COL22A1 cDNA ORF clone, Macaca mulatta(Rhesus monkey)

The following COL22A1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the COL22A1 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
OMb91607 XM_028852945.1
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Macaca mulatta collagen type XXII alpha 1 chain (COL22A1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $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 OMb91607
    Clone ID Related Accession (Same CDS sequence) XM_028852945.1
    Accession Version XM_028852945.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4821bp)
    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 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    Product collagen alpha-1(XXII) chain
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041761.1) 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 Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 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
    ATGGTCGGCC TCCGAGGGAA CGCTGTGGCT GGCCTCCTCT GGATGCTGCT GCTGTGGAGT 
    GGGGGCGGCG GCTGCCAGGC TCAGCGGGCA GGTTGCAAAA GTGTCCACTA CGATCTGGTC
    TTCCTCCTGG ACACCTCCTC CAGCGTGGGC AAGGAGGACT TTGAGAAGGT CCGGCAGTGG
    GTGGCCAACC TGGTGGATAC GTTCGAGGTG GGCCCCGACC GCACCCGTGT GGGGGTCGTG
    CGCTACAGTG ACCGGCCCAC CACAGCCTTC GAGTTGGGCC TCTTCGGCTC GCGGGAGGAG
    GTCAAGGCAG CCGCCCGGCG CCTCGCCTAC CATGGGGGCA ACACTAACAC GGGTGACGCG
    CTGCGCTACA TCACGGCCCT CAGCTTCTCC CCACGCGCCG GAGGCCGCCC CGGGGACCGC
    GCCTACAAGC AAGTGGCCAT CCTGCTCACC GACGGCCGCA GCCAGGACCT GGTGCTGGAC
    GCCGCTGCGG CTGCCCACCG CGCTGGCATC CGCATCTTTG CCGTGGGCGT GGGCAAGGCA
    CTCAAGGAGG AGCTGGAGGA GATCGCTTCA GAGCCCAAGT CCGCCCACGT CTTCCACGTG
    TCCGACTTCA ACGCCATCGA CAAGATCCGG GGCAAACTGC GGCGCCGTCT GTGTGAAAAT
    GTGCTCTGTC CTAGCGTTCG TGTAGAAGGA GATCGCTTTA AGCACACCAA TGGAGGAACC
    AAGGAAATCA CAGGTTTTGA CCTGATGGAT TTGTTCAGTG TGAAGGAAAT CTTGGGGAAG
    AGAGAGAATG GCGTGCAGAG TTCTTATGTA CGGATGGGAT CCTTCCCTGT GGTGCAAAGT
    ACTGAGGAGG TGTTCCCCCA AGGTTTACCT GATGAATACG CCTTTGTCAC AACCTTCCGG
    TTCAGGAGAA CCTCTCGGAA GGAAGATTGG TATATCTGGC AGGTCATCGA CCAGTACGGC
    ATCCCACAGG TCTCCATCCG GCTGGATGGT GAAAACAAGG CAGTCGAGTA CAACGCTGTG
    GGTGCCATGA AAGATGCTGT CAGGGTGGTC TTCCGAGGTT CCCGGGTCAA TGACCTCTTT
    GACCGGGACT GGCACAAGAT CGCCCTGAGC ATCCAGGCCC AGAACGTCTC CCTGTACATC
    GACTGTGCGC TGGTGCAGAC ACTACCCATC GAGGAGCGGG AGAACATTGA CATCCAGGGC
    AAGACTGTGA TTGGCAAGCG CCTCTACGAC AGTGTGCCCA TCGACTTTGA CCTACAGCGG
    ATTGTGATCT ATTGTGACTC GAGACATGCA GAACTGGAGA CTTGTTGTGA TATCCCCTCG
    GGTCCGTGCC AGGTGACTGT GGTGACAGAG CCTCCACCTC CACCCCCACC CCAGCGGCCT
    CCCACCCCAG GCAGTGAACA GATTGGGTTT TTGAAGACCA TCAACTGCTC CTGCCCAGCT
    GGAGAGAAGG GTGAAATGGG ATTTGCTGGC CCCATAGGGC TCCCTGGTCC AAAGGGAGAC
    ACAGGAGCCA CTGGGCCGGT TGGCGCTCCT GGACCTAAGG GAGAGAAAGG TGATGTGGGC
    ATAGGACCTT TTGGCCGAGG GGAAAAGGGT GAAAAGGGTT CCCTGGGCCT GCCCGGCCCC
    CCTGGGAGAG ACGGCAGCAA AGGCATGAGA GGGGAGCCAG GAGAACTGGG AGAGCCGGGG
    CTTCCGGGTG AGGTCGGCAT GCGGGGGCCC CAAGGACCGC CTGGACTCCC CGGACCTCCA
    GGACATGTCG GAGCTCCTGG CCTCCAAGGA GAACGAGGTG AAAAGGGAAC TCGAGGAGAA
    AAGGGAGAGC GAGGCCTGGA TGGATTTCCC GGGAAGCCTG GGGATGCAGG ACAGCAGGGC
    AGGCCTGGCC CTCCTGGTGT GGCAGGACCC CAGGGAGAAA AGGGTGACGT GGGACCTGCG
    GGCCTGCCTG GTGTACCAGG CTCGGTGGTG CAGCGAGAGG GCTTGAAAGG GGAACAGGGA
    GCTCCAGGAC CCAGAGGTCA CCAAGGCCCC CCTGGGCCTC CAGGAGCTCC GGGTCCAATA
    GGCCCAGAAG GCAGGGATGG ACCTCCTGGT TTGCAAGGTC TCCGAGGGAA GAAAGGTGAC
    ATGGGACCAC CTGGAATCCC TGGATCGCTG GGGTCGCAGG GCCCTCCAGG ACCACCTGGT
    GTCCCAGGCC CCGCTGGACC GGGAGGTTCT CCGGGTTTGC CTGGAGAGAT CGGCTTCCCG
    GGAAAGCCTG GGCTTCCTGG GCCCTCGGGA CCCCCTGGAA AGGATGGGCC AAATGGACCA
    CCAGGCCCAC CAGGAACCAA GGGAGAACCA GGAGAAAGAG GGGAAGATGG TCTGCCTGGA
    AAACCAGGCC TTCGGGGAGA AACTGGCGAG CAGGGCCTGG CAGGCCGACC TGGAGAGAAG
    GGAGAAGCAG GCCTCCCAGG GGCTCCAGGC TTCCCAGGTG TGAGAGGAGA GAAAGGAGAC
    CAGGGAGAAA AAGGTGAACT GGGACTTCCA GGACTGAAAG GTGACCGAGG TGAAAAGGGT
    GAAGCTGGTC CTGCAGGCCC TCCCGGGTTA CCTGGAACTA CATCCCTGTT CACACCACAT
    CCACGGATAC CTGGAGAACA AGGGCCCAAA GGAGAGAAGG GCGATCCAGG CATGCCTGGG
    GAACCGGGAC CGCAGGGCCG TCCTGGAGAA TTGGGGCCTC GGGGACCTGC TGGACCACCG
    GGTGCTAAGG GACAGGAAGG TGCACATGGG GCTCCTGGAG CAGCTGGAAA CCCTGGTGCT
    CCTGGACATG TCGGTCCCCC CGGTCCCAGT GGCCCTCCAG GAAGTGTGGG TGCTCCTGGC
    CTCAGAGGCC CCCCTGGGAA AGATGGGGAG CGTGGTGAGA AGGGCTCTGC GGGGGAAGAA
    GGCAGCCCAG GACCAGTTGG TCCCAGGGGA GATCCCGGTG TTCCTGGGCT CCCTGGGCCA
    CCCGGAAAAG GGAAGGATGG AGAGCCGGGA CTCCGTGGAT CACCTGGACT CCCTGGACCC
    CTAGGAATCA AGGGGGATCG AGGAGCTCCT GGGATCCCTG GTTCTCCTGG CAGCCGTGGT
    GACCCAGGCG TAGGGGTTGC TGGCCCTCCT GGCCCTTCCG GACCACCAGG AGACAAAGGC
    CCCCCGGGAT CACGAGGCTT ACCTGGATTC CCCGGCCCCC AGGGCCCAGC CGGCCGGGAT
    GGTACACCAG GAAATCCAGG AGAAAGAGGG CCTCCTGGCA AGCCAGGCCT CTCTTCACTA
    CTGTCTCCAG GGGACATAAA TCTCTTGGCT AAGGATGTGT GCAGTGACTG CCCTCCTGGC
    CCCCCAGGCC TCCCTGGTCT ACCAGGTTTT AAGGGGGACA AAGGTCTCCC AGGAAAGCCA
    GGGAAAGAAG GCACAGAAGG GAAAAAGGGA GAGCCTGGAC CTCCAGGCCT ACCAGGGCCC
    CCAGGAATAG CTGGACCACA GGGAAGTCAA GGAGAACGTG GTACAGATGG TGAGGTTGGA
    CAGAAAGGTG ATCAGGGTCA TCCTGGAGTT CCAGGTTTCA TGGGGCCCCC AGGGAACCCT
    GGGCCACCAG GGGCAGATGG AATTGCAGGA GCTGCTGGAC CACCAGGAAT CCAAGGGTCA
    CCTGGGAAAG AAGGCCCTCC TGGCCCCCAA GGCCCATCTG GATTGCCAGG AATCCCAGGA
    GAAGAAGGCA AAGAAGGCAG AGATGGAAAG CCAGGTCCCC CTGGAGAGCC GGGCAAAGCA
    GGAGAGCCGG GTCTACCAGG ACCAGAGGGT GCCCGAGGCC CACCTGGCTT CAAGGGACAC
    ACAGGCGATT CTGGTGCACC TGGTCCCCGA GGAGAGCCTG GTGCCATGGG GCCTCCTGGT
    CAGGAAGGGT TACCAGGAAA AGATGGTGAC ACTGGACCCA CTGGGCCACA GGGTCCCCAA
    GGACCAAGGG GCCCACCGGG CAAGAATGGA TCACCGGGAT CTCCAGGAGA GCCTGGCCCT
    TCAGGAACCC CCGGCCAGAA AGGAAGCAAA GGGGAAAATG GCAGCCCAGG ACTTCCTGGC
    TTCCTGGGTC CCCGTGGGCC TCCGGGAGAA CCAGGAGAGA AAGGAGTCCC AGGCAAGGAG
    GGGGTCCCTG GGAAGCCTGG AGAGCCTGGA TTCAAAGGAG AAAGGGGAGA TCCTGGGATC
    AAAGGTGACA AAGGACCTCC TGGTGGAAAG GGCCAGCCTG GGGACCCTGG AATCCCAGGC
    CACAAAGGCC ACACAGGCCT GATGGGTCCC CAAGGACCAC CTGGGGAGAA CGGACCAGCT
    GGACCCCCAG GGCCTCCAGG CCAGCCGGGA TTTCCAGGAC TGAGGGGGGA GTCTCCATCC
    ATGGAAACCC TGCGTCGGCT TATTCAAGAA GAGCTGGGGA AGCAGCTCGA AACCAAACTC
    GCCTACCTCC TGGCCCAGAT GCCCCCAGCG CACATGAAGG CATCGCAAGG CAGACCCGGG
    CCCCCAGGGC CCCCTGGAAA AGATGGGCTT CCAGGTCGGG CCGGCCCCAT GGGGGAGCCA
    GGTCGTCCTG GGCAGGGTGG TCTGGAAGGA CCCTCTGGAC CCATAGGTCC AAAAGGTGAG
    CGAGGAGCCA AAGGTGACCC AGGTGCACCT GGAGTTGGCC TCCGAGGCGA GATGGGACCC
    CCTGGCATCC CAGGTCAACC TGGGGAACCT GGCTATGCTA AAGATGGACT TCCTGGGATC
    CCTGGCCCTC AAGGGGAGAC AGGACCAGCT GGACATCCTG GCCCCCCAGG ACCCCCTGGT
    CCCCCAGGCC AGTGTGACCC TTCCCAGTGT GCCTACTTCG CCAGCCTTGC TGCCCGGCCA
    GGTAATGTGA AGGGCCCCTA G

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

    RefSeq XP_028708778.1
    CDS494..5314
    Translation

    Target ORF information:

    RefSeq Version XM_028852945.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta collagen type XXII alpha 1 chain (COL22A1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_028852945.1

    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
    ATGGTCGGCC TCCGAGGGAA CGCTGTGGCT GGCCTCCTCT GGATGCTGCT GCTGTGGAGT 
    GGGGGCGGCG GCTGCCAGGC TCAGCGGGCA GGTTGCAAAA GTGTCCACTA CGATCTGGTC
    TTCCTCCTGG ACACCTCCTC CAGCGTGGGC AAGGAGGACT TTGAGAAGGT CCGGCAGTGG
    GTGGCCAACC TGGTGGATAC GTTCGAGGTG GGCCCCGACC GCACCCGTGT GGGGGTCGTG
    CGCTACAGTG ACCGGCCCAC CACAGCCTTC GAGTTGGGCC TCTTCGGCTC GCGGGAGGAG
    GTCAAGGCAG CCGCCCGGCG CCTCGCCTAC CATGGGGGCA ACACTAACAC GGGTGACGCG
    CTGCGCTACA TCACGGCCCT CAGCTTCTCC CCACGCGCCG GAGGCCGCCC CGGGGACCGC
    GCCTACAAGC AAGTGGCCAT CCTGCTCACC GACGGCCGCA GCCAGGACCT GGTGCTGGAC
    GCCGCTGCGG CTGCCCACCG CGCTGGCATC CGCATCTTTG CCGTGGGCGT GGGCAAGGCA
    CTCAAGGAGG AGCTGGAGGA GATCGCTTCA GAGCCCAAGT CCGCCCACGT CTTCCACGTG
    TCCGACTTCA ACGCCATCGA CAAGATCCGG GGCAAACTGC GGCGCCGTCT GTGTGAAAAT
    GTGCTCTGTC CTAGCGTTCG TGTAGAAGGA GATCGCTTTA AGCACACCAA TGGAGGAACC
    AAGGAAATCA CAGGTTTTGA CCTGATGGAT TTGTTCAGTG TGAAGGAAAT CTTGGGGAAG
    AGAGAGAATG GCGTGCAGAG TTCTTATGTA CGGATGGGAT CCTTCCCTGT GGTGCAAAGT
    ACTGAGGAGG TGTTCCCCCA AGGTTTACCT GATGAATACG CCTTTGTCAC AACCTTCCGG
    TTCAGGAGAA CCTCTCGGAA GGAAGATTGG TATATCTGGC AGGTCATCGA CCAGTACGGC
    ATCCCACAGG TCTCCATCCG GCTGGATGGT GAAAACAAGG CAGTCGAGTA CAACGCTGTG
    GGTGCCATGA AAGATGCTGT CAGGGTGGTC TTCCGAGGTT CCCGGGTCAA TGACCTCTTT
    GACCGGGACT GGCACAAGAT CGCCCTGAGC ATCCAGGCCC AGAACGTCTC CCTGTACATC
    GACTGTGCGC TGGTGCAGAC ACTACCCATC GAGGAGCGGG AGAACATTGA CATCCAGGGC
    AAGACTGTGA TTGGCAAGCG CCTCTACGAC AGTGTGCCCA TCGACTTTGA CCTACAGCGG
    ATTGTGATCT ATTGTGACTC GAGACATGCA GAACTGGAGA CTTGTTGTGA TATCCCCTCG
    GGTCCGTGCC AGGTGACTGT GGTGACAGAG CCTCCACCTC CACCCCCACC CCAGCGGCCT
    CCCACCCCAG GCAGTGAACA GATTGGGTTT TTGAAGACCA TCAACTGCTC CTGCCCAGCT
    GGAGAGAAGG GTGAAATGGG ATTTGCTGGC CCCATAGGGC TCCCTGGTCC AAAGGGAGAC
    ACAGGAGCCA CTGGGCCGGT TGGCGCTCCT GGACCTAAGG GAGAGAAAGG TGATGTGGGC
    ATAGGACCTT TTGGCCGAGG GGAAAAGGGT GAAAAGGGTT CCCTGGGCCT GCCCGGCCCC
    CCTGGGAGAG ACGGCAGCAA AGGCATGAGA GGGGAGCCAG GAGAACTGGG AGAGCCGGGG
    CTTCCGGGTG AGGTCGGCAT GCGGGGGCCC CAAGGACCGC CTGGACTCCC CGGACCTCCA
    GGACATGTCG GAGCTCCTGG CCTCCAAGGA GAACGAGGTG AAAAGGGAAC TCGAGGAGAA
    AAGGGAGAGC GAGGCCTGGA TGGATTTCCC GGGAAGCCTG GGGATGCAGG ACAGCAGGGC
    AGGCCTGGCC CTCCTGGTGT GGCAGGACCC CAGGGAGAAA AGGGTGACGT GGGACCTGCG
    GGCCTGCCTG GTGTACCAGG CTCGGTGGTG CAGCGAGAGG GCTTGAAAGG GGAACAGGGA
    GCTCCAGGAC CCAGAGGTCA CCAAGGCCCC CCTGGGCCTC CAGGAGCTCC GGGTCCAATA
    GGCCCAGAAG GCAGGGATGG ACCTCCTGGT TTGCAAGGTC TCCGAGGGAA GAAAGGTGAC
    ATGGGACCAC CTGGAATCCC TGGATCGCTG GGGTCGCAGG GCCCTCCAGG ACCACCTGGT
    GTCCCAGGCC CCGCTGGACC GGGAGGTTCT CCGGGTTTGC CTGGAGAGAT CGGCTTCCCG
    GGAAAGCCTG GGCTTCCTGG GCCCTCGGGA CCCCCTGGAA AGGATGGGCC AAATGGACCA
    CCAGGCCCAC CAGGAACCAA GGGAGAACCA GGAGAAAGAG GGGAAGATGG TCTGCCTGGA
    AAACCAGGCC TTCGGGGAGA AACTGGCGAG CAGGGCCTGG CAGGCCGACC TGGAGAGAAG
    GGAGAAGCAG GCCTCCCAGG GGCTCCAGGC TTCCCAGGTG TGAGAGGAGA GAAAGGAGAC
    CAGGGAGAAA AAGGTGAACT GGGACTTCCA GGACTGAAAG GTGACCGAGG TGAAAAGGGT
    GAAGCTGGTC CTGCAGGCCC TCCCGGGTTA CCTGGAACTA CATCCCTGTT CACACCACAT
    CCACGGATAC CTGGAGAACA AGGGCCCAAA GGAGAGAAGG GCGATCCAGG CATGCCTGGG
    GAACCGGGAC CGCAGGGCCG TCCTGGAGAA TTGGGGCCTC GGGGACCTGC TGGACCACCG
    GGTGCTAAGG GACAGGAAGG TGCACATGGG GCTCCTGGAG CAGCTGGAAA CCCTGGTGCT
    CCTGGACATG TCGGTCCCCC CGGTCCCAGT GGCCCTCCAG GAAGTGTGGG TGCTCCTGGC
    CTCAGAGGCC CCCCTGGGAA AGATGGGGAG CGTGGTGAGA AGGGCTCTGC GGGGGAAGAA
    GGCAGCCCAG GACCAGTTGG TCCCAGGGGA GATCCCGGTG TTCCTGGGCT CCCTGGGCCA
    CCCGGAAAAG GGAAGGATGG AGAGCCGGGA CTCCGTGGAT CACCTGGACT CCCTGGACCC
    CTAGGAATCA AGGGGGATCG AGGAGCTCCT GGGATCCCTG GTTCTCCTGG CAGCCGTGGT
    GACCCAGGCG TAGGGGTTGC TGGCCCTCCT GGCCCTTCCG GACCACCAGG AGACAAAGGC
    CCCCCGGGAT CACGAGGCTT ACCTGGATTC CCCGGCCCCC AGGGCCCAGC CGGCCGGGAT
    GGTACACCAG GAAATCCAGG AGAAAGAGGG CCTCCTGGCA AGCCAGGCCT CTCTTCACTA
    CTGTCTCCAG GGGACATAAA TCTCTTGGCT AAGGATGTGT GCAGTGACTG CCCTCCTGGC
    CCCCCAGGCC TCCCTGGTCT ACCAGGTTTT AAGGGGGACA AAGGTCTCCC AGGAAAGCCA
    GGGAAAGAAG GCACAGAAGG GAAAAAGGGA GAGCCTGGAC CTCCAGGCCT ACCAGGGCCC
    CCAGGAATAG CTGGACCACA GGGAAGTCAA GGAGAACGTG GTACAGATGG TGAGGTTGGA
    CAGAAAGGTG ATCAGGGTCA TCCTGGAGTT CCAGGTTTCA TGGGGCCCCC AGGGAACCCT
    GGGCCACCAG GGGCAGATGG AATTGCAGGA GCTGCTGGAC CACCAGGAAT CCAAGGGTCA
    CCTGGGAAAG AAGGCCCTCC TGGCCCCCAA GGCCCATCTG GATTGCCAGG AATCCCAGGA
    GAAGAAGGCA AAGAAGGCAG AGATGGAAAG CCAGGTCCCC CTGGAGAGCC GGGCAAAGCA
    GGAGAGCCGG GTCTACCAGG ACCAGAGGGT GCCCGAGGCC CACCTGGCTT CAAGGGACAC
    ACAGGCGATT CTGGTGCACC TGGTCCCCGA GGAGAGCCTG GTGCCATGGG GCCTCCTGGT
    CAGGAAGGGT TACCAGGAAA AGATGGTGAC ACTGGACCCA CTGGGCCACA GGGTCCCCAA
    GGACCAAGGG GCCCACCGGG CAAGAATGGA TCACCGGGAT CTCCAGGAGA GCCTGGCCCT
    TCAGGAACCC CCGGCCAGAA AGGAAGCAAA GGGGAAAATG GCAGCCCAGG ACTTCCTGGC
    TTCCTGGGTC CCCGTGGGCC TCCGGGAGAA CCAGGAGAGA AAGGAGTCCC AGGCAAGGAG
    GGGGTCCCTG GGAAGCCTGG AGAGCCTGGA TTCAAAGGAG AAAGGGGAGA TCCTGGGATC
    AAAGGTGACA AAGGACCTCC TGGTGGAAAG GGCCAGCCTG GGGACCCTGG AATCCCAGGC
    CACAAAGGCC ACACAGGCCT GATGGGTCCC CAAGGACCAC CTGGGGAGAA CGGACCAGCT
    GGACCCCCAG GGCCTCCAGG CCAGCCGGGA TTTCCAGGAC TGAGGGGGGA GTCTCCATCC
    ATGGAAACCC TGCGTCGGCT TATTCAAGAA GAGCTGGGGA AGCAGCTCGA AACCAAACTC
    GCCTACCTCC TGGCCCAGAT GCCCCCAGCG CACATGAAGG CATCGCAAGG CAGACCCGGG
    CCCCCAGGGC CCCCTGGAAA AGATGGGCTT CCAGGTCGGG CCGGCCCCAT GGGGGAGCCA
    GGTCGTCCTG GGCAGGGTGG TCTGGAAGGA CCCTCTGGAC CCATAGGTCC AAAAGGTGAG
    CGAGGAGCCA AAGGTGACCC AGGTGCACCT GGAGTTGGCC TCCGAGGCGA GATGGGACCC
    CCTGGCATCC CAGGTCAACC TGGGGAACCT GGCTATGCTA AAGATGGACT TCCTGGGATC
    CCTGGCCCTC AAGGGGAGAC AGGACCAGCT GGACATCCTG GCCCCCCAGG ACCCCCTGGT
    CCCCCAGGCC AGTGTGACCC TTCCCAGTGT GCCTACTTCG CCAGCCTTGC TGCCCGGCCA
    GGTAATGTGA AGGGCCCCTA G

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