ORF » Species Summary » Pteropus alecto » EXPH5 cDNA ORF clone

EXPH5 cDNA ORF clone, Pteropus alecto(black flying fox)

The following EXPH5 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the EXPH5 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
OPt16404 XM_006913433.1
Latest version!		 Pteropus alecto exophilin 5 (EXPH5), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00

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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)
    EXPH5 ( XM_006913433.1 ) cDNA ORF clone, Pteropus alecto(black flying fox) -> XP_006913495.1 Pteropus alecto exophilin 5 (EXPH5), mRNA.
    Price & Availability↑
    CloneID OPt16404
    Clone ID Related Accession (Same CDS sequence) XM_006913433.1
    Accession Version XM_006913433.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5928bp)
    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 2018-05-06
    Organism Pteropus alecto(black flying fox)
    Product exophilin-5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006436543.1) 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 Name :: Pteropus alecto Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 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
    ATGACGAAAG TTCCTCAGGG GTTTGATTTC AGTTTCTTAA GTGACGAAGA AGCCAGGAAG 
    ATCCTTCAAG TCTTGGAAAG AAATGAGGAA CTACAGAGGG CAGAGAAGGA CAGGATCAGC 
    AAACTCCAGA AGACAAAGAG GGACATCAGA TGGCTTCAAG GAGTGACTGG TGAATGGTTC 
    GAAGAAATTC AAAGAAAAAA GTTTTGCAAT GAAACGGATG TTAGCCAAAT GTTAAAACAA 
    CCCCTTACAT ACAGGCTAAG GAAGGGGATG GCAAATGATC CTCTGGAACG ACAAACATCG 
    AGATTGAAAA ATATACCTAA TCAAGGAAAC CCAACATCCG TGCCCTCCCG GCGGAGTTTC 
    AGATCATCAT TTGCTTCCCT GTTCTCATTC AGAAAATCTA GAAAGGAGAC TTTAGAGCTT 
    CAGACACTGC GACAGAAAGG ATATGATAGC CATCCAGGAC TTCCTGCATC TGTGAGGGGA 
    AATGCTATGC AGGCAAAACT ATACAATTCA CCTCTGGAAA ATCAACCAAT TGACAGTGCA 
    TTTGTCCCCA AGCCAGCAGG CATGAGGGAG GGAAGTGGCG TGCCTCCGTG GGATGCTTCC 
    CTGCTGGAGA ATGAGTTTTT CCGAGTTTTA GATGATTTGG ATAGCAAACT GGCTCAGGAA 
    CAATCTTCAA GCTCAGTGAA TACCAGAACA CCTATCAACT ATGAATCAAG AACACGGTTC 
    AGTCATTTTT ACTCCAGTGG CAACGGACAC GGTAATATCA CAGGAAGGCA CAAAAATCAC 
    TATAATGAAA CTTCTAATAT GTCTATCTAT GACATCCTAA GACCAGGAAC CCCTAGGGAA 
    GGTTTTAAAA CCTTTTCTCC TAGAACAAGG ACAATTTATG ATATGTACAG GACAAGGGAG 
    CCCAGAGTTT TGAAAGAAGA TTATGTGCAA AAGAACACTT TTGGTAGTGC CTCTCTGTGT 
    TTCGACAGCA GGCAACAATT AGCCTCACCA GCTACAGGGT ACTTCACAAC AAGAAGCTTA 
    CATTTTCCAG CCACAATTCA GAACAAGAGT GGATTTATAC CATCAAGCCA TCAGCAGAGC 
    CCAAAGAGAA CTCCTTTATC ATCCATCATA TGGAATAGAT CAGATTCTTG TAGAGACAGG 
    CAGAATCAGG AAGAGTTGAG GGTACCATCA CCAATGGAAA TTGACCCTGC TGACCAATAT 
    ATGTATCCCA AGTGTTCTCA GGAGGATAGA AGATATGAAT TTTACCGTTC ACAGGGTGTT 
    AACAGAAGCA TTAGTTTAAA TTCCCCCATG GATAATGCAA TGAGTCCTGA CCCATTTGAG 
    AACTCAGAGA ATATGCCATT CTACCATCAA GACAACCCAT TTGCTAAGTC TTTCTTTAGC 
    AATACCTTTG GACGAAGCAG GGAACAGAGA AGTGGGCAAA GTCCTTTTGG GGTGCAACAG 
    GAAGAATATT CTTCCTGGTC TGGCTTTCAT CAAAGCAGGA AACCATTCAC TTCTTCTGAC 
    AGAGACTTTG AAATGATTTC CACTGAAGCA AATAATGCAG CAACTGGTCA CAGCCATAGT 
    GTTTCTACTC AACACTGGGG ATCATTTTCT CCCAGTTATG GAACAAACAT TTCCAGAGAC 
    CAAGAAGAGC CACATCCTTG GCAGTTTGAC TCTCAGACAA CCACACTGGA GAGTATGGAG 
    GTATCACAAG GTAACAGGAA CCAGATGATT CATTTCAGCA CACCAAATCT TTGCTCCATG 
    ACTAGTTCAA GCTACCCCAT CAAACCTGGT GGGTTAGAAT GTCAGTGGGA CAGTTCTCCT 
    ACAGAAGTAC ATGTTAACAG AGAACCTTAC TCATTGGGAA TTGCTCAGAC TCTAGCATCC 
    TCATTCGGAA CTTCCTTCCC CCAGACTCCC GATGATGAAG GGAATTCTCA GAGTTCCAGC 
    ATTCCCAATC CCACAGTCAC TTTGCAGAAA ATTAAGCCTG CCTCTCTTCC ATTAAGAAGC 
    TACACAGAAG TCACTGTAAC CAACAGTGAT TCAGCCGATT CTCCACCTCT TACTGAAAGC 
    CAACCCAATA TCTTAGTCAC AGAAGTGAAT AATGAGAAAG ACTTGATCAA ATCTGTTTCA 
    GAAAAAGATA AACTAAACAA GATGGATTAT ACAAACAGAA CAAGTGTAGT ACCCCAACCT 
    GTTTCACAGA CAATAATCTC TAACCCTTCA GCTGATTTTC AAAATCCTCT CTCCCAAGAC 
    TCAGCCAAAA GCAACAGATT TGTTTTTAAT GCATCTACCA CAATAAGTTC AAAAAAGTCA 
    CCCAAAGTCA TTTCCCGGAA AGATATCTCC AAAATTCATA TATCACAGAG AGAGAAAGCC 
    AATGAACTAC AAAAAGATAA GCGTTATACT GAAAACAGAA AACTTGGCTC AGCAACATCC 
    TTTCCTTTCA TTTGGGAAAG CAGAATACCA TCATCACTTC CTAGCCCAAA TCAGGAATTA 
    ATAGTAAGTA ATGAAGGTAC TTCAAGCATT ATTAAAAATA ACCACTGGAG CTCTGAACCT 
    ACTGATAATC AAAATGCACA GTCTCCAGAA AACAAGTCAG CTACTGGCCA CAATATCCCA 
    TGTGTTTCTT TAGGTCTGTC ATCAGGTATA CCACCAGATT CCTCTCCATC GAATAATTCT 
    TTCCTTGATG CACTGGTGGT TCCTTCTACT ACAGTGTTCT TCAAGAAAAC TCCTTTGGGC 
    AAAGATCCAT CTTGGGGAGA AAAAGAAGAA AAAGACAGTG ATAGCAAGAA TCAGAATAAT 
    CAGTTAACCC TAAGCCCCTC AGAAAATCAA AAGAGTGATG ATAGCTGTGT GTCTGTACAT 
    AATGAAGTGG TTGATGTTGT CAAATGCCAC GTACACCCTC CTTTCAGGGC AGGAAAGGGA 
    AAAGGGAAAG TAAGACGACG TATATCCTAT ATTGAACAGT TAAGCAAAAC AGAAAGTAAA 
    TCAATACCCA CAAATGACAG CAGTAGCTTC ATTGACATGA ATCAAAGCAA TTCCAAGGCT 
    CCTGAGCTTC ACACAATTTA TTGTACCCTA CCAAGAAAAG CAGCCAGTTT TCCCATCAGT 
    AACAGGAAGT CAGAAAGTAA AATAATGGCT TCTTCATTTA GGAATGAGCC ACTTCCACTC 
    CAAATCGAAA ATAATGTGGA AGATCCAATA GGGANNNNNN NNNCAAACAA AATCAATCCC 
    AGTTATTCGA AATCAGAAAG CAAATGTTCT ACAGTAGTTT CAGACTCAGT AGCACCTGAA 
    GCCACAGAGA GGATGACAAA TGTGACGAAC ATTGGATCTG CTTCCATTAG AAAAGGACCA 
    CTTCCATTCC TCATCAAGAG GGCTGTGTCA TGTCCTTCAG GGGTATCATG TGCCTCAGTC 
    GAAAAAGATG AAAAAGAAAG ATGCTTGGTC TCCAACATGG ATGCTTCTGC TATAACACTA 
    AGGCCTGAGG AGAAAACCAT TAATCCTCTG GAAAGTAACT CCTCTGTTAG GGATTCTTCT 
    ATAACCAGAA GACACCACCA AAAGGAGTAT TCTCAAGAAT GTACTGAAAA GGATGGTAAA 
    ATTGCTGCCT CCAGTACAAG TATGTTTTCC CTTTTAAATG AAGACTTTTC ACCTTTTTCT 
    TCAGGTATGT CAGAGGAAAA AAGTGGGAAA ACATTATACA AATTTAAGAC TACTAGTATG 
    TTTTCTGTAT CTGGTGATGA AGATAATGTA AAATGCCTTG AGATAGTTTC AGTATATTAT 
    ACTCTACCAA GGAAACACAG CAAAAAATTC TGTGACCTCC TTCAAAAGTA CACACAAAAT 
    ATCAATTCAC TTACAGAATC AACTAAATTG GGGACTGAAA CATTTCCTAA TGCTTTAGAA 
    AAAGACAAAC GCAGTTCTAC ACAAGAGCAG TCAGGAACAC CTTCATCTGA AGATCCGAAG 
    ATGCTGCTCA GCTCTGCTCA GGAGAATAGC CTTTGTCGTT CTCACAACAC TGAAAATGTG 
    ACTGTTTCAC AATTACCAAG TATTGGGCCT TCATTACAGG AAATGTCTTC TATTGAGGCA 
    AATGTCTCTC TTCATAAAGG AGAACCTAAA ACTAGAGAGA TTTCCCCAGA TAACTTAACT 
    AAAATACCTC TAAGTGAGTC TCAAAGCAGG AAAGACAGAG GGAAAGAATT GCAAAGTGAA 
    ACCCTGTGTA CTTCATCAAT GCTTCAGGAA AAAAAAGTTA TAGAAGAGAA ATCTGAAAAT 
    TGTCAGAAAT CCATTAAATC AGGTAACAGT GATCCTTCTA ATCTTCCAGC CAATTCAGAA 
    GAGAATGTTG AAAATCCCCA AACCAGAAGA AGTTCTGGGG AGTGTGCAGG TAGTGGTATA 
    GCCATTACAG CTACCGGAAG TAGAAAATGT CTTCAGAAAG ATATCACAGG CATAGCTAAA 
    GATGATGGAT TTCAGCCTAG GAAAGTCAGA GGGGAAATTG GAGCAGATTT CCGAAAAAAG 
    ACTGATAAAT CACTTTCTGA CTCAGAAAGC CAAGTCTTTG CTCTTTCTCC AGCTTTGCAT 
    AAACTACAGC TTGATGAGGG GACTTGTTCA GGTGAAAAAG ATTTAGACAA TTTGCATTCT 
    GAACCCAGAG AACCACTTCA AAGAAGTCAG GAGGTAAATT TGACAGAGAA CAGCAAGGCT 
    AAAGATGAAA TGCAGAGGTT GGCATGGGAT CAACTTTTAC TTCCTGCAAG AAGTAATAAA 
    AATAAAATCA GTTTGGATGA CCTAGGAAAA GGGAAAAACA GATCATCAGT TAAACAGAGA 
    TTGGCACCCA AGTCCAAAAC AAGCAGAAAA TTTCCAGCTA AAGATTTAAG CCCCAGAAGG 
    CATGTAGCTA CTATCTTCCC TCAAAGTGGG AACAGTTCTG ACTTCAGTGA TTTATCTCTT 
    GGCACACCAG AGTGCAACCC ACTGTCCCCT GAGCCTATTC CAAAGTCCAC AGAATCCACA 
    GATAAAAGCA GGCTAAGTAT TGATGGAATG GACATGGGGA AATCAAAGAA CCCTTTCCAG 
    GTTACCATAA CATCCAAAAG AGAAGCTTGT ACACACTTAA ACAATCAAAA GTCTAACAGC 
    ATCTCAGGAC CACATCAGAA TGAGTTTAAA AATATCTCAG AATTACTACC AACCTATGAG 
    AATTCTAAAG ATTTAACGGT AGCTCAGACT TTGGAAAGAG AGTCAGGAAC CCCGGCCCAA 
    CCCACCTTCA CCAGCCTAGG GGAAGCCAGC TTCTCTGACC ATCAGAGGAG ACGGAACCCT 
    CATTTTCCGC TGAAGCCTGC AGAGAAATCC ACAATAAGCA CCCCACAGGC CGGTTATCAG 
    CAACTACAAA GGAGTGCTGT ATCTCTGGAG TGGGAAGCTG AGTCACAGCC CTATCGTTCA 
    AAGAGTTTAA AAAGCATCAG TGTGCACGGT GATCTGCTAC GCAAAAGCCA TCCTCCAAAA 
    GCCAGGGGGC GCCATTTTTC TGAAGGCATT TCTACTGACA ATGCCCTGAG CCAACTGACC 
    CTGGGGGATG AATTCTCCAA CAGCGGGTGC AATCGAAGAT TCAAGTCTTT TTCTGAACTT 
    TCCTCCTGTG ATGAAAATGA AAGTTGGGCT TTGTATAGCG GCAGGACGAA AACAGGTCCC 
    AAATCTGCAA CCTCGATATC CAGGCCTATC GACTATGGGA TTTTTGGAAA GGAACAACAG 
    TTGGCTTTCT TGGAGAATGT AAAGAGGTCA CTCACACAAG GAAGATTATG GAAACCAAGT 
    TTTCTTAAGA ACCCTGGCTT CCTGAAAGAT GACATAATTA ACCCTTCTAA CCCAACGGAG 
    TCATCGAGCT CAAATTCTTC CAGCAATCAG ATGCCAGAAG ATGGCTTATC TCTCAGCATG 
    CCACTTAATA TCTATGAAGA GGACCCAGTA GACTCAGATG GTGACACAGA CACAACCACA 
    GATGATGAAT ACTACCTGGA TGAAAATGAC AAAGAGTCAG AACTGTGA

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

    RefSeq XP_006913495.1
    CDS1..5928
    Translation

    Target ORF information:

    RefSeq Version XM_006913433.1
    Organism Pteropus alecto(black flying fox)
    Definition Pteropus alecto exophilin 5 (EXPH5), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_006913433.1

    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
    ATGACGAAAG TTCCTCAGGG GTTTGATTTC AGTTTCTTAA GTGACGAAGA AGCCAGGAAG 
    ATCCTTCAAG TCTTGGAAAG AAATGAGGAA CTACAGAGGG CAGAGAAGGA CAGGATCAGC 
    AAACTCCAGA AGACAAAGAG GGACATCAGA TGGCTTCAAG GAGTGACTGG TGAATGGTTC 
    GAAGAAATTC AAAGAAAAAA GTTTTGCAAT GAAACGGATG TTAGCCAAAT GTTAAAACAA 
    CCCCTTACAT ACAGGCTAAG GAAGGGGATG GCAAATGATC CTCTGGAACG ACAAACATCG 
    AGATTGAAAA ATATACCTAA TCAAGGAAAC CCAACATCCG TGCCCTCCCG GCGGAGTTTC 
    AGATCATCAT TTGCTTCCCT GTTCTCATTC AGAAAATCTA GAAAGGAGAC TTTAGAGCTT 
    CAGACACTGC GACAGAAAGG ATATGATAGC CATCCAGGAC TTCCTGCATC TGTGAGGGGA 
    AATGCTATGC AGGCAAAACT ATACAATTCA CCTCTGGAAA ATCAACCAAT TGACAGTGCA 
    TTTGTCCCCA AGCCAGCAGG CATGAGGGAG GGAAGTGGCG TGCCTCCGTG GGATGCTTCC 
    CTGCTGGAGA ATGAGTTTTT CCGAGTTTTA GATGATTTGG ATAGCAAACT GGCTCAGGAA 
    CAATCTTCAA GCTCAGTGAA TACCAGAACA CCTATCAACT ATGAATCAAG AACACGGTTC 
    AGTCATTTTT ACTCCAGTGG CAACGGACAC GGTAATATCA CAGGAAGGCA CAAAAATCAC 
    TATAATGAAA CTTCTAATAT GTCTATCTAT GACATCCTAA GACCAGGAAC CCCTAGGGAA 
    GGTTTTAAAA CCTTTTCTCC TAGAACAAGG ACAATTTATG ATATGTACAG GACAAGGGAG 
    CCCAGAGTTT TGAAAGAAGA TTATGTGCAA AAGAACACTT TTGGTAGTGC CTCTCTGTGT 
    TTCGACAGCA GGCAACAATT AGCCTCACCA GCTACAGGGT ACTTCACAAC AAGAAGCTTA 
    CATTTTCCAG CCACAATTCA GAACAAGAGT GGATTTATAC CATCAAGCCA TCAGCAGAGC 
    CCAAAGAGAA CTCCTTTATC ATCCATCATA TGGAATAGAT CAGATTCTTG TAGAGACAGG 
    CAGAATCAGG AAGAGTTGAG GGTACCATCA CCAATGGAAA TTGACCCTGC TGACCAATAT 
    ATGTATCCCA AGTGTTCTCA GGAGGATAGA AGATATGAAT TTTACCGTTC ACAGGGTGTT 
    AACAGAAGCA TTAGTTTAAA TTCCCCCATG GATAATGCAA TGAGTCCTGA CCCATTTGAG 
    AACTCAGAGA ATATGCCATT CTACCATCAA GACAACCCAT TTGCTAAGTC TTTCTTTAGC 
    AATACCTTTG GACGAAGCAG GGAACAGAGA AGTGGGCAAA GTCCTTTTGG GGTGCAACAG 
    GAAGAATATT CTTCCTGGTC TGGCTTTCAT CAAAGCAGGA AACCATTCAC TTCTTCTGAC 
    AGAGACTTTG AAATGATTTC CACTGAAGCA AATAATGCAG CAACTGGTCA CAGCCATAGT 
    GTTTCTACTC AACACTGGGG ATCATTTTCT CCCAGTTATG GAACAAACAT TTCCAGAGAC 
    CAAGAAGAGC CACATCCTTG GCAGTTTGAC TCTCAGACAA CCACACTGGA GAGTATGGAG 
    GTATCACAAG GTAACAGGAA CCAGATGATT CATTTCAGCA CACCAAATCT TTGCTCCATG 
    ACTAGTTCAA GCTACCCCAT CAAACCTGGT GGGTTAGAAT GTCAGTGGGA CAGTTCTCCT 
    ACAGAAGTAC ATGTTAACAG AGAACCTTAC TCATTGGGAA TTGCTCAGAC TCTAGCATCC 
    TCATTCGGAA CTTCCTTCCC CCAGACTCCC GATGATGAAG GGAATTCTCA GAGTTCCAGC 
    ATTCCCAATC CCACAGTCAC TTTGCAGAAA ATTAAGCCTG CCTCTCTTCC ATTAAGAAGC 
    TACACAGAAG TCACTGTAAC CAACAGTGAT TCAGCCGATT CTCCACCTCT TACTGAAAGC 
    CAACCCAATA TCTTAGTCAC AGAAGTGAAT AATGAGAAAG ACTTGATCAA ATCTGTTTCA 
    GAAAAAGATA AACTAAACAA GATGGATTAT ACAAACAGAA CAAGTGTAGT ACCCCAACCT 
    GTTTCACAGA CAATAATCTC TAACCCTTCA GCTGATTTTC AAAATCCTCT CTCCCAAGAC 
    TCAGCCAAAA GCAACAGATT TGTTTTTAAT GCATCTACCA CAATAAGTTC AAAAAAGTCA 
    CCCAAAGTCA TTTCCCGGAA AGATATCTCC AAAATTCATA TATCACAGAG AGAGAAAGCC 
    AATGAACTAC AAAAAGATAA GCGTTATACT GAAAACAGAA AACTTGGCTC AGCAACATCC 
    TTTCCTTTCA TTTGGGAAAG CAGAATACCA TCATCACTTC CTAGCCCAAA TCAGGAATTA 
    ATAGTAAGTA ATGAAGGTAC TTCAAGCATT ATTAAAAATA ACCACTGGAG CTCTGAACCT 
    ACTGATAATC AAAATGCACA GTCTCCAGAA AACAAGTCAG CTACTGGCCA CAATATCCCA 
    TGTGTTTCTT TAGGTCTGTC ATCAGGTATA CCACCAGATT CCTCTCCATC GAATAATTCT 
    TTCCTTGATG CACTGGTGGT TCCTTCTACT ACAGTGTTCT TCAAGAAAAC TCCTTTGGGC 
    AAAGATCCAT CTTGGGGAGA AAAAGAAGAA AAAGACAGTG ATAGCAAGAA TCAGAATAAT 
    CAGTTAACCC TAAGCCCCTC AGAAAATCAA AAGAGTGATG ATAGCTGTGT GTCTGTACAT 
    AATGAAGTGG TTGATGTTGT CAAATGCCAC GTACACCCTC CTTTCAGGGC AGGAAAGGGA 
    AAAGGGAAAG TAAGACGACG TATATCCTAT ATTGAACAGT TAAGCAAAAC AGAAAGTAAA 
    TCAATACCCA CAAATGACAG CAGTAGCTTC ATTGACATGA ATCAAAGCAA TTCCAAGGCT 
    CCTGAGCTTC ACACAATTTA TTGTACCCTA CCAAGAAAAG CAGCCAGTTT TCCCATCAGT 
    AACAGGAAGT CAGAAAGTAA AATAATGGCT TCTTCATTTA GGAATGAGCC ACTTCCACTC 
    CAAATCGAAA ATAATGTGGA AGATCCAATA GGGANNNNNN NNNCAAACAA AATCAATCCC 
    AGTTATTCGA AATCAGAAAG CAAATGTTCT ACAGTAGTTT CAGACTCAGT AGCACCTGAA 
    GCCACAGAGA GGATGACAAA TGTGACGAAC ATTGGATCTG CTTCCATTAG AAAAGGACCA 
    CTTCCATTCC TCATCAAGAG GGCTGTGTCA TGTCCTTCAG GGGTATCATG TGCCTCAGTC 
    GAAAAAGATG AAAAAGAAAG ATGCTTGGTC TCCAACATGG ATGCTTCTGC TATAACACTA 
    AGGCCTGAGG AGAAAACCAT TAATCCTCTG GAAAGTAACT CCTCTGTTAG GGATTCTTCT 
    ATAACCAGAA GACACCACCA AAAGGAGTAT TCTCAAGAAT GTACTGAAAA GGATGGTAAA 
    ATTGCTGCCT CCAGTACAAG TATGTTTTCC CTTTTAAATG AAGACTTTTC ACCTTTTTCT 
    TCAGGTATGT CAGAGGAAAA AAGTGGGAAA ACATTATACA AATTTAAGAC TACTAGTATG 
    TTTTCTGTAT CTGGTGATGA AGATAATGTA AAATGCCTTG AGATAGTTTC AGTATATTAT 
    ACTCTACCAA GGAAACACAG CAAAAAATTC TGTGACCTCC TTCAAAAGTA CACACAAAAT 
    ATCAATTCAC TTACAGAATC AACTAAATTG GGGACTGAAA CATTTCCTAA TGCTTTAGAA 
    AAAGACAAAC GCAGTTCTAC ACAAGAGCAG TCAGGAACAC CTTCATCTGA AGATCCGAAG 
    ATGCTGCTCA GCTCTGCTCA GGAGAATAGC CTTTGTCGTT CTCACAACAC TGAAAATGTG 
    ACTGTTTCAC AATTACCAAG TATTGGGCCT TCATTACAGG AAATGTCTTC TATTGAGGCA 
    AATGTCTCTC TTCATAAAGG AGAACCTAAA ACTAGAGAGA TTTCCCCAGA TAACTTAACT 
    AAAATACCTC TAAGTGAGTC TCAAAGCAGG AAAGACAGAG GGAAAGAATT GCAAAGTGAA 
    ACCCTGTGTA CTTCATCAAT GCTTCAGGAA AAAAAAGTTA TAGAAGAGAA ATCTGAAAAT 
    TGTCAGAAAT CCATTAAATC AGGTAACAGT GATCCTTCTA ATCTTCCAGC CAATTCAGAA 
    GAGAATGTTG AAAATCCCCA AACCAGAAGA AGTTCTGGGG AGTGTGCAGG TAGTGGTATA 
    GCCATTACAG CTACCGGAAG TAGAAAATGT CTTCAGAAAG ATATCACAGG CATAGCTAAA 
    GATGATGGAT TTCAGCCTAG GAAAGTCAGA GGGGAAATTG GAGCAGATTT CCGAAAAAAG 
    ACTGATAAAT CACTTTCTGA CTCAGAAAGC CAAGTCTTTG CTCTTTCTCC AGCTTTGCAT 
    AAACTACAGC TTGATGAGGG GACTTGTTCA GGTGAAAAAG ATTTAGACAA TTTGCATTCT 
    GAACCCAGAG AACCACTTCA AAGAAGTCAG GAGGTAAATT TGACAGAGAA CAGCAAGGCT 
    AAAGATGAAA TGCAGAGGTT GGCATGGGAT CAACTTTTAC TTCCTGCAAG AAGTAATAAA 
    AATAAAATCA GTTTGGATGA CCTAGGAAAA GGGAAAAACA GATCATCAGT TAAACAGAGA 
    TTGGCACCCA AGTCCAAAAC AAGCAGAAAA TTTCCAGCTA AAGATTTAAG CCCCAGAAGG 
    CATGTAGCTA CTATCTTCCC TCAAAGTGGG AACAGTTCTG ACTTCAGTGA TTTATCTCTT 
    GGCACACCAG AGTGCAACCC ACTGTCCCCT GAGCCTATTC CAAAGTCCAC AGAATCCACA 
    GATAAAAGCA GGCTAAGTAT TGATGGAATG GACATGGGGA AATCAAAGAA CCCTTTCCAG 
    GTTACCATAA CATCCAAAAG AGAAGCTTGT ACACACTTAA ACAATCAAAA GTCTAACAGC 
    ATCTCAGGAC CACATCAGAA TGAGTTTAAA AATATCTCAG AATTACTACC AACCTATGAG 
    AATTCTAAAG ATTTAACGGT AGCTCAGACT TTGGAAAGAG AGTCAGGAAC CCCGGCCCAA 
    CCCACCTTCA CCAGCCTAGG GGAAGCCAGC TTCTCTGACC ATCAGAGGAG ACGGAACCCT 
    CATTTTCCGC TGAAGCCTGC AGAGAAATCC ACAATAAGCA CCCCACAGGC CGGTTATCAG 
    CAACTACAAA GGAGTGCTGT ATCTCTGGAG TGGGAAGCTG AGTCACAGCC CTATCGTTCA 
    AAGAGTTTAA AAAGCATCAG TGTGCACGGT GATCTGCTAC GCAAAAGCCA TCCTCCAAAA 
    GCCAGGGGGC GCCATTTTTC TGAAGGCATT TCTACTGACA ATGCCCTGAG CCAACTGACC 
    CTGGGGGATG AATTCTCCAA CAGCGGGTGC AATCGAAGAT TCAAGTCTTT TTCTGAACTT 
    TCCTCCTGTG ATGAAAATGA AAGTTGGGCT TTGTATAGCG GCAGGACGAA AACAGGTCCC 
    AAATCTGCAA CCTCGATATC CAGGCCTATC GACTATGGGA TTTTTGGAAA GGAACAACAG 
    TTGGCTTTCT TGGAGAATGT AAAGAGGTCA CTCACACAAG GAAGATTATG GAAACCAAGT 
    TTTCTTAAGA ACCCTGGCTT CCTGAAAGAT GACATAATTA ACCCTTCTAA CCCAACGGAG 
    TCATCGAGCT CAAATTCTTC CAGCAATCAG ATGCCAGAAG ATGGCTTATC TCTCAGCATG 
    CCACTTAATA TCTATGAAGA GGACCCAGTA GACTCAGATG GTGACACAGA CACAACCACA 
    GATGATGAAT ACTACCTGGA TGAAAATGAC AAAGAGTCAG AACTGTGA

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

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