MLH3 cDNA ORF clone, Danio rerio(Zebrafish)

The following MLH3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the MLH3 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
ODa146277 XM_005162210.4
Latest version!
Danio rerio mutL homolog 3 (E. coli) (mlh3), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
ODa146278 XM_691647.7
Latest version!
Danio rerio mutL homolog 3 (E. coli) (mlh3), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
ODa57492 XM_017353712.1
Latest version!
Danio rerio mutL homolog 3 (E. coli) (mlh3), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
ODa27767 XM_005162210.3
Latest version!
Danio rerio mutL homolog 3 (E. coli) (mlh3), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00
ODa27767 XM_021469962.1
Latest version!
Danio rerio mutL homolog 3 (E. coli) (mlh3), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00
ODa27768 XM_021469963.1
Latest version!
Danio rerio mutL homolog 3 (E. coli) (mlh3), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00
ODa27768 XM_691647.6
Latest version!
Danio rerio mutL homolog 3 (E. coli) (mlh3), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00

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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 ODa146277
    Clone ID Related Accession (Same CDS sequence) XM_005162210.4
    Accession Version XM_005162210.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3435bp)
    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 DNA mismatch repair protein Mlh3 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_018395151.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_005162210.3. ##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
    ATGATCAAGA GTTTACCCAT AAATGTTCAA GCACAGCTGC GCTCTGGTGT TGCTATTTTC 
    TCATTGCAGC AGTGTGTGGA GGAGCTCATA TTAAACAGCA TTGATGCTGG AGCAACATGT
    GTGGCTGTCA AAATAGACAT AGAGGCCTGC AAGCTTCAGG TCATTGACAA TGGCTCAGGA
    ATGTGCCTGG AGGACATGGA GAAAGTTGGA CTACGCTACA ACACAAGCAA ATGCAGCTCC
    CTGGAGGATT TGGATAATCT TCATTTTTAT GGTTTCAGAG GAGAAGCCAT TTCCAGTATA
    GTTTCCCTTG CAGAAATGGT GGAAATATCA TCTAGGACTA AGCAGTCTGT GAAAACGTAT
    GTTAAATCCT TTAATGAAAC AAATGCATTG GAGGTTTTCG AAGCTCAAAC TGTTCGCCCT
    TCTGCAGGGA CGACCGTCTC AGTCTACAAT CTCTTCCACA ACATGCCAGT CCGTAGAAAG
    CGAATGGATC CTGTTTTAGA AACCGAACGA ATCCGTCAGA GAGTGGAGGC CATATCTTTA
    ATGCATCCAT CTGTGTCATT CACAGTGAAA AAAGAAAATT CAGCACACAT GATGGTGCAG
    CTCTCTAAAA CAAGCAGTAC CTATTATAGG TTTGTCCAAA TTCATGGCTT AAATCGAGCC
    CAAAAGCTTG GAGAAGTCAA TTATGAGCAC GAGCAGTTCC AAATAACCGG TCATATAGGC
    CGTGAGGGCC ATTACAACAA CAGTTTGCAA TTTTTATTTG TAAATGAGAG GCTTCTTCTA
    AAGACACGCA TTCATAAAAC ACTAAACTGC CTTTTAAAGA GAGTAAGCGG TGCTGCAAGG
    CAAAACAACA GCCCAACCTC ATATCCGGTA ACATCCAGCC CCAAACAGAA GGGAGGATAT
    GATCTCCATG GCATTTATGT GATAAATATC AAATGTCATT ACTCAGAGTA TGACATATGC
    CTCGAACCAG CCAAGTCTCT GATAGAGTTC AAAGACTGGG ATAATGTGCT CATCTGCATT
    GAAGAAGGGG TAAAGGCATT CCTTACTAAA GAAAACCTGG TGTCGGAGTT AAACACGATC
    AGTAATGATG GTCTACCATG TAGTCCAGTA AGAAATGCAG AAAGCTCAGA AAAACAAAAG
    CGCAGTTCTG AGGAAACAAA TGAAGCATGT GAAACGATGA TTGAGAAAAA TGATTCAAGT
    GTTGTGGACG TCGCTGATGG TGTGCAAATG TTAGAGCAGG AATCAATATA CACTGAATCG
    GATGCAGGAA AAGCACTTCA GAGTGAAGAT TTGCCTTTTC AGACCACACT TGTTGGTGCT
    GCTGAAATTA ATAACAACCA CAAAGAAGAT GAAAATGCAG TTTGTTCAAA TATAAGCCAT
    ACTGATTCAC CGCTTGCTGT AAACAAAAAT GTAATGGGAA GCAAATCGCA CAAGATTTCA
    CTTCCAGAAG CACAAGATAG TTTGCAGAAA TTCTACACCC CAAATAAAAC CTCTCCAAAA
    AAGAGAAGGA TGCCGTTAAA TGACACCGAA GAAGACAAAC ATGTTTTTTA TGGTGGTCCC
    TCAAAGACAT TTAAAGCTAC ACCACCTCGT AAATTAACCC TGTCTTTTGA AACGGGATCT
    CTTGACAAGT TCAAAAGGTT GTTTGGGAAA GAGGCTGAGA AAAAACAACC AAGCACAGAA
    AAAACAAGCC TTCTAAATCC AAATCCCAAT GACCGCTTTG TAGGATCTAC ATCGTGTTTG
    GATGATCTAC ACCATCCAGT ATTGAGGAAC AGTTCAGGTC ATCCTACTAC ACACAGATCT
    ACTGAATCTT CATCGCTGAA CAAGAAAAAC AAAATATCAT TAGCTGCCAA ATGTTCCTAT
    TTAAAACAGG ACAAAGAGCT CTGCAGAGAT TCAAACTTCC TTAAACGGGA CCTTTCATCT
    TTCCCACCCT CACAAGACTC ATGCTTTGAA GAATTAGAAA AAACCCTCTT AGATGAAGAT
    GTTTTATTTG GATCATCTGG AATTGTTGAT TCTGTTGACT TTCCTCTTAT TGAACAGGAC
    ACAGCATTAC CATCTGTTGC AGAAGAATCG CACCTCTTCA ACAACAATGT GACTTTCTTT
    ATTGGAAATG AGAGCAGTGT TGATGAAGCC AGCGTTGCCT CTCAGCGTGA TCCTCAACAC
    AGCATTGCAG GAAATGAAGG TCAGACTACA AACGAAAGTG TTGAATCAAT CCCAGTGTCC
    AACAGCTGGT TGGCTCATTA CGATAGCTGG TTAGGAAAGC TGGTTTATAT CAATCAAGTA
    ACAGGGCTCA GCAAGTACAA CTCTCCCCCT ATGGAGGAGA CTCAAGTGCC ATGTACCACA
    GATGTCACTA ACATGGCGGT CAGTGTTATT TCAAAAGCAG GCTTTGAGTA CAGGTGTTAT
    CCATTTCAAT CAGACATTGT ACTTCCCTTT CTGCCCAAGC CCAGAGCAGA AAGAGCCTTT
    AACTCAGGGA CAGACAGCAG AGAGGATGCC CAAGCTCCCG ATTCACTGTC GACTTTATTC
    TCAGAATGGC ACAACCCTGT GTTTATACGA CCACCAGAGG TTGCTGTTGA TGTAACCAGC
    GGCCAAGCAG AGGGTCTTGC TGTAAAAATC CACAATATTC TTTTCCCCTA CCGTTTTACC
    AAGAATATGA TCCACACAAT GAGAGTCATC AATCAAGTAG ACAAGAAGTT TCTTGCTTGT
    TTGATAAATA CAGCAGGGCA GAACACCTCT GAAAGCAGTA CGGATGAAGG GAATCTTCTA
    GTGCTGGTTG ATCAACATGC TGCCCATGAA AGAGTTCGAC TAGAGGGTTT AATAGCAGAC
    TCTTACGAGG ATGACCCAGA CACACCTGGA AAAAAAAGGC TGTGTTCCTC ACGTGTAACC
    CCACCTTTGG AGATTAATGT AACCGAGGAG GAATTGAGAC TTTTGAGGTC TTGTCAGGGT
    TTCTTGAGAG GTCTTGCGTT AGATGTGAGG TTTCCGAAAA GTGAGTCACT GAGTGTGTTT
    TTGGAGAGTC TGCCCACATG TTTCATAGAG AAAGAAAGCA CAGAGCTCCG CCGTGGAAGG
    CGCTCGGTAA TTAAAACCAT TGCAGAGGAC TATCTGCGAG AACACATTGA GCTTTTTCGG
    TCAACAGGAA GAGTGAGAGG AATTCTGCCT CTGACAGTAC ATAATGTGCT TGCCTCACAG
    GCTTGTCATG GAGCAATTAA ATTCAATGAC GTTTTGAATA AAGAGGAGTG CTGTAGTCTG
    GTGAGCTCGC TTTCCTCTTG TCGGCTTCCT TTTCAGTGTG CTCATGGAAG ACCCTCCATC
    GTCCCTCTGG CAGATCTGCA CCACCTGGAA GAACAGCAGG ATATTCCCAA ACCAAATCTG
    AAGAAACTAA GAAGAATGTA CAAGTCATGG CAGCTGTATG GACAAAATCA ATATTTTGCA
    CAGAACAAAG CATAA

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

    RefSeq XP_005162267.2
    CDS356..3790
    Translation

    Target ORF information:

    RefSeq Version XM_005162210.4
    Organism Danio rerio(zebrafish)
    Definition Danio rerio mutL homolog 3 (E. coli) (mlh3), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005162210.4

    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
    ATGATCAAGA GTTTACCCAT AAATGTTCAA GCACAGCTGC GCTCTGGTGT TGCTATTTTC 
    TCATTGCAGC AGTGTGTGGA GGAGCTCATA TTAAACAGCA TTGATGCTGG AGCAACATGT
    GTGGCTGTCA AAATAGACAT AGAGGCCTGC AAGCTTCAGG TCATTGACAA TGGCTCAGGA
    ATGTGCCTGG AGGACATGGA GAAAGTTGGA CTACGCTACA ACACAAGCAA ATGCAGCTCC
    CTGGAGGATT TGGATAATCT TCATTTTTAT GGTTTCAGAG GAGAAGCCAT TTCCAGTATA
    GTTTCCCTTG CAGAAATGGT GGAAATATCA TCTAGGACTA AGCAGTCTGT GAAAACGTAT
    GTTAAATCCT TTAATGAAAC AAATGCATTG GAGGTTTTCG AAGCTCAAAC TGTTCGCCCT
    TCTGCAGGGA CGACCGTCTC AGTCTACAAT CTCTTCCACA ACATGCCAGT CCGTAGAAAG
    CGAATGGATC CTGTTTTAGA AACCGAACGA ATCCGTCAGA GAGTGGAGGC CATATCTTTA
    ATGCATCCAT CTGTGTCATT CACAGTGAAA AAAGAAAATT CAGCACACAT GATGGTGCAG
    CTCTCTAAAA CAAGCAGTAC CTATTATAGG TTTGTCCAAA TTCATGGCTT AAATCGAGCC
    CAAAAGCTTG GAGAAGTCAA TTATGAGCAC GAGCAGTTCC AAATAACCGG TCATATAGGC
    CGTGAGGGCC ATTACAACAA CAGTTTGCAA TTTTTATTTG TAAATGAGAG GCTTCTTCTA
    AAGACACGCA TTCATAAAAC ACTAAACTGC CTTTTAAAGA GAGTAAGCGG TGCTGCAAGG
    CAAAACAACA GCCCAACCTC ATATCCGGTA ACATCCAGCC CCAAACAGAA GGGAGGATAT
    GATCTCCATG GCATTTATGT GATAAATATC AAATGTCATT ACTCAGAGTA TGACATATGC
    CTCGAACCAG CCAAGTCTCT GATAGAGTTC AAAGACTGGG ATAATGTGCT CATCTGCATT
    GAAGAAGGGG TAAAGGCATT CCTTACTAAA GAAAACCTGG TGTCGGAGTT AAACACGATC
    AGTAATGATG GTCTACCATG TAGTCCAGTA AGAAATGCAG AAAGCTCAGA AAAACAAAAG
    CGCAGTTCTG AGGAAACAAA TGAAGCATGT GAAACGATGA TTGAGAAAAA TGATTCAAGT
    GTTGTGGACG TCGCTGATGG TGTGCAAATG TTAGAGCAGG AATCAATATA CACTGAATCG
    GATGCAGGAA AAGCACTTCA GAGTGAAGAT TTGCCTTTTC AGACCACACT TGTTGGTGCT
    GCTGAAATTA ATAACAACCA CAAAGAAGAT GAAAATGCAG TTTGTTCAAA TATAAGCCAT
    ACTGATTCAC CGCTTGCTGT AAACAAAAAT GTAATGGGAA GCAAATCGCA CAAGATTTCA
    CTTCCAGAAG CACAAGATAG TTTGCAGAAA TTCTACACCC CAAATAAAAC CTCTCCAAAA
    AAGAGAAGGA TGCCGTTAAA TGACACCGAA GAAGACAAAC ATGTTTTTTA TGGTGGTCCC
    TCAAAGACAT TTAAAGCTAC ACCACCTCGT AAATTAACCC TGTCTTTTGA AACGGGATCT
    CTTGACAAGT TCAAAAGGTT GTTTGGGAAA GAGGCTGAGA AAAAACAACC AAGCACAGAA
    AAAACAAGCC TTCTAAATCC AAATCCCAAT GACCGCTTTG TAGGATCTAC ATCGTGTTTG
    GATGATCTAC ACCATCCAGT ATTGAGGAAC AGTTCAGGTC ATCCTACTAC ACACAGATCT
    ACTGAATCTT CATCGCTGAA CAAGAAAAAC AAAATATCAT TAGCTGCCAA ATGTTCCTAT
    TTAAAACAGG ACAAAGAGCT CTGCAGAGAT TCAAACTTCC TTAAACGGGA CCTTTCATCT
    TTCCCACCCT CACAAGACTC ATGCTTTGAA GAATTAGAAA AAACCCTCTT AGATGAAGAT
    GTTTTATTTG GATCATCTGG AATTGTTGAT TCTGTTGACT TTCCTCTTAT TGAACAGGAC
    ACAGCATTAC CATCTGTTGC AGAAGAATCG CACCTCTTCA ACAACAATGT GACTTTCTTT
    ATTGGAAATG AGAGCAGTGT TGATGAAGCC AGCGTTGCCT CTCAGCGTGA TCCTCAACAC
    AGCATTGCAG GAAATGAAGG TCAGACTACA AACGAAAGTG TTGAATCAAT CCCAGTGTCC
    AACAGCTGGT TGGCTCATTA CGATAGCTGG TTAGGAAAGC TGGTTTATAT CAATCAAGTA
    ACAGGGCTCA GCAAGTACAA CTCTCCCCCT ATGGAGGAGA CTCAAGTGCC ATGTACCACA
    GATGTCACTA ACATGGCGGT CAGTGTTATT TCAAAAGCAG GCTTTGAGTA CAGGTGTTAT
    CCATTTCAAT CAGACATTGT ACTTCCCTTT CTGCCCAAGC CCAGAGCAGA AAGAGCCTTT
    AACTCAGGGA CAGACAGCAG AGAGGATGCC CAAGCTCCCG ATTCACTGTC GACTTTATTC
    TCAGAATGGC ACAACCCTGT GTTTATACGA CCACCAGAGG TTGCTGTTGA TGTAACCAGC
    GGCCAAGCAG AGGGTCTTGC TGTAAAAATC CACAATATTC TTTTCCCCTA CCGTTTTACC
    AAGAATATGA TCCACACAAT GAGAGTCATC AATCAAGTAG ACAAGAAGTT TCTTGCTTGT
    TTGATAAATA CAGCAGGGCA GAACACCTCT GAAAGCAGTA CGGATGAAGG GAATCTTCTA
    GTGCTGGTTG ATCAACATGC TGCCCATGAA AGAGTTCGAC TAGAGGGTTT AATAGCAGAC
    TCTTACGAGG ATGACCCAGA CACACCTGGA AAAAAAAGGC TGTGTTCCTC ACGTGTAACC
    CCACCTTTGG AGATTAATGT AACCGAGGAG GAATTGAGAC TTTTGAGGTC TTGTCAGGGT
    TTCTTGAGAG GTCTTGCGTT AGATGTGAGG TTTCCGAAAA GTGAGTCACT GAGTGTGTTT
    TTGGAGAGTC TGCCCACATG TTTCATAGAG AAAGAAAGCA CAGAGCTCCG CCGTGGAAGG
    CGCTCGGTAA TTAAAACCAT TGCAGAGGAC TATCTGCGAG AACACATTGA GCTTTTTCGG
    TCAACAGGAA GAGTGAGAGG AATTCTGCCT CTGACAGTAC ATAATGTGCT TGCCTCACAG
    GCTTGTCATG GAGCAATTAA ATTCAATGAC GTTTTGAATA AAGAGGAGTG CTGTAGTCTG
    GTGAGCTCGC TTTCCTCTTG TCGGCTTCCT TTTCAGTGTG CTCATGGAAG ACCCTCCATC
    GTCCCTCTGG CAGATCTGCA CCACCTGGAA GAACAGCAGG ATATTCCCAA ACCAAATCTG
    AAGAAACTAA GAAGAATGTA CAAGTCATGG CAGCTGTATG GACAAAATCA ATATTTTGCA
    CAGAACAAAG CATAA

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

    CloneID ODa146278
    Clone ID Related Accession (Same CDS sequence) XM_691647.7
    Accession Version XM_691647.7 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3132bp)
    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 DNA mismatch repair protein Mlh3 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_018395151.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_691647.6. ##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
    ATGATCAAGA GTTTACCCAT AAATGTTCAA GCACAGCTGC GCTCTGGTGT TGCTATTTTC 
    TCATTGCAGC AGTGTGTGGA GGAGCTCATA TTAAACAGCA TTGATGCTGG AGCAACATGT
    GTGGCTGTCA AAATAGACAT AGAGGCCTGC AAGCTTCAGG TCATTGACAA TGGCTCAGGA
    ATGTGCCTGG AGGACATGGA GAAAGTTGGA CTACGCTACA ACACAAGCAA ATGCAGCTCC
    CTGGAGGATT TGGATAATCT TCATTTTTAT GGTTTCAGAG GAGAAGCCAT TTCCAGTATA
    GTTTCCCTTG CAGAAATGGT GGAAATATCA TCTAGGACTA AGCAGTCTGT GAAAACGTAT
    GTTAAATCCT TTAATGAAAC AAATGCATTG GAGGTTTTCG AAGCTCAAAC TGTTCGCCCT
    TCTGCAGGGA CGACCGTCTC AGTCTACAAT CTCTTCCACA ACATGCCAGT CCGTAGAAAG
    CGAATGGATC CTGTTTTAGA AACCGAACGA ATCCGTCAGA GAGTGGAGGC CATATCTTTA
    ATGCATCCAT CTGTGTCATT CACAGTGAAA AAAGAAAATT CAGCACACAT GATGGTGCAG
    CTCTCTAAAA CAAGCAGTAC CTATTATAGG TTTGTCCAAA TTCATGGCTT AAATCGAGCC
    CAAAAGCTTG GAGAAGTCAA TTATGAGCAC GAGCAGTTCC AAATAACCGG TCATATAGGC
    CGTGAGGGCC ATTACAACAA CAGTTTGCAA TTTTTATTTG TAAATGAGAG GCTTCTTCTA
    AAGACACGCA TTCATAAAAC ACTAAACTGC CTTTTAAAGA GAGTAAGCGG TGCTGCAAGG
    CAAAACAACA GCCCAACCTC ATATCCGGTA ACATCCAGCC CCAAACAGAA GGGAGGATAT
    GATCTCCATG GCATTTATGT GATAAATATC AAATGTCATT ACTCAGAGTA TGACATATGC
    CTCGAACCAG CCAAGTCTCT GATAGAGTTC AAAGACTGGG ATAATGTGCT CATCTGCATT
    GAAGAAGGGG TAAAGGCATT CCTTACTAAA GAAAACCTGG TGTCGGAGTT AAACACGATC
    AGTAATGATG GTCTACCATG TAGTCCAGTA AGAAATGCAG AAAGCTCAGA AAAACAAAAG
    CGCAGTTCTG AGGAAACAAA TGAAGCATGT GAAACGATGA TTGAGAAAAA TGATTCAAGT
    GTTGTGGACG TCGCTGATGG TGTGCAAATG TTAGAGCAGG AATCAATATA CACTGAATCG
    GATGCAGGAA AAGCACTTCA GAGTGAAGAT TTGCCTTTTC AGACCACACT TGTTGGTGCT
    GCTGAAATTA ATAACAACCA CAAAGAAGAT GAAAATGCAG TTTGTTCAAA TATAAGCCAT
    ACTGATTCAC CGCTTGCTGT AAACAAAAAT GTAATGGGAA GCAAATCGCA CAAGATTTCA
    CTTCCAGAAG CACAAGATAG TTTGCAGAAA TTCTACACCC CAAATAAAAC CTCTCCAAAA
    AAGAGAAGGA TGCCGTTAAA TGACACCGAA GAAGACAAAC ATGTTTTTTA TGGTGGTCCC
    TCAAAGACAT TTAAAGCTAC ACCACCTCGT AAATTAACCC TGTCTTTTGA AACGGGATCT
    CTTGACAAGT TCAAAAGGTT GTTTGGGAAA GAGGCTGAGA AAAAACAACC AAGCACAGAA
    AAAACAAGCC TTCTAAATCC AAATCCCAAT GACCGCTTTG TAGGATCTAC ATCGTGTTTG
    GATGATCTAC ACCATCCAGT ATTGAGGAAC AGTTCAGGTC ATCCTACTAC ACACAGATCT
    ACTGAATCTT CATCGCTGAA CAAGAAAAAC AAAATATCAT TAGCTGCCAA ATGTTCCTAT
    TTAAAACAGG ACAAAGAGCT CTGCAGAGAT TCAAACTTCC TTAAACGGGA CCTTTCATCT
    TTCCCACCCT CACAAGACTC ATGCTTTGAA GAATTAGAAA AAACCCTCTT AGATGAAGAT
    GTTTTATTTG GATCATCTGG AATTGTTGAT TCTGTTGACT TTCCTCTTAT TGAACAGGAC
    ACAGCATTAC CATCTGTTGC AGAAGAATCG CACCTCTTCA ACAACAATGT GACTTTCTTT
    ATTGGAAATG AGAGCAGTGT TGATGAAGCC AGCGTTGCCT CTCAGCGTGA TCCTCAACAC
    AGCATTGCAG GAAATGAAGA GGATGCCCAA GCTCCCGATT CACTGTCGAC TTTATTCTCA
    GAATGGCACA ACCCTGTGTT TATACGACCA CCAGAGGTTG CTGTTGATGT AACCAGCGGC
    CAAGCAGAGG GTCTTGCTGT AAAAATCCAC AATATTCTTT TCCCCTACCG TTTTACCAAG
    AATATGATCC ACACAATGAG AGTCATCAAT CAAGTAGACA AGAAGTTTCT TGCTTGTTTG
    ATAAATACAG CAGGGCAGAA CACCTCTGAA AGCAGTACGG ATGAAGGGAA TCTTCTAGTG
    CTGGTTGATC AACATGCTGC CCATGAAAGA GTTCGACTAG AGGGTTTAAT AGCAGACTCT
    TACGAGGATG ACCCAGACAC ACCTGGAAAA AAAAGGCTGT GTTCCTCACG TGTAACCCCA
    CCTTTGGAGA TTAATGTAAC CGAGGAGGAA TTGAGACTTT TGAGGTCTTG TCAGGGTTTC
    TTGAGAGGTC TTGCGTTAGA TGTGAGGTTT CCGAAAAGTG AGTCACTGAG TGTGTTTTTG
    GAGAGTCTGC CCACATGTTT CATAGAGAAA GAAAGCACAG AGCTCCGCCG TGGAAGGCGC
    TCGGTAATTA AAACCATTGC AGAGGACTAT CTGCGAGAAC ACATTGAGCT TTTTCGGTCA
    ACAGGAAGAG TGAGAGGAAT TCTGCCTCTG ACAGTACATA ATGTGCTTGC CTCACAGGCT
    TGTCATGGAG CAATTAAATT CAATGACGTT TTGAATAAAG AGGAGTGCTG TAGTCTGGTG
    AGCTCGCTTT CCTCTTGTCG GCTTCCTTTT CAGTGTGCTC ATGGAAGACC CTCCATCGTC
    CCTCTGGCAG ATCTGCACCA CCTGGAAGAA CAGCAGGATA TTCCCAAACC AAATCTGAAG
    AAACTAAGAA GAATGTACAA GTCATGGCAG CTGTATGGAC AAAATCAATA TTTTGCACAG
    AACAAAGCAT AA

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

    RefSeq XP_696739.5
    CDS356..3487
    Translation

    Target ORF information:

    RefSeq Version XM_691647.7
    Organism Danio rerio(zebrafish)
    Definition Danio rerio mutL homolog 3 (E. coli) (mlh3), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_691647.7

    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
    ATGATCAAGA GTTTACCCAT AAATGTTCAA GCACAGCTGC GCTCTGGTGT TGCTATTTTC 
    TCATTGCAGC AGTGTGTGGA GGAGCTCATA TTAAACAGCA TTGATGCTGG AGCAACATGT
    GTGGCTGTCA AAATAGACAT AGAGGCCTGC AAGCTTCAGG TCATTGACAA TGGCTCAGGA
    ATGTGCCTGG AGGACATGGA GAAAGTTGGA CTACGCTACA ACACAAGCAA ATGCAGCTCC
    CTGGAGGATT TGGATAATCT TCATTTTTAT GGTTTCAGAG GAGAAGCCAT TTCCAGTATA
    GTTTCCCTTG CAGAAATGGT GGAAATATCA TCTAGGACTA AGCAGTCTGT GAAAACGTAT
    GTTAAATCCT TTAATGAAAC AAATGCATTG GAGGTTTTCG AAGCTCAAAC TGTTCGCCCT
    TCTGCAGGGA CGACCGTCTC AGTCTACAAT CTCTTCCACA ACATGCCAGT CCGTAGAAAG
    CGAATGGATC CTGTTTTAGA AACCGAACGA ATCCGTCAGA GAGTGGAGGC CATATCTTTA
    ATGCATCCAT CTGTGTCATT CACAGTGAAA AAAGAAAATT CAGCACACAT GATGGTGCAG
    CTCTCTAAAA CAAGCAGTAC CTATTATAGG TTTGTCCAAA TTCATGGCTT AAATCGAGCC
    CAAAAGCTTG GAGAAGTCAA TTATGAGCAC GAGCAGTTCC AAATAACCGG TCATATAGGC
    CGTGAGGGCC ATTACAACAA CAGTTTGCAA TTTTTATTTG TAAATGAGAG GCTTCTTCTA
    AAGACACGCA TTCATAAAAC ACTAAACTGC CTTTTAAAGA GAGTAAGCGG TGCTGCAAGG
    CAAAACAACA GCCCAACCTC ATATCCGGTA ACATCCAGCC CCAAACAGAA GGGAGGATAT
    GATCTCCATG GCATTTATGT GATAAATATC AAATGTCATT ACTCAGAGTA TGACATATGC
    CTCGAACCAG CCAAGTCTCT GATAGAGTTC AAAGACTGGG ATAATGTGCT CATCTGCATT
    GAAGAAGGGG TAAAGGCATT CCTTACTAAA GAAAACCTGG TGTCGGAGTT AAACACGATC
    AGTAATGATG GTCTACCATG TAGTCCAGTA AGAAATGCAG AAAGCTCAGA AAAACAAAAG
    CGCAGTTCTG AGGAAACAAA TGAAGCATGT GAAACGATGA TTGAGAAAAA TGATTCAAGT
    GTTGTGGACG TCGCTGATGG TGTGCAAATG TTAGAGCAGG AATCAATATA CACTGAATCG
    GATGCAGGAA AAGCACTTCA GAGTGAAGAT TTGCCTTTTC AGACCACACT TGTTGGTGCT
    GCTGAAATTA ATAACAACCA CAAAGAAGAT GAAAATGCAG TTTGTTCAAA TATAAGCCAT
    ACTGATTCAC CGCTTGCTGT AAACAAAAAT GTAATGGGAA GCAAATCGCA CAAGATTTCA
    CTTCCAGAAG CACAAGATAG TTTGCAGAAA TTCTACACCC CAAATAAAAC CTCTCCAAAA
    AAGAGAAGGA TGCCGTTAAA TGACACCGAA GAAGACAAAC ATGTTTTTTA TGGTGGTCCC
    TCAAAGACAT TTAAAGCTAC ACCACCTCGT AAATTAACCC TGTCTTTTGA AACGGGATCT
    CTTGACAAGT TCAAAAGGTT GTTTGGGAAA GAGGCTGAGA AAAAACAACC AAGCACAGAA
    AAAACAAGCC TTCTAAATCC AAATCCCAAT GACCGCTTTG TAGGATCTAC ATCGTGTTTG
    GATGATCTAC ACCATCCAGT ATTGAGGAAC AGTTCAGGTC ATCCTACTAC ACACAGATCT
    ACTGAATCTT CATCGCTGAA CAAGAAAAAC AAAATATCAT TAGCTGCCAA ATGTTCCTAT
    TTAAAACAGG ACAAAGAGCT CTGCAGAGAT TCAAACTTCC TTAAACGGGA CCTTTCATCT
    TTCCCACCCT CACAAGACTC ATGCTTTGAA GAATTAGAAA AAACCCTCTT AGATGAAGAT
    GTTTTATTTG GATCATCTGG AATTGTTGAT TCTGTTGACT TTCCTCTTAT TGAACAGGAC
    ACAGCATTAC CATCTGTTGC AGAAGAATCG CACCTCTTCA ACAACAATGT GACTTTCTTT
    ATTGGAAATG AGAGCAGTGT TGATGAAGCC AGCGTTGCCT CTCAGCGTGA TCCTCAACAC
    AGCATTGCAG GAAATGAAGA GGATGCCCAA GCTCCCGATT CACTGTCGAC TTTATTCTCA
    GAATGGCACA ACCCTGTGTT TATACGACCA CCAGAGGTTG CTGTTGATGT AACCAGCGGC
    CAAGCAGAGG GTCTTGCTGT AAAAATCCAC AATATTCTTT TCCCCTACCG TTTTACCAAG
    AATATGATCC ACACAATGAG AGTCATCAAT CAAGTAGACA AGAAGTTTCT TGCTTGTTTG
    ATAAATACAG CAGGGCAGAA CACCTCTGAA AGCAGTACGG ATGAAGGGAA TCTTCTAGTG
    CTGGTTGATC AACATGCTGC CCATGAAAGA GTTCGACTAG AGGGTTTAAT AGCAGACTCT
    TACGAGGATG ACCCAGACAC ACCTGGAAAA AAAAGGCTGT GTTCCTCACG TGTAACCCCA
    CCTTTGGAGA TTAATGTAAC CGAGGAGGAA TTGAGACTTT TGAGGTCTTG TCAGGGTTTC
    TTGAGAGGTC TTGCGTTAGA TGTGAGGTTT CCGAAAAGTG AGTCACTGAG TGTGTTTTTG
    GAGAGTCTGC CCACATGTTT CATAGAGAAA GAAAGCACAG AGCTCCGCCG TGGAAGGCGC
    TCGGTAATTA AAACCATTGC AGAGGACTAT CTGCGAGAAC ACATTGAGCT TTTTCGGTCA
    ACAGGAAGAG TGAGAGGAAT TCTGCCTCTG ACAGTACATA ATGTGCTTGC CTCACAGGCT
    TGTCATGGAG CAATTAAATT CAATGACGTT TTGAATAAAG AGGAGTGCTG TAGTCTGGTG
    AGCTCGCTTT CCTCTTGTCG GCTTCCTTTT CAGTGTGCTC ATGGAAGACC CTCCATCGTC
    CCTCTGGCAG ATCTGCACCA CCTGGAAGAA CAGCAGGATA TTCCCAAACC AAATCTGAAG
    AAACTAAGAA GAATGTACAA GTCATGGCAG CTGTATGGAC AAAATCAATA TTTTGCACAG
    AACAAAGCAT AA

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

    CloneID ODa57492
    Clone ID Related Accession (Same CDS sequence) XM_017353712.1
    Accession Version XM_017353712.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3516bp)
    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 DNA mismatch repair protein Mlh3 isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007134.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    ATGATCAAGA GTTTACCCAT AAATGTTCAA GCACAGCTGC GCTCTGGTGT TGCTATTTTC 
    TCATTGCAGC AGTGTGTGGA GGAGCTCATA TTAAACAGCA TTGATGCTGG AGCAACATGT
    GTGGCTGTCA AAATAGACAT AGAGGCCTGC AAGCTTCAGG TCATTGACAA TGGCTCAGGA
    ATGTGCCTGG AGGACATGGA GAAAGTTGGA CTGCGCTACA ACACAAGCAA ATGCAGCTCC
    CTGGAGGATT TGGATAATCT TCATTTTTAT GGTTTCAGAG GAGAAGCCAT TTCCAGTATA
    GTTTCCCTTG CAGAAATGGT GGAAATATCA TCTAGGACTA AGCAGTCTGT GAAAACGTAT
    GTTAAATCCT TTAATGAAAC AAATGCATTG GAGGTTTTCG AAGCTCAAAC TGTTCGCCCT
    TCTGCAGGGA CGACCGTCTC AGTCTACAAT CTCTTCCACA ACATGCCAGT CCGTAGAAAG
    CGAATGGATC CTGTTTTAGA AACCGAACGA ATCCGTCAGA GAGTGGAGGC CATATCTTTA
    ATGCATCCAT CTGTGTCATT CACAGTGAAA AAAGAAAATT CAGCACACAT GATGGTGCAG
    CTCTCTAAAA CAAGCAGTAC CTATTATAGG TTTGTCCAAA TTCATGGCTT AAATCGAGCC
    CAAAAGCTTG GAGAAGTCAA TTATGAGCAC GAGCAGTTCC AAATAACCGG TCATATAGGC
    CGTGAGGGCC ATTACAACAA CAGTTTGCAA TTTTTATTTG TAAATGAGAG GCTTCTTTTA
    AAGACACGCA TTCATAAAAC ACTAAACTGC CTTTTAAAGA GAGTAAGCGG TGCTGCAAGG
    CAAAACAACA GCCCAACCTC ATATCCGGTA ACATCCAGCC CCAAACAGAA GGGAGGATAT
    GATCTCCATG GCATTTATGT GATAAATATC AAATGTCATT ACTCAGAGTA TGACATATGC
    CTCGAACCAG CCAAGTCTCT GATAGAGTTC AAAGACTGGG ATAATGTGCT CATCTGCATT
    GAAGAAGGGG TAAAGGCATT CCTTACTAAA GAAAACCTGG TGTCGGAGTT AAACACGATC
    AGTAATGATG GTCTACCATG TAGTCCAGTA AGAAATGCAG AAAGCTCAGA AAAACAAAAG
    CGCAGTTCTG AGGAAACAAA TGAAGCATGT GAAACGATGA TTGAGAAAAA TGATTCAAGT
    GTTGTGGACG TCGCTGATGG TGTGCAAATG TTAGAGCAGG AATCAATATA CACTGAATCT
    GATGAAGGAA AAGCACTTCA GAGTGAAGAT TTGCCTTTTC AGACCACACT TGTTGGTGCT
    GCTGAAATTA ATAACAACCA CGAAGAAGAT GAAAATGCAG TTTGTTCAAA TATAAGCCAT
    ACTGATTCAC CGCTTGCTGT AAACAAAAAT GTGATGGGAA GCAAATCGCA CAAGATTTCA
    CTTCCAGAAG CACAAGATAG TTTGCAGAAA TTCTACACCC CAAATAAAAC CTCTCCAAAA
    AAGAGAAGGA TGCCGTTAAA TGACACCGAA GAAGAAAAAC ATGTTTTTTA TGGTGGTCCC
    TCAAAGACAT TTAAAGCTAC ACCACCTCGT AAATTAACCC TGTCTTTTGA AACGGGATCT
    CTTGACAAGT TCAAAAGGTT GTTTGGGAAA GAGGCTGAGA AAAAACAACC AAGCACAGAA
    AAAACAAGCC TTCTAAATCC AAATCCCAAT GACCGCTTTG TAGGATCTAC ATCGTGTTTG
    GATGATCTAC ACCATCCAGT ATTGAGGAAC AGTTCAGGTC ATCCTACTAC ACACAGATCT
    ACTGAATCTT CATCGCTGAA CAAGAAAAAC AAAATATCAT TAGCTGCCAA ATGTTCCTAT
    TTAAAACAGG ACAAAGAGCT CTGCAGAGAT TCAAACTTCC TTAAACGGGA CCTTTCATCT
    TTCCCACCCT CACAAGACTC ATGCTTTAAA GAATTAGAAA AAACCCTCTT AGATGAAGAT
    GTTTTATTTG GATCATCTGG AATTGTTGAT TCTGTTGACT TTCCTCTTAT TGAACAGGAC
    ACAGCATTAC CATCTGTTGC AGAAGAATCG CACCTCTTCA ACAACAATGT GACTTTCTTT
    ATTGGAAATG AGAGCAGTGT TGATGAAGCC AGCGTTGCCT CTCAGCGTGA TCCTCAACAC
    AGCATTGCAG GAAATGAAGG TCAGACTACA AACGAAAGTG TTGAATCAAT CCCAGTGTCC
    AACAGCTGGT TGGCTCATTA CGATAGCTGG TTAGGAAAGC TGGTTTATAT CAATCAAGTA
    ACAGGGCTCA GCAAGTACAA CTCTCCCCCT ATGGAGGAGA CTCAAGTGCC ATGTACCACA
    GATGTCACTA ACATGGCGGT CAGTGTTATT TCAAAAGCAG GTGCGGGAAA TGCAGTGAGA
    CGTTTTTGGA TCAGTAATGT GCAGATGTCT TTTATTATAA ACAGCTTCTC TTTGCTCTTA
    GGCTTTGAGT ACAGGTGTTA TCCATTTCAA TCAGACATTG TACTTCCCTT TCTGCCCAAG
    CCCAGAGCAG AAAGAGCCTT TAACTCAGGG ACAGACAGCA GAGAGGATGC CCAAGCTCCC
    GATTCACTGT CGACTTTATT CTCAGAATGG CACAACCCTG TGTTTATACG ACCACCAGAG
    GTTGCTGTTG ATGTAACCAG CGGCCAAGCA GAGGGTCTTG CTGTAAAAAT CCACAATATT
    CTTTTCCCCT ACCGTTTTAC CAAGAATATG ATCCACACAA TGAGAGTCAT CAATCAAGTA
    GACAAGAAGT TTCTTGCTTG TTTGATAAAT ACAGCAGGGC AGAACACCTC TGAAAGCAGT
    ACGGATGAAG GGAATCTTCT AGTGCTGGTT GATCAACATG CTGCCCATGA AAGAGTTCGA
    CTAGAGGGTT TAATAGCAGA CTCTTACGAG GATGACCCAG ACACACCTGG AAAAAAGAGG
    CTGTGTTCCT CACGTGTAAC CCCACCTTTG GAGATTAATG TAACCGAGGA GGAATTGAGA
    CTTTTGAGGT CTTGTCAGGG TTTCTTGAGA GGTCTTGCGT TAGATGTGAG GTTTCCGAAA
    AGTGAGTCAC TGAGTGTGTT TTTGGAGAGT CTGCCCGCAT GTTTCATAGA GAAAGAAAGC
    ACAGAGCTCC GCCGTGGAAG GCGCTCGGTA ATTAAAACCA TTGCAGAGGA CTATCTGCGA
    GAACACATTG AGCTTCTTCG CTCAACAGGA AGAGTGAGAG GAATTCTGCC TCTGACAGTA
    CATAATGTGC TTGCCTCTCA GGCTTGTCAT GGAGCAATTA AATTCAATGA CGTTTTGAAT
    AAAGAGGAGT GCTGTAGTCT GGTGAGCTCG CTTTCCTCTT GTCGGCTTCC TTTTCAGTGT
    GCTCATGGAA GACCCTCCAT CGTCCCTCTG GCAGATCTGC ACCACTTGGA AGAACAGCAG
    GATATTCCCA AACCAAATCT GAAGAAACTA AGAAGAATGT ACAAGTCATG GCAGCTGTAT
    GGACAAAATC AATATTTTGC ACAGAACAAA GCATAA

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

    RefSeq XP_017209201.1
    CDS357..3872
    Translation

    Target ORF information:

    RefSeq Version XM_017353712.1
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio mutL homolog 3 (E. coli) (mlh3), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017353712.1

    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
    ATGATCAAGA GTTTACCCAT AAATGTTCAA GCACAGCTGC GCTCTGGTGT TGCTATTTTC 
    TCATTGCAGC AGTGTGTGGA GGAGCTCATA TTAAACAGCA TTGATGCTGG AGCAACATGT
    GTGGCTGTCA AAATAGACAT AGAGGCCTGC AAGCTTCAGG TCATTGACAA TGGCTCAGGA
    ATGTGCCTGG AGGACATGGA GAAAGTTGGA CTGCGCTACA ACACAAGCAA ATGCAGCTCC
    CTGGAGGATT TGGATAATCT TCATTTTTAT GGTTTCAGAG GAGAAGCCAT TTCCAGTATA
    GTTTCCCTTG CAGAAATGGT GGAAATATCA TCTAGGACTA AGCAGTCTGT GAAAACGTAT
    GTTAAATCCT TTAATGAAAC AAATGCATTG GAGGTTTTCG AAGCTCAAAC TGTTCGCCCT
    TCTGCAGGGA CGACCGTCTC AGTCTACAAT CTCTTCCACA ACATGCCAGT CCGTAGAAAG
    CGAATGGATC CTGTTTTAGA AACCGAACGA ATCCGTCAGA GAGTGGAGGC CATATCTTTA
    ATGCATCCAT CTGTGTCATT CACAGTGAAA AAAGAAAATT CAGCACACAT GATGGTGCAG
    CTCTCTAAAA CAAGCAGTAC CTATTATAGG TTTGTCCAAA TTCATGGCTT AAATCGAGCC
    CAAAAGCTTG GAGAAGTCAA TTATGAGCAC GAGCAGTTCC AAATAACCGG TCATATAGGC
    CGTGAGGGCC ATTACAACAA CAGTTTGCAA TTTTTATTTG TAAATGAGAG GCTTCTTTTA
    AAGACACGCA TTCATAAAAC ACTAAACTGC CTTTTAAAGA GAGTAAGCGG TGCTGCAAGG
    CAAAACAACA GCCCAACCTC ATATCCGGTA ACATCCAGCC CCAAACAGAA GGGAGGATAT
    GATCTCCATG GCATTTATGT GATAAATATC AAATGTCATT ACTCAGAGTA TGACATATGC
    CTCGAACCAG CCAAGTCTCT GATAGAGTTC AAAGACTGGG ATAATGTGCT CATCTGCATT
    GAAGAAGGGG TAAAGGCATT CCTTACTAAA GAAAACCTGG TGTCGGAGTT AAACACGATC
    AGTAATGATG GTCTACCATG TAGTCCAGTA AGAAATGCAG AAAGCTCAGA AAAACAAAAG
    CGCAGTTCTG AGGAAACAAA TGAAGCATGT GAAACGATGA TTGAGAAAAA TGATTCAAGT
    GTTGTGGACG TCGCTGATGG TGTGCAAATG TTAGAGCAGG AATCAATATA CACTGAATCT
    GATGAAGGAA AAGCACTTCA GAGTGAAGAT TTGCCTTTTC AGACCACACT TGTTGGTGCT
    GCTGAAATTA ATAACAACCA CGAAGAAGAT GAAAATGCAG TTTGTTCAAA TATAAGCCAT
    ACTGATTCAC CGCTTGCTGT AAACAAAAAT GTGATGGGAA GCAAATCGCA CAAGATTTCA
    CTTCCAGAAG CACAAGATAG TTTGCAGAAA TTCTACACCC CAAATAAAAC CTCTCCAAAA
    AAGAGAAGGA TGCCGTTAAA TGACACCGAA GAAGAAAAAC ATGTTTTTTA TGGTGGTCCC
    TCAAAGACAT TTAAAGCTAC ACCACCTCGT AAATTAACCC TGTCTTTTGA AACGGGATCT
    CTTGACAAGT TCAAAAGGTT GTTTGGGAAA GAGGCTGAGA AAAAACAACC AAGCACAGAA
    AAAACAAGCC TTCTAAATCC AAATCCCAAT GACCGCTTTG TAGGATCTAC ATCGTGTTTG
    GATGATCTAC ACCATCCAGT ATTGAGGAAC AGTTCAGGTC ATCCTACTAC ACACAGATCT
    ACTGAATCTT CATCGCTGAA CAAGAAAAAC AAAATATCAT TAGCTGCCAA ATGTTCCTAT
    TTAAAACAGG ACAAAGAGCT CTGCAGAGAT TCAAACTTCC TTAAACGGGA CCTTTCATCT
    TTCCCACCCT CACAAGACTC ATGCTTTAAA GAATTAGAAA AAACCCTCTT AGATGAAGAT
    GTTTTATTTG GATCATCTGG AATTGTTGAT TCTGTTGACT TTCCTCTTAT TGAACAGGAC
    ACAGCATTAC CATCTGTTGC AGAAGAATCG CACCTCTTCA ACAACAATGT GACTTTCTTT
    ATTGGAAATG AGAGCAGTGT TGATGAAGCC AGCGTTGCCT CTCAGCGTGA TCCTCAACAC
    AGCATTGCAG GAAATGAAGG TCAGACTACA AACGAAAGTG TTGAATCAAT CCCAGTGTCC
    AACAGCTGGT TGGCTCATTA CGATAGCTGG TTAGGAAAGC TGGTTTATAT CAATCAAGTA
    ACAGGGCTCA GCAAGTACAA CTCTCCCCCT ATGGAGGAGA CTCAAGTGCC ATGTACCACA
    GATGTCACTA ACATGGCGGT CAGTGTTATT TCAAAAGCAG GTGCGGGAAA TGCAGTGAGA
    CGTTTTTGGA TCAGTAATGT GCAGATGTCT TTTATTATAA ACAGCTTCTC TTTGCTCTTA
    GGCTTTGAGT ACAGGTGTTA TCCATTTCAA TCAGACATTG TACTTCCCTT TCTGCCCAAG
    CCCAGAGCAG AAAGAGCCTT TAACTCAGGG ACAGACAGCA GAGAGGATGC CCAAGCTCCC
    GATTCACTGT CGACTTTATT CTCAGAATGG CACAACCCTG TGTTTATACG ACCACCAGAG
    GTTGCTGTTG ATGTAACCAG CGGCCAAGCA GAGGGTCTTG CTGTAAAAAT CCACAATATT
    CTTTTCCCCT ACCGTTTTAC CAAGAATATG ATCCACACAA TGAGAGTCAT CAATCAAGTA
    GACAAGAAGT TTCTTGCTTG TTTGATAAAT ACAGCAGGGC AGAACACCTC TGAAAGCAGT
    ACGGATGAAG GGAATCTTCT AGTGCTGGTT GATCAACATG CTGCCCATGA AAGAGTTCGA
    CTAGAGGGTT TAATAGCAGA CTCTTACGAG GATGACCCAG ACACACCTGG AAAAAAGAGG
    CTGTGTTCCT CACGTGTAAC CCCACCTTTG GAGATTAATG TAACCGAGGA GGAATTGAGA
    CTTTTGAGGT CTTGTCAGGG TTTCTTGAGA GGTCTTGCGT TAGATGTGAG GTTTCCGAAA
    AGTGAGTCAC TGAGTGTGTT TTTGGAGAGT CTGCCCGCAT GTTTCATAGA GAAAGAAAGC
    ACAGAGCTCC GCCGTGGAAG GCGCTCGGTA ATTAAAACCA TTGCAGAGGA CTATCTGCGA
    GAACACATTG AGCTTCTTCG CTCAACAGGA AGAGTGAGAG GAATTCTGCC TCTGACAGTA
    CATAATGTGC TTGCCTCTCA GGCTTGTCAT GGAGCAATTA AATTCAATGA CGTTTTGAAT
    AAAGAGGAGT GCTGTAGTCT GGTGAGCTCG CTTTCCTCTT GTCGGCTTCC TTTTCAGTGT
    GCTCATGGAA GACCCTCCAT CGTCCCTCTG GCAGATCTGC ACCACTTGGA AGAACAGCAG
    GATATTCCCA AACCAAATCT GAAGAAACTA AGAAGAATGT ACAAGTCATG GCAGCTGTAT
    GGACAAAATC AATATTTTGC ACAGAACAAA GCATAA

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

    CloneID ODa27767
    Clone ID Related Accession (Same CDS sequence) XM_021469962.1 , XM_005162210.3
    Accession Version XM_021469962.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3435bp)
    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 DNA mismatch repair protein Mlh3 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007134.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 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
    ATGATCAAGA GTTTACCCAT AAATGTTCAA GCACAGCTGC GCTCTGGTGT TGCTATTTTC 
    TCATTGCAGC AGTGTGTGGA GGAGCTCATA TTAAACAGCA TTGATGCTGG AGCAACATGT
    GTGGCTGTCA AAATAGACAT AGAGGCCTGC AAGCTTCAGG TCATTGACAA TGGCTCAGGA
    ATGTGCCTGG AGGACATGGA GAAAGTTGGA CTGCGCTACA ACACAAGCAA ATGCAGCTCC
    CTGGAGGATT TGGATAATCT TCATTTTTAT GGTTTCAGAG GAGAAGCCAT TTCCAGTATA
    GTTTCCCTTG CAGAAATGGT GGAAATATCA TCTAGGACTA AGCAGTCTGT GAAAACGTAT
    GTTAAATCCT TTAATGAAAC AAATGCATTG GAGGTTTTCG AAGCTCAAAC TGTTCGCCCT
    TCTGCAGGGA CGACCGTCTC AGTCTACAAT CTCTTCCACA ACATGCCAGT CCGTAGAAAG
    CGAATGGATC CTGTTTTAGA AACCGAACGA ATCCGTCAGA GAGTGGAGGC CATATCTTTA
    ATGCATCCAT CTGTGTCATT CACAGTGAAA AAAGAAAATT CAGCACACAT GATGGTGCAG
    CTCTCTAAAA CAAGCAGTAC CTATTATAGG TTTGTCCAAA TTCATGGCTT AAATCGAGCC
    CAAAAGCTTG GAGAAGTCAA TTATGAGCAC GAGCAGTTCC AAATAACCGG TCATATAGGC
    CGTGAGGGCC ATTACAACAA CAGTTTGCAA TTTTTATTTG TAAATGAGAG GCTTCTTTTA
    AAGACACGCA TTCATAAAAC ACTAAACTGC CTTTTAAAGA GAGTAAGCGG TGCTGCAAGG
    CAAAACAACA GCCCAACCTC ATATCCGGTA ACATCCAGCC CCAAACAGAA GGGAGGATAT
    GATCTCCATG GCATTTATGT GATAAATATC AAATGTCATT ACTCAGAGTA TGACATATGC
    CTCGAACCAG CCAAGTCTCT GATAGAGTTC AAAGACTGGG ATAATGTGCT CATCTGCATT
    GAAGAAGGGG TAAAGGCATT CCTTACTAAA GAAAACCTGG TGTCGGAGTT AAACACGATC
    AGTAATGATG GTCTACCATG TAGTCCAGTA AGAAATGCAG AAAGCTCAGA AAAACAAAAG
    CGCAGTTCTG AGGAAACAAA TGAAGCATGT GAAACGATGA TTGAGAAAAA TGATTCAAGT
    GTTGTGGACG TCGCTGATGG TGTGCAAATG TTAGAGCAGG AATCAATATA CACTGAATCT
    GATGAAGGAA AAGCACTTCA GAGTGAAGAT TTGCCTTTTC AGACCACACT TGTTGGTGCT
    GCTGAAATTA ATAACAACCA CGAAGAAGAT GAAAATGCAG TTTGTTCAAA TATAAGCCAT
    ACTGATTCAC CGCTTGCTGT AAACAAAAAT GTGATGGGAA GCAAATCGCA CAAGATTTCA
    CTTCCAGAAG CACAAGATAG TTTGCAGAAA TTCTACACCC CAAATAAAAC CTCTCCAAAA
    AAGAGAAGGA TGCCGTTAAA TGACACCGAA GAAGAAAAAC ATGTTTTTTA TGGTGGTCCC
    TCAAAGACAT TTAAAGCTAC ACCACCTCGT AAATTAACCC TGTCTTTTGA AACGGGATCT
    CTTGACAAGT TCAAAAGGTT GTTTGGGAAA GAGGCTGAGA AAAAACAACC AAGCACAGAA
    AAAACAAGCC TTCTAAATCC AAATCCCAAT GACCGCTTTG TAGGATCTAC ATCGTGTTTG
    GATGATCTAC ACCATCCAGT ATTGAGGAAC AGTTCAGGTC ATCCTACTAC ACACAGATCT
    ACTGAATCTT CATCGCTGAA CAAGAAAAAC AAAATATCAT TAGCTGCCAA ATGTTCCTAT
    TTAAAACAGG ACAAAGAGCT CTGCAGAGAT TCAAACTTCC TTAAACGGGA CCTTTCATCT
    TTCCCACCCT CACAAGACTC ATGCTTTAAA GAATTAGAAA AAACCCTCTT AGATGAAGAT
    GTTTTATTTG GATCATCTGG AATTGTTGAT TCTGTTGACT TTCCTCTTAT TGAACAGGAC
    ACAGCATTAC CATCTGTTGC AGAAGAATCG CACCTCTTCA ACAACAATGT GACTTTCTTT
    ATTGGAAATG AGAGCAGTGT TGATGAAGCC AGCGTTGCCT CTCAGCGTGA TCCTCAACAC
    AGCATTGCAG GAAATGAAGG TCAGACTACA AACGAAAGTG TTGAATCAAT CCCAGTGTCC
    AACAGCTGGT TGGCTCATTA CGATAGCTGG TTAGGAAAGC TGGTTTATAT CAATCAAGTA
    ACAGGGCTCA GCAAGTACAA CTCTCCCCCT ATGGAGGAGA CTCAAGTGCC ATGTACCACA
    GATGTCACTA ACATGGCGGT CAGTGTTATT TCAAAAGCAG GCTTTGAGTA CAGGTGTTAT
    CCATTTCAAT CAGACATTGT ACTTCCCTTT CTGCCCAAGC CCAGAGCAGA AAGAGCCTTT
    AACTCAGGGA CAGACAGCAG AGAGGATGCC CAAGCTCCCG ATTCACTGTC GACTTTATTC
    TCAGAATGGC ACAACCCTGT GTTTATACGA CCACCAGAGG TTGCTGTTGA TGTAACCAGC
    GGCCAAGCAG AGGGTCTTGC TGTAAAAATC CACAATATTC TTTTCCCCTA CCGTTTTACC
    AAGAATATGA TCCACACAAT GAGAGTCATC AATCAAGTAG ACAAGAAGTT TCTTGCTTGT
    TTGATAAATA CAGCAGGGCA GAACACCTCT GAAAGCAGTA CGGATGAAGG GAATCTTCTA
    GTGCTGGTTG ATCAACATGC TGCCCATGAA AGAGTTCGAC TAGAGGGTTT AATAGCAGAC
    TCTTACGAGG ATGACCCAGA CACACCTGGA AAAAAGAGGC TGTGTTCCTC ACGTGTAACC
    CCACCTTTGG AGATTAATGT AACCGAGGAG GAATTGAGAC TTTTGAGGTC TTGTCAGGGT
    TTCTTGAGAG GTCTTGCGTT AGATGTGAGG TTTCCGAAAA GTGAGTCACT GAGTGTGTTT
    TTGGAGAGTC TGCCCGCATG TTTCATAGAG AAAGAAAGCA CAGAGCTCCG CCGTGGAAGG
    CGCTCGGTAA TTAAAACCAT TGCAGAGGAC TATCTGCGAG AACACATTGA GCTTCTTCGC
    TCAACAGGAA GAGTGAGAGG AATTCTGCCT CTGACAGTAC ATAATGTGCT TGCCTCTCAG
    GCTTGTCATG GAGCAATTAA ATTCAATGAC GTTTTGAATA AAGAGGAGTG CTGTAGTCTG
    GTGAGCTCGC TTTCCTCTTG TCGGCTTCCT TTTCAGTGTG CTCATGGAAG ACCCTCCATC
    GTCCCTCTGG CAGATCTGCA CCACTTGGAA GAACAGCAGG ATATTCCCAA ACCAAATCTG
    AAGAAACTAA GAAGAATGTA CAAGTCATGG CAGCTGTATG GACAAAATCA ATATTTTGCA
    CAGAACAAAG CATAA

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

    RefSeq XP_021325637.1
    CDS315..3749
    Translation

    Target ORF information:

    RefSeq Version XM_021469962.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio mutL homolog 3 (E. coli) (mlh3), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021469962.1

    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
    ATGATCAAGA GTTTACCCAT AAATGTTCAA GCACAGCTGC GCTCTGGTGT TGCTATTTTC 
    TCATTGCAGC AGTGTGTGGA GGAGCTCATA TTAAACAGCA TTGATGCTGG AGCAACATGT
    GTGGCTGTCA AAATAGACAT AGAGGCCTGC AAGCTTCAGG TCATTGACAA TGGCTCAGGA
    ATGTGCCTGG AGGACATGGA GAAAGTTGGA CTGCGCTACA ACACAAGCAA ATGCAGCTCC
    CTGGAGGATT TGGATAATCT TCATTTTTAT GGTTTCAGAG GAGAAGCCAT TTCCAGTATA
    GTTTCCCTTG CAGAAATGGT GGAAATATCA TCTAGGACTA AGCAGTCTGT GAAAACGTAT
    GTTAAATCCT TTAATGAAAC AAATGCATTG GAGGTTTTCG AAGCTCAAAC TGTTCGCCCT
    TCTGCAGGGA CGACCGTCTC AGTCTACAAT CTCTTCCACA ACATGCCAGT CCGTAGAAAG
    CGAATGGATC CTGTTTTAGA AACCGAACGA ATCCGTCAGA GAGTGGAGGC CATATCTTTA
    ATGCATCCAT CTGTGTCATT CACAGTGAAA AAAGAAAATT CAGCACACAT GATGGTGCAG
    CTCTCTAAAA CAAGCAGTAC CTATTATAGG TTTGTCCAAA TTCATGGCTT AAATCGAGCC
    CAAAAGCTTG GAGAAGTCAA TTATGAGCAC GAGCAGTTCC AAATAACCGG TCATATAGGC
    CGTGAGGGCC ATTACAACAA CAGTTTGCAA TTTTTATTTG TAAATGAGAG GCTTCTTTTA
    AAGACACGCA TTCATAAAAC ACTAAACTGC CTTTTAAAGA GAGTAAGCGG TGCTGCAAGG
    CAAAACAACA GCCCAACCTC ATATCCGGTA ACATCCAGCC CCAAACAGAA GGGAGGATAT
    GATCTCCATG GCATTTATGT GATAAATATC AAATGTCATT ACTCAGAGTA TGACATATGC
    CTCGAACCAG CCAAGTCTCT GATAGAGTTC AAAGACTGGG ATAATGTGCT CATCTGCATT
    GAAGAAGGGG TAAAGGCATT CCTTACTAAA GAAAACCTGG TGTCGGAGTT AAACACGATC
    AGTAATGATG GTCTACCATG TAGTCCAGTA AGAAATGCAG AAAGCTCAGA AAAACAAAAG
    CGCAGTTCTG AGGAAACAAA TGAAGCATGT GAAACGATGA TTGAGAAAAA TGATTCAAGT
    GTTGTGGACG TCGCTGATGG TGTGCAAATG TTAGAGCAGG AATCAATATA CACTGAATCT
    GATGAAGGAA AAGCACTTCA GAGTGAAGAT TTGCCTTTTC AGACCACACT TGTTGGTGCT
    GCTGAAATTA ATAACAACCA CGAAGAAGAT GAAAATGCAG TTTGTTCAAA TATAAGCCAT
    ACTGATTCAC CGCTTGCTGT AAACAAAAAT GTGATGGGAA GCAAATCGCA CAAGATTTCA
    CTTCCAGAAG CACAAGATAG TTTGCAGAAA TTCTACACCC CAAATAAAAC CTCTCCAAAA
    AAGAGAAGGA TGCCGTTAAA TGACACCGAA GAAGAAAAAC ATGTTTTTTA TGGTGGTCCC
    TCAAAGACAT TTAAAGCTAC ACCACCTCGT AAATTAACCC TGTCTTTTGA AACGGGATCT
    CTTGACAAGT TCAAAAGGTT GTTTGGGAAA GAGGCTGAGA AAAAACAACC AAGCACAGAA
    AAAACAAGCC TTCTAAATCC AAATCCCAAT GACCGCTTTG TAGGATCTAC ATCGTGTTTG
    GATGATCTAC ACCATCCAGT ATTGAGGAAC AGTTCAGGTC ATCCTACTAC ACACAGATCT
    ACTGAATCTT CATCGCTGAA CAAGAAAAAC AAAATATCAT TAGCTGCCAA ATGTTCCTAT
    TTAAAACAGG ACAAAGAGCT CTGCAGAGAT TCAAACTTCC TTAAACGGGA CCTTTCATCT
    TTCCCACCCT CACAAGACTC ATGCTTTAAA GAATTAGAAA AAACCCTCTT AGATGAAGAT
    GTTTTATTTG GATCATCTGG AATTGTTGAT TCTGTTGACT TTCCTCTTAT TGAACAGGAC
    ACAGCATTAC CATCTGTTGC AGAAGAATCG CACCTCTTCA ACAACAATGT GACTTTCTTT
    ATTGGAAATG AGAGCAGTGT TGATGAAGCC AGCGTTGCCT CTCAGCGTGA TCCTCAACAC
    AGCATTGCAG GAAATGAAGG TCAGACTACA AACGAAAGTG TTGAATCAAT CCCAGTGTCC
    AACAGCTGGT TGGCTCATTA CGATAGCTGG TTAGGAAAGC TGGTTTATAT CAATCAAGTA
    ACAGGGCTCA GCAAGTACAA CTCTCCCCCT ATGGAGGAGA CTCAAGTGCC ATGTACCACA
    GATGTCACTA ACATGGCGGT CAGTGTTATT TCAAAAGCAG GCTTTGAGTA CAGGTGTTAT
    CCATTTCAAT CAGACATTGT ACTTCCCTTT CTGCCCAAGC CCAGAGCAGA AAGAGCCTTT
    AACTCAGGGA CAGACAGCAG AGAGGATGCC CAAGCTCCCG ATTCACTGTC GACTTTATTC
    TCAGAATGGC ACAACCCTGT GTTTATACGA CCACCAGAGG TTGCTGTTGA TGTAACCAGC
    GGCCAAGCAG AGGGTCTTGC TGTAAAAATC CACAATATTC TTTTCCCCTA CCGTTTTACC
    AAGAATATGA TCCACACAAT GAGAGTCATC AATCAAGTAG ACAAGAAGTT TCTTGCTTGT
    TTGATAAATA CAGCAGGGCA GAACACCTCT GAAAGCAGTA CGGATGAAGG GAATCTTCTA
    GTGCTGGTTG ATCAACATGC TGCCCATGAA AGAGTTCGAC TAGAGGGTTT AATAGCAGAC
    TCTTACGAGG ATGACCCAGA CACACCTGGA AAAAAGAGGC TGTGTTCCTC ACGTGTAACC
    CCACCTTTGG AGATTAATGT AACCGAGGAG GAATTGAGAC TTTTGAGGTC TTGTCAGGGT
    TTCTTGAGAG GTCTTGCGTT AGATGTGAGG TTTCCGAAAA GTGAGTCACT GAGTGTGTTT
    TTGGAGAGTC TGCCCGCATG TTTCATAGAG AAAGAAAGCA CAGAGCTCCG CCGTGGAAGG
    CGCTCGGTAA TTAAAACCAT TGCAGAGGAC TATCTGCGAG AACACATTGA GCTTCTTCGC
    TCAACAGGAA GAGTGAGAGG AATTCTGCCT CTGACAGTAC ATAATGTGCT TGCCTCTCAG
    GCTTGTCATG GAGCAATTAA ATTCAATGAC GTTTTGAATA AAGAGGAGTG CTGTAGTCTG
    GTGAGCTCGC TTTCCTCTTG TCGGCTTCCT TTTCAGTGTG CTCATGGAAG ACCCTCCATC
    GTCCCTCTGG CAGATCTGCA CCACTTGGAA GAACAGCAGG ATATTCCCAA ACCAAATCTG
    AAGAAACTAA GAAGAATGTA CAAGTCATGG CAGCTGTATG GACAAAATCA ATATTTTGCA
    CAGAACAAAG CATAA

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

    CloneID ODa27767
    Clone ID Related Accession (Same CDS sequence) XM_021469962.1 , XM_005162210.3
    Accession Version XM_005162210.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3435bp)
    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 DNA mismatch repair protein Mlh3 isoform X2
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007134.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_005162210.2. ##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
    ATGATCAAGA GTTTACCCAT AAATGTTCAA GCACAGCTGC GCTCTGGTGT TGCTATTTTC 
    TCATTGCAGC AGTGTGTGGA GGAGCTCATA TTAAACAGCA TTGATGCTGG AGCAACATGT
    GTGGCTGTCA AAATAGACAT AGAGGCCTGC AAGCTTCAGG TCATTGACAA TGGCTCAGGA
    ATGTGCCTGG AGGACATGGA GAAAGTTGGA CTGCGCTACA ACACAAGCAA ATGCAGCTCC
    CTGGAGGATT TGGATAATCT TCATTTTTAT GGTTTCAGAG GAGAAGCCAT TTCCAGTATA
    GTTTCCCTTG CAGAAATGGT GGAAATATCA TCTAGGACTA AGCAGTCTGT GAAAACGTAT
    GTTAAATCCT TTAATGAAAC AAATGCATTG GAGGTTTTCG AAGCTCAAAC TGTTCGCCCT
    TCTGCAGGGA CGACCGTCTC AGTCTACAAT CTCTTCCACA ACATGCCAGT CCGTAGAAAG
    CGAATGGATC CTGTTTTAGA AACCGAACGA ATCCGTCAGA GAGTGGAGGC CATATCTTTA
    ATGCATCCAT CTGTGTCATT CACAGTGAAA AAAGAAAATT CAGCACACAT GATGGTGCAG
    CTCTCTAAAA CAAGCAGTAC CTATTATAGG TTTGTCCAAA TTCATGGCTT AAATCGAGCC
    CAAAAGCTTG GAGAAGTCAA TTATGAGCAC GAGCAGTTCC AAATAACCGG TCATATAGGC
    CGTGAGGGCC ATTACAACAA CAGTTTGCAA TTTTTATTTG TAAATGAGAG GCTTCTTTTA
    AAGACACGCA TTCATAAAAC ACTAAACTGC CTTTTAAAGA GAGTAAGCGG TGCTGCAAGG
    CAAAACAACA GCCCAACCTC ATATCCGGTA ACATCCAGCC CCAAACAGAA GGGAGGATAT
    GATCTCCATG GCATTTATGT GATAAATATC AAATGTCATT ACTCAGAGTA TGACATATGC
    CTCGAACCAG CCAAGTCTCT GATAGAGTTC AAAGACTGGG ATAATGTGCT CATCTGCATT
    GAAGAAGGGG TAAAGGCATT CCTTACTAAA GAAAACCTGG TGTCGGAGTT AAACACGATC
    AGTAATGATG GTCTACCATG TAGTCCAGTA AGAAATGCAG AAAGCTCAGA AAAACAAAAG
    CGCAGTTCTG AGGAAACAAA TGAAGCATGT GAAACGATGA TTGAGAAAAA TGATTCAAGT
    GTTGTGGACG TCGCTGATGG TGTGCAAATG TTAGAGCAGG AATCAATATA CACTGAATCT
    GATGAAGGAA AAGCACTTCA GAGTGAAGAT TTGCCTTTTC AGACCACACT TGTTGGTGCT
    GCTGAAATTA ATAACAACCA CGAAGAAGAT GAAAATGCAG TTTGTTCAAA TATAAGCCAT
    ACTGATTCAC CGCTTGCTGT AAACAAAAAT GTGATGGGAA GCAAATCGCA CAAGATTTCA
    CTTCCAGAAG CACAAGATAG TTTGCAGAAA TTCTACACCC CAAATAAAAC CTCTCCAAAA
    AAGAGAAGGA TGCCGTTAAA TGACACCGAA GAAGAAAAAC ATGTTTTTTA TGGTGGTCCC
    TCAAAGACAT TTAAAGCTAC ACCACCTCGT AAATTAACCC TGTCTTTTGA AACGGGATCT
    CTTGACAAGT TCAAAAGGTT GTTTGGGAAA GAGGCTGAGA AAAAACAACC AAGCACAGAA
    AAAACAAGCC TTCTAAATCC AAATCCCAAT GACCGCTTTG TAGGATCTAC ATCGTGTTTG
    GATGATCTAC ACCATCCAGT ATTGAGGAAC AGTTCAGGTC ATCCTACTAC ACACAGATCT
    ACTGAATCTT CATCGCTGAA CAAGAAAAAC AAAATATCAT TAGCTGCCAA ATGTTCCTAT
    TTAAAACAGG ACAAAGAGCT CTGCAGAGAT TCAAACTTCC TTAAACGGGA CCTTTCATCT
    TTCCCACCCT CACAAGACTC ATGCTTTAAA GAATTAGAAA AAACCCTCTT AGATGAAGAT
    GTTTTATTTG GATCATCTGG AATTGTTGAT TCTGTTGACT TTCCTCTTAT TGAACAGGAC
    ACAGCATTAC CATCTGTTGC AGAAGAATCG CACCTCTTCA ACAACAATGT GACTTTCTTT
    ATTGGAAATG AGAGCAGTGT TGATGAAGCC AGCGTTGCCT CTCAGCGTGA TCCTCAACAC
    AGCATTGCAG GAAATGAAGG TCAGACTACA AACGAAAGTG TTGAATCAAT CCCAGTGTCC
    AACAGCTGGT TGGCTCATTA CGATAGCTGG TTAGGAAAGC TGGTTTATAT CAATCAAGTA
    ACAGGGCTCA GCAAGTACAA CTCTCCCCCT ATGGAGGAGA CTCAAGTGCC ATGTACCACA
    GATGTCACTA ACATGGCGGT CAGTGTTATT TCAAAAGCAG GCTTTGAGTA CAGGTGTTAT
    CCATTTCAAT CAGACATTGT ACTTCCCTTT CTGCCCAAGC CCAGAGCAGA AAGAGCCTTT
    AACTCAGGGA CAGACAGCAG AGAGGATGCC CAAGCTCCCG ATTCACTGTC GACTTTATTC
    TCAGAATGGC ACAACCCTGT GTTTATACGA CCACCAGAGG TTGCTGTTGA TGTAACCAGC
    GGCCAAGCAG AGGGTCTTGC TGTAAAAATC CACAATATTC TTTTCCCCTA CCGTTTTACC
    AAGAATATGA TCCACACAAT GAGAGTCATC AATCAAGTAG ACAAGAAGTT TCTTGCTTGT
    TTGATAAATA CAGCAGGGCA GAACACCTCT GAAAGCAGTA CGGATGAAGG GAATCTTCTA
    GTGCTGGTTG ATCAACATGC TGCCCATGAA AGAGTTCGAC TAGAGGGTTT AATAGCAGAC
    TCTTACGAGG ATGACCCAGA CACACCTGGA AAAAAGAGGC TGTGTTCCTC ACGTGTAACC
    CCACCTTTGG AGATTAATGT AACCGAGGAG GAATTGAGAC TTTTGAGGTC TTGTCAGGGT
    TTCTTGAGAG GTCTTGCGTT AGATGTGAGG TTTCCGAAAA GTGAGTCACT GAGTGTGTTT
    TTGGAGAGTC TGCCCGCATG TTTCATAGAG AAAGAAAGCA CAGAGCTCCG CCGTGGAAGG
    CGCTCGGTAA TTAAAACCAT TGCAGAGGAC TATCTGCGAG AACACATTGA GCTTCTTCGC
    TCAACAGGAA GAGTGAGAGG AATTCTGCCT CTGACAGTAC ATAATGTGCT TGCCTCTCAG
    GCTTGTCATG GAGCAATTAA ATTCAATGAC GTTTTGAATA AAGAGGAGTG CTGTAGTCTG
    GTGAGCTCGC TTTCCTCTTG TCGGCTTCCT TTTCAGTGTG CTCATGGAAG ACCCTCCATC
    GTCCCTCTGG CAGATCTGCA CCACTTGGAA GAACAGCAGG ATATTCCCAA ACCAAATCTG
    AAGAAACTAA GAAGAATGTA CAAGTCATGG CAGCTGTATG GACAAAATCA ATATTTTGCA
    CAGAACAAAG CATAA

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

    RefSeq XP_005162267.1
    CDS357..3791
    Translation

    Target ORF information:

    RefSeq Version XM_005162210.3
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio mutL homolog 3 (E. coli) (mlh3), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005162210.3

    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
    ATGATCAAGA GTTTACCCAT AAATGTTCAA GCACAGCTGC GCTCTGGTGT TGCTATTTTC 
    TCATTGCAGC AGTGTGTGGA GGAGCTCATA TTAAACAGCA TTGATGCTGG AGCAACATGT
    GTGGCTGTCA AAATAGACAT AGAGGCCTGC AAGCTTCAGG TCATTGACAA TGGCTCAGGA
    ATGTGCCTGG AGGACATGGA GAAAGTTGGA CTGCGCTACA ACACAAGCAA ATGCAGCTCC
    CTGGAGGATT TGGATAATCT TCATTTTTAT GGTTTCAGAG GAGAAGCCAT TTCCAGTATA
    GTTTCCCTTG CAGAAATGGT GGAAATATCA TCTAGGACTA AGCAGTCTGT GAAAACGTAT
    GTTAAATCCT TTAATGAAAC AAATGCATTG GAGGTTTTCG AAGCTCAAAC TGTTCGCCCT
    TCTGCAGGGA CGACCGTCTC AGTCTACAAT CTCTTCCACA ACATGCCAGT CCGTAGAAAG
    CGAATGGATC CTGTTTTAGA AACCGAACGA ATCCGTCAGA GAGTGGAGGC CATATCTTTA
    ATGCATCCAT CTGTGTCATT CACAGTGAAA AAAGAAAATT CAGCACACAT GATGGTGCAG
    CTCTCTAAAA CAAGCAGTAC CTATTATAGG TTTGTCCAAA TTCATGGCTT AAATCGAGCC
    CAAAAGCTTG GAGAAGTCAA TTATGAGCAC GAGCAGTTCC AAATAACCGG TCATATAGGC
    CGTGAGGGCC ATTACAACAA CAGTTTGCAA TTTTTATTTG TAAATGAGAG GCTTCTTTTA
    AAGACACGCA TTCATAAAAC ACTAAACTGC CTTTTAAAGA GAGTAAGCGG TGCTGCAAGG
    CAAAACAACA GCCCAACCTC ATATCCGGTA ACATCCAGCC CCAAACAGAA GGGAGGATAT
    GATCTCCATG GCATTTATGT GATAAATATC AAATGTCATT ACTCAGAGTA TGACATATGC
    CTCGAACCAG CCAAGTCTCT GATAGAGTTC AAAGACTGGG ATAATGTGCT CATCTGCATT
    GAAGAAGGGG TAAAGGCATT CCTTACTAAA GAAAACCTGG TGTCGGAGTT AAACACGATC
    AGTAATGATG GTCTACCATG TAGTCCAGTA AGAAATGCAG AAAGCTCAGA AAAACAAAAG
    CGCAGTTCTG AGGAAACAAA TGAAGCATGT GAAACGATGA TTGAGAAAAA TGATTCAAGT
    GTTGTGGACG TCGCTGATGG TGTGCAAATG TTAGAGCAGG AATCAATATA CACTGAATCT
    GATGAAGGAA AAGCACTTCA GAGTGAAGAT TTGCCTTTTC AGACCACACT TGTTGGTGCT
    GCTGAAATTA ATAACAACCA CGAAGAAGAT GAAAATGCAG TTTGTTCAAA TATAAGCCAT
    ACTGATTCAC CGCTTGCTGT AAACAAAAAT GTGATGGGAA GCAAATCGCA CAAGATTTCA
    CTTCCAGAAG CACAAGATAG TTTGCAGAAA TTCTACACCC CAAATAAAAC CTCTCCAAAA
    AAGAGAAGGA TGCCGTTAAA TGACACCGAA GAAGAAAAAC ATGTTTTTTA TGGTGGTCCC
    TCAAAGACAT TTAAAGCTAC ACCACCTCGT AAATTAACCC TGTCTTTTGA AACGGGATCT
    CTTGACAAGT TCAAAAGGTT GTTTGGGAAA GAGGCTGAGA AAAAACAACC AAGCACAGAA
    AAAACAAGCC TTCTAAATCC AAATCCCAAT GACCGCTTTG TAGGATCTAC ATCGTGTTTG
    GATGATCTAC ACCATCCAGT ATTGAGGAAC AGTTCAGGTC ATCCTACTAC ACACAGATCT
    ACTGAATCTT CATCGCTGAA CAAGAAAAAC AAAATATCAT TAGCTGCCAA ATGTTCCTAT
    TTAAAACAGG ACAAAGAGCT CTGCAGAGAT TCAAACTTCC TTAAACGGGA CCTTTCATCT
    TTCCCACCCT CACAAGACTC ATGCTTTAAA GAATTAGAAA AAACCCTCTT AGATGAAGAT
    GTTTTATTTG GATCATCTGG AATTGTTGAT TCTGTTGACT TTCCTCTTAT TGAACAGGAC
    ACAGCATTAC CATCTGTTGC AGAAGAATCG CACCTCTTCA ACAACAATGT GACTTTCTTT
    ATTGGAAATG AGAGCAGTGT TGATGAAGCC AGCGTTGCCT CTCAGCGTGA TCCTCAACAC
    AGCATTGCAG GAAATGAAGG TCAGACTACA AACGAAAGTG TTGAATCAAT CCCAGTGTCC
    AACAGCTGGT TGGCTCATTA CGATAGCTGG TTAGGAAAGC TGGTTTATAT CAATCAAGTA
    ACAGGGCTCA GCAAGTACAA CTCTCCCCCT ATGGAGGAGA CTCAAGTGCC ATGTACCACA
    GATGTCACTA ACATGGCGGT CAGTGTTATT TCAAAAGCAG GCTTTGAGTA CAGGTGTTAT
    CCATTTCAAT CAGACATTGT ACTTCCCTTT CTGCCCAAGC CCAGAGCAGA AAGAGCCTTT
    AACTCAGGGA CAGACAGCAG AGAGGATGCC CAAGCTCCCG ATTCACTGTC GACTTTATTC
    TCAGAATGGC ACAACCCTGT GTTTATACGA CCACCAGAGG TTGCTGTTGA TGTAACCAGC
    GGCCAAGCAG AGGGTCTTGC TGTAAAAATC CACAATATTC TTTTCCCCTA CCGTTTTACC
    AAGAATATGA TCCACACAAT GAGAGTCATC AATCAAGTAG ACAAGAAGTT TCTTGCTTGT
    TTGATAAATA CAGCAGGGCA GAACACCTCT GAAAGCAGTA CGGATGAAGG GAATCTTCTA
    GTGCTGGTTG ATCAACATGC TGCCCATGAA AGAGTTCGAC TAGAGGGTTT AATAGCAGAC
    TCTTACGAGG ATGACCCAGA CACACCTGGA AAAAAGAGGC TGTGTTCCTC ACGTGTAACC
    CCACCTTTGG AGATTAATGT AACCGAGGAG GAATTGAGAC TTTTGAGGTC TTGTCAGGGT
    TTCTTGAGAG GTCTTGCGTT AGATGTGAGG TTTCCGAAAA GTGAGTCACT GAGTGTGTTT
    TTGGAGAGTC TGCCCGCATG TTTCATAGAG AAAGAAAGCA CAGAGCTCCG CCGTGGAAGG
    CGCTCGGTAA TTAAAACCAT TGCAGAGGAC TATCTGCGAG AACACATTGA GCTTCTTCGC
    TCAACAGGAA GAGTGAGAGG AATTCTGCCT CTGACAGTAC ATAATGTGCT TGCCTCTCAG
    GCTTGTCATG GAGCAATTAA ATTCAATGAC GTTTTGAATA AAGAGGAGTG CTGTAGTCTG
    GTGAGCTCGC TTTCCTCTTG TCGGCTTCCT TTTCAGTGTG CTCATGGAAG ACCCTCCATC
    GTCCCTCTGG CAGATCTGCA CCACTTGGAA GAACAGCAGG ATATTCCCAA ACCAAATCTG
    AAGAAACTAA GAAGAATGTA CAAGTCATGG CAGCTGTATG GACAAAATCA ATATTTTGCA
    CAGAACAAAG CATAA

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

    CloneID ODa27768
    Clone ID Related Accession (Same CDS sequence) XM_021469963.1 , XM_691647.6
    Accession Version XM_021469963.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3132bp)
    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 DNA mismatch repair protein Mlh3 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007134.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 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
    ATGATCAAGA GTTTACCCAT AAATGTTCAA GCACAGCTGC GCTCTGGTGT TGCTATTTTC 
    TCATTGCAGC AGTGTGTGGA GGAGCTCATA TTAAACAGCA TTGATGCTGG AGCAACATGT
    GTGGCTGTCA AAATAGACAT AGAGGCCTGC AAGCTTCAGG TCATTGACAA TGGCTCAGGA
    ATGTGCCTGG AGGACATGGA GAAAGTTGGA CTGCGCTACA ACACAAGCAA ATGCAGCTCC
    CTGGAGGATT TGGATAATCT TCATTTTTAT GGTTTCAGAG GAGAAGCCAT TTCCAGTATA
    GTTTCCCTTG CAGAAATGGT GGAAATATCA TCTAGGACTA AGCAGTCTGT GAAAACGTAT
    GTTAAATCCT TTAATGAAAC AAATGCATTG GAGGTTTTCG AAGCTCAAAC TGTTCGCCCT
    TCTGCAGGGA CGACCGTCTC AGTCTACAAT CTCTTCCACA ACATGCCAGT CCGTAGAAAG
    CGAATGGATC CTGTTTTAGA AACCGAACGA ATCCGTCAGA GAGTGGAGGC CATATCTTTA
    ATGCATCCAT CTGTGTCATT CACAGTGAAA AAAGAAAATT CAGCACACAT GATGGTGCAG
    CTCTCTAAAA CAAGCAGTAC CTATTATAGG TTTGTCCAAA TTCATGGCTT AAATCGAGCC
    CAAAAGCTTG GAGAAGTCAA TTATGAGCAC GAGCAGTTCC AAATAACCGG TCATATAGGC
    CGTGAGGGCC ATTACAACAA CAGTTTGCAA TTTTTATTTG TAAATGAGAG GCTTCTTTTA
    AAGACACGCA TTCATAAAAC ACTAAACTGC CTTTTAAAGA GAGTAAGCGG TGCTGCAAGG
    CAAAACAACA GCCCAACCTC ATATCCGGTA ACATCCAGCC CCAAACAGAA GGGAGGATAT
    GATCTCCATG GCATTTATGT GATAAATATC AAATGTCATT ACTCAGAGTA TGACATATGC
    CTCGAACCAG CCAAGTCTCT GATAGAGTTC AAAGACTGGG ATAATGTGCT CATCTGCATT
    GAAGAAGGGG TAAAGGCATT CCTTACTAAA GAAAACCTGG TGTCGGAGTT AAACACGATC
    AGTAATGATG GTCTACCATG TAGTCCAGTA AGAAATGCAG AAAGCTCAGA AAAACAAAAG
    CGCAGTTCTG AGGAAACAAA TGAAGCATGT GAAACGATGA TTGAGAAAAA TGATTCAAGT
    GTTGTGGACG TCGCTGATGG TGTGCAAATG TTAGAGCAGG AATCAATATA CACTGAATCT
    GATGAAGGAA AAGCACTTCA GAGTGAAGAT TTGCCTTTTC AGACCACACT TGTTGGTGCT
    GCTGAAATTA ATAACAACCA CGAAGAAGAT GAAAATGCAG TTTGTTCAAA TATAAGCCAT
    ACTGATTCAC CGCTTGCTGT AAACAAAAAT GTGATGGGAA GCAAATCGCA CAAGATTTCA
    CTTCCAGAAG CACAAGATAG TTTGCAGAAA TTCTACACCC CAAATAAAAC CTCTCCAAAA
    AAGAGAAGGA TGCCGTTAAA TGACACCGAA GAAGAAAAAC ATGTTTTTTA TGGTGGTCCC
    TCAAAGACAT TTAAAGCTAC ACCACCTCGT AAATTAACCC TGTCTTTTGA AACGGGATCT
    CTTGACAAGT TCAAAAGGTT GTTTGGGAAA GAGGCTGAGA AAAAACAACC AAGCACAGAA
    AAAACAAGCC TTCTAAATCC AAATCCCAAT GACCGCTTTG TAGGATCTAC ATCGTGTTTG
    GATGATCTAC ACCATCCAGT ATTGAGGAAC AGTTCAGGTC ATCCTACTAC ACACAGATCT
    ACTGAATCTT CATCGCTGAA CAAGAAAAAC AAAATATCAT TAGCTGCCAA ATGTTCCTAT
    TTAAAACAGG ACAAAGAGCT CTGCAGAGAT TCAAACTTCC TTAAACGGGA CCTTTCATCT
    TTCCCACCCT CACAAGACTC ATGCTTTAAA GAATTAGAAA AAACCCTCTT AGATGAAGAT
    GTTTTATTTG GATCATCTGG AATTGTTGAT TCTGTTGACT TTCCTCTTAT TGAACAGGAC
    ACAGCATTAC CATCTGTTGC AGAAGAATCG CACCTCTTCA ACAACAATGT GACTTTCTTT
    ATTGGAAATG AGAGCAGTGT TGATGAAGCC AGCGTTGCCT CTCAGCGTGA TCCTCAACAC
    AGCATTGCAG GAAATGAAGA GGATGCCCAA GCTCCCGATT CACTGTCGAC TTTATTCTCA
    GAATGGCACA ACCCTGTGTT TATACGACCA CCAGAGGTTG CTGTTGATGT AACCAGCGGC
    CAAGCAGAGG GTCTTGCTGT AAAAATCCAC AATATTCTTT TCCCCTACCG TTTTACCAAG
    AATATGATCC ACACAATGAG AGTCATCAAT CAAGTAGACA AGAAGTTTCT TGCTTGTTTG
    ATAAATACAG CAGGGCAGAA CACCTCTGAA AGCAGTACGG ATGAAGGGAA TCTTCTAGTG
    CTGGTTGATC AACATGCTGC CCATGAAAGA GTTCGACTAG AGGGTTTAAT AGCAGACTCT
    TACGAGGATG ACCCAGACAC ACCTGGAAAA AAGAGGCTGT GTTCCTCACG TGTAACCCCA
    CCTTTGGAGA TTAATGTAAC CGAGGAGGAA TTGAGACTTT TGAGGTCTTG TCAGGGTTTC
    TTGAGAGGTC TTGCGTTAGA TGTGAGGTTT CCGAAAAGTG AGTCACTGAG TGTGTTTTTG
    GAGAGTCTGC CCGCATGTTT CATAGAGAAA GAAAGCACAG AGCTCCGCCG TGGAAGGCGC
    TCGGTAATTA AAACCATTGC AGAGGACTAT CTGCGAGAAC ACATTGAGCT TCTTCGCTCA
    ACAGGAAGAG TGAGAGGAAT TCTGCCTCTG ACAGTACATA ATGTGCTTGC CTCTCAGGCT
    TGTCATGGAG CAATTAAATT CAATGACGTT TTGAATAAAG AGGAGTGCTG TAGTCTGGTG
    AGCTCGCTTT CCTCTTGTCG GCTTCCTTTT CAGTGTGCTC ATGGAAGACC CTCCATCGTC
    CCTCTGGCAG ATCTGCACCA CTTGGAAGAA CAGCAGGATA TTCCCAAACC AAATCTGAAG
    AAACTAAGAA GAATGTACAA GTCATGGCAG CTGTATGGAC AAAATCAATA TTTTGCACAG
    AACAAAGCAT AA

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

    RefSeq XP_021325638.1
    CDS315..3446
    Translation

    Target ORF information:

    RefSeq Version XM_021469963.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio mutL homolog 3 (E. coli) (mlh3), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021469963.1

    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
    ATGATCAAGA GTTTACCCAT AAATGTTCAA GCACAGCTGC GCTCTGGTGT TGCTATTTTC 
    TCATTGCAGC AGTGTGTGGA GGAGCTCATA TTAAACAGCA TTGATGCTGG AGCAACATGT
    GTGGCTGTCA AAATAGACAT AGAGGCCTGC AAGCTTCAGG TCATTGACAA TGGCTCAGGA
    ATGTGCCTGG AGGACATGGA GAAAGTTGGA CTGCGCTACA ACACAAGCAA ATGCAGCTCC
    CTGGAGGATT TGGATAATCT TCATTTTTAT GGTTTCAGAG GAGAAGCCAT TTCCAGTATA
    GTTTCCCTTG CAGAAATGGT GGAAATATCA TCTAGGACTA AGCAGTCTGT GAAAACGTAT
    GTTAAATCCT TTAATGAAAC AAATGCATTG GAGGTTTTCG AAGCTCAAAC TGTTCGCCCT
    TCTGCAGGGA CGACCGTCTC AGTCTACAAT CTCTTCCACA ACATGCCAGT CCGTAGAAAG
    CGAATGGATC CTGTTTTAGA AACCGAACGA ATCCGTCAGA GAGTGGAGGC CATATCTTTA
    ATGCATCCAT CTGTGTCATT CACAGTGAAA AAAGAAAATT CAGCACACAT GATGGTGCAG
    CTCTCTAAAA CAAGCAGTAC CTATTATAGG TTTGTCCAAA TTCATGGCTT AAATCGAGCC
    CAAAAGCTTG GAGAAGTCAA TTATGAGCAC GAGCAGTTCC AAATAACCGG TCATATAGGC
    CGTGAGGGCC ATTACAACAA CAGTTTGCAA TTTTTATTTG TAAATGAGAG GCTTCTTTTA
    AAGACACGCA TTCATAAAAC ACTAAACTGC CTTTTAAAGA GAGTAAGCGG TGCTGCAAGG
    CAAAACAACA GCCCAACCTC ATATCCGGTA ACATCCAGCC CCAAACAGAA GGGAGGATAT
    GATCTCCATG GCATTTATGT GATAAATATC AAATGTCATT ACTCAGAGTA TGACATATGC
    CTCGAACCAG CCAAGTCTCT GATAGAGTTC AAAGACTGGG ATAATGTGCT CATCTGCATT
    GAAGAAGGGG TAAAGGCATT CCTTACTAAA GAAAACCTGG TGTCGGAGTT AAACACGATC
    AGTAATGATG GTCTACCATG TAGTCCAGTA AGAAATGCAG AAAGCTCAGA AAAACAAAAG
    CGCAGTTCTG AGGAAACAAA TGAAGCATGT GAAACGATGA TTGAGAAAAA TGATTCAAGT
    GTTGTGGACG TCGCTGATGG TGTGCAAATG TTAGAGCAGG AATCAATATA CACTGAATCT
    GATGAAGGAA AAGCACTTCA GAGTGAAGAT TTGCCTTTTC AGACCACACT TGTTGGTGCT
    GCTGAAATTA ATAACAACCA CGAAGAAGAT GAAAATGCAG TTTGTTCAAA TATAAGCCAT
    ACTGATTCAC CGCTTGCTGT AAACAAAAAT GTGATGGGAA GCAAATCGCA CAAGATTTCA
    CTTCCAGAAG CACAAGATAG TTTGCAGAAA TTCTACACCC CAAATAAAAC CTCTCCAAAA
    AAGAGAAGGA TGCCGTTAAA TGACACCGAA GAAGAAAAAC ATGTTTTTTA TGGTGGTCCC
    TCAAAGACAT TTAAAGCTAC ACCACCTCGT AAATTAACCC TGTCTTTTGA AACGGGATCT
    CTTGACAAGT TCAAAAGGTT GTTTGGGAAA GAGGCTGAGA AAAAACAACC AAGCACAGAA
    AAAACAAGCC TTCTAAATCC AAATCCCAAT GACCGCTTTG TAGGATCTAC ATCGTGTTTG
    GATGATCTAC ACCATCCAGT ATTGAGGAAC AGTTCAGGTC ATCCTACTAC ACACAGATCT
    ACTGAATCTT CATCGCTGAA CAAGAAAAAC AAAATATCAT TAGCTGCCAA ATGTTCCTAT
    TTAAAACAGG ACAAAGAGCT CTGCAGAGAT TCAAACTTCC TTAAACGGGA CCTTTCATCT
    TTCCCACCCT CACAAGACTC ATGCTTTAAA GAATTAGAAA AAACCCTCTT AGATGAAGAT
    GTTTTATTTG GATCATCTGG AATTGTTGAT TCTGTTGACT TTCCTCTTAT TGAACAGGAC
    ACAGCATTAC CATCTGTTGC AGAAGAATCG CACCTCTTCA ACAACAATGT GACTTTCTTT
    ATTGGAAATG AGAGCAGTGT TGATGAAGCC AGCGTTGCCT CTCAGCGTGA TCCTCAACAC
    AGCATTGCAG GAAATGAAGA GGATGCCCAA GCTCCCGATT CACTGTCGAC TTTATTCTCA
    GAATGGCACA ACCCTGTGTT TATACGACCA CCAGAGGTTG CTGTTGATGT AACCAGCGGC
    CAAGCAGAGG GTCTTGCTGT AAAAATCCAC AATATTCTTT TCCCCTACCG TTTTACCAAG
    AATATGATCC ACACAATGAG AGTCATCAAT CAAGTAGACA AGAAGTTTCT TGCTTGTTTG
    ATAAATACAG CAGGGCAGAA CACCTCTGAA AGCAGTACGG ATGAAGGGAA TCTTCTAGTG
    CTGGTTGATC AACATGCTGC CCATGAAAGA GTTCGACTAG AGGGTTTAAT AGCAGACTCT
    TACGAGGATG ACCCAGACAC ACCTGGAAAA AAGAGGCTGT GTTCCTCACG TGTAACCCCA
    CCTTTGGAGA TTAATGTAAC CGAGGAGGAA TTGAGACTTT TGAGGTCTTG TCAGGGTTTC
    TTGAGAGGTC TTGCGTTAGA TGTGAGGTTT CCGAAAAGTG AGTCACTGAG TGTGTTTTTG
    GAGAGTCTGC CCGCATGTTT CATAGAGAAA GAAAGCACAG AGCTCCGCCG TGGAAGGCGC
    TCGGTAATTA AAACCATTGC AGAGGACTAT CTGCGAGAAC ACATTGAGCT TCTTCGCTCA
    ACAGGAAGAG TGAGAGGAAT TCTGCCTCTG ACAGTACATA ATGTGCTTGC CTCTCAGGCT
    TGTCATGGAG CAATTAAATT CAATGACGTT TTGAATAAAG AGGAGTGCTG TAGTCTGGTG
    AGCTCGCTTT CCTCTTGTCG GCTTCCTTTT CAGTGTGCTC ATGGAAGACC CTCCATCGTC
    CCTCTGGCAG ATCTGCACCA CTTGGAAGAA CAGCAGGATA TTCCCAAACC AAATCTGAAG
    AAACTAAGAA GAATGTACAA GTCATGGCAG CTGTATGGAC AAAATCAATA TTTTGCACAG
    AACAAAGCAT AA

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

    CloneID ODa27768
    Clone ID Related Accession (Same CDS sequence) XM_021469963.1 , XM_691647.6
    Accession Version XM_691647.6 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3132bp)
    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 DNA mismatch repair protein Mlh3 isoform X3
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007134.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_691647.5. ##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
    ATGATCAAGA GTTTACCCAT AAATGTTCAA GCACAGCTGC GCTCTGGTGT TGCTATTTTC 
    TCATTGCAGC AGTGTGTGGA GGAGCTCATA TTAAACAGCA TTGATGCTGG AGCAACATGT
    GTGGCTGTCA AAATAGACAT AGAGGCCTGC AAGCTTCAGG TCATTGACAA TGGCTCAGGA
    ATGTGCCTGG AGGACATGGA GAAAGTTGGA CTGCGCTACA ACACAAGCAA ATGCAGCTCC
    CTGGAGGATT TGGATAATCT TCATTTTTAT GGTTTCAGAG GAGAAGCCAT TTCCAGTATA
    GTTTCCCTTG CAGAAATGGT GGAAATATCA TCTAGGACTA AGCAGTCTGT GAAAACGTAT
    GTTAAATCCT TTAATGAAAC AAATGCATTG GAGGTTTTCG AAGCTCAAAC TGTTCGCCCT
    TCTGCAGGGA CGACCGTCTC AGTCTACAAT CTCTTCCACA ACATGCCAGT CCGTAGAAAG
    CGAATGGATC CTGTTTTAGA AACCGAACGA ATCCGTCAGA GAGTGGAGGC CATATCTTTA
    ATGCATCCAT CTGTGTCATT CACAGTGAAA AAAGAAAATT CAGCACACAT GATGGTGCAG
    CTCTCTAAAA CAAGCAGTAC CTATTATAGG TTTGTCCAAA TTCATGGCTT AAATCGAGCC
    CAAAAGCTTG GAGAAGTCAA TTATGAGCAC GAGCAGTTCC AAATAACCGG TCATATAGGC
    CGTGAGGGCC ATTACAACAA CAGTTTGCAA TTTTTATTTG TAAATGAGAG GCTTCTTTTA
    AAGACACGCA TTCATAAAAC ACTAAACTGC CTTTTAAAGA GAGTAAGCGG TGCTGCAAGG
    CAAAACAACA GCCCAACCTC ATATCCGGTA ACATCCAGCC CCAAACAGAA GGGAGGATAT
    GATCTCCATG GCATTTATGT GATAAATATC AAATGTCATT ACTCAGAGTA TGACATATGC
    CTCGAACCAG CCAAGTCTCT GATAGAGTTC AAAGACTGGG ATAATGTGCT CATCTGCATT
    GAAGAAGGGG TAAAGGCATT CCTTACTAAA GAAAACCTGG TGTCGGAGTT AAACACGATC
    AGTAATGATG GTCTACCATG TAGTCCAGTA AGAAATGCAG AAAGCTCAGA AAAACAAAAG
    CGCAGTTCTG AGGAAACAAA TGAAGCATGT GAAACGATGA TTGAGAAAAA TGATTCAAGT
    GTTGTGGACG TCGCTGATGG TGTGCAAATG TTAGAGCAGG AATCAATATA CACTGAATCT
    GATGAAGGAA AAGCACTTCA GAGTGAAGAT TTGCCTTTTC AGACCACACT TGTTGGTGCT
    GCTGAAATTA ATAACAACCA CGAAGAAGAT GAAAATGCAG TTTGTTCAAA TATAAGCCAT
    ACTGATTCAC CGCTTGCTGT AAACAAAAAT GTGATGGGAA GCAAATCGCA CAAGATTTCA
    CTTCCAGAAG CACAAGATAG TTTGCAGAAA TTCTACACCC CAAATAAAAC CTCTCCAAAA
    AAGAGAAGGA TGCCGTTAAA TGACACCGAA GAAGAAAAAC ATGTTTTTTA TGGTGGTCCC
    TCAAAGACAT TTAAAGCTAC ACCACCTCGT AAATTAACCC TGTCTTTTGA AACGGGATCT
    CTTGACAAGT TCAAAAGGTT GTTTGGGAAA GAGGCTGAGA AAAAACAACC AAGCACAGAA
    AAAACAAGCC TTCTAAATCC AAATCCCAAT GACCGCTTTG TAGGATCTAC ATCGTGTTTG
    GATGATCTAC ACCATCCAGT ATTGAGGAAC AGTTCAGGTC ATCCTACTAC ACACAGATCT
    ACTGAATCTT CATCGCTGAA CAAGAAAAAC AAAATATCAT TAGCTGCCAA ATGTTCCTAT
    TTAAAACAGG ACAAAGAGCT CTGCAGAGAT TCAAACTTCC TTAAACGGGA CCTTTCATCT
    TTCCCACCCT CACAAGACTC ATGCTTTAAA GAATTAGAAA AAACCCTCTT AGATGAAGAT
    GTTTTATTTG GATCATCTGG AATTGTTGAT TCTGTTGACT TTCCTCTTAT TGAACAGGAC
    ACAGCATTAC CATCTGTTGC AGAAGAATCG CACCTCTTCA ACAACAATGT GACTTTCTTT
    ATTGGAAATG AGAGCAGTGT TGATGAAGCC AGCGTTGCCT CTCAGCGTGA TCCTCAACAC
    AGCATTGCAG GAAATGAAGA GGATGCCCAA GCTCCCGATT CACTGTCGAC TTTATTCTCA
    GAATGGCACA ACCCTGTGTT TATACGACCA CCAGAGGTTG CTGTTGATGT AACCAGCGGC
    CAAGCAGAGG GTCTTGCTGT AAAAATCCAC AATATTCTTT TCCCCTACCG TTTTACCAAG
    AATATGATCC ACACAATGAG AGTCATCAAT CAAGTAGACA AGAAGTTTCT TGCTTGTTTG
    ATAAATACAG CAGGGCAGAA CACCTCTGAA AGCAGTACGG ATGAAGGGAA TCTTCTAGTG
    CTGGTTGATC AACATGCTGC CCATGAAAGA GTTCGACTAG AGGGTTTAAT AGCAGACTCT
    TACGAGGATG ACCCAGACAC ACCTGGAAAA AAGAGGCTGT GTTCCTCACG TGTAACCCCA
    CCTTTGGAGA TTAATGTAAC CGAGGAGGAA TTGAGACTTT TGAGGTCTTG TCAGGGTTTC
    TTGAGAGGTC TTGCGTTAGA TGTGAGGTTT CCGAAAAGTG AGTCACTGAG TGTGTTTTTG
    GAGAGTCTGC CCGCATGTTT CATAGAGAAA GAAAGCACAG AGCTCCGCCG TGGAAGGCGC
    TCGGTAATTA AAACCATTGC AGAGGACTAT CTGCGAGAAC ACATTGAGCT TCTTCGCTCA
    ACAGGAAGAG TGAGAGGAAT TCTGCCTCTG ACAGTACATA ATGTGCTTGC CTCTCAGGCT
    TGTCATGGAG CAATTAAATT CAATGACGTT TTGAATAAAG AGGAGTGCTG TAGTCTGGTG
    AGCTCGCTTT CCTCTTGTCG GCTTCCTTTT CAGTGTGCTC ATGGAAGACC CTCCATCGTC
    CCTCTGGCAG ATCTGCACCA CTTGGAAGAA CAGCAGGATA TTCCCAAACC AAATCTGAAG
    AAACTAAGAA GAATGTACAA GTCATGGCAG CTGTATGGAC AAAATCAATA TTTTGCACAG
    AACAAAGCAT AA

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

    RefSeq XP_696739.4
    CDS357..3488
    Translation

    Target ORF information:

    RefSeq Version XM_691647.6
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio mutL homolog 3 (E. coli) (mlh3), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_691647.6

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    ATGATCAAGA GTTTACCCAT AAATGTTCAA GCACAGCTGC GCTCTGGTGT TGCTATTTTC 
    TCATTGCAGC AGTGTGTGGA GGAGCTCATA TTAAACAGCA TTGATGCTGG AGCAACATGT
    GTGGCTGTCA AAATAGACAT AGAGGCCTGC AAGCTTCAGG TCATTGACAA TGGCTCAGGA
    ATGTGCCTGG AGGACATGGA GAAAGTTGGA CTGCGCTACA ACACAAGCAA ATGCAGCTCC
    CTGGAGGATT TGGATAATCT TCATTTTTAT GGTTTCAGAG GAGAAGCCAT TTCCAGTATA
    GTTTCCCTTG CAGAAATGGT GGAAATATCA TCTAGGACTA AGCAGTCTGT GAAAACGTAT
    GTTAAATCCT TTAATGAAAC AAATGCATTG GAGGTTTTCG AAGCTCAAAC TGTTCGCCCT
    TCTGCAGGGA CGACCGTCTC AGTCTACAAT CTCTTCCACA ACATGCCAGT CCGTAGAAAG
    CGAATGGATC CTGTTTTAGA AACCGAACGA ATCCGTCAGA GAGTGGAGGC CATATCTTTA
    ATGCATCCAT CTGTGTCATT CACAGTGAAA AAAGAAAATT CAGCACACAT GATGGTGCAG
    CTCTCTAAAA CAAGCAGTAC CTATTATAGG TTTGTCCAAA TTCATGGCTT AAATCGAGCC
    CAAAAGCTTG GAGAAGTCAA TTATGAGCAC GAGCAGTTCC AAATAACCGG TCATATAGGC
    CGTGAGGGCC ATTACAACAA CAGTTTGCAA TTTTTATTTG TAAATGAGAG GCTTCTTTTA
    AAGACACGCA TTCATAAAAC ACTAAACTGC CTTTTAAAGA GAGTAAGCGG TGCTGCAAGG
    CAAAACAACA GCCCAACCTC ATATCCGGTA ACATCCAGCC CCAAACAGAA GGGAGGATAT
    GATCTCCATG GCATTTATGT GATAAATATC AAATGTCATT ACTCAGAGTA TGACATATGC
    CTCGAACCAG CCAAGTCTCT GATAGAGTTC AAAGACTGGG ATAATGTGCT CATCTGCATT
    GAAGAAGGGG TAAAGGCATT CCTTACTAAA GAAAACCTGG TGTCGGAGTT AAACACGATC
    AGTAATGATG GTCTACCATG TAGTCCAGTA AGAAATGCAG AAAGCTCAGA AAAACAAAAG
    CGCAGTTCTG AGGAAACAAA TGAAGCATGT GAAACGATGA TTGAGAAAAA TGATTCAAGT
    GTTGTGGACG TCGCTGATGG TGTGCAAATG TTAGAGCAGG AATCAATATA CACTGAATCT
    GATGAAGGAA AAGCACTTCA GAGTGAAGAT TTGCCTTTTC AGACCACACT TGTTGGTGCT
    GCTGAAATTA ATAACAACCA CGAAGAAGAT GAAAATGCAG TTTGTTCAAA TATAAGCCAT
    ACTGATTCAC CGCTTGCTGT AAACAAAAAT GTGATGGGAA GCAAATCGCA CAAGATTTCA
    CTTCCAGAAG CACAAGATAG TTTGCAGAAA TTCTACACCC CAAATAAAAC CTCTCCAAAA
    AAGAGAAGGA TGCCGTTAAA TGACACCGAA GAAGAAAAAC ATGTTTTTTA TGGTGGTCCC
    TCAAAGACAT TTAAAGCTAC ACCACCTCGT AAATTAACCC TGTCTTTTGA AACGGGATCT
    CTTGACAAGT TCAAAAGGTT GTTTGGGAAA GAGGCTGAGA AAAAACAACC AAGCACAGAA
    AAAACAAGCC TTCTAAATCC AAATCCCAAT GACCGCTTTG TAGGATCTAC ATCGTGTTTG
    GATGATCTAC ACCATCCAGT ATTGAGGAAC AGTTCAGGTC ATCCTACTAC ACACAGATCT
    ACTGAATCTT CATCGCTGAA CAAGAAAAAC AAAATATCAT TAGCTGCCAA ATGTTCCTAT
    TTAAAACAGG ACAAAGAGCT CTGCAGAGAT TCAAACTTCC TTAAACGGGA CCTTTCATCT
    TTCCCACCCT CACAAGACTC ATGCTTTAAA GAATTAGAAA AAACCCTCTT AGATGAAGAT
    GTTTTATTTG GATCATCTGG AATTGTTGAT TCTGTTGACT TTCCTCTTAT TGAACAGGAC
    ACAGCATTAC CATCTGTTGC AGAAGAATCG CACCTCTTCA ACAACAATGT GACTTTCTTT
    ATTGGAAATG AGAGCAGTGT TGATGAAGCC AGCGTTGCCT CTCAGCGTGA TCCTCAACAC
    AGCATTGCAG GAAATGAAGA GGATGCCCAA GCTCCCGATT CACTGTCGAC TTTATTCTCA
    GAATGGCACA ACCCTGTGTT TATACGACCA CCAGAGGTTG CTGTTGATGT AACCAGCGGC
    CAAGCAGAGG GTCTTGCTGT AAAAATCCAC AATATTCTTT TCCCCTACCG TTTTACCAAG
    AATATGATCC ACACAATGAG AGTCATCAAT CAAGTAGACA AGAAGTTTCT TGCTTGTTTG
    ATAAATACAG CAGGGCAGAA CACCTCTGAA AGCAGTACGG ATGAAGGGAA TCTTCTAGTG
    CTGGTTGATC AACATGCTGC CCATGAAAGA GTTCGACTAG AGGGTTTAAT AGCAGACTCT
    TACGAGGATG ACCCAGACAC ACCTGGAAAA AAGAGGCTGT GTTCCTCACG TGTAACCCCA
    CCTTTGGAGA TTAATGTAAC CGAGGAGGAA TTGAGACTTT TGAGGTCTTG TCAGGGTTTC
    TTGAGAGGTC TTGCGTTAGA TGTGAGGTTT CCGAAAAGTG AGTCACTGAG TGTGTTTTTG
    GAGAGTCTGC CCGCATGTTT CATAGAGAAA GAAAGCACAG AGCTCCGCCG TGGAAGGCGC
    TCGGTAATTA AAACCATTGC AGAGGACTAT CTGCGAGAAC ACATTGAGCT TCTTCGCTCA
    ACAGGAAGAG TGAGAGGAAT TCTGCCTCTG ACAGTACATA ATGTGCTTGC CTCTCAGGCT
    TGTCATGGAG CAATTAAATT CAATGACGTT TTGAATAAAG AGGAGTGCTG TAGTCTGGTG
    AGCTCGCTTT CCTCTTGTCG GCTTCCTTTT CAGTGTGCTC ATGGAAGACC CTCCATCGTC
    CCTCTGGCAG ATCTGCACCA CTTGGAAGAA CAGCAGGATA TTCCCAAACC AAATCTGAAG
    AAACTAAGAA GAATGTACAA GTCATGGCAG CTGTATGGAC AAAATCAATA TTTTGCACAG
    AACAAAGCAT AA

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