ORF » Species Summary » Danio rerio » arhgap29b cDNA ORF clone

arhgap29b cDNA ORF clone, Danio rerio(zebrafish)

The following arhgap29b gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the arhgap29b 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
ODa159864 NM_200111.2
Latest version!		 Danio rerio Rho GTPase activating protein 29b (arhgap29b), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
ODa06832 XM_005163314.4
Latest version!		 Danio rerio Rho GTPase activating protein 29b (arhgap29b), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa06833 XM_005163315.4
Latest version!		 Danio rerio Rho GTPase activating protein 29b (arhgap29b), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00
ODa38450 NM_200111.1
Latest version!		 Danio rerio Rho GTPase activating protein 29b (arhgap29b), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa06831 XM_005163312.4
Latest version!		 Danio rerio Rho GTPase activating protein 29b (arhgap29b), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
View Old Accession Versions >>
ODa06831 XM_005163312.3 Danio rerio Rho GTPase activating protein 29b (arhgap29b), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa06833 XM_005163315.3 Danio rerio Rho GTPase activating protein 29b (arhgap29b), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00
ODa06832 XM_005163314.3 Danio rerio Rho GTPase activating protein 29b (arhgap29b), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
Hide Old Accession Versions >>

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** 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)
    arhgap29b ( NM_200111.2 ) cDNA ORF clone, Danio rerio(zebrafish) -> NP_956405.2 Danio rerio Rho GTPase activating protein 29b (arhgap29b), mRNA.
    Price & Availability↑
    CloneID ODa159864
    Clone ID Related Accession (Same CDS sequence) NM_200111.2
    Accession Version NM_200111.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4014bp)
    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 2018-11-23
    Organism Danio rerio(zebrafish)
    Product rho GTPase-activating protein 29
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from CR450809.6. On Apr 12, 2018 this sequence version replaced NM_200111.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## Transcript exon combination :: BC059184.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2168446, SAMEA2168447 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end. 

    1
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    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
    ATGTTCCGTC AGGGCAGCAA CAGTGGGAAT AAACGCATGA CAAGCGGTGC TCGTCTCTCC 
    CAGCCCATCA TCCCTTTGTC CCTGCCTACC GCATCCTCCA AAACGCTAGA AATGGGCCGC 
    AGCTCTAAGA CAAACCCCCT CAACGCTATG GGCCTGGACC ACAATATCGC CACCTCGGGA 
    GGGGATCCCG AATACATCAT GCAACTGGTC AATGATGTGC GCAAGTTTTC TGATGTGCTG 
    CTGAGCCTTA AAGAGGCTTT TCATTCCAAA GAAAGTCAAG AGTGCTCGCA GCACGTGGTG 
    AATGAGCGTC TTGGGGAGTT GGTCCACGTG TTGAAGGCCG TCATTGGCAA ACACCAGGCA 
    CTGAACTCAT CCGAAATCCT TGGTGCCGCG GGGACTGTTA TTGCTAAAGT CAAAGGCGTG 
    AACTTCAAGG AAGTTAATAA CGAAAATAAA AGCACAATAT TTGGCGAGAT ACACACGTCG 
    ATTGACACTT TGGCATTCAC CTTTGGCAAT GTAGTGTCTG ACTTCCTTAT GGGAGATGTG 
    GACGGTGGCT CCAGGTTGGG GTATCCCCAA GCCAGAAGAA GTCGTTCTTT TGAAAACCTC 
    TCTGAAGATT CACGAGGCTG CAGTCAAAAC GATCTGGCAG ACCATTCTCT GTCTCCAGAA 
    CTGTCCACAG TGGAGCAGGT GGACCTTCTT CTCCTGAAGA ATGACAGCGG TGTAGAGTCG 
    GCTCTGCTCT ATGCCAAGGC CTGGTCCAAA TACACCAAAG ACGTTCTGGC CTGGGTGGAG 
    AAACGCCTAA GCCTGGACAT GGAATGTGCC AAAAGCTTTG CCAAGATGGC AGAATCCGCA 
    AAGGCTGTAG CAAGTCAACA GGATTTCATG CCTTTCCGGG ATATCTATGT CTCTGCCTTT 
    AAAAATGAAA TCGAGTACAA TCATGTACTG CTCCAAACGG CTGCAGCTCT TCAGACCAAC 
    AAATTCACAC AGCCACTGCT GGCCCGCAAG AATGACCTGG ACAAGCAGAG GAAAGAGATT 
    AAAGAACAAT GGCAAAGAGA GCTGAAGAAA ATGAACGAGT CAGAAAGTGC TTTAAAGAAG 
    GCTCGGCTGT TGAAAATGCA GAAGAGGGAG GAATACGAGA AGGCCCGGAG CTCGACCAGC 
    CGTACCGAGG AGGAGCAGCC AGCAGCTGGA GGCAGGACAC TGGAGAAGAA ACGCAGAGTT 
    GAGGAAGAGG CCCTACAGAA GGCAGAGGAA GCGCAGGAGC AGTATAAAGC CTGTGTGGCC 
    GATCTGGAGG CCAAGAAGGT CAGCCTGTCA AACGCTAAGA GTGAGATCCT CGCACAGATT 
    CGGAAGCTGG TCTTCCAATG TGACCTGACC CTCAAAGCGG TGACAGTGAA CTGGTTCCAG 
    ATGCAGCAGG CTCAGACTAT GCCCCTGTCC GTCAACTACC AAGCTCTAAG CGAACAAGCC 
    AAGAAGTACG AACCAGGTCA GCGCTACTCT GAATTTGTGC GCAGTCTCCC TAAAGAGCGT 
    GTGTGGCTGG AGTCTCTGTC TCAGGACATC ACCGCTTCCT CAAAAACGGG AATGTCTCTT 
    CATAAGAGGT CTCAGAACAG CACCCGCTCG TCTCATGGGA ACCTGTCGCA GGGCTCTGCT 
    ACATCTATGG ATAATCACAG CGCAGACGAG GTGGAGGGTA ACATGCAGCC ATGCAAGGCC 
    AAGATTGCAG AGAGGCGCTC CAACAGCAGT ATAGACATGC AAGTGCCGAG GACGCAGGGC 
    TCTCAGCGGG CCTGGAGCTC AGGCAGTGCC GGTGGAGGAG GGATGTGCAG TGACTCAGAG 
    AGCGCTGGAG GAAGCAGCGA GTCTCGCTCC ATGGACTCCC CCACAGCCAG TCCAGGAGAT 
    TTCAAACGCA GGCTTCCCAG AACTCCCTCC ACTGGTACCA TGTCTTCTGC GGATGACCTG 
    GATGAGAGGG AGCCACCTTC CCCATCCGAT ACTGGCCTCT CTGAAATGGT GATGGAAACA 
    GCCAGTTCTC CAGGCCCTTT CCGCAATGCC CAAATGTCAA AAGCAGCTCA CACACACAAA 
    CTACGAAAAC TGCGAGCGCC TTCCAAATGC AGAGAGTGTG ACAGTCTGGT GGTCTTCCAT 
    GGGGCAGAGT GTGAGGAGTG CTCCCTGGCC TGTCATAAGA AATGTCTGGA GACTCTTGCC 
    ATTCAGTGTG GTCATAAGAA GCTCCAGGGC AGACTGCACC TCTTCGGGAT TGACTTTGCC 
    CAAGTAGTAA AGAACAGTCC TGACGGCATC CCTTTCATCA TCAAAAAATG CACCTCAGAA 
    ATCGAGAGTC GTGCCCTGAC CATTAAGGGC ATTTATCGGG TGAATGGGGC GAAGTCTCGT 
    GTGGAAAAGC TGTGCCAGGC CTTTGAGAAT GGAAAGGACT TAGTGGAGCT TTCTGACCTC 
    CACCCGCATG ACATAAGCAA CGTGCTGAAG CTTTACCTGA GACAGTTGCC AGAGCCGTTG 
    ATTCTGTATC GTTATTATAA CGATGTCATT GGGCTGGCGA AAGAAACTCA GAACATGGAC 
    AAGACAGACT CAGCTAAAGA GAAATCAGCA GGAGAGCAGC TGGGCCTCAG CACTGAGCTG 
    AAAAGAGTGC TCTTCAAAGT CAGAGATCTC CTTCGACAGC TTCCTGCGCC CCACTACAAA 
    ACCCTGCAGT TCCTCGTCAC ACATCTGCAC AGAGTTTCAG AGCAAGCTGA GGAGAACAAG 
    ATGACCGCTA GTAACCTGGG CATCATCTTT GGCCCCACGC TCATTAAGCC CAGACATTTG 
    GAGGCAGAAG TGTCGCTTTC CTCCCTGGTT GACTATCCTC ACCAGGCCCG CATGGTGGAG 
    CTGCTCATCA AACACCATCA GATGATCTTT GACGTGCCCC TCAGCCCCAT GTCTCCAACC 
    AGTCCAACTG TATCACAGGC TTCCTTTGGG TCCAGCATCC AGGACAAAGA GTCCAAACTC 
    AGCCGTCACT CTAGATCCCT GATGGACATC AAAGAGAGTG CAAAACTCTA CAAGAGACAC 
    TCGTCTGTGA TCATCCCAGC TCAGCTCATG GAGGAAGGGA AGGAAATGAA GACTGGAGAC 
    CACAGAGTAC AAACATCTGG TGAGGGCTCA GATGTCAACG GGGTTGGTTT GACTTCTGTT 
    GACTCCACAT CTGTGTTCAA CCGGCCTGGT GCCAGCAGCC GAATGGTGCA GCTGAGACCT 
    CAGCGTGCCA AGCCGGTGTC TCGACCAATC AGCATGCCCA TAGACCGCCT ACTCAACGAA 
    CGCAACAGCC GCAACACAGT GGAGCATGAT CACTCACCCG CCGCCATTGA GGAGACCACT 
    GAACCAGAGA AACCGACAAC ACCACGGCAC ACCAACTTTT ACAGGAACCC CTTCATTGAC 
    ACTCAGACGC TGAGGAGGAC CTGGGACAGG CAGTACAGAC ATTATGACGT CACGCCCAGG 
    ACTGCAATGA TAGTGGCCAA CCTGCCACCT TCCGGTGTGC AGAAACAGCC TGAAATTAGT 
    ATGGGATCCC AAAGCAGCAC CTCTAGAAAA GATGGTACAA GCCAGTCTGG TGTGGCTCCA 
    ATATCGTTCA GAGCAGCACG GACACTAAAA CCCTCTTCTC CTGGAACGTT CTATAGACCT 
    CCCTCTGGAG GCCAGTTGAA GCCATCTGAC TTGCTGGCAA AATCAGTTTC AAGAGCGCCA 
    ACCACTACCA CAGGAGCAAT TTACACAACA GCCATTACTG TATTAACAAC AGCCAGCACG 
    TCATCAGTCA TGACGATCTC TACAGCGGTC ACGACTCCCC CCACCACGCC AACAACATCA 
    GTGACTGTCG CTCTGACATC CAAGCCCACT TTTACAACAG TGAGCAGAAG TGTGTCAGGA 
    GGAGCAGGGG AAGGACTGTC AGAGAGCGAC TTGCTCAGCC CAGTTACACT CTCTCCACCT 
    CAGTCTCCAG TCTCCAGCAC TGAGGAGCTC AGCCCGACAG ATGCCAAACC CCTCTATCAG 
    AGACGCAGTC GCCGCATGCA GGAGCTGGAG CATCGAGAGG CTCATTTTGT GTAA

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

    RefSeq NP_956405.2
    CDS189..4202
    Translation

    Target ORF information:

    RefSeq Version NM_200111.2
    Organism Danio rerio(zebrafish)
    Definition Danio rerio Rho GTPase activating protein 29b (arhgap29b), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_200111.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGTTCCGTC AGGGCAGCAA CAGTGGGAAT AAACGCATGA CAAGCGGTGC TCGTCTCTCC 
    CAGCCCATCA TCCCTTTGTC CCTGCCTACC GCATCCTCCA AAACGCTAGA AATGGGCCGC 
    AGCTCTAAGA CAAACCCCCT CAACGCTATG GGCCTGGACC ACAATATCGC CACCTCGGGA 
    GGGGATCCCG AATACATCAT GCAACTGGTC AATGATGTGC GCAAGTTTTC TGATGTGCTG 
    CTGAGCCTTA AAGAGGCTTT TCATTCCAAA GAAAGTCAAG AGTGCTCGCA GCACGTGGTG 
    AATGAGCGTC TTGGGGAGTT GGTCCACGTG TTGAAGGCCG TCATTGGCAA ACACCAGGCA 
    CTGAACTCAT CCGAAATCCT TGGTGCCGCG GGGACTGTTA TTGCTAAAGT CAAAGGCGTG 
    AACTTCAAGG AAGTTAATAA CGAAAATAAA AGCACAATAT TTGGCGAGAT ACACACGTCG 
    ATTGACACTT TGGCATTCAC CTTTGGCAAT GTAGTGTCTG ACTTCCTTAT GGGAGATGTG 
    GACGGTGGCT CCAGGTTGGG GTATCCCCAA GCCAGAAGAA GTCGTTCTTT TGAAAACCTC 
    TCTGAAGATT CACGAGGCTG CAGTCAAAAC GATCTGGCAG ACCATTCTCT GTCTCCAGAA 
    CTGTCCACAG TGGAGCAGGT GGACCTTCTT CTCCTGAAGA ATGACAGCGG TGTAGAGTCG 
    GCTCTGCTCT ATGCCAAGGC CTGGTCCAAA TACACCAAAG ACGTTCTGGC CTGGGTGGAG 
    AAACGCCTAA GCCTGGACAT GGAATGTGCC AAAAGCTTTG CCAAGATGGC AGAATCCGCA 
    AAGGCTGTAG CAAGTCAACA GGATTTCATG CCTTTCCGGG ATATCTATGT CTCTGCCTTT 
    AAAAATGAAA TCGAGTACAA TCATGTACTG CTCCAAACGG CTGCAGCTCT TCAGACCAAC 
    AAATTCACAC AGCCACTGCT GGCCCGCAAG AATGACCTGG ACAAGCAGAG GAAAGAGATT 
    AAAGAACAAT GGCAAAGAGA GCTGAAGAAA ATGAACGAGT CAGAAAGTGC TTTAAAGAAG 
    GCTCGGCTGT TGAAAATGCA GAAGAGGGAG GAATACGAGA AGGCCCGGAG CTCGACCAGC 
    CGTACCGAGG AGGAGCAGCC AGCAGCTGGA GGCAGGACAC TGGAGAAGAA ACGCAGAGTT 
    GAGGAAGAGG CCCTACAGAA GGCAGAGGAA GCGCAGGAGC AGTATAAAGC CTGTGTGGCC 
    GATCTGGAGG CCAAGAAGGT CAGCCTGTCA AACGCTAAGA GTGAGATCCT CGCACAGATT 
    CGGAAGCTGG TCTTCCAATG TGACCTGACC CTCAAAGCGG TGACAGTGAA CTGGTTCCAG 
    ATGCAGCAGG CTCAGACTAT GCCCCTGTCC GTCAACTACC AAGCTCTAAG CGAACAAGCC 
    AAGAAGTACG AACCAGGTCA GCGCTACTCT GAATTTGTGC GCAGTCTCCC TAAAGAGCGT 
    GTGTGGCTGG AGTCTCTGTC TCAGGACATC ACCGCTTCCT CAAAAACGGG AATGTCTCTT 
    CATAAGAGGT CTCAGAACAG CACCCGCTCG TCTCATGGGA ACCTGTCGCA GGGCTCTGCT 
    ACATCTATGG ATAATCACAG CGCAGACGAG GTGGAGGGTA ACATGCAGCC ATGCAAGGCC 
    AAGATTGCAG AGAGGCGCTC CAACAGCAGT ATAGACATGC AAGTGCCGAG GACGCAGGGC 
    TCTCAGCGGG CCTGGAGCTC AGGCAGTGCC GGTGGAGGAG GGATGTGCAG TGACTCAGAG 
    AGCGCTGGAG GAAGCAGCGA GTCTCGCTCC ATGGACTCCC CCACAGCCAG TCCAGGAGAT 
    TTCAAACGCA GGCTTCCCAG AACTCCCTCC ACTGGTACCA TGTCTTCTGC GGATGACCTG 
    GATGAGAGGG AGCCACCTTC CCCATCCGAT ACTGGCCTCT CTGAAATGGT GATGGAAACA 
    GCCAGTTCTC CAGGCCCTTT CCGCAATGCC CAAATGTCAA AAGCAGCTCA CACACACAAA 
    CTACGAAAAC TGCGAGCGCC TTCCAAATGC AGAGAGTGTG ACAGTCTGGT GGTCTTCCAT 
    GGGGCAGAGT GTGAGGAGTG CTCCCTGGCC TGTCATAAGA AATGTCTGGA GACTCTTGCC 
    ATTCAGTGTG GTCATAAGAA GCTCCAGGGC AGACTGCACC TCTTCGGGAT TGACTTTGCC 
    CAAGTAGTAA AGAACAGTCC TGACGGCATC CCTTTCATCA TCAAAAAATG CACCTCAGAA 
    ATCGAGAGTC GTGCCCTGAC CATTAAGGGC ATTTATCGGG TGAATGGGGC GAAGTCTCGT 
    GTGGAAAAGC TGTGCCAGGC CTTTGAGAAT GGAAAGGACT TAGTGGAGCT TTCTGACCTC 
    CACCCGCATG ACATAAGCAA CGTGCTGAAG CTTTACCTGA GACAGTTGCC AGAGCCGTTG 
    ATTCTGTATC GTTATTATAA CGATGTCATT GGGCTGGCGA AAGAAACTCA GAACATGGAC 
    AAGACAGACT CAGCTAAAGA GAAATCAGCA GGAGAGCAGC TGGGCCTCAG CACTGAGCTG 
    AAAAGAGTGC TCTTCAAAGT CAGAGATCTC CTTCGACAGC TTCCTGCGCC CCACTACAAA 
    ACCCTGCAGT TCCTCGTCAC ACATCTGCAC AGAGTTTCAG AGCAAGCTGA GGAGAACAAG 
    ATGACCGCTA GTAACCTGGG CATCATCTTT GGCCCCACGC TCATTAAGCC CAGACATTTG 
    GAGGCAGAAG TGTCGCTTTC CTCCCTGGTT GACTATCCTC ACCAGGCCCG CATGGTGGAG 
    CTGCTCATCA AACACCATCA GATGATCTTT GACGTGCCCC TCAGCCCCAT GTCTCCAACC 
    AGTCCAACTG TATCACAGGC TTCCTTTGGG TCCAGCATCC AGGACAAAGA GTCCAAACTC 
    AGCCGTCACT CTAGATCCCT GATGGACATC AAAGAGAGTG CAAAACTCTA CAAGAGACAC 
    TCGTCTGTGA TCATCCCAGC TCAGCTCATG GAGGAAGGGA AGGAAATGAA GACTGGAGAC 
    CACAGAGTAC AAACATCTGG TGAGGGCTCA GATGTCAACG GGGTTGGTTT GACTTCTGTT 
    GACTCCACAT CTGTGTTCAA CCGGCCTGGT GCCAGCAGCC GAATGGTGCA GCTGAGACCT 
    CAGCGTGCCA AGCCGGTGTC TCGACCAATC AGCATGCCCA TAGACCGCCT ACTCAACGAA 
    CGCAACAGCC GCAACACAGT GGAGCATGAT CACTCACCCG CCGCCATTGA GGAGACCACT 
    GAACCAGAGA AACCGACAAC ACCACGGCAC ACCAACTTTT ACAGGAACCC CTTCATTGAC 
    ACTCAGACGC TGAGGAGGAC CTGGGACAGG CAGTACAGAC ATTATGACGT CACGCCCAGG 
    ACTGCAATGA TAGTGGCCAA CCTGCCACCT TCCGGTGTGC AGAAACAGCC TGAAATTAGT 
    ATGGGATCCC AAAGCAGCAC CTCTAGAAAA GATGGTACAA GCCAGTCTGG TGTGGCTCCA 
    ATATCGTTCA GAGCAGCACG GACACTAAAA CCCTCTTCTC CTGGAACGTT CTATAGACCT 
    CCCTCTGGAG GCCAGTTGAA GCCATCTGAC TTGCTGGCAA AATCAGTTTC AAGAGCGCCA 
    ACCACTACCA CAGGAGCAAT TTACACAACA GCCATTACTG TATTAACAAC AGCCAGCACG 
    TCATCAGTCA TGACGATCTC TACAGCGGTC ACGACTCCCC CCACCACGCC AACAACATCA 
    GTGACTGTCG CTCTGACATC CAAGCCCACT TTTACAACAG TGAGCAGAAG TGTGTCAGGA 
    GGAGCAGGGG AAGGACTGTC AGAGAGCGAC TTGCTCAGCC CAGTTACACT CTCTCCACCT 
    CAGTCTCCAG TCTCCAGCAC TGAGGAGCTC AGCCCGACAG ATGCCAAACC CCTCTATCAG 
    AGACGCAGTC GCCGCATGCA GGAGCTGGAG CATCGAGAGG CTCATTTTGT GTAA

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

    arhgap29b ( XM_005163314.3 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_005163371.1 Danio rerio Rho GTPase activating protein 29b (arhgap29b), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ODa06832
    Clone ID Related Accession (Same CDS sequence) XM_005163314.3 , XM_005163314.4
    Accession Version XM_005163314.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3999bp)
    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 rho GTPase-activating protein 29 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_005163314.2. ##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
    ATGTTCCGTC AGGGCAGCAA CAGTGGGAAT AAACGCATGA CAAGCGGTGC TCGTCTCTCC 
    CAGCCCATCA TCCCTTTGTC CCTGCCTACC GCATCCTCCA AAACGCTAGA AATGGGCCGC 
    AGCTCTAAGA CAAACCCCCT CAACGCTATG GGCCTGGACC ACAATATCGC CACCTCGGGA 
    GGGGATCCCG AATACATCAT GCAACTGGTC AATGATGTGC GCAAGTTTTC TGATGTGCTG 
    CTGAGCCTTA AAGAGGCTTT TCATTCCAAA GAAAGTCAAG AGTGCTCGCA GCACGTGGTG 
    AATGAGCGTC TTGGGGAGTT GGTCCACGTG TTGAAGGCCG TCATTGGCAA ACACCAGGCA 
    CTGAACTCAT CCGAAATCCT TGGTGCCGCG GGGACTGTTA TTGCTAAAGT CAAAGGCGTG 
    AACTTCAAGG AAGTTAATAA CGAAAATAAA AGCACAATAT TTGGCGAGAT ACACACGTCG 
    ATTGACACTT TGGCATTCAC CTTTGGCAAT GTAGTGTCTG ACTTCCTTAT GGGAGATGTG 
    GACGGTGGCT CCAGGTTGGG GTATCCCCAA GCCAGAAGAA GTCGTTCTTT TGAAAACCTC 
    TCTGAAGATT CACGAGGCTG CAGTCAAAAC GATCTGGCAG AACTGTCCAC AGTGGAGCAG 
    GTGGACCTTC TTCTCCTGAA GAATGACAGC GGTGTAGAGT CGGCTCTGCT CTATGCCAAG 
    GCCTGGTCCA AATACACCAA AGACGTTCTG GCCTGGGTGG AGAAACGCCT AAGCCTGGAC 
    ATGGAATGTG CCAAAAGCTT TGCCAAGATG GCAGAATCCG CAAAGGCTGT AGCAAGTCAA 
    CAGGATTTCA TGCCTTTCCG GGATATCTAT GTCTCTGCCT TTAAAAATGA AATCGAGTAC 
    AATCATGTAC TGCTCCAAAC GGCTGCAGCT CTTCAGACCA ACAAATTCAC ACAGCCACTG 
    CTGGCCCGCA AGAATGACCT GGACAAGCAG AGGAAAGAGA TTAAAGAACA ATGGCAAAGA 
    GAGCTGAAGA AAATGAACGA GTCAGAAAGT GCTTTAAAGA AGGCTCGGCT GTTGAAAATG 
    CAGAAGAGGG AGGAATACGA GAAGGCCCGG AGCTCGACCA GCCGTACCGA GGAGGAGCAG 
    CCAGCAGCTG GAGGCAGGAC ACTGGAGAAG AAACGCAGAG TTGAGGAAGA GGCCCTACAG 
    AAGGCAGAGG AAGCGCAGGA GCAGTATAAA GCCTGTGTGG CCGATCTGGA GGCCAAGAAG 
    GTCAGCCTGT CAAACGCTAA GAGTGAGATC CTCGCACAGA TTCGGAAGCT GGTCTTCCAA 
    TGTGACCTGA CCCTCAAAGC GGTGACAGTG AACTGGTTCC AGATGCAGCA GGCTCAGACT 
    ATGCCCCTGT CCGTCAACTA CCAAGCTCTA AGCGAACAAG CCAAGAAGTA CGAACCAGGT 
    CAGCGCTACT CTGAATTTGT GCGCAGTCTC CCTAAAGAGC GTGTGTGGCT GGAGTCTCTG 
    TCTCAGGACA TCACCGCTTC CTCAAAAACG GGAATGTCTC TTCATAAGAG GTCTCAGAAC 
    AGCACCCGCT CGTCTCATGG GAACCTGTCG CAGGGCTCTG CTACATCTAT GGATAATCAC 
    AGCGCAGACG AGGTGGAGGG TAACATGCAG CCATGCAAGG CCAAGATTGC AGAGAGGCGC 
    TCCAACAGCA GTATAGACAT GCAAGTGCCG AGGACGCAGG GCTCTCAGCG GGCCTGGAGC 
    TCAGGCAGTG CCGGTGGAGG AGGGATGTGC AGTGACTCAG AGAGCGCTGG AGGAAGCAGC 
    GAGTCTCGCT CCATGGACTC CCCCACAGCC AGTCCAGGAG ATTTCAAACG CAGGCTTCCC 
    AGAACTCCCT CCACTGGTAC CATGTCTTCT GCGGATGACC TGGATGAGAG GGAGCCACCT 
    TCCCCATCCG ATACTGGCCT CTCTGAAATG GTGATGGAAA CAGCCAGTTC TCCAGGCCCT 
    TTCCGCAATG CCCAAATGTC AAAAGCAGCT CACACACACA AACTACGAAA ACTGCGAGCG 
    CCTTCCAAAT GCAGAGAGTG TGACAGTCTG GTGGTCTTCC ATGGGGCAGA GTGTGAGGAG 
    TGCTCCCTGG CCTGTCATAA GAAATGTCTG GAGACTCTTG CCATTCAGTG TGGTCATAAG 
    AAGCTCCAGG GCAGACTGCA CCTCTTCGGG ATTGACTTTG CCCAAGTAGT AAAGAACAGT 
    CCTGACGGCA TCCCTTTCAT CATCAAAAAA TGCACCTCAG AAATCGAGAG TCGTGCCCTG 
    ACCATTAAGG GCATTTATCG GGTGAATGGG GCGAAGTCTC GTGTGGAAAA GCTGTGCCAG 
    GCCTTTGAGA ATGGAAAGGA CTTAGTGGAG CTTTCTGACC TCCACCCGCA TGACATAAGC 
    AACGTGCTGA AGCTTTACCT GAGACAGTTG CCAGAGCCGT TGATTCTGTA TCGTTATTAT 
    AACGATGTCA TTGGGCTGGC GAAAGAAACT CAGAACATGG ACAAGACAGA CTCAGCTAAA 
    GAGAAATCAG CAGGAGAGCA GCTGGGCCTC AGCACTGAGC TGAAAAGAGT GCTCTTCAAA 
    GTCAGAGATC TCCTTCGACA GCTTCCTGCG CCCCACTACA AAACCCTGCA GTTCCTCGTC 
    ACACATCTGC ACAGAGTTTC AGAGCAAGCT GAGGAGAACA AGATGACCGC TAGTAACCTG 
    GGCATCATCT TTGGCCCCAC GCTCATTAAG CCCAGACATT TGGAGGCAGA AGTGTCGCTT 
    TCCTCCCTGG TTGACTATCC TCACCAGGCC CGCATGGTGG AGCTGCTCAT CAAACACCAT 
    CAGATGATCT TTGACGTGCC CCTCAGCCCC ATGTCTCCAA CCAGTCCAAC TGTATCACAG 
    GCTTCCTTTG GGTCCAGCAT CCAGGACAAA GAGTCCAAAC TCAGCCGTCA CTCTAGATCC 
    CTGATGGACA TCAAAGAGAG TGCAAAACTC TACAAGAGAC ACTCGTCTGT GATCATCCCA 
    GCTCAGCTCA TGGAGGAAGG GAAGGAAATG AAGACTGGAG ACCACAGAGT ACAAACATCT 
    GCAGGTGAGG GCTCAGATGT CAACGGGGTT GGTTTGACTT CTGTTGACTC CACATCTGTG 
    TTCAACCGGC CTGGTGCCAG CAGCCGAATG GTGCAGCTGA GACCTCAGCG TGCCAAGCCG 
    GTGTCTCGAC CAATCAGCAT GCCCATAGAC CGCCTACTCA ACGAACGCAA CAGCCGCAAC 
    ACAGTGGAGC ATGATCACTC ACCCGCCGCC ATTGAGGAGA CCACTGAACC AGAGAAACCG 
    ACAACACCAC GGCACACCAA CTTTTACAGG AACCCCTTCA TTGACACTCA GACGCTGAGG 
    AGGACCTGGG ACAGGCAGTA CAGACATTAT GACGTCACGC CCAGGACTGC AATGATAGTG 
    GCCAACCTGC CACCTTCCGG TGTGCAGAAA CAGCCTGAAA TTAGTATGGG ATCCCAAAGC 
    AGCACCTCTA GAAAAGATGG TACAAGCCAG TCTGGTGTGG CTCCAATATC GTTCAGAGCA 
    GCACGGACAC TAAAACCCTC TTCTCCTGGA ACGTTCTATA GACCTCCCTC TGGAGGCCAG 
    TTGAAGCCAT CTGACTTGCT GGCAAAATCA GTTTCAAGAG CGCCAACCAC TACCACAGGA 
    GCAATTTACA CAACAGCCAT TACTGTATTA ACAACAGCCA GCACGTCATC AGTCATGACG 
    ATCTCTACAG CGGTCACGAC TCCCCCCACC ACGCCAACAA CATCAGTGAC TGTCGCTCTG 
    ACATCCAAGC CCACTTTTAC AACAGTGAGC AGAAGTGTGT CAGGAGGAGC AGGGGAAGGA 
    CTGTCAGAGA GCGACTTGCT CAGCCCAGTT ACACTCTCTC CACCTCAGTC TCCAGTCTCC 
    AGCACTGAGG AGCTCAGCCC GACAGATGCC AAACCCCTCT ATCAGAGACG CAGTCGCCGC 
    ATGCAGGAGC TGGAGCATCG AGAGGCTCAT TTTGTGTAA

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

    RefSeq XP_005163371.1
    CDS468..4466
    Translation

    Target ORF information:

    RefSeq Version XM_005163314.3
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio Rho GTPase activating protein 29b (arhgap29b), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005163314.3

    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
    ATGTTCCGTC AGGGCAGCAA CAGTGGGAAT AAACGCATGA CAAGCGGTGC TCGTCTCTCC 
    CAGCCCATCA TCCCTTTGTC CCTGCCTACC GCATCCTCCA AAACGCTAGA AATGGGCCGC 
    AGCTCTAAGA CAAACCCCCT CAACGCTATG GGCCTGGACC ACAATATCGC CACCTCGGGA 
    GGGGATCCCG AATACATCAT GCAACTGGTC AATGATGTGC GCAAGTTTTC TGATGTGCTG 
    CTGAGCCTTA AAGAGGCTTT TCATTCCAAA GAAAGTCAAG AGTGCTCGCA GCACGTGGTG 
    AATGAGCGTC TTGGGGAGTT GGTCCACGTG TTGAAGGCCG TCATTGGCAA ACACCAGGCA 
    CTGAACTCAT CCGAAATCCT TGGTGCCGCG GGGACTGTTA TTGCTAAAGT CAAAGGCGTG 
    AACTTCAAGG AAGTTAATAA CGAAAATAAA AGCACAATAT TTGGCGAGAT ACACACGTCG 
    ATTGACACTT TGGCATTCAC CTTTGGCAAT GTAGTGTCTG ACTTCCTTAT GGGAGATGTG 
    GACGGTGGCT CCAGGTTGGG GTATCCCCAA GCCAGAAGAA GTCGTTCTTT TGAAAACCTC 
    TCTGAAGATT CACGAGGCTG CAGTCAAAAC GATCTGGCAG AACTGTCCAC AGTGGAGCAG 
    GTGGACCTTC TTCTCCTGAA GAATGACAGC GGTGTAGAGT CGGCTCTGCT CTATGCCAAG 
    GCCTGGTCCA AATACACCAA AGACGTTCTG GCCTGGGTGG AGAAACGCCT AAGCCTGGAC 
    ATGGAATGTG CCAAAAGCTT TGCCAAGATG GCAGAATCCG CAAAGGCTGT AGCAAGTCAA 
    CAGGATTTCA TGCCTTTCCG GGATATCTAT GTCTCTGCCT TTAAAAATGA AATCGAGTAC 
    AATCATGTAC TGCTCCAAAC GGCTGCAGCT CTTCAGACCA ACAAATTCAC ACAGCCACTG 
    CTGGCCCGCA AGAATGACCT GGACAAGCAG AGGAAAGAGA TTAAAGAACA ATGGCAAAGA 
    GAGCTGAAGA AAATGAACGA GTCAGAAAGT GCTTTAAAGA AGGCTCGGCT GTTGAAAATG 
    CAGAAGAGGG AGGAATACGA GAAGGCCCGG AGCTCGACCA GCCGTACCGA GGAGGAGCAG 
    CCAGCAGCTG GAGGCAGGAC ACTGGAGAAG AAACGCAGAG TTGAGGAAGA GGCCCTACAG 
    AAGGCAGAGG AAGCGCAGGA GCAGTATAAA GCCTGTGTGG CCGATCTGGA GGCCAAGAAG 
    GTCAGCCTGT CAAACGCTAA GAGTGAGATC CTCGCACAGA TTCGGAAGCT GGTCTTCCAA 
    TGTGACCTGA CCCTCAAAGC GGTGACAGTG AACTGGTTCC AGATGCAGCA GGCTCAGACT 
    ATGCCCCTGT CCGTCAACTA CCAAGCTCTA AGCGAACAAG CCAAGAAGTA CGAACCAGGT 
    CAGCGCTACT CTGAATTTGT GCGCAGTCTC CCTAAAGAGC GTGTGTGGCT GGAGTCTCTG 
    TCTCAGGACA TCACCGCTTC CTCAAAAACG GGAATGTCTC TTCATAAGAG GTCTCAGAAC 
    AGCACCCGCT CGTCTCATGG GAACCTGTCG CAGGGCTCTG CTACATCTAT GGATAATCAC 
    AGCGCAGACG AGGTGGAGGG TAACATGCAG CCATGCAAGG CCAAGATTGC AGAGAGGCGC 
    TCCAACAGCA GTATAGACAT GCAAGTGCCG AGGACGCAGG GCTCTCAGCG GGCCTGGAGC 
    TCAGGCAGTG CCGGTGGAGG AGGGATGTGC AGTGACTCAG AGAGCGCTGG AGGAAGCAGC 
    GAGTCTCGCT CCATGGACTC CCCCACAGCC AGTCCAGGAG ATTTCAAACG CAGGCTTCCC 
    AGAACTCCCT CCACTGGTAC CATGTCTTCT GCGGATGACC TGGATGAGAG GGAGCCACCT 
    TCCCCATCCG ATACTGGCCT CTCTGAAATG GTGATGGAAA CAGCCAGTTC TCCAGGCCCT 
    TTCCGCAATG CCCAAATGTC AAAAGCAGCT CACACACACA AACTACGAAA ACTGCGAGCG 
    CCTTCCAAAT GCAGAGAGTG TGACAGTCTG GTGGTCTTCC ATGGGGCAGA GTGTGAGGAG 
    TGCTCCCTGG CCTGTCATAA GAAATGTCTG GAGACTCTTG CCATTCAGTG TGGTCATAAG 
    AAGCTCCAGG GCAGACTGCA CCTCTTCGGG ATTGACTTTG CCCAAGTAGT AAAGAACAGT 
    CCTGACGGCA TCCCTTTCAT CATCAAAAAA TGCACCTCAG AAATCGAGAG TCGTGCCCTG 
    ACCATTAAGG GCATTTATCG GGTGAATGGG GCGAAGTCTC GTGTGGAAAA GCTGTGCCAG 
    GCCTTTGAGA ATGGAAAGGA CTTAGTGGAG CTTTCTGACC TCCACCCGCA TGACATAAGC 
    AACGTGCTGA AGCTTTACCT GAGACAGTTG CCAGAGCCGT TGATTCTGTA TCGTTATTAT 
    AACGATGTCA TTGGGCTGGC GAAAGAAACT CAGAACATGG ACAAGACAGA CTCAGCTAAA 
    GAGAAATCAG CAGGAGAGCA GCTGGGCCTC AGCACTGAGC TGAAAAGAGT GCTCTTCAAA 
    GTCAGAGATC TCCTTCGACA GCTTCCTGCG CCCCACTACA AAACCCTGCA GTTCCTCGTC 
    ACACATCTGC ACAGAGTTTC AGAGCAAGCT GAGGAGAACA AGATGACCGC TAGTAACCTG 
    GGCATCATCT TTGGCCCCAC GCTCATTAAG CCCAGACATT TGGAGGCAGA AGTGTCGCTT 
    TCCTCCCTGG TTGACTATCC TCACCAGGCC CGCATGGTGG AGCTGCTCAT CAAACACCAT 
    CAGATGATCT TTGACGTGCC CCTCAGCCCC ATGTCTCCAA CCAGTCCAAC TGTATCACAG 
    GCTTCCTTTG GGTCCAGCAT CCAGGACAAA GAGTCCAAAC TCAGCCGTCA CTCTAGATCC 
    CTGATGGACA TCAAAGAGAG TGCAAAACTC TACAAGAGAC ACTCGTCTGT GATCATCCCA 
    GCTCAGCTCA TGGAGGAAGG GAAGGAAATG AAGACTGGAG ACCACAGAGT ACAAACATCT 
    GCAGGTGAGG GCTCAGATGT CAACGGGGTT GGTTTGACTT CTGTTGACTC CACATCTGTG 
    TTCAACCGGC CTGGTGCCAG CAGCCGAATG GTGCAGCTGA GACCTCAGCG TGCCAAGCCG 
    GTGTCTCGAC CAATCAGCAT GCCCATAGAC CGCCTACTCA ACGAACGCAA CAGCCGCAAC 
    ACAGTGGAGC ATGATCACTC ACCCGCCGCC ATTGAGGAGA CCACTGAACC AGAGAAACCG 
    ACAACACCAC GGCACACCAA CTTTTACAGG AACCCCTTCA TTGACACTCA GACGCTGAGG 
    AGGACCTGGG ACAGGCAGTA CAGACATTAT GACGTCACGC CCAGGACTGC AATGATAGTG 
    GCCAACCTGC CACCTTCCGG TGTGCAGAAA CAGCCTGAAA TTAGTATGGG ATCCCAAAGC 
    AGCACCTCTA GAAAAGATGG TACAAGCCAG TCTGGTGTGG CTCCAATATC GTTCAGAGCA 
    GCACGGACAC TAAAACCCTC TTCTCCTGGA ACGTTCTATA GACCTCCCTC TGGAGGCCAG 
    TTGAAGCCAT CTGACTTGCT GGCAAAATCA GTTTCAAGAG CGCCAACCAC TACCACAGGA 
    GCAATTTACA CAACAGCCAT TACTGTATTA ACAACAGCCA GCACGTCATC AGTCATGACG 
    ATCTCTACAG CGGTCACGAC TCCCCCCACC ACGCCAACAA CATCAGTGAC TGTCGCTCTG 
    ACATCCAAGC CCACTTTTAC AACAGTGAGC AGAAGTGTGT CAGGAGGAGC AGGGGAAGGA 
    CTGTCAGAGA GCGACTTGCT CAGCCCAGTT ACACTCTCTC CACCTCAGTC TCCAGTCTCC 
    AGCACTGAGG AGCTCAGCCC GACAGATGCC AAACCCCTCT ATCAGAGACG CAGTCGCCGC 
    ATGCAGGAGC TGGAGCATCG AGAGGCTCAT TTTGTGTAA

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

    arhgap29b ( XM_005163314.4 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_005163371.1 Danio rerio Rho GTPase activating protein 29b (arhgap29b), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ODa06832
    Clone ID Related Accession (Same CDS sequence) XM_005163314.3 , XM_005163314.4
    Accession Version XM_005163314.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3999bp)
    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 rho GTPase-activating protein 29 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_005163314.3. ##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
    ATGTTCCGTC AGGGCAGCAA CAGTGGGAAT AAACGCATGA CAAGCGGTGC TCGTCTCTCC 
    CAGCCCATCA TCCCTTTGTC CCTGCCTACC GCATCCTCCA AAACGCTAGA AATGGGCCGC 
    AGCTCTAAGA CAAACCCCCT CAACGCTATG GGCCTGGACC ACAATATCGC CACCTCGGGA 
    GGGGATCCCG AATACATCAT GCAACTGGTC AATGATGTGC GCAAGTTTTC TGATGTGCTG 
    CTGAGCCTTA AAGAGGCTTT TCATTCCAAA GAAAGTCAAG AGTGCTCGCA GCACGTGGTG 
    AATGAGCGTC TTGGGGAGTT GGTCCACGTG TTGAAGGCCG TCATTGGCAA ACACCAGGCA 
    CTGAACTCAT CCGAAATCCT TGGTGCCGCG GGGACTGTTA TTGCTAAAGT CAAAGGCGTG 
    AACTTCAAGG AAGTTAATAA CGAAAATAAA AGCACAATAT TTGGCGAGAT ACACACGTCG 
    ATTGACACTT TGGCATTCAC CTTTGGCAAT GTAGTGTCTG ACTTCCTTAT GGGAGATGTG 
    GACGGTGGCT CCAGGTTGGG GTATCCCCAA GCCAGAAGAA GTCGTTCTTT TGAAAACCTC 
    TCTGAAGATT CACGAGGCTG CAGTCAAAAC GATCTGGCAG AACTGTCCAC AGTGGAGCAG 
    GTGGACCTTC TTCTCCTGAA GAATGACAGC GGTGTAGAGT CGGCTCTGCT CTATGCCAAG 
    GCCTGGTCCA AATACACCAA AGACGTTCTG GCCTGGGTGG AGAAACGCCT AAGCCTGGAC 
    ATGGAATGTG CCAAAAGCTT TGCCAAGATG GCAGAATCCG CAAAGGCTGT AGCAAGTCAA 
    CAGGATTTCA TGCCTTTCCG GGATATCTAT GTCTCTGCCT TTAAAAATGA AATCGAGTAC 
    AATCATGTAC TGCTCCAAAC GGCTGCAGCT CTTCAGACCA ACAAATTCAC ACAGCCACTG 
    CTGGCCCGCA AGAATGACCT GGACAAGCAG AGGAAAGAGA TTAAAGAACA ATGGCAAAGA 
    GAGCTGAAGA AAATGAACGA GTCAGAAAGT GCTTTAAAGA AGGCTCGGCT GTTGAAAATG 
    CAGAAGAGGG AGGAATACGA GAAGGCCCGG AGCTCGACCA GCCGTACCGA GGAGGAGCAG 
    CCAGCAGCTG GAGGCAGGAC ACTGGAGAAG AAACGCAGAG TTGAGGAAGA GGCCCTACAG 
    AAGGCAGAGG AAGCGCAGGA GCAGTATAAA GCCTGTGTGG CCGATCTGGA GGCCAAGAAG 
    GTCAGCCTGT CAAACGCTAA GAGTGAGATC CTCGCACAGA TTCGGAAGCT GGTCTTCCAA 
    TGTGACCTGA CCCTCAAAGC GGTGACAGTG AACTGGTTCC AGATGCAGCA GGCTCAGACT 
    ATGCCCCTGT CCGTCAACTA CCAAGCTCTA AGCGAACAAG CCAAGAAGTA CGAACCAGGT 
    CAGCGCTACT CTGAATTTGT GCGCAGTCTC CCTAAAGAGC GTGTGTGGCT GGAGTCTCTG 
    TCTCAGGACA TCACCGCTTC CTCAAAAACG GGAATGTCTC TTCATAAGAG GTCTCAGAAC 
    AGCACCCGCT CGTCTCATGG GAACCTGTCG CAGGGCTCTG CTACATCTAT GGATAATCAC 
    AGCGCAGACG AGGTGGAGGG TAACATGCAG CCATGCAAGG CCAAGATTGC AGAGAGGCGC 
    TCCAACAGCA GTATAGACAT GCAAGTGCCG AGGACGCAGG GCTCTCAGCG GGCCTGGAGC 
    TCAGGCAGTG CCGGTGGAGG AGGGATGTGC AGTGACTCAG AGAGCGCTGG AGGAAGCAGC 
    GAGTCTCGCT CCATGGACTC CCCCACAGCC AGTCCAGGAG ATTTCAAACG CAGGCTTCCC 
    AGAACTCCCT CCACTGGTAC CATGTCTTCT GCGGATGACC TGGATGAGAG GGAGCCACCT 
    TCCCCATCCG ATACTGGCCT CTCTGAAATG GTGATGGAAA CAGCCAGTTC TCCAGGCCCT 
    TTCCGCAATG CCCAAATGTC AAAAGCAGCT CACACACACA AACTACGAAA ACTGCGAGCG 
    CCTTCCAAAT GCAGAGAGTG TGACAGTCTG GTGGTCTTCC ATGGGGCAGA GTGTGAGGAG 
    TGCTCCCTGG CCTGTCATAA GAAATGTCTG GAGACTCTTG CCATTCAGTG TGGTCATAAG 
    AAGCTCCAGG GCAGACTGCA CCTCTTCGGG ATTGACTTTG CCCAAGTAGT AAAGAACAGT 
    CCTGACGGCA TCCCTTTCAT CATCAAAAAA TGCACCTCAG AAATCGAGAG TCGTGCCCTG 
    ACCATTAAGG GCATTTATCG GGTGAATGGG GCGAAGTCTC GTGTGGAAAA GCTGTGCCAG 
    GCCTTTGAGA ATGGAAAGGA CTTAGTGGAG CTTTCTGACC TCCACCCGCA TGACATAAGC 
    AACGTGCTGA AGCTTTACCT GAGACAGTTG CCAGAGCCGT TGATTCTGTA TCGTTATTAT 
    AACGATGTCA TTGGGCTGGC GAAAGAAACT CAGAACATGG ACAAGACAGA CTCAGCTAAA 
    GAGAAATCAG CAGGAGAGCA GCTGGGCCTC AGCACTGAGC TGAAAAGAGT GCTCTTCAAA 
    GTCAGAGATC TCCTTCGACA GCTTCCTGCG CCCCACTACA AAACCCTGCA GTTCCTCGTC 
    ACACATCTGC ACAGAGTTTC AGAGCAAGCT GAGGAGAACA AGATGACCGC TAGTAACCTG 
    GGCATCATCT TTGGCCCCAC GCTCATTAAG CCCAGACATT TGGAGGCAGA AGTGTCGCTT 
    TCCTCCCTGG TTGACTATCC TCACCAGGCC CGCATGGTGG AGCTGCTCAT CAAACACCAT 
    CAGATGATCT TTGACGTGCC CCTCAGCCCC ATGTCTCCAA CCAGTCCAAC TGTATCACAG 
    GCTTCCTTTG GGTCCAGCAT CCAGGACAAA GAGTCCAAAC TCAGCCGTCA CTCTAGATCC 
    CTGATGGACA TCAAAGAGAG TGCAAAACTC TACAAGAGAC ACTCGTCTGT GATCATCCCA 
    GCTCAGCTCA TGGAGGAAGG GAAGGAAATG AAGACTGGAG ACCACAGAGT ACAAACATCT 
    GCAGGTGAGG GCTCAGATGT CAACGGGGTT GGTTTGACTT CTGTTGACTC CACATCTGTG 
    TTCAACCGGC CTGGTGCCAG CAGCCGAATG GTGCAGCTGA GACCTCAGCG TGCCAAGCCG 
    GTGTCTCGAC CAATCAGCAT GCCCATAGAC CGCCTACTCA ACGAACGCAA CAGCCGCAAC 
    ACAGTGGAGC ATGATCACTC ACCCGCCGCC ATTGAGGAGA CCACTGAACC AGAGAAACCG 
    ACAACACCAC GGCACACCAA CTTTTACAGG AACCCCTTCA TTGACACTCA GACGCTGAGG 
    AGGACCTGGG ACAGGCAGTA CAGACATTAT GACGTCACGC CCAGGACTGC AATGATAGTG 
    GCCAACCTGC CACCTTCCGG TGTGCAGAAA CAGCCTGAAA TTAGTATGGG ATCCCAAAGC 
    AGCACCTCTA GAAAAGATGG TACAAGCCAG TCTGGTGTGG CTCCAATATC GTTCAGAGCA 
    GCACGGACAC TAAAACCCTC TTCTCCTGGA ACGTTCTATA GACCTCCCTC TGGAGGCCAG 
    TTGAAGCCAT CTGACTTGCT GGCAAAATCA GTTTCAAGAG CGCCAACCAC TACCACAGGA 
    GCAATTTACA CAACAGCCAT TACTGTATTA ACAACAGCCA GCACGTCATC AGTCATGACG 
    ATCTCTACAG CGGTCACGAC TCCCCCCACC ACGCCAACAA CATCAGTGAC TGTCGCTCTG 
    ACATCCAAGC CCACTTTTAC AACAGTGAGC AGAAGTGTGT CAGGAGGAGC AGGGGAAGGA 
    CTGTCAGAGA GCGACTTGCT CAGCCCAGTT ACACTCTCTC CACCTCAGTC TCCAGTCTCC 
    AGCACTGAGG AGCTCAGCCC GACAGATGCC AAACCCCTCT ATCAGAGACG CAGTCGCCGC 
    ATGCAGGAGC TGGAGCATCG AGAGGCTCAT TTTGTGTAA

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

    RefSeq XP_005163371.1
    CDS298..4296
    Translation

    Target ORF information:

    RefSeq Version XM_005163314.4
    Organism Danio rerio(zebrafish)
    Definition Danio rerio Rho GTPase activating protein 29b (arhgap29b), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005163314.4

    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
    ATGTTCCGTC AGGGCAGCAA CAGTGGGAAT AAACGCATGA CAAGCGGTGC TCGTCTCTCC 
    CAGCCCATCA TCCCTTTGTC CCTGCCTACC GCATCCTCCA AAACGCTAGA AATGGGCCGC 
    AGCTCTAAGA CAAACCCCCT CAACGCTATG GGCCTGGACC ACAATATCGC CACCTCGGGA 
    GGGGATCCCG AATACATCAT GCAACTGGTC AATGATGTGC GCAAGTTTTC TGATGTGCTG 
    CTGAGCCTTA AAGAGGCTTT TCATTCCAAA GAAAGTCAAG AGTGCTCGCA GCACGTGGTG 
    AATGAGCGTC TTGGGGAGTT GGTCCACGTG TTGAAGGCCG TCATTGGCAA ACACCAGGCA 
    CTGAACTCAT CCGAAATCCT TGGTGCCGCG GGGACTGTTA TTGCTAAAGT CAAAGGCGTG 
    AACTTCAAGG AAGTTAATAA CGAAAATAAA AGCACAATAT TTGGCGAGAT ACACACGTCG 
    ATTGACACTT TGGCATTCAC CTTTGGCAAT GTAGTGTCTG ACTTCCTTAT GGGAGATGTG 
    GACGGTGGCT CCAGGTTGGG GTATCCCCAA GCCAGAAGAA GTCGTTCTTT TGAAAACCTC 
    TCTGAAGATT CACGAGGCTG CAGTCAAAAC GATCTGGCAG AACTGTCCAC AGTGGAGCAG 
    GTGGACCTTC TTCTCCTGAA GAATGACAGC GGTGTAGAGT CGGCTCTGCT CTATGCCAAG 
    GCCTGGTCCA AATACACCAA AGACGTTCTG GCCTGGGTGG AGAAACGCCT AAGCCTGGAC 
    ATGGAATGTG CCAAAAGCTT TGCCAAGATG GCAGAATCCG CAAAGGCTGT AGCAAGTCAA 
    CAGGATTTCA TGCCTTTCCG GGATATCTAT GTCTCTGCCT TTAAAAATGA AATCGAGTAC 
    AATCATGTAC TGCTCCAAAC GGCTGCAGCT CTTCAGACCA ACAAATTCAC ACAGCCACTG 
    CTGGCCCGCA AGAATGACCT GGACAAGCAG AGGAAAGAGA TTAAAGAACA ATGGCAAAGA 
    GAGCTGAAGA AAATGAACGA GTCAGAAAGT GCTTTAAAGA AGGCTCGGCT GTTGAAAATG 
    CAGAAGAGGG AGGAATACGA GAAGGCCCGG AGCTCGACCA GCCGTACCGA GGAGGAGCAG 
    CCAGCAGCTG GAGGCAGGAC ACTGGAGAAG AAACGCAGAG TTGAGGAAGA GGCCCTACAG 
    AAGGCAGAGG AAGCGCAGGA GCAGTATAAA GCCTGTGTGG CCGATCTGGA GGCCAAGAAG 
    GTCAGCCTGT CAAACGCTAA GAGTGAGATC CTCGCACAGA TTCGGAAGCT GGTCTTCCAA 
    TGTGACCTGA CCCTCAAAGC GGTGACAGTG AACTGGTTCC AGATGCAGCA GGCTCAGACT 
    ATGCCCCTGT CCGTCAACTA CCAAGCTCTA AGCGAACAAG CCAAGAAGTA CGAACCAGGT 
    CAGCGCTACT CTGAATTTGT GCGCAGTCTC CCTAAAGAGC GTGTGTGGCT GGAGTCTCTG 
    TCTCAGGACA TCACCGCTTC CTCAAAAACG GGAATGTCTC TTCATAAGAG GTCTCAGAAC 
    AGCACCCGCT CGTCTCATGG GAACCTGTCG CAGGGCTCTG CTACATCTAT GGATAATCAC 
    AGCGCAGACG AGGTGGAGGG TAACATGCAG CCATGCAAGG CCAAGATTGC AGAGAGGCGC 
    TCCAACAGCA GTATAGACAT GCAAGTGCCG AGGACGCAGG GCTCTCAGCG GGCCTGGAGC 
    TCAGGCAGTG CCGGTGGAGG AGGGATGTGC AGTGACTCAG AGAGCGCTGG AGGAAGCAGC 
    GAGTCTCGCT CCATGGACTC CCCCACAGCC AGTCCAGGAG ATTTCAAACG CAGGCTTCCC 
    AGAACTCCCT CCACTGGTAC CATGTCTTCT GCGGATGACC TGGATGAGAG GGAGCCACCT 
    TCCCCATCCG ATACTGGCCT CTCTGAAATG GTGATGGAAA CAGCCAGTTC TCCAGGCCCT 
    TTCCGCAATG CCCAAATGTC AAAAGCAGCT CACACACACA AACTACGAAA ACTGCGAGCG 
    CCTTCCAAAT GCAGAGAGTG TGACAGTCTG GTGGTCTTCC ATGGGGCAGA GTGTGAGGAG 
    TGCTCCCTGG CCTGTCATAA GAAATGTCTG GAGACTCTTG CCATTCAGTG TGGTCATAAG 
    AAGCTCCAGG GCAGACTGCA CCTCTTCGGG ATTGACTTTG CCCAAGTAGT AAAGAACAGT 
    CCTGACGGCA TCCCTTTCAT CATCAAAAAA TGCACCTCAG AAATCGAGAG TCGTGCCCTG 
    ACCATTAAGG GCATTTATCG GGTGAATGGG GCGAAGTCTC GTGTGGAAAA GCTGTGCCAG 
    GCCTTTGAGA ATGGAAAGGA CTTAGTGGAG CTTTCTGACC TCCACCCGCA TGACATAAGC 
    AACGTGCTGA AGCTTTACCT GAGACAGTTG CCAGAGCCGT TGATTCTGTA TCGTTATTAT 
    AACGATGTCA TTGGGCTGGC GAAAGAAACT CAGAACATGG ACAAGACAGA CTCAGCTAAA 
    GAGAAATCAG CAGGAGAGCA GCTGGGCCTC AGCACTGAGC TGAAAAGAGT GCTCTTCAAA 
    GTCAGAGATC TCCTTCGACA GCTTCCTGCG CCCCACTACA AAACCCTGCA GTTCCTCGTC 
    ACACATCTGC ACAGAGTTTC AGAGCAAGCT GAGGAGAACA AGATGACCGC TAGTAACCTG 
    GGCATCATCT TTGGCCCCAC GCTCATTAAG CCCAGACATT TGGAGGCAGA AGTGTCGCTT 
    TCCTCCCTGG TTGACTATCC TCACCAGGCC CGCATGGTGG AGCTGCTCAT CAAACACCAT 
    CAGATGATCT TTGACGTGCC CCTCAGCCCC ATGTCTCCAA CCAGTCCAAC TGTATCACAG 
    GCTTCCTTTG GGTCCAGCAT CCAGGACAAA GAGTCCAAAC TCAGCCGTCA CTCTAGATCC 
    CTGATGGACA TCAAAGAGAG TGCAAAACTC TACAAGAGAC ACTCGTCTGT GATCATCCCA 
    GCTCAGCTCA TGGAGGAAGG GAAGGAAATG AAGACTGGAG ACCACAGAGT ACAAACATCT 
    GCAGGTGAGG GCTCAGATGT CAACGGGGTT GGTTTGACTT CTGTTGACTC CACATCTGTG 
    TTCAACCGGC CTGGTGCCAG CAGCCGAATG GTGCAGCTGA GACCTCAGCG TGCCAAGCCG 
    GTGTCTCGAC CAATCAGCAT GCCCATAGAC CGCCTACTCA ACGAACGCAA CAGCCGCAAC 
    ACAGTGGAGC ATGATCACTC ACCCGCCGCC ATTGAGGAGA CCACTGAACC AGAGAAACCG 
    ACAACACCAC GGCACACCAA CTTTTACAGG AACCCCTTCA TTGACACTCA GACGCTGAGG 
    AGGACCTGGG ACAGGCAGTA CAGACATTAT GACGTCACGC CCAGGACTGC AATGATAGTG 
    GCCAACCTGC CACCTTCCGG TGTGCAGAAA CAGCCTGAAA TTAGTATGGG ATCCCAAAGC 
    AGCACCTCTA GAAAAGATGG TACAAGCCAG TCTGGTGTGG CTCCAATATC GTTCAGAGCA 
    GCACGGACAC TAAAACCCTC TTCTCCTGGA ACGTTCTATA GACCTCCCTC TGGAGGCCAG 
    TTGAAGCCAT CTGACTTGCT GGCAAAATCA GTTTCAAGAG CGCCAACCAC TACCACAGGA 
    GCAATTTACA CAACAGCCAT TACTGTATTA ACAACAGCCA GCACGTCATC AGTCATGACG 
    ATCTCTACAG CGGTCACGAC TCCCCCCACC ACGCCAACAA CATCAGTGAC TGTCGCTCTG 
    ACATCCAAGC CCACTTTTAC AACAGTGAGC AGAAGTGTGT CAGGAGGAGC AGGGGAAGGA 
    CTGTCAGAGA GCGACTTGCT CAGCCCAGTT ACACTCTCTC CACCTCAGTC TCCAGTCTCC 
    AGCACTGAGG AGCTCAGCCC GACAGATGCC AAACCCCTCT ATCAGAGACG CAGTCGCCGC 
    ATGCAGGAGC TGGAGCATCG AGAGGCTCAT TTTGTGTAA

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

    arhgap29b ( XM_005163315.4 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_005163372.1 Danio rerio Rho GTPase activating protein 29b (arhgap29b), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID ODa06833
    Clone ID Related Accession (Same CDS sequence) XM_005163315.4 , XM_005163315.3
    Accession Version XM_005163315.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3489bp)
    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 rho GTPase-activating protein 29 isoform X3
    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_005163315.3. ##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
    ATGGGAGATG TGGACGGTGG CTCCAGGTTG GGGTATCCCC AAGCCAGAAG AAGTCGTTCT 
    TTTGAAAACC TCTCTGAAGA TTCACGAGGC TGCAGTCAAA ACGATCTGGC AGACCATTCT 
    CTGTCTCCAG AACTGTCCAC AGTGGAGCAG GTGGACCTTC TTCTCCTGAA GAATGACAGC 
    GGTGTAGAGT CGGCTCTGCT CTATGCCAAG GCCTGGTCCA AATACACCAA AGACGTTCTG 
    GCCTGGGTGG AGAAACGCCT AAGCCTGGAC ATGGAATGTG CCAAAAGCTT TGCCAAGATG 
    GCAGAATCCG CAAAGGCTGT AGCAAGTCAA CAGGATTTCA TGCCTTTCCG GGATATCTAT 
    GTCTCTGCCT TTAAAAATGA AATCGAGTAC AATCATGTAC TGCTCCAAAC GGCTGCAGCT 
    CTTCAGACCA ACAAATTCAC ACAGCCACTG CTGGCCCGCA AGAATGACCT GGACAAGCAG 
    AGGAAAGAGA TTAAAGAACA ATGGCAAAGA GAGCTGAAGA AAATGAACGA GTCAGAAAGT 
    GCTTTAAAGA AGGCTCGGCT GTTGAAAATG CAGAAGAGGG AGGAATACGA GAAGGCCCGG 
    AGCTCGACCA GCCGTACCGA GGAGGAGCAG CCAGCAGCTG GAGGCAGGAC ACTGGAGAAG 
    AAACGCAGAG TTGAGGAAGA GGCCCTACAG AAGGCAGAGG AAGCGCAGGA GCAGTATAAA 
    GCCTGTGTGG CCGATCTGGA GGCCAAGAAG GTCAGCCTGT CAAACGCTAA GAGTGAGATC 
    CTCGCACAGA TTCGGAAGCT GGTCTTCCAA TGTGACCTGA CCCTCAAAGC GGTGACAGTG 
    AACTGGTTCC AGATGCAGCA GGCTCAGACT ATGCCCCTGT CCGTCAACTA CCAAGCTCTA 
    AGCGAACAAG CCAAGAAGTA CGAACCAGGT CAGCGCTACT CTGAATTTGT GCGCAGTCTC 
    CCTAAAGAGC GTGTGTGGCT GGAGTCTCTG TCTCAGGACA TCACCGCTTC CTCAAAAACG 
    GGAATGTCTC TTCATAAGAG GTCTCAGAAC AGCACCCGCT CGTCTCATGG GAACCTGTCG 
    CAGGGCTCTG CTACATCTAT GGATAATCAC AGCGCAGACG AGGTGGAGGG TAACATGCAG 
    CCATGCAAGG CCAAGATTGC AGAGAGGCGC TCCAACAGCA GTATAGACAT GCAAGTGCCG 
    AGGACGCAGG GCTCTCAGCG GGCCTGGAGC TCAGGCAGTG CCGGTGGAGG AGGGATGTGC 
    AGTGACTCAG AGAGCGCTGG AGGAAGCAGC GAGTCTCGCT CCATGGACTC CCCCACAGCC 
    AGTCCAGGAG ATTTCAAACG CAGGCTTCCC AGAACTCCCT CCACTGGTAC CATGTCTTCT 
    GCGGATGACC TGGATGAGAG GGAGCCACCT TCCCCATCCG ATACTGGCCT CTCTGAAATG 
    GTGATGGAAA CAGCCAGTTC TCCAGGCCCT TTCCGCAATG CCCAAATGTC AAAAGCAGCT 
    CACACACACA AACTACGAAA ACTGCGAGCG CCTTCCAAAT GCAGAGAGTG TGACAGTCTG 
    GTGGTCTTCC ATGGGGCAGA GTGTGAGGAG TGCTCCCTGG CCTGTCATAA GAAATGTCTG 
    GAGACTCTTG CCATTCAGTG TGGTCATAAG AAGCTCCAGG GCAGACTGCA CCTCTTCGGG 
    ATTGACTTTG CCCAAGTAGT AAAGAACAGT CCTGACGGCA TCCCTTTCAT CATCAAAAAA 
    TGCACCTCAG AAATCGAGAG TCGTGCCCTG ACCATTAAGG GCATTTATCG GGTGAATGGG 
    GCGAAGTCTC GTGTGGAAAA GCTGTGCCAG GCCTTTGAGA ATGGAAAGGA CTTAGTGGAG 
    CTTTCTGACC TCCACCCGCA TGACATAAGC AACGTGCTGA AGCTTTACCT GAGACAGTTG 
    CCAGAGCCGT TGATTCTGTA TCGTTATTAT AACGATGTCA TTGGGCTGGC GAAAGAAACT 
    CAGAACATGG ACAAGACAGA CTCAGCTAAA GAGAAATCAG CAGGAGAGCA GCTGGGCCTC 
    AGCACTGAGC TGAAAAGAGT GCTCTTCAAA GTCAGAGATC TCCTTCGACA GCTTCCTGCG 
    CCCCACTACA AAACCCTGCA GTTCCTCGTC ACACATCTGC ACAGAGTTTC AGAGCAAGCT 
    GAGGAGAACA AGATGACCGC TAGTAACCTG GGCATCATCT TTGGCCCCAC GCTCATTAAG 
    CCCAGACATT TGGAGGCAGA AGTGTCGCTT TCCTCCCTGG TTGACTATCC TCACCAGGCC 
    CGCATGGTGG AGCTGCTCAT CAAACACCAT CAGATGATCT TTGACGTGCC CCTCAGCCCC 
    ATGTCTCCAA CCAGTCCAAC TGTATCACAG GCTTCCTTTG GGTCCAGCAT CCAGGACAAA 
    GAGTCCAAAC TCAGCCGTCA CTCTAGATCC CTGATGGACA TCAAAGAGAG TGCAAAACTC 
    TACAAGAGAC ACTCGTCTGT GATCATCCCA GCTCAGCTCA TGGAGGAAGG GAAGGAAATG 
    AAGACTGGAG ACCACAGAGT ACAAACATCT GCAGGTGAGG GCTCAGATGT CAACGGGGTT 
    GGTTTGACTT CTGTTGACTC CACATCTGTG TTCAACCGGC CTGGTGCCAG CAGCCGAATG 
    GTGCAGCTGA GACCTCAGCG TGCCAAGCCG GTGTCTCGAC CAATCAGCAT GCCCATAGAC 
    CGCCTACTCA ACGAACGCAA CAGCCGCAAC ACAGTGGAGC ATGATCACTC ACCCGCCGCC 
    ATTGAGGAGA CCACTGAACC AGAGAAACCG ACAACACCAC GGCACACCAA CTTTTACAGG 
    AACCCCTTCA TTGACACTCA GACGCTGAGG AGGACCTGGG ACAGGCAGTA CAGACATTAT 
    GACGTCACGC CCAGGACTGC AATGATAGTG GCCAACCTGC CACCTTCCGG TGTGCAGAAA 
    CAGCCTGAAA TTAGTATGGG ATCCCAAAGC AGCACCTCTA GAAAAGATGG TACAAGCCAG 
    TCTGGTGTGG CTCCAATATC GTTCAGAGCA GCACGGACAC TAAAACCCTC TTCTCCTGGA 
    ACGTTCTATA GACCTCCCTC TGGAGGCCAG TTGAAGCCAT CTGACTTGCT GGCAAAATCA 
    GTTTCAAGAG CGCCAACCAC TACCACAGGA GCAATTTACA CAACAGCCAT TACTGTATTA 
    ACAACAGCCA GCACGTCATC AGTCATGACG ATCTCTACAG CGGTCACGAC TCCCCCCACC 
    ACGCCAACAA CATCAGTGAC TGTCGCTCTG ACATCCAAGC CCACTTTTAC AACAGTGAGC 
    AGAAGTGTGT CAGGAGGAGC AGGGGAAGGA CTGTCAGAGA GCGACTTGCT CAGCCCAGTT 
    ACACTCTCTC CACCTCAGTC TCCAGTCTCC AGCACTGAGG AGCTCAGCCC GACAGATGCC 
    AAACCCCTCT ATCAGAGACG CAGTCGCCGC ATGCAGGAGC TGGAGCATCG AGAGGCTCAT 
    TTTGTGTAA

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

    RefSeq XP_005163372.1
    CDS638..4126
    Translation

    Target ORF information:

    RefSeq Version XM_005163315.4
    Organism Danio rerio(zebrafish)
    Definition Danio rerio Rho GTPase activating protein 29b (arhgap29b), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005163315.4

    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
    ATGGGAGATG TGGACGGTGG CTCCAGGTTG GGGTATCCCC AAGCCAGAAG AAGTCGTTCT 
    TTTGAAAACC TCTCTGAAGA TTCACGAGGC TGCAGTCAAA ACGATCTGGC AGACCATTCT 
    CTGTCTCCAG AACTGTCCAC AGTGGAGCAG GTGGACCTTC TTCTCCTGAA GAATGACAGC 
    GGTGTAGAGT CGGCTCTGCT CTATGCCAAG GCCTGGTCCA AATACACCAA AGACGTTCTG 
    GCCTGGGTGG AGAAACGCCT AAGCCTGGAC ATGGAATGTG CCAAAAGCTT TGCCAAGATG 
    GCAGAATCCG CAAAGGCTGT AGCAAGTCAA CAGGATTTCA TGCCTTTCCG GGATATCTAT 
    GTCTCTGCCT TTAAAAATGA AATCGAGTAC AATCATGTAC TGCTCCAAAC GGCTGCAGCT 
    CTTCAGACCA ACAAATTCAC ACAGCCACTG CTGGCCCGCA AGAATGACCT GGACAAGCAG 
    AGGAAAGAGA TTAAAGAACA ATGGCAAAGA GAGCTGAAGA AAATGAACGA GTCAGAAAGT 
    GCTTTAAAGA AGGCTCGGCT GTTGAAAATG CAGAAGAGGG AGGAATACGA GAAGGCCCGG 
    AGCTCGACCA GCCGTACCGA GGAGGAGCAG CCAGCAGCTG GAGGCAGGAC ACTGGAGAAG 
    AAACGCAGAG TTGAGGAAGA GGCCCTACAG AAGGCAGAGG AAGCGCAGGA GCAGTATAAA 
    GCCTGTGTGG CCGATCTGGA GGCCAAGAAG GTCAGCCTGT CAAACGCTAA GAGTGAGATC 
    CTCGCACAGA TTCGGAAGCT GGTCTTCCAA TGTGACCTGA CCCTCAAAGC GGTGACAGTG 
    AACTGGTTCC AGATGCAGCA GGCTCAGACT ATGCCCCTGT CCGTCAACTA CCAAGCTCTA 
    AGCGAACAAG CCAAGAAGTA CGAACCAGGT CAGCGCTACT CTGAATTTGT GCGCAGTCTC 
    CCTAAAGAGC GTGTGTGGCT GGAGTCTCTG TCTCAGGACA TCACCGCTTC CTCAAAAACG 
    GGAATGTCTC TTCATAAGAG GTCTCAGAAC AGCACCCGCT CGTCTCATGG GAACCTGTCG 
    CAGGGCTCTG CTACATCTAT GGATAATCAC AGCGCAGACG AGGTGGAGGG TAACATGCAG 
    CCATGCAAGG CCAAGATTGC AGAGAGGCGC TCCAACAGCA GTATAGACAT GCAAGTGCCG 
    AGGACGCAGG GCTCTCAGCG GGCCTGGAGC TCAGGCAGTG CCGGTGGAGG AGGGATGTGC 
    AGTGACTCAG AGAGCGCTGG AGGAAGCAGC GAGTCTCGCT CCATGGACTC CCCCACAGCC 
    AGTCCAGGAG ATTTCAAACG CAGGCTTCCC AGAACTCCCT CCACTGGTAC CATGTCTTCT 
    GCGGATGACC TGGATGAGAG GGAGCCACCT TCCCCATCCG ATACTGGCCT CTCTGAAATG 
    GTGATGGAAA CAGCCAGTTC TCCAGGCCCT TTCCGCAATG CCCAAATGTC AAAAGCAGCT 
    CACACACACA AACTACGAAA ACTGCGAGCG CCTTCCAAAT GCAGAGAGTG TGACAGTCTG 
    GTGGTCTTCC ATGGGGCAGA GTGTGAGGAG TGCTCCCTGG CCTGTCATAA GAAATGTCTG 
    GAGACTCTTG CCATTCAGTG TGGTCATAAG AAGCTCCAGG GCAGACTGCA CCTCTTCGGG 
    ATTGACTTTG CCCAAGTAGT AAAGAACAGT CCTGACGGCA TCCCTTTCAT CATCAAAAAA 
    TGCACCTCAG AAATCGAGAG TCGTGCCCTG ACCATTAAGG GCATTTATCG GGTGAATGGG 
    GCGAAGTCTC GTGTGGAAAA GCTGTGCCAG GCCTTTGAGA ATGGAAAGGA CTTAGTGGAG 
    CTTTCTGACC TCCACCCGCA TGACATAAGC AACGTGCTGA AGCTTTACCT GAGACAGTTG 
    CCAGAGCCGT TGATTCTGTA TCGTTATTAT AACGATGTCA TTGGGCTGGC GAAAGAAACT 
    CAGAACATGG ACAAGACAGA CTCAGCTAAA GAGAAATCAG CAGGAGAGCA GCTGGGCCTC 
    AGCACTGAGC TGAAAAGAGT GCTCTTCAAA GTCAGAGATC TCCTTCGACA GCTTCCTGCG 
    CCCCACTACA AAACCCTGCA GTTCCTCGTC ACACATCTGC ACAGAGTTTC AGAGCAAGCT 
    GAGGAGAACA AGATGACCGC TAGTAACCTG GGCATCATCT TTGGCCCCAC GCTCATTAAG 
    CCCAGACATT TGGAGGCAGA AGTGTCGCTT TCCTCCCTGG TTGACTATCC TCACCAGGCC 
    CGCATGGTGG AGCTGCTCAT CAAACACCAT CAGATGATCT TTGACGTGCC CCTCAGCCCC 
    ATGTCTCCAA CCAGTCCAAC TGTATCACAG GCTTCCTTTG GGTCCAGCAT CCAGGACAAA 
    GAGTCCAAAC TCAGCCGTCA CTCTAGATCC CTGATGGACA TCAAAGAGAG TGCAAAACTC 
    TACAAGAGAC ACTCGTCTGT GATCATCCCA GCTCAGCTCA TGGAGGAAGG GAAGGAAATG 
    AAGACTGGAG ACCACAGAGT ACAAACATCT GCAGGTGAGG GCTCAGATGT CAACGGGGTT 
    GGTTTGACTT CTGTTGACTC CACATCTGTG TTCAACCGGC CTGGTGCCAG CAGCCGAATG 
    GTGCAGCTGA GACCTCAGCG TGCCAAGCCG GTGTCTCGAC CAATCAGCAT GCCCATAGAC 
    CGCCTACTCA ACGAACGCAA CAGCCGCAAC ACAGTGGAGC ATGATCACTC ACCCGCCGCC 
    ATTGAGGAGA CCACTGAACC AGAGAAACCG ACAACACCAC GGCACACCAA CTTTTACAGG 
    AACCCCTTCA TTGACACTCA GACGCTGAGG AGGACCTGGG ACAGGCAGTA CAGACATTAT 
    GACGTCACGC CCAGGACTGC AATGATAGTG GCCAACCTGC CACCTTCCGG TGTGCAGAAA 
    CAGCCTGAAA TTAGTATGGG ATCCCAAAGC AGCACCTCTA GAAAAGATGG TACAAGCCAG 
    TCTGGTGTGG CTCCAATATC GTTCAGAGCA GCACGGACAC TAAAACCCTC TTCTCCTGGA 
    ACGTTCTATA GACCTCCCTC TGGAGGCCAG TTGAAGCCAT CTGACTTGCT GGCAAAATCA 
    GTTTCAAGAG CGCCAACCAC TACCACAGGA GCAATTTACA CAACAGCCAT TACTGTATTA 
    ACAACAGCCA GCACGTCATC AGTCATGACG ATCTCTACAG CGGTCACGAC TCCCCCCACC 
    ACGCCAACAA CATCAGTGAC TGTCGCTCTG ACATCCAAGC CCACTTTTAC AACAGTGAGC 
    AGAAGTGTGT CAGGAGGAGC AGGGGAAGGA CTGTCAGAGA GCGACTTGCT CAGCCCAGTT 
    ACACTCTCTC CACCTCAGTC TCCAGTCTCC AGCACTGAGG AGCTCAGCCC GACAGATGCC 
    AAACCCCTCT ATCAGAGACG CAGTCGCCGC ATGCAGGAGC TGGAGCATCG AGAGGCTCAT 
    TTTGTGTAA

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

    arhgap29b ( XM_005163315.3 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_005163372.1 Danio rerio Rho GTPase activating protein 29b (arhgap29b), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID ODa06833
    Clone ID Related Accession (Same CDS sequence) XM_005163315.4 , XM_005163315.3
    Accession Version XM_005163315.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3489bp)
    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 rho GTPase-activating protein 29 isoform X3
    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_005163315.2. ##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
    ATGGGAGATG TGGACGGTGG CTCCAGGTTG GGGTATCCCC AAGCCAGAAG AAGTCGTTCT 
    TTTGAAAACC TCTCTGAAGA TTCACGAGGC TGCAGTCAAA ACGATCTGGC AGACCATTCT 
    CTGTCTCCAG AACTGTCCAC AGTGGAGCAG GTGGACCTTC TTCTCCTGAA GAATGACAGC 
    GGTGTAGAGT CGGCTCTGCT CTATGCCAAG GCCTGGTCCA AATACACCAA AGACGTTCTG 
    GCCTGGGTGG AGAAACGCCT AAGCCTGGAC ATGGAATGTG CCAAAAGCTT TGCCAAGATG 
    GCAGAATCCG CAAAGGCTGT AGCAAGTCAA CAGGATTTCA TGCCTTTCCG GGATATCTAT 
    GTCTCTGCCT TTAAAAATGA AATCGAGTAC AATCATGTAC TGCTCCAAAC GGCTGCAGCT 
    CTTCAGACCA ACAAATTCAC ACAGCCACTG CTGGCCCGCA AGAATGACCT GGACAAGCAG 
    AGGAAAGAGA TTAAAGAACA ATGGCAAAGA GAGCTGAAGA AAATGAACGA GTCAGAAAGT 
    GCTTTAAAGA AGGCTCGGCT GTTGAAAATG CAGAAGAGGG AGGAATACGA GAAGGCCCGG 
    AGCTCGACCA GCCGTACCGA GGAGGAGCAG CCAGCAGCTG GAGGCAGGAC ACTGGAGAAG 
    AAACGCAGAG TTGAGGAAGA GGCCCTACAG AAGGCAGAGG AAGCGCAGGA GCAGTATAAA 
    GCCTGTGTGG CCGATCTGGA GGCCAAGAAG GTCAGCCTGT CAAACGCTAA GAGTGAGATC 
    CTCGCACAGA TTCGGAAGCT GGTCTTCCAA TGTGACCTGA CCCTCAAAGC GGTGACAGTG 
    AACTGGTTCC AGATGCAGCA GGCTCAGACT ATGCCCCTGT CCGTCAACTA CCAAGCTCTA 
    AGCGAACAAG CCAAGAAGTA CGAACCAGGT CAGCGCTACT CTGAATTTGT GCGCAGTCTC 
    CCTAAAGAGC GTGTGTGGCT GGAGTCTCTG TCTCAGGACA TCACCGCTTC CTCAAAAACG 
    GGAATGTCTC TTCATAAGAG GTCTCAGAAC AGCACCCGCT CGTCTCATGG GAACCTGTCG 
    CAGGGCTCTG CTACATCTAT GGATAATCAC AGCGCAGACG AGGTGGAGGG TAACATGCAG 
    CCATGCAAGG CCAAGATTGC AGAGAGGCGC TCCAACAGCA GTATAGACAT GCAAGTGCCG 
    AGGACGCAGG GCTCTCAGCG GGCCTGGAGC TCAGGCAGTG CCGGTGGAGG AGGGATGTGC 
    AGTGACTCAG AGAGCGCTGG AGGAAGCAGC GAGTCTCGCT CCATGGACTC CCCCACAGCC 
    AGTCCAGGAG ATTTCAAACG CAGGCTTCCC AGAACTCCCT CCACTGGTAC CATGTCTTCT 
    GCGGATGACC TGGATGAGAG GGAGCCACCT TCCCCATCCG ATACTGGCCT CTCTGAAATG 
    GTGATGGAAA CAGCCAGTTC TCCAGGCCCT TTCCGCAATG CCCAAATGTC AAAAGCAGCT 
    CACACACACA AACTACGAAA ACTGCGAGCG CCTTCCAAAT GCAGAGAGTG TGACAGTCTG 
    GTGGTCTTCC ATGGGGCAGA GTGTGAGGAG TGCTCCCTGG CCTGTCATAA GAAATGTCTG 
    GAGACTCTTG CCATTCAGTG TGGTCATAAG AAGCTCCAGG GCAGACTGCA CCTCTTCGGG 
    ATTGACTTTG CCCAAGTAGT AAAGAACAGT CCTGACGGCA TCCCTTTCAT CATCAAAAAA 
    TGCACCTCAG AAATCGAGAG TCGTGCCCTG ACCATTAAGG GCATTTATCG GGTGAATGGG 
    GCGAAGTCTC GTGTGGAAAA GCTGTGCCAG GCCTTTGAGA ATGGAAAGGA CTTAGTGGAG 
    CTTTCTGACC TCCACCCGCA TGACATAAGC AACGTGCTGA AGCTTTACCT GAGACAGTTG 
    CCAGAGCCGT TGATTCTGTA TCGTTATTAT AACGATGTCA TTGGGCTGGC GAAAGAAACT 
    CAGAACATGG ACAAGACAGA CTCAGCTAAA GAGAAATCAG CAGGAGAGCA GCTGGGCCTC 
    AGCACTGAGC TGAAAAGAGT GCTCTTCAAA GTCAGAGATC TCCTTCGACA GCTTCCTGCG 
    CCCCACTACA AAACCCTGCA GTTCCTCGTC ACACATCTGC ACAGAGTTTC AGAGCAAGCT 
    GAGGAGAACA AGATGACCGC TAGTAACCTG GGCATCATCT TTGGCCCCAC GCTCATTAAG 
    CCCAGACATT TGGAGGCAGA AGTGTCGCTT TCCTCCCTGG TTGACTATCC TCACCAGGCC 
    CGCATGGTGG AGCTGCTCAT CAAACACCAT CAGATGATCT TTGACGTGCC CCTCAGCCCC 
    ATGTCTCCAA CCAGTCCAAC TGTATCACAG GCTTCCTTTG GGTCCAGCAT CCAGGACAAA 
    GAGTCCAAAC TCAGCCGTCA CTCTAGATCC CTGATGGACA TCAAAGAGAG TGCAAAACTC 
    TACAAGAGAC ACTCGTCTGT GATCATCCCA GCTCAGCTCA TGGAGGAAGG GAAGGAAATG 
    AAGACTGGAG ACCACAGAGT ACAAACATCT GCAGGTGAGG GCTCAGATGT CAACGGGGTT 
    GGTTTGACTT CTGTTGACTC CACATCTGTG TTCAACCGGC CTGGTGCCAG CAGCCGAATG 
    GTGCAGCTGA GACCTCAGCG TGCCAAGCCG GTGTCTCGAC CAATCAGCAT GCCCATAGAC 
    CGCCTACTCA ACGAACGCAA CAGCCGCAAC ACAGTGGAGC ATGATCACTC ACCCGCCGCC 
    ATTGAGGAGA CCACTGAACC AGAGAAACCG ACAACACCAC GGCACACCAA CTTTTACAGG 
    AACCCCTTCA TTGACACTCA GACGCTGAGG AGGACCTGGG ACAGGCAGTA CAGACATTAT 
    GACGTCACGC CCAGGACTGC AATGATAGTG GCCAACCTGC CACCTTCCGG TGTGCAGAAA 
    CAGCCTGAAA TTAGTATGGG ATCCCAAAGC AGCACCTCTA GAAAAGATGG TACAAGCCAG 
    TCTGGTGTGG CTCCAATATC GTTCAGAGCA GCACGGACAC TAAAACCCTC TTCTCCTGGA 
    ACGTTCTATA GACCTCCCTC TGGAGGCCAG TTGAAGCCAT CTGACTTGCT GGCAAAATCA 
    GTTTCAAGAG CGCCAACCAC TACCACAGGA GCAATTTACA CAACAGCCAT TACTGTATTA 
    ACAACAGCCA GCACGTCATC AGTCATGACG ATCTCTACAG CGGTCACGAC TCCCCCCACC 
    ACGCCAACAA CATCAGTGAC TGTCGCTCTG ACATCCAAGC CCACTTTTAC AACAGTGAGC 
    AGAAGTGTGT CAGGAGGAGC AGGGGAAGGA CTGTCAGAGA GCGACTTGCT CAGCCCAGTT 
    ACACTCTCTC CACCTCAGTC TCCAGTCTCC AGCACTGAGG AGCTCAGCCC GACAGATGCC 
    AAACCCCTCT ATCAGAGACG CAGTCGCCGC ATGCAGGAGC TGGAGCATCG AGAGGCTCAT 
    TTTGTGTAA

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

    RefSeq XP_005163372.1
    CDS894..4382
    Translation

    Target ORF information:

    RefSeq Version XM_005163315.3
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio Rho GTPase activating protein 29b (arhgap29b), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005163315.3

    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
    ATGGGAGATG TGGACGGTGG CTCCAGGTTG GGGTATCCCC AAGCCAGAAG AAGTCGTTCT 
    TTTGAAAACC TCTCTGAAGA TTCACGAGGC TGCAGTCAAA ACGATCTGGC AGACCATTCT 
    CTGTCTCCAG AACTGTCCAC AGTGGAGCAG GTGGACCTTC TTCTCCTGAA GAATGACAGC 
    GGTGTAGAGT CGGCTCTGCT CTATGCCAAG GCCTGGTCCA AATACACCAA AGACGTTCTG 
    GCCTGGGTGG AGAAACGCCT AAGCCTGGAC ATGGAATGTG CCAAAAGCTT TGCCAAGATG 
    GCAGAATCCG CAAAGGCTGT AGCAAGTCAA CAGGATTTCA TGCCTTTCCG GGATATCTAT 
    GTCTCTGCCT TTAAAAATGA AATCGAGTAC AATCATGTAC TGCTCCAAAC GGCTGCAGCT 
    CTTCAGACCA ACAAATTCAC ACAGCCACTG CTGGCCCGCA AGAATGACCT GGACAAGCAG 
    AGGAAAGAGA TTAAAGAACA ATGGCAAAGA GAGCTGAAGA AAATGAACGA GTCAGAAAGT 
    GCTTTAAAGA AGGCTCGGCT GTTGAAAATG CAGAAGAGGG AGGAATACGA GAAGGCCCGG 
    AGCTCGACCA GCCGTACCGA GGAGGAGCAG CCAGCAGCTG GAGGCAGGAC ACTGGAGAAG 
    AAACGCAGAG TTGAGGAAGA GGCCCTACAG AAGGCAGAGG AAGCGCAGGA GCAGTATAAA 
    GCCTGTGTGG CCGATCTGGA GGCCAAGAAG GTCAGCCTGT CAAACGCTAA GAGTGAGATC 
    CTCGCACAGA TTCGGAAGCT GGTCTTCCAA TGTGACCTGA CCCTCAAAGC GGTGACAGTG 
    AACTGGTTCC AGATGCAGCA GGCTCAGACT ATGCCCCTGT CCGTCAACTA CCAAGCTCTA 
    AGCGAACAAG CCAAGAAGTA CGAACCAGGT CAGCGCTACT CTGAATTTGT GCGCAGTCTC 
    CCTAAAGAGC GTGTGTGGCT GGAGTCTCTG TCTCAGGACA TCACCGCTTC CTCAAAAACG 
    GGAATGTCTC TTCATAAGAG GTCTCAGAAC AGCACCCGCT CGTCTCATGG GAACCTGTCG 
    CAGGGCTCTG CTACATCTAT GGATAATCAC AGCGCAGACG AGGTGGAGGG TAACATGCAG 
    CCATGCAAGG CCAAGATTGC AGAGAGGCGC TCCAACAGCA GTATAGACAT GCAAGTGCCG 
    AGGACGCAGG GCTCTCAGCG GGCCTGGAGC TCAGGCAGTG CCGGTGGAGG AGGGATGTGC 
    AGTGACTCAG AGAGCGCTGG AGGAAGCAGC GAGTCTCGCT CCATGGACTC CCCCACAGCC 
    AGTCCAGGAG ATTTCAAACG CAGGCTTCCC AGAACTCCCT CCACTGGTAC CATGTCTTCT 
    GCGGATGACC TGGATGAGAG GGAGCCACCT TCCCCATCCG ATACTGGCCT CTCTGAAATG 
    GTGATGGAAA CAGCCAGTTC TCCAGGCCCT TTCCGCAATG CCCAAATGTC AAAAGCAGCT 
    CACACACACA AACTACGAAA ACTGCGAGCG CCTTCCAAAT GCAGAGAGTG TGACAGTCTG 
    GTGGTCTTCC ATGGGGCAGA GTGTGAGGAG TGCTCCCTGG CCTGTCATAA GAAATGTCTG 
    GAGACTCTTG CCATTCAGTG TGGTCATAAG AAGCTCCAGG GCAGACTGCA CCTCTTCGGG 
    ATTGACTTTG CCCAAGTAGT AAAGAACAGT CCTGACGGCA TCCCTTTCAT CATCAAAAAA 
    TGCACCTCAG AAATCGAGAG TCGTGCCCTG ACCATTAAGG GCATTTATCG GGTGAATGGG 
    GCGAAGTCTC GTGTGGAAAA GCTGTGCCAG GCCTTTGAGA ATGGAAAGGA CTTAGTGGAG 
    CTTTCTGACC TCCACCCGCA TGACATAAGC AACGTGCTGA AGCTTTACCT GAGACAGTTG 
    CCAGAGCCGT TGATTCTGTA TCGTTATTAT AACGATGTCA TTGGGCTGGC GAAAGAAACT 
    CAGAACATGG ACAAGACAGA CTCAGCTAAA GAGAAATCAG CAGGAGAGCA GCTGGGCCTC 
    AGCACTGAGC TGAAAAGAGT GCTCTTCAAA GTCAGAGATC TCCTTCGACA GCTTCCTGCG 
    CCCCACTACA AAACCCTGCA GTTCCTCGTC ACACATCTGC ACAGAGTTTC AGAGCAAGCT 
    GAGGAGAACA AGATGACCGC TAGTAACCTG GGCATCATCT TTGGCCCCAC GCTCATTAAG 
    CCCAGACATT TGGAGGCAGA AGTGTCGCTT TCCTCCCTGG TTGACTATCC TCACCAGGCC 
    CGCATGGTGG AGCTGCTCAT CAAACACCAT CAGATGATCT TTGACGTGCC CCTCAGCCCC 
    ATGTCTCCAA CCAGTCCAAC TGTATCACAG GCTTCCTTTG GGTCCAGCAT CCAGGACAAA 
    GAGTCCAAAC TCAGCCGTCA CTCTAGATCC CTGATGGACA TCAAAGAGAG TGCAAAACTC 
    TACAAGAGAC ACTCGTCTGT GATCATCCCA GCTCAGCTCA TGGAGGAAGG GAAGGAAATG 
    AAGACTGGAG ACCACAGAGT ACAAACATCT GCAGGTGAGG GCTCAGATGT CAACGGGGTT 
    GGTTTGACTT CTGTTGACTC CACATCTGTG TTCAACCGGC CTGGTGCCAG CAGCCGAATG 
    GTGCAGCTGA GACCTCAGCG TGCCAAGCCG GTGTCTCGAC CAATCAGCAT GCCCATAGAC 
    CGCCTACTCA ACGAACGCAA CAGCCGCAAC ACAGTGGAGC ATGATCACTC ACCCGCCGCC 
    ATTGAGGAGA CCACTGAACC AGAGAAACCG ACAACACCAC GGCACACCAA CTTTTACAGG 
    AACCCCTTCA TTGACACTCA GACGCTGAGG AGGACCTGGG ACAGGCAGTA CAGACATTAT 
    GACGTCACGC CCAGGACTGC AATGATAGTG GCCAACCTGC CACCTTCCGG TGTGCAGAAA 
    CAGCCTGAAA TTAGTATGGG ATCCCAAAGC AGCACCTCTA GAAAAGATGG TACAAGCCAG 
    TCTGGTGTGG CTCCAATATC GTTCAGAGCA GCACGGACAC TAAAACCCTC TTCTCCTGGA 
    ACGTTCTATA GACCTCCCTC TGGAGGCCAG TTGAAGCCAT CTGACTTGCT GGCAAAATCA 
    GTTTCAAGAG CGCCAACCAC TACCACAGGA GCAATTTACA CAACAGCCAT TACTGTATTA 
    ACAACAGCCA GCACGTCATC AGTCATGACG ATCTCTACAG CGGTCACGAC TCCCCCCACC 
    ACGCCAACAA CATCAGTGAC TGTCGCTCTG ACATCCAAGC CCACTTTTAC AACAGTGAGC 
    AGAAGTGTGT CAGGAGGAGC AGGGGAAGGA CTGTCAGAGA GCGACTTGCT CAGCCCAGTT 
    ACACTCTCTC CACCTCAGTC TCCAGTCTCC AGCACTGAGG AGCTCAGCCC GACAGATGCC 
    AAACCCCTCT ATCAGAGACG CAGTCGCCGC ATGCAGGAGC TGGAGCATCG AGAGGCTCAT 
    TTTGTGTAA

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

    arhgap29b ( NM_200111.1 ) cDNA ORF clone, Danio rerio(zebrafish) -> NP_956405.1 Danio rerio Rho GTPase activating protein 29b (arhgap29b), mRNA.
    Price & Availability↑
    CloneID ODa38450
    Clone ID Related Accession (Same CDS sequence) NM_200111.1
    Accession Version NM_200111.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4014bp)
    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 2017-10-31
    Organism Danio rerio(zebrafish)
    Product rho GTPase-activating protein 29
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from BC059184.1. On Aug 31, 2013 this sequence version replaced XM_005163313.1. ##Evidence-Data-START## Transcript exon combination :: BC059184.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMN02259099, SAMN06645147 [ECO:0000350] ##Evidence-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGTTCCGTC AGGGCAGCAA CAGTGGGAAT AAACGCATGA CAAGCGGTGC TCGTCTCTCC 
    CAGCCCATCA TCCCTTTGTC CCTGCCTACC GCATCCTCCA AAACGCTAGA AATGGGCCGC 
    AGCTCTAAGA CAAACCCCCT CAACGCTATG GGCCTGGACC ACAATATCGC CACCTCGGGA 
    GGGGATCCCG AATACATCAT GCAACTGGTC AATGATGTGC GCAAGTTTTC TGATGTGCTG 
    CTGAGCCTTA AAGAGGCTTT TCATTCCAAA GAAAGTCAAG AGTGCTCGCA GCACGTGGTG 
    AATGAGCGTC TTGGGGAGTT GGTCCACGTG TTGAAGGCCG TCATTGGCAA ACACCAGGCA 
    CTGAACTCAT CCGAAATCCT TGGTGCCGCG GGGACTGTTA TTGCTAAAGT CAAAGGCGTG 
    AACTTCAAGG AAGTTAATAA CGAAAATAAA AGCACAATAT TTGGCGAGAT ACACACGTCA 
    ATTGACACTT TGGCATTCAC CTTTGGCAAT GTAGTGTCTG ACTTCCTTAT GGGAGATGTG 
    GACGGTGGCT CCAGGTTGGG GTATCCCCAA GCCAGAAGAA GTCGTTCTTT TGAAAACCTC 
    TCTGAAGATT CACGAGGCTG CAGTCAAAAC GATCTGGCAG ACCATTCTCT GTCTCCAGAA 
    CTGTCCACAG TGGAGCAGGT GGACCTTCTT CTCCTGAAGA ATGACAGCGG TGTAGAGTCG 
    GCTCTGCTCT ATGCCAAGGC CTGGTCCAAA TACACCAAAG ACGTTCTGGC CTGGGTGGAG 
    AAACGCCTAA GCCTGGACAT GGAATGTGCC AAAAGCTTTG CCAAGATGGC AGAATCCGCA 
    AAGGCTGTAG CAAGTCAACA GGATTTCATG CCTTTCCGGG ATATCTATGT CTCTGCCTTT 
    AAAAATGAAA TCGAGTACAA TCATGTACTG CTCCAAACGG CTGCAGCTCT TCAGACCAAC 
    AAATTCACAC AGCCACTGCT GGCCCGCAAG AATGACCTGG ACAAGCAGAG GAAAGAGATT 
    AAAGAACAAT GGCAAAGAGA GCTGAAGAAA ATGAACGAGT CAGAAAGTGC TTTAAAGAAG 
    GCTCGGCTGT TGAAAATGCA GAAGAGGGAG GAATACGAGA AGGCCCGGAG CTCGACCAGC 
    CGTACCGAGG AGGAGCAGCC AGCAGCTGGA GGCAGGACAC TGGAGAAGAA ACGCAGAGTT 
    GAGGAAGAGG CCCTACAGAA GGCAGAGGAA GCGCAGGAGC AGTATAAAGC CTGTGTGGCC 
    GATCTGGAGG CCAAGAAGGT CAGCCTGTCA AACGCTAAGA GTGAGATCCT CGCACAGATT 
    CGGAAGCTGG TCTTCCAATG TGACCTGACC CTCAAAGCGG TGACAGTGAA CTGGTTCCAG 
    ATGCAGCAGG CTCAGACTAT GCCCCTGTCC GTCAACTACC AAGCTCTAAG CGAACAAGCC 
    AAGAAGTACG AACCAGGTCA GCGCTACTCT GAATTTGTGC GCAGTCTCCC TAAAGAGCGT 
    GTGTGGCTGG AGTCTCTGTC TCAGGACATC ACCGCTTCCT CAAAAACGGG AATGTCCCTT 
    CATAAGAGGT CTCAGAACAG CACCCGCTCG TCTCATGGGA ACCTGTCGCA GGGCTCTGCT 
    ACATCTATGG ATAATCACAG CGCAGACGAG GTGGAGGGTA ACATGCAGCC ATGCAAGGCC 
    AAGATTGCAG AGAGGCGCTC CAACAGCAGT ATAGACATGC AAGTGCCGAG GACGCAGGGC 
    TCTCAGCGGG CCTGGAGCTC AGGCAGTGCC GGTGGAGGAG GGATGTGCAG TGACTCAGAG 
    AGCGCTGGAG GAAGCAGCGA GTCTCGCTCC ATGGACTCCC CCACAGCCAG TCCAGGAGAT 
    TTCAAACGCA GGCTTCCCAG AACTCCCTCC ACTGGTACCA TGTCTTCTGC GGATGACCTG 
    GATGAGAGGG AGCCACCTTC CCCATCCGAT ACTGGCCTCT CTGAAATGGT GATGGAAACA 
    GCCAGTTCTC CAGGCCCTTT CCGCAATGCC CAAATGTCAA AAGCAGCTCA CACACACAAG 
    CTACGAAAAC TGCGAGCGCC TTCCAAATGC AGAGAGTGTG ACAGTCTGGT TGTCTTTCAT 
    GGGGCAGAGT GTGAGGAGTG CTCCCTGGCC TGTCATAAGA AATGTCTGGA GACTCTTGCC 
    ATTCAGTGTG GTCATAAGAA GCTCCAGGGC AGACTGCACC TCTTCGGGAT TGACTTTGCC 
    CAAGTAGTAA AGAACAGTCC TGACGGCATC CCTTTCATCA TCAAAAAATG CACCTCAGAA 
    ATCGAGAGTC GAGCCCTGAC CATTAAGGGC ATTTATCGGG TGAATGGGGC GAAGTCTCGT 
    GTGGAAAAGC TGTGCCAGGC CTTTGAGAAT GGAAAGGACT TAGTGGAGCT TTCTGACCTC 
    CACCCGCATG ACATAAGCAA CGTGCTGAAG CTTTACCTGA GACAGTTGCC AGAGCCGTTG 
    ATTCTGTATC GATATTATAA CGATGTCATT GGGCTGGCGA AAGAAACTCA GAACATGGAC 
    AAGACAGACT CCGCTAAAGA GAAATCAGCA GGAGAGCAGC TGGGCCTCAG CACTGAGCTG 
    AAAAGAGTGC TCTTCAAAGT CAGAGATCTC CTTCGACAGC TTCCTGCGCC CCATTACAAA 
    ACCCTGCAGT TCCTCATCAC ACATCTGCAC AGAGTTTCAG AGCAAGCTGA GGAGAACAAG 
    ATGACCGCTA GTAACCTGGG CATCATCTTT GGCCCCACGC TCATTAAGCC CAGACATTTG 
    GAGGCAGAAG TGTCGCTTTC CTCCCTGGTT GACTATCCTC ACCAGGCCCG CATGGTGGAG 
    CTGCTCATCA AACACCATCA GATGATCTTT GACGTGCCCC TCAGCCCCAT GTCTCCAACC 
    AGTCCAACTG TATCACAGGC TTCCTTTGGG TCCAGCATCC AGGACAAAGA GTCCAAACTC 
    AGCCGTCACT CTAGATCCCT GATGGACATC AAAGAGAGTG CAAAACTCTA CAAGAGACAC 
    TCGTCTGTGA TCATCCCAGC TCAGCTCATG GAGGAAGGGA AGGAAATGAA GACTGGAGAC 
    CACAGAGTAC AAACATCTGG TGAGGGCTCA GATGTCAACG GGGTTGGTTT GACTTCTGTT 
    GACTCCACAT CTGTGTTCAA CCGGCCTGGT GCCAGCAGCC GAATGGTGCA GCTGAGACCT 
    CAGCGTGCCA AGCCGGTGTC TCGACCAATC AGCATGCCCA TAGACCGCCT ACTCAACGAA 
    CGCAACAGCC GCAACACAGT GGAGCATGAT CACTCACCCG CCGCCATTGA GGAGACCACT 
    GAACCAGAGA AACCGACAAC ACCACGGCAT ACCAACTTTT ACAGGAACCC CTTCATTGAC 
    ACTCAGACGC TGAGGAGGAC CTGGGACAGG CAGTACAGAC ATTATGACGT CACGCCCAGG 
    ACTGCAATGA TAGTGGCCAA CCTGCCACCT TCCGGTGTGC AGAAACAGCC TGAAATTAGT 
    ATGGCATCCC AAAGCAGCAC CTCTAGAAAA GATGGTACAA GCCAATCTGG TGTGGCTCCA 
    ATATCGTTCA GAGCAGCACG GACACTAAAA CCCTCTTCTC CTGGAACGTT CTATAGACCT 
    CCCTCTGGAG GCCAGTTGAA GCCATCTGAC TTGCTGGCAA AATCAGTTTC AAGAGCGCCA 
    ACCACTACCA CAGGAGCAAT TTACACAACA GCCATTACTG TATTAACAAC AGCCAGCACG 
    TCATCAGTCA TGACGATCTC TACAGCGGTC ACGACTCCCC CCACCACGCC AACAACATCA 
    GTGACTGTCG CTCTGACATC CAAGCCCACT TTTACAACAG TGAGCAGAAG TGTGTCAGGA 
    GGAGCAGGGG AAGGACTGTC AGAGAGCGAC TTGCTCAGCC CAGTTACACT CTCTCCACCT 
    CAGTCTCCAG GCTCCAGCAC TGAGGAGCTC AGCCCGACAG ATGCCAAACC CCTCTATCAG 
    AGACGCAGTC GCCGCATGCA GGAGCTGGAG CATCGAGAGG CTCATTTTGT GTAA

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

    RefSeq NP_956405.1
    CDS182..4195
    Translation

    Target ORF information:

    RefSeq Version NM_200111.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio Rho GTPase activating protein 29b (arhgap29b), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_200111.1

    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
    ATGTTCCGTC AGGGCAGCAA CAGTGGGAAT AAACGCATGA CAAGCGGTGC TCGTCTCTCC 
    CAGCCCATCA TCCCTTTGTC CCTGCCTACC GCATCCTCCA AAACGCTAGA AATGGGCCGC 
    AGCTCTAAGA CAAACCCCCT CAACGCTATG GGCCTGGACC ACAATATCGC CACCTCGGGA 
    GGGGATCCCG AATACATCAT GCAACTGGTC AATGATGTGC GCAAGTTTTC TGATGTGCTG 
    CTGAGCCTTA AAGAGGCTTT TCATTCCAAA GAAAGTCAAG AGTGCTCGCA GCACGTGGTG 
    AATGAGCGTC TTGGGGAGTT GGTCCACGTG TTGAAGGCCG TCATTGGCAA ACACCAGGCA 
    CTGAACTCAT CCGAAATCCT TGGTGCCGCG GGGACTGTTA TTGCTAAAGT CAAAGGCGTG 
    AACTTCAAGG AAGTTAATAA CGAAAATAAA AGCACAATAT TTGGCGAGAT ACACACGTCA 
    ATTGACACTT TGGCATTCAC CTTTGGCAAT GTAGTGTCTG ACTTCCTTAT GGGAGATGTG 
    GACGGTGGCT CCAGGTTGGG GTATCCCCAA GCCAGAAGAA GTCGTTCTTT TGAAAACCTC 
    TCTGAAGATT CACGAGGCTG CAGTCAAAAC GATCTGGCAG ACCATTCTCT GTCTCCAGAA 
    CTGTCCACAG TGGAGCAGGT GGACCTTCTT CTCCTGAAGA ATGACAGCGG TGTAGAGTCG 
    GCTCTGCTCT ATGCCAAGGC CTGGTCCAAA TACACCAAAG ACGTTCTGGC CTGGGTGGAG 
    AAACGCCTAA GCCTGGACAT GGAATGTGCC AAAAGCTTTG CCAAGATGGC AGAATCCGCA 
    AAGGCTGTAG CAAGTCAACA GGATTTCATG CCTTTCCGGG ATATCTATGT CTCTGCCTTT 
    AAAAATGAAA TCGAGTACAA TCATGTACTG CTCCAAACGG CTGCAGCTCT TCAGACCAAC 
    AAATTCACAC AGCCACTGCT GGCCCGCAAG AATGACCTGG ACAAGCAGAG GAAAGAGATT 
    AAAGAACAAT GGCAAAGAGA GCTGAAGAAA ATGAACGAGT CAGAAAGTGC TTTAAAGAAG 
    GCTCGGCTGT TGAAAATGCA GAAGAGGGAG GAATACGAGA AGGCCCGGAG CTCGACCAGC 
    CGTACCGAGG AGGAGCAGCC AGCAGCTGGA GGCAGGACAC TGGAGAAGAA ACGCAGAGTT 
    GAGGAAGAGG CCCTACAGAA GGCAGAGGAA GCGCAGGAGC AGTATAAAGC CTGTGTGGCC 
    GATCTGGAGG CCAAGAAGGT CAGCCTGTCA AACGCTAAGA GTGAGATCCT CGCACAGATT 
    CGGAAGCTGG TCTTCCAATG TGACCTGACC CTCAAAGCGG TGACAGTGAA CTGGTTCCAG 
    ATGCAGCAGG CTCAGACTAT GCCCCTGTCC GTCAACTACC AAGCTCTAAG CGAACAAGCC 
    AAGAAGTACG AACCAGGTCA GCGCTACTCT GAATTTGTGC GCAGTCTCCC TAAAGAGCGT 
    GTGTGGCTGG AGTCTCTGTC TCAGGACATC ACCGCTTCCT CAAAAACGGG AATGTCCCTT 
    CATAAGAGGT CTCAGAACAG CACCCGCTCG TCTCATGGGA ACCTGTCGCA GGGCTCTGCT 
    ACATCTATGG ATAATCACAG CGCAGACGAG GTGGAGGGTA ACATGCAGCC ATGCAAGGCC 
    AAGATTGCAG AGAGGCGCTC CAACAGCAGT ATAGACATGC AAGTGCCGAG GACGCAGGGC 
    TCTCAGCGGG CCTGGAGCTC AGGCAGTGCC GGTGGAGGAG GGATGTGCAG TGACTCAGAG 
    AGCGCTGGAG GAAGCAGCGA GTCTCGCTCC ATGGACTCCC CCACAGCCAG TCCAGGAGAT 
    TTCAAACGCA GGCTTCCCAG AACTCCCTCC ACTGGTACCA TGTCTTCTGC GGATGACCTG 
    GATGAGAGGG AGCCACCTTC CCCATCCGAT ACTGGCCTCT CTGAAATGGT GATGGAAACA 
    GCCAGTTCTC CAGGCCCTTT CCGCAATGCC CAAATGTCAA AAGCAGCTCA CACACACAAG 
    CTACGAAAAC TGCGAGCGCC TTCCAAATGC AGAGAGTGTG ACAGTCTGGT TGTCTTTCAT 
    GGGGCAGAGT GTGAGGAGTG CTCCCTGGCC TGTCATAAGA AATGTCTGGA GACTCTTGCC 
    ATTCAGTGTG GTCATAAGAA GCTCCAGGGC AGACTGCACC TCTTCGGGAT TGACTTTGCC 
    CAAGTAGTAA AGAACAGTCC TGACGGCATC CCTTTCATCA TCAAAAAATG CACCTCAGAA 
    ATCGAGAGTC GAGCCCTGAC CATTAAGGGC ATTTATCGGG TGAATGGGGC GAAGTCTCGT 
    GTGGAAAAGC TGTGCCAGGC CTTTGAGAAT GGAAAGGACT TAGTGGAGCT TTCTGACCTC 
    CACCCGCATG ACATAAGCAA CGTGCTGAAG CTTTACCTGA GACAGTTGCC AGAGCCGTTG 
    ATTCTGTATC GATATTATAA CGATGTCATT GGGCTGGCGA AAGAAACTCA GAACATGGAC 
    AAGACAGACT CCGCTAAAGA GAAATCAGCA GGAGAGCAGC TGGGCCTCAG CACTGAGCTG 
    AAAAGAGTGC TCTTCAAAGT CAGAGATCTC CTTCGACAGC TTCCTGCGCC CCATTACAAA 
    ACCCTGCAGT TCCTCATCAC ACATCTGCAC AGAGTTTCAG AGCAAGCTGA GGAGAACAAG 
    ATGACCGCTA GTAACCTGGG CATCATCTTT GGCCCCACGC TCATTAAGCC CAGACATTTG 
    GAGGCAGAAG TGTCGCTTTC CTCCCTGGTT GACTATCCTC ACCAGGCCCG CATGGTGGAG 
    CTGCTCATCA AACACCATCA GATGATCTTT GACGTGCCCC TCAGCCCCAT GTCTCCAACC 
    AGTCCAACTG TATCACAGGC TTCCTTTGGG TCCAGCATCC AGGACAAAGA GTCCAAACTC 
    AGCCGTCACT CTAGATCCCT GATGGACATC AAAGAGAGTG CAAAACTCTA CAAGAGACAC 
    TCGTCTGTGA TCATCCCAGC TCAGCTCATG GAGGAAGGGA AGGAAATGAA GACTGGAGAC 
    CACAGAGTAC AAACATCTGG TGAGGGCTCA GATGTCAACG GGGTTGGTTT GACTTCTGTT 
    GACTCCACAT CTGTGTTCAA CCGGCCTGGT GCCAGCAGCC GAATGGTGCA GCTGAGACCT 
    CAGCGTGCCA AGCCGGTGTC TCGACCAATC AGCATGCCCA TAGACCGCCT ACTCAACGAA 
    CGCAACAGCC GCAACACAGT GGAGCATGAT CACTCACCCG CCGCCATTGA GGAGACCACT 
    GAACCAGAGA AACCGACAAC ACCACGGCAT ACCAACTTTT ACAGGAACCC CTTCATTGAC 
    ACTCAGACGC TGAGGAGGAC CTGGGACAGG CAGTACAGAC ATTATGACGT CACGCCCAGG 
    ACTGCAATGA TAGTGGCCAA CCTGCCACCT TCCGGTGTGC AGAAACAGCC TGAAATTAGT 
    ATGGCATCCC AAAGCAGCAC CTCTAGAAAA GATGGTACAA GCCAATCTGG TGTGGCTCCA 
    ATATCGTTCA GAGCAGCACG GACACTAAAA CCCTCTTCTC CTGGAACGTT CTATAGACCT 
    CCCTCTGGAG GCCAGTTGAA GCCATCTGAC TTGCTGGCAA AATCAGTTTC AAGAGCGCCA 
    ACCACTACCA CAGGAGCAAT TTACACAACA GCCATTACTG TATTAACAAC AGCCAGCACG 
    TCATCAGTCA TGACGATCTC TACAGCGGTC ACGACTCCCC CCACCACGCC AACAACATCA 
    GTGACTGTCG CTCTGACATC CAAGCCCACT TTTACAACAG TGAGCAGAAG TGTGTCAGGA 
    GGAGCAGGGG AAGGACTGTC AGAGAGCGAC TTGCTCAGCC CAGTTACACT CTCTCCACCT 
    CAGTCTCCAG GCTCCAGCAC TGAGGAGCTC AGCCCGACAG ATGCCAAACC CCTCTATCAG 
    AGACGCAGTC GCCGCATGCA GGAGCTGGAG CATCGAGAGG CTCATTTTGT GTAA

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

    arhgap29b ( XM_005163312.4 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_005163369.1 Danio rerio Rho GTPase activating protein 29b (arhgap29b), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ODa06831
    Clone ID Related Accession (Same CDS sequence) XM_005163312.4 , XM_005163312.3
    Accession Version XM_005163312.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4017bp)
    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 rho GTPase-activating protein 29 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_005163312.3. ##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
    ATGTTCCGTC AGGGCAGCAA CAGTGGGAAT AAACGCATGA CAAGCGGTGC TCGTCTCTCC 
    CAGCCCATCA TCCCTTTGTC CCTGCCTACC GCATCCTCCA AAACGCTAGA AATGGGCCGC 
    AGCTCTAAGA CAAACCCCCT CAACGCTATG GGCCTGGACC ACAATATCGC CACCTCGGGA 
    GGGGATCCCG AATACATCAT GCAACTGGTC AATGATGTGC GCAAGTTTTC TGATGTGCTG 
    CTGAGCCTTA AAGAGGCTTT TCATTCCAAA GAAAGTCAAG AGTGCTCGCA GCACGTGGTG 
    AATGAGCGTC TTGGGGAGTT GGTCCACGTG TTGAAGGCCG TCATTGGCAA ACACCAGGCA 
    CTGAACTCAT CCGAAATCCT TGGTGCCGCG GGGACTGTTA TTGCTAAAGT CAAAGGCGTG 
    AACTTCAAGG AAGTTAATAA CGAAAATAAA AGCACAATAT TTGGCGAGAT ACACACGTCG 
    ATTGACACTT TGGCATTCAC CTTTGGCAAT GTAGTGTCTG ACTTCCTTAT GGGAGATGTG 
    GACGGTGGCT CCAGGTTGGG GTATCCCCAA GCCAGAAGAA GTCGTTCTTT TGAAAACCTC 
    TCTGAAGATT CACGAGGCTG CAGTCAAAAC GATCTGGCAG ACCATTCTCT GTCTCCAGAA 
    CTGTCCACAG TGGAGCAGGT GGACCTTCTT CTCCTGAAGA ATGACAGCGG TGTAGAGTCG 
    GCTCTGCTCT ATGCCAAGGC CTGGTCCAAA TACACCAAAG ACGTTCTGGC CTGGGTGGAG 
    AAACGCCTAA GCCTGGACAT GGAATGTGCC AAAAGCTTTG CCAAGATGGC AGAATCCGCA 
    AAGGCTGTAG CAAGTCAACA GGATTTCATG CCTTTCCGGG ATATCTATGT CTCTGCCTTT 
    AAAAATGAAA TCGAGTACAA TCATGTACTG CTCCAAACGG CTGCAGCTCT TCAGACCAAC 
    AAATTCACAC AGCCACTGCT GGCCCGCAAG AATGACCTGG ACAAGCAGAG GAAAGAGATT 
    AAAGAACAAT GGCAAAGAGA GCTGAAGAAA ATGAACGAGT CAGAAAGTGC TTTAAAGAAG 
    GCTCGGCTGT TGAAAATGCA GAAGAGGGAG GAATACGAGA AGGCCCGGAG CTCGACCAGC 
    CGTACCGAGG AGGAGCAGCC AGCAGCTGGA GGCAGGACAC TGGAGAAGAA ACGCAGAGTT 
    GAGGAAGAGG CCCTACAGAA GGCAGAGGAA GCGCAGGAGC AGTATAAAGC CTGTGTGGCC 
    GATCTGGAGG CCAAGAAGGT CAGCCTGTCA AACGCTAAGA GTGAGATCCT CGCACAGATT 
    CGGAAGCTGG TCTTCCAATG TGACCTGACC CTCAAAGCGG TGACAGTGAA CTGGTTCCAG 
    ATGCAGCAGG CTCAGACTAT GCCCCTGTCC GTCAACTACC AAGCTCTAAG CGAACAAGCC 
    AAGAAGTACG AACCAGGTCA GCGCTACTCT GAATTTGTGC GCAGTCTCCC TAAAGAGCGT 
    GTGTGGCTGG AGTCTCTGTC TCAGGACATC ACCGCTTCCT CAAAAACGGG AATGTCTCTT 
    CATAAGAGGT CTCAGAACAG CACCCGCTCG TCTCATGGGA ACCTGTCGCA GGGCTCTGCT 
    ACATCTATGG ATAATCACAG CGCAGACGAG GTGGAGGGTA ACATGCAGCC ATGCAAGGCC 
    AAGATTGCAG AGAGGCGCTC CAACAGCAGT ATAGACATGC AAGTGCCGAG GACGCAGGGC 
    TCTCAGCGGG CCTGGAGCTC AGGCAGTGCC GGTGGAGGAG GGATGTGCAG TGACTCAGAG 
    AGCGCTGGAG GAAGCAGCGA GTCTCGCTCC ATGGACTCCC CCACAGCCAG TCCAGGAGAT 
    TTCAAACGCA GGCTTCCCAG AACTCCCTCC ACTGGTACCA TGTCTTCTGC GGATGACCTG 
    GATGAGAGGG AGCCACCTTC CCCATCCGAT ACTGGCCTCT CTGAAATGGT GATGGAAACA 
    GCCAGTTCTC CAGGCCCTTT CCGCAATGCC CAAATGTCAA AAGCAGCTCA CACACACAAA 
    CTACGAAAAC TGCGAGCGCC TTCCAAATGC AGAGAGTGTG ACAGTCTGGT GGTCTTCCAT 
    GGGGCAGAGT GTGAGGAGTG CTCCCTGGCC TGTCATAAGA AATGTCTGGA GACTCTTGCC 
    ATTCAGTGTG GTCATAAGAA GCTCCAGGGC AGACTGCACC TCTTCGGGAT TGACTTTGCC 
    CAAGTAGTAA AGAACAGTCC TGACGGCATC CCTTTCATCA TCAAAAAATG CACCTCAGAA 
    ATCGAGAGTC GTGCCCTGAC CATTAAGGGC ATTTATCGGG TGAATGGGGC GAAGTCTCGT 
    GTGGAAAAGC TGTGCCAGGC CTTTGAGAAT GGAAAGGACT TAGTGGAGCT TTCTGACCTC 
    CACCCGCATG ACATAAGCAA CGTGCTGAAG CTTTACCTGA GACAGTTGCC AGAGCCGTTG 
    ATTCTGTATC GTTATTATAA CGATGTCATT GGGCTGGCGA AAGAAACTCA GAACATGGAC 
    AAGACAGACT CAGCTAAAGA GAAATCAGCA GGAGAGCAGC TGGGCCTCAG CACTGAGCTG 
    AAAAGAGTGC TCTTCAAAGT CAGAGATCTC CTTCGACAGC TTCCTGCGCC CCACTACAAA 
    ACCCTGCAGT TCCTCGTCAC ACATCTGCAC AGAGTTTCAG AGCAAGCTGA GGAGAACAAG 
    ATGACCGCTA GTAACCTGGG CATCATCTTT GGCCCCACGC TCATTAAGCC CAGACATTTG 
    GAGGCAGAAG TGTCGCTTTC CTCCCTGGTT GACTATCCTC ACCAGGCCCG CATGGTGGAG 
    CTGCTCATCA AACACCATCA GATGATCTTT GACGTGCCCC TCAGCCCCAT GTCTCCAACC 
    AGTCCAACTG TATCACAGGC TTCCTTTGGG TCCAGCATCC AGGACAAAGA GTCCAAACTC 
    AGCCGTCACT CTAGATCCCT GATGGACATC AAAGAGAGTG CAAAACTCTA CAAGAGACAC 
    TCGTCTGTGA TCATCCCAGC TCAGCTCATG GAGGAAGGGA AGGAAATGAA GACTGGAGAC 
    CACAGAGTAC AAACATCTGC AGGTGAGGGC TCAGATGTCA ACGGGGTTGG TTTGACTTCT 
    GTTGACTCCA CATCTGTGTT CAACCGGCCT GGTGCCAGCA GCCGAATGGT GCAGCTGAGA 
    CCTCAGCGTG CCAAGCCGGT GTCTCGACCA ATCAGCATGC CCATAGACCG CCTACTCAAC 
    GAACGCAACA GCCGCAACAC AGTGGAGCAT GATCACTCAC CCGCCGCCAT TGAGGAGACC 
    ACTGAACCAG AGAAACCGAC AACACCACGG CACACCAACT TTTACAGGAA CCCCTTCATT 
    GACACTCAGA CGCTGAGGAG GACCTGGGAC AGGCAGTACA GACATTATGA CGTCACGCCC 
    AGGACTGCAA TGATAGTGGC CAACCTGCCA CCTTCCGGTG TGCAGAAACA GCCTGAAATT 
    AGTATGGGAT CCCAAAGCAG CACCTCTAGA AAAGATGGTA CAAGCCAGTC TGGTGTGGCT 
    CCAATATCGT TCAGAGCAGC ACGGACACTA AAACCCTCTT CTCCTGGAAC GTTCTATAGA 
    CCTCCCTCTG GAGGCCAGTT GAAGCCATCT GACTTGCTGG CAAAATCAGT TTCAAGAGCG 
    CCAACCACTA CCACAGGAGC AATTTACACA ACAGCCATTA CTGTATTAAC AACAGCCAGC 
    ACGTCATCAG TCATGACGAT CTCTACAGCG GTCACGACTC CCCCCACCAC GCCAACAACA 
    TCAGTGACTG TCGCTCTGAC ATCCAAGCCC ACTTTTACAA CAGTGAGCAG AAGTGTGTCA 
    GGAGGAGCAG GGGAAGGACT GTCAGAGAGC GACTTGCTCA GCCCAGTTAC ACTCTCTCCA 
    CCTCAGTCTC CAGTCTCCAG CACTGAGGAG CTCAGCCCGA CAGATGCCAA ACCCCTCTAT 
    CAGAGACGCA GTCGCCGCAT GCAGGAGCTG GAGCATCGAG AGGCTCATTT TGTGTAA

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

    RefSeq XP_005163369.1
    CDS297..4313
    Translation

    Target ORF information:

    RefSeq Version XM_005163312.4
    Organism Danio rerio(zebrafish)
    Definition Danio rerio Rho GTPase activating protein 29b (arhgap29b), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005163312.4

    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
    ATGTTCCGTC AGGGCAGCAA CAGTGGGAAT AAACGCATGA CAAGCGGTGC TCGTCTCTCC 
    CAGCCCATCA TCCCTTTGTC CCTGCCTACC GCATCCTCCA AAACGCTAGA AATGGGCCGC 
    AGCTCTAAGA CAAACCCCCT CAACGCTATG GGCCTGGACC ACAATATCGC CACCTCGGGA 
    GGGGATCCCG AATACATCAT GCAACTGGTC AATGATGTGC GCAAGTTTTC TGATGTGCTG 
    CTGAGCCTTA AAGAGGCTTT TCATTCCAAA GAAAGTCAAG AGTGCTCGCA GCACGTGGTG 
    AATGAGCGTC TTGGGGAGTT GGTCCACGTG TTGAAGGCCG TCATTGGCAA ACACCAGGCA 
    CTGAACTCAT CCGAAATCCT TGGTGCCGCG GGGACTGTTA TTGCTAAAGT CAAAGGCGTG 
    AACTTCAAGG AAGTTAATAA CGAAAATAAA AGCACAATAT TTGGCGAGAT ACACACGTCG 
    ATTGACACTT TGGCATTCAC CTTTGGCAAT GTAGTGTCTG ACTTCCTTAT GGGAGATGTG 
    GACGGTGGCT CCAGGTTGGG GTATCCCCAA GCCAGAAGAA GTCGTTCTTT TGAAAACCTC 
    TCTGAAGATT CACGAGGCTG CAGTCAAAAC GATCTGGCAG ACCATTCTCT GTCTCCAGAA 
    CTGTCCACAG TGGAGCAGGT GGACCTTCTT CTCCTGAAGA ATGACAGCGG TGTAGAGTCG 
    GCTCTGCTCT ATGCCAAGGC CTGGTCCAAA TACACCAAAG ACGTTCTGGC CTGGGTGGAG 
    AAACGCCTAA GCCTGGACAT GGAATGTGCC AAAAGCTTTG CCAAGATGGC AGAATCCGCA 
    AAGGCTGTAG CAAGTCAACA GGATTTCATG CCTTTCCGGG ATATCTATGT CTCTGCCTTT 
    AAAAATGAAA TCGAGTACAA TCATGTACTG CTCCAAACGG CTGCAGCTCT TCAGACCAAC 
    AAATTCACAC AGCCACTGCT GGCCCGCAAG AATGACCTGG ACAAGCAGAG GAAAGAGATT 
    AAAGAACAAT GGCAAAGAGA GCTGAAGAAA ATGAACGAGT CAGAAAGTGC TTTAAAGAAG 
    GCTCGGCTGT TGAAAATGCA GAAGAGGGAG GAATACGAGA AGGCCCGGAG CTCGACCAGC 
    CGTACCGAGG AGGAGCAGCC AGCAGCTGGA GGCAGGACAC TGGAGAAGAA ACGCAGAGTT 
    GAGGAAGAGG CCCTACAGAA GGCAGAGGAA GCGCAGGAGC AGTATAAAGC CTGTGTGGCC 
    GATCTGGAGG CCAAGAAGGT CAGCCTGTCA AACGCTAAGA GTGAGATCCT CGCACAGATT 
    CGGAAGCTGG TCTTCCAATG TGACCTGACC CTCAAAGCGG TGACAGTGAA CTGGTTCCAG 
    ATGCAGCAGG CTCAGACTAT GCCCCTGTCC GTCAACTACC AAGCTCTAAG CGAACAAGCC 
    AAGAAGTACG AACCAGGTCA GCGCTACTCT GAATTTGTGC GCAGTCTCCC TAAAGAGCGT 
    GTGTGGCTGG AGTCTCTGTC TCAGGACATC ACCGCTTCCT CAAAAACGGG AATGTCTCTT 
    CATAAGAGGT CTCAGAACAG CACCCGCTCG TCTCATGGGA ACCTGTCGCA GGGCTCTGCT 
    ACATCTATGG ATAATCACAG CGCAGACGAG GTGGAGGGTA ACATGCAGCC ATGCAAGGCC 
    AAGATTGCAG AGAGGCGCTC CAACAGCAGT ATAGACATGC AAGTGCCGAG GACGCAGGGC 
    TCTCAGCGGG CCTGGAGCTC AGGCAGTGCC GGTGGAGGAG GGATGTGCAG TGACTCAGAG 
    AGCGCTGGAG GAAGCAGCGA GTCTCGCTCC ATGGACTCCC CCACAGCCAG TCCAGGAGAT 
    TTCAAACGCA GGCTTCCCAG AACTCCCTCC ACTGGTACCA TGTCTTCTGC GGATGACCTG 
    GATGAGAGGG AGCCACCTTC CCCATCCGAT ACTGGCCTCT CTGAAATGGT GATGGAAACA 
    GCCAGTTCTC CAGGCCCTTT CCGCAATGCC CAAATGTCAA AAGCAGCTCA CACACACAAA 
    CTACGAAAAC TGCGAGCGCC TTCCAAATGC AGAGAGTGTG ACAGTCTGGT GGTCTTCCAT 
    GGGGCAGAGT GTGAGGAGTG CTCCCTGGCC TGTCATAAGA AATGTCTGGA GACTCTTGCC 
    ATTCAGTGTG GTCATAAGAA GCTCCAGGGC AGACTGCACC TCTTCGGGAT TGACTTTGCC 
    CAAGTAGTAA AGAACAGTCC TGACGGCATC CCTTTCATCA TCAAAAAATG CACCTCAGAA 
    ATCGAGAGTC GTGCCCTGAC CATTAAGGGC ATTTATCGGG TGAATGGGGC GAAGTCTCGT 
    GTGGAAAAGC TGTGCCAGGC CTTTGAGAAT GGAAAGGACT TAGTGGAGCT TTCTGACCTC 
    CACCCGCATG ACATAAGCAA CGTGCTGAAG CTTTACCTGA GACAGTTGCC AGAGCCGTTG 
    ATTCTGTATC GTTATTATAA CGATGTCATT GGGCTGGCGA AAGAAACTCA GAACATGGAC 
    AAGACAGACT CAGCTAAAGA GAAATCAGCA GGAGAGCAGC TGGGCCTCAG CACTGAGCTG 
    AAAAGAGTGC TCTTCAAAGT CAGAGATCTC CTTCGACAGC TTCCTGCGCC CCACTACAAA 
    ACCCTGCAGT TCCTCGTCAC ACATCTGCAC AGAGTTTCAG AGCAAGCTGA GGAGAACAAG 
    ATGACCGCTA GTAACCTGGG CATCATCTTT GGCCCCACGC TCATTAAGCC CAGACATTTG 
    GAGGCAGAAG TGTCGCTTTC CTCCCTGGTT GACTATCCTC ACCAGGCCCG CATGGTGGAG 
    CTGCTCATCA AACACCATCA GATGATCTTT GACGTGCCCC TCAGCCCCAT GTCTCCAACC 
    AGTCCAACTG TATCACAGGC TTCCTTTGGG TCCAGCATCC AGGACAAAGA GTCCAAACTC 
    AGCCGTCACT CTAGATCCCT GATGGACATC AAAGAGAGTG CAAAACTCTA CAAGAGACAC 
    TCGTCTGTGA TCATCCCAGC TCAGCTCATG GAGGAAGGGA AGGAAATGAA GACTGGAGAC 
    CACAGAGTAC AAACATCTGC AGGTGAGGGC TCAGATGTCA ACGGGGTTGG TTTGACTTCT 
    GTTGACTCCA CATCTGTGTT CAACCGGCCT GGTGCCAGCA GCCGAATGGT GCAGCTGAGA 
    CCTCAGCGTG CCAAGCCGGT GTCTCGACCA ATCAGCATGC CCATAGACCG CCTACTCAAC 
    GAACGCAACA GCCGCAACAC AGTGGAGCAT GATCACTCAC CCGCCGCCAT TGAGGAGACC 
    ACTGAACCAG AGAAACCGAC AACACCACGG CACACCAACT TTTACAGGAA CCCCTTCATT 
    GACACTCAGA CGCTGAGGAG GACCTGGGAC AGGCAGTACA GACATTATGA CGTCACGCCC 
    AGGACTGCAA TGATAGTGGC CAACCTGCCA CCTTCCGGTG TGCAGAAACA GCCTGAAATT 
    AGTATGGGAT CCCAAAGCAG CACCTCTAGA AAAGATGGTA CAAGCCAGTC TGGTGTGGCT 
    CCAATATCGT TCAGAGCAGC ACGGACACTA AAACCCTCTT CTCCTGGAAC GTTCTATAGA 
    CCTCCCTCTG GAGGCCAGTT GAAGCCATCT GACTTGCTGG CAAAATCAGT TTCAAGAGCG 
    CCAACCACTA CCACAGGAGC AATTTACACA ACAGCCATTA CTGTATTAAC AACAGCCAGC 
    ACGTCATCAG TCATGACGAT CTCTACAGCG GTCACGACTC CCCCCACCAC GCCAACAACA 
    TCAGTGACTG TCGCTCTGAC ATCCAAGCCC ACTTTTACAA CAGTGAGCAG AAGTGTGTCA 
    GGAGGAGCAG GGGAAGGACT GTCAGAGAGC GACTTGCTCA GCCCAGTTAC ACTCTCTCCA 
    CCTCAGTCTC CAGTCTCCAG CACTGAGGAG CTCAGCCCGA CAGATGCCAA ACCCCTCTAT 
    CAGAGACGCA GTCGCCGCAT GCAGGAGCTG GAGCATCGAG AGGCTCATTT TGTGTAA

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

    arhgap29b ( XM_005163312.3 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_005163369.1 Danio rerio Rho GTPase activating protein 29b (arhgap29b), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ODa06831
    Clone ID Related Accession (Same CDS sequence) XM_005163312.4 , XM_005163312.3
    Accession Version XM_005163312.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4017bp)
    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 rho GTPase-activating protein 29 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_005163312.2. ##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
    ATGTTCCGTC AGGGCAGCAA CAGTGGGAAT AAACGCATGA CAAGCGGTGC TCGTCTCTCC 
    CAGCCCATCA TCCCTTTGTC CCTGCCTACC GCATCCTCCA AAACGCTAGA AATGGGCCGC 
    AGCTCTAAGA CAAACCCCCT CAACGCTATG GGCCTGGACC ACAATATCGC CACCTCGGGA 
    GGGGATCCCG AATACATCAT GCAACTGGTC AATGATGTGC GCAAGTTTTC TGATGTGCTG 
    CTGAGCCTTA AAGAGGCTTT TCATTCCAAA GAAAGTCAAG AGTGCTCGCA GCACGTGGTG 
    AATGAGCGTC TTGGGGAGTT GGTCCACGTG TTGAAGGCCG TCATTGGCAA ACACCAGGCA 
    CTGAACTCAT CCGAAATCCT TGGTGCCGCG GGGACTGTTA TTGCTAAAGT CAAAGGCGTG 
    AACTTCAAGG AAGTTAATAA CGAAAATAAA AGCACAATAT TTGGCGAGAT ACACACGTCG 
    ATTGACACTT TGGCATTCAC CTTTGGCAAT GTAGTGTCTG ACTTCCTTAT GGGAGATGTG 
    GACGGTGGCT CCAGGTTGGG GTATCCCCAA GCCAGAAGAA GTCGTTCTTT TGAAAACCTC 
    TCTGAAGATT CACGAGGCTG CAGTCAAAAC GATCTGGCAG ACCATTCTCT GTCTCCAGAA 
    CTGTCCACAG TGGAGCAGGT GGACCTTCTT CTCCTGAAGA ATGACAGCGG TGTAGAGTCG 
    GCTCTGCTCT ATGCCAAGGC CTGGTCCAAA TACACCAAAG ACGTTCTGGC CTGGGTGGAG 
    AAACGCCTAA GCCTGGACAT GGAATGTGCC AAAAGCTTTG CCAAGATGGC AGAATCCGCA 
    AAGGCTGTAG CAAGTCAACA GGATTTCATG CCTTTCCGGG ATATCTATGT CTCTGCCTTT 
    AAAAATGAAA TCGAGTACAA TCATGTACTG CTCCAAACGG CTGCAGCTCT TCAGACCAAC 
    AAATTCACAC AGCCACTGCT GGCCCGCAAG AATGACCTGG ACAAGCAGAG GAAAGAGATT 
    AAAGAACAAT GGCAAAGAGA GCTGAAGAAA ATGAACGAGT CAGAAAGTGC TTTAAAGAAG 
    GCTCGGCTGT TGAAAATGCA GAAGAGGGAG GAATACGAGA AGGCCCGGAG CTCGACCAGC 
    CGTACCGAGG AGGAGCAGCC AGCAGCTGGA GGCAGGACAC TGGAGAAGAA ACGCAGAGTT 
    GAGGAAGAGG CCCTACAGAA GGCAGAGGAA GCGCAGGAGC AGTATAAAGC CTGTGTGGCC 
    GATCTGGAGG CCAAGAAGGT CAGCCTGTCA AACGCTAAGA GTGAGATCCT CGCACAGATT 
    CGGAAGCTGG TCTTCCAATG TGACCTGACC CTCAAAGCGG TGACAGTGAA CTGGTTCCAG 
    ATGCAGCAGG CTCAGACTAT GCCCCTGTCC GTCAACTACC AAGCTCTAAG CGAACAAGCC 
    AAGAAGTACG AACCAGGTCA GCGCTACTCT GAATTTGTGC GCAGTCTCCC TAAAGAGCGT 
    GTGTGGCTGG AGTCTCTGTC TCAGGACATC ACCGCTTCCT CAAAAACGGG AATGTCTCTT 
    CATAAGAGGT CTCAGAACAG CACCCGCTCG TCTCATGGGA ACCTGTCGCA GGGCTCTGCT 
    ACATCTATGG ATAATCACAG CGCAGACGAG GTGGAGGGTA ACATGCAGCC ATGCAAGGCC 
    AAGATTGCAG AGAGGCGCTC CAACAGCAGT ATAGACATGC AAGTGCCGAG GACGCAGGGC 
    TCTCAGCGGG CCTGGAGCTC AGGCAGTGCC GGTGGAGGAG GGATGTGCAG TGACTCAGAG 
    AGCGCTGGAG GAAGCAGCGA GTCTCGCTCC ATGGACTCCC CCACAGCCAG TCCAGGAGAT 
    TTCAAACGCA GGCTTCCCAG AACTCCCTCC ACTGGTACCA TGTCTTCTGC GGATGACCTG 
    GATGAGAGGG AGCCACCTTC CCCATCCGAT ACTGGCCTCT CTGAAATGGT GATGGAAACA 
    GCCAGTTCTC CAGGCCCTTT CCGCAATGCC CAAATGTCAA AAGCAGCTCA CACACACAAA 
    CTACGAAAAC TGCGAGCGCC TTCCAAATGC AGAGAGTGTG ACAGTCTGGT GGTCTTCCAT 
    GGGGCAGAGT GTGAGGAGTG CTCCCTGGCC TGTCATAAGA AATGTCTGGA GACTCTTGCC 
    ATTCAGTGTG GTCATAAGAA GCTCCAGGGC AGACTGCACC TCTTCGGGAT TGACTTTGCC 
    CAAGTAGTAA AGAACAGTCC TGACGGCATC CCTTTCATCA TCAAAAAATG CACCTCAGAA 
    ATCGAGAGTC GTGCCCTGAC CATTAAGGGC ATTTATCGGG TGAATGGGGC GAAGTCTCGT 
    GTGGAAAAGC TGTGCCAGGC CTTTGAGAAT GGAAAGGACT TAGTGGAGCT TTCTGACCTC 
    CACCCGCATG ACATAAGCAA CGTGCTGAAG CTTTACCTGA GACAGTTGCC AGAGCCGTTG 
    ATTCTGTATC GTTATTATAA CGATGTCATT GGGCTGGCGA AAGAAACTCA GAACATGGAC 
    AAGACAGACT CAGCTAAAGA GAAATCAGCA GGAGAGCAGC TGGGCCTCAG CACTGAGCTG 
    AAAAGAGTGC TCTTCAAAGT CAGAGATCTC CTTCGACAGC TTCCTGCGCC CCACTACAAA 
    ACCCTGCAGT TCCTCGTCAC ACATCTGCAC AGAGTTTCAG AGCAAGCTGA GGAGAACAAG 
    ATGACCGCTA GTAACCTGGG CATCATCTTT GGCCCCACGC TCATTAAGCC CAGACATTTG 
    GAGGCAGAAG TGTCGCTTTC CTCCCTGGTT GACTATCCTC ACCAGGCCCG CATGGTGGAG 
    CTGCTCATCA AACACCATCA GATGATCTTT GACGTGCCCC TCAGCCCCAT GTCTCCAACC 
    AGTCCAACTG TATCACAGGC TTCCTTTGGG TCCAGCATCC AGGACAAAGA GTCCAAACTC 
    AGCCGTCACT CTAGATCCCT GATGGACATC AAAGAGAGTG CAAAACTCTA CAAGAGACAC 
    TCGTCTGTGA TCATCCCAGC TCAGCTCATG GAGGAAGGGA AGGAAATGAA GACTGGAGAC 
    CACAGAGTAC AAACATCTGC AGGTGAGGGC TCAGATGTCA ACGGGGTTGG TTTGACTTCT 
    GTTGACTCCA CATCTGTGTT CAACCGGCCT GGTGCCAGCA GCCGAATGGT GCAGCTGAGA 
    CCTCAGCGTG CCAAGCCGGT GTCTCGACCA ATCAGCATGC CCATAGACCG CCTACTCAAC 
    GAACGCAACA GCCGCAACAC AGTGGAGCAT GATCACTCAC CCGCCGCCAT TGAGGAGACC 
    ACTGAACCAG AGAAACCGAC AACACCACGG CACACCAACT TTTACAGGAA CCCCTTCATT 
    GACACTCAGA CGCTGAGGAG GACCTGGGAC AGGCAGTACA GACATTATGA CGTCACGCCC 
    AGGACTGCAA TGATAGTGGC CAACCTGCCA CCTTCCGGTG TGCAGAAACA GCCTGAAATT 
    AGTATGGGAT CCCAAAGCAG CACCTCTAGA AAAGATGGTA CAAGCCAGTC TGGTGTGGCT 
    CCAATATCGT TCAGAGCAGC ACGGACACTA AAACCCTCTT CTCCTGGAAC GTTCTATAGA 
    CCTCCCTCTG GAGGCCAGTT GAAGCCATCT GACTTGCTGG CAAAATCAGT TTCAAGAGCG 
    CCAACCACTA CCACAGGAGC AATTTACACA ACAGCCATTA CTGTATTAAC AACAGCCAGC 
    ACGTCATCAG TCATGACGAT CTCTACAGCG GTCACGACTC CCCCCACCAC GCCAACAACA 
    TCAGTGACTG TCGCTCTGAC ATCCAAGCCC ACTTTTACAA CAGTGAGCAG AAGTGTGTCA 
    GGAGGAGCAG GGGAAGGACT GTCAGAGAGC GACTTGCTCA GCCCAGTTAC ACTCTCTCCA 
    CCTCAGTCTC CAGTCTCCAG CACTGAGGAG CTCAGCCCGA CAGATGCCAA ACCCCTCTAT 
    CAGAGACGCA GTCGCCGCAT GCAGGAGCTG GAGCATCGAG AGGCTCATTT TGTGTAA

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

    RefSeq XP_005163369.1
    CDS468..4484
    Translation

    Target ORF information:

    RefSeq Version XM_005163312.3
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio Rho GTPase activating protein 29b (arhgap29b), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005163312.3

    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
    ATGTTCCGTC AGGGCAGCAA CAGTGGGAAT AAACGCATGA CAAGCGGTGC TCGTCTCTCC 
    CAGCCCATCA TCCCTTTGTC CCTGCCTACC GCATCCTCCA AAACGCTAGA AATGGGCCGC 
    AGCTCTAAGA CAAACCCCCT CAACGCTATG GGCCTGGACC ACAATATCGC CACCTCGGGA 
    GGGGATCCCG AATACATCAT GCAACTGGTC AATGATGTGC GCAAGTTTTC TGATGTGCTG 
    CTGAGCCTTA AAGAGGCTTT TCATTCCAAA GAAAGTCAAG AGTGCTCGCA GCACGTGGTG 
    AATGAGCGTC TTGGGGAGTT GGTCCACGTG TTGAAGGCCG TCATTGGCAA ACACCAGGCA 
    CTGAACTCAT CCGAAATCCT TGGTGCCGCG GGGACTGTTA TTGCTAAAGT CAAAGGCGTG 
    AACTTCAAGG AAGTTAATAA CGAAAATAAA AGCACAATAT TTGGCGAGAT ACACACGTCG 
    ATTGACACTT TGGCATTCAC CTTTGGCAAT GTAGTGTCTG ACTTCCTTAT GGGAGATGTG 
    GACGGTGGCT CCAGGTTGGG GTATCCCCAA GCCAGAAGAA GTCGTTCTTT TGAAAACCTC 
    TCTGAAGATT CACGAGGCTG CAGTCAAAAC GATCTGGCAG ACCATTCTCT GTCTCCAGAA 
    CTGTCCACAG TGGAGCAGGT GGACCTTCTT CTCCTGAAGA ATGACAGCGG TGTAGAGTCG 
    GCTCTGCTCT ATGCCAAGGC CTGGTCCAAA TACACCAAAG ACGTTCTGGC CTGGGTGGAG 
    AAACGCCTAA GCCTGGACAT GGAATGTGCC AAAAGCTTTG CCAAGATGGC AGAATCCGCA 
    AAGGCTGTAG CAAGTCAACA GGATTTCATG CCTTTCCGGG ATATCTATGT CTCTGCCTTT 
    AAAAATGAAA TCGAGTACAA TCATGTACTG CTCCAAACGG CTGCAGCTCT TCAGACCAAC 
    AAATTCACAC AGCCACTGCT GGCCCGCAAG AATGACCTGG ACAAGCAGAG GAAAGAGATT 
    AAAGAACAAT GGCAAAGAGA GCTGAAGAAA ATGAACGAGT CAGAAAGTGC TTTAAAGAAG 
    GCTCGGCTGT TGAAAATGCA GAAGAGGGAG GAATACGAGA AGGCCCGGAG CTCGACCAGC 
    CGTACCGAGG AGGAGCAGCC AGCAGCTGGA GGCAGGACAC TGGAGAAGAA ACGCAGAGTT 
    GAGGAAGAGG CCCTACAGAA GGCAGAGGAA GCGCAGGAGC AGTATAAAGC CTGTGTGGCC 
    GATCTGGAGG CCAAGAAGGT CAGCCTGTCA AACGCTAAGA GTGAGATCCT CGCACAGATT 
    CGGAAGCTGG TCTTCCAATG TGACCTGACC CTCAAAGCGG TGACAGTGAA CTGGTTCCAG 
    ATGCAGCAGG CTCAGACTAT GCCCCTGTCC GTCAACTACC AAGCTCTAAG CGAACAAGCC 
    AAGAAGTACG AACCAGGTCA GCGCTACTCT GAATTTGTGC GCAGTCTCCC TAAAGAGCGT 
    GTGTGGCTGG AGTCTCTGTC TCAGGACATC ACCGCTTCCT CAAAAACGGG AATGTCTCTT 
    CATAAGAGGT CTCAGAACAG CACCCGCTCG TCTCATGGGA ACCTGTCGCA GGGCTCTGCT 
    ACATCTATGG ATAATCACAG CGCAGACGAG GTGGAGGGTA ACATGCAGCC ATGCAAGGCC 
    AAGATTGCAG AGAGGCGCTC CAACAGCAGT ATAGACATGC AAGTGCCGAG GACGCAGGGC 
    TCTCAGCGGG CCTGGAGCTC AGGCAGTGCC GGTGGAGGAG GGATGTGCAG TGACTCAGAG 
    AGCGCTGGAG GAAGCAGCGA GTCTCGCTCC ATGGACTCCC CCACAGCCAG TCCAGGAGAT 
    TTCAAACGCA GGCTTCCCAG AACTCCCTCC ACTGGTACCA TGTCTTCTGC GGATGACCTG 
    GATGAGAGGG AGCCACCTTC CCCATCCGAT ACTGGCCTCT CTGAAATGGT GATGGAAACA 
    GCCAGTTCTC CAGGCCCTTT CCGCAATGCC CAAATGTCAA AAGCAGCTCA CACACACAAA 
    CTACGAAAAC TGCGAGCGCC TTCCAAATGC AGAGAGTGTG ACAGTCTGGT GGTCTTCCAT 
    GGGGCAGAGT GTGAGGAGTG CTCCCTGGCC TGTCATAAGA AATGTCTGGA GACTCTTGCC 
    ATTCAGTGTG GTCATAAGAA GCTCCAGGGC AGACTGCACC TCTTCGGGAT TGACTTTGCC 
    CAAGTAGTAA AGAACAGTCC TGACGGCATC CCTTTCATCA TCAAAAAATG CACCTCAGAA 
    ATCGAGAGTC GTGCCCTGAC CATTAAGGGC ATTTATCGGG TGAATGGGGC GAAGTCTCGT 
    GTGGAAAAGC TGTGCCAGGC CTTTGAGAAT GGAAAGGACT TAGTGGAGCT TTCTGACCTC 
    CACCCGCATG ACATAAGCAA CGTGCTGAAG CTTTACCTGA GACAGTTGCC AGAGCCGTTG 
    ATTCTGTATC GTTATTATAA CGATGTCATT GGGCTGGCGA AAGAAACTCA GAACATGGAC 
    AAGACAGACT CAGCTAAAGA GAAATCAGCA GGAGAGCAGC TGGGCCTCAG CACTGAGCTG 
    AAAAGAGTGC TCTTCAAAGT CAGAGATCTC CTTCGACAGC TTCCTGCGCC CCACTACAAA 
    ACCCTGCAGT TCCTCGTCAC ACATCTGCAC AGAGTTTCAG AGCAAGCTGA GGAGAACAAG 
    ATGACCGCTA GTAACCTGGG CATCATCTTT GGCCCCACGC TCATTAAGCC CAGACATTTG 
    GAGGCAGAAG TGTCGCTTTC CTCCCTGGTT GACTATCCTC ACCAGGCCCG CATGGTGGAG 
    CTGCTCATCA AACACCATCA GATGATCTTT GACGTGCCCC TCAGCCCCAT GTCTCCAACC 
    AGTCCAACTG TATCACAGGC TTCCTTTGGG TCCAGCATCC AGGACAAAGA GTCCAAACTC 
    AGCCGTCACT CTAGATCCCT GATGGACATC AAAGAGAGTG CAAAACTCTA CAAGAGACAC 
    TCGTCTGTGA TCATCCCAGC TCAGCTCATG GAGGAAGGGA AGGAAATGAA GACTGGAGAC 
    CACAGAGTAC AAACATCTGC AGGTGAGGGC TCAGATGTCA ACGGGGTTGG TTTGACTTCT 
    GTTGACTCCA CATCTGTGTT CAACCGGCCT GGTGCCAGCA GCCGAATGGT GCAGCTGAGA 
    CCTCAGCGTG CCAAGCCGGT GTCTCGACCA ATCAGCATGC CCATAGACCG CCTACTCAAC 
    GAACGCAACA GCCGCAACAC AGTGGAGCAT GATCACTCAC CCGCCGCCAT TGAGGAGACC 
    ACTGAACCAG AGAAACCGAC AACACCACGG CACACCAACT TTTACAGGAA CCCCTTCATT 
    GACACTCAGA CGCTGAGGAG GACCTGGGAC AGGCAGTACA GACATTATGA CGTCACGCCC 
    AGGACTGCAA TGATAGTGGC CAACCTGCCA CCTTCCGGTG TGCAGAAACA GCCTGAAATT 
    AGTATGGGAT CCCAAAGCAG CACCTCTAGA AAAGATGGTA CAAGCCAGTC TGGTGTGGCT 
    CCAATATCGT TCAGAGCAGC ACGGACACTA AAACCCTCTT CTCCTGGAAC GTTCTATAGA 
    CCTCCCTCTG GAGGCCAGTT GAAGCCATCT GACTTGCTGG CAAAATCAGT TTCAAGAGCG 
    CCAACCACTA CCACAGGAGC AATTTACACA ACAGCCATTA CTGTATTAAC AACAGCCAGC 
    ACGTCATCAG TCATGACGAT CTCTACAGCG GTCACGACTC CCCCCACCAC GCCAACAACA 
    TCAGTGACTG TCGCTCTGAC ATCCAAGCCC ACTTTTACAA CAGTGAGCAG AAGTGTGTCA 
    GGAGGAGCAG GGGAAGGACT GTCAGAGAGC GACTTGCTCA GCCCAGTTAC ACTCTCTCCA 
    CCTCAGTCTC CAGTCTCCAG CACTGAGGAG CTCAGCCCGA CAGATGCCAA ACCCCTCTAT 
    CAGAGACGCA GTCGCCGCAT GCAGGAGCTG GAGCATCGAG AGGCTCATTT TGTGTAA

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

  • PubMed

    RFX transcription factors are essential for hearing in mice.
    Nature communications68549(2015 Oct)
    Elkon R,Milon B,Morrison L,Shah M,Vijayakumar S,Racherla M,Leitch CC,Silipino L,Hadi S,Weiss-Gayet M,Barras E,Schmid CD,Ait-Lounis A,Barnes A,Song Y,Eisenman DJ,Eliyahu E,Frolenkov GI,Strome SE,Durand B,Zaghloul NA,Jones SM,Reith W,Hertzano R


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


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