ORF » Species Summary » Cuculus canorus » SETD1B cDNA ORF clone

SETD1B cDNA ORF clone, Cuculus canorus(common cuckoo)

The following SETD1B gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SETD1B 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
OCu44212 XM_009560405.1
Latest version!		 Cuculus canorus SET domain containing 1B (SETD1B), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $1161.30
$1659.00

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** 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)
    SETD1B ( XM_009560405.1 ) cDNA ORF clone, Cuculus canorus(common cuckoo) -> XP_009558700.1 Cuculus canorus SET domain containing 1B (SETD1B), mRNA.
    Price & Availability↑
    CloneID OCu44212
    Clone ID Related Accession (Same CDS sequence) XM_009560405.1
    Accession Version XM_009560405.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6018bp)
    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 2014-10-13
    Organism Cuculus canorus(common cuckoo)
    Product histone-lysine N-methyltransferase SETD1B
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_009244912.1) 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 Version :: Cuculus canorus Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 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
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    ATGTCTTTCC GAGAGATCAA GGCGGGGGAA AAAGCCAAGC ACCCTGAAGA TCATGGCAAA 
    AAGCAGAGTT CAAGTTGGAT CAACGGAATG GAGAACAGCA CGCAAGCCAG CACTTCAGTC 
    GAGAAAAGAA ATCACCATTG GAGAAGTTAC AAGTTGATTA TTGACCCGGC TCTGAAAAAA 
    GGACAGCACA AACTCTACCG TTACGATGGG CAACACTTCA GCATGCCTAA CTCCGGAATT 
    GCTCCTGTGG ATTGTGTCAG GGATCCCAGA ATAGGGCGAA TATGGACCAA AACTAAGGAG 
    CTGGAGCTGT CTGTCCCCAA ATTCAAGATT GATGAGTTTT ATGTGGGGCC AGTGCCTCCT 
    AAGCAGGTCA CCTTTGCCAA GCTGAACGAC AACATCCGCG AAAACTTTTT GACCGACATG 
    TGCAAGAAAT ACGGTGAAGT GGAAGAGGTG GAGATCCTCT ACAACCCCAA GAACAAGAAG 
    CACCTGGGCA TCGCCAAAGT GGTCTTTGCC ACTGTCAAGG GGGCCCGGGA GGCTGTCCAG 
    CACCTTCACA ACACCTCTGT CATGGGCAAC ATCATCCACG TGGAGCTGGA TACAAAAGGT 
    GAAACCCGCA TGCGATTCTA TGAACTGCTC GTTAATGGTC TTTACACTCC TCAAACCCTT 
    CCTGTCGGCA CCGAGCAGGA CGTATCGCCA ACTGTGAATG AAACAGTGCA GTTGACGGAT 
    TCCCTGAAGC GCCTCAAAGA CAGTAACCTT TCTTCTGCGG GATCATCTGT TACCCCAAAC 
    AGCAGCACGC CATTTTCCCA TGACACAGCC TATTCCAGCT GTCGGCAAGA CACCCCAAAC 
    TCTTACAGCC AATTTACCCC CCAGTCCCAA GGAACACCTC ATACCCCACG GCTAGGGACA 
    CCGTTTTCCC AGGATTCCAC CTATTCTAGT CGCCAGACAA CGCCTGTGTA CCATTTTGTA 
    CAGGACAGTG GGTACAAACC CAGGAGACAT GATACAAAAT TTACAGATGC CTACAACCGT 
    CGACCAGGAC ATCACTATGT TCATAACTCG GCAGGTGTTT TCCGGGGGAC GGAGCATCAG 
    TTCAGTACGT TCAAATCCCA TCAGCAGGAG CCAGTTCAGT TCTCTCACAC TCCTCCCCTA 
    AGCCACTCTA GTTCTTCGAG CTACAAATCT GCCTTCTCTC CTTACCAAGC ACCAGCTGTG 
    TTTCCCCAAA CTGAGGAGCA GCAGTTTCCC CAGACTTCCA GGGAAACAGA GTACCGAAGA 
    CCTGCGCCAC CTCCTGCCGA GATGGTTGTG GAAAGCAGCA CTGCCACTAA CATCGATTTT 
    GTCCCTGTGA AGGAGAAACA GGAGGAGCCT CCGCCCTTGC CTGATTCAAA CTCTGCTCCT 
    GAACCGAGCA CAGCATCTTT CTCTCAGACT CCGGAGAGAA GCGAGACCCC TGGTACCCCC 
    ACCATGGAGT CCGAAATGCA GCATAACAGT TTAGACTCAA GGATTGAGAT GCTCTTAAAA 
    GAGCAGAGAA CAAAGTTACC CTTTCTTAAT GAGCATGACT CAGATAACGA GATTCGAATG 
    GAAGGTAGCC CTATCTCCTC TTCATCTTCC CAACTCTCTC CCATCCCAAT GTATGGTTCA 
    AATTCTCAGC CTGGTTACAG AGGTCAGACG CCTTCCTCCC GCCCTTCCAG CACTGGCTTG 
    GAGGACATTA GCCCGACGCC GTTACCTGAC TCTGACGACG ACGAGCCCAT CCCCGGGACA 
    GCTTCTCTGA GCCAGAATTC CCGGGGGACA TCGGAGGCCA GCATGACTCC CATAGATCAG 
    CTAAGTAGGA CCTCCAAAAT TGAGACCTTA GAGGCTAAAG AAATGGTGCC TGGTGACCAG 
    ACTCCAACGT CAGAAAAAAT GGACGAGGGT CAGCATTCTT CAGGGGAGGA CATGGAAATC 
    TCTGACGACG AGACCAACCC TGCGCCCATC ACCAGTGCAG AATGTGCCAA AACCATCGTG 
    GTGAACTCCT CCGTCAGCAA CTCGGGCGTG ATGGCCCCAT CCATCCCTCC TATGCCGCCA 
    CCGGGATTCC CTCCTCTTCC TCCTCCTCCG CCGCCACCTC CACAGCCAGG CTTCCCAATG 
    CCTCCGCCGC TGCCTCCACC ACCTCCGCCC ACCCACCCCG CTGTCACCGT CCCACCGCCT 
    CCTCTCCCTG CCCCACCTGG GGTCCCTCCG CCTCACATCT TGCCTCCGCT TCCTCCATTC 
    CATCCCGGCA TGTTCCCTGT CATGCAAGTG GATATGATAA GTGTCTTGGG CAACCAGTGG 
    GGTGGCATGC CCATGTCCTT CCAGATGCAA ACTCAGATGC TGAGCCGCAT GATGCAGGCA 
    CAAAACACAT ATCAGTATCC GCCTTTCATG ACGGGACGGA TGCAATTTGT GAATCTTCCA 
    CCCTACCGGC CTTTCTCCAT GGGAGCAGCT CTTGGTCGTG GGCAGCAGTG GCCACCACTG 
    CCCAAGTTTG ACCCCTCGGT TCCACCACCG GGTTATGAGC CGAAGAAGGA AGATCCTCAC 
    AAAGCCACTG TGGATGGAGT CCTCCTGGTC ATAGTGAAGG AACTGAAGGC TATCATGAAA 
    AGGGACCTGA ACCGGAAGAT GGTTGAAGTG GTAGCATTTC GGGCATTTGA TGACTGGTGG 
    GACAAGAAGG AACGTCTGGC AAAGGCGTCT CTCACTCCAG TGAAATCTGG AGGAGAACTG 
    GAGGAAAAAC CAAAGCCGAA GGATCGAATT GCATCCTGTC TTTTGGAGAA CTGGAACAAA 
    GGAGAAGGCT TGGGATATGA GGGAATCGGC TTGGGCATTG GGCTACGAGG GGCCATTCGG 
    TTGCCATCCT TCAAGGTGAA AAGAAAGGAG CCACCTGAAG CTGCCTCAGC TGGAGATCAG 
    AAGAGAATCC GGCCTTCGAC TTCTGTCGAT GATGAAGATG AAGAGTCAGA GAGGGACAGG 
    GATGCTTCTG ATACAACATC TGAGCTGTCA AAGAAGGATG CAGAAGCAGT GGGGCTGCGG 
    CGGAGACCAG CAAGGCCGCT GGAGCTTGAC AGTGAGGGAG AAGAAGGAGA TGAAACATCA 
    GAGAAAGAGG AAGAGTCCTC CTCGGAGAAG GAAGAAGAGC AGGAAGAAGA GAGAGGCTTG 
    GTGAAAGCAG CACCTGGCAA GGATGAGGAG GATGACGAAG AGGATGAAGA GGATGAAGAT 
    GATGAAGAGG ATGATGATGA TGAAGATGAT GATGAGGAGG AGACTGGCAT AGACACAAGT 
    GACAAGGAGG AGGAGCAGGA CTCCGAGGAA GATGTAGCAA GTCCCTCATC TTCCAAGGCT 
    GAGGTTGAAT CATCCGATGA AAGTGAGGAC TCCTCTGAAT TCGAATCAAG TTCAGACTCA 
    GATGATGAAG ATGATGATGA TGACGAGGAG GAGGAGGAGG AAGAAGAAGA GGAGGAGACA 
    ACGGTGGCTG AGGATCAAGA CAGAGAAGCC ATGGTTGCTG AGACAGAGCA TGAACCTGCT 
    GGTCATGAGA TTCCTGAAGA TGAGAGGGAG ACTATTTTGG AGCTGTATCC TGTGGATGAC 
    TACATGGATG CAACAGGCTT GGGACTTGCA GAACCAGCTT TGGCAGTGAA AGATGAAGGC 
    ATGGAAGAAA TCAAGTCAGG GGAAGGTGAA TGTCGTGAAG CCCCAGAGGC ATCTCTTGCT 
    GCTGAAACAC TGAAACACTT GGTTATGGAA AGAGACCAGG AGACAAAACT TGCGCTCTCT 
    CCCATCTGTA GGCCAGTGGA AGAGTCTGAA CCTGCTACCG TCCTAGAGCC AGAGGTACAG 
    GAAGGTCCAA AGCCCGAGTC TCAAGATGAG GTGGAGATGC TCCCGACTCC AATGGGAGCC 
    TTTGGAGAAC CTCTGCCCAA TAAAAGCAGC TTCTTTAGCA AGTCTGATGA CAGCAGCTTG 
    GAAGCTCGTG CTAAAACAAA ACTGCCCTCA GCAGCAGAGG AGGACGACCG TCTGCCCCGC 
    ACGCCTGGAC GGGAGGTGGT GGTCCATGCG GAGACTGATA CTCTTTTGCT TCCAGCCCAC 
    AAGGTGCCAT CCTCCATGCT TCCCTTGCCA TCAACTCCTG GTAAAGAAGA ATCTTCAGTC 
    CCTCCAGAAA AGTTCCCTGA GCAATTAATG GTGACCAAAA CGCCTGTGGA AGAGGAGATT 
    CCTAGGACTC CTGGACGGGA CATTTTGGCC AAGTCTTCAC ACCCCCTTGC TAAGTCACAG 
    AGCACGGACA CTGTTCCAGC CACACCAGGA AGCGATGCTC CCCTTACGGG AAGCAGCTTG 
    ACCCTCAGTT CCCCTCAGGT CCCAGGAAGC CCCTTTTCCT ACCCATCCCA ATCTCCTGGC 
    ATTAACAGTG GCATTCCTCG TACTCCTGGG AGGGATTTCA ATTTCACGCC TACTTTCCCA 
    GAGGCTGGTG CTACCATTCC TTGCCTTCTG TCTGGCAAGA AGCCGTCAGA GGATAAGCAG 
    GATGATAAAC CCTTTAAAGA GCCTCTTGGT GCTTCCCTTA CGATCAGCAT GAACAGTGTT 
    CCTTCCCCTA TCCCCTTTGC CAGCCCCCCC CAAGCAGATT TCCACACGGA CATGGGTTTG 
    CCACCTGATG AGCCAATCCC TGTAGCAGCG CTGTCCTGCA TGCATGGAGA TGGGAGAATG 
    CCCATTGAGG AATGCAAGGC AGAAGTAAAA TCTGTTTTAC TGTCGCCAGA AGTACCCACT 
    GGTGCTTCCG TTCTTCCTCC CCCACCACCA CCTTCTGTTC TTCCCAAAAG GAGGCCAGGG 
    CGGCCAAGAC GGTCACCACC TTCTGTCCTC TCGTTGGATG GGTACTCGGG CAAAACCATA 
    GAACCTCCTC CTGTGTCAGT GGCCTTGGTG GAAAGTGCTG TGGGCAAAGA GCTGTTGAGT 
    GGACATCCTG ATGCTTTTTA TGGACCGAAA GACCCTGAAG CCATCACCCT GGACTTCAGG 
    AATGATGGTT TCCATGAGAA AATAGCAGCT GAGACGGTTG CAGAGAAACT GCCATTTAAG 
    GAACTGGAGA ACCAGTGGAA TGAAGACTTC AAGGAAGAAG AAGCTCAGGC GAAACCTAAA 
    AGACAGTGGC GAAGGCAGAA GAAGACAGCT GAAGACCTCC CCGTGATTCC TTCCCCTGAG 
    TATTCCCCAC CCCGACCTCA GTTCAGGCCA CGCTCCGAGT TTGAGGAGAT GACCATTTTG 
    TATGATATTT GGAACGGAGG CATAGATGAA GAAGATATCA AATTCATGTG TATCACATAT 
    GACCGCTTGT TACAGCAGGA CAATGGCATG GACTGGCTCA ATGACACCCT CTGGGTATTC 
    CATCCTTCTA CTAGCTTTTC TACCCCCAAG AAAAAGAAGC GAGATGATGG GATGCGGGAG 
    CACGTGACGG GCTGTGCACG AAGTGAAGGC TATTACAAAA TCGATAAGAA GGACAAACTT 
    AAATACCTCA ACAACAGCCG AGCTTTTGCA GAGGAGCCTC CAGCTGACAC ACAGGGTATG 
    AGCATCCCTG CCCAACCTCA TGCTTCCACC CGGGCTGGCT CCGAGAGGCG GTCAGAGCAA 
    CGCAGGCTCC TCTCCTCCTT CACTGGTAGC TGTGACAGTG ACCTGCTGAA GTTCAACCAG 
    CTCAAGTTTC GGAAGAAAAA ACTCAAGTTC TGCAAGAGCC ACATTCATGA CTGGGGCCTT 
    TTTGCTATGG AGCCCATTGC AGCTGATGAG ATGGTGATTG AATACGTGGG TCAGAACATC 
    AGGCAGGTCA TTGCTGACAT GCGTGAAAAG CGATACGAGG ATGAAGGCAT CGGAAGCAGT 
    TATATGTTCA GAGTCGATCA TGACACCATC ATCGATGCCA CAAAATGCGG AAACTTCGCC 
    AGGTTTATTA ATCACAGCTG CAATCCAAAT TGTTACGCTA AAGTAATCAC GGTGGAGTCT 
    CAAAAGAAGA TTGTCATCTA CTCCAAACAG CACATCAATG TGAATGAGGA GATTACCTAT 
    GACTACAAGT TTCCAATTGA GGATGTCAAA ATCCCTTGTC TATGTGGCTC TGAGAACTGC 
    AGGGGAACCC TGAACTGA

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

    RefSeq XP_009558700.1
    CDS59..6076
    Translation

    Target ORF information:

    RefSeq Version XM_009560405.1
    Organism Cuculus canorus(common cuckoo)
    Definition Cuculus canorus SET domain containing 1B (SETD1B), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_009560405.1

    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
    ATGTCTTTCC GAGAGATCAA GGCGGGGGAA AAAGCCAAGC ACCCTGAAGA TCATGGCAAA 
    AAGCAGAGTT CAAGTTGGAT CAACGGAATG GAGAACAGCA CGCAAGCCAG CACTTCAGTC 
    GAGAAAAGAA ATCACCATTG GAGAAGTTAC AAGTTGATTA TTGACCCGGC TCTGAAAAAA 
    GGACAGCACA AACTCTACCG TTACGATGGG CAACACTTCA GCATGCCTAA CTCCGGAATT 
    GCTCCTGTGG ATTGTGTCAG GGATCCCAGA ATAGGGCGAA TATGGACCAA AACTAAGGAG 
    CTGGAGCTGT CTGTCCCCAA ATTCAAGATT GATGAGTTTT ATGTGGGGCC AGTGCCTCCT 
    AAGCAGGTCA CCTTTGCCAA GCTGAACGAC AACATCCGCG AAAACTTTTT GACCGACATG 
    TGCAAGAAAT ACGGTGAAGT GGAAGAGGTG GAGATCCTCT ACAACCCCAA GAACAAGAAG 
    CACCTGGGCA TCGCCAAAGT GGTCTTTGCC ACTGTCAAGG GGGCCCGGGA GGCTGTCCAG 
    CACCTTCACA ACACCTCTGT CATGGGCAAC ATCATCCACG TGGAGCTGGA TACAAAAGGT 
    GAAACCCGCA TGCGATTCTA TGAACTGCTC GTTAATGGTC TTTACACTCC TCAAACCCTT 
    CCTGTCGGCA CCGAGCAGGA CGTATCGCCA ACTGTGAATG AAACAGTGCA GTTGACGGAT 
    TCCCTGAAGC GCCTCAAAGA CAGTAACCTT TCTTCTGCGG GATCATCTGT TACCCCAAAC 
    AGCAGCACGC CATTTTCCCA TGACACAGCC TATTCCAGCT GTCGGCAAGA CACCCCAAAC 
    TCTTACAGCC AATTTACCCC CCAGTCCCAA GGAACACCTC ATACCCCACG GCTAGGGACA 
    CCGTTTTCCC AGGATTCCAC CTATTCTAGT CGCCAGACAA CGCCTGTGTA CCATTTTGTA 
    CAGGACAGTG GGTACAAACC CAGGAGACAT GATACAAAAT TTACAGATGC CTACAACCGT 
    CGACCAGGAC ATCACTATGT TCATAACTCG GCAGGTGTTT TCCGGGGGAC GGAGCATCAG 
    TTCAGTACGT TCAAATCCCA TCAGCAGGAG CCAGTTCAGT TCTCTCACAC TCCTCCCCTA 
    AGCCACTCTA GTTCTTCGAG CTACAAATCT GCCTTCTCTC CTTACCAAGC ACCAGCTGTG 
    TTTCCCCAAA CTGAGGAGCA GCAGTTTCCC CAGACTTCCA GGGAAACAGA GTACCGAAGA 
    CCTGCGCCAC CTCCTGCCGA GATGGTTGTG GAAAGCAGCA CTGCCACTAA CATCGATTTT 
    GTCCCTGTGA AGGAGAAACA GGAGGAGCCT CCGCCCTTGC CTGATTCAAA CTCTGCTCCT 
    GAACCGAGCA CAGCATCTTT CTCTCAGACT CCGGAGAGAA GCGAGACCCC TGGTACCCCC 
    ACCATGGAGT CCGAAATGCA GCATAACAGT TTAGACTCAA GGATTGAGAT GCTCTTAAAA 
    GAGCAGAGAA CAAAGTTACC CTTTCTTAAT GAGCATGACT CAGATAACGA GATTCGAATG 
    GAAGGTAGCC CTATCTCCTC TTCATCTTCC CAACTCTCTC CCATCCCAAT GTATGGTTCA 
    AATTCTCAGC CTGGTTACAG AGGTCAGACG CCTTCCTCCC GCCCTTCCAG CACTGGCTTG 
    GAGGACATTA GCCCGACGCC GTTACCTGAC TCTGACGACG ACGAGCCCAT CCCCGGGACA 
    GCTTCTCTGA GCCAGAATTC CCGGGGGACA TCGGAGGCCA GCATGACTCC CATAGATCAG 
    CTAAGTAGGA CCTCCAAAAT TGAGACCTTA GAGGCTAAAG AAATGGTGCC TGGTGACCAG 
    ACTCCAACGT CAGAAAAAAT GGACGAGGGT CAGCATTCTT CAGGGGAGGA CATGGAAATC 
    TCTGACGACG AGACCAACCC TGCGCCCATC ACCAGTGCAG AATGTGCCAA AACCATCGTG 
    GTGAACTCCT CCGTCAGCAA CTCGGGCGTG ATGGCCCCAT CCATCCCTCC TATGCCGCCA 
    CCGGGATTCC CTCCTCTTCC TCCTCCTCCG CCGCCACCTC CACAGCCAGG CTTCCCAATG 
    CCTCCGCCGC TGCCTCCACC ACCTCCGCCC ACCCACCCCG CTGTCACCGT CCCACCGCCT 
    CCTCTCCCTG CCCCACCTGG GGTCCCTCCG CCTCACATCT TGCCTCCGCT TCCTCCATTC 
    CATCCCGGCA TGTTCCCTGT CATGCAAGTG GATATGATAA GTGTCTTGGG CAACCAGTGG 
    GGTGGCATGC CCATGTCCTT CCAGATGCAA ACTCAGATGC TGAGCCGCAT GATGCAGGCA 
    CAAAACACAT ATCAGTATCC GCCTTTCATG ACGGGACGGA TGCAATTTGT GAATCTTCCA 
    CCCTACCGGC CTTTCTCCAT GGGAGCAGCT CTTGGTCGTG GGCAGCAGTG GCCACCACTG 
    CCCAAGTTTG ACCCCTCGGT TCCACCACCG GGTTATGAGC CGAAGAAGGA AGATCCTCAC 
    AAAGCCACTG TGGATGGAGT CCTCCTGGTC ATAGTGAAGG AACTGAAGGC TATCATGAAA 
    AGGGACCTGA ACCGGAAGAT GGTTGAAGTG GTAGCATTTC GGGCATTTGA TGACTGGTGG 
    GACAAGAAGG AACGTCTGGC AAAGGCGTCT CTCACTCCAG TGAAATCTGG AGGAGAACTG 
    GAGGAAAAAC CAAAGCCGAA GGATCGAATT GCATCCTGTC TTTTGGAGAA CTGGAACAAA 
    GGAGAAGGCT TGGGATATGA GGGAATCGGC TTGGGCATTG GGCTACGAGG GGCCATTCGG 
    TTGCCATCCT TCAAGGTGAA AAGAAAGGAG CCACCTGAAG CTGCCTCAGC TGGAGATCAG 
    AAGAGAATCC GGCCTTCGAC TTCTGTCGAT GATGAAGATG AAGAGTCAGA GAGGGACAGG 
    GATGCTTCTG ATACAACATC TGAGCTGTCA AAGAAGGATG CAGAAGCAGT GGGGCTGCGG 
    CGGAGACCAG CAAGGCCGCT GGAGCTTGAC AGTGAGGGAG AAGAAGGAGA TGAAACATCA 
    GAGAAAGAGG AAGAGTCCTC CTCGGAGAAG GAAGAAGAGC AGGAAGAAGA GAGAGGCTTG 
    GTGAAAGCAG CACCTGGCAA GGATGAGGAG GATGACGAAG AGGATGAAGA GGATGAAGAT 
    GATGAAGAGG ATGATGATGA TGAAGATGAT GATGAGGAGG AGACTGGCAT AGACACAAGT 
    GACAAGGAGG AGGAGCAGGA CTCCGAGGAA GATGTAGCAA GTCCCTCATC TTCCAAGGCT 
    GAGGTTGAAT CATCCGATGA AAGTGAGGAC TCCTCTGAAT TCGAATCAAG TTCAGACTCA 
    GATGATGAAG ATGATGATGA TGACGAGGAG GAGGAGGAGG AAGAAGAAGA GGAGGAGACA 
    ACGGTGGCTG AGGATCAAGA CAGAGAAGCC ATGGTTGCTG AGACAGAGCA TGAACCTGCT 
    GGTCATGAGA TTCCTGAAGA TGAGAGGGAG ACTATTTTGG AGCTGTATCC TGTGGATGAC 
    TACATGGATG CAACAGGCTT GGGACTTGCA GAACCAGCTT TGGCAGTGAA AGATGAAGGC 
    ATGGAAGAAA TCAAGTCAGG GGAAGGTGAA TGTCGTGAAG CCCCAGAGGC ATCTCTTGCT 
    GCTGAAACAC TGAAACACTT GGTTATGGAA AGAGACCAGG AGACAAAACT TGCGCTCTCT 
    CCCATCTGTA GGCCAGTGGA AGAGTCTGAA CCTGCTACCG TCCTAGAGCC AGAGGTACAG 
    GAAGGTCCAA AGCCCGAGTC TCAAGATGAG GTGGAGATGC TCCCGACTCC AATGGGAGCC 
    TTTGGAGAAC CTCTGCCCAA TAAAAGCAGC TTCTTTAGCA AGTCTGATGA CAGCAGCTTG 
    GAAGCTCGTG CTAAAACAAA ACTGCCCTCA GCAGCAGAGG AGGACGACCG TCTGCCCCGC 
    ACGCCTGGAC GGGAGGTGGT GGTCCATGCG GAGACTGATA CTCTTTTGCT TCCAGCCCAC 
    AAGGTGCCAT CCTCCATGCT TCCCTTGCCA TCAACTCCTG GTAAAGAAGA ATCTTCAGTC 
    CCTCCAGAAA AGTTCCCTGA GCAATTAATG GTGACCAAAA CGCCTGTGGA AGAGGAGATT 
    CCTAGGACTC CTGGACGGGA CATTTTGGCC AAGTCTTCAC ACCCCCTTGC TAAGTCACAG 
    AGCACGGACA CTGTTCCAGC CACACCAGGA AGCGATGCTC CCCTTACGGG AAGCAGCTTG 
    ACCCTCAGTT CCCCTCAGGT CCCAGGAAGC CCCTTTTCCT ACCCATCCCA ATCTCCTGGC 
    ATTAACAGTG GCATTCCTCG TACTCCTGGG AGGGATTTCA ATTTCACGCC TACTTTCCCA 
    GAGGCTGGTG CTACCATTCC TTGCCTTCTG TCTGGCAAGA AGCCGTCAGA GGATAAGCAG 
    GATGATAAAC CCTTTAAAGA GCCTCTTGGT GCTTCCCTTA CGATCAGCAT GAACAGTGTT 
    CCTTCCCCTA TCCCCTTTGC CAGCCCCCCC CAAGCAGATT TCCACACGGA CATGGGTTTG 
    CCACCTGATG AGCCAATCCC TGTAGCAGCG CTGTCCTGCA TGCATGGAGA TGGGAGAATG 
    CCCATTGAGG AATGCAAGGC AGAAGTAAAA TCTGTTTTAC TGTCGCCAGA AGTACCCACT 
    GGTGCTTCCG TTCTTCCTCC CCCACCACCA CCTTCTGTTC TTCCCAAAAG GAGGCCAGGG 
    CGGCCAAGAC GGTCACCACC TTCTGTCCTC TCGTTGGATG GGTACTCGGG CAAAACCATA 
    GAACCTCCTC CTGTGTCAGT GGCCTTGGTG GAAAGTGCTG TGGGCAAAGA GCTGTTGAGT 
    GGACATCCTG ATGCTTTTTA TGGACCGAAA GACCCTGAAG CCATCACCCT GGACTTCAGG 
    AATGATGGTT TCCATGAGAA AATAGCAGCT GAGACGGTTG CAGAGAAACT GCCATTTAAG 
    GAACTGGAGA ACCAGTGGAA TGAAGACTTC AAGGAAGAAG AAGCTCAGGC GAAACCTAAA 
    AGACAGTGGC GAAGGCAGAA GAAGACAGCT GAAGACCTCC CCGTGATTCC TTCCCCTGAG 
    TATTCCCCAC CCCGACCTCA GTTCAGGCCA CGCTCCGAGT TTGAGGAGAT GACCATTTTG 
    TATGATATTT GGAACGGAGG CATAGATGAA GAAGATATCA AATTCATGTG TATCACATAT 
    GACCGCTTGT TACAGCAGGA CAATGGCATG GACTGGCTCA ATGACACCCT CTGGGTATTC 
    CATCCTTCTA CTAGCTTTTC TACCCCCAAG AAAAAGAAGC GAGATGATGG GATGCGGGAG 
    CACGTGACGG GCTGTGCACG AAGTGAAGGC TATTACAAAA TCGATAAGAA GGACAAACTT 
    AAATACCTCA ACAACAGCCG AGCTTTTGCA GAGGAGCCTC CAGCTGACAC ACAGGGTATG 
    AGCATCCCTG CCCAACCTCA TGCTTCCACC CGGGCTGGCT CCGAGAGGCG GTCAGAGCAA 
    CGCAGGCTCC TCTCCTCCTT CACTGGTAGC TGTGACAGTG ACCTGCTGAA GTTCAACCAG 
    CTCAAGTTTC GGAAGAAAAA ACTCAAGTTC TGCAAGAGCC ACATTCATGA CTGGGGCCTT 
    TTTGCTATGG AGCCCATTGC AGCTGATGAG ATGGTGATTG AATACGTGGG TCAGAACATC 
    AGGCAGGTCA TTGCTGACAT GCGTGAAAAG CGATACGAGG ATGAAGGCAT CGGAAGCAGT 
    TATATGTTCA GAGTCGATCA TGACACCATC ATCGATGCCA CAAAATGCGG AAACTTCGCC 
    AGGTTTATTA ATCACAGCTG CAATCCAAAT TGTTACGCTA AAGTAATCAC GGTGGAGTCT 
    CAAAAGAAGA TTGTCATCTA CTCCAAACAG CACATCAATG TGAATGAGGA GATTACCTAT 
    GACTACAAGT TTCCAATTGA GGATGTCAAA ATCCCTTGTC TATGTGGCTC TGAGAACTGC 
    AGGGGAACCC TGAACTGA

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

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