ORF » Species Summary » Equus asinus » KIF16B cDNA ORF clone

KIF16B cDNA ORF clone, Equus asinus(ass)

The following KIF16B gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the KIF16B 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
OEq13307 XM_014849294.1
Latest version!		 Equus asinus kinesin family member 16B (KIF16B), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00

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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)
    KIF16B ( XM_014849294.1 ) cDNA ORF clone, Equus asinus(ass) -> XP_014704780.1 Equus asinus kinesin family member 16B (KIF16B), mRNA.
    Price & Availability↑
    CloneID OEq13307
    Clone ID Related Accession (Same CDS sequence) XM_014849294.1
    Accession Version XM_014849294.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4533bp)
    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 2015-12-01
    Organism Equus asinus(ass)
    Product kinesin-like protein KIF16B
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014638014.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Equus asinus Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 13% of CDS bases ##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
    ATGAGACCTT GGGTTAGGCA AGCCACCACC CGTCTTCAAA CTCAGTTTCC CCCTCTGGAA 
    AAGGAGAGTG GGCTCTCTCG GAGCCGGGAC AGCTCGGCCA TCCCAGGATT CTGTGACCGG 
    GCTCGGGCCA AGCACGTGAC CTTGAATGTT CCTGGCTGCT TCGGCCGGGA GCTCCCCAGA 
    GCGCCAAGAC CATCCTGCTC TGAACTGCTC CCGGCCCCCA GTCAGTGGCG CTGGCTCTCG 
    AGGCCTTGCA TTATCCTAGA TGAAAAGGCA GGACGGCCTG ACTTGGCGAA GCCCCCTGTG 
    TCCCTGACGG ACCCCCAAAG CTCAGTTCTG CCTCTGGCAC TTCAGTGGAG CTGCCAGTCC 
    CCGGGTGTAG GCGCGACTCC AGATCAGGGG CTGGATCAAG AGTGTGAGCT CAAGCGTCGC 
    TTAATGATGG GGCTGTGTTC TGAGAAGTGC ATCATTATGC AATTTTATCG TTTTGTGAAC 
    ATCACAGAGT GCACTTACAC CAGCCTAGAT GATATAGTCT GCTACACACC TAGGCTCTGT 
    GGTAGTAACC TTATAGGACC ACCGCCATAT ATGCGGTCCA TCATTGACCG AAACCTTGTT 
    CTGGAAAAGG ACTTGGAAGC CAAATTCATT ATTCATATGG AGAAAAGCAA AACGACAATC 
    ACAAACCTAA AGATACCAGA AGGAGGGACT GGGGACTCAG GAAGAGAGCG GACCAAGACC 
    TTCACCTATG ACTTTTCTTT TTATTCTGCT GATACAAAAA GTCCAGATTA TGTTTCACAA 
    GAAATGGTTT TCAAAACCCT CGGCACAGAT GTCGTGAAGT CTGCGTTTGA AGGTTATAAC 
    GCTTGTGTCT TTGCGTATGG GCAAACTGGA TCGGGAAAGT CATACACTAT GATGGGAGAT 
    TCTGGTGATT CTGGCTTAAT ACCTCGGATC TGTGAAGGGC TCTTCAGTCG GATCAATGAA 
    ACCACCAGAT GGGATGAAGC ATCTTTTCGA ACTGAAGTCA GCTACTTAGA AATTTATAAT 
    GAACATGTGA GAGATCTCCT TAGGCGGAAG TCATCTAAAA CCTTCAATTT GAGAGTCCGT 
    GAGCATCCAA AAGAAGGACC TTATGTTGAG GATTTATCTA AACATTTAGT ACAGAATTAT 
    GGTGATGTAG AAGAACTTAT GGATGCGGGA AATATCAACC GTACCACAGC GGCGACTGGA 
    ATGAACGACG TCAGCAGTAG GTCTCATGCC ATCTTCACCA TCAAGTTCAC TCAGGCAAAA 
    TTTGATTCTG AAATGCCGTG TGAAACCGTG AGTAAGATCC ACTTAGTCGA TCTGGCCGGA 
    AGTGAGCGTG CAGATGCCAC CGGGGCCACC GGGGTTCGAC TGAAGGAAGG GGGCAACATT 
    AACAAATCGC TCGTGACTCT GGGAAACGTC ATTTCTGCCT TAGCCGATTT ATCTCAGGAT 
    GCAGCAAACC CTCTTGTAAA GAAGAAGCAA GTTTTTGTGC CTTACAGGGA TTCTGTTTTG 
    ACGTGGTTGT TAAAAGATAG CCTTGGAGGA AACTCTAAAA CTATCATGAT TGCCACCATT 
    TCGCCTGCTG ATGTCAATTA CGGAGAAACC CTAAGTACTC TTCGCTATGC AAATAGAGCC 
    AAAAACATCA TCAACAAGCC GACCATTAAC GAGGACGCCA ACGTCAAACT CATCCGTGAG 
    CTTCGAGCTG AAATAGCCAG ACTGAAAACG CTGCTTGCTC AAGGGAATCA GATTGCCCTC 
    TTAGACTCAC CCACAGCCTT AAGTATGGAA GAAAAACTTC AGCAGAATGA AGCAAGAGTT 
    CAAGAATTGA CCAAGGAATG GACAAATAAG TGGAATGAAA CCCAAAATAT TTTGAAAGAA 
    CAAACTCTAG CCCTTAGGAA AGAAGGGATT GGAGTCGTTT TGGATTCTGA GCTGCCCCAT 
    TTGATTGGCA TTGATGACGA CCTTCTGAGT ACTGGAATCA TCTTATATCA CTTGAAGGAG 
    GGTCAGACAT ATGTTGGTAG AGAAGATGCT TCAACAGAAC AAGATATTGT TCTTCATGGC 
    CTTGACTTGG AGAGTGAGCA CTGTATTTTT GAAAATGTTG GAGGGACGGT GACTTTGATA 
    CCCCTGAGTG GCTCTCAGTG CTCTGTAAAT GGTGTTCAGA TCACGGAGGC CACACACCTC 
    AATCAAGGTG CCGTGATTCT CTTGGGAAGA ACCAATATGT TTCGCTTTAA CCATCCAAAG 
    GAAGCTGCCA AGCTCAGGGA GAAGAGGAAG AGTGGCCTTC TGTCCTCCTT CAGCTTGTCC 
    ATGACTGACC TCTCGAAGTC CTGTGAGAAC CTCTCCGCGG TCATGTTATA TAACCCAGGT 
    CTTTTCCCTA TAAAAGGACC CATCTGTCTA AGACTTGAAT TTGAGAGGCA ACAGCGTGAA 
    GAACTTGAAA AATTAGAAAG TAAAAGGAAA CTCATAGAAG AAATGGAGGA AAAGCAAAAA 
    TCAGATAAGG CGGAACTGGA GCGGATGCAG CAGGAGGTGG AGACGCAGCG CAGGGAGACG 
    GAGATTGTCC AGCTGCAGAT CCGCAAGCAG GAGGAGAGCC TGAAACGCCG CAGCGTCCAC 
    ATCGAGAGCA AGCTGAAGGA TCTGCTCGCC GAGAAGGAAA AGTTTGAAGA GGAGAGGCTG 
    AGGGAGCAGC AGGAAATCGA GCTGCAGAAG AAGAAACAAG AAGAAGAGAG CTTTCTCCGT 
    GTCAAAGAAG AACTCCAGCG GCTCCAGGAA CTCAACCACA ATGAGAAGGC CGAGAAGACT 
    CAGATATTTC AAGAGCTGGA CCAGCTCAAA AAGGAAAAAG ATGAACAGTA TGCCAAGTTT 
    GAGTTGGAAA AAAAGAGGCT GGAGGAGCAA GAGAAGGAGC AGGTCATGCT CGTGGCCCAT 
    CTGGAGGAGC AGCTGCGAGA GAAGCAAGAG ATGATCGGGC TCCTCCGGCG AGGGGAAGTG 
    CAGCGGGTGG AGGAGGAGAA GAGAGCCCTG GAAGGCATCC GGGAGGCCCT TCTGCGGGTG 
    AAGGAAGCAC GGGCCGAAGG GGACGACGAT GGTGAGGAGT TAGAAAGGGC TCAGCTGCAT 
    TTCTTAGAGT TCAAGAGCAG GCAGCTGGTC AAGCTAGCCA ATTTGGAGAA GGACCTGGTT 
    CAGCAGAAAG ACCTCCTGGA AAAAGAAGTT GAAGAAGAGA AGGAAATCCT AGAACGTTTA 
    AAATCTGAAA ATGAAGAAGA ATTTGGGTTA TTGGAAAAAA ATGATGATAG TGTCACCTTG 
    GGGACTCAAA ATTTAGAGAG AATAAAGCCA GCGGAGTACA GGCTGCAATA TAAAGAACGC 
    CAGCTCCAGT ACCTCCTTGA GAATCGTTTG CCAACTCTGT TAGAAGAAAA GCAGAGAGCG 
    TTTGAGATCC TTGACAGAGG CCCTCTTGGC TTAGACAACA CTCTCTATCA AGTGGAAAAA 
    GAGATGGAGG AAAAAGAGGA ACAGCTTGCG CGGTACCAAG CCAATGCGAG CCAGCTGCAG 
    AAGCTCCAAG CCACTTTTGA ATTCACTGCC AACATCGCAC GTCAGGAAGA AAAAGTGAGA 
    AGGAAGGAGA AGGAGATTCT TGAGTCCCGG GAGAAGCAGC AGAGAGAGGC GCTGGAGCGC 
    GCTGTGGCCA GGCTGGAGCG CAGGCACTCA GCCCTGCAGA GGCGCTCCAC CCTGGGCTTG 
    GAGATCGAAG AGCAGAGGCA GAAGCTGGCC ACTCTGAACA GCAGCAGCAG CGAGCAGTCG 
    GGGCTCCGGG CCAGCCTGGA AGCCGAGCAG GAAGCCCTGG AGAGGGACCA GGAGAGGTTA 
    GAACATGAAA TCCAGCAATT GAAGCAGAAG ATCTGTGAGT TTGATGGTGT TCAAAAAGGG 
    CATTCTGAGA CCTTGGAGGA GAAAGCTGCT TCTTCCCGCT TGCCATCCAG TGCTGAAAAA 
    TCTCACCTGG TCCCTCTGAT GGACGCCAGG ATCAATGCTT ACATTGAAGA AGAAGTCCAA 
    AGACGTCTTC AGGATTTGCA TCATGTGATT GGCAGTGACA GCAATACCTC TGCAGATCTG 
    ACGAAGGATA ATGAGAAACT TCACAATGGC ACCATTCAAC GTAAGCTAAA ATATGAGCGG 
    ATGGTTTCTC GCTCTCTGGG AGCAAATCCA GACGACCTGA AGGACCCAAT TAAAATTAGT 
    ATTCCGCGCT ATGTTCTCTG CGGGCAAGGG AAGGATGAGC ACTTCGAGTT TGAGGTCAAG 
    ATTACTGTCC TAGATGAGAC ATGGACCGTA TTCAGGCGTT ACAGTCGTTT TCGAGAAATG 
    CATAAAACAT TGAAGTTAAA GTATGCAGAG CTTGCTACCC TCGAATTCCC TCCAAAGAAA 
    CTTTTTGGAA ACAAGGATGA ACGTGTGGTT GCTGAGAGGC GAAGTCACTT GGAGAAATAC 
    CTCAGGGACT TTTTCAGTGT GATGCTCCAG TCTGCCACGT CTCCCCTTCA CATCAGCAAA 
    GTGGGGCTGA CTCTTTCGAA ACACACCATT TGTGAGTTCT CGCCATTCTT CAAGAAAGGA 
    GTCTTTGACT ACAGCAGCCA CGGGACCGGG TAG

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

    RefSeq XP_014704780.1
    CDS1..4533
    Translation

    Target ORF information:

    RefSeq Version XM_014849294.1
    Organism Equus asinus(ass)
    Definition Equus asinus kinesin family member 16B (KIF16B), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_014849294.1

    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
    ATGAGACCTT GGGTTAGGCA AGCCACCACC CGTCTTCAAA CTCAGTTTCC CCCTCTGGAA 
    AAGGAGAGTG GGCTCTCTCG GAGCCGGGAC AGCTCGGCCA TCCCAGGATT CTGTGACCGG 
    GCTCGGGCCA AGCACGTGAC CTTGAATGTT CCTGGCTGCT TCGGCCGGGA GCTCCCCAGA 
    GCGCCAAGAC CATCCTGCTC TGAACTGCTC CCGGCCCCCA GTCAGTGGCG CTGGCTCTCG 
    AGGCCTTGCA TTATCCTAGA TGAAAAGGCA GGACGGCCTG ACTTGGCGAA GCCCCCTGTG 
    TCCCTGACGG ACCCCCAAAG CTCAGTTCTG CCTCTGGCAC TTCAGTGGAG CTGCCAGTCC 
    CCGGGTGTAG GCGCGACTCC AGATCAGGGG CTGGATCAAG AGTGTGAGCT CAAGCGTCGC 
    TTAATGATGG GGCTGTGTTC TGAGAAGTGC ATCATTATGC AATTTTATCG TTTTGTGAAC 
    ATCACAGAGT GCACTTACAC CAGCCTAGAT GATATAGTCT GCTACACACC TAGGCTCTGT 
    GGTAGTAACC TTATAGGACC ACCGCCATAT ATGCGGTCCA TCATTGACCG AAACCTTGTT 
    CTGGAAAAGG ACTTGGAAGC CAAATTCATT ATTCATATGG AGAAAAGCAA AACGACAATC 
    ACAAACCTAA AGATACCAGA AGGAGGGACT GGGGACTCAG GAAGAGAGCG GACCAAGACC 
    TTCACCTATG ACTTTTCTTT TTATTCTGCT GATACAAAAA GTCCAGATTA TGTTTCACAA 
    GAAATGGTTT TCAAAACCCT CGGCACAGAT GTCGTGAAGT CTGCGTTTGA AGGTTATAAC 
    GCTTGTGTCT TTGCGTATGG GCAAACTGGA TCGGGAAAGT CATACACTAT GATGGGAGAT 
    TCTGGTGATT CTGGCTTAAT ACCTCGGATC TGTGAAGGGC TCTTCAGTCG GATCAATGAA 
    ACCACCAGAT GGGATGAAGC ATCTTTTCGA ACTGAAGTCA GCTACTTAGA AATTTATAAT 
    GAACATGTGA GAGATCTCCT TAGGCGGAAG TCATCTAAAA CCTTCAATTT GAGAGTCCGT 
    GAGCATCCAA AAGAAGGACC TTATGTTGAG GATTTATCTA AACATTTAGT ACAGAATTAT 
    GGTGATGTAG AAGAACTTAT GGATGCGGGA AATATCAACC GTACCACAGC GGCGACTGGA 
    ATGAACGACG TCAGCAGTAG GTCTCATGCC ATCTTCACCA TCAAGTTCAC TCAGGCAAAA 
    TTTGATTCTG AAATGCCGTG TGAAACCGTG AGTAAGATCC ACTTAGTCGA TCTGGCCGGA 
    AGTGAGCGTG CAGATGCCAC CGGGGCCACC GGGGTTCGAC TGAAGGAAGG GGGCAACATT 
    AACAAATCGC TCGTGACTCT GGGAAACGTC ATTTCTGCCT TAGCCGATTT ATCTCAGGAT 
    GCAGCAAACC CTCTTGTAAA GAAGAAGCAA GTTTTTGTGC CTTACAGGGA TTCTGTTTTG 
    ACGTGGTTGT TAAAAGATAG CCTTGGAGGA AACTCTAAAA CTATCATGAT TGCCACCATT 
    TCGCCTGCTG ATGTCAATTA CGGAGAAACC CTAAGTACTC TTCGCTATGC AAATAGAGCC 
    AAAAACATCA TCAACAAGCC GACCATTAAC GAGGACGCCA ACGTCAAACT CATCCGTGAG 
    CTTCGAGCTG AAATAGCCAG ACTGAAAACG CTGCTTGCTC AAGGGAATCA GATTGCCCTC 
    TTAGACTCAC CCACAGCCTT AAGTATGGAA GAAAAACTTC AGCAGAATGA AGCAAGAGTT 
    CAAGAATTGA CCAAGGAATG GACAAATAAG TGGAATGAAA CCCAAAATAT TTTGAAAGAA 
    CAAACTCTAG CCCTTAGGAA AGAAGGGATT GGAGTCGTTT TGGATTCTGA GCTGCCCCAT 
    TTGATTGGCA TTGATGACGA CCTTCTGAGT ACTGGAATCA TCTTATATCA CTTGAAGGAG 
    GGTCAGACAT ATGTTGGTAG AGAAGATGCT TCAACAGAAC AAGATATTGT TCTTCATGGC 
    CTTGACTTGG AGAGTGAGCA CTGTATTTTT GAAAATGTTG GAGGGACGGT GACTTTGATA 
    CCCCTGAGTG GCTCTCAGTG CTCTGTAAAT GGTGTTCAGA TCACGGAGGC CACACACCTC 
    AATCAAGGTG CCGTGATTCT CTTGGGAAGA ACCAATATGT TTCGCTTTAA CCATCCAAAG 
    GAAGCTGCCA AGCTCAGGGA GAAGAGGAAG AGTGGCCTTC TGTCCTCCTT CAGCTTGTCC 
    ATGACTGACC TCTCGAAGTC CTGTGAGAAC CTCTCCGCGG TCATGTTATA TAACCCAGGT 
    CTTTTCCCTA TAAAAGGACC CATCTGTCTA AGACTTGAAT TTGAGAGGCA ACAGCGTGAA 
    GAACTTGAAA AATTAGAAAG TAAAAGGAAA CTCATAGAAG AAATGGAGGA AAAGCAAAAA 
    TCAGATAAGG CGGAACTGGA GCGGATGCAG CAGGAGGTGG AGACGCAGCG CAGGGAGACG 
    GAGATTGTCC AGCTGCAGAT CCGCAAGCAG GAGGAGAGCC TGAAACGCCG CAGCGTCCAC 
    ATCGAGAGCA AGCTGAAGGA TCTGCTCGCC GAGAAGGAAA AGTTTGAAGA GGAGAGGCTG 
    AGGGAGCAGC AGGAAATCGA GCTGCAGAAG AAGAAACAAG AAGAAGAGAG CTTTCTCCGT 
    GTCAAAGAAG AACTCCAGCG GCTCCAGGAA CTCAACCACA ATGAGAAGGC CGAGAAGACT 
    CAGATATTTC AAGAGCTGGA CCAGCTCAAA AAGGAAAAAG ATGAACAGTA TGCCAAGTTT 
    GAGTTGGAAA AAAAGAGGCT GGAGGAGCAA GAGAAGGAGC AGGTCATGCT CGTGGCCCAT 
    CTGGAGGAGC AGCTGCGAGA GAAGCAAGAG ATGATCGGGC TCCTCCGGCG AGGGGAAGTG 
    CAGCGGGTGG AGGAGGAGAA GAGAGCCCTG GAAGGCATCC GGGAGGCCCT TCTGCGGGTG 
    AAGGAAGCAC GGGCCGAAGG GGACGACGAT GGTGAGGAGT TAGAAAGGGC TCAGCTGCAT 
    TTCTTAGAGT TCAAGAGCAG GCAGCTGGTC AAGCTAGCCA ATTTGGAGAA GGACCTGGTT 
    CAGCAGAAAG ACCTCCTGGA AAAAGAAGTT GAAGAAGAGA AGGAAATCCT AGAACGTTTA 
    AAATCTGAAA ATGAAGAAGA ATTTGGGTTA TTGGAAAAAA ATGATGATAG TGTCACCTTG 
    GGGACTCAAA ATTTAGAGAG AATAAAGCCA GCGGAGTACA GGCTGCAATA TAAAGAACGC 
    CAGCTCCAGT ACCTCCTTGA GAATCGTTTG CCAACTCTGT TAGAAGAAAA GCAGAGAGCG 
    TTTGAGATCC TTGACAGAGG CCCTCTTGGC TTAGACAACA CTCTCTATCA AGTGGAAAAA 
    GAGATGGAGG AAAAAGAGGA ACAGCTTGCG CGGTACCAAG CCAATGCGAG CCAGCTGCAG 
    AAGCTCCAAG CCACTTTTGA ATTCACTGCC AACATCGCAC GTCAGGAAGA AAAAGTGAGA 
    AGGAAGGAGA AGGAGATTCT TGAGTCCCGG GAGAAGCAGC AGAGAGAGGC GCTGGAGCGC 
    GCTGTGGCCA GGCTGGAGCG CAGGCACTCA GCCCTGCAGA GGCGCTCCAC CCTGGGCTTG 
    GAGATCGAAG AGCAGAGGCA GAAGCTGGCC ACTCTGAACA GCAGCAGCAG CGAGCAGTCG 
    GGGCTCCGGG CCAGCCTGGA AGCCGAGCAG GAAGCCCTGG AGAGGGACCA GGAGAGGTTA 
    GAACATGAAA TCCAGCAATT GAAGCAGAAG ATCTGTGAGT TTGATGGTGT TCAAAAAGGG 
    CATTCTGAGA CCTTGGAGGA GAAAGCTGCT TCTTCCCGCT TGCCATCCAG TGCTGAAAAA 
    TCTCACCTGG TCCCTCTGAT GGACGCCAGG ATCAATGCTT ACATTGAAGA AGAAGTCCAA 
    AGACGTCTTC AGGATTTGCA TCATGTGATT GGCAGTGACA GCAATACCTC TGCAGATCTG 
    ACGAAGGATA ATGAGAAACT TCACAATGGC ACCATTCAAC GTAAGCTAAA ATATGAGCGG 
    ATGGTTTCTC GCTCTCTGGG AGCAAATCCA GACGACCTGA AGGACCCAAT TAAAATTAGT 
    ATTCCGCGCT ATGTTCTCTG CGGGCAAGGG AAGGATGAGC ACTTCGAGTT TGAGGTCAAG 
    ATTACTGTCC TAGATGAGAC ATGGACCGTA TTCAGGCGTT ACAGTCGTTT TCGAGAAATG 
    CATAAAACAT TGAAGTTAAA GTATGCAGAG CTTGCTACCC TCGAATTCCC TCCAAAGAAA 
    CTTTTTGGAA ACAAGGATGA ACGTGTGGTT GCTGAGAGGC GAAGTCACTT GGAGAAATAC 
    CTCAGGGACT TTTTCAGTGT GATGCTCCAG TCTGCCACGT CTCCCCTTCA CATCAGCAAA 
    GTGGGGCTGA CTCTTTCGAA ACACACCATT TGTGAGTTCT CGCCATTCTT CAAGAAAGGA 
    GTCTTTGACT ACAGCAGCCA CGGGACCGGG TAG

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

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