Atg2b cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Atg2b gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Atg2b 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
OMv29248 XM_021179653.1
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Mus caroli autophagy related 2B (Atg2b), mRNA. pcDNA3.1-C-(k)DYK or customized vector 29-31 $1161.30
$1659.00

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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)
    CloneID OMv29248
    Clone ID Related Accession (Same CDS sequence) XM_021179653.1
    Accession Version XM_021179653.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6231bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product autophagy-related protein 2 homolog B
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) 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 Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    6061
    6121
    6181
    ATGCCTTGGC CATTTTCAGA ATCCATCAAG AAGAGGGCCT GTCGCTACCT CCTACAGAGG 
    TACCTGGGCC ACTTCCTGCA GGAGAAGCTG AGCCTGGAGC AGCTGAGCCT GGACCTGTAC
    CAGGGCACCG GGTCCCTTGC CCAGGTCCCC TTGGACAAAT GGTGTCTCAA TGAAATCCTG
    GAGTCAGCAG ATGCACCGTT AGAAGTCACG GAAGGATTTA TTCAGTCTAT TTCCCTGTCC
    GTCCCATGGG GCTCCTTGCT GCAGGACAAC TGTGCCCTGG AAGTGAGAGG ACTGGAGATG
    GTCTTCCGGC CTCGACCTCG AGTAGCAACT GGGTCCGAGC CTATGTACTG GTCAAGCTTC
    ATGACCAGCA GTATGCAGCT GGCAAAGGAG TGTCTTAGCC AGAAACTGAC AGATGAGCAA
    GGAGAGGCAT CGCAGCCTTT CGAGGGACTG GAAAAGTTTG CAGAAACCAT CGAAACAGTA
    CTAAGAAGAG TGAAAGTCAC TTTTATAGAT ACTGTTTTAA GAATTGAACA TGTGCCAGAA
    AATTCTAAAA CTGGAGCTGC ACTTGAAATC CGAGTAGACA GGACCGTGTA CTGTGACGAA
    ACAGCCGACG AGTCCTCAGG AGTCAATGTG CATCAGCCCA CAGCTTTTGC TCATAAATTG
    CTGCAGCTCT CTGGGGTGTC TCTGTTCTGG GATGAATTTT CTGCTTCAGC AAAATCTTCC
    CCCGTGTGTT CAACTGCACC AGTGGAAACT GAGCCAAAGC TGTCACCTAG CTGGAACCCC
    AAAATTGTTT ATGAGCCACA CCCACAACTA ACTAGAACGT TACCGGAGAT AGCACCCTCG
    GATCCAGTGC AGATTGGAAG GCTACTGGGC AGGCTGGAAT TGAGTCTCAC TTTAAAACAG
    AATGAAGTGC TTCCAGGAGC CAAGTTGGAT GTCGATGGAC AGATAGACTC CTTTCATCTA
    TTCCTGTCAC CGAGGCAGGT ACACCTCCTT CTGGATATGT TAGCAGCTAT TGCTGGACCA
    GAAAATTCTA GCAAAATAGG GCTGGCTAAT AAAGACAGGA AAAATCGACC CATGCAGCAG
    GAAGATGAGT ACCGAATTCA GATGGAATTA AACCGGTATT ATCTGAGGAA AGATTCCCTC
    TCTATGGGTG TGTCTTCAGA GAAGAGCTTC TATGAGACAG AAACAGCTCG TACACCTTCT
    AGCCGTGAGG AAGAAGTTTT CTTCTCCATG GCCGACATGG ACATGTCTCA CAGTCTGTCC
    TCTCTTCCAC CCCTTGGGGA CCCACCACAC ATGGACCTGG AGCTGTCCCT GACGAGTACA
    TACACCAACA CACCTGCGGG GTCCCCGCTA AGCGCCACTG TGCTTCAGCC AACTTGGGGA
    GAGTTTGCCG ACCACAAAGA GCAGCCAGTC AGAGGGCCAG CGTTCCAGTC TGACGTGGTC
    CACCCGGCAT CTTTACAAAA GGCTGCTCTC TCCTCTAGGT CTGTTTCAGT GGATGAATCC
    AGACCTGAGT TTATCTGCAG GTTGGCTCTC GGCATATTCT CCGTCTCTGT GCTTCACATC
    GATCCTTTGT CTCCAGCGGA AACATCTCTG AACGTCAACC CATTGACACG CATGGCCATC
    GATTTCTTCT CCTGTATAGA AAAGATGGAC CCAGCAATAT TTTCGACGGG AGACTTTAAG
    TCTTTCCGAG CAGTCTTTGC CGAAGCTTGT TCACACGATC ACCTTAGATT TATAGGTACT
    GGCATCAAAG TGTCCTATGA GCAGAGACAA AGATCAGCTT CCCGGCACTT TAGCACCGAC
    ATGTCCGTTG GGCAAATGGA GTTTTTGGAG TGTCTGTTTC CAACAGATTG TCATTCTGTC
    CCTCCTCACT ACACCGAGCT TCTAACGTTC CATTCCAAAG AAGGGACGGA TGCCCACCTT
    CCCGTTTGTC TTCAGCTTCA CTATAAACAC TCTGAGACTA GAGGACCCCA GGGTAATCAA
    GCAAGACTTA GTTCAGTTCC TCAAAAGGCA GAATTACACA TTAAATTAAA CCCCGTGTGT
    TGCGAGCTGG ATATCAGTAT TGTGGATAGG TTAAATTCCT TGCTTCAACC CCAGAAACTC
    ACTACCGTGG AGATGATGGC CTCGCACATG TATGCGTCCT ATAACAAGCA TATTAGTTTG
    CACAAGGCTT TCACGGAAGT GTTCCTAGAT GACTCGCACA GTCCTGCAAA CCGTCGGGTG
    TCCGTGCAAG TTGCCACCCC AGCCCTGCAC CTGTCTGTTC GATTCCCTAT TCCTGATCTC
    CGATCAGACC AGGAAAGAGG ACCCTGGTTT AAGAAGTCAC TTCAGAAGGA GACCCTTCAT
    TTAGAATTTA CGGATCTGGA GTCCAAGACA GAGTTCGTGG GAGGATCCAC CCCAGAACAA
    ACTAAACTGG AGCTGACTTT TCGAGAGCTG TCTGGGTCGT TTCAGGAAGA GAAGGGAGGG
    CCATCTGTCA AGTTCTTCCA TGTGTCTGGT GGAGTAGATG GAGACACCGC ATCGTCAGAT
    GACTTTGACT GGCCACGAAT GGTACTGAAA ATAAACCCAC CAGCCATGCA TTCCATTTTG
    GAGAGAATAG CAGCCGAGGA AGAGGAAGAG AATGATGGTC ACTACCAGGA GGAGGAGGAC
    GGAGGGGCTC ATTCCCTGAA AGATGTCTGT GACCTGAGGC GGCCAGCCCC GTCTCCCTTT
    TCCTCTCGTC GAGTGATGTT TGAGAATGAG CAGATGGTGA TGCCGGGAGA CCCTGTGGAG
    ATGACGGAGT TTCAGGACAA AGCCATCAGC AACTCGCACT ACGTGCTGGA GCTCCTGCTG
    CCCAACATCC ACCTGACGCT GCCCAGCAAA GGCTTCTATG AGAAGCTCTA TAACAGGATC
    TTTAATGACT TGCTTCTCTG GGAGCCAACA GCTCCTTCAC CAGTGGAGAC ACTTGAAAAC
    GTTTCCTATG GCATCGGACT CTCCGTGGCC AGTCAGCTGA TCAACACCTT CAGCAAAGAT
    AGCTTCAGTC CCTTTAAATC TGCAGTTCAT TATGATGAAG ACAGTGGATC TGAAGAAGAG
    ACTTTGCAGT ATTTTTCTGC TGTTGATCCC AACTATCGTT CCCGTAGGAA AAAAAAGTCG
    GACTCTCAGA ACAAGAACTC TCAGAGCTTC CTCTCAGTGC TTCTGAGTGT CAATCATGGA
    CTAATGGCAG TGCTCACTGA TGTAAAGCAA GAGAATGGAG ATCCAATGGA AAGTAAGCAT
    GGTGAATTCT GGTTAGAATT CAATAGCGGC TCGTTCTTCT GCGTGACAAA GTATGAGGGC
    TTTGAGGACA AGCACTACAT CTGCTTGCAT TCCAGCAGCC TCAGGCTGTA CCACAAAGGC
    ATGGTAGATG GAGCCATTCT CCCTACAGAG ACGCGCTTGC CCTGTTCCAC CCGCCCACAC
    TGGCTGGAAC CTACAATTTA TTCCTCTGAA GAAGATGGCC TCAGCCGAGC TGCCTCAGAT
    GGGGTTGGGG GAGACAATTT GAATATGCTT TCAGTCGCAG TGAAGATACT GTCTGATAAG
    TCCGAGTCCA ACACGAAGGA GTTCCTCGTG GCTGTGGGGC TGAAAGGAGC CACTCTACAA
    CACAGGGTGC TGCCTGCCGG ACTCAGTTGG CACGAGCAGA TTTTAAACTT CTTAAATATT
    GCTGATGAAC CTGTTTTGGG ATATAACCCT CCAACTTCAT TCACAACTTT CCACGTCCAT
    CTTTGGAGCT GTGCACTTGA TTACAGGCCC CTTCACCTGC CAATCCGATC CCTTCTTACT
    GTTGAGACGT TCAGCATTTC TAGCAGTGTT GCTTTGGATA AATCTTCCTC CACTCTCAGA
    ATCATCATGG ACGAGGCTGC TTTACACCTG TCAGACAAGT GCAACACTGT CACTGTAAAC
    CTGAATAGAG ATTATGTTCG TGTGATGGAC ATGGGACTTT TAGAGCTGAC CATAACCGCA
    GTAAAATCTG ATTCTGATGG AGAACAGACT GCTCCCCGCT TTGAGTTGCA CTGTTCCAGC
    GATGTCGTGC ATATCAGAAC ATGCTCAGAC TCGTGCGCTG CGCTGATGAA TCTCATTCAG
    TATGTCGCAA GTTACGGGGA CCTACATGTA CCTCAGAAAG CAGAGATGAA GCCTGGAGTC
    CCACAGAGAA AGCCCAAGGT AGATTCCAGC GCTCGGTCAT CTTCACATGG TCCAGTGCTT
    CCTGAAGCAG ATCAGCAGAT TTTACGGGAC CTGATGAGTG ACGCCATGGA GGAGGTTGAT
    CTGCAGCAGG CCTCTGTCCC CGTCGGAGCA CAGGCTAATG GTGTCCTGGA TGAAAAGTCT
    CACACTCAGG AGCCGTGCTG CTCAGACCTC TTCCTGTTCC CAGATGAGAG TGGAAATGTG
    TCCCAGGAGT CCAGCCCTGC CTATCCGTCG CTCACTCACC ACTTGATCAG TGATGGGGTG
    ACCGGTGTGA CCGCTGAAAA CGATGACTTC TGTATTCTTT TTGCACCAAA AGCAGCCGTT
    CAGGAGAAGG AAGAAGAGCC AGTGATAAAG ATCATGGTTG ATGACGCCAT TGTGATCAAA
    GATGACTATT TCAGTCTGCC CATCACGAGG ACGGACAGCA GCAAAGCGCC GCTCCACTTT
    CCCATTCCTG CCATCCGATA TGTTGTTAAA GAGGTCTCTC TGGTGTGGCA TCTTTATGGA
    GGCAAGGACT TTGCAACAGC TCCTCCAACT TCTCCAGCTA AGAGTTACAT TAGTCCCCAC
    AGCTCACCTT CTCAAACACC TACAAGGCAC GGGCGCCACA CAGTCTGTGG GGGCAAAGGA
    AGGAACCATG ACTTCTTGAT GGAAATACAG TTAAGCAAGG TGAAGTTTCA GCATGAGGTC
    TACCCTCCGT GTAAGCCTGA GTGTGAATCC AGCCTCTTAG AACACCCAGT CTCCAGGCAG
    GTCTTCATCG TGCAGGACCT TGAAATTCGA GATCGGCTGG CAACATCACA GATGAATAAG
    TTTTTATACC TGTATTGCAG CAAAGACATG CCTCGTAAAG CCCATTCCAA CATGCTGACA
    ATTAAAGCGT TGCACGTACG TCCGGAGTCT GGCAGGTCAC CACAGGAATG CTGCTTGAGA
    GTGTCCCTGA TGCCTCTTCG CCTCAATATT GACCAGGACG CCTTGTTCTT CCTCAAGGAT
    TTCTTCACAA GTCTTTCTAC AGAAGTGGAG CTTCTACTGA CTCCAGATCC AGAAGTTACA
    AAGTCTCCTG GAGCTGATGT CACCTGCAGT TTGCCAAGGC ATTTGAGTAC CTCAAAGGAG
    CCAAATCTAG TTGTTTCTTT TCCTGGGCCA AAACAAGCTT CCCCGAACCA TCGTGCCAAT
    TCAGCGGAGG GCGGTAATGG ACTGGAGGAG GACGTCTCTG CTGAGGAAAC TTCATTTAGT
    GACCAGCCTG TGTTTTTTAG AGAATTTAGA TTCACGGCAG AAGTTCCCAT CCGGCTTGAC
    TACCACGGCA AGCACGTGTC GATGGATCAG GGTACATTGG CTGGGATTTT GATTGGCCTG
    GCCCAGCTGA ACTGTTCGGA GCTAAAGCTG AAAAGGCTTT TCTATCGGCA TGGTTTGCTA
    GGTATTGACA AATTGTTCTC ATATGCAATC TCGGAATGGC TCAGTGACAT TAAGAAGAAC
    CAGCTACCAG GAATCCTGGG AGGTGTTGGC CCTATGCATT CACTAGTTCA ACTAGTGCAA
    GGCCTGAAGG ACTTGGTGTG GCTGCCCATT GAGCAATACC GGAAGGATGG CCGAATCGTC
    AGGGGCTTCC AGAGAGGCGC TGCTTCCTTT GGTACCTCAA CTGCAATGGC TGCCCTAGAA
    CTCACAAACA GAATGGTCCA AACCATACAG GCAGCTGCAG AGACTGCATA TGACATGGTG
    TCTCCGAGTA CCCTTTCCAT TGAGCCCAAG AAGGCAAAGA GATTTCCTCA TCACCGATTA
    GCCCACCAGC CAGTAGACCT GAGGGAAGGC GTGGCCAAGG CCTACAGCGT TGTAAAAGAG
    GGAATCACAG ACACAGCTCA GACCATCTAT GAAACGGCGG CTCGAGAACA CGAGAGCAGA
    GGGGTCACTG GTGCTGTGGG TGAAGTTCTG CGGCAGATCC CACCGGCAGT GGTCAGACCC
    CTGATTGTAG CCACCGAGGC GACATCAAAT GTGTTAGGTG GCATGAGAAA CCAAATTAGA
    CCAGACGTTC GGCAGGACGA GTCACAGAAA TGGCGCCATG GGGAGGACTG A

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

    RefSeq XP_021035312.1
    CDS472..6702
    Translation

    Target ORF information:

    RefSeq Version XM_021179653.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli autophagy related 2B (Atg2b), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021179653.1

    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
    6061
    6121
    6181
    ATGCCTTGGC CATTTTCAGA ATCCATCAAG AAGAGGGCCT GTCGCTACCT CCTACAGAGG 
    TACCTGGGCC ACTTCCTGCA GGAGAAGCTG AGCCTGGAGC AGCTGAGCCT GGACCTGTAC
    CAGGGCACCG GGTCCCTTGC CCAGGTCCCC TTGGACAAAT GGTGTCTCAA TGAAATCCTG
    GAGTCAGCAG ATGCACCGTT AGAAGTCACG GAAGGATTTA TTCAGTCTAT TTCCCTGTCC
    GTCCCATGGG GCTCCTTGCT GCAGGACAAC TGTGCCCTGG AAGTGAGAGG ACTGGAGATG
    GTCTTCCGGC CTCGACCTCG AGTAGCAACT GGGTCCGAGC CTATGTACTG GTCAAGCTTC
    ATGACCAGCA GTATGCAGCT GGCAAAGGAG TGTCTTAGCC AGAAACTGAC AGATGAGCAA
    GGAGAGGCAT CGCAGCCTTT CGAGGGACTG GAAAAGTTTG CAGAAACCAT CGAAACAGTA
    CTAAGAAGAG TGAAAGTCAC TTTTATAGAT ACTGTTTTAA GAATTGAACA TGTGCCAGAA
    AATTCTAAAA CTGGAGCTGC ACTTGAAATC CGAGTAGACA GGACCGTGTA CTGTGACGAA
    ACAGCCGACG AGTCCTCAGG AGTCAATGTG CATCAGCCCA CAGCTTTTGC TCATAAATTG
    CTGCAGCTCT CTGGGGTGTC TCTGTTCTGG GATGAATTTT CTGCTTCAGC AAAATCTTCC
    CCCGTGTGTT CAACTGCACC AGTGGAAACT GAGCCAAAGC TGTCACCTAG CTGGAACCCC
    AAAATTGTTT ATGAGCCACA CCCACAACTA ACTAGAACGT TACCGGAGAT AGCACCCTCG
    GATCCAGTGC AGATTGGAAG GCTACTGGGC AGGCTGGAAT TGAGTCTCAC TTTAAAACAG
    AATGAAGTGC TTCCAGGAGC CAAGTTGGAT GTCGATGGAC AGATAGACTC CTTTCATCTA
    TTCCTGTCAC CGAGGCAGGT ACACCTCCTT CTGGATATGT TAGCAGCTAT TGCTGGACCA
    GAAAATTCTA GCAAAATAGG GCTGGCTAAT AAAGACAGGA AAAATCGACC CATGCAGCAG
    GAAGATGAGT ACCGAATTCA GATGGAATTA AACCGGTATT ATCTGAGGAA AGATTCCCTC
    TCTATGGGTG TGTCTTCAGA GAAGAGCTTC TATGAGACAG AAACAGCTCG TACACCTTCT
    AGCCGTGAGG AAGAAGTTTT CTTCTCCATG GCCGACATGG ACATGTCTCA CAGTCTGTCC
    TCTCTTCCAC CCCTTGGGGA CCCACCACAC ATGGACCTGG AGCTGTCCCT GACGAGTACA
    TACACCAACA CACCTGCGGG GTCCCCGCTA AGCGCCACTG TGCTTCAGCC AACTTGGGGA
    GAGTTTGCCG ACCACAAAGA GCAGCCAGTC AGAGGGCCAG CGTTCCAGTC TGACGTGGTC
    CACCCGGCAT CTTTACAAAA GGCTGCTCTC TCCTCTAGGT CTGTTTCAGT GGATGAATCC
    AGACCTGAGT TTATCTGCAG GTTGGCTCTC GGCATATTCT CCGTCTCTGT GCTTCACATC
    GATCCTTTGT CTCCAGCGGA AACATCTCTG AACGTCAACC CATTGACACG CATGGCCATC
    GATTTCTTCT CCTGTATAGA AAAGATGGAC CCAGCAATAT TTTCGACGGG AGACTTTAAG
    TCTTTCCGAG CAGTCTTTGC CGAAGCTTGT TCACACGATC ACCTTAGATT TATAGGTACT
    GGCATCAAAG TGTCCTATGA GCAGAGACAA AGATCAGCTT CCCGGCACTT TAGCACCGAC
    ATGTCCGTTG GGCAAATGGA GTTTTTGGAG TGTCTGTTTC CAACAGATTG TCATTCTGTC
    CCTCCTCACT ACACCGAGCT TCTAACGTTC CATTCCAAAG AAGGGACGGA TGCCCACCTT
    CCCGTTTGTC TTCAGCTTCA CTATAAACAC TCTGAGACTA GAGGACCCCA GGGTAATCAA
    GCAAGACTTA GTTCAGTTCC TCAAAAGGCA GAATTACACA TTAAATTAAA CCCCGTGTGT
    TGCGAGCTGG ATATCAGTAT TGTGGATAGG TTAAATTCCT TGCTTCAACC CCAGAAACTC
    ACTACCGTGG AGATGATGGC CTCGCACATG TATGCGTCCT ATAACAAGCA TATTAGTTTG
    CACAAGGCTT TCACGGAAGT GTTCCTAGAT GACTCGCACA GTCCTGCAAA CCGTCGGGTG
    TCCGTGCAAG TTGCCACCCC AGCCCTGCAC CTGTCTGTTC GATTCCCTAT TCCTGATCTC
    CGATCAGACC AGGAAAGAGG ACCCTGGTTT AAGAAGTCAC TTCAGAAGGA GACCCTTCAT
    TTAGAATTTA CGGATCTGGA GTCCAAGACA GAGTTCGTGG GAGGATCCAC CCCAGAACAA
    ACTAAACTGG AGCTGACTTT TCGAGAGCTG TCTGGGTCGT TTCAGGAAGA GAAGGGAGGG
    CCATCTGTCA AGTTCTTCCA TGTGTCTGGT GGAGTAGATG GAGACACCGC ATCGTCAGAT
    GACTTTGACT GGCCACGAAT GGTACTGAAA ATAAACCCAC CAGCCATGCA TTCCATTTTG
    GAGAGAATAG CAGCCGAGGA AGAGGAAGAG AATGATGGTC ACTACCAGGA GGAGGAGGAC
    GGAGGGGCTC ATTCCCTGAA AGATGTCTGT GACCTGAGGC GGCCAGCCCC GTCTCCCTTT
    TCCTCTCGTC GAGTGATGTT TGAGAATGAG CAGATGGTGA TGCCGGGAGA CCCTGTGGAG
    ATGACGGAGT TTCAGGACAA AGCCATCAGC AACTCGCACT ACGTGCTGGA GCTCCTGCTG
    CCCAACATCC ACCTGACGCT GCCCAGCAAA GGCTTCTATG AGAAGCTCTA TAACAGGATC
    TTTAATGACT TGCTTCTCTG GGAGCCAACA GCTCCTTCAC CAGTGGAGAC ACTTGAAAAC
    GTTTCCTATG GCATCGGACT CTCCGTGGCC AGTCAGCTGA TCAACACCTT CAGCAAAGAT
    AGCTTCAGTC CCTTTAAATC TGCAGTTCAT TATGATGAAG ACAGTGGATC TGAAGAAGAG
    ACTTTGCAGT ATTTTTCTGC TGTTGATCCC AACTATCGTT CCCGTAGGAA AAAAAAGTCG
    GACTCTCAGA ACAAGAACTC TCAGAGCTTC CTCTCAGTGC TTCTGAGTGT CAATCATGGA
    CTAATGGCAG TGCTCACTGA TGTAAAGCAA GAGAATGGAG ATCCAATGGA AAGTAAGCAT
    GGTGAATTCT GGTTAGAATT CAATAGCGGC TCGTTCTTCT GCGTGACAAA GTATGAGGGC
    TTTGAGGACA AGCACTACAT CTGCTTGCAT TCCAGCAGCC TCAGGCTGTA CCACAAAGGC
    ATGGTAGATG GAGCCATTCT CCCTACAGAG ACGCGCTTGC CCTGTTCCAC CCGCCCACAC
    TGGCTGGAAC CTACAATTTA TTCCTCTGAA GAAGATGGCC TCAGCCGAGC TGCCTCAGAT
    GGGGTTGGGG GAGACAATTT GAATATGCTT TCAGTCGCAG TGAAGATACT GTCTGATAAG
    TCCGAGTCCA ACACGAAGGA GTTCCTCGTG GCTGTGGGGC TGAAAGGAGC CACTCTACAA
    CACAGGGTGC TGCCTGCCGG ACTCAGTTGG CACGAGCAGA TTTTAAACTT CTTAAATATT
    GCTGATGAAC CTGTTTTGGG ATATAACCCT CCAACTTCAT TCACAACTTT CCACGTCCAT
    CTTTGGAGCT GTGCACTTGA TTACAGGCCC CTTCACCTGC CAATCCGATC CCTTCTTACT
    GTTGAGACGT TCAGCATTTC TAGCAGTGTT GCTTTGGATA AATCTTCCTC CACTCTCAGA
    ATCATCATGG ACGAGGCTGC TTTACACCTG TCAGACAAGT GCAACACTGT CACTGTAAAC
    CTGAATAGAG ATTATGTTCG TGTGATGGAC ATGGGACTTT TAGAGCTGAC CATAACCGCA
    GTAAAATCTG ATTCTGATGG AGAACAGACT GCTCCCCGCT TTGAGTTGCA CTGTTCCAGC
    GATGTCGTGC ATATCAGAAC ATGCTCAGAC TCGTGCGCTG CGCTGATGAA TCTCATTCAG
    TATGTCGCAA GTTACGGGGA CCTACATGTA CCTCAGAAAG CAGAGATGAA GCCTGGAGTC
    CCACAGAGAA AGCCCAAGGT AGATTCCAGC GCTCGGTCAT CTTCACATGG TCCAGTGCTT
    CCTGAAGCAG ATCAGCAGAT TTTACGGGAC CTGATGAGTG ACGCCATGGA GGAGGTTGAT
    CTGCAGCAGG CCTCTGTCCC CGTCGGAGCA CAGGCTAATG GTGTCCTGGA TGAAAAGTCT
    CACACTCAGG AGCCGTGCTG CTCAGACCTC TTCCTGTTCC CAGATGAGAG TGGAAATGTG
    TCCCAGGAGT CCAGCCCTGC CTATCCGTCG CTCACTCACC ACTTGATCAG TGATGGGGTG
    ACCGGTGTGA CCGCTGAAAA CGATGACTTC TGTATTCTTT TTGCACCAAA AGCAGCCGTT
    CAGGAGAAGG AAGAAGAGCC AGTGATAAAG ATCATGGTTG ATGACGCCAT TGTGATCAAA
    GATGACTATT TCAGTCTGCC CATCACGAGG ACGGACAGCA GCAAAGCGCC GCTCCACTTT
    CCCATTCCTG CCATCCGATA TGTTGTTAAA GAGGTCTCTC TGGTGTGGCA TCTTTATGGA
    GGCAAGGACT TTGCAACAGC TCCTCCAACT TCTCCAGCTA AGAGTTACAT TAGTCCCCAC
    AGCTCACCTT CTCAAACACC TACAAGGCAC GGGCGCCACA CAGTCTGTGG GGGCAAAGGA
    AGGAACCATG ACTTCTTGAT GGAAATACAG TTAAGCAAGG TGAAGTTTCA GCATGAGGTC
    TACCCTCCGT GTAAGCCTGA GTGTGAATCC AGCCTCTTAG AACACCCAGT CTCCAGGCAG
    GTCTTCATCG TGCAGGACCT TGAAATTCGA GATCGGCTGG CAACATCACA GATGAATAAG
    TTTTTATACC TGTATTGCAG CAAAGACATG CCTCGTAAAG CCCATTCCAA CATGCTGACA
    ATTAAAGCGT TGCACGTACG TCCGGAGTCT GGCAGGTCAC CACAGGAATG CTGCTTGAGA
    GTGTCCCTGA TGCCTCTTCG CCTCAATATT GACCAGGACG CCTTGTTCTT CCTCAAGGAT
    TTCTTCACAA GTCTTTCTAC AGAAGTGGAG CTTCTACTGA CTCCAGATCC AGAAGTTACA
    AAGTCTCCTG GAGCTGATGT CACCTGCAGT TTGCCAAGGC ATTTGAGTAC CTCAAAGGAG
    CCAAATCTAG TTGTTTCTTT TCCTGGGCCA AAACAAGCTT CCCCGAACCA TCGTGCCAAT
    TCAGCGGAGG GCGGTAATGG ACTGGAGGAG GACGTCTCTG CTGAGGAAAC TTCATTTAGT
    GACCAGCCTG TGTTTTTTAG AGAATTTAGA TTCACGGCAG AAGTTCCCAT CCGGCTTGAC
    TACCACGGCA AGCACGTGTC GATGGATCAG GGTACATTGG CTGGGATTTT GATTGGCCTG
    GCCCAGCTGA ACTGTTCGGA GCTAAAGCTG AAAAGGCTTT TCTATCGGCA TGGTTTGCTA
    GGTATTGACA AATTGTTCTC ATATGCAATC TCGGAATGGC TCAGTGACAT TAAGAAGAAC
    CAGCTACCAG GAATCCTGGG AGGTGTTGGC CCTATGCATT CACTAGTTCA ACTAGTGCAA
    GGCCTGAAGG ACTTGGTGTG GCTGCCCATT GAGCAATACC GGAAGGATGG CCGAATCGTC
    AGGGGCTTCC AGAGAGGCGC TGCTTCCTTT GGTACCTCAA CTGCAATGGC TGCCCTAGAA
    CTCACAAACA GAATGGTCCA AACCATACAG GCAGCTGCAG AGACTGCATA TGACATGGTG
    TCTCCGAGTA CCCTTTCCAT TGAGCCCAAG AAGGCAAAGA GATTTCCTCA TCACCGATTA
    GCCCACCAGC CAGTAGACCT GAGGGAAGGC GTGGCCAAGG CCTACAGCGT TGTAAAAGAG
    GGAATCACAG ACACAGCTCA GACCATCTAT GAAACGGCGG CTCGAGAACA CGAGAGCAGA
    GGGGTCACTG GTGCTGTGGG TGAAGTTCTG CGGCAGATCC CACCGGCAGT GGTCAGACCC
    CTGATTGTAG CCACCGAGGC GACATCAAAT GTGTTAGGTG GCATGAGAAA CCAAATTAGA
    CCAGACGTTC GGCAGGACGA GTCACAGAAA TGGCGCCATG GGGAGGACTG A

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