Adamts12 cDNA ORF clone, Rattus norvegicus(Norway rat)

The following Adamts12 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Adamts12 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
ORa40410 NM_001106420.3
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Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 12 (Adamts12), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
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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 ORa40410
    Clone ID Related Accession (Same CDS sequence) NM_001106420.3
    Accession Version NM_001106420.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4800bp)
    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 2019-03-03
    Organism Rattus norvegicus(Norway rat)
    Product A disintegrin and metalloproteinase with thrombospondin motifs 12 precursor
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from AABR07008485.1, AABR07008487.1 and AABR07008488.1. On Sep 4, 2014 this sequence version replaced NM_001106420.2. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMD00052297, SAMEA2689601 [ECO:0000348] ##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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGCCATGTG CTCAGGGGAA CTGGATGGCA AAGCTCTCCA TGGTGGCCCA GCTTCTTAAC 
    TTTGGGGCTT TTTGCCATGG GAGACAAGCT CAGCCCTGGC CGGTTCGCTT CCCAGACCCG
    AAGCAAGAAC ATTTTATCAA GTCCCTGCCA GAATACCACA TAGTGAGTCC TGTCCAAGTA
    GATGCCAGTG GCCACTTTCT GTCCTATGGC CTGCATCACC CTGTCACTGG CAGCAGGAAG
    AAGAGAGCTG CAGGTGGTTC TGGGGACCAG GTGTACTACA GGATTTCACA CGAAGAAAAA
    AACCTGTTTT TCAATCTGAC AGTCAACTGG GAATTTCTTT CCAATGGCTA TGTCGTGGAG
    AGGAGATATG GGAACCTTTC CCATGTGAAG ATGGCGGCTT CCTCAGGGCA GCCCTGCCAT
    CTCAGGGGCA CAGTTCTGCA ACAGGGCCCC ACAATCAGGA TGGGGACAGC AGCTCTTAGT
    GCCTGCCAAG GACTGACTGG ATTTTTCCAT CTACCACATG GAGACTTTTT CATTGAGCCT
    GTTAAAAAGC ATCCACTGAC CGAGGAAGGT TACCAGCCTC ATGTCATATA CAGGAGGCAG
    AGCTACAGAG TTCCAGAGAC AAAGGAGCCC ACCTGCGGAT TAAAGGACAG CCTTGATAAC
    TCTGTGAAGC AAGAGCTCCA GCGGGAGAAG TGGGAGAGGA AGAACTGGCC AAGCAGAAGC
    CTCTCCCGAC GCTCCATAAG CAAGGAGAGA TGGGTGGAGA CCCTCGTGGT AGCTGACACG
    AAGATGGTAG AGTACCATGG AAGTGAGAAC GTGGAGTCGT ACATCCTCAC TATCATGAAT
    ATGGTCACTG GGTTGTTTCA TAACCCAAGC ATTGGAAACG CAGTGCACAT TGTTGTGGTT
    CGGCTCATTC TACTTGAAGA AGAGGAGCAA GGATTGAAAA TAGTTCACCA TGCAGAGAAG
    ACACTGTCCA GCTTCTGCAA GTGGCAGAAG AGCATCAATC CCAAGAGTGA CCTCAACCCT
    GTCCATCATG ATGTGGCTGT CCTTATCACC AGAAAGGACA TCTGTGCTGG TGTCAATCGC
    CCTTGTGAGA CTCTGGGGCT GTCCCAGCTG TCAGGAATGT GCCAGCCTCA CAGGAGCTGT
    AACATCAACG AAGACTCCGG TCTCCCCCTG GCTTTCACCA TTGCGCATGA ACTTGGGCAC
    AGCTTCGGCA TCCAACATGA TGGGAAGGAA AATGACTGTG AGCCCGTGGG CAGACACCCA
    TACATCATGT CCCAACAAAT TCAGTATGAC CCAACTCCAC TGACATGGTC GAAATGCAGC
    AAGGAGTACA TCACTCGCTT CTTGGACCGA GGCAGGGGGT TCTGTCTTGA TGACGTCCCC
    AGAAAGAAAG GCTTAAAGTC CAATGTCATT GCCCCTGGAG TGATTTATGA TGTTCATCAC
    CAGTGCCAGC TCCAATACGG CCCAAATGCT ACATTCTGCC AGGAAGTGGA AAATGTTTGC
    CAGACACTGT GGTGCTCAGT GAAAGGCTTC TGTCGCTCTA AGCTGGATGC TGCTGCAGAT
    GGGACACGTT GTGGTGAGAA GAAGTGGTGT ATGGCTGGAA AGTGTATCAC AGTGGGGAAG
    AAACCAGAGA GCATCCCTGG AGGCTGGGGA CGCTGGTCAC CCTGGTCACA CTGTTCGAGG
    ACATGTGGGG CAGGAGCTCA GAGCGCAGAG AGGCTCTGCA ACAACCCAGA ACCAAAGTTT
    GGAGGGAAAT ACTGCACCGG AGAAAGAAAA CGCTATCGCT TATGCAATGT CCACCCCTGC
    CGCTCAGACA CTCCAACTTT CCGACAGATG CAGTGCAGTG AATTTGACAC AGTCCCCTAC
    AAAAACCAAT TCTACCGCTG GTTCCCAGTG TTTAATCCAG CACATCCTTG TGAGCTGTAC
    TGCAGACCCA TAGATGAACA GTTTTCTGAG AGAATGCTGG AAGCCGTCAT TGATGGCACC
    CCGTGCTTTG AAGGTGGCAA CAGCAGAAAT GTCTGTATTA ATGGCATATG TAAGAGGGTT
    GGCTGTGACT ATGAGATTGA TTCCAATGCT ACAGAGGATC GCTGTGGCGT GTGCCTTGGA
    GATGGCTCTG CCTGCCAGAC TGTGAAGAAG GTGTTTAGAC AGAAGGAAGG ATCCGGTTAC
    ATTGACATCG GACTTATTCC CAAAGGTGCA AGGGATATAA GAGTGATGGA AATCAAGGCA
    GCCGGCAATT TCCTGGCCAT TAGGAGTGAA GATCCAGAAA AATATTACCT CAACGGAGGA
    TTTATCATCC AGTGGAATGG AAACTATAAA CTGGCAGGGA CCGTCTTCCA GTATGACAGG
    AAAGGAGATC TGGAGAGACT TATGGCTCCA GGCCCCACCA ACGAGTCAGT GTGGCTCCAG
    CTACTATTCC AGGTGACTAA CCCCGGTATC AAGTATGAGT ACACAGTCCG GAAAGATGGC
    CTTGACAATG ATGTGGAGAA GTTGCTGTAC TTCTGGCAAT TTGGCCGCTG GACAGAGTGC
    AGTGTAACAT GTGGAACAGG TATCCGCCGG CAGACTGCTC ATTGTGTCAA GAAGGGCCAT
    GGGATAGTGA AAACTACCTT CTGCAACCCA GAAACACAGC CCAGCGTGAG ACAGAAAAAG
    TGCTATGAAA AGGACTGTCC ACCCAGGTGG TGGGCCGGAG AGTGGGAAGC ATGTTCAATG
    ACATGTGGGC CGTACGGAGA AAAAAAGAGA ACAGTGCTGT GCATCCAGAC CATGGGCTCT
    GATGAGCAGG CTCTCCCAGC TACAGACTGC CAGCACCTGC TGAAGCCCAA GACACTGGTT
    TCCTGCAACA GAGACATTCT GTGTCCATCA GATTGGACAG TAGGCAACTG GAGTGAGTGC
    TCTGTTTCCT GTGGTGGTGG AGTGCGGATT CGCAGTGTCA CATGTGCCAA GAACCTTAAT
    GAACCCTGTG ACAAGACACG GAAACCCAAC AGTCGAGCTC TGTGTGGCCT CCAGCAGTGC
    CCATTCAGCC GTAGAGTTCT GAAACCCAAT AAAGATACAG TTCCCAGTGG GAAAAATCCA
    ACAACATCAG AACATGACCA CTTCAAGCCC ATCCCAGCAT CTACATCCAG GCCCACGCCA
    CTGTCCACAC CCACAGTGCC TGAGTCTGTG AGCACAAGTA CCCCCACAAT CAACAGCCTT
    GGCTCCACCA TAACATCCCA AGAAGAACCA GATGGGATAG GATGGCAGAA TAATTCAACC
    CAAGCTGAAG AGGACTCCCA CATCCCTACT TCTGTTGGAA GCACTTCCCA GACTCCCCTC
    ACTTCCTGGT CTTGGAGTAT GCAGCCTGAT GATGAAAACG TTTCCAGTTC AGCTATAGGT
    CCAACTTCAG AGAGTGACTT TTGGGCAACC ACAAGTGATT CTGGCTTATC ATCTAGCAAT
    GCTATGACTT GGCAGGTAAC TCCATTTTAT AGCACTGCGA CCACAGAACC GGAAGTGGAG
    ATACATAGTG GCTCAGGGGA AGACAGTGAC CAGCCTTTGA ACAAGGAGGA AAACAACTCT
    GTGCTATGGA ACAAGATCAG AGTACCTGAA CGTGATGCTC CCATGGAGAT GGATGCAGAA
    ATACCACTTG GACCTCCACC AACATCTTAT GTGACAGAAG AGTCCTCATG GCCTCCCTTC
    AGTACAATGA TGAAAAGCTC ACTACCTGCC TGGTCCTTCA AAAATGAGAC ACCCAGGGAT
    GAGGGGATGA TCACTGAAAA ATCAGGGAAT ATTCCACTCC CTCTTGGAGG AGACCACCAG
    ACAACATCCC CAGAGAAGTT AGGAAACAAT GACCAACTGG CATCAGCAAA TAGTACAAAT
    CCAACCCAAG GCTCTGGGCC TGTCCTGACT GAGGAAGATG CCTCCACTCT GATTGAGGAG
    GGATTTTTGC TAAATGCTTC CAATTACAAG CATCTCATGA AGGACCACAG CCCTGCACAC
    TGGATTGTTG GAAATTGGAG TAAATGCTCT ACCACCTGTG GGCTGGGGGC CTACTGGAGG
    AGTGTGGAGT GTAGCACCGG GATGAACGCT GACTGCGCCG CCATTCAGAG GCCAGACCCT
    GCTAAGAAGT GCCACCTGCG CCCCTGTGCT GGCTGGCGAG TGGGAAACTG GAGCAAGTGC
    TCTCGAAACT GCAGTGGAGG TTTCAAGATT CGTGAGGTTC AGTGCATGGA CGGCGTGGAC
    CATCACCGGA GCCTGAGGCC ATTTCACTGT CAGTTCCTGG CCGGCGTTCC TCCTCCGCTG
    AGTATGAGCT GTAATCTGGA GCCTTGCGAA GAGTGGAAAG TGGAACCCTG GAGCCAGTGT
    TCTAGGTCCT GTGGAGGCGG TGTTCAGGAG AGAGGAGTGT TTTGCCCAGG AGGTCTCTGC
    GACTGGACAA AAAGACCTGC ATCCACTGTG CCCTGCAACA GACACCTTTG CTGTCACTGG
    GCCACTGGGA ACTGGGAACT GTGCACCACT TCCTGTGGTG GTGGCTCTCA GAAGAGGACC
    GTTCATTGCA TCCCTTCAGA AAACAGTACA ACTGAAGATC AAGACCAGTG TTTCTGTGAC
    CACCAAGCCA GACCCCCAGA ATTCCAAAAC TGCAACCAGC AAGCCTGCCG GAAGAGTGCT
    GATTTAACTT GCACGAAGGA CAGACTTTCA ACCAGCTTCT GCCAGACACT AAAATCCATG
    AAGAAGTGCT CGGTGCCATC AGTACGAGTC CAGTGCTGTC TCTCGTGTCC ACAGACACAG
    AGCATCCACA CCCAGAGGCA AAGAAAACAG CAGATGCTCC AAAATCATGA CACGCTCTAG

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

    RefSeq NP_001099890.2
    CDS240..5039
    Translation

    Target ORF information:

    RefSeq Version NM_001106420.3
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 12 (Adamts12), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001106420.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGCCATGTG CTCAGGGGAA CTGGATGGCA AAGCTCTCCA TGGTGGCCCA GCTTCTTAAC 
    TTTGGGGCTT TTTGCCATGG GAGACAAGCT CAGCCCTGGC CGGTTCGCTT CCCAGACCCG
    AAGCAAGAAC ATTTTATCAA GTCCCTGCCA GAATACCACA TAGTGAGTCC TGTCCAAGTA
    GATGCCAGTG GCCACTTTCT GTCCTATGGC CTGCATCACC CTGTCACTGG CAGCAGGAAG
    AAGAGAGCTG CAGGTGGTTC TGGGGACCAG GTGTACTACA GGATTTCACA CGAAGAAAAA
    AACCTGTTTT TCAATCTGAC AGTCAACTGG GAATTTCTTT CCAATGGCTA TGTCGTGGAG
    AGGAGATATG GGAACCTTTC CCATGTGAAG ATGGCGGCTT CCTCAGGGCA GCCCTGCCAT
    CTCAGGGGCA CAGTTCTGCA ACAGGGCCCC ACAATCAGGA TGGGGACAGC AGCTCTTAGT
    GCCTGCCAAG GACTGACTGG ATTTTTCCAT CTACCACATG GAGACTTTTT CATTGAGCCT
    GTTAAAAAGC ATCCACTGAC CGAGGAAGGT TACCAGCCTC ATGTCATATA CAGGAGGCAG
    AGCTACAGAG TTCCAGAGAC AAAGGAGCCC ACCTGCGGAT TAAAGGACAG CCTTGATAAC
    TCTGTGAAGC AAGAGCTCCA GCGGGAGAAG TGGGAGAGGA AGAACTGGCC AAGCAGAAGC
    CTCTCCCGAC GCTCCATAAG CAAGGAGAGA TGGGTGGAGA CCCTCGTGGT AGCTGACACG
    AAGATGGTAG AGTACCATGG AAGTGAGAAC GTGGAGTCGT ACATCCTCAC TATCATGAAT
    ATGGTCACTG GGTTGTTTCA TAACCCAAGC ATTGGAAACG CAGTGCACAT TGTTGTGGTT
    CGGCTCATTC TACTTGAAGA AGAGGAGCAA GGATTGAAAA TAGTTCACCA TGCAGAGAAG
    ACACTGTCCA GCTTCTGCAA GTGGCAGAAG AGCATCAATC CCAAGAGTGA CCTCAACCCT
    GTCCATCATG ATGTGGCTGT CCTTATCACC AGAAAGGACA TCTGTGCTGG TGTCAATCGC
    CCTTGTGAGA CTCTGGGGCT GTCCCAGCTG TCAGGAATGT GCCAGCCTCA CAGGAGCTGT
    AACATCAACG AAGACTCCGG TCTCCCCCTG GCTTTCACCA TTGCGCATGA ACTTGGGCAC
    AGCTTCGGCA TCCAACATGA TGGGAAGGAA AATGACTGTG AGCCCGTGGG CAGACACCCA
    TACATCATGT CCCAACAAAT TCAGTATGAC CCAACTCCAC TGACATGGTC GAAATGCAGC
    AAGGAGTACA TCACTCGCTT CTTGGACCGA GGCAGGGGGT TCTGTCTTGA TGACGTCCCC
    AGAAAGAAAG GCTTAAAGTC CAATGTCATT GCCCCTGGAG TGATTTATGA TGTTCATCAC
    CAGTGCCAGC TCCAATACGG CCCAAATGCT ACATTCTGCC AGGAAGTGGA AAATGTTTGC
    CAGACACTGT GGTGCTCAGT GAAAGGCTTC TGTCGCTCTA AGCTGGATGC TGCTGCAGAT
    GGGACACGTT GTGGTGAGAA GAAGTGGTGT ATGGCTGGAA AGTGTATCAC AGTGGGGAAG
    AAACCAGAGA GCATCCCTGG AGGCTGGGGA CGCTGGTCAC CCTGGTCACA CTGTTCGAGG
    ACATGTGGGG CAGGAGCTCA GAGCGCAGAG AGGCTCTGCA ACAACCCAGA ACCAAAGTTT
    GGAGGGAAAT ACTGCACCGG AGAAAGAAAA CGCTATCGCT TATGCAATGT CCACCCCTGC
    CGCTCAGACA CTCCAACTTT CCGACAGATG CAGTGCAGTG AATTTGACAC AGTCCCCTAC
    AAAAACCAAT TCTACCGCTG GTTCCCAGTG TTTAATCCAG CACATCCTTG TGAGCTGTAC
    TGCAGACCCA TAGATGAACA GTTTTCTGAG AGAATGCTGG AAGCCGTCAT TGATGGCACC
    CCGTGCTTTG AAGGTGGCAA CAGCAGAAAT GTCTGTATTA ATGGCATATG TAAGAGGGTT
    GGCTGTGACT ATGAGATTGA TTCCAATGCT ACAGAGGATC GCTGTGGCGT GTGCCTTGGA
    GATGGCTCTG CCTGCCAGAC TGTGAAGAAG GTGTTTAGAC AGAAGGAAGG ATCCGGTTAC
    ATTGACATCG GACTTATTCC CAAAGGTGCA AGGGATATAA GAGTGATGGA AATCAAGGCA
    GCCGGCAATT TCCTGGCCAT TAGGAGTGAA GATCCAGAAA AATATTACCT CAACGGAGGA
    TTTATCATCC AGTGGAATGG AAACTATAAA CTGGCAGGGA CCGTCTTCCA GTATGACAGG
    AAAGGAGATC TGGAGAGACT TATGGCTCCA GGCCCCACCA ACGAGTCAGT GTGGCTCCAG
    CTACTATTCC AGGTGACTAA CCCCGGTATC AAGTATGAGT ACACAGTCCG GAAAGATGGC
    CTTGACAATG ATGTGGAGAA GTTGCTGTAC TTCTGGCAAT TTGGCCGCTG GACAGAGTGC
    AGTGTAACAT GTGGAACAGG TATCCGCCGG CAGACTGCTC ATTGTGTCAA GAAGGGCCAT
    GGGATAGTGA AAACTACCTT CTGCAACCCA GAAACACAGC CCAGCGTGAG ACAGAAAAAG
    TGCTATGAAA AGGACTGTCC ACCCAGGTGG TGGGCCGGAG AGTGGGAAGC ATGTTCAATG
    ACATGTGGGC CGTACGGAGA AAAAAAGAGA ACAGTGCTGT GCATCCAGAC CATGGGCTCT
    GATGAGCAGG CTCTCCCAGC TACAGACTGC CAGCACCTGC TGAAGCCCAA GACACTGGTT
    TCCTGCAACA GAGACATTCT GTGTCCATCA GATTGGACAG TAGGCAACTG GAGTGAGTGC
    TCTGTTTCCT GTGGTGGTGG AGTGCGGATT CGCAGTGTCA CATGTGCCAA GAACCTTAAT
    GAACCCTGTG ACAAGACACG GAAACCCAAC AGTCGAGCTC TGTGTGGCCT CCAGCAGTGC
    CCATTCAGCC GTAGAGTTCT GAAACCCAAT AAAGATACAG TTCCCAGTGG GAAAAATCCA
    ACAACATCAG AACATGACCA CTTCAAGCCC ATCCCAGCAT CTACATCCAG GCCCACGCCA
    CTGTCCACAC CCACAGTGCC TGAGTCTGTG AGCACAAGTA CCCCCACAAT CAACAGCCTT
    GGCTCCACCA TAACATCCCA AGAAGAACCA GATGGGATAG GATGGCAGAA TAATTCAACC
    CAAGCTGAAG AGGACTCCCA CATCCCTACT TCTGTTGGAA GCACTTCCCA GACTCCCCTC
    ACTTCCTGGT CTTGGAGTAT GCAGCCTGAT GATGAAAACG TTTCCAGTTC AGCTATAGGT
    CCAACTTCAG AGAGTGACTT TTGGGCAACC ACAAGTGATT CTGGCTTATC ATCTAGCAAT
    GCTATGACTT GGCAGGTAAC TCCATTTTAT AGCACTGCGA CCACAGAACC GGAAGTGGAG
    ATACATAGTG GCTCAGGGGA AGACAGTGAC CAGCCTTTGA ACAAGGAGGA AAACAACTCT
    GTGCTATGGA ACAAGATCAG AGTACCTGAA CGTGATGCTC CCATGGAGAT GGATGCAGAA
    ATACCACTTG GACCTCCACC AACATCTTAT GTGACAGAAG AGTCCTCATG GCCTCCCTTC
    AGTACAATGA TGAAAAGCTC ACTACCTGCC TGGTCCTTCA AAAATGAGAC ACCCAGGGAT
    GAGGGGATGA TCACTGAAAA ATCAGGGAAT ATTCCACTCC CTCTTGGAGG AGACCACCAG
    ACAACATCCC CAGAGAAGTT AGGAAACAAT GACCAACTGG CATCAGCAAA TAGTACAAAT
    CCAACCCAAG GCTCTGGGCC TGTCCTGACT GAGGAAGATG CCTCCACTCT GATTGAGGAG
    GGATTTTTGC TAAATGCTTC CAATTACAAG CATCTCATGA AGGACCACAG CCCTGCACAC
    TGGATTGTTG GAAATTGGAG TAAATGCTCT ACCACCTGTG GGCTGGGGGC CTACTGGAGG
    AGTGTGGAGT GTAGCACCGG GATGAACGCT GACTGCGCCG CCATTCAGAG GCCAGACCCT
    GCTAAGAAGT GCCACCTGCG CCCCTGTGCT GGCTGGCGAG TGGGAAACTG GAGCAAGTGC
    TCTCGAAACT GCAGTGGAGG TTTCAAGATT CGTGAGGTTC AGTGCATGGA CGGCGTGGAC
    CATCACCGGA GCCTGAGGCC ATTTCACTGT CAGTTCCTGG CCGGCGTTCC TCCTCCGCTG
    AGTATGAGCT GTAATCTGGA GCCTTGCGAA GAGTGGAAAG TGGAACCCTG GAGCCAGTGT
    TCTAGGTCCT GTGGAGGCGG TGTTCAGGAG AGAGGAGTGT TTTGCCCAGG AGGTCTCTGC
    GACTGGACAA AAAGACCTGC ATCCACTGTG CCCTGCAACA GACACCTTTG CTGTCACTGG
    GCCACTGGGA ACTGGGAACT GTGCACCACT TCCTGTGGTG GTGGCTCTCA GAAGAGGACC
    GTTCATTGCA TCCCTTCAGA AAACAGTACA ACTGAAGATC AAGACCAGTG TTTCTGTGAC
    CACCAAGCCA GACCCCCAGA ATTCCAAAAC TGCAACCAGC AAGCCTGCCG GAAGAGTGCT
    GATTTAACTT GCACGAAGGA CAGACTTTCA ACCAGCTTCT GCCAGACACT AAAATCCATG
    AAGAAGTGCT CGGTGCCATC AGTACGAGTC CAGTGCTGTC TCTCGTGTCC ACAGACACAG
    AGCATCCACA CCCAGAGGCA AAGAAAACAG CAGATGCTCC AAAATCATGA CACGCTCTAG

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