ORF » Species Summary » Danio rerio » jarid2b cDNA ORF clone

jarid2b cDNA ORF clone, Danio rerio(zebrafish)

The following jarid2b gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the jarid2b 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
ODa34096 NM_001202459.1
Latest version!		 Danio rerio jumonji, AT rich interactive domain 2b (jarid2b), mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa42853 XM_009294217.3
Latest version!		 Danio rerio jumonji, AT rich interactive domain 2b (jarid2b), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
View Old Accession Versions >>
ODa42853 XM_009294217.2 Danio rerio jumonji, AT rich interactive domain 2b (jarid2b), transcript variant X1, 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)
    jarid2b ( NM_001202459.1 ) cDNA ORF clone, Danio rerio(zebrafish) -> NP_001189388.1 Danio rerio jumonji, AT rich interactive domain 2b (jarid2b), mRNA.
    Price & Availability↑
    CloneID ODa34096
    Clone ID Related Accession (Same CDS sequence) NM_001202459.1
    Accession Version NM_001202459.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3960bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-28
    Organism Danio rerio(zebrafish)
    Product protein Jumonji
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from BX842613.7, BX890540.5 and BX842609.12. On Jan 29, 2011 this sequence version replaced XM_681669.3. 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## RNAseq introns :: mixed/partial sample support SAMEA2168446, SAMEA2168447 [ECO:0000350] ##Evidence-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGAGCAAGG AAAGACCTAA GAGGAATATC ATTCAGAAGA AATACGATGA TAATGATGGG 
    ATGCCCTGGT CGGAGGAGCG AGTGGTGCGG AAGGTGCTTT ATCTCTCGCT AAAGGAGTTT 
    AAGAGCGCAC AGAAGCGCCA GCTCTGTGAC GGCATCGACG ATGAGGGAAA AGGCCCTAAT 
    GCTTCCTTGT CAAATGGACA GCTGAATGGT TCTAAGGGAG GACATAAAGA GGACGGATCT 
    CGCTCTCAGA GGAAAGATGG AGGAGGCGAG TACTCTGTGG ATGGTCCGGC TAAAAAGAGG 
    CCCAGACTGC ATGCACAGAG GAAGTTTGCT CAGTCTCAAC CCAACTCTCC CAGCAACACA 
    CCAGTGAAGA TGGCTGACCC CTCTCTGCCC ACACCGCTCA CACACATCAC ATTCCTCTCC 
    AGACGCAAAC CCAAGACAGA AGACTTCCTC ACCTTCATAT GCCTACGAGG CTCACCGGCA 
    TTACCCAGTA ACATGGCCTA CTTCGGCTGC TCTCAGGATG AGGAGGATCT GGAAGACGAA 
    GATGAGATTG AAGAAGAGAA AGCACCCAGC GTGGCATCTA CATCGTGCCA GTCTACACCT 
    AAGAAGGGCA AACCACATGG CAAGATCAAC GGACTCGTGT TGAATGGCCA TAAGGTACAC 
    AAGGACAAAG AGCTCACTCC CAGATCCAAA GCCAGAGAGT CGTCTGTGGG GAGAGATCGC 
    AGCGAGAGGT GTGATGAGTC TGAGATCTCC CACAAACACA CGGCAGCCAC AGCCAAGAGC 
    CACAACACCA ATGGCCACAA CTACAGGAGA GCTGCAGAGG AGCTCCGAAA GCAGGTCTCG 
    AAAGTAAATG GACTCACAAG GGCATCATCA GTTGGCACGC ATAAAGCCAG TGGCAAAAAG 
    CAGAAAGACT TTCGTCTGCC GTCCAAAACT GTGAAGTACA CAGCCACCGT GTCCAAGGGC 
    CACGTCACCT ACACCAAAGC AAAACGAGAA CTGGTTAAGA AAGCCAAACT CAACCACAGC 
    AAGCACGGAG CTTCTGCAGG CCTTCGTGCT TACAGCAACA ACCATCACCA TAATTCTCAT 
    CATGCAACCA GCAATGGCCA TGGCCGGCCC CAGCTCTCTC ACTCAGGAAA AGCCCAAAGT 
    ATCAATGCAA AAACCCGCAA ACAGGTGCTA TTGTCGAATG GGGTGCATAA GATGACTAAT 
    GGGAGCCGGC TTAACGGCAG GCTAAATGGA CGCCATAGTG CCAGGGAAGA AGAGGTTGTT 
    GACCGACCAG TGCGGCAAGG ACTGCGGAAC TCTAAACGCA GAAGTGATGC CATGACATTG 
    CTTGGAGCTG TAACTGAGAG TGAAGAGACT AAAACTAAGC AGCAAACCAC TGAGGTTAAG 
    AAAGCTAAAG TGCAGCCTAG CCCACTTGAA ACTCGCAGCA AGAAAGCCCT GAATCAGTTC 
    AAGTCCCCTA ACATAGTCAC TATTGCACAT AGTATCACTG AAATGGCTGC CTCCCCTATT 
    CAGAAAACGG GTCCTGCTCC TCCTCCATCT CCCCCTGCTG CTCCAGCTTC CCCGTCCATG 
    CCCCAGAACC CTGCAATCCC TGAGCCAGCA CGACAGCGAC CCAAACGTGC CTCTGCTGGC 
    AAACTGATGT TCATCAGAAA AGCACAGCAG AGGGCCCAAA CTAATCCTAC CCTCAACCGG 
    ACCACATCCA CTACCTCAGC CAGCAAGTCC TTCAAACCAG CAGAGCCCAC ACACACACCT 
    CCACCTCGGC TGGACAGAGA CAGGGAGCGT GAGAGGGAAA GGGAGAGAAG CAGGGCAAGG 
    TATGCAGCCT TGGGGGATGT GCCCATTTTT AAGCCCAGCT CCAGGGAGTT CCAGGACCCT 
    TTGGTGTACC TAGACTCATT TCGGGAACAG GTCGAGTCAT GTGGACTGTG CAGAGTGCTG 
    CCTCCTACTG ACTGGAGGCC AGAGTGCAAA CTCAATGATG AGATGCGTTT TGTGACACAG 
    GTTCAGCGCA TACACAAGCT GGGCAGGCGT TGGGGGCCCA ATGTTCAAAA ACTTGCCTGC 
    ATTAAGAAGC ACCTCAAATC TCAGGGCATC TCAATGGATC AGCCACCTGT TATAGGCAAG 
    TCCTTTAAAT CCTCTGCATT TAGATCTGCT TTTGTTTGTA TAGGTGGCTG TGAAGTAGAT 
    TTGGCTCGTT TTTCTGAGCT GGTCTGTGAC TTGGGTGGAA TGCAGCAGGT GATGGACCTG 
    AAAAAATGGA GCCGGCTGGC CGATCTGCTT CGCATTCCCA AATCAGCACA GGATCGTCTG 
    GCCAAGCTCC AGGAGGCCTA CCTCCAGTTT CTGCTCTCTT ATGACCTGCT TTCACCTGAG 
    GAGCTCCAGC GTTTGGAGCA GGAGGTTCGA GCGGAAAAGG AGGCTCTGGA ACGCAAGCGG 
    GGACCCCTGG AGGGTCACTC TGATAACGGC CATCATTCTC TGGCTCTTCC TCGTTATGAA 
    CCCAAGAATG GGCTCAATGG CCTCAGCCAT CGCAATGGCT TCCGCAATCA CCACAAAGAG 
    CCAGACATAC AGCGGCAGGC TGGCCGCCGC AGACTGTTTG CTCAGGAAAA GAAAGGGGAA 
    AAAGTGGAGT GTGAAGAGAC AGAGGAGGAG ATGGAAGATG AAGGTGTTCT CAGTGACCAG 
    CACAAATGTA TATACAAGGG GAGATCGGTA TCTTTGACCA CCTTTTACAG AATAGCAAGA 
    AATACAATGA TGATGTACTT CAACAAAGAG CCTGGGGCTG CTGAAGTTGA GCAAGATTAC 
    TGGCGGATAG TGGAGCAGAG GGACTGCCAT GTAGCAGTGC ATTATGGGAA AGTGGACACA 
    AACACACATG GAAGCGGCTT CCCTGTGGGC AAGTCGGAGC CATTCTCCAA GCATGGATGG 
    AACCTCACCG TCCTTCCCAA TAACTCTGGA TCCATTCTGC GCCATCTTGG TGCTGTGCCG 
    GGGGTGACTA TTCCCTGGCT GAACATCGGC ATGGTCTTTT CTACCTCATG CTGGTCACAA 
    GACCAAAACC GCCTTCCATA CATTGATTAC TTACACACTG GTGCTGATTG CATTTGGTAT 
    TCTATTCCTG CTGAGGAAAA GACAAAGCTT GATAAAGTGG TGCACACACT GCTACAGGCC 
    AATGGAACGC CGGGACTGGA AATGCTGGAG AAGAATGTTA TGATTTCTCC AGAGGTGCTT 
    TGTCGTGAGG GAATAAAGGT CCATCGTACA GTTCAGCAGA GTGGGCAGTT TGTGGTGGTC 
    TTCCCCGGTG CATTTGTGTC CAGGGTGTGC TGTGGCTACA GTGTGTCTGA AACTGTGCAC 
    TTTGCCACAC CACAGTGGAT GAACCTGGGC TACGAGGCTG CTAAGGACCT GAAATGCAGG 
    CGCATAGCAA AACCCTTCTC TATGGAGAAG CTGCTGTATC AGATCGCCAC AGCTGAGGCC 
    AAACGAGAAA ACAGACTTGT GCTCAGTACA ATCTCTTCTC TTCTCAAAGA TCTCAGGAAC 
    ATAGAGATGA AGCAAAGGCA GGAGCTGTAT GAAGCAGGGC TGCTCTCCTC CGCACGCTAC 
    TGCACTCATG ACCACAACCA ATCACCTGCT GACACCAGGA AGAAGCCGCG CAAGTGGCTG 
    GCACTGGAGT CATCAGAGAG GCGCTGCCAA ATGTGCCAGC ACCTCTGCTA CTTATCTATG 
    GTGGTGCAGG AGAACGAGAA TGTGGTGTTC TGTCTGGAGT GTGCGCTGCA CTATGTGGAG 
    AAACACAAAA ACTGCCGCGG ACTCAAGATG ATGTACCGCT ATGATGAGGA ACAGATCAAC 
    AGTTTGGTGA ATCAGGTGTG TGGTAAAGCA CTGGTGAGAA GCGGGTCAGA AGTTTGTAAT 
    GGCTCCAGTC CCATTAAACC ACCGGCCAAA CGCGGCCCTC GCAAGAGGGA ATCCATGAAG 
    ATTACTCTCA TCCCTCTGCC AACCCACCCA TCCAAAAGTG CCGCTGCTGC CGTCTCATGA

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

    RefSeq NP_001189388.1
    CDS462..4421
    Translation

    Target ORF information:

    RefSeq Version NM_001202459.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio jumonji, AT rich interactive domain 2b (jarid2b), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001202459.1

    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
    ATGAGCAAGG AAAGACCTAA GAGGAATATC ATTCAGAAGA AATACGATGA TAATGATGGG 
    ATGCCCTGGT CGGAGGAGCG AGTGGTGCGG AAGGTGCTTT ATCTCTCGCT AAAGGAGTTT 
    AAGAGCGCAC AGAAGCGCCA GCTCTGTGAC GGCATCGACG ATGAGGGAAA AGGCCCTAAT 
    GCTTCCTTGT CAAATGGACA GCTGAATGGT TCTAAGGGAG GACATAAAGA GGACGGATCT 
    CGCTCTCAGA GGAAAGATGG AGGAGGCGAG TACTCTGTGG ATGGTCCGGC TAAAAAGAGG 
    CCCAGACTGC ATGCACAGAG GAAGTTTGCT CAGTCTCAAC CCAACTCTCC CAGCAACACA 
    CCAGTGAAGA TGGCTGACCC CTCTCTGCCC ACACCGCTCA CACACATCAC ATTCCTCTCC 
    AGACGCAAAC CCAAGACAGA AGACTTCCTC ACCTTCATAT GCCTACGAGG CTCACCGGCA 
    TTACCCAGTA ACATGGCCTA CTTCGGCTGC TCTCAGGATG AGGAGGATCT GGAAGACGAA 
    GATGAGATTG AAGAAGAGAA AGCACCCAGC GTGGCATCTA CATCGTGCCA GTCTACACCT 
    AAGAAGGGCA AACCACATGG CAAGATCAAC GGACTCGTGT TGAATGGCCA TAAGGTACAC 
    AAGGACAAAG AGCTCACTCC CAGATCCAAA GCCAGAGAGT CGTCTGTGGG GAGAGATCGC 
    AGCGAGAGGT GTGATGAGTC TGAGATCTCC CACAAACACA CGGCAGCCAC AGCCAAGAGC 
    CACAACACCA ATGGCCACAA CTACAGGAGA GCTGCAGAGG AGCTCCGAAA GCAGGTCTCG 
    AAAGTAAATG GACTCACAAG GGCATCATCA GTTGGCACGC ATAAAGCCAG TGGCAAAAAG 
    CAGAAAGACT TTCGTCTGCC GTCCAAAACT GTGAAGTACA CAGCCACCGT GTCCAAGGGC 
    CACGTCACCT ACACCAAAGC AAAACGAGAA CTGGTTAAGA AAGCCAAACT CAACCACAGC 
    AAGCACGGAG CTTCTGCAGG CCTTCGTGCT TACAGCAACA ACCATCACCA TAATTCTCAT 
    CATGCAACCA GCAATGGCCA TGGCCGGCCC CAGCTCTCTC ACTCAGGAAA AGCCCAAAGT 
    ATCAATGCAA AAACCCGCAA ACAGGTGCTA TTGTCGAATG GGGTGCATAA GATGACTAAT 
    GGGAGCCGGC TTAACGGCAG GCTAAATGGA CGCCATAGTG CCAGGGAAGA AGAGGTTGTT 
    GACCGACCAG TGCGGCAAGG ACTGCGGAAC TCTAAACGCA GAAGTGATGC CATGACATTG 
    CTTGGAGCTG TAACTGAGAG TGAAGAGACT AAAACTAAGC AGCAAACCAC TGAGGTTAAG 
    AAAGCTAAAG TGCAGCCTAG CCCACTTGAA ACTCGCAGCA AGAAAGCCCT GAATCAGTTC 
    AAGTCCCCTA ACATAGTCAC TATTGCACAT AGTATCACTG AAATGGCTGC CTCCCCTATT 
    CAGAAAACGG GTCCTGCTCC TCCTCCATCT CCCCCTGCTG CTCCAGCTTC CCCGTCCATG 
    CCCCAGAACC CTGCAATCCC TGAGCCAGCA CGACAGCGAC CCAAACGTGC CTCTGCTGGC 
    AAACTGATGT TCATCAGAAA AGCACAGCAG AGGGCCCAAA CTAATCCTAC CCTCAACCGG 
    ACCACATCCA CTACCTCAGC CAGCAAGTCC TTCAAACCAG CAGAGCCCAC ACACACACCT 
    CCACCTCGGC TGGACAGAGA CAGGGAGCGT GAGAGGGAAA GGGAGAGAAG CAGGGCAAGG 
    TATGCAGCCT TGGGGGATGT GCCCATTTTT AAGCCCAGCT CCAGGGAGTT CCAGGACCCT 
    TTGGTGTACC TAGACTCATT TCGGGAACAG GTCGAGTCAT GTGGACTGTG CAGAGTGCTG 
    CCTCCTACTG ACTGGAGGCC AGAGTGCAAA CTCAATGATG AGATGCGTTT TGTGACACAG 
    GTTCAGCGCA TACACAAGCT GGGCAGGCGT TGGGGGCCCA ATGTTCAAAA ACTTGCCTGC 
    ATTAAGAAGC ACCTCAAATC TCAGGGCATC TCAATGGATC AGCCACCTGT TATAGGCAAG 
    TCCTTTAAAT CCTCTGCATT TAGATCTGCT TTTGTTTGTA TAGGTGGCTG TGAAGTAGAT 
    TTGGCTCGTT TTTCTGAGCT GGTCTGTGAC TTGGGTGGAA TGCAGCAGGT GATGGACCTG 
    AAAAAATGGA GCCGGCTGGC CGATCTGCTT CGCATTCCCA AATCAGCACA GGATCGTCTG 
    GCCAAGCTCC AGGAGGCCTA CCTCCAGTTT CTGCTCTCTT ATGACCTGCT TTCACCTGAG 
    GAGCTCCAGC GTTTGGAGCA GGAGGTTCGA GCGGAAAAGG AGGCTCTGGA ACGCAAGCGG 
    GGACCCCTGG AGGGTCACTC TGATAACGGC CATCATTCTC TGGCTCTTCC TCGTTATGAA 
    CCCAAGAATG GGCTCAATGG CCTCAGCCAT CGCAATGGCT TCCGCAATCA CCACAAAGAG 
    CCAGACATAC AGCGGCAGGC TGGCCGCCGC AGACTGTTTG CTCAGGAAAA GAAAGGGGAA 
    AAAGTGGAGT GTGAAGAGAC AGAGGAGGAG ATGGAAGATG AAGGTGTTCT CAGTGACCAG 
    CACAAATGTA TATACAAGGG GAGATCGGTA TCTTTGACCA CCTTTTACAG AATAGCAAGA 
    AATACAATGA TGATGTACTT CAACAAAGAG CCTGGGGCTG CTGAAGTTGA GCAAGATTAC 
    TGGCGGATAG TGGAGCAGAG GGACTGCCAT GTAGCAGTGC ATTATGGGAA AGTGGACACA 
    AACACACATG GAAGCGGCTT CCCTGTGGGC AAGTCGGAGC CATTCTCCAA GCATGGATGG 
    AACCTCACCG TCCTTCCCAA TAACTCTGGA TCCATTCTGC GCCATCTTGG TGCTGTGCCG 
    GGGGTGACTA TTCCCTGGCT GAACATCGGC ATGGTCTTTT CTACCTCATG CTGGTCACAA 
    GACCAAAACC GCCTTCCATA CATTGATTAC TTACACACTG GTGCTGATTG CATTTGGTAT 
    TCTATTCCTG CTGAGGAAAA GACAAAGCTT GATAAAGTGG TGCACACACT GCTACAGGCC 
    AATGGAACGC CGGGACTGGA AATGCTGGAG AAGAATGTTA TGATTTCTCC AGAGGTGCTT 
    TGTCGTGAGG GAATAAAGGT CCATCGTACA GTTCAGCAGA GTGGGCAGTT TGTGGTGGTC 
    TTCCCCGGTG CATTTGTGTC CAGGGTGTGC TGTGGCTACA GTGTGTCTGA AACTGTGCAC 
    TTTGCCACAC CACAGTGGAT GAACCTGGGC TACGAGGCTG CTAAGGACCT GAAATGCAGG 
    CGCATAGCAA AACCCTTCTC TATGGAGAAG CTGCTGTATC AGATCGCCAC AGCTGAGGCC 
    AAACGAGAAA ACAGACTTGT GCTCAGTACA ATCTCTTCTC TTCTCAAAGA TCTCAGGAAC 
    ATAGAGATGA AGCAAAGGCA GGAGCTGTAT GAAGCAGGGC TGCTCTCCTC CGCACGCTAC 
    TGCACTCATG ACCACAACCA ATCACCTGCT GACACCAGGA AGAAGCCGCG CAAGTGGCTG 
    GCACTGGAGT CATCAGAGAG GCGCTGCCAA ATGTGCCAGC ACCTCTGCTA CTTATCTATG 
    GTGGTGCAGG AGAACGAGAA TGTGGTGTTC TGTCTGGAGT GTGCGCTGCA CTATGTGGAG 
    AAACACAAAA ACTGCCGCGG ACTCAAGATG ATGTACCGCT ATGATGAGGA ACAGATCAAC 
    AGTTTGGTGA ATCAGGTGTG TGGTAAAGCA CTGGTGAGAA GCGGGTCAGA AGTTTGTAAT 
    GGCTCCAGTC CCATTAAACC ACCGGCCAAA CGCGGCCCTC GCAAGAGGGA ATCCATGAAG 
    ATTACTCTCA TCCCTCTGCC AACCCACCCA TCCAAAAGTG CCGCTGCTGC CGTCTCATGA

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

    jarid2b ( XM_009294217.2 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_009292492.1 Danio rerio jumonji, AT rich interactive domain 2b (jarid2b), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ODa42853
    Clone ID Related Accession (Same CDS sequence) XM_009294217.2 , XM_009294217.3
    Accession Version XM_009294217.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3912bp)
    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 protein Jumonji isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007130.6) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_009294217.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGAGCAAGG AAAGACCTAA GAGGAATATC ATTCAGAAGA AATACGATGA TAATGATGGG 
    ATGCCCTGGT CGGAGGAGCG AGTGGTGCGG AAGGTGCTTT ATCTCTCGCT AAAGGAGTTT 
    AAGAGCGCAC AGAAGCGCCA GCTCTGTGAC GGCATCGACG ATGAGGGAAA AGGCCCTAAT 
    GCTTCCTTGT CAAATGGACA GCTGAATGGT TCTAAGGGAG GACATAAAGA GGACGGATCT 
    CGCTCTCAGA GGAAAGATGG AGGAGGCGAG TACTCTGTGG ATGGTCCGGC TAAAAAGAGG 
    CCCAGACTGC ATGCACAGAG GAAGTTTGCT CAGTCTCAAC CCAACTCTCC CAGCAACACA 
    CCAGTGAAGA TGGCTGACCC CTCTCTGCCC ACACCGCTCA CACACATCAC ATTCCTCTCC 
    AGACGCAAAC CCAAGACAGA AGACTTCCTC ACCTTCATAT GCCTACGAGG CTCACCGGCA 
    TTACCCAGTA ACATGGCCTA CTTCGGCTGC TCTCAGGATG AGGAGGATCT GGAAGACGAA 
    GATGAGATTG AAGAAGAGAA AGCACCCAGC GTGGCATCTA CATCGTGCCA GTCTACACCT 
    AAGAAGGGCA AACCACATGG CAAGATCAAC GGACTCGTGT TGAATGGCCA TAAGGTACAC 
    AAGGACAAAG AGCTCACTCC CAGATCCAAA GCCAGAGAGT CGTCTGTGGG GAGAGATCGC 
    AGCGAGAGGT GTGATGAGTC TGAGATCTCC CACAAACACA CGGCAGCCAC AGCCAAGAGC 
    CACAACACCA ATGGCCACAA CTACAGGAGA GCTGCAGAGG AGCTCCGAAA GCAGGTCTCG 
    AAAGTAAATG GACTCACAAG GGCATCATCA GTTGGCACGC ATAAAGCCAG TGGCAAAAAG 
    CAGAAAGACT TTCGTCTGCC GTCCAAAACT GTGAAGTACA CAGCCACCGT GTCCAAGGGC 
    CACGTCACCT ACACCAAAGC AAAACGAGAA CTGGTTAAGA AAGCCAAACT CAACCACAGC 
    AAGCACGGAG CTTCTGCAGG CCTTCGTGCT TACAGCAACA ACCATCACCA TAATTCTCAT 
    CATGCAACCA GCAATGGCCA TGGCCGGCCC CAGCTCTCTC ACTCAGGAAA AGCCCAAAGT 
    ATCAATGCAA AAACCCGCAA ACAGGTGCTA TTGTCGAATG GGGTGCATAA GATGACTAAT 
    GGGAGCCGGC TTAACGGCAG GCTAAATGGA CGCCATAGTG CCAGGGAAGA AGAGGTTGTT 
    GACCGACCAG TGCGGCAAGG ACTGCGGAAC TCTAAACGCA GAAGTGATGC CATGACATTG 
    CTTGGAGCTG TAACTGAGAG TGAAGAGACT AAAACTAAGC AGCAAACCAC TGAGGTTAAG 
    AAAGCTAAAG TGCAGCCTAG CCCACTTGAA ACTCGCAGCA AGAAAGCCCT GAATCAGTTC 
    AAGTCCCCTA ACATAGTCAC TATTGCACAT AGTATCACTG AAATGGCTGC CTCCCCTATT 
    CAGAAAACGG GTCCTGCTCC TCCTCCATCT CCCCCTGCTG CTCCAGCTTC CCCGTCCATG 
    CCCCAGAACC CTGCAATCCC TGAGCCAGCA CGACAGCGAC CCAAACGTGC CTCTGCTGGC 
    AAACTGATGT TCATCAGAAA AGCACAGCAG AGGGCCCAAA CTAATCCTAC CCTCAACCGG 
    ACCACATCCA CTACCTCAGC CAGCAAGTCC TTCAAACCAG CAGAGCCCAC ACACACACCT 
    CCACCTCGGC TGGACAGAGA CAGGGAGCGT GAGAGGGAAA GGGAGAGAAG CAGGGCAAGG 
    TATGCAGCCT TGGGGGATGT GCCCATTTTT AAGCCCAGCT CCAGGGAGTT CCAGGACCCT 
    TTGGTGTACC TAGACTCATT TCGGGAACAG GTCGAGTCAT GTGGACTGTG CAGAGTGCTG 
    CCTCCTACTG ACTGGAGGCC AGAGTGCAAA CTCAATGATG AGATGCGTTT TGTGACACAG 
    GTTCAGCGCA TACACAAGCT GGGCAGGCGT TGGGGGCCCA ATGTTCAAAA ACTTGCCTGC 
    ATTAAGAAGC ACCTCAAATC TCAGGGCATC TCAATGGATC AGCCACCTGT TATAGGTGGC 
    TGTGAAGTAG ATTTGGCTCG TTTTTCTGAG CTGGTCTGTG ACTTGGGTGG AATGCAGCAG 
    GTGATGGACC TGAAAAAATG GAGCCGGCTG GCCGATCTGC TTCGCATTCC CAAATCAGCA 
    CAGGATCGTC TGGCCAAGCT CCAGGAGGCC TACCTCCAGT TTCTGCTCTC TTATGACCTG 
    CTTTCACCTG AGGAGCTCCA GCGTTTGGAG CAGGAGGTTC GAGCGGAAAA GGAGGCTCTG 
    GAACGCAAGC GGGGACCCCT GGAGGGTCAC TCTGATAACG GCCATCATTC TCTGGCTCTT 
    CCTCGTTATG AACCCAAGAA TGGGCTCAAT GGCCTCAGCC ATCGCAATGG CTTCCGCAAT 
    CACCACAAAG AGCCAGACAT ACAGCGGCAG GCTGGCCGCC GCAGACTGTT TGCTCAGGAA 
    AAGAAAGGGG AAAAAGTGGA GTGTGAAGAG ACAGAGGAGG AGATGGAAGA TGAAGGTGTT 
    CTCAGTGACC AGCACAAATG TATATACAAG GGGAGATCGG TATCTTTGAC CACCTTTTAC 
    AGAATAGCAA GAAATACAAT GATGATGTAC TTCAACAAAG AGCCTGGGGC TGCTGAAGTT 
    GAGCAAGATT ACTGGCGGAT AGTGGAGCAG AGGGACTGCC ATGTAGCAGT GCATTATGGG 
    AAAGTGGACA CAAACACACA TGGAAGCGGC TTCCCTGTGG GCAAGTCGGA GCCATTCTCC 
    AAGCATGGAT GGAACCTCAC CGTCCTTCCC AATAACTCTG GATCCATTCT GCGCCATCTT 
    GGTGCTGTGC CGGGGGTGAC TATTCCCTGG CTGAACATCG GCATGGTCTT TTCTACCTCA 
    TGCTGGTCAC AAGACCAAAA CCGCCTTCCA TACATTGATT ACTTACACAC TGGTGCTGAT 
    TGCATTTGGT ATTCTATTCC TGCTGAGGAA AAGACAAAGC TTGATAAAGT GGTGCACACA 
    CTGCTACAGG CCAATGGAAC GCCGGGACTG GAAATGCTGG AGAAGAATGT TATGATTTCT 
    CCAGAGGTGC TTTGTCGTGA GGGAATAAAG GTCCATCGTA CAGTTCAGCA GAGTGGGCAG 
    TTTGTGGTGG TCTTCCCCGG TGCATTTGTG TCCAGGGTGT GCTGTGGCTA CAGTGTGTCT 
    GAAACTGTGC ACTTTGCCAC ACCACAGTGG ATGAACCTGG GCTACGAGGC TGCTAAGGAC 
    CTGAAATGCA GGCGCATAGC AAAACCCTTC TCTATGGAGA AGCTGCTGTA TCAGATCGCC 
    ACAGCTGAGG CCAAACGAGA AAACAGACTT GTGCTCAGTA CAATCTCTTC TCTTCTCAAA 
    GATCTCAGGA ACATAGAGAT GAAGCAAAGG CAGGAGCTGT ATGAAGCAGG GCTGCTCTCC 
    TCCGCACGCT ACTGCACTCA TGACCACAAC CAATCACCTG CTGACACCAG GAAGAAGCCG 
    CGCAAGTGGC TGGCACTGGA GTCATCAGAG AGGCGCTGCC AAATGTGCCA GCACCTCTGC 
    TACTTATCTA TGGTGGTGCA GGAGAACGAG AATGTGGTGT TCTGTCTGGA GTGTGCGCTG 
    CACTATGTGG AGAAACACAA AAACTGCCGC GGACTCAAGA TGATGTACCG CTATGATGAG 
    GAACAGATCA ACAGTTTGGT GAATCAGGTG TGTGGTAAAG CACTGGTGAG AAGCGGGTCA 
    GAAGTTTGTA ATGGCTCCAG TCCCATTAAA CCACCGGCCA AACGCGGCCC TCGCAAGAGG 
    GAATCCATGA AGATTACTCT CATCCCTCTG CCAACCCACC CATCCAAAAG TGCCGCTGCT 
    GCCGTCTCAT GA

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

    RefSeq XP_009292492.1
    CDS685..4596
    Translation

    Target ORF information:

    RefSeq Version XM_009294217.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio jumonji, AT rich interactive domain 2b (jarid2b), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_009294217.2

    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
    ATGAGCAAGG AAAGACCTAA GAGGAATATC ATTCAGAAGA AATACGATGA TAATGATGGG 
    ATGCCCTGGT CGGAGGAGCG AGTGGTGCGG AAGGTGCTTT ATCTCTCGCT AAAGGAGTTT 
    AAGAGCGCAC AGAAGCGCCA GCTCTGTGAC GGCATCGACG ATGAGGGAAA AGGCCCTAAT 
    GCTTCCTTGT CAAATGGACA GCTGAATGGT TCTAAGGGAG GACATAAAGA GGACGGATCT 
    CGCTCTCAGA GGAAAGATGG AGGAGGCGAG TACTCTGTGG ATGGTCCGGC TAAAAAGAGG 
    CCCAGACTGC ATGCACAGAG GAAGTTTGCT CAGTCTCAAC CCAACTCTCC CAGCAACACA 
    CCAGTGAAGA TGGCTGACCC CTCTCTGCCC ACACCGCTCA CACACATCAC ATTCCTCTCC 
    AGACGCAAAC CCAAGACAGA AGACTTCCTC ACCTTCATAT GCCTACGAGG CTCACCGGCA 
    TTACCCAGTA ACATGGCCTA CTTCGGCTGC TCTCAGGATG AGGAGGATCT GGAAGACGAA 
    GATGAGATTG AAGAAGAGAA AGCACCCAGC GTGGCATCTA CATCGTGCCA GTCTACACCT 
    AAGAAGGGCA AACCACATGG CAAGATCAAC GGACTCGTGT TGAATGGCCA TAAGGTACAC 
    AAGGACAAAG AGCTCACTCC CAGATCCAAA GCCAGAGAGT CGTCTGTGGG GAGAGATCGC 
    AGCGAGAGGT GTGATGAGTC TGAGATCTCC CACAAACACA CGGCAGCCAC AGCCAAGAGC 
    CACAACACCA ATGGCCACAA CTACAGGAGA GCTGCAGAGG AGCTCCGAAA GCAGGTCTCG 
    AAAGTAAATG GACTCACAAG GGCATCATCA GTTGGCACGC ATAAAGCCAG TGGCAAAAAG 
    CAGAAAGACT TTCGTCTGCC GTCCAAAACT GTGAAGTACA CAGCCACCGT GTCCAAGGGC 
    CACGTCACCT ACACCAAAGC AAAACGAGAA CTGGTTAAGA AAGCCAAACT CAACCACAGC 
    AAGCACGGAG CTTCTGCAGG CCTTCGTGCT TACAGCAACA ACCATCACCA TAATTCTCAT 
    CATGCAACCA GCAATGGCCA TGGCCGGCCC CAGCTCTCTC ACTCAGGAAA AGCCCAAAGT 
    ATCAATGCAA AAACCCGCAA ACAGGTGCTA TTGTCGAATG GGGTGCATAA GATGACTAAT 
    GGGAGCCGGC TTAACGGCAG GCTAAATGGA CGCCATAGTG CCAGGGAAGA AGAGGTTGTT 
    GACCGACCAG TGCGGCAAGG ACTGCGGAAC TCTAAACGCA GAAGTGATGC CATGACATTG 
    CTTGGAGCTG TAACTGAGAG TGAAGAGACT AAAACTAAGC AGCAAACCAC TGAGGTTAAG 
    AAAGCTAAAG TGCAGCCTAG CCCACTTGAA ACTCGCAGCA AGAAAGCCCT GAATCAGTTC 
    AAGTCCCCTA ACATAGTCAC TATTGCACAT AGTATCACTG AAATGGCTGC CTCCCCTATT 
    CAGAAAACGG GTCCTGCTCC TCCTCCATCT CCCCCTGCTG CTCCAGCTTC CCCGTCCATG 
    CCCCAGAACC CTGCAATCCC TGAGCCAGCA CGACAGCGAC CCAAACGTGC CTCTGCTGGC 
    AAACTGATGT TCATCAGAAA AGCACAGCAG AGGGCCCAAA CTAATCCTAC CCTCAACCGG 
    ACCACATCCA CTACCTCAGC CAGCAAGTCC TTCAAACCAG CAGAGCCCAC ACACACACCT 
    CCACCTCGGC TGGACAGAGA CAGGGAGCGT GAGAGGGAAA GGGAGAGAAG CAGGGCAAGG 
    TATGCAGCCT TGGGGGATGT GCCCATTTTT AAGCCCAGCT CCAGGGAGTT CCAGGACCCT 
    TTGGTGTACC TAGACTCATT TCGGGAACAG GTCGAGTCAT GTGGACTGTG CAGAGTGCTG 
    CCTCCTACTG ACTGGAGGCC AGAGTGCAAA CTCAATGATG AGATGCGTTT TGTGACACAG 
    GTTCAGCGCA TACACAAGCT GGGCAGGCGT TGGGGGCCCA ATGTTCAAAA ACTTGCCTGC 
    ATTAAGAAGC ACCTCAAATC TCAGGGCATC TCAATGGATC AGCCACCTGT TATAGGTGGC 
    TGTGAAGTAG ATTTGGCTCG TTTTTCTGAG CTGGTCTGTG ACTTGGGTGG AATGCAGCAG 
    GTGATGGACC TGAAAAAATG GAGCCGGCTG GCCGATCTGC TTCGCATTCC CAAATCAGCA 
    CAGGATCGTC TGGCCAAGCT CCAGGAGGCC TACCTCCAGT TTCTGCTCTC TTATGACCTG 
    CTTTCACCTG AGGAGCTCCA GCGTTTGGAG CAGGAGGTTC GAGCGGAAAA GGAGGCTCTG 
    GAACGCAAGC GGGGACCCCT GGAGGGTCAC TCTGATAACG GCCATCATTC TCTGGCTCTT 
    CCTCGTTATG AACCCAAGAA TGGGCTCAAT GGCCTCAGCC ATCGCAATGG CTTCCGCAAT 
    CACCACAAAG AGCCAGACAT ACAGCGGCAG GCTGGCCGCC GCAGACTGTT TGCTCAGGAA 
    AAGAAAGGGG AAAAAGTGGA GTGTGAAGAG ACAGAGGAGG AGATGGAAGA TGAAGGTGTT 
    CTCAGTGACC AGCACAAATG TATATACAAG GGGAGATCGG TATCTTTGAC CACCTTTTAC 
    AGAATAGCAA GAAATACAAT GATGATGTAC TTCAACAAAG AGCCTGGGGC TGCTGAAGTT 
    GAGCAAGATT ACTGGCGGAT AGTGGAGCAG AGGGACTGCC ATGTAGCAGT GCATTATGGG 
    AAAGTGGACA CAAACACACA TGGAAGCGGC TTCCCTGTGG GCAAGTCGGA GCCATTCTCC 
    AAGCATGGAT GGAACCTCAC CGTCCTTCCC AATAACTCTG GATCCATTCT GCGCCATCTT 
    GGTGCTGTGC CGGGGGTGAC TATTCCCTGG CTGAACATCG GCATGGTCTT TTCTACCTCA 
    TGCTGGTCAC AAGACCAAAA CCGCCTTCCA TACATTGATT ACTTACACAC TGGTGCTGAT 
    TGCATTTGGT ATTCTATTCC TGCTGAGGAA AAGACAAAGC TTGATAAAGT GGTGCACACA 
    CTGCTACAGG CCAATGGAAC GCCGGGACTG GAAATGCTGG AGAAGAATGT TATGATTTCT 
    CCAGAGGTGC TTTGTCGTGA GGGAATAAAG GTCCATCGTA CAGTTCAGCA GAGTGGGCAG 
    TTTGTGGTGG TCTTCCCCGG TGCATTTGTG TCCAGGGTGT GCTGTGGCTA CAGTGTGTCT 
    GAAACTGTGC ACTTTGCCAC ACCACAGTGG ATGAACCTGG GCTACGAGGC TGCTAAGGAC 
    CTGAAATGCA GGCGCATAGC AAAACCCTTC TCTATGGAGA AGCTGCTGTA TCAGATCGCC 
    ACAGCTGAGG CCAAACGAGA AAACAGACTT GTGCTCAGTA CAATCTCTTC TCTTCTCAAA 
    GATCTCAGGA ACATAGAGAT GAAGCAAAGG CAGGAGCTGT ATGAAGCAGG GCTGCTCTCC 
    TCCGCACGCT ACTGCACTCA TGACCACAAC CAATCACCTG CTGACACCAG GAAGAAGCCG 
    CGCAAGTGGC TGGCACTGGA GTCATCAGAG AGGCGCTGCC AAATGTGCCA GCACCTCTGC 
    TACTTATCTA TGGTGGTGCA GGAGAACGAG AATGTGGTGT TCTGTCTGGA GTGTGCGCTG 
    CACTATGTGG AGAAACACAA AAACTGCCGC GGACTCAAGA TGATGTACCG CTATGATGAG 
    GAACAGATCA ACAGTTTGGT GAATCAGGTG TGTGGTAAAG CACTGGTGAG AAGCGGGTCA 
    GAAGTTTGTA ATGGCTCCAG TCCCATTAAA CCACCGGCCA AACGCGGCCC TCGCAAGAGG 
    GAATCCATGA AGATTACTCT CATCCCTCTG CCAACCCACC CATCCAAAAG TGCCGCTGCT 
    GCCGTCTCAT GA

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

    jarid2b ( XM_009294217.3 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_009292492.1 Danio rerio jumonji, AT rich interactive domain 2b (jarid2b), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ODa42853
    Clone ID Related Accession (Same CDS sequence) XM_009294217.2 , XM_009294217.3
    Accession Version XM_009294217.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3912bp)
    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 protein Jumonji isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007130.7) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_009294217.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGAGCAAGG AAAGACCTAA GAGGAATATC ATTCAGAAGA AATACGATGA TAATGATGGG 
    ATGCCCTGGT CGGAGGAGCG AGTGGTGCGG AAGGTGCTTT ATCTCTCGCT AAAGGAGTTT 
    AAGAGCGCAC AGAAGCGCCA GCTCTGTGAC GGCATCGACG ATGAGGGAAA AGGCCCTAAT 
    GCTTCCTTGT CAAATGGACA GCTGAATGGT TCTAAGGGAG GACATAAAGA GGACGGATCT 
    CGCTCTCAGA GGAAAGATGG AGGAGGCGAG TACTCTGTGG ATGGTCCGGC TAAAAAGAGG 
    CCCAGACTGC ATGCACAGAG GAAGTTTGCT CAGTCTCAAC CCAACTCTCC CAGCAACACA 
    CCAGTGAAGA TGGCTGACCC CTCTCTGCCC ACACCGCTCA CACACATCAC ATTCCTCTCC 
    AGACGCAAAC CCAAGACAGA AGACTTCCTC ACCTTCATAT GCCTACGAGG CTCACCGGCA 
    TTACCCAGTA ACATGGCCTA CTTCGGCTGC TCTCAGGATG AGGAGGATCT GGAAGACGAA 
    GATGAGATTG AAGAAGAGAA AGCACCCAGC GTGGCATCTA CATCGTGCCA GTCTACACCT 
    AAGAAGGGCA AACCACATGG CAAGATCAAC GGACTCGTGT TGAATGGCCA TAAGGTACAC 
    AAGGACAAAG AGCTCACTCC CAGATCCAAA GCCAGAGAGT CGTCTGTGGG GAGAGATCGC 
    AGCGAGAGGT GTGATGAGTC TGAGATCTCC CACAAACACA CGGCAGCCAC AGCCAAGAGC 
    CACAACACCA ATGGCCACAA CTACAGGAGA GCTGCAGAGG AGCTCCGAAA GCAGGTCTCG 
    AAAGTAAATG GACTCACAAG GGCATCATCA GTTGGCACGC ATAAAGCCAG TGGCAAAAAG 
    CAGAAAGACT TTCGTCTGCC GTCCAAAACT GTGAAGTACA CAGCCACCGT GTCCAAGGGC 
    CACGTCACCT ACACCAAAGC AAAACGAGAA CTGGTTAAGA AAGCCAAACT CAACCACAGC 
    AAGCACGGAG CTTCTGCAGG CCTTCGTGCT TACAGCAACA ACCATCACCA TAATTCTCAT 
    CATGCAACCA GCAATGGCCA TGGCCGGCCC CAGCTCTCTC ACTCAGGAAA AGCCCAAAGT 
    ATCAATGCAA AAACCCGCAA ACAGGTGCTA TTGTCGAATG GGGTGCATAA GATGACTAAT 
    GGGAGCCGGC TTAACGGCAG GCTAAATGGA CGCCATAGTG CCAGGGAAGA AGAGGTTGTT 
    GACCGACCAG TGCGGCAAGG ACTGCGGAAC TCTAAACGCA GAAGTGATGC CATGACATTG 
    CTTGGAGCTG TAACTGAGAG TGAAGAGACT AAAACTAAGC AGCAAACCAC TGAGGTTAAG 
    AAAGCTAAAG TGCAGCCTAG CCCACTTGAA ACTCGCAGCA AGAAAGCCCT GAATCAGTTC 
    AAGTCCCCTA ACATAGTCAC TATTGCACAT AGTATCACTG AAATGGCTGC CTCCCCTATT 
    CAGAAAACGG GTCCTGCTCC TCCTCCATCT CCCCCTGCTG CTCCAGCTTC CCCGTCCATG 
    CCCCAGAACC CTGCAATCCC TGAGCCAGCA CGACAGCGAC CCAAACGTGC CTCTGCTGGC 
    AAACTGATGT TCATCAGAAA AGCACAGCAG AGGGCCCAAA CTAATCCTAC CCTCAACCGG 
    ACCACATCCA CTACCTCAGC CAGCAAGTCC TTCAAACCAG CAGAGCCCAC ACACACACCT 
    CCACCTCGGC TGGACAGAGA CAGGGAGCGT GAGAGGGAAA GGGAGAGAAG CAGGGCAAGG 
    TATGCAGCCT TGGGGGATGT GCCCATTTTT AAGCCCAGCT CCAGGGAGTT CCAGGACCCT 
    TTGGTGTACC TAGACTCATT TCGGGAACAG GTCGAGTCAT GTGGACTGTG CAGAGTGCTG 
    CCTCCTACTG ACTGGAGGCC AGAGTGCAAA CTCAATGATG AGATGCGTTT TGTGACACAG 
    GTTCAGCGCA TACACAAGCT GGGCAGGCGT TGGGGGCCCA ATGTTCAAAA ACTTGCCTGC 
    ATTAAGAAGC ACCTCAAATC TCAGGGCATC TCAATGGATC AGCCACCTGT TATAGGTGGC 
    TGTGAAGTAG ATTTGGCTCG TTTTTCTGAG CTGGTCTGTG ACTTGGGTGG AATGCAGCAG 
    GTGATGGACC TGAAAAAATG GAGCCGGCTG GCCGATCTGC TTCGCATTCC CAAATCAGCA 
    CAGGATCGTC TGGCCAAGCT CCAGGAGGCC TACCTCCAGT TTCTGCTCTC TTATGACCTG 
    CTTTCACCTG AGGAGCTCCA GCGTTTGGAG CAGGAGGTTC GAGCGGAAAA GGAGGCTCTG 
    GAACGCAAGC GGGGACCCCT GGAGGGTCAC TCTGATAACG GCCATCATTC TCTGGCTCTT 
    CCTCGTTATG AACCCAAGAA TGGGCTCAAT GGCCTCAGCC ATCGCAATGG CTTCCGCAAT 
    CACCACAAAG AGCCAGACAT ACAGCGGCAG GCTGGCCGCC GCAGACTGTT TGCTCAGGAA 
    AAGAAAGGGG AAAAAGTGGA GTGTGAAGAG ACAGAGGAGG AGATGGAAGA TGAAGGTGTT 
    CTCAGTGACC AGCACAAATG TATATACAAG GGGAGATCGG TATCTTTGAC CACCTTTTAC 
    AGAATAGCAA GAAATACAAT GATGATGTAC TTCAACAAAG AGCCTGGGGC TGCTGAAGTT 
    GAGCAAGATT ACTGGCGGAT AGTGGAGCAG AGGGACTGCC ATGTAGCAGT GCATTATGGG 
    AAAGTGGACA CAAACACACA TGGAAGCGGC TTCCCTGTGG GCAAGTCGGA GCCATTCTCC 
    AAGCATGGAT GGAACCTCAC CGTCCTTCCC AATAACTCTG GATCCATTCT GCGCCATCTT 
    GGTGCTGTGC CGGGGGTGAC TATTCCCTGG CTGAACATCG GCATGGTCTT TTCTACCTCA 
    TGCTGGTCAC AAGACCAAAA CCGCCTTCCA TACATTGATT ACTTACACAC TGGTGCTGAT 
    TGCATTTGGT ATTCTATTCC TGCTGAGGAA AAGACAAAGC TTGATAAAGT GGTGCACACA 
    CTGCTACAGG CCAATGGAAC GCCGGGACTG GAAATGCTGG AGAAGAATGT TATGATTTCT 
    CCAGAGGTGC TTTGTCGTGA GGGAATAAAG GTCCATCGTA CAGTTCAGCA GAGTGGGCAG 
    TTTGTGGTGG TCTTCCCCGG TGCATTTGTG TCCAGGGTGT GCTGTGGCTA CAGTGTGTCT 
    GAAACTGTGC ACTTTGCCAC ACCACAGTGG ATGAACCTGG GCTACGAGGC TGCTAAGGAC 
    CTGAAATGCA GGCGCATAGC AAAACCCTTC TCTATGGAGA AGCTGCTGTA TCAGATCGCC 
    ACAGCTGAGG CCAAACGAGA AAACAGACTT GTGCTCAGTA CAATCTCTTC TCTTCTCAAA 
    GATCTCAGGA ACATAGAGAT GAAGCAAAGG CAGGAGCTGT ATGAAGCAGG GCTGCTCTCC 
    TCCGCACGCT ACTGCACTCA TGACCACAAC CAATCACCTG CTGACACCAG GAAGAAGCCG 
    CGCAAGTGGC TGGCACTGGA GTCATCAGAG AGGCGCTGCC AAATGTGCCA GCACCTCTGC 
    TACTTATCTA TGGTGGTGCA GGAGAACGAG AATGTGGTGT TCTGTCTGGA GTGTGCGCTG 
    CACTATGTGG AGAAACACAA AAACTGCCGC GGACTCAAGA TGATGTACCG CTATGATGAG 
    GAACAGATCA ACAGTTTGGT GAATCAGGTG TGTGGTAAAG CACTGGTGAG AAGCGGGTCA 
    GAAGTTTGTA ATGGCTCCAG TCCCATTAAA CCACCGGCCA AACGCGGCCC TCGCAAGAGG 
    GAATCCATGA AGATTACTCT CATCCCTCTG CCAACCCACC CATCCAAAAG TGCCGCTGCT 
    GCCGTCTCAT GA

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

    RefSeq XP_009292492.1
    CDS503..4414
    Translation

    Target ORF information:

    RefSeq Version XM_009294217.3
    Organism Danio rerio(zebrafish)
    Definition Danio rerio jumonji, AT rich interactive domain 2b (jarid2b), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_009294217.3

    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
    ATGAGCAAGG AAAGACCTAA GAGGAATATC ATTCAGAAGA AATACGATGA TAATGATGGG 
    ATGCCCTGGT CGGAGGAGCG AGTGGTGCGG AAGGTGCTTT ATCTCTCGCT AAAGGAGTTT 
    AAGAGCGCAC AGAAGCGCCA GCTCTGTGAC GGCATCGACG ATGAGGGAAA AGGCCCTAAT 
    GCTTCCTTGT CAAATGGACA GCTGAATGGT TCTAAGGGAG GACATAAAGA GGACGGATCT 
    CGCTCTCAGA GGAAAGATGG AGGAGGCGAG TACTCTGTGG ATGGTCCGGC TAAAAAGAGG 
    CCCAGACTGC ATGCACAGAG GAAGTTTGCT CAGTCTCAAC CCAACTCTCC CAGCAACACA 
    CCAGTGAAGA TGGCTGACCC CTCTCTGCCC ACACCGCTCA CACACATCAC ATTCCTCTCC 
    AGACGCAAAC CCAAGACAGA AGACTTCCTC ACCTTCATAT GCCTACGAGG CTCACCGGCA 
    TTACCCAGTA ACATGGCCTA CTTCGGCTGC TCTCAGGATG AGGAGGATCT GGAAGACGAA 
    GATGAGATTG AAGAAGAGAA AGCACCCAGC GTGGCATCTA CATCGTGCCA GTCTACACCT 
    AAGAAGGGCA AACCACATGG CAAGATCAAC GGACTCGTGT TGAATGGCCA TAAGGTACAC 
    AAGGACAAAG AGCTCACTCC CAGATCCAAA GCCAGAGAGT CGTCTGTGGG GAGAGATCGC 
    AGCGAGAGGT GTGATGAGTC TGAGATCTCC CACAAACACA CGGCAGCCAC AGCCAAGAGC 
    CACAACACCA ATGGCCACAA CTACAGGAGA GCTGCAGAGG AGCTCCGAAA GCAGGTCTCG 
    AAAGTAAATG GACTCACAAG GGCATCATCA GTTGGCACGC ATAAAGCCAG TGGCAAAAAG 
    CAGAAAGACT TTCGTCTGCC GTCCAAAACT GTGAAGTACA CAGCCACCGT GTCCAAGGGC 
    CACGTCACCT ACACCAAAGC AAAACGAGAA CTGGTTAAGA AAGCCAAACT CAACCACAGC 
    AAGCACGGAG CTTCTGCAGG CCTTCGTGCT TACAGCAACA ACCATCACCA TAATTCTCAT 
    CATGCAACCA GCAATGGCCA TGGCCGGCCC CAGCTCTCTC ACTCAGGAAA AGCCCAAAGT 
    ATCAATGCAA AAACCCGCAA ACAGGTGCTA TTGTCGAATG GGGTGCATAA GATGACTAAT 
    GGGAGCCGGC TTAACGGCAG GCTAAATGGA CGCCATAGTG CCAGGGAAGA AGAGGTTGTT 
    GACCGACCAG TGCGGCAAGG ACTGCGGAAC TCTAAACGCA GAAGTGATGC CATGACATTG 
    CTTGGAGCTG TAACTGAGAG TGAAGAGACT AAAACTAAGC AGCAAACCAC TGAGGTTAAG 
    AAAGCTAAAG TGCAGCCTAG CCCACTTGAA ACTCGCAGCA AGAAAGCCCT GAATCAGTTC 
    AAGTCCCCTA ACATAGTCAC TATTGCACAT AGTATCACTG AAATGGCTGC CTCCCCTATT 
    CAGAAAACGG GTCCTGCTCC TCCTCCATCT CCCCCTGCTG CTCCAGCTTC CCCGTCCATG 
    CCCCAGAACC CTGCAATCCC TGAGCCAGCA CGACAGCGAC CCAAACGTGC CTCTGCTGGC 
    AAACTGATGT TCATCAGAAA AGCACAGCAG AGGGCCCAAA CTAATCCTAC CCTCAACCGG 
    ACCACATCCA CTACCTCAGC CAGCAAGTCC TTCAAACCAG CAGAGCCCAC ACACACACCT 
    CCACCTCGGC TGGACAGAGA CAGGGAGCGT GAGAGGGAAA GGGAGAGAAG CAGGGCAAGG 
    TATGCAGCCT TGGGGGATGT GCCCATTTTT AAGCCCAGCT CCAGGGAGTT CCAGGACCCT 
    TTGGTGTACC TAGACTCATT TCGGGAACAG GTCGAGTCAT GTGGACTGTG CAGAGTGCTG 
    CCTCCTACTG ACTGGAGGCC AGAGTGCAAA CTCAATGATG AGATGCGTTT TGTGACACAG 
    GTTCAGCGCA TACACAAGCT GGGCAGGCGT TGGGGGCCCA ATGTTCAAAA ACTTGCCTGC 
    ATTAAGAAGC ACCTCAAATC TCAGGGCATC TCAATGGATC AGCCACCTGT TATAGGTGGC 
    TGTGAAGTAG ATTTGGCTCG TTTTTCTGAG CTGGTCTGTG ACTTGGGTGG AATGCAGCAG 
    GTGATGGACC TGAAAAAATG GAGCCGGCTG GCCGATCTGC TTCGCATTCC CAAATCAGCA 
    CAGGATCGTC TGGCCAAGCT CCAGGAGGCC TACCTCCAGT TTCTGCTCTC TTATGACCTG 
    CTTTCACCTG AGGAGCTCCA GCGTTTGGAG CAGGAGGTTC GAGCGGAAAA GGAGGCTCTG 
    GAACGCAAGC GGGGACCCCT GGAGGGTCAC TCTGATAACG GCCATCATTC TCTGGCTCTT 
    CCTCGTTATG AACCCAAGAA TGGGCTCAAT GGCCTCAGCC ATCGCAATGG CTTCCGCAAT 
    CACCACAAAG AGCCAGACAT ACAGCGGCAG GCTGGCCGCC GCAGACTGTT TGCTCAGGAA 
    AAGAAAGGGG AAAAAGTGGA GTGTGAAGAG ACAGAGGAGG AGATGGAAGA TGAAGGTGTT 
    CTCAGTGACC AGCACAAATG TATATACAAG GGGAGATCGG TATCTTTGAC CACCTTTTAC 
    AGAATAGCAA GAAATACAAT GATGATGTAC TTCAACAAAG AGCCTGGGGC TGCTGAAGTT 
    GAGCAAGATT ACTGGCGGAT AGTGGAGCAG AGGGACTGCC ATGTAGCAGT GCATTATGGG 
    AAAGTGGACA CAAACACACA TGGAAGCGGC TTCCCTGTGG GCAAGTCGGA GCCATTCTCC 
    AAGCATGGAT GGAACCTCAC CGTCCTTCCC AATAACTCTG GATCCATTCT GCGCCATCTT 
    GGTGCTGTGC CGGGGGTGAC TATTCCCTGG CTGAACATCG GCATGGTCTT TTCTACCTCA 
    TGCTGGTCAC AAGACCAAAA CCGCCTTCCA TACATTGATT ACTTACACAC TGGTGCTGAT 
    TGCATTTGGT ATTCTATTCC TGCTGAGGAA AAGACAAAGC TTGATAAAGT GGTGCACACA 
    CTGCTACAGG CCAATGGAAC GCCGGGACTG GAAATGCTGG AGAAGAATGT TATGATTTCT 
    CCAGAGGTGC TTTGTCGTGA GGGAATAAAG GTCCATCGTA CAGTTCAGCA GAGTGGGCAG 
    TTTGTGGTGG TCTTCCCCGG TGCATTTGTG TCCAGGGTGT GCTGTGGCTA CAGTGTGTCT 
    GAAACTGTGC ACTTTGCCAC ACCACAGTGG ATGAACCTGG GCTACGAGGC TGCTAAGGAC 
    CTGAAATGCA GGCGCATAGC AAAACCCTTC TCTATGGAGA AGCTGCTGTA TCAGATCGCC 
    ACAGCTGAGG CCAAACGAGA AAACAGACTT GTGCTCAGTA CAATCTCTTC TCTTCTCAAA 
    GATCTCAGGA ACATAGAGAT GAAGCAAAGG CAGGAGCTGT ATGAAGCAGG GCTGCTCTCC 
    TCCGCACGCT ACTGCACTCA TGACCACAAC CAATCACCTG CTGACACCAG GAAGAAGCCG 
    CGCAAGTGGC TGGCACTGGA GTCATCAGAG AGGCGCTGCC AAATGTGCCA GCACCTCTGC 
    TACTTATCTA TGGTGGTGCA GGAGAACGAG AATGTGGTGT TCTGTCTGGA GTGTGCGCTG 
    CACTATGTGG AGAAACACAA AAACTGCCGC GGACTCAAGA TGATGTACCG CTATGATGAG 
    GAACAGATCA ACAGTTTGGT GAATCAGGTG TGTGGTAAAG CACTGGTGAG AAGCGGGTCA 
    GAAGTTTGTA ATGGCTCCAG TCCCATTAAA CCACCGGCCA AACGCGGCCC TCGCAAGAGG 
    GAATCCATGA AGATTACTCT CATCCCTCTG CCAACCCACC CATCCAAAAG TGCCGCTGCT 
    GCCGTCTCAT GA

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

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