Pole cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Pole gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Pole 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
OMv01323 XM_021162898.1
Latest version!
Mus caroli DNA polymerase epsilon, catalytic subunit (Pole), mRNA. pcDNA3.1-C-(k)DYK or customized vector 29-31 $1161.30
$1659.00

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

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

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

  • Reference Sequences (Refseq)
    CloneID OMv01323
    Clone ID Related Accession (Same CDS sequence) XM_021162898.1
    Accession Version XM_021162898.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6852bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product DNA polymerase epsilon catalytic subunit A
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034574.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    ATGGTCCTCA GGAACAGTGG ACGGAGGCAC CCCGAGCCGG GCGCGGACGG CGAAGGCAGC 
    CGGGATGACG GTCCCTCTCC CTCAGTCTCA GCACTCAAAC GTCTGGAACG GAGCCAGTGG
    ACAGATAAGA TGGACTTACG GTTTGGTTTC GAAAGGCTGA AAGAGCCTGG AGAAAGGACT
    GGCTGGCTGA TCAACATGCA CCCTACTGAG ATTTTAGATG AAGACAAACG CTTAGTCAGC
    GCGGTGGATT ACTACTTCAT TCAAGATGAT GGAAGCAGAT TTAAGGTGGC CTTGCCCTAT
    ATGCCATATT TCTACATTGC AGCGAGAAAG GGCTGTGATC GAGAAGTTTC ATCTTTTCTA
    TCTAAGAAGT TTCAGGGAAA AATTGCAAAG TTAGAGAATG TGCCCAAAGA AGATCTGGAC
    TTGCCAAATC ACTTGGTGGG CTTGAAGCGG AGTTACATCA AGCTGTCCTT CCACACTGTG
    GAGGACCTTG TCAAAGTGAG AAAGGAGATC TCTCCTGCTG TGAAGAAGAA CCGAGAGCAG
    GACCATGCTA GTGATGAGTA CACAACGATG CTCTCCAGTA TTCTGCAAGG TGGCAGTGTA
    ATTACTGATG AGGAGGAAAC CTCTAAGAAG ATAGCTGACC AATTGGACAA CATAGTGGAC
    ATGCGGGAGT ATGATGTTCC CTACCACATT CGCCTCTCCA TTGACCTCAG AATCCATGTG
    GCCCACTGGT ACAATGTTAG ATTTCGAGGA AATGCTTTTC CTGTGGAAAT CACCCGACGA
    GATGATCTTG TTGAACGACC TGACCCTGTG GTTTTGGCAT TTGACATCGA GACGACCAAA
    CTGCCCCTCA AATTCCCTGA TGCTGAGACC GATCAGATCA TGATGATCTC CTATATGATT
    GATGGCCAGG GCTACCTCAT CACTAACAGG GAGATTGTTT CAGAAGATAT TGAAGATTTT
    GAGTTCACCC CTAAGCCAGA ATATGAAGGG CCCTTTTGTG TCTTCAATGA ACCCGACGAG
    GTCCATCTGA TCCAGAGATG GTTTGAGCAT ATCCAGGAGA CCAAACCTAC CATTATGGTC
    ACCTACAATG GGGATTTTTT TGACTGGCCA TTTGTGGAGG CTAGGGCAGC AATTCATGGC
    CTCAGCATGT ACCAGGAGAT AGGCTTCCAG AAGGATAGCC AGGGGGAATA TAAGGCACCA
    CAGTGCATCC ACATGGACTG CCTCAGGTGG GTGAAGAGGG ACAGTTACCT TCCTGTGGGC
    AGTCATAATC TCAAGGCAGC TGCCAAGGCC AAACTTGGCT ATGACCCTGT AGAGCTGGAC
    CCTGAGGACA TGTGTCGTAT GGCCACTGAA CAGCTCCAGA CTCTGGCCAC TTACTCAGTG
    TCAGATGCTG TGGCTACTTA CTACCTGTAC ATGAAATACG TCCACCCCTT CATATTCGCC
    CTGTGCACCA TTATTCCCAT GGAACCTGAT GAGGTGCTGC GGAAGGGCTC CGGGACACTG
    TGTGAAGCCT TGCTGATGGT GCAAGCTTTC CATGCCAACA TTATCTTCCC CAATAAGCAA
    GAGCAGGAGT TCAACAAGCT GACAGATGAT GGCCACGTGC TAGATGCTGA GACCTACGTC
    GGGGGCCATG TGGAGGCACT AGAGTCTGGT GTCTTCAGAA GTGATATCCC CTGCCGGTTT
    AGGATGAATC CTGCAGCCTT TGATTTCCTG CTGCAACGAG TTGAGAAGAC TATGCGCCAC
    GCAATTGAAG AAGAAGAGAA GGTGCCTGTG GAACAAGCCA CCAACTTTCA AGAGGTGTGT
    GAGCAGATTA AGACCAAGCT CACCTCCCTA AAAGATGTTC CTAACAGAAT TGAGTGTCCT
    CTAATCTACC ATCTAGATGT GGGGGCCATG TATCCTAACA TAATTCTTAC CAACCGCCTA
    CAGCCTTCTG CCATAGTGGA TGAGGCTACC TGTGCTGCCT GTGACTTCAA TAAGCCTGGA
    GCAAGTTGTC AGAGGAAGAT GGCCTGGCAG TGGAGGGGAG AATTCATGCC AGCCAGTCGC
    AGTGAATACC ATCGGATTCA GCATCAGCTG GAGTCGGAGA AGTTTCCCCC TTTGTTTCCA
    GAGGGGCCAG CACGGGCCTT TCACGAGCTA TCCCGTGAAG AACAGGCTAA ATACGAGAAG
    AGGAGGCTGG CAGATTATTG CCGGAAAGCC TATAAGAAGA TCCATGTGAC CAAGGTAGAA
    GAGCGTCTAA CTACCATCTG CCAGCGGGAA AACTCATTTT ATGTGGACAC AGTGCGGGCC
    TTCAGAGACA GGCGCTATGA GTTCAAAGGA CTGCACAAGG TGTGGAAGAA GAAGCTCTCG
    GCAGCTGTAG AGGTGGGCGA TGCATCAGAG GTGAAGCGCT GCAAGAACAT GGAGATCCTT
    TACGATTCAC TGCAGCTGGC GCACAAGTGC ATCCTGAACT CCTTCTACGG CTATGTCATG
    CGCAAAGGAG CTCGCTGGTA TTCCATGGAG ATGGCTGGTA TCGTCTGCTT TACAGGAGCC
    AACATCATCA CCCAAGCAAG AGAACTGATT GAGCAGATCG GGAGGCCTTT AGAATTGGAC
    ACGGACGGAA TATGGTGCGT CCTACCCAAT AGCTTTCCTG AAAATTTTGT CATCAAGACA
    ACCAATGCAA AGAAACCCAA ACTGACCATC TCCTATCCTG GTGCCATGTT GAACATCATG
    GTCAAGGAAG GCTTTACCAA CCACCAGTAC CAGGAACTAA CAGAGCCTTC GTCTCTCACC
    TATGTCACCC ACTCTGAGAA CAGTATCTTT TTTGAAGTCG ATGGACCATA CCTTGCTATG
    ATCCTTCCAG CCTCCAAGGA AGAAGGCAAG AAGCTGAAGA AAAGATATGC TGTGTTCAAT
    GAAGATGGTT CCTTGGCTGA ACTGAAAGGT TTTGAGGTGA AACGCCGAGG GGAGTTGCAG
    CTGATTAAAA TCTTCCAGTC CTCAGTTTTT GAGGCCTTCC TCAAGGGCAG CACATTGGAG
    GAAGTGTATG GCTCTGTGGC CAAAGTGGCT GACTACTGGC TAGATGTGCT CTATAGCAAG
    GCTGCTAATA TGCCCGATTC TGAATTGTTT GAGCTGATTT CGGAGAACCG CTCCATGTCT
    CGGAAGCTAG AAGATTACGG GGAGCAGAAG TCTACGTCCA TCAGTACAGC AAAGCGCCTG
    GCTGAGTTCC TGGGAGACCA AATGGTCAAA GATGCTGGAC TGAGCTGCCG CTATATCATC
    TCCCGAAAGC CAGAGGGGTC TCCTGTCACT GAGAGGGCCA TTCCACTTGC CATTTTCCAA
    GCAGAGCCTA CAGTGAGGAA ACATTTTCTC CGGAAATGGC TAAAGAGTTC ATCACTTCAA
    GACTTTGATA TTCGGACAAT TCTGGACTGG GACTACTACA TAGAGCGGCT GGGGAGTGCC
    ATCCAGAAAA TCATCACCAT CCCCGCAGCT CTGCAGCAGG TGAAGAACCC AGTTCCACGT
    GTCAAACATC CAGACTGGCT ACACAAAAAA CTACTAGAGA AGAATGATAT CTACAAACAA
    AAGAAGATCA GTGAGCTCTT TGTGCTTGAA GGAAAGAGAC AGATTGTGAT GGCCCAGGCT
    TCAGAAAACA GTCTGAGCCT CTGCACTCCA GACATGGAGG ACATTGGACT CACAAAGCCA
    CACCACTCTA CAGTCCCAGT TGCTACTAAG AGGAAGCGAG TCTGGGAGAC CCAAAAGGAG
    TCTCAGGATA TTGCACTAAC TGTGCCCTGG CAAGAGGTCT TAGGGCAGCC TCCCTCCCTT
    GGAACCACAC AGGAAGAGTG GTTGGTCTGG CTCCAGTTCC ACAAGAAAAA GTGGCAGCTG
    CAGGCCCAAC AGCGCTTAGC CCTCAGGAAG AAGCAACGCT TAGAGTCAGC AGAAGATATG
    CCAAGACTTG GGGCTATCCG AGAGGGACCT TCCACAGGAC TGGGGAGCTT TTTTCGAAGG
    ACTGCCCGCA GCATCATGGA CCTTCCATGG CAGATAATAC AGATCAGTGA GACCAGACAG
    GCTGGTCTGT TCCGGCTGTG GGCTATCATT GGCAATGACT TGCACTGCAT CAAGCTGAGT
    ATCCCTCGAG TATTCTATGT AAACCAGCGG GTTGCCAAAG CAGAGGATGG ACCTGCATAT
    CGGAAGGTGA ATCGGGCTCT TCCTCGTTCC AACATTGTCT ACAATCTCTA TGAGTATTCA
    GTACCAGAGG ACATGTACCA AGAACACATC AACGAGATCA ACACTGAGTT GTCGGTACCA
    GACATTGAGG GCGTGTATGA GACACAGGTC CCATTGTTAT TCCGGGCCCT CGTGCAGCTG
    GGCTGTGTGT GTGTGGTCAA CAAACAGCTG ACAAGGCACC TTTCGGGCTG GGAAGCTGAA
    ACTTTTGCCC TCGAGCACCT TGAAATGCGT TCTCTGGCCC AGTTCAGCTA CTTGGAACCA
    GGGAGTATCC GCCATATCTA CCTGTACCAT CACACTCAGG GCCACAAGGC ACTCTTTGGG
    GTCTTTATCC CCTCACAGCG AAGAGCATCT GTGTTTGTGT TGGATACTGT ACGAAGCAAC
    CAAATGCCAG GGCTCAGTGC CCTGTACTCA TCAGAACACA GCCTGCTGCT GGACAAGGTG
    GACCCCAAGC TCCTGCCTCC CCCAAAACAC ACCTTTGAAG TTCGTGCTGA AACCAACCTG
    AAGACCATCT GCAGAGCCAT CCAGCGCTTC CTGCTTGCCT ACAAGGAAGA GCGCCGGGGG
    CCCACACTCA TCGCTGTCCA GTCTAGCTGG GAGCTGTGTA GGCTGACCAG TGAGATTCCA
    GTCTTAGAAG AGTTCCCACT AGTGCCTGTC CGAGTGGCTG ACAAGATCAG CTATGCAGTC
    CTGGACTGGC AGCGCCATGG AGCTCGCCGA ATGATCCGGC ACTACCTCAA TTTAGACTTG
    TGCCTTTCAC AGGCCTTTGA GATGAGCAGG TACTTCCACA TCCCTGTTGG AAACCTGCCA
    GAAGACATCT CCACCTTTGG CTCAGACCTC TTTTTTGCAC GCCACCTCCA GCACCATAAC
    CACCTGCTTT GGCTATCCCC TACCTCTCGG CCTGACCTGG GTGGAAAGGA AGCTGATGAC
    AACCGCCTTG TCATGGAGTT TGATGACCGA GCCACTGTGG AGATCAATAG TTCTGGCTGT
    TACTCTACTG TGTGCGTGGA GCTGGACATT CAAAATCTGG CAGTCAACAC CATCCTCCAG
    TCCCATCATG TCAATGACAT GGAGGGGGCT GGCAGCATGG GCATCAGCTT CGATGTGATC
    CAGCAGGCCT CCCTAGAGGA CATGGTGACA GGCAATCAAG CTGCCAGTGC CCTGGCCAAC
    TACGATGAGA CAGCCCTCTG CTCTAGTACC TTCAGGATCC TGAAGAGCAT GGTGGTTGGC
    TGGGTAAAGG AAATCACACA GTACCACAAC ATCTACGCTG ACAACCAGGT AATGCACTTC
    TACCGCTGGC TCCAGTCACC GTGCTCTCTG CTCCATGACC CAGCCCTTCA CCGGACGCTG
    CACAATATGA TGAAGAAGCT CTTCCTACAG CTCGTTGCTG AGTTCAAGCG CCTGGGGTCA
    TCAATCGTCT ATGCCAACTT CAATCGCATC ATTCTCTGTA CAAAGAAGCG CCGAATAGAG
    GATGCCCTTG CCTATGTGGA ATATATCACC AACAGCATCC ATTCTAAAGA GATCTTTCAT
    TCCCTGACCA TCTCTTTCTC TCGATGCTGG GAATTCCTTC TCTGGATGGA TCCATCCAAC
    TATGGTGGAA TCAAAGGAAA AGTTCCATCT AGTATTCACT GTGGACAGGT AAAAGAGCAA
    GACTCCCAGG CAAGGGAGGA AACTGATGAA GAGGAGGAGG ACAAGGAAAA GGACGAGGAG
    GAAGAGGACA TGGGGGAGTC CGAGGTTGAG GACTTACTGG AGAACAATTG GAACATTCTA
    CAGTTCTTGC CCCAGGCAGC CTCTTGCCAG AGCTACTTCC TCATGATTGT TTCAGCATAC
    ATCGTAGCTG TGTACCAAAG CATGAAGGAA GAGTTGAGAC ACAGTGCCCC GGGCAGTACC
    CCTGTGAAGA GGAAGGGGGC CAGCCAGTTC TCCCAGGAGT CTGAAGGGGC AGCTGGATCT
    CTTCCTGGAA TGATCACTTT CTCTCAAGAT TATGTGGCAA ATGAGCTCAC TCAGAGCTTC
    TTCACCATTA CTCAGAAAAT TCAGAAGAAA GTCACAGGTT CTCGGAACAC CACTGAGCCC
    TCAGAGATGT TCCCCGTCCT CCCTGGTTCA CACTTGCTGC TCAATAATCC TGCTCTGGAG
    TTCATCAAAT ATGTGTGCAA GGTACTGTCT CTGGATACAA ACATCACAAA TCAGGTGAAT
    AAGCTGAACA GAGACCTTCT TCGCCTGGTA GACGTTGGTG AATTCTCTGA GGAGGCCCAG
    TTCAGAGACC CCTGCCACTC CTACGTGCTC CCTGAGGTAA TCTGCCACAG CTGTAATTTC
    TGCCGAGACC TGGACCTGTG CAAAGATTCC TCTTTCTCTC AGGATGGAGC CATCCTGCCT
    CAGTGGCTCT GTTCCAATTG TCAAGCCCCC TATGACTCAT CTGCCATTGA GTCAGCCTTG
    GTGGAAACCC TGCAGAGGAA ACTGATGGCC TTCACACTTC AGGACCTGGT ATGCCTCAAG
    TGCCGTGGTA TGAAAGAGAC CCATATGCCA GTGTACTGCA GCTGCGCAGG GGACTTTGCT
    CTCACCATCC GCACTGAGGT CTTCATGGAA CAGATTAGAA TCTTCCAGAA CATTGCCAAG
    TACTACAGCA TGTCATATCT CCAGGAGACC ATAGAATGGC TGCTACAGAC AAGCCCTGTA
    TCAAACTGTT AG

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

    RefSeq XP_021018557.1
    CDS64..6915
    Translation

    Target ORF information:

    RefSeq Version XM_021162898.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli DNA polymerase epsilon, catalytic subunit (Pole), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021162898.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    ATGGTCCTCA GGAACAGTGG ACGGAGGCAC CCCGAGCCGG GCGCGGACGG CGAAGGCAGC 
    CGGGATGACG GTCCCTCTCC CTCAGTCTCA GCACTCAAAC GTCTGGAACG GAGCCAGTGG
    ACAGATAAGA TGGACTTACG GTTTGGTTTC GAAAGGCTGA AAGAGCCTGG AGAAAGGACT
    GGCTGGCTGA TCAACATGCA CCCTACTGAG ATTTTAGATG AAGACAAACG CTTAGTCAGC
    GCGGTGGATT ACTACTTCAT TCAAGATGAT GGAAGCAGAT TTAAGGTGGC CTTGCCCTAT
    ATGCCATATT TCTACATTGC AGCGAGAAAG GGCTGTGATC GAGAAGTTTC ATCTTTTCTA
    TCTAAGAAGT TTCAGGGAAA AATTGCAAAG TTAGAGAATG TGCCCAAAGA AGATCTGGAC
    TTGCCAAATC ACTTGGTGGG CTTGAAGCGG AGTTACATCA AGCTGTCCTT CCACACTGTG
    GAGGACCTTG TCAAAGTGAG AAAGGAGATC TCTCCTGCTG TGAAGAAGAA CCGAGAGCAG
    GACCATGCTA GTGATGAGTA CACAACGATG CTCTCCAGTA TTCTGCAAGG TGGCAGTGTA
    ATTACTGATG AGGAGGAAAC CTCTAAGAAG ATAGCTGACC AATTGGACAA CATAGTGGAC
    ATGCGGGAGT ATGATGTTCC CTACCACATT CGCCTCTCCA TTGACCTCAG AATCCATGTG
    GCCCACTGGT ACAATGTTAG ATTTCGAGGA AATGCTTTTC CTGTGGAAAT CACCCGACGA
    GATGATCTTG TTGAACGACC TGACCCTGTG GTTTTGGCAT TTGACATCGA GACGACCAAA
    CTGCCCCTCA AATTCCCTGA TGCTGAGACC GATCAGATCA TGATGATCTC CTATATGATT
    GATGGCCAGG GCTACCTCAT CACTAACAGG GAGATTGTTT CAGAAGATAT TGAAGATTTT
    GAGTTCACCC CTAAGCCAGA ATATGAAGGG CCCTTTTGTG TCTTCAATGA ACCCGACGAG
    GTCCATCTGA TCCAGAGATG GTTTGAGCAT ATCCAGGAGA CCAAACCTAC CATTATGGTC
    ACCTACAATG GGGATTTTTT TGACTGGCCA TTTGTGGAGG CTAGGGCAGC AATTCATGGC
    CTCAGCATGT ACCAGGAGAT AGGCTTCCAG AAGGATAGCC AGGGGGAATA TAAGGCACCA
    CAGTGCATCC ACATGGACTG CCTCAGGTGG GTGAAGAGGG ACAGTTACCT TCCTGTGGGC
    AGTCATAATC TCAAGGCAGC TGCCAAGGCC AAACTTGGCT ATGACCCTGT AGAGCTGGAC
    CCTGAGGACA TGTGTCGTAT GGCCACTGAA CAGCTCCAGA CTCTGGCCAC TTACTCAGTG
    TCAGATGCTG TGGCTACTTA CTACCTGTAC ATGAAATACG TCCACCCCTT CATATTCGCC
    CTGTGCACCA TTATTCCCAT GGAACCTGAT GAGGTGCTGC GGAAGGGCTC CGGGACACTG
    TGTGAAGCCT TGCTGATGGT GCAAGCTTTC CATGCCAACA TTATCTTCCC CAATAAGCAA
    GAGCAGGAGT TCAACAAGCT GACAGATGAT GGCCACGTGC TAGATGCTGA GACCTACGTC
    GGGGGCCATG TGGAGGCACT AGAGTCTGGT GTCTTCAGAA GTGATATCCC CTGCCGGTTT
    AGGATGAATC CTGCAGCCTT TGATTTCCTG CTGCAACGAG TTGAGAAGAC TATGCGCCAC
    GCAATTGAAG AAGAAGAGAA GGTGCCTGTG GAACAAGCCA CCAACTTTCA AGAGGTGTGT
    GAGCAGATTA AGACCAAGCT CACCTCCCTA AAAGATGTTC CTAACAGAAT TGAGTGTCCT
    CTAATCTACC ATCTAGATGT GGGGGCCATG TATCCTAACA TAATTCTTAC CAACCGCCTA
    CAGCCTTCTG CCATAGTGGA TGAGGCTACC TGTGCTGCCT GTGACTTCAA TAAGCCTGGA
    GCAAGTTGTC AGAGGAAGAT GGCCTGGCAG TGGAGGGGAG AATTCATGCC AGCCAGTCGC
    AGTGAATACC ATCGGATTCA GCATCAGCTG GAGTCGGAGA AGTTTCCCCC TTTGTTTCCA
    GAGGGGCCAG CACGGGCCTT TCACGAGCTA TCCCGTGAAG AACAGGCTAA ATACGAGAAG
    AGGAGGCTGG CAGATTATTG CCGGAAAGCC TATAAGAAGA TCCATGTGAC CAAGGTAGAA
    GAGCGTCTAA CTACCATCTG CCAGCGGGAA AACTCATTTT ATGTGGACAC AGTGCGGGCC
    TTCAGAGACA GGCGCTATGA GTTCAAAGGA CTGCACAAGG TGTGGAAGAA GAAGCTCTCG
    GCAGCTGTAG AGGTGGGCGA TGCATCAGAG GTGAAGCGCT GCAAGAACAT GGAGATCCTT
    TACGATTCAC TGCAGCTGGC GCACAAGTGC ATCCTGAACT CCTTCTACGG CTATGTCATG
    CGCAAAGGAG CTCGCTGGTA TTCCATGGAG ATGGCTGGTA TCGTCTGCTT TACAGGAGCC
    AACATCATCA CCCAAGCAAG AGAACTGATT GAGCAGATCG GGAGGCCTTT AGAATTGGAC
    ACGGACGGAA TATGGTGCGT CCTACCCAAT AGCTTTCCTG AAAATTTTGT CATCAAGACA
    ACCAATGCAA AGAAACCCAA ACTGACCATC TCCTATCCTG GTGCCATGTT GAACATCATG
    GTCAAGGAAG GCTTTACCAA CCACCAGTAC CAGGAACTAA CAGAGCCTTC GTCTCTCACC
    TATGTCACCC ACTCTGAGAA CAGTATCTTT TTTGAAGTCG ATGGACCATA CCTTGCTATG
    ATCCTTCCAG CCTCCAAGGA AGAAGGCAAG AAGCTGAAGA AAAGATATGC TGTGTTCAAT
    GAAGATGGTT CCTTGGCTGA ACTGAAAGGT TTTGAGGTGA AACGCCGAGG GGAGTTGCAG
    CTGATTAAAA TCTTCCAGTC CTCAGTTTTT GAGGCCTTCC TCAAGGGCAG CACATTGGAG
    GAAGTGTATG GCTCTGTGGC CAAAGTGGCT GACTACTGGC TAGATGTGCT CTATAGCAAG
    GCTGCTAATA TGCCCGATTC TGAATTGTTT GAGCTGATTT CGGAGAACCG CTCCATGTCT
    CGGAAGCTAG AAGATTACGG GGAGCAGAAG TCTACGTCCA TCAGTACAGC AAAGCGCCTG
    GCTGAGTTCC TGGGAGACCA AATGGTCAAA GATGCTGGAC TGAGCTGCCG CTATATCATC
    TCCCGAAAGC CAGAGGGGTC TCCTGTCACT GAGAGGGCCA TTCCACTTGC CATTTTCCAA
    GCAGAGCCTA CAGTGAGGAA ACATTTTCTC CGGAAATGGC TAAAGAGTTC ATCACTTCAA
    GACTTTGATA TTCGGACAAT TCTGGACTGG GACTACTACA TAGAGCGGCT GGGGAGTGCC
    ATCCAGAAAA TCATCACCAT CCCCGCAGCT CTGCAGCAGG TGAAGAACCC AGTTCCACGT
    GTCAAACATC CAGACTGGCT ACACAAAAAA CTACTAGAGA AGAATGATAT CTACAAACAA
    AAGAAGATCA GTGAGCTCTT TGTGCTTGAA GGAAAGAGAC AGATTGTGAT GGCCCAGGCT
    TCAGAAAACA GTCTGAGCCT CTGCACTCCA GACATGGAGG ACATTGGACT CACAAAGCCA
    CACCACTCTA CAGTCCCAGT TGCTACTAAG AGGAAGCGAG TCTGGGAGAC CCAAAAGGAG
    TCTCAGGATA TTGCACTAAC TGTGCCCTGG CAAGAGGTCT TAGGGCAGCC TCCCTCCCTT
    GGAACCACAC AGGAAGAGTG GTTGGTCTGG CTCCAGTTCC ACAAGAAAAA GTGGCAGCTG
    CAGGCCCAAC AGCGCTTAGC CCTCAGGAAG AAGCAACGCT TAGAGTCAGC AGAAGATATG
    CCAAGACTTG GGGCTATCCG AGAGGGACCT TCCACAGGAC TGGGGAGCTT TTTTCGAAGG
    ACTGCCCGCA GCATCATGGA CCTTCCATGG CAGATAATAC AGATCAGTGA GACCAGACAG
    GCTGGTCTGT TCCGGCTGTG GGCTATCATT GGCAATGACT TGCACTGCAT CAAGCTGAGT
    ATCCCTCGAG TATTCTATGT AAACCAGCGG GTTGCCAAAG CAGAGGATGG ACCTGCATAT
    CGGAAGGTGA ATCGGGCTCT TCCTCGTTCC AACATTGTCT ACAATCTCTA TGAGTATTCA
    GTACCAGAGG ACATGTACCA AGAACACATC AACGAGATCA ACACTGAGTT GTCGGTACCA
    GACATTGAGG GCGTGTATGA GACACAGGTC CCATTGTTAT TCCGGGCCCT CGTGCAGCTG
    GGCTGTGTGT GTGTGGTCAA CAAACAGCTG ACAAGGCACC TTTCGGGCTG GGAAGCTGAA
    ACTTTTGCCC TCGAGCACCT TGAAATGCGT TCTCTGGCCC AGTTCAGCTA CTTGGAACCA
    GGGAGTATCC GCCATATCTA CCTGTACCAT CACACTCAGG GCCACAAGGC ACTCTTTGGG
    GTCTTTATCC CCTCACAGCG AAGAGCATCT GTGTTTGTGT TGGATACTGT ACGAAGCAAC
    CAAATGCCAG GGCTCAGTGC CCTGTACTCA TCAGAACACA GCCTGCTGCT GGACAAGGTG
    GACCCCAAGC TCCTGCCTCC CCCAAAACAC ACCTTTGAAG TTCGTGCTGA AACCAACCTG
    AAGACCATCT GCAGAGCCAT CCAGCGCTTC CTGCTTGCCT ACAAGGAAGA GCGCCGGGGG
    CCCACACTCA TCGCTGTCCA GTCTAGCTGG GAGCTGTGTA GGCTGACCAG TGAGATTCCA
    GTCTTAGAAG AGTTCCCACT AGTGCCTGTC CGAGTGGCTG ACAAGATCAG CTATGCAGTC
    CTGGACTGGC AGCGCCATGG AGCTCGCCGA ATGATCCGGC ACTACCTCAA TTTAGACTTG
    TGCCTTTCAC AGGCCTTTGA GATGAGCAGG TACTTCCACA TCCCTGTTGG AAACCTGCCA
    GAAGACATCT CCACCTTTGG CTCAGACCTC TTTTTTGCAC GCCACCTCCA GCACCATAAC
    CACCTGCTTT GGCTATCCCC TACCTCTCGG CCTGACCTGG GTGGAAAGGA AGCTGATGAC
    AACCGCCTTG TCATGGAGTT TGATGACCGA GCCACTGTGG AGATCAATAG TTCTGGCTGT
    TACTCTACTG TGTGCGTGGA GCTGGACATT CAAAATCTGG CAGTCAACAC CATCCTCCAG
    TCCCATCATG TCAATGACAT GGAGGGGGCT GGCAGCATGG GCATCAGCTT CGATGTGATC
    CAGCAGGCCT CCCTAGAGGA CATGGTGACA GGCAATCAAG CTGCCAGTGC CCTGGCCAAC
    TACGATGAGA CAGCCCTCTG CTCTAGTACC TTCAGGATCC TGAAGAGCAT GGTGGTTGGC
    TGGGTAAAGG AAATCACACA GTACCACAAC ATCTACGCTG ACAACCAGGT AATGCACTTC
    TACCGCTGGC TCCAGTCACC GTGCTCTCTG CTCCATGACC CAGCCCTTCA CCGGACGCTG
    CACAATATGA TGAAGAAGCT CTTCCTACAG CTCGTTGCTG AGTTCAAGCG CCTGGGGTCA
    TCAATCGTCT ATGCCAACTT CAATCGCATC ATTCTCTGTA CAAAGAAGCG CCGAATAGAG
    GATGCCCTTG CCTATGTGGA ATATATCACC AACAGCATCC ATTCTAAAGA GATCTTTCAT
    TCCCTGACCA TCTCTTTCTC TCGATGCTGG GAATTCCTTC TCTGGATGGA TCCATCCAAC
    TATGGTGGAA TCAAAGGAAA AGTTCCATCT AGTATTCACT GTGGACAGGT AAAAGAGCAA
    GACTCCCAGG CAAGGGAGGA AACTGATGAA GAGGAGGAGG ACAAGGAAAA GGACGAGGAG
    GAAGAGGACA TGGGGGAGTC CGAGGTTGAG GACTTACTGG AGAACAATTG GAACATTCTA
    CAGTTCTTGC CCCAGGCAGC CTCTTGCCAG AGCTACTTCC TCATGATTGT TTCAGCATAC
    ATCGTAGCTG TGTACCAAAG CATGAAGGAA GAGTTGAGAC ACAGTGCCCC GGGCAGTACC
    CCTGTGAAGA GGAAGGGGGC CAGCCAGTTC TCCCAGGAGT CTGAAGGGGC AGCTGGATCT
    CTTCCTGGAA TGATCACTTT CTCTCAAGAT TATGTGGCAA ATGAGCTCAC TCAGAGCTTC
    TTCACCATTA CTCAGAAAAT TCAGAAGAAA GTCACAGGTT CTCGGAACAC CACTGAGCCC
    TCAGAGATGT TCCCCGTCCT CCCTGGTTCA CACTTGCTGC TCAATAATCC TGCTCTGGAG
    TTCATCAAAT ATGTGTGCAA GGTACTGTCT CTGGATACAA ACATCACAAA TCAGGTGAAT
    AAGCTGAACA GAGACCTTCT TCGCCTGGTA GACGTTGGTG AATTCTCTGA GGAGGCCCAG
    TTCAGAGACC CCTGCCACTC CTACGTGCTC CCTGAGGTAA TCTGCCACAG CTGTAATTTC
    TGCCGAGACC TGGACCTGTG CAAAGATTCC TCTTTCTCTC AGGATGGAGC CATCCTGCCT
    CAGTGGCTCT GTTCCAATTG TCAAGCCCCC TATGACTCAT CTGCCATTGA GTCAGCCTTG
    GTGGAAACCC TGCAGAGGAA ACTGATGGCC TTCACACTTC AGGACCTGGT ATGCCTCAAG
    TGCCGTGGTA TGAAAGAGAC CCATATGCCA GTGTACTGCA GCTGCGCAGG GGACTTTGCT
    CTCACCATCC GCACTGAGGT CTTCATGGAA CAGATTAGAA TCTTCCAGAA CATTGCCAAG
    TACTACAGCA TGTCATATCT CCAGGAGACC ATAGAATGGC TGCTACAGAC AAGCCCTGTA
    TCAAACTGTT AG

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