EHMT1B cDNA ORF clone, Danio rerio(Zebrafish)

The following EHMT1B gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the EHMT1B 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
ODa150868 XM_021468787.1
Latest version!
Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
ODa150869 XM_021468788.1
Latest version!
Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
ODa150870 XM_021468789.1
Latest version!
Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
ODa150871 XM_021468790.1
Latest version!
Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
ODa150872 XM_021468791.1
Latest version!
Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
ODa04062 NM_001172564.1
Latest version!
Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa25685 XM_005161105.4
Latest version!
Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa40678 XM_009295240.3
Latest version!
Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa40679 XM_009295241.2
Latest version!
Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa40680 XM_009295243.3
Latest version!
Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa40680 XM_017352762.1
Latest version!
Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa40680 XM_009295242.3
Latest version!
Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa40681 XM_009295245.2
Latest version!
Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
View Old Accession Versions >>
ODa25685 XM_005161105.3 Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa40678 XM_009295240.2 Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa40680 XM_009295242.2 Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa40680 XM_009295243.2 Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
Hide Old Accession Versions >>

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    CloneID ODa150868
    Clone ID Related Accession (Same CDS sequence) XM_021468787.1
    Accession Version XM_021468787.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3888bp)
    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 histone-lysine N-methyltransferase EHMT1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.7) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 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
    ATGAATGAAG ACCACTGCTT AAGGCAGGTA CAGCCATGTT GCTGGAAGCC CTCCAGTTTG 
    GCCAATGGGA ATTCAGGCAA GAGGGAAACC ATGAAGTCCG AGGGGACAAA AGAGTCTCGC
    AGTGATCAAG AAGAAGGAGG AGATGATGAT CACCAGGATG GGCGAACAGG CCCTCTTAGA
    GAGGCCATTG AGCAGAATGG GACCTATGAA AATATGGACA CAAAGAGAAA TGAACAGAAC
    CTCTCTACAC AAGGGTCACC AGCACGACCC TCAACCATGG AGAATGGGCT ATCAGAAACT
    GAGCCACCGC ATGGCTCAAA AGTAGGCAGT AATGGATATA TTCTAAGCAA AGTAAAGGAA
    GATACAGTGT CAGCCCCTCA CAGGACTAAC TGGTCCCCCA CTGGGGGTAC CACATTGGGG
    CATGGGACTA AAAGCTCACC GCCTTCAGTG TTGCAATCTC TAGACCAGGG TTCTTCAAAC
    AGTGGTGCAA GCCAAGGACC AAGTCTAACA GAGAGACGAG CAGAAACAGA GACTAAAAAT
    GGCATCATTT CAAAAACACC CCCACCAACA GTACATCGTG CACGTAAAAC TATGTCAAGG
    CCGGCCTCAA ACCAGACACT AAAGCTTTTG AACAGGGAAA ATAAAGAGCC AGTCGTGGTA
    AAAGATGACA GTGCAGGCAA ACCAGAGGCA GTGCAGCCTC AGCCATCTCT AATCCAGAAT
    CAGCTACCTC AAAGCCAAAC TGACGCCACA TCTGTACCGA ACACCACACC TGCCAAGCCA
    CAAATAGAAT TCTCTCTTTA TGCATCGACA GTTGAACCCA GACCTGTCTC TCCCTCAGTA
    GCAGCCGTAT CAAGGAAGAA AAAAAGAAAG ATGGGAACAT ATAGTCTTGT ACCCAAGAAG
    AAAAACAAAG TCTTGAAACA ACGCACAGTT CTGGAGATGT TTCAGCAGAT ATCCCAGTCT
    CCACCCAACC CTAAGCCAAA GGAGATTGTG CGTGTGAATG GAGAGAAAAT GGATAATGAG
    TCTGATGAGG AGGAGTCAGA GGAAGGGGAA GACACAGAGG ATGAAGAAGA GCTAGTCACA
    GAAGATGGAG CCAAAGCTTC ACATGAGGAA CCTAGGATAC CTTCGATCTC ACAGCCCCTG
    GAAGAAGAGT CTGAGGAGTC TCAAGACTGT GAAGGTGAAG AGGAAGGGGA TGAATCAGAC
    TTGAGTTCAG AATCCAGTTT GAAAAAGAAA TGGAAAAAGA AAGCCAAAGG AGATCATGCC
    TGGCTCCGAC CGTCAAGGAA ACGCAAGAGG AAATGGAAAG CAAAAACGGA CAAGGTTTCT
    GCTCCAGTAA CGGAGATCCA GTCTCGGCCA GAAAGCCAGA GCGCCCCATC AGTCCCTACT
    GCTCACAGAA AGGAGTATAA AGAAGTCCCT CTAGACTCTC TCAATCTAGC AGCACAGGAA
    GCCTTATTGA CATCTCAAAA TACAGCTGCT TCAGGGTCAT TGCAGAGCAC AGATGCAGAC
    ATGGTGCAGG AACTGCCTCT ATGCAGCTGT CGAATGGAGA CACCCAAGAG TCGAGAGATC
    CTCACGCTTG CGGACAGGAA GTGTATGGCA ACTGAGAGCA TTGACGGCCA GCTGAGCCGT
    TGTCAGAGTG CAGTGCTGAA GCACGAGATG ATGAGGCCTT CAAATTCTGT CCAACTGCTG
    GTTCTGTGTG AGGACCATCG CACAGGCATG GTCAAGCATC AGTGCTGCCC TGGCTGTGGC
    TTCTTTTGCA GAGCCGGTAC CTTCATGGAG TGTCAGCCAG AGGTGAACAT CTCCCACCGC
    TTCCATCGGA CCTGTGCCTC GGTACTTAAT GGGCAGAGCT TTTGTCCACA TTGTGGAGAG
    GAAGTCAGCA AGGCGAAAGA GGTCACCATT GCCAAGGCAG ATACAACGTC AACTGTACCC
    ATCACCCATA GCTCCTGCAT ACCCAGCACC TCAGAGGGCA AAGCGGACAC TACCACTGGA
    GGGTCCACTC GGCTCTCTGT ACTTGGAGAG GGAAAAGCAA ACAGCACCTT ACCCAAACCT
    TCAGAATCAC AGGACACATC TTTGTCCCTT GTGGGTTCCA AAGCCAGGTC TGTAGCGATG
    GCAGCTGCAC CTGGACTTCC ACTTCCACCA GGACCACCTA AAGAAACTCT GCAAAGTGTC
    CTGCTGGCTC TAGATGCTGA AAAGCCCAAG AAGCTTCGGT TTCACCCAAA ACAATTGTAC
    ATTTCTGCCA AACAAGGGGA GCTGCAGAAG GTCCTACTAA TGTTGGTGGA TGGGATTGAT
    CCCAACTTCA AAATGGAGAG CCAGAACAAA CGGACGCCAC TCCATGTTGC TGCAGAAGCA
    GGTCATCAGG ATGTCTGCCA TATGCTGGTA CAGGCTGGTG CCAACCTTGA CATGTGTGAT
    GAGGACCAGC GGACGCCTCT GATGGAGGCC TGTGAGAACA ACCATCTCGA AACTGTGCGA
    TATCTTCTGC GGGCCGGAGC CATCGTCTCT CACAAGGATG TTGAAGGATC AACTTGTCTC
    CATCTTGCTG CTAAGAACGG GCATTTCAGC ATTGTACAAC ATCTGCTCTC TGCAGGCCTT
    GTTGATATTA ACTGCCAGGA TGATGGAGGT TGGACAGCCA TGATTTGGGC CACAGAGTAC
    AAACATGTGG ACCAAGTGAA ACTCTTGCTC TCCAAAGGGG CTGATATCAA TATACGAGAC
    AAGGAGGAGA ATATCTGTCT GCATTGGGCC GCTTTCTCTG GCTGCGTGGA AATAGCCGAG
    ATCTTTCTGA CTGCCAAGTG TGATCTCAAC ACCATGAACA TCCACGGAGA CTCGCCGTTG
    CACATAGCGT CGCGAGAGGG CCGGCTTGAC TGTGTAAACT TGTTTTTGTC TCGTGGTGCT
    GATGTAAACC TTAAAAACAA AGAAGGAGAG ACGCCCATGG AGTGCTGCAG CCATAGCTCG
    AAGGTCTGGA ATGCTCTTCA AGCCAACAAA AAGCAGAGAG AAGCAAACCG CAAAGCTGGC
    GCCACAGAGA AGCTTCTCAA CAAGGACATC GCTAGAGGTT ACGAAAAAGT CCCCGTCCCG
    TGCGTAAATG CAGTGGACAG CGAACCCTGT CCTGACAACT ACAAGTATGT CCCTGATAGC
    TGTGTGACGT CCCCTCTGAA CATTGACAAA AATATCACTC ACTTGCAGTA CTGTGTCTGT
    AAAGACGATT GCTCTTCTGC AAGCTGCATG TGTGGCCAAC TAAGCCTGAG ATGCTGGTAT
    GATAAAGAGA GTCGTCTGCT GCCTGAGTTC AGTAATGAGG AGCCGCCTCT TATATTTGAG
    TGCAACCATG CCTGCTCCTG CTGGAGAACC TGCAAAAACC GTGTGGTACA GAACGGACTG
    AGGACAAGAC TGCAGTTGTT CAAGACACAG ATGATGGGAT GGGGTGTCAA GACATTACAG
    GATATCCCTC AAGGAACATT TGTTTGCGAA TACGTGGGTG AGATCATCTC TGACGCCGAA
    GCAGATGTCA GAGAGAATGA CTCCTATCTT TTCAGTCTGG ACAGCAAGGT GGGTGACATG
    TACTGCGTTG ATGCTCGTTT CTACGGGAAC ATCAGCCGGT TCATAAACCA TCACTGTGAG
    CCCAATCTGC TCCCCTGTCG GGTGTTCACC TCTCACCAGG ACCTCCGATT TCCTCACATC
    GCATTCTTCG CCTGCAAGAA CATCAGTGCC GGAGATGAAC TTGGGTTTGA CTATGGCGAT
    CACTTCTGGG ACGTAAAGGG GAAGCTGTTC AACTGCAAGT GTGGCTCATC CAAATGCAAG
    CACTCTGCAG CTGCCATCGC CCAGACACAG GCAGACAGTA CACCAGGTGA CCAGCAGCCC
    AGCGCCCTAC CCGATACCAG CTCATCCACC CCATCCAGCC CCAGCTAA

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

    RefSeq XP_021324462.1
    CDS54..3941
    Translation

    Target ORF information:

    RefSeq Version XM_021468787.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021468787.1

    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
    ATGAATGAAG ACCACTGCTT AAGGCAGGTA CAGCCATGTT GCTGGAAGCC CTCCAGTTTG 
    GCCAATGGGA ATTCAGGCAA GAGGGAAACC ATGAAGTCCG AGGGGACAAA AGAGTCTCGC
    AGTGATCAAG AAGAAGGAGG AGATGATGAT CACCAGGATG GGCGAACAGG CCCTCTTAGA
    GAGGCCATTG AGCAGAATGG GACCTATGAA AATATGGACA CAAAGAGAAA TGAACAGAAC
    CTCTCTACAC AAGGGTCACC AGCACGACCC TCAACCATGG AGAATGGGCT ATCAGAAACT
    GAGCCACCGC ATGGCTCAAA AGTAGGCAGT AATGGATATA TTCTAAGCAA AGTAAAGGAA
    GATACAGTGT CAGCCCCTCA CAGGACTAAC TGGTCCCCCA CTGGGGGTAC CACATTGGGG
    CATGGGACTA AAAGCTCACC GCCTTCAGTG TTGCAATCTC TAGACCAGGG TTCTTCAAAC
    AGTGGTGCAA GCCAAGGACC AAGTCTAACA GAGAGACGAG CAGAAACAGA GACTAAAAAT
    GGCATCATTT CAAAAACACC CCCACCAACA GTACATCGTG CACGTAAAAC TATGTCAAGG
    CCGGCCTCAA ACCAGACACT AAAGCTTTTG AACAGGGAAA ATAAAGAGCC AGTCGTGGTA
    AAAGATGACA GTGCAGGCAA ACCAGAGGCA GTGCAGCCTC AGCCATCTCT AATCCAGAAT
    CAGCTACCTC AAAGCCAAAC TGACGCCACA TCTGTACCGA ACACCACACC TGCCAAGCCA
    CAAATAGAAT TCTCTCTTTA TGCATCGACA GTTGAACCCA GACCTGTCTC TCCCTCAGTA
    GCAGCCGTAT CAAGGAAGAA AAAAAGAAAG ATGGGAACAT ATAGTCTTGT ACCCAAGAAG
    AAAAACAAAG TCTTGAAACA ACGCACAGTT CTGGAGATGT TTCAGCAGAT ATCCCAGTCT
    CCACCCAACC CTAAGCCAAA GGAGATTGTG CGTGTGAATG GAGAGAAAAT GGATAATGAG
    TCTGATGAGG AGGAGTCAGA GGAAGGGGAA GACACAGAGG ATGAAGAAGA GCTAGTCACA
    GAAGATGGAG CCAAAGCTTC ACATGAGGAA CCTAGGATAC CTTCGATCTC ACAGCCCCTG
    GAAGAAGAGT CTGAGGAGTC TCAAGACTGT GAAGGTGAAG AGGAAGGGGA TGAATCAGAC
    TTGAGTTCAG AATCCAGTTT GAAAAAGAAA TGGAAAAAGA AAGCCAAAGG AGATCATGCC
    TGGCTCCGAC CGTCAAGGAA ACGCAAGAGG AAATGGAAAG CAAAAACGGA CAAGGTTTCT
    GCTCCAGTAA CGGAGATCCA GTCTCGGCCA GAAAGCCAGA GCGCCCCATC AGTCCCTACT
    GCTCACAGAA AGGAGTATAA AGAAGTCCCT CTAGACTCTC TCAATCTAGC AGCACAGGAA
    GCCTTATTGA CATCTCAAAA TACAGCTGCT TCAGGGTCAT TGCAGAGCAC AGATGCAGAC
    ATGGTGCAGG AACTGCCTCT ATGCAGCTGT CGAATGGAGA CACCCAAGAG TCGAGAGATC
    CTCACGCTTG CGGACAGGAA GTGTATGGCA ACTGAGAGCA TTGACGGCCA GCTGAGCCGT
    TGTCAGAGTG CAGTGCTGAA GCACGAGATG ATGAGGCCTT CAAATTCTGT CCAACTGCTG
    GTTCTGTGTG AGGACCATCG CACAGGCATG GTCAAGCATC AGTGCTGCCC TGGCTGTGGC
    TTCTTTTGCA GAGCCGGTAC CTTCATGGAG TGTCAGCCAG AGGTGAACAT CTCCCACCGC
    TTCCATCGGA CCTGTGCCTC GGTACTTAAT GGGCAGAGCT TTTGTCCACA TTGTGGAGAG
    GAAGTCAGCA AGGCGAAAGA GGTCACCATT GCCAAGGCAG ATACAACGTC AACTGTACCC
    ATCACCCATA GCTCCTGCAT ACCCAGCACC TCAGAGGGCA AAGCGGACAC TACCACTGGA
    GGGTCCACTC GGCTCTCTGT ACTTGGAGAG GGAAAAGCAA ACAGCACCTT ACCCAAACCT
    TCAGAATCAC AGGACACATC TTTGTCCCTT GTGGGTTCCA AAGCCAGGTC TGTAGCGATG
    GCAGCTGCAC CTGGACTTCC ACTTCCACCA GGACCACCTA AAGAAACTCT GCAAAGTGTC
    CTGCTGGCTC TAGATGCTGA AAAGCCCAAG AAGCTTCGGT TTCACCCAAA ACAATTGTAC
    ATTTCTGCCA AACAAGGGGA GCTGCAGAAG GTCCTACTAA TGTTGGTGGA TGGGATTGAT
    CCCAACTTCA AAATGGAGAG CCAGAACAAA CGGACGCCAC TCCATGTTGC TGCAGAAGCA
    GGTCATCAGG ATGTCTGCCA TATGCTGGTA CAGGCTGGTG CCAACCTTGA CATGTGTGAT
    GAGGACCAGC GGACGCCTCT GATGGAGGCC TGTGAGAACA ACCATCTCGA AACTGTGCGA
    TATCTTCTGC GGGCCGGAGC CATCGTCTCT CACAAGGATG TTGAAGGATC AACTTGTCTC
    CATCTTGCTG CTAAGAACGG GCATTTCAGC ATTGTACAAC ATCTGCTCTC TGCAGGCCTT
    GTTGATATTA ACTGCCAGGA TGATGGAGGT TGGACAGCCA TGATTTGGGC CACAGAGTAC
    AAACATGTGG ACCAAGTGAA ACTCTTGCTC TCCAAAGGGG CTGATATCAA TATACGAGAC
    AAGGAGGAGA ATATCTGTCT GCATTGGGCC GCTTTCTCTG GCTGCGTGGA AATAGCCGAG
    ATCTTTCTGA CTGCCAAGTG TGATCTCAAC ACCATGAACA TCCACGGAGA CTCGCCGTTG
    CACATAGCGT CGCGAGAGGG CCGGCTTGAC TGTGTAAACT TGTTTTTGTC TCGTGGTGCT
    GATGTAAACC TTAAAAACAA AGAAGGAGAG ACGCCCATGG AGTGCTGCAG CCATAGCTCG
    AAGGTCTGGA ATGCTCTTCA AGCCAACAAA AAGCAGAGAG AAGCAAACCG CAAAGCTGGC
    GCCACAGAGA AGCTTCTCAA CAAGGACATC GCTAGAGGTT ACGAAAAAGT CCCCGTCCCG
    TGCGTAAATG CAGTGGACAG CGAACCCTGT CCTGACAACT ACAAGTATGT CCCTGATAGC
    TGTGTGACGT CCCCTCTGAA CATTGACAAA AATATCACTC ACTTGCAGTA CTGTGTCTGT
    AAAGACGATT GCTCTTCTGC AAGCTGCATG TGTGGCCAAC TAAGCCTGAG ATGCTGGTAT
    GATAAAGAGA GTCGTCTGCT GCCTGAGTTC AGTAATGAGG AGCCGCCTCT TATATTTGAG
    TGCAACCATG CCTGCTCCTG CTGGAGAACC TGCAAAAACC GTGTGGTACA GAACGGACTG
    AGGACAAGAC TGCAGTTGTT CAAGACACAG ATGATGGGAT GGGGTGTCAA GACATTACAG
    GATATCCCTC AAGGAACATT TGTTTGCGAA TACGTGGGTG AGATCATCTC TGACGCCGAA
    GCAGATGTCA GAGAGAATGA CTCCTATCTT TTCAGTCTGG ACAGCAAGGT GGGTGACATG
    TACTGCGTTG ATGCTCGTTT CTACGGGAAC ATCAGCCGGT TCATAAACCA TCACTGTGAG
    CCCAATCTGC TCCCCTGTCG GGTGTTCACC TCTCACCAGG ACCTCCGATT TCCTCACATC
    GCATTCTTCG CCTGCAAGAA CATCAGTGCC GGAGATGAAC TTGGGTTTGA CTATGGCGAT
    CACTTCTGGG ACGTAAAGGG GAAGCTGTTC AACTGCAAGT GTGGCTCATC CAAATGCAAG
    CACTCTGCAG CTGCCATCGC CCAGACACAG GCAGACAGTA CACCAGGTGA CCAGCAGCCC
    AGCGCCCTAC CCGATACCAG CTCATCCACC CCATCCAGCC CCAGCTAA

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

    CloneID ODa150869
    Clone ID Related Accession (Same CDS sequence) XM_021468788.1
    Accession Version XM_021468788.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3864bp)
    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 histone-lysine N-methyltransferase EHMT1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.7) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 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
    ATGAATGAAG ACCACTGCTT AAGGCAGGTA CAGCCATGTT GCTGGAAGCC CTCCAGTTTG 
    GCCAATGGGA ATTCAGGCAA GAGGGAAACC ATGAAGTCCG AGGGGACAAA AGAGTCTCGC
    AGTGATCAAG AAGAAGGAGG AGATGATGAT CACCAGGATG GGCGAACAGG CCCTCTTAGA
    GAGGCCATTG AGCAGAATGG GACCTATGAA AATATGGACA CAAAGAGAAA TGAACAGAAC
    CTCTCTACAC AAGGGTCACC AGCACGACCC TCAACCATGG AGAATGGGCT ATCAGAAACT
    GAGCCACCGC ATGGCTCAAA AGTAGGCAGT AATGGATATA TTCTAAGCAA AGTAAAGGAA
    GATACAGTGT CAGCCCCTCA CAGGACTAAC TGGTCCCCCA CTGGGGGTAC CACATTGGGG
    CATGGGACTA AAAGCTCACC GCCTTCAGTG TTGCAATCTC TAGACCAGGG TTCTTCAAAC
    AGTGGTGCAA GCCAAGGACC AAGTCTAACA GAGAGACGAG CAGAAACAGA GACTAAAAAT
    GGCATCATTT CAAAAACACC CCCACCAACA GTACATCGTG CACGTAAAAC TATGTCAAGG
    CCGGCCTCAA ACCAGACACT AAAGCTTTTG AACAGGGAAA ATAAAGAGCC AGTCGTGGTA
    AAAGATGACA GTGCAGGCAA ACCAGAGGCA GTGCAGCCTC AGCCATCTCT AATCCAGAAT
    CAGCTACCTC AAAGCCAAAC TGACGCCACA TCTGTACCGA ACACCACACC TGCCAAGCCA
    CAAATAGTTG AACCCAGACC TGTCTCTCCC TCAGTAGCAG CCGTATCAAG GAAGAAAAAA
    AGAAAGATGG GAACATATAG TCTTGTACCC AAGAAGAAAA ACAAAGTCTT GAAACAACGC
    ACAGTTCTGG AGATGTTTCA GCAGATATCC CAGTCTCCAC CCAACCCTAA GCCAAAGGAG
    ATTGTGCGTG TGAATGGAGA GAAAATGGAT AATGAGTCTG ATGAGGAGGA GTCAGAGGAA
    GGGGAAGACA CAGAGGATGA AGAAGAGCTA GTCACAGAAG ATGGAGCCAA AGCTTCACAT
    GAGGAACCTA GGATACCTTC GATCTCACAG CCCCTGGAAG AAGAGTCTGA GGAGTCTCAA
    GACTGTGAAG GTGAAGAGGA AGGGGATGAA TCAGACTTGA GTTCAGAATC CAGTTTGAAA
    AAGAAATGGA AAAAGAAAGC CAAAGGAGAT CATGCCTGGC TCCGACCGTC AAGGAAACGC
    AAGAGGAAAT GGAAAGCAAA AACGGACAAG GTTTCTGCTC CAGTAACGGA GATCCAGTCT
    CGGCCAGAAA GCCAGAGCGC CCCATCAGTC CCTACTGCTC ACAGAAAGGA GTATAAAGAA
    GTCCCTCTAG ACTCTCTCAA TCTAGCAGCA CAGGAAGCCT TATTGACATC TCAAAATACA
    GCTGCTTCAG GGTCATTGCA GAGCACAGAT GCAGACATGG TGCAGGAACT GCCTCTATGC
    AGCTGTCGAA TGGAGACACC CAAGAGTCGA GAGATCCTCA CGCTTGCGGA CAGGAAGTGT
    ATGGCAACTG AGAGCATTGA CGGCCAGCTG AGCCGTTGTC AGAGTGCAGT GCTGAAGCAC
    GAGATGATGA GGCCTTCAAA TTCTGTCCAA CTGCTGGTTC TGTGTGAGGA CCATCGCACA
    GGCATGGTCA AGCATCAGTG CTGCCCTGGC TGTGGCTTCT TTTGCAGAGC CGGTACCTTC
    ATGGAGTGTC AGCCAGAGGT GAACATCTCC CACCGCTTCC ATCGGACCTG TGCCTCGGTA
    CTTAATGGGC AGAGCTTTTG TCCACATTGT GGAGAGGAAG TCAGCAAGGC GAAAGAGGTC
    ACCATTGCCA AGGCAGATAC AACGTCAACT GTACCCATCA CCCATAGCTC CTGCATACCC
    AGCACCTCAG AGGGCAAAGC GGACACTACC ACTGGAGGGT CCACTCGGCT CTCTGTACTT
    GGAGAGGGAA AAGCAAACAG CACCTTACCC AAACCTTCAG AATCACAGGA CACATCTTTG
    TCCCTTGTGG GTTCCAAAGC CAGGTCTGTA GCGATGGCAG CTGCACCTGG ACTTCCACTT
    CCACCAGGAC CACCTAAAGA AACTCTGCAA AGTGTCCTGC TGGCTCTAGA TGCTGAAAAG
    CCCAAGAAGC TTCGGTTTCA CCCAAAACAA TTGTACATTT CTGCCAAACA AGGGGAGCTG
    CAGAAGGTCC TACTAATGTT GGTGGATGGG ATTGATCCCA ACTTCAAAAT GGAGAGCCAG
    AACAAACGGA CGCCACTCCA TGTTGCTGCA GAAGCAGGTC ATCAGGATGT CTGCCATATG
    CTGGTACAGG CTGGTGCCAA CCTTGACATG TGTGATGAGG ACCAGCGGAC GCCTCTGATG
    GAGGCCTGTG AGAACAACCA TCTCGAAACT GTGCGATATC TTCTGCGGGC CGGAGCCATC
    GTCTCTCACA AGGATGTTGA AGGATCAACT TGTCTCCATC TTGCTGCTAA GAACGGGCAT
    TTCAGCATTG TACAACATCT GCTCTCTGCA GGCCTTGTTG ATATTAACTG CCAGGATGAT
    GGAGGTTGGA CAGCCATGAT TTGGGCCACA GAGTACAAAC ATGTGGACCA AGTGAAACTC
    TTGCTCTCCA AAGGGGCTGA TATCAATATA CGAGACAAGG AGGAGAATAT CTGTCTGCAT
    TGGGCCGCTT TCTCTGGCTG CGTGGAAATA GCCGAGATCT TTCTGACTGC CAAGTGTGAT
    CTCAACACCA TGAACATCCA CGGAGACTCG CCGTTGCACA TAGCGTCGCG AGAGGGCCGG
    CTTGACTGTG TAAACTTGTT TTTGTCTCGT GGTGCTGATG TAAACCTTAA AAACAAAGAA
    GGAGAGACGC CCATGGAGTG CTGCAGCCAT AGCTCGAAGG TCTGGAATGC TCTTCAAGCC
    AACAAAAAGC AGAGAGAAGC AAACCGCAAA GCTGGCGCCA CAGAGAAGCT TCTCAACAAG
    GACATCGCTA GAGGTTACGA AAAAGTCCCC GTCCCGTGCG TAAATGCAGT GGACAGCGAA
    CCCTGTCCTG ACAACTACAA GTATGTCCCT GATAGCTGTG TGACGTCCCC TCTGAACATT
    GACAAAAATA TCACTCACTT GCAGTACTGT GTCTGTAAAG ACGATTGCTC TTCTGCAAGC
    TGCATGTGTG GCCAACTAAG CCTGAGATGC TGGTATGATA AAGAGAGTCG TCTGCTGCCT
    GAGTTCAGTA ATGAGGAGCC GCCTCTTATA TTTGAGTGCA ACCATGCCTG CTCCTGCTGG
    AGAACCTGCA AAAACCGTGT GGTACAGAAC GGACTGAGGA CAAGACTGCA GTTGTTCAAG
    ACACAGATGA TGGGATGGGG TGTCAAGACA TTACAGGATA TCCCTCAAGG AACATTTGTT
    TGCGAATACG TGGGTGAGAT CATCTCTGAC GCCGAAGCAG ATGTCAGAGA GAATGACTCC
    TATCTTTTCA GTCTGGACAG CAAGGTGGGT GACATGTACT GCGTTGATGC TCGTTTCTAC
    GGGAACATCA GCCGGTTCAT AAACCATCAC TGTGAGCCCA ATCTGCTCCC CTGTCGGGTG
    TTCACCTCTC ACCAGGACCT CCGATTTCCT CACATCGCAT TCTTCGCCTG CAAGAACATC
    AGTGCCGGAG ATGAACTTGG GTTTGACTAT GGCGATCACT TCTGGGACGT AAAGGGGAAG
    CTGTTCAACT GCAAGTGTGG CTCATCCAAA TGCAAGCACT CTGCAGCTGC CATCGCCCAG
    ACACAGGCAG ACAGTACACC AGGTGACCAG CAGCCCAGCG CCCTACCCGA TACCAGCTCA
    TCCACCCCAT CCAGCCCCAG CTAA

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

    RefSeq XP_021324463.1
    CDS53..3916
    Translation

    Target ORF information:

    RefSeq Version XM_021468788.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021468788.1

    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
    ATGAATGAAG ACCACTGCTT AAGGCAGGTA CAGCCATGTT GCTGGAAGCC CTCCAGTTTG 
    GCCAATGGGA ATTCAGGCAA GAGGGAAACC ATGAAGTCCG AGGGGACAAA AGAGTCTCGC
    AGTGATCAAG AAGAAGGAGG AGATGATGAT CACCAGGATG GGCGAACAGG CCCTCTTAGA
    GAGGCCATTG AGCAGAATGG GACCTATGAA AATATGGACA CAAAGAGAAA TGAACAGAAC
    CTCTCTACAC AAGGGTCACC AGCACGACCC TCAACCATGG AGAATGGGCT ATCAGAAACT
    GAGCCACCGC ATGGCTCAAA AGTAGGCAGT AATGGATATA TTCTAAGCAA AGTAAAGGAA
    GATACAGTGT CAGCCCCTCA CAGGACTAAC TGGTCCCCCA CTGGGGGTAC CACATTGGGG
    CATGGGACTA AAAGCTCACC GCCTTCAGTG TTGCAATCTC TAGACCAGGG TTCTTCAAAC
    AGTGGTGCAA GCCAAGGACC AAGTCTAACA GAGAGACGAG CAGAAACAGA GACTAAAAAT
    GGCATCATTT CAAAAACACC CCCACCAACA GTACATCGTG CACGTAAAAC TATGTCAAGG
    CCGGCCTCAA ACCAGACACT AAAGCTTTTG AACAGGGAAA ATAAAGAGCC AGTCGTGGTA
    AAAGATGACA GTGCAGGCAA ACCAGAGGCA GTGCAGCCTC AGCCATCTCT AATCCAGAAT
    CAGCTACCTC AAAGCCAAAC TGACGCCACA TCTGTACCGA ACACCACACC TGCCAAGCCA
    CAAATAGTTG AACCCAGACC TGTCTCTCCC TCAGTAGCAG CCGTATCAAG GAAGAAAAAA
    AGAAAGATGG GAACATATAG TCTTGTACCC AAGAAGAAAA ACAAAGTCTT GAAACAACGC
    ACAGTTCTGG AGATGTTTCA GCAGATATCC CAGTCTCCAC CCAACCCTAA GCCAAAGGAG
    ATTGTGCGTG TGAATGGAGA GAAAATGGAT AATGAGTCTG ATGAGGAGGA GTCAGAGGAA
    GGGGAAGACA CAGAGGATGA AGAAGAGCTA GTCACAGAAG ATGGAGCCAA AGCTTCACAT
    GAGGAACCTA GGATACCTTC GATCTCACAG CCCCTGGAAG AAGAGTCTGA GGAGTCTCAA
    GACTGTGAAG GTGAAGAGGA AGGGGATGAA TCAGACTTGA GTTCAGAATC CAGTTTGAAA
    AAGAAATGGA AAAAGAAAGC CAAAGGAGAT CATGCCTGGC TCCGACCGTC AAGGAAACGC
    AAGAGGAAAT GGAAAGCAAA AACGGACAAG GTTTCTGCTC CAGTAACGGA GATCCAGTCT
    CGGCCAGAAA GCCAGAGCGC CCCATCAGTC CCTACTGCTC ACAGAAAGGA GTATAAAGAA
    GTCCCTCTAG ACTCTCTCAA TCTAGCAGCA CAGGAAGCCT TATTGACATC TCAAAATACA
    GCTGCTTCAG GGTCATTGCA GAGCACAGAT GCAGACATGG TGCAGGAACT GCCTCTATGC
    AGCTGTCGAA TGGAGACACC CAAGAGTCGA GAGATCCTCA CGCTTGCGGA CAGGAAGTGT
    ATGGCAACTG AGAGCATTGA CGGCCAGCTG AGCCGTTGTC AGAGTGCAGT GCTGAAGCAC
    GAGATGATGA GGCCTTCAAA TTCTGTCCAA CTGCTGGTTC TGTGTGAGGA CCATCGCACA
    GGCATGGTCA AGCATCAGTG CTGCCCTGGC TGTGGCTTCT TTTGCAGAGC CGGTACCTTC
    ATGGAGTGTC AGCCAGAGGT GAACATCTCC CACCGCTTCC ATCGGACCTG TGCCTCGGTA
    CTTAATGGGC AGAGCTTTTG TCCACATTGT GGAGAGGAAG TCAGCAAGGC GAAAGAGGTC
    ACCATTGCCA AGGCAGATAC AACGTCAACT GTACCCATCA CCCATAGCTC CTGCATACCC
    AGCACCTCAG AGGGCAAAGC GGACACTACC ACTGGAGGGT CCACTCGGCT CTCTGTACTT
    GGAGAGGGAA AAGCAAACAG CACCTTACCC AAACCTTCAG AATCACAGGA CACATCTTTG
    TCCCTTGTGG GTTCCAAAGC CAGGTCTGTA GCGATGGCAG CTGCACCTGG ACTTCCACTT
    CCACCAGGAC CACCTAAAGA AACTCTGCAA AGTGTCCTGC TGGCTCTAGA TGCTGAAAAG
    CCCAAGAAGC TTCGGTTTCA CCCAAAACAA TTGTACATTT CTGCCAAACA AGGGGAGCTG
    CAGAAGGTCC TACTAATGTT GGTGGATGGG ATTGATCCCA ACTTCAAAAT GGAGAGCCAG
    AACAAACGGA CGCCACTCCA TGTTGCTGCA GAAGCAGGTC ATCAGGATGT CTGCCATATG
    CTGGTACAGG CTGGTGCCAA CCTTGACATG TGTGATGAGG ACCAGCGGAC GCCTCTGATG
    GAGGCCTGTG AGAACAACCA TCTCGAAACT GTGCGATATC TTCTGCGGGC CGGAGCCATC
    GTCTCTCACA AGGATGTTGA AGGATCAACT TGTCTCCATC TTGCTGCTAA GAACGGGCAT
    TTCAGCATTG TACAACATCT GCTCTCTGCA GGCCTTGTTG ATATTAACTG CCAGGATGAT
    GGAGGTTGGA CAGCCATGAT TTGGGCCACA GAGTACAAAC ATGTGGACCA AGTGAAACTC
    TTGCTCTCCA AAGGGGCTGA TATCAATATA CGAGACAAGG AGGAGAATAT CTGTCTGCAT
    TGGGCCGCTT TCTCTGGCTG CGTGGAAATA GCCGAGATCT TTCTGACTGC CAAGTGTGAT
    CTCAACACCA TGAACATCCA CGGAGACTCG CCGTTGCACA TAGCGTCGCG AGAGGGCCGG
    CTTGACTGTG TAAACTTGTT TTTGTCTCGT GGTGCTGATG TAAACCTTAA AAACAAAGAA
    GGAGAGACGC CCATGGAGTG CTGCAGCCAT AGCTCGAAGG TCTGGAATGC TCTTCAAGCC
    AACAAAAAGC AGAGAGAAGC AAACCGCAAA GCTGGCGCCA CAGAGAAGCT TCTCAACAAG
    GACATCGCTA GAGGTTACGA AAAAGTCCCC GTCCCGTGCG TAAATGCAGT GGACAGCGAA
    CCCTGTCCTG ACAACTACAA GTATGTCCCT GATAGCTGTG TGACGTCCCC TCTGAACATT
    GACAAAAATA TCACTCACTT GCAGTACTGT GTCTGTAAAG ACGATTGCTC TTCTGCAAGC
    TGCATGTGTG GCCAACTAAG CCTGAGATGC TGGTATGATA AAGAGAGTCG TCTGCTGCCT
    GAGTTCAGTA ATGAGGAGCC GCCTCTTATA TTTGAGTGCA ACCATGCCTG CTCCTGCTGG
    AGAACCTGCA AAAACCGTGT GGTACAGAAC GGACTGAGGA CAAGACTGCA GTTGTTCAAG
    ACACAGATGA TGGGATGGGG TGTCAAGACA TTACAGGATA TCCCTCAAGG AACATTTGTT
    TGCGAATACG TGGGTGAGAT CATCTCTGAC GCCGAAGCAG ATGTCAGAGA GAATGACTCC
    TATCTTTTCA GTCTGGACAG CAAGGTGGGT GACATGTACT GCGTTGATGC TCGTTTCTAC
    GGGAACATCA GCCGGTTCAT AAACCATCAC TGTGAGCCCA ATCTGCTCCC CTGTCGGGTG
    TTCACCTCTC ACCAGGACCT CCGATTTCCT CACATCGCAT TCTTCGCCTG CAAGAACATC
    AGTGCCGGAG ATGAACTTGG GTTTGACTAT GGCGATCACT TCTGGGACGT AAAGGGGAAG
    CTGTTCAACT GCAAGTGTGG CTCATCCAAA TGCAAGCACT CTGCAGCTGC CATCGCCCAG
    ACACAGGCAG ACAGTACACC AGGTGACCAG CAGCCCAGCG CCCTACCCGA TACCAGCTCA
    TCCACCCCAT CCAGCCCCAG CTAA

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

    CloneID ODa150870
    Clone ID Related Accession (Same CDS sequence) XM_021468789.1
    Accession Version XM_021468789.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3858bp)
    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 histone-lysine N-methyltransferase EHMT1 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.7) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 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
    ATGAAGAGAT CACTGGAGCC CTCCAGTTTG GCCAATGGGA ATTCAGGCAA GAGGGAAACC 
    ATGAAGTCCG AGGGGACAAA AGAGTCTCGC AGTGATCAAG AAGAAGGAGG AGATGATGAT
    CACCAGGATG GGCGAACAGG CCCTCTTAGA GAGGCCATTG AGCAGAATGG GACCTATGAA
    AATATGGACA CAAAGAGAAA TGAACAGAAC CTCTCTACAC AAGGGTCACC AGCACGACCC
    TCAACCATGG AGAATGGGCT ATCAGAAACT GAGCCACCGC ATGGCTCAAA AGTAGGCAGT
    AATGGATATA TTCTAAGCAA AGTAAAGGAA GATACAGTGT CAGCCCCTCA CAGGACTAAC
    TGGTCCCCCA CTGGGGGTAC CACATTGGGG CATGGGACTA AAAGCTCACC GCCTTCAGTG
    TTGCAATCTC TAGACCAGGG TTCTTCAAAC AGTGGTGCAA GCCAAGGACC AAGTCTAACA
    GAGAGACGAG CAGAAACAGA GACTAAAAAT GGCATCATTT CAAAAACACC CCCACCAACA
    GTACATCGTG CACGTAAAAC TATGTCAAGG CCGGCCTCAA ACCAGACACT AAAGCTTTTG
    AACAGGGAAA ATAAAGAGCC AGTCGTGGTA AAAGATGACA GTGCAGGCAA ACCAGAGGCA
    GTGCAGCCTC AGCCATCTCT AATCCAGAAT CAGCTACCTC AAAGCCAAAC TGACGCCACA
    TCTGTACCGA ACACCACACC TGCCAAGCCA CAAATAGAAT TCTCTCTTTA TGCATCGACA
    GTTGAACCCA GACCTGTCTC TCCCTCAGTA GCAGCCGTAT CAAGGAAGAA AAAAAGAAAG
    ATGGGAACAT ATAGTCTTGT ACCCAAGAAG AAAAACAAAG TCTTGAAACA ACGCACAGTT
    CTGGAGATGT TTCAGCAGAT ATCCCAGTCT CCACCCAACC CTAAGCCAAA GGAGATTGTG
    CGTGTGAATG GAGAGAAAAT GGATAATGAG TCTGATGAGG AGGAGTCAGA GGAAGGGGAA
    GACACAGAGG ATGAAGAAGA GCTAGTCACA GAAGATGGAG CCAAAGCTTC ACATGAGGAA
    CCTAGGATAC CTTCGATCTC ACAGCCCCTG GAAGAAGAGT CTGAGGAGTC TCAAGACTGT
    GAAGGTGAAG AGGAAGGGGA TGAATCAGAC TTGAGTTCAG AATCCAGTTT GAAAAAGAAA
    TGGAAAAAGA AAGCCAAAGG AGATCATGCC TGGCTCCGAC CGTCAAGGAA ACGCAAGAGG
    AAATGGAAAG CAAAAACGGA CAAGGTTTCT GCTCCAGTAA CGGAGATCCA GTCTCGGCCA
    GAAAGCCAGA GCGCCCCATC AGTCCCTACT GCTCACAGAA AGGAGTATAA AGAAGTCCCT
    CTAGACTCTC TCAATCTAGC AGCACAGGAA GCCTTATTGA CATCTCAAAA TACAGCTGCT
    TCAGGGTCAT TGCAGAGCAC AGATGCAGAC ATGGTGCAGG AACTGCCTCT ATGCAGCTGT
    CGAATGGAGA CACCCAAGAG TCGAGAGATC CTCACGCTTG CGGACAGGAA GTGTATGGCA
    ACTGAGAGCA TTGACGGCCA GCTGAGCCGT TGTCAGAGTG CAGTGCTGAA GCACGAGATG
    ATGAGGCCTT CAAATTCTGT CCAACTGCTG GTTCTGTGTG AGGACCATCG CACAGGCATG
    GTCAAGCATC AGTGCTGCCC TGGCTGTGGC TTCTTTTGCA GAGCCGGTAC CTTCATGGAG
    TGTCAGCCAG AGGTGAACAT CTCCCACCGC TTCCATCGGA CCTGTGCCTC GGTACTTAAT
    GGGCAGAGCT TTTGTCCACA TTGTGGAGAG GAAGTCAGCA AGGCGAAAGA GGTCACCATT
    GCCAAGGCAG ATACAACGTC AACTGTACCC ATCACCCATA GCTCCTGCAT ACCCAGCACC
    TCAGAGGGCA AAGCGGACAC TACCACTGGA GGGTCCACTC GGCTCTCTGT ACTTGGAGAG
    GGAAAAGCAA ACAGCACCTT ACCCAAACCT TCAGAATCAC AGGACACATC TTTGTCCCTT
    GTGGGTTCCA AAGCCAGGTC TGTAGCGATG GCAGCTGCAC CTGGACTTCC ACTTCCACCA
    GGACCACCTA AAGAAACTCT GCAAAGTGTC CTGCTGGCTC TAGATGCTGA AAAGCCCAAG
    AAGCTTCGGT TTCACCCAAA ACAATTGTAC ATTTCTGCCA AACAAGGGGA GCTGCAGAAG
    GTCCTACTAA TGTTGGTGGA TGGGATTGAT CCCAACTTCA AAATGGAGAG CCAGAACAAA
    CGGACGCCAC TCCATGTTGC TGCAGAAGCA GGTCATCAGG ATGTCTGCCA TATGCTGGTA
    CAGGCTGGTG CCAACCTTGA CATGTGTGAT GAGGACCAGC GGACGCCTCT GATGGAGGCC
    TGTGAGAACA ACCATCTCGA AACTGTGCGA TATCTTCTGC GGGCCGGAGC CATCGTCTCT
    CACAAGGATG TTGAAGGATC AACTTGTCTC CATCTTGCTG CTAAGAACGG GCATTTCAGC
    ATTGTACAAC ATCTGCTCTC TGCAGGCCTT GTTGATATTA ACTGCCAGGA TGATGGAGGT
    TGGACAGCCA TGATTTGGGC CACAGAGTAC AAACATGTGG ACCAAGTGAA ACTCTTGCTC
    TCCAAAGGGG CTGATATCAA TATACGAGAC AAGGAGGAGA ATATCTGTCT GCATTGGGCC
    GCTTTCTCTG GCTGCGTGGA AATAGCCGAG ATCTTTCTGA CTGCCAAGTG TGATCTCAAC
    ACCATGAACA TCCACGGAGA CTCGCCGTTG CACATAGCGT CGCGAGAGGG CCGGCTTGAC
    TGTGTAAACT TGTTTTTGTC TCGTGGTGCT GATGTAAACC TTAAAAACAA AGAAGGAGAG
    ACGCCCATGG AGTGCTGCAG CCATAGCTCG AAGGTCTGGA ATGCTCTTCA AGCCAACAAA
    AAGCAGAGAG AAGCAAACCG CAAAGCTGGC GCCACAGAGA AGCTTCTCAA CAAGGACATC
    GCTAGAGGTT ACGAAAAAGT CCCCGTCCCG TGCGTAAATG CAGTGGACAG CGAACCCTGT
    CCTGACAACT ACAAGTATGT CCCTGATAGC TGTGTGACGT CCCCTCTGAA CATTGACAAA
    AATATCACTC ACTTGCAGTA CTGTGTCTGT AAAGACGATT GCTCTTCTGC AAGCTGCATG
    TGTGGCCAAC TAAGCCTGAG ATGCTGGTAT GATAAAGAGA GTCGTCTGCT GCCTGAGTTC
    AGTAATGAGG AGCCGCCTCT TATATTTGAG TGCAACCATG CCTGCTCCTG CTGGAGAACC
    TGCAAAAACC GTGTGGTACA GAACGGACTG AGGACAAGAC TGCAGTTGTT CAAGACACAG
    ATGATGGGAT GGGGTGTCAA GACATTACAG GATATCCCTC AAGGAACATT TGTTTGCGAA
    TACGTGGGTG AGATCATCTC TGACGCCGAA GCAGATGTCA GAGAGAATGA CTCCTATCTT
    TTCAGTCTGG ACAGCAAGGT GGGTGACATG TACTGCGTTG ATGCTCGTTT CTACGGGAAC
    ATCAGCCGGT TCATAAACCA TCACTGTGAG CCCAATCTGC TCCCCTGTCG GGTGTTCACC
    TCTCACCAGG ACCTCCGATT TCCTCACATC GCATTCTTCG CCTGCAAGAA CATCAGTGCC
    GGAGATGAAC TTGGGTTTGA CTATGGCGAT CACTTCTGGG ACGTAAAGGG GAAGCTGTTC
    AACTGCAAGT GTGGCTCATC CAAATGCAAG CACTCTGCAG CTGCCATCGC CCAGACACAG
    GCAGACAGTA CACCAGGTGA CCAGCAGCCC AGCGCCCTAC CCGATACCAG CTCATCCACC
    CCATCCAGCC CCAGCTAA

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

    RefSeq XP_021324464.1
    CDS51..3908
    Translation

    Target ORF information:

    RefSeq Version XM_021468789.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021468789.1

    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
    ATGAAGAGAT CACTGGAGCC CTCCAGTTTG GCCAATGGGA ATTCAGGCAA GAGGGAAACC 
    ATGAAGTCCG AGGGGACAAA AGAGTCTCGC AGTGATCAAG AAGAAGGAGG AGATGATGAT
    CACCAGGATG GGCGAACAGG CCCTCTTAGA GAGGCCATTG AGCAGAATGG GACCTATGAA
    AATATGGACA CAAAGAGAAA TGAACAGAAC CTCTCTACAC AAGGGTCACC AGCACGACCC
    TCAACCATGG AGAATGGGCT ATCAGAAACT GAGCCACCGC ATGGCTCAAA AGTAGGCAGT
    AATGGATATA TTCTAAGCAA AGTAAAGGAA GATACAGTGT CAGCCCCTCA CAGGACTAAC
    TGGTCCCCCA CTGGGGGTAC CACATTGGGG CATGGGACTA AAAGCTCACC GCCTTCAGTG
    TTGCAATCTC TAGACCAGGG TTCTTCAAAC AGTGGTGCAA GCCAAGGACC AAGTCTAACA
    GAGAGACGAG CAGAAACAGA GACTAAAAAT GGCATCATTT CAAAAACACC CCCACCAACA
    GTACATCGTG CACGTAAAAC TATGTCAAGG CCGGCCTCAA ACCAGACACT AAAGCTTTTG
    AACAGGGAAA ATAAAGAGCC AGTCGTGGTA AAAGATGACA GTGCAGGCAA ACCAGAGGCA
    GTGCAGCCTC AGCCATCTCT AATCCAGAAT CAGCTACCTC AAAGCCAAAC TGACGCCACA
    TCTGTACCGA ACACCACACC TGCCAAGCCA CAAATAGAAT TCTCTCTTTA TGCATCGACA
    GTTGAACCCA GACCTGTCTC TCCCTCAGTA GCAGCCGTAT CAAGGAAGAA AAAAAGAAAG
    ATGGGAACAT ATAGTCTTGT ACCCAAGAAG AAAAACAAAG TCTTGAAACA ACGCACAGTT
    CTGGAGATGT TTCAGCAGAT ATCCCAGTCT CCACCCAACC CTAAGCCAAA GGAGATTGTG
    CGTGTGAATG GAGAGAAAAT GGATAATGAG TCTGATGAGG AGGAGTCAGA GGAAGGGGAA
    GACACAGAGG ATGAAGAAGA GCTAGTCACA GAAGATGGAG CCAAAGCTTC ACATGAGGAA
    CCTAGGATAC CTTCGATCTC ACAGCCCCTG GAAGAAGAGT CTGAGGAGTC TCAAGACTGT
    GAAGGTGAAG AGGAAGGGGA TGAATCAGAC TTGAGTTCAG AATCCAGTTT GAAAAAGAAA
    TGGAAAAAGA AAGCCAAAGG AGATCATGCC TGGCTCCGAC CGTCAAGGAA ACGCAAGAGG
    AAATGGAAAG CAAAAACGGA CAAGGTTTCT GCTCCAGTAA CGGAGATCCA GTCTCGGCCA
    GAAAGCCAGA GCGCCCCATC AGTCCCTACT GCTCACAGAA AGGAGTATAA AGAAGTCCCT
    CTAGACTCTC TCAATCTAGC AGCACAGGAA GCCTTATTGA CATCTCAAAA TACAGCTGCT
    TCAGGGTCAT TGCAGAGCAC AGATGCAGAC ATGGTGCAGG AACTGCCTCT ATGCAGCTGT
    CGAATGGAGA CACCCAAGAG TCGAGAGATC CTCACGCTTG CGGACAGGAA GTGTATGGCA
    ACTGAGAGCA TTGACGGCCA GCTGAGCCGT TGTCAGAGTG CAGTGCTGAA GCACGAGATG
    ATGAGGCCTT CAAATTCTGT CCAACTGCTG GTTCTGTGTG AGGACCATCG CACAGGCATG
    GTCAAGCATC AGTGCTGCCC TGGCTGTGGC TTCTTTTGCA GAGCCGGTAC CTTCATGGAG
    TGTCAGCCAG AGGTGAACAT CTCCCACCGC TTCCATCGGA CCTGTGCCTC GGTACTTAAT
    GGGCAGAGCT TTTGTCCACA TTGTGGAGAG GAAGTCAGCA AGGCGAAAGA GGTCACCATT
    GCCAAGGCAG ATACAACGTC AACTGTACCC ATCACCCATA GCTCCTGCAT ACCCAGCACC
    TCAGAGGGCA AAGCGGACAC TACCACTGGA GGGTCCACTC GGCTCTCTGT ACTTGGAGAG
    GGAAAAGCAA ACAGCACCTT ACCCAAACCT TCAGAATCAC AGGACACATC TTTGTCCCTT
    GTGGGTTCCA AAGCCAGGTC TGTAGCGATG GCAGCTGCAC CTGGACTTCC ACTTCCACCA
    GGACCACCTA AAGAAACTCT GCAAAGTGTC CTGCTGGCTC TAGATGCTGA AAAGCCCAAG
    AAGCTTCGGT TTCACCCAAA ACAATTGTAC ATTTCTGCCA AACAAGGGGA GCTGCAGAAG
    GTCCTACTAA TGTTGGTGGA TGGGATTGAT CCCAACTTCA AAATGGAGAG CCAGAACAAA
    CGGACGCCAC TCCATGTTGC TGCAGAAGCA GGTCATCAGG ATGTCTGCCA TATGCTGGTA
    CAGGCTGGTG CCAACCTTGA CATGTGTGAT GAGGACCAGC GGACGCCTCT GATGGAGGCC
    TGTGAGAACA ACCATCTCGA AACTGTGCGA TATCTTCTGC GGGCCGGAGC CATCGTCTCT
    CACAAGGATG TTGAAGGATC AACTTGTCTC CATCTTGCTG CTAAGAACGG GCATTTCAGC
    ATTGTACAAC ATCTGCTCTC TGCAGGCCTT GTTGATATTA ACTGCCAGGA TGATGGAGGT
    TGGACAGCCA TGATTTGGGC CACAGAGTAC AAACATGTGG ACCAAGTGAA ACTCTTGCTC
    TCCAAAGGGG CTGATATCAA TATACGAGAC AAGGAGGAGA ATATCTGTCT GCATTGGGCC
    GCTTTCTCTG GCTGCGTGGA AATAGCCGAG ATCTTTCTGA CTGCCAAGTG TGATCTCAAC
    ACCATGAACA TCCACGGAGA CTCGCCGTTG CACATAGCGT CGCGAGAGGG CCGGCTTGAC
    TGTGTAAACT TGTTTTTGTC TCGTGGTGCT GATGTAAACC TTAAAAACAA AGAAGGAGAG
    ACGCCCATGG AGTGCTGCAG CCATAGCTCG AAGGTCTGGA ATGCTCTTCA AGCCAACAAA
    AAGCAGAGAG AAGCAAACCG CAAAGCTGGC GCCACAGAGA AGCTTCTCAA CAAGGACATC
    GCTAGAGGTT ACGAAAAAGT CCCCGTCCCG TGCGTAAATG CAGTGGACAG CGAACCCTGT
    CCTGACAACT ACAAGTATGT CCCTGATAGC TGTGTGACGT CCCCTCTGAA CATTGACAAA
    AATATCACTC ACTTGCAGTA CTGTGTCTGT AAAGACGATT GCTCTTCTGC AAGCTGCATG
    TGTGGCCAAC TAAGCCTGAG ATGCTGGTAT GATAAAGAGA GTCGTCTGCT GCCTGAGTTC
    AGTAATGAGG AGCCGCCTCT TATATTTGAG TGCAACCATG CCTGCTCCTG CTGGAGAACC
    TGCAAAAACC GTGTGGTACA GAACGGACTG AGGACAAGAC TGCAGTTGTT CAAGACACAG
    ATGATGGGAT GGGGTGTCAA GACATTACAG GATATCCCTC AAGGAACATT TGTTTGCGAA
    TACGTGGGTG AGATCATCTC TGACGCCGAA GCAGATGTCA GAGAGAATGA CTCCTATCTT
    TTCAGTCTGG ACAGCAAGGT GGGTGACATG TACTGCGTTG ATGCTCGTTT CTACGGGAAC
    ATCAGCCGGT TCATAAACCA TCACTGTGAG CCCAATCTGC TCCCCTGTCG GGTGTTCACC
    TCTCACCAGG ACCTCCGATT TCCTCACATC GCATTCTTCG CCTGCAAGAA CATCAGTGCC
    GGAGATGAAC TTGGGTTTGA CTATGGCGAT CACTTCTGGG ACGTAAAGGG GAAGCTGTTC
    AACTGCAAGT GTGGCTCATC CAAATGCAAG CACTCTGCAG CTGCCATCGC CCAGACACAG
    GCAGACAGTA CACCAGGTGA CCAGCAGCCC AGCGCCCTAC CCGATACCAG CTCATCCACC
    CCATCCAGCC CCAGCTAA

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

    CloneID ODa150871
    Clone ID Related Accession (Same CDS sequence) XM_021468790.1
    Accession Version XM_021468790.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3837bp)
    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 histone-lysine N-methyltransferase EHMT1 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.7) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 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
    ATGAATGAAG ACCACTGCTT AAGGCAGGTA CAGCCATGTT GCTGGAAGCC CTCCAGTTTG 
    GCCAATGGGA ATTCAGGCAA GAGGGAAACC ATGAAGTCCG AGGGGACAAA AGAGTCTCGC
    AGTGATCAAG AAGAAGGAGG AGATGATGAT CACCAGGATG GGCGAACAGG CCCTCTTAGA
    GAGGCCATTG AGCAGAATGG GACCTATGAA AATATGGACA CAAAGAGAAA TGAACAGAAC
    CTCTCTACAC AAGGGTCACC AGCACGACCC TCAACCATGG AGAATGGGCT ATCAGAAACT
    GAGCCACCGC ATGGCTCAAA AGTAGGCAGT AATGGATATA TTCTAAGCAA AGTAAAGGAA
    GATACAGTGT CAGCCCCTCA CAGGACTAAC TGGTCCCCCA CTGGGGGTAC CACATTGGGG
    CATGGGACTA AAAGCTCACC GCCTTCAGTG TTGCAATCTC TAGACCAGGG TTCTTCAAAC
    AGTGGTGCAA GCCAAGGACC AAGTCTAACA GAGAGACGAG CAGAAACAGA GACTAAAAAT
    GGCATCATTT CAAAAACACC CCCACCAACA GTACATCGTG CACGTAAAAC TATGTCAAGG
    CCGGCCTCAA ACCAGACACT AAAGCTTTTG AACAGGGAAA ATAAAGAGCC AGTCGTGGTA
    AAAGATGACA GTGCAGGCAA ACCAGAGGCA GTGCAGCCTC AGCCATCTCT AATCCAGAAT
    CAGCTACCTC AAAGCCAAAC TGACGCCACA TCTGTACCGA ACACCACACC TGCCAAGCCA
    CAAATAGTAG CAGCCGTATC AAGGAAGAAA AAAAGAAAGA TGGGAACATA TAGTCTTGTA
    CCCAAGAAGA AAAACAAAGT CTTGAAACAA CGCACAGTTC TGGAGATGTT TCAGCAGATA
    TCCCAGTCTC CACCCAACCC TAAGCCAAAG GAGATTGTGC GTGTGAATGG AGAGAAAATG
    GATAATGAGT CTGATGAGGA GGAGTCAGAG GAAGGGGAAG ACACAGAGGA TGAAGAAGAG
    CTAGTCACAG AAGATGGAGC CAAAGCTTCA CATGAGGAAC CTAGGATACC TTCGATCTCA
    CAGCCCCTGG AAGAAGAGTC TGAGGAGTCT CAAGACTGTG AAGGTGAAGA GGAAGGGGAT
    GAATCAGACT TGAGTTCAGA ATCCAGTTTG AAAAAGAAAT GGAAAAAGAA AGCCAAAGGA
    GATCATGCCT GGCTCCGACC GTCAAGGAAA CGCAAGAGGA AATGGAAAGC AAAAACGGAC
    AAGGTTTCTG CTCCAGTAAC GGAGATCCAG TCTCGGCCAG AAAGCCAGAG CGCCCCATCA
    GTCCCTACTG CTCACAGAAA GGAGTATAAA GAAGTCCCTC TAGACTCTCT CAATCTAGCA
    GCACAGGAAG CCTTATTGAC ATCTCAAAAT ACAGCTGCTT CAGGGTCATT GCAGAGCACA
    GATGCAGACA TGGTGCAGGA ACTGCCTCTA TGCAGCTGTC GAATGGAGAC ACCCAAGAGT
    CGAGAGATCC TCACGCTTGC GGACAGGAAG TGTATGGCAA CTGAGAGCAT TGACGGCCAG
    CTGAGCCGTT GTCAGAGTGC AGTGCTGAAG CACGAGATGA TGAGGCCTTC AAATTCTGTC
    CAACTGCTGG TTCTGTGTGA GGACCATCGC ACAGGCATGG TCAAGCATCA GTGCTGCCCT
    GGCTGTGGCT TCTTTTGCAG AGCCGGTACC TTCATGGAGT GTCAGCCAGA GGTGAACATC
    TCCCACCGCT TCCATCGGAC CTGTGCCTCG GTACTTAATG GGCAGAGCTT TTGTCCACAT
    TGTGGAGAGG AAGTCAGCAA GGCGAAAGAG GTCACCATTG CCAAGGCAGA TACAACGTCA
    ACTGTACCCA TCACCCATAG CTCCTGCATA CCCAGCACCT CAGAGGGCAA AGCGGACACT
    ACCACTGGAG GGTCCACTCG GCTCTCTGTA CTTGGAGAGG GAAAAGCAAA CAGCACCTTA
    CCCAAACCTT CAGAATCACA GGACACATCT TTGTCCCTTG TGGGTTCCAA AGCCAGGTCT
    GTAGCGATGG CAGCTGCACC TGGACTTCCA CTTCCACCAG GACCACCTAA AGAAACTCTG
    CAAAGTGTCC TGCTGGCTCT AGATGCTGAA AAGCCCAAGA AGCTTCGGTT TCACCCAAAA
    CAATTGTACA TTTCTGCCAA ACAAGGGGAG CTGCAGAAGG TCCTACTAAT GTTGGTGGAT
    GGGATTGATC CCAACTTCAA AATGGAGAGC CAGAACAAAC GGACGCCACT CCATGTTGCT
    GCAGAAGCAG GTCATCAGGA TGTCTGCCAT ATGCTGGTAC AGGCTGGTGC CAACCTTGAC
    ATGTGTGATG AGGACCAGCG GACGCCTCTG ATGGAGGCCT GTGAGAACAA CCATCTCGAA
    ACTGTGCGAT ATCTTCTGCG GGCCGGAGCC ATCGTCTCTC ACAAGGATGT TGAAGGATCA
    ACTTGTCTCC ATCTTGCTGC TAAGAACGGG CATTTCAGCA TTGTACAACA TCTGCTCTCT
    GCAGGCCTTG TTGATATTAA CTGCCAGGAT GATGGAGGTT GGACAGCCAT GATTTGGGCC
    ACAGAGTACA AACATGTGGA CCAAGTGAAA CTCTTGCTCT CCAAAGGGGC TGATATCAAT
    ATACGAGACA AGGAGGAGAA TATCTGTCTG CATTGGGCCG CTTTCTCTGG CTGCGTGGAA
    ATAGCCGAGA TCTTTCTGAC TGCCAAGTGT GATCTCAACA CCATGAACAT CCACGGAGAC
    TCGCCGTTGC ACATAGCGTC GCGAGAGGGC CGGCTTGACT GTGTAAACTT GTTTTTGTCT
    CGTGGTGCTG ATGTAAACCT TAAAAACAAA GAAGGAGAGA CGCCCATGGA GTGCTGCAGC
    CATAGCTCGA AGGTCTGGAA TGCTCTTCAA GCCAACAAAA AGCAGAGAGA AGCAAACCGC
    AAAGCTGGCG CCACAGAGAA GCTTCTCAAC AAGGACATCG CTAGAGGTTA CGAAAAAGTC
    CCCGTCCCGT GCGTAAATGC AGTGGACAGC GAACCCTGTC CTGACAACTA CAAGTATGTC
    CCTGATAGCT GTGTGACGTC CCCTCTGAAC ATTGACAAAA ATATCACTCA CTTGCAGTAC
    TGTGTCTGTA AAGACGATTG CTCTTCTGCA AGCTGCATGT GTGGCCAACT AAGCCTGAGA
    TGCTGGTATG ATAAAGAGAG TCGTCTGCTG CCTGAGTTCA GTAATGAGGA GCCGCCTCTT
    ATATTTGAGT GCAACCATGC CTGCTCCTGC TGGAGAACCT GCAAAAACCG TGTGGTACAG
    AACGGACTGA GGACAAGACT GCAGTTGTTC AAGACACAGA TGATGGGATG GGGTGTCAAG
    ACATTACAGG ATATCCCTCA AGGAACATTT GTTTGCGAAT ACGTGGGTGA GATCATCTCT
    GACGCCGAAG CAGATGTCAG AGAGAATGAC TCCTATCTTT TCAGTCTGGA CAGCAAGGTG
    GGTGACATGT ACTGCGTTGA TGCTCGTTTC TACGGGAACA TCAGCCGGTT CATAAACCAT
    CACTGTGAGC CCAATCTGCT CCCCTGTCGG GTGTTCACCT CTCACCAGGA CCTCCGATTT
    CCTCACATCG CATTCTTCGC CTGCAAGAAC ATCAGTGCCG GAGATGAACT TGGGTTTGAC
    TATGGCGATC ACTTCTGGGA CGTAAAGGGG AAGCTGTTCA ACTGCAAGTG TGGCTCATCC
    AAATGCAAGC ACTCTGCAGC TGCCATCGCC CAGACACAGG CAGACAGTAC ACCAGGTGAC
    CAGCAGCCCA GCGCCCTACC CGATACCAGC TCATCCACCC CATCCAGCCC CAGCTAA

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

    RefSeq XP_021324465.1
    CDS54..3890
    Translation

    Target ORF information:

    RefSeq Version XM_021468790.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021468790.1

    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
    ATGAATGAAG ACCACTGCTT AAGGCAGGTA CAGCCATGTT GCTGGAAGCC CTCCAGTTTG 
    GCCAATGGGA ATTCAGGCAA GAGGGAAACC ATGAAGTCCG AGGGGACAAA AGAGTCTCGC
    AGTGATCAAG AAGAAGGAGG AGATGATGAT CACCAGGATG GGCGAACAGG CCCTCTTAGA
    GAGGCCATTG AGCAGAATGG GACCTATGAA AATATGGACA CAAAGAGAAA TGAACAGAAC
    CTCTCTACAC AAGGGTCACC AGCACGACCC TCAACCATGG AGAATGGGCT ATCAGAAACT
    GAGCCACCGC ATGGCTCAAA AGTAGGCAGT AATGGATATA TTCTAAGCAA AGTAAAGGAA
    GATACAGTGT CAGCCCCTCA CAGGACTAAC TGGTCCCCCA CTGGGGGTAC CACATTGGGG
    CATGGGACTA AAAGCTCACC GCCTTCAGTG TTGCAATCTC TAGACCAGGG TTCTTCAAAC
    AGTGGTGCAA GCCAAGGACC AAGTCTAACA GAGAGACGAG CAGAAACAGA GACTAAAAAT
    GGCATCATTT CAAAAACACC CCCACCAACA GTACATCGTG CACGTAAAAC TATGTCAAGG
    CCGGCCTCAA ACCAGACACT AAAGCTTTTG AACAGGGAAA ATAAAGAGCC AGTCGTGGTA
    AAAGATGACA GTGCAGGCAA ACCAGAGGCA GTGCAGCCTC AGCCATCTCT AATCCAGAAT
    CAGCTACCTC AAAGCCAAAC TGACGCCACA TCTGTACCGA ACACCACACC TGCCAAGCCA
    CAAATAGTAG CAGCCGTATC AAGGAAGAAA AAAAGAAAGA TGGGAACATA TAGTCTTGTA
    CCCAAGAAGA AAAACAAAGT CTTGAAACAA CGCACAGTTC TGGAGATGTT TCAGCAGATA
    TCCCAGTCTC CACCCAACCC TAAGCCAAAG GAGATTGTGC GTGTGAATGG AGAGAAAATG
    GATAATGAGT CTGATGAGGA GGAGTCAGAG GAAGGGGAAG ACACAGAGGA TGAAGAAGAG
    CTAGTCACAG AAGATGGAGC CAAAGCTTCA CATGAGGAAC CTAGGATACC TTCGATCTCA
    CAGCCCCTGG AAGAAGAGTC TGAGGAGTCT CAAGACTGTG AAGGTGAAGA GGAAGGGGAT
    GAATCAGACT TGAGTTCAGA ATCCAGTTTG AAAAAGAAAT GGAAAAAGAA AGCCAAAGGA
    GATCATGCCT GGCTCCGACC GTCAAGGAAA CGCAAGAGGA AATGGAAAGC AAAAACGGAC
    AAGGTTTCTG CTCCAGTAAC GGAGATCCAG TCTCGGCCAG AAAGCCAGAG CGCCCCATCA
    GTCCCTACTG CTCACAGAAA GGAGTATAAA GAAGTCCCTC TAGACTCTCT CAATCTAGCA
    GCACAGGAAG CCTTATTGAC ATCTCAAAAT ACAGCTGCTT CAGGGTCATT GCAGAGCACA
    GATGCAGACA TGGTGCAGGA ACTGCCTCTA TGCAGCTGTC GAATGGAGAC ACCCAAGAGT
    CGAGAGATCC TCACGCTTGC GGACAGGAAG TGTATGGCAA CTGAGAGCAT TGACGGCCAG
    CTGAGCCGTT GTCAGAGTGC AGTGCTGAAG CACGAGATGA TGAGGCCTTC AAATTCTGTC
    CAACTGCTGG TTCTGTGTGA GGACCATCGC ACAGGCATGG TCAAGCATCA GTGCTGCCCT
    GGCTGTGGCT TCTTTTGCAG AGCCGGTACC TTCATGGAGT GTCAGCCAGA GGTGAACATC
    TCCCACCGCT TCCATCGGAC CTGTGCCTCG GTACTTAATG GGCAGAGCTT TTGTCCACAT
    TGTGGAGAGG AAGTCAGCAA GGCGAAAGAG GTCACCATTG CCAAGGCAGA TACAACGTCA
    ACTGTACCCA TCACCCATAG CTCCTGCATA CCCAGCACCT CAGAGGGCAA AGCGGACACT
    ACCACTGGAG GGTCCACTCG GCTCTCTGTA CTTGGAGAGG GAAAAGCAAA CAGCACCTTA
    CCCAAACCTT CAGAATCACA GGACACATCT TTGTCCCTTG TGGGTTCCAA AGCCAGGTCT
    GTAGCGATGG CAGCTGCACC TGGACTTCCA CTTCCACCAG GACCACCTAA AGAAACTCTG
    CAAAGTGTCC TGCTGGCTCT AGATGCTGAA AAGCCCAAGA AGCTTCGGTT TCACCCAAAA
    CAATTGTACA TTTCTGCCAA ACAAGGGGAG CTGCAGAAGG TCCTACTAAT GTTGGTGGAT
    GGGATTGATC CCAACTTCAA AATGGAGAGC CAGAACAAAC GGACGCCACT CCATGTTGCT
    GCAGAAGCAG GTCATCAGGA TGTCTGCCAT ATGCTGGTAC AGGCTGGTGC CAACCTTGAC
    ATGTGTGATG AGGACCAGCG GACGCCTCTG ATGGAGGCCT GTGAGAACAA CCATCTCGAA
    ACTGTGCGAT ATCTTCTGCG GGCCGGAGCC ATCGTCTCTC ACAAGGATGT TGAAGGATCA
    ACTTGTCTCC ATCTTGCTGC TAAGAACGGG CATTTCAGCA TTGTACAACA TCTGCTCTCT
    GCAGGCCTTG TTGATATTAA CTGCCAGGAT GATGGAGGTT GGACAGCCAT GATTTGGGCC
    ACAGAGTACA AACATGTGGA CCAAGTGAAA CTCTTGCTCT CCAAAGGGGC TGATATCAAT
    ATACGAGACA AGGAGGAGAA TATCTGTCTG CATTGGGCCG CTTTCTCTGG CTGCGTGGAA
    ATAGCCGAGA TCTTTCTGAC TGCCAAGTGT GATCTCAACA CCATGAACAT CCACGGAGAC
    TCGCCGTTGC ACATAGCGTC GCGAGAGGGC CGGCTTGACT GTGTAAACTT GTTTTTGTCT
    CGTGGTGCTG ATGTAAACCT TAAAAACAAA GAAGGAGAGA CGCCCATGGA GTGCTGCAGC
    CATAGCTCGA AGGTCTGGAA TGCTCTTCAA GCCAACAAAA AGCAGAGAGA AGCAAACCGC
    AAAGCTGGCG CCACAGAGAA GCTTCTCAAC AAGGACATCG CTAGAGGTTA CGAAAAAGTC
    CCCGTCCCGT GCGTAAATGC AGTGGACAGC GAACCCTGTC CTGACAACTA CAAGTATGTC
    CCTGATAGCT GTGTGACGTC CCCTCTGAAC ATTGACAAAA ATATCACTCA CTTGCAGTAC
    TGTGTCTGTA AAGACGATTG CTCTTCTGCA AGCTGCATGT GTGGCCAACT AAGCCTGAGA
    TGCTGGTATG ATAAAGAGAG TCGTCTGCTG CCTGAGTTCA GTAATGAGGA GCCGCCTCTT
    ATATTTGAGT GCAACCATGC CTGCTCCTGC TGGAGAACCT GCAAAAACCG TGTGGTACAG
    AACGGACTGA GGACAAGACT GCAGTTGTTC AAGACACAGA TGATGGGATG GGGTGTCAAG
    ACATTACAGG ATATCCCTCA AGGAACATTT GTTTGCGAAT ACGTGGGTGA GATCATCTCT
    GACGCCGAAG CAGATGTCAG AGAGAATGAC TCCTATCTTT TCAGTCTGGA CAGCAAGGTG
    GGTGACATGT ACTGCGTTGA TGCTCGTTTC TACGGGAACA TCAGCCGGTT CATAAACCAT
    CACTGTGAGC CCAATCTGCT CCCCTGTCGG GTGTTCACCT CTCACCAGGA CCTCCGATTT
    CCTCACATCG CATTCTTCGC CTGCAAGAAC ATCAGTGCCG GAGATGAACT TGGGTTTGAC
    TATGGCGATC ACTTCTGGGA CGTAAAGGGG AAGCTGTTCA ACTGCAAGTG TGGCTCATCC
    AAATGCAAGC ACTCTGCAGC TGCCATCGCC CAGACACAGG CAGACAGTAC ACCAGGTGAC
    CAGCAGCCCA GCGCCCTACC CGATACCAGC TCATCCACCC CATCCAGCCC CAGCTAA

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

    CloneID ODa150872
    Clone ID Related Accession (Same CDS sequence) XM_021468791.1
    Accession Version XM_021468791.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3744bp)
    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 histone-lysine N-methyltransferase EHMT1 isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.7) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 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
    ATGAATGAAG ACCACTGCTT AAGGCAGGTA CAGCCATGTT GCTGGAAGCC CTCCAGTTTG 
    GCCAATGGGA ATTCAGGCAA GAGGGAAACC ATGAAGTCCG AGGGGACAAA AGAGTCTCGC
    AGTGATCAAG AAGAAGGAGG AGATGATGAT CACCAGGATG GGCGAACAGG CCCTCTTAGA
    GAGGCCATTG AGCAGAATGG GACCTATGAA AATATGGACA CAAAGAGAAA TGAACAGAAC
    CTCTCTACAC AAGGGTCACC AGCACGACCC TCAACCATGG AGAATGGGCT ATCAGAAACT
    GAGCCACCGC ATGGCTCAAA AGTAGGCAGT AATGGATATA TTCTAAGCAA AGTAAAGGAA
    GATACAGTGT CAGCCCCTCA CAGGACTAAC TGGTCCCCCA CTGGGGGTAC CACATTGGGG
    CATGGGACTA AAAGCTCACC GCCTTCAGTG TTGCAATCTC TAGACCAGGG TTCTTCAAAC
    AGTGGTGCAA GCCAAGGACC AAGTCTAACA GAGAGACGAG CAGAAACAGA GACTAAAAAT
    GGCATCATTT CAAAAACACC CCCACCAACA GTACATCGTG CACGTAAAAC TATGTCAAGG
    CCGGCCTCAA ACCAGACACT AAAGCTTTTG AACAGGGAAA ATAAAGAGCC AGTCGTGGTA
    AAAGATGACA GTGCAGGCAA ACCAGAGGCA GTGCAGCCTC AGCCATCTCT AATCCAGAAT
    CAGCTACCTC AAAGCCAAAC TGACGCCACA TCTGTACCGA ACACCACACC TGCCAAGCCA
    CAAATAGAAT TCTCTCTTTA TGCATCGACA GTTGAACCCA GACCTGTCTC TCCCTCAGTA
    GCAGCCGTAT CAAGGAAGAA AAAAAGAAAG ATGGGAACAT ATAGTCTTGT ACCCAAGAAG
    AAAAACAAAG TCTTGAAACA ACGCACAGTT CTGGAGATGT TTCAGCAGAT ATCCCAGTCT
    CCACCCAACC CTAAGCCAAA GGAGATTGTG CGTGTGAATG GAGAGAAAAT GGATAATGAG
    TCTGATGAGG AGGAGTCAGA GGAAGGGGAA GACACAGAGG ATGAAGAAGA GCTAGTCACA
    GAAGATGGAG CCAAAGCTTC ACATGAGGAA CCTAGGATAC CTTCGATCTC ACAGCCCCTG
    GAAGAAGAGT CTGAGGAGTC TCAAGACTGT GAAGGTGAAG AGGAAGGGGA TGAATCAGAC
    TTGAGTTCAG AATCCAGTTT GAAAAAGAAA TGGAAAAAGA AAGCCAAAGG AGATCATGCC
    TGGCTCCGAC CGTCAAGGAA ACGCAAGAGG AAATGGAAAG CAAAAACGGA CAAGGTTTCT
    GCTCCAGTAA CGGAGATCCA GTCTCGGCCA GAAAGCCAGA GCGCCCCATC AGTCCCTACT
    GCTCACAGAA AGGAGTATAA AGAAGTCCCT CTAGACTCTC TCAATCTAGC AGCACAGGAA
    GCCTTATTGA CATCTCAAAA TACAGCTGCT TCAGGGTCAT TGCAGAGCAC AGATGCAGAC
    ATGGTGCAGG AACTGCCTCT ATGCAGCTGT CGAATGGAGA CACCCAAGAG TCGAGAGATC
    CTCACGCTTG CGGACAGGAA GTGTATGGCA ACTGAGAGCA TTGACGGCCA GGGTACCTTC
    ATGGAGTGTC AGCCAGAGGT GAACATCTCC CACCGCTTCC ATCGGACCTG TGCCTCGGTA
    CTTAATGGGC AGAGCTTTTG TCCACATTGT GGAGAGGAAG TCAGCAAGGC GAAAGAGGTC
    ACCATTGCCA AGGCAGATAC AACGTCAACT GTACCCATCA CCCATAGCTC CTGCATACCC
    AGCACCTCAG AGGGCAAAGC GGACACTACC ACTGGAGGGT CCACTCGGCT CTCTGTACTT
    GGAGAGGGAA AAGCAAACAG CACCTTACCC AAACCTTCAG AATCACAGGA CACATCTTTG
    TCCCTTGTGG GTTCCAAAGC CAGGTCTGTA GCGATGGCAG CTGCACCTGG ACTTCCACTT
    CCACCAGGAC CACCTAAAGA AACTCTGCAA AGTGTCCTGC TGGCTCTAGA TGCTGAAAAG
    CCCAAGAAGC TTCGGTTTCA CCCAAAACAA TTGTACATTT CTGCCAAACA AGGGGAGCTG
    CAGAAGGTCC TACTAATGTT GGTGGATGGG ATTGATCCCA ACTTCAAAAT GGAGAGCCAG
    AACAAACGGA CGCCACTCCA TGTTGCTGCA GAAGCAGGTC ATCAGGATGT CTGCCATATG
    CTGGTACAGG CTGGTGCCAA CCTTGACATG TGTGATGAGG ACCAGCGGAC GCCTCTGATG
    GAGGCCTGTG AGAACAACCA TCTCGAAACT GTGCGATATC TTCTGCGGGC CGGAGCCATC
    GTCTCTCACA AGGATGTTGA AGGATCAACT TGTCTCCATC TTGCTGCTAA GAACGGGCAT
    TTCAGCATTG TACAACATCT GCTCTCTGCA GGCCTTGTTG ATATTAACTG CCAGGATGAT
    GGAGGTTGGA CAGCCATGAT TTGGGCCACA GAGTACAAAC ATGTGGACCA AGTGAAACTC
    TTGCTCTCCA AAGGGGCTGA TATCAATATA CGAGACAAGG AGGAGAATAT CTGTCTGCAT
    TGGGCCGCTT TCTCTGGCTG CGTGGAAATA GCCGAGATCT TTCTGACTGC CAAGTGTGAT
    CTCAACACCA TGAACATCCA CGGAGACTCG CCGTTGCACA TAGCGTCGCG AGAGGGCCGG
    CTTGACTGTG TAAACTTGTT TTTGTCTCGT GGTGCTGATG TAAACCTTAA AAACAAAGAA
    GGAGAGACGC CCATGGAGTG CTGCAGCCAT AGCTCGAAGG TCTGGAATGC TCTTCAAGCC
    AACAAAAAGC AGAGAGAAGC AAACCGCAAA GCTGGCGCCA CAGAGAAGCT TCTCAACAAG
    GACATCGCTA GAGGTTACGA AAAAGTCCCC GTCCCGTGCG TAAATGCAGT GGACAGCGAA
    CCCTGTCCTG ACAACTACAA GTATGTCCCT GATAGCTGTG TGACGTCCCC TCTGAACATT
    GACAAAAATA TCACTCACTT GCAGTACTGT GTCTGTAAAG ACGATTGCTC TTCTGCAAGC
    TGCATGTGTG GCCAACTAAG CCTGAGATGC TGGTATGATA AAGAGAGTCG TCTGCTGCCT
    GAGTTCAGTA ATGAGGAGCC GCCTCTTATA TTTGAGTGCA ACCATGCCTG CTCCTGCTGG
    AGAACCTGCA AAAACCGTGT GGTACAGAAC GGACTGAGGA CAAGACTGCA GTTGTTCAAG
    ACACAGATGA TGGGATGGGG TGTCAAGACA TTACAGGATA TCCCTCAAGG AACATTTGTT
    TGCGAATACG TGGGTGAGAT CATCTCTGAC GCCGAAGCAG ATGTCAGAGA GAATGACTCC
    TATCTTTTCA GTCTGGACAG CAAGGTGGGT GACATGTACT GCGTTGATGC TCGTTTCTAC
    GGGAACATCA GCCGGTTCAT AAACCATCAC TGTGAGCCCA ATCTGCTCCC CTGTCGGGTG
    TTCACCTCTC ACCAGGACCT CCGATTTCCT CACATCGCAT TCTTCGCCTG CAAGAACATC
    AGTGCCGGAG ATGAACTTGG GTTTGACTAT GGCGATCACT TCTGGGACGT AAAGGGGAAG
    CTGTTCAACT GCAAGTGTGG CTCATCCAAA TGCAAGCACT CTGCAGCTGC CATCGCCCAG
    ACACAGGCAG ACAGTACACC AGGTGACCAG CAGCCCAGCG CCCTACCCGA TACCAGCTCA
    TCCACCCCAT CCAGCCCCAG CTAA

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

    RefSeq XP_021324466.1
    CDS54..3797
    Translation

    Target ORF information:

    RefSeq Version XM_021468791.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021468791.1

    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
    ATGAATGAAG ACCACTGCTT AAGGCAGGTA CAGCCATGTT GCTGGAAGCC CTCCAGTTTG 
    GCCAATGGGA ATTCAGGCAA GAGGGAAACC ATGAAGTCCG AGGGGACAAA AGAGTCTCGC
    AGTGATCAAG AAGAAGGAGG AGATGATGAT CACCAGGATG GGCGAACAGG CCCTCTTAGA
    GAGGCCATTG AGCAGAATGG GACCTATGAA AATATGGACA CAAAGAGAAA TGAACAGAAC
    CTCTCTACAC AAGGGTCACC AGCACGACCC TCAACCATGG AGAATGGGCT ATCAGAAACT
    GAGCCACCGC ATGGCTCAAA AGTAGGCAGT AATGGATATA TTCTAAGCAA AGTAAAGGAA
    GATACAGTGT CAGCCCCTCA CAGGACTAAC TGGTCCCCCA CTGGGGGTAC CACATTGGGG
    CATGGGACTA AAAGCTCACC GCCTTCAGTG TTGCAATCTC TAGACCAGGG TTCTTCAAAC
    AGTGGTGCAA GCCAAGGACC AAGTCTAACA GAGAGACGAG CAGAAACAGA GACTAAAAAT
    GGCATCATTT CAAAAACACC CCCACCAACA GTACATCGTG CACGTAAAAC TATGTCAAGG
    CCGGCCTCAA ACCAGACACT AAAGCTTTTG AACAGGGAAA ATAAAGAGCC AGTCGTGGTA
    AAAGATGACA GTGCAGGCAA ACCAGAGGCA GTGCAGCCTC AGCCATCTCT AATCCAGAAT
    CAGCTACCTC AAAGCCAAAC TGACGCCACA TCTGTACCGA ACACCACACC TGCCAAGCCA
    CAAATAGAAT TCTCTCTTTA TGCATCGACA GTTGAACCCA GACCTGTCTC TCCCTCAGTA
    GCAGCCGTAT CAAGGAAGAA AAAAAGAAAG ATGGGAACAT ATAGTCTTGT ACCCAAGAAG
    AAAAACAAAG TCTTGAAACA ACGCACAGTT CTGGAGATGT TTCAGCAGAT ATCCCAGTCT
    CCACCCAACC CTAAGCCAAA GGAGATTGTG CGTGTGAATG GAGAGAAAAT GGATAATGAG
    TCTGATGAGG AGGAGTCAGA GGAAGGGGAA GACACAGAGG ATGAAGAAGA GCTAGTCACA
    GAAGATGGAG CCAAAGCTTC ACATGAGGAA CCTAGGATAC CTTCGATCTC ACAGCCCCTG
    GAAGAAGAGT CTGAGGAGTC TCAAGACTGT GAAGGTGAAG AGGAAGGGGA TGAATCAGAC
    TTGAGTTCAG AATCCAGTTT GAAAAAGAAA TGGAAAAAGA AAGCCAAAGG AGATCATGCC
    TGGCTCCGAC CGTCAAGGAA ACGCAAGAGG AAATGGAAAG CAAAAACGGA CAAGGTTTCT
    GCTCCAGTAA CGGAGATCCA GTCTCGGCCA GAAAGCCAGA GCGCCCCATC AGTCCCTACT
    GCTCACAGAA AGGAGTATAA AGAAGTCCCT CTAGACTCTC TCAATCTAGC AGCACAGGAA
    GCCTTATTGA CATCTCAAAA TACAGCTGCT TCAGGGTCAT TGCAGAGCAC AGATGCAGAC
    ATGGTGCAGG AACTGCCTCT ATGCAGCTGT CGAATGGAGA CACCCAAGAG TCGAGAGATC
    CTCACGCTTG CGGACAGGAA GTGTATGGCA ACTGAGAGCA TTGACGGCCA GGGTACCTTC
    ATGGAGTGTC AGCCAGAGGT GAACATCTCC CACCGCTTCC ATCGGACCTG TGCCTCGGTA
    CTTAATGGGC AGAGCTTTTG TCCACATTGT GGAGAGGAAG TCAGCAAGGC GAAAGAGGTC
    ACCATTGCCA AGGCAGATAC AACGTCAACT GTACCCATCA CCCATAGCTC CTGCATACCC
    AGCACCTCAG AGGGCAAAGC GGACACTACC ACTGGAGGGT CCACTCGGCT CTCTGTACTT
    GGAGAGGGAA AAGCAAACAG CACCTTACCC AAACCTTCAG AATCACAGGA CACATCTTTG
    TCCCTTGTGG GTTCCAAAGC CAGGTCTGTA GCGATGGCAG CTGCACCTGG ACTTCCACTT
    CCACCAGGAC CACCTAAAGA AACTCTGCAA AGTGTCCTGC TGGCTCTAGA TGCTGAAAAG
    CCCAAGAAGC TTCGGTTTCA CCCAAAACAA TTGTACATTT CTGCCAAACA AGGGGAGCTG
    CAGAAGGTCC TACTAATGTT GGTGGATGGG ATTGATCCCA ACTTCAAAAT GGAGAGCCAG
    AACAAACGGA CGCCACTCCA TGTTGCTGCA GAAGCAGGTC ATCAGGATGT CTGCCATATG
    CTGGTACAGG CTGGTGCCAA CCTTGACATG TGTGATGAGG ACCAGCGGAC GCCTCTGATG
    GAGGCCTGTG AGAACAACCA TCTCGAAACT GTGCGATATC TTCTGCGGGC CGGAGCCATC
    GTCTCTCACA AGGATGTTGA AGGATCAACT TGTCTCCATC TTGCTGCTAA GAACGGGCAT
    TTCAGCATTG TACAACATCT GCTCTCTGCA GGCCTTGTTG ATATTAACTG CCAGGATGAT
    GGAGGTTGGA CAGCCATGAT TTGGGCCACA GAGTACAAAC ATGTGGACCA AGTGAAACTC
    TTGCTCTCCA AAGGGGCTGA TATCAATATA CGAGACAAGG AGGAGAATAT CTGTCTGCAT
    TGGGCCGCTT TCTCTGGCTG CGTGGAAATA GCCGAGATCT TTCTGACTGC CAAGTGTGAT
    CTCAACACCA TGAACATCCA CGGAGACTCG CCGTTGCACA TAGCGTCGCG AGAGGGCCGG
    CTTGACTGTG TAAACTTGTT TTTGTCTCGT GGTGCTGATG TAAACCTTAA AAACAAAGAA
    GGAGAGACGC CCATGGAGTG CTGCAGCCAT AGCTCGAAGG TCTGGAATGC TCTTCAAGCC
    AACAAAAAGC AGAGAGAAGC AAACCGCAAA GCTGGCGCCA CAGAGAAGCT TCTCAACAAG
    GACATCGCTA GAGGTTACGA AAAAGTCCCC GTCCCGTGCG TAAATGCAGT GGACAGCGAA
    CCCTGTCCTG ACAACTACAA GTATGTCCCT GATAGCTGTG TGACGTCCCC TCTGAACATT
    GACAAAAATA TCACTCACTT GCAGTACTGT GTCTGTAAAG ACGATTGCTC TTCTGCAAGC
    TGCATGTGTG GCCAACTAAG CCTGAGATGC TGGTATGATA AAGAGAGTCG TCTGCTGCCT
    GAGTTCAGTA ATGAGGAGCC GCCTCTTATA TTTGAGTGCA ACCATGCCTG CTCCTGCTGG
    AGAACCTGCA AAAACCGTGT GGTACAGAAC GGACTGAGGA CAAGACTGCA GTTGTTCAAG
    ACACAGATGA TGGGATGGGG TGTCAAGACA TTACAGGATA TCCCTCAAGG AACATTTGTT
    TGCGAATACG TGGGTGAGAT CATCTCTGAC GCCGAAGCAG ATGTCAGAGA GAATGACTCC
    TATCTTTTCA GTCTGGACAG CAAGGTGGGT GACATGTACT GCGTTGATGC TCGTTTCTAC
    GGGAACATCA GCCGGTTCAT AAACCATCAC TGTGAGCCCA ATCTGCTCCC CTGTCGGGTG
    TTCACCTCTC ACCAGGACCT CCGATTTCCT CACATCGCAT TCTTCGCCTG CAAGAACATC
    AGTGCCGGAG ATGAACTTGG GTTTGACTAT GGCGATCACT TCTGGGACGT AAAGGGGAAG
    CTGTTCAACT GCAAGTGTGG CTCATCCAAA TGCAAGCACT CTGCAGCTGC CATCGCCCAG
    ACACAGGCAG ACAGTACACC AGGTGACCAG CAGCCCAGCG CCCTACCCGA TACCAGCTCA
    TCCACCCCAT CCAGCCCCAG CTAA

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

    CloneID ODa04062
    Clone ID Related Accession (Same CDS sequence) NM_001172564.1
    Accession Version NM_001172564.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3837bp)
    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 2011-03-12
    Organism Danio rerio(zebrafish)
    Product euchromatic histone-lysine N-methyltransferase 1b
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from CR936260.6. On May 20, 2010 this sequence version replaced XM_002665924.1. 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.

    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
    ATGGCTTCAA TGAAAACTGA GCCCTCCAGT TTGGCCAATG GGAATTCAGG CAAGAGGGAA 
    ACCATGAAGT CCGAGGGGAC AAAAGAGTCT CGCAGTGATC AAGAAGAAGG AGGATATGAT
    GATCACCAGG ATGGGCGAAC AGGCCCTCTT AGAGAGGCCA TTGAGCAGAA TGGGACCTAT
    GAAAATATGG ACACAAAAAG AAATGAACAG AACCTCTCTA CACAAGGTTC ACCAGCACGA
    CCCTCAACCA TGGAGAATGG GCTATCAGAA ACTGAGCCAC CGCATGGCTC AAAAGTAGGC
    AGTAATGGAT ATATTCTAAG CAAAGTAAAG GAAGATACAG TGTCAGCCCC TCACAGGACT
    AACTGGTCCC CCACTGGGGG TACCACATTG GGGCATGGGA CTAAAAGCTC ACCGCCTTCA
    GTGTTGCAAT CTCTAGACCA GGGTTCTTCA AACAGTGGTG CAAGCCAAGG ACCAAGTCTA
    ACAGAGAGAC GAGCAGAAAC AGAGACTAAA AATGGCATCA TTTTAAAAAC ACCCCCACCA
    ACAGTACATC GAGCACGGAA AACTATGTCA AGGCCGGCCT CAAACCAGAC ACTAAAGCTT
    TTGAACAGGG AAAATAAGGA GCCAGTCGTG GTAAAAGATG ACAGTGCAGG CAAACCAGAG
    GCAGTGCAGC CTCAGCCATC TCTAATCCAG AATCAGCTAC CTCAAAGCCA AACTGACGCC
    ACATCTGTAC CGAACACCAC ACCTGCCAAG CCACAAATAG TTGAACCCAG ACCTGTCTCT
    CCCTCAGTAG CAGCCGTATC AAGGAAGAAA AAAAGAAAGA TGGGAACATA TAGTCTTGTG
    CCCAAGAAGA AAAACAAAGT CTTGAAACAA CGCACAGTTC TGGAGATGTT TCAGCAGATA
    TCCCAGTCTC CACCCAACCC TAAGCCAAAG GAGATTGTGC GTGTGAATGG AGAGAAAATG
    GATAATGAGT CTGATGAAGA GGAGTCAGAG GAAGGGGAAG ACACAGAGGA TGAAGAAGAG
    CTAGTCACAG AAGATGGAGC CAAAGCTTCA CATGAGCAAC CTAGGATACC TTCGATCTCA
    CAGCCCCTGG AAGAAGAGTC TGAGGAGTCA CAAGACTGTG AAGGTGAAGA GGAAGGGGAT
    GAATCAGACT TGAGTTCAGA ATCCAGTTTG AAAAAGAAAT GGAAAAAGAA AGCCAAAGGA
    GATCACGCCT GGCTCCGACC GTCAAGGAAA CGCAAGAGGA AATGGAAAGC AAAAACGGAC
    AAGGTTTCTG CTCCAGTAAC GGAGATCCAG TCTCGGCCAG AAAGCCAGAG CGCCCCATCA
    GTCCCTACTG CTCACAGAAA GGAGTATAAA GAAGTCCCTC TAGACTCTCT CAATCTAGCA
    GCACAGGAAG CCTTATTGAC ATCTCAAAAT ACAGCTGCTT CAGGGTCATT GCAGAGCACA
    GATGCAGACA TGGTGCAGGA ACTGCCTCTA TGCAGCTGTC GAATGGAGAC ACCCAAGAGT
    CGAGAGATCC TCACGCTTGC GGACAGGAAG TGTATGGCAA CTGAGAGCAT TGACGGCCAG
    CTGAGCCGTT GTCAGAGTGC AGTGCTGAAG CACGAGATGA TGAGGCCTTC AAATTCTGTC
    CAACTGCTGG TTCTGTGTGA GGACCATCGC ACAGGCATGG TCAAGCATCA GTGCTGCCCT
    GGCTGTGGCT TCTTTTGCAG AGCCGGTACC TTCATGGAGT GTCAGCCAGA GGTGAACATC
    TCCCACCGCT TCCATCGGAC CTGTGCCTCG GTACTTAATG GGCAGAGCTT TTGTCCACAT
    TGTGGAGAGG AAGTCAGCAA GGCGAAAGAG GTCACCATTG CCAAGGCAGA TACAACGTCA
    ACTGTACCCA TCACCCATAG CTCCTGCATA CCCAGCACCT CAGAGGGCAA AGCGGACACT
    ACCACTGGAG GGTCCACTCG GCTCTCTGTA CTTGGAGAGG GAAAAGCAAA CAGCACCTTA
    CCCAAACCTT CAGAATCACA GGACACATCT TTGTCCCTTG TGGGTTCCAA AGCCAGGTCT
    GTAGCGATGG CAGCTGCACC TGGACTTCCA CTTCCACCAG GACCACCTAA AGAAACTCTG
    CAAAGTGTCC TGCTGGCTCT AGATGCTGAA AAGCCCAAGA AGCTTCGGTT TCACCCAAAA
    CAATTGTACA TTTCTGCCAA ACAAGGGGAG CTGCAGAAGG TCCTACTGAT GTTGGTGGAT
    GGGATTGATC CCAACTTCAA AATGGAGAGC CAGAACAAAC GGACGCCACT CCATGTTGCT
    GCAGAAGCAG GTCATCAGGA AGTCTGCCAT ATGCTGGTAC AGGCTGGTGC CAACCTTGAC
    ATGTGTGATG AGGACCAGCG GACGCCTCTG ATGGAGGCCT GTGAGAACAA CCATCTCGAA
    ACTGTGCGAT ATCTTCTGCG GGCCGGAGCC ATCGTCTCTC ACAAGGATGT TGAAGGTTCA
    ACTTGTCTCC ATCTTGCTGC TAAGAACGGG CATTTCAGCA TTGTACAACA TCTGCTCTCT
    GCAGGCCTTG TTGATATTAA CTGCCAGGAT GATGGAGGTT GGACAGCCAT GATTTGGGCC
    ACAGAGTACA AACATGTGGA CCAAGTGAAA CTCTTGCTCT CCAAAGGGGC TGATATCAAT
    ATACGAGACA AGGAGGAGAA TATCTGTCTG CATTGGGCCG CTTTCTCTGG CTGCGTGGAA
    ATAGCCGAGA TCTTTCTGAC TGCCAAGTGT GATCTCAACA CCATGAACAT CCACGGAGAC
    TCGCCGTTGC ATATAGCATC GCGAGAGGGC CGGCTTGACT GTGTAAACTT GTTTTTGTCT
    CGTGGTGCTG ATGTAAACCT TAAAAACAAA GAAGGAGAGA TGCCCATGGA GTGCTGCAGC
    CATAGCTCGA AGGTCTGGAA TGCTCTTCAA GCCAACAAAA AGCAGAGAGA AGCAAACCGC
    AAAGCTGGCG CCACAGAGAA GCTTCTCAAC AAGGACATCG CTAGAGGTTA CGAAAAAGTC
    CCCGTCCCGT GCGTAAATGC AGTGGACAGC GAACCCTGTC CTGACAACTA CAAGTATGTC
    CCTGATAGCT GTGTGACGTC CCCTCTGAAC ATTGACAAAA ATATCACTCA CTTGCAGTAC
    TGTGTCTGTA AAGACGATTG CTCTTCTGCA AGCTGCATGT GTGGCCAACT AAGCCTGAGA
    TGCTGGTATG ATAAAGAGAG TCGTCTGCTG CCTGAGTTCA GTAATGAGGA GCCGCCTCTT
    ATATTTGAGT GCAACCATGC CTGCTCCTGC TGGAGAACCT GCAAAAACCG TGTGGTACAG
    AACGGACTGA GGACAAGACT GCAGTTGTTC AAGACACAGA TGATGGGATG GGGTGTCAAG
    ACATTACAGG ATATCCCTCA AGGAACATTT GTTTGCGAAT ACGTGGGTGA GATCATCTCT
    GACGCCGAAG CAGATGTCAG AGAGAATGAC TCCTATCTTT TCAGTCTGGA CAGCAAGGTG
    GGTGACATGT ACTGCGTTGA TGCTCGTTTC TACGGGAACA TCAGCCGGTT CATAAACCAT
    CACTGTGAGC CCAATCTGCT CCCCTGTCGG GTGTTCACCT CTCACCAGGA CCTCCGATTT
    CCTCACATCG CATTCTTCGC CTGCAAGAAC ATCAGTGCCG GAGATGAACT TGGGTTTGAC
    TATGGCGATC ACTTCTGGGA CGTAAAGGGG AAGCTGTTCA ACTGCAAGTG CGGCTCATCC
    AAATGCAAGC ACTCTGCAGC TGCCATCGCC CAGACACAGG CAGACAGTAC ACCAGGTGAC
    CAGCAGCCCA GCGCCCTACC CGATACCAGC TCATCCACCC CATCCAGCCC CAGCTAA

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

    RefSeq NP_001166035.1
    CDS41..3877
    Translation

    Target ORF information:

    RefSeq Version NM_001172564.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001172564.1

    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
    ATGGCTTCAA TGAAAACTGA GCCCTCCAGT TTGGCCAATG GGAATTCAGG CAAGAGGGAA 
    ACCATGAAGT CCGAGGGGAC AAAAGAGTCT CGCAGTGATC AAGAAGAAGG AGGATATGAT
    GATCACCAGG ATGGGCGAAC AGGCCCTCTT AGAGAGGCCA TTGAGCAGAA TGGGACCTAT
    GAAAATATGG ACACAAAAAG AAATGAACAG AACCTCTCTA CACAAGGTTC ACCAGCACGA
    CCCTCAACCA TGGAGAATGG GCTATCAGAA ACTGAGCCAC CGCATGGCTC AAAAGTAGGC
    AGTAATGGAT ATATTCTAAG CAAAGTAAAG GAAGATACAG TGTCAGCCCC TCACAGGACT
    AACTGGTCCC CCACTGGGGG TACCACATTG GGGCATGGGA CTAAAAGCTC ACCGCCTTCA
    GTGTTGCAAT CTCTAGACCA GGGTTCTTCA AACAGTGGTG CAAGCCAAGG ACCAAGTCTA
    ACAGAGAGAC GAGCAGAAAC AGAGACTAAA AATGGCATCA TTTTAAAAAC ACCCCCACCA
    ACAGTACATC GAGCACGGAA AACTATGTCA AGGCCGGCCT CAAACCAGAC ACTAAAGCTT
    TTGAACAGGG AAAATAAGGA GCCAGTCGTG GTAAAAGATG ACAGTGCAGG CAAACCAGAG
    GCAGTGCAGC CTCAGCCATC TCTAATCCAG AATCAGCTAC CTCAAAGCCA AACTGACGCC
    ACATCTGTAC CGAACACCAC ACCTGCCAAG CCACAAATAG TTGAACCCAG ACCTGTCTCT
    CCCTCAGTAG CAGCCGTATC AAGGAAGAAA AAAAGAAAGA TGGGAACATA TAGTCTTGTG
    CCCAAGAAGA AAAACAAAGT CTTGAAACAA CGCACAGTTC TGGAGATGTT TCAGCAGATA
    TCCCAGTCTC CACCCAACCC TAAGCCAAAG GAGATTGTGC GTGTGAATGG AGAGAAAATG
    GATAATGAGT CTGATGAAGA GGAGTCAGAG GAAGGGGAAG ACACAGAGGA TGAAGAAGAG
    CTAGTCACAG AAGATGGAGC CAAAGCTTCA CATGAGCAAC CTAGGATACC TTCGATCTCA
    CAGCCCCTGG AAGAAGAGTC TGAGGAGTCA CAAGACTGTG AAGGTGAAGA GGAAGGGGAT
    GAATCAGACT TGAGTTCAGA ATCCAGTTTG AAAAAGAAAT GGAAAAAGAA AGCCAAAGGA
    GATCACGCCT GGCTCCGACC GTCAAGGAAA CGCAAGAGGA AATGGAAAGC AAAAACGGAC
    AAGGTTTCTG CTCCAGTAAC GGAGATCCAG TCTCGGCCAG AAAGCCAGAG CGCCCCATCA
    GTCCCTACTG CTCACAGAAA GGAGTATAAA GAAGTCCCTC TAGACTCTCT CAATCTAGCA
    GCACAGGAAG CCTTATTGAC ATCTCAAAAT ACAGCTGCTT CAGGGTCATT GCAGAGCACA
    GATGCAGACA TGGTGCAGGA ACTGCCTCTA TGCAGCTGTC GAATGGAGAC ACCCAAGAGT
    CGAGAGATCC TCACGCTTGC GGACAGGAAG TGTATGGCAA CTGAGAGCAT TGACGGCCAG
    CTGAGCCGTT GTCAGAGTGC AGTGCTGAAG CACGAGATGA TGAGGCCTTC AAATTCTGTC
    CAACTGCTGG TTCTGTGTGA GGACCATCGC ACAGGCATGG TCAAGCATCA GTGCTGCCCT
    GGCTGTGGCT TCTTTTGCAG AGCCGGTACC TTCATGGAGT GTCAGCCAGA GGTGAACATC
    TCCCACCGCT TCCATCGGAC CTGTGCCTCG GTACTTAATG GGCAGAGCTT TTGTCCACAT
    TGTGGAGAGG AAGTCAGCAA GGCGAAAGAG GTCACCATTG CCAAGGCAGA TACAACGTCA
    ACTGTACCCA TCACCCATAG CTCCTGCATA CCCAGCACCT CAGAGGGCAA AGCGGACACT
    ACCACTGGAG GGTCCACTCG GCTCTCTGTA CTTGGAGAGG GAAAAGCAAA CAGCACCTTA
    CCCAAACCTT CAGAATCACA GGACACATCT TTGTCCCTTG TGGGTTCCAA AGCCAGGTCT
    GTAGCGATGG CAGCTGCACC TGGACTTCCA CTTCCACCAG GACCACCTAA AGAAACTCTG
    CAAAGTGTCC TGCTGGCTCT AGATGCTGAA AAGCCCAAGA AGCTTCGGTT TCACCCAAAA
    CAATTGTACA TTTCTGCCAA ACAAGGGGAG CTGCAGAAGG TCCTACTGAT GTTGGTGGAT
    GGGATTGATC CCAACTTCAA AATGGAGAGC CAGAACAAAC GGACGCCACT CCATGTTGCT
    GCAGAAGCAG GTCATCAGGA AGTCTGCCAT ATGCTGGTAC AGGCTGGTGC CAACCTTGAC
    ATGTGTGATG AGGACCAGCG GACGCCTCTG ATGGAGGCCT GTGAGAACAA CCATCTCGAA
    ACTGTGCGAT ATCTTCTGCG GGCCGGAGCC ATCGTCTCTC ACAAGGATGT TGAAGGTTCA
    ACTTGTCTCC ATCTTGCTGC TAAGAACGGG CATTTCAGCA TTGTACAACA TCTGCTCTCT
    GCAGGCCTTG TTGATATTAA CTGCCAGGAT GATGGAGGTT GGACAGCCAT GATTTGGGCC
    ACAGAGTACA AACATGTGGA CCAAGTGAAA CTCTTGCTCT CCAAAGGGGC TGATATCAAT
    ATACGAGACA AGGAGGAGAA TATCTGTCTG CATTGGGCCG CTTTCTCTGG CTGCGTGGAA
    ATAGCCGAGA TCTTTCTGAC TGCCAAGTGT GATCTCAACA CCATGAACAT CCACGGAGAC
    TCGCCGTTGC ATATAGCATC GCGAGAGGGC CGGCTTGACT GTGTAAACTT GTTTTTGTCT
    CGTGGTGCTG ATGTAAACCT TAAAAACAAA GAAGGAGAGA TGCCCATGGA GTGCTGCAGC
    CATAGCTCGA AGGTCTGGAA TGCTCTTCAA GCCAACAAAA AGCAGAGAGA AGCAAACCGC
    AAAGCTGGCG CCACAGAGAA GCTTCTCAAC AAGGACATCG CTAGAGGTTA CGAAAAAGTC
    CCCGTCCCGT GCGTAAATGC AGTGGACAGC GAACCCTGTC CTGACAACTA CAAGTATGTC
    CCTGATAGCT GTGTGACGTC CCCTCTGAAC ATTGACAAAA ATATCACTCA CTTGCAGTAC
    TGTGTCTGTA AAGACGATTG CTCTTCTGCA AGCTGCATGT GTGGCCAACT AAGCCTGAGA
    TGCTGGTATG ATAAAGAGAG TCGTCTGCTG CCTGAGTTCA GTAATGAGGA GCCGCCTCTT
    ATATTTGAGT GCAACCATGC CTGCTCCTGC TGGAGAACCT GCAAAAACCG TGTGGTACAG
    AACGGACTGA GGACAAGACT GCAGTTGTTC AAGACACAGA TGATGGGATG GGGTGTCAAG
    ACATTACAGG ATATCCCTCA AGGAACATTT GTTTGCGAAT ACGTGGGTGA GATCATCTCT
    GACGCCGAAG CAGATGTCAG AGAGAATGAC TCCTATCTTT TCAGTCTGGA CAGCAAGGTG
    GGTGACATGT ACTGCGTTGA TGCTCGTTTC TACGGGAACA TCAGCCGGTT CATAAACCAT
    CACTGTGAGC CCAATCTGCT CCCCTGTCGG GTGTTCACCT CTCACCAGGA CCTCCGATTT
    CCTCACATCG CATTCTTCGC CTGCAAGAAC ATCAGTGCCG GAGATGAACT TGGGTTTGAC
    TATGGCGATC ACTTCTGGGA CGTAAAGGGG AAGCTGTTCA ACTGCAAGTG CGGCTCATCC
    AAATGCAAGC ACTCTGCAGC TGCCATCGCC CAGACACAGG CAGACAGTAC ACCAGGTGAC
    CAGCAGCCCA GCGCCCTACC CGATACCAGC TCATCCACCC CATCCAGCCC CAGCTAA

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

    CloneID ODa25685
    Clone ID Related Accession (Same CDS sequence) XM_005161105.3 , XM_005161105.4
    Accession Version XM_005161105.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3843bp)
    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 histone-lysine N-methyltransferase EHMT1 isoform X3
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.6) 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_005161105.2. ##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
    ATGAATGAAG ACCACTGCTT AAGGCAGCCC TCCAGTTTGG CCAATGGGAA TTCAGGCAAG 
    AGGGAAACCA TGAAGTCCGA GGGGACAAAA GAGTCTCGCA GTGATCAAGA AGAAGGAGGA
    GATGATGATC ACCAGGATGG GCGAACAGGC CCTCTTAGAG AGGCCATTGA GCAGAATGGG
    ACCTATGAAA ATATGGACAC AAAGAGAAAT GAACAGAACC TCTCTACACA AGGGTCACCA
    GCACGACCCT CAACCATGGA GAATGGGCTA TCAGAAACTG AGCCACCGCA TGGCTCAAAA
    GTAGGCAGTA ATGGATATAT TCTAAGCAAA GTAAAGGAAG ATACAGTGTC AGCCCCTCAC
    AGGACTAACT GGTCCCCCAC TGGGGGTACC ACATTGGGGC ATGGGACTAA AAGCTCACCG
    CCTTCAGTGT TGCAATCTCT AGACCAGGGT TCTTCAAACA GTGGTGCAAG CCAAGGACCA
    AGTCTAACAG AGAGACGAGC AGAAACAGAG ACTAAAAATG GCATCATTTC AAAAACACCC
    CCACCAACAG TACATCGTGC ACGTAAAACT ATGTCAAGGC CGGCCTCAAA CCAGACACTA
    AAGCTTTTGA ACAGGGAAAA TAAAGAGCCA GTCGTGGTAA AAGATGACAG TGCAGGCAAA
    CCAGAGGCAG TGCAGCCTCA GCCATCTCTA ATCCAGAATC AGCTACCTCA AAGCCAAACT
    GACGCCACAT CTGTACCGAA CACCACACCT GCCAAGCCAC AAATAGTTGA ACCCAGACCT
    GTCTCTCCCT CAGTAGCAGC CGTATCAAGG AAGAAAAAAA GAAAGATGGG AACATATAGT
    CTTGTACCCA AGAAGAAAAA CAAAGTCTTG AAACAACGCA CAGTTCTGGA GATGTTTCAG
    CAGATATCCC AGTCTCCACC CAACCCTAAG CCAAAGGAGA TTGTGCGTGT GAATGGAGAG
    AAAATGGATA ATGAGTCTGA TGAGGAGGAG TCAGAGGAAG GGGAAGACAC AGAGGATGAA
    GAAGAGCTAG TCACAGAAGA TGGAGCCAAA GCTTCACATG AGGAACCTAG GATACCTTCG
    ATCTCACAGC CCCTGGAAGA AGAGTCTGAG GAGTCTCAAG ACTGTGAAGG TGAAGAGGAA
    GGGGATGAAT CAGACTTGAG TTCAGAATCC AGTTTGAAAA AGAAATGGAA AAAGAAAGCC
    AAAGGAGATC ATGCCTGGCT CCGACCGTCA AGGAAACGCA AGAGGAAATG GAAAGCAAAA
    ACGGACAAGG TTTCTGCTCC AGTAACGGAG ATCCAGTCTC GGCCAGAAAG CCAGAGCGCC
    CCATCAGTCC CTACTGCTCA CAGAAAGGAG TATAAAGAAG TCCCTCTAGA CTCTCTCAAT
    CTAGCAGCAC AGGAAGCCTT ATTGACATCT CAAAATACAG CTGCTTCAGG GTCATTGCAG
    AGCACAGATG CAGACATGGT GCAGGAACTG CCTCTATGCA GCTGTCGAAT GGAGACACCC
    AAGAGTCGAG AGATCCTCAC GCTTGCGGAC AGGAAGTGTA TGGCAACTGA GAGCATTGAC
    GGCCAGCTGA GCCGTTGTCA GAGTGCAGTG CTGAAGCACG AGATGATGAG GCCTTCAAAT
    TCTGTCCAAC TGCTGGTTCT GTGTGAGGAC CATCGCACAG GCATGGTCAA GCATCAGTGC
    TGCCCTGGCT GTGGCTTCTT TTGCAGAGCC GGTACCTTCA TGGAGTGTCA GCCAGAGGTG
    AACATCTCCC ACCGCTTCCA TCGGACCTGT GCCTCGGTAC TTAATGGGCA GAGCTTTTGT
    CCACATTGTG GAGAGGAAGT CAGCAAGGCG AAAGAGGTCA CCATTGCCAA GGCAGATACA
    ACGTCAACTG TACCCATCAC CCATAGCTCC TGCATACCCA GCACCTCAGA GGGCAAAGCG
    GACACTACCA CTGGAGGGTC CACTCGGCTC TCTGTACTTG GAGAGGGAAA AGCAAACAGC
    ACCTTACCCA AACCTTCAGA ATCACAGGAC ACATCTTTGT CCCTTGTGGG TTCCAAAGCC
    AGGTCTGTAG CGATGGCAGC TGCACCTGGA CTTCCACTTC CACCAGGACC ACCTAAAGAA
    ACTCTGCAAA GTGTCCTGCT GGCTCTAGAT GCTGAAAAGC CCAAGAAGCT TCGGTTTCAC
    CCAAAACAAT TGTACATTTC TGCCAAACAA GGGGAGCTGC AGAAGGTCCT ACTAATGTTG
    GTGGATGGGA TTGATCCCAA CTTCAAAATG GAGAGCCAGA ACAAACGGAC GCCACTCCAT
    GTTGCTGCAG AAGCAGGTCA TCAGGATGTC TGCCATATGC TGGTACAGGC TGGTGCCAAC
    CTTGACATGT GTGATGAGGA CCAGCGGACG CCTCTGATGG AGGCCTGTGA GAACAACCAT
    CTCGAAACTG TGCGATATCT TCTGCGGGCC GGAGCCATCG TCTCTCACAA GGATGTTGAA
    GGATCAACTT GTCTCCATCT TGCTGCTAAG AACGGGCATT TCAGCATTGT ACAACATCTG
    CTCTCTGCAG GCCTTGTTGA TATTAACTGC CAGGATGATG GAGGTTGGAC AGCCATGATT
    TGGGCCACAG AGTACAAACA TGTGGACCAA GTGAAACTCT TGCTCTCCAA AGGGGCTGAT
    ATCAATATAC GAGACAAGGA GGAGAATATC TGTCTGCATT GGGCCGCTTT CTCTGGCTGC
    GTGGAAATAG CCGAGATCTT TCTGACTGCC AAGTGTGATC TCAACACCAT GAACATCCAC
    GGAGACTCGC CGTTGCACAT AGCGTCGCGA GAGGGCCGGC TTGACTGTGT AAACTTGTTT
    TTGTCTCGTG GTGCTGATGT AAACCTTAAA AACAAAGAAG GAGAGACGCC CATGGAGTGC
    TGCAGCCATA GCTCGAAGGT CTGGAATGCT CTTCAAGCCA ACAAAAAGCA GAGAGAAGCA
    AACCGCAAAG CTGGCGCCAC AGAGAAGCTT CTCAACAAGG ACATCGCTAG AGGTTACGAA
    AAAGTCCCCG TCCCGTGCGT AAATGCAGTG GACAGCGAAC CCTGTCCTGA CAACTACAAG
    TATGTCCCTG ATAGCTGTGT GACGTCCCCT CTGAACATTG ACAAAAATAT CACTCACTTG
    CAGTACTGTG TCTGTAAAGA CGATTGCTCT TCTGCAAGCT GCATGTGTGG CCAACTAAGC
    CTGAGATGCT GGTATGATAA AGAGAGTCGT CTGCTGCCTG AGTTCAGTAA TGAGGAGCCG
    CCTCTTATAT TTGAGTGCAA CCATGCCTGC TCCTGCTGGA GAACCTGCAA AAACCGTGTG
    GTACAGAACG GACTGAGGAC AAGACTGCAG TTGTTCAAGA CACAGATGAT GGGATGGGGT
    GTCAAGACAT TACAGGATAT CCCTCAAGGA ACATTTGTTT GCGAATACGT GGGTGAGATC
    ATCTCTGACG CCGAAGCAGA TGTCAGAGAG AATGACTCCT ATCTTTTCAG TCTGGACAGC
    AAGGTGGGTG ACATGTACTG CGTTGATGCT CGTTTCTACG GGAACATCAG CCGGTTCATA
    AACCATCACT GTGAGCCCAA TCTGCTCCCC TGTCGGGTGT TCACCTCTCA CCAGGACCTC
    CGATTTCCTC ACATCGCATT CTTCGCCTGC AAGAACATCA GTGCCGGAGA TGAACTTGGG
    TTTGACTATG GCGATCACTT CTGGGACGTA AAGGGGAAGC TGTTCAACTG CAAGTGTGGC
    TCATCCAAAT GCAAGCACTC TGCAGCTGCC ATCGCCCAGA CACAGGCAGA CAGTACACCA
    GGTGACCAGC AGCCCAGCGC CCTACCCGAT ACCAGCTCAT CCACCCCATC CAGCCCCAGC
    TAA

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

    RefSeq XP_005161162.1
    CDS33..3875
    Translation

    Target ORF information:

    RefSeq Version XM_005161105.3
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005161105.3

    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
    ATGAATGAAG ACCACTGCTT AAGGCAGCCC TCCAGTTTGG CCAATGGGAA TTCAGGCAAG 
    AGGGAAACCA TGAAGTCCGA GGGGACAAAA GAGTCTCGCA GTGATCAAGA AGAAGGAGGA
    GATGATGATC ACCAGGATGG GCGAACAGGC CCTCTTAGAG AGGCCATTGA GCAGAATGGG
    ACCTATGAAA ATATGGACAC AAAGAGAAAT GAACAGAACC TCTCTACACA AGGGTCACCA
    GCACGACCCT CAACCATGGA GAATGGGCTA TCAGAAACTG AGCCACCGCA TGGCTCAAAA
    GTAGGCAGTA ATGGATATAT TCTAAGCAAA GTAAAGGAAG ATACAGTGTC AGCCCCTCAC
    AGGACTAACT GGTCCCCCAC TGGGGGTACC ACATTGGGGC ATGGGACTAA AAGCTCACCG
    CCTTCAGTGT TGCAATCTCT AGACCAGGGT TCTTCAAACA GTGGTGCAAG CCAAGGACCA
    AGTCTAACAG AGAGACGAGC AGAAACAGAG ACTAAAAATG GCATCATTTC AAAAACACCC
    CCACCAACAG TACATCGTGC ACGTAAAACT ATGTCAAGGC CGGCCTCAAA CCAGACACTA
    AAGCTTTTGA ACAGGGAAAA TAAAGAGCCA GTCGTGGTAA AAGATGACAG TGCAGGCAAA
    CCAGAGGCAG TGCAGCCTCA GCCATCTCTA ATCCAGAATC AGCTACCTCA AAGCCAAACT
    GACGCCACAT CTGTACCGAA CACCACACCT GCCAAGCCAC AAATAGTTGA ACCCAGACCT
    GTCTCTCCCT CAGTAGCAGC CGTATCAAGG AAGAAAAAAA GAAAGATGGG AACATATAGT
    CTTGTACCCA AGAAGAAAAA CAAAGTCTTG AAACAACGCA CAGTTCTGGA GATGTTTCAG
    CAGATATCCC AGTCTCCACC CAACCCTAAG CCAAAGGAGA TTGTGCGTGT GAATGGAGAG
    AAAATGGATA ATGAGTCTGA TGAGGAGGAG TCAGAGGAAG GGGAAGACAC AGAGGATGAA
    GAAGAGCTAG TCACAGAAGA TGGAGCCAAA GCTTCACATG AGGAACCTAG GATACCTTCG
    ATCTCACAGC CCCTGGAAGA AGAGTCTGAG GAGTCTCAAG ACTGTGAAGG TGAAGAGGAA
    GGGGATGAAT CAGACTTGAG TTCAGAATCC AGTTTGAAAA AGAAATGGAA AAAGAAAGCC
    AAAGGAGATC ATGCCTGGCT CCGACCGTCA AGGAAACGCA AGAGGAAATG GAAAGCAAAA
    ACGGACAAGG TTTCTGCTCC AGTAACGGAG ATCCAGTCTC GGCCAGAAAG CCAGAGCGCC
    CCATCAGTCC CTACTGCTCA CAGAAAGGAG TATAAAGAAG TCCCTCTAGA CTCTCTCAAT
    CTAGCAGCAC AGGAAGCCTT ATTGACATCT CAAAATACAG CTGCTTCAGG GTCATTGCAG
    AGCACAGATG CAGACATGGT GCAGGAACTG CCTCTATGCA GCTGTCGAAT GGAGACACCC
    AAGAGTCGAG AGATCCTCAC GCTTGCGGAC AGGAAGTGTA TGGCAACTGA GAGCATTGAC
    GGCCAGCTGA GCCGTTGTCA GAGTGCAGTG CTGAAGCACG AGATGATGAG GCCTTCAAAT
    TCTGTCCAAC TGCTGGTTCT GTGTGAGGAC CATCGCACAG GCATGGTCAA GCATCAGTGC
    TGCCCTGGCT GTGGCTTCTT TTGCAGAGCC GGTACCTTCA TGGAGTGTCA GCCAGAGGTG
    AACATCTCCC ACCGCTTCCA TCGGACCTGT GCCTCGGTAC TTAATGGGCA GAGCTTTTGT
    CCACATTGTG GAGAGGAAGT CAGCAAGGCG AAAGAGGTCA CCATTGCCAA GGCAGATACA
    ACGTCAACTG TACCCATCAC CCATAGCTCC TGCATACCCA GCACCTCAGA GGGCAAAGCG
    GACACTACCA CTGGAGGGTC CACTCGGCTC TCTGTACTTG GAGAGGGAAA AGCAAACAGC
    ACCTTACCCA AACCTTCAGA ATCACAGGAC ACATCTTTGT CCCTTGTGGG TTCCAAAGCC
    AGGTCTGTAG CGATGGCAGC TGCACCTGGA CTTCCACTTC CACCAGGACC ACCTAAAGAA
    ACTCTGCAAA GTGTCCTGCT GGCTCTAGAT GCTGAAAAGC CCAAGAAGCT TCGGTTTCAC
    CCAAAACAAT TGTACATTTC TGCCAAACAA GGGGAGCTGC AGAAGGTCCT ACTAATGTTG
    GTGGATGGGA TTGATCCCAA CTTCAAAATG GAGAGCCAGA ACAAACGGAC GCCACTCCAT
    GTTGCTGCAG AAGCAGGTCA TCAGGATGTC TGCCATATGC TGGTACAGGC TGGTGCCAAC
    CTTGACATGT GTGATGAGGA CCAGCGGACG CCTCTGATGG AGGCCTGTGA GAACAACCAT
    CTCGAAACTG TGCGATATCT TCTGCGGGCC GGAGCCATCG TCTCTCACAA GGATGTTGAA
    GGATCAACTT GTCTCCATCT TGCTGCTAAG AACGGGCATT TCAGCATTGT ACAACATCTG
    CTCTCTGCAG GCCTTGTTGA TATTAACTGC CAGGATGATG GAGGTTGGAC AGCCATGATT
    TGGGCCACAG AGTACAAACA TGTGGACCAA GTGAAACTCT TGCTCTCCAA AGGGGCTGAT
    ATCAATATAC GAGACAAGGA GGAGAATATC TGTCTGCATT GGGCCGCTTT CTCTGGCTGC
    GTGGAAATAG CCGAGATCTT TCTGACTGCC AAGTGTGATC TCAACACCAT GAACATCCAC
    GGAGACTCGC CGTTGCACAT AGCGTCGCGA GAGGGCCGGC TTGACTGTGT AAACTTGTTT
    TTGTCTCGTG GTGCTGATGT AAACCTTAAA AACAAAGAAG GAGAGACGCC CATGGAGTGC
    TGCAGCCATA GCTCGAAGGT CTGGAATGCT CTTCAAGCCA ACAAAAAGCA GAGAGAAGCA
    AACCGCAAAG CTGGCGCCAC AGAGAAGCTT CTCAACAAGG ACATCGCTAG AGGTTACGAA
    AAAGTCCCCG TCCCGTGCGT AAATGCAGTG GACAGCGAAC CCTGTCCTGA CAACTACAAG
    TATGTCCCTG ATAGCTGTGT GACGTCCCCT CTGAACATTG ACAAAAATAT CACTCACTTG
    CAGTACTGTG TCTGTAAAGA CGATTGCTCT TCTGCAAGCT GCATGTGTGG CCAACTAAGC
    CTGAGATGCT GGTATGATAA AGAGAGTCGT CTGCTGCCTG AGTTCAGTAA TGAGGAGCCG
    CCTCTTATAT TTGAGTGCAA CCATGCCTGC TCCTGCTGGA GAACCTGCAA AAACCGTGTG
    GTACAGAACG GACTGAGGAC AAGACTGCAG TTGTTCAAGA CACAGATGAT GGGATGGGGT
    GTCAAGACAT TACAGGATAT CCCTCAAGGA ACATTTGTTT GCGAATACGT GGGTGAGATC
    ATCTCTGACG CCGAAGCAGA TGTCAGAGAG AATGACTCCT ATCTTTTCAG TCTGGACAGC
    AAGGTGGGTG ACATGTACTG CGTTGATGCT CGTTTCTACG GGAACATCAG CCGGTTCATA
    AACCATCACT GTGAGCCCAA TCTGCTCCCC TGTCGGGTGT TCACCTCTCA CCAGGACCTC
    CGATTTCCTC ACATCGCATT CTTCGCCTGC AAGAACATCA GTGCCGGAGA TGAACTTGGG
    TTTGACTATG GCGATCACTT CTGGGACGTA AAGGGGAAGC TGTTCAACTG CAAGTGTGGC
    TCATCCAAAT GCAAGCACTC TGCAGCTGCC ATCGCCCAGA CACAGGCAGA CAGTACACCA
    GGTGACCAGC AGCCCAGCGC CCTACCCGAT ACCAGCTCAT CCACCCCATC CAGCCCCAGC
    TAA

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

    CloneID ODa25685
    Clone ID Related Accession (Same CDS sequence) XM_005161105.3 , XM_005161105.4
    Accession Version XM_005161105.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3843bp)
    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 histone-lysine N-methyltransferase EHMT1 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.7) 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_005161105.3. ##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
    ATGAATGAAG ACCACTGCTT AAGGCAGCCC TCCAGTTTGG CCAATGGGAA TTCAGGCAAG 
    AGGGAAACCA TGAAGTCCGA GGGGACAAAA GAGTCTCGCA GTGATCAAGA AGAAGGAGGA
    GATGATGATC ACCAGGATGG GCGAACAGGC CCTCTTAGAG AGGCCATTGA GCAGAATGGG
    ACCTATGAAA ATATGGACAC AAAGAGAAAT GAACAGAACC TCTCTACACA AGGGTCACCA
    GCACGACCCT CAACCATGGA GAATGGGCTA TCAGAAACTG AGCCACCGCA TGGCTCAAAA
    GTAGGCAGTA ATGGATATAT TCTAAGCAAA GTAAAGGAAG ATACAGTGTC AGCCCCTCAC
    AGGACTAACT GGTCCCCCAC TGGGGGTACC ACATTGGGGC ATGGGACTAA AAGCTCACCG
    CCTTCAGTGT TGCAATCTCT AGACCAGGGT TCTTCAAACA GTGGTGCAAG CCAAGGACCA
    AGTCTAACAG AGAGACGAGC AGAAACAGAG ACTAAAAATG GCATCATTTC AAAAACACCC
    CCACCAACAG TACATCGTGC ACGTAAAACT ATGTCAAGGC CGGCCTCAAA CCAGACACTA
    AAGCTTTTGA ACAGGGAAAA TAAAGAGCCA GTCGTGGTAA AAGATGACAG TGCAGGCAAA
    CCAGAGGCAG TGCAGCCTCA GCCATCTCTA ATCCAGAATC AGCTACCTCA AAGCCAAACT
    GACGCCACAT CTGTACCGAA CACCACACCT GCCAAGCCAC AAATAGTTGA ACCCAGACCT
    GTCTCTCCCT CAGTAGCAGC CGTATCAAGG AAGAAAAAAA GAAAGATGGG AACATATAGT
    CTTGTACCCA AGAAGAAAAA CAAAGTCTTG AAACAACGCA CAGTTCTGGA GATGTTTCAG
    CAGATATCCC AGTCTCCACC CAACCCTAAG CCAAAGGAGA TTGTGCGTGT GAATGGAGAG
    AAAATGGATA ATGAGTCTGA TGAGGAGGAG TCAGAGGAAG GGGAAGACAC AGAGGATGAA
    GAAGAGCTAG TCACAGAAGA TGGAGCCAAA GCTTCACATG AGGAACCTAG GATACCTTCG
    ATCTCACAGC CCCTGGAAGA AGAGTCTGAG GAGTCTCAAG ACTGTGAAGG TGAAGAGGAA
    GGGGATGAAT CAGACTTGAG TTCAGAATCC AGTTTGAAAA AGAAATGGAA AAAGAAAGCC
    AAAGGAGATC ATGCCTGGCT CCGACCGTCA AGGAAACGCA AGAGGAAATG GAAAGCAAAA
    ACGGACAAGG TTTCTGCTCC AGTAACGGAG ATCCAGTCTC GGCCAGAAAG CCAGAGCGCC
    CCATCAGTCC CTACTGCTCA CAGAAAGGAG TATAAAGAAG TCCCTCTAGA CTCTCTCAAT
    CTAGCAGCAC AGGAAGCCTT ATTGACATCT CAAAATACAG CTGCTTCAGG GTCATTGCAG
    AGCACAGATG CAGACATGGT GCAGGAACTG CCTCTATGCA GCTGTCGAAT GGAGACACCC
    AAGAGTCGAG AGATCCTCAC GCTTGCGGAC AGGAAGTGTA TGGCAACTGA GAGCATTGAC
    GGCCAGCTGA GCCGTTGTCA GAGTGCAGTG CTGAAGCACG AGATGATGAG GCCTTCAAAT
    TCTGTCCAAC TGCTGGTTCT GTGTGAGGAC CATCGCACAG GCATGGTCAA GCATCAGTGC
    TGCCCTGGCT GTGGCTTCTT TTGCAGAGCC GGTACCTTCA TGGAGTGTCA GCCAGAGGTG
    AACATCTCCC ACCGCTTCCA TCGGACCTGT GCCTCGGTAC TTAATGGGCA GAGCTTTTGT
    CCACATTGTG GAGAGGAAGT CAGCAAGGCG AAAGAGGTCA CCATTGCCAA GGCAGATACA
    ACGTCAACTG TACCCATCAC CCATAGCTCC TGCATACCCA GCACCTCAGA GGGCAAAGCG
    GACACTACCA CTGGAGGGTC CACTCGGCTC TCTGTACTTG GAGAGGGAAA AGCAAACAGC
    ACCTTACCCA AACCTTCAGA ATCACAGGAC ACATCTTTGT CCCTTGTGGG TTCCAAAGCC
    AGGTCTGTAG CGATGGCAGC TGCACCTGGA CTTCCACTTC CACCAGGACC ACCTAAAGAA
    ACTCTGCAAA GTGTCCTGCT GGCTCTAGAT GCTGAAAAGC CCAAGAAGCT TCGGTTTCAC
    CCAAAACAAT TGTACATTTC TGCCAAACAA GGGGAGCTGC AGAAGGTCCT ACTAATGTTG
    GTGGATGGGA TTGATCCCAA CTTCAAAATG GAGAGCCAGA ACAAACGGAC GCCACTCCAT
    GTTGCTGCAG AAGCAGGTCA TCAGGATGTC TGCCATATGC TGGTACAGGC TGGTGCCAAC
    CTTGACATGT GTGATGAGGA CCAGCGGACG CCTCTGATGG AGGCCTGTGA GAACAACCAT
    CTCGAAACTG TGCGATATCT TCTGCGGGCC GGAGCCATCG TCTCTCACAA GGATGTTGAA
    GGATCAACTT GTCTCCATCT TGCTGCTAAG AACGGGCATT TCAGCATTGT ACAACATCTG
    CTCTCTGCAG GCCTTGTTGA TATTAACTGC CAGGATGATG GAGGTTGGAC AGCCATGATT
    TGGGCCACAG AGTACAAACA TGTGGACCAA GTGAAACTCT TGCTCTCCAA AGGGGCTGAT
    ATCAATATAC GAGACAAGGA GGAGAATATC TGTCTGCATT GGGCCGCTTT CTCTGGCTGC
    GTGGAAATAG CCGAGATCTT TCTGACTGCC AAGTGTGATC TCAACACCAT GAACATCCAC
    GGAGACTCGC CGTTGCACAT AGCGTCGCGA GAGGGCCGGC TTGACTGTGT AAACTTGTTT
    TTGTCTCGTG GTGCTGATGT AAACCTTAAA AACAAAGAAG GAGAGACGCC CATGGAGTGC
    TGCAGCCATA GCTCGAAGGT CTGGAATGCT CTTCAAGCCA ACAAAAAGCA GAGAGAAGCA
    AACCGCAAAG CTGGCGCCAC AGAGAAGCTT CTCAACAAGG ACATCGCTAG AGGTTACGAA
    AAAGTCCCCG TCCCGTGCGT AAATGCAGTG GACAGCGAAC CCTGTCCTGA CAACTACAAG
    TATGTCCCTG ATAGCTGTGT GACGTCCCCT CTGAACATTG ACAAAAATAT CACTCACTTG
    CAGTACTGTG TCTGTAAAGA CGATTGCTCT TCTGCAAGCT GCATGTGTGG CCAACTAAGC
    CTGAGATGCT GGTATGATAA AGAGAGTCGT CTGCTGCCTG AGTTCAGTAA TGAGGAGCCG
    CCTCTTATAT TTGAGTGCAA CCATGCCTGC TCCTGCTGGA GAACCTGCAA AAACCGTGTG
    GTACAGAACG GACTGAGGAC AAGACTGCAG TTGTTCAAGA CACAGATGAT GGGATGGGGT
    GTCAAGACAT TACAGGATAT CCCTCAAGGA ACATTTGTTT GCGAATACGT GGGTGAGATC
    ATCTCTGACG CCGAAGCAGA TGTCAGAGAG AATGACTCCT ATCTTTTCAG TCTGGACAGC
    AAGGTGGGTG ACATGTACTG CGTTGATGCT CGTTTCTACG GGAACATCAG CCGGTTCATA
    AACCATCACT GTGAGCCCAA TCTGCTCCCC TGTCGGGTGT TCACCTCTCA CCAGGACCTC
    CGATTTCCTC ACATCGCATT CTTCGCCTGC AAGAACATCA GTGCCGGAGA TGAACTTGGG
    TTTGACTATG GCGATCACTT CTGGGACGTA AAGGGGAAGC TGTTCAACTG CAAGTGTGGC
    TCATCCAAAT GCAAGCACTC TGCAGCTGCC ATCGCCCAGA CACAGGCAGA CAGTACACCA
    GGTGACCAGC AGCCCAGCGC CCTACCCGAT ACCAGCTCAT CCACCCCATC CAGCCCCAGC
    TAA

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

    RefSeq XP_005161162.1
    CDS72..3914
    Translation

    Target ORF information:

    RefSeq Version XM_005161105.4
    Organism Danio rerio(zebrafish)
    Definition Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005161105.4

    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
    ATGAATGAAG ACCACTGCTT AAGGCAGCCC TCCAGTTTGG CCAATGGGAA TTCAGGCAAG 
    AGGGAAACCA TGAAGTCCGA GGGGACAAAA GAGTCTCGCA GTGATCAAGA AGAAGGAGGA
    GATGATGATC ACCAGGATGG GCGAACAGGC CCTCTTAGAG AGGCCATTGA GCAGAATGGG
    ACCTATGAAA ATATGGACAC AAAGAGAAAT GAACAGAACC TCTCTACACA AGGGTCACCA
    GCACGACCCT CAACCATGGA GAATGGGCTA TCAGAAACTG AGCCACCGCA TGGCTCAAAA
    GTAGGCAGTA ATGGATATAT TCTAAGCAAA GTAAAGGAAG ATACAGTGTC AGCCCCTCAC
    AGGACTAACT GGTCCCCCAC TGGGGGTACC ACATTGGGGC ATGGGACTAA AAGCTCACCG
    CCTTCAGTGT TGCAATCTCT AGACCAGGGT TCTTCAAACA GTGGTGCAAG CCAAGGACCA
    AGTCTAACAG AGAGACGAGC AGAAACAGAG ACTAAAAATG GCATCATTTC AAAAACACCC
    CCACCAACAG TACATCGTGC ACGTAAAACT ATGTCAAGGC CGGCCTCAAA CCAGACACTA
    AAGCTTTTGA ACAGGGAAAA TAAAGAGCCA GTCGTGGTAA AAGATGACAG TGCAGGCAAA
    CCAGAGGCAG TGCAGCCTCA GCCATCTCTA ATCCAGAATC AGCTACCTCA AAGCCAAACT
    GACGCCACAT CTGTACCGAA CACCACACCT GCCAAGCCAC AAATAGTTGA ACCCAGACCT
    GTCTCTCCCT CAGTAGCAGC CGTATCAAGG AAGAAAAAAA GAAAGATGGG AACATATAGT
    CTTGTACCCA AGAAGAAAAA CAAAGTCTTG AAACAACGCA CAGTTCTGGA GATGTTTCAG
    CAGATATCCC AGTCTCCACC CAACCCTAAG CCAAAGGAGA TTGTGCGTGT GAATGGAGAG
    AAAATGGATA ATGAGTCTGA TGAGGAGGAG TCAGAGGAAG GGGAAGACAC AGAGGATGAA
    GAAGAGCTAG TCACAGAAGA TGGAGCCAAA GCTTCACATG AGGAACCTAG GATACCTTCG
    ATCTCACAGC CCCTGGAAGA AGAGTCTGAG GAGTCTCAAG ACTGTGAAGG TGAAGAGGAA
    GGGGATGAAT CAGACTTGAG TTCAGAATCC AGTTTGAAAA AGAAATGGAA AAAGAAAGCC
    AAAGGAGATC ATGCCTGGCT CCGACCGTCA AGGAAACGCA AGAGGAAATG GAAAGCAAAA
    ACGGACAAGG TTTCTGCTCC AGTAACGGAG ATCCAGTCTC GGCCAGAAAG CCAGAGCGCC
    CCATCAGTCC CTACTGCTCA CAGAAAGGAG TATAAAGAAG TCCCTCTAGA CTCTCTCAAT
    CTAGCAGCAC AGGAAGCCTT ATTGACATCT CAAAATACAG CTGCTTCAGG GTCATTGCAG
    AGCACAGATG CAGACATGGT GCAGGAACTG CCTCTATGCA GCTGTCGAAT GGAGACACCC
    AAGAGTCGAG AGATCCTCAC GCTTGCGGAC AGGAAGTGTA TGGCAACTGA GAGCATTGAC
    GGCCAGCTGA GCCGTTGTCA GAGTGCAGTG CTGAAGCACG AGATGATGAG GCCTTCAAAT
    TCTGTCCAAC TGCTGGTTCT GTGTGAGGAC CATCGCACAG GCATGGTCAA GCATCAGTGC
    TGCCCTGGCT GTGGCTTCTT TTGCAGAGCC GGTACCTTCA TGGAGTGTCA GCCAGAGGTG
    AACATCTCCC ACCGCTTCCA TCGGACCTGT GCCTCGGTAC TTAATGGGCA GAGCTTTTGT
    CCACATTGTG GAGAGGAAGT CAGCAAGGCG AAAGAGGTCA CCATTGCCAA GGCAGATACA
    ACGTCAACTG TACCCATCAC CCATAGCTCC TGCATACCCA GCACCTCAGA GGGCAAAGCG
    GACACTACCA CTGGAGGGTC CACTCGGCTC TCTGTACTTG GAGAGGGAAA AGCAAACAGC
    ACCTTACCCA AACCTTCAGA ATCACAGGAC ACATCTTTGT CCCTTGTGGG TTCCAAAGCC
    AGGTCTGTAG CGATGGCAGC TGCACCTGGA CTTCCACTTC CACCAGGACC ACCTAAAGAA
    ACTCTGCAAA GTGTCCTGCT GGCTCTAGAT GCTGAAAAGC CCAAGAAGCT TCGGTTTCAC
    CCAAAACAAT TGTACATTTC TGCCAAACAA GGGGAGCTGC AGAAGGTCCT ACTAATGTTG
    GTGGATGGGA TTGATCCCAA CTTCAAAATG GAGAGCCAGA ACAAACGGAC GCCACTCCAT
    GTTGCTGCAG AAGCAGGTCA TCAGGATGTC TGCCATATGC TGGTACAGGC TGGTGCCAAC
    CTTGACATGT GTGATGAGGA CCAGCGGACG CCTCTGATGG AGGCCTGTGA GAACAACCAT
    CTCGAAACTG TGCGATATCT TCTGCGGGCC GGAGCCATCG TCTCTCACAA GGATGTTGAA
    GGATCAACTT GTCTCCATCT TGCTGCTAAG AACGGGCATT TCAGCATTGT ACAACATCTG
    CTCTCTGCAG GCCTTGTTGA TATTAACTGC CAGGATGATG GAGGTTGGAC AGCCATGATT
    TGGGCCACAG AGTACAAACA TGTGGACCAA GTGAAACTCT TGCTCTCCAA AGGGGCTGAT
    ATCAATATAC GAGACAAGGA GGAGAATATC TGTCTGCATT GGGCCGCTTT CTCTGGCTGC
    GTGGAAATAG CCGAGATCTT TCTGACTGCC AAGTGTGATC TCAACACCAT GAACATCCAC
    GGAGACTCGC CGTTGCACAT AGCGTCGCGA GAGGGCCGGC TTGACTGTGT AAACTTGTTT
    TTGTCTCGTG GTGCTGATGT AAACCTTAAA AACAAAGAAG GAGAGACGCC CATGGAGTGC
    TGCAGCCATA GCTCGAAGGT CTGGAATGCT CTTCAAGCCA ACAAAAAGCA GAGAGAAGCA
    AACCGCAAAG CTGGCGCCAC AGAGAAGCTT CTCAACAAGG ACATCGCTAG AGGTTACGAA
    AAAGTCCCCG TCCCGTGCGT AAATGCAGTG GACAGCGAAC CCTGTCCTGA CAACTACAAG
    TATGTCCCTG ATAGCTGTGT GACGTCCCCT CTGAACATTG ACAAAAATAT CACTCACTTG
    CAGTACTGTG TCTGTAAAGA CGATTGCTCT TCTGCAAGCT GCATGTGTGG CCAACTAAGC
    CTGAGATGCT GGTATGATAA AGAGAGTCGT CTGCTGCCTG AGTTCAGTAA TGAGGAGCCG
    CCTCTTATAT TTGAGTGCAA CCATGCCTGC TCCTGCTGGA GAACCTGCAA AAACCGTGTG
    GTACAGAACG GACTGAGGAC AAGACTGCAG TTGTTCAAGA CACAGATGAT GGGATGGGGT
    GTCAAGACAT TACAGGATAT CCCTCAAGGA ACATTTGTTT GCGAATACGT GGGTGAGATC
    ATCTCTGACG CCGAAGCAGA TGTCAGAGAG AATGACTCCT ATCTTTTCAG TCTGGACAGC
    AAGGTGGGTG ACATGTACTG CGTTGATGCT CGTTTCTACG GGAACATCAG CCGGTTCATA
    AACCATCACT GTGAGCCCAA TCTGCTCCCC TGTCGGGTGT TCACCTCTCA CCAGGACCTC
    CGATTTCCTC ACATCGCATT CTTCGCCTGC AAGAACATCA GTGCCGGAGA TGAACTTGGG
    TTTGACTATG GCGATCACTT CTGGGACGTA AAGGGGAAGC TGTTCAACTG CAAGTGTGGC
    TCATCCAAAT GCAAGCACTC TGCAGCTGCC ATCGCCCAGA CACAGGCAGA CAGTACACCA
    GGTGACCAGC AGCCCAGCGC CCTACCCGAT ACCAGCTCAT CCACCCCATC CAGCCCCAGC
    TAA

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

    CloneID ODa40678
    Clone ID Related Accession (Same CDS sequence) XM_009295240.2 , XM_009295240.3
    Accession Version XM_009295240.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3867bp)
    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 histone-lysine N-methyltransferase EHMT1 isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.6) 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_009295240.1. ##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
    ATGAATGAAG ACCACTGCTT AAGGCAGCCC TCCAGTTTGG CCAATGGGAA TTCAGGCAAG 
    AGGGAAACCA TGAAGTCCGA GGGGACAAAA GAGTCTCGCA GTGATCAAGA AGAAGGAGGA
    GATGATGATC ACCAGGATGG GCGAACAGGC CCTCTTAGAG AGGCCATTGA GCAGAATGGG
    ACCTATGAAA ATATGGACAC AAAGAGAAAT GAACAGAACC TCTCTACACA AGGGTCACCA
    GCACGACCCT CAACCATGGA GAATGGGCTA TCAGAAACTG AGCCACCGCA TGGCTCAAAA
    GTAGGCAGTA ATGGATATAT TCTAAGCAAA GTAAAGGAAG ATACAGTGTC AGCCCCTCAC
    AGGACTAACT GGTCCCCCAC TGGGGGTACC ACATTGGGGC ATGGGACTAA AAGCTCACCG
    CCTTCAGTGT TGCAATCTCT AGACCAGGGT TCTTCAAACA GTGGTGCAAG CCAAGGACCA
    AGTCTAACAG AGAGACGAGC AGAAACAGAG ACTAAAAATG GCATCATTTC AAAAACACCC
    CCACCAACAG TACATCGTGC ACGTAAAACT ATGTCAAGGC CGGCCTCAAA CCAGACACTA
    AAGCTTTTGA ACAGGGAAAA TAAAGAGCCA GTCGTGGTAA AAGATGACAG TGCAGGCAAA
    CCAGAGGCAG TGCAGCCTCA GCCATCTCTA ATCCAGAATC AGCTACCTCA AAGCCAAACT
    GACGCCACAT CTGTACCGAA CACCACACCT GCCAAGCCAC AAATAGAATT CTCTCTTTAT
    GCATCGACAG TTGAACCCAG ACCTGTCTCT CCCTCAGTAG CAGCCGTATC AAGGAAGAAA
    AAAAGAAAGA TGGGAACATA TAGTCTTGTA CCCAAGAAGA AAAACAAAGT CTTGAAACAA
    CGCACAGTTC TGGAGATGTT TCAGCAGATA TCCCAGTCTC CACCCAACCC TAAGCCAAAG
    GAGATTGTGC GTGTGAATGG AGAGAAAATG GATAATGAGT CTGATGAGGA GGAGTCAGAG
    GAAGGGGAAG ACACAGAGGA TGAAGAAGAG CTAGTCACAG AAGATGGAGC CAAAGCTTCA
    CATGAGGAAC CTAGGATACC TTCGATCTCA CAGCCCCTGG AAGAAGAGTC TGAGGAGTCT
    CAAGACTGTG AAGGTGAAGA GGAAGGGGAT GAATCAGACT TGAGTTCAGA ATCCAGTTTG
    AAAAAGAAAT GGAAAAAGAA AGCCAAAGGA GATCATGCCT GGCTCCGACC GTCAAGGAAA
    CGCAAGAGGA AATGGAAAGC AAAAACGGAC AAGGTTTCTG CTCCAGTAAC GGAGATCCAG
    TCTCGGCCAG AAAGCCAGAG CGCCCCATCA GTCCCTACTG CTCACAGAAA GGAGTATAAA
    GAAGTCCCTC TAGACTCTCT CAATCTAGCA GCACAGGAAG CCTTATTGAC ATCTCAAAAT
    ACAGCTGCTT CAGGGTCATT GCAGAGCACA GATGCAGACA TGGTGCAGGA ACTGCCTCTA
    TGCAGCTGTC GAATGGAGAC ACCCAAGAGT CGAGAGATCC TCACGCTTGC GGACAGGAAG
    TGTATGGCAA CTGAGAGCAT TGACGGCCAG CTGAGCCGTT GTCAGAGTGC AGTGCTGAAG
    CACGAGATGA TGAGGCCTTC AAATTCTGTC CAACTGCTGG TTCTGTGTGA GGACCATCGC
    ACAGGCATGG TCAAGCATCA GTGCTGCCCT GGCTGTGGCT TCTTTTGCAG AGCCGGTACC
    TTCATGGAGT GTCAGCCAGA GGTGAACATC TCCCACCGCT TCCATCGGAC CTGTGCCTCG
    GTACTTAATG GGCAGAGCTT TTGTCCACAT TGTGGAGAGG AAGTCAGCAA GGCGAAAGAG
    GTCACCATTG CCAAGGCAGA TACAACGTCA ACTGTACCCA TCACCCATAG CTCCTGCATA
    CCCAGCACCT CAGAGGGCAA AGCGGACACT ACCACTGGAG GGTCCACTCG GCTCTCTGTA
    CTTGGAGAGG GAAAAGCAAA CAGCACCTTA CCCAAACCTT CAGAATCACA GGACACATCT
    TTGTCCCTTG TGGGTTCCAA AGCCAGGTCT GTAGCGATGG CAGCTGCACC TGGACTTCCA
    CTTCCACCAG GACCACCTAA AGAAACTCTG CAAAGTGTCC TGCTGGCTCT AGATGCTGAA
    AAGCCCAAGA AGCTTCGGTT TCACCCAAAA CAATTGTACA TTTCTGCCAA ACAAGGGGAG
    CTGCAGAAGG TCCTACTAAT GTTGGTGGAT GGGATTGATC CCAACTTCAA AATGGAGAGC
    CAGAACAAAC GGACGCCACT CCATGTTGCT GCAGAAGCAG GTCATCAGGA TGTCTGCCAT
    ATGCTGGTAC AGGCTGGTGC CAACCTTGAC ATGTGTGATG AGGACCAGCG GACGCCTCTG
    ATGGAGGCCT GTGAGAACAA CCATCTCGAA ACTGTGCGAT ATCTTCTGCG GGCCGGAGCC
    ATCGTCTCTC ACAAGGATGT TGAAGGATCA ACTTGTCTCC ATCTTGCTGC TAAGAACGGG
    CATTTCAGCA TTGTACAACA TCTGCTCTCT GCAGGCCTTG TTGATATTAA CTGCCAGGAT
    GATGGAGGTT GGACAGCCAT GATTTGGGCC ACAGAGTACA AACATGTGGA CCAAGTGAAA
    CTCTTGCTCT CCAAAGGGGC TGATATCAAT ATACGAGACA AGGAGGAGAA TATCTGTCTG
    CATTGGGCCG CTTTCTCTGG CTGCGTGGAA ATAGCCGAGA TCTTTCTGAC TGCCAAGTGT
    GATCTCAACA CCATGAACAT CCACGGAGAC TCGCCGTTGC ACATAGCGTC GCGAGAGGGC
    CGGCTTGACT GTGTAAACTT GTTTTTGTCT CGTGGTGCTG ATGTAAACCT TAAAAACAAA
    GAAGGAGAGA CGCCCATGGA GTGCTGCAGC CATAGCTCGA AGGTCTGGAA TGCTCTTCAA
    GCCAACAAAA AGCAGAGAGA AGCAAACCGC AAAGCTGGCG CCACAGAGAA GCTTCTCAAC
    AAGGACATCG CTAGAGGTTA CGAAAAAGTC CCCGTCCCGT GCGTAAATGC AGTGGACAGC
    GAACCCTGTC CTGACAACTA CAAGTATGTC CCTGATAGCT GTGTGACGTC CCCTCTGAAC
    ATTGACAAAA ATATCACTCA CTTGCAGTAC TGTGTCTGTA AAGACGATTG CTCTTCTGCA
    AGCTGCATGT GTGGCCAACT AAGCCTGAGA TGCTGGTATG ATAAAGAGAG TCGTCTGCTG
    CCTGAGTTCA GTAATGAGGA GCCGCCTCTT ATATTTGAGT GCAACCATGC CTGCTCCTGC
    TGGAGAACCT GCAAAAACCG TGTGGTACAG AACGGACTGA GGACAAGACT GCAGTTGTTC
    AAGACACAGA TGATGGGATG GGGTGTCAAG ACATTACAGG ATATCCCTCA AGGAACATTT
    GTTTGCGAAT ACGTGGGTGA GATCATCTCT GACGCCGAAG CAGATGTCAG AGAGAATGAC
    TCCTATCTTT TCAGTCTGGA CAGCAAGGTG GGTGACATGT ACTGCGTTGA TGCTCGTTTC
    TACGGGAACA TCAGCCGGTT CATAAACCAT CACTGTGAGC CCAATCTGCT CCCCTGTCGG
    GTGTTCACCT CTCACCAGGA CCTCCGATTT CCTCACATCG CATTCTTCGC CTGCAAGAAC
    ATCAGTGCCG GAGATGAACT TGGGTTTGAC TATGGCGATC ACTTCTGGGA CGTAAAGGGG
    AAGCTGTTCA ACTGCAAGTG TGGCTCATCC AAATGCAAGC ACTCTGCAGC TGCCATCGCC
    CAGACACAGG CAGACAGTAC ACCAGGTGAC CAGCAGCCCA GCGCCCTACC CGATACCAGC
    TCATCCACCC CATCCAGCCC CAGCTAA

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

    RefSeq XP_009293515.1
    CDS39..3905
    Translation

    Target ORF information:

    RefSeq Version XM_009295240.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009295240.2

    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
    ATGAATGAAG ACCACTGCTT AAGGCAGCCC TCCAGTTTGG CCAATGGGAA TTCAGGCAAG 
    AGGGAAACCA TGAAGTCCGA GGGGACAAAA GAGTCTCGCA GTGATCAAGA AGAAGGAGGA
    GATGATGATC ACCAGGATGG GCGAACAGGC CCTCTTAGAG AGGCCATTGA GCAGAATGGG
    ACCTATGAAA ATATGGACAC AAAGAGAAAT GAACAGAACC TCTCTACACA AGGGTCACCA
    GCACGACCCT CAACCATGGA GAATGGGCTA TCAGAAACTG AGCCACCGCA TGGCTCAAAA
    GTAGGCAGTA ATGGATATAT TCTAAGCAAA GTAAAGGAAG ATACAGTGTC AGCCCCTCAC
    AGGACTAACT GGTCCCCCAC TGGGGGTACC ACATTGGGGC ATGGGACTAA AAGCTCACCG
    CCTTCAGTGT TGCAATCTCT AGACCAGGGT TCTTCAAACA GTGGTGCAAG CCAAGGACCA
    AGTCTAACAG AGAGACGAGC AGAAACAGAG ACTAAAAATG GCATCATTTC AAAAACACCC
    CCACCAACAG TACATCGTGC ACGTAAAACT ATGTCAAGGC CGGCCTCAAA CCAGACACTA
    AAGCTTTTGA ACAGGGAAAA TAAAGAGCCA GTCGTGGTAA AAGATGACAG TGCAGGCAAA
    CCAGAGGCAG TGCAGCCTCA GCCATCTCTA ATCCAGAATC AGCTACCTCA AAGCCAAACT
    GACGCCACAT CTGTACCGAA CACCACACCT GCCAAGCCAC AAATAGAATT CTCTCTTTAT
    GCATCGACAG TTGAACCCAG ACCTGTCTCT CCCTCAGTAG CAGCCGTATC AAGGAAGAAA
    AAAAGAAAGA TGGGAACATA TAGTCTTGTA CCCAAGAAGA AAAACAAAGT CTTGAAACAA
    CGCACAGTTC TGGAGATGTT TCAGCAGATA TCCCAGTCTC CACCCAACCC TAAGCCAAAG
    GAGATTGTGC GTGTGAATGG AGAGAAAATG GATAATGAGT CTGATGAGGA GGAGTCAGAG
    GAAGGGGAAG ACACAGAGGA TGAAGAAGAG CTAGTCACAG AAGATGGAGC CAAAGCTTCA
    CATGAGGAAC CTAGGATACC TTCGATCTCA CAGCCCCTGG AAGAAGAGTC TGAGGAGTCT
    CAAGACTGTG AAGGTGAAGA GGAAGGGGAT GAATCAGACT TGAGTTCAGA ATCCAGTTTG
    AAAAAGAAAT GGAAAAAGAA AGCCAAAGGA GATCATGCCT GGCTCCGACC GTCAAGGAAA
    CGCAAGAGGA AATGGAAAGC AAAAACGGAC AAGGTTTCTG CTCCAGTAAC GGAGATCCAG
    TCTCGGCCAG AAAGCCAGAG CGCCCCATCA GTCCCTACTG CTCACAGAAA GGAGTATAAA
    GAAGTCCCTC TAGACTCTCT CAATCTAGCA GCACAGGAAG CCTTATTGAC ATCTCAAAAT
    ACAGCTGCTT CAGGGTCATT GCAGAGCACA GATGCAGACA TGGTGCAGGA ACTGCCTCTA
    TGCAGCTGTC GAATGGAGAC ACCCAAGAGT CGAGAGATCC TCACGCTTGC GGACAGGAAG
    TGTATGGCAA CTGAGAGCAT TGACGGCCAG CTGAGCCGTT GTCAGAGTGC AGTGCTGAAG
    CACGAGATGA TGAGGCCTTC AAATTCTGTC CAACTGCTGG TTCTGTGTGA GGACCATCGC
    ACAGGCATGG TCAAGCATCA GTGCTGCCCT GGCTGTGGCT TCTTTTGCAG AGCCGGTACC
    TTCATGGAGT GTCAGCCAGA GGTGAACATC TCCCACCGCT TCCATCGGAC CTGTGCCTCG
    GTACTTAATG GGCAGAGCTT TTGTCCACAT TGTGGAGAGG AAGTCAGCAA GGCGAAAGAG
    GTCACCATTG CCAAGGCAGA TACAACGTCA ACTGTACCCA TCACCCATAG CTCCTGCATA
    CCCAGCACCT CAGAGGGCAA AGCGGACACT ACCACTGGAG GGTCCACTCG GCTCTCTGTA
    CTTGGAGAGG GAAAAGCAAA CAGCACCTTA CCCAAACCTT CAGAATCACA GGACACATCT
    TTGTCCCTTG TGGGTTCCAA AGCCAGGTCT GTAGCGATGG CAGCTGCACC TGGACTTCCA
    CTTCCACCAG GACCACCTAA AGAAACTCTG CAAAGTGTCC TGCTGGCTCT AGATGCTGAA
    AAGCCCAAGA AGCTTCGGTT TCACCCAAAA CAATTGTACA TTTCTGCCAA ACAAGGGGAG
    CTGCAGAAGG TCCTACTAAT GTTGGTGGAT GGGATTGATC CCAACTTCAA AATGGAGAGC
    CAGAACAAAC GGACGCCACT CCATGTTGCT GCAGAAGCAG GTCATCAGGA TGTCTGCCAT
    ATGCTGGTAC AGGCTGGTGC CAACCTTGAC ATGTGTGATG AGGACCAGCG GACGCCTCTG
    ATGGAGGCCT GTGAGAACAA CCATCTCGAA ACTGTGCGAT ATCTTCTGCG GGCCGGAGCC
    ATCGTCTCTC ACAAGGATGT TGAAGGATCA ACTTGTCTCC ATCTTGCTGC TAAGAACGGG
    CATTTCAGCA TTGTACAACA TCTGCTCTCT GCAGGCCTTG TTGATATTAA CTGCCAGGAT
    GATGGAGGTT GGACAGCCAT GATTTGGGCC ACAGAGTACA AACATGTGGA CCAAGTGAAA
    CTCTTGCTCT CCAAAGGGGC TGATATCAAT ATACGAGACA AGGAGGAGAA TATCTGTCTG
    CATTGGGCCG CTTTCTCTGG CTGCGTGGAA ATAGCCGAGA TCTTTCTGAC TGCCAAGTGT
    GATCTCAACA CCATGAACAT CCACGGAGAC TCGCCGTTGC ACATAGCGTC GCGAGAGGGC
    CGGCTTGACT GTGTAAACTT GTTTTTGTCT CGTGGTGCTG ATGTAAACCT TAAAAACAAA
    GAAGGAGAGA CGCCCATGGA GTGCTGCAGC CATAGCTCGA AGGTCTGGAA TGCTCTTCAA
    GCCAACAAAA AGCAGAGAGA AGCAAACCGC AAAGCTGGCG CCACAGAGAA GCTTCTCAAC
    AAGGACATCG CTAGAGGTTA CGAAAAAGTC CCCGTCCCGT GCGTAAATGC AGTGGACAGC
    GAACCCTGTC CTGACAACTA CAAGTATGTC CCTGATAGCT GTGTGACGTC CCCTCTGAAC
    ATTGACAAAA ATATCACTCA CTTGCAGTAC TGTGTCTGTA AAGACGATTG CTCTTCTGCA
    AGCTGCATGT GTGGCCAACT AAGCCTGAGA TGCTGGTATG ATAAAGAGAG TCGTCTGCTG
    CCTGAGTTCA GTAATGAGGA GCCGCCTCTT ATATTTGAGT GCAACCATGC CTGCTCCTGC
    TGGAGAACCT GCAAAAACCG TGTGGTACAG AACGGACTGA GGACAAGACT GCAGTTGTTC
    AAGACACAGA TGATGGGATG GGGTGTCAAG ACATTACAGG ATATCCCTCA AGGAACATTT
    GTTTGCGAAT ACGTGGGTGA GATCATCTCT GACGCCGAAG CAGATGTCAG AGAGAATGAC
    TCCTATCTTT TCAGTCTGGA CAGCAAGGTG GGTGACATGT ACTGCGTTGA TGCTCGTTTC
    TACGGGAACA TCAGCCGGTT CATAAACCAT CACTGTGAGC CCAATCTGCT CCCCTGTCGG
    GTGTTCACCT CTCACCAGGA CCTCCGATTT CCTCACATCG CATTCTTCGC CTGCAAGAAC
    ATCAGTGCCG GAGATGAACT TGGGTTTGAC TATGGCGATC ACTTCTGGGA CGTAAAGGGG
    AAGCTGTTCA ACTGCAAGTG TGGCTCATCC AAATGCAAGC ACTCTGCAGC TGCCATCGCC
    CAGACACAGG CAGACAGTAC ACCAGGTGAC CAGCAGCCCA GCGCCCTACC CGATACCAGC
    TCATCCACCC CATCCAGCCC CAGCTAA

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

    CloneID ODa40678
    Clone ID Related Accession (Same CDS sequence) XM_009295240.2 , XM_009295240.3
    Accession Version XM_009295240.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3867bp)
    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 histone-lysine N-methyltransferase EHMT1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.7) 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_009295240.2. ##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
    ATGAATGAAG ACCACTGCTT AAGGCAGCCC TCCAGTTTGG CCAATGGGAA TTCAGGCAAG 
    AGGGAAACCA TGAAGTCCGA GGGGACAAAA GAGTCTCGCA GTGATCAAGA AGAAGGAGGA
    GATGATGATC ACCAGGATGG GCGAACAGGC CCTCTTAGAG AGGCCATTGA GCAGAATGGG
    ACCTATGAAA ATATGGACAC AAAGAGAAAT GAACAGAACC TCTCTACACA AGGGTCACCA
    GCACGACCCT CAACCATGGA GAATGGGCTA TCAGAAACTG AGCCACCGCA TGGCTCAAAA
    GTAGGCAGTA ATGGATATAT TCTAAGCAAA GTAAAGGAAG ATACAGTGTC AGCCCCTCAC
    AGGACTAACT GGTCCCCCAC TGGGGGTACC ACATTGGGGC ATGGGACTAA AAGCTCACCG
    CCTTCAGTGT TGCAATCTCT AGACCAGGGT TCTTCAAACA GTGGTGCAAG CCAAGGACCA
    AGTCTAACAG AGAGACGAGC AGAAACAGAG ACTAAAAATG GCATCATTTC AAAAACACCC
    CCACCAACAG TACATCGTGC ACGTAAAACT ATGTCAAGGC CGGCCTCAAA CCAGACACTA
    AAGCTTTTGA ACAGGGAAAA TAAAGAGCCA GTCGTGGTAA AAGATGACAG TGCAGGCAAA
    CCAGAGGCAG TGCAGCCTCA GCCATCTCTA ATCCAGAATC AGCTACCTCA AAGCCAAACT
    GACGCCACAT CTGTACCGAA CACCACACCT GCCAAGCCAC AAATAGAATT CTCTCTTTAT
    GCATCGACAG TTGAACCCAG ACCTGTCTCT CCCTCAGTAG CAGCCGTATC AAGGAAGAAA
    AAAAGAAAGA TGGGAACATA TAGTCTTGTA CCCAAGAAGA AAAACAAAGT CTTGAAACAA
    CGCACAGTTC TGGAGATGTT TCAGCAGATA TCCCAGTCTC CACCCAACCC TAAGCCAAAG
    GAGATTGTGC GTGTGAATGG AGAGAAAATG GATAATGAGT CTGATGAGGA GGAGTCAGAG
    GAAGGGGAAG ACACAGAGGA TGAAGAAGAG CTAGTCACAG AAGATGGAGC CAAAGCTTCA
    CATGAGGAAC CTAGGATACC TTCGATCTCA CAGCCCCTGG AAGAAGAGTC TGAGGAGTCT
    CAAGACTGTG AAGGTGAAGA GGAAGGGGAT GAATCAGACT TGAGTTCAGA ATCCAGTTTG
    AAAAAGAAAT GGAAAAAGAA AGCCAAAGGA GATCATGCCT GGCTCCGACC GTCAAGGAAA
    CGCAAGAGGA AATGGAAAGC AAAAACGGAC AAGGTTTCTG CTCCAGTAAC GGAGATCCAG
    TCTCGGCCAG AAAGCCAGAG CGCCCCATCA GTCCCTACTG CTCACAGAAA GGAGTATAAA
    GAAGTCCCTC TAGACTCTCT CAATCTAGCA GCACAGGAAG CCTTATTGAC ATCTCAAAAT
    ACAGCTGCTT CAGGGTCATT GCAGAGCACA GATGCAGACA TGGTGCAGGA ACTGCCTCTA
    TGCAGCTGTC GAATGGAGAC ACCCAAGAGT CGAGAGATCC TCACGCTTGC GGACAGGAAG
    TGTATGGCAA CTGAGAGCAT TGACGGCCAG CTGAGCCGTT GTCAGAGTGC AGTGCTGAAG
    CACGAGATGA TGAGGCCTTC AAATTCTGTC CAACTGCTGG TTCTGTGTGA GGACCATCGC
    ACAGGCATGG TCAAGCATCA GTGCTGCCCT GGCTGTGGCT TCTTTTGCAG AGCCGGTACC
    TTCATGGAGT GTCAGCCAGA GGTGAACATC TCCCACCGCT TCCATCGGAC CTGTGCCTCG
    GTACTTAATG GGCAGAGCTT TTGTCCACAT TGTGGAGAGG AAGTCAGCAA GGCGAAAGAG
    GTCACCATTG CCAAGGCAGA TACAACGTCA ACTGTACCCA TCACCCATAG CTCCTGCATA
    CCCAGCACCT CAGAGGGCAA AGCGGACACT ACCACTGGAG GGTCCACTCG GCTCTCTGTA
    CTTGGAGAGG GAAAAGCAAA CAGCACCTTA CCCAAACCTT CAGAATCACA GGACACATCT
    TTGTCCCTTG TGGGTTCCAA AGCCAGGTCT GTAGCGATGG CAGCTGCACC TGGACTTCCA
    CTTCCACCAG GACCACCTAA AGAAACTCTG CAAAGTGTCC TGCTGGCTCT AGATGCTGAA
    AAGCCCAAGA AGCTTCGGTT TCACCCAAAA CAATTGTACA TTTCTGCCAA ACAAGGGGAG
    CTGCAGAAGG TCCTACTAAT GTTGGTGGAT GGGATTGATC CCAACTTCAA AATGGAGAGC
    CAGAACAAAC GGACGCCACT CCATGTTGCT GCAGAAGCAG GTCATCAGGA TGTCTGCCAT
    ATGCTGGTAC AGGCTGGTGC CAACCTTGAC ATGTGTGATG AGGACCAGCG GACGCCTCTG
    ATGGAGGCCT GTGAGAACAA CCATCTCGAA ACTGTGCGAT ATCTTCTGCG GGCCGGAGCC
    ATCGTCTCTC ACAAGGATGT TGAAGGATCA ACTTGTCTCC ATCTTGCTGC TAAGAACGGG
    CATTTCAGCA TTGTACAACA TCTGCTCTCT GCAGGCCTTG TTGATATTAA CTGCCAGGAT
    GATGGAGGTT GGACAGCCAT GATTTGGGCC ACAGAGTACA AACATGTGGA CCAAGTGAAA
    CTCTTGCTCT CCAAAGGGGC TGATATCAAT ATACGAGACA AGGAGGAGAA TATCTGTCTG
    CATTGGGCCG CTTTCTCTGG CTGCGTGGAA ATAGCCGAGA TCTTTCTGAC TGCCAAGTGT
    GATCTCAACA CCATGAACAT CCACGGAGAC TCGCCGTTGC ACATAGCGTC GCGAGAGGGC
    CGGCTTGACT GTGTAAACTT GTTTTTGTCT CGTGGTGCTG ATGTAAACCT TAAAAACAAA
    GAAGGAGAGA CGCCCATGGA GTGCTGCAGC CATAGCTCGA AGGTCTGGAA TGCTCTTCAA
    GCCAACAAAA AGCAGAGAGA AGCAAACCGC AAAGCTGGCG CCACAGAGAA GCTTCTCAAC
    AAGGACATCG CTAGAGGTTA CGAAAAAGTC CCCGTCCCGT GCGTAAATGC AGTGGACAGC
    GAACCCTGTC CTGACAACTA CAAGTATGTC CCTGATAGCT GTGTGACGTC CCCTCTGAAC
    ATTGACAAAA ATATCACTCA CTTGCAGTAC TGTGTCTGTA AAGACGATTG CTCTTCTGCA
    AGCTGCATGT GTGGCCAACT AAGCCTGAGA TGCTGGTATG ATAAAGAGAG TCGTCTGCTG
    CCTGAGTTCA GTAATGAGGA GCCGCCTCTT ATATTTGAGT GCAACCATGC CTGCTCCTGC
    TGGAGAACCT GCAAAAACCG TGTGGTACAG AACGGACTGA GGACAAGACT GCAGTTGTTC
    AAGACACAGA TGATGGGATG GGGTGTCAAG ACATTACAGG ATATCCCTCA AGGAACATTT
    GTTTGCGAAT ACGTGGGTGA GATCATCTCT GACGCCGAAG CAGATGTCAG AGAGAATGAC
    TCCTATCTTT TCAGTCTGGA CAGCAAGGTG GGTGACATGT ACTGCGTTGA TGCTCGTTTC
    TACGGGAACA TCAGCCGGTT CATAAACCAT CACTGTGAGC CCAATCTGCT CCCCTGTCGG
    GTGTTCACCT CTCACCAGGA CCTCCGATTT CCTCACATCG CATTCTTCGC CTGCAAGAAC
    ATCAGTGCCG GAGATGAACT TGGGTTTGAC TATGGCGATC ACTTCTGGGA CGTAAAGGGG
    AAGCTGTTCA ACTGCAAGTG TGGCTCATCC AAATGCAAGC ACTCTGCAGC TGCCATCGCC
    CAGACACAGG CAGACAGTAC ACCAGGTGAC CAGCAGCCCA GCGCCCTACC CGATACCAGC
    TCATCCACCC CATCCAGCCC CAGCTAA

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

    RefSeq XP_009293515.1
    CDS73..3939
    Translation

    Target ORF information:

    RefSeq Version XM_009295240.3
    Organism Danio rerio(zebrafish)
    Definition Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009295240.3

    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
    ATGAATGAAG ACCACTGCTT AAGGCAGCCC TCCAGTTTGG CCAATGGGAA TTCAGGCAAG 
    AGGGAAACCA TGAAGTCCGA GGGGACAAAA GAGTCTCGCA GTGATCAAGA AGAAGGAGGA
    GATGATGATC ACCAGGATGG GCGAACAGGC CCTCTTAGAG AGGCCATTGA GCAGAATGGG
    ACCTATGAAA ATATGGACAC AAAGAGAAAT GAACAGAACC TCTCTACACA AGGGTCACCA
    GCACGACCCT CAACCATGGA GAATGGGCTA TCAGAAACTG AGCCACCGCA TGGCTCAAAA
    GTAGGCAGTA ATGGATATAT TCTAAGCAAA GTAAAGGAAG ATACAGTGTC AGCCCCTCAC
    AGGACTAACT GGTCCCCCAC TGGGGGTACC ACATTGGGGC ATGGGACTAA AAGCTCACCG
    CCTTCAGTGT TGCAATCTCT AGACCAGGGT TCTTCAAACA GTGGTGCAAG CCAAGGACCA
    AGTCTAACAG AGAGACGAGC AGAAACAGAG ACTAAAAATG GCATCATTTC AAAAACACCC
    CCACCAACAG TACATCGTGC ACGTAAAACT ATGTCAAGGC CGGCCTCAAA CCAGACACTA
    AAGCTTTTGA ACAGGGAAAA TAAAGAGCCA GTCGTGGTAA AAGATGACAG TGCAGGCAAA
    CCAGAGGCAG TGCAGCCTCA GCCATCTCTA ATCCAGAATC AGCTACCTCA AAGCCAAACT
    GACGCCACAT CTGTACCGAA CACCACACCT GCCAAGCCAC AAATAGAATT CTCTCTTTAT
    GCATCGACAG TTGAACCCAG ACCTGTCTCT CCCTCAGTAG CAGCCGTATC AAGGAAGAAA
    AAAAGAAAGA TGGGAACATA TAGTCTTGTA CCCAAGAAGA AAAACAAAGT CTTGAAACAA
    CGCACAGTTC TGGAGATGTT TCAGCAGATA TCCCAGTCTC CACCCAACCC TAAGCCAAAG
    GAGATTGTGC GTGTGAATGG AGAGAAAATG GATAATGAGT CTGATGAGGA GGAGTCAGAG
    GAAGGGGAAG ACACAGAGGA TGAAGAAGAG CTAGTCACAG AAGATGGAGC CAAAGCTTCA
    CATGAGGAAC CTAGGATACC TTCGATCTCA CAGCCCCTGG AAGAAGAGTC TGAGGAGTCT
    CAAGACTGTG AAGGTGAAGA GGAAGGGGAT GAATCAGACT TGAGTTCAGA ATCCAGTTTG
    AAAAAGAAAT GGAAAAAGAA AGCCAAAGGA GATCATGCCT GGCTCCGACC GTCAAGGAAA
    CGCAAGAGGA AATGGAAAGC AAAAACGGAC AAGGTTTCTG CTCCAGTAAC GGAGATCCAG
    TCTCGGCCAG AAAGCCAGAG CGCCCCATCA GTCCCTACTG CTCACAGAAA GGAGTATAAA
    GAAGTCCCTC TAGACTCTCT CAATCTAGCA GCACAGGAAG CCTTATTGAC ATCTCAAAAT
    ACAGCTGCTT CAGGGTCATT GCAGAGCACA GATGCAGACA TGGTGCAGGA ACTGCCTCTA
    TGCAGCTGTC GAATGGAGAC ACCCAAGAGT CGAGAGATCC TCACGCTTGC GGACAGGAAG
    TGTATGGCAA CTGAGAGCAT TGACGGCCAG CTGAGCCGTT GTCAGAGTGC AGTGCTGAAG
    CACGAGATGA TGAGGCCTTC AAATTCTGTC CAACTGCTGG TTCTGTGTGA GGACCATCGC
    ACAGGCATGG TCAAGCATCA GTGCTGCCCT GGCTGTGGCT TCTTTTGCAG AGCCGGTACC
    TTCATGGAGT GTCAGCCAGA GGTGAACATC TCCCACCGCT TCCATCGGAC CTGTGCCTCG
    GTACTTAATG GGCAGAGCTT TTGTCCACAT TGTGGAGAGG AAGTCAGCAA GGCGAAAGAG
    GTCACCATTG CCAAGGCAGA TACAACGTCA ACTGTACCCA TCACCCATAG CTCCTGCATA
    CCCAGCACCT CAGAGGGCAA AGCGGACACT ACCACTGGAG GGTCCACTCG GCTCTCTGTA
    CTTGGAGAGG GAAAAGCAAA CAGCACCTTA CCCAAACCTT CAGAATCACA GGACACATCT
    TTGTCCCTTG TGGGTTCCAA AGCCAGGTCT GTAGCGATGG CAGCTGCACC TGGACTTCCA
    CTTCCACCAG GACCACCTAA AGAAACTCTG CAAAGTGTCC TGCTGGCTCT AGATGCTGAA
    AAGCCCAAGA AGCTTCGGTT TCACCCAAAA CAATTGTACA TTTCTGCCAA ACAAGGGGAG
    CTGCAGAAGG TCCTACTAAT GTTGGTGGAT GGGATTGATC CCAACTTCAA AATGGAGAGC
    CAGAACAAAC GGACGCCACT CCATGTTGCT GCAGAAGCAG GTCATCAGGA TGTCTGCCAT
    ATGCTGGTAC AGGCTGGTGC CAACCTTGAC ATGTGTGATG AGGACCAGCG GACGCCTCTG
    ATGGAGGCCT GTGAGAACAA CCATCTCGAA ACTGTGCGAT ATCTTCTGCG GGCCGGAGCC
    ATCGTCTCTC ACAAGGATGT TGAAGGATCA ACTTGTCTCC ATCTTGCTGC TAAGAACGGG
    CATTTCAGCA TTGTACAACA TCTGCTCTCT GCAGGCCTTG TTGATATTAA CTGCCAGGAT
    GATGGAGGTT GGACAGCCAT GATTTGGGCC ACAGAGTACA AACATGTGGA CCAAGTGAAA
    CTCTTGCTCT CCAAAGGGGC TGATATCAAT ATACGAGACA AGGAGGAGAA TATCTGTCTG
    CATTGGGCCG CTTTCTCTGG CTGCGTGGAA ATAGCCGAGA TCTTTCTGAC TGCCAAGTGT
    GATCTCAACA CCATGAACAT CCACGGAGAC TCGCCGTTGC ACATAGCGTC GCGAGAGGGC
    CGGCTTGACT GTGTAAACTT GTTTTTGTCT CGTGGTGCTG ATGTAAACCT TAAAAACAAA
    GAAGGAGAGA CGCCCATGGA GTGCTGCAGC CATAGCTCGA AGGTCTGGAA TGCTCTTCAA
    GCCAACAAAA AGCAGAGAGA AGCAAACCGC AAAGCTGGCG CCACAGAGAA GCTTCTCAAC
    AAGGACATCG CTAGAGGTTA CGAAAAAGTC CCCGTCCCGT GCGTAAATGC AGTGGACAGC
    GAACCCTGTC CTGACAACTA CAAGTATGTC CCTGATAGCT GTGTGACGTC CCCTCTGAAC
    ATTGACAAAA ATATCACTCA CTTGCAGTAC TGTGTCTGTA AAGACGATTG CTCTTCTGCA
    AGCTGCATGT GTGGCCAACT AAGCCTGAGA TGCTGGTATG ATAAAGAGAG TCGTCTGCTG
    CCTGAGTTCA GTAATGAGGA GCCGCCTCTT ATATTTGAGT GCAACCATGC CTGCTCCTGC
    TGGAGAACCT GCAAAAACCG TGTGGTACAG AACGGACTGA GGACAAGACT GCAGTTGTTC
    AAGACACAGA TGATGGGATG GGGTGTCAAG ACATTACAGG ATATCCCTCA AGGAACATTT
    GTTTGCGAAT ACGTGGGTGA GATCATCTCT GACGCCGAAG CAGATGTCAG AGAGAATGAC
    TCCTATCTTT TCAGTCTGGA CAGCAAGGTG GGTGACATGT ACTGCGTTGA TGCTCGTTTC
    TACGGGAACA TCAGCCGGTT CATAAACCAT CACTGTGAGC CCAATCTGCT CCCCTGTCGG
    GTGTTCACCT CTCACCAGGA CCTCCGATTT CCTCACATCG CATTCTTCGC CTGCAAGAAC
    ATCAGTGCCG GAGATGAACT TGGGTTTGAC TATGGCGATC ACTTCTGGGA CGTAAAGGGG
    AAGCTGTTCA ACTGCAAGTG TGGCTCATCC AAATGCAAGC ACTCTGCAGC TGCCATCGCC
    CAGACACAGG CAGACAGTAC ACCAGGTGAC CAGCAGCCCA GCGCCCTACC CGATACCAGC
    TCATCCACCC CATCCAGCCC CAGCTAA

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

    CloneID ODa40679
    Clone ID Related Accession (Same CDS sequence) XM_009295241.2
    Accession Version XM_009295241.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3861bp)
    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 histone-lysine N-methyltransferase EHMT1 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.7) 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_009295241.1. ##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
    ATGGCTTCAA TGAAAACTGA GCCCTCCAGT TTGGCCAATG GGAATTCAGG CAAGAGGGAA 
    ACCATGAAGT CCGAGGGGAC AAAAGAGTCT CGCAGTGATC AAGAAGAAGG AGGAGATGAT
    GATCACCAGG ATGGGCGAAC AGGCCCTCTT AGAGAGGCCA TTGAGCAGAA TGGGACCTAT
    GAAAATATGG ACACAAAGAG AAATGAACAG AACCTCTCTA CACAAGGGTC ACCAGCACGA
    CCCTCAACCA TGGAGAATGG GCTATCAGAA ACTGAGCCAC CGCATGGCTC AAAAGTAGGC
    AGTAATGGAT ATATTCTAAG CAAAGTAAAG GAAGATACAG TGTCAGCCCC TCACAGGACT
    AACTGGTCCC CCACTGGGGG TACCACATTG GGGCATGGGA CTAAAAGCTC ACCGCCTTCA
    GTGTTGCAAT CTCTAGACCA GGGTTCTTCA AACAGTGGTG CAAGCCAAGG ACCAAGTCTA
    ACAGAGAGAC GAGCAGAAAC AGAGACTAAA AATGGCATCA TTTCAAAAAC ACCCCCACCA
    ACAGTACATC GTGCACGTAA AACTATGTCA AGGCCGGCCT CAAACCAGAC ACTAAAGCTT
    TTGAACAGGG AAAATAAAGA GCCAGTCGTG GTAAAAGATG ACAGTGCAGG CAAACCAGAG
    GCAGTGCAGC CTCAGCCATC TCTAATCCAG AATCAGCTAC CTCAAAGCCA AACTGACGCC
    ACATCTGTAC CGAACACCAC ACCTGCCAAG CCACAAATAG AATTCTCTCT TTATGCATCG
    ACAGTTGAAC CCAGACCTGT CTCTCCCTCA GTAGCAGCCG TATCAAGGAA GAAAAAAAGA
    AAGATGGGAA CATATAGTCT TGTACCCAAG AAGAAAAACA AAGTCTTGAA ACAACGCACA
    GTTCTGGAGA TGTTTCAGCA GATATCCCAG TCTCCACCCA ACCCTAAGCC AAAGGAGATT
    GTGCGTGTGA ATGGAGAGAA AATGGATAAT GAGTCTGATG AGGAGGAGTC AGAGGAAGGG
    GAAGACACAG AGGATGAAGA AGAGCTAGTC ACAGAAGATG GAGCCAAAGC TTCACATGAG
    GAACCTAGGA TACCTTCGAT CTCACAGCCC CTGGAAGAAG AGTCTGAGGA GTCTCAAGAC
    TGTGAAGGTG AAGAGGAAGG GGATGAATCA GACTTGAGTT CAGAATCCAG TTTGAAAAAG
    AAATGGAAAA AGAAAGCCAA AGGAGATCAT GCCTGGCTCC GACCGTCAAG GAAACGCAAG
    AGGAAATGGA AAGCAAAAAC GGACAAGGTT TCTGCTCCAG TAACGGAGAT CCAGTCTCGG
    CCAGAAAGCC AGAGCGCCCC ATCAGTCCCT ACTGCTCACA GAAAGGAGTA TAAAGAAGTC
    CCTCTAGACT CTCTCAATCT AGCAGCACAG GAAGCCTTAT TGACATCTCA AAATACAGCT
    GCTTCAGGGT CATTGCAGAG CACAGATGCA GACATGGTGC AGGAACTGCC TCTATGCAGC
    TGTCGAATGG AGACACCCAA GAGTCGAGAG ATCCTCACGC TTGCGGACAG GAAGTGTATG
    GCAACTGAGA GCATTGACGG CCAGCTGAGC CGTTGTCAGA GTGCAGTGCT GAAGCACGAG
    ATGATGAGGC CTTCAAATTC TGTCCAACTG CTGGTTCTGT GTGAGGACCA TCGCACAGGC
    ATGGTCAAGC ATCAGTGCTG CCCTGGCTGT GGCTTCTTTT GCAGAGCCGG TACCTTCATG
    GAGTGTCAGC CAGAGGTGAA CATCTCCCAC CGCTTCCATC GGACCTGTGC CTCGGTACTT
    AATGGGCAGA GCTTTTGTCC ACATTGTGGA GAGGAAGTCA GCAAGGCGAA AGAGGTCACC
    ATTGCCAAGG CAGATACAAC GTCAACTGTA CCCATCACCC ATAGCTCCTG CATACCCAGC
    ACCTCAGAGG GCAAAGCGGA CACTACCACT GGAGGGTCCA CTCGGCTCTC TGTACTTGGA
    GAGGGAAAAG CAAACAGCAC CTTACCCAAA CCTTCAGAAT CACAGGACAC ATCTTTGTCC
    CTTGTGGGTT CCAAAGCCAG GTCTGTAGCG ATGGCAGCTG CACCTGGACT TCCACTTCCA
    CCAGGACCAC CTAAAGAAAC TCTGCAAAGT GTCCTGCTGG CTCTAGATGC TGAAAAGCCC
    AAGAAGCTTC GGTTTCACCC AAAACAATTG TACATTTCTG CCAAACAAGG GGAGCTGCAG
    AAGGTCCTAC TAATGTTGGT GGATGGGATT GATCCCAACT TCAAAATGGA GAGCCAGAAC
    AAACGGACGC CACTCCATGT TGCTGCAGAA GCAGGTCATC AGGATGTCTG CCATATGCTG
    GTACAGGCTG GTGCCAACCT TGACATGTGT GATGAGGACC AGCGGACGCC TCTGATGGAG
    GCCTGTGAGA ACAACCATCT CGAAACTGTG CGATATCTTC TGCGGGCCGG AGCCATCGTC
    TCTCACAAGG ATGTTGAAGG ATCAACTTGT CTCCATCTTG CTGCTAAGAA CGGGCATTTC
    AGCATTGTAC AACATCTGCT CTCTGCAGGC CTTGTTGATA TTAACTGCCA GGATGATGGA
    GGTTGGACAG CCATGATTTG GGCCACAGAG TACAAACATG TGGACCAAGT GAAACTCTTG
    CTCTCCAAAG GGGCTGATAT CAATATACGA GACAAGGAGG AGAATATCTG TCTGCATTGG
    GCCGCTTTCT CTGGCTGCGT GGAAATAGCC GAGATCTTTC TGACTGCCAA GTGTGATCTC
    AACACCATGA ACATCCACGG AGACTCGCCG TTGCACATAG CGTCGCGAGA GGGCCGGCTT
    GACTGTGTAA ACTTGTTTTT GTCTCGTGGT GCTGATGTAA ACCTTAAAAA CAAAGAAGGA
    GAGACGCCCA TGGAGTGCTG CAGCCATAGC TCGAAGGTCT GGAATGCTCT TCAAGCCAAC
    AAAAAGCAGA GAGAAGCAAA CCGCAAAGCT GGCGCCACAG AGAAGCTTCT CAACAAGGAC
    ATCGCTAGAG GTTACGAAAA AGTCCCCGTC CCGTGCGTAA ATGCAGTGGA CAGCGAACCC
    TGTCCTGACA ACTACAAGTA TGTCCCTGAT AGCTGTGTGA CGTCCCCTCT GAACATTGAC
    AAAAATATCA CTCACTTGCA GTACTGTGTC TGTAAAGACG ATTGCTCTTC TGCAAGCTGC
    ATGTGTGGCC AACTAAGCCT GAGATGCTGG TATGATAAAG AGAGTCGTCT GCTGCCTGAG
    TTCAGTAATG AGGAGCCGCC TCTTATATTT GAGTGCAACC ATGCCTGCTC CTGCTGGAGA
    ACCTGCAAAA ACCGTGTGGT ACAGAACGGA CTGAGGACAA GACTGCAGTT GTTCAAGACA
    CAGATGATGG GATGGGGTGT CAAGACATTA CAGGATATCC CTCAAGGAAC ATTTGTTTGC
    GAATACGTGG GTGAGATCAT CTCTGACGCC GAAGCAGATG TCAGAGAGAA TGACTCCTAT
    CTTTTCAGTC TGGACAGCAA GGTGGGTGAC ATGTACTGCG TTGATGCTCG TTTCTACGGG
    AACATCAGCC GGTTCATAAA CCATCACTGT GAGCCCAATC TGCTCCCCTG TCGGGTGTTC
    ACCTCTCACC AGGACCTCCG ATTTCCTCAC ATCGCATTCT TCGCCTGCAA GAACATCAGT
    GCCGGAGATG AACTTGGGTT TGACTATGGC GATCACTTCT GGGACGTAAA GGGGAAGCTG
    TTCAACTGCA AGTGTGGCTC ATCCAAATGC AAGCACTCTG CAGCTGCCAT CGCCCAGACA
    CAGGCAGACA GTACACCAGG TGACCAGCAG CCCAGCGCCC TACCCGATAC CAGCTCATCC
    ACCCCATCCA GCCCCAGCTA A

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

    RefSeq XP_009293516.1
    CDS63..3923
    Translation

    Target ORF information:

    RefSeq Version XM_009295241.2
    Organism Danio rerio(zebrafish)
    Definition Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009295241.2

    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
    ATGGCTTCAA TGAAAACTGA GCCCTCCAGT TTGGCCAATG GGAATTCAGG CAAGAGGGAA 
    ACCATGAAGT CCGAGGGGAC AAAAGAGTCT CGCAGTGATC AAGAAGAAGG AGGAGATGAT
    GATCACCAGG ATGGGCGAAC AGGCCCTCTT AGAGAGGCCA TTGAGCAGAA TGGGACCTAT
    GAAAATATGG ACACAAAGAG AAATGAACAG AACCTCTCTA CACAAGGGTC ACCAGCACGA
    CCCTCAACCA TGGAGAATGG GCTATCAGAA ACTGAGCCAC CGCATGGCTC AAAAGTAGGC
    AGTAATGGAT ATATTCTAAG CAAAGTAAAG GAAGATACAG TGTCAGCCCC TCACAGGACT
    AACTGGTCCC CCACTGGGGG TACCACATTG GGGCATGGGA CTAAAAGCTC ACCGCCTTCA
    GTGTTGCAAT CTCTAGACCA GGGTTCTTCA AACAGTGGTG CAAGCCAAGG ACCAAGTCTA
    ACAGAGAGAC GAGCAGAAAC AGAGACTAAA AATGGCATCA TTTCAAAAAC ACCCCCACCA
    ACAGTACATC GTGCACGTAA AACTATGTCA AGGCCGGCCT CAAACCAGAC ACTAAAGCTT
    TTGAACAGGG AAAATAAAGA GCCAGTCGTG GTAAAAGATG ACAGTGCAGG CAAACCAGAG
    GCAGTGCAGC CTCAGCCATC TCTAATCCAG AATCAGCTAC CTCAAAGCCA AACTGACGCC
    ACATCTGTAC CGAACACCAC ACCTGCCAAG CCACAAATAG AATTCTCTCT TTATGCATCG
    ACAGTTGAAC CCAGACCTGT CTCTCCCTCA GTAGCAGCCG TATCAAGGAA GAAAAAAAGA
    AAGATGGGAA CATATAGTCT TGTACCCAAG AAGAAAAACA AAGTCTTGAA ACAACGCACA
    GTTCTGGAGA TGTTTCAGCA GATATCCCAG TCTCCACCCA ACCCTAAGCC AAAGGAGATT
    GTGCGTGTGA ATGGAGAGAA AATGGATAAT GAGTCTGATG AGGAGGAGTC AGAGGAAGGG
    GAAGACACAG AGGATGAAGA AGAGCTAGTC ACAGAAGATG GAGCCAAAGC TTCACATGAG
    GAACCTAGGA TACCTTCGAT CTCACAGCCC CTGGAAGAAG AGTCTGAGGA GTCTCAAGAC
    TGTGAAGGTG AAGAGGAAGG GGATGAATCA GACTTGAGTT CAGAATCCAG TTTGAAAAAG
    AAATGGAAAA AGAAAGCCAA AGGAGATCAT GCCTGGCTCC GACCGTCAAG GAAACGCAAG
    AGGAAATGGA AAGCAAAAAC GGACAAGGTT TCTGCTCCAG TAACGGAGAT CCAGTCTCGG
    CCAGAAAGCC AGAGCGCCCC ATCAGTCCCT ACTGCTCACA GAAAGGAGTA TAAAGAAGTC
    CCTCTAGACT CTCTCAATCT AGCAGCACAG GAAGCCTTAT TGACATCTCA AAATACAGCT
    GCTTCAGGGT CATTGCAGAG CACAGATGCA GACATGGTGC AGGAACTGCC TCTATGCAGC
    TGTCGAATGG AGACACCCAA GAGTCGAGAG ATCCTCACGC TTGCGGACAG GAAGTGTATG
    GCAACTGAGA GCATTGACGG CCAGCTGAGC CGTTGTCAGA GTGCAGTGCT GAAGCACGAG
    ATGATGAGGC CTTCAAATTC TGTCCAACTG CTGGTTCTGT GTGAGGACCA TCGCACAGGC
    ATGGTCAAGC ATCAGTGCTG CCCTGGCTGT GGCTTCTTTT GCAGAGCCGG TACCTTCATG
    GAGTGTCAGC CAGAGGTGAA CATCTCCCAC CGCTTCCATC GGACCTGTGC CTCGGTACTT
    AATGGGCAGA GCTTTTGTCC ACATTGTGGA GAGGAAGTCA GCAAGGCGAA AGAGGTCACC
    ATTGCCAAGG CAGATACAAC GTCAACTGTA CCCATCACCC ATAGCTCCTG CATACCCAGC
    ACCTCAGAGG GCAAAGCGGA CACTACCACT GGAGGGTCCA CTCGGCTCTC TGTACTTGGA
    GAGGGAAAAG CAAACAGCAC CTTACCCAAA CCTTCAGAAT CACAGGACAC ATCTTTGTCC
    CTTGTGGGTT CCAAAGCCAG GTCTGTAGCG ATGGCAGCTG CACCTGGACT TCCACTTCCA
    CCAGGACCAC CTAAAGAAAC TCTGCAAAGT GTCCTGCTGG CTCTAGATGC TGAAAAGCCC
    AAGAAGCTTC GGTTTCACCC AAAACAATTG TACATTTCTG CCAAACAAGG GGAGCTGCAG
    AAGGTCCTAC TAATGTTGGT GGATGGGATT GATCCCAACT TCAAAATGGA GAGCCAGAAC
    AAACGGACGC CACTCCATGT TGCTGCAGAA GCAGGTCATC AGGATGTCTG CCATATGCTG
    GTACAGGCTG GTGCCAACCT TGACATGTGT GATGAGGACC AGCGGACGCC TCTGATGGAG
    GCCTGTGAGA ACAACCATCT CGAAACTGTG CGATATCTTC TGCGGGCCGG AGCCATCGTC
    TCTCACAAGG ATGTTGAAGG ATCAACTTGT CTCCATCTTG CTGCTAAGAA CGGGCATTTC
    AGCATTGTAC AACATCTGCT CTCTGCAGGC CTTGTTGATA TTAACTGCCA GGATGATGGA
    GGTTGGACAG CCATGATTTG GGCCACAGAG TACAAACATG TGGACCAAGT GAAACTCTTG
    CTCTCCAAAG GGGCTGATAT CAATATACGA GACAAGGAGG AGAATATCTG TCTGCATTGG
    GCCGCTTTCT CTGGCTGCGT GGAAATAGCC GAGATCTTTC TGACTGCCAA GTGTGATCTC
    AACACCATGA ACATCCACGG AGACTCGCCG TTGCACATAG CGTCGCGAGA GGGCCGGCTT
    GACTGTGTAA ACTTGTTTTT GTCTCGTGGT GCTGATGTAA ACCTTAAAAA CAAAGAAGGA
    GAGACGCCCA TGGAGTGCTG CAGCCATAGC TCGAAGGTCT GGAATGCTCT TCAAGCCAAC
    AAAAAGCAGA GAGAAGCAAA CCGCAAAGCT GGCGCCACAG AGAAGCTTCT CAACAAGGAC
    ATCGCTAGAG GTTACGAAAA AGTCCCCGTC CCGTGCGTAA ATGCAGTGGA CAGCGAACCC
    TGTCCTGACA ACTACAAGTA TGTCCCTGAT AGCTGTGTGA CGTCCCCTCT GAACATTGAC
    AAAAATATCA CTCACTTGCA GTACTGTGTC TGTAAAGACG ATTGCTCTTC TGCAAGCTGC
    ATGTGTGGCC AACTAAGCCT GAGATGCTGG TATGATAAAG AGAGTCGTCT GCTGCCTGAG
    TTCAGTAATG AGGAGCCGCC TCTTATATTT GAGTGCAACC ATGCCTGCTC CTGCTGGAGA
    ACCTGCAAAA ACCGTGTGGT ACAGAACGGA CTGAGGACAA GACTGCAGTT GTTCAAGACA
    CAGATGATGG GATGGGGTGT CAAGACATTA CAGGATATCC CTCAAGGAAC ATTTGTTTGC
    GAATACGTGG GTGAGATCAT CTCTGACGCC GAAGCAGATG TCAGAGAGAA TGACTCCTAT
    CTTTTCAGTC TGGACAGCAA GGTGGGTGAC ATGTACTGCG TTGATGCTCG TTTCTACGGG
    AACATCAGCC GGTTCATAAA CCATCACTGT GAGCCCAATC TGCTCCCCTG TCGGGTGTTC
    ACCTCTCACC AGGACCTCCG ATTTCCTCAC ATCGCATTCT TCGCCTGCAA GAACATCAGT
    GCCGGAGATG AACTTGGGTT TGACTATGGC GATCACTTCT GGGACGTAAA GGGGAAGCTG
    TTCAACTGCA AGTGTGGCTC ATCCAAATGC AAGCACTCTG CAGCTGCCAT CGCCCAGACA
    CAGGCAGACA GTACACCAGG TGACCAGCAG CCCAGCGCCC TACCCGATAC CAGCTCATCC
    ACCCCATCCA GCCCCAGCTA A

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

    CloneID ODa40680
    Clone ID Related Accession (Same CDS sequence) XM_017352762.1 , XM_009295242.2 , XM_009295242.3 , XM_009295243.3 , XM_009295243.2
    Accession Version XM_017352762.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3798bp)
    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 histone-lysine N-methyltransferase EHMT1 isoform X4
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.6) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGAAGTCCG AGGGGACAAA AGAGTCTCGC AGTGATCAAG AAGAAGGAGG AGATGATGAT 
    CACCAGGATG GGCGAACAGG CCCTCTTAGA GAGGCCATTG AGCAGAATGG GACCTATGAA
    AATATGGACA CAAAGAGAAA TGAACAGAAC CTCTCTACAC AAGGGTCACC AGCACGACCC
    TCAACCATGG AGAATGGGCT ATCAGAAACT GAGCCACCGC ATGGCTCAAA AGTAGGCAGT
    AATGGATATA TTCTAAGCAA AGTAAAGGAA GATACAGTGT CAGCCCCTCA CAGGACTAAC
    TGGTCCCCCA CTGGGGGTAC CACATTGGGG CATGGGACTA AAAGCTCACC GCCTTCAGTG
    TTGCAATCTC TAGACCAGGG TTCTTCAAAC AGTGGTGCAA GCCAAGGACC AAGTCTAACA
    GAGAGACGAG CAGAAACAGA GACTAAAAAT GGCATCATTT CAAAAACACC CCCACCAACA
    GTACATCGTG CACGTAAAAC TATGTCAAGG CCGGCCTCAA ACCAGACACT AAAGCTTTTG
    AACAGGGAAA ATAAAGAGCC AGTCGTGGTA AAAGATGACA GTGCAGGCAA ACCAGAGGCA
    GTGCAGCCTC AGCCATCTCT AATCCAGAAT CAGCTACCTC AAAGCCAAAC TGACGCCACA
    TCTGTACCGA ACACCACACC TGCCAAGCCA CAAATAGAAT TCTCTCTTTA TGCATCGACA
    GTTGAACCCA GACCTGTCTC TCCCTCAGTA GCAGCCGTAT CAAGGAAGAA AAAAAGAAAG
    ATGGGAACAT ATAGTCTTGT ACCCAAGAAG AAAAACAAAG TCTTGAAACA ACGCACAGTT
    CTGGAGATGT TTCAGCAGAT ATCCCAGTCT CCACCCAACC CTAAGCCAAA GGAGATTGTG
    CGTGTGAATG GAGAGAAAAT GGATAATGAG TCTGATGAGG AGGAGTCAGA GGAAGGGGAA
    GACACAGAGG ATGAAGAAGA GCTAGTCACA GAAGATGGAG CCAAAGCTTC ACATGAGGAA
    CCTAGGATAC CTTCGATCTC ACAGCCCCTG GAAGAAGAGT CTGAGGAGTC TCAAGACTGT
    GAAGGTGAAG AGGAAGGGGA TGAATCAGAC TTGAGTTCAG AATCCAGTTT GAAAAAGAAA
    TGGAAAAAGA AAGCCAAAGG AGATCATGCC TGGCTCCGAC CGTCAAGGAA ACGCAAGAGG
    AAATGGAAAG CAAAAACGGA CAAGGTTTCT GCTCCAGTAA CGGAGATCCA GTCTCGGCCA
    GAAAGCCAGA GCGCCCCATC AGTCCCTACT GCTCACAGAA AGGAGTATAA AGAAGTCCCT
    CTAGACTCTC TCAATCTAGC AGCACAGGAA GCCTTATTGA CATCTCAAAA TACAGCTGCT
    TCAGGGTCAT TGCAGAGCAC AGATGCAGAC ATGGTGCAGG AACTGCCTCT ATGCAGCTGT
    CGAATGGAGA CACCCAAGAG TCGAGAGATC CTCACGCTTG CGGACAGGAA GTGTATGGCA
    ACTGAGAGCA TTGACGGCCA GCTGAGCCGT TGTCAGAGTG CAGTGCTGAA GCACGAGATG
    ATGAGGCCTT CAAATTCTGT CCAACTGCTG GTTCTGTGTG AGGACCATCG CACAGGCATG
    GTCAAGCATC AGTGCTGCCC TGGCTGTGGC TTCTTTTGCA GAGCCGGTAC CTTCATGGAG
    TGTCAGCCAG AGGTGAACAT CTCCCACCGC TTCCATCGGA CCTGTGCCTC GGTACTTAAT
    GGGCAGAGCT TTTGTCCACA TTGTGGAGAG GAAGTCAGCA AGGCGAAAGA GGTCACCATT
    GCCAAGGCAG ATACAACGTC AACTGTACCC ATCACCCATA GCTCCTGCAT ACCCAGCACC
    TCAGAGGGCA AAGCGGACAC TACCACTGGA GGGTCCACTC GGCTCTCTGT ACTTGGAGAG
    GGAAAAGCAA ACAGCACCTT ACCCAAACCT TCAGAATCAC AGGACACATC TTTGTCCCTT
    GTGGGTTCCA AAGCCAGGTC TGTAGCGATG GCAGCTGCAC CTGGACTTCC ACTTCCACCA
    GGACCACCTA AAGAAACTCT GCAAAGTGTC CTGCTGGCTC TAGATGCTGA AAAGCCCAAG
    AAGCTTCGGT TTCACCCAAA ACAATTGTAC ATTTCTGCCA AACAAGGGGA GCTGCAGAAG
    GTCCTACTAA TGTTGGTGGA TGGGATTGAT CCCAACTTCA AAATGGAGAG CCAGAACAAA
    CGGACGCCAC TCCATGTTGC TGCAGAAGCA GGTCATCAGG ATGTCTGCCA TATGCTGGTA
    CAGGCTGGTG CCAACCTTGA CATGTGTGAT GAGGACCAGC GGACGCCTCT GATGGAGGCC
    TGTGAGAACA ACCATCTCGA AACTGTGCGA TATCTTCTGC GGGCCGGAGC CATCGTCTCT
    CACAAGGATG TTGAAGGATC AACTTGTCTC CATCTTGCTG CTAAGAACGG GCATTTCAGC
    ATTGTACAAC ATCTGCTCTC TGCAGGCCTT GTTGATATTA ACTGCCAGGA TGATGGAGGT
    TGGACAGCCA TGATTTGGGC CACAGAGTAC AAACATGTGG ACCAAGTGAA ACTCTTGCTC
    TCCAAAGGGG CTGATATCAA TATACGAGAC AAGGAGGAGA ATATCTGTCT GCATTGGGCC
    GCTTTCTCTG GCTGCGTGGA AATAGCCGAG ATCTTTCTGA CTGCCAAGTG TGATCTCAAC
    ACCATGAACA TCCACGGAGA CTCGCCGTTG CACATAGCGT CGCGAGAGGG CCGGCTTGAC
    TGTGTAAACT TGTTTTTGTC TCGTGGTGCT GATGTAAACC TTAAAAACAA AGAAGGAGAG
    ACGCCCATGG AGTGCTGCAG CCATAGCTCG AAGGTCTGGA ATGCTCTTCA AGCCAACAAA
    AAGCAGAGAG AAGCAAACCG CAAAGCTGGC GCCACAGAGA AGCTTCTCAA CAAGGACATC
    GCTAGAGGTT ACGAAAAAGT CCCCGTCCCG TGCGTAAATG CAGTGGACAG CGAACCCTGT
    CCTGACAACT ACAAGTATGT CCCTGATAGC TGTGTGACGT CCCCTCTGAA CATTGACAAA
    AATATCACTC ACTTGCAGTA CTGTGTCTGT AAAGACGATT GCTCTTCTGC AAGCTGCATG
    TGTGGCCAAC TAAGCCTGAG ATGCTGGTAT GATAAAGAGA GTCGTCTGCT GCCTGAGTTC
    AGTAATGAGG AGCCGCCTCT TATATTTGAG TGCAACCATG CCTGCTCCTG CTGGAGAACC
    TGCAAAAACC GTGTGGTACA GAACGGACTG AGGACAAGAC TGCAGTTGTT CAAGACACAG
    ATGATGGGAT GGGGTGTCAA GACATTACAG GATATCCCTC AAGGAACATT TGTTTGCGAA
    TACGTGGGTG AGATCATCTC TGACGCCGAA GCAGATGTCA GAGAGAATGA CTCCTATCTT
    TTCAGTCTGG ACAGCAAGGT GGGTGACATG TACTGCGTTG ATGCTCGTTT CTACGGGAAC
    ATCAGCCGGT TCATAAACCA TCACTGTGAG CCCAATCTGC TCCCCTGTCG GGTGTTCACC
    TCTCACCAGG ACCTCCGATT TCCTCACATC GCATTCTTCG CCTGCAAGAA CATCAGTGCC
    GGAGATGAAC TTGGGTTTGA CTATGGCGAT CACTTCTGGG ACGTAAAGGG GAAGCTGTTC
    AACTGCAAGT GTGGCTCATC CAAATGCAAG CACTCTGCAG CTGCCATCGC CCAGACACAG
    GCAGACAGTA CACCAGGTGA CCAGCAGCCC AGCGCCCTAC CCGATACCAG CTCATCCACC
    CCATCCAGCC CCAGCTAA

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

    RefSeq XP_017208251.1
    CDS126..3923
    Translation

    Target ORF information:

    RefSeq Version XM_017352762.1
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017352762.1

    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
    ATGAAGTCCG AGGGGACAAA AGAGTCTCGC AGTGATCAAG AAGAAGGAGG AGATGATGAT 
    CACCAGGATG GGCGAACAGG CCCTCTTAGA GAGGCCATTG AGCAGAATGG GACCTATGAA
    AATATGGACA CAAAGAGAAA TGAACAGAAC CTCTCTACAC AAGGGTCACC AGCACGACCC
    TCAACCATGG AGAATGGGCT ATCAGAAACT GAGCCACCGC ATGGCTCAAA AGTAGGCAGT
    AATGGATATA TTCTAAGCAA AGTAAAGGAA GATACAGTGT CAGCCCCTCA CAGGACTAAC
    TGGTCCCCCA CTGGGGGTAC CACATTGGGG CATGGGACTA AAAGCTCACC GCCTTCAGTG
    TTGCAATCTC TAGACCAGGG TTCTTCAAAC AGTGGTGCAA GCCAAGGACC AAGTCTAACA
    GAGAGACGAG CAGAAACAGA GACTAAAAAT GGCATCATTT CAAAAACACC CCCACCAACA
    GTACATCGTG CACGTAAAAC TATGTCAAGG CCGGCCTCAA ACCAGACACT AAAGCTTTTG
    AACAGGGAAA ATAAAGAGCC AGTCGTGGTA AAAGATGACA GTGCAGGCAA ACCAGAGGCA
    GTGCAGCCTC AGCCATCTCT AATCCAGAAT CAGCTACCTC AAAGCCAAAC TGACGCCACA
    TCTGTACCGA ACACCACACC TGCCAAGCCA CAAATAGAAT TCTCTCTTTA TGCATCGACA
    GTTGAACCCA GACCTGTCTC TCCCTCAGTA GCAGCCGTAT CAAGGAAGAA AAAAAGAAAG
    ATGGGAACAT ATAGTCTTGT ACCCAAGAAG AAAAACAAAG TCTTGAAACA ACGCACAGTT
    CTGGAGATGT TTCAGCAGAT ATCCCAGTCT CCACCCAACC CTAAGCCAAA GGAGATTGTG
    CGTGTGAATG GAGAGAAAAT GGATAATGAG TCTGATGAGG AGGAGTCAGA GGAAGGGGAA
    GACACAGAGG ATGAAGAAGA GCTAGTCACA GAAGATGGAG CCAAAGCTTC ACATGAGGAA
    CCTAGGATAC CTTCGATCTC ACAGCCCCTG GAAGAAGAGT CTGAGGAGTC TCAAGACTGT
    GAAGGTGAAG AGGAAGGGGA TGAATCAGAC TTGAGTTCAG AATCCAGTTT GAAAAAGAAA
    TGGAAAAAGA AAGCCAAAGG AGATCATGCC TGGCTCCGAC CGTCAAGGAA ACGCAAGAGG
    AAATGGAAAG CAAAAACGGA CAAGGTTTCT GCTCCAGTAA CGGAGATCCA GTCTCGGCCA
    GAAAGCCAGA GCGCCCCATC AGTCCCTACT GCTCACAGAA AGGAGTATAA AGAAGTCCCT
    CTAGACTCTC TCAATCTAGC AGCACAGGAA GCCTTATTGA CATCTCAAAA TACAGCTGCT
    TCAGGGTCAT TGCAGAGCAC AGATGCAGAC ATGGTGCAGG AACTGCCTCT ATGCAGCTGT
    CGAATGGAGA CACCCAAGAG TCGAGAGATC CTCACGCTTG CGGACAGGAA GTGTATGGCA
    ACTGAGAGCA TTGACGGCCA GCTGAGCCGT TGTCAGAGTG CAGTGCTGAA GCACGAGATG
    ATGAGGCCTT CAAATTCTGT CCAACTGCTG GTTCTGTGTG AGGACCATCG CACAGGCATG
    GTCAAGCATC AGTGCTGCCC TGGCTGTGGC TTCTTTTGCA GAGCCGGTAC CTTCATGGAG
    TGTCAGCCAG AGGTGAACAT CTCCCACCGC TTCCATCGGA CCTGTGCCTC GGTACTTAAT
    GGGCAGAGCT TTTGTCCACA TTGTGGAGAG GAAGTCAGCA AGGCGAAAGA GGTCACCATT
    GCCAAGGCAG ATACAACGTC AACTGTACCC ATCACCCATA GCTCCTGCAT ACCCAGCACC
    TCAGAGGGCA AAGCGGACAC TACCACTGGA GGGTCCACTC GGCTCTCTGT ACTTGGAGAG
    GGAAAAGCAA ACAGCACCTT ACCCAAACCT TCAGAATCAC AGGACACATC TTTGTCCCTT
    GTGGGTTCCA AAGCCAGGTC TGTAGCGATG GCAGCTGCAC CTGGACTTCC ACTTCCACCA
    GGACCACCTA AAGAAACTCT GCAAAGTGTC CTGCTGGCTC TAGATGCTGA AAAGCCCAAG
    AAGCTTCGGT TTCACCCAAA ACAATTGTAC ATTTCTGCCA AACAAGGGGA GCTGCAGAAG
    GTCCTACTAA TGTTGGTGGA TGGGATTGAT CCCAACTTCA AAATGGAGAG CCAGAACAAA
    CGGACGCCAC TCCATGTTGC TGCAGAAGCA GGTCATCAGG ATGTCTGCCA TATGCTGGTA
    CAGGCTGGTG CCAACCTTGA CATGTGTGAT GAGGACCAGC GGACGCCTCT GATGGAGGCC
    TGTGAGAACA ACCATCTCGA AACTGTGCGA TATCTTCTGC GGGCCGGAGC CATCGTCTCT
    CACAAGGATG TTGAAGGATC AACTTGTCTC CATCTTGCTG CTAAGAACGG GCATTTCAGC
    ATTGTACAAC ATCTGCTCTC TGCAGGCCTT GTTGATATTA ACTGCCAGGA TGATGGAGGT
    TGGACAGCCA TGATTTGGGC CACAGAGTAC AAACATGTGG ACCAAGTGAA ACTCTTGCTC
    TCCAAAGGGG CTGATATCAA TATACGAGAC AAGGAGGAGA ATATCTGTCT GCATTGGGCC
    GCTTTCTCTG GCTGCGTGGA AATAGCCGAG ATCTTTCTGA CTGCCAAGTG TGATCTCAAC
    ACCATGAACA TCCACGGAGA CTCGCCGTTG CACATAGCGT CGCGAGAGGG CCGGCTTGAC
    TGTGTAAACT TGTTTTTGTC TCGTGGTGCT GATGTAAACC TTAAAAACAA AGAAGGAGAG
    ACGCCCATGG AGTGCTGCAG CCATAGCTCG AAGGTCTGGA ATGCTCTTCA AGCCAACAAA
    AAGCAGAGAG AAGCAAACCG CAAAGCTGGC GCCACAGAGA AGCTTCTCAA CAAGGACATC
    GCTAGAGGTT ACGAAAAAGT CCCCGTCCCG TGCGTAAATG CAGTGGACAG CGAACCCTGT
    CCTGACAACT ACAAGTATGT CCCTGATAGC TGTGTGACGT CCCCTCTGAA CATTGACAAA
    AATATCACTC ACTTGCAGTA CTGTGTCTGT AAAGACGATT GCTCTTCTGC AAGCTGCATG
    TGTGGCCAAC TAAGCCTGAG ATGCTGGTAT GATAAAGAGA GTCGTCTGCT GCCTGAGTTC
    AGTAATGAGG AGCCGCCTCT TATATTTGAG TGCAACCATG CCTGCTCCTG CTGGAGAACC
    TGCAAAAACC GTGTGGTACA GAACGGACTG AGGACAAGAC TGCAGTTGTT CAAGACACAG
    ATGATGGGAT GGGGTGTCAA GACATTACAG GATATCCCTC AAGGAACATT TGTTTGCGAA
    TACGTGGGTG AGATCATCTC TGACGCCGAA GCAGATGTCA GAGAGAATGA CTCCTATCTT
    TTCAGTCTGG ACAGCAAGGT GGGTGACATG TACTGCGTTG ATGCTCGTTT CTACGGGAAC
    ATCAGCCGGT TCATAAACCA TCACTGTGAG CCCAATCTGC TCCCCTGTCG GGTGTTCACC
    TCTCACCAGG ACCTCCGATT TCCTCACATC GCATTCTTCG CCTGCAAGAA CATCAGTGCC
    GGAGATGAAC TTGGGTTTGA CTATGGCGAT CACTTCTGGG ACGTAAAGGG GAAGCTGTTC
    AACTGCAAGT GTGGCTCATC CAAATGCAAG CACTCTGCAG CTGCCATCGC CCAGACACAG
    GCAGACAGTA CACCAGGTGA CCAGCAGCCC AGCGCCCTAC CCGATACCAG CTCATCCACC
    CCATCCAGCC CCAGCTAA

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

    CloneID ODa40680
    Clone ID Related Accession (Same CDS sequence) XM_017352762.1 , XM_009295242.2 , XM_009295242.3 , XM_009295243.3 , XM_009295243.2
    Accession Version XM_009295242.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3798bp)
    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 histone-lysine N-methyltransferase EHMT1 isoform X4
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.6) 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_009295242.1. ##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
    ATGAAGTCCG AGGGGACAAA AGAGTCTCGC AGTGATCAAG AAGAAGGAGG AGATGATGAT 
    CACCAGGATG GGCGAACAGG CCCTCTTAGA GAGGCCATTG AGCAGAATGG GACCTATGAA
    AATATGGACA CAAAGAGAAA TGAACAGAAC CTCTCTACAC AAGGGTCACC AGCACGACCC
    TCAACCATGG AGAATGGGCT ATCAGAAACT GAGCCACCGC ATGGCTCAAA AGTAGGCAGT
    AATGGATATA TTCTAAGCAA AGTAAAGGAA GATACAGTGT CAGCCCCTCA CAGGACTAAC
    TGGTCCCCCA CTGGGGGTAC CACATTGGGG CATGGGACTA AAAGCTCACC GCCTTCAGTG
    TTGCAATCTC TAGACCAGGG TTCTTCAAAC AGTGGTGCAA GCCAAGGACC AAGTCTAACA
    GAGAGACGAG CAGAAACAGA GACTAAAAAT GGCATCATTT CAAAAACACC CCCACCAACA
    GTACATCGTG CACGTAAAAC TATGTCAAGG CCGGCCTCAA ACCAGACACT AAAGCTTTTG
    AACAGGGAAA ATAAAGAGCC AGTCGTGGTA AAAGATGACA GTGCAGGCAA ACCAGAGGCA
    GTGCAGCCTC AGCCATCTCT AATCCAGAAT CAGCTACCTC AAAGCCAAAC TGACGCCACA
    TCTGTACCGA ACACCACACC TGCCAAGCCA CAAATAGAAT TCTCTCTTTA TGCATCGACA
    GTTGAACCCA GACCTGTCTC TCCCTCAGTA GCAGCCGTAT CAAGGAAGAA AAAAAGAAAG
    ATGGGAACAT ATAGTCTTGT ACCCAAGAAG AAAAACAAAG TCTTGAAACA ACGCACAGTT
    CTGGAGATGT TTCAGCAGAT ATCCCAGTCT CCACCCAACC CTAAGCCAAA GGAGATTGTG
    CGTGTGAATG GAGAGAAAAT GGATAATGAG TCTGATGAGG AGGAGTCAGA GGAAGGGGAA
    GACACAGAGG ATGAAGAAGA GCTAGTCACA GAAGATGGAG CCAAAGCTTC ACATGAGGAA
    CCTAGGATAC CTTCGATCTC ACAGCCCCTG GAAGAAGAGT CTGAGGAGTC TCAAGACTGT
    GAAGGTGAAG AGGAAGGGGA TGAATCAGAC TTGAGTTCAG AATCCAGTTT GAAAAAGAAA
    TGGAAAAAGA AAGCCAAAGG AGATCATGCC TGGCTCCGAC CGTCAAGGAA ACGCAAGAGG
    AAATGGAAAG CAAAAACGGA CAAGGTTTCT GCTCCAGTAA CGGAGATCCA GTCTCGGCCA
    GAAAGCCAGA GCGCCCCATC AGTCCCTACT GCTCACAGAA AGGAGTATAA AGAAGTCCCT
    CTAGACTCTC TCAATCTAGC AGCACAGGAA GCCTTATTGA CATCTCAAAA TACAGCTGCT
    TCAGGGTCAT TGCAGAGCAC AGATGCAGAC ATGGTGCAGG AACTGCCTCT ATGCAGCTGT
    CGAATGGAGA CACCCAAGAG TCGAGAGATC CTCACGCTTG CGGACAGGAA GTGTATGGCA
    ACTGAGAGCA TTGACGGCCA GCTGAGCCGT TGTCAGAGTG CAGTGCTGAA GCACGAGATG
    ATGAGGCCTT CAAATTCTGT CCAACTGCTG GTTCTGTGTG AGGACCATCG CACAGGCATG
    GTCAAGCATC AGTGCTGCCC TGGCTGTGGC TTCTTTTGCA GAGCCGGTAC CTTCATGGAG
    TGTCAGCCAG AGGTGAACAT CTCCCACCGC TTCCATCGGA CCTGTGCCTC GGTACTTAAT
    GGGCAGAGCT TTTGTCCACA TTGTGGAGAG GAAGTCAGCA AGGCGAAAGA GGTCACCATT
    GCCAAGGCAG ATACAACGTC AACTGTACCC ATCACCCATA GCTCCTGCAT ACCCAGCACC
    TCAGAGGGCA AAGCGGACAC TACCACTGGA GGGTCCACTC GGCTCTCTGT ACTTGGAGAG
    GGAAAAGCAA ACAGCACCTT ACCCAAACCT TCAGAATCAC AGGACACATC TTTGTCCCTT
    GTGGGTTCCA AAGCCAGGTC TGTAGCGATG GCAGCTGCAC CTGGACTTCC ACTTCCACCA
    GGACCACCTA AAGAAACTCT GCAAAGTGTC CTGCTGGCTC TAGATGCTGA AAAGCCCAAG
    AAGCTTCGGT TTCACCCAAA ACAATTGTAC ATTTCTGCCA AACAAGGGGA GCTGCAGAAG
    GTCCTACTAA TGTTGGTGGA TGGGATTGAT CCCAACTTCA AAATGGAGAG CCAGAACAAA
    CGGACGCCAC TCCATGTTGC TGCAGAAGCA GGTCATCAGG ATGTCTGCCA TATGCTGGTA
    CAGGCTGGTG CCAACCTTGA CATGTGTGAT GAGGACCAGC GGACGCCTCT GATGGAGGCC
    TGTGAGAACA ACCATCTCGA AACTGTGCGA TATCTTCTGC GGGCCGGAGC CATCGTCTCT
    CACAAGGATG TTGAAGGATC AACTTGTCTC CATCTTGCTG CTAAGAACGG GCATTTCAGC
    ATTGTACAAC ATCTGCTCTC TGCAGGCCTT GTTGATATTA ACTGCCAGGA TGATGGAGGT
    TGGACAGCCA TGATTTGGGC CACAGAGTAC AAACATGTGG ACCAAGTGAA ACTCTTGCTC
    TCCAAAGGGG CTGATATCAA TATACGAGAC AAGGAGGAGA ATATCTGTCT GCATTGGGCC
    GCTTTCTCTG GCTGCGTGGA AATAGCCGAG ATCTTTCTGA CTGCCAAGTG TGATCTCAAC
    ACCATGAACA TCCACGGAGA CTCGCCGTTG CACATAGCGT CGCGAGAGGG CCGGCTTGAC
    TGTGTAAACT TGTTTTTGTC TCGTGGTGCT GATGTAAACC TTAAAAACAA AGAAGGAGAG
    ACGCCCATGG AGTGCTGCAG CCATAGCTCG AAGGTCTGGA ATGCTCTTCA AGCCAACAAA
    AAGCAGAGAG AAGCAAACCG CAAAGCTGGC GCCACAGAGA AGCTTCTCAA CAAGGACATC
    GCTAGAGGTT ACGAAAAAGT CCCCGTCCCG TGCGTAAATG CAGTGGACAG CGAACCCTGT
    CCTGACAACT ACAAGTATGT CCCTGATAGC TGTGTGACGT CCCCTCTGAA CATTGACAAA
    AATATCACTC ACTTGCAGTA CTGTGTCTGT AAAGACGATT GCTCTTCTGC AAGCTGCATG
    TGTGGCCAAC TAAGCCTGAG ATGCTGGTAT GATAAAGAGA GTCGTCTGCT GCCTGAGTTC
    AGTAATGAGG AGCCGCCTCT TATATTTGAG TGCAACCATG CCTGCTCCTG CTGGAGAACC
    TGCAAAAACC GTGTGGTACA GAACGGACTG AGGACAAGAC TGCAGTTGTT CAAGACACAG
    ATGATGGGAT GGGGTGTCAA GACATTACAG GATATCCCTC AAGGAACATT TGTTTGCGAA
    TACGTGGGTG AGATCATCTC TGACGCCGAA GCAGATGTCA GAGAGAATGA CTCCTATCTT
    TTCAGTCTGG ACAGCAAGGT GGGTGACATG TACTGCGTTG ATGCTCGTTT CTACGGGAAC
    ATCAGCCGGT TCATAAACCA TCACTGTGAG CCCAATCTGC TCCCCTGTCG GGTGTTCACC
    TCTCACCAGG ACCTCCGATT TCCTCACATC GCATTCTTCG CCTGCAAGAA CATCAGTGCC
    GGAGATGAAC TTGGGTTTGA CTATGGCGAT CACTTCTGGG ACGTAAAGGG GAAGCTGTTC
    AACTGCAAGT GTGGCTCATC CAAATGCAAG CACTCTGCAG CTGCCATCGC CCAGACACAG
    GCAGACAGTA CACCAGGTGA CCAGCAGCCC AGCGCCCTAC CCGATACCAG CTCATCCACC
    CCATCCAGCC CCAGCTAA

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

    RefSeq XP_009293517.1
    CDS140..3937
    Translation

    Target ORF information:

    RefSeq Version XM_009295242.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009295242.2

    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
    ATGAAGTCCG AGGGGACAAA AGAGTCTCGC AGTGATCAAG AAGAAGGAGG AGATGATGAT 
    CACCAGGATG GGCGAACAGG CCCTCTTAGA GAGGCCATTG AGCAGAATGG GACCTATGAA
    AATATGGACA CAAAGAGAAA TGAACAGAAC CTCTCTACAC AAGGGTCACC AGCACGACCC
    TCAACCATGG AGAATGGGCT ATCAGAAACT GAGCCACCGC ATGGCTCAAA AGTAGGCAGT
    AATGGATATA TTCTAAGCAA AGTAAAGGAA GATACAGTGT CAGCCCCTCA CAGGACTAAC
    TGGTCCCCCA CTGGGGGTAC CACATTGGGG CATGGGACTA AAAGCTCACC GCCTTCAGTG
    TTGCAATCTC TAGACCAGGG TTCTTCAAAC AGTGGTGCAA GCCAAGGACC AAGTCTAACA
    GAGAGACGAG CAGAAACAGA GACTAAAAAT GGCATCATTT CAAAAACACC CCCACCAACA
    GTACATCGTG CACGTAAAAC TATGTCAAGG CCGGCCTCAA ACCAGACACT AAAGCTTTTG
    AACAGGGAAA ATAAAGAGCC AGTCGTGGTA AAAGATGACA GTGCAGGCAA ACCAGAGGCA
    GTGCAGCCTC AGCCATCTCT AATCCAGAAT CAGCTACCTC AAAGCCAAAC TGACGCCACA
    TCTGTACCGA ACACCACACC TGCCAAGCCA CAAATAGAAT TCTCTCTTTA TGCATCGACA
    GTTGAACCCA GACCTGTCTC TCCCTCAGTA GCAGCCGTAT CAAGGAAGAA AAAAAGAAAG
    ATGGGAACAT ATAGTCTTGT ACCCAAGAAG AAAAACAAAG TCTTGAAACA ACGCACAGTT
    CTGGAGATGT TTCAGCAGAT ATCCCAGTCT CCACCCAACC CTAAGCCAAA GGAGATTGTG
    CGTGTGAATG GAGAGAAAAT GGATAATGAG TCTGATGAGG AGGAGTCAGA GGAAGGGGAA
    GACACAGAGG ATGAAGAAGA GCTAGTCACA GAAGATGGAG CCAAAGCTTC ACATGAGGAA
    CCTAGGATAC CTTCGATCTC ACAGCCCCTG GAAGAAGAGT CTGAGGAGTC TCAAGACTGT
    GAAGGTGAAG AGGAAGGGGA TGAATCAGAC TTGAGTTCAG AATCCAGTTT GAAAAAGAAA
    TGGAAAAAGA AAGCCAAAGG AGATCATGCC TGGCTCCGAC CGTCAAGGAA ACGCAAGAGG
    AAATGGAAAG CAAAAACGGA CAAGGTTTCT GCTCCAGTAA CGGAGATCCA GTCTCGGCCA
    GAAAGCCAGA GCGCCCCATC AGTCCCTACT GCTCACAGAA AGGAGTATAA AGAAGTCCCT
    CTAGACTCTC TCAATCTAGC AGCACAGGAA GCCTTATTGA CATCTCAAAA TACAGCTGCT
    TCAGGGTCAT TGCAGAGCAC AGATGCAGAC ATGGTGCAGG AACTGCCTCT ATGCAGCTGT
    CGAATGGAGA CACCCAAGAG TCGAGAGATC CTCACGCTTG CGGACAGGAA GTGTATGGCA
    ACTGAGAGCA TTGACGGCCA GCTGAGCCGT TGTCAGAGTG CAGTGCTGAA GCACGAGATG
    ATGAGGCCTT CAAATTCTGT CCAACTGCTG GTTCTGTGTG AGGACCATCG CACAGGCATG
    GTCAAGCATC AGTGCTGCCC TGGCTGTGGC TTCTTTTGCA GAGCCGGTAC CTTCATGGAG
    TGTCAGCCAG AGGTGAACAT CTCCCACCGC TTCCATCGGA CCTGTGCCTC GGTACTTAAT
    GGGCAGAGCT TTTGTCCACA TTGTGGAGAG GAAGTCAGCA AGGCGAAAGA GGTCACCATT
    GCCAAGGCAG ATACAACGTC AACTGTACCC ATCACCCATA GCTCCTGCAT ACCCAGCACC
    TCAGAGGGCA AAGCGGACAC TACCACTGGA GGGTCCACTC GGCTCTCTGT ACTTGGAGAG
    GGAAAAGCAA ACAGCACCTT ACCCAAACCT TCAGAATCAC AGGACACATC TTTGTCCCTT
    GTGGGTTCCA AAGCCAGGTC TGTAGCGATG GCAGCTGCAC CTGGACTTCC ACTTCCACCA
    GGACCACCTA AAGAAACTCT GCAAAGTGTC CTGCTGGCTC TAGATGCTGA AAAGCCCAAG
    AAGCTTCGGT TTCACCCAAA ACAATTGTAC ATTTCTGCCA AACAAGGGGA GCTGCAGAAG
    GTCCTACTAA TGTTGGTGGA TGGGATTGAT CCCAACTTCA AAATGGAGAG CCAGAACAAA
    CGGACGCCAC TCCATGTTGC TGCAGAAGCA GGTCATCAGG ATGTCTGCCA TATGCTGGTA
    CAGGCTGGTG CCAACCTTGA CATGTGTGAT GAGGACCAGC GGACGCCTCT GATGGAGGCC
    TGTGAGAACA ACCATCTCGA AACTGTGCGA TATCTTCTGC GGGCCGGAGC CATCGTCTCT
    CACAAGGATG TTGAAGGATC AACTTGTCTC CATCTTGCTG CTAAGAACGG GCATTTCAGC
    ATTGTACAAC ATCTGCTCTC TGCAGGCCTT GTTGATATTA ACTGCCAGGA TGATGGAGGT
    TGGACAGCCA TGATTTGGGC CACAGAGTAC AAACATGTGG ACCAAGTGAA ACTCTTGCTC
    TCCAAAGGGG CTGATATCAA TATACGAGAC AAGGAGGAGA ATATCTGTCT GCATTGGGCC
    GCTTTCTCTG GCTGCGTGGA AATAGCCGAG ATCTTTCTGA CTGCCAAGTG TGATCTCAAC
    ACCATGAACA TCCACGGAGA CTCGCCGTTG CACATAGCGT CGCGAGAGGG CCGGCTTGAC
    TGTGTAAACT TGTTTTTGTC TCGTGGTGCT GATGTAAACC TTAAAAACAA AGAAGGAGAG
    ACGCCCATGG AGTGCTGCAG CCATAGCTCG AAGGTCTGGA ATGCTCTTCA AGCCAACAAA
    AAGCAGAGAG AAGCAAACCG CAAAGCTGGC GCCACAGAGA AGCTTCTCAA CAAGGACATC
    GCTAGAGGTT ACGAAAAAGT CCCCGTCCCG TGCGTAAATG CAGTGGACAG CGAACCCTGT
    CCTGACAACT ACAAGTATGT CCCTGATAGC TGTGTGACGT CCCCTCTGAA CATTGACAAA
    AATATCACTC ACTTGCAGTA CTGTGTCTGT AAAGACGATT GCTCTTCTGC AAGCTGCATG
    TGTGGCCAAC TAAGCCTGAG ATGCTGGTAT GATAAAGAGA GTCGTCTGCT GCCTGAGTTC
    AGTAATGAGG AGCCGCCTCT TATATTTGAG TGCAACCATG CCTGCTCCTG CTGGAGAACC
    TGCAAAAACC GTGTGGTACA GAACGGACTG AGGACAAGAC TGCAGTTGTT CAAGACACAG
    ATGATGGGAT GGGGTGTCAA GACATTACAG GATATCCCTC AAGGAACATT TGTTTGCGAA
    TACGTGGGTG AGATCATCTC TGACGCCGAA GCAGATGTCA GAGAGAATGA CTCCTATCTT
    TTCAGTCTGG ACAGCAAGGT GGGTGACATG TACTGCGTTG ATGCTCGTTT CTACGGGAAC
    ATCAGCCGGT TCATAAACCA TCACTGTGAG CCCAATCTGC TCCCCTGTCG GGTGTTCACC
    TCTCACCAGG ACCTCCGATT TCCTCACATC GCATTCTTCG CCTGCAAGAA CATCAGTGCC
    GGAGATGAAC TTGGGTTTGA CTATGGCGAT CACTTCTGGG ACGTAAAGGG GAAGCTGTTC
    AACTGCAAGT GTGGCTCATC CAAATGCAAG CACTCTGCAG CTGCCATCGC CCAGACACAG
    GCAGACAGTA CACCAGGTGA CCAGCAGCCC AGCGCCCTAC CCGATACCAG CTCATCCACC
    CCATCCAGCC CCAGCTAA

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

    CloneID ODa40680
    Clone ID Related Accession (Same CDS sequence) XM_017352762.1 , XM_009295242.2 , XM_009295242.3 , XM_009295243.3 , XM_009295243.2
    Accession Version XM_009295242.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3798bp)
    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 histone-lysine N-methyltransferase EHMT1 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.7) 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_009295242.2. ##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
    ATGAAGTCCG AGGGGACAAA AGAGTCTCGC AGTGATCAAG AAGAAGGAGG AGATGATGAT 
    CACCAGGATG GGCGAACAGG CCCTCTTAGA GAGGCCATTG AGCAGAATGG GACCTATGAA
    AATATGGACA CAAAGAGAAA TGAACAGAAC CTCTCTACAC AAGGGTCACC AGCACGACCC
    TCAACCATGG AGAATGGGCT ATCAGAAACT GAGCCACCGC ATGGCTCAAA AGTAGGCAGT
    AATGGATATA TTCTAAGCAA AGTAAAGGAA GATACAGTGT CAGCCCCTCA CAGGACTAAC
    TGGTCCCCCA CTGGGGGTAC CACATTGGGG CATGGGACTA AAAGCTCACC GCCTTCAGTG
    TTGCAATCTC TAGACCAGGG TTCTTCAAAC AGTGGTGCAA GCCAAGGACC AAGTCTAACA
    GAGAGACGAG CAGAAACAGA GACTAAAAAT GGCATCATTT CAAAAACACC CCCACCAACA
    GTACATCGTG CACGTAAAAC TATGTCAAGG CCGGCCTCAA ACCAGACACT AAAGCTTTTG
    AACAGGGAAA ATAAAGAGCC AGTCGTGGTA AAAGATGACA GTGCAGGCAA ACCAGAGGCA
    GTGCAGCCTC AGCCATCTCT AATCCAGAAT CAGCTACCTC AAAGCCAAAC TGACGCCACA
    TCTGTACCGA ACACCACACC TGCCAAGCCA CAAATAGAAT TCTCTCTTTA TGCATCGACA
    GTTGAACCCA GACCTGTCTC TCCCTCAGTA GCAGCCGTAT CAAGGAAGAA AAAAAGAAAG
    ATGGGAACAT ATAGTCTTGT ACCCAAGAAG AAAAACAAAG TCTTGAAACA ACGCACAGTT
    CTGGAGATGT TTCAGCAGAT ATCCCAGTCT CCACCCAACC CTAAGCCAAA GGAGATTGTG
    CGTGTGAATG GAGAGAAAAT GGATAATGAG TCTGATGAGG AGGAGTCAGA GGAAGGGGAA
    GACACAGAGG ATGAAGAAGA GCTAGTCACA GAAGATGGAG CCAAAGCTTC ACATGAGGAA
    CCTAGGATAC CTTCGATCTC ACAGCCCCTG GAAGAAGAGT CTGAGGAGTC TCAAGACTGT
    GAAGGTGAAG AGGAAGGGGA TGAATCAGAC TTGAGTTCAG AATCCAGTTT GAAAAAGAAA
    TGGAAAAAGA AAGCCAAAGG AGATCATGCC TGGCTCCGAC CGTCAAGGAA ACGCAAGAGG
    AAATGGAAAG CAAAAACGGA CAAGGTTTCT GCTCCAGTAA CGGAGATCCA GTCTCGGCCA
    GAAAGCCAGA GCGCCCCATC AGTCCCTACT GCTCACAGAA AGGAGTATAA AGAAGTCCCT
    CTAGACTCTC TCAATCTAGC AGCACAGGAA GCCTTATTGA CATCTCAAAA TACAGCTGCT
    TCAGGGTCAT TGCAGAGCAC AGATGCAGAC ATGGTGCAGG AACTGCCTCT ATGCAGCTGT
    CGAATGGAGA CACCCAAGAG TCGAGAGATC CTCACGCTTG CGGACAGGAA GTGTATGGCA
    ACTGAGAGCA TTGACGGCCA GCTGAGCCGT TGTCAGAGTG CAGTGCTGAA GCACGAGATG
    ATGAGGCCTT CAAATTCTGT CCAACTGCTG GTTCTGTGTG AGGACCATCG CACAGGCATG
    GTCAAGCATC AGTGCTGCCC TGGCTGTGGC TTCTTTTGCA GAGCCGGTAC CTTCATGGAG
    TGTCAGCCAG AGGTGAACAT CTCCCACCGC TTCCATCGGA CCTGTGCCTC GGTACTTAAT
    GGGCAGAGCT TTTGTCCACA TTGTGGAGAG GAAGTCAGCA AGGCGAAAGA GGTCACCATT
    GCCAAGGCAG ATACAACGTC AACTGTACCC ATCACCCATA GCTCCTGCAT ACCCAGCACC
    TCAGAGGGCA AAGCGGACAC TACCACTGGA GGGTCCACTC GGCTCTCTGT ACTTGGAGAG
    GGAAAAGCAA ACAGCACCTT ACCCAAACCT TCAGAATCAC AGGACACATC TTTGTCCCTT
    GTGGGTTCCA AAGCCAGGTC TGTAGCGATG GCAGCTGCAC CTGGACTTCC ACTTCCACCA
    GGACCACCTA AAGAAACTCT GCAAAGTGTC CTGCTGGCTC TAGATGCTGA AAAGCCCAAG
    AAGCTTCGGT TTCACCCAAA ACAATTGTAC ATTTCTGCCA AACAAGGGGA GCTGCAGAAG
    GTCCTACTAA TGTTGGTGGA TGGGATTGAT CCCAACTTCA AAATGGAGAG CCAGAACAAA
    CGGACGCCAC TCCATGTTGC TGCAGAAGCA GGTCATCAGG ATGTCTGCCA TATGCTGGTA
    CAGGCTGGTG CCAACCTTGA CATGTGTGAT GAGGACCAGC GGACGCCTCT GATGGAGGCC
    TGTGAGAACA ACCATCTCGA AACTGTGCGA TATCTTCTGC GGGCCGGAGC CATCGTCTCT
    CACAAGGATG TTGAAGGATC AACTTGTCTC CATCTTGCTG CTAAGAACGG GCATTTCAGC
    ATTGTACAAC ATCTGCTCTC TGCAGGCCTT GTTGATATTA ACTGCCAGGA TGATGGAGGT
    TGGACAGCCA TGATTTGGGC CACAGAGTAC AAACATGTGG ACCAAGTGAA ACTCTTGCTC
    TCCAAAGGGG CTGATATCAA TATACGAGAC AAGGAGGAGA ATATCTGTCT GCATTGGGCC
    GCTTTCTCTG GCTGCGTGGA AATAGCCGAG ATCTTTCTGA CTGCCAAGTG TGATCTCAAC
    ACCATGAACA TCCACGGAGA CTCGCCGTTG CACATAGCGT CGCGAGAGGG CCGGCTTGAC
    TGTGTAAACT TGTTTTTGTC TCGTGGTGCT GATGTAAACC TTAAAAACAA AGAAGGAGAG
    ACGCCCATGG AGTGCTGCAG CCATAGCTCG AAGGTCTGGA ATGCTCTTCA AGCCAACAAA
    AAGCAGAGAG AAGCAAACCG CAAAGCTGGC GCCACAGAGA AGCTTCTCAA CAAGGACATC
    GCTAGAGGTT ACGAAAAAGT CCCCGTCCCG TGCGTAAATG CAGTGGACAG CGAACCCTGT
    CCTGACAACT ACAAGTATGT CCCTGATAGC TGTGTGACGT CCCCTCTGAA CATTGACAAA
    AATATCACTC ACTTGCAGTA CTGTGTCTGT AAAGACGATT GCTCTTCTGC AAGCTGCATG
    TGTGGCCAAC TAAGCCTGAG ATGCTGGTAT GATAAAGAGA GTCGTCTGCT GCCTGAGTTC
    AGTAATGAGG AGCCGCCTCT TATATTTGAG TGCAACCATG CCTGCTCCTG CTGGAGAACC
    TGCAAAAACC GTGTGGTACA GAACGGACTG AGGACAAGAC TGCAGTTGTT CAAGACACAG
    ATGATGGGAT GGGGTGTCAA GACATTACAG GATATCCCTC AAGGAACATT TGTTTGCGAA
    TACGTGGGTG AGATCATCTC TGACGCCGAA GCAGATGTCA GAGAGAATGA CTCCTATCTT
    TTCAGTCTGG ACAGCAAGGT GGGTGACATG TACTGCGTTG ATGCTCGTTT CTACGGGAAC
    ATCAGCCGGT TCATAAACCA TCACTGTGAG CCCAATCTGC TCCCCTGTCG GGTGTTCACC
    TCTCACCAGG ACCTCCGATT TCCTCACATC GCATTCTTCG CCTGCAAGAA CATCAGTGCC
    GGAGATGAAC TTGGGTTTGA CTATGGCGAT CACTTCTGGG ACGTAAAGGG GAAGCTGTTC
    AACTGCAAGT GTGGCTCATC CAAATGCAAG CACTCTGCAG CTGCCATCGC CCAGACACAG
    GCAGACAGTA CACCAGGTGA CCAGCAGCCC AGCGCCCTAC CCGATACCAG CTCATCCACC
    CCATCCAGCC CCAGCTAA

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

    RefSeq XP_009293517.1
    CDS191..3988
    Translation

    Target ORF information:

    RefSeq Version XM_009295242.3
    Organism Danio rerio(zebrafish)
    Definition Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009295242.3

    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
    ATGAAGTCCG AGGGGACAAA AGAGTCTCGC AGTGATCAAG AAGAAGGAGG AGATGATGAT 
    CACCAGGATG GGCGAACAGG CCCTCTTAGA GAGGCCATTG AGCAGAATGG GACCTATGAA
    AATATGGACA CAAAGAGAAA TGAACAGAAC CTCTCTACAC AAGGGTCACC AGCACGACCC
    TCAACCATGG AGAATGGGCT ATCAGAAACT GAGCCACCGC ATGGCTCAAA AGTAGGCAGT
    AATGGATATA TTCTAAGCAA AGTAAAGGAA GATACAGTGT CAGCCCCTCA CAGGACTAAC
    TGGTCCCCCA CTGGGGGTAC CACATTGGGG CATGGGACTA AAAGCTCACC GCCTTCAGTG
    TTGCAATCTC TAGACCAGGG TTCTTCAAAC AGTGGTGCAA GCCAAGGACC AAGTCTAACA
    GAGAGACGAG CAGAAACAGA GACTAAAAAT GGCATCATTT CAAAAACACC CCCACCAACA
    GTACATCGTG CACGTAAAAC TATGTCAAGG CCGGCCTCAA ACCAGACACT AAAGCTTTTG
    AACAGGGAAA ATAAAGAGCC AGTCGTGGTA AAAGATGACA GTGCAGGCAA ACCAGAGGCA
    GTGCAGCCTC AGCCATCTCT AATCCAGAAT CAGCTACCTC AAAGCCAAAC TGACGCCACA
    TCTGTACCGA ACACCACACC TGCCAAGCCA CAAATAGAAT TCTCTCTTTA TGCATCGACA
    GTTGAACCCA GACCTGTCTC TCCCTCAGTA GCAGCCGTAT CAAGGAAGAA AAAAAGAAAG
    ATGGGAACAT ATAGTCTTGT ACCCAAGAAG AAAAACAAAG TCTTGAAACA ACGCACAGTT
    CTGGAGATGT TTCAGCAGAT ATCCCAGTCT CCACCCAACC CTAAGCCAAA GGAGATTGTG
    CGTGTGAATG GAGAGAAAAT GGATAATGAG TCTGATGAGG AGGAGTCAGA GGAAGGGGAA
    GACACAGAGG ATGAAGAAGA GCTAGTCACA GAAGATGGAG CCAAAGCTTC ACATGAGGAA
    CCTAGGATAC CTTCGATCTC ACAGCCCCTG GAAGAAGAGT CTGAGGAGTC TCAAGACTGT
    GAAGGTGAAG AGGAAGGGGA TGAATCAGAC TTGAGTTCAG AATCCAGTTT GAAAAAGAAA
    TGGAAAAAGA AAGCCAAAGG AGATCATGCC TGGCTCCGAC CGTCAAGGAA ACGCAAGAGG
    AAATGGAAAG CAAAAACGGA CAAGGTTTCT GCTCCAGTAA CGGAGATCCA GTCTCGGCCA
    GAAAGCCAGA GCGCCCCATC AGTCCCTACT GCTCACAGAA AGGAGTATAA AGAAGTCCCT
    CTAGACTCTC TCAATCTAGC AGCACAGGAA GCCTTATTGA CATCTCAAAA TACAGCTGCT
    TCAGGGTCAT TGCAGAGCAC AGATGCAGAC ATGGTGCAGG AACTGCCTCT ATGCAGCTGT
    CGAATGGAGA CACCCAAGAG TCGAGAGATC CTCACGCTTG CGGACAGGAA GTGTATGGCA
    ACTGAGAGCA TTGACGGCCA GCTGAGCCGT TGTCAGAGTG CAGTGCTGAA GCACGAGATG
    ATGAGGCCTT CAAATTCTGT CCAACTGCTG GTTCTGTGTG AGGACCATCG CACAGGCATG
    GTCAAGCATC AGTGCTGCCC TGGCTGTGGC TTCTTTTGCA GAGCCGGTAC CTTCATGGAG
    TGTCAGCCAG AGGTGAACAT CTCCCACCGC TTCCATCGGA CCTGTGCCTC GGTACTTAAT
    GGGCAGAGCT TTTGTCCACA TTGTGGAGAG GAAGTCAGCA AGGCGAAAGA GGTCACCATT
    GCCAAGGCAG ATACAACGTC AACTGTACCC ATCACCCATA GCTCCTGCAT ACCCAGCACC
    TCAGAGGGCA AAGCGGACAC TACCACTGGA GGGTCCACTC GGCTCTCTGT ACTTGGAGAG
    GGAAAAGCAA ACAGCACCTT ACCCAAACCT TCAGAATCAC AGGACACATC TTTGTCCCTT
    GTGGGTTCCA AAGCCAGGTC TGTAGCGATG GCAGCTGCAC CTGGACTTCC ACTTCCACCA
    GGACCACCTA AAGAAACTCT GCAAAGTGTC CTGCTGGCTC TAGATGCTGA AAAGCCCAAG
    AAGCTTCGGT TTCACCCAAA ACAATTGTAC ATTTCTGCCA AACAAGGGGA GCTGCAGAAG
    GTCCTACTAA TGTTGGTGGA TGGGATTGAT CCCAACTTCA AAATGGAGAG CCAGAACAAA
    CGGACGCCAC TCCATGTTGC TGCAGAAGCA GGTCATCAGG ATGTCTGCCA TATGCTGGTA
    CAGGCTGGTG CCAACCTTGA CATGTGTGAT GAGGACCAGC GGACGCCTCT GATGGAGGCC
    TGTGAGAACA ACCATCTCGA AACTGTGCGA TATCTTCTGC GGGCCGGAGC CATCGTCTCT
    CACAAGGATG TTGAAGGATC AACTTGTCTC CATCTTGCTG CTAAGAACGG GCATTTCAGC
    ATTGTACAAC ATCTGCTCTC TGCAGGCCTT GTTGATATTA ACTGCCAGGA TGATGGAGGT
    TGGACAGCCA TGATTTGGGC CACAGAGTAC AAACATGTGG ACCAAGTGAA ACTCTTGCTC
    TCCAAAGGGG CTGATATCAA TATACGAGAC AAGGAGGAGA ATATCTGTCT GCATTGGGCC
    GCTTTCTCTG GCTGCGTGGA AATAGCCGAG ATCTTTCTGA CTGCCAAGTG TGATCTCAAC
    ACCATGAACA TCCACGGAGA CTCGCCGTTG CACATAGCGT CGCGAGAGGG CCGGCTTGAC
    TGTGTAAACT TGTTTTTGTC TCGTGGTGCT GATGTAAACC TTAAAAACAA AGAAGGAGAG
    ACGCCCATGG AGTGCTGCAG CCATAGCTCG AAGGTCTGGA ATGCTCTTCA AGCCAACAAA
    AAGCAGAGAG AAGCAAACCG CAAAGCTGGC GCCACAGAGA AGCTTCTCAA CAAGGACATC
    GCTAGAGGTT ACGAAAAAGT CCCCGTCCCG TGCGTAAATG CAGTGGACAG CGAACCCTGT
    CCTGACAACT ACAAGTATGT CCCTGATAGC TGTGTGACGT CCCCTCTGAA CATTGACAAA
    AATATCACTC ACTTGCAGTA CTGTGTCTGT AAAGACGATT GCTCTTCTGC AAGCTGCATG
    TGTGGCCAAC TAAGCCTGAG ATGCTGGTAT GATAAAGAGA GTCGTCTGCT GCCTGAGTTC
    AGTAATGAGG AGCCGCCTCT TATATTTGAG TGCAACCATG CCTGCTCCTG CTGGAGAACC
    TGCAAAAACC GTGTGGTACA GAACGGACTG AGGACAAGAC TGCAGTTGTT CAAGACACAG
    ATGATGGGAT GGGGTGTCAA GACATTACAG GATATCCCTC AAGGAACATT TGTTTGCGAA
    TACGTGGGTG AGATCATCTC TGACGCCGAA GCAGATGTCA GAGAGAATGA CTCCTATCTT
    TTCAGTCTGG ACAGCAAGGT GGGTGACATG TACTGCGTTG ATGCTCGTTT CTACGGGAAC
    ATCAGCCGGT TCATAAACCA TCACTGTGAG CCCAATCTGC TCCCCTGTCG GGTGTTCACC
    TCTCACCAGG ACCTCCGATT TCCTCACATC GCATTCTTCG CCTGCAAGAA CATCAGTGCC
    GGAGATGAAC TTGGGTTTGA CTATGGCGAT CACTTCTGGG ACGTAAAGGG GAAGCTGTTC
    AACTGCAAGT GTGGCTCATC CAAATGCAAG CACTCTGCAG CTGCCATCGC CCAGACACAG
    GCAGACAGTA CACCAGGTGA CCAGCAGCCC AGCGCCCTAC CCGATACCAG CTCATCCACC
    CCATCCAGCC CCAGCTAA

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

    CloneID ODa40680
    Clone ID Related Accession (Same CDS sequence) XM_017352762.1 , XM_009295242.2 , XM_009295242.3 , XM_009295243.3 , XM_009295243.2
    Accession Version XM_009295243.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3798bp)
    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 histone-lysine N-methyltransferase EHMT1 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.7) 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_009295243.2. ##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
    ATGAAGTCCG AGGGGACAAA AGAGTCTCGC AGTGATCAAG AAGAAGGAGG AGATGATGAT 
    CACCAGGATG GGCGAACAGG CCCTCTTAGA GAGGCCATTG AGCAGAATGG GACCTATGAA
    AATATGGACA CAAAGAGAAA TGAACAGAAC CTCTCTACAC AAGGGTCACC AGCACGACCC
    TCAACCATGG AGAATGGGCT ATCAGAAACT GAGCCACCGC ATGGCTCAAA AGTAGGCAGT
    AATGGATATA TTCTAAGCAA AGTAAAGGAA GATACAGTGT CAGCCCCTCA CAGGACTAAC
    TGGTCCCCCA CTGGGGGTAC CACATTGGGG CATGGGACTA AAAGCTCACC GCCTTCAGTG
    TTGCAATCTC TAGACCAGGG TTCTTCAAAC AGTGGTGCAA GCCAAGGACC AAGTCTAACA
    GAGAGACGAG CAGAAACAGA GACTAAAAAT GGCATCATTT CAAAAACACC CCCACCAACA
    GTACATCGTG CACGTAAAAC TATGTCAAGG CCGGCCTCAA ACCAGACACT AAAGCTTTTG
    AACAGGGAAA ATAAAGAGCC AGTCGTGGTA AAAGATGACA GTGCAGGCAA ACCAGAGGCA
    GTGCAGCCTC AGCCATCTCT AATCCAGAAT CAGCTACCTC AAAGCCAAAC TGACGCCACA
    TCTGTACCGA ACACCACACC TGCCAAGCCA CAAATAGAAT TCTCTCTTTA TGCATCGACA
    GTTGAACCCA GACCTGTCTC TCCCTCAGTA GCAGCCGTAT CAAGGAAGAA AAAAAGAAAG
    ATGGGAACAT ATAGTCTTGT ACCCAAGAAG AAAAACAAAG TCTTGAAACA ACGCACAGTT
    CTGGAGATGT TTCAGCAGAT ATCCCAGTCT CCACCCAACC CTAAGCCAAA GGAGATTGTG
    CGTGTGAATG GAGAGAAAAT GGATAATGAG TCTGATGAGG AGGAGTCAGA GGAAGGGGAA
    GACACAGAGG ATGAAGAAGA GCTAGTCACA GAAGATGGAG CCAAAGCTTC ACATGAGGAA
    CCTAGGATAC CTTCGATCTC ACAGCCCCTG GAAGAAGAGT CTGAGGAGTC TCAAGACTGT
    GAAGGTGAAG AGGAAGGGGA TGAATCAGAC TTGAGTTCAG AATCCAGTTT GAAAAAGAAA
    TGGAAAAAGA AAGCCAAAGG AGATCATGCC TGGCTCCGAC CGTCAAGGAA ACGCAAGAGG
    AAATGGAAAG CAAAAACGGA CAAGGTTTCT GCTCCAGTAA CGGAGATCCA GTCTCGGCCA
    GAAAGCCAGA GCGCCCCATC AGTCCCTACT GCTCACAGAA AGGAGTATAA AGAAGTCCCT
    CTAGACTCTC TCAATCTAGC AGCACAGGAA GCCTTATTGA CATCTCAAAA TACAGCTGCT
    TCAGGGTCAT TGCAGAGCAC AGATGCAGAC ATGGTGCAGG AACTGCCTCT ATGCAGCTGT
    CGAATGGAGA CACCCAAGAG TCGAGAGATC CTCACGCTTG CGGACAGGAA GTGTATGGCA
    ACTGAGAGCA TTGACGGCCA GCTGAGCCGT TGTCAGAGTG CAGTGCTGAA GCACGAGATG
    ATGAGGCCTT CAAATTCTGT CCAACTGCTG GTTCTGTGTG AGGACCATCG CACAGGCATG
    GTCAAGCATC AGTGCTGCCC TGGCTGTGGC TTCTTTTGCA GAGCCGGTAC CTTCATGGAG
    TGTCAGCCAG AGGTGAACAT CTCCCACCGC TTCCATCGGA CCTGTGCCTC GGTACTTAAT
    GGGCAGAGCT TTTGTCCACA TTGTGGAGAG GAAGTCAGCA AGGCGAAAGA GGTCACCATT
    GCCAAGGCAG ATACAACGTC AACTGTACCC ATCACCCATA GCTCCTGCAT ACCCAGCACC
    TCAGAGGGCA AAGCGGACAC TACCACTGGA GGGTCCACTC GGCTCTCTGT ACTTGGAGAG
    GGAAAAGCAA ACAGCACCTT ACCCAAACCT TCAGAATCAC AGGACACATC TTTGTCCCTT
    GTGGGTTCCA AAGCCAGGTC TGTAGCGATG GCAGCTGCAC CTGGACTTCC ACTTCCACCA
    GGACCACCTA AAGAAACTCT GCAAAGTGTC CTGCTGGCTC TAGATGCTGA AAAGCCCAAG
    AAGCTTCGGT TTCACCCAAA ACAATTGTAC ATTTCTGCCA AACAAGGGGA GCTGCAGAAG
    GTCCTACTAA TGTTGGTGGA TGGGATTGAT CCCAACTTCA AAATGGAGAG CCAGAACAAA
    CGGACGCCAC TCCATGTTGC TGCAGAAGCA GGTCATCAGG ATGTCTGCCA TATGCTGGTA
    CAGGCTGGTG CCAACCTTGA CATGTGTGAT GAGGACCAGC GGACGCCTCT GATGGAGGCC
    TGTGAGAACA ACCATCTCGA AACTGTGCGA TATCTTCTGC GGGCCGGAGC CATCGTCTCT
    CACAAGGATG TTGAAGGATC AACTTGTCTC CATCTTGCTG CTAAGAACGG GCATTTCAGC
    ATTGTACAAC ATCTGCTCTC TGCAGGCCTT GTTGATATTA ACTGCCAGGA TGATGGAGGT
    TGGACAGCCA TGATTTGGGC CACAGAGTAC AAACATGTGG ACCAAGTGAA ACTCTTGCTC
    TCCAAAGGGG CTGATATCAA TATACGAGAC AAGGAGGAGA ATATCTGTCT GCATTGGGCC
    GCTTTCTCTG GCTGCGTGGA AATAGCCGAG ATCTTTCTGA CTGCCAAGTG TGATCTCAAC
    ACCATGAACA TCCACGGAGA CTCGCCGTTG CACATAGCGT CGCGAGAGGG CCGGCTTGAC
    TGTGTAAACT TGTTTTTGTC TCGTGGTGCT GATGTAAACC TTAAAAACAA AGAAGGAGAG
    ACGCCCATGG AGTGCTGCAG CCATAGCTCG AAGGTCTGGA ATGCTCTTCA AGCCAACAAA
    AAGCAGAGAG AAGCAAACCG CAAAGCTGGC GCCACAGAGA AGCTTCTCAA CAAGGACATC
    GCTAGAGGTT ACGAAAAAGT CCCCGTCCCG TGCGTAAATG CAGTGGACAG CGAACCCTGT
    CCTGACAACT ACAAGTATGT CCCTGATAGC TGTGTGACGT CCCCTCTGAA CATTGACAAA
    AATATCACTC ACTTGCAGTA CTGTGTCTGT AAAGACGATT GCTCTTCTGC AAGCTGCATG
    TGTGGCCAAC TAAGCCTGAG ATGCTGGTAT GATAAAGAGA GTCGTCTGCT GCCTGAGTTC
    AGTAATGAGG AGCCGCCTCT TATATTTGAG TGCAACCATG CCTGCTCCTG CTGGAGAACC
    TGCAAAAACC GTGTGGTACA GAACGGACTG AGGACAAGAC TGCAGTTGTT CAAGACACAG
    ATGATGGGAT GGGGTGTCAA GACATTACAG GATATCCCTC AAGGAACATT TGTTTGCGAA
    TACGTGGGTG AGATCATCTC TGACGCCGAA GCAGATGTCA GAGAGAATGA CTCCTATCTT
    TTCAGTCTGG ACAGCAAGGT GGGTGACATG TACTGCGTTG ATGCTCGTTT CTACGGGAAC
    ATCAGCCGGT TCATAAACCA TCACTGTGAG CCCAATCTGC TCCCCTGTCG GGTGTTCACC
    TCTCACCAGG ACCTCCGATT TCCTCACATC GCATTCTTCG CCTGCAAGAA CATCAGTGCC
    GGAGATGAAC TTGGGTTTGA CTATGGCGAT CACTTCTGGG ACGTAAAGGG GAAGCTGTTC
    AACTGCAAGT GTGGCTCATC CAAATGCAAG CACTCTGCAG CTGCCATCGC CCAGACACAG
    GCAGACAGTA CACCAGGTGA CCAGCAGCCC AGCGCCCTAC CCGATACCAG CTCATCCACC
    CCATCCAGCC CCAGCTAA

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

    RefSeq XP_009293518.1
    CDS368..4165
    Translation

    Target ORF information:

    RefSeq Version XM_009295243.3
    Organism Danio rerio(zebrafish)
    Definition Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009295243.3

    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
    ATGAAGTCCG AGGGGACAAA AGAGTCTCGC AGTGATCAAG AAGAAGGAGG AGATGATGAT 
    CACCAGGATG GGCGAACAGG CCCTCTTAGA GAGGCCATTG AGCAGAATGG GACCTATGAA
    AATATGGACA CAAAGAGAAA TGAACAGAAC CTCTCTACAC AAGGGTCACC AGCACGACCC
    TCAACCATGG AGAATGGGCT ATCAGAAACT GAGCCACCGC ATGGCTCAAA AGTAGGCAGT
    AATGGATATA TTCTAAGCAA AGTAAAGGAA GATACAGTGT CAGCCCCTCA CAGGACTAAC
    TGGTCCCCCA CTGGGGGTAC CACATTGGGG CATGGGACTA AAAGCTCACC GCCTTCAGTG
    TTGCAATCTC TAGACCAGGG TTCTTCAAAC AGTGGTGCAA GCCAAGGACC AAGTCTAACA
    GAGAGACGAG CAGAAACAGA GACTAAAAAT GGCATCATTT CAAAAACACC CCCACCAACA
    GTACATCGTG CACGTAAAAC TATGTCAAGG CCGGCCTCAA ACCAGACACT AAAGCTTTTG
    AACAGGGAAA ATAAAGAGCC AGTCGTGGTA AAAGATGACA GTGCAGGCAA ACCAGAGGCA
    GTGCAGCCTC AGCCATCTCT AATCCAGAAT CAGCTACCTC AAAGCCAAAC TGACGCCACA
    TCTGTACCGA ACACCACACC TGCCAAGCCA CAAATAGAAT TCTCTCTTTA TGCATCGACA
    GTTGAACCCA GACCTGTCTC TCCCTCAGTA GCAGCCGTAT CAAGGAAGAA AAAAAGAAAG
    ATGGGAACAT ATAGTCTTGT ACCCAAGAAG AAAAACAAAG TCTTGAAACA ACGCACAGTT
    CTGGAGATGT TTCAGCAGAT ATCCCAGTCT CCACCCAACC CTAAGCCAAA GGAGATTGTG
    CGTGTGAATG GAGAGAAAAT GGATAATGAG TCTGATGAGG AGGAGTCAGA GGAAGGGGAA
    GACACAGAGG ATGAAGAAGA GCTAGTCACA GAAGATGGAG CCAAAGCTTC ACATGAGGAA
    CCTAGGATAC CTTCGATCTC ACAGCCCCTG GAAGAAGAGT CTGAGGAGTC TCAAGACTGT
    GAAGGTGAAG AGGAAGGGGA TGAATCAGAC TTGAGTTCAG AATCCAGTTT GAAAAAGAAA
    TGGAAAAAGA AAGCCAAAGG AGATCATGCC TGGCTCCGAC CGTCAAGGAA ACGCAAGAGG
    AAATGGAAAG CAAAAACGGA CAAGGTTTCT GCTCCAGTAA CGGAGATCCA GTCTCGGCCA
    GAAAGCCAGA GCGCCCCATC AGTCCCTACT GCTCACAGAA AGGAGTATAA AGAAGTCCCT
    CTAGACTCTC TCAATCTAGC AGCACAGGAA GCCTTATTGA CATCTCAAAA TACAGCTGCT
    TCAGGGTCAT TGCAGAGCAC AGATGCAGAC ATGGTGCAGG AACTGCCTCT ATGCAGCTGT
    CGAATGGAGA CACCCAAGAG TCGAGAGATC CTCACGCTTG CGGACAGGAA GTGTATGGCA
    ACTGAGAGCA TTGACGGCCA GCTGAGCCGT TGTCAGAGTG CAGTGCTGAA GCACGAGATG
    ATGAGGCCTT CAAATTCTGT CCAACTGCTG GTTCTGTGTG AGGACCATCG CACAGGCATG
    GTCAAGCATC AGTGCTGCCC TGGCTGTGGC TTCTTTTGCA GAGCCGGTAC CTTCATGGAG
    TGTCAGCCAG AGGTGAACAT CTCCCACCGC TTCCATCGGA CCTGTGCCTC GGTACTTAAT
    GGGCAGAGCT TTTGTCCACA TTGTGGAGAG GAAGTCAGCA AGGCGAAAGA GGTCACCATT
    GCCAAGGCAG ATACAACGTC AACTGTACCC ATCACCCATA GCTCCTGCAT ACCCAGCACC
    TCAGAGGGCA AAGCGGACAC TACCACTGGA GGGTCCACTC GGCTCTCTGT ACTTGGAGAG
    GGAAAAGCAA ACAGCACCTT ACCCAAACCT TCAGAATCAC AGGACACATC TTTGTCCCTT
    GTGGGTTCCA AAGCCAGGTC TGTAGCGATG GCAGCTGCAC CTGGACTTCC ACTTCCACCA
    GGACCACCTA AAGAAACTCT GCAAAGTGTC CTGCTGGCTC TAGATGCTGA AAAGCCCAAG
    AAGCTTCGGT TTCACCCAAA ACAATTGTAC ATTTCTGCCA AACAAGGGGA GCTGCAGAAG
    GTCCTACTAA TGTTGGTGGA TGGGATTGAT CCCAACTTCA AAATGGAGAG CCAGAACAAA
    CGGACGCCAC TCCATGTTGC TGCAGAAGCA GGTCATCAGG ATGTCTGCCA TATGCTGGTA
    CAGGCTGGTG CCAACCTTGA CATGTGTGAT GAGGACCAGC GGACGCCTCT GATGGAGGCC
    TGTGAGAACA ACCATCTCGA AACTGTGCGA TATCTTCTGC GGGCCGGAGC CATCGTCTCT
    CACAAGGATG TTGAAGGATC AACTTGTCTC CATCTTGCTG CTAAGAACGG GCATTTCAGC
    ATTGTACAAC ATCTGCTCTC TGCAGGCCTT GTTGATATTA ACTGCCAGGA TGATGGAGGT
    TGGACAGCCA TGATTTGGGC CACAGAGTAC AAACATGTGG ACCAAGTGAA ACTCTTGCTC
    TCCAAAGGGG CTGATATCAA TATACGAGAC AAGGAGGAGA ATATCTGTCT GCATTGGGCC
    GCTTTCTCTG GCTGCGTGGA AATAGCCGAG ATCTTTCTGA CTGCCAAGTG TGATCTCAAC
    ACCATGAACA TCCACGGAGA CTCGCCGTTG CACATAGCGT CGCGAGAGGG CCGGCTTGAC
    TGTGTAAACT TGTTTTTGTC TCGTGGTGCT GATGTAAACC TTAAAAACAA AGAAGGAGAG
    ACGCCCATGG AGTGCTGCAG CCATAGCTCG AAGGTCTGGA ATGCTCTTCA AGCCAACAAA
    AAGCAGAGAG AAGCAAACCG CAAAGCTGGC GCCACAGAGA AGCTTCTCAA CAAGGACATC
    GCTAGAGGTT ACGAAAAAGT CCCCGTCCCG TGCGTAAATG CAGTGGACAG CGAACCCTGT
    CCTGACAACT ACAAGTATGT CCCTGATAGC TGTGTGACGT CCCCTCTGAA CATTGACAAA
    AATATCACTC ACTTGCAGTA CTGTGTCTGT AAAGACGATT GCTCTTCTGC AAGCTGCATG
    TGTGGCCAAC TAAGCCTGAG ATGCTGGTAT GATAAAGAGA GTCGTCTGCT GCCTGAGTTC
    AGTAATGAGG AGCCGCCTCT TATATTTGAG TGCAACCATG CCTGCTCCTG CTGGAGAACC
    TGCAAAAACC GTGTGGTACA GAACGGACTG AGGACAAGAC TGCAGTTGTT CAAGACACAG
    ATGATGGGAT GGGGTGTCAA GACATTACAG GATATCCCTC AAGGAACATT TGTTTGCGAA
    TACGTGGGTG AGATCATCTC TGACGCCGAA GCAGATGTCA GAGAGAATGA CTCCTATCTT
    TTCAGTCTGG ACAGCAAGGT GGGTGACATG TACTGCGTTG ATGCTCGTTT CTACGGGAAC
    ATCAGCCGGT TCATAAACCA TCACTGTGAG CCCAATCTGC TCCCCTGTCG GGTGTTCACC
    TCTCACCAGG ACCTCCGATT TCCTCACATC GCATTCTTCG CCTGCAAGAA CATCAGTGCC
    GGAGATGAAC TTGGGTTTGA CTATGGCGAT CACTTCTGGG ACGTAAAGGG GAAGCTGTTC
    AACTGCAAGT GTGGCTCATC CAAATGCAAG CACTCTGCAG CTGCCATCGC CCAGACACAG
    GCAGACAGTA CACCAGGTGA CCAGCAGCCC AGCGCCCTAC CCGATACCAG CTCATCCACC
    CCATCCAGCC CCAGCTAA

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

    CloneID ODa40680
    Clone ID Related Accession (Same CDS sequence) XM_017352762.1 , XM_009295242.2 , XM_009295242.3 , XM_009295243.3 , XM_009295243.2
    Accession Version XM_009295243.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3798bp)
    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 histone-lysine N-methyltransferase EHMT1 isoform X4
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.6) 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_009295243.1. ##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
    ATGAAGTCCG AGGGGACAAA AGAGTCTCGC AGTGATCAAG AAGAAGGAGG AGATGATGAT 
    CACCAGGATG GGCGAACAGG CCCTCTTAGA GAGGCCATTG AGCAGAATGG GACCTATGAA
    AATATGGACA CAAAGAGAAA TGAACAGAAC CTCTCTACAC AAGGGTCACC AGCACGACCC
    TCAACCATGG AGAATGGGCT ATCAGAAACT GAGCCACCGC ATGGCTCAAA AGTAGGCAGT
    AATGGATATA TTCTAAGCAA AGTAAAGGAA GATACAGTGT CAGCCCCTCA CAGGACTAAC
    TGGTCCCCCA CTGGGGGTAC CACATTGGGG CATGGGACTA AAAGCTCACC GCCTTCAGTG
    TTGCAATCTC TAGACCAGGG TTCTTCAAAC AGTGGTGCAA GCCAAGGACC AAGTCTAACA
    GAGAGACGAG CAGAAACAGA GACTAAAAAT GGCATCATTT CAAAAACACC CCCACCAACA
    GTACATCGTG CACGTAAAAC TATGTCAAGG CCGGCCTCAA ACCAGACACT AAAGCTTTTG
    AACAGGGAAA ATAAAGAGCC AGTCGTGGTA AAAGATGACA GTGCAGGCAA ACCAGAGGCA
    GTGCAGCCTC AGCCATCTCT AATCCAGAAT CAGCTACCTC AAAGCCAAAC TGACGCCACA
    TCTGTACCGA ACACCACACC TGCCAAGCCA CAAATAGAAT TCTCTCTTTA TGCATCGACA
    GTTGAACCCA GACCTGTCTC TCCCTCAGTA GCAGCCGTAT CAAGGAAGAA AAAAAGAAAG
    ATGGGAACAT ATAGTCTTGT ACCCAAGAAG AAAAACAAAG TCTTGAAACA ACGCACAGTT
    CTGGAGATGT TTCAGCAGAT ATCCCAGTCT CCACCCAACC CTAAGCCAAA GGAGATTGTG
    CGTGTGAATG GAGAGAAAAT GGATAATGAG TCTGATGAGG AGGAGTCAGA GGAAGGGGAA
    GACACAGAGG ATGAAGAAGA GCTAGTCACA GAAGATGGAG CCAAAGCTTC ACATGAGGAA
    CCTAGGATAC CTTCGATCTC ACAGCCCCTG GAAGAAGAGT CTGAGGAGTC TCAAGACTGT
    GAAGGTGAAG AGGAAGGGGA TGAATCAGAC TTGAGTTCAG AATCCAGTTT GAAAAAGAAA
    TGGAAAAAGA AAGCCAAAGG AGATCATGCC TGGCTCCGAC CGTCAAGGAA ACGCAAGAGG
    AAATGGAAAG CAAAAACGGA CAAGGTTTCT GCTCCAGTAA CGGAGATCCA GTCTCGGCCA
    GAAAGCCAGA GCGCCCCATC AGTCCCTACT GCTCACAGAA AGGAGTATAA AGAAGTCCCT
    CTAGACTCTC TCAATCTAGC AGCACAGGAA GCCTTATTGA CATCTCAAAA TACAGCTGCT
    TCAGGGTCAT TGCAGAGCAC AGATGCAGAC ATGGTGCAGG AACTGCCTCT ATGCAGCTGT
    CGAATGGAGA CACCCAAGAG TCGAGAGATC CTCACGCTTG CGGACAGGAA GTGTATGGCA
    ACTGAGAGCA TTGACGGCCA GCTGAGCCGT TGTCAGAGTG CAGTGCTGAA GCACGAGATG
    ATGAGGCCTT CAAATTCTGT CCAACTGCTG GTTCTGTGTG AGGACCATCG CACAGGCATG
    GTCAAGCATC AGTGCTGCCC TGGCTGTGGC TTCTTTTGCA GAGCCGGTAC CTTCATGGAG
    TGTCAGCCAG AGGTGAACAT CTCCCACCGC TTCCATCGGA CCTGTGCCTC GGTACTTAAT
    GGGCAGAGCT TTTGTCCACA TTGTGGAGAG GAAGTCAGCA AGGCGAAAGA GGTCACCATT
    GCCAAGGCAG ATACAACGTC AACTGTACCC ATCACCCATA GCTCCTGCAT ACCCAGCACC
    TCAGAGGGCA AAGCGGACAC TACCACTGGA GGGTCCACTC GGCTCTCTGT ACTTGGAGAG
    GGAAAAGCAA ACAGCACCTT ACCCAAACCT TCAGAATCAC AGGACACATC TTTGTCCCTT
    GTGGGTTCCA AAGCCAGGTC TGTAGCGATG GCAGCTGCAC CTGGACTTCC ACTTCCACCA
    GGACCACCTA AAGAAACTCT GCAAAGTGTC CTGCTGGCTC TAGATGCTGA AAAGCCCAAG
    AAGCTTCGGT TTCACCCAAA ACAATTGTAC ATTTCTGCCA AACAAGGGGA GCTGCAGAAG
    GTCCTACTAA TGTTGGTGGA TGGGATTGAT CCCAACTTCA AAATGGAGAG CCAGAACAAA
    CGGACGCCAC TCCATGTTGC TGCAGAAGCA GGTCATCAGG ATGTCTGCCA TATGCTGGTA
    CAGGCTGGTG CCAACCTTGA CATGTGTGAT GAGGACCAGC GGACGCCTCT GATGGAGGCC
    TGTGAGAACA ACCATCTCGA AACTGTGCGA TATCTTCTGC GGGCCGGAGC CATCGTCTCT
    CACAAGGATG TTGAAGGATC AACTTGTCTC CATCTTGCTG CTAAGAACGG GCATTTCAGC
    ATTGTACAAC ATCTGCTCTC TGCAGGCCTT GTTGATATTA ACTGCCAGGA TGATGGAGGT
    TGGACAGCCA TGATTTGGGC CACAGAGTAC AAACATGTGG ACCAAGTGAA ACTCTTGCTC
    TCCAAAGGGG CTGATATCAA TATACGAGAC AAGGAGGAGA ATATCTGTCT GCATTGGGCC
    GCTTTCTCTG GCTGCGTGGA AATAGCCGAG ATCTTTCTGA CTGCCAAGTG TGATCTCAAC
    ACCATGAACA TCCACGGAGA CTCGCCGTTG CACATAGCGT CGCGAGAGGG CCGGCTTGAC
    TGTGTAAACT TGTTTTTGTC TCGTGGTGCT GATGTAAACC TTAAAAACAA AGAAGGAGAG
    ACGCCCATGG AGTGCTGCAG CCATAGCTCG AAGGTCTGGA ATGCTCTTCA AGCCAACAAA
    AAGCAGAGAG AAGCAAACCG CAAAGCTGGC GCCACAGAGA AGCTTCTCAA CAAGGACATC
    GCTAGAGGTT ACGAAAAAGT CCCCGTCCCG TGCGTAAATG CAGTGGACAG CGAACCCTGT
    CCTGACAACT ACAAGTATGT CCCTGATAGC TGTGTGACGT CCCCTCTGAA CATTGACAAA
    AATATCACTC ACTTGCAGTA CTGTGTCTGT AAAGACGATT GCTCTTCTGC AAGCTGCATG
    TGTGGCCAAC TAAGCCTGAG ATGCTGGTAT GATAAAGAGA GTCGTCTGCT GCCTGAGTTC
    AGTAATGAGG AGCCGCCTCT TATATTTGAG TGCAACCATG CCTGCTCCTG CTGGAGAACC
    TGCAAAAACC GTGTGGTACA GAACGGACTG AGGACAAGAC TGCAGTTGTT CAAGACACAG
    ATGATGGGAT GGGGTGTCAA GACATTACAG GATATCCCTC AAGGAACATT TGTTTGCGAA
    TACGTGGGTG AGATCATCTC TGACGCCGAA GCAGATGTCA GAGAGAATGA CTCCTATCTT
    TTCAGTCTGG ACAGCAAGGT GGGTGACATG TACTGCGTTG ATGCTCGTTT CTACGGGAAC
    ATCAGCCGGT TCATAAACCA TCACTGTGAG CCCAATCTGC TCCCCTGTCG GGTGTTCACC
    TCTCACCAGG ACCTCCGATT TCCTCACATC GCATTCTTCG CCTGCAAGAA CATCAGTGCC
    GGAGATGAAC TTGGGTTTGA CTATGGCGAT CACTTCTGGG ACGTAAAGGG GAAGCTGTTC
    AACTGCAAGT GTGGCTCATC CAAATGCAAG CACTCTGCAG CTGCCATCGC CCAGACACAG
    GCAGACAGTA CACCAGGTGA CCAGCAGCCC AGCGCCCTAC CCGATACCAG CTCATCCACC
    CCATCCAGCC CCAGCTAA

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

    RefSeq XP_009293518.1
    CDS337..4134
    Translation

    Target ORF information:

    RefSeq Version XM_009295243.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009295243.2

    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
    ATGAAGTCCG AGGGGACAAA AGAGTCTCGC AGTGATCAAG AAGAAGGAGG AGATGATGAT 
    CACCAGGATG GGCGAACAGG CCCTCTTAGA GAGGCCATTG AGCAGAATGG GACCTATGAA
    AATATGGACA CAAAGAGAAA TGAACAGAAC CTCTCTACAC AAGGGTCACC AGCACGACCC
    TCAACCATGG AGAATGGGCT ATCAGAAACT GAGCCACCGC ATGGCTCAAA AGTAGGCAGT
    AATGGATATA TTCTAAGCAA AGTAAAGGAA GATACAGTGT CAGCCCCTCA CAGGACTAAC
    TGGTCCCCCA CTGGGGGTAC CACATTGGGG CATGGGACTA AAAGCTCACC GCCTTCAGTG
    TTGCAATCTC TAGACCAGGG TTCTTCAAAC AGTGGTGCAA GCCAAGGACC AAGTCTAACA
    GAGAGACGAG CAGAAACAGA GACTAAAAAT GGCATCATTT CAAAAACACC CCCACCAACA
    GTACATCGTG CACGTAAAAC TATGTCAAGG CCGGCCTCAA ACCAGACACT AAAGCTTTTG
    AACAGGGAAA ATAAAGAGCC AGTCGTGGTA AAAGATGACA GTGCAGGCAA ACCAGAGGCA
    GTGCAGCCTC AGCCATCTCT AATCCAGAAT CAGCTACCTC AAAGCCAAAC TGACGCCACA
    TCTGTACCGA ACACCACACC TGCCAAGCCA CAAATAGAAT TCTCTCTTTA TGCATCGACA
    GTTGAACCCA GACCTGTCTC TCCCTCAGTA GCAGCCGTAT CAAGGAAGAA AAAAAGAAAG
    ATGGGAACAT ATAGTCTTGT ACCCAAGAAG AAAAACAAAG TCTTGAAACA ACGCACAGTT
    CTGGAGATGT TTCAGCAGAT ATCCCAGTCT CCACCCAACC CTAAGCCAAA GGAGATTGTG
    CGTGTGAATG GAGAGAAAAT GGATAATGAG TCTGATGAGG AGGAGTCAGA GGAAGGGGAA
    GACACAGAGG ATGAAGAAGA GCTAGTCACA GAAGATGGAG CCAAAGCTTC ACATGAGGAA
    CCTAGGATAC CTTCGATCTC ACAGCCCCTG GAAGAAGAGT CTGAGGAGTC TCAAGACTGT
    GAAGGTGAAG AGGAAGGGGA TGAATCAGAC TTGAGTTCAG AATCCAGTTT GAAAAAGAAA
    TGGAAAAAGA AAGCCAAAGG AGATCATGCC TGGCTCCGAC CGTCAAGGAA ACGCAAGAGG
    AAATGGAAAG CAAAAACGGA CAAGGTTTCT GCTCCAGTAA CGGAGATCCA GTCTCGGCCA
    GAAAGCCAGA GCGCCCCATC AGTCCCTACT GCTCACAGAA AGGAGTATAA AGAAGTCCCT
    CTAGACTCTC TCAATCTAGC AGCACAGGAA GCCTTATTGA CATCTCAAAA TACAGCTGCT
    TCAGGGTCAT TGCAGAGCAC AGATGCAGAC ATGGTGCAGG AACTGCCTCT ATGCAGCTGT
    CGAATGGAGA CACCCAAGAG TCGAGAGATC CTCACGCTTG CGGACAGGAA GTGTATGGCA
    ACTGAGAGCA TTGACGGCCA GCTGAGCCGT TGTCAGAGTG CAGTGCTGAA GCACGAGATG
    ATGAGGCCTT CAAATTCTGT CCAACTGCTG GTTCTGTGTG AGGACCATCG CACAGGCATG
    GTCAAGCATC AGTGCTGCCC TGGCTGTGGC TTCTTTTGCA GAGCCGGTAC CTTCATGGAG
    TGTCAGCCAG AGGTGAACAT CTCCCACCGC TTCCATCGGA CCTGTGCCTC GGTACTTAAT
    GGGCAGAGCT TTTGTCCACA TTGTGGAGAG GAAGTCAGCA AGGCGAAAGA GGTCACCATT
    GCCAAGGCAG ATACAACGTC AACTGTACCC ATCACCCATA GCTCCTGCAT ACCCAGCACC
    TCAGAGGGCA AAGCGGACAC TACCACTGGA GGGTCCACTC GGCTCTCTGT ACTTGGAGAG
    GGAAAAGCAA ACAGCACCTT ACCCAAACCT TCAGAATCAC AGGACACATC TTTGTCCCTT
    GTGGGTTCCA AAGCCAGGTC TGTAGCGATG GCAGCTGCAC CTGGACTTCC ACTTCCACCA
    GGACCACCTA AAGAAACTCT GCAAAGTGTC CTGCTGGCTC TAGATGCTGA AAAGCCCAAG
    AAGCTTCGGT TTCACCCAAA ACAATTGTAC ATTTCTGCCA AACAAGGGGA GCTGCAGAAG
    GTCCTACTAA TGTTGGTGGA TGGGATTGAT CCCAACTTCA AAATGGAGAG CCAGAACAAA
    CGGACGCCAC TCCATGTTGC TGCAGAAGCA GGTCATCAGG ATGTCTGCCA TATGCTGGTA
    CAGGCTGGTG CCAACCTTGA CATGTGTGAT GAGGACCAGC GGACGCCTCT GATGGAGGCC
    TGTGAGAACA ACCATCTCGA AACTGTGCGA TATCTTCTGC GGGCCGGAGC CATCGTCTCT
    CACAAGGATG TTGAAGGATC AACTTGTCTC CATCTTGCTG CTAAGAACGG GCATTTCAGC
    ATTGTACAAC ATCTGCTCTC TGCAGGCCTT GTTGATATTA ACTGCCAGGA TGATGGAGGT
    TGGACAGCCA TGATTTGGGC CACAGAGTAC AAACATGTGG ACCAAGTGAA ACTCTTGCTC
    TCCAAAGGGG CTGATATCAA TATACGAGAC AAGGAGGAGA ATATCTGTCT GCATTGGGCC
    GCTTTCTCTG GCTGCGTGGA AATAGCCGAG ATCTTTCTGA CTGCCAAGTG TGATCTCAAC
    ACCATGAACA TCCACGGAGA CTCGCCGTTG CACATAGCGT CGCGAGAGGG CCGGCTTGAC
    TGTGTAAACT TGTTTTTGTC TCGTGGTGCT GATGTAAACC TTAAAAACAA AGAAGGAGAG
    ACGCCCATGG AGTGCTGCAG CCATAGCTCG AAGGTCTGGA ATGCTCTTCA AGCCAACAAA
    AAGCAGAGAG AAGCAAACCG CAAAGCTGGC GCCACAGAGA AGCTTCTCAA CAAGGACATC
    GCTAGAGGTT ACGAAAAAGT CCCCGTCCCG TGCGTAAATG CAGTGGACAG CGAACCCTGT
    CCTGACAACT ACAAGTATGT CCCTGATAGC TGTGTGACGT CCCCTCTGAA CATTGACAAA
    AATATCACTC ACTTGCAGTA CTGTGTCTGT AAAGACGATT GCTCTTCTGC AAGCTGCATG
    TGTGGCCAAC TAAGCCTGAG ATGCTGGTAT GATAAAGAGA GTCGTCTGCT GCCTGAGTTC
    AGTAATGAGG AGCCGCCTCT TATATTTGAG TGCAACCATG CCTGCTCCTG CTGGAGAACC
    TGCAAAAACC GTGTGGTACA GAACGGACTG AGGACAAGAC TGCAGTTGTT CAAGACACAG
    ATGATGGGAT GGGGTGTCAA GACATTACAG GATATCCCTC AAGGAACATT TGTTTGCGAA
    TACGTGGGTG AGATCATCTC TGACGCCGAA GCAGATGTCA GAGAGAATGA CTCCTATCTT
    TTCAGTCTGG ACAGCAAGGT GGGTGACATG TACTGCGTTG ATGCTCGTTT CTACGGGAAC
    ATCAGCCGGT TCATAAACCA TCACTGTGAG CCCAATCTGC TCCCCTGTCG GGTGTTCACC
    TCTCACCAGG ACCTCCGATT TCCTCACATC GCATTCTTCG CCTGCAAGAA CATCAGTGCC
    GGAGATGAAC TTGGGTTTGA CTATGGCGAT CACTTCTGGG ACGTAAAGGG GAAGCTGTTC
    AACTGCAAGT GTGGCTCATC CAAATGCAAG CACTCTGCAG CTGCCATCGC CCAGACACAG
    GCAGACAGTA CACCAGGTGA CCAGCAGCCC AGCGCCCTAC CCGATACCAG CTCATCCACC
    CCATCCAGCC CCAGCTAA

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

    CloneID ODa40681
    Clone ID Related Accession (Same CDS sequence) XM_009295245.2
    Accession Version XM_009295245.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3723bp)
    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 histone-lysine N-methyltransferase EHMT1 isoform X5
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007132.6) 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_009295245.1. ##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
    ATGAATGAAG ACCACTGCTT AAGGCAGCCC TCCAGTTTGG CCAATGGGAA TTCAGGCAAG 
    AGGGAAACCA TGAAGTCCGA GGGGACAAAA GAGTCTCGCA GTGATCAAGA AGAAGGAGGA
    GATGATGATC ACCAGGATGG GCGAACAGGC CCTCTTAGAG AGGCCATTGA GCAGAATGGG
    ACCTATGAAA ATATGGACAC AAAGAGAAAT GAACAGAACC TCTCTACACA AGGGTCACCA
    GCACGACCCT CAACCATGGA GAATGGGCTA TCAGAAACTG AGCCACCGCA TGGCTCAAAA
    GTAGGCAGTA ATGGATATAT TCTAAGCAAA GTAAAGGAAG ATACAGTGTC AGCCCCTCAC
    AGGACTAACT GGTCCCCCAC TGGGGGTACC ACATTGGGGC ATGGGACTAA AAGCTCACCG
    CCTTCAGTGT TGCAATCTCT AGACCAGGGT TCTTCAAACA GTGGTGCAAG CCAAGGACCA
    AGTCTAACAG AGAGACGAGC AGAAACAGAG ACTAAAAATG GCATCATTTC AAAAACACCC
    CCACCAACAG TACATCGTGC ACGTAAAACT ATGTCAAGGC CGGCCTCAAA CCAGACACTA
    AAGCTTTTGA ACAGGGAAAA TAAAGAGCCA GTCGTGGTAA AAGATGACAG TGCAGGCAAA
    CCAGAGGCAG TGCAGCCTCA GCCATCTCTA ATCCAGAATC AGCTACCTCA AAGCCAAACT
    GACGCCACAT CTGTACCGAA CACCACACCT GCCAAGCCAC AAATAGAATT CTCTCTTTAT
    GCATCGACAG TTGAACCCAG ACCTGTCTCT CCCTCAGTAG CAGCCGTATC AAGGAAGAAA
    AAAAGAAAGA TGGGAACATA TAGTCTTGTA CCCAAGAAGA AAAACAAAGT CTTGAAACAA
    CGCACAGTTC TGGAGATGTT TCAGCAGATA TCCCAGTCTC CACCCAACCC TAAGCCAAAG
    GAGATTGTGC GTGTGAATGG AGAGAAAATG GATAATGAGT CTGATGAGGA GGAGTCAGAG
    GAAGGGGAAG ACACAGAGGA TGAAGAAGAG CTAGTCACAG AAGATGGAGC CAAAGCTTCA
    CATGAGGAAC CTAGGATACC TTCGATCTCA CAGCCCCTGG AAGAAGAGTC TGAGGAGTCT
    CAAGACTGTG AAGGTGAAGA GGAAGGGGAT GAATCAGACT TGAGTTCAGA ATCCAGTTTG
    AAAAAGAAAT GGAAAAAGAA AGCCAAAGGA GATCATGCCT GGCTCCGACC GTCAAGGAAA
    CGCAAGAGGA AATGGAAAGC AAAAACGGAC AAGGTTTCTG CTCCAGTAAC GGAGATCCAG
    TCTCGGCCAG AAAGCCAGAG CGCCCCATCA GTCCCTACTG CTCACAGAAA GGAGTATAAA
    GAAGTCCCTC TAGACTCTCT CAATCTAGCA GCACAGGAAG CCTTATTGAC ATCTCAAAAT
    ACAGCTGCTT CAGGGTCATT GCAGAGCACA GATGCAGACA TGGTGCAGGA ACTGCCTCTA
    TGCAGCTGTC GAATGGAGAC ACCCAAGAGT CGAGAGATCC TCACGCTTGC GGACAGGAAG
    TGTATGGCAA CTGAGAGCAT TGACGGCCAG GGTACCTTCA TGGAGTGTCA GCCAGAGGTG
    AACATCTCCC ACCGCTTCCA TCGGACCTGT GCCTCGGTAC TTAATGGGCA GAGCTTTTGT
    CCACATTGTG GAGAGGAAGT CAGCAAGGCG AAAGAGGTCA CCATTGCCAA GGCAGATACA
    ACGTCAACTG TACCCATCAC CCATAGCTCC TGCATACCCA GCACCTCAGA GGGCAAAGCG
    GACACTACCA CTGGAGGGTC CACTCGGCTC TCTGTACTTG GAGAGGGAAA AGCAAACAGC
    ACCTTACCCA AACCTTCAGA ATCACAGGAC ACATCTTTGT CCCTTGTGGG TTCCAAAGCC
    AGGTCTGTAG CGATGGCAGC TGCACCTGGA CTTCCACTTC CACCAGGACC ACCTAAAGAA
    ACTCTGCAAA GTGTCCTGCT GGCTCTAGAT GCTGAAAAGC CCAAGAAGCT TCGGTTTCAC
    CCAAAACAAT TGTACATTTC TGCCAAACAA GGGGAGCTGC AGAAGGTCCT ACTAATGTTG
    GTGGATGGGA TTGATCCCAA CTTCAAAATG GAGAGCCAGA ACAAACGGAC GCCACTCCAT
    GTTGCTGCAG AAGCAGGTCA TCAGGATGTC TGCCATATGC TGGTACAGGC TGGTGCCAAC
    CTTGACATGT GTGATGAGGA CCAGCGGACG CCTCTGATGG AGGCCTGTGA GAACAACCAT
    CTCGAAACTG TGCGATATCT TCTGCGGGCC GGAGCCATCG TCTCTCACAA GGATGTTGAA
    GGATCAACTT GTCTCCATCT TGCTGCTAAG AACGGGCATT TCAGCATTGT ACAACATCTG
    CTCTCTGCAG GCCTTGTTGA TATTAACTGC CAGGATGATG GAGGTTGGAC AGCCATGATT
    TGGGCCACAG AGTACAAACA TGTGGACCAA GTGAAACTCT TGCTCTCCAA AGGGGCTGAT
    ATCAATATAC GAGACAAGGA GGAGAATATC TGTCTGCATT GGGCCGCTTT CTCTGGCTGC
    GTGGAAATAG CCGAGATCTT TCTGACTGCC AAGTGTGATC TCAACACCAT GAACATCCAC
    GGAGACTCGC CGTTGCACAT AGCGTCGCGA GAGGGCCGGC TTGACTGTGT AAACTTGTTT
    TTGTCTCGTG GTGCTGATGT AAACCTTAAA AACAAAGAAG GAGAGACGCC CATGGAGTGC
    TGCAGCCATA GCTCGAAGGT CTGGAATGCT CTTCAAGCCA ACAAAAAGCA GAGAGAAGCA
    AACCGCAAAG CTGGCGCCAC AGAGAAGCTT CTCAACAAGG ACATCGCTAG AGGTTACGAA
    AAAGTCCCCG TCCCGTGCGT AAATGCAGTG GACAGCGAAC CCTGTCCTGA CAACTACAAG
    TATGTCCCTG ATAGCTGTGT GACGTCCCCT CTGAACATTG ACAAAAATAT CACTCACTTG
    CAGTACTGTG TCTGTAAAGA CGATTGCTCT TCTGCAAGCT GCATGTGTGG CCAACTAAGC
    CTGAGATGCT GGTATGATAA AGAGAGTCGT CTGCTGCCTG AGTTCAGTAA TGAGGAGCCG
    CCTCTTATAT TTGAGTGCAA CCATGCCTGC TCCTGCTGGA GAACCTGCAA AAACCGTGTG
    GTACAGAACG GACTGAGGAC AAGACTGCAG TTGTTCAAGA CACAGATGAT GGGATGGGGT
    GTCAAGACAT TACAGGATAT CCCTCAAGGA ACATTTGTTT GCGAATACGT GGGTGAGATC
    ATCTCTGACG CCGAAGCAGA TGTCAGAGAG AATGACTCCT ATCTTTTCAG TCTGGACAGC
    AAGGTGGGTG ACATGTACTG CGTTGATGCT CGTTTCTACG GGAACATCAG CCGGTTCATA
    AACCATCACT GTGAGCCCAA TCTGCTCCCC TGTCGGGTGT TCACCTCTCA CCAGGACCTC
    CGATTTCCTC ACATCGCATT CTTCGCCTGC AAGAACATCA GTGCCGGAGA TGAACTTGGG
    TTTGACTATG GCGATCACTT CTGGGACGTA AAGGGGAAGC TGTTCAACTG CAAGTGTGGC
    TCATCCAAAT GCAAGCACTC TGCAGCTGCC ATCGCCCAGA CACAGGCAGA CAGTACACCA
    GGTGACCAGC AGCCCAGCGC CCTACCCGAT ACCAGCTCAT CCACCCCATC CAGCCCCAGC
    TAA

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

    RefSeq XP_009293520.1
    CDS38..3760
    Translation

    Target ORF information:

    RefSeq Version XM_009295245.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio euchromatic histone-lysine N-methyltransferase 1b (ehmt1b), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009295245.2

    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
    ATGAATGAAG ACCACTGCTT AAGGCAGCCC TCCAGTTTGG CCAATGGGAA TTCAGGCAAG 
    AGGGAAACCA TGAAGTCCGA GGGGACAAAA GAGTCTCGCA GTGATCAAGA AGAAGGAGGA
    GATGATGATC ACCAGGATGG GCGAACAGGC CCTCTTAGAG AGGCCATTGA GCAGAATGGG
    ACCTATGAAA ATATGGACAC AAAGAGAAAT GAACAGAACC TCTCTACACA AGGGTCACCA
    GCACGACCCT CAACCATGGA GAATGGGCTA TCAGAAACTG AGCCACCGCA TGGCTCAAAA
    GTAGGCAGTA ATGGATATAT TCTAAGCAAA GTAAAGGAAG ATACAGTGTC AGCCCCTCAC
    AGGACTAACT GGTCCCCCAC TGGGGGTACC ACATTGGGGC ATGGGACTAA AAGCTCACCG
    CCTTCAGTGT TGCAATCTCT AGACCAGGGT TCTTCAAACA GTGGTGCAAG CCAAGGACCA
    AGTCTAACAG AGAGACGAGC AGAAACAGAG ACTAAAAATG GCATCATTTC AAAAACACCC
    CCACCAACAG TACATCGTGC ACGTAAAACT ATGTCAAGGC CGGCCTCAAA CCAGACACTA
    AAGCTTTTGA ACAGGGAAAA TAAAGAGCCA GTCGTGGTAA AAGATGACAG TGCAGGCAAA
    CCAGAGGCAG TGCAGCCTCA GCCATCTCTA ATCCAGAATC AGCTACCTCA AAGCCAAACT
    GACGCCACAT CTGTACCGAA CACCACACCT GCCAAGCCAC AAATAGAATT CTCTCTTTAT
    GCATCGACAG TTGAACCCAG ACCTGTCTCT CCCTCAGTAG CAGCCGTATC AAGGAAGAAA
    AAAAGAAAGA TGGGAACATA TAGTCTTGTA CCCAAGAAGA AAAACAAAGT CTTGAAACAA
    CGCACAGTTC TGGAGATGTT TCAGCAGATA TCCCAGTCTC CACCCAACCC TAAGCCAAAG
    GAGATTGTGC GTGTGAATGG AGAGAAAATG GATAATGAGT CTGATGAGGA GGAGTCAGAG
    GAAGGGGAAG ACACAGAGGA TGAAGAAGAG CTAGTCACAG AAGATGGAGC CAAAGCTTCA
    CATGAGGAAC CTAGGATACC TTCGATCTCA CAGCCCCTGG AAGAAGAGTC TGAGGAGTCT
    CAAGACTGTG AAGGTGAAGA GGAAGGGGAT GAATCAGACT TGAGTTCAGA ATCCAGTTTG
    AAAAAGAAAT GGAAAAAGAA AGCCAAAGGA GATCATGCCT GGCTCCGACC GTCAAGGAAA
    CGCAAGAGGA AATGGAAAGC AAAAACGGAC AAGGTTTCTG CTCCAGTAAC GGAGATCCAG
    TCTCGGCCAG AAAGCCAGAG CGCCCCATCA GTCCCTACTG CTCACAGAAA GGAGTATAAA
    GAAGTCCCTC TAGACTCTCT CAATCTAGCA GCACAGGAAG CCTTATTGAC ATCTCAAAAT
    ACAGCTGCTT CAGGGTCATT GCAGAGCACA GATGCAGACA TGGTGCAGGA ACTGCCTCTA
    TGCAGCTGTC GAATGGAGAC ACCCAAGAGT CGAGAGATCC TCACGCTTGC GGACAGGAAG
    TGTATGGCAA CTGAGAGCAT TGACGGCCAG GGTACCTTCA TGGAGTGTCA GCCAGAGGTG
    AACATCTCCC ACCGCTTCCA TCGGACCTGT GCCTCGGTAC TTAATGGGCA GAGCTTTTGT
    CCACATTGTG GAGAGGAAGT CAGCAAGGCG AAAGAGGTCA CCATTGCCAA GGCAGATACA
    ACGTCAACTG TACCCATCAC CCATAGCTCC TGCATACCCA GCACCTCAGA GGGCAAAGCG
    GACACTACCA CTGGAGGGTC CACTCGGCTC TCTGTACTTG GAGAGGGAAA AGCAAACAGC
    ACCTTACCCA AACCTTCAGA ATCACAGGAC ACATCTTTGT CCCTTGTGGG TTCCAAAGCC
    AGGTCTGTAG CGATGGCAGC TGCACCTGGA CTTCCACTTC CACCAGGACC ACCTAAAGAA
    ACTCTGCAAA GTGTCCTGCT GGCTCTAGAT GCTGAAAAGC CCAAGAAGCT TCGGTTTCAC
    CCAAAACAAT TGTACATTTC TGCCAAACAA GGGGAGCTGC AGAAGGTCCT ACTAATGTTG
    GTGGATGGGA TTGATCCCAA CTTCAAAATG GAGAGCCAGA ACAAACGGAC GCCACTCCAT
    GTTGCTGCAG AAGCAGGTCA TCAGGATGTC TGCCATATGC TGGTACAGGC TGGTGCCAAC
    CTTGACATGT GTGATGAGGA CCAGCGGACG CCTCTGATGG AGGCCTGTGA GAACAACCAT
    CTCGAAACTG TGCGATATCT TCTGCGGGCC GGAGCCATCG TCTCTCACAA GGATGTTGAA
    GGATCAACTT GTCTCCATCT TGCTGCTAAG AACGGGCATT TCAGCATTGT ACAACATCTG
    CTCTCTGCAG GCCTTGTTGA TATTAACTGC CAGGATGATG GAGGTTGGAC AGCCATGATT
    TGGGCCACAG AGTACAAACA TGTGGACCAA GTGAAACTCT TGCTCTCCAA AGGGGCTGAT
    ATCAATATAC GAGACAAGGA GGAGAATATC TGTCTGCATT GGGCCGCTTT CTCTGGCTGC
    GTGGAAATAG CCGAGATCTT TCTGACTGCC AAGTGTGATC TCAACACCAT GAACATCCAC
    GGAGACTCGC CGTTGCACAT AGCGTCGCGA GAGGGCCGGC TTGACTGTGT AAACTTGTTT
    TTGTCTCGTG GTGCTGATGT AAACCTTAAA AACAAAGAAG GAGAGACGCC CATGGAGTGC
    TGCAGCCATA GCTCGAAGGT CTGGAATGCT CTTCAAGCCA ACAAAAAGCA GAGAGAAGCA
    AACCGCAAAG CTGGCGCCAC AGAGAAGCTT CTCAACAAGG ACATCGCTAG AGGTTACGAA
    AAAGTCCCCG TCCCGTGCGT AAATGCAGTG GACAGCGAAC CCTGTCCTGA CAACTACAAG
    TATGTCCCTG ATAGCTGTGT GACGTCCCCT CTGAACATTG ACAAAAATAT CACTCACTTG
    CAGTACTGTG TCTGTAAAGA CGATTGCTCT TCTGCAAGCT GCATGTGTGG CCAACTAAGC
    CTGAGATGCT GGTATGATAA AGAGAGTCGT CTGCTGCCTG AGTTCAGTAA TGAGGAGCCG
    CCTCTTATAT TTGAGTGCAA CCATGCCTGC TCCTGCTGGA GAACCTGCAA AAACCGTGTG
    GTACAGAACG GACTGAGGAC AAGACTGCAG TTGTTCAAGA CACAGATGAT GGGATGGGGT
    GTCAAGACAT TACAGGATAT CCCTCAAGGA ACATTTGTTT GCGAATACGT GGGTGAGATC
    ATCTCTGACG CCGAAGCAGA TGTCAGAGAG AATGACTCCT ATCTTTTCAG TCTGGACAGC
    AAGGTGGGTG ACATGTACTG CGTTGATGCT CGTTTCTACG GGAACATCAG CCGGTTCATA
    AACCATCACT GTGAGCCCAA TCTGCTCCCC TGTCGGGTGT TCACCTCTCA CCAGGACCTC
    CGATTTCCTC ACATCGCATT CTTCGCCTGC AAGAACATCA GTGCCGGAGA TGAACTTGGG
    TTTGACTATG GCGATCACTT CTGGGACGTA AAGGGGAAGC TGTTCAACTG CAAGTGTGGC
    TCATCCAAAT GCAAGCACTC TGCAGCTGCC ATCGCCCAGA CACAGGCAGA CAGTACACCA
    GGTGACCAGC AGCCCAGCGC CCTACCCGAT ACCAGCTCAT CCACCCCATC CAGCCCCAGC
    TAA

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