ORF » Species Summary » Xenopus laevis » LOC108700098 cDNA ORF clone

LOC108700098 cDNA ORF clone, Xenopus laevis(African clawed frog)

The following LOC108700098 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC108700098 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
OAf44147 XM_018232969.1
Latest version!		 Xenopus laevis collagen alpha-5(IV) chain-like (LOC108700098), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00

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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)
    LOC108700098 ( XM_018232969.1 ) cDNA ORF clone, Xenopus laevis(African clawed frog) -> XP_018088458.1 Xenopus laevis collagen alpha-5(IV) chain-like (LOC108700098), mRNA.
    Price & Availability↑
    CloneID OAf44147
    Clone ID Related Accession (Same CDS sequence) XM_018232969.1
    Accession Version XM_018232969.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5058bp)
    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 1474214400000
    Organism Xenopus laevis(African clawed frog)
    Product collagen alpha-5(IV) chain-like
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030739.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus laevis Annotation Release 100 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## 

    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
    ATGAGGCTGG GAGGTTGGCA GCGGCGGGTG CCCTGCCTGG CTGCGTTGCT GTTGGTGCTG 
    GGCTACTGGG CACAGAGTGC AGAGTCTGCG GCCTGCCAAG GTTGTAAATC AGTATCGAAA 
    TGTGACTGCA GCGGTGTTAA AGGAGAAAAG GGTGAGAGAG GCCTTCCAGG GTTAGAAGGA 
    CACTTGGGTC TACCAGGATT TCCTGGACCT GAAGGACCGC CTGGAACTCG TGGTCCAAAG 
    GGTGATGCTG GTATTCCAGG ACCCTTAGGA CCCAAAGGAA TACGAGGACC TCCTGGACTT 
    CCCGGATTTC CAGGAAACCC TGGTCAGCCT GGCCTGCCAG GACAAGATGG TGCACCAGGA 
    CCTCCAGGTA TCCCAGGATG CAATGGCACA AAGGGAGAAC GTGGTTTCTC AGGAAGTTCA 
    GGTTTTTCAG GTGCACCAGG ACCACCGGGT CCCCCAGGAT TTCCAGGGGT GAAAGGAGAT 
    CCAGGTGAAT CTTTCCCCAT TGCACAAGGA GAAAAAGGTG ACCCAGGATT ACCAGGCCTT 
    CCAGGTTTAC CAGGTTTGCT TGGTCCTCAT GGAATTCAGG GTCCCGTGGG TCGTCCTGGT 
    CCTGCTGGCT TACCGGGGGC ACAAGGACCA CCTGGAGCTC CAGGACCCAA GGGTAACATG 
    GGGCTCAATT TCCAGGGATC AAAGGGTGAA AAGGGTGAAC CCGGTATTCA GGGACTTCCA 
    GGACCACCGG GACAACTAGA GCAAGTTGAA CCTCCACAAA CTACAATTCA GAAGGGAGAG 
    AAGGGTGTCC CCGGTGACCA AGGATTCCCA GGAGAGCGTG GATCAATGGG TCCTCCAGGT 
    CCTCCTGGAG GTGCAAAAGG AGAGAAGGGA GAACCAGGGG AACCAGGAAA GATTGGGAAG 
    CCAGGAAAAT ATGGGAAGAA TGGACTGCCT GGTGTCGAGG GTCTCAGGGG TGACCCAGGC 
    TTGCCAGGAA GTCCGGGCAG AGGTGGGGAG CAGGGTCAGA AAGGTGACCG TGGGTTACCT 
    GGGCCACCAG GAGAGGTTAT TTCAAGACCA GGAATAGGTA AAGTTGGACC AAAGGGAAAC 
    ACAGGACCCC CTGGAATAAC AGGGCCAAAA GGAGACCATG GGTTCCCTGG ATTACAAGGT 
    CCTCCTGGTT TTCCTGGATC ACCAGGTACT TCAAGTGTAG GCCTCCCAGG AAGTCCAGGC 
    CTTCCTGGTG AAAGAGGGCA GAAGGGTGAT GATGGTCCAC CAGGAATTTC CATTCCAGGG 
    CTTCCAGGTT CTGAAGGACT TAGAGGACCC CCTGGTGCCC CAGGTTTGCC TGGTCGACCT 
    GGACCACCTT CAGTTCCTCA GGCGGAGATA TGCCAGCCAG GATCACCTGG TGTTCCAGGA 
    CTTCCAGGAG ATCCAGGATA TGCAGGAGAA AGAGGACAGA AAGGCGATAA AGGAGACACA 
    TGTTATAACT GCCTAGGAAA TGGTATTTTA GGTCCAAAAG GTGATCCTGG TTTGCCTGGC 
    CCCGCTGGAA GTCCAGGCTT ACCTGGAGCT ACAGGGCAAA AAGGGGAGCA AGGCACTCCA 
    GGATTAAATG GGCTTCCAGG ACCTCCGGGT TTCCCTGGCA GTCCCGGTTC CTCTGGACGA 
    CCTGGTCCCA AAGGAGAACC TGGAGAAGTA ATTGGTGGTA TCGGAATTAA AGGAGAAAAG 
    GGGGATCCTG GATTCCCTGG TCCAGCTGGA TCTTCTGGTC TGGATGGCCC ACTTGGAAGA 
    GATGGAACTC CAGGGATACC TGGGCCTAAG GGAGAGCCGG GTGGCTTTGC ATTGAACGGT 
    GATCGTGGTC TTCCTGGTGA CCCTGGGCTC CCTGGACTTC CTGGAGACCG AGGACTAATG 
    GGTCCTCCTG GTTTTGGTCC CAGTGGTCCA CCTGGAGAGA AGGGAATTCA AGGTGTTTCT 
    GGTCGACCAG GAGCCCCTGG CATTCCTGGC CTTAAAGGAG CTCCTGGACA AACTGTGATG 
    GAAAAAGGGG ATCCTGGACC TCCAGGTCTT CCAGGTATCC CAGGGGATAC CGGAAATCCA 
    GGTGAACTGG GTCTGCCTGG TCAGCCAGGA GTTCCAGGTG TTTCAGGTGC AAAGGGAGAA 
    CCAGGGGTTC CAGGCATTGG AGTTCCTGGG CCTGCAGGCC CAAAAGGATT TCCTGGTAAT 
    CCTGGGCCAT CCGGTGCCCC TGGGTTGGCA GGAAGACCTG GTTCAGATGG GTTGCCTGGA 
    CAGCCTGGCT TACCAGGATC AAAGGGTGAC CCTGGATATG GGTTACCTGG GCTCCAAGGC 
    ACCCCAGGCC CTGCTGGATT GAAAGGATCC CAAGGACCAA AAGGAGAATC TGGCTTCCCA 
    GGATCGCCAG GCCTTCCTGG ACGAGCAGGG TTTGATGGTC CTGTAGGACC AAAAGGTGAC 
    CCTGGACAAA ATGGCTTATC AGGACCCCCC GGACCACCTG GTGTACCTGG CATTGGTGGT 
    CAAGGTCCGC CAGGGCAACC AGGACTTCCA GGGCCAGCAG GTCCTCCAGG GAGCCCAGGA 
    ATACAGGGGG GAAAAGGAGA TCCTGGCGCT CCAGGGTTTG ACATGCCAGG CCCACCAGGA 
    GATCGTGGTA ATCCTGGATT TCCAGGAGAA CAAGGATTTA CAGGTCCACC AGGGCCCCCA 
    GGTGCCCAAG GTCATGATGG ATTACCAGGC TTCCCAGGTG CTAAAGGTGA AATGGGTGTT 
    ATGGGACCAC CAGGACCTGT TGGAACAGCT GGTAATCCTG GAAACCCTGG TTTACCTGGG 
    CCTAAAGGAA ATGATGGGAA TTCTGGTCAA CCTGGCCTGC CGGGCCTACC AGGTAGGGAA 
    GGTGAAAAGG GAGATACAGG ACCAGCAGGA CCTCCTGGAA TAATTGATTC TGCAAACTTA 
    GAGCTTAAAG GAATTAAAGG AGAACCTGGA TTGCCAGGTG CACCAGGAAT AAGTGGACCA 
    AAAGGTGCTG CTGGACTTCC AGGTAACTCA GGACTCCCAG GACAGATTGG ACTTCCAGGA 
    TCTTCAGGAC TTCCAGGGCC CAAGGGAGAT CCTGGTCTTC CTGGTCAGCC TGGTATTTCA 
    GGTGCTCCTG GGTTGAAAGG GAGCATGGGA GAGATGGGAC TTCCTGGGCC ACTTGGTGCT 
    AAAGGTTCCC CTGGACAACC AGGACGACCT GGAGTATCAG GGTCTCCTGG GTTTTTTGGA 
    CTAAAAGGTG AAAAAGGTGA TCCAGGCATT TCAGGAATTG GCATCCCAGG CTTGCCTGGA 
    CAAAAGGGTG AACCAGGGCA AAATGGCTTT CCAGGCAGCC CTGGTGCTAA AGGTAACCCA 
    GGAAACCCAG GACTGCCCGG CCTATCAGGG ATTACAGGAC CTAAAGGAGA TCCAGGTCTT 
    CCAGGATTTC CAGGCAGCCC AGGAGCTCCA GGACCTAAAG GAGCTGATGG GCCCACAGGA 
    AACTCTGGGT TACCTGGGCC TCCAGGCATT CGGGGTGAAT CAGGTCGTCC TGGACTTCAA 
    GGACCTCCTG GTGAAAAGGG TCAACCAGGT CAGGATGGAA TTCCTGGGCC TTCTGGTTTG 
    AAGGGAGAAC CAGGTTTGCC AGGTTTTGGA TCACCAGGGT TACCTGGCCT TCCAGGAAGT 
    CTAGGTCCAA AGGGTGATGC AGGACTTCCT GGAACCCCTG GAAACCCCGG ATTTCCAGGT 
    TTCAAAGGAG ATCAAGGCTT TCCGGGATCT TCTGGGCCAC AAGGACCTCC AGGACAAGCT 
    GGCCTAACAG GGCCACGGAC AGAAGGACCC AAGGGAGATC CTGGGCCTGT AGGTCCCTCT 
    GGAAGACCAG GTCCTCCTGG CCTAGAAGGT GCCCGTGGTC CCCCTGGTGA GGGAAGTTTT 
    AAAGGAGAAA AAGGAAACCC TGGACTTCCA GGTCAGCCTG GATTTCCAGG AACTAAAGGA 
    GAACCAGGAG CACGTGGTTT CCCAGGTGAC CCAGGACGAC CAGGTCTTAA TGGGATGAAA 
    GGTGACCAAG GTGTTCCTGG TGTTCCAGGA TTCCCAGGTA TGAAAGGACC AGGTGGCCCT 
    CCTGGATTGG GTGGCATTCA AGGTGAACCA GGTCTCCCAG GTGATATGGG TTTGCCAGGT 
    CCTCCTGGGC CTAAAGGAGA ATACCGTGAG ATCAAAGGAG CTTCAGGTCT GCCAGGTCCC 
    CCCGGTCGCC CAGGAGCAAA TGGACCTCCA GGATCCCTTG GACCACCCGG ACTTCCAGGT 
    CCTTTGGGTC TCCCTGGAGA TCCTGGCAGA GATGGACTCC CTGGATTTGA GGGACAAAGT 
    GGAAGAAAGG GTGAACGTGG CCCACCAGGC CAACCAGGAT CTCGAGGAAT TAATGGTCCA 
    CCCGGTCCAG ACGGTTTACA AGGTCCTCCT GGCCCCTCTG GGCTAGGATC TGTTGCTCAT 
    GGATTCCTTA TGACCCGGCA CAGTCAATCA ACAGATGTCC CAGGCTGTCC GCTTGGAACC 
    ACCAGTATCT ATGATGGCTA TTCCCTACTG TATGTGCAAG GAAATGAGAG GGCACACGGA 
    CAAGATTTGG GTACCGCTGG CAGCTGCCTC CGCCGCTTCA GCACAATGCC TTTCATGTTC 
    TGCAACATTA ATAACGTGTG TAACTTTGCT TCAAGAAATG ATTATTCCTA CTGGCTGTCC 
    ACGCCGGAGC CTATGCCTAT GAGCATGGAT CCTTTAAGAG GGAGGGATAT TCAGCCATTC 
    ATTAGCAGGT GTGCTGTTTG TGAAGCTCCA GCTATGGTGA TTGCAGTCCA CAGCCAGACA 
    ATACAAATCC CACAATGCCC ACAAGGCTGG TCCTCTCTCT GGATTGGATA CTCTTTCATG 
    ATGCATACAA GTGCCGGTGC TGAAGGCTCA GGACAAGCTC TGGCATCACC TGGATCCTGC 
    TTGGAAGAAT TCCGATCCGC GCCTTTCATT GAATGTCACG GCCGGGGAAC CTGCAATTAC 
    TATGCCAATT CGTACAGTTT TTGGTTGGCC ACAGTGGAAA TGTCTGAAAT GTTTAGCAAA 
    CCTCAGTCGG AAACACTAAA AGCGGGTGAT CTAAGGACAC GTGTCAGTCG TTGCCAAGTA 
    TGTATGAAGA GGACGTAA

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

    RefSeq XP_018088458.1
    CDS316..5373
    Translation

    Target ORF information:

    RefSeq Version XM_018232969.1
    Organism Xenopus laevis(African clawed frog)
    Definition Xenopus laevis collagen alpha-5(IV) chain-like (LOC108700098), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_018232969.1

    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
    ATGAGGCTGG GAGGTTGGCA GCGGCGGGTG CCCTGCCTGG CTGCGTTGCT GTTGGTGCTG 
    GGCTACTGGG CACAGAGTGC AGAGTCTGCG GCCTGCCAAG GTTGTAAATC AGTATCGAAA 
    TGTGACTGCA GCGGTGTTAA AGGAGAAAAG GGTGAGAGAG GCCTTCCAGG GTTAGAAGGA 
    CACTTGGGTC TACCAGGATT TCCTGGACCT GAAGGACCGC CTGGAACTCG TGGTCCAAAG 
    GGTGATGCTG GTATTCCAGG ACCCTTAGGA CCCAAAGGAA TACGAGGACC TCCTGGACTT 
    CCCGGATTTC CAGGAAACCC TGGTCAGCCT GGCCTGCCAG GACAAGATGG TGCACCAGGA 
    CCTCCAGGTA TCCCAGGATG CAATGGCACA AAGGGAGAAC GTGGTTTCTC AGGAAGTTCA 
    GGTTTTTCAG GTGCACCAGG ACCACCGGGT CCCCCAGGAT TTCCAGGGGT GAAAGGAGAT 
    CCAGGTGAAT CTTTCCCCAT TGCACAAGGA GAAAAAGGTG ACCCAGGATT ACCAGGCCTT 
    CCAGGTTTAC CAGGTTTGCT TGGTCCTCAT GGAATTCAGG GTCCCGTGGG TCGTCCTGGT 
    CCTGCTGGCT TACCGGGGGC ACAAGGACCA CCTGGAGCTC CAGGACCCAA GGGTAACATG 
    GGGCTCAATT TCCAGGGATC AAAGGGTGAA AAGGGTGAAC CCGGTATTCA GGGACTTCCA 
    GGACCACCGG GACAACTAGA GCAAGTTGAA CCTCCACAAA CTACAATTCA GAAGGGAGAG 
    AAGGGTGTCC CCGGTGACCA AGGATTCCCA GGAGAGCGTG GATCAATGGG TCCTCCAGGT 
    CCTCCTGGAG GTGCAAAAGG AGAGAAGGGA GAACCAGGGG AACCAGGAAA GATTGGGAAG 
    CCAGGAAAAT ATGGGAAGAA TGGACTGCCT GGTGTCGAGG GTCTCAGGGG TGACCCAGGC 
    TTGCCAGGAA GTCCGGGCAG AGGTGGGGAG CAGGGTCAGA AAGGTGACCG TGGGTTACCT 
    GGGCCACCAG GAGAGGTTAT TTCAAGACCA GGAATAGGTA AAGTTGGACC AAAGGGAAAC 
    ACAGGACCCC CTGGAATAAC AGGGCCAAAA GGAGACCATG GGTTCCCTGG ATTACAAGGT 
    CCTCCTGGTT TTCCTGGATC ACCAGGTACT TCAAGTGTAG GCCTCCCAGG AAGTCCAGGC 
    CTTCCTGGTG AAAGAGGGCA GAAGGGTGAT GATGGTCCAC CAGGAATTTC CATTCCAGGG 
    CTTCCAGGTT CTGAAGGACT TAGAGGACCC CCTGGTGCCC CAGGTTTGCC TGGTCGACCT 
    GGACCACCTT CAGTTCCTCA GGCGGAGATA TGCCAGCCAG GATCACCTGG TGTTCCAGGA 
    CTTCCAGGAG ATCCAGGATA TGCAGGAGAA AGAGGACAGA AAGGCGATAA AGGAGACACA 
    TGTTATAACT GCCTAGGAAA TGGTATTTTA GGTCCAAAAG GTGATCCTGG TTTGCCTGGC 
    CCCGCTGGAA GTCCAGGCTT ACCTGGAGCT ACAGGGCAAA AAGGGGAGCA AGGCACTCCA 
    GGATTAAATG GGCTTCCAGG ACCTCCGGGT TTCCCTGGCA GTCCCGGTTC CTCTGGACGA 
    CCTGGTCCCA AAGGAGAACC TGGAGAAGTA ATTGGTGGTA TCGGAATTAA AGGAGAAAAG 
    GGGGATCCTG GATTCCCTGG TCCAGCTGGA TCTTCTGGTC TGGATGGCCC ACTTGGAAGA 
    GATGGAACTC CAGGGATACC TGGGCCTAAG GGAGAGCCGG GTGGCTTTGC ATTGAACGGT 
    GATCGTGGTC TTCCTGGTGA CCCTGGGCTC CCTGGACTTC CTGGAGACCG AGGACTAATG 
    GGTCCTCCTG GTTTTGGTCC CAGTGGTCCA CCTGGAGAGA AGGGAATTCA AGGTGTTTCT 
    GGTCGACCAG GAGCCCCTGG CATTCCTGGC CTTAAAGGAG CTCCTGGACA AACTGTGATG 
    GAAAAAGGGG ATCCTGGACC TCCAGGTCTT CCAGGTATCC CAGGGGATAC CGGAAATCCA 
    GGTGAACTGG GTCTGCCTGG TCAGCCAGGA GTTCCAGGTG TTTCAGGTGC AAAGGGAGAA 
    CCAGGGGTTC CAGGCATTGG AGTTCCTGGG CCTGCAGGCC CAAAAGGATT TCCTGGTAAT 
    CCTGGGCCAT CCGGTGCCCC TGGGTTGGCA GGAAGACCTG GTTCAGATGG GTTGCCTGGA 
    CAGCCTGGCT TACCAGGATC AAAGGGTGAC CCTGGATATG GGTTACCTGG GCTCCAAGGC 
    ACCCCAGGCC CTGCTGGATT GAAAGGATCC CAAGGACCAA AAGGAGAATC TGGCTTCCCA 
    GGATCGCCAG GCCTTCCTGG ACGAGCAGGG TTTGATGGTC CTGTAGGACC AAAAGGTGAC 
    CCTGGACAAA ATGGCTTATC AGGACCCCCC GGACCACCTG GTGTACCTGG CATTGGTGGT 
    CAAGGTCCGC CAGGGCAACC AGGACTTCCA GGGCCAGCAG GTCCTCCAGG GAGCCCAGGA 
    ATACAGGGGG GAAAAGGAGA TCCTGGCGCT CCAGGGTTTG ACATGCCAGG CCCACCAGGA 
    GATCGTGGTA ATCCTGGATT TCCAGGAGAA CAAGGATTTA CAGGTCCACC AGGGCCCCCA 
    GGTGCCCAAG GTCATGATGG ATTACCAGGC TTCCCAGGTG CTAAAGGTGA AATGGGTGTT 
    ATGGGACCAC CAGGACCTGT TGGAACAGCT GGTAATCCTG GAAACCCTGG TTTACCTGGG 
    CCTAAAGGAA ATGATGGGAA TTCTGGTCAA CCTGGCCTGC CGGGCCTACC AGGTAGGGAA 
    GGTGAAAAGG GAGATACAGG ACCAGCAGGA CCTCCTGGAA TAATTGATTC TGCAAACTTA 
    GAGCTTAAAG GAATTAAAGG AGAACCTGGA TTGCCAGGTG CACCAGGAAT AAGTGGACCA 
    AAAGGTGCTG CTGGACTTCC AGGTAACTCA GGACTCCCAG GACAGATTGG ACTTCCAGGA 
    TCTTCAGGAC TTCCAGGGCC CAAGGGAGAT CCTGGTCTTC CTGGTCAGCC TGGTATTTCA 
    GGTGCTCCTG GGTTGAAAGG GAGCATGGGA GAGATGGGAC TTCCTGGGCC ACTTGGTGCT 
    AAAGGTTCCC CTGGACAACC AGGACGACCT GGAGTATCAG GGTCTCCTGG GTTTTTTGGA 
    CTAAAAGGTG AAAAAGGTGA TCCAGGCATT TCAGGAATTG GCATCCCAGG CTTGCCTGGA 
    CAAAAGGGTG AACCAGGGCA AAATGGCTTT CCAGGCAGCC CTGGTGCTAA AGGTAACCCA 
    GGAAACCCAG GACTGCCCGG CCTATCAGGG ATTACAGGAC CTAAAGGAGA TCCAGGTCTT 
    CCAGGATTTC CAGGCAGCCC AGGAGCTCCA GGACCTAAAG GAGCTGATGG GCCCACAGGA 
    AACTCTGGGT TACCTGGGCC TCCAGGCATT CGGGGTGAAT CAGGTCGTCC TGGACTTCAA 
    GGACCTCCTG GTGAAAAGGG TCAACCAGGT CAGGATGGAA TTCCTGGGCC TTCTGGTTTG 
    AAGGGAGAAC CAGGTTTGCC AGGTTTTGGA TCACCAGGGT TACCTGGCCT TCCAGGAAGT 
    CTAGGTCCAA AGGGTGATGC AGGACTTCCT GGAACCCCTG GAAACCCCGG ATTTCCAGGT 
    TTCAAAGGAG ATCAAGGCTT TCCGGGATCT TCTGGGCCAC AAGGACCTCC AGGACAAGCT 
    GGCCTAACAG GGCCACGGAC AGAAGGACCC AAGGGAGATC CTGGGCCTGT AGGTCCCTCT 
    GGAAGACCAG GTCCTCCTGG CCTAGAAGGT GCCCGTGGTC CCCCTGGTGA GGGAAGTTTT 
    AAAGGAGAAA AAGGAAACCC TGGACTTCCA GGTCAGCCTG GATTTCCAGG AACTAAAGGA 
    GAACCAGGAG CACGTGGTTT CCCAGGTGAC CCAGGACGAC CAGGTCTTAA TGGGATGAAA 
    GGTGACCAAG GTGTTCCTGG TGTTCCAGGA TTCCCAGGTA TGAAAGGACC AGGTGGCCCT 
    CCTGGATTGG GTGGCATTCA AGGTGAACCA GGTCTCCCAG GTGATATGGG TTTGCCAGGT 
    CCTCCTGGGC CTAAAGGAGA ATACCGTGAG ATCAAAGGAG CTTCAGGTCT GCCAGGTCCC 
    CCCGGTCGCC CAGGAGCAAA TGGACCTCCA GGATCCCTTG GACCACCCGG ACTTCCAGGT 
    CCTTTGGGTC TCCCTGGAGA TCCTGGCAGA GATGGACTCC CTGGATTTGA GGGACAAAGT 
    GGAAGAAAGG GTGAACGTGG CCCACCAGGC CAACCAGGAT CTCGAGGAAT TAATGGTCCA 
    CCCGGTCCAG ACGGTTTACA AGGTCCTCCT GGCCCCTCTG GGCTAGGATC TGTTGCTCAT 
    GGATTCCTTA TGACCCGGCA CAGTCAATCA ACAGATGTCC CAGGCTGTCC GCTTGGAACC 
    ACCAGTATCT ATGATGGCTA TTCCCTACTG TATGTGCAAG GAAATGAGAG GGCACACGGA 
    CAAGATTTGG GTACCGCTGG CAGCTGCCTC CGCCGCTTCA GCACAATGCC TTTCATGTTC 
    TGCAACATTA ATAACGTGTG TAACTTTGCT TCAAGAAATG ATTATTCCTA CTGGCTGTCC 
    ACGCCGGAGC CTATGCCTAT GAGCATGGAT CCTTTAAGAG GGAGGGATAT TCAGCCATTC 
    ATTAGCAGGT GTGCTGTTTG TGAAGCTCCA GCTATGGTGA TTGCAGTCCA CAGCCAGACA 
    ATACAAATCC CACAATGCCC ACAAGGCTGG TCCTCTCTCT GGATTGGATA CTCTTTCATG 
    ATGCATACAA GTGCCGGTGC TGAAGGCTCA GGACAAGCTC TGGCATCACC TGGATCCTGC 
    TTGGAAGAAT TCCGATCCGC GCCTTTCATT GAATGTCACG GCCGGGGAAC CTGCAATTAC 
    TATGCCAATT CGTACAGTTT TTGGTTGGCC ACAGTGGAAA TGTCTGAAAT GTTTAGCAAA 
    CCTCAGTCGG AAACACTAAA AGCGGGTGAT CTAAGGACAC GTGTCAGTCG TTGCCAAGTA 
    TGTATGAAGA GGACGTAA

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

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