FKBP15 cDNA ORF clone, Homo sapiens(human)

The following FKBP15 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the FKBP15 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
OHu24553 NM_015258.2
Latest version!
Homo sapiens FKBP prolyl isomerase 15 (FKBP15), mRNA. pcDNA3.1-C-(k)DYK or customized vector 16 $860.30
$1229.00
OHu43124 XM_006717019.1
Latest version!
Homo sapiens FKBP prolyl isomerase 15 (FKBP15), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 16 $559.30
$799.00
OHu98569 XM_017014552.1
Latest version!
Homo sapiens FKBP prolyl isomerase 15 (FKBP15), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OHu43123 XM_006717018.2
Latest version!
Homo sapiens FKBP prolyl isomerase 15 (FKBP15), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
View Old Accession Versions >>
OHu24553 NM_015258.1 Homo sapiens FK506 binding protein 15 (FKBP15), mRNA. pcDNA3.1-C-(k)DYK or customized vector 16 $860.30
$1229.00
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 OHu24553
    Clone ID Related Accession (Same CDS sequence) NM_015258.1 , NM_015258.2
    Accession Version NM_015258.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3660bp)
    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 2017-12-26
    Organism Homo sapiens(human)
    Product FK506-binding protein 15
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from DC321217.1, AB014574.1, DA238568.1, BC077732.1 and BQ646813.1. On or before Jun 30, 2007 this sequence version replaced XM_376903.3, XM_936355.2. ##Evidence-Data-START## Transcript exon combination :: AB014574.1, SRR1803616.97219.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGTTCGGTG CGGGGGACGA GGACGACACC GATTTCCTCT CGCCGAGCGG CGGTGCCAGA 
    TTGGCCTCAC TTTTTGGACT GGATCAGGCA GCTGCTGGCC ATGGAAATGA ATTTTTCCAG
    TACACAGCCC CAAAACAGCC TAAGAAAGGC CAGGGAACGG CAGCAACAGG AAATCAGGCA
    ACACCAAAAA CAGCACCAGC CACCATGAGC ACTCCCACAA TACTGGTCGC AACAGCAGTC
    CATGCATATC GATACACAAA TGGTCAATAT GTAAAGCAGG GCAAATTTGG TGCTGCAGTT
    CTGGGGAACC ACACAGCCAG AGAGTATAGG ATTCTTCTTT ATATCAGTCA ACAACAGCCA
    GTTACGGTTG CTAGGATTCA TGTGAACTTT GAGCTAATGG TTCGGCCCAA TAACTATAGC
    ACCTTTTATG ATGACCAGAG ACAGAACTGG TCCATCATGT TTGAGTCGGA AAAGGCTGCT
    GTGGAGTTCA ATAAGCAGGT GTGCATTGCT AAGTGCAACA GTACCTCTTC CCTGGATGCA
    GTGCTCTCCC AGGACCTCAT TGTGGCAGAC GGCCCTGCTG TAGAAGTTGG AGATTCTTTG
    GAAGTGGCCT ATACCGGCTG GCTCTTTCAG AATCATGTGC TGGGCCAGGT TTTCGACTCC
    ACTGCTAACA AAGATAAGTT GCTTCGCTTG AAGTTAGGAT CAGGAAAAGT CATCAAGGGC
    TGGGAGGATG GAATGCTGGG CATGAAAAAA GGAGGAAAGC GATTGCTTAT TGTCCCTCCA
    GCCTGTGCTG TTGGCTCAGA AGGGGTAATA GGCTGGACTC AAGCAACGGA CTCGATCCTG
    GTGTTCGAGG TGGAGGTTAG GCGGGTGAAG TTTGCCAGAG ATTCTGGCTC TGATGGTCAC
    AGTGTTAGTT CCCGCGATTC TGCAGCTCCG TCTCCCATCC CTGGTGCTGA CAACCTCTCT
    GCTGATCCTG TTGTGTCACC ACCCACATCA ATACCTTTCA AATCAGGGGA GCCAGCTCTT
    CGTACCAAAT CTAACTCCCT CAGTGAACAA CTTGCAATAA ATACAAGTCC CGATGCAGTC
    AAAGCCAAGT TGATCTCTCG GATGGCTAAA ATGGGCCAGC CCATGCTGCC CATCCTTCCA
    CCACAGCTGG ATTCCAATGA TTCAGAAATC GAAGATGTGA ACACTCTGCA AGGAGGTGGG
    CAGCCTGTGG TGACTCCGTC CGTCCAGCCC TCTCTTCATC CGGCCCATCC AGCGTTACCA
    CAGATGACCT CACAGGCACC TCAGCCATCT GTTACTGGGC TCCAGGCACC TTCTGCTGCC
    TTAATGCAAG TGTCATCTCT CGATTCCCAC TCAGCTGTAT CTGGAAATGC CCAATCCTTT
    CAGCCCTATG CAGGTATGCA AGCCTACGCT TATCCCCAGG CATCTGCCGT CACCTCCCAG
    CTGCAGCCCG TTCGGCCTTT GTACCCAGCA CCGCTCTCTC AGCCTCCCCA TTTCCAAGGA
    TCAGGTGATA TGGCTTCATT TCTCATGACT GAAGCCCGGC AACATAACAC TGAAATTCGA
    ATGGCAGTCA GCAAAGTGGC TGATAAAATG GATCATCTCA TGACTAAGGT TGAAGAGTTA
    CAGAAACATA GTGCTGGCAA TTCCATGCTT ATTCCTAGCA TGTCAGTTAC AATGGAAACA
    AGCATGATTA TGAGCAACAT CCAGCGAATC ATTCAGGAAA ATGAAAGATT GAAGCAAGAG
    ATCCTTGAAA AGAGCAATCG GATAGAAGAA CAGAATGACA AGATTAGTGA ACTAATTGAA
    CGAAATCAGA GGTATGTTGA GCAGAGTAAC CTGATGATGG AGAAGAGGAA CAACTCACTT
    CAGACAGCCA CAGAAAACAC ACAGGCAAGA GTATTGCATG CTGAACAAGA GAAGGCCAAG
    GTGACAGAGG AGTTAGCAGC GGCCACTGCA CAGGTCTCTC ATCTGCAGCT GAAAATGACT
    GCTCACCAAA AAAAGGAAAC AGAGCTGCAG ATGCAGCTGA CAGAAAGCCT GAAGGAGACA
    GATCTTCTCA GGGGCCAGCT CACCAAAGTG CAGGCAAAGC TCTCAGAGCT CCAAGAAACC
    TCTGAGCAAG CACAGTCCAA ATTCAAAAGT GAAAAGCAGA ACCGGAAACA ACTGGAACTC
    AAGGTGACAT CCCTGGAGGA GGAACTGACT GACCTTCGAG TTGAGAAGGA GTCCTTGGAA
    AAGAACCTCT CAGAAAGGAA AAAGAAGTCA GCTCAAGAGC GTTCTCAGGC CGAGGAGGAG
    ATAGATGAAA TTCGCAAGTC ATACCAGGAG GAATTGGACA AACTTCGACA GCTCTTGAAA
    AAGACTCGAG TGTCCACAGA CCAAGCAGCT GCAGAGCAGC TGTCTTTAGT ACAGGCTGAG
    CTACAGACCC AGTGGGAAGC AAAATGTGAA CATTTGTTGG CCTCCGCCAA GGATGAGCAC
    CTGCAGCAGT ACCAGGAGGT GTGCGCACAG AGAGATGCCT ACCAGCAGAA GCTGGTACAA
    CTTCAGGAAA AGTGTTTAGC CCTCCAGGCC CAAATCACAG CTCTCACCAA GCAAAATGAA
    CAGCACATCA AGGAACTAGA GAAGAACAAG TCCCAGATGT CTGGGGTTGA AGCTGCTGCA
    TCTGACCCCT CAGAGAAGGT CAAGAAGATC ATGAACCAGG TGTTCCAGTC CTTACGGAGA
    GAGTTTGAGC TGGAGGAATC TTACAATGGC AGGACCATTC TGGGAACCAT CATGAATACG
    ATCAAGATGG TGACTCTTCA GCTGTTAAAC CAACAGGAGC AAGAGAAGGA AGAGAGCAGC
    AGTGAAGAAG AAGAAGAAAA AGCAGAAGAG CGGCCACGAA GACCTTCCCA GGAGCAGTCA
    GCCTCAGCCA GTTCTGGGCA GCCTCAAGCA CCCCTGAATA GGGAGAGGCC AGAGTCCCCC
    ATGGTGCCCT CAGAGCAGGT GGTCGAGGAA GCTGTCCCGT TGCCTCCTCA GGCCCTCACC
    ACTTCCCAGG ATGGACACAG AAGGAAAGGG GACTCAGAAG CTGAGGCACT CTCAGAGATA
    AAAGATGGTT CCCTTCCACC CGAACTGTCT TGCATCCCAT CCCACAGAGT TCTAGGGCCC
    CCGACTTCAA TTCCACCTGA GCCCCTAGGC CCTGTATCCA TGGACTCTGA GTGTGAGGAG
    TCACTTGCTG CCAGCCCAAT GGCAGCTAAG CCCGACAACC CATCAGGAAA GGTCTGTGTC
    AGGGAAGTAG CACCAGATGG CCCACTACAA GAAAGCTCCA CAAGACTGTC CCTGACTTCA
    GACCCCGAGG AGGGGGACCC ACTGGCCTTA GGGCCTGAAA GCCCAGGAGA GCCTCAGCCT
    CCACAGCTCA AGAAAGATGA TGTCACTAGC TCCACCGGTC CCCACAAGGA GCTGTCAAGC
    ACAGAGGCAG GTTCCACAGT TGCAGGAGCA GCCCTCAGAC CCAGCCATCA TTCCCAGCGT
    TCCAGTCTCT CTGGGGATGA AGAGGATGAA CTGTTTAAAG GGGCAACTCT GAAAGCTCTG
    AGGCCCAAAG CACAGCCTGA GGAGGAGGAT GAAGACGAGG TGAGCATGAA GGGACGCCCG
    CCCCCAACGC CCCTTTTTGG AGATGATGAT GATGACGATG ACATTGACTG GCTGGGATGA

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

    RefSeq NP_056073.1
    CDS119..3778
    Translation

    Target ORF information:

    RefSeq Version NM_015258.1
    Organism Homo sapiens(human)
    Definition Homo sapiens FK506 binding protein 15 (FKBP15), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_015258.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGTTCGGTG CGGGGGACGA GGACGACACC GATTTCCTCT CGCCGAGCGG CGGTGCCAGA 
    TTGGCCTCAC TTTTTGGACT GGATCAGGCA GCTGCTGGCC ATGGAAATGA ATTTTTCCAG
    TACACAGCCC CAAAACAGCC TAAGAAAGGC CAGGGAACGG CAGCAACAGG AAATCAGGCA
    ACACCAAAAA CAGCACCAGC CACCATGAGC ACTCCCACAA TACTGGTCGC AACAGCAGTC
    CATGCATATC GATACACAAA TGGTCAATAT GTAAAGCAGG GCAAATTTGG TGCTGCAGTT
    CTGGGGAACC ACACAGCCAG AGAGTATAGG ATTCTTCTTT ATATCAGTCA ACAACAGCCA
    GTTACGGTTG CTAGGATTCA TGTGAACTTT GAGCTAATGG TTCGGCCCAA TAACTATAGC
    ACCTTTTATG ATGACCAGAG ACAGAACTGG TCCATCATGT TTGAGTCGGA AAAGGCTGCT
    GTGGAGTTCA ATAAGCAGGT GTGCATTGCT AAGTGCAACA GTACCTCTTC CCTGGATGCA
    GTGCTCTCCC AGGACCTCAT TGTGGCAGAC GGCCCTGCTG TAGAAGTTGG AGATTCTTTG
    GAAGTGGCCT ATACCGGCTG GCTCTTTCAG AATCATGTGC TGGGCCAGGT TTTCGACTCC
    ACTGCTAACA AAGATAAGTT GCTTCGCTTG AAGTTAGGAT CAGGAAAAGT CATCAAGGGC
    TGGGAGGATG GAATGCTGGG CATGAAAAAA GGAGGAAAGC GATTGCTTAT TGTCCCTCCA
    GCCTGTGCTG TTGGCTCAGA AGGGGTAATA GGCTGGACTC AAGCAACGGA CTCGATCCTG
    GTGTTCGAGG TGGAGGTTAG GCGGGTGAAG TTTGCCAGAG ATTCTGGCTC TGATGGTCAC
    AGTGTTAGTT CCCGCGATTC TGCAGCTCCG TCTCCCATCC CTGGTGCTGA CAACCTCTCT
    GCTGATCCTG TTGTGTCACC ACCCACATCA ATACCTTTCA AATCAGGGGA GCCAGCTCTT
    CGTACCAAAT CTAACTCCCT CAGTGAACAA CTTGCAATAA ATACAAGTCC CGATGCAGTC
    AAAGCCAAGT TGATCTCTCG GATGGCTAAA ATGGGCCAGC CCATGCTGCC CATCCTTCCA
    CCACAGCTGG ATTCCAATGA TTCAGAAATC GAAGATGTGA ACACTCTGCA AGGAGGTGGG
    CAGCCTGTGG TGACTCCGTC CGTCCAGCCC TCTCTTCATC CGGCCCATCC AGCGTTACCA
    CAGATGACCT CACAGGCACC TCAGCCATCT GTTACTGGGC TCCAGGCACC TTCTGCTGCC
    TTAATGCAAG TGTCATCTCT CGATTCCCAC TCAGCTGTAT CTGGAAATGC CCAATCCTTT
    CAGCCCTATG CAGGTATGCA AGCCTACGCT TATCCCCAGG CATCTGCCGT CACCTCCCAG
    CTGCAGCCCG TTCGGCCTTT GTACCCAGCA CCGCTCTCTC AGCCTCCCCA TTTCCAAGGA
    TCAGGTGATA TGGCTTCATT TCTCATGACT GAAGCCCGGC AACATAACAC TGAAATTCGA
    ATGGCAGTCA GCAAAGTGGC TGATAAAATG GATCATCTCA TGACTAAGGT TGAAGAGTTA
    CAGAAACATA GTGCTGGCAA TTCCATGCTT ATTCCTAGCA TGTCAGTTAC AATGGAAACA
    AGCATGATTA TGAGCAACAT CCAGCGAATC ATTCAGGAAA ATGAAAGATT GAAGCAAGAG
    ATCCTTGAAA AGAGCAATCG GATAGAAGAA CAGAATGACA AGATTAGTGA ACTAATTGAA
    CGAAATCAGA GGTATGTTGA GCAGAGTAAC CTGATGATGG AGAAGAGGAA CAACTCACTT
    CAGACAGCCA CAGAAAACAC ACAGGCAAGA GTATTGCATG CTGAACAAGA GAAGGCCAAG
    GTGACAGAGG AGTTAGCAGC GGCCACTGCA CAGGTCTCTC ATCTGCAGCT GAAAATGACT
    GCTCACCAAA AAAAGGAAAC AGAGCTGCAG ATGCAGCTGA CAGAAAGCCT GAAGGAGACA
    GATCTTCTCA GGGGCCAGCT CACCAAAGTG CAGGCAAAGC TCTCAGAGCT CCAAGAAACC
    TCTGAGCAAG CACAGTCCAA ATTCAAAAGT GAAAAGCAGA ACCGGAAACA ACTGGAACTC
    AAGGTGACAT CCCTGGAGGA GGAACTGACT GACCTTCGAG TTGAGAAGGA GTCCTTGGAA
    AAGAACCTCT CAGAAAGGAA AAAGAAGTCA GCTCAAGAGC GTTCTCAGGC CGAGGAGGAG
    ATAGATGAAA TTCGCAAGTC ATACCAGGAG GAATTGGACA AACTTCGACA GCTCTTGAAA
    AAGACTCGAG TGTCCACAGA CCAAGCAGCT GCAGAGCAGC TGTCTTTAGT ACAGGCTGAG
    CTACAGACCC AGTGGGAAGC AAAATGTGAA CATTTGTTGG CCTCCGCCAA GGATGAGCAC
    CTGCAGCAGT ACCAGGAGGT GTGCGCACAG AGAGATGCCT ACCAGCAGAA GCTGGTACAA
    CTTCAGGAAA AGTGTTTAGC CCTCCAGGCC CAAATCACAG CTCTCACCAA GCAAAATGAA
    CAGCACATCA AGGAACTAGA GAAGAACAAG TCCCAGATGT CTGGGGTTGA AGCTGCTGCA
    TCTGACCCCT CAGAGAAGGT CAAGAAGATC ATGAACCAGG TGTTCCAGTC CTTACGGAGA
    GAGTTTGAGC TGGAGGAATC TTACAATGGC AGGACCATTC TGGGAACCAT CATGAATACG
    ATCAAGATGG TGACTCTTCA GCTGTTAAAC CAACAGGAGC AAGAGAAGGA AGAGAGCAGC
    AGTGAAGAAG AAGAAGAAAA AGCAGAAGAG CGGCCACGAA GACCTTCCCA GGAGCAGTCA
    GCCTCAGCCA GTTCTGGGCA GCCTCAAGCA CCCCTGAATA GGGAGAGGCC AGAGTCCCCC
    ATGGTGCCCT CAGAGCAGGT GGTCGAGGAA GCTGTCCCGT TGCCTCCTCA GGCCCTCACC
    ACTTCCCAGG ATGGACACAG AAGGAAAGGG GACTCAGAAG CTGAGGCACT CTCAGAGATA
    AAAGATGGTT CCCTTCCACC CGAACTGTCT TGCATCCCAT CCCACAGAGT TCTAGGGCCC
    CCGACTTCAA TTCCACCTGA GCCCCTAGGC CCTGTATCCA TGGACTCTGA GTGTGAGGAG
    TCACTTGCTG CCAGCCCAAT GGCAGCTAAG CCCGACAACC CATCAGGAAA GGTCTGTGTC
    AGGGAAGTAG CACCAGATGG CCCACTACAA GAAAGCTCCA CAAGACTGTC CCTGACTTCA
    GACCCCGAGG AGGGGGACCC ACTGGCCTTA GGGCCTGAAA GCCCAGGAGA GCCTCAGCCT
    CCACAGCTCA AGAAAGATGA TGTCACTAGC TCCACCGGTC CCCACAAGGA GCTGTCAAGC
    ACAGAGGCAG GTTCCACAGT TGCAGGAGCA GCCCTCAGAC CCAGCCATCA TTCCCAGCGT
    TCCAGTCTCT CTGGGGATGA AGAGGATGAA CTGTTTAAAG GGGCAACTCT GAAAGCTCTG
    AGGCCCAAAG CACAGCCTGA GGAGGAGGAT GAAGACGAGG TGAGCATGAA GGGACGCCCG
    CCCCCAACGC CCCTTTTTGG AGATGATGAT GATGACGATG ACATTGACTG GCTGGGATGA

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

    CloneID OHu24553
    Clone ID Related Accession (Same CDS sequence) NM_015258.1 , NM_015258.2
    Accession Version NM_015258.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3660bp)
    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 2020-01-01
    Organism Homo sapiens(human)
    Product FK506-binding protein 15
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AB014574.1, DA238568.1, BC077732.1, BQ646813.1 and AL449105.22. On Nov 23, 2018 this sequence version replaced NM_015258.1. ##Evidence-Data-START## Transcript exon combination :: AB014574.1, SRR1803616.195960.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000238256.8/ ENSP00000238256.3 RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END## COMPLETENESS: full length.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGTTCGGTG CGGGGGACGA GGACGACACC GATTTCCTCT CGCCGAGCGG CGGTGCCAGA 
    TTGGCCTCAC TTTTTGGACT GGATCAGGCA GCTGCTGGCC ATGGAAATGA ATTTTTCCAG
    TACACAGCCC CAAAACAGCC TAAGAAAGGC CAGGGAACGG CAGCAACAGG AAATCAGGCA
    ACACCAAAAA CAGCACCAGC CACCATGAGC ACTCCCACAA TACTGGTCGC AACAGCAGTC
    CATGCATATC GATACACAAA TGGTCAATAT GTAAAGCAGG GCAAATTTGG TGCTGCAGTT
    CTGGGGAACC ACACAGCCAG AGAGTATAGG ATTCTTCTTT ATATCAGTCA ACAACAGCCA
    GTTACGGTTG CTAGGATTCA TGTGAACTTT GAGCTAATGG TTCGGCCCAA TAACTATAGC
    ACCTTTTATG ATGACCAGAG ACAGAACTGG TCCATCATGT TTGAGTCGGA AAAGGCTGCT
    GTGGAGTTCA ATAAGCAGGT GTGCATTGCT AAGTGCAACA GTACCTCTTC CCTGGATGCA
    GTGCTCTCCC AGGACCTCAT TGTGGCAGAC GGCCCTGCTG TAGAAGTTGG AGATTCTTTG
    GAAGTGGCCT ATACCGGCTG GCTCTTTCAG AATCATGTGC TGGGCCAGGT TTTCGACTCC
    ACTGCTAACA AAGATAAGTT GCTTCGCTTG AAGTTAGGAT CAGGAAAAGT CATCAAGGGC
    TGGGAGGATG GAATGCTGGG CATGAAAAAA GGAGGAAAGC GATTGCTTAT TGTCCCTCCA
    GCCTGTGCTG TTGGCTCAGA AGGGGTAATA GGCTGGACTC AAGCAACGGA CTCGATCCTG
    GTGTTCGAGG TGGAGGTTAG GCGGGTGAAG TTTGCCAGAG ATTCTGGCTC TGATGGTCAC
    AGTGTTAGTT CCCGCGATTC TGCAGCTCCG TCTCCCATCC CTGGTGCTGA CAACCTCTCT
    GCTGATCCTG TTGTGTCACC ACCCACATCA ATACCTTTCA AATCAGGGGA GCCAGCTCTT
    CGTACCAAAT CTAACTCCCT CAGTGAACAA CTTGCAATAA ATACAAGTCC CGATGCAGTC
    AAAGCCAAGT TGATCTCTCG GATGGCTAAA ATGGGCCAGC CCATGCTGCC CATCCTTCCA
    CCACAGCTGG ATTCCAATGA TTCAGAAATC GAAGATGTGA ACACTCTGCA AGGAGGTGGG
    CAGCCTGTGG TGACTCCGTC CGTCCAGCCC TCTCTTCATC CGGCCCATCC AGCGTTACCA
    CAGATGACCT CACAGGCACC TCAGCCATCT GTTACTGGGC TCCAGGCACC TTCTGCTGCC
    TTAATGCAAG TGTCATCTCT CGATTCCCAC TCAGCTGTAT CTGGAAATGC CCAATCCTTT
    CAGCCCTATG CAGGTATGCA AGCCTACGCT TATCCCCAGG CATCTGCCGT CACCTCCCAG
    CTGCAGCCCG TTCGGCCTTT GTACCCAGCA CCGCTCTCTC AGCCTCCCCA TTTCCAAGGA
    TCAGGTGATA TGGCTTCATT TCTCATGACT GAAGCCCGGC AACATAACAC TGAAATTCGA
    ATGGCAGTCA GCAAAGTGGC TGATAAAATG GATCATCTCA TGACTAAGGT TGAAGAGTTA
    CAGAAACATA GTGCTGGCAA TTCCATGCTT ATTCCTAGCA TGTCAGTTAC AATGGAAACA
    AGCATGATTA TGAGCAACAT CCAGCGAATC ATTCAGGAAA ATGAAAGATT GAAGCAAGAG
    ATCCTTGAAA AGAGCAATCG GATAGAAGAA CAGAATGACA AGATTAGTGA ACTAATTGAA
    CGAAATCAGA GGTATGTTGA GCAGAGTAAC CTGATGATGG AGAAGAGGAA CAACTCACTT
    CAGACAGCCA CAGAAAACAC ACAGGCAAGA GTATTGCATG CTGAACAAGA GAAGGCCAAG
    GTGACAGAGG AGTTAGCAGC GGCCACTGCA CAGGTCTCTC ATCTGCAGCT GAAAATGACT
    GCTCACCAAA AAAAGGAAAC AGAGCTGCAG ATGCAGCTGA CAGAAAGCCT GAAGGAGACA
    GATCTTCTCA GGGGCCAGCT CACCAAAGTG CAGGCAAAGC TCTCAGAGCT CCAAGAAACC
    TCTGAGCAAG CACAGTCCAA ATTCAAAAGT GAAAAGCAGA ACCGGAAACA ACTGGAACTC
    AAGGTGACAT CCCTGGAGGA GGAACTGACT GACCTTCGAG TTGAGAAGGA GTCCTTGGAA
    AAGAACCTCT CAGAAAGGAA AAAGAAGTCA GCTCAAGAGC GTTCTCAGGC CGAGGAGGAG
    ATAGATGAAA TTCGCAAGTC ATACCAGGAG GAATTGGACA AACTTCGACA GCTCTTGAAA
    AAGACTCGAG TGTCCACAGA CCAAGCAGCT GCAGAGCAGC TGTCTTTAGT ACAGGCTGAG
    CTACAGACCC AGTGGGAAGC AAAATGTGAA CATTTGTTGG CCTCCGCCAA GGATGAGCAC
    CTGCAGCAGT ACCAGGAGGT GTGCGCACAG AGAGATGCCT ACCAGCAGAA GCTGGTACAA
    CTTCAGGAAA AGTGTTTAGC CCTCCAGGCC CAAATCACAG CTCTCACCAA GCAAAATGAA
    CAGCACATCA AGGAACTAGA GAAGAACAAG TCCCAGATGT CTGGGGTTGA AGCTGCTGCA
    TCTGACCCCT CAGAGAAGGT CAAGAAGATC ATGAACCAGG TGTTCCAGTC CTTACGGAGA
    GAGTTTGAGC TGGAGGAATC TTACAATGGC AGGACCATTC TGGGAACCAT CATGAATACG
    ATCAAGATGG TGACTCTTCA GCTGTTAAAC CAACAGGAGC AAGAGAAGGA AGAGAGCAGC
    AGTGAAGAAG AAGAAGAAAA AGCAGAAGAG CGGCCACGAA GACCTTCCCA GGAGCAGTCA
    GCCTCAGCCA GTTCTGGGCA GCCTCAAGCA CCCCTGAATA GGGAGAGGCC AGAGTCCCCC
    ATGGTGCCCT CAGAGCAGGT GGTCGAGGAA GCTGTCCCGT TGCCTCCTCA GGCCCTCACC
    ACTTCCCAGG ATGGACACAG AAGGAAAGGG GACTCAGAAG CTGAGGCACT CTCAGAGATA
    AAAGATGGTT CCCTTCCACC CGAACTGTCT TGCATCCCAT CCCACAGAGT TCTAGGGCCC
    CCGACTTCAA TTCCACCTGA GCCCCTAGGC CCTGTATCCA TGGACTCTGA GTGTGAGGAG
    TCACTTGCTG CCAGCCCAAT GGCAGCTAAG CCCGACAACC CATCAGGAAA GGTCTGTGTC
    AGGGAAGTAG CACCAGATGG CCCACTACAA GAAAGCTCCA CAAGACTGTC CCTGACTTCA
    GACCCCGAGG AGGGGGACCC ACTGGCCTTA GGGCCTGAAA GCCCAGGAGA GCCTCAGCCT
    CCACAGCTCA AGAAAGATGA TGTCACTAGC TCCACCGGTC CCCACAAGGA GCTGTCAAGC
    ACAGAGGCAG GTTCCACAGT TGCAGGAGCA GCCCTCAGAC CCAGCCATCA TTCCCAGCGT
    TCCAGTCTCT CTGGGGATGA AGAGGATGAA CTGTTTAAAG GGGCAACTCT GAAAGCTCTG
    AGGCCCAAAG CACAGCCTGA GGAGGAGGAT GAAGACGAGG TGAGCATGAA GGGACGCCCG
    CCCCCAACGC CCCTTTTTGG AGATGATGAT GATGACGATG ACATTGACTG GCTGGGATGA

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

    RefSeq NP_056073.1
    CDS35..3694
    Translation

    Target ORF information:

    RefSeq Version NM_015258.2
    Organism Homo sapiens(human)
    Definition Homo sapiens FKBP prolyl isomerase 15 (FKBP15), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_015258.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGTTCGGTG CGGGGGACGA GGACGACACC GATTTCCTCT CGCCGAGCGG CGGTGCCAGA 
    TTGGCCTCAC TTTTTGGACT GGATCAGGCA GCTGCTGGCC ATGGAAATGA ATTTTTCCAG
    TACACAGCCC CAAAACAGCC TAAGAAAGGC CAGGGAACGG CAGCAACAGG AAATCAGGCA
    ACACCAAAAA CAGCACCAGC CACCATGAGC ACTCCCACAA TACTGGTCGC AACAGCAGTC
    CATGCATATC GATACACAAA TGGTCAATAT GTAAAGCAGG GCAAATTTGG TGCTGCAGTT
    CTGGGGAACC ACACAGCCAG AGAGTATAGG ATTCTTCTTT ATATCAGTCA ACAACAGCCA
    GTTACGGTTG CTAGGATTCA TGTGAACTTT GAGCTAATGG TTCGGCCCAA TAACTATAGC
    ACCTTTTATG ATGACCAGAG ACAGAACTGG TCCATCATGT TTGAGTCGGA AAAGGCTGCT
    GTGGAGTTCA ATAAGCAGGT GTGCATTGCT AAGTGCAACA GTACCTCTTC CCTGGATGCA
    GTGCTCTCCC AGGACCTCAT TGTGGCAGAC GGCCCTGCTG TAGAAGTTGG AGATTCTTTG
    GAAGTGGCCT ATACCGGCTG GCTCTTTCAG AATCATGTGC TGGGCCAGGT TTTCGACTCC
    ACTGCTAACA AAGATAAGTT GCTTCGCTTG AAGTTAGGAT CAGGAAAAGT CATCAAGGGC
    TGGGAGGATG GAATGCTGGG CATGAAAAAA GGAGGAAAGC GATTGCTTAT TGTCCCTCCA
    GCCTGTGCTG TTGGCTCAGA AGGGGTAATA GGCTGGACTC AAGCAACGGA CTCGATCCTG
    GTGTTCGAGG TGGAGGTTAG GCGGGTGAAG TTTGCCAGAG ATTCTGGCTC TGATGGTCAC
    AGTGTTAGTT CCCGCGATTC TGCAGCTCCG TCTCCCATCC CTGGTGCTGA CAACCTCTCT
    GCTGATCCTG TTGTGTCACC ACCCACATCA ATACCTTTCA AATCAGGGGA GCCAGCTCTT
    CGTACCAAAT CTAACTCCCT CAGTGAACAA CTTGCAATAA ATACAAGTCC CGATGCAGTC
    AAAGCCAAGT TGATCTCTCG GATGGCTAAA ATGGGCCAGC CCATGCTGCC CATCCTTCCA
    CCACAGCTGG ATTCCAATGA TTCAGAAATC GAAGATGTGA ACACTCTGCA AGGAGGTGGG
    CAGCCTGTGG TGACTCCGTC CGTCCAGCCC TCTCTTCATC CGGCCCATCC AGCGTTACCA
    CAGATGACCT CACAGGCACC TCAGCCATCT GTTACTGGGC TCCAGGCACC TTCTGCTGCC
    TTAATGCAAG TGTCATCTCT CGATTCCCAC TCAGCTGTAT CTGGAAATGC CCAATCCTTT
    CAGCCCTATG CAGGTATGCA AGCCTACGCT TATCCCCAGG CATCTGCCGT CACCTCCCAG
    CTGCAGCCCG TTCGGCCTTT GTACCCAGCA CCGCTCTCTC AGCCTCCCCA TTTCCAAGGA
    TCAGGTGATA TGGCTTCATT TCTCATGACT GAAGCCCGGC AACATAACAC TGAAATTCGA
    ATGGCAGTCA GCAAAGTGGC TGATAAAATG GATCATCTCA TGACTAAGGT TGAAGAGTTA
    CAGAAACATA GTGCTGGCAA TTCCATGCTT ATTCCTAGCA TGTCAGTTAC AATGGAAACA
    AGCATGATTA TGAGCAACAT CCAGCGAATC ATTCAGGAAA ATGAAAGATT GAAGCAAGAG
    ATCCTTGAAA AGAGCAATCG GATAGAAGAA CAGAATGACA AGATTAGTGA ACTAATTGAA
    CGAAATCAGA GGTATGTTGA GCAGAGTAAC CTGATGATGG AGAAGAGGAA CAACTCACTT
    CAGACAGCCA CAGAAAACAC ACAGGCAAGA GTATTGCATG CTGAACAAGA GAAGGCCAAG
    GTGACAGAGG AGTTAGCAGC GGCCACTGCA CAGGTCTCTC ATCTGCAGCT GAAAATGACT
    GCTCACCAAA AAAAGGAAAC AGAGCTGCAG ATGCAGCTGA CAGAAAGCCT GAAGGAGACA
    GATCTTCTCA GGGGCCAGCT CACCAAAGTG CAGGCAAAGC TCTCAGAGCT CCAAGAAACC
    TCTGAGCAAG CACAGTCCAA ATTCAAAAGT GAAAAGCAGA ACCGGAAACA ACTGGAACTC
    AAGGTGACAT CCCTGGAGGA GGAACTGACT GACCTTCGAG TTGAGAAGGA GTCCTTGGAA
    AAGAACCTCT CAGAAAGGAA AAAGAAGTCA GCTCAAGAGC GTTCTCAGGC CGAGGAGGAG
    ATAGATGAAA TTCGCAAGTC ATACCAGGAG GAATTGGACA AACTTCGACA GCTCTTGAAA
    AAGACTCGAG TGTCCACAGA CCAAGCAGCT GCAGAGCAGC TGTCTTTAGT ACAGGCTGAG
    CTACAGACCC AGTGGGAAGC AAAATGTGAA CATTTGTTGG CCTCCGCCAA GGATGAGCAC
    CTGCAGCAGT ACCAGGAGGT GTGCGCACAG AGAGATGCCT ACCAGCAGAA GCTGGTACAA
    CTTCAGGAAA AGTGTTTAGC CCTCCAGGCC CAAATCACAG CTCTCACCAA GCAAAATGAA
    CAGCACATCA AGGAACTAGA GAAGAACAAG TCCCAGATGT CTGGGGTTGA AGCTGCTGCA
    TCTGACCCCT CAGAGAAGGT CAAGAAGATC ATGAACCAGG TGTTCCAGTC CTTACGGAGA
    GAGTTTGAGC TGGAGGAATC TTACAATGGC AGGACCATTC TGGGAACCAT CATGAATACG
    ATCAAGATGG TGACTCTTCA GCTGTTAAAC CAACAGGAGC AAGAGAAGGA AGAGAGCAGC
    AGTGAAGAAG AAGAAGAAAA AGCAGAAGAG CGGCCACGAA GACCTTCCCA GGAGCAGTCA
    GCCTCAGCCA GTTCTGGGCA GCCTCAAGCA CCCCTGAATA GGGAGAGGCC AGAGTCCCCC
    ATGGTGCCCT CAGAGCAGGT GGTCGAGGAA GCTGTCCCGT TGCCTCCTCA GGCCCTCACC
    ACTTCCCAGG ATGGACACAG AAGGAAAGGG GACTCAGAAG CTGAGGCACT CTCAGAGATA
    AAAGATGGTT CCCTTCCACC CGAACTGTCT TGCATCCCAT CCCACAGAGT TCTAGGGCCC
    CCGACTTCAA TTCCACCTGA GCCCCTAGGC CCTGTATCCA TGGACTCTGA GTGTGAGGAG
    TCACTTGCTG CCAGCCCAAT GGCAGCTAAG CCCGACAACC CATCAGGAAA GGTCTGTGTC
    AGGGAAGTAG CACCAGATGG CCCACTACAA GAAAGCTCCA CAAGACTGTC CCTGACTTCA
    GACCCCGAGG AGGGGGACCC ACTGGCCTTA GGGCCTGAAA GCCCAGGAGA GCCTCAGCCT
    CCACAGCTCA AGAAAGATGA TGTCACTAGC TCCACCGGTC CCCACAAGGA GCTGTCAAGC
    ACAGAGGCAG GTTCCACAGT TGCAGGAGCA GCCCTCAGAC CCAGCCATCA TTCCCAGCGT
    TCCAGTCTCT CTGGGGATGA AGAGGATGAA CTGTTTAAAG GGGCAACTCT GAAAGCTCTG
    AGGCCCAAAG CACAGCCTGA GGAGGAGGAT GAAGACGAGG TGAGCATGAA GGGACGCCCG
    CCCCCAACGC CCCTTTTTGG AGATGATGAT GATGACGATG ACATTGACTG GCTGGGATGA

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

    CloneID OHu43124
    Clone ID Related Accession (Same CDS sequence) XM_006717019.1
    Accession Version XM_006717019.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3456bp)
    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 FK506-binding protein 15 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: 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
    3361
    3421
    ATGAGCACTC CCACAATACT GGTCGCAACA GCAGTCCATG CATATCGATA CACAAATGGT 
    CAATATGTAA AGCAGGGCAA ATTTGGTGCT GCAGTTCTGG GGAACCACAC AGCCAGAGAG
    TATAGGATTC TTCTTTATAT CAGTCAACAA CAGCCAGTTA CGGTTGCTAG GATTCATGTG
    AACTTTGAGC TAATGGTTCG GCCCAATAAC TATAGCACCT TTTATGATGA CCAGAGACAG
    AACTGGTCCA TCATGTTTGA GTCGGAAAAG GCTGCTGTGG AGTTCAATAA GCAGGTGTGC
    ATTGCTAAGT GCAACAGTAC CTCTTCCCTG GATGCAGTGC TCTCCCAGGA CCTCATTGTG
    GCAGACGGCC CTGCTGTAGA AGTTGGAGAT TCTTTGGAAG TGGCCTATAC CGGCTGGCTC
    TTTCAGAATC ATGTGCTGGG CCAGGTTTTC GACTCCACTG CTAACAAAGA TAAGTTGCTT
    CGCTTGAAGT TAGGATCAGG AAAAGTCATC AAGGGCTGGG AGGATGGAAT GCTGGGCATG
    AAAAAAGGAG GAAAGCGATT GCTTATTGTC CCTCCAGCCT GTGCTGTTGG CTCAGAAGGG
    GTAATAGGCT GGACTCAAGC AACGGACTCG ATCCTGGTGT TCGAGGTGGA GGTTAGGCGG
    GTGAAGTTTG CCAGAGATTC TGGCTCTGAT GGTCACAGTG TTAGTTCCCG CGATTCTGCA
    GCTCCGTCTC CCATCCCTGG TGCTGACAAC CTCTCTGCTG ATCCTGTTGT GTCACCACCC
    ACATCAATAC CTTTCAAATC AGGGGAGCCA GCTCTTCGTA CCAAATCTAA CTCCCTCAGT
    GAACAACTTG CAATAAATAC AAGTCCCGAT GCAGTCAAAG CCAAGTTGAT CTCTCGGATG
    GCTAAAATGG GCCAGCCCAT GCTGCCCATC CTTCCACCAC AGCTGGATTC CAATGATTCA
    GAAATCGAAG ATGTGAACAC TCTGCAAGGA GGTGGGCAGC CTGTGGTGAC TCCGTCCGTC
    CAGCCCTCTC TTCATCCGGC CCATCCAGCG TTACCACAGA TGACCTCACA GGCACCTCAG
    CCATCTGTTA CTGGGCTCCA GGCACCTTCT GCTGCCTTAA TGCAAGTGTC ATCTCTCGAT
    TCCCACTCAG CTGTATCTGG AAATGCCCAA TCCTTTCAGC CCTATGCAGG TATGCAAGCC
    TACGCTTATC CCCAGGCATC TGCCGTCACC TCCCAGCTGC AGCCCGTTCG GCCTTTGTAC
    CCAGCACCGC TCTCTCAGCC TCCCCATTTC CAAGGATCAG GTGATATGGC TTCATTTCTC
    ATGACTGAAG CCCGGCAACA TAACACTGAA ATTCGAATGG CAGTCAGCAA AGTGGCTGAT
    AAAATGGATC ATCTCATGAC TAAGGTTGAA GAGTTACAGA AACATAGTGC TGGCAATTCC
    ATGCTTATTC CTAGCATGTC AGTTACAATG GAAACAAGCA TGATTATGAG CAACATCCAG
    CGAATCATTC AGGAAAATGA AAGATTGAAG CAAGAGATCC TTGAAAAGAG CAATCGGATA
    GAAGAACAGA ATGACAAGAT TAGTGAACTA ATTGAACGAA ATCAGAGGTA TGTTGAGCAG
    AGTAACCTGA TGATGGAGAA GAGGAACAAC TCACTTCAGA CAGCCACAGA AAACACACAG
    GCAAGAGTAT TGCATGCTGA ACAAGAGAAG GCCAAGGTGA CAGAGGAGTT AGCAGCGGCC
    ACTGCACAGG TCTCTCATCT GCAGCTGAAA ATGACTGCTC ACCAAAAAAA GGAAACAGAG
    CTGCAGATGC AGCTGACAGA AAGCCTGAAG GAGACAGATC TTCTCAGGGG CCAGCTCACC
    AAAGTGCAGG CAAAGCTCTC AGAGCTCCAA GAAACCTCTG AGCAAGCACA GTCCAAATTC
    AAAAGTGAAA AGCAGAACCG GAAACAACTG GAACTCAAGG TGACATCCCT GGAGGAGGAA
    CTGACTGACC TTCGAGTTGA GAAGGAGTCC TTGGAAAAGA ACCTCTCAGA AAGGAAAAAG
    AAGTCAGCTC AAGAGCGTTC TCAGGCCGAG GAGGAGATAG ATGAAATTCG CAAGTCATAC
    CAGGAGGAAT TGGACAAACT TCGACAGCTC TTGAAAAAGA CTCGAGTGTC CACAGACCAA
    GCAGCTGCAG AGCAGCTGTC TTTAGTACAG GCTGAGCTAC AGACCCAGTG GGAAGCAAAA
    TGTGAACATT TGTTGGCCTC CGCCAAGGAT GAGCACCTGC AGCAGTACCA GGAGGTGTGC
    GCACAGAGAG ATGCCTACCA GCAGAAGCTG GTACAACTTC AGGAAAAGTG TTTAGCCCTC
    CAGGCCCAAA TCACAGCTCT CACCAAGCAA AATGAACAGC ACATCAAGGA ACTAGAGAAG
    AACAAGTCCC AGATGTCTGG GGTTGAAGCT GCTGCATCTG ACCCCTCAGA GAAGGTCAAG
    AAGATCATGA ACCAGGTGTT CCAGTCCTTA CGGAGAGAGT TTGAGCTGGA GGAATCTTAC
    AATGGCAGGA CCATTCTGGG AACCATCATG AATACGATCA AGATGGTGAC TCTTCAGCTG
    TTAAACCAAC AGGAGCAAGA GAAGGAAGAG AGCAGCAGTG AAGAAGAAGA AGAAAAAGCA
    GAAGAGCGGC CACGAAGACC TTCCCAGGAG CAGTCAGCCT CAGCCAGTTC TGGGCAGCCT
    CAAGCACCCC TGAATAGGGA GAGGCCAGAG TCCCCCATGG TGCCCTCAGA GCAGGTGGTC
    GAGGAAGCTG TCCCGTTGCC TCCTCAGGCC CTCACCACTT CCCAGGATGG ACACAGAAGG
    AAAGGGGACT CAGAAGCTGA GGCACTCTCA GAGATAAAAG ATGGTTCCCT TCCACCCGAA
    CTGTCTTGCA TCCCATCCCA CAGAGTTCTA GGGCCCCCGA CTTCAATTCC ACCTGAGCCC
    CTAGGCCCTG TATCCATGGA CTCTGAGTGT GAGGAGTCAC TTGCTGCCAG CCCAATGGCA
    GCTAAGCCCG ACAACCCATC AGGAAAGGTC TGTGTCAGGG AAGTAGCACC AGATGGCCCA
    CTACAAGAAA GCTCCACAAG ACTGTCCCTG ACTTCAGACC CCGAGGAGGG GGACCCACTG
    GCCTTAGGGC CTGAAAGCCC AGGAGAGCCT CAGCCTCCAC AGCTCAAGAA AGATGATGTC
    ACTAGCTCCA CCGGTCCCCA CAAGGAGCTG TCAAGCACAG AGGCAGGTTC CACAGTTGCA
    GGAGCAGCCC TCAGACCCAG CCATCATTCC CAGCGTTCCA GTCTCTCTGG GGATGAAGAG
    GATGAACTGT TTAAAGGGGC AACTCTGAAA GCTCTGAGGC CCAAAGCACA GCCTGAGGAG
    GAGGATGAAG ACGAGGTGAG CATGAAGGGA CGCCCGCCCC CAACGCCCCT TTTTGGAGAT
    GATGATGATG ACGATGACAT TGACTGGCTG GGATGA

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

    RefSeq XP_006717082.1
    CDS171..3626
    Translation

    Target ORF information:

    RefSeq Version XM_006717019.1
    Organism Homo sapiens(human)
    Definition Homo sapiens FKBP prolyl isomerase 15 (FKBP15), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006717019.1

    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
    ATGAGCACTC CCACAATACT GGTCGCAACA GCAGTCCATG CATATCGATA CACAAATGGT 
    CAATATGTAA AGCAGGGCAA ATTTGGTGCT GCAGTTCTGG GGAACCACAC AGCCAGAGAG
    TATAGGATTC TTCTTTATAT CAGTCAACAA CAGCCAGTTA CGGTTGCTAG GATTCATGTG
    AACTTTGAGC TAATGGTTCG GCCCAATAAC TATAGCACCT TTTATGATGA CCAGAGACAG
    AACTGGTCCA TCATGTTTGA GTCGGAAAAG GCTGCTGTGG AGTTCAATAA GCAGGTGTGC
    ATTGCTAAGT GCAACAGTAC CTCTTCCCTG GATGCAGTGC TCTCCCAGGA CCTCATTGTG
    GCAGACGGCC CTGCTGTAGA AGTTGGAGAT TCTTTGGAAG TGGCCTATAC CGGCTGGCTC
    TTTCAGAATC ATGTGCTGGG CCAGGTTTTC GACTCCACTG CTAACAAAGA TAAGTTGCTT
    CGCTTGAAGT TAGGATCAGG AAAAGTCATC AAGGGCTGGG AGGATGGAAT GCTGGGCATG
    AAAAAAGGAG GAAAGCGATT GCTTATTGTC CCTCCAGCCT GTGCTGTTGG CTCAGAAGGG
    GTAATAGGCT GGACTCAAGC AACGGACTCG ATCCTGGTGT TCGAGGTGGA GGTTAGGCGG
    GTGAAGTTTG CCAGAGATTC TGGCTCTGAT GGTCACAGTG TTAGTTCCCG CGATTCTGCA
    GCTCCGTCTC CCATCCCTGG TGCTGACAAC CTCTCTGCTG ATCCTGTTGT GTCACCACCC
    ACATCAATAC CTTTCAAATC AGGGGAGCCA GCTCTTCGTA CCAAATCTAA CTCCCTCAGT
    GAACAACTTG CAATAAATAC AAGTCCCGAT GCAGTCAAAG CCAAGTTGAT CTCTCGGATG
    GCTAAAATGG GCCAGCCCAT GCTGCCCATC CTTCCACCAC AGCTGGATTC CAATGATTCA
    GAAATCGAAG ATGTGAACAC TCTGCAAGGA GGTGGGCAGC CTGTGGTGAC TCCGTCCGTC
    CAGCCCTCTC TTCATCCGGC CCATCCAGCG TTACCACAGA TGACCTCACA GGCACCTCAG
    CCATCTGTTA CTGGGCTCCA GGCACCTTCT GCTGCCTTAA TGCAAGTGTC ATCTCTCGAT
    TCCCACTCAG CTGTATCTGG AAATGCCCAA TCCTTTCAGC CCTATGCAGG TATGCAAGCC
    TACGCTTATC CCCAGGCATC TGCCGTCACC TCCCAGCTGC AGCCCGTTCG GCCTTTGTAC
    CCAGCACCGC TCTCTCAGCC TCCCCATTTC CAAGGATCAG GTGATATGGC TTCATTTCTC
    ATGACTGAAG CCCGGCAACA TAACACTGAA ATTCGAATGG CAGTCAGCAA AGTGGCTGAT
    AAAATGGATC ATCTCATGAC TAAGGTTGAA GAGTTACAGA AACATAGTGC TGGCAATTCC
    ATGCTTATTC CTAGCATGTC AGTTACAATG GAAACAAGCA TGATTATGAG CAACATCCAG
    CGAATCATTC AGGAAAATGA AAGATTGAAG CAAGAGATCC TTGAAAAGAG CAATCGGATA
    GAAGAACAGA ATGACAAGAT TAGTGAACTA ATTGAACGAA ATCAGAGGTA TGTTGAGCAG
    AGTAACCTGA TGATGGAGAA GAGGAACAAC TCACTTCAGA CAGCCACAGA AAACACACAG
    GCAAGAGTAT TGCATGCTGA ACAAGAGAAG GCCAAGGTGA CAGAGGAGTT AGCAGCGGCC
    ACTGCACAGG TCTCTCATCT GCAGCTGAAA ATGACTGCTC ACCAAAAAAA GGAAACAGAG
    CTGCAGATGC AGCTGACAGA AAGCCTGAAG GAGACAGATC TTCTCAGGGG CCAGCTCACC
    AAAGTGCAGG CAAAGCTCTC AGAGCTCCAA GAAACCTCTG AGCAAGCACA GTCCAAATTC
    AAAAGTGAAA AGCAGAACCG GAAACAACTG GAACTCAAGG TGACATCCCT GGAGGAGGAA
    CTGACTGACC TTCGAGTTGA GAAGGAGTCC TTGGAAAAGA ACCTCTCAGA AAGGAAAAAG
    AAGTCAGCTC AAGAGCGTTC TCAGGCCGAG GAGGAGATAG ATGAAATTCG CAAGTCATAC
    CAGGAGGAAT TGGACAAACT TCGACAGCTC TTGAAAAAGA CTCGAGTGTC CACAGACCAA
    GCAGCTGCAG AGCAGCTGTC TTTAGTACAG GCTGAGCTAC AGACCCAGTG GGAAGCAAAA
    TGTGAACATT TGTTGGCCTC CGCCAAGGAT GAGCACCTGC AGCAGTACCA GGAGGTGTGC
    GCACAGAGAG ATGCCTACCA GCAGAAGCTG GTACAACTTC AGGAAAAGTG TTTAGCCCTC
    CAGGCCCAAA TCACAGCTCT CACCAAGCAA AATGAACAGC ACATCAAGGA ACTAGAGAAG
    AACAAGTCCC AGATGTCTGG GGTTGAAGCT GCTGCATCTG ACCCCTCAGA GAAGGTCAAG
    AAGATCATGA ACCAGGTGTT CCAGTCCTTA CGGAGAGAGT TTGAGCTGGA GGAATCTTAC
    AATGGCAGGA CCATTCTGGG AACCATCATG AATACGATCA AGATGGTGAC TCTTCAGCTG
    TTAAACCAAC AGGAGCAAGA GAAGGAAGAG AGCAGCAGTG AAGAAGAAGA AGAAAAAGCA
    GAAGAGCGGC CACGAAGACC TTCCCAGGAG CAGTCAGCCT CAGCCAGTTC TGGGCAGCCT
    CAAGCACCCC TGAATAGGGA GAGGCCAGAG TCCCCCATGG TGCCCTCAGA GCAGGTGGTC
    GAGGAAGCTG TCCCGTTGCC TCCTCAGGCC CTCACCACTT CCCAGGATGG ACACAGAAGG
    AAAGGGGACT CAGAAGCTGA GGCACTCTCA GAGATAAAAG ATGGTTCCCT TCCACCCGAA
    CTGTCTTGCA TCCCATCCCA CAGAGTTCTA GGGCCCCCGA CTTCAATTCC ACCTGAGCCC
    CTAGGCCCTG TATCCATGGA CTCTGAGTGT GAGGAGTCAC TTGCTGCCAG CCCAATGGCA
    GCTAAGCCCG ACAACCCATC AGGAAAGGTC TGTGTCAGGG AAGTAGCACC AGATGGCCCA
    CTACAAGAAA GCTCCACAAG ACTGTCCCTG ACTTCAGACC CCGAGGAGGG GGACCCACTG
    GCCTTAGGGC CTGAAAGCCC AGGAGAGCCT CAGCCTCCAC AGCTCAAGAA AGATGATGTC
    ACTAGCTCCA CCGGTCCCCA CAAGGAGCTG TCAAGCACAG AGGCAGGTTC CACAGTTGCA
    GGAGCAGCCC TCAGACCCAG CCATCATTCC CAGCGTTCCA GTCTCTCTGG GGATGAAGAG
    GATGAACTGT TTAAAGGGGC AACTCTGAAA GCTCTGAGGC CCAAAGCACA GCCTGAGGAG
    GAGGATGAAG ACGAGGTGAG CATGAAGGGA CGCCCGCCCC CAACGCCCCT TTTTGGAGAT
    GATGATGATG ACGATGACAT TGACTGGCTG GGATGA

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

    CloneID OHu98569
    Clone ID Related Accession (Same CDS sequence) XM_017014552.1
    Accession Version XM_017014552.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3426bp)
    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 FK506-binding protein 15 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: 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
    3361
    3421
    ATGAGCACTC CCACAATACT GGTCGCAACA GCAGTCCATG CATATCGATA CACAAATGGT 
    CAATATGTAA AGCAGGGCAA ATTTGGTGCT GCAGTTCTGG GGAACCACAC AGCCAGAGAG
    TATAGGATTC TTCTTTATAT CAGTCAACAA CAGCCAGTTA CGGTTGCTAG GATTCATGTG
    AACTTTGAGC TAATGGTTCG GCCCAATAAC TATAGCACCT TTTATGATGA CCAGAGACAG
    AACTGGTCCA TCATGTTTGA GTCGGAAAAG GCTGCTGTGG AGTTCAATAA GCAGGTGTGC
    ATTGCTAAGT GCAACAGTAC CTCTTCCCTG GATGCAGTGC TCTCCCAGGA CCTCATTGTG
    GCAGACGGCC CTGCTGTAGA AGTTGGAGAT TCTTTGGAAG TGGCCTATAC CGGCTGGCTC
    TTTCAGAATC ATGTGCTGGG CCAGGTTTTC GACTCCACTG CTAACAAAGA TAAGTTGCTT
    CGCTTGAAGT TAGGATCAGG AAAAGTCATC AAGGGCTGGG AGGATGGAAT GCTGGGCATG
    AAAAAAGGAG GAAAGCGATT GCTTATTGTC CCTCCAGCCT GTGCTGTTGG CTCAGAAGGG
    GTAATAGGCT GGACTCAAGC AACGGACTCG ATCCTGGTGT TCGAGGTGGA GGTTAGGCGG
    GTGAAGTTTG CCAGAGATTC TGGCTCTGAT GGTCACAGTG TTAGTTCCCG CGATTCTGCA
    GCTCCGTCTC CCATCCCTGG TGCTGACAAC CTCTCTGCTG ATCCTGTTGT GTCACCACCC
    ACATCAATAC CTTTCAAATC AGGGGAGCCA GCTCTTCGTA CCAAATCTAA CTCCCTCAGT
    GAACAACTTG CAATAAATAC AAGTCCCGAT GCAGTCAAAG CCAAGTTGAT CTCTCGGATG
    GCTAAAATGG GCCAGCCCAT GCTGCCCATC CTTCCACCAC AGCTGGATTC CAATGATTCA
    GAAATCGAAG ATGTGAACAC TCTGCAAGGA GGTGGGCAGC CTGTGGTGAC TCCGTCCGTC
    CAGCCCTCTC TTCATCCGGC CCATCCAGCG TTACCACAGA TGACCTCACA GGCACCTCAG
    CCATCTGTTA CTGGGCTCCA GGCACCTTCT GCTGCCTTAA TGCAAGTGTC ATCTCTCGAT
    TCCCACTCAG CTGTATCTGG AAATGCCCAA TCCTTTCAGC CCTATGCAGG TATGCAAGCC
    TACGCTTATC CCCAGGCATC TGCCGTCACC TCCCAGCTGC AGCCCGTTCG GCCTTTGTAC
    CCAGCACCGC TCTCTCAGCC TCCCCATTTC CAAGGATCAG GTGATATGGC TTCATTTCTC
    ATGACTGAAG CCCGGCAACA TAACACTGAA ATTCGAATGG CAGTCAGCAA AGTGGCTGAT
    AAAATGGATC ATCTCATGAC TAAGGTTGAA GAGTTACAGA AACATAGTGC TGGCAATTCC
    ATGCTTATTC CTAGCATGTC AGTTACAATG GAAACAAGCA TGATTATGAG CAACATCCAG
    CGAATCATTC AGGAAAATGA AAGATTGAAG CAAGAGATCC TTGAAAAGAG CAATCGGATA
    GAAGAACAGA ATGACAAGAT TAGTGAACTA ATTGAACGAA ATCAGAGGTA TGTTGAGCAG
    AGTAACCTGA TGATGGAGAA GAGGAACAAC TCACTTCAGA CAGCCACAGA AAACACACAG
    GCCAAGGTGA CAGAGGAGTT AGCAGCGGCC ACTGCACAGG TCTCTCATCT GCAGCTGAAA
    ATGACTGCTC ACCAAAAAAA GGAAACAGAG CTGCAGATGC AGCTGACAGA AAGCCTGAAG
    GAGACAGATC TTCTCAGGGG CCAGCTCACC AAAGTGCAGG CAAAGCTCTC AGAGCTCCAA
    GAAACCTCTG AGCAAGCACA GTCCAAATTC AAAAGTGAAA AGCAGAACCG GAAACAACTG
    GAACTCAAGG TGACATCCCT GGAGGAGGAA CTGACTGACC TTCGAGTTGA GAAGGAGTCC
    TTGGAAAAGA ACCTCTCAGA AAGGAAAAAG AAGTCAGCTC AAGAGCGTTC TCAGGCCGAG
    GAGGAGATAG ATGAAATTCG CAAGTCATAC CAGGAGGAAT TGGACAAACT TCGACAGCTC
    TTGAAAAAGA CTCGAGTGTC CACAGACCAA GCAGCTGCAG AGCAGCTGTC TTTAGTACAG
    GCTGAGCTAC AGACCCAGTG GGAAGCAAAA TGTGAACATT TGTTGGCCTC CGCCAAGGAT
    GAGCACCTGC AGCAGTACCA GGAGGTGTGC GCACAGAGAG ATGCCTACCA GCAGAAGCTG
    GTACAACTTC AGGAAAAGTG TTTAGCCCTC CAGGCCCAAA TCACAGCTCT CACCAAGCAA
    AATGAACAGC ACATCAAGGA ACTAGAGAAG AACAAGTCCC AGATGTCTGG GGTTGAAGCT
    GCTGCATCTG ACCCCTCAGA GAAGGTCAAG AAGATCATGA ACCAGGTGTT CCAGTCCTTA
    CGGAGAGAGT TTGAGCTGGA GGAATCTTAC AATGGCAGGA CCATTCTGGG AACCATCATG
    AATACGATCA AGATGGTGAC TCTTCAGCTG TTAAACCAAC AGGAGCAAGA GAAGGAAGAG
    AGCAGCAGTG AAGAAGAAGA AGAAAAAGCA GAAGAGCGGC CACGAAGACC TTCCCAGGAG
    CAGTCAGCCT CAGCCAGTTC TGGGCAGCCT CAAGCACCCC TGAATAGGGA GAGGCCAGAG
    TCCCCCATGG TGCCCTCAGA GCAGGTGGTC GAGGAAGCTG TCCCGTTGCC TCCTCAGGCC
    CTCACCACTT CCCAGGATGG ACACAGAAGG AAAGGGGACT CAGAAGCTGA GGCACTCTCA
    GAGATAAAAG ATGGTTCCCT TCCACCCGAA CTGTCTTGCA TCCCATCCCA CAGAGTTCTA
    GGGCCCCCGA CTTCAATTCC ACCTGAGCCC CTAGGCCCTG TATCCATGGA CTCTGAGTGT
    GAGGAGTCAC TTGCTGCCAG CCCAATGGCA GCTAAGCCCG ACAACCCATC AGGAAAGGTC
    TGTGTCAGGG AAGTAGCACC AGATGGCCCA CTACAAGAAA GCTCCACAAG ACTGTCCCTG
    ACTTCAGACC CCGAGGAGGG GGACCCACTG GCCTTAGGGC CTGAAAGCCC AGGAGAGCCT
    CAGCCTCCAC AGCTCAAGAA AGATGATGTC ACTAGCTCCA CCGGTCCCCA CAAGGAGCTG
    TCAAGCACAG AGGCAGGTTC CACAGTTGCA GGAGCAGCCC TCAGACCCAG CCATCATTCC
    CAGCGTTCCA GTCTCTCTGG GGATGAAGAG GATGAACTGT TTAAAGGGGC AACTCTGAAA
    GCTCTGAGGC CCAAAGCACA GCCTGAGGAG GAGGATGAAG ACGAGGTGAG CATGAAGGGA
    CGCCCGCCCC CAACGCCCCT TTTTGGAGAT GATGATGATG ACGATGACAT TGACTGGCTG
    GGATGA

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

    RefSeq XP_016870041.1
    CDS171..3596
    Translation

    Target ORF information:

    RefSeq Version XM_017014552.1
    Organism Homo sapiens(human)
    Definition Homo sapiens FKBP prolyl isomerase 15 (FKBP15), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017014552.1

    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
    ATGAGCACTC CCACAATACT GGTCGCAACA GCAGTCCATG CATATCGATA CACAAATGGT 
    CAATATGTAA AGCAGGGCAA ATTTGGTGCT GCAGTTCTGG GGAACCACAC AGCCAGAGAG
    TATAGGATTC TTCTTTATAT CAGTCAACAA CAGCCAGTTA CGGTTGCTAG GATTCATGTG
    AACTTTGAGC TAATGGTTCG GCCCAATAAC TATAGCACCT TTTATGATGA CCAGAGACAG
    AACTGGTCCA TCATGTTTGA GTCGGAAAAG GCTGCTGTGG AGTTCAATAA GCAGGTGTGC
    ATTGCTAAGT GCAACAGTAC CTCTTCCCTG GATGCAGTGC TCTCCCAGGA CCTCATTGTG
    GCAGACGGCC CTGCTGTAGA AGTTGGAGAT TCTTTGGAAG TGGCCTATAC CGGCTGGCTC
    TTTCAGAATC ATGTGCTGGG CCAGGTTTTC GACTCCACTG CTAACAAAGA TAAGTTGCTT
    CGCTTGAAGT TAGGATCAGG AAAAGTCATC AAGGGCTGGG AGGATGGAAT GCTGGGCATG
    AAAAAAGGAG GAAAGCGATT GCTTATTGTC CCTCCAGCCT GTGCTGTTGG CTCAGAAGGG
    GTAATAGGCT GGACTCAAGC AACGGACTCG ATCCTGGTGT TCGAGGTGGA GGTTAGGCGG
    GTGAAGTTTG CCAGAGATTC TGGCTCTGAT GGTCACAGTG TTAGTTCCCG CGATTCTGCA
    GCTCCGTCTC CCATCCCTGG TGCTGACAAC CTCTCTGCTG ATCCTGTTGT GTCACCACCC
    ACATCAATAC CTTTCAAATC AGGGGAGCCA GCTCTTCGTA CCAAATCTAA CTCCCTCAGT
    GAACAACTTG CAATAAATAC AAGTCCCGAT GCAGTCAAAG CCAAGTTGAT CTCTCGGATG
    GCTAAAATGG GCCAGCCCAT GCTGCCCATC CTTCCACCAC AGCTGGATTC CAATGATTCA
    GAAATCGAAG ATGTGAACAC TCTGCAAGGA GGTGGGCAGC CTGTGGTGAC TCCGTCCGTC
    CAGCCCTCTC TTCATCCGGC CCATCCAGCG TTACCACAGA TGACCTCACA GGCACCTCAG
    CCATCTGTTA CTGGGCTCCA GGCACCTTCT GCTGCCTTAA TGCAAGTGTC ATCTCTCGAT
    TCCCACTCAG CTGTATCTGG AAATGCCCAA TCCTTTCAGC CCTATGCAGG TATGCAAGCC
    TACGCTTATC CCCAGGCATC TGCCGTCACC TCCCAGCTGC AGCCCGTTCG GCCTTTGTAC
    CCAGCACCGC TCTCTCAGCC TCCCCATTTC CAAGGATCAG GTGATATGGC TTCATTTCTC
    ATGACTGAAG CCCGGCAACA TAACACTGAA ATTCGAATGG CAGTCAGCAA AGTGGCTGAT
    AAAATGGATC ATCTCATGAC TAAGGTTGAA GAGTTACAGA AACATAGTGC TGGCAATTCC
    ATGCTTATTC CTAGCATGTC AGTTACAATG GAAACAAGCA TGATTATGAG CAACATCCAG
    CGAATCATTC AGGAAAATGA AAGATTGAAG CAAGAGATCC TTGAAAAGAG CAATCGGATA
    GAAGAACAGA ATGACAAGAT TAGTGAACTA ATTGAACGAA ATCAGAGGTA TGTTGAGCAG
    AGTAACCTGA TGATGGAGAA GAGGAACAAC TCACTTCAGA CAGCCACAGA AAACACACAG
    GCCAAGGTGA CAGAGGAGTT AGCAGCGGCC ACTGCACAGG TCTCTCATCT GCAGCTGAAA
    ATGACTGCTC ACCAAAAAAA GGAAACAGAG CTGCAGATGC AGCTGACAGA AAGCCTGAAG
    GAGACAGATC TTCTCAGGGG CCAGCTCACC AAAGTGCAGG CAAAGCTCTC AGAGCTCCAA
    GAAACCTCTG AGCAAGCACA GTCCAAATTC AAAAGTGAAA AGCAGAACCG GAAACAACTG
    GAACTCAAGG TGACATCCCT GGAGGAGGAA CTGACTGACC TTCGAGTTGA GAAGGAGTCC
    TTGGAAAAGA ACCTCTCAGA AAGGAAAAAG AAGTCAGCTC AAGAGCGTTC TCAGGCCGAG
    GAGGAGATAG ATGAAATTCG CAAGTCATAC CAGGAGGAAT TGGACAAACT TCGACAGCTC
    TTGAAAAAGA CTCGAGTGTC CACAGACCAA GCAGCTGCAG AGCAGCTGTC TTTAGTACAG
    GCTGAGCTAC AGACCCAGTG GGAAGCAAAA TGTGAACATT TGTTGGCCTC CGCCAAGGAT
    GAGCACCTGC AGCAGTACCA GGAGGTGTGC GCACAGAGAG ATGCCTACCA GCAGAAGCTG
    GTACAACTTC AGGAAAAGTG TTTAGCCCTC CAGGCCCAAA TCACAGCTCT CACCAAGCAA
    AATGAACAGC ACATCAAGGA ACTAGAGAAG AACAAGTCCC AGATGTCTGG GGTTGAAGCT
    GCTGCATCTG ACCCCTCAGA GAAGGTCAAG AAGATCATGA ACCAGGTGTT CCAGTCCTTA
    CGGAGAGAGT TTGAGCTGGA GGAATCTTAC AATGGCAGGA CCATTCTGGG AACCATCATG
    AATACGATCA AGATGGTGAC TCTTCAGCTG TTAAACCAAC AGGAGCAAGA GAAGGAAGAG
    AGCAGCAGTG AAGAAGAAGA AGAAAAAGCA GAAGAGCGGC CACGAAGACC TTCCCAGGAG
    CAGTCAGCCT CAGCCAGTTC TGGGCAGCCT CAAGCACCCC TGAATAGGGA GAGGCCAGAG
    TCCCCCATGG TGCCCTCAGA GCAGGTGGTC GAGGAAGCTG TCCCGTTGCC TCCTCAGGCC
    CTCACCACTT CCCAGGATGG ACACAGAAGG AAAGGGGACT CAGAAGCTGA GGCACTCTCA
    GAGATAAAAG ATGGTTCCCT TCCACCCGAA CTGTCTTGCA TCCCATCCCA CAGAGTTCTA
    GGGCCCCCGA CTTCAATTCC ACCTGAGCCC CTAGGCCCTG TATCCATGGA CTCTGAGTGT
    GAGGAGTCAC TTGCTGCCAG CCCAATGGCA GCTAAGCCCG ACAACCCATC AGGAAAGGTC
    TGTGTCAGGG AAGTAGCACC AGATGGCCCA CTACAAGAAA GCTCCACAAG ACTGTCCCTG
    ACTTCAGACC CCGAGGAGGG GGACCCACTG GCCTTAGGGC CTGAAAGCCC AGGAGAGCCT
    CAGCCTCCAC AGCTCAAGAA AGATGATGTC ACTAGCTCCA CCGGTCCCCA CAAGGAGCTG
    TCAAGCACAG AGGCAGGTTC CACAGTTGCA GGAGCAGCCC TCAGACCCAG CCATCATTCC
    CAGCGTTCCA GTCTCTCTGG GGATGAAGAG GATGAACTGT TTAAAGGGGC AACTCTGAAA
    GCTCTGAGGC CCAAAGCACA GCCTGAGGAG GAGGATGAAG ACGAGGTGAG CATGAAGGGA
    CGCCCGCCCC CAACGCCCCT TTTTGGAGAT GATGATGATG ACGATGACAT TGACTGGCTG
    GGATGA

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

    CloneID OHu43123
    Clone ID Related Accession (Same CDS sequence) XM_006717018.2
    Accession Version XM_006717018.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3630bp)
    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 FK506-binding protein 15 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000009.12) 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_006717018.1. ##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
    3361
    3421
    3481
    3541
    3601
    ATGTTCGGTG CGGGGGACGA GGACGACACC GATTTCCTCT CGCCGAGCGG CGGTGCCAGA 
    TTGGCCTCAC TTTTTGGACT GGATCAGGCA GCTGCTGGCC ATGGAAATGA ATTTTTCCAG
    TACACAGCCC CAAAACAGCC TAAGAAAGGC CAGGGAACGG CAGCAACAGG AAATCAGGCA
    ACACCAAAAA CAGCACCAGC CACCATGAGC ACTCCCACAA TACTGGTCGC AACAGCAGTC
    CATGCATATC GATACACAAA TGGTCAATAT GTAAAGCAGG GCAAATTTGG TGCTGCAGTT
    CTGGGGAACC ACACAGCCAG AGAGTATAGG ATTCTTCTTT ATATCAGTCA ACAACAGCCA
    GTTACGGTTG CTAGGATTCA TGTGAACTTT GAGCTAATGG TTCGGCCCAA TAACTATAGC
    ACCTTTTATG ATGACCAGAG ACAGAACTGG TCCATCATGT TTGAGTCGGA AAAGGCTGCT
    GTGGAGTTCA ATAAGCAGGT GTGCATTGCT AAGTGCAACA GTACCTCTTC CCTGGATGCA
    GTGCTCTCCC AGGACCTCAT TGTGGCAGAC GGCCCTGCTG TAGAAGTTGG AGATTCTTTG
    GAAGTGGCCT ATACCGGCTG GCTCTTTCAG AATCATGTGC TGGGCCAGGT TTTCGACTCC
    ACTGCTAACA AAGATAAGTT GCTTCGCTTG AAGTTAGGAT CAGGAAAAGT CATCAAGGGC
    TGGGAGGATG GAATGCTGGG CATGAAAAAA GGAGGAAAGC GATTGCTTAT TGTCCCTCCA
    GCCTGTGCTG TTGGCTCAGA AGGGGTAATA GGCTGGACTC AAGCAACGGA CTCGATCCTG
    GTGTTCGAGG TGGAGGTTAG GCGGGTGAAG TTTGCCAGAG ATTCTGGCTC TGATGGTCAC
    AGTGTTAGTT CCCGCGATTC TGCAGCTCCG TCTCCCATCC CTGGTGCTGA CAACCTCTCT
    GCTGATCCTG TTGTGTCACC ACCCACATCA ATACCTTTCA AATCAGGGGA GCCAGCTCTT
    CGTACCAAAT CTAACTCCCT CAGTGAACAA CTTGCAATAA ATACAAGTCC CGATGCAGTC
    AAAGCCAAGT TGATCTCTCG GATGGCTAAA ATGGGCCAGC CCATGCTGCC CATCCTTCCA
    CCACAGCTGG ATTCCAATGA TTCAGAAATC GAAGATGTGA ACACTCTGCA AGGAGGTGGG
    CAGCCTGTGG TGACTCCGTC CGTCCAGCCC TCTCTTCATC CGGCCCATCC AGCGTTACCA
    CAGATGACCT CACAGGCACC TCAGCCATCT GTTACTGGGC TCCAGGCACC TTCTGCTGCC
    TTAATGCAAG TGTCATCTCT CGATTCCCAC TCAGCTGTAT CTGGAAATGC CCAATCCTTT
    CAGCCCTATG CAGGTATGCA AGCCTACGCT TATCCCCAGG CATCTGCCGT CACCTCCCAG
    CTGCAGCCCG TTCGGCCTTT GTACCCAGCA CCGCTCTCTC AGCCTCCCCA TTTCCAAGGA
    TCAGGTGATA TGGCTTCATT TCTCATGACT GAAGCCCGGC AACATAACAC TGAAATTCGA
    ATGGCAGTCA GCAAAGTGGC TGATAAAATG GATCATCTCA TGACTAAGGT TGAAGAGTTA
    CAGAAACATA GTGCTGGCAA TTCCATGCTT ATTCCTAGCA TGTCAGTTAC AATGGAAACA
    AGCATGATTA TGAGCAACAT CCAGCGAATC ATTCAGGAAA ATGAAAGATT GAAGCAAGAG
    ATCCTTGAAA AGAGCAATCG GATAGAAGAA CAGAATGACA AGATTAGTGA ACTAATTGAA
    CGAAATCAGA GGTATGTTGA GCAGAGTAAC CTGATGATGG AGAAGAGGAA CAACTCACTT
    CAGACAGCCA CAGAAAACAC ACAGGCCAAG GTGACAGAGG AGTTAGCAGC GGCCACTGCA
    CAGGTCTCTC ATCTGCAGCT GAAAATGACT GCTCACCAAA AAAAGGAAAC AGAGCTGCAG
    ATGCAGCTGA CAGAAAGCCT GAAGGAGACA GATCTTCTCA GGGGCCAGCT CACCAAAGTG
    CAGGCAAAGC TCTCAGAGCT CCAAGAAACC TCTGAGCAAG CACAGTCCAA ATTCAAAAGT
    GAAAAGCAGA ACCGGAAACA ACTGGAACTC AAGGTGACAT CCCTGGAGGA GGAACTGACT
    GACCTTCGAG TTGAGAAGGA GTCCTTGGAA AAGAACCTCT CAGAAAGGAA AAAGAAGTCA
    GCTCAAGAGC GTTCTCAGGC CGAGGAGGAG ATAGATGAAA TTCGCAAGTC ATACCAGGAG
    GAATTGGACA AACTTCGACA GCTCTTGAAA AAGACTCGAG TGTCCACAGA CCAAGCAGCT
    GCAGAGCAGC TGTCTTTAGT ACAGGCTGAG CTACAGACCC AGTGGGAAGC AAAATGTGAA
    CATTTGTTGG CCTCCGCCAA GGATGAGCAC CTGCAGCAGT ACCAGGAGGT GTGCGCACAG
    AGAGATGCCT ACCAGCAGAA GCTGGTACAA CTTCAGGAAA AGTGTTTAGC CCTCCAGGCC
    CAAATCACAG CTCTCACCAA GCAAAATGAA CAGCACATCA AGGAACTAGA GAAGAACAAG
    TCCCAGATGT CTGGGGTTGA AGCTGCTGCA TCTGACCCCT CAGAGAAGGT CAAGAAGATC
    ATGAACCAGG TGTTCCAGTC CTTACGGAGA GAGTTTGAGC TGGAGGAATC TTACAATGGC
    AGGACCATTC TGGGAACCAT CATGAATACG ATCAAGATGG TGACTCTTCA GCTGTTAAAC
    CAACAGGAGC AAGAGAAGGA AGAGAGCAGC AGTGAAGAAG AAGAAGAAAA AGCAGAAGAG
    CGGCCACGAA GACCTTCCCA GGAGCAGTCA GCCTCAGCCA GTTCTGGGCA GCCTCAAGCA
    CCCCTGAATA GGGAGAGGCC AGAGTCCCCC ATGGTGCCCT CAGAGCAGGT GGTCGAGGAA
    GCTGTCCCGT TGCCTCCTCA GGCCCTCACC ACTTCCCAGG ATGGACACAG AAGGAAAGGG
    GACTCAGAAG CTGAGGCACT CTCAGAGATA AAAGATGGTT CCCTTCCACC CGAACTGTCT
    TGCATCCCAT CCCACAGAGT TCTAGGGCCC CCGACTTCAA TTCCACCTGA GCCCCTAGGC
    CCTGTATCCA TGGACTCTGA GTGTGAGGAG TCACTTGCTG CCAGCCCAAT GGCAGCTAAG
    CCCGACAACC CATCAGGAAA GGTCTGTGTC AGGGAAGTAG CACCAGATGG CCCACTACAA
    GAAAGCTCCA CAAGACTGTC CCTGACTTCA GACCCCGAGG AGGGGGACCC ACTGGCCTTA
    GGGCCTGAAA GCCCAGGAGA GCCTCAGCCT CCACAGCTCA AGAAAGATGA TGTCACTAGC
    TCCACCGGTC CCCACAAGGA GCTGTCAAGC ACAGAGGCAG GTTCCACAGT TGCAGGAGCA
    GCCCTCAGAC CCAGCCATCA TTCCCAGCGT TCCAGTCTCT CTGGGGATGA AGAGGATGAA
    CTGTTTAAAG GGGCAACTCT GAAAGCTCTG AGGCCCAAAG CACAGCCTGA GGAGGAGGAT
    GAAGACGAGG TGAGCATGAA GGGACGCCCG CCCCCAACGC CCCTTTTTGG AGATGATGAT
    GATGACGATG ACATTGACTG GCTGGGATGA

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

    RefSeq XP_006717081.1
    CDS36..3665
    Translation

    Target ORF information:

    RefSeq Version XM_006717018.2
    Organism Homo sapiens(human)
    Definition Homo sapiens FKBP prolyl isomerase 15 (FKBP15), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006717018.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGTTCGGTG CGGGGGACGA GGACGACACC GATTTCCTCT CGCCGAGCGG CGGTGCCAGA 
    TTGGCCTCAC TTTTTGGACT GGATCAGGCA GCTGCTGGCC ATGGAAATGA ATTTTTCCAG
    TACACAGCCC CAAAACAGCC TAAGAAAGGC CAGGGAACGG CAGCAACAGG AAATCAGGCA
    ACACCAAAAA CAGCACCAGC CACCATGAGC ACTCCCACAA TACTGGTCGC AACAGCAGTC
    CATGCATATC GATACACAAA TGGTCAATAT GTAAAGCAGG GCAAATTTGG TGCTGCAGTT
    CTGGGGAACC ACACAGCCAG AGAGTATAGG ATTCTTCTTT ATATCAGTCA ACAACAGCCA
    GTTACGGTTG CTAGGATTCA TGTGAACTTT GAGCTAATGG TTCGGCCCAA TAACTATAGC
    ACCTTTTATG ATGACCAGAG ACAGAACTGG TCCATCATGT TTGAGTCGGA AAAGGCTGCT
    GTGGAGTTCA ATAAGCAGGT GTGCATTGCT AAGTGCAACA GTACCTCTTC CCTGGATGCA
    GTGCTCTCCC AGGACCTCAT TGTGGCAGAC GGCCCTGCTG TAGAAGTTGG AGATTCTTTG
    GAAGTGGCCT ATACCGGCTG GCTCTTTCAG AATCATGTGC TGGGCCAGGT TTTCGACTCC
    ACTGCTAACA AAGATAAGTT GCTTCGCTTG AAGTTAGGAT CAGGAAAAGT CATCAAGGGC
    TGGGAGGATG GAATGCTGGG CATGAAAAAA GGAGGAAAGC GATTGCTTAT TGTCCCTCCA
    GCCTGTGCTG TTGGCTCAGA AGGGGTAATA GGCTGGACTC AAGCAACGGA CTCGATCCTG
    GTGTTCGAGG TGGAGGTTAG GCGGGTGAAG TTTGCCAGAG ATTCTGGCTC TGATGGTCAC
    AGTGTTAGTT CCCGCGATTC TGCAGCTCCG TCTCCCATCC CTGGTGCTGA CAACCTCTCT
    GCTGATCCTG TTGTGTCACC ACCCACATCA ATACCTTTCA AATCAGGGGA GCCAGCTCTT
    CGTACCAAAT CTAACTCCCT CAGTGAACAA CTTGCAATAA ATACAAGTCC CGATGCAGTC
    AAAGCCAAGT TGATCTCTCG GATGGCTAAA ATGGGCCAGC CCATGCTGCC CATCCTTCCA
    CCACAGCTGG ATTCCAATGA TTCAGAAATC GAAGATGTGA ACACTCTGCA AGGAGGTGGG
    CAGCCTGTGG TGACTCCGTC CGTCCAGCCC TCTCTTCATC CGGCCCATCC AGCGTTACCA
    CAGATGACCT CACAGGCACC TCAGCCATCT GTTACTGGGC TCCAGGCACC TTCTGCTGCC
    TTAATGCAAG TGTCATCTCT CGATTCCCAC TCAGCTGTAT CTGGAAATGC CCAATCCTTT
    CAGCCCTATG CAGGTATGCA AGCCTACGCT TATCCCCAGG CATCTGCCGT CACCTCCCAG
    CTGCAGCCCG TTCGGCCTTT GTACCCAGCA CCGCTCTCTC AGCCTCCCCA TTTCCAAGGA
    TCAGGTGATA TGGCTTCATT TCTCATGACT GAAGCCCGGC AACATAACAC TGAAATTCGA
    ATGGCAGTCA GCAAAGTGGC TGATAAAATG GATCATCTCA TGACTAAGGT TGAAGAGTTA
    CAGAAACATA GTGCTGGCAA TTCCATGCTT ATTCCTAGCA TGTCAGTTAC AATGGAAACA
    AGCATGATTA TGAGCAACAT CCAGCGAATC ATTCAGGAAA ATGAAAGATT GAAGCAAGAG
    ATCCTTGAAA AGAGCAATCG GATAGAAGAA CAGAATGACA AGATTAGTGA ACTAATTGAA
    CGAAATCAGA GGTATGTTGA GCAGAGTAAC CTGATGATGG AGAAGAGGAA CAACTCACTT
    CAGACAGCCA CAGAAAACAC ACAGGCCAAG GTGACAGAGG AGTTAGCAGC GGCCACTGCA
    CAGGTCTCTC ATCTGCAGCT GAAAATGACT GCTCACCAAA AAAAGGAAAC AGAGCTGCAG
    ATGCAGCTGA CAGAAAGCCT GAAGGAGACA GATCTTCTCA GGGGCCAGCT CACCAAAGTG
    CAGGCAAAGC TCTCAGAGCT CCAAGAAACC TCTGAGCAAG CACAGTCCAA ATTCAAAAGT
    GAAAAGCAGA ACCGGAAACA ACTGGAACTC AAGGTGACAT CCCTGGAGGA GGAACTGACT
    GACCTTCGAG TTGAGAAGGA GTCCTTGGAA AAGAACCTCT CAGAAAGGAA AAAGAAGTCA
    GCTCAAGAGC GTTCTCAGGC CGAGGAGGAG ATAGATGAAA TTCGCAAGTC ATACCAGGAG
    GAATTGGACA AACTTCGACA GCTCTTGAAA AAGACTCGAG TGTCCACAGA CCAAGCAGCT
    GCAGAGCAGC TGTCTTTAGT ACAGGCTGAG CTACAGACCC AGTGGGAAGC AAAATGTGAA
    CATTTGTTGG CCTCCGCCAA GGATGAGCAC CTGCAGCAGT ACCAGGAGGT GTGCGCACAG
    AGAGATGCCT ACCAGCAGAA GCTGGTACAA CTTCAGGAAA AGTGTTTAGC CCTCCAGGCC
    CAAATCACAG CTCTCACCAA GCAAAATGAA CAGCACATCA AGGAACTAGA GAAGAACAAG
    TCCCAGATGT CTGGGGTTGA AGCTGCTGCA TCTGACCCCT CAGAGAAGGT CAAGAAGATC
    ATGAACCAGG TGTTCCAGTC CTTACGGAGA GAGTTTGAGC TGGAGGAATC TTACAATGGC
    AGGACCATTC TGGGAACCAT CATGAATACG ATCAAGATGG TGACTCTTCA GCTGTTAAAC
    CAACAGGAGC AAGAGAAGGA AGAGAGCAGC AGTGAAGAAG AAGAAGAAAA AGCAGAAGAG
    CGGCCACGAA GACCTTCCCA GGAGCAGTCA GCCTCAGCCA GTTCTGGGCA GCCTCAAGCA
    CCCCTGAATA GGGAGAGGCC AGAGTCCCCC ATGGTGCCCT CAGAGCAGGT GGTCGAGGAA
    GCTGTCCCGT TGCCTCCTCA GGCCCTCACC ACTTCCCAGG ATGGACACAG AAGGAAAGGG
    GACTCAGAAG CTGAGGCACT CTCAGAGATA AAAGATGGTT CCCTTCCACC CGAACTGTCT
    TGCATCCCAT CCCACAGAGT TCTAGGGCCC CCGACTTCAA TTCCACCTGA GCCCCTAGGC
    CCTGTATCCA TGGACTCTGA GTGTGAGGAG TCACTTGCTG CCAGCCCAAT GGCAGCTAAG
    CCCGACAACC CATCAGGAAA GGTCTGTGTC AGGGAAGTAG CACCAGATGG CCCACTACAA
    GAAAGCTCCA CAAGACTGTC CCTGACTTCA GACCCCGAGG AGGGGGACCC ACTGGCCTTA
    GGGCCTGAAA GCCCAGGAGA GCCTCAGCCT CCACAGCTCA AGAAAGATGA TGTCACTAGC
    TCCACCGGTC CCCACAAGGA GCTGTCAAGC ACAGAGGCAG GTTCCACAGT TGCAGGAGCA
    GCCCTCAGAC CCAGCCATCA TTCCCAGCGT TCCAGTCTCT CTGGGGATGA AGAGGATGAA
    CTGTTTAAAG GGGCAACTCT GAAAGCTCTG AGGCCCAAAG CACAGCCTGA GGAGGAGGAT
    GAAGACGAGG TGAGCATGAA GGGACGCCCG CCCCCAACGC CCCTTTTTGG AGATGATGAT
    GATGACGATG ACATTGACTG GCTGGGATGA

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