GSL8 cDNA ORF clone, Arabidopsis thaliana(thale cress)

The following GSL8 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the GSL8 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
OAb08965 NM_179940.6
Latest version!
Arabidopsis thaliana glucan synthase-like 8 (GSL8), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $1021.30
$1459.00

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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)
    CloneID OAb08965
    Clone ID Related Accession (Same CDS sequence) NM_179940.6
    Accession Version NM_179940.6 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5715bp)
    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 2019-02-13
    Organism Arabidopsis thaliana(thale cress)
    Product glucan synthase-like 8
    Comment Comment: REVIEWED REFSEQ: This record has been curated by TAIR and Araport. This record is derived from an annotated genomic sequence (NC_003071). On Sep 12, 2016 this sequence version replaced NM_179940.5.

    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
    ATGGCTAGGG TTTATAGTAA TTGGGATAGG CTGGTTCGAG CCACTTTAAG AAGAGAGCAG 
    CTGAGAAATA CAGGTCAAGG TCATGAGCGT GTTAGTAGCG GACTTGCTGG AGCAGTTCCG
    CCATCACTTG GTCGAGCTAC AAATATCGAT GCTATCTTAC AAGCTGCTGA TGAGATTCAG
    TCTGAGGATC CTTCTGTAGC TAGAATTCTA TGTGAGCAAG CGTACTCTAT GGCACAGAAC
    TTGGACCCTA ACAGTGATGG TAGAGGTGTT CTTCAATTCA AAACTGGTTT GATGTCCGTG
    ATTAAGCAAA AACTTGCCAA GAGAGATGGT GCTTCAATAG ACCGCGATCG TGATATTGAA
    CGACTATGGG AATTTTACAA ACTTTATAAA AGACGGCATA GAGTGGATGA TATTCAGAAG
    GAAGAGCAAA AGTGGAGGGA ATCAGGAACA ACTTTTTCTT CTAACGTGGG GGAGATCTTG
    AAGATGAGGA AGGTGTTTGC CACATTGAGG GCCCTAATTG AAGTGTTAGA GGTGCTAAGC
    AGAGATGCTG ATCCAAATGG TGTTGGGAGG TCTATCAGGG ACGAGCTTGG GCGGATTAAA
    AAAGCTGATG CAACTTTGTC TGCGGAACTA ACTCCTTACA ATATTGTCCC TCTAGAAGCG
    CAGTCCATGA CCAATGCAAT TGGGGTTTTC CCTGAAGTAC GTGGTGCAGT CCAAGCTATC
    AGATACACTG AACATTTCCC TAGGCTTCCC GTTGATTTTG AGATTTCCGG ACAACGTGAT
    GCAGATATGT TTGATTTATT GGAGTATATC TTTGGGTTTC AGAGAGACAA TGTAAGGAAC
    CAACGGGAGC ATTTGGTTCT CACACTTTCA AATGCACAGT CCCAGCTTAG TATACCTGGG
    CAGAATGACC CAAAAATTGA TGAGAATGCA GTCAATGAGG TTTTCTTAAA GGTTTTGGAC
    AACTACATCA AGTGGTGCAA ATACTTGAGG ATACGCGTTG TGTACAACAA GTTAGAAGCC
    ATTGACCGGG ACAGGAAGCT GTTTCTTGTT TCTTTGTACT TCCTAATCTG GGGTGAAGCT
    GCTAATGTCC GCTTTCTTCC AGAGTGTATC TGCTATATAT TTCACAACAT GGCCAAGGAA
    TTGGATGCAA AATTGGATCA TGGAGAAGCT GTTCGTGCTG ACAGTTGCTT AACTGGAACG
    GATACCGGTT CTGTATCATT TCTTGAGCGA ATTATCTGCC CTATATATGA AACAATCTCA
    GCGGAAACTG TTCGAAACAA TGGTGGGAAA GCTGCACATT CTGAATGGCG GAATTATGAT
    GACTTCAATG AATACTTTTG GACACCTGCT TGCTTTGAGT TAAGCTGGCC TATGAAAACA
    GAGTCACGCT TTTTAAGCAA GCCGAAAGGG CGGAAAAGGA CTGCTAAAAG TAGCTTTGTT
    GAGCATCGGA CATACCTTCA CCTTTTCCGA AGTTTTATTC GACTTTGGAT CTTCATGTTT
    ATTATGTTCC AGTCTTTGAC GATTATAGCC TTCAGGAATG AACATCTCAA TATCGAAACT
    TTCAAGATCT TACTCAGTGC TGGGCCTACA TATGCTATTA TGAACTTCAT TGAATGTCTT
    CTTGATGTTG TACTTATGTA TGGCGCCTAC AGCATGGCAA GAGGAATGGC TATATCCAGG
    CTGGTTATCA GGTTTCTTTG GTGGGGCTTG GGATCGGCAT TTGTGGTGTA TTATTATGTG
    AAGGTTCTGG ATGAAAGAAA TAAACCAAAC CAAAATGAGT TTTTCTTCCA TTTATACATT
    CTTGTATTGG GGTGTTATGC CGCTGTTCGC CTCATCTTTG GACTTTTAGT CAAACTTCCA
    GCATGCCATG CTCTGTCAGA AATGTCAGAT CAATCTTTCT TCCAGTTTTT TAAGTGGATA
    TATCAGGAAC GATACTTCGT GGGACGTGGC CTCTTTGAGA ATTTAAGTGA TTATTGCAGG
    TATGTGGCGT TTTGGTTGGT TGTCCTGGCC TCCAAATTCA CATTTGCATA CTTCCTCCAG
    ATCAAACCAC TCGTTAAACC CACCAACACT ATCATTCATC TTCCTCCATT TCAATATTCA
    TGGCATGATA TTGTCTCAAA ATCTAACGAT CATGCGTTGA CCATTGTTAG CTTGTGGGCT
    CCAGTTTTGG CGATTTATCT TATGGATATT CATATATGGT ACACACTCTT GTCTGCAATT
    ATTGGTGGTG TGATGGGTGC AAAAGCTCGC CTAGGCGAGA TACGCACCAT CGAGATGGTT
    CATAAGCGTT TTGAGAGTTT TCCAGAGGCT TTTGCTCAGA ACCTTGTCTC TCCTGTTGTG
    AAAAGAGTAC CACTTGGCCA ACATGCTTCT CAGGATGGTC AGGATATGAA CAAGGCATAT
    GCTGCGATGT TTTCACCTTT TTGGAATGAG ATAATAAAGA GCTTGAGAGA GGAAGATTAT
    CTCAGTAACA GGGAGATGGA TTTGCTTTCT ATTCCCAGTA ACACGGGGAG CCTTAGACTA
    GTCCAGTGGC CCTTGTTTCT TCTCTGCAGT AAGATTCTGG TAGCCATTGA TTTAGCCATG
    GAGTGCAAAG AAACACAAGA AGTACTATGG AGACAAATAT GCGATGATGA ATACATGGCG
    TATGCAGTTC AGGAGTGCTA TTACAGTGTT GAAAAAATAT TGAATTCCAT GGTTAATGAT
    GAAGGGCGAC GTTGGGTGGA AAGAATTTTT CTGGAGATCA GCAACAGTAT AGAACAGGGT
    TCCCTTGCGA TAACTCTAAA TCTTAAGAAG CTTCAGTTAG TGGTTTCCAG ATTTACTGCA
    TTAACCGGGC TTTTGATTCG AAATGAAACC CCAGATCTTG CAAAAGGTGC TGCAAAAGCT
    ATGTTTGATT TTTACGAGGT GGTCACGCAT GACCTTCTTT CACATGATTT AAGGGAGCAG
    CTTGATACAT GGAATATTTT AGCACGGGCT CGAAATGAAG GGCGTCTCTT TTCCAGAATA
    GCTTGGCCTA GGGACCCAGA AATTATAGAG CAGGTCAAGC GGCTACATCT TCTTCTCACT
    GTGAAGGATG CCGCTGCTAA CGTCCCAAAA AATCTAGAAG CAAGAAGAAG ATTGGAGTTT
    TTCACAAATT CGTTATTTAT GGATATGCCC CAAGCAAGGC CTGTTGCTGA AATGGTTCCA
    TTCAGTGTCT TCACCCCATA CTATAGTGAG ACAGTGCTCT ATAGCTCCTC AGAACTGCGA
    AGTGAGAATG AGGATGGAAT ATCTATTCTT TTCTATCTTC AAAAGATATT TCCTGATGAA
    TGGGAGAACT TCTTGGAGAG GATTGGCAGG TCTGAATCAA CAGGGGATGC AGATCTTCAA
    GCAAGTTCAA CTGATGCTTT GGAGCTTCGG TTTTGGGTAT CTTATCGAGG ACAGACTTTA
    GCGAGGACTG TGCGAGGTAT GATGTATTAC CGAAGGGCTT TGATGCTCCA GAGTTTCTTA
    GAAAGACGAG GCTTGGGAGT GGATGATGCA TCTCTGACCA ACATGCCACG AGGATTTGAA
    TCGTCAATTG AAGCTCGAGC TCAAGCGGAC CTTAAGTTTA CGTATGTTGT GTCGTGCCAA
    ATTTATGGGC AACAGAAACA GCAAAAGAAA CCAGAGGCTA CTGATATCGG ACTTTTATTG
    CAAAGATACG AGGCGCTACG AGTTGCTTTC ATACATTCGG AGGATGTTGG AAATGGAGAT
    GGTGGAAGTG GAGGGAAAAA GGAATTCTAT TCTAAATTAG TAAAAGCTGA CATTCACGGA
    AAAGATGAGG AAATTTATTC AATTAAACTT CCCGGAGATC CTAAACTTGG TGAAGGGAAG
    CCTGAGAATC AAAATCATGC TATCGTGTTT ACGCGGGGAG AAGCTATCCA GACCATAGAT
    ATGAATCAGG ACAATTATCT GGAGGAAGCA ATCAAAATGA GAAATCTACT TGAGGAGTTT
    CATGGAAAAC ATGGAATTCG ACGTCCTACT ATTTTGGGAG TTAGAGAGCA TGTTTTCACG
    GGAAGTGTTT CATCACTGGC GTGGTTCATG TCGAATCAAG AGACCAGTTT TGTAACGTTG
    GGTCAACGGG TTCTAGCATA TCCACTTAAA GTTCGAATGC ACTATGGGCA TCCAGATGTG
    TTCGATAGAA TATTTCATAT AACTCGCGGA GGAATCAGCA AAGCATCCCG TGTTATTAAC
    ATCAGTGAAG ATATATATGC TGGATTTAAC TCGACACTCA GGCAGGGGAA TATCACCCAC
    CATGAGTATA TTCAGGTTGG TAAAGGAAGA GATGTAGGAC TTAACCAGAT TGCCCTATTT
    GAAGGGAAGG TAGCAGGTGG AAATGGAGAA CAAGTTCTTA GCAGGGATGT CTACAGAATT
    GGGCAGCTGT TTGACTTTTT TAGAATGATG TCATTCTACT TCACAACAGT TGGATTCTAT
    GTCTGCACAA TGATGACCGT CCTTACTGTG TACGTCTTTT TGTATGGAAG AGTTTATCTG
    GCCTTTTCTG GTGCTGATCG TGCAATATCA AGAGTAGCCA AACTGTCAGG TAACACTGCA
    TTGGATGCTG CACTAAACGC ACAGTTTTTA GTCCAGATTG GAATCTTTAC TGCCGTCCCT
    ATGGTGATGG GTTTCATACT TGAACTTGGG TTGCTAAAGG CTATTTTCAG CTTCATTACA
    ATGCAATTCC AGTTGTGTTC TGTCTTTTTC ACATTTTCTC TCGGGACAAG AACTCATTAC
    TTTGGACGTA CTATTCTTCA CGGTGGTGCA AAGTATCGAG CAACTGGCAG AGGTTTTGTG
    GTTCAGCACA TAAAGTTTGC CGATAATTAC AGACTTTATT CTAGAAGTCA TTTTGTTAAA
    GCTTTTGAAG TAGCTCTACT GTTGATCATT TACATTGCCT ATGGGTATAC GGACGGGGGT
    GCCTCTTCGT TCGTTTTGCT AACTATCAGC AGTTGGTTCC TTGTAATATC CTGGTTGTTT
    GCACCCTATA TCTTCAATCC CTCTGGATTT GAATGGCAAA AGACTGTCGA GGATTTTGAA
    GACTGGGTCA GTTGGCTTAT GTACAAAGGT GGAGTGGGAG TAAAGGGAGA GCTCAGTTGG
    GAGTCGTGGT GGGAGGAAGA ACAGGCGCAT ATCCAAACAT TAAGAGGAAG GATATTGGAG
    ACTATTTTGA GCCTGAGATT TTTCATGTTT CAATATGGCA TTGTGTACAA GCTTGATCTC
    ACTCGGAAAA ACACTTCACT TGCGCTCTAT GGCTACTCGT GGGTTGTTTT GGTTGTTATT
    GTGTTCTTGT TTAAGCTTTT CTGGTATAGT CCCAGAAAAT CAAGCAACAT TCTGCTGGCA
    CTGCGTTTTC TACAGGGAGT GGCTTCGATC ACATTCATCG CCCTCATCGT TGTAGCCATT
    GCAATGACAG ATCTATCGAT TCCAGACATG TTTGCATGTG TCCTTGGTTT TATCCCGACC
    GGCTGGGCTC TACTCTCTTT AGCCATCACA TGGAAACAGG TGCTTAGGGT CCTGGGCTTG
    TGGGAAACAG TCCGTGAGTT TGGGCGTATA TATGATGCTG CAATGGGTAT GCTCATATTT
    TCTCCGATCG CCCTTCTTTC CTGGTTCCCT TTCATCTCCA CGTTCCAGTC TCGGCTCCTC
    TTCAACCAAG CTTTCAGTCG CGGACTTGAA ATCTCCATTA TCCTTGCCGG AAACAGAGCT
    AATGTTGAGA CCTGA

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

    RefSeq NP_850271.5
    CDS299..6013
    Translation

    Target ORF information:

    RefSeq Version NM_179940.6
    Organism Arabidopsis thaliana(thale cress)
    Definition Arabidopsis thaliana glucan synthase-like 8 (GSL8), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_179940.6

    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
    ATGGCTAGGG TTTATAGTAA TTGGGATAGG CTGGTTCGAG CCACTTTAAG AAGAGAGCAG 
    CTGAGAAATA CAGGTCAAGG TCATGAGCGT GTTAGTAGCG GACTTGCTGG AGCAGTTCCG
    CCATCACTTG GTCGAGCTAC AAATATCGAT GCTATCTTAC AAGCTGCTGA TGAGATTCAG
    TCTGAGGATC CTTCTGTAGC TAGAATTCTA TGTGAGCAAG CGTACTCTAT GGCACAGAAC
    TTGGACCCTA ACAGTGATGG TAGAGGTGTT CTTCAATTCA AAACTGGTTT GATGTCCGTG
    ATTAAGCAAA AACTTGCCAA GAGAGATGGT GCTTCAATAG ACCGCGATCG TGATATTGAA
    CGACTATGGG AATTTTACAA ACTTTATAAA AGACGGCATA GAGTGGATGA TATTCAGAAG
    GAAGAGCAAA AGTGGAGGGA ATCAGGAACA ACTTTTTCTT CTAACGTGGG GGAGATCTTG
    AAGATGAGGA AGGTGTTTGC CACATTGAGG GCCCTAATTG AAGTGTTAGA GGTGCTAAGC
    AGAGATGCTG ATCCAAATGG TGTTGGGAGG TCTATCAGGG ACGAGCTTGG GCGGATTAAA
    AAAGCTGATG CAACTTTGTC TGCGGAACTA ACTCCTTACA ATATTGTCCC TCTAGAAGCG
    CAGTCCATGA CCAATGCAAT TGGGGTTTTC CCTGAAGTAC GTGGTGCAGT CCAAGCTATC
    AGATACACTG AACATTTCCC TAGGCTTCCC GTTGATTTTG AGATTTCCGG ACAACGTGAT
    GCAGATATGT TTGATTTATT GGAGTATATC TTTGGGTTTC AGAGAGACAA TGTAAGGAAC
    CAACGGGAGC ATTTGGTTCT CACACTTTCA AATGCACAGT CCCAGCTTAG TATACCTGGG
    CAGAATGACC CAAAAATTGA TGAGAATGCA GTCAATGAGG TTTTCTTAAA GGTTTTGGAC
    AACTACATCA AGTGGTGCAA ATACTTGAGG ATACGCGTTG TGTACAACAA GTTAGAAGCC
    ATTGACCGGG ACAGGAAGCT GTTTCTTGTT TCTTTGTACT TCCTAATCTG GGGTGAAGCT
    GCTAATGTCC GCTTTCTTCC AGAGTGTATC TGCTATATAT TTCACAACAT GGCCAAGGAA
    TTGGATGCAA AATTGGATCA TGGAGAAGCT GTTCGTGCTG ACAGTTGCTT AACTGGAACG
    GATACCGGTT CTGTATCATT TCTTGAGCGA ATTATCTGCC CTATATATGA AACAATCTCA
    GCGGAAACTG TTCGAAACAA TGGTGGGAAA GCTGCACATT CTGAATGGCG GAATTATGAT
    GACTTCAATG AATACTTTTG GACACCTGCT TGCTTTGAGT TAAGCTGGCC TATGAAAACA
    GAGTCACGCT TTTTAAGCAA GCCGAAAGGG CGGAAAAGGA CTGCTAAAAG TAGCTTTGTT
    GAGCATCGGA CATACCTTCA CCTTTTCCGA AGTTTTATTC GACTTTGGAT CTTCATGTTT
    ATTATGTTCC AGTCTTTGAC GATTATAGCC TTCAGGAATG AACATCTCAA TATCGAAACT
    TTCAAGATCT TACTCAGTGC TGGGCCTACA TATGCTATTA TGAACTTCAT TGAATGTCTT
    CTTGATGTTG TACTTATGTA TGGCGCCTAC AGCATGGCAA GAGGAATGGC TATATCCAGG
    CTGGTTATCA GGTTTCTTTG GTGGGGCTTG GGATCGGCAT TTGTGGTGTA TTATTATGTG
    AAGGTTCTGG ATGAAAGAAA TAAACCAAAC CAAAATGAGT TTTTCTTCCA TTTATACATT
    CTTGTATTGG GGTGTTATGC CGCTGTTCGC CTCATCTTTG GACTTTTAGT CAAACTTCCA
    GCATGCCATG CTCTGTCAGA AATGTCAGAT CAATCTTTCT TCCAGTTTTT TAAGTGGATA
    TATCAGGAAC GATACTTCGT GGGACGTGGC CTCTTTGAGA ATTTAAGTGA TTATTGCAGG
    TATGTGGCGT TTTGGTTGGT TGTCCTGGCC TCCAAATTCA CATTTGCATA CTTCCTCCAG
    ATCAAACCAC TCGTTAAACC CACCAACACT ATCATTCATC TTCCTCCATT TCAATATTCA
    TGGCATGATA TTGTCTCAAA ATCTAACGAT CATGCGTTGA CCATTGTTAG CTTGTGGGCT
    CCAGTTTTGG CGATTTATCT TATGGATATT CATATATGGT ACACACTCTT GTCTGCAATT
    ATTGGTGGTG TGATGGGTGC AAAAGCTCGC CTAGGCGAGA TACGCACCAT CGAGATGGTT
    CATAAGCGTT TTGAGAGTTT TCCAGAGGCT TTTGCTCAGA ACCTTGTCTC TCCTGTTGTG
    AAAAGAGTAC CACTTGGCCA ACATGCTTCT CAGGATGGTC AGGATATGAA CAAGGCATAT
    GCTGCGATGT TTTCACCTTT TTGGAATGAG ATAATAAAGA GCTTGAGAGA GGAAGATTAT
    CTCAGTAACA GGGAGATGGA TTTGCTTTCT ATTCCCAGTA ACACGGGGAG CCTTAGACTA
    GTCCAGTGGC CCTTGTTTCT TCTCTGCAGT AAGATTCTGG TAGCCATTGA TTTAGCCATG
    GAGTGCAAAG AAACACAAGA AGTACTATGG AGACAAATAT GCGATGATGA ATACATGGCG
    TATGCAGTTC AGGAGTGCTA TTACAGTGTT GAAAAAATAT TGAATTCCAT GGTTAATGAT
    GAAGGGCGAC GTTGGGTGGA AAGAATTTTT CTGGAGATCA GCAACAGTAT AGAACAGGGT
    TCCCTTGCGA TAACTCTAAA TCTTAAGAAG CTTCAGTTAG TGGTTTCCAG ATTTACTGCA
    TTAACCGGGC TTTTGATTCG AAATGAAACC CCAGATCTTG CAAAAGGTGC TGCAAAAGCT
    ATGTTTGATT TTTACGAGGT GGTCACGCAT GACCTTCTTT CACATGATTT AAGGGAGCAG
    CTTGATACAT GGAATATTTT AGCACGGGCT CGAAATGAAG GGCGTCTCTT TTCCAGAATA
    GCTTGGCCTA GGGACCCAGA AATTATAGAG CAGGTCAAGC GGCTACATCT TCTTCTCACT
    GTGAAGGATG CCGCTGCTAA CGTCCCAAAA AATCTAGAAG CAAGAAGAAG ATTGGAGTTT
    TTCACAAATT CGTTATTTAT GGATATGCCC CAAGCAAGGC CTGTTGCTGA AATGGTTCCA
    TTCAGTGTCT TCACCCCATA CTATAGTGAG ACAGTGCTCT ATAGCTCCTC AGAACTGCGA
    AGTGAGAATG AGGATGGAAT ATCTATTCTT TTCTATCTTC AAAAGATATT TCCTGATGAA
    TGGGAGAACT TCTTGGAGAG GATTGGCAGG TCTGAATCAA CAGGGGATGC AGATCTTCAA
    GCAAGTTCAA CTGATGCTTT GGAGCTTCGG TTTTGGGTAT CTTATCGAGG ACAGACTTTA
    GCGAGGACTG TGCGAGGTAT GATGTATTAC CGAAGGGCTT TGATGCTCCA GAGTTTCTTA
    GAAAGACGAG GCTTGGGAGT GGATGATGCA TCTCTGACCA ACATGCCACG AGGATTTGAA
    TCGTCAATTG AAGCTCGAGC TCAAGCGGAC CTTAAGTTTA CGTATGTTGT GTCGTGCCAA
    ATTTATGGGC AACAGAAACA GCAAAAGAAA CCAGAGGCTA CTGATATCGG ACTTTTATTG
    CAAAGATACG AGGCGCTACG AGTTGCTTTC ATACATTCGG AGGATGTTGG AAATGGAGAT
    GGTGGAAGTG GAGGGAAAAA GGAATTCTAT TCTAAATTAG TAAAAGCTGA CATTCACGGA
    AAAGATGAGG AAATTTATTC AATTAAACTT CCCGGAGATC CTAAACTTGG TGAAGGGAAG
    CCTGAGAATC AAAATCATGC TATCGTGTTT ACGCGGGGAG AAGCTATCCA GACCATAGAT
    ATGAATCAGG ACAATTATCT GGAGGAAGCA ATCAAAATGA GAAATCTACT TGAGGAGTTT
    CATGGAAAAC ATGGAATTCG ACGTCCTACT ATTTTGGGAG TTAGAGAGCA TGTTTTCACG
    GGAAGTGTTT CATCACTGGC GTGGTTCATG TCGAATCAAG AGACCAGTTT TGTAACGTTG
    GGTCAACGGG TTCTAGCATA TCCACTTAAA GTTCGAATGC ACTATGGGCA TCCAGATGTG
    TTCGATAGAA TATTTCATAT AACTCGCGGA GGAATCAGCA AAGCATCCCG TGTTATTAAC
    ATCAGTGAAG ATATATATGC TGGATTTAAC TCGACACTCA GGCAGGGGAA TATCACCCAC
    CATGAGTATA TTCAGGTTGG TAAAGGAAGA GATGTAGGAC TTAACCAGAT TGCCCTATTT
    GAAGGGAAGG TAGCAGGTGG AAATGGAGAA CAAGTTCTTA GCAGGGATGT CTACAGAATT
    GGGCAGCTGT TTGACTTTTT TAGAATGATG TCATTCTACT TCACAACAGT TGGATTCTAT
    GTCTGCACAA TGATGACCGT CCTTACTGTG TACGTCTTTT TGTATGGAAG AGTTTATCTG
    GCCTTTTCTG GTGCTGATCG TGCAATATCA AGAGTAGCCA AACTGTCAGG TAACACTGCA
    TTGGATGCTG CACTAAACGC ACAGTTTTTA GTCCAGATTG GAATCTTTAC TGCCGTCCCT
    ATGGTGATGG GTTTCATACT TGAACTTGGG TTGCTAAAGG CTATTTTCAG CTTCATTACA
    ATGCAATTCC AGTTGTGTTC TGTCTTTTTC ACATTTTCTC TCGGGACAAG AACTCATTAC
    TTTGGACGTA CTATTCTTCA CGGTGGTGCA AAGTATCGAG CAACTGGCAG AGGTTTTGTG
    GTTCAGCACA TAAAGTTTGC CGATAATTAC AGACTTTATT CTAGAAGTCA TTTTGTTAAA
    GCTTTTGAAG TAGCTCTACT GTTGATCATT TACATTGCCT ATGGGTATAC GGACGGGGGT
    GCCTCTTCGT TCGTTTTGCT AACTATCAGC AGTTGGTTCC TTGTAATATC CTGGTTGTTT
    GCACCCTATA TCTTCAATCC CTCTGGATTT GAATGGCAAA AGACTGTCGA GGATTTTGAA
    GACTGGGTCA GTTGGCTTAT GTACAAAGGT GGAGTGGGAG TAAAGGGAGA GCTCAGTTGG
    GAGTCGTGGT GGGAGGAAGA ACAGGCGCAT ATCCAAACAT TAAGAGGAAG GATATTGGAG
    ACTATTTTGA GCCTGAGATT TTTCATGTTT CAATATGGCA TTGTGTACAA GCTTGATCTC
    ACTCGGAAAA ACACTTCACT TGCGCTCTAT GGCTACTCGT GGGTTGTTTT GGTTGTTATT
    GTGTTCTTGT TTAAGCTTTT CTGGTATAGT CCCAGAAAAT CAAGCAACAT TCTGCTGGCA
    CTGCGTTTTC TACAGGGAGT GGCTTCGATC ACATTCATCG CCCTCATCGT TGTAGCCATT
    GCAATGACAG ATCTATCGAT TCCAGACATG TTTGCATGTG TCCTTGGTTT TATCCCGACC
    GGCTGGGCTC TACTCTCTTT AGCCATCACA TGGAAACAGG TGCTTAGGGT CCTGGGCTTG
    TGGGAAACAG TCCGTGAGTT TGGGCGTATA TATGATGCTG CAATGGGTAT GCTCATATTT
    TCTCCGATCG CCCTTCTTTC CTGGTTCCCT TTCATCTCCA CGTTCCAGTC TCGGCTCCTC
    TTCAACCAAG CTTTCAGTCG CGGACTTGAA ATCTCCATTA TCCTTGCCGG AAACAGAGCT
    AATGTTGAGA CCTGA

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

  • PubMed

    Sequence and analysis of chromosome 2 of the plant Arabidopsis thaliana.
    Nature402(6763)761-8(1999 Dec)
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