ORF » Species Summary » Hydra vulgaris » LOC100213268 cDNA ORF clone

LOC100213268 cDNA ORF clone, Hydra vulgaris

The following LOC100213268 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC100213268 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
OHc17807 XM_012701897.1
Latest version!		 Hydra vulgaris golgi-specific brefeldin A-resistance guanine nucleotide exchange factor 1-like (LOC100213268), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00

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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)
    LOC100213268 ( XM_012701897.1 ) cDNA ORF clone, Hydra vulgaris -> XP_012557351.1 Hydra vulgaris golgi-specific brefeldin A-resistance guanine nucleotide exchange factor 1-like (LOC100213268), mRNA.
    Price & Availability↑
    CloneID OHc17807
    Clone ID Related Accession (Same CDS sequence) XM_012701897.1
    Accession Version XM_012701897.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5793bp)
    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 1433606400000
    Organism Hydra vulgaris
    Product golgi-specific brefeldin A-resistance guanine nucleotide exchange factor 1-like
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_004168338.1) and transcript sequence (GAOL01025581.1) 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 :: Hydra vulgaris Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## assembly gap :: added 173 transcript bases to patch genome assembly gap ##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
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    ATGTTGCCAA AAAATGCTAT TTATATAATA CAAGGAGAAC TTAATCATGT TGTTGCTGCA 
    CTAAGGCGAA GTAATCGATG GAGTGGAGCT CACTTTCACC AGGAAGATGA GCAGGACCCT 
    TTGATTAATA GTTTTATTCA GCTTAAAGAA ACTTTACAGG AAACCAAAGA CATAAACAGT 
    TTAGATACAA ATGTTTTTCT TGGACCATTT CTTGATGTTA TTCGTTCAGA AGACACTACA 
    GGACCAATAA CTGGAGTAGC GCTTTCATCA GTTAACAAAT TCTTATCATA TGGATTACTT 
    GATCCTTTAT CAGAGAGTGC AAGTTCTGGA ATAGATAATT TGGCAGATGC TGTCACTCAT 
    GCACGTTTTG TGGGAACAGA TACCAGCAGT GATGAAGTTG TACTTATGAA GATTCTACAG 
    GTACTTCGGT CTTTACTTCT AAGTCCTGTT GGTGTTCATA TGACTAATGA ATCTGTTTGC 
    GAGATTATGC AGTCTTGCTT TAGAATCTGC TTTGAAATGA GACTTAGTGA ACTTTTACGT 
    CGAAGTGCTG AACAAACTTT GACAGACATG GTTCAGTTAC TCTTTTTACG GTTGCCTCAA 
    TTTAATGAAG ACTCAAAAAG TATTTTATCT TCGCCACATA TTCGTAAGAT GTTCAAGAGA 
    ACAGTTCCAA CATCTGGTTC AAGGAAAAAT AGAGCAAAAC CAAAGATGCG TCAATCAAAA 
    TCTATGACAA CAGTTAATAC CACAACAAGT CCTTCAAATA AAAATGGTTC TGAAGATGAA 
    AAGGAACTTC AAAAAATAGA AACAAAACGT TCTCATTCTG ATACAGAAGT TGTTTCTGAC 
    AGCAGTGAAT GTAAAACTAT GGTTGACAGC AGTGAATGTA AAACTATGGT TGACAGCAGT 
    GAATGTAAAA CTATGGTTGA AGTAGAACCT TCATCTGCAG ACGAAATGAC ATTTTTAAAA 
    AAACTTCATT CACAAAATTC TAGAGAAATT GATTCGACAA CAGTTGTTGA AAATACATTA 
    AGTGATTCAA CAGAAGTTAT GAAAAGTATT GAAGATATAA ACCAAGCATG TGATCTTCAA 
    CTAGAATCTA CATTATCGAT GGAAATTCCA GATGGTCAAG TAAAGAGCAA GTCATGTGAT 
    TCTAATAAAA ATCTCCAAAA CTTTGAAGAC CATGGCGTAA TATCATTACA ATATCCAGAC 
    GAGTCAGATC CAACAGTTGG TGATGATGAG GTTGCTAGCC CTGTTCAGAT TACTTCAACA 
    ACATTGAAAA CTGAAGAGAC TAATAACCAA GATTATGTGA ATACCCAGGG TGTTCGTTTC 
    ACATCACATG ATAAAGAAGG AATGGGTCCT CTTATGCCTT ATGGACTTCC TTGTGTGCGC 
    GAGCTGTTAC GATTTCTAAC CTCACTTATC AATCCTAACG ATCGACACAA TACCAACACA 
    ATGATACATA TTGGTTTGTC ATTAATCATA GTGGCATTAG AATCTGGAGC TAGCCATATT 
    GGACACTTTG CTTCACTTTT GCATATTGTA AAAGATGACT TATGTAAAAA TCTATTTTCG 
    CTTCTTCAAT GTGATATTCA CATTCTATTT TCATTATCAA TGCGTGTATG TTTCCTTTTG 
    TTTGAAGCAC TTCGTCAAAA TTTAAAGTTT CAAAACGAGC GCTTTTTCTT GAAACTCATG 
    GAAATTTTAT CAATTGAGAA TCTTAATGTT CCTTATGAGA AGAGAGAAAT GGCACTAGAA 
    TATGTTAATC AGCTGTTTCA TATTGATGGA TTAGTACAAG AACTTTATGT CAATTTTGAT 
    TGTGATCTGC ACTGTGCAAA CATACTAGAA GATCTTTGTA AAACTCTTTC AAAGAATGCT 
    TTCCGTCCTG GCAATCTGTC ATCTGTAAAT TTTTTGTCTC TTGATGCATT GCTTACAATT 
    ATCAATGAGT TTGAAGCACA TTGCAAGGAT GTAAAAGGAA ATCACCAGGA TGAAAAATCT 
    TCAGCTGTTG ACTTTATAGT GGAATATGAA TCAGAAGTTG ATGATGTTGA TCATAGTATA 
    GGATGCACTG CTCTCTCCAC ATCAGGTTAT GCAACTGGTC AACGATTTCT TGGTAATTCT 
    AGTGTTCCAA GCAAGGATTA CAAGACTGAT AGTTTTTCTA GCAATCTACC TTCTCGAGAA 
    GAAATTTCTG CTAAAAAAAT TAGGAAAAAA TTGTTGTCAC ATGGTATTGA TGAATTTAAT 
    AAAAAGCCAA AAAGTGGTAT AGATTATTTG CAGGAGCATG GTTTACTTTC AGCTAATTTT 
    CTTCCACAAG ATTTAATTGT TTATTTGAAA GAAAATCCTC GCGTGGACAA GAAAACACTT 
    GGAGATTTTA TTGGTACTCG TAAAAATGCT GAATATCTTA AAGCATTTGT TGGATCATTT 
    GCAATGAAAA ATCTGCGTAT TGATGAGGCT CTTCGAAATT TTTTGGAATC TTTTCGACTT 
    CCTGGTGAAA GTCCAGTCAT ATCTTTGATA TTGGAGGAGT TTTCTTCAGT TTATTTTAAT 
    AATAATCCTG ACCCATACAA GAATACAGAT GCTGCATTCA CTATGGCTTA TGCTGTCATC 
    ATGTTGAATG TTGATCAACA CAACAAAAAT GTAAAGCAGC AAAAATCTAT GAACCTTGAT 
    GATTTTAAAA GAAATCTTCG TAAAACAAAT GGCGGAGAAG ATTTTCCAGC AGAGTTATTA 
    GAAGAAATTT TTGAAAACAT AAGAACGAAT GAAATTGTTA TGCCTTCAGA ACGAATTGGT 
    AAAGTAAAGG AAGCATACGA GTGGAAGGTG TTAATGCAAA AATGTGAAGG CCCTGATTCA 
    CATTATCTCC AAGTTAAATC AGCTCTTTAT GACGAGGAAT TATTTCTAGT TGTTTGGGGT 
    CCTACAGTTG CTGCTTTATC ATATATATAT GATAATGGAA GTGACAAAGT ACATATTCAG 
    AAAGCTCTTG CAGGATTTAA GAAGTGTGCT GTGATCTCTG CTCATTATGA ACTGTCAGAT 
    GTGTTTGATA ATCTTCTTAT ATCGCTTTGT AAATTTACAA GTCTCCTTGT GACTGGTCAG 
    CTTAATGACA ATCTTTCTGT TGTGTTTGGA AATAACCTTA AATCACAACT GAGCATGAGA 
    ACTGTTTTTG TTCTTGCTCA TAAGCAAGGC GATATGCTTA GAGAAGGTTG GCAAAATTTA 
    TTGGTGTGTC TTATGCAGCT GTTCAAAGGA AAATTATTAC CACCTTCACT TACTGAGGTT 
    GAAGATTTTG TAGAACAAAG TGGAAAAATT AGCCTGATAA AAGAAGAAGT GCAACCAGTC 
    GCAAAGCAGG ACAATACTGG TGTTTTTGCA GCTTTTTATT CCTACATGGT TGCAAATCCA 
    GACACTCCTG CAAAATCTGT TTTGTCTGTA GAAGATCGAC AATCACAAGA AGCTGCACTG 
    AATTGTATAA AGGAGTGTCA CCCTGAAAAT ATAATAACAG AAAGTAAATT TTTAAGACCG 
    GAGTCTTTGC AAGAACTTGT TAAGAGTCTG ATAATTGCAT CAAAACCCTT GCACTTATAT 
    GAATCTACTG ATGTCCCTTA TGATGAGGAT GCTGCTGTCT TTTTTCTTGA GTTTTTAATA 
    AAAGTTGCTT TACAGAACAA AGATCGCATA TCATTGTTGT GGCATGCTCT TCGAGAACAT 
    TTATCCAATA TAATCATAAG TGCCCCAAAA GTGAGTTTTT TAGTAGAAAG AGCTGTTGTT 
    GGTTTACTTC GAATAGCTAT AAGACTTTTG GGTCGTGATG AAATTTCATC TCAAATATTA 
    ATTACTTTAC GGATTCTACT CATGATGCAC CCTAAAGTTT TGCTCAGTTG CTCTAAACAA 
    ATTTCATACG GCCTTCATGA GTTATTGCGA ACTAATGCTG TTAATTTGCG ATTTTCAAGA 
    GATTGGATTA CAATATTAAC AATACTTCAG GTTGTGGGAG CAGGAGCAAT TCCTCCTATT 
    GTTAAACCAG GTGTAAGTCT AACTTTAGTA TCTGGAGACA TTTACTCTGT TTTACAAGAG 
    GAAAAAATTG ATACAGAAAC TGGAGAGTTT TACAGTAATA GCATTGAGCA AATAGATAGA 
    GGCTATGTTG CTGATGTAAA AGAAAACACC TACAGTATGA AACATCAAAA TGAACAATGG 
    CTTTTAATAA ATAAAAATGA GGATGAAGGG CTACCTATAA ATCAATATGA ACTCAAGTTT 
    AAGGAAAAAT TAAACAAACA CAATTGTAAA GTTTTTATTA AGGCTTCGTC TTCTATTAGT 
    TTTATAGTCA GAGATATGGC TCATGTTAAT GACTATAACA TATTTCAATG TATCTATGCA 
    GTTTTATTGT TTGGTGAAGC AAGCTCAAAT GGTGGTTTAA AGTATAGATT GGATGACTCT 
    GTTATTAATG AAATTGAAAA AGAGCTTAGA CACATTCCTG AAAAGCCTAA ACAAAAAGGC 
    AAGCGAGGGT CATCGCCAAA AAGAGATAGC AAAAAGTCAC ATCAAGCATT TGATTCCCCT 
    AAAAAAGAAG ATGAAGTTGA GTTTAATGAA AACACTGGTA ATATTTATGA TGCAATCTCT 
    TTACAGCTCC TTGATCTTAT GTATGCTTTA CACACAAATG CTTCAGGTAT ACTTGGAAAC 
    ATGCAGTGGA ATGATTATCA AGACAAACAA CAGGCTGAAC TAAAAGCCAG ATGGAGTAGT 
    AAAGAAAGTA TTGATCAACT TCCCAGTACT TTTAAAGCTG ATAGCGATAA TGCCATGTCA 
    TTGTTATGGG TAAAGTGCTG GTGTCCACTC CTTCAAGGAA TTGCTCGACT TTGTTGTGAT 
    ACTCGACGTG GTATTCGAAT GACTGCTTTA ACAGTGTTGC AACGATCAAT GTTAGCAGAT 
    GACCTCCAAC TACTGTCTGC TGCTGAGTGG GAGAATTGTT TTAACCAGGT TTTATTTCCT 
    ATGTTGTCTA ATTTACTTGA ACTTTCAACG GATTGGGATC CAAATGGTTT GGAAGAGACT 
    AGAATGAGAG CAGCTACATT GCTATGCAAA GCTTTTCTTT TGCATTTAAA CACTTTAATA 
    TCATTGGCAA CATTTACAGC ATTATGGATG ACAATGCTTG ACTTTATGGA CAAGTATATG 
    CATGCCGACA ATAGTGACTT ACTTTTTGAG GCTGTCCCGG AGTCACTTAA AAATATGCTG 
    CTTGTGATGT CAACAGCGGG AATATTTGAA CATCATCAAG ATATACCAGA GAATGAAAAT 
    CCAGATAAAA AAACTAGACG GTACTCAGCA TTGTGGCAGG TTACCTGGGA CCGAATAGAC 
    TGCTTTCTGC CAAATTTAAA AGATGATCTT TTAGCGACTC GGTCACCGGT TTCATTGCGT 
    GCTTCGTCTC CTCCGGAACC AGATGTTCCT AGACTAATGA CTATTCATAA CATAGAAGAT 
    GGCGATTCTG TGCAAATTTT AAGAACTCAT TCACCTGAAC AAAATATCGA GTCTTCGTCG 
    TCTTTAAAAG TTAGCTCCGT TTCTTTGACA AAACCACTGT TAGATATTGT TTCTACTCCT 
    GTATCATCAC CAGTTTCACA ACGTGCTTCA AGCCCATTAT TAACAGACGA ACCTTCTGGA 
    TTAAATGTTC AACTCTTTAC TCCTTTGCCT CTGATTAGTC CTCCTGGCAG TGTGCACGCT 
    GTATCAGAAA CTACGAATGT GCATCCAGTA GCAGTCCTTT TGCCACCCAT AGCTATGTTA 
    GAACTTTCAC CTAATGATAG GAAAGAGGAA ACTTCGAAAA AAATACTTTT TAATGATGGA 
    AACACTGATG TTAGAGCTGT CTTCGATATA TAA

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

    RefSeq XP_012557351.1
    CDS29..5821
    Translation

    Target ORF information:

    RefSeq Version XM_012701897.1
    Organism Hydra vulgaris
    Definition Hydra vulgaris golgi-specific brefeldin A-resistance guanine nucleotide exchange factor 1-like (LOC100213268), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012701897.1

    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
    ATGTTGCCAA AAAATGCTAT TTATATAATA CAAGGAGAAC TTAATCATGT TGTTGCTGCA 
    CTAAGGCGAA GTAATCGATG GAGTGGAGCT CACTTTCACC AGGAAGATGA GCAGGACCCT 
    TTGATTAATA GTTTTATTCA GCTTAAAGAA ACTTTACAGG AAACCAAAGA CATAAACAGT 
    TTAGATACAA ATGTTTTTCT TGGACCATTT CTTGATGTTA TTCGTTCAGA AGACACTACA 
    GGACCAATAA CTGGAGTAGC GCTTTCATCA GTTAACAAAT TCTTATCATA TGGATTACTT 
    GATCCTTTAT CAGAGAGTGC AAGTTCTGGA ATAGATAATT TGGCAGATGC TGTCACTCAT 
    GCACGTTTTG TGGGAACAGA TACCAGCAGT GATGAAGTTG TACTTATGAA GATTCTACAG 
    GTACTTCGGT CTTTACTTCT AAGTCCTGTT GGTGTTCATA TGACTAATGA ATCTGTTTGC 
    GAGATTATGC AGTCTTGCTT TAGAATCTGC TTTGAAATGA GACTTAGTGA ACTTTTACGT 
    CGAAGTGCTG AACAAACTTT GACAGACATG GTTCAGTTAC TCTTTTTACG GTTGCCTCAA 
    TTTAATGAAG ACTCAAAAAG TATTTTATCT TCGCCACATA TTCGTAAGAT GTTCAAGAGA 
    ACAGTTCCAA CATCTGGTTC AAGGAAAAAT AGAGCAAAAC CAAAGATGCG TCAATCAAAA 
    TCTATGACAA CAGTTAATAC CACAACAAGT CCTTCAAATA AAAATGGTTC TGAAGATGAA 
    AAGGAACTTC AAAAAATAGA AACAAAACGT TCTCATTCTG ATACAGAAGT TGTTTCTGAC 
    AGCAGTGAAT GTAAAACTAT GGTTGACAGC AGTGAATGTA AAACTATGGT TGACAGCAGT 
    GAATGTAAAA CTATGGTTGA AGTAGAACCT TCATCTGCAG ACGAAATGAC ATTTTTAAAA 
    AAACTTCATT CACAAAATTC TAGAGAAATT GATTCGACAA CAGTTGTTGA AAATACATTA 
    AGTGATTCAA CAGAAGTTAT GAAAAGTATT GAAGATATAA ACCAAGCATG TGATCTTCAA 
    CTAGAATCTA CATTATCGAT GGAAATTCCA GATGGTCAAG TAAAGAGCAA GTCATGTGAT 
    TCTAATAAAA ATCTCCAAAA CTTTGAAGAC CATGGCGTAA TATCATTACA ATATCCAGAC 
    GAGTCAGATC CAACAGTTGG TGATGATGAG GTTGCTAGCC CTGTTCAGAT TACTTCAACA 
    ACATTGAAAA CTGAAGAGAC TAATAACCAA GATTATGTGA ATACCCAGGG TGTTCGTTTC 
    ACATCACATG ATAAAGAAGG AATGGGTCCT CTTATGCCTT ATGGACTTCC TTGTGTGCGC 
    GAGCTGTTAC GATTTCTAAC CTCACTTATC AATCCTAACG ATCGACACAA TACCAACACA 
    ATGATACATA TTGGTTTGTC ATTAATCATA GTGGCATTAG AATCTGGAGC TAGCCATATT 
    GGACACTTTG CTTCACTTTT GCATATTGTA AAAGATGACT TATGTAAAAA TCTATTTTCG 
    CTTCTTCAAT GTGATATTCA CATTCTATTT TCATTATCAA TGCGTGTATG TTTCCTTTTG 
    TTTGAAGCAC TTCGTCAAAA TTTAAAGTTT CAAAACGAGC GCTTTTTCTT GAAACTCATG 
    GAAATTTTAT CAATTGAGAA TCTTAATGTT CCTTATGAGA AGAGAGAAAT GGCACTAGAA 
    TATGTTAATC AGCTGTTTCA TATTGATGGA TTAGTACAAG AACTTTATGT CAATTTTGAT 
    TGTGATCTGC ACTGTGCAAA CATACTAGAA GATCTTTGTA AAACTCTTTC AAAGAATGCT 
    TTCCGTCCTG GCAATCTGTC ATCTGTAAAT TTTTTGTCTC TTGATGCATT GCTTACAATT 
    ATCAATGAGT TTGAAGCACA TTGCAAGGAT GTAAAAGGAA ATCACCAGGA TGAAAAATCT 
    TCAGCTGTTG ACTTTATAGT GGAATATGAA TCAGAAGTTG ATGATGTTGA TCATAGTATA 
    GGATGCACTG CTCTCTCCAC ATCAGGTTAT GCAACTGGTC AACGATTTCT TGGTAATTCT 
    AGTGTTCCAA GCAAGGATTA CAAGACTGAT AGTTTTTCTA GCAATCTACC TTCTCGAGAA 
    GAAATTTCTG CTAAAAAAAT TAGGAAAAAA TTGTTGTCAC ATGGTATTGA TGAATTTAAT 
    AAAAAGCCAA AAAGTGGTAT AGATTATTTG CAGGAGCATG GTTTACTTTC AGCTAATTTT 
    CTTCCACAAG ATTTAATTGT TTATTTGAAA GAAAATCCTC GCGTGGACAA GAAAACACTT 
    GGAGATTTTA TTGGTACTCG TAAAAATGCT GAATATCTTA AAGCATTTGT TGGATCATTT 
    GCAATGAAAA ATCTGCGTAT TGATGAGGCT CTTCGAAATT TTTTGGAATC TTTTCGACTT 
    CCTGGTGAAA GTCCAGTCAT ATCTTTGATA TTGGAGGAGT TTTCTTCAGT TTATTTTAAT 
    AATAATCCTG ACCCATACAA GAATACAGAT GCTGCATTCA CTATGGCTTA TGCTGTCATC 
    ATGTTGAATG TTGATCAACA CAACAAAAAT GTAAAGCAGC AAAAATCTAT GAACCTTGAT 
    GATTTTAAAA GAAATCTTCG TAAAACAAAT GGCGGAGAAG ATTTTCCAGC AGAGTTATTA 
    GAAGAAATTT TTGAAAACAT AAGAACGAAT GAAATTGTTA TGCCTTCAGA ACGAATTGGT 
    AAAGTAAAGG AAGCATACGA GTGGAAGGTG TTAATGCAAA AATGTGAAGG CCCTGATTCA 
    CATTATCTCC AAGTTAAATC AGCTCTTTAT GACGAGGAAT TATTTCTAGT TGTTTGGGGT 
    CCTACAGTTG CTGCTTTATC ATATATATAT GATAATGGAA GTGACAAAGT ACATATTCAG 
    AAAGCTCTTG CAGGATTTAA GAAGTGTGCT GTGATCTCTG CTCATTATGA ACTGTCAGAT 
    GTGTTTGATA ATCTTCTTAT ATCGCTTTGT AAATTTACAA GTCTCCTTGT GACTGGTCAG 
    CTTAATGACA ATCTTTCTGT TGTGTTTGGA AATAACCTTA AATCACAACT GAGCATGAGA 
    ACTGTTTTTG TTCTTGCTCA TAAGCAAGGC GATATGCTTA GAGAAGGTTG GCAAAATTTA 
    TTGGTGTGTC TTATGCAGCT GTTCAAAGGA AAATTATTAC CACCTTCACT TACTGAGGTT 
    GAAGATTTTG TAGAACAAAG TGGAAAAATT AGCCTGATAA AAGAAGAAGT GCAACCAGTC 
    GCAAAGCAGG ACAATACTGG TGTTTTTGCA GCTTTTTATT CCTACATGGT TGCAAATCCA 
    GACACTCCTG CAAAATCTGT TTTGTCTGTA GAAGATCGAC AATCACAAGA AGCTGCACTG 
    AATTGTATAA AGGAGTGTCA CCCTGAAAAT ATAATAACAG AAAGTAAATT TTTAAGACCG 
    GAGTCTTTGC AAGAACTTGT TAAGAGTCTG ATAATTGCAT CAAAACCCTT GCACTTATAT 
    GAATCTACTG ATGTCCCTTA TGATGAGGAT GCTGCTGTCT TTTTTCTTGA GTTTTTAATA 
    AAAGTTGCTT TACAGAACAA AGATCGCATA TCATTGTTGT GGCATGCTCT TCGAGAACAT 
    TTATCCAATA TAATCATAAG TGCCCCAAAA GTGAGTTTTT TAGTAGAAAG AGCTGTTGTT 
    GGTTTACTTC GAATAGCTAT AAGACTTTTG GGTCGTGATG AAATTTCATC TCAAATATTA 
    ATTACTTTAC GGATTCTACT CATGATGCAC CCTAAAGTTT TGCTCAGTTG CTCTAAACAA 
    ATTTCATACG GCCTTCATGA GTTATTGCGA ACTAATGCTG TTAATTTGCG ATTTTCAAGA 
    GATTGGATTA CAATATTAAC AATACTTCAG GTTGTGGGAG CAGGAGCAAT TCCTCCTATT 
    GTTAAACCAG GTGTAAGTCT AACTTTAGTA TCTGGAGACA TTTACTCTGT TTTACAAGAG 
    GAAAAAATTG ATACAGAAAC TGGAGAGTTT TACAGTAATA GCATTGAGCA AATAGATAGA 
    GGCTATGTTG CTGATGTAAA AGAAAACACC TACAGTATGA AACATCAAAA TGAACAATGG 
    CTTTTAATAA ATAAAAATGA GGATGAAGGG CTACCTATAA ATCAATATGA ACTCAAGTTT 
    AAGGAAAAAT TAAACAAACA CAATTGTAAA GTTTTTATTA AGGCTTCGTC TTCTATTAGT 
    TTTATAGTCA GAGATATGGC TCATGTTAAT GACTATAACA TATTTCAATG TATCTATGCA 
    GTTTTATTGT TTGGTGAAGC AAGCTCAAAT GGTGGTTTAA AGTATAGATT GGATGACTCT 
    GTTATTAATG AAATTGAAAA AGAGCTTAGA CACATTCCTG AAAAGCCTAA ACAAAAAGGC 
    AAGCGAGGGT CATCGCCAAA AAGAGATAGC AAAAAGTCAC ATCAAGCATT TGATTCCCCT 
    AAAAAAGAAG ATGAAGTTGA GTTTAATGAA AACACTGGTA ATATTTATGA TGCAATCTCT 
    TTACAGCTCC TTGATCTTAT GTATGCTTTA CACACAAATG CTTCAGGTAT ACTTGGAAAC 
    ATGCAGTGGA ATGATTATCA AGACAAACAA CAGGCTGAAC TAAAAGCCAG ATGGAGTAGT 
    AAAGAAAGTA TTGATCAACT TCCCAGTACT TTTAAAGCTG ATAGCGATAA TGCCATGTCA 
    TTGTTATGGG TAAAGTGCTG GTGTCCACTC CTTCAAGGAA TTGCTCGACT TTGTTGTGAT 
    ACTCGACGTG GTATTCGAAT GACTGCTTTA ACAGTGTTGC AACGATCAAT GTTAGCAGAT 
    GACCTCCAAC TACTGTCTGC TGCTGAGTGG GAGAATTGTT TTAACCAGGT TTTATTTCCT 
    ATGTTGTCTA ATTTACTTGA ACTTTCAACG GATTGGGATC CAAATGGTTT GGAAGAGACT 
    AGAATGAGAG CAGCTACATT GCTATGCAAA GCTTTTCTTT TGCATTTAAA CACTTTAATA 
    TCATTGGCAA CATTTACAGC ATTATGGATG ACAATGCTTG ACTTTATGGA CAAGTATATG 
    CATGCCGACA ATAGTGACTT ACTTTTTGAG GCTGTCCCGG AGTCACTTAA AAATATGCTG 
    CTTGTGATGT CAACAGCGGG AATATTTGAA CATCATCAAG ATATACCAGA GAATGAAAAT 
    CCAGATAAAA AAACTAGACG GTACTCAGCA TTGTGGCAGG TTACCTGGGA CCGAATAGAC 
    TGCTTTCTGC CAAATTTAAA AGATGATCTT TTAGCGACTC GGTCACCGGT TTCATTGCGT 
    GCTTCGTCTC CTCCGGAACC AGATGTTCCT AGACTAATGA CTATTCATAA CATAGAAGAT 
    GGCGATTCTG TGCAAATTTT AAGAACTCAT TCACCTGAAC AAAATATCGA GTCTTCGTCG 
    TCTTTAAAAG TTAGCTCCGT TTCTTTGACA AAACCACTGT TAGATATTGT TTCTACTCCT 
    GTATCATCAC CAGTTTCACA ACGTGCTTCA AGCCCATTAT TAACAGACGA ACCTTCTGGA 
    TTAAATGTTC AACTCTTTAC TCCTTTGCCT CTGATTAGTC CTCCTGGCAG TGTGCACGCT 
    GTATCAGAAA CTACGAATGT GCATCCAGTA GCAGTCCTTT TGCCACCCAT AGCTATGTTA 
    GAACTTTCAC CTAATGATAG GAAAGAGGAA ACTTCGAAAA AAATACTTTT TAATGATGGA 
    AACACTGATG TTAGAGCTGT CTTCGATATA TAA

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

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