LOC100911486 cDNA ORF clone, Rattus norvegicus(Norway rat)

The following LOC100911486 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC100911486 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.

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ORa51255 XM_008764417.1
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Rattus norvegicus multiple epidermal growth factor-like domains protein 6-like (LOC100911486), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
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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 ORa51255
    Clone ID Related Accession (Same CDS sequence) XM_008764417.1
    Accession Version XM_008764417.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4446bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product multiple epidermal growth factor-like domains protein 6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005104.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-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
    ATGGAGACAC TGAGGCCCCA CGTGTGTGCA GAACAGAAGC TGACCCTGGT GGGCCACCGC 
    CAGCCTTGTG TGCAAGCCTT CAGTCGCATA GTGCCTGTGT GGAGGAGGAC AGGCTGCGCA
    CAGCAGGCGT GGTGTATTGG CCAAGAGCGC AGGACTGTGT ACTATATGAG CTACAGGCAG
    GTATATGCCA CAGAGGCCCG AACGGTGTTC AGGTGCTGCC CTGGCTGGAG CCAGAAGCCT
    GGCCAGGAAG GCTGCCTCTC AGATGTGGAC GAATGCGCCA GTGCCAACGG GGGTTGCGAG
    GGCCCATGCT GTAACACTGT GGGTGGCTTT TACTGCCGCT GCCCACCCGG CTACCAGCTG
    CAGGGTGACG GCAAAACCTG CCAAGATGTG GATGAATGTC GAGCACACAA TGGTGGTTGT
    CAACACAGGT GTGTGAACAC CCCCGGTTCT TACCTCTGTG AATGCAAACC TGGCTTCCGG
    CTCCACACAG ATGGCAGGAC CTGCCTGGCC ATCAGCTCCT GCACTCTGGG AAACGGTGGC
    TGCCAGCACC AGTGTGTACA GCTCACAGTG ACACAGCACC GCTGCCAGTG CCGGCCCCAG
    TACCAGCTGC AAGAGGATGG CAGGCGCTGT GTGCGGAGAA GCCCGTGTGC AGAAGGCAAT
    GGTGGCTGTA TGCATATATG CCAGGAACTC CGGGGCCTTG CCCACTGTGG CTGCCACCCC
    GGTTACCAGC TTGCTGCAGA CCGCAAAACC TGTGAAGATG TGGATGAATG TGCTTTGGGG
    CTGGCCCAGT GTGCTCATGG CTGCCTCAAC ACTCAGGGAT CCTTTAAGTG TGTGTGCCAC
    GCAGGCTATG AACTGGGCGC CGATGGCCGG CAGTGTTACC GGATCGAGAT GGAGATTGTG
    AACAGCTGTG AGGCTGGCAA CGGTGGGTGC TCCCACGGCT GTAGCCACAC CAGCACTGGG
    CCCCTGTGCA CCTGCCCTCG TGGTTACGAG TTGGATGAAG ACCAGAAGAC CTGTATCGAC
    ATCGACGACT GCGCCAACTC TCCGTGCTGC CAGCAGGCAT GTGCCAACAC CCCTGGTGGG
    TATGAGTGCA GCTGTTTCGC TGGCTACCGG CTCAACACGG ACGGCTGTGG CTGTGAGGAT
    GTTGACGAGT GCGCCTCTGG TCACGGTGGC TGCGAACACC ACTGTTCTAA TCTGGCGGGC
    TCCTTCCAGT GCTTCTGTGA GGCCGGTTAC CGGTTGGATG AGGACCGCAG GGGCTGCACT
    TCCCTAGAAG AATCTGTGGT GGACCTGGAT GGCCGGCTGC CCTTTGTGCG GCCCCTGCCC
    CACATTGCGG TGCTGAGGGA TGAGCTGCCC CGACTCTTCC AGGATGATTA TGGGGCTGAG
    GAGGAGGCGG CGGCAGCGGA GTTGCGTGGA GAACACACGC TCACTGAGAA GTTTGTCTGC
    TTGGATCACT CCTTCGGCCA TGACTGCAGC CTAACCTGCG ATGACTGCAG GAATGGGGGG
    ACTTGCTTCC CGGGCCAGGA CGGCTGTGAC TGCCCAGAGG GCTGGACTGG AATCATCTGC
    AATGAGACTT GTCCTCCAGA CACCTTTGGG AAGAATTGTA GCTCTCCCTG CACCTGTCAG
    AATGGTGGGA CCTGTGACCC GGTGTTGGGA GCCTGCCGCT GTCCTCCAGG CGTCAGTGGA
    GCCCACTGTG AGGATGGCTG CCCCAAGGGC TTCTACGGCA AACATTGCCG TAAGAAATGC
    CACTGTGCTA ACCGGGGCCG GTGCCACCGC CTCTATGGGG CCTGCCTCTG TGACCCAGGG
    CTCTATGGTC GTTTCTGCCA CCTTGCCTGT CCTCCCTGGG CCTTCGGGCC AGGCTGTTCT
    GAGGACTGCC TTTGCGAGCA GTCACACACA AGGTCTTGCA ACCCGAAGGA CGGTAGCTGC
    TCCTGCAAGG CCGGCTTCCA GGGTGAGCGC TGCCAGGCAG AGTGTGAGTC AGGCTTCTTT
    GGACCAGGCT GCAGACACCG TTGCACCTGC CAGCCAGGTG TGGCCTGTGA CCCTGTGAGT
    GGCGAGTGTC GGACTCAGTG TCCTCCTGGC TACCAGGGGG AAGACTGTGG CCAAGAGTGC
    CCGGTGGGAA CATTTGGTGT GAACTGCTCA GGTTCCTGTT CCTGCGTTGG AGCGCCTTGT
    CACCGAGTCA CAGGGGAGTG TCTGTGCCCA CCAGGGAAGA CTGGGGAGGA CTGTGGAGCT
    GATTGTCCCG AGGGCCGTTG GGGGCTCGGC TGTCAAGAGA TCTGCCCCGC ATGTGAGCAC
    GGAGCCAGCT GCAACCCTGA GACTGGAACC TGCCTGTGTC TCCCTGGCTT TGTTGGTAGC
    CGCTGCCAGG ACACTTGCTC AGCAGGCTGG TACGGGACTG GCTGCCAGAT AAGGTGTGCT
    TGTGCCAACG ATGGGCATTG TGACCCAACC ACCGGACGCT GTAGCTGTGC CCCCGGGTGG
    ACTGGCCTCA GCTGCCAGAG AGCCTGTGAC AGTGGACACT GGGGGCCCGA CTGCATCCAC
    CCTTGCAACT GCAGTGCGGG CCATGGGAAT TGTGACGCCG TCAGTGGCCT CTGCCTGTGT
    GAGGCCGGCT ATGAAGGTCC ACGGTGTGAG CAGTCGTGTC GCCAGGGATA CTATGGGCCC
    AGCTGTGAGC AGAAGTGCAG ATGTGAGCAT GGGGCTGCCT GTGACCATGT CAGTGGGGCC
    TGTACCTGCC CAGCCGGCTG GAGGGGAAGC TTCTGTGAAC ATGCCTGTCC TGCTGGCTTC
    TTTGGGTTAG ACTGTGACAG TGCCTGCAAC TGCTCTGCCG GGGCACCCTG TGATGCTGTC
    ACCGGCTCAT GCATCTGCCC AGCTGGCCGC TGGGGCCCAC GCTGTGCCCA GAGTTGCCCA
    CCCCTCACCT TCGGGCTTAA CTGCAGCCAG ATTTGTACCT GTTTCAATGG GGCCTCCTGT
    GACTCTGTCA CAGGGCAATG CCACTGTGCC CCTGGCTGGA TGGGACCCAC CTGCCTGCAG
    GCCTGCCCTC CTGGCCTGTA TGGCAAGAAC TGTCAGCATT CCTGTCTTTG CCGCAACGGA
    GGGAGATGTG ACCCCATCTT GGGCCAGTGC ACGTGCCCAG AGGGTTGGAC CGGCTTGGCC
    TGTGAGAACG AGTGCCTTCC TGGACACTAT GCAGCCGGTT GTCAGCTCAA CTGCAGTTGC
    CTTCACGGGG GCATATGTGA CCGGCTTACC GGCCACTGCC TCTGCCCAGC TGGCTGGACT
    GGGGACAAGT GTCAGAGCTC CTGCGTCAGT GGCACGTTTG GGGTTCACTG TGAGGAACAC
    TGTGCTTGCC GGAAAGGTGC CTCCTGCCAC CATGTCACAG GGGCCTGCTT CTGTCCTCCA
    GGATGGAGGG GCCCACACTG TGAGCAGGCC TGTCCACGCG GATGGTTTGG AGAGGCCTGT
    GCTCAGCGTT GCCTCTGCCC ACCCAATGCC TCCTGCCACC ATGTCACTGG GGAGTGCCGC
    TGTCCACCCG GCTTTACTGG GCTTAGCTGT GAGCAGGCTT GTCAGCCTGG CACCTTTGGA
    AAGGACTGTG AGCACCTGTG CCAGTGTCCT GGTGAGACCT GGGCCTGCGA CCCTGCTTCA
    GGGGTCTGCA CGTGTGCCGC TGGTTACCAT GGCACCGGCT GTCTGCAAAG ATGCCCATCT
    GGGCGCTATG GGCCGGGCTG TGAACACATT TGTAAGTGTC TCAATGGTGG GACCTGCGAC
    CCAGCCACGG GAGCCTGCTA CTGTCCTGCT GGGTTCCTTG GGGCCGACTG CAGCCTTGCC
    TGTCCACAGG GTCGCTTTGG CCCCAGCTGT GCCCACGTGT GTGCATGCAG GCAAGGGGCG
    GCATGCGACC CGGTGTCGGG GGCTTGCATC TGTTCTCCCG GGAAGACGGG GGTCCGCTGT
    GAGCATGGCT GTCCCCAGGA CCGGTTTGGC AAGGGCTGTG AACTCAAGTG TGCCTGCAGG
    AATGGGGGCC TGTGTCATGC TACCAACGGC AGCTGTTCCT GCCCCCTGGG CTGGATGGGG
    CCTCACTGTG AGCACGCCTG CCCTGCTGGG CGCTATGGTG CTGCCTGCCT CCTGGAGTGT
    TTCTGTCAGA ACAATGGCAG CTGTGAGCCT ACCACGGGCG CTTGCCTCTG TGGCCCTGGC
    TTCTACGGTC AAGCTTGTGA ACACTCTTGC CCCTCCGGCT TCCATGGACC TGGTTGCCAG
    AGAGTTTGTG AGTGTCAACA GGGAGCCCCC TGTGACCCTG TCAGTGGCCA GTGCCTCTGC
    CCTGCTGGCT TCCATGGCCA GTTCTGTGAG AAGGGGTGTG AGTCAGGCTC TTTTGGAGAT
    GGCTGCCTGC AGCAGTGTAA CTGCCACACG GGTGTGCCCT GTGATCCCAT CAGCGGCCTC
    TGCCTTTGCC CGCCTGGGCG GACAGGAGCC GCATGTGACC TGGGTGAGTG TGGGGGTCCT
    TCCTAG

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

    RefSeq XP_008762639.1
    CDS1..4446
    Translation

    Target ORF information:

    RefSeq Version XM_008764417.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus multiple epidermal growth factor-like domains protein 6-like (LOC100911486), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_008764417.1

    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
    ATGGAGACAC TGAGGCCCCA CGTGTGTGCA GAACAGAAGC TGACCCTGGT GGGCCACCGC 
    CAGCCTTGTG TGCAAGCCTT CAGTCGCATA GTGCCTGTGT GGAGGAGGAC AGGCTGCGCA
    CAGCAGGCGT GGTGTATTGG CCAAGAGCGC AGGACTGTGT ACTATATGAG CTACAGGCAG
    GTATATGCCA CAGAGGCCCG AACGGTGTTC AGGTGCTGCC CTGGCTGGAG CCAGAAGCCT
    GGCCAGGAAG GCTGCCTCTC AGATGTGGAC GAATGCGCCA GTGCCAACGG GGGTTGCGAG
    GGCCCATGCT GTAACACTGT GGGTGGCTTT TACTGCCGCT GCCCACCCGG CTACCAGCTG
    CAGGGTGACG GCAAAACCTG CCAAGATGTG GATGAATGTC GAGCACACAA TGGTGGTTGT
    CAACACAGGT GTGTGAACAC CCCCGGTTCT TACCTCTGTG AATGCAAACC TGGCTTCCGG
    CTCCACACAG ATGGCAGGAC CTGCCTGGCC ATCAGCTCCT GCACTCTGGG AAACGGTGGC
    TGCCAGCACC AGTGTGTACA GCTCACAGTG ACACAGCACC GCTGCCAGTG CCGGCCCCAG
    TACCAGCTGC AAGAGGATGG CAGGCGCTGT GTGCGGAGAA GCCCGTGTGC AGAAGGCAAT
    GGTGGCTGTA TGCATATATG CCAGGAACTC CGGGGCCTTG CCCACTGTGG CTGCCACCCC
    GGTTACCAGC TTGCTGCAGA CCGCAAAACC TGTGAAGATG TGGATGAATG TGCTTTGGGG
    CTGGCCCAGT GTGCTCATGG CTGCCTCAAC ACTCAGGGAT CCTTTAAGTG TGTGTGCCAC
    GCAGGCTATG AACTGGGCGC CGATGGCCGG CAGTGTTACC GGATCGAGAT GGAGATTGTG
    AACAGCTGTG AGGCTGGCAA CGGTGGGTGC TCCCACGGCT GTAGCCACAC CAGCACTGGG
    CCCCTGTGCA CCTGCCCTCG TGGTTACGAG TTGGATGAAG ACCAGAAGAC CTGTATCGAC
    ATCGACGACT GCGCCAACTC TCCGTGCTGC CAGCAGGCAT GTGCCAACAC CCCTGGTGGG
    TATGAGTGCA GCTGTTTCGC TGGCTACCGG CTCAACACGG ACGGCTGTGG CTGTGAGGAT
    GTTGACGAGT GCGCCTCTGG TCACGGTGGC TGCGAACACC ACTGTTCTAA TCTGGCGGGC
    TCCTTCCAGT GCTTCTGTGA GGCCGGTTAC CGGTTGGATG AGGACCGCAG GGGCTGCACT
    TCCCTAGAAG AATCTGTGGT GGACCTGGAT GGCCGGCTGC CCTTTGTGCG GCCCCTGCCC
    CACATTGCGG TGCTGAGGGA TGAGCTGCCC CGACTCTTCC AGGATGATTA TGGGGCTGAG
    GAGGAGGCGG CGGCAGCGGA GTTGCGTGGA GAACACACGC TCACTGAGAA GTTTGTCTGC
    TTGGATCACT CCTTCGGCCA TGACTGCAGC CTAACCTGCG ATGACTGCAG GAATGGGGGG
    ACTTGCTTCC CGGGCCAGGA CGGCTGTGAC TGCCCAGAGG GCTGGACTGG AATCATCTGC
    AATGAGACTT GTCCTCCAGA CACCTTTGGG AAGAATTGTA GCTCTCCCTG CACCTGTCAG
    AATGGTGGGA CCTGTGACCC GGTGTTGGGA GCCTGCCGCT GTCCTCCAGG CGTCAGTGGA
    GCCCACTGTG AGGATGGCTG CCCCAAGGGC TTCTACGGCA AACATTGCCG TAAGAAATGC
    CACTGTGCTA ACCGGGGCCG GTGCCACCGC CTCTATGGGG CCTGCCTCTG TGACCCAGGG
    CTCTATGGTC GTTTCTGCCA CCTTGCCTGT CCTCCCTGGG CCTTCGGGCC AGGCTGTTCT
    GAGGACTGCC TTTGCGAGCA GTCACACACA AGGTCTTGCA ACCCGAAGGA CGGTAGCTGC
    TCCTGCAAGG CCGGCTTCCA GGGTGAGCGC TGCCAGGCAG AGTGTGAGTC AGGCTTCTTT
    GGACCAGGCT GCAGACACCG TTGCACCTGC CAGCCAGGTG TGGCCTGTGA CCCTGTGAGT
    GGCGAGTGTC GGACTCAGTG TCCTCCTGGC TACCAGGGGG AAGACTGTGG CCAAGAGTGC
    CCGGTGGGAA CATTTGGTGT GAACTGCTCA GGTTCCTGTT CCTGCGTTGG AGCGCCTTGT
    CACCGAGTCA CAGGGGAGTG TCTGTGCCCA CCAGGGAAGA CTGGGGAGGA CTGTGGAGCT
    GATTGTCCCG AGGGCCGTTG GGGGCTCGGC TGTCAAGAGA TCTGCCCCGC ATGTGAGCAC
    GGAGCCAGCT GCAACCCTGA GACTGGAACC TGCCTGTGTC TCCCTGGCTT TGTTGGTAGC
    CGCTGCCAGG ACACTTGCTC AGCAGGCTGG TACGGGACTG GCTGCCAGAT AAGGTGTGCT
    TGTGCCAACG ATGGGCATTG TGACCCAACC ACCGGACGCT GTAGCTGTGC CCCCGGGTGG
    ACTGGCCTCA GCTGCCAGAG AGCCTGTGAC AGTGGACACT GGGGGCCCGA CTGCATCCAC
    CCTTGCAACT GCAGTGCGGG CCATGGGAAT TGTGACGCCG TCAGTGGCCT CTGCCTGTGT
    GAGGCCGGCT ATGAAGGTCC ACGGTGTGAG CAGTCGTGTC GCCAGGGATA CTATGGGCCC
    AGCTGTGAGC AGAAGTGCAG ATGTGAGCAT GGGGCTGCCT GTGACCATGT CAGTGGGGCC
    TGTACCTGCC CAGCCGGCTG GAGGGGAAGC TTCTGTGAAC ATGCCTGTCC TGCTGGCTTC
    TTTGGGTTAG ACTGTGACAG TGCCTGCAAC TGCTCTGCCG GGGCACCCTG TGATGCTGTC
    ACCGGCTCAT GCATCTGCCC AGCTGGCCGC TGGGGCCCAC GCTGTGCCCA GAGTTGCCCA
    CCCCTCACCT TCGGGCTTAA CTGCAGCCAG ATTTGTACCT GTTTCAATGG GGCCTCCTGT
    GACTCTGTCA CAGGGCAATG CCACTGTGCC CCTGGCTGGA TGGGACCCAC CTGCCTGCAG
    GCCTGCCCTC CTGGCCTGTA TGGCAAGAAC TGTCAGCATT CCTGTCTTTG CCGCAACGGA
    GGGAGATGTG ACCCCATCTT GGGCCAGTGC ACGTGCCCAG AGGGTTGGAC CGGCTTGGCC
    TGTGAGAACG AGTGCCTTCC TGGACACTAT GCAGCCGGTT GTCAGCTCAA CTGCAGTTGC
    CTTCACGGGG GCATATGTGA CCGGCTTACC GGCCACTGCC TCTGCCCAGC TGGCTGGACT
    GGGGACAAGT GTCAGAGCTC CTGCGTCAGT GGCACGTTTG GGGTTCACTG TGAGGAACAC
    TGTGCTTGCC GGAAAGGTGC CTCCTGCCAC CATGTCACAG GGGCCTGCTT CTGTCCTCCA
    GGATGGAGGG GCCCACACTG TGAGCAGGCC TGTCCACGCG GATGGTTTGG AGAGGCCTGT
    GCTCAGCGTT GCCTCTGCCC ACCCAATGCC TCCTGCCACC ATGTCACTGG GGAGTGCCGC
    TGTCCACCCG GCTTTACTGG GCTTAGCTGT GAGCAGGCTT GTCAGCCTGG CACCTTTGGA
    AAGGACTGTG AGCACCTGTG CCAGTGTCCT GGTGAGACCT GGGCCTGCGA CCCTGCTTCA
    GGGGTCTGCA CGTGTGCCGC TGGTTACCAT GGCACCGGCT GTCTGCAAAG ATGCCCATCT
    GGGCGCTATG GGCCGGGCTG TGAACACATT TGTAAGTGTC TCAATGGTGG GACCTGCGAC
    CCAGCCACGG GAGCCTGCTA CTGTCCTGCT GGGTTCCTTG GGGCCGACTG CAGCCTTGCC
    TGTCCACAGG GTCGCTTTGG CCCCAGCTGT GCCCACGTGT GTGCATGCAG GCAAGGGGCG
    GCATGCGACC CGGTGTCGGG GGCTTGCATC TGTTCTCCCG GGAAGACGGG GGTCCGCTGT
    GAGCATGGCT GTCCCCAGGA CCGGTTTGGC AAGGGCTGTG AACTCAAGTG TGCCTGCAGG
    AATGGGGGCC TGTGTCATGC TACCAACGGC AGCTGTTCCT GCCCCCTGGG CTGGATGGGG
    CCTCACTGTG AGCACGCCTG CCCTGCTGGG CGCTATGGTG CTGCCTGCCT CCTGGAGTGT
    TTCTGTCAGA ACAATGGCAG CTGTGAGCCT ACCACGGGCG CTTGCCTCTG TGGCCCTGGC
    TTCTACGGTC AAGCTTGTGA ACACTCTTGC CCCTCCGGCT TCCATGGACC TGGTTGCCAG
    AGAGTTTGTG AGTGTCAACA GGGAGCCCCC TGTGACCCTG TCAGTGGCCA GTGCCTCTGC
    CCTGCTGGCT TCCATGGCCA GTTCTGTGAG AAGGGGTGTG AGTCAGGCTC TTTTGGAGAT
    GGCTGCCTGC AGCAGTGTAA CTGCCACACG GGTGTGCCCT GTGATCCCAT CAGCGGCCTC
    TGCCTTTGCC CGCCTGGGCG GACAGGAGCC GCATGTGACC TGGGTGAGTG TGGGGGTCCT
    TCCTAG

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