCAGAGTT TTCCCATGGG CCAGCTCGCT TCAGCGCCAC
    ATGCTAACAC ACACAGGTCA GAAGCCATAT CCTTGCCCCC AATGTGATGC CTTCTTCTCA
    ACCAAATCCA ACTGTGAAAG ACATCTTTTG CGCAAGCATG GCATTTCCAA CCGAGTGCTT
    AGACGCAATG GTGTAATACC CAAACCTAAG GATGCAGAGG ATGGCTCGCC AGAGAGCGCA
    GATAGCACAT CTGAGGCAGA GCTTCCTATG GGTGAGGCAA TGGATCTAAC AAGTTCAGAC
    CCTGAGAAGT CTGTAGCATC TGATGCTGAG AAACCATCAC CAGCTAAACC TACAGAGGCA
    GCCGTGGTAG AGCCTCTTCC TCAAAAAGAG GATGACAAAA CATCCCTCGA GTCTTTGAAG
    CATAATGACA CCGAAATAGA GGATGACCAT TTAAATAGCA ATAAGACCCT TGACTTGACC
    TTTGTCTCCA AAGCAAAGGA CGTCAATATT ACTGAGAAGG AGCAGCCACA GTCCTCCCCC
    GTAGCAGATG AAGAAATATC TGACAAAGCA AAAGCTCACG AGGAGTCTAA ATTAACCTGC
    AAAATATGCA AGAAGAGTTT CCGCTACGTT AAAACCCTCA CCAGACATGA GAAAGCTCAC
    CAGCTGGACA TGACACAAGA CGCTGGTGTT ACTAATGGAC AAAACCTCAC AAAATCAGAT
    GATCCCATTG TGCCTTGTGA AAAGAAAGAG GTTACAGAAG AAGAAGTGGA GAGCGTAAGG
    AAGGGTAAAG CTGAAACGGA AGGAAATGGC AGCGTGGTGG AAAGCGGGCC TGATGAGGAT
    AAAGAGGAGA GAAGTGATGA AGAGGAACCT GCAACTGAAC CAAAGAGTGC TGGGAGAGAA
    CCTGGTAGCA AACCGGACAA AAGGAAAAAG GTGTGCAGTA TATGCAACAA ACGCTTCTGG
    AGCCTTCAGG ACCTGACTAG ACATATGCGC TCGCACACAG GTGAGAGGCC GTACAAGTGC
    CAGACATGCG AGCGCACCTT CACCCTCAAG CACAGTTTGG TTCGACATCA GCGAATCCAC
    CAGAAGCTGC GTGGAGTGGA TAGTGATGGT TCCACATGTG GAGCTGCAGG GGGAGCGGAT
    GAGGAGGGCT TCAGCGGACG TTCGGCCAGC GAAAGCGAAT GCACACCCAC CAGCACAAAC
    CCGCCCTCTG AGAACGAAAG TGAAATGACA GACACTGTGA AGGGGGAACC AACCTCGTAT
    GTGAACAAGG GAGCAGCCGC GGACGCAGAA GAGTATAATC TGAGCTCTGA GACAGAACCT
    GCAGCAGAAA CACCCAAAGA AACTCCAGCA GAGGATTCTC CAGCCACATC AGAGCCGGGA
    TTCATCCAAG GTTTACTGGA GATCCATACC AAGCCCACTA CTGAGCACAT TTTGCCCACC
    TCCGAGCCAG CGCTTCTTGG AGTGGAGTGA

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

    RefSeq XP_002666628.3
    CDS442..5511
    Translation

    Target ORF information:

    RefSeq Version XM_002666582.5
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio ras responsive element binding protein 1a (rreb1a), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_002666582.5

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    ATGTCTCGGC GAAAGCAACC CAACCCCAAC AAAGTCAAAC CTATGGAAAA TTCAGCAGAA 
    GAGGCGAGAA CAGAATCAGC GAATTGCAGC CTTACTGGGG AAGAGGAGGC GGAGCAAAGT
    GATGAGCGCC AGAGCCCCGC CCCTACAGAA GCTCACACAG AGGGTTCTGC TGGCGTAGAA
    GAGGAAGGAA ACGAATGGAA GAATGGACGG AATGAAGCAG ACGGAGAGAT GGAGGCAGTA
    GATGGAGTGG ACTTGACCTC CATAAACTCC ATGATGAACA CAGTGATGAA AGCCGCTCAG
    CTGAACGGTG GCGTAGACTC CGCCCACAGC ACACCCAATA AGGTGCCCGC CAAAAGCCCC
    GGCACCAACC GCAGCGGAAG AAAGAGCCAG GAAGCCAAAG ATGAGAGCGG GTGTATCGCC
    TGTCCTCTGT GCGATAAGGG CTTTCAGAAC CAGCACCAGC TCACCATGCA CATCCGCCAG
    CACAACACTG ACAGCGGGAC TTCAGACCAC TCGTGCAGTA TCTGCGGGAA GTCTCTGAGC
    TCGGCCAGCT CTCTGGACCG TCACATGCTA GTGCACAGCG GAGAGAGACC CTACAAATGC
    ACCGTGTGCC ATCAGACCTT CACCACCAAC GGCAACATGC ACAGACACAT GAAGATCCAT
    GAGAAGGACT CTGCCAGCTC CATCCCCAAC AGTCCGACTC TCTCCCCAAC TAAGCGACGG
    CGTTCCTCCA CAGCCAAACG CAAACTAAGT CAAGATGAAG ACTGCGAGAA GACAGAGGAG
    CCGTCCAGCA AAAAGGTGCT GGAGGACAGT GGAGCAGATG AGCAGGGATC GAACAAAGGA
    CAGGACGAGC TCTTGACCTG CTCGATCTGC TTCAAGAACT TCACCTGCAA AAATGACTAC
    GACACCCACA TGGAAATCCA TCCCGACACT ACATTAAGAT GTGATTTATG CTGCGTCTCC
    TTCCGGACAC CTCGAAGTTT GCTTCGCCAC AATGCAGCTA CCCATAAGCA GCTACCCACA
    GACCCCAGTG GACGACCCTT TATTCAGAAC AATCCATCCA TCCCTCTCGG CTTTAATGAT
    CTGGCTTTCA TTGACTTTTC ATGCCTCAAG TTCCCTCGTA TTGCCCAGAT TTGGTGTGAA
    ACAAACCTTC GTCGGTGTAC TGGCAAATTC CATCGTTTTG TATGCGACTC GTGCGATAAG
    GCATTCCCTC TTAGCTCAGC TCTGGACTTA CACAAAGCCT CACATGAGGA GTCCAGTGGC
    ACCCAAGAAA CAACTTCACC CTTAGTTGAG AAAGACGAGC TTCCCAATGA CAAAAGCAGC
    TTCATGGACT TTCTGGGCTT GCAGCACATC TCTCAGGTCA AGCCTGCCCC TTCTGAAGAG
    GATGCCCTGC AGGCTAAGCT AGATAGTATC CGGGTTATTC ACGTAGAGCC GAATCAGTCC
    ACCGTACCTC AAGAGCCTGG TCTTGTTGGA AGTGTCAACC TATCTCTTGT AGACCCTACG
    ACTCTTCATG GTTTGTCCCA CCAAGAGGCT CTCAAACTAC TGTCCCTTCA GCCATTCCAG
    ACTGGCTTTC TGGTGCAGCC AGATGGTGGT ATGGTGGTGA AGCCTGTTTG TGGTGATACC
    AGCACAGAAC TTGCAGATAT ACAGCAAATA CTCAAAGTAG CTTCTGCTGC TCCAAACCAG
    ATTGCTCTTC CACCTTTATC CAAGGCCCCA TGTAGTACTG GACAGTCAGG CTACAAGCAG
    ATGCCTCCAC TCAAGCCAAA ACCATTGGTG GCCCCCAGAA CCAGCATGGT AGCTTCAACT
    CCACCGCCTC TATTGAACAC CCAACAAGCT TCACTGGGCT GTATCAGCCC AAGCCTTCCA
    CCTCCTGCCA GCCATCCCAT CAAGGTGGCT AGGGAGAACT CTTCATCTTC CTCGTCCTCT
    TCTGCCAGTA ACCAGGCTTC TGCAGAGAGG ATTCAAATGG AGGCGGAGTG CATGGGAGAT
    GCACATACTC CGATGGACAT GGATGAAAGA CATATCAAGC AGGAGAATAG CAAATTAGAA
    GAGACCACTG GAAAAAAGGG AACATCTCAA AAAGGCTCAT ACCCCTGTCG ATTTTGTGAC
    CAGGTCTTTG CATTCTCAGG TGTGCTCCAG GCACACATGC GTTATCATTT GGGCGTCCTT
    CCCCACCAAT GTAATATATG TGATTATGTT GCACCAGACA AGGCAACACT GATCCGTCAT
    TTGAGAACAC ACAGTGGTGA GCGACCCTAT GTCTGCCGGC TCTGCCTTTA CCCGTTTACA
    GTCAAGGCTA ACTGTGAGCG TCACCTTCGC AAAAAGCACA TGAAAAGCAG TCGCAAGGAG
    ATTGAGAAAA ACATTAAGTA TGTTACCTCG TCCACGTCAA CATCAGATGT CGTAGAGCAG
    GCTGGGACCA GTGAAACTAC CTGCCGCTTC TGTGGTGAAG ACCTAAAGAC CTTTCGGGCC
    CTGCAGATTC ACCTGCGCAC ACACAATGGC TGCCAGCGAA AGCCATTTGA GTGCAAGCGT
    TGTGGAGCAG CCTTCCTGGC CAAACGTAAC TGCATCCATC ATCTTCTGAA GCAACATCCG
    GAGGTCCAAG AGCAGGATAT TGAAGACCAC ATAATCACTC TTCTAGCTCC ATCATCCCAA
    AATAGCCCAA GCCCATCTCC TCTCAATGGC GTTCCTACTA ACAACGTGGT GCAGCCCATC
    AAGGTGGAGG ACCTTAGCTT CTACACTGTA GATATGGATC AACCACTAGA CTTTTCTAAC
    AAAAGTCGAG GGGCCAACAA CAACAATGCT GGAAGTGTAA GTGGATCGCC TGCGATCAAA
    ATTGAACCTG TCTCTTTTGA CTCTTCCATG GAGCCCATTG ACCTCTCTAT TCCTAAGAAT
    CCTATGAAGA AGCTTAAACA AGACATCGAG GCTGCTTTAC CAAGAGCGGT TAAGAAAGAA
    CCTTCATCTG TTAGCATTCT TGCAAAGGCA CTTCAGGCTG ATAAGTCTAT TGATGAAAAG
    TGCCAACCGC TTGGGTGCTA CCAAGTTCCT GTAGCTTTGA CGTCTCTTAC TGGTAGCACT
    AGCGCTGCAG GAAGACCCTT GCGTCTAAAA CCCCTGCTTC CTAAACCTTC CTCTGCTGGT
    GTGAAGGAGC TTCCACCCCT AGCATCCATT GCTCAGATCA TCTCCTCTGT GTCCGGTGCC
    CCTGACCTTC TAAAACGTGA CAACACTAAT AGTCTTAAGA CTGATATTGA TACACCTGCC
    AAGCAGGAAT CACCAGAGAC CCTAAAAGAG GAGCTTTCGG TAGAGATCTC CAAAAAGAGG
    ACTAGGAAAA GGCCTTCCAA CGGCATAGCA AAAGAGAAAA CCGTGATGAA TGCTCCAGAC
    CTGAGTATTG ACTTGGAGTC TAGTGGGGAG TTTGCTAGTG TTGAAAGGAT GTTGGCAAAC
    ACTGATGCTA ACAAGTTCAG CGCCTATCTT CAGACCAACA CAATCGAGTT GGCAAGAAAA
    GGCAGGCAGC AGCCAGGTGC TGGTGACGAG AAAGAGATGA AAGATGAGAA ACACTTGCCA
    GTCCAGCAGA CTGTTCAACA GTCTAAAGGG AAGAAAAATG CGTACTCAAA TTCTGTGCAG
    AAGATGATTT GCCCATTTTG TCCCAGAGTT TTCCCATGGG CCAGCTCGCT TCAGCGCCAC
    ATGCTAACAC ACACAGGTCA GAAGCCATAT CCTTGCCCCC AATGTGATGC CTTCTTCTCA
    ACCAAATCCA ACTGTGAAAG ACATCTTTTG CGCAAGCATG GCATTTCCAA CCGAGTGCTT
    AGACGCAATG GTGTAATACC CAAACCTAAG GATGCAGAGG ATGGCTCGCC AGAGAGCGCA
    GATAGCACAT CTGAGGCAGA GCTTCCTATG GGTGAGGCAA TGGATCTAAC AAGTTCAGAC
    CCTGAGAAGT CTGTAGCATC TGATGCTGAG AAACCATCAC CAGCTAAACC TACAGAGGCA
    GCCGTGGTAG AGCCTCTTCC TCAAAAAGAG GATGACAAAA CATCCCTCGA GTCTTTGAAG
    CATAATGACA CCGAAATAGA GGATGACCAT TTAAATAGCA ATAAGACCCT TGACTTGACC
    TTTGTCTCCA AAGCAAAGGA CGTCAATATT ACTGAGAAGG AGCAGCCACA GTCCTCCCCC
    GTAGCAGATG AAGAAATATC TGACAAAGCA AAAGCTCACG AGGAGTCTAA ATTAACCTGC
    AAAATATGCA AGAAGAGTTT CCGCTACGTT AAAACCCTCA CCAGACATGA GAAAGCTCAC
    CAGCTGGACA TGACACAAGA CGCTGGTGTT ACTAATGGAC AAAACCTCAC AAAATCAGAT
    GATCCCATTG TGCCTTGTGA AAAGAAAGAG GTTACAGAAG AAGAAGTGGA GAGCGTAAGG
    AAGGGTAAAG CTGAAACGGA AGGAAATGGC AGCGTGGTGG AAAGCGGGCC TGATGAGGAT
    AAAGAGGAGA GAAGTGATGA AGAGGAACCT GCAACTGAAC CAAAGAGTGC TGGGAGAGAA
    CCTGGTAGCA AACCGGACAA AAGGAAAAAG GTGTGCAGTA TATGCAACAA ACGCTTCTGG
    AGCCTTCAGG ACCTGACTAG ACATATGCGC TCGCACACAG GTGAGAGGCC GTACAAGTGC
    CAGACATGCG AGCGCACCTT CACCCTCAAG CACAGTTTGG TTCGACATCA GCGAATCCAC
    CAGAAGCTGC GTGGAGTGGA TAGTGATGGT TCCACATGTG GAGCTGCAGG GGGAGCGGAT
    GAGGAGGGCT TCAGCGGACG TTCGGCCAGC GAAAGCGAAT GCACACCCAC CAGCACAAAC
    CCGCCCTCTG AGAACGAAAG TGAAATGACA GACACTGTGA AGGGGGAACC AACCTCGTAT
    GTGAACAAGG GAGCAGCCGC GGACGCAGAA GAGTATAATC TGAGCTCTGA GACAGAACCT
    GCAGCAGAAA CACCCAAAGA AACTCCAGCA GAGGATTCTC CAGCCACATC AGAGCCGGGA
    TTCATCCAAG GTTTACTGGA GATCCATACC AAGCCCACTA CTGAGCACAT TTTGCCCACC
    TCCGAGCCAG CGCTTCTTGG AGTGGAGTGA

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

    CloneID ODa28233
    Clone ID Related Accession (Same CDS sequence) XM_002666582.5 , XM_002666582.6
    Accession Version XM_002666582.6 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5070bp)
    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 ras-responsive element-binding protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007135.7) 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_002666582.5. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    ATGTCTCGGC GAAAGCAACC CAACCCCAAC AAAGTCAAAC CTATGGAAAA TTCAGCAGAA 
    GAGGCGAGAA CAGAATCAGC GAATTGCAGC CTTACTGGGG AAGAGGAGGC GGAGCAAAGT
    GATGAGCGCC AGAGCCCCGC CCCTACAGAA GCTCACACAG AGGGTTCTGC TGGCGTAGAA
    GAGGAAGGAA ACGAATGGAA GAATGGACGG AATGAAGCAG ACGGAGAGAT GGAGGCAGTA
    GATGGAGTGG ACTTGACCTC CATAAACTCC ATGATGAACA CAGTGATGAA AGCCGCTCAG
    CTGAACGGTG GCGTAGACTC CGCCCACAGC ACACCCAATA AGGTGCCCGC CAAAAGCCCC
    GGCACCAACC GCAGCGGAAG AAAGAGCCAG GAAGCCAAAG ATGAGAGCGG GTGTATCGCC
    TGTCCTCTGT GCGATAAGGG CTTTCAGAAC CAGCACCAGC TCACCATGCA CATCCGCCAG
    CACAACACTG ACAGCGGGAC TTCAGACCAC TCGTGCAGTA TCTGCGGGAA GTCTCTGAGC
    TCGGCCAGCT CTCTGGACCG TCACATGCTA GTGCACAGCG GAGAGAGACC CTACAAATGC
    ACCGTGTGCC ATCAGACCTT CACCACCAAC GGCAACATGC ACAGACACAT GAAGATCCAT
    GAGAAGGACT CTGCCAGCTC CATCCCCAAC AGTCCGACTC TCTCCCCAAC TAAGCGACGG
    CGTTCCTCCA CAGCCAAACG CAAACTAAGT CAAGATGAAG ACTGCGAGAA GACAGAGGAG
    CCGTCCAGCA AAAAGGTGCT GGAGGACAGT GGAGCAGATG AGCAGGGATC GAACAAAGGA
    CAGGACGAGC TCTTGACCTG CTCGATCTGC TTCAAGAACT TCACCTGCAA AAATGACTAC
    GACACCCACA TGGAAATCCA TCCCGACACT ACATTAAGAT GTGATTTATG CTGCGTCTCC
    TTCCGGACAC CTCGAAGTTT GCTTCGCCAC AATGCAGCTA CCCATAAGCA GCTACCCACA
    GACCCCAGTG GACGACCCTT TATTCAGAAC AATCCATCCA TCCCTCTCGG CTTTAATGAT
    CTGGCTTTCA TTGACTTTTC ATGCCTCAAG TTCCCTCGTA TTGCCCAGAT TTGGTGTGAA
    ACAAACCTTC GTCGGTGTAC TGGCAAATTC CATCGTTTTG TATGCGACTC GTGCGATAAG
    GCATTCCCTC TTAGCTCAGC TCTGGACTTA CACAAAGCCT CACATGAGGA GTCCAGTGGC
    ACCCAAGAAA CAACTTCACC CTTAGTTGAG AAAGACGAGC TTCCCAATGA CAAAAGCAGC
    TTCATGGACT TTCTGGGCTT GCAGCACATC TCTCAGGTCA AGCCTGCCCC TTCTGAAGAG
    GATGCCCTGC AGGCTAAGCT AGATAGTATC CGGGTTATTC ACGTAGAGCC GAATCAGTCC
    ACCGTACCTC AAGAGCCTGG TCTTGTTGGA AGTGTCAACC TATCTCTTGT AGACCCTACG
    ACTCTTCATG GTTTGTCCCA CCAAGAGGCT CTCAAACTAC TGTCCCTTCA GCCATTCCAG
    ACTGGCTTTC TGGTGCAGCC AGATGGTGGT ATGGTGGTGA AGCCTGTTTG TGGTGATACC
    AGCACAGAAC TTGCAGATAT ACAGCAAATA CTCAAAGTAG CTTCTGCTGC TCCAAACCAG
    ATTGCTCTTC CACCTTTATC CAAGGCCCCA TGTAGTACTG GACAGTCAGG CTACAAGCAG
    ATGCCTCCAC TCAAGCCAAA ACCATTGGTG GCCCCCAGAA CCAGCATGGT AGCTTCAACT
    CCACCGCCTC TATTGAACAC CCAACAAGCT TCACTGGGCT GTATCAGCCC AAGCCTTCCA
    CCTCCTGCCA GCCATCCCAT CAAGGTGGCT AGGGAGAACT CTTCATCTTC CTCGTCCTCT
    TCTGCCAGTA ACCAGGCTTC TGCAGAGAGG ATTCAAATGG AGGCGGAGTG CATGGGAGAT
    GCACATACTC CGATGGACAT GGATGAAAGA CATATCAAGC AGGAGAATAG CAAATTAGAA
    GAGACCACTG GAAAAAAGGG AACATCTCAA AAAGGCTCAT ACCCCTGTCG ATTTTGTGAC
    CAGGTCTTTG CATTCTCAGG TGTGCTCCAG GCACACATGC GTTATCATTT GGGCGTCCTT
    CCCCACCAAT GTAATATATG TGATTATGTT GCACCAGACA AGGCAACACT GATCCGTCAT
    TTGAGAACAC ACAGTGGTGA GCGACCCTAT GTCTGCCGGC TCTGCCTTTA CCCGTTTACA
    GTCAAGGCTA ACTGTGAGCG TCACCTTCGC AAAAAGCACA TGAAAAGCAG TCGCAAGGAG
    ATTGAGAAAA ACATTAAGTA TGTTACCTCG TCCACGTCAA CATCAGATGT CGTAGAGCAG
    GCTGGGACCA GTGAAACTAC CTGCCGCTTC TGTGGTGAAG ACCTAAAGAC CTTTCGGGCC
    CTGCAGATTC ACCTGCGCAC ACACAATGGC TGCCAGCGAA AGCCATTTGA GTGCAAGCGT
    TGTGGAGCAG CCTTCCTGGC CAAACGTAAC TGCATCCATC ATCTTCTGAA GCAACATCCG
    GAGGTCCAAG AGCAGGATAT TGAAGACCAC ATAATCACTC TTCTAGCTCC ATCATCCCAA
    AATAGCCCAA GCCCATCTCC TCTCAATGGC GTTCCTACTA ACAACGTGGT GCAGCCCATC
    AAGGTGGAGG ACCTTAGCTT CTACACTGTA GATATGGATC AACCACTAGA CTTTTCTAAC
    AAAAGTCGAG GGGCCAACAA CAACAATGCT GGAAGTGTAA GTGGATCGCC TGCGATCAAA
    ATTGAACCTG TCTCTTTTGA CTCTTCCATG GAGCCCATTG ACCTCTCTAT TCCTAAGAAT
    CCTATGAAGA AGCTTAAACA AGACATCGAG GCTGCTTTAC CAAGAGCGGT TAAGAAAGAA
    CCTTCATCTG TTAGCATTCT TGCAAAGGCA CTTCAGGCTG ATAAGTCTAT TGATGAAAAG
    TGCCAACCGC TTGGGTGCTA CCAAGTTCCT GTAGCTTTGA CGTCTCTTAC TGGTAGCACT
    AGCGCTGCAG GAAGACCCTT GCGTCTAAAA CCCCTGCTTC CTAAACCTTC CTCTGCTGGT
    GTGAAGGAGC TTCCACCCCT AGCATCCATT GCTCAGATCA TCTCCTCTGT GTCCGGTGCC
    CCTGACCTTC TAAAACGTGA CAACACTAAT AGTCTTAAGA CTGATATTGA TACACCTGCC
    AAGCAGGAAT CACCAGAGAC CCTAAAAGAG GAGCTTTCGG TAGAGATCTC CAAAAAGAGG
    ACTAGGAAAA GGCCTTCCAA CGGCATAGCA AAAGAGAAAA CCGTGATGAA TGCTCCAGAC
    CTGAGTATTG ACTTGGAGTC TAGTGGGGAG TTTGCTAGTG TTGAAAGGAT GTTGGCAAAC
    ACTGATGCTA ACAAGTTCAG CGCCTATCTT CAGACCAACA CAATCGAGTT GGCAAGAAAA
    GGCAGGCAGC AGCCAGGTGC TGGTGACGAG AAAGAGATGA AAGATGAGAA ACACTTGCCA
    GTCCAGCAGA CTGTTCAACA GTCTAAAGGG AAGAAAAATG CGTACTCAAA TTCTGTGCAG
    AAGATGATTT GCCCATTTTG TCCCAGAGTT TTCCCATGGG CCAGCTCGCT TCAGCGCCAC
    ATGCTAACAC ACACAGGTCA GAAGCCATAT CCTTGCCCCC AATGTGATGC CTTCTTCTCA
    ACCAAATCCA ACTGTGAAAG ACATCTTTTG CGCAAGCATG GCATTTCCAA CCGAGTGCTT
    AGACGCAATG GTGTAATACC CAAACCTAAG GATGCAGAGG ATGGCTCGCC AGAGAGCGCA
    GATAGCACAT CTGAGGCAGA GCTTCCTATG GGTGAGGCAA TGGATCTAAC AAGTTCAGAC
    CCTGAGAAGT CTGTAGCATC TGATGCTGAG AAACCATCAC CAGCTAAACC TACAGAGGCA
    GCCGTGGTAG AGCCTCTTCC TCAAAAAGAG GATGACAAAA CATCCCTCGA GTCTTTGAAG
    CATAATGACA CCGAAATAGA GGATGACCAT TTAAATAGCA ATAAGACCCT TGACTTGACC
    TTTGTCTCCA AAGCAAAGGA CGTCAATATT ACTGAGAAGG AGCAGCCACA GTCCTCCCCC
    GTAGCAGATG AAGAAATATC TGACAAAGCA AAAGCTCACG AGGAGTCTAA ATTAACCTGC
    AAAATATGCA AGAAGAGTTT CCGCTACGTT AAAACCCTCA CCAGACATGA GAAAGCTCAC
    CAGCTGGACA TGACACAAGA CGCTGGTGTT ACTAATGGAC AAAACCTCAC AAAATCAGAT
    GATCCCATTG TGCCTTGTGA AAAGAAAGAG GTTACAGAAG AAGAAGTGGA GAGCGTAAGG
    AAGGGTAAAG CTGAAACGGA AGGAAATGGC AGCGTGGTGG AAAGCGGGCC TGATGAGGAT
    AAAGAGGAGA GAAGTGATGA AGAGGAACCT GCAACTGAAC CAAAGAGTGC TGGGAGAGAA
    CCTGGTAGCA AACCGGACAA AAGGAAAAAG GTGTGCAGTA TATGCAACAA ACGCTTCTGG
    AGCCTTCAGG ACCTGACTAG ACATATGCGC TCGCACACAG GTGAGAGGCC GTACAAGTGC
    CAGACATGCG AGCGCACCTT CACCCTCAAG CACAGTTTGG TTCGACATCA GCGAATCCAC
    CAGAAGCTGC GTGGAGTGGA TAGTGATGGT TCCACATGTG GAGCTGCAGG GGGAGCGGAT
    GAGGAGGGCT TCAGCGGACG TTCGGCCAGC GAAAGCGAAT GCACACCCAC CAGCACAAAC
    CCGCCCTCTG AGAACGAAAG TGAAATGACA GACACTGTGA AGGGGGAACC AACCTCGTAT
    GTGAACAAGG GAGCAGCCGC GGACGCAGAA GAGTATAATC TGAGCTCTGA GACAGAACCT
    GCAGCAGAAA CACCCAAAGA AACTCCAGCA GAGGATTCTC CAGCCACATC AGAGCCGGGA
    TTCATCCAAG GTTTACTGGA GATCCATACC AAGCCCACTA CTGAGCACAT TTTGCCCACC
    TCCGAGCCAG CGCTTCTTGG AGTGGAGTGA

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

    RefSeq XP_002666628.3
    CDS242..5311
    Translation

    Target ORF information:

    RefSeq Version XM_002666582.6
    Organism Danio rerio(zebrafish)
    Definition Danio rerio ras responsive element binding protein 1a (rreb1a), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_002666582.6

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    ATGTCTCGGC GAAAGCAACC CAACCCCAAC AAAGTCAAAC CTATGGAAAA TTCAGCAGAA 
    GAGGCGAGAA CAGAATCAGC GAATTGCAGC CTTACTGGGG AAGAGGAGGC GGAGCAAAGT
    GATGAGCGCC AGAGCCCCGC CCCTACAGAA GCTCACACAG AGGGTTCTGC TGGCGTAGAA
    GAGGAAGGAA ACGAATGGAA GAATGGACGG AATGAAGCAG ACGGAGAGAT GGAGGCAGTA
    GATGGAGTGG ACTTGACCTC CATAAACTCC ATGATGAACA CAGTGATGAA AGCCGCTCAG
    CTGAACGGTG GCGTAGACTC CGCCCACAGC ACACCCAATA AGGTGCCCGC CAAAAGCCCC
    GGCACCAACC GCAGCGGAAG AAAGAGCCAG GAAGCCAAAG ATGAGAGCGG GTGTATCGCC
    TGTCCTCTGT GCGATAAGGG CTTTCAGAAC CAGCACCAGC TCACCATGCA CATCCGCCAG
    CACAACACTG ACAGCGGGAC TTCAGACCAC TCGTGCAGTA TCTGCGGGAA GTCTCTGAGC
    TCGGCCAGCT CTCTGGACCG TCACATGCTA GTGCACAGCG GAGAGAGACC CTACAAATGC
    ACCGTGTGCC ATCAGACCTT CACCACCAAC GGCAACATGC ACAGACACAT GAAGATCCAT
    GAGAAGGACT CTGCCAGCTC CATCCCCAAC AGTCCGACTC TCTCCCCAAC TAAGCGACGG
    CGTTCCTCCA CAGCCAAACG CAAACTAAGT CAAGATGAAG ACTGCGAGAA GACAGAGGAG
    CCGTCCAGCA AAAAGGTGCT GGAGGACAGT GGAGCAGATG AGCAGGGATC GAACAAAGGA
    CAGGACGAGC TCTTGACCTG CTCGATCTGC TTCAAGAACT TCACCTGCAA AAATGACTAC
    GACACCCACA TGGAAATCCA TCCCGACACT ACATTAAGAT GTGATTTATG CTGCGTCTCC
    TTCCGGACAC CTCGAAGTTT GCTTCGCCAC AATGCAGCTA CCCATAAGCA GCTACCCACA
    GACCCCAGTG GACGACCCTT TATTCAGAAC AATCCATCCA TCCCTCTCGG CTTTAATGAT
    CTGGCTTTCA TTGACTTTTC ATGCCTCAAG TTCCCTCGTA TTGCCCAGAT TTGGTGTGAA
    ACAAACCTTC GTCGGTGTAC TGGCAAATTC CATCGTTTTG TATGCGACTC GTGCGATAAG
    GCATTCCCTC TTAGCTCAGC TCTGGACTTA CACAAAGCCT CACATGAGGA GTCCAGTGGC
    ACCCAAGAAA CAACTTCACC CTTAGTTGAG AAAGACGAGC TTCCCAATGA CAAAAGCAGC
    TTCATGGACT TTCTGGGCTT GCAGCACATC TCTCAGGTCA AGCCTGCCCC TTCTGAAGAG
    GATGCCCTGC AGGCTAAGCT AGATAGTATC CGGGTTATTC ACGTAGAGCC GAATCAGTCC
    ACCGTACCTC AAGAGCCTGG TCTTGTTGGA AGTGTCAACC TATCTCTTGT AGACCCTACG
    ACTCTTCATG GTTTGTCCCA CCAAGAGGCT CTCAAACTAC TGTCCCTTCA GCCATTCCAG
    ACTGGCTTTC TGGTGCAGCC AGATGGTGGT ATGGTGGTGA AGCCTGTTTG TGGTGATACC
    AGCACAGAAC TTGCAGATAT ACAGCAAATA CTCAAAGTAG CTTCTGCTGC TCCAAACCAG
    ATTGCTCTTC CACCTTTATC CAAGGCCCCA TGTAGTACTG GACAGTCAGG CTACAAGCAG
    ATGCCTCCAC TCAAGCCAAA ACCATTGGTG GCCCCCAGAA CCAGCATGGT AGCTTCAACT
    CCACCGCCTC TATTGAACAC CCAACAAGCT TCACTGGGCT GTATCAGCCC AAGCCTTCCA
    CCTCCTGCCA GCCATCCCAT CAAGGTGGCT AGGGAGAACT CTTCATCTTC CTCGTCCTCT
    TCTGCCAGTA ACCAGGCTTC TGCAGAGAGG ATTCAAATGG AGGCGGAGTG CATGGGAGAT
    GCACATACTC CGATGGACAT GGATGAAAGA CATATCAAGC AGGAGAATAG CAAATTAGAA
    GAGACCACTG GAAAAAAGGG AACATCTCAA AAAGGCTCAT ACCCCTGTCG ATTTTGTGAC
    CAGGTCTTTG CATTCTCAGG TGTGCTCCAG GCACACATGC GTTATCATTT GGGCGTCCTT
    CCCCACCAAT GTAATATATG TGATTATGTT GCACCAGACA AGGCAACACT GATCCGTCAT
    TTGAGAACAC ACAGTGGTGA GCGACCCTAT GTCTGCCGGC TCTGCCTTTA CCCGTTTACA
    GTCAAGGCTA ACTGTGAGCG TCACCTTCGC AAAAAGCACA TGAAAAGCAG TCGCAAGGAG
    ATTGAGAAAA ACATTAAGTA TGTTACCTCG TCCACGTCAA CATCAGATGT CGTAGAGCAG
    GCTGGGACCA GTGAAACTAC CTGCCGCTTC TGTGGTGAAG ACCTAAAGAC CTTTCGGGCC
    CTGCAGATTC ACCTGCGCAC ACACAATGGC TGCCAGCGAA AGCCATTTGA GTGCAAGCGT
    TGTGGAGCAG CCTTCCTGGC CAAACGTAAC TGCATCCATC ATCTTCTGAA GCAACATCCG
    GAGGTCCAAG AGCAGGATAT TGAAGACCAC ATAATCACTC TTCTAGCTCC ATCATCCCAA
    AATAGCCCAA GCCCATCTCC TCTCAATGGC GTTCCTACTA ACAACGTGGT GCAGCCCATC
    AAGGTGGAGG ACCTTAGCTT CTACACTGTA GATATGGATC AACCACTAGA CTTTTCTAAC
    AAAAGTCGAG GGGCCAACAA CAACAATGCT GGAAGTGTAA GTGGATCGCC TGCGATCAAA
    ATTGAACCTG TCTCTTTTGA CTCTTCCATG GAGCCCATTG ACCTCTCTAT TCCTAAGAAT
    CCTATGAAGA AGCTTAAACA AGACATCGAG GCTGCTTTAC CAAGAGCGGT TAAGAAAGAA
    CCTTCATCTG TTAGCATTCT TGCAAAGGCA CTTCAGGCTG ATAAGTCTAT TGATGAAAAG
    TGCCAACCGC TTGGGTGCTA CCAAGTTCCT GTAGCTTTGA CGTCTCTTAC TGGTAGCACT
    AGCGCTGCAG GAAGACCCTT GCGTCTAAAA CCCCTGCTTC CTAAACCTTC CTCTGCTGGT
    GTGAAGGAGC TTCCACCCCT AGCATCCATT GCTCAGATCA TCTCCTCTGT GTCCGGTGCC
    CCTGACCTTC TAAAACGTGA CAACACTAAT AGTCTTAAGA CTGATATTGA TACACCTGCC
    AAGCAGGAAT CACCAGAGAC CCTAAAAGAG GAGCTTTCGG TAGAGATCTC CAAAAAGAGG
    ACTAGGAAAA GGCCTTCCAA CGGCATAGCA AAAGAGAAAA CCGTGATGAA TGCTCCAGAC
    CTGAGTATTG ACTTGGAGTC TAGTGGGGAG TTTGCTAGTG TTGAAAGGAT GTTGGCAAAC
    ACTGATGCTA ACAAGTTCAG CGCCTATCTT CAGACCAACA CAATCGAGTT GGCAAGAAAA
    GGCAGGCAGC AGCCAGGTGC TGGTGACGAG AAAGAGATGA AAGATGAGAA ACACTTGCCA
    GTCCAGCAGA CTGTTCAACA GTCTAAAGGG AAGAAAAATG CGTACTCAAA TTCTGTGCAG
    AAGATGATTT GCCCATTTTG TCCCAGAGTT TTCCCATGGG CCAGCTCGCT TCAGCGCCAC
    ATGCTAACAC ACACAGGTCA GAAGCCATAT CCTTGCCCCC AATGTGATGC CTTCTTCTCA
    ACCAAATCCA ACTGTGAAAG ACATCTTTTG CGCAAGCATG GCATTTCCAA CCGAGTGCTT
    AGACGCAATG GTGTAATACC CAAACCTAAG GATGCAGAGG ATGGCTCGCC AGAGAGCGCA
    GATAGCACAT CTGAGGCAGA GCTTCCTATG GGTGAGGCAA TGGATCTAAC AAGTTCAGAC
    CCTGAGAAGT CTGTAGCATC TGATGCTGAG AAACCATCAC CAGCTAAACC TACAGAGGCA
    GCCGTGGTAG AGCCTCTTCC TCAAAAAGAG GATGACAAAA CATCCCTCGA GTCTTTGAAG
    CATAATGACA CCGAAATAGA GGATGACCAT TTAAATAGCA ATAAGACCCT TGACTTGACC
    TTTGTCTCCA AAGCAAAGGA CGTCAATATT ACTGAGAAGG AGCAGCCACA GTCCTCCCCC
    GTAGCAGATG AAGAAATATC TGACAAAGCA AAAGCTCACG AGGAGTCTAA ATTAACCTGC
    AAAATATGCA AGAAGAGTTT CCGCTACGTT AAAACCCTCA CCAGACATGA GAAAGCTCAC
    CAGCTGGACA TGACACAAGA CGCTGGTGTT ACTAATGGAC AAAACCTCAC AAAATCAGAT
    GATCCCATTG TGCCTTGTGA AAAGAAAGAG GTTACAGAAG AAGAAGTGGA GAGCGTAAGG
    AAGGGTAAAG CTGAAACGGA AGGAAATGGC AGCGTGGTGG AAAGCGGGCC TGATGAGGAT
    AAAGAGGAGA GAAGTGATGA AGAGGAACCT GCAACTGAAC CAAAGAGTGC TGGGAGAGAA
    CCTGGTAGCA AACCGGACAA AAGGAAAAAG GTGTGCAGTA TATGCAACAA ACGCTTCTGG
    AGCCTTCAGG ACCTGACTAG ACATATGCGC TCGCACACAG GTGAGAGGCC GTACAAGTGC
    CAGACATGCG AGCGCACCTT CACCCTCAAG CACAGTTTGG TTCGACATCA GCGAATCCAC
    CAGAAGCTGC GTGGAGTGGA TAGTGATGGT TCCACATGTG GAGCTGCAGG GGGAGCGGAT
    GAGGAGGGCT TCAGCGGACG TTCGGCCAGC GAAAGCGAAT GCACACCCAC CAGCACAAAC
    CCGCCCTCTG AGAACGAAAG TGAAATGACA GACACTGTGA AGGGGGAACC AACCTCGTAT
    GTGAACAAGG GAGCAGCCGC GGACGCAGAA GAGTATAATC TGAGCTCTGA GACAGAACCT
    GCAGCAGAAA CACCCAAAGA AACTCCAGCA GAGGATTCTC CAGCCACATC AGAGCCGGGA
    TTCATCCAAG GTTTACTGGA GATCCATACC AAGCCCACTA CTGAGCACAT TTTGCCCACC
    TCCGAGCCAG CGCTTCTTGG AGTGGAGTGA

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

    CloneID ODa28234
    Clone ID Related Accession (Same CDS sequence) XM_005162477.3 , XM_005162477.4
    Accession Version XM_005162477.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5028bp)
    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 ras-responsive element-binding protein 1 isoform X3
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007135.6) 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_005162477.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGGAAAATT CAGCAGAAGA GGCGAGAACA GAATCAGCGA ATTGCAGCCT TACTGGGGAA 
    GAGGAGGCGG AGCAAAGTGA TGAGCGCCAG AGCCCCGCCC CTACAGAAGC TCACACAGAG
    GGTTCTGCTG GCGTAGAAGA GGAAGGAAAC GAATGGAAGA ATGGACGGAA TGAAGCAGAC
    GGAGAGATGG AGGCAGTAGA TGGAGTGGAC TTGACCTCCA TAAACTCCAT GATGAACACA
    GTGATGAAAG CCGCTCAGCT GAACGGTGGC GTAGACTCCG CCCACAGCAC ACCCAATAAG
    GTGCCCGCCA AAAGCCCCGG CACCAACCGC AGCGGAAGAA AGAGCCAGGA AGCCAAAGAT
    GAGAGCGGGT GTATCGCCTG TCCTCTGTGC GATAAGGGCT TTCAGAACCA GCACCAGCTC
    ACCATGCACA TCCGCCAGCA CAACACTGAC AGCGGGACTT CAGACCACTC GTGCAGTATC
    TGCGGGAAGT CTCTGAGCTC GGCCAGCTCT CTGGACCGTC ACATGCTAGT GCACAGCGGA
    GAGAGACCCT ACAAATGCAC CGTGTGCCAT CAGACCTTCA CCACCAACGG CAACATGCAC
    AGACACATGA AGATCCATGA GAAGGACTCT GCCAGCTCCA TCCCCAACAG TCCGACTCTC
    TCCCCAACTA AGCGACGGCG TTCCTCCACA GCCAAACGCA AACTAAGTCA AGATGAAGAC
    TGCGAGAAGA CAGAGGAGCC GTCCAGCAAA AAGGTGCTGG AGGACAGTGG AGCAGATGAG
    CAGGGATCGA ACAAAGGACA GGACGAGCTC TTGACCTGCT CGATCTGCTT CAAGAACTTC
    ACCTGCAAAA ATGACTACGA CACCCACATG GAAATCCATC CCGACACTAC ATTAAGATGT
    GATTTATGCT GCGTCTCCTT CCGGACACCT CGAAGTTTGC TTCGCCACAA TGCAGCTACC
    CATAAGCAGC TACCCACAGA CCCCAGTGGA CGACCCTTTA TTCAGAACAA TCCATCCATC
    CCTCTCGGCT TTAATGATCT GGCTTTCATT GACTTTTCAT GCCTCAAGTT CCCTCGTATT
    GCCCAGATTT GGTGTGAAAC AAACCTTCGT CGGTGTACTG GCAAATTCCA TCGTTTTGTA
    TGCGACTCGT GCGATAAGGC ATTCCCTCTT AGCTCAGCTC TGGACTTACA CAAAGCCTCA
    CATGAGGAGT CCAGTGGCAC CCAAGAAACA ACTTCACCCT TAGTTGAGAA AGACGAGCTT
    CCCAATGACA AAAGCAGCTT CATGGACTTT CTGGGCTTGC AGCACATCTC TCAGGTCAAG
    CCTGCCCCTT CTGAAGAGGA TGCCCTGCAG GCTAAGCTAG ATAGTATCCG GGTTATTCAC
    GTAGAGCCGA ATCAGTCCAC CGTACCTCAA GAGCCTGGTC TTGTTGGAAG TGTCAACCTA
    TCTCTTGTAG ACCCTACGAC TCTTCATGGT TTGTCCCACC AAGAGGCTCT CAAACTACTG
    TCCCTTCAGC CATTCCAGAC TGGCTTTCTG GTGCAGCCAG ATGGTGGTAT GGTGGTGAAG
    CCTGTTTGTG GTGATACCAG CACAGAACTT GCAGATATAC AGCAAATACT CAAAGTAGCT
    TCTGCTGCTC CAAACCAGAT TGCTCTTCCA CCTTTATCCA AGGCCCCATG TAGTACTGGA
    CAGTCAGGCT ACAAGCAGAT GCCTCCACTC AAGCCAAAAC CATTGGTGGC CCCCAGAACC
    AGCATGGTAG CTTCAACTCC ACCGCCTCTA TTGAACACCC AACAAGCTTC ACTGGGCTGT
    ATCAGCCCAA GCCTTCCACC TCCTGCCAGC CATCCCATCA AGGTGGCTAG GGAGAACTCT
    TCATCTTCCT CGTCCTCTTC TGCCAGTAAC CAGGCTTCTG CAGAGAGGAT TCAAATGGAG
    GCGGAGTGCA TGGGAGATGC ACATACTCCG ATGGACATGG ATGAAAGACA TATCAAGCAG
    GAGAATAGCA AATTAGAAGA GACCACTGGA AAAAAGGGAA CATCTCAAAA AGGCTCATAC
    CCCTGTCGAT TTTGTGACCA GGTCTTTGCA TTCTCAGGTG TGCTCCAGGC ACACATGCGT
    TATCATTTGG GCGTCCTTCC CCACCAATGT AATATATGTG ATTATGTTGC ACCAGACAAG
    GCAACACTGA TCCGTCATTT GAGAACACAC AGTGGTGAGC GACCCTATGT CTGCCGGCTC
    TGCCTTTACC CGTTTACAGT CAAGGCTAAC TGTGAGCGTC ACCTTCGCAA AAAGCACATG
    AAAAGCAGTC GCAAGGAGAT TGAGAAAAAC ATTAAGTATG TTACCTCGTC CACGTCAACA
    TCAGATGTCG TAGAGCAGGC TGGGACCAGT GAAACTACCT GCCGCTTCTG TGGTGAAGAC
    CTAAAGACCT TTCGGGCCCT GCAGATTCAC CTGCGCACAC ACAATGGCTG CCAGCGAAAG
    CCATTTGAGT GCAAGCGTTG TGGAGCAGCC TTCCTGGCCA AACGTAACTG CATCCATCAT
    CTTCTGAAGC AACATCCGGA GGTCCAAGAG CAGGATATTG AAGACCACAT AATCACTCTT
    CTAGCTCCAT CATCCCAAAA TAGCCCAAGC CCATCTCCTC TCAATGGCGT TCCTACTAAC
    AACGTGGTGC AGCCCATCAA GGTGGAGGAC CTTAGCTTCT ACACTGTAGA TATGGATCAA
    CCACTAGACT TTTCTAACAA AAGTCGAGGG GCCAACAACA ACAATGCTGG AAGTGTAAGT
    GGATCGCCTG CGATCAAAAT TGAACCTGTC TCTTTTGACT CTTCCATGGA GCCCATTGAC
    CTCTCTATTC CTAAGAATCC TATGAAGAAG CTTAAACAAG ACATCGAGGC TGCTTTACCA
    AGAGCGGTTA AGAAAGAACC TTCATCTGTT AGCATTCTTG CAAAGGCACT TCAGGCTGAT
    AAGTCTATTG ATGAAAAGTG CCAACCGCTT GGGTGCTACC AAGTTCCTGT AGCTTTGACG
    TCTCTTACTG GTAGCACTAG CGCTGCAGGA AGACCCTTGC GTCTAAAACC CCTGCTTCCT
    AAACCTTCCT CTGCTGGTGT GAAGGAGCTT CCACCCCTAG CATCCATTGC TCAGATCATC
    TCCTCTGTGT CCGGTGCCCC TGACCTTCTA AAACGTGACA ACACTAATAG TCTTAAGACT
    GATATTGATA CACCTGCCAA GCAGGAATCA CCAGAGACCC TAAAAGAGGA GCTTTCGGTA
    GAGATCTCCA AAAAGAGGAC TAGGAAAAGG CCTTCCAACG GCATAGCAAA AGAGAAAACC
    GTGATGAATG CTCCAGACCT GAGTATTGAC TTGGAGTCTA GTGGGGAGTT TGCTAGTGTT
    GAAAGGATGT TGGCAAACAC TGATGCTAAC AAGTTCAGCG CCTATCTTCA GACCAACACA
    ATCGAGTTGG CAAGAAAAGG CAGGCAGCAG CCAGGTGCTG GTGACGAGAA AGAGATGAAA
    GATGAGAAAC ACTTGCCAGT CCAGCAGACT GTTCAACAGT CTAAAGGGAA GAAAAATGCG
    TACTCAAATT CTGTGCAGAA GATGATTTGC CCATTTTGTC CCAGAGTTTT CCCATGGGCC
    AGCTCGCTTC AGCGCCACAT GCTAACACAC ACAGGTCAGA AGCCATATCC TTGCCCCCAA
    TGTGATGCCT TCTTCTCAAC CAAATCCAAC TGTGAAAGAC ATCTTTTGCG CAAGCATGGC
    ATTTCCAACC GAGTGCTTAG ACGCAATGGT GTAATACCCA AACCTAAGGA TGCAGAGGAT
    GGCTCGCCAG AGAGCGCAGA TAGCACATCT GAGGCAGAGC TTCCTATGGG TGAGGCAATG
    GATCTAACAA GTTCAGACCC TGAGAAGTCT GTAGCATCTG ATGCTGAGAA ACCATCACCA
    GCTAAACCTA CAGAGGCAGC CGTGGTAGAG CCTCTTCCTC AAAAAGAGGA TGACAAAACA
    TCCCTCGAGT CTTTGAAGCA TAATGACACC GAAATAGAGG ATGACCATTT AAATAGCAAT
    AAGACCCTTG ACTTGACCTT TGTCTCCAAA GCAAAGGACG TCAATATTAC TGAGAAGGAG
    CAGCCACAGT CCTCCCCCGT AGCAGATGAA GAAATATCTG ACAAAGCAAA AGCTCACGAG
    GAGTCTAAAT TAACCTGCAA AATATGCAAG AAGAGTTTCC GCTACGTTAA AACCCTCACC
    AGACATGAGA AAGCTCACCA GCTGGACATG ACACAAGACG CTGGTGTTAC TAATGGACAA
    AACCTCACAA AATCAGATGA TCCCATTGTG CCTTGTGAAA AGAAAGAGGT TACAGAAGAA
    GAAGTGGAGA GCGTAAGGAA GGGTAAAGCT GAAACGGAAG GAAATGGCAG CGTGGTGGAA
    AGCGGGCCTG ATGAGGATAA AGAGGAGAGA AGTGATGAAG AGGAACCTGC AACTGAACCA
    AAGAGTGCTG GGAGAGAACC TGGTAGCAAA CCGGACAAAA GGAAAAAGGT GTGCAGTATA
    TGCAACAAAC GCTTCTGGAG CCTTCAGGAC CTGACTAGAC ATATGCGCTC GCACACAGGT
    GAGAGGCCGT ACAAGTGCCA GACATGCGAG CGCACCTTCA CCCTCAAGCA CAGTTTGGTT
    CGACATCAGC GAATCCACCA GAAGCTGCGT GGAGTGGATA GTGATGGTTC CACATGTGGA
    GCTGCAGGGG GAGCGGATGA GGAGGGCTTC AGCGGACGTT CGGCCAGCGA AAGCGAATGC
    ACACCCACCA GCACAAACCC GCCCTCTGAG AACGAAAGTG AAATGACAGA CACTGTGAAG
    GGGGAACCAA CCTCGTATGT GAACAAGGGA GCAGCCGCGG ACGCAGAAGA GTATAATCTG
    AGCTCTGAGA CAGAACCTGC AGCAGAAACA CCCAAAGAAA CTCCAGCAGA GGATTCTCCA
    GCCACATCAG AGCCGGGATT CATCCAAGGT TTACTGGAGA TCCATACCAA GCCCACTACT
    GAGCACATTT TGCCCACCTC CGAGCCAGCG CTTCTTGGAG TGGAGTGA

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

    RefSeq XP_005162534.1
    CDS555..5582
    Translation

    Target ORF information:

    RefSeq Version XM_005162477.3
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio ras responsive element binding protein 1a (rreb1a), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005162477.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGGAAAATT CAGCAGAAGA GGCGAGAACA GAATCAGCGA ATTGCAGCCT TACTGGGGAA 
    GAGGAGGCGG AGCAAAGTGA TGAGCGCCAG AGCCCCGCCC CTACAGAAGC TCACACAGAG
    GGTTCTGCTG GCGTAGAAGA GGAAGGAAAC GAATGGAAGA ATGGACGGAA TGAAGCAGAC
    GGAGAGATGG AGGCAGTAGA TGGAGTGGAC TTGACCTCCA TAAACTCCAT GATGAACACA
    GTGATGAAAG CCGCTCAGCT GAACGGTGGC GTAGACTCCG CCCACAGCAC ACCCAATAAG
    GTGCCCGCCA AAAGCCCCGG CACCAACCGC AGCGGAAGAA AGAGCCAGGA AGCCAAAGAT
    GAGAGCGGGT GTATCGCCTG TCCTCTGTGC GATAAGGGCT TTCAGAACCA GCACCAGCTC
    ACCATGCACA TCCGCCAGCA CAACACTGAC AGCGGGACTT CAGACCACTC GTGCAGTATC
    TGCGGGAAGT CTCTGAGCTC GGCCAGCTCT CTGGACCGTC ACATGCTAGT GCACAGCGGA
    GAGAGACCCT ACAAATGCAC CGTGTGCCAT CAGACCTTCA CCACCAACGG CAACATGCAC
    AGACACATGA AGATCCATGA GAAGGACTCT GCCAGCTCCA TCCCCAACAG TCCGACTCTC
    TCCCCAACTA AGCGACGGCG TTCCTCCACA GCCAAACGCA AACTAAGTCA AGATGAAGAC
    TGCGAGAAGA CAGAGGAGCC GTCCAGCAAA AAGGTGCTGG AGGACAGTGG AGCAGATGAG
    CAGGGATCGA ACAAAGGACA GGACGAGCTC TTGACCTGCT CGATCTGCTT CAAGAACTTC
    ACCTGCAAAA ATGACTACGA CACCCACATG GAAATCCATC CCGACACTAC ATTAAGATGT
    GATTTATGCT GCGTCTCCTT CCGGACACCT CGAAGTTTGC TTCGCCACAA TGCAGCTACC
    CATAAGCAGC TACCCACAGA CCCCAGTGGA CGACCCTTTA TTCAGAACAA TCCATCCATC
    CCTCTCGGCT TTAATGATCT GGCTTTCATT GACTTTTCAT GCCTCAAGTT CCCTCGTATT
    GCCCAGATTT GGTGTGAAAC AAACCTTCGT CGGTGTACTG GCAAATTCCA TCGTTTTGTA
    TGCGACTCGT GCGATAAGGC ATTCCCTCTT AGCTCAGCTC TGGACTTACA CAAAGCCTCA
    CATGAGGAGT CCAGTGGCAC CCAAGAAACA ACTTCACCCT TAGTTGAGAA AGACGAGCTT
    CCCAATGACA AAAGCAGCTT CATGGACTTT CTGGGCTTGC AGCACATCTC TCAGGTCAAG
    CCTGCCCCTT CTGAAGAGGA TGCCCTGCAG GCTAAGCTAG ATAGTATCCG GGTTATTCAC
    GTAGAGCCGA ATCAGTCCAC CGTACCTCAA GAGCCTGGTC TTGTTGGAAG TGTCAACCTA
    TCTCTTGTAG ACCCTACGAC TCTTCATGGT TTGTCCCACC AAGAGGCTCT CAAACTACTG
    TCCCTTCAGC CATTCCAGAC TGGCTTTCTG GTGCAGCCAG ATGGTGGTAT GGTGGTGAAG
    CCTGTTTGTG GTGATACCAG CACAGAACTT GCAGATATAC AGCAAATACT CAAAGTAGCT
    TCTGCTGCTC CAAACCAGAT TGCTCTTCCA CCTTTATCCA AGGCCCCATG TAGTACTGGA
    CAGTCAGGCT ACAAGCAGAT GCCTCCACTC AAGCCAAAAC CATTGGTGGC CCCCAGAACC
    AGCATGGTAG CTTCAACTCC ACCGCCTCTA TTGAACACCC AACAAGCTTC ACTGGGCTGT
    ATCAGCCCAA GCCTTCCACC TCCTGCCAGC CATCCCATCA AGGTGGCTAG GGAGAACTCT
    TCATCTTCCT CGTCCTCTTC TGCCAGTAAC CAGGCTTCTG CAGAGAGGAT TCAAATGGAG
    GCGGAGTGCA TGGGAGATGC ACATACTCCG ATGGACATGG ATGAAAGACA TATCAAGCAG
    GAGAATAGCA AATTAGAAGA GACCACTGGA AAAAAGGGAA CATCTCAAAA AGGCTCATAC
    CCCTGTCGAT TTTGTGACCA GGTCTTTGCA TTCTCAGGTG TGCTCCAGGC ACACATGCGT
    TATCATTTGG GCGTCCTTCC CCACCAATGT AATATATGTG ATTATGTTGC ACCAGACAAG
    GCAACACTGA TCCGTCATTT GAGAACACAC AGTGGTGAGC GACCCTATGT CTGCCGGCTC
    TGCCTTTACC CGTTTACAGT CAAGGCTAAC TGTGAGCGTC ACCTTCGCAA AAAGCACATG
    AAAAGCAGTC GCAAGGAGAT TGAGAAAAAC ATTAAGTATG TTACCTCGTC CACGTCAACA
    TCAGATGTCG TAGAGCAGGC TGGGACCAGT GAAACTACCT GCCGCTTCTG TGGTGAAGAC
    CTAAAGACCT TTCGGGCCCT GCAGATTCAC CTGCGCACAC ACAATGGCTG CCAGCGAAAG
    CCATTTGAGT GCAAGCGTTG TGGAGCAGCC TTCCTGGCCA AACGTAACTG CATCCATCAT
    CTTCTGAAGC AACATCCGGA GGTCCAAGAG CAGGATATTG AAGACCACAT AATCACTCTT
    CTAGCTCCAT CATCCCAAAA TAGCCCAAGC CCATCTCCTC TCAATGGCGT TCCTACTAAC
    AACGTGGTGC AGCCCATCAA GGTGGAGGAC CTTAGCTTCT ACACTGTAGA TATGGATCAA
    CCACTAGACT TTTCTAACAA AAGTCGAGGG GCCAACAACA ACAATGCTGG AAGTGTAAGT
    GGATCGCCTG CGATCAAAAT TGAACCTGTC TCTTTTGACT CTTCCATGGA GCCCATTGAC
    CTCTCTATTC CTAAGAATCC TATGAAGAAG CTTAAACAAG ACATCGAGGC TGCTTTACCA
    AGAGCGGTTA AGAAAGAACC TTCATCTGTT AGCATTCTTG CAAAGGCACT TCAGGCTGAT
    AAGTCTATTG ATGAAAAGTG CCAACCGCTT GGGTGCTACC AAGTTCCTGT AGCTTTGACG
    TCTCTTACTG GTAGCACTAG CGCTGCAGGA AGACCCTTGC GTCTAAAACC CCTGCTTCCT
    AAACCTTCCT CTGCTGGTGT GAAGGAGCTT CCACCCCTAG CATCCATTGC TCAGATCATC
    TCCTCTGTGT CCGGTGCCCC TGACCTTCTA AAACGTGACA ACACTAATAG TCTTAAGACT
    GATATTGATA CACCTGCCAA GCAGGAATCA CCAGAGACCC TAAAAGAGGA GCTTTCGGTA
    GAGATCTCCA AAAAGAGGAC TAGGAAAAGG CCTTCCAACG GCATAGCAAA AGAGAAAACC
    GTGATGAATG CTCCAGACCT GAGTATTGAC TTGGAGTCTA GTGGGGAGTT TGCTAGTGTT
    GAAAGGATGT TGGCAAACAC TGATGCTAAC AAGTTCAGCG CCTATCTTCA GACCAACACA
    ATCGAGTTGG CAAGAAAAGG CAGGCAGCAG CCAGGTGCTG GTGACGAGAA AGAGATGAAA
    GATGAGAAAC ACTTGCCAGT CCAGCAGACT GTTCAACAGT CTAAAGGGAA GAAAAATGCG
    TACTCAAATT CTGTGCAGAA GATGATTTGC CCATTTTGTC CCAGAGTTTT CCCATGGGCC
    AGCTCGCTTC AGCGCCACAT GCTAACACAC ACAGGTCAGA AGCCATATCC TTGCCCCCAA
    TGTGATGCCT TCTTCTCAAC CAAATCCAAC TGTGAAAGAC ATCTTTTGCG CAAGCATGGC
    ATTTCCAACC GAGTGCTTAG ACGCAATGGT GTAATACCCA AACCTAAGGA TGCAGAGGAT
    GGCTCGCCAG AGAGCGCAGA TAGCACATCT GAGGCAGAGC TTCCTATGGG TGAGGCAATG
    GATCTAACAA GTTCAGACCC TGAGAAGTCT GTAGCATCTG ATGCTGAGAA ACCATCACCA
    GCTAAACCTA CAGAGGCAGC CGTGGTAGAG CCTCTTCCTC AAAAAGAGGA TGACAAAACA
    TCCCTCGAGT CTTTGAAGCA TAATGACACC GAAATAGAGG ATGACCATTT AAATAGCAAT
    AAGACCCTTG ACTTGACCTT TGTCTCCAAA GCAAAGGACG TCAATATTAC TGAGAAGGAG
    CAGCCACAGT CCTCCCCCGT AGCAGATGAA GAAATATCTG ACAAAGCAAA AGCTCACGAG
    GAGTCTAAAT TAACCTGCAA AATATGCAAG AAGAGTTTCC GCTACGTTAA AACCCTCACC
    AGACATGAGA AAGCTCACCA GCTGGACATG ACACAAGACG CTGGTGTTAC TAATGGACAA
    AACCTCACAA AATCAGATGA TCCCATTGTG CCTTGTGAAA AGAAAGAGGT TACAGAAGAA
    GAAGTGGAGA GCGTAAGGAA GGGTAAAGCT GAAACGGAAG GAAATGGCAG CGTGGTGGAA
    AGCGGGCCTG ATGAGGATAA AGAGGAGAGA AGTGATGAAG AGGAACCTGC AACTGAACCA
    AAGAGTGCTG GGAGAGAACC TGGTAGCAAA CCGGACAAAA GGAAAAAGGT GTGCAGTATA
    TGCAACAAAC GCTTCTGGAG CCTTCAGGAC CTGACTAGAC ATATGCGCTC GCACACAGGT
    GAGAGGCCGT ACAAGTGCCA GACATGCGAG CGCACCTTCA CCCTCAAGCA CAGTTTGGTT
    CGACATCAGC GAATCCACCA GAAGCTGCGT GGAGTGGATA GTGATGGTTC CACATGTGGA
    GCTGCAGGGG GAGCGGATGA GGAGGGCTTC AGCGGACGTT CGGCCAGCGA AAGCGAATGC
    ACACCCACCA GCACAAACCC GCCCTCTGAG AACGAAAGTG AAATGACAGA CACTGTGAAG
    GGGGAACCAA CCTCGTATGT GAACAAGGGA GCAGCCGCGG ACGCAGAAGA GTATAATCTG
    AGCTCTGAGA CAGAACCTGC AGCAGAAACA CCCAAAGAAA CTCCAGCAGA GGATTCTCCA
    GCCACATCAG AGCCGGGATT CATCCAAGGT TTACTGGAGA TCCATACCAA GCCCACTACT
    GAGCACATTT TGCCCACCTC CGAGCCAGCG CTTCTTGGAG TGGAGTGA

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

    CloneID ODa28234
    Clone ID Related Accession (Same CDS sequence) XM_005162477.3 , XM_005162477.4
    Accession Version XM_005162477.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5028bp)
    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 ras-responsive element-binding protein 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007135.7) 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_005162477.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGGAAAATT CAGCAGAAGA GGCGAGAACA GAATCAGCGA ATTGCAGCCT TACTGGGGAA 
    GAGGAGGCGG AGCAAAGTGA TGAGCGCCAG AGCCCCGCCC CTACAGAAGC TCACACAGAG
    GGTTCTGCTG GCGTAGAAGA GGAAGGAAAC GAATGGAAGA ATGGACGGAA TGAAGCAGAC
    GGAGAGATGG AGGCAGTAGA TGGAGTGGAC TTGACCTCCA TAAACTCCAT GATGAACACA
    GTGATGAAAG CCGCTCAGCT GAACGGTGGC GTAGACTCCG CCCACAGCAC ACCCAATAAG
    GTGCCCGCCA AAAGCCCCGG CACCAACCGC AGCGGAAGAA AGAGCCAGGA AGCCAAAGAT
    GAGAGCGGGT GTATCGCCTG TCCTCTGTGC GATAAGGGCT TTCAGAACCA GCACCAGCTC
    ACCATGCACA TCCGCCAGCA CAACACTGAC AGCGGGACTT CAGACCACTC GTGCAGTATC
    TGCGGGAAGT CTCTGAGCTC GGCCAGCTCT CTGGACCGTC ACATGCTAGT GCACAGCGGA
    GAGAGACCCT ACAAATGCAC CGTGTGCCAT CAGACCTTCA CCACCAACGG CAACATGCAC
    AGACACATGA AGATCCATGA GAAGGACTCT GCCAGCTCCA TCCCCAACAG TCCGACTCTC
    TCCCCAACTA AGCGACGGCG TTCCTCCACA GCCAAACGCA AACTAAGTCA AGATGAAGAC
    TGCGAGAAGA CAGAGGAGCC GTCCAGCAAA AAGGTGCTGG AGGACAGTGG AGCAGATGAG
    CAGGGATCGA ACAAAGGACA GGACGAGCTC TTGACCTGCT CGATCTGCTT CAAGAACTTC
    ACCTGCAAAA ATGACTACGA CACCCACATG GAAATCCATC CCGACACTAC ATTAAGATGT
    GATTTATGCT GCGTCTCCTT CCGGACACCT CGAAGTTTGC TTCGCCACAA TGCAGCTACC
    CATAAGCAGC TACCCACAGA CCCCAGTGGA CGACCCTTTA TTCAGAACAA TCCATCCATC
    CCTCTCGGCT TTAATGATCT GGCTTTCATT GACTTTTCAT GCCTCAAGTT CCCTCGTATT
    GCCCAGATTT GGTGTGAAAC AAACCTTCGT CGGTGTACTG GCAAATTCCA TCGTTTTGTA
    TGCGACTCGT GCGATAAGGC ATTCCCTCTT AGCTCAGCTC TGGACTTACA CAAAGCCTCA
    CATGAGGAGT CCAGTGGCAC CCAAGAAACA ACTTCACCCT TAGTTGAGAA AGACGAGCTT
    CCCAATGACA AAAGCAGCTT CATGGACTTT CTGGGCTTGC AGCACATCTC TCAGGTCAAG
    CCTGCCCCTT CTGAAGAGGA TGCCCTGCAG GCTAAGCTAG ATAGTATCCG GGTTATTCAC
    GTAGAGCCGA ATCAGTCCAC CGTACCTCAA GAGCCTGGTC TTGTTGGAAG TGTCAACCTA
    TCTCTTGTAG ACCCTACGAC TCTTCATGGT TTGTCCCACC AAGAGGCTCT CAAACTACTG
    TCCCTTCAGC CATTCCAGAC TGGCTTTCTG GTGCAGCCAG ATGGTGGTAT GGTGGTGAAG
    CCTGTTTGTG GTGATACCAG CACAGAACTT GCAGATATAC AGCAAATACT CAAAGTAGCT
    TCTGCTGCTC CAAACCAGAT TGCTCTTCCA CCTTTATCCA AGGCCCCATG TAGTACTGGA
    CAGTCAGGCT ACAAGCAGAT GCCTCCACTC AAGCCAAAAC CATTGGTGGC CCCCAGAACC
    AGCATGGTAG CTTCAACTCC ACCGCCTCTA TTGAACACCC AACAAGCTTC ACTGGGCTGT
    ATCAGCCCAA GCCTTCCACC TCCTGCCAGC CATCCCATCA AGGTGGCTAG GGAGAACTCT
    TCATCTTCCT CGTCCTCTTC TGCCAGTAAC CAGGCTTCTG CAGAGAGGAT TCAAATGGAG
    GCGGAGTGCA TGGGAGATGC ACATACTCCG ATGGACATGG ATGAAAGACA TATCAAGCAG
    GAGAATAGCA AATTAGAAGA GACCACTGGA AAAAAGGGAA CATCTCAAAA AGGCTCATAC
    CCCTGTCGAT TTTGTGACCA GGTCTTTGCA TTCTCAGGTG TGCTCCAGGC ACACATGCGT
    TATCATTTGG GCGTCCTTCC CCACCAATGT AATATATGTG ATTATGTTGC ACCAGACAAG
    GCAACACTGA TCCGTCATTT GAGAACACAC AGTGGTGAGC GACCCTATGT CTGCCGGCTC
    TGCCTTTACC CGTTTACAGT CAAGGCTAAC TGTGAGCGTC ACCTTCGCAA AAAGCACATG
    AAAAGCAGTC GCAAGGAGAT TGAGAAAAAC ATTAAGTATG TTACCTCGTC CACGTCAACA
    TCAGATGTCG TAGAGCAGGC TGGGACCAGT GAAACTACCT GCCGCTTCTG TGGTGAAGAC
    CTAAAGACCT TTCGGGCCCT GCAGATTCAC CTGCGCACAC ACAATGGCTG CCAGCGAAAG
    CCATTTGAGT GCAAGCGTTG TGGAGCAGCC TTCCTGGCCA AACGTAACTG CATCCATCAT
    CTTCTGAAGC AACATCCGGA GGTCCAAGAG CAGGATATTG AAGACCACAT AATCACTCTT
    CTAGCTCCAT CATCCCAAAA TAGCCCAAGC CCATCTCCTC TCAATGGCGT TCCTACTAAC
    AACGTGGTGC AGCCCATCAA GGTGGAGGAC CTTAGCTTCT ACACTGTAGA TATGGATCAA
    CCACTAGACT TTTCTAACAA AAGTCGAGGG GCCAACAACA ACAATGCTGG AAGTGTAAGT
    GGATCGCCTG CGATCAAAAT TGAACCTGTC TCTTTTGACT CTTCCATGGA GCCCATTGAC
    CTCTCTATTC CTAAGAATCC TATGAAGAAG CTTAAACAAG ACATCGAGGC TGCTTTACCA
    AGAGCGGTTA AGAAAGAACC TTCATCTGTT AGCATTCTTG CAAAGGCACT TCAGGCTGAT
    AAGTCTATTG ATGAAAAGTG CCAACCGCTT GGGTGCTACC AAGTTCCTGT AGCTTTGACG
    TCTCTTACTG GTAGCACTAG CGCTGCAGGA AGACCCTTGC GTCTAAAACC CCTGCTTCCT
    AAACCTTCCT CTGCTGGTGT GAAGGAGCTT CCACCCCTAG CATCCATTGC TCAGATCATC
    TCCTCTGTGT CCGGTGCCCC TGACCTTCTA AAACGTGACA ACACTAATAG TCTTAAGACT
    GATATTGATA CACCTGCCAA GCAGGAATCA CCAGAGACCC TAAAAGAGGA GCTTTCGGTA
    GAGATCTCCA AAAAGAGGAC TAGGAAAAGG CCTTCCAACG GCATAGCAAA AGAGAAAACC
    GTGATGAATG CTCCAGACCT GAGTATTGAC TTGGAGTCTA GTGGGGAGTT TGCTAGTGTT
    GAAAGGATGT TGGCAAACAC TGATGCTAAC AAGTTCAGCG CCTATCTTCA GACCAACACA
    ATCGAGTTGG CAAGAAAAGG CAGGCAGCAG CCAGGTGCTG GTGACGAGAA AGAGATGAAA
    GATGAGAAAC ACTTGCCAGT CCAGCAGACT GTTCAACAGT CTAAAGGGAA GAAAAATGCG
    TACTCAAATT CTGTGCAGAA GATGATTTGC CCATTTTGTC CCAGAGTTTT CCCATGGGCC
    AGCTCGCTTC AGCGCCACAT GCTAACACAC ACAGGTCAGA AGCCATATCC TTGCCCCCAA
    TGTGATGCCT TCTTCTCAAC CAAATCCAAC TGTGAAAGAC ATCTTTTGCG CAAGCATGGC
    ATTTCCAACC GAGTGCTTAG ACGCAATGGT GTAATACCCA AACCTAAGGA TGCAGAGGAT
    GGCTCGCCAG AGAGCGCAGA TAGCACATCT GAGGCAGAGC TTCCTATGGG TGAGGCAATG
    GATCTAACAA GTTCAGACCC TGAGAAGTCT GTAGCATCTG ATGCTGAGAA ACCATCACCA
    GCTAAACCTA CAGAGGCAGC CGTGGTAGAG CCTCTTCCTC AAAAAGAGGA TGACAAAACA
    TCCCTCGAGT CTTTGAAGCA TAATGACACC GAAATAGAGG ATGACCATTT AAATAGCAAT
    AAGACCCTTG ACTTGACCTT TGTCTCCAAA GCAAAGGACG TCAATATTAC TGAGAAGGAG
    CAGCCACAGT CCTCCCCCGT AGCAGATGAA GAAATATCTG ACAAAGCAAA AGCTCACGAG
    GAGTCTAAAT TAACCTGCAA AATATGCAAG AAGAGTTTCC GCTACGTTAA AACCCTCACC
    AGACATGAGA AAGCTCACCA GCTGGACATG ACACAAGACG CTGGTGTTAC TAATGGACAA
    AACCTCACAA AATCAGATGA TCCCATTGTG CCTTGTGAAA AGAAAGAGGT TACAGAAGAA
    GAAGTGGAGA GCGTAAGGAA GGGTAAAGCT GAAACGGAAG GAAATGGCAG CGTGGTGGAA
    AGCGGGCCTG ATGAGGATAA AGAGGAGAGA AGTGATGAAG AGGAACCTGC AACTGAACCA
    AAGAGTGCTG GGAGAGAACC TGGTAGCAAA CCGGACAAAA GGAAAAAGGT GTGCAGTATA
    TGCAACAAAC GCTTCTGGAG CCTTCAGGAC CTGACTAGAC ATATGCGCTC GCACACAGGT
    GAGAGGCCGT ACAAGTGCCA GACATGCGAG CGCACCTTCA CCCTCAAGCA CAGTTTGGTT
    CGACATCAGC GAATCCACCA GAAGCTGCGT GGAGTGGATA GTGATGGTTC CACATGTGGA
    GCTGCAGGGG GAGCGGATGA GGAGGGCTTC AGCGGACGTT CGGCCAGCGA AAGCGAATGC
    ACACCCACCA GCACAAACCC GCCCTCTGAG AACGAAAGTG AAATGACAGA CACTGTGAAG
    GGGGAACCAA CCTCGTATGT GAACAAGGGA GCAGCCGCGG ACGCAGAAGA GTATAATCTG
    AGCTCTGAGA CAGAACCTGC AGCAGAAACA CCCAAAGAAA CTCCAGCAGA GGATTCTCCA
    GCCACATCAG AGCCGGGATT CATCCAAGGT TTACTGGAGA TCCATACCAA GCCCACTACT
    GAGCACATTT TGCCCACCTC CGAGCCAGCG CTTCTTGGAG TGGAGTGA

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

    RefSeq XP_005162534.1
    CDS355..5382
    Translation

    Target ORF information:

    RefSeq Version XM_005162477.4
    Organism Danio rerio(zebrafish)
    Definition Danio rerio ras responsive element binding protein 1a (rreb1a), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005162477.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGGAAAATT CAGCAGAAGA GGCGAGAACA GAATCAGCGA ATTGCAGCCT TACTGGGGAA 
    GAGGAGGCGG AGCAAAGTGA TGAGCGCCAG AGCCCCGCCC CTACAGAAGC TCACACAGAG
    GGTTCTGCTG GCGTAGAAGA GGAAGGAAAC GAATGGAAGA ATGGACGGAA TGAAGCAGAC
    GGAGAGATGG AGGCAGTAGA TGGAGTGGAC TTGACCTCCA TAAACTCCAT GATGAACACA
    GTGATGAAAG CCGCTCAGCT GAACGGTGGC GTAGACTCCG CCCACAGCAC ACCCAATAAG
    GTGCCCGCCA AAAGCCCCGG CACCAACCGC AGCGGAAGAA AGAGCCAGGA AGCCAAAGAT
    GAGAGCGGGT GTATCGCCTG TCCTCTGTGC GATAAGGGCT TTCAGAACCA GCACCAGCTC
    ACCATGCACA TCCGCCAGCA CAACACTGAC AGCGGGACTT CAGACCACTC GTGCAGTATC
    TGCGGGAAGT CTCTGAGCTC GGCCAGCTCT CTGGACCGTC ACATGCTAGT GCACAGCGGA
    GAGAGACCCT ACAAATGCAC CGTGTGCCAT CAGACCTTCA CCACCAACGG CAACATGCAC
    AGACACATGA AGATCCATGA GAAGGACTCT GCCAGCTCCA TCCCCAACAG TCCGACTCTC
    TCCCCAACTA AGCGACGGCG TTCCTCCACA GCCAAACGCA AACTAAGTCA AGATGAAGAC
    TGCGAGAAGA CAGAGGAGCC GTCCAGCAAA AAGGTGCTGG AGGACAGTGG AGCAGATGAG
    CAGGGATCGA ACAAAGGACA GGACGAGCTC TTGACCTGCT CGATCTGCTT CAAGAACTTC
    ACCTGCAAAA ATGACTACGA CACCCACATG GAAATCCATC CCGACACTAC ATTAAGATGT
    GATTTATGCT GCGTCTCCTT CCGGACACCT CGAAGTTTGC TTCGCCACAA TGCAGCTACC
    CATAAGCAGC TACCCACAGA CCCCAGTGGA CGACCCTTTA TTCAGAACAA TCCATCCATC
    CCTCTCGGCT TTAATGATCT GGCTTTCATT GACTTTTCAT GCCTCAAGTT CCCTCGTATT
    GCCCAGATTT GGTGTGAAAC AAACCTTCGT CGGTGTACTG GCAAATTCCA TCGTTTTGTA
    TGCGACTCGT GCGATAAGGC ATTCCCTCTT AGCTCAGCTC TGGACTTACA CAAAGCCTCA
    CATGAGGAGT CCAGTGGCAC CCAAGAAACA ACTTCACCCT TAGTTGAGAA AGACGAGCTT
    CCCAATGACA AAAGCAGCTT CATGGACTTT CTGGGCTTGC AGCACATCTC TCAGGTCAAG
    CCTGCCCCTT CTGAAGAGGA TGCCCTGCAG GCTAAGCTAG ATAGTATCCG GGTTATTCAC
    GTAGAGCCGA ATCAGTCCAC CGTACCTCAA GAGCCTGGTC TTGTTGGAAG TGTCAACCTA
    TCTCTTGTAG ACCCTACGAC TCTTCATGGT TTGTCCCACC AAGAGGCTCT CAAACTACTG
    TCCCTTCAGC CATTCCAGAC TGGCTTTCTG GTGCAGCCAG ATGGTGGTAT GGTGGTGAAG
    CCTGTTTGTG GTGATACCAG CACAGAACTT GCAGATATAC AGCAAATACT CAAAGTAGCT
    TCTGCTGCTC CAAACCAGAT TGCTCTTCCA CCTTTATCCA AGGCCCCATG TAGTACTGGA
    CAGTCAGGCT ACAAGCAGAT GCCTCCACTC AAGCCAAAAC CATTGGTGGC CCCCAGAACC
    AGCATGGTAG CTTCAACTCC ACCGCCTCTA TTGAACACCC AACAAGCTTC ACTGGGCTGT
    ATCAGCCCAA GCCTTCCACC TCCTGCCAGC CATCCCATCA AGGTGGCTAG GGAGAACTCT
    TCATCTTCCT CGTCCTCTTC TGCCAGTAAC CAGGCTTCTG CAGAGAGGAT TCAAATGGAG
    GCGGAGTGCA TGGGAGATGC ACATACTCCG ATGGACATGG ATGAAAGACA TATCAAGCAG
    GAGAATAGCA AATTAGAAGA GACCACTGGA AAAAAGGGAA CATCTCAAAA AGGCTCATAC
    CCCTGTCGAT TTTGTGACCA GGTCTTTGCA TTCTCAGGTG TGCTCCAGGC ACACATGCGT
    TATCATTTGG GCGTCCTTCC CCACCAATGT AATATATGTG ATTATGTTGC ACCAGACAAG
    GCAACACTGA TCCGTCATTT GAGAACACAC AGTGGTGAGC GACCCTATGT CTGCCGGCTC
    TGCCTTTACC CGTTTACAGT CAAGGCTAAC TGTGAGCGTC ACCTTCGCAA AAAGCACATG
    AAAAGCAGTC GCAAGGAGAT TGAGAAAAAC ATTAAGTATG TTACCTCGTC CACGTCAACA
    TCAGATGTCG TAGAGCAGGC TGGGACCAGT GAAACTACCT GCCGCTTCTG TGGTGAAGAC
    CTAAAGACCT TTCGGGCCCT GCAGATTCAC CTGCGCACAC ACAATGGCTG CCAGCGAAAG
    CCATTTGAGT GCAAGCGTTG TGGAGCAGCC TTCCTGGCCA AACGTAACTG CATCCATCAT
    CTTCTGAAGC AACATCCGGA GGTCCAAGAG CAGGATATTG AAGACCACAT AATCACTCTT
    CTAGCTCCAT CATCCCAAAA TAGCCCAAGC CCATCTCCTC TCAATGGCGT TCCTACTAAC
    AACGTGGTGC AGCCCATCAA GGTGGAGGAC CTTAGCTTCT ACACTGTAGA TATGGATCAA
    CCACTAGACT TTTCTAACAA AAGTCGAGGG GCCAACAACA ACAATGCTGG AAGTGTAAGT
    GGATCGCCTG CGATCAAAAT TGAACCTGTC TCTTTTGACT CTTCCATGGA GCCCATTGAC
    CTCTCTATTC CTAAGAATCC TATGAAGAAG CTTAAACAAG ACATCGAGGC TGCTTTACCA
    AGAGCGGTTA AGAAAGAACC TTCATCTGTT AGCATTCTTG CAAAGGCACT TCAGGCTGAT
    AAGTCTATTG ATGAAAAGTG CCAACCGCTT GGGTGCTACC AAGTTCCTGT AGCTTTGACG
    TCTCTTACTG GTAGCACTAG CGCTGCAGGA AGACCCTTGC GTCTAAAACC CCTGCTTCCT
    AAACCTTCCT CTGCTGGTGT GAAGGAGCTT CCACCCCTAG CATCCATTGC TCAGATCATC
    TCCTCTGTGT CCGGTGCCCC TGACCTTCTA AAACGTGACA ACACTAATAG TCTTAAGACT
    GATATTGATA CACCTGCCAA GCAGGAATCA CCAGAGACCC TAAAAGAGGA GCTTTCGGTA
    GAGATCTCCA AAAAGAGGAC TAGGAAAAGG CCTTCCAACG GCATAGCAAA AGAGAAAACC
    GTGATGAATG CTCCAGACCT GAGTATTGAC TTGGAGTCTA GTGGGGAGTT TGCTAGTGTT
    GAAAGGATGT TGGCAAACAC TGATGCTAAC AAGTTCAGCG CCTATCTTCA GACCAACACA
    ATCGAGTTGG CAAGAAAAGG CAGGCAGCAG CCAGGTGCTG GTGACGAGAA AGAGATGAAA
    GATGAGAAAC ACTTGCCAGT CCAGCAGACT GTTCAACAGT CTAAAGGGAA GAAAAATGCG
    TACTCAAATT CTGTGCAGAA GATGATTTGC CCATTTTGTC CCAGAGTTTT CCCATGGGCC
    AGCTCGCTTC AGCGCCACAT GCTAACACAC ACAGGTCAGA AGCCATATCC TTGCCCCCAA
    TGTGATGCCT TCTTCTCAAC CAAATCCAAC TGTGAAAGAC ATCTTTTGCG CAAGCATGGC
    ATTTCCAACC GAGTGCTTAG ACGCAATGGT GTAATACCCA AACCTAAGGA TGCAGAGGAT
    GGCTCGCCAG AGAGCGCAGA TAGCACATCT GAGGCAGAGC TTCCTATGGG TGAGGCAATG
    GATCTAACAA GTTCAGACCC TGAGAAGTCT GTAGCATCTG ATGCTGAGAA ACCATCACCA
    GCTAAACCTA CAGAGGCAGC CGTGGTAGAG CCTCTTCCTC AAAAAGAGGA TGACAAAACA
    TCCCTCGAGT CTTTGAAGCA TAATGACACC GAAATAGAGG ATGACCATTT AAATAGCAAT
    AAGACCCTTG ACTTGACCTT TGTCTCCAAA GCAAAGGACG TCAATATTAC TGAGAAGGAG
    CAGCCACAGT CCTCCCCCGT AGCAGATGAA GAAATATCTG ACAAAGCAAA AGCTCACGAG
    GAGTCTAAAT TAACCTGCAA AATATGCAAG AAGAGTTTCC GCTACGTTAA AACCCTCACC
    AGACATGAGA AAGCTCACCA GCTGGACATG ACACAAGACG CTGGTGTTAC TAATGGACAA
    AACCTCACAA AATCAGATGA TCCCATTGTG CCTTGTGAAA AGAAAGAGGT TACAGAAGAA
    GAAGTGGAGA GCGTAAGGAA GGGTAAAGCT GAAACGGAAG GAAATGGCAG CGTGGTGGAA
    AGCGGGCCTG ATGAGGATAA AGAGGAGAGA AGTGATGAAG AGGAACCTGC AACTGAACCA
    AAGAGTGCTG GGAGAGAACC TGGTAGCAAA CCGGACAAAA GGAAAAAGGT GTGCAGTATA
    TGCAACAAAC GCTTCTGGAG CCTTCAGGAC CTGACTAGAC ATATGCGCTC GCACACAGGT
    GAGAGGCCGT ACAAGTGCCA GACATGCGAG CGCACCTTCA CCCTCAAGCA CAGTTTGGTT
    CGACATCAGC GAATCCACCA GAAGCTGCGT GGAGTGGATA GTGATGGTTC CACATGTGGA
    GCTGCAGGGG GAGCGGATGA GGAGGGCTTC AGCGGACGTT CGGCCAGCGA AAGCGAATGC
    ACACCCACCA GCACAAACCC GCCCTCTGAG AACGAAAGTG AAATGACAGA CACTGTGAAG
    GGGGAACCAA CCTCGTATGT GAACAAGGGA GCAGCCGCGG ACGCAGAAGA GTATAATCTG
    AGCTCTGAGA CAGAACCTGC AGCAGAAACA CCCAAAGAAA CTCCAGCAGA GGATTCTCCA
    GCCACATCAG AGCCGGGATT CATCCAAGGT TTACTGGAGA TCCATACCAA GCCCACTACT
    GAGCACATTT TGCCCACCTC CGAGCCAGCG CTTCTTGGAG TGGAGTGA

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

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