RREB1B cDNA ORF clone, Danio rerio(Zebrafish)

  • Gene

  • Clones

  • gRNAs

The following RREB1B gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the RREB1B 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
ODa06921 XM_678293.9
Latest version!
Danio rerio ras responsive element binding protein 1b (rreb1b), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $1021.30
$1459.00
ODa06922 XM_005163366.4
Latest version!
Danio rerio ras responsive element binding protein 1b (rreb1b), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $1021.30
$1459.00
View Old Accession Versions >>
ODa06921 XM_678293.8 Danio rerio ras responsive element binding protein 1b (rreb1b), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $1021.30
$1459.00
ODa06922 XM_005163366.3 Danio rerio ras responsive element binding protein 1b (rreb1b), transcript variant X2, 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 ODa06921
    Clone ID Related Accession (Same CDS sequence) XM_678293.9 , XM_678293.8
    Accession Version XM_678293.9 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5022bp)
    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_007113.7) 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_678293.8. ##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
    ATGGAAATGG AAAGTGCCTC CCCTGAAAAG ACTATCAGCA ATGGTGTTGG AGCTGCTGAT 
    GGGAATGAAC AGTCTCATTT GTCAGAAGAG GCTGTGAACA GTCAGTCGTC CACTTGTACA
    CCAGAACCTG TTGAAGAAGC AGACTTTGAT GAAACAGACA AAGCAGCAGA TGAAGATGAA
    GTTGGCGTAA GAACAGAGGA GGAACTGACC TCCATCAACT CCATGATGAG CACTGTGATG
    AATGTGGGCC AGATCAATGG AGTCGATTCT GAGACCCCCA AAACATCTCC CAGAAACACC
    AACAAATCAC CCTCTGCTGG ACGCACTGGG AGACGGAATC AGGAAGTCAA AGATGAACGT
    TCCAGCTTCA TTTGCCCCCT GTGTGACAAA AACTGCATGA CGCAGCACCA GCTCACCATG
    CACATCAGAC AGCACAACAC GGACAGTGGT GGCACTGACC ACTCGTGCAG TATTTGCGGA
    AAGGCTTTGA GTTCGGCCAG CTCTCTGGAC CGACACATGC TGGTTCACAG CGGAGAAAGA
    CCATACAAGT GCTCGGTCTG CGGTCAGACA TTCACCACCA ATGGAAACAT GCACAGGCAC
    ATGAAAATTC ATGAAAAGGA TTCAAGCGGT ATTCCTACCC CCAGTTCTTC CCCACTAAAC
    AAGCGCAGAC GACTCTCCAG CAAGAGGAAA CCCAGTGTGG AGGATGAAGG AGAGCAGGCT
    GAGGAGCCAC CAGTTAAAAA GGTGACTTTG ATCCAGAAGC TTAAGGAGGA TAATTCTGTG
    AAGAGTGAAG AAGAGGTATT TCACTGCCCC ATCTGCTTTA AGACATTCAT CTGTAAAAAT
    GACCTGGAAG CACACATGGA GACACATCCT GACACTACGC TCAGGTGCAA CATTTGTTGC
    ATTACCTTTC GCAAACACCG TGGTCTCCTG CGTCATAATG CTGCCATTCA TAAACAGCTT
    CCAACTGACC CCTCTGGGCG ACCTTTTATA CAGAACAACC CCTCCATCCC ACTGGGATTT
    GGCGATTTAG CTTTCATCGA CTTCAGCTGT CAAAAGTTTC CACAAATTGC ACAGGTCTGG
    TGTGAGACTA ACCTGCGCCG ATGCTCTAGC AAGTTCCATA AGTTTGTTTG TGAGGACTGC
    AACAAGGCCT TCCCTATTCA GCAATCTCTG GATCTTCACA AGTCTTCACA TAACTGTAGT
    GTAGACACCA GCACTGATCC TCAGGAACAT AAAGCAGATG CTGTTATAGA CGCCCCAAAA
    GTAAACTCCC ATTCCGAGGA TTCCAAGGAG GTCAGTGAAC TAGCACCACA CGTTGACACT
    ACTAGTTCAG ATGGGAAGAA TGGTTTCATG GAGCGCCTGG GTCTCCAGCA CTCCTCCTTG
    GCCAAGCTAG AGAAATCAGA AGAGCAGATT CAGCAGGAGG TTTTAGACAG CATTCGATTC
    ATTCGCGTTG AGCCACCATC AACAAATCTA CCTCAAGAAA CCAGCGGCAG TCTTGGTGTC
    TCAATCCTTG AGCCTGTCTC TCTTCAAGCA ATGAACAAGA ACACAGCCCT TGGCCTTCTA
    TCGCTACAGC CACTACATGC TGTGGTCAGT AATGGCATGT TTGTCCCAAT AAGCGGTCAA
    ACCGCTGTAG AGCTGGCGGA TATTGAACAA ATCCTTAAAA TCGCAACCTC TGTACCACCT
    CAGATGTCTT TGTCTATGCT TCCCAAAAGT CTGGGTAGTC CTCTTCAAGT GGACCCCAGA
    CAGATTTCTT CTTTAAAACC CAAGTCCTTA ATCACTCCCC GATCCAGCAT GGGTGCCTCC
    ACACCACCTC CACCTGTCAT GAATGCCCAA CAGGCCTCAT CCGGCAACAT CAGTCCTAGC
    CTTCCACCCC AAACAGGCCA ACAAGTGAGA ACTGCCAGAC AGTCTTCAGC CTCATCCTCA
    TCCTCAACTT CCTCCTCTCC CACCAATTGG GAAACTACTC AACTGGGATC TGATGTCATA
    GGAAACACGA TTATCTCATA TGAAACTGGA AAGCAGGAAG AGTTTGACAG CAAAGAGAAG
    GACATGAGAG TTGTCCCCAA AAAGACAGCT AAGACTGAAT ACCCTTGTCG GTTCTGCAAA
    GAAGTATTCT CTTTCTTAGG TGGCCTCCAG GCACATATGC GTCACCATTT GGGAGCATCC
    CCATATCAGT GCACCATTTG TAGCTACGCT GCTCCTGACA AAGCGACACT GATTCGACAT
    CTCAGAACAC ACAGTGGTGA GCGGCCATAC GTCTGTCGCC TCTGTCACTA CCCTTTCACT
    GTGAAAGCCA ACTGCGAGCG CCATTTGCGC AAGAAGCACA TGAAGAACAC ACGCAAGGAC
    ATCGAGAAAA ACATTGAATA TGTAACCACC TCCTCGAGCA TAAGCAGTGT AATTGGAGGC
    ACCACACTAG ACCTCCTTGA TACAACCAAC GCTGGCAACA CATCTTGTCG ATATTGTGGG
    GAGGACCTTA AGAACTACCG GGCCCTTCAG ATTCACCTGC GAACTCACAA TGGATGTCAA
    AAGAAACCAT TTGAGTGCAG GCAATGTGGG GCGACATTTC TCGCTAAAAG GAACTGTATT
    CACCATTTGC TGAAACACCA CCCAGATGTG CCAGAAAGGG AAATTGAGGA GCACATCAAA
    AGTCTTGTAC CAGTTGGAGG TGAAGTCAAT GCTCAATCCA ACACTTCAGC CACAAATGGG
    CTTGTTAACA GCTCCATTTC CCAGAATGTA GGTACCTTCT CTGGACCTGT TGAGGAGCAG
    GAACAACCTT TGGATTTCTC TAGCAAATCT CAGAAAACAA TGCCTTCAGT CGTTAAAATT
    GAAGGAGCAG CATCTCCTCT GTTAAATGAC TGTTCTATGG AGCCCATTGA CCTCTCAATA
    CCCAAGGATC CAGAGAAGAA GAAAATGAGG AAAGAAGTTC CCCAGAATTA TCAAGAGCTC
    AATAAAGAAA AGACTTCAGA AACAGCCCCT GGACTTCTCG CAGCTATTCC GGTCTCCATT
    CCTAGCCTAG CCTCAGTTCT ATCCAGTGAC ATTACTAAGC CTTATACTCG CTTAAAGCCC
    CTGCTACCAA AACCATCTTC TGCTTCTAGT ACTGCGGAAA TGGCACCACT GGCCTCTATT
    GCTCAGATTA TCTCATCTGT TTCAGCTACC CCAGTGCTTA TCGAAACAGG AATGGATGCA
    AAAAACTGTA TTAGTGCAGT GGATTTTAAA ACACTAAGTG AAAACAAGAG TCCCATAGGC
    ACCACTAAAC TGGATTCCGT GCTGAATGGG TCTCCTGATA ACTCAAAGAA AAGAGGCAAG
    AAGAGAGTGT TTCAGGAGGA GATCTGTGAT TCGAGAATAG CTGTGGGCAG TGGGATTGAC
    CTGGAGTCAA GTGGCGAGTT TCCCAGTGTA GAGAAAATGT TGGCTACTAC TGATGCAAAT
    AAGTTCAGTC CCTACCTGCA ACCCAATCAG ATGGAGCCAA TGATGGAGGA AAAAGAGAAG
    CAGTCAGCTG ACGAGGAGGT GAAGGAAATA CGAGAAGACA AACCAAAGAA ACCTCCACAG
    AACAAAGGAA AGAAAAATGC TTATTCCAAT TCAGTGCAGA AAATGACCTG CCCCTACTGC
    CCTCGATTGT TCCCGTGGGC CAGCTCATTG CAAAGGCATA TGCTAACACA CACAGGTCAG
    AAGCCGTACC CTTGTCCTCA GTGTGACTCG TTCTTCTCCA CCAAGTCAAA CTGTGAGCGA
    CACCTGCTTC GCAAACATGG AGTCTCGAAT CGGGCACTTC AAAACAGTGG ATCTCGACTC
    AAACCTAAGA CAGATGAAGA ATCCTTAGGA AGCACAGAAA GTGTATGCGA CACTGAACAT
    CCTGTAGCCG AAGGTACTAT GGATCTGAGC TCTGTCAACA CCAAACAAGA AGAATCTCCA
    GAAGCGCCAG AACGAACAGG ACAATCAGCC CCTGAACAAG CAGACAGCAG CACGGATCCA
    AACCAAACTC AGCCAGCTGA GGAAAATCCT GAGATGGTGG AAAAAGATGA TGATGATGAT
    GATGATGATT CTCAAAGCAG CATGAGTCAT GAAATGAGCC TTGTCAGCAA TCTTGTTGTA
    GATGTCCAGC TTTCTGGAGA GGAGCAGCAC CAGTCTAAAT CAGCCCCTGA AGTGGTTTCC
    CCTCCAGATG AGTTCCCACA CACATGTGCC TCCTGTAAGA AGACCTTTCG TCATGCAGCC
    ACTCTGAGCC GACACCAGAA AACCCACCTT CAGGAGGTCC AGCCAGAGGA TGGAGCCAAG
    AAGGGAAGAC GCCAAGCTCC TCCACAAAAT CCAATTCCAG TACCAAGTAA AGAGATGGAG
    CAGGACGCAA AGTCAGAAGA TGATGAAAAG GAGGAGAACA GCAGCTGTGT GGAAAGTGGT
    GTTGATGAGG AAGAGAAGGA GAGGGAAGAT ATGAGTGAAG ATGAAGAAGA GACTCCTTCC
    TCAGAGCTCC AGGCCTTAGA AGAGGAGGGC AACTCAACCA GAGGCAAAGC AGATAAGAGG
    AAGAAGATCT GCACCGTGTG CAGCAAACGC TTCTGGAGCC TGCAAGACTT GACTAGACAC
    ATGCGCTCAC ATACTGGTGA GCGACCTTAT AAGTGCCAAA CCTGTCATCG TACCTTCACC
    CTGAAGCACA GTCTGGTACG GCACCAACGC GTCCACCAGA AACCATCGGA TGAAAAAGGG
    AGCGATGACG CAGAAATGAA CGAAGAAACA GATGGAGCAA AAGATGAAGC TGGAGTGCTG
    GAGGAGAAAG AGTTCAATGA AGCTGTTCAG AGTGAGGCTG AACACAAAGA GGAAGAGATT
    GGCGGACGCA TGGAGGAAGA CGATGCCAAG CAGCTTCCTG AAGAAACATC CATGGGGGTG
    AATTCTGCCG AAGAAGCTCT GCCGGATGAG GACGAACAGG AAGAACAACA AACCGAGGAA
    CCGTCAGAAG AGGCCCGATC AGGCTGTGAC CCAGAACCTG CAAAAACCAG CAACCACAGC
    TGTACAGTGG CTCAGGAAGA CACAGAGATG CCCGCTCAGT GA

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

    RefSeq XP_683385.6
    CDS525..5546
    Translation

    Target ORF information:

    RefSeq Version XM_678293.9
    Organism Danio rerio(zebrafish)
    Definition Danio rerio ras responsive element binding protein 1b (rreb1b), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_678293.9

    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
    ATGGAAATGG AAAGTGCCTC CCCTGAAAAG ACTATCAGCA ATGGTGTTGG AGCTGCTGAT 
    GGGAATGAAC AGTCTCATTT GTCAGAAGAG GCTGTGAACA GTCAGTCGTC CACTTGTACA
    CCAGAACCTG TTGAAGAAGC AGACTTTGAT GAAACAGACA AAGCAGCAGA TGAAGATGAA
    GTTGGCGTAA GAACAGAGGA GGAACTGACC TCCATCAACT CCATGATGAG CACTGTGATG
    AATGTGGGCC AGATCAATGG AGTCGATTCT GAGACCCCCA AAACATCTCC CAGAAACACC
    AACAAATCAC CCTCTGCTGG ACGCACTGGG AGACGGAATC AGGAAGTCAA AGATGAACGT
    TCCAGCTTCA TTTGCCCCCT GTGTGACAAA AACTGCATGA CGCAGCACCA GCTCACCATG
    CACATCAGAC AGCACAACAC GGACAGTGGT GGCACTGACC ACTCGTGCAG TATTTGCGGA
    AAGGCTTTGA GTTCGGCCAG CTCTCTGGAC CGACACATGC TGGTTCACAG CGGAGAAAGA
    CCATACAAGT GCTCGGTCTG CGGTCAGACA TTCACCACCA ATGGAAACAT GCACAGGCAC
    ATGAAAATTC ATGAAAAGGA TTCAAGCGGT ATTCCTACCC CCAGTTCTTC CCCACTAAAC
    AAGCGCAGAC GACTCTCCAG CAAGAGGAAA CCCAGTGTGG AGGATGAAGG AGAGCAGGCT
    GAGGAGCCAC CAGTTAAAAA GGTGACTTTG ATCCAGAAGC TTAAGGAGGA TAATTCTGTG
    AAGAGTGAAG AAGAGGTATT TCACTGCCCC ATCTGCTTTA AGACATTCAT CTGTAAAAAT
    GACCTGGAAG CACACATGGA GACACATCCT GACACTACGC TCAGGTGCAA CATTTGTTGC
    ATTACCTTTC GCAAACACCG TGGTCTCCTG CGTCATAATG CTGCCATTCA TAAACAGCTT
    CCAACTGACC CCTCTGGGCG ACCTTTTATA CAGAACAACC CCTCCATCCC ACTGGGATTT
    GGCGATTTAG CTTTCATCGA CTTCAGCTGT CAAAAGTTTC CACAAATTGC ACAGGTCTGG
    TGTGAGACTA ACCTGCGCCG ATGCTCTAGC AAGTTCCATA AGTTTGTTTG TGAGGACTGC
    AACAAGGCCT TCCCTATTCA GCAATCTCTG GATCTTCACA AGTCTTCACA TAACTGTAGT
    GTAGACACCA GCACTGATCC TCAGGAACAT AAAGCAGATG CTGTTATAGA CGCCCCAAAA
    GTAAACTCCC ATTCCGAGGA TTCCAAGGAG GTCAGTGAAC TAGCACCACA CGTTGACACT
    ACTAGTTCAG ATGGGAAGAA TGGTTTCATG GAGCGCCTGG GTCTCCAGCA CTCCTCCTTG
    GCCAAGCTAG AGAAATCAGA AGAGCAGATT CAGCAGGAGG TTTTAGACAG CATTCGATTC
    ATTCGCGTTG AGCCACCATC AACAAATCTA CCTCAAGAAA CCAGCGGCAG TCTTGGTGTC
    TCAATCCTTG AGCCTGTCTC TCTTCAAGCA ATGAACAAGA ACACAGCCCT TGGCCTTCTA
    TCGCTACAGC CACTACATGC TGTGGTCAGT AATGGCATGT TTGTCCCAAT AAGCGGTCAA
    ACCGCTGTAG AGCTGGCGGA TATTGAACAA ATCCTTAAAA TCGCAACCTC TGTACCACCT
    CAGATGTCTT TGTCTATGCT TCCCAAAAGT CTGGGTAGTC CTCTTCAAGT GGACCCCAGA
    CAGATTTCTT CTTTAAAACC CAAGTCCTTA ATCACTCCCC GATCCAGCAT GGGTGCCTCC
    ACACCACCTC CACCTGTCAT GAATGCCCAA CAGGCCTCAT CCGGCAACAT CAGTCCTAGC
    CTTCCACCCC AAACAGGCCA ACAAGTGAGA ACTGCCAGAC AGTCTTCAGC CTCATCCTCA
    TCCTCAACTT CCTCCTCTCC CACCAATTGG GAAACTACTC AACTGGGATC TGATGTCATA
    GGAAACACGA TTATCTCATA TGAAACTGGA AAGCAGGAAG AGTTTGACAG CAAAGAGAAG
    GACATGAGAG TTGTCCCCAA AAAGACAGCT AAGACTGAAT ACCCTTGTCG GTTCTGCAAA
    GAAGTATTCT CTTTCTTAGG TGGCCTCCAG GCACATATGC GTCACCATTT GGGAGCATCC
    CCATATCAGT GCACCATTTG TAGCTACGCT GCTCCTGACA AAGCGACACT GATTCGACAT
    CTCAGAACAC ACAGTGGTGA GCGGCCATAC GTCTGTCGCC TCTGTCACTA CCCTTTCACT
    GTGAAAGCCA ACTGCGAGCG CCATTTGCGC AAGAAGCACA TGAAGAACAC ACGCAAGGAC
    ATCGAGAAAA ACATTGAATA TGTAACCACC TCCTCGAGCA TAAGCAGTGT AATTGGAGGC
    ACCACACTAG ACCTCCTTGA TACAACCAAC GCTGGCAACA CATCTTGTCG ATATTGTGGG
    GAGGACCTTA AGAACTACCG GGCCCTTCAG ATTCACCTGC GAACTCACAA TGGATGTCAA
    AAGAAACCAT TTGAGTGCAG GCAATGTGGG GCGACATTTC TCGCTAAAAG GAACTGTATT
    CACCATTTGC TGAAACACCA CCCAGATGTG CCAGAAAGGG AAATTGAGGA GCACATCAAA
    AGTCTTGTAC CAGTTGGAGG TGAAGTCAAT GCTCAATCCA ACACTTCAGC CACAAATGGG
    CTTGTTAACA GCTCCATTTC CCAGAATGTA GGTACCTTCT CTGGACCTGT TGAGGAGCAG
    GAACAACCTT TGGATTTCTC TAGCAAATCT CAGAAAACAA TGCCTTCAGT CGTTAAAATT
    GAAGGAGCAG CATCTCCTCT GTTAAATGAC TGTTCTATGG AGCCCATTGA CCTCTCAATA
    CCCAAGGATC CAGAGAAGAA GAAAATGAGG AAAGAAGTTC CCCAGAATTA TCAAGAGCTC
    AATAAAGAAA AGACTTCAGA AACAGCCCCT GGACTTCTCG CAGCTATTCC GGTCTCCATT
    CCTAGCCTAG CCTCAGTTCT ATCCAGTGAC ATTACTAAGC CTTATACTCG CTTAAAGCCC
    CTGCTACCAA AACCATCTTC TGCTTCTAGT ACTGCGGAAA TGGCACCACT GGCCTCTATT
    GCTCAGATTA TCTCATCTGT TTCAGCTACC CCAGTGCTTA TCGAAACAGG AATGGATGCA
    AAAAACTGTA TTAGTGCAGT GGATTTTAAA ACACTAAGTG AAAACAAGAG TCCCATAGGC
    ACCACTAAAC TGGATTCCGT GCTGAATGGG TCTCCTGATA ACTCAAAGAA AAGAGGCAAG
    AAGAGAGTGT TTCAGGAGGA GATCTGTGAT TCGAGAATAG CTGTGGGCAG TGGGATTGAC
    CTGGAGTCAA GTGGCGAGTT TCCCAGTGTA GAGAAAATGT TGGCTACTAC TGATGCAAAT
    AAGTTCAGTC CCTACCTGCA ACCCAATCAG ATGGAGCCAA TGATGGAGGA AAAAGAGAAG
    CAGTCAGCTG ACGAGGAGGT GAAGGAAATA CGAGAAGACA AACCAAAGAA ACCTCCACAG
    AACAAAGGAA AGAAAAATGC TTATTCCAAT TCAGTGCAGA AAATGACCTG CCCCTACTGC
    CCTCGATTGT TCCCGTGGGC CAGCTCATTG CAAAGGCATA TGCTAACACA CACAGGTCAG
    AAGCCGTACC CTTGTCCTCA GTGTGACTCG TTCTTCTCCA CCAAGTCAAA CTGTGAGCGA
    CACCTGCTTC GCAAACATGG AGTCTCGAAT CGGGCACTTC AAAACAGTGG ATCTCGACTC
    AAACCTAAGA CAGATGAAGA ATCCTTAGGA AGCACAGAAA GTGTATGCGA CACTGAACAT
    CCTGTAGCCG AAGGTACTAT GGATCTGAGC TCTGTCAACA CCAAACAAGA AGAATCTCCA
    GAAGCGCCAG AACGAACAGG ACAATCAGCC CCTGAACAAG CAGACAGCAG CACGGATCCA
    AACCAAACTC AGCCAGCTGA GGAAAATCCT GAGATGGTGG AAAAAGATGA TGATGATGAT
    GATGATGATT CTCAAAGCAG CATGAGTCAT GAAATGAGCC TTGTCAGCAA TCTTGTTGTA
    GATGTCCAGC TTTCTGGAGA GGAGCAGCAC CAGTCTAAAT CAGCCCCTGA AGTGGTTTCC
    CCTCCAGATG AGTTCCCACA CACATGTGCC TCCTGTAAGA AGACCTTTCG TCATGCAGCC
    ACTCTGAGCC GACACCAGAA AACCCACCTT CAGGAGGTCC AGCCAGAGGA TGGAGCCAAG
    AAGGGAAGAC GCCAAGCTCC TCCACAAAAT CCAATTCCAG TACCAAGTAA AGAGATGGAG
    CAGGACGCAA AGTCAGAAGA TGATGAAAAG GAGGAGAACA GCAGCTGTGT GGAAAGTGGT
    GTTGATGAGG AAGAGAAGGA GAGGGAAGAT ATGAGTGAAG ATGAAGAAGA GACTCCTTCC
    TCAGAGCTCC AGGCCTTAGA AGAGGAGGGC AACTCAACCA GAGGCAAAGC AGATAAGAGG
    AAGAAGATCT GCACCGTGTG CAGCAAACGC TTCTGGAGCC TGCAAGACTT GACTAGACAC
    ATGCGCTCAC ATACTGGTGA GCGACCTTAT AAGTGCCAAA CCTGTCATCG TACCTTCACC
    CTGAAGCACA GTCTGGTACG GCACCAACGC GTCCACCAGA AACCATCGGA TGAAAAAGGG
    AGCGATGACG CAGAAATGAA CGAAGAAACA GATGGAGCAA AAGATGAAGC TGGAGTGCTG
    GAGGAGAAAG AGTTCAATGA AGCTGTTCAG AGTGAGGCTG AACACAAAGA GGAAGAGATT
    GGCGGACGCA TGGAGGAAGA CGATGCCAAG CAGCTTCCTG AAGAAACATC CATGGGGGTG
    AATTCTGCCG AAGAAGCTCT GCCGGATGAG GACGAACAGG AAGAACAACA AACCGAGGAA
    CCGTCAGAAG AGGCCCGATC AGGCTGTGAC CCAGAACCTG CAAAAACCAG CAACCACAGC
    TGTACAGTGG CTCAGGAAGA CACAGAGATG CCCGCTCAGT GA

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

    CloneID ODa06921
    Clone ID Related Accession (Same CDS sequence) XM_678293.9 , XM_678293.8
    Accession Version XM_678293.8 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5022bp)
    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_007113.6) 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_678293.7. ##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
    ATGGAAATGG AAAGTGCCTC CCCTGAAAAG ACTATCAGCA ATGGTGTTGG AGCTGCTGAT 
    GGGAATGAAC AGTCTCATTT GTCAGAAGAG GCTGTGAACA GTCAGTCGTC CACTTGTACA
    CCAGAACCTG TTGAAGAAGC AGACTTTGAT GAAACAGACA AAGCAGCAGA TGAAGATGAA
    GTTGGCGTAA GAACAGAGGA GGAACTGACC TCCATCAACT CCATGATGAG CACTGTGATG
    AATGTGGGCC AGATCAATGG AGTCGATTCT GAGACCCCCA AAACATCTCC CAGAAACACC
    AACAAATCAC CCTCTGCTGG ACGCACTGGG AGACGGAATC AGGAAGTCAA AGATGAACGT
    TCCAGCTTCA TTTGCCCCCT GTGTGACAAA AACTGCATGA CGCAGCACCA GCTCACCATG
    CACATCAGAC AGCACAACAC GGACAGTGGT GGCACTGACC ACTCGTGCAG TATTTGCGGA
    AAGGCTTTGA GTTCGGCCAG CTCTCTGGAC CGACACATGC TGGTTCACAG CGGAGAAAGA
    CCATACAAGT GCTCGGTCTG CGGTCAGACA TTCACCACCA ATGGAAACAT GCACAGGCAC
    ATGAAAATTC ATGAAAAGGA TTCAAGCGGT ATTCCTACCC CCAGTTCTTC CCCACTAAAC
    AAGCGCAGAC GACTCTCCAG CAAGAGGAAA CCCAGTGTGG AGGATGAAGG AGAGCAGGCT
    GAGGAGCCAC CAGTTAAAAA GGTGACTTTG ATCCAGAAGC TTAAGGAGGA TAATTCTGTG
    AAGAGTGAAG AAGAGGTATT TCACTGCCCC ATCTGCTTTA AGACATTCAT CTGTAAAAAT
    GACCTGGAAG CACACATGGA GACACATCCT GACACTACGC TCAGGTGCAA CATTTGTTGC
    ATTACCTTTC GCAAACACCG TGGTCTCCTG CGTCATAATG CTGCCATTCA TAAACAGCTT
    CCAACTGACC CCTCTGGGCG ACCTTTTATA CAGAACAACC CCTCCATCCC ACTGGGATTT
    GGCGATTTAG CTTTCATCGA CTTCAGCTGT CAAAAGTTTC CACAAATTGC ACAGGTCTGG
    TGTGAGACTA ACCTGCGCCG ATGCTCTAGC AAGTTCCATA AGTTTGTTTG TGAGGACTGC
    AACAAGGCCT TCCCTATTCA GCAATCTCTG GATCTTCACA AGTCTTCACA TAACTGTAGT
    GTAGACACCA GCACTGATCC TCAGGAACAT AAAGCAGATG CTGTTATAGA CGCCCCAAAA
    GTAAACTCCC ATTCCGAGGA TTCCAAGGAG GTCAGTGAAC TAGCACCACA CGTTGACACT
    ACTAGTTCAG ATGGGAAGAA TGGTTTCATG GAGCGCCTGG GTCTCCAGCA CTCCTCCTTG
    GCCAAGCTAG AGAAATCAGA AGAGCAGATT CAGCAGGAGG TTTTAGACAG CATTCGATTC
    ATTCGCGTTG AGCCACCATC AACAAATCTA CCTCAAGAAA CCAGCGGCAG TCTTGGTGTC
    TCAATCCTTG AGCCTGTCTC TCTTCAAGCA ATGAACAAGA ACACAGCCCT TGGCCTTCTA
    TCGCTACAGC CACTACATGC TGTGGTCAGT AATGGCATGT TTGTCCCAAT AAGCGGTCAA
    ACCGCTGTAG AGCTGGCGGA TATTGAACAA ATCCTTAAAA TCGCAACCTC TGTACCACCT
    CAGATGTCTT TGTCTATGCT TCCCAAAAGT CTGGGTAGTC CTCTTCAAGT GGACCCCAGA
    CAGATTTCTT CTTTAAAACC CAAGTCCTTA ATCACTCCCC GATCCAGCAT GGGTGCCTCC
    ACACCACCTC CACCTGTCAT GAATGCCCAA CAGGCCTCAT CCGGCAACAT CAGTCCTAGC
    CTTCCACCCC AAACAGGCCA ACAAGTGAGA ACTGCCAGAC AGTCTTCAGC CTCATCCTCA
    TCCTCAACTT CCTCCTCTCC CACCAATTGG GAAACTACTC AACTGGGATC TGATGTCATA
    GGAAACACGA TTATCTCATA TGAAACTGGA AAGCAGGAAG AGTTTGACAG CAAAGAGAAG
    GACATGAGAG TTGTCCCCAA AAAGACAGCT AAGACTGAAT ACCCTTGTCG GTTCTGCAAA
    GAAGTATTCT CTTTCTTAGG TGGCCTCCAG GCACATATGC GTCACCATTT GGGAGCATCC
    CCATATCAGT GCACCATTTG TAGCTACGCT GCTCCTGACA AAGCGACACT GATTCGACAT
    CTCAGAACAC ACAGTGGTGA GCGGCCATAC GTCTGTCGCC TCTGTCACTA CCCTTTCACT
    GTGAAAGCCA ACTGCGAGCG CCATTTGCGC AAGAAGCACA TGAAGAACAC ACGCAAGGAC
    ATCGAGAAAA ACATTGAATA TGTAACCACC TCCTCGAGCA TAAGCAGTGT AATTGGAGGC
    ACCACACTAG ACCTCCTTGA TACAACCAAC GCTGGCAACA CATCTTGTCG ATATTGTGGG
    GAGGACCTTA AGAACTACCG GGCCCTTCAG ATTCACCTGC GAACTCACAA TGGATGTCAA
    AAGAAACCAT TTGAGTGCAG GCAATGTGGG GCGACATTTC TCGCTAAAAG GAACTGTATT
    CACCATTTGC TGAAACACCA CCCAGATGTG CCAGAAAGGG AAATTGAGGA GCACATCAAA
    AGTCTTGTAC CAGTTGGAGG TGAAGTCAAT GCTCAATCCA ACACTTCAGC CACAAATGGG
    CTTGTTAACA GCTCCATTTC CCAGAATGTA GGTACCTTCT CTGGACCTGT TGAGGAGCAG
    GAACAACCTT TGGATTTCTC TAGCAAATCT CAGAAAACAA TGCCTTCAGT CGTTAAAATT
    GAAGGAGCAG CATCTCCTCT GTTAAATGAC TGTTCTATGG AGCCCATTGA CCTCTCAATA
    CCCAAGGATC CAGAGAAGAA GAAAATGAGG AAAGAAGTTC CCCAGAATTA TCAAGAGCTC
    AATAAAGAAA AGACTTCAGA AACAGCCCCT GGACTTCTCG CAGCTATTCC GGTCTCCATT
    CCTAGCCTAG CCTCAGTTCT ATCCAGTGAC ATTACTAAGC CTTATACTCG CTTAAAGCCC
    CTGCTACCAA AACCATCTTC TGCTTCTAGT ACTGCGGAAA TGGCACCACT GGCCTCTATT
    GCTCAGATTA TCTCATCTGT TTCAGCTACC CCAGTGCTTA TCGAAACAGG AATGGATGCA
    AAAAACTGTA TTAGTGCAGT GGATTTTAAA ACACTAAGTG AAAACAAGAG TCCCATAGGC
    ACCACTAAAC TGGATTCCGT GCTGAATGGG TCTCCTGATA ACTCAAAGAA AAGAGGCAAG
    AAGAGAGTGT TTCAGGAGGA GATCTGTGAT TCGAGAATAG CTGTGGGCAG TGGGATTGAC
    CTGGAGTCAA GTGGCGAGTT TCCCAGTGTA GAGAAAATGT TGGCTACTAC TGATGCAAAT
    AAGTTCAGTC CCTACCTGCA ACCCAATCAG ATGGAGCCAA TGATGGAGGA AAAAGAGAAG
    CAGTCAGCTG ACGAGGAGGT GAAGGAAATA CGAGAAGACA AACCAAAGAA ACCTCCACAG
    AACAAAGGAA AGAAAAATGC TTATTCCAAT TCAGTGCAGA AAATGACCTG CCCCTACTGC
    CCTCGATTGT TCCCGTGGGC CAGCTCATTG CAAAGGCATA TGCTAACACA CACAGGTCAG
    AAGCCGTACC CTTGTCCTCA GTGTGACTCG TTCTTCTCCA CCAAGTCAAA CTGTGAGCGA
    CACCTGCTTC GCAAACATGG AGTCTCGAAT CGGGCACTTC AAAACAGTGG ATCTCGACTC
    AAACCTAAGA CAGATGAAGA ATCCTTAGGA AGCACAGAAA GTGTATGCGA CACTGAACAT
    CCTGTAGCCG AAGGTACTAT GGATCTGAGC TCTGTCAACA CCAAACAAGA AGAATCTCCA
    GAAGCGCCAG AACGAACAGG ACAATCAGCC CCTGAACAAG CAGACAGCAG CACGGATCCA
    AACCAAACTC AGCCAGCTGA GGAAAATCCT GAGATGGTGG AAAAAGATGA TGATGATGAT
    GATGATGATT CTCAAAGCAG CATGAGTCAT GAAATGAGCC TTGTCAGCAA TCTTGTTGTA
    GATGTCCAGC TTTCTGGAGA GGAGCAGCAC CAGTCTAAAT CAGCCCCTGA AGTGGTTTCC
    CCTCCAGATG AGTTCCCACA CACATGTGCC TCCTGTAAGA AGACCTTTCG TCATGCAGCC
    ACTCTGAGCC GACACCAGAA AACCCACCTT CAGGAGGTCC AGCCAGAGGA TGGAGCCAAG
    AAGGGAAGAC GCCAAGCTCC TCCACAAAAT CCAATTCCAG TACCAAGTAA AGAGATGGAG
    CAGGACGCAA AGTCAGAAGA TGATGAAAAG GAGGAGAACA GCAGCTGTGT GGAAAGTGGT
    GTTGATGAGG AAGAGAAGGA GAGGGAAGAT ATGAGTGAAG ATGAAGAAGA GACTCCTTCC
    TCAGAGCTCC AGGCCTTAGA AGAGGAGGGC AACTCAACCA GAGGCAAAGC AGATAAGAGG
    AAGAAGATCT GCACCGTGTG CAGCAAACGC TTCTGGAGCC TGCAAGACTT GACTAGACAC
    ATGCGCTCAC ATACTGGTGA GCGACCTTAT AAGTGCCAAA CCTGTCATCG TACCTTCACC
    CTGAAGCACA GTCTGGTACG GCACCAACGC GTCCACCAGA AACCATCGGA TGAAAAAGGG
    AGCGATGACG CAGAAATGAA CGAAGAAACA GATGGAGCAA AAGATGAAGC TGGAGTGCTG
    GAGGAGAAAG AGTTCAATGA AGCTGTTCAG AGTGAGGCTG AACACAAAGA GGAAGAGATT
    GGCGGACGCA TGGAGGAAGA CGATGCCAAG CAGCTTCCTG AAGAAACATC CATGGGGGTG
    AATTCTGCCG AAGAAGCTCT GCCGGATGAG GACGAACAGG AAGAACAACA AACCGAGGAA
    CCGTCAGAAG AGGCCCGATC AGGCTGTGAC CCAGAACCTG CAAAAACCAG CAACCACAGC
    TGTACAGTGG CTCAGGAAGA CACAGAGATG CCCGCTCAGT GA

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

    RefSeq XP_683385.6
    CDS493..5514
    Translation

    Target ORF information:

    RefSeq Version XM_678293.8
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio ras responsive element binding protein 1b (rreb1b), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_678293.8

    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
    ATGGAAATGG AAAGTGCCTC CCCTGAAAAG ACTATCAGCA ATGGTGTTGG AGCTGCTGAT 
    GGGAATGAAC AGTCTCATTT GTCAGAAGAG GCTGTGAACA GTCAGTCGTC CACTTGTACA
    CCAGAACCTG TTGAAGAAGC AGACTTTGAT GAAACAGACA AAGCAGCAGA TGAAGATGAA
    GTTGGCGTAA GAACAGAGGA GGAACTGACC TCCATCAACT CCATGATGAG CACTGTGATG
    AATGTGGGCC AGATCAATGG AGTCGATTCT GAGACCCCCA AAACATCTCC CAGAAACACC
    AACAAATCAC CCTCTGCTGG ACGCACTGGG AGACGGAATC AGGAAGTCAA AGATGAACGT
    TCCAGCTTCA TTTGCCCCCT GTGTGACAAA AACTGCATGA CGCAGCACCA GCTCACCATG
    CACATCAGAC AGCACAACAC GGACAGTGGT GGCACTGACC ACTCGTGCAG TATTTGCGGA
    AAGGCTTTGA GTTCGGCCAG CTCTCTGGAC CGACACATGC TGGTTCACAG CGGAGAAAGA
    CCATACAAGT GCTCGGTCTG CGGTCAGACA TTCACCACCA ATGGAAACAT GCACAGGCAC
    ATGAAAATTC ATGAAAAGGA TTCAAGCGGT ATTCCTACCC CCAGTTCTTC CCCACTAAAC
    AAGCGCAGAC GACTCTCCAG CAAGAGGAAA CCCAGTGTGG AGGATGAAGG AGAGCAGGCT
    GAGGAGCCAC CAGTTAAAAA GGTGACTTTG ATCCAGAAGC TTAAGGAGGA TAATTCTGTG
    AAGAGTGAAG AAGAGGTATT TCACTGCCCC ATCTGCTTTA AGACATTCAT CTGTAAAAAT
    GACCTGGAAG CACACATGGA GACACATCCT GACACTACGC TCAGGTGCAA CATTTGTTGC
    ATTACCTTTC GCAAACACCG TGGTCTCCTG CGTCATAATG CTGCCATTCA TAAACAGCTT
    CCAACTGACC CCTCTGGGCG ACCTTTTATA CAGAACAACC CCTCCATCCC ACTGGGATTT
    GGCGATTTAG CTTTCATCGA CTTCAGCTGT CAAAAGTTTC CACAAATTGC ACAGGTCTGG
    TGTGAGACTA ACCTGCGCCG ATGCTCTAGC AAGTTCCATA AGTTTGTTTG TGAGGACTGC
    AACAAGGCCT TCCCTATTCA GCAATCTCTG GATCTTCACA AGTCTTCACA TAACTGTAGT
    GTAGACACCA GCACTGATCC TCAGGAACAT AAAGCAGATG CTGTTATAGA CGCCCCAAAA
    GTAAACTCCC ATTCCGAGGA TTCCAAGGAG GTCAGTGAAC TAGCACCACA CGTTGACACT
    ACTAGTTCAG ATGGGAAGAA TGGTTTCATG GAGCGCCTGG GTCTCCAGCA CTCCTCCTTG
    GCCAAGCTAG AGAAATCAGA AGAGCAGATT CAGCAGGAGG TTTTAGACAG CATTCGATTC
    ATTCGCGTTG AGCCACCATC AACAAATCTA CCTCAAGAAA CCAGCGGCAG TCTTGGTGTC
    TCAATCCTTG AGCCTGTCTC TCTTCAAGCA ATGAACAAGA ACACAGCCCT TGGCCTTCTA
    TCGCTACAGC CACTACATGC TGTGGTCAGT AATGGCATGT TTGTCCCAAT AAGCGGTCAA
    ACCGCTGTAG AGCTGGCGGA TATTGAACAA ATCCTTAAAA TCGCAACCTC TGTACCACCT
    CAGATGTCTT TGTCTATGCT TCCCAAAAGT CTGGGTAGTC CTCTTCAAGT GGACCCCAGA
    CAGATTTCTT CTTTAAAACC CAAGTCCTTA ATCACTCCCC GATCCAGCAT GGGTGCCTCC
    ACACCACCTC CACCTGTCAT GAATGCCCAA CAGGCCTCAT CCGGCAACAT CAGTCCTAGC
    CTTCCACCCC AAACAGGCCA ACAAGTGAGA ACTGCCAGAC AGTCTTCAGC CTCATCCTCA
    TCCTCAACTT CCTCCTCTCC CACCAATTGG GAAACTACTC AACTGGGATC TGATGTCATA
    GGAAACACGA TTATCTCATA TGAAACTGGA AAGCAGGAAG AGTTTGACAG CAAAGAGAAG
    GACATGAGAG TTGTCCCCAA AAAGACAGCT AAGACTGAAT ACCCTTGTCG GTTCTGCAAA
    GAAGTATTCT CTTTCTTAGG TGGCCTCCAG GCACATATGC GTCACCATTT GGGAGCATCC
    CCATATCAGT GCACCATTTG TAGCTACGCT GCTCCTGACA AAGCGACACT GATTCGACAT
    CTCAGAACAC ACAGTGGTGA GCGGCCATAC GTCTGTCGCC TCTGTCACTA CCCTTTCACT
    GTGAAAGCCA ACTGCGAGCG CCATTTGCGC AAGAAGCACA TGAAGAACAC ACGCAAGGAC
    ATCGAGAAAA ACATTGAATA TGTAACCACC TCCTCGAGCA TAAGCAGTGT AATTGGAGGC
    ACCACACTAG ACCTCCTTGA TACAACCAAC GCTGGCAACA CATCTTGTCG ATATTGTGGG
    GAGGACCTTA AGAACTACCG GGCCCTTCAG ATTCACCTGC GAACTCACAA TGGATGTCAA
    AAGAAACCAT TTGAGTGCAG GCAATGTGGG GCGACATTTC TCGCTAAAAG GAACTGTATT
    CACCATTTGC TGAAACACCA CCCAGATGTG CCAGAAAGGG AAATTGAGGA GCACATCAAA
    AGTCTTGTAC CAGTTGGAGG TGAAGTCAAT GCTCAATCCA ACACTTCAGC CACAAATGGG
    CTTGTTAACA GCTCCATTTC CCAGAATGTA GGTACCTTCT CTGGACCTGT TGAGGAGCAG
    GAACAACCTT TGGATTTCTC TAGCAAATCT CAGAAAACAA TGCCTTCAGT CGTTAAAATT
    GAAGGAGCAG CATCTCCTCT GTTAAATGAC TGTTCTATGG AGCCCATTGA CCTCTCAATA
    CCCAAGGATC CAGAGAAGAA GAAAATGAGG AAAGAAGTTC CCCAGAATTA TCAAGAGCTC
    AATAAAGAAA AGACTTCAGA AACAGCCCCT GGACTTCTCG CAGCTATTCC GGTCTCCATT
    CCTAGCCTAG CCTCAGTTCT ATCCAGTGAC ATTACTAAGC CTTATACTCG CTTAAAGCCC
    CTGCTACCAA AACCATCTTC TGCTTCTAGT ACTGCGGAAA TGGCACCACT GGCCTCTATT
    GCTCAGATTA TCTCATCTGT TTCAGCTACC CCAGTGCTTA TCGAAACAGG AATGGATGCA
    AAAAACTGTA TTAGTGCAGT GGATTTTAAA ACACTAAGTG AAAACAAGAG TCCCATAGGC
    ACCACTAAAC TGGATTCCGT GCTGAATGGG TCTCCTGATA ACTCAAAGAA AAGAGGCAAG
    AAGAGAGTGT TTCAGGAGGA GATCTGTGAT TCGAGAATAG CTGTGGGCAG TGGGATTGAC
    CTGGAGTCAA GTGGCGAGTT TCCCAGTGTA GAGAAAATGT TGGCTACTAC TGATGCAAAT
    AAGTTCAGTC CCTACCTGCA ACCCAATCAG ATGGAGCCAA TGATGGAGGA AAAAGAGAAG
    CAGTCAGCTG ACGAGGAGGT GAAGGAAATA CGAGAAGACA AACCAAAGAA ACCTCCACAG
    AACAAAGGAA AGAAAAATGC TTATTCCAAT TCAGTGCAGA AAATGACCTG CCCCTACTGC
    CCTCGATTGT TCCCGTGGGC CAGCTCATTG CAAAGGCATA TGCTAACACA CACAGGTCAG
    AAGCCGTACC CTTGTCCTCA GTGTGACTCG TTCTTCTCCA CCAAGTCAAA CTGTGAGCGA
    CACCTGCTTC GCAAACATGG AGTCTCGAAT CGGGCACTTC AAAACAGTGG ATCTCGACTC
    AAACCTAAGA CAGATGAAGA ATCCTTAGGA AGCACAGAAA GTGTATGCGA CACTGAACAT
    CCTGTAGCCG AAGGTACTAT GGATCTGAGC TCTGTCAACA CCAAACAAGA AGAATCTCCA
    GAAGCGCCAG AACGAACAGG ACAATCAGCC CCTGAACAAG CAGACAGCAG CACGGATCCA
    AACCAAACTC AGCCAGCTGA GGAAAATCCT GAGATGGTGG AAAAAGATGA TGATGATGAT
    GATGATGATT CTCAAAGCAG CATGAGTCAT GAAATGAGCC TTGTCAGCAA TCTTGTTGTA
    GATGTCCAGC TTTCTGGAGA GGAGCAGCAC CAGTCTAAAT CAGCCCCTGA AGTGGTTTCC
    CCTCCAGATG AGTTCCCACA CACATGTGCC TCCTGTAAGA AGACCTTTCG TCATGCAGCC
    ACTCTGAGCC GACACCAGAA AACCCACCTT CAGGAGGTCC AGCCAGAGGA TGGAGCCAAG
    AAGGGAAGAC GCCAAGCTCC TCCACAAAAT CCAATTCCAG TACCAAGTAA AGAGATGGAG
    CAGGACGCAA AGTCAGAAGA TGATGAAAAG GAGGAGAACA GCAGCTGTGT GGAAAGTGGT
    GTTGATGAGG AAGAGAAGGA GAGGGAAGAT ATGAGTGAAG ATGAAGAAGA GACTCCTTCC
    TCAGAGCTCC AGGCCTTAGA AGAGGAGGGC AACTCAACCA GAGGCAAAGC AGATAAGAGG
    AAGAAGATCT GCACCGTGTG CAGCAAACGC TTCTGGAGCC TGCAAGACTT GACTAGACAC
    ATGCGCTCAC ATACTGGTGA GCGACCTTAT AAGTGCCAAA CCTGTCATCG TACCTTCACC
    CTGAAGCACA GTCTGGTACG GCACCAACGC GTCCACCAGA AACCATCGGA TGAAAAAGGG
    AGCGATGACG CAGAAATGAA CGAAGAAACA GATGGAGCAA AAGATGAAGC TGGAGTGCTG
    GAGGAGAAAG AGTTCAATGA AGCTGTTCAG AGTGAGGCTG AACACAAAGA GGAAGAGATT
    GGCGGACGCA TGGAGGAAGA CGATGCCAAG CAGCTTCCTG AAGAAACATC CATGGGGGTG
    AATTCTGCCG AAGAAGCTCT GCCGGATGAG GACGAACAGG AAGAACAACA AACCGAGGAA
    CCGTCAGAAG AGGCCCGATC AGGCTGTGAC CCAGAACCTG CAAAAACCAG CAACCACAGC
    TGTACAGTGG CTCAGGAAGA CACAGAGATG CCCGCTCAGT GA

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

    CloneID ODa06922
    Clone ID Related Accession (Same CDS sequence) XM_005163366.4 , XM_005163366.3
    Accession Version XM_005163366.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5019bp)
    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_007113.7) 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_005163366.3. ##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
    ATGGAAATGG AAAGTGCCTC CCCTGAAAAG ACTATCAGCA ATGGTGTTGG AGCTGCTGAT 
    GGGAATGAAC AGTCTCATTT GTCAGAAGAG GCTGTGAACA GTCAGTCGTC CACTTGTACA
    CCAGAACCTG TTGAAGCAGA CTTTGATGAA ACAGACAAAG CAGCAGATGA AGATGAAGTT
    GGCGTAAGAA CAGAGGAGGA ACTGACCTCC ATCAACTCCA TGATGAGCAC TGTGATGAAT
    GTGGGCCAGA TCAATGGAGT CGATTCTGAG ACCCCCAAAA CATCTCCCAG AAACACCAAC
    AAATCACCCT CTGCTGGACG CACTGGGAGA CGGAATCAGG AAGTCAAAGA TGAACGTTCC
    AGCTTCATTT GCCCCCTGTG TGACAAAAAC TGCATGACGC AGCACCAGCT CACCATGCAC
    ATCAGACAGC ACAACACGGA CAGTGGTGGC ACTGACCACT CGTGCAGTAT TTGCGGAAAG
    GCTTTGAGTT CGGCCAGCTC TCTGGACCGA CACATGCTGG TTCACAGCGG AGAAAGACCA
    TACAAGTGCT CGGTCTGCGG TCAGACATTC ACCACCAATG GAAACATGCA CAGGCACATG
    AAAATTCATG AAAAGGATTC AAGCGGTATT CCTACCCCCA GTTCTTCCCC ACTAAACAAG
    CGCAGACGAC TCTCCAGCAA GAGGAAACCC AGTGTGGAGG ATGAAGGAGA GCAGGCTGAG
    GAGCCACCAG TTAAAAAGGT GACTTTGATC CAGAAGCTTA AGGAGGATAA TTCTGTGAAG
    AGTGAAGAAG AGGTATTTCA CTGCCCCATC TGCTTTAAGA CATTCATCTG TAAAAATGAC
    CTGGAAGCAC ACATGGAGAC ACATCCTGAC ACTACGCTCA GGTGCAACAT TTGTTGCATT
    ACCTTTCGCA AACACCGTGG TCTCCTGCGT CATAATGCTG CCATTCATAA ACAGCTTCCA
    ACTGACCCCT CTGGGCGACC TTTTATACAG AACAACCCCT CCATCCCACT GGGATTTGGC
    GATTTAGCTT TCATCGACTT CAGCTGTCAA AAGTTTCCAC AAATTGCACA GGTCTGGTGT
    GAGACTAACC TGCGCCGATG CTCTAGCAAG TTCCATAAGT TTGTTTGTGA GGACTGCAAC
    AAGGCCTTCC CTATTCAGCA ATCTCTGGAT CTTCACAAGT CTTCACATAA CTGTAGTGTA
    GACACCAGCA CTGATCCTCA GGAACATAAA GCAGATGCTG TTATAGACGC CCCAAAAGTA
    AACTCCCATT CCGAGGATTC CAAGGAGGTC AGTGAACTAG CACCACACGT TGACACTACT
    AGTTCAGATG GGAAGAATGG TTTCATGGAG CGCCTGGGTC TCCAGCACTC CTCCTTGGCC
    AAGCTAGAGA AATCAGAAGA GCAGATTCAG CAGGAGGTTT TAGACAGCAT TCGATTCATT
    CGCGTTGAGC CACCATCAAC AAATCTACCT CAAGAAACCA GCGGCAGTCT TGGTGTCTCA
    ATCCTTGAGC CTGTCTCTCT TCAAGCAATG AACAAGAACA CAGCCCTTGG CCTTCTATCG
    CTACAGCCAC TACATGCTGT GGTCAGTAAT GGCATGTTTG TCCCAATAAG CGGTCAAACC
    GCTGTAGAGC TGGCGGATAT TGAACAAATC CTTAAAATCG CAACCTCTGT ACCACCTCAG
    ATGTCTTTGT CTATGCTTCC CAAAAGTCTG GGTAGTCCTC TTCAAGTGGA CCCCAGACAG
    ATTTCTTCTT TAAAACCCAA GTCCTTAATC ACTCCCCGAT CCAGCATGGG TGCCTCCACA
    CCACCTCCAC CTGTCATGAA TGCCCAACAG GCCTCATCCG GCAACATCAG TCCTAGCCTT
    CCACCCCAAA CAGGCCAACA AGTGAGAACT GCCAGACAGT CTTCAGCCTC ATCCTCATCC
    TCAACTTCCT CCTCTCCCAC CAATTGGGAA ACTACTCAAC TGGGATCTGA TGTCATAGGA
    AACACGATTA TCTCATATGA AACTGGAAAG CAGGAAGAGT TTGACAGCAA AGAGAAGGAC
    ATGAGAGTTG TCCCCAAAAA GACAGCTAAG ACTGAATACC CTTGTCGGTT CTGCAAAGAA
    GTATTCTCTT TCTTAGGTGG CCTCCAGGCA CATATGCGTC ACCATTTGGG AGCATCCCCA
    TATCAGTGCA CCATTTGTAG CTACGCTGCT CCTGACAAAG CGACACTGAT TCGACATCTC
    AGAACACACA GTGGTGAGCG GCCATACGTC TGTCGCCTCT GTCACTACCC TTTCACTGTG
    AAAGCCAACT GCGAGCGCCA TTTGCGCAAG AAGCACATGA AGAACACACG CAAGGACATC
    GAGAAAAACA TTGAATATGT AACCACCTCC TCGAGCATAA GCAGTGTAAT TGGAGGCACC
    ACACTAGACC TCCTTGATAC AACCAACGCT GGCAACACAT CTTGTCGATA TTGTGGGGAG
    GACCTTAAGA ACTACCGGGC CCTTCAGATT CACCTGCGAA CTCACAATGG ATGTCAAAAG
    AAACCATTTG AGTGCAGGCA ATGTGGGGCG ACATTTCTCG CTAAAAGGAA CTGTATTCAC
    CATTTGCTGA AACACCACCC AGATGTGCCA GAAAGGGAAA TTGAGGAGCA CATCAAAAGT
    CTTGTACCAG TTGGAGGTGA AGTCAATGCT CAATCCAACA CTTCAGCCAC AAATGGGCTT
    GTTAACAGCT CCATTTCCCA GAATGTAGGT ACCTTCTCTG GACCTGTTGA GGAGCAGGAA
    CAACCTTTGG ATTTCTCTAG CAAATCTCAG AAAACAATGC CTTCAGTCGT TAAAATTGAA
    GGAGCAGCAT CTCCTCTGTT AAATGACTGT TCTATGGAGC CCATTGACCT CTCAATACCC
    AAGGATCCAG AGAAGAAGAA AATGAGGAAA GAAGTTCCCC AGAATTATCA AGAGCTCAAT
    AAAGAAAAGA CTTCAGAAAC AGCCCCTGGA CTTCTCGCAG CTATTCCGGT CTCCATTCCT
    AGCCTAGCCT CAGTTCTATC CAGTGACATT ACTAAGCCTT ATACTCGCTT AAAGCCCCTG
    CTACCAAAAC CATCTTCTGC TTCTAGTACT GCGGAAATGG CACCACTGGC CTCTATTGCT
    CAGATTATCT CATCTGTTTC AGCTACCCCA GTGCTTATCG AAACAGGAAT GGATGCAAAA
    AACTGTATTA GTGCAGTGGA TTTTAAAACA CTAAGTGAAA ACAAGAGTCC CATAGGCACC
    ACTAAACTGG ATTCCGTGCT GAATGGGTCT CCTGATAACT CAAAGAAAAG AGGCAAGAAG
    AGAGTGTTTC AGGAGGAGAT CTGTGATTCG AGAATAGCTG TGGGCAGTGG GATTGACCTG
    GAGTCAAGTG GCGAGTTTCC CAGTGTAGAG AAAATGTTGG CTACTACTGA TGCAAATAAG
    TTCAGTCCCT ACCTGCAACC CAATCAGATG GAGCCAATGA TGGAGGAAAA AGAGAAGCAG
    TCAGCTGACG AGGAGGTGAA GGAAATACGA GAAGACAAAC CAAAGAAACC TCCACAGAAC
    AAAGGAAAGA AAAATGCTTA TTCCAATTCA GTGCAGAAAA TGACCTGCCC CTACTGCCCT
    CGATTGTTCC CGTGGGCCAG CTCATTGCAA AGGCATATGC TAACACACAC AGGTCAGAAG
    CCGTACCCTT GTCCTCAGTG TGACTCGTTC TTCTCCACCA AGTCAAACTG TGAGCGACAC
    CTGCTTCGCA AACATGGAGT CTCGAATCGG GCACTTCAAA ACAGTGGATC TCGACTCAAA
    CCTAAGACAG ATGAAGAATC CTTAGGAAGC ACAGAAAGTG TATGCGACAC TGAACATCCT
    GTAGCCGAAG GTACTATGGA TCTGAGCTCT GTCAACACCA AACAAGAAGA ATCTCCAGAA
    GCGCCAGAAC GAACAGGACA ATCAGCCCCT GAACAAGCAG ACAGCAGCAC GGATCCAAAC
    CAAACTCAGC CAGCTGAGGA AAATCCTGAG ATGGTGGAAA AAGATGATGA TGATGATGAT
    GATGATTCTC AAAGCAGCAT GAGTCATGAA ATGAGCCTTG TCAGCAATCT TGTTGTAGAT
    GTCCAGCTTT CTGGAGAGGA GCAGCACCAG TCTAAATCAG CCCCTGAAGT GGTTTCCCCT
    CCAGATGAGT TCCCACACAC ATGTGCCTCC TGTAAGAAGA CCTTTCGTCA TGCAGCCACT
    CTGAGCCGAC ACCAGAAAAC CCACCTTCAG GAGGTCCAGC CAGAGGATGG AGCCAAGAAG
    GGAAGACGCC AAGCTCCTCC ACAAAATCCA ATTCCAGTAC CAAGTAAAGA GATGGAGCAG
    GACGCAAAGT CAGAAGATGA TGAAAAGGAG GAGAACAGCA GCTGTGTGGA AAGTGGTGTT
    GATGAGGAAG AGAAGGAGAG GGAAGATATG AGTGAAGATG AAGAAGAGAC TCCTTCCTCA
    GAGCTCCAGG CCTTAGAAGA GGAGGGCAAC TCAACCAGAG GCAAAGCAGA TAAGAGGAAG
    AAGATCTGCA CCGTGTGCAG CAAACGCTTC TGGAGCCTGC AAGACTTGAC TAGACACATG
    CGCTCACATA CTGGTGAGCG ACCTTATAAG TGCCAAACCT GTCATCGTAC CTTCACCCTG
    AAGCACAGTC TGGTACGGCA CCAACGCGTC CACCAGAAAC CATCGGATGA AAAAGGGAGC
    GATGACGCAG AAATGAACGA AGAAACAGAT GGAGCAAAAG ATGAAGCTGG AGTGCTGGAG
    GAGAAAGAGT TCAATGAAGC TGTTCAGAGT GAGGCTGAAC ACAAAGAGGA AGAGATTGGC
    GGACGCATGG AGGAAGACGA TGCCAAGCAG CTTCCTGAAG AAACATCCAT GGGGGTGAAT
    TCTGCCGAAG AAGCTCTGCC GGATGAGGAC GAACAGGAAG AACAACAAAC CGAGGAACCG
    TCAGAAGAGG CCCGATCAGG CTGTGACCCA GAACCTGCAA AAACCAGCAA CCACAGCTGT
    ACAGTGGCTC AGGAAGACAC AGAGATGCCC GCTCAGTGA

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

    RefSeq XP_005163423.1
    CDS525..5543
    Translation

    Target ORF information:

    RefSeq Version XM_005163366.4
    Organism Danio rerio(zebrafish)
    Definition Danio rerio ras responsive element binding protein 1b (rreb1b), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005163366.4

    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
    ATGGAAATGG AAAGTGCCTC CCCTGAAAAG ACTATCAGCA ATGGTGTTGG AGCTGCTGAT 
    GGGAATGAAC AGTCTCATTT GTCAGAAGAG GCTGTGAACA GTCAGTCGTC CACTTGTACA
    CCAGAACCTG TTGAAGCAGA CTTTGATGAA ACAGACAAAG CAGCAGATGA AGATGAAGTT
    GGCGTAAGAA CAGAGGAGGA ACTGACCTCC ATCAACTCCA TGATGAGCAC TGTGATGAAT
    GTGGGCCAGA TCAATGGAGT CGATTCTGAG ACCCCCAAAA CATCTCCCAG AAACACCAAC
    AAATCACCCT CTGCTGGACG CACTGGGAGA CGGAATCAGG AAGTCAAAGA TGAACGTTCC
    AGCTTCATTT GCCCCCTGTG TGACAAAAAC TGCATGACGC AGCACCAGCT CACCATGCAC
    ATCAGACAGC ACAACACGGA CAGTGGTGGC ACTGACCACT CGTGCAGTAT TTGCGGAAAG
    GCTTTGAGTT CGGCCAGCTC TCTGGACCGA CACATGCTGG TTCACAGCGG AGAAAGACCA
    TACAAGTGCT CGGTCTGCGG TCAGACATTC ACCACCAATG GAAACATGCA CAGGCACATG
    AAAATTCATG AAAAGGATTC AAGCGGTATT CCTACCCCCA GTTCTTCCCC ACTAAACAAG
    CGCAGACGAC TCTCCAGCAA GAGGAAACCC AGTGTGGAGG ATGAAGGAGA GCAGGCTGAG
    GAGCCACCAG TTAAAAAGGT GACTTTGATC CAGAAGCTTA AGGAGGATAA TTCTGTGAAG
    AGTGAAGAAG AGGTATTTCA CTGCCCCATC TGCTTTAAGA CATTCATCTG TAAAAATGAC
    CTGGAAGCAC ACATGGAGAC ACATCCTGAC ACTACGCTCA GGTGCAACAT TTGTTGCATT
    ACCTTTCGCA AACACCGTGG TCTCCTGCGT CATAATGCTG CCATTCATAA ACAGCTTCCA
    ACTGACCCCT CTGGGCGACC TTTTATACAG AACAACCCCT CCATCCCACT GGGATTTGGC
    GATTTAGCTT TCATCGACTT CAGCTGTCAA AAGTTTCCAC AAATTGCACA GGTCTGGTGT
    GAGACTAACC TGCGCCGATG CTCTAGCAAG TTCCATAAGT TTGTTTGTGA GGACTGCAAC
    AAGGCCTTCC CTATTCAGCA ATCTCTGGAT CTTCACAAGT CTTCACATAA CTGTAGTGTA
    GACACCAGCA CTGATCCTCA GGAACATAAA GCAGATGCTG TTATAGACGC CCCAAAAGTA
    AACTCCCATT CCGAGGATTC CAAGGAGGTC AGTGAACTAG CACCACACGT TGACACTACT
    AGTTCAGATG GGAAGAATGG TTTCATGGAG CGCCTGGGTC TCCAGCACTC CTCCTTGGCC
    AAGCTAGAGA AATCAGAAGA GCAGATTCAG CAGGAGGTTT TAGACAGCAT TCGATTCATT
    CGCGTTGAGC CACCATCAAC AAATCTACCT CAAGAAACCA GCGGCAGTCT TGGTGTCTCA
    ATCCTTGAGC CTGTCTCTCT TCAAGCAATG AACAAGAACA CAGCCCTTGG CCTTCTATCG
    CTACAGCCAC TACATGCTGT GGTCAGTAAT GGCATGTTTG TCCCAATAAG CGGTCAAACC
    GCTGTAGAGC TGGCGGATAT TGAACAAATC CTTAAAATCG CAACCTCTGT ACCACCTCAG
    ATGTCTTTGT CTATGCTTCC CAAAAGTCTG GGTAGTCCTC TTCAAGTGGA CCCCAGACAG
    ATTTCTTCTT TAAAACCCAA GTCCTTAATC ACTCCCCGAT CCAGCATGGG TGCCTCCACA
    CCACCTCCAC CTGTCATGAA TGCCCAACAG GCCTCATCCG GCAACATCAG TCCTAGCCTT
    CCACCCCAAA CAGGCCAACA AGTGAGAACT GCCAGACAGT CTTCAGCCTC ATCCTCATCC
    TCAACTTCCT CCTCTCCCAC CAATTGGGAA ACTACTCAAC TGGGATCTGA TGTCATAGGA
    AACACGATTA TCTCATATGA AACTGGAAAG CAGGAAGAGT TTGACAGCAA AGAGAAGGAC
    ATGAGAGTTG TCCCCAAAAA GACAGCTAAG ACTGAATACC CTTGTCGGTT CTGCAAAGAA
    GTATTCTCTT TCTTAGGTGG CCTCCAGGCA CATATGCGTC ACCATTTGGG AGCATCCCCA
    TATCAGTGCA CCATTTGTAG CTACGCTGCT CCTGACAAAG CGACACTGAT TCGACATCTC
    AGAACACACA GTGGTGAGCG GCCATACGTC TGTCGCCTCT GTCACTACCC TTTCACTGTG
    AAAGCCAACT GCGAGCGCCA TTTGCGCAAG AAGCACATGA AGAACACACG CAAGGACATC
    GAGAAAAACA TTGAATATGT AACCACCTCC TCGAGCATAA GCAGTGTAAT TGGAGGCACC
    ACACTAGACC TCCTTGATAC AACCAACGCT GGCAACACAT CTTGTCGATA TTGTGGGGAG
    GACCTTAAGA ACTACCGGGC CCTTCAGATT CACCTGCGAA CTCACAATGG ATGTCAAAAG
    AAACCATTTG AGTGCAGGCA ATGTGGGGCG ACATTTCTCG CTAAAAGGAA CTGTATTCAC
    CATTTGCTGA AACACCACCC AGATGTGCCA GAAAGGGAAA TTGAGGAGCA CATCAAAAGT
    CTTGTACCAG TTGGAGGTGA AGTCAATGCT CAATCCAACA CTTCAGCCAC AAATGGGCTT
    GTTAACAGCT CCATTTCCCA GAATGTAGGT ACCTTCTCTG GACCTGTTGA GGAGCAGGAA
    CAACCTTTGG ATTTCTCTAG CAAATCTCAG AAAACAATGC CTTCAGTCGT TAAAATTGAA
    GGAGCAGCAT CTCCTCTGTT AAATGACTGT TCTATGGAGC CCATTGACCT CTCAATACCC
    AAGGATCCAG AGAAGAAGAA AATGAGGAAA GAAGTTCCCC AGAATTATCA AGAGCTCAAT
    AAAGAAAAGA CTTCAGAAAC AGCCCCTGGA CTTCTCGCAG CTATTCCGGT CTCCATTCCT
    AGCCTAGCCT CAGTTCTATC CAGTGACATT ACTAAGCCTT ATACTCGCTT AAAGCCCCTG
    CTACCAAAAC CATCTTCTGC TTCTAGTACT GCGGAAATGG CACCACTGGC CTCTATTGCT
    CAGATTATCT CATCTGTTTC AGCTACCCCA GTGCTTATCG AAACAGGAAT GGATGCAAAA
    AACTGTATTA GTGCAGTGGA TTTTAAAACA CTAAGTGAAA ACAAGAGTCC CATAGGCACC
    ACTAAACTGG ATTCCGTGCT GAATGGGTCT CCTGATAACT CAAAGAAAAG AGGCAAGAAG
    AGAGTGTTTC AGGAGGAGAT CTGTGATTCG AGAATAGCTG TGGGCAGTGG GATTGACCTG
    GAGTCAAGTG GCGAGTTTCC CAGTGTAGAG AAAATGTTGG CTACTACTGA TGCAAATAAG
    TTCAGTCCCT ACCTGCAACC CAATCAGATG GAGCCAATGA TGGAGGAAAA AGAGAAGCAG
    TCAGCTGACG AGGAGGTGAA GGAAATACGA GAAGACAAAC CAAAGAAACC TCCACAGAAC
    AAAGGAAAGA AAAATGCTTA TTCCAATTCA GTGCAGAAAA TGACCTGCCC CTACTGCCCT
    CGATTGTTCC CGTGGGCCAG CTCATTGCAA AGGCATATGC TAACACACAC AGGTCAGAAG
    CCGTACCCTT GTCCTCAGTG TGACTCGTTC TTCTCCACCA AGTCAAACTG TGAGCGACAC
    CTGCTTCGCA AACATGGAGT CTCGAATCGG GCACTTCAAA ACAGTGGATC TCGACTCAAA
    CCTAAGACAG ATGAAGAATC CTTAGGAAGC ACAGAAAGTG TATGCGACAC TGAACATCCT
    GTAGCCGAAG GTACTATGGA TCTGAGCTCT GTCAACACCA AACAAGAAGA ATCTCCAGAA
    GCGCCAGAAC GAACAGGACA ATCAGCCCCT GAACAAGCAG ACAGCAGCAC GGATCCAAAC
    CAAACTCAGC CAGCTGAGGA AAATCCTGAG ATGGTGGAAA AAGATGATGA TGATGATGAT
    GATGATTCTC AAAGCAGCAT GAGTCATGAA ATGAGCCTTG TCAGCAATCT TGTTGTAGAT
    GTCCAGCTTT CTGGAGAGGA GCAGCACCAG TCTAAATCAG CCCCTGAAGT GGTTTCCCCT
    CCAGATGAGT TCCCACACAC ATGTGCCTCC TGTAAGAAGA CCTTTCGTCA TGCAGCCACT
    CTGAGCCGAC ACCAGAAAAC CCACCTTCAG GAGGTCCAGC CAGAGGATGG AGCCAAGAAG
    GGAAGACGCC AAGCTCCTCC ACAAAATCCA ATTCCAGTAC CAAGTAAAGA GATGGAGCAG
    GACGCAAAGT CAGAAGATGA TGAAAAGGAG GAGAACAGCA GCTGTGTGGA AAGTGGTGTT
    GATGAGGAAG AGAAGGAGAG GGAAGATATG AGTGAAGATG AAGAAGAGAC TCCTTCCTCA
    GAGCTCCAGG CCTTAGAAGA GGAGGGCAAC TCAACCAGAG GCAAAGCAGA TAAGAGGAAG
    AAGATCTGCA CCGTGTGCAG CAAACGCTTC TGGAGCCTGC AAGACTTGAC TAGACACATG
    CGCTCACATA CTGGTGAGCG ACCTTATAAG TGCCAAACCT GTCATCGTAC CTTCACCCTG
    AAGCACAGTC TGGTACGGCA CCAACGCGTC CACCAGAAAC CATCGGATGA AAAAGGGAGC
    GATGACGCAG AAATGAACGA AGAAACAGAT GGAGCAAAAG ATGAAGCTGG AGTGCTGGAG
    GAGAAAGAGT TCAATGAAGC TGTTCAGAGT GAGGCTGAAC ACAAAGAGGA AGAGATTGGC
    GGACGCATGG AGGAAGACGA TGCCAAGCAG CTTCCTGAAG AAACATCCAT GGGGGTGAAT
    TCTGCCGAAG AAGCTCTGCC GGATGAGGAC GAACAGGAAG AACAACAAAC CGAGGAACCG
    TCAGAAGAGG CCCGATCAGG CTGTGACCCA GAACCTGCAA AAACCAGCAA CCACAGCTGT
    ACAGTGGCTC AGGAAGACAC AGAGATGCCC GCTCAGTGA

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

    CloneID ODa06922
    Clone ID Related Accession (Same CDS sequence) XM_005163366.4 , XM_005163366.3
    Accession Version XM_005163366.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5019bp)
    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_007113.6) 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_005163366.2. ##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
    ATGGAAATGG AAAGTGCCTC CCCTGAAAAG ACTATCAGCA ATGGTGTTGG AGCTGCTGAT 
    GGGAATGAAC AGTCTCATTT GTCAGAAGAG GCTGTGAACA GTCAGTCGTC CACTTGTACA
    CCAGAACCTG TTGAAGCAGA CTTTGATGAA ACAGACAAAG CAGCAGATGA AGATGAAGTT
    GGCGTAAGAA CAGAGGAGGA ACTGACCTCC ATCAACTCCA TGATGAGCAC TGTGATGAAT
    GTGGGCCAGA TCAATGGAGT CGATTCTGAG ACCCCCAAAA CATCTCCCAG AAACACCAAC
    AAATCACCCT CTGCTGGACG CACTGGGAGA CGGAATCAGG AAGTCAAAGA TGAACGTTCC
    AGCTTCATTT GCCCCCTGTG TGACAAAAAC TGCATGACGC AGCACCAGCT CACCATGCAC
    ATCAGACAGC ACAACACGGA CAGTGGTGGC ACTGACCACT CGTGCAGTAT TTGCGGAAAG
    GCTTTGAGTT CGGCCAGCTC TCTGGACCGA CACATGCTGG TTCACAGCGG AGAAAGACCA
    TACAAGTGCT CGGTCTGCGG TCAGACATTC ACCACCAATG GAAACATGCA CAGGCACATG
    AAAATTCATG AAAAGGATTC AAGCGGTATT CCTACCCCCA GTTCTTCCCC ACTAAACAAG
    CGCAGACGAC TCTCCAGCAA GAGGAAACCC AGTGTGGAGG ATGAAGGAGA GCAGGCTGAG
    GAGCCACCAG TTAAAAAGGT GACTTTGATC CAGAAGCTTA AGGAGGATAA TTCTGTGAAG
    AGTGAAGAAG AGGTATTTCA CTGCCCCATC TGCTTTAAGA CATTCATCTG TAAAAATGAC
    CTGGAAGCAC ACATGGAGAC ACATCCTGAC ACTACGCTCA GGTGCAACAT TTGTTGCATT
    ACCTTTCGCA AACACCGTGG TCTCCTGCGT CATAATGCTG CCATTCATAA ACAGCTTCCA
    ACTGACCCCT CTGGGCGACC TTTTATACAG AACAACCCCT CCATCCCACT GGGATTTGGC
    GATTTAGCTT TCATCGACTT CAGCTGTCAA AAGTTTCCAC AAATTGCACA GGTCTGGTGT
    GAGACTAACC TGCGCCGATG CTCTAGCAAG TTCCATAAGT TTGTTTGTGA GGACTGCAAC
    AAGGCCTTCC CTATTCAGCA ATCTCTGGAT CTTCACAAGT CTTCACATAA CTGTAGTGTA
    GACACCAGCA CTGATCCTCA GGAACATAAA GCAGATGCTG TTATAGACGC CCCAAAAGTA
    AACTCCCATT CCGAGGATTC CAAGGAGGTC AGTGAACTAG CACCACACGT TGACACTACT
    AGTTCAGATG GGAAGAATGG TTTCATGGAG CGCCTGGGTC TCCAGCACTC CTCCTTGGCC
    AAGCTAGAGA AATCAGAAGA GCAGATTCAG CAGGAGGTTT TAGACAGCAT TCGATTCATT
    CGCGTTGAGC CACCATCAAC AAATCTACCT CAAGAAACCA GCGGCAGTCT TGGTGTCTCA
    ATCCTTGAGC CTGTCTCTCT TCAAGCAATG AACAAGAACA CAGCCCTTGG CCTTCTATCG
    CTACAGCCAC TACATGCTGT GGTCAGTAAT GGCATGTTTG TCCCAATAAG CGGTCAAACC
    GCTGTAGAGC TGGCGGATAT TGAACAAATC CTTAAAATCG CAACCTCTGT ACCACCTCAG
    ATGTCTTTGT CTATGCTTCC CAAAAGTCTG GGTAGTCCTC TTCAAGTGGA CCCCAGACAG
    ATTTCTTCTT TAAAACCCAA GTCCTTAATC ACTCCCCGAT CCAGCATGGG TGCCTCCACA
    CCACCTCCAC CTGTCATGAA TGCCCAACAG GCCTCATCCG GCAACATCAG TCCTAGCCTT
    CCACCCCAAA CAGGCCAACA AGTGAGAACT GCCAGACAGT CTTCAGCCTC ATCCTCATCC
    TCAACTTCCT CCTCTCCCAC CAATTGGGAA ACTACTCAAC TGGGATCTGA TGTCATAGGA
    AACACGATTA TCTCATATGA AACTGGAAAG CAGGAAGAGT TTGACAGCAA AGAGAAGGAC
    ATGAGAGTTG TCCCCAAAAA GACAGCTAAG ACTGAATACC CTTGTCGGTT CTGCAAAGAA
    GTATTCTCTT TCTTAGGTGG CCTCCAGGCA CATATGCGTC ACCATTTGGG AGCATCCCCA
    TATCAGTGCA CCATTTGTAG CTACGCTGCT CCTGACAAAG CGACACTGAT TCGACATCTC
    AGAACACACA GTGGTGAGCG GCCATACGTC TGTCGCCTCT GTCACTACCC TTTCACTGTG
    AAAGCCAACT GCGAGCGCCA TTTGCGCAAG AAGCACATGA AGAACACACG CAAGGACATC
    GAGAAAAACA TTGAATATGT AACCACCTCC TCGAGCATAA GCAGTGTAAT TGGAGGCACC
    ACACTAGACC TCCTTGATAC AACCAACGCT GGCAACACAT CTTGTCGATA TTGTGGGGAG
    GACCTTAAGA ACTACCGGGC CCTTCAGATT CACCTGCGAA CTCACAATGG ATGTCAAAAG
    AAACCATTTG AGTGCAGGCA ATGTGGGGCG ACATTTCTCG CTAAAAGGAA CTGTATTCAC
    CATTTGCTGA AACACCACCC AGATGTGCCA GAAAGGGAAA TTGAGGAGCA CATCAAAAGT
    CTTGTACCAG TTGGAGGTGA AGTCAATGCT CAATCCAACA CTTCAGCCAC AAATGGGCTT
    GTTAACAGCT CCATTTCCCA GAATGTAGGT ACCTTCTCTG GACCTGTTGA GGAGCAGGAA
    CAACCTTTGG ATTTCTCTAG CAAATCTCAG AAAACAATGC CTTCAGTCGT TAAAATTGAA
    GGAGCAGCAT CTCCTCTGTT AAATGACTGT TCTATGGAGC CCATTGACCT CTCAATACCC
    AAGGATCCAG AGAAGAAGAA AATGAGGAAA GAAGTTCCCC AGAATTATCA AGAGCTCAAT
    AAAGAAAAGA CTTCAGAAAC AGCCCCTGGA CTTCTCGCAG CTATTCCGGT CTCCATTCCT
    AGCCTAGCCT CAGTTCTATC CAGTGACATT ACTAAGCCTT ATACTCGCTT AAAGCCCCTG
    CTACCAAAAC CATCTTCTGC TTCTAGTACT GCGGAAATGG CACCACTGGC CTCTATTGCT
    CAGATTATCT CATCTGTTTC AGCTACCCCA GTGCTTATCG AAACAGGAAT GGATGCAAAA
    AACTGTATTA GTGCAGTGGA TTTTAAAACA CTAAGTGAAA ACAAGAGTCC CATAGGCACC
    ACTAAACTGG ATTCCGTGCT GAATGGGTCT CCTGATAACT CAAAGAAAAG AGGCAAGAAG
    AGAGTGTTTC AGGAGGAGAT CTGTGATTCG AGAATAGCTG TGGGCAGTGG GATTGACCTG
    GAGTCAAGTG GCGAGTTTCC CAGTGTAGAG AAAATGTTGG CTACTACTGA TGCAAATAAG
    TTCAGTCCCT ACCTGCAACC CAATCAGATG GAGCCAATGA TGGAGGAAAA AGAGAAGCAG
    TCAGCTGACG AGGAGGTGAA GGAAATACGA GAAGACAAAC CAAAGAAACC TCCACAGAAC
    AAAGGAAAGA AAAATGCTTA TTCCAATTCA GTGCAGAAAA TGACCTGCCC CTACTGCCCT
    CGATTGTTCC CGTGGGCCAG CTCATTGCAA AGGCATATGC TAACACACAC AGGTCAGAAG
    CCGTACCCTT GTCCTCAGTG TGACTCGTTC TTCTCCACCA AGTCAAACTG TGAGCGACAC
    CTGCTTCGCA AACATGGAGT CTCGAATCGG GCACTTCAAA ACAGTGGATC TCGACTCAAA
    CCTAAGACAG ATGAAGAATC CTTAGGAAGC ACAGAAAGTG TATGCGACAC TGAACATCCT
    GTAGCCGAAG GTACTATGGA TCTGAGCTCT GTCAACACCA AACAAGAAGA ATCTCCAGAA
    GCGCCAGAAC GAACAGGACA ATCAGCCCCT GAACAAGCAG ACAGCAGCAC GGATCCAAAC
    CAAACTCAGC CAGCTGAGGA AAATCCTGAG ATGGTGGAAA AAGATGATGA TGATGATGAT
    GATGATTCTC AAAGCAGCAT GAGTCATGAA ATGAGCCTTG TCAGCAATCT TGTTGTAGAT
    GTCCAGCTTT CTGGAGAGGA GCAGCACCAG TCTAAATCAG CCCCTGAAGT GGTTTCCCCT
    CCAGATGAGT TCCCACACAC ATGTGCCTCC TGTAAGAAGA CCTTTCGTCA TGCAGCCACT
    CTGAGCCGAC ACCAGAAAAC CCACCTTCAG GAGGTCCAGC CAGAGGATGG AGCCAAGAAG
    GGAAGACGCC AAGCTCCTCC ACAAAATCCA ATTCCAGTAC CAAGTAAAGA GATGGAGCAG
    GACGCAAAGT CAGAAGATGA TGAAAAGGAG GAGAACAGCA GCTGTGTGGA AAGTGGTGTT
    GATGAGGAAG AGAAGGAGAG GGAAGATATG AGTGAAGATG AAGAAGAGAC TCCTTCCTCA
    GAGCTCCAGG CCTTAGAAGA GGAGGGCAAC TCAACCAGAG GCAAAGCAGA TAAGAGGAAG
    AAGATCTGCA CCGTGTGCAG CAAACGCTTC TGGAGCCTGC AAGACTTGAC TAGACACATG
    CGCTCACATA CTGGTGAGCG ACCTTATAAG TGCCAAACCT GTCATCGTAC CTTCACCCTG
    AAGCACAGTC TGGTACGGCA CCAACGCGTC CACCAGAAAC CATCGGATGA AAAAGGGAGC
    GATGACGCAG AAATGAACGA AGAAACAGAT GGAGCAAAAG ATGAAGCTGG AGTGCTGGAG
    GAGAAAGAGT TCAATGAAGC TGTTCAGAGT GAGGCTGAAC ACAAAGAGGA AGAGATTGGC
    GGACGCATGG AGGAAGACGA TGCCAAGCAG CTTCCTGAAG AAACATCCAT GGGGGTGAAT
    TCTGCCGAAG AAGCTCTGCC GGATGAGGAC GAACAGGAAG AACAACAAAC CGAGGAACCG
    TCAGAAGAGG CCCGATCAGG CTGTGACCCA GAACCTGCAA AAACCAGCAA CCACAGCTGT
    ACAGTGGCTC AGGAAGACAC AGAGATGCCC GCTCAGTGA

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

    RefSeq XP_005163423.1
    CDS493..5511
    Translation

    Target ORF information:

    RefSeq Version XM_005163366.3
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio ras responsive element binding protein 1b (rreb1b), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005163366.3

    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
    ATGGAAATGG AAAGTGCCTC CCCTGAAAAG ACTATCAGCA ATGGTGTTGG AGCTGCTGAT 
    GGGAATGAAC AGTCTCATTT GTCAGAAGAG GCTGTGAACA GTCAGTCGTC CACTTGTACA
    CCAGAACCTG TTGAAGCAGA CTTTGATGAA ACAGACAAAG CAGCAGATGA AGATGAAGTT
    GGCGTAAGAA CAGAGGAGGA ACTGACCTCC ATCAACTCCA TGATGAGCAC TGTGATGAAT
    GTGGGCCAGA TCAATGGAGT CGATTCTGAG ACCCCCAAAA CATCTCCCAG AAACACCAAC
    AAATCACCCT CTGCTGGACG CACTGGGAGA CGGAATCAGG AAGTCAAAGA TGAACGTTCC
    AGCTTCATTT GCCCCCTGTG TGACAAAAAC TGCATGACGC AGCACCAGCT CACCATGCAC
    ATCAGACAGC ACAACACGGA CAGTGGTGGC ACTGACCACT CGTGCAGTAT TTGCGGAAAG
    GCTTTGAGTT CGGCCAGCTC TCTGGACCGA CACATGCTGG TTCACAGCGG AGAAAGACCA
    TACAAGTGCT CGGTCTGCGG TCAGACATTC ACCACCAATG GAAACATGCA CAGGCACATG
    AAAATTCATG AAAAGGATTC AAGCGGTATT CCTACCCCCA GTTCTTCCCC ACTAAACAAG
    CGCAGACGAC TCTCCAGCAA GAGGAAACCC AGTGTGGAGG ATGAAGGAGA GCAGGCTGAG
    GAGCCACCAG TTAAAAAGGT GACTTTGATC CAGAAGCTTA AGGAGGATAA TTCTGTGAAG
    AGTGAAGAAG AGGTATTTCA CTGCCCCATC TGCTTTAAGA CATTCATCTG TAAAAATGAC
    CTGGAAGCAC ACATGGAGAC ACATCCTGAC ACTACGCTCA GGTGCAACAT TTGTTGCATT
    ACCTTTCGCA AACACCGTGG TCTCCTGCGT CATAATGCTG CCATTCATAA ACAGCTTCCA
    ACTGACCCCT CTGGGCGACC TTTTATACAG AACAACCCCT CCATCCCACT GGGATTTGGC
    GATTTAGCTT TCATCGACTT CAGCTGTCAA AAGTTTCCAC AAATTGCACA GGTCTGGTGT
    GAGACTAACC TGCGCCGATG CTCTAGCAAG TTCCATAAGT TTGTTTGTGA GGACTGCAAC
    AAGGCCTTCC CTATTCAGCA ATCTCTGGAT CTTCACAAGT CTTCACATAA CTGTAGTGTA
    GACACCAGCA CTGATCCTCA GGAACATAAA GCAGATGCTG TTATAGACGC CCCAAAAGTA
    AACTCCCATT CCGAGGATTC CAAGGAGGTC AGTGAACTAG CACCACACGT TGACACTACT
    AGTTCAGATG GGAAGAATGG TTTCATGGAG CGCCTGGGTC TCCAGCACTC CTCCTTGGCC
    AAGCTAGAGA AATCAGAAGA GCAGATTCAG CAGGAGGTTT TAGACAGCAT TCGATTCATT
    CGCGTTGAGC CACCATCAAC AAATCTACCT CAAGAAACCA GCGGCAGTCT TGGTGTCTCA
    ATCCTTGAGC CTGTCTCTCT TCAAGCAATG AACAAGAACA CAGCCCTTGG CCTTCTATCG
    CTACAGCCAC TACATGCTGT GGTCAGTAAT GGCATGTTTG TCCCAATAAG CGGTCAAACC
    GCTGTAGAGC TGGCGGATAT TGAACAAATC CTTAAAATCG CAACCTCTGT ACCACCTCAG
    ATGTCTTTGT CTATGCTTCC CAAAAGTCTG GGTAGTCCTC TTCAAGTGGA CCCCAGACAG
    ATTTCTTCTT TAAAACCCAA GTCCTTAATC ACTCCCCGAT CCAGCATGGG TGCCTCCACA
    CCACCTCCAC CTGTCATGAA TGCCCAACAG GCCTCATCCG GCAACATCAG TCCTAGCCTT
    CCACCCCAAA CAGGCCAACA AGTGAGAACT GCCAGACAGT CTTCAGCCTC ATCCTCATCC
    TCAACTTCCT CCTCTCCCAC CAATTGGGAA ACTACTCAAC TGGGATCTGA TGTCATAGGA
    AACACGATTA TCTCATATGA AACTGGAAAG CAGGAAGAGT TTGACAGCAA AGAGAAGGAC
    ATGAGAGTTG TCCCCAAAAA GACAGCTAAG ACTGAATACC CTTGTCGGTT CTGCAAAGAA
    GTATTCTCTT TCTTAGGTGG CCTCCAGGCA CATATGCGTC ACCATTTGGG AGCATCCCCA
    TATCAGTGCA CCATTTGTAG CTACGCTGCT CCTGACAAAG CGACACTGAT TCGACATCTC
    AGAACACACA GTGGTGAGCG GCCATACGTC TGTCGCCTCT GTCACTACCC TTTCACTGTG
    AAAGCCAACT GCGAGCGCCA TTTGCGCAAG AAGCACATGA AGAACACACG CAAGGACATC
    GAGAAAAACA TTGAATATGT AACCACCTCC TCGAGCATAA GCAGTGTAAT TGGAGGCACC
    ACACTAGACC TCCTTGATAC AACCAACGCT GGCAACACAT CTTGTCGATA TTGTGGGGAG
    GACCTTAAGA ACTACCGGGC CCTTCAGATT CACCTGCGAA CTCACAATGG ATGTCAAAAG
    AAACCATTTG AGTGCAGGCA ATGTGGGGCG ACATTTCTCG CTAAAAGGAA CTGTATTCAC
    CATTTGCTGA AACACCACCC AGATGTGCCA GAAAGGGAAA TTGAGGAGCA CATCAAAAGT
    CTTGTACCAG TTGGAGGTGA AGTCAATGCT CAATCCAACA CTTCAGCCAC AAATGGGCTT
    GTTAACAGCT CCATTTCCCA GAATGTAGGT ACCTTCTCTG GACCTGTTGA GGAGCAGGAA
    CAACCTTTGG ATTTCTCTAG CAAATCTCAG AAAACAATGC CTTCAGTCGT TAAAATTGAA
    GGAGCAGCAT CTCCTCTGTT AAATGACTGT TCTATGGAGC CCATTGACCT CTCAATACCC
    AAGGATCCAG AGAAGAAGAA AATGAGGAAA GAAGTTCCCC AGAATTATCA AGAGCTCAAT
    AAAGAAAAGA CTTCAGAAAC AGCCCCTGGA CTTCTCGCAG CTATTCCGGT CTCCATTCCT
    AGCCTAGCCT CAGTTCTATC CAGTGACATT ACTAAGCCTT ATACTCGCTT AAAGCCCCTG
    CTACCAAAAC CATCTTCTGC TTCTAGTACT GCGGAAATGG CACCACTGGC CTCTATTGCT
    CAGATTATCT CATCTGTTTC AGCTACCCCA GTGCTTATCG AAACAGGAAT GGATGCAAAA
    AACTGTATTA GTGCAGTGGA TTTTAAAACA CTAAGTGAAA ACAAGAGTCC CATAGGCACC
    ACTAAACTGG ATTCCGTGCT GAATGGGTCT CCTGATAACT CAAAGAAAAG AGGCAAGAAG
    AGAGTGTTTC AGGAGGAGAT CTGTGATTCG AGAATAGCTG TGGGCAGTGG GATTGACCTG
    GAGTCAAGTG GCGAGTTTCC CAGTGTAGAG AAAATGTTGG CTACTACTGA TGCAAATAAG
    TTCAGTCCCT ACCTGCAACC CAATCAGATG GAGCCAATGA TGGAGGAAAA AGAGAAGCAG
    TCAGCTGACG AGGAGGTGAA GGAAATACGA GAAGACAAAC CAAAGAAACC TCCACAGAAC
    AAAGGAAAGA AAAATGCTTA TTCCAATTCA GTGCAGAAAA TGACCTGCCC CTACTGCCCT
    CGATTGTTCC CGTGGGCCAG CTCATTGCAA AGGCATATGC TAACACACAC AGGTCAGAAG
    CCGTACCCTT GTCCTCAGTG TGACTCGTTC TTCTCCACCA AGTCAAACTG TGAGCGACAC
    CTGCTTCGCA AACATGGAGT CTCGAATCGG GCACTTCAAA ACAGTGGATC TCGACTCAAA
    CCTAAGACAG ATGAAGAATC CTTAGGAAGC ACAGAAAGTG TATGCGACAC TGAACATCCT
    GTAGCCGAAG GTACTATGGA TCTGAGCTCT GTCAACACCA AACAAGAAGA ATCTCCAGAA
    GCGCCAGAAC GAACAGGACA ATCAGCCCCT GAACAAGCAG ACAGCAGCAC GGATCCAAAC
    CAAACTCAGC CAGCTGAGGA AAATCCTGAG ATGGTGGAAA AAGATGATGA TGATGATGAT
    GATGATTCTC AAAGCAGCAT GAGTCATGAA ATGAGCCTTG TCAGCAATCT TGTTGTAGAT
    GTCCAGCTTT CTGGAGAGGA GCAGCACCAG TCTAAATCAG CCCCTGAAGT GGTTTCCCCT
    CCAGATGAGT TCCCACACAC ATGTGCCTCC TGTAAGAAGA CCTTTCGTCA TGCAGCCACT
    CTGAGCCGAC ACCAGAAAAC CCACCTTCAG GAGGTCCAGC CAGAGGATGG AGCCAAGAAG
    GGAAGACGCC AAGCTCCTCC ACAAAATCCA ATTCCAGTAC CAAGTAAAGA GATGGAGCAG
    GACGCAAAGT CAGAAGATGA TGAAAAGGAG GAGAACAGCA GCTGTGTGGA AAGTGGTGTT
    GATGAGGAAG AGAAGGAGAG GGAAGATATG AGTGAAGATG AAGAAGAGAC TCCTTCCTCA
    GAGCTCCAGG CCTTAGAAGA GGAGGGCAAC TCAACCAGAG GCAAAGCAGA TAAGAGGAAG
    AAGATCTGCA CCGTGTGCAG CAAACGCTTC TGGAGCCTGC AAGACTTGAC TAGACACATG
    CGCTCACATA CTGGTGAGCG ACCTTATAAG TGCCAAACCT GTCATCGTAC CTTCACCCTG
    AAGCACAGTC TGGTACGGCA CCAACGCGTC CACCAGAAAC CATCGGATGA AAAAGGGAGC
    GATGACGCAG AAATGAACGA AGAAACAGAT GGAGCAAAAG ATGAAGCTGG AGTGCTGGAG
    GAGAAAGAGT TCAATGAAGC TGTTCAGAGT GAGGCTGAAC ACAAAGAGGA AGAGATTGGC
    GGACGCATGG AGGAAGACGA TGCCAAGCAG CTTCCTGAAG AAACATCCAT GGGGGTGAAT
    TCTGCCGAAG AAGCTCTGCC GGATGAGGAC GAACAGGAAG AACAACAAAC CGAGGAACCG
    TCAGAAGAGG CCCGATCAGG CTGTGACCCA GAACCTGCAA AAACCAGCAA CCACAGCTGT
    ACAGTGGCTC AGGAAGACAC AGAGATGCCC GCTCAGTGA

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

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