DUSP27 cDNA ORF clone, Homo sapiens(human)

The following DUSP27 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the DUSP27 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
OHu30046 NM_001080426.3
Latest version!
Homo sapiens dual specificity phosphatase 27, atypical (DUSP27), mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu74452 XM_011510146.2
Latest version!
Homo sapiens dual specificity phosphatase 27, atypical (DUSP27), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
View Old Accession Versions >>
OHu30046 NM_001080426.2 Homo sapiens dual specificity phosphatase 27, atypical (DUSP27), mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
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 OHu30046
    Clone ID Related Accession (Same CDS sequence) NM_001080426.2 , NM_001080426.3
    Accession Version NM_001080426.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3477bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-02-25
    Organism Homo sapiens(human)
    Product inactive dual specificity phosphatase 27
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AL158837.14. On or before Sep 13, 2016 this sequence version replaced XM_005245603.3, NM_001080426.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## Transcript exon combination :: SRR1803613.216447.1, ERR279848.2113.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2147920, SAMEA2149398 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGGCGACCA GAAAGGACAC AGAGGAGGAG CAGGTAGTCC CAAGCGAGGA GGACGAAGCC 
    AACGTGAGGG CGGTGCAGGC CCACTACCTC CGAAGCCCCT CCCCTAGCCA GTATTCGATG
    GTCTCAGATG CAGAAACAGA AAGCATTTTC ATGGAACCCA TTCACCTCTC CTCAGCCATT
    GCAGCCAAAC AGATCATCAA TGAAGAACTC AAGCCACCGG GGGTCAGAGC AGACGCAGAG
    TGTCCAGGCA TGCTGGAGTC TGCTGAACAG CTGCTGGTGG AGGACCTGTA CAACCGCGTC
    AGGGAGAAGA TGGATGACAC CAGCCTCTAT AATACGCCCT GTGTCCTGGA CCTACAGCGG
    GCCCTGGTTC AGGATCGCCA AGAGGCGCCC TGGAATGAGG TGGATGAGGT CTGGCCCAAT
    GTCTTCATAG CTGAGAAGAG TGTGGCTGTG AACAAGGGGA GGCTGAAGAG GCTGGGAATC
    ACCCACATTC TGAATGCTGC GCATGGCACC GGCGTTTACA CTGGCCCCGA ATTCTACACT
    GGCCTGGAGA TCCAGTACCT GGGTGTAGAG GTGGATGACT TTCCTGAGGT GGACATTTCC
    CAGCATTTCC GGAAGGCGTC TGAGTTCCTG GATGAGGCGC TGCTGACTTA CAGAGGGAAA
    GTCCTGGTCA GCAGCGAAAT GGGCATCAGC CGGTCAGCAG TGCTGGTGGT CGCCTACCTG
    ATGATCTTCC ACAACATGGC CATCCTGGAG GCTTTGATGA CCGTGCGTAA GAAGCGGGCC
    ATCTACCCCA ATGAGGGCTT CCTGAAGCAG CTGCGGGAGC TCAATGAGAA GTTGATGGAG
    GAGAGAGAAG AGGACTATGG CCGGGAGGGG GGATCAGCTG AGGCTGAGGA GGGCGAGGGC
    ACTGGGAGCA TGCTCGGGGC CAGAGTGCAC GCCCTGACGG TGGAAGAGGA GGACGACAGC
    GCCAGCCACC TGAGTGGCTC CTCCCTGGGG AAGGCCACCC AGGCCTCCAA GCCCCTCACC
    CTCATAGACG AGGAGGAGGA GGAGAAACTG TACGAGCAGT GGAAGAAGGG GCAGGGCCTC
    CTCTCAGACA AGGTCCCCCA GGATGGAGGT GGCTGGCGCT CAGCCTCCTC TGGCCAGGGT
    GGGGAGGAGC TCGAGGACGA GGACGTGGAG AGGATCATCC AGGAGTGGCA GAGCCGAAAC
    GAGAGGTACC AAGCAGAAGG GTACCGGAGG TGGGGAAGGG AGGAGGAGAA GGAGGAGGAG
    AGCGACGCTG GCTCCTCGGT GGGGAGGCGG CGGCGCACCC TGAGCGAGAG CAGCGCCTGG
    GAGAGCGTGA GCAGCCACGA CATCTGGGTC CTGAAGCAGC AGCTGGAGCT GAACCGCCCG
    GACCACGGCA GGAGGCGCCG CGCAGACTCG ATGTCCTCGG AGAGCACCTG GGACGCATGG
    AACGAGAGGC TGCTGGAGAT TGAGAAGGAG GCTTCCCGGA GGTACCACGC CAAGAGCAAG
    AGAGAGGAGG CGGCAGACAG GAGCTCAGAA GCAGGGAGCA GGGTGCGGGA GGATGATGAG
    GACAGCGTGG GCTCTGAGGC CAGTTCCTTC TACAACTTCT GCAGCAGGAA CAAGGACAAG
    CTCACTGCCC TGGAAAGATG GAAGATCAAG AGAATCCAAT TTGGATTTCA CAAGAAAGAC
    TTGGGAGCGG GAGACAGCAG CGGTGAGCCC GGTGCAGAGG AGGCAGTAGG GGAGAAGAAC
    CCCTCCGACG TCAGCCTGAC AGCCTACCAG GCCTGGAAGC TGAAACACCA GAAGAAGGTG
    GGCAGTGAGA ACAAGGAGGA GGTGGTGGAG CTCAGCAAGG GGGAGGACTC GGCCTTGGCT
    AAGAAGAGAC AACGGAGGCT GGAGCTGCTG GAGAGAAGCC GGCAGACGCT GGAGGAGAGC
    CAGTCTATGG CAAGCTGGGA GGCGGACAGC TCCACGGCCA GCGGGAGCAT TCCCCTGTCT
    GCGTTCTGGT CTGCAGACCC CTCAGTCAGC GCTGATGGGG ACACGACGTC AGTACTGAGC
    ACCCAGAGCC ACCGCTCCCA CCTGTCTCAG GCTGCAAGCA ACATAGCGGG GTGTTCAACC
    TCCAACCCCA CCACACCCCT GCCTAACCTG CCAGTGGGGC CTGGAGACAC CATTTCCATT
    GCCAGTATCC AGAACTGGAT TGCCAATGTA GTCAGTGAGA CCCTTGCTCA GAAGCAAAAT
    GAAATGCTGC TGTTGTCCCG CTCACCGTCT GTTGCAAGCA TGAAGGCAGT ACCAGCGGCT
    AGCTGCCTGG GGGATGACCA AGTCTCCATG CTTAGTGGAC ACAGCAGCTC CTCCTTGGGT
    GGCTGCCTGT TGCCTCAGAG CCAGGCAAGA CCCAGCTCTG ACATGCAGTC TGTGCTGTCC
    TGCAACACCA CACTGAGCTC ACCCGCGGAA AGTTGCAGAA GCAAAGTGAG GGGGACCAGC
    AAGCCCATCT TCAGCCTCTT TGCTGACAAT GTGGACCTAA AGGAACTTGG CCGGAAGGAG
    AAGGAGATGC AGATGGAGCT TAGGGAGAAG ATGTCTGAGT ACAAAATGGA AAAGCTGGCC
    TCAGACAACA AACGCAGCTC CCTCTTCAAG AAGAAGAAGG TCAAGGAAGA TGAGGATGAT
    GGTGTGGGTG ATGGGGATGA GGACACTGAC AGTGCCATAG GGAGCTTCCG ATATTCTTCC
    CGCAGTAATT CCCAGAAACC TGAAACAGAC ACATGCTCCT CCCTGGCTGT CTGTGATCAC
    TATGCAAGTG GCAGCAGAGT TGGCAAAGAG ATGGATAGCA GTATTAATAA GTGGCTCAGT
    GGCCTCAGGA CGGAGGAAAA ACCTCCTTTC CAAAGTGACT GGTCTGGAAG TTCCAGAGGG
    AAGTACACCA GATCGTCCCT GCTCAGGGAG ACAGAGTCTA AATCCTCCAG TTACAAGTTT
    TCCAAATCCC AGTCAGAGGA ACAGGACACC TCCTCCTACC ACGAGGCAAA TGGCAACTCT
    GTAAGAAGCA CTTCACGGTT CTCATCTTCC TCCACCAGGG AGGGCAGAGA GATGCACAAG
    TTCTCCAGGT CCACGTACAA CGAGACCTCA AGTTCCCGAG AGGAGAGCCC AGAGCCCTAC
    TTCTTCCGCC GGACCCCAGA GTCCTCAGAA AGGGAAGAGT CCCCAGAACC ACAGCGCCCA
    AATTGGGCCA GGTCCAGGGA CTGGGAAGAT GTGGAAGAGT CATCCAAGTC AGACTTCTCT
    GAATTTGGAG CCAAGAGGAA GTTCACCCAG AGCTTTATGA GGTCTGAAGA AGAGGGAGAG
    AAAGAGAGGA CAGAAAACAG AGAAGAAGGG AGGTTTGCAT CTGGACGGCG GTCCCAGTAT
    CGGAGAAGCA CTGACAGGGA GGAAGAGGAA GAAATGGACG ATGAAGCCAT CATTGCTGCT
    TGGAGACGCC GGCAAGAAGA AACCAGGACC AAGCTGCAGA AAAGGAGGGA GGACTGA

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

    RefSeq NP_001073895.1
    CDS122..3598
    Translation

    Target ORF information:

    RefSeq Version NM_001080426.2
    Organism Homo sapiens(human)
    Definition Homo sapiens dual specificity phosphatase 27, atypical (DUSP27), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001080426.2

    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
    ATGGCGACCA GAAAGGACAC AGAGGAGGAG CAGGTAGTCC CAAGCGAGGA GGACGAAGCC 
    AACGTGAGGG CGGTGCAGGC CCACTACCTC CGAAGCCCCT CCCCTAGCCA GTATTCGATG
    GTCTCAGATG CAGAAACAGA AAGCATTTTC ATGGAACCCA TTCACCTCTC CTCAGCCATT
    GCAGCCAAAC AGATCATCAA TGAAGAACTC AAGCCACCGG GGGTCAGAGC AGACGCAGAG
    TGTCCAGGCA TGCTGGAGTC TGCTGAACAG CTGCTGGTGG AGGACCTGTA CAACCGCGTC
    AGGGAGAAGA TGGATGACAC CAGCCTCTAT AATACGCCCT GTGTCCTGGA CCTACAGCGG
    GCCCTGGTTC AGGATCGCCA AGAGGCGCCC TGGAATGAGG TGGATGAGGT CTGGCCCAAT
    GTCTTCATAG CTGAGAAGAG TGTGGCTGTG AACAAGGGGA GGCTGAAGAG GCTGGGAATC
    ACCCACATTC TGAATGCTGC GCATGGCACC GGCGTTTACA CTGGCCCCGA ATTCTACACT
    GGCCTGGAGA TCCAGTACCT GGGTGTAGAG GTGGATGACT TTCCTGAGGT GGACATTTCC
    CAGCATTTCC GGAAGGCGTC TGAGTTCCTG GATGAGGCGC TGCTGACTTA CAGAGGGAAA
    GTCCTGGTCA GCAGCGAAAT GGGCATCAGC CGGTCAGCAG TGCTGGTGGT CGCCTACCTG
    ATGATCTTCC ACAACATGGC CATCCTGGAG GCTTTGATGA CCGTGCGTAA GAAGCGGGCC
    ATCTACCCCA ATGAGGGCTT CCTGAAGCAG CTGCGGGAGC TCAATGAGAA GTTGATGGAG
    GAGAGAGAAG AGGACTATGG CCGGGAGGGG GGATCAGCTG AGGCTGAGGA GGGCGAGGGC
    ACTGGGAGCA TGCTCGGGGC CAGAGTGCAC GCCCTGACGG TGGAAGAGGA GGACGACAGC
    GCCAGCCACC TGAGTGGCTC CTCCCTGGGG AAGGCCACCC AGGCCTCCAA GCCCCTCACC
    CTCATAGACG AGGAGGAGGA GGAGAAACTG TACGAGCAGT GGAAGAAGGG GCAGGGCCTC
    CTCTCAGACA AGGTCCCCCA GGATGGAGGT GGCTGGCGCT CAGCCTCCTC TGGCCAGGGT
    GGGGAGGAGC TCGAGGACGA GGACGTGGAG AGGATCATCC AGGAGTGGCA GAGCCGAAAC
    GAGAGGTACC AAGCAGAAGG GTACCGGAGG TGGGGAAGGG AGGAGGAGAA GGAGGAGGAG
    AGCGACGCTG GCTCCTCGGT GGGGAGGCGG CGGCGCACCC TGAGCGAGAG CAGCGCCTGG
    GAGAGCGTGA GCAGCCACGA CATCTGGGTC CTGAAGCAGC AGCTGGAGCT GAACCGCCCG
    GACCACGGCA GGAGGCGCCG CGCAGACTCG ATGTCCTCGG AGAGCACCTG GGACGCATGG
    AACGAGAGGC TGCTGGAGAT TGAGAAGGAG GCTTCCCGGA GGTACCACGC CAAGAGCAAG
    AGAGAGGAGG CGGCAGACAG GAGCTCAGAA GCAGGGAGCA GGGTGCGGGA GGATGATGAG
    GACAGCGTGG GCTCTGAGGC CAGTTCCTTC TACAACTTCT GCAGCAGGAA CAAGGACAAG
    CTCACTGCCC TGGAAAGATG GAAGATCAAG AGAATCCAAT TTGGATTTCA CAAGAAAGAC
    TTGGGAGCGG GAGACAGCAG CGGTGAGCCC GGTGCAGAGG AGGCAGTAGG GGAGAAGAAC
    CCCTCCGACG TCAGCCTGAC AGCCTACCAG GCCTGGAAGC TGAAACACCA GAAGAAGGTG
    GGCAGTGAGA ACAAGGAGGA GGTGGTGGAG CTCAGCAAGG GGGAGGACTC GGCCTTGGCT
    AAGAAGAGAC AACGGAGGCT GGAGCTGCTG GAGAGAAGCC GGCAGACGCT GGAGGAGAGC
    CAGTCTATGG CAAGCTGGGA GGCGGACAGC TCCACGGCCA GCGGGAGCAT TCCCCTGTCT
    GCGTTCTGGT CTGCAGACCC CTCAGTCAGC GCTGATGGGG ACACGACGTC AGTACTGAGC
    ACCCAGAGCC ACCGCTCCCA CCTGTCTCAG GCTGCAAGCA ACATAGCGGG GTGTTCAACC
    TCCAACCCCA CCACACCCCT GCCTAACCTG CCAGTGGGGC CTGGAGACAC CATTTCCATT
    GCCAGTATCC AGAACTGGAT TGCCAATGTA GTCAGTGAGA CCCTTGCTCA GAAGCAAAAT
    GAAATGCTGC TGTTGTCCCG CTCACCGTCT GTTGCAAGCA TGAAGGCAGT ACCAGCGGCT
    AGCTGCCTGG GGGATGACCA AGTCTCCATG CTTAGTGGAC ACAGCAGCTC CTCCTTGGGT
    GGCTGCCTGT TGCCTCAGAG CCAGGCAAGA CCCAGCTCTG ACATGCAGTC TGTGCTGTCC
    TGCAACACCA CACTGAGCTC ACCCGCGGAA AGTTGCAGAA GCAAAGTGAG GGGGACCAGC
    AAGCCCATCT TCAGCCTCTT TGCTGACAAT GTGGACCTAA AGGAACTTGG CCGGAAGGAG
    AAGGAGATGC AGATGGAGCT TAGGGAGAAG ATGTCTGAGT ACAAAATGGA AAAGCTGGCC
    TCAGACAACA AACGCAGCTC CCTCTTCAAG AAGAAGAAGG TCAAGGAAGA TGAGGATGAT
    GGTGTGGGTG ATGGGGATGA GGACACTGAC AGTGCCATAG GGAGCTTCCG ATATTCTTCC
    CGCAGTAATT CCCAGAAACC TGAAACAGAC ACATGCTCCT CCCTGGCTGT CTGTGATCAC
    TATGCAAGTG GCAGCAGAGT TGGCAAAGAG ATGGATAGCA GTATTAATAA GTGGCTCAGT
    GGCCTCAGGA CGGAGGAAAA ACCTCCTTTC CAAAGTGACT GGTCTGGAAG TTCCAGAGGG
    AAGTACACCA GATCGTCCCT GCTCAGGGAG ACAGAGTCTA AATCCTCCAG TTACAAGTTT
    TCCAAATCCC AGTCAGAGGA ACAGGACACC TCCTCCTACC ACGAGGCAAA TGGCAACTCT
    GTAAGAAGCA CTTCACGGTT CTCATCTTCC TCCACCAGGG AGGGCAGAGA GATGCACAAG
    TTCTCCAGGT CCACGTACAA CGAGACCTCA AGTTCCCGAG AGGAGAGCCC AGAGCCCTAC
    TTCTTCCGCC GGACCCCAGA GTCCTCAGAA AGGGAAGAGT CCCCAGAACC ACAGCGCCCA
    AATTGGGCCA GGTCCAGGGA CTGGGAAGAT GTGGAAGAGT CATCCAAGTC AGACTTCTCT
    GAATTTGGAG CCAAGAGGAA GTTCACCCAG AGCTTTATGA GGTCTGAAGA AGAGGGAGAG
    AAAGAGAGGA CAGAAAACAG AGAAGAAGGG AGGTTTGCAT CTGGACGGCG GTCCCAGTAT
    CGGAGAAGCA CTGACAGGGA GGAAGAGGAA GAAATGGACG ATGAAGCCAT CATTGCTGCT
    TGGAGACGCC GGCAAGAAGA AACCAGGACC AAGCTGCAGA AAAGGAGGGA GGACTGA

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

    CloneID OHu30046
    Clone ID Related Accession (Same CDS sequence) NM_001080426.2 , NM_001080426.3
    Accession Version NM_001080426.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3477bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-10-24
    Organism Homo sapiens(human)
    Product inactive dual specificity phosphatase 27
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AL158837.14. On May 17, 2019 this sequence version replaced NM_001080426.2. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## Transcript exon combination :: SRR1803613.216447.1, SRR5189655.145095.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2147920, SAMEA2149398 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000361200.7/ ENSP00000354483.2 RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END## COMPLETENESS: complete on the 3' 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
    ATGGCGACCA GAAAGGACAC AGAGGAGGAG CAGGTAGTCC CAAGCGAGGA GGACGAAGCC 
    AACGTGAGGG CGGTGCAGGC CCACTACCTC CGAAGCCCCT CCCCTAGCCA GTATTCGATG
    GTCTCAGATG CAGAAACAGA AAGCATTTTC ATGGAACCCA TTCACCTCTC CTCAGCCATT
    GCAGCCAAAC AGATCATCAA TGAAGAACTC AAGCCACCGG GGGTCAGAGC AGACGCAGAG
    TGTCCAGGCA TGCTGGAGTC TGCTGAACAG CTGCTGGTGG AGGACCTGTA CAACCGCGTC
    AGGGAGAAGA TGGATGACAC CAGCCTCTAT AATACGCCCT GTGTCCTGGA CCTACAGCGG
    GCCCTGGTTC AGGATCGCCA AGAGGCGCCC TGGAATGAGG TGGATGAGGT CTGGCCCAAT
    GTCTTCATAG CTGAGAAGAG TGTGGCTGTG AACAAGGGGA GGCTGAAGAG GCTGGGAATC
    ACCCACATTC TGAATGCTGC GCATGGCACC GGCGTTTACA CTGGCCCCGA ATTCTACACT
    GGCCTGGAGA TCCAGTACCT GGGTGTAGAG GTGGATGACT TTCCTGAGGT GGACATTTCC
    CAGCATTTCC GGAAGGCGTC TGAGTTCCTG GATGAGGCGC TGCTGACTTA CAGAGGGAAA
    GTCCTGGTCA GCAGCGAAAT GGGCATCAGC CGGTCAGCAG TGCTGGTGGT CGCCTACCTG
    ATGATCTTCC ACAACATGGC CATCCTGGAG GCTTTGATGA CCGTGCGTAA GAAGCGGGCC
    ATCTACCCCA ATGAGGGCTT CCTGAAGCAG CTGCGGGAGC TCAATGAGAA GTTGATGGAG
    GAGAGAGAAG AGGACTATGG CCGGGAGGGG GGATCAGCTG AGGCTGAGGA GGGCGAGGGC
    ACTGGGAGCA TGCTCGGGGC CAGAGTGCAC GCCCTGACGG TGGAAGAGGA GGACGACAGC
    GCCAGCCACC TGAGTGGCTC CTCCCTGGGG AAGGCCACCC AGGCCTCCAA GCCCCTCACC
    CTCATAGACG AGGAGGAGGA GGAGAAACTG TACGAGCAGT GGAAGAAGGG GCAGGGCCTC
    CTCTCAGACA AGGTCCCCCA GGATGGAGGT GGCTGGCGCT CAGCCTCCTC TGGCCAGGGT
    GGGGAGGAGC TCGAGGACGA GGACGTGGAG AGGATCATCC AGGAGTGGCA GAGCCGAAAC
    GAGAGGTACC AAGCAGAAGG GTACCGGAGG TGGGGAAGGG AGGAGGAGAA GGAGGAGGAG
    AGCGACGCTG GCTCCTCGGT GGGGAGGCGG CGGCGCACCC TGAGCGAGAG CAGCGCCTGG
    GAGAGCGTGA GCAGCCACGA CATCTGGGTC CTGAAGCAGC AGCTGGAGCT GAACCGCCCG
    GACCACGGCA GGAGGCGCCG CGCAGACTCG ATGTCCTCGG AGAGCACCTG GGACGCATGG
    AACGAGAGGC TGCTGGAGAT TGAGAAGGAG GCTTCCCGGA GGTACCACGC CAAGAGCAAG
    AGAGAGGAGG CGGCAGACAG GAGCTCAGAA GCAGGGAGCA GGGTGCGGGA GGATGATGAG
    GACAGCGTGG GCTCTGAGGC CAGTTCCTTC TACAACTTCT GCAGCAGGAA CAAGGACAAG
    CTCACTGCCC TGGAAAGATG GAAGATCAAG AGAATCCAAT TTGGATTTCA CAAGAAAGAC
    TTGGGAGCGG GAGACAGCAG CGGTGAGCCC GGTGCAGAGG AGGCAGTAGG GGAGAAGAAC
    CCCTCCGACG TCAGCCTGAC AGCCTACCAG GCCTGGAAGC TGAAACACCA GAAGAAGGTG
    GGCAGTGAGA ACAAGGAGGA GGTGGTGGAG CTCAGCAAGG GGGAGGACTC GGCCTTGGCT
    AAGAAGAGAC AACGGAGGCT GGAGCTGCTG GAGAGAAGCC GGCAGACGCT GGAGGAGAGC
    CAGTCTATGG CAAGCTGGGA GGCGGACAGC TCCACGGCCA GCGGGAGCAT TCCCCTGTCT
    GCGTTCTGGT CTGCAGACCC CTCAGTCAGC GCTGATGGGG ACACGACGTC AGTACTGAGC
    ACCCAGAGCC ACCGCTCCCA CCTGTCTCAG GCTGCAAGCA ACATAGCGGG GTGTTCAACC
    TCCAACCCCA CCACACCCCT GCCTAACCTG CCAGTGGGGC CTGGAGACAC CATTTCCATT
    GCCAGTATCC AGAACTGGAT TGCCAATGTA GTCAGTGAGA CCCTTGCTCA GAAGCAAAAT
    GAAATGCTGC TGTTGTCCCG CTCACCGTCT GTTGCAAGCA TGAAGGCAGT ACCAGCGGCT
    AGCTGCCTGG GGGATGACCA AGTCTCCATG CTTAGTGGAC ACAGCAGCTC CTCCTTGGGT
    GGCTGCCTGT TGCCTCAGAG CCAGGCAAGA CCCAGCTCTG ACATGCAGTC TGTGCTGTCC
    TGCAACACCA CACTGAGCTC ACCCGCGGAA AGTTGCAGAA GCAAAGTGAG GGGGACCAGC
    AAGCCCATCT TCAGCCTCTT TGCTGACAAT GTGGACCTAA AGGAACTTGG CCGGAAGGAG
    AAGGAGATGC AGATGGAGCT TAGGGAGAAG ATGTCTGAGT ACAAAATGGA AAAGCTGGCC
    TCAGACAACA AACGCAGCTC CCTCTTCAAG AAGAAGAAGG TCAAGGAAGA TGAGGATGAT
    GGTGTGGGTG ATGGGGATGA GGACACTGAC AGTGCCATAG GGAGCTTCCG ATATTCTTCC
    CGCAGTAATT CCCAGAAACC TGAAACAGAC ACATGCTCCT CCCTGGCTGT CTGTGATCAC
    TATGCAAGTG GCAGCAGAGT TGGCAAAGAG ATGGATAGCA GTATTAATAA GTGGCTCAGT
    GGCCTCAGGA CGGAGGAAAA ACCTCCTTTC CAAAGTGACT GGTCTGGAAG TTCCAGAGGG
    AAGTACACCA GATCGTCCCT GCTCAGGGAG ACAGAGTCTA AATCCTCCAG TTACAAGTTT
    TCCAAATCCC AGTCAGAGGA ACAGGACACC TCCTCCTACC ACGAGGCAAA TGGCAACTCT
    GTAAGAAGCA CTTCACGGTT CTCATCTTCC TCCACCAGGG AGGGCAGAGA GATGCACAAG
    TTCTCCAGGT CCACGTACAA CGAGACCTCA AGTTCCCGAG AGGAGAGCCC AGAGCCCTAC
    TTCTTCCGCC GGACCCCAGA GTCCTCAGAA AGGGAAGAGT CCCCAGAACC ACAGCGCCCA
    AATTGGGCCA GGTCCAGGGA CTGGGAAGAT GTGGAAGAGT CATCCAAGTC AGACTTCTCT
    GAATTTGGAG CCAAGAGGAA GTTCACCCAG AGCTTTATGA GGTCTGAAGA AGAGGGAGAG
    AAAGAGAGGA CAGAAAACAG AGAAGAAGGG AGGTTTGCAT CTGGACGGCG GTCCCAGTAT
    CGGAGAAGCA CTGACAGGGA GGAAGAGGAA GAAATGGACG ATGAAGCCAT CATTGCTGCT
    TGGAGACGCC GGCAAGAAGA AACCAGGACC AAGCTGCAGA AAAGGAGGGA GGACTGA

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

    RefSeq NP_001073895.1
    CDS137..3613
    Translation

    Target ORF information:

    RefSeq Version NM_001080426.3
    Organism Homo sapiens(human)
    Definition Homo sapiens dual specificity phosphatase 27, atypical (DUSP27), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001080426.3

    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
    ATGGCGACCA GAAAGGACAC AGAGGAGGAG CAGGTAGTCC CAAGCGAGGA GGACGAAGCC 
    AACGTGAGGG CGGTGCAGGC CCACTACCTC CGAAGCCCCT CCCCTAGCCA GTATTCGATG
    GTCTCAGATG CAGAAACAGA AAGCATTTTC ATGGAACCCA TTCACCTCTC CTCAGCCATT
    GCAGCCAAAC AGATCATCAA TGAAGAACTC AAGCCACCGG GGGTCAGAGC AGACGCAGAG
    TGTCCAGGCA TGCTGGAGTC TGCTGAACAG CTGCTGGTGG AGGACCTGTA CAACCGCGTC
    AGGGAGAAGA TGGATGACAC CAGCCTCTAT AATACGCCCT GTGTCCTGGA CCTACAGCGG
    GCCCTGGTTC AGGATCGCCA AGAGGCGCCC TGGAATGAGG TGGATGAGGT CTGGCCCAAT
    GTCTTCATAG CTGAGAAGAG TGTGGCTGTG AACAAGGGGA GGCTGAAGAG GCTGGGAATC
    ACCCACATTC TGAATGCTGC GCATGGCACC GGCGTTTACA CTGGCCCCGA ATTCTACACT
    GGCCTGGAGA TCCAGTACCT GGGTGTAGAG GTGGATGACT TTCCTGAGGT GGACATTTCC
    CAGCATTTCC GGAAGGCGTC TGAGTTCCTG GATGAGGCGC TGCTGACTTA CAGAGGGAAA
    GTCCTGGTCA GCAGCGAAAT GGGCATCAGC CGGTCAGCAG TGCTGGTGGT CGCCTACCTG
    ATGATCTTCC ACAACATGGC CATCCTGGAG GCTTTGATGA CCGTGCGTAA GAAGCGGGCC
    ATCTACCCCA ATGAGGGCTT CCTGAAGCAG CTGCGGGAGC TCAATGAGAA GTTGATGGAG
    GAGAGAGAAG AGGACTATGG CCGGGAGGGG GGATCAGCTG AGGCTGAGGA GGGCGAGGGC
    ACTGGGAGCA TGCTCGGGGC CAGAGTGCAC GCCCTGACGG TGGAAGAGGA GGACGACAGC
    GCCAGCCACC TGAGTGGCTC CTCCCTGGGG AAGGCCACCC AGGCCTCCAA GCCCCTCACC
    CTCATAGACG AGGAGGAGGA GGAGAAACTG TACGAGCAGT GGAAGAAGGG GCAGGGCCTC
    CTCTCAGACA AGGTCCCCCA GGATGGAGGT GGCTGGCGCT CAGCCTCCTC TGGCCAGGGT
    GGGGAGGAGC TCGAGGACGA GGACGTGGAG AGGATCATCC AGGAGTGGCA GAGCCGAAAC
    GAGAGGTACC AAGCAGAAGG GTACCGGAGG TGGGGAAGGG AGGAGGAGAA GGAGGAGGAG
    AGCGACGCTG GCTCCTCGGT GGGGAGGCGG CGGCGCACCC TGAGCGAGAG CAGCGCCTGG
    GAGAGCGTGA GCAGCCACGA CATCTGGGTC CTGAAGCAGC AGCTGGAGCT GAACCGCCCG
    GACCACGGCA GGAGGCGCCG CGCAGACTCG ATGTCCTCGG AGAGCACCTG GGACGCATGG
    AACGAGAGGC TGCTGGAGAT TGAGAAGGAG GCTTCCCGGA GGTACCACGC CAAGAGCAAG
    AGAGAGGAGG CGGCAGACAG GAGCTCAGAA GCAGGGAGCA GGGTGCGGGA GGATGATGAG
    GACAGCGTGG GCTCTGAGGC CAGTTCCTTC TACAACTTCT GCAGCAGGAA CAAGGACAAG
    CTCACTGCCC TGGAAAGATG GAAGATCAAG AGAATCCAAT TTGGATTTCA CAAGAAAGAC
    TTGGGAGCGG GAGACAGCAG CGGTGAGCCC GGTGCAGAGG AGGCAGTAGG GGAGAAGAAC
    CCCTCCGACG TCAGCCTGAC AGCCTACCAG GCCTGGAAGC TGAAACACCA GAAGAAGGTG
    GGCAGTGAGA ACAAGGAGGA GGTGGTGGAG CTCAGCAAGG GGGAGGACTC GGCCTTGGCT
    AAGAAGAGAC AACGGAGGCT GGAGCTGCTG GAGAGAAGCC GGCAGACGCT GGAGGAGAGC
    CAGTCTATGG CAAGCTGGGA GGCGGACAGC TCCACGGCCA GCGGGAGCAT TCCCCTGTCT
    GCGTTCTGGT CTGCAGACCC CTCAGTCAGC GCTGATGGGG ACACGACGTC AGTACTGAGC
    ACCCAGAGCC ACCGCTCCCA CCTGTCTCAG GCTGCAAGCA ACATAGCGGG GTGTTCAACC
    TCCAACCCCA CCACACCCCT GCCTAACCTG CCAGTGGGGC CTGGAGACAC CATTTCCATT
    GCCAGTATCC AGAACTGGAT TGCCAATGTA GTCAGTGAGA CCCTTGCTCA GAAGCAAAAT
    GAAATGCTGC TGTTGTCCCG CTCACCGTCT GTTGCAAGCA TGAAGGCAGT ACCAGCGGCT
    AGCTGCCTGG GGGATGACCA AGTCTCCATG CTTAGTGGAC ACAGCAGCTC CTCCTTGGGT
    GGCTGCCTGT TGCCTCAGAG CCAGGCAAGA CCCAGCTCTG ACATGCAGTC TGTGCTGTCC
    TGCAACACCA CACTGAGCTC ACCCGCGGAA AGTTGCAGAA GCAAAGTGAG GGGGACCAGC
    AAGCCCATCT TCAGCCTCTT TGCTGACAAT GTGGACCTAA AGGAACTTGG CCGGAAGGAG
    AAGGAGATGC AGATGGAGCT TAGGGAGAAG ATGTCTGAGT ACAAAATGGA AAAGCTGGCC
    TCAGACAACA AACGCAGCTC CCTCTTCAAG AAGAAGAAGG TCAAGGAAGA TGAGGATGAT
    GGTGTGGGTG ATGGGGATGA GGACACTGAC AGTGCCATAG GGAGCTTCCG ATATTCTTCC
    CGCAGTAATT CCCAGAAACC TGAAACAGAC ACATGCTCCT CCCTGGCTGT CTGTGATCAC
    TATGCAAGTG GCAGCAGAGT TGGCAAAGAG ATGGATAGCA GTATTAATAA GTGGCTCAGT
    GGCCTCAGGA CGGAGGAAAA ACCTCCTTTC CAAAGTGACT GGTCTGGAAG TTCCAGAGGG
    AAGTACACCA GATCGTCCCT GCTCAGGGAG ACAGAGTCTA AATCCTCCAG TTACAAGTTT
    TCCAAATCCC AGTCAGAGGA ACAGGACACC TCCTCCTACC ACGAGGCAAA TGGCAACTCT
    GTAAGAAGCA CTTCACGGTT CTCATCTTCC TCCACCAGGG AGGGCAGAGA GATGCACAAG
    TTCTCCAGGT CCACGTACAA CGAGACCTCA AGTTCCCGAG AGGAGAGCCC AGAGCCCTAC
    TTCTTCCGCC GGACCCCAGA GTCCTCAGAA AGGGAAGAGT CCCCAGAACC ACAGCGCCCA
    AATTGGGCCA GGTCCAGGGA CTGGGAAGAT GTGGAAGAGT CATCCAAGTC AGACTTCTCT
    GAATTTGGAG CCAAGAGGAA GTTCACCCAG AGCTTTATGA GGTCTGAAGA AGAGGGAGAG
    AAAGAGAGGA CAGAAAACAG AGAAGAAGGG AGGTTTGCAT CTGGACGGCG GTCCCAGTAT
    CGGAGAAGCA CTGACAGGGA GGAAGAGGAA GAAATGGACG ATGAAGCCAT CATTGCTGCT
    TGGAGACGCC GGCAAGAAGA AACCAGGACC AAGCTGCAGA AAAGGAGGGA GGACTGA

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

    CloneID OHu74452
    Clone ID Related Accession (Same CDS sequence) XM_011510146.2
    Accession Version XM_011510146.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3360bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product inactive dual specificity phosphatase 27 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011510146.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGGTCTCAG ATGCAGAAAC AGAAAGCATT TTCATGGAAC CCATTCACCT CTCCTCAGCC 
    ATTGCAGCCA AACAGATCAT CAATGAAGAA CTCAAGCCAC CGGGGGTCAG AGCAGACGCA
    GAGTGTCCAG GCATGCTGGA GTCTGCTGAA CAGCTGCTGG TGGAGGACCT GTACAACCGC
    GTCAGGGAGA AGATGGATGA CACCAGCCTC TATAATACGC CCTGTGTCCT GGACCTACAG
    CGGGCCCTGG TTCAGGATCG CCAAGAGGCG CCCTGGAATG AGGTGGATGA GGTCTGGCCC
    AATGTCTTCA TAGCTGAGAA GAGTGTGGCT GTGAACAAGG GGAGGCTGAA GAGGCTGGGA
    ATCACCCACA TTCTGAATGC TGCGCATGGC ACCGGCGTTT ACACTGGCCC CGAATTCTAC
    ACTGGCCTGG AGATCCAGTA CCTGGGTGTA GAGGTGGATG ACTTTCCTGA GGTGGACATT
    TCCCAGCATT TCCGGAAGGC GTCTGAGTTC CTGGATGAGG CGCTGCTGAC TTACAGAGGG
    AAAGTCCTGG TCAGCAGCGA AATGGGCATC AGCCGGTCAG CAGTGCTGGT GGTCGCCTAC
    CTGATGATCT TCCACAACAT GGCCATCCTG GAGGCTTTGA TGACCGTGCG TAAGAAGCGG
    GCCATCTACC CCAATGAGGG CTTCCTGAAG CAGCTGCGGG AGCTCAATGA GAAGTTGATG
    GAGGAGAGAG AAGAGGACTA TGGCCGGGAG GGGGGATCAG CTGAGGCTGA GGAGGGCGAG
    GGCACTGGGA GCATGCTCGG GGCCAGAGTG CACGCCCTGA CGGTGGAAGA GGAGGACGAC
    AGCGCCAGCC ACCTGAGTGG CTCCTCCCTG GGGAAGGCCA CCCAGGCCTC CAAGCCCCTC
    ACCCTCATAG ACGAGGAGGA GGAGGAGAAA CTGTACGAGC AGTGGAAGAA GGGGCAGGGC
    CTCCTCTCAG ACAAGGTCCC CCAGGATGGA GGTGGCTGGC GCTCAGCCTC CTCTGGCCAG
    GGTGGGGAGG AGCTCGAGGA CGAGGACGTG GAGAGGATCA TCCAGGAGTG GCAGAGCCGA
    AACGAGAGGT ACCAAGCAGA AGGGTACCGG AGGTGGGGAA GGGAGGAGGA GAAGGAGGAG
    GAGAGCGACG CTGGCTCCTC GGTGGGGAGG CGGCGGCGCA CCCTGAGCGA GAGCAGCGCC
    TGGGAGAGCG TGAGCAGCCA CGACATCTGG GTCCTGAAGC AGCAGCTGGA GCTGAACCGC
    CCGGACCACG GCAGGAGGCG CCGCGCAGAC TCGATGTCCT CGGAGAGCAC CTGGGACGCA
    TGGAACGAGA GGCTGCTGGA GATTGAGAAG GAGGCTTCCC GGAGGTACCA CGCCAAGAGC
    AAGAGAGAGG AGGCGGCAGA CAGGAGCTCA GAAGCAGGGA GCAGGGTGCG GGAGGATGAT
    GAGGACAGCG TGGGCTCTGA GGCCAGTTCC TTCTACAACT TCTGCAGCAG GAACAAGGAC
    AAGCTCACTG CCCTGGAAAG ATGGAAGATC AAGAGAATCC AATTTGGATT TCACAAGAAA
    GACTTGGGAG CGGGAGACAG CAGCGGTGAG CCCGGTGCAG AGGAGGCAGT AGGGGAGAAG
    AACCCCTCCG ACGTCAGCCT GACAGCCTAC CAGGCCTGGA AGCTGAAACA CCAGAAGAAG
    GTGGGCAGTG AGAACAAGGA GGAGGTGGTG GAGCTCAGCA AGGGGGAGGA CTCGGCCTTG
    GCTAAGAAGA GACAACGGAG GCTGGAGCTG CTGGAGAGAA GCCGGCAGAC GCTGGAGGAG
    AGCCAGTCTA TGGCAAGCTG GGAGGCGGAC AGCTCCACGG CCAGCGGGAG CATTCCCCTG
    TCTGCGTTCT GGTCTGCAGA CCCCTCAGTC AGCGCTGATG GGGACACGAC GTCAGTACTG
    AGCACCCAGA GCCACCGCTC CCACCTGTCT CAGGCTGCAA GCAACATAGC GGGGTGTTCA
    ACCTCCAACC CCACCACACC CCTGCCTAAC CTGCCAGTGG GGCCTGGAGA CACCATTTCC
    ATTGCCAGTA TCCAGAACTG GATTGCCAAT GTAGTCAGTG AGACCCTTGC TCAGAAGCAA
    AATGAAATGC TGCTGTTGTC CCGCTCACCG TCTGTTGCAA GCATGAAGGC AGTACCAGCG
    GCTAGCTGCC TGGGGGATGA CCAAGTCTCC ATGCTTAGTG GACACAGCAG CTCCTCCTTG
    GGTGGCTGCC TGTTGCCTCA GAGCCAGGCA AGACCCAGCT CTGACATGCA GTCTGTGCTG
    TCCTGCAACA CCACACTGAG CTCACCCGCG GAAAGTTGCA GAAGCAAAGT GAGGGGGACC
    AGCAAGCCCA TCTTCAGCCT CTTTGCTGAC AATGTGGACC TAAAGGAACT TGGCCGGAAG
    GAGAAGGAGA TGCAGATGGA GCTTAGGGAG AAGATGTCTG AGTACAAAAT GGAAAAGCTG
    GCCTCAGACA ACAAACGCAG CTCCCTCTTC AAGAAGAAGA AGGTCAAGGA AGATGAGGAT
    GATGGTGTGG GTGATGGGGA TGAGGACACT GACAGTGCCA TAGGGAGCTT CCGATATTCT
    TCCCGCAGTA ATTCCCAGAA ACCTGAAACA GACACATGCT CCTCCCTGGC TGTCTGTGAT
    CACTATGCAA GTGGCAGCAG AGTTGGCAAA GAGATGGATA GCAGTATTAA TAAGTGGCTC
    AGTGGCCTCA GGACGGAGGA AAAACCTCCT TTCCAAAGTG ACTGGTCTGG AAGTTCCAGA
    GGGAAGTACA CCAGATCGTC CCTGCTCAGG GAGACAGAGT CTAAATCCTC CAGTTACAAG
    TTTTCCAAAT CCCAGTCAGA GGAACAGGAC ACCTCCTCCT ACCACGAGGC AAATGGCAAC
    TCTGTAAGAA GCACTTCACG GTTCTCATCT TCCTCCACCA GGGAGGGCAG AGAGATGCAC
    AAGTTCTCCA GGTCCACGTA CAACGAGACC TCAAGTTCCC GAGAGGAGAG CCCAGAGCCC
    TACTTCTTCC GCCGGACCCC AGAGTCCTCA GAAAGGGAAG AGTCCCCAGA ACCACAGCGC
    CCAAATTGGG CCAGGTCCAG GGACTGGGAA GATGTGGAAG AGTCATCCAA GTCAGACTTC
    TCTGAATTTG GAGCCAAGAG GAAGTTCACC CAGAGCTTTA TGAGGTCTGA AGAAGAGGGA
    GAGAAAGAGA GGACAGAAAA CAGAGAAGAA GGGAGGTTTG CATCTGGACG GCGGTCCCAG
    TATCGGAGAA GCACTGACAG GGAGGAAGAG GAAGAAATGG ACGATGAAGC CATCATTGCT
    GCTTGGAGAC GCCGGCAAGA AGAAACCAGG ACCAAGCTGC AGAAAAGGAG GGAGGACTGA

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

    RefSeq XP_011508448.1
    CDS155..3514
    Translation

    Target ORF information:

    RefSeq Version XM_011510146.2
    Organism Homo sapiens(human)
    Definition Homo sapiens dual specificity phosphatase 27, atypical (DUSP27), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011510146.2

    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
    ATGGTCTCAG ATGCAGAAAC AGAAAGCATT TTCATGGAAC CCATTCACCT CTCCTCAGCC 
    ATTGCAGCCA AACAGATCAT CAATGAAGAA CTCAAGCCAC CGGGGGTCAG AGCAGACGCA
    GAGTGTCCAG GCATGCTGGA GTCTGCTGAA CAGCTGCTGG TGGAGGACCT GTACAACCGC
    GTCAGGGAGA AGATGGATGA CACCAGCCTC TATAATACGC CCTGTGTCCT GGACCTACAG
    CGGGCCCTGG TTCAGGATCG CCAAGAGGCG CCCTGGAATG AGGTGGATGA GGTCTGGCCC
    AATGTCTTCA TAGCTGAGAA GAGTGTGGCT GTGAACAAGG GGAGGCTGAA GAGGCTGGGA
    ATCACCCACA TTCTGAATGC TGCGCATGGC ACCGGCGTTT ACACTGGCCC CGAATTCTAC
    ACTGGCCTGG AGATCCAGTA CCTGGGTGTA GAGGTGGATG ACTTTCCTGA GGTGGACATT
    TCCCAGCATT TCCGGAAGGC GTCTGAGTTC CTGGATGAGG CGCTGCTGAC TTACAGAGGG
    AAAGTCCTGG TCAGCAGCGA AATGGGCATC AGCCGGTCAG CAGTGCTGGT GGTCGCCTAC
    CTGATGATCT TCCACAACAT GGCCATCCTG GAGGCTTTGA TGACCGTGCG TAAGAAGCGG
    GCCATCTACC CCAATGAGGG CTTCCTGAAG CAGCTGCGGG AGCTCAATGA GAAGTTGATG
    GAGGAGAGAG AAGAGGACTA TGGCCGGGAG GGGGGATCAG CTGAGGCTGA GGAGGGCGAG
    GGCACTGGGA GCATGCTCGG GGCCAGAGTG CACGCCCTGA CGGTGGAAGA GGAGGACGAC
    AGCGCCAGCC ACCTGAGTGG CTCCTCCCTG GGGAAGGCCA CCCAGGCCTC CAAGCCCCTC
    ACCCTCATAG ACGAGGAGGA GGAGGAGAAA CTGTACGAGC AGTGGAAGAA GGGGCAGGGC
    CTCCTCTCAG ACAAGGTCCC CCAGGATGGA GGTGGCTGGC GCTCAGCCTC CTCTGGCCAG
    GGTGGGGAGG AGCTCGAGGA CGAGGACGTG GAGAGGATCA TCCAGGAGTG GCAGAGCCGA
    AACGAGAGGT ACCAAGCAGA AGGGTACCGG AGGTGGGGAA GGGAGGAGGA GAAGGAGGAG
    GAGAGCGACG CTGGCTCCTC GGTGGGGAGG CGGCGGCGCA CCCTGAGCGA GAGCAGCGCC
    TGGGAGAGCG TGAGCAGCCA CGACATCTGG GTCCTGAAGC AGCAGCTGGA GCTGAACCGC
    CCGGACCACG GCAGGAGGCG CCGCGCAGAC TCGATGTCCT CGGAGAGCAC CTGGGACGCA
    TGGAACGAGA GGCTGCTGGA GATTGAGAAG GAGGCTTCCC GGAGGTACCA CGCCAAGAGC
    AAGAGAGAGG AGGCGGCAGA CAGGAGCTCA GAAGCAGGGA GCAGGGTGCG GGAGGATGAT
    GAGGACAGCG TGGGCTCTGA GGCCAGTTCC TTCTACAACT TCTGCAGCAG GAACAAGGAC
    AAGCTCACTG CCCTGGAAAG ATGGAAGATC AAGAGAATCC AATTTGGATT TCACAAGAAA
    GACTTGGGAG CGGGAGACAG CAGCGGTGAG CCCGGTGCAG AGGAGGCAGT AGGGGAGAAG
    AACCCCTCCG ACGTCAGCCT GACAGCCTAC CAGGCCTGGA AGCTGAAACA CCAGAAGAAG
    GTGGGCAGTG AGAACAAGGA GGAGGTGGTG GAGCTCAGCA AGGGGGAGGA CTCGGCCTTG
    GCTAAGAAGA GACAACGGAG GCTGGAGCTG CTGGAGAGAA GCCGGCAGAC GCTGGAGGAG
    AGCCAGTCTA TGGCAAGCTG GGAGGCGGAC AGCTCCACGG CCAGCGGGAG CATTCCCCTG
    TCTGCGTTCT GGTCTGCAGA CCCCTCAGTC AGCGCTGATG GGGACACGAC GTCAGTACTG
    AGCACCCAGA GCCACCGCTC CCACCTGTCT CAGGCTGCAA GCAACATAGC GGGGTGTTCA
    ACCTCCAACC CCACCACACC CCTGCCTAAC CTGCCAGTGG GGCCTGGAGA CACCATTTCC
    ATTGCCAGTA TCCAGAACTG GATTGCCAAT GTAGTCAGTG AGACCCTTGC TCAGAAGCAA
    AATGAAATGC TGCTGTTGTC CCGCTCACCG TCTGTTGCAA GCATGAAGGC AGTACCAGCG
    GCTAGCTGCC TGGGGGATGA CCAAGTCTCC ATGCTTAGTG GACACAGCAG CTCCTCCTTG
    GGTGGCTGCC TGTTGCCTCA GAGCCAGGCA AGACCCAGCT CTGACATGCA GTCTGTGCTG
    TCCTGCAACA CCACACTGAG CTCACCCGCG GAAAGTTGCA GAAGCAAAGT GAGGGGGACC
    AGCAAGCCCA TCTTCAGCCT CTTTGCTGAC AATGTGGACC TAAAGGAACT TGGCCGGAAG
    GAGAAGGAGA TGCAGATGGA GCTTAGGGAG AAGATGTCTG AGTACAAAAT GGAAAAGCTG
    GCCTCAGACA ACAAACGCAG CTCCCTCTTC AAGAAGAAGA AGGTCAAGGA AGATGAGGAT
    GATGGTGTGG GTGATGGGGA TGAGGACACT GACAGTGCCA TAGGGAGCTT CCGATATTCT
    TCCCGCAGTA ATTCCCAGAA ACCTGAAACA GACACATGCT CCTCCCTGGC TGTCTGTGAT
    CACTATGCAA GTGGCAGCAG AGTTGGCAAA GAGATGGATA GCAGTATTAA TAAGTGGCTC
    AGTGGCCTCA GGACGGAGGA AAAACCTCCT TTCCAAAGTG ACTGGTCTGG AAGTTCCAGA
    GGGAAGTACA CCAGATCGTC CCTGCTCAGG GAGACAGAGT CTAAATCCTC CAGTTACAAG
    TTTTCCAAAT CCCAGTCAGA GGAACAGGAC ACCTCCTCCT ACCACGAGGC AAATGGCAAC
    TCTGTAAGAA GCACTTCACG GTTCTCATCT TCCTCCACCA GGGAGGGCAG AGAGATGCAC
    AAGTTCTCCA GGTCCACGTA CAACGAGACC TCAAGTTCCC GAGAGGAGAG CCCAGAGCCC
    TACTTCTTCC GCCGGACCCC AGAGTCCTCA GAAAGGGAAG AGTCCCCAGA ACCACAGCGC
    CCAAATTGGG CCAGGTCCAG GGACTGGGAA GATGTGGAAG AGTCATCCAA GTCAGACTTC
    TCTGAATTTG GAGCCAAGAG GAAGTTCACC CAGAGCTTTA TGAGGTCTGA AGAAGAGGGA
    GAGAAAGAGA GGACAGAAAA CAGAGAAGAA GGGAGGTTTG CATCTGGACG GCGGTCCCAG
    TATCGGAGAA GCACTGACAG GGAGGAAGAG GAAGAAATGG ACGATGAAGC CATCATTGCT
    GCTTGGAGAC GCCGGCAAGA AGAAACCAGG ACCAAGCTGC AGAAAAGGAG GGAGGACTGA

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