ORF » Species Summary » Physcomitrella patens » PHYPADRAFT_138336 cDNA ORF clone

PHYPADRAFT_138336 cDNA ORF clone, Physcomitrella patens

The following PHYPADRAFT_138336 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the PHYPADRAFT_138336 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.

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OPn22398 XM_001772010.1
Latest version!		 Physcomitrella patens subsp. patens predicted protein (PHYPADRAFT_138336) mRNA, complete cds. 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)
    PHYPADRAFT_138336 ( XM_001772010.1 ) cDNA ORF clone, Physcomitrella patens -> XP_001772062.1 Physcomitrella patens subsp. patens predicted protein (PHYPADRAFT_138336) mRNA, complete cds.
    Price & Availability↑
    CloneID OPn22398
    Clone ID Related Accession (Same CDS sequence) XM_001772010.1
    Accession Version XM_001772010.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5631bp)
    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 2009-05-22
    Organism Physcomitrella patens
    Product hypothetical protein
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. This record is derived from an annotated genomic sequence (NW_001865401). COMPLETENESS: incomplete on both ends. 

    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
    ATGGGTGAGA TTGCCTTAAG TGGGCAGCGG TTTAGGCGTA TCCCACATCC TTACTCTGGG 
    CAGTCGGCAG ACGTTGAGAG TTTGCTAAGT GACAATGTGG AGCCATGGCC ACATCTCACG 
    GAGCTGCTTC AAAACTACAC CGCAGATTGG GTGAAGGATG AAAGCAAGTA TGGACACTAT 
    GAAAGCGTGC CAACCCCTGT ATTTGAAAAC CAGATATTTG AAGGACCTGA CACAGATGTA 
    GAGACAGAGC TGCGCCTTTC AAATATTAGA CTTGGAAGAT ATGGAGATGC CACAGACGAT 
    GAAGACCCAA CGACGTCAGG TAGATACTCT GGAGGATTAT GGTGTTCTCA GCGTCGTAAT 
    ATTGTGTCGT TTGTACAGCA CTACGGTGGG GCTCCGCTAC TCCCATATGA GCCCGTTTTT 
    AATTGGCTAG CAGCGAGGGC ATCTGTATAC GGGCAAAGGA CACCAGAGAT TCCGACAGCA 
    CTATCATCGA GTGGTGGGCT GAAGATTTCT GTGAAGATCG CATCTCTCAA TTTTCAGGCT 
    GGTCTTGTTG AGCCCTGGTA TGGTACAATA TGTCTTTATC ACCGGGAGAA GCGAGAAAAG 
    CTATCAGAGG ATTTCCACTT TCGATGCTTA CCACCAGAGT TTCAAGATGA GGCTAGTAAT 
    TACCCAAGAA AAGCCGTTTT CTCACTTGAA GCGCCATCAC CAGCGATCTG CTTGCTGGTG 
    CAGCTTGAGA AGCATGTTAC AGAAGAGGGG GGCATCACTC CTTCTATCTA CACGCGTAAA 
    GAACCTGTAC ATTTGACAGA AAGAGATAAG CAAAAACTGC AAGTATGGGC AAAGATGATA 
    CCATTTCGCG AACCATTCGC TTGGTCAATC CTTCCTCTAT TCGACGCAAT TGTAACTGGA 
    GGTGTAGGAG GCTTTTCGTC TCCAACGAAC AGCCCTTTGC CTCCAGGCGT TTTAGGATCT 
    GCTCTTATGG AAACATCCTT GGATTCAGAT GGTAGGCTGA TTGCCGACTC AAAGCCTGAA 
    TCTGTCAGTG TTCCAGTACT GGTTGACGTG CCAACCCTTC ATCGTGTAAA AGAAAATTAT 
    ACAGAGGAGA TGCTTCTGGA GCCAAAGCGT AAAGTGCAGA AGCCAGTGAA AGCAACTCTA 
    AGGCTTGAAA TTGAGAGGCT GGGCAGTGAT GATCATGAAA CGGACTGCAT CTCTGAGTGC 
    GGCAGTTTCA ATAATTACTC TTTTGATGCT GATTCTCATT CTCTAGGAGC ATCATTCTCA 
    GGGCGTTCTG CTCAAGGCCT AGAATCCACG AAGACGTTTC ACAATGGACA CCAGAAAAGT 
    AACTCTGGAC ATCGTGACCT ACAAGCAGGC ATTGGAAGTA GTCTTGATTT GCGACGATCA 
    GAGTTTCGTG CCGTTGAATT TCGACTGGGT CCGAAACCTG AGCCATTATC TCAGCTATTG 
    CATCTCCTCT ATGTGTATCC TCAATCTGTT ACGCTTAACC GAAAGCGGAA TCTTTTTATT 
    CGGCTGGAGC TTAGGGTGGA TGATGGTGAT ATTCGGAAGC CACCCCTTGA GGCTCTTTAC 
    CCTAGGGATG CAGACAGCTC AATGCAGAAG TACGTACACA CTCAAATTGA TGCTAATACA 
    AAGACGCCTC ATTTTCATGA CGAATTCAAA GTCCAACTTC CTACCAATCT GTCCCCGGAC 
    CACCACCTCC TTTTCACTTT CTTCCATGTG GAACTTCAGA CGAAACTAGA AGCACCAAAA 
    CCAGTGTGTA TCTATTTTTA CATTTTCTCC ACTGCTGGCA CTGTCGTTGT AGGATACGCG 
    GTTCTTCCGC TCTTATTCGC TTCTCAAGTT ATCCGGTTGG ACGGTACCCT GCCTATTGCG 
    AAGGAGTTGT ACCCAAACTA TTTAAAAGAT AATGTGAAGG ATCGATTGGA ATATCTTGAT 
    GATGGCAAAA CAGTCTTTAA ATTACGGTCC CGTCTGTGCT CGTCTCTTTA TCCTGTGAAT 
    GAAAGGATTA GGGATTTTTT CTCTGAATAT GACCGTCATA TTTTGCGGAC AAGTCCATGG 
    GGAAATGAAC TCATGGAGGC AGTTAATGCA TTGAAGAATG TCGAAGCATC TGCTATGCTT 
    CAGTTTCTTC AACCATGTCT GAATATGCTG CTTCGCATGA TTGGTGATGG AGGAGAAACG 
    TTGCAGGTTG CTGCATTTCG ATCAATGGTT AATATAATCA CAAGCAGGGT ACAAGGAGAA 
    ACATCAGATG GAGACGAACG CAACCGATAT CTTGTCCAGT ATTTGGACTA CGCATTTGAC 
    GATTTTGGTG GACGCCATGA TCCTGTGTAT CCTGGTCTCT GCAGTGTTTG GCGTAGTCTT 
    GCTCGCAGCA AGGCAAAAGG CTACAGAGTT GGACCTGTGT ATGATGACGT GCTGTCAATG 
    GCTTGGTTCT TCCTTGAGTT GATTGTGAAG TCCATGGCAC TTGAGCAATC TCGTACTTAC 
    AGTGAAACTC TGCCTCCAGG TGAAGAGTTG CCACCATTAC AGCTCAATGA TGAGGTCTTT 
    AAAAGCATTG GGCAGCTTTA TGATTGTCTG TTGACGGAGG TTCAGGAGAG AGGAAAGAAG 
    GGGTTGACTC TAGCCAACAA ACTCAACAGT AGTTTGGGTT TCTTTTGTTT CGATCTTCTC 
    TCTGTTATTG AACCACGGCA AGTCTTTGAA TTGGTTGCGC TTTACTTCAG CAAATTTTGT 
    GGAGTTTGTG AAACAACAAT TCATGAGTAC AAGCTCAATT TTCTTAGTAT CATCTGTGAT 
    CACGATTTAT TTGTTGAAAT GCCTGGCAGA GATCCTACCG AGAGGAATTA TTTGGCATCG 
    ATGTTGATGC AGGAGCTCTT CATCACTTGG GACCATGAGG ATCCAGCTTT AAAGGCCAAG 
    GCATGCCGAA TACTTGTACA ACTCCTTTGC AAGCATGAGT ACGACCTACG GTATCAATCA 
    CTCGATGACA AGTTGTATAT TGCTCAACGT TACTTCCCTT TAGTTGGTCT GATTTTGGAT 
    GAGATGCCAG TATTTTATGC CTTGAGCTCC TCAGAGAAGC GTGAAATCCT GGTGTGTGTG 
    CTCCATATTT TGCGCTATTT GGATGATGGC TCTCTTGTAA AGTCCTGGCA GCAAAATATT 
    GCTCGAACAA GGCTGTTTTT TAAGCTGCTG GAAGAATGCC AAGAACTGTT TGAGTACAAA 
    AAAGCAGGAG CTGATGGCTT GATGGGTGCA ATGCCTGTAA ATGAGCAAGG AAAAGGGACT 
    CTTTGTTATT CTGAGAAGCT TTCCCCTGCA GTTAATCATT TTCTTTCTGA AGCTTCACGA 
    CAAGATGTCA GAGTACGTCT AATTTCTCCT GGTCCTCAAT GGATATTTCC ACAGGTAAGT 
    CCAGACGCCA GCACATTCTG GAAGAGAGTA AGCCCGGTTT CAAACAGCCC AAGCAGCCCA 
    AATCAGCCTC ATTCTTTGCG CGAAGCTTTG GCGCAAGCTC AATCAGCAGG AAGAGGGGCA 
    GGGATGGCTC TCAAAGAGAG CTTACATCCA ATGCTGCGAC AGAAATTGGA CCTGTGGGAA 
    GAGAATCTCA GCGCTTCGGT AATGCTCCAA CTTCTCGAAA TTGTTGCGAA ATTTATGGAC 
    GCCGCATCAA GTCAAGCTAT TGCTACGGAT TATACCAAGC TTGATTGTAT CACAAGCATC 
    ATCAGTGGAT TTCTAGGACG CAGTCAGCCC CTGCCTTTTT GGAAAGCTTT CTTTCCTGTG 
    TTTAACAATT TGTTTAGTCA ATACGGGGCT ACTCTGATGA GCCGGGATAA TGATAGATTT 
    TTGAAACAAG TTGCGTTCCA TCTTCTGCGA CTCGGAGTTT TTCGGAATGA AAGCATTCGA 
    AAGCGAGCCG TTGTTGGTCT TCAAATTCTT ATTCGAACTG CCTTCCATTA TTTCCAAGGT 
    CTATCTCGTT TACGTGTGCT GCTCACCATC ACGCTATCAG AGCTTATGTC GGACGTTCAA 
    GTGACTCAAC ATCGAATGGA TGGATCCTTG GAGGAAAGTG GAGAATCACA GCGTCTTCGC 
    AGATCCCTGC GACAAATTGC CCAAGAAAAC ATTAGTACAG ATCTTCTTCG TGAAAGTGGA 
    CTTCCTGAAG GCACACTCTC AGCATTGCCA GATGGAGGAT GTGAGCAGAT CTGGAGCTGG 
    GCTGGTGTTC ATGAACTTTC CAACTCTCTG CTTAAAGCTG TTGAGGCTGC AGTTGGACAT 
    GCTCTCCTGG GCCCAGAAGT CATGACCGCT GACAAGTATG CGACTGCAGA GGCATACTAC 
    GGTTTGGCGA GGGCATACTC CAATGTACCT GACCTACACA TTATGTGGCT TCTTTATCTT 
    TGCGAAGTTC ATCAAGGAAA CCAATCTTAC GCAGAAGCTG CTCAATGTGC AGTTTCTGTT 
    GCAGGTGTTG TCATGCAGGC TATAGTAAGT AAAGGAGATC ACATGTGGGG CAAGGAGCAT 
    GTAGAGGCTC TGCGGAAAAT ATGCCCTATG CTCACCGGTG CTAGTTTTGG AGAAGCTGCC 
    AGTGCTGAAA TAGAGGGCTA TGGTTCATCA AAGCTCACTG TAGAATCAGC CGTGAAGTAT 
    CTTCAGCTTG CTAACAAACT TTTTGTTCAG GGAGAGCTTT TCCATTTCTG TGCTGAAATT 
    TTGGAGCTTA TCATCCCTGT TCATAAAGCA AGGCGCGCCT ACGGACAACT TTCGAAATGC 
    CACACTTCTC TGACCAGCAT TTATGAGGCC ATAGTAGAGC AGGAGTCTAG TCCGATCCCC 
    TTCTCAGATG CAACTTACTA TCGTGTGGGA TTTTATGGTG AAAGTTTTGG CAGTCTGAAT 
    GGCAAGGAGT ATGTCTACAG AGAGGCAAGA GATGTGCGAT TAGGGGATAT CATGAGGAAC 
    TTAGGTAACA TTTACGAACC TAGAGTTATC GAGGGAAAAC AGTCCTTGCA TATTATTCCT 
    GATTCTCGGC AAGTGAAACC TGAAGACCTT CATGCAGAGA TCTGCTACAT GCAAATTACA 
    TCTGTTGAGC CTGTTACTGA GGACGATATC TTGGAGAGTA GGCGAGATAG GCACTCTAGT 
    AAGTCGGTTA CAACAGTGAG TGCTCGGGTA TTCAATCGTT TCCTGTATGA TACTCCTTTC 
    ACGAAAAATG GCAAGTCACA AGGAGGTCTT GAGGATCAAT GGAAAAGACG TACTGTGCTA 
    TGGACAGAGG GATCCTTCCC TGCTCTTGTG AATCGCTTGA CAGTCGTTAA GTCGGAATCT 
    CGTGAATTTT CTCCAATTGA AAATGCAATA GGCATGATCG AAACCCGCAC AGCTGCATTA 
    GCAGGAGAAC TCGATGACAA TCGATTAAAT GAAGGTGACC ACCCGTCTCG GTTGCAAAGT 
    CTGCAGCGGA TATTGCAAGG GAGTGTTGCC GTGCAGGTAA ACAGTGGCGT GCTTGGGGTA 
    TGTGCTGCTT TCTTCTCTGG AGAACCTTCA ACAAGATTGA GCGCGCAGGA TCTGCAGGAA 
    CTCATGGCAG CACTCATGGA GTTCATGGCT GTGTGCAAGA AAGCATTACG AATTCATGCA 
    CGTCTCATAA CAGAAGAGGA TCAAGAATTC CATTCTCAAC TTGTGATTGG GTTTCAATCT 
    CTCACAGCGG AGCTGTCACA CTTCATTCCT GCTATTTTAT CTGGGTTCTG A

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

    RefSeq XP_001772062.1
    CDS1..5631
    Translation

    Target ORF information:

    RefSeq Version XM_001772010.1
    Organism Physcomitrella patens
    Definition Physcomitrella patens subsp. patens predicted protein (PHYPADRAFT_138336) mRNA, complete cds.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_001772010.1

    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
    ATGGGTGAGA TTGCCTTAAG TGGGCAGCGG TTTAGGCGTA TCCCACATCC TTACTCTGGG 
    CAGTCGGCAG ACGTTGAGAG TTTGCTAAGT GACAATGTGG AGCCATGGCC ACATCTCACG 
    GAGCTGCTTC AAAACTACAC CGCAGATTGG GTGAAGGATG AAAGCAAGTA TGGACACTAT 
    GAAAGCGTGC CAACCCCTGT ATTTGAAAAC CAGATATTTG AAGGACCTGA CACAGATGTA 
    GAGACAGAGC TGCGCCTTTC AAATATTAGA CTTGGAAGAT ATGGAGATGC CACAGACGAT 
    GAAGACCCAA CGACGTCAGG TAGATACTCT GGAGGATTAT GGTGTTCTCA GCGTCGTAAT 
    ATTGTGTCGT TTGTACAGCA CTACGGTGGG GCTCCGCTAC TCCCATATGA GCCCGTTTTT 
    AATTGGCTAG CAGCGAGGGC ATCTGTATAC GGGCAAAGGA CACCAGAGAT TCCGACAGCA 
    CTATCATCGA GTGGTGGGCT GAAGATTTCT GTGAAGATCG CATCTCTCAA TTTTCAGGCT 
    GGTCTTGTTG AGCCCTGGTA TGGTACAATA TGTCTTTATC ACCGGGAGAA GCGAGAAAAG 
    CTATCAGAGG ATTTCCACTT TCGATGCTTA CCACCAGAGT TTCAAGATGA GGCTAGTAAT 
    TACCCAAGAA AAGCCGTTTT CTCACTTGAA GCGCCATCAC CAGCGATCTG CTTGCTGGTG 
    CAGCTTGAGA AGCATGTTAC AGAAGAGGGG GGCATCACTC CTTCTATCTA CACGCGTAAA 
    GAACCTGTAC ATTTGACAGA AAGAGATAAG CAAAAACTGC AAGTATGGGC AAAGATGATA 
    CCATTTCGCG AACCATTCGC TTGGTCAATC CTTCCTCTAT TCGACGCAAT TGTAACTGGA 
    GGTGTAGGAG GCTTTTCGTC TCCAACGAAC AGCCCTTTGC CTCCAGGCGT TTTAGGATCT 
    GCTCTTATGG AAACATCCTT GGATTCAGAT GGTAGGCTGA TTGCCGACTC AAAGCCTGAA 
    TCTGTCAGTG TTCCAGTACT GGTTGACGTG CCAACCCTTC ATCGTGTAAA AGAAAATTAT 
    ACAGAGGAGA TGCTTCTGGA GCCAAAGCGT AAAGTGCAGA AGCCAGTGAA AGCAACTCTA 
    AGGCTTGAAA TTGAGAGGCT GGGCAGTGAT GATCATGAAA CGGACTGCAT CTCTGAGTGC 
    GGCAGTTTCA ATAATTACTC TTTTGATGCT GATTCTCATT CTCTAGGAGC ATCATTCTCA 
    GGGCGTTCTG CTCAAGGCCT AGAATCCACG AAGACGTTTC ACAATGGACA CCAGAAAAGT 
    AACTCTGGAC ATCGTGACCT ACAAGCAGGC ATTGGAAGTA GTCTTGATTT GCGACGATCA 
    GAGTTTCGTG CCGTTGAATT TCGACTGGGT CCGAAACCTG AGCCATTATC TCAGCTATTG 
    CATCTCCTCT ATGTGTATCC TCAATCTGTT ACGCTTAACC GAAAGCGGAA TCTTTTTATT 
    CGGCTGGAGC TTAGGGTGGA TGATGGTGAT ATTCGGAAGC CACCCCTTGA GGCTCTTTAC 
    CCTAGGGATG CAGACAGCTC AATGCAGAAG TACGTACACA CTCAAATTGA TGCTAATACA 
    AAGACGCCTC ATTTTCATGA CGAATTCAAA GTCCAACTTC CTACCAATCT GTCCCCGGAC 
    CACCACCTCC TTTTCACTTT CTTCCATGTG GAACTTCAGA CGAAACTAGA AGCACCAAAA 
    CCAGTGTGTA TCTATTTTTA CATTTTCTCC ACTGCTGGCA CTGTCGTTGT AGGATACGCG 
    GTTCTTCCGC TCTTATTCGC TTCTCAAGTT ATCCGGTTGG ACGGTACCCT GCCTATTGCG 
    AAGGAGTTGT ACCCAAACTA TTTAAAAGAT AATGTGAAGG ATCGATTGGA ATATCTTGAT 
    GATGGCAAAA CAGTCTTTAA ATTACGGTCC CGTCTGTGCT CGTCTCTTTA TCCTGTGAAT 
    GAAAGGATTA GGGATTTTTT CTCTGAATAT GACCGTCATA TTTTGCGGAC AAGTCCATGG 
    GGAAATGAAC TCATGGAGGC AGTTAATGCA TTGAAGAATG TCGAAGCATC TGCTATGCTT 
    CAGTTTCTTC AACCATGTCT GAATATGCTG CTTCGCATGA TTGGTGATGG AGGAGAAACG 
    TTGCAGGTTG CTGCATTTCG ATCAATGGTT AATATAATCA CAAGCAGGGT ACAAGGAGAA 
    ACATCAGATG GAGACGAACG CAACCGATAT CTTGTCCAGT ATTTGGACTA CGCATTTGAC 
    GATTTTGGTG GACGCCATGA TCCTGTGTAT CCTGGTCTCT GCAGTGTTTG GCGTAGTCTT 
    GCTCGCAGCA AGGCAAAAGG CTACAGAGTT GGACCTGTGT ATGATGACGT GCTGTCAATG 
    GCTTGGTTCT TCCTTGAGTT GATTGTGAAG TCCATGGCAC TTGAGCAATC TCGTACTTAC 
    AGTGAAACTC TGCCTCCAGG TGAAGAGTTG CCACCATTAC AGCTCAATGA TGAGGTCTTT 
    AAAAGCATTG GGCAGCTTTA TGATTGTCTG TTGACGGAGG TTCAGGAGAG AGGAAAGAAG 
    GGGTTGACTC TAGCCAACAA ACTCAACAGT AGTTTGGGTT TCTTTTGTTT CGATCTTCTC 
    TCTGTTATTG AACCACGGCA AGTCTTTGAA TTGGTTGCGC TTTACTTCAG CAAATTTTGT 
    GGAGTTTGTG AAACAACAAT TCATGAGTAC AAGCTCAATT TTCTTAGTAT CATCTGTGAT 
    CACGATTTAT TTGTTGAAAT GCCTGGCAGA GATCCTACCG AGAGGAATTA TTTGGCATCG 
    ATGTTGATGC AGGAGCTCTT CATCACTTGG GACCATGAGG ATCCAGCTTT AAAGGCCAAG 
    GCATGCCGAA TACTTGTACA ACTCCTTTGC AAGCATGAGT ACGACCTACG GTATCAATCA 
    CTCGATGACA AGTTGTATAT TGCTCAACGT TACTTCCCTT TAGTTGGTCT GATTTTGGAT 
    GAGATGCCAG TATTTTATGC CTTGAGCTCC TCAGAGAAGC GTGAAATCCT GGTGTGTGTG 
    CTCCATATTT TGCGCTATTT GGATGATGGC TCTCTTGTAA AGTCCTGGCA GCAAAATATT 
    GCTCGAACAA GGCTGTTTTT TAAGCTGCTG GAAGAATGCC AAGAACTGTT TGAGTACAAA 
    AAAGCAGGAG CTGATGGCTT GATGGGTGCA ATGCCTGTAA ATGAGCAAGG AAAAGGGACT 
    CTTTGTTATT CTGAGAAGCT TTCCCCTGCA GTTAATCATT TTCTTTCTGA AGCTTCACGA 
    CAAGATGTCA GAGTACGTCT AATTTCTCCT GGTCCTCAAT GGATATTTCC ACAGGTAAGT 
    CCAGACGCCA GCACATTCTG GAAGAGAGTA AGCCCGGTTT CAAACAGCCC AAGCAGCCCA 
    AATCAGCCTC ATTCTTTGCG CGAAGCTTTG GCGCAAGCTC AATCAGCAGG AAGAGGGGCA 
    GGGATGGCTC TCAAAGAGAG CTTACATCCA ATGCTGCGAC AGAAATTGGA CCTGTGGGAA 
    GAGAATCTCA GCGCTTCGGT AATGCTCCAA CTTCTCGAAA TTGTTGCGAA ATTTATGGAC 
    GCCGCATCAA GTCAAGCTAT TGCTACGGAT TATACCAAGC TTGATTGTAT CACAAGCATC 
    ATCAGTGGAT TTCTAGGACG CAGTCAGCCC CTGCCTTTTT GGAAAGCTTT CTTTCCTGTG 
    TTTAACAATT TGTTTAGTCA ATACGGGGCT ACTCTGATGA GCCGGGATAA TGATAGATTT 
    TTGAAACAAG TTGCGTTCCA TCTTCTGCGA CTCGGAGTTT TTCGGAATGA AAGCATTCGA 
    AAGCGAGCCG TTGTTGGTCT TCAAATTCTT ATTCGAACTG CCTTCCATTA TTTCCAAGGT 
    CTATCTCGTT TACGTGTGCT GCTCACCATC ACGCTATCAG AGCTTATGTC GGACGTTCAA 
    GTGACTCAAC ATCGAATGGA TGGATCCTTG GAGGAAAGTG GAGAATCACA GCGTCTTCGC 
    AGATCCCTGC GACAAATTGC CCAAGAAAAC ATTAGTACAG ATCTTCTTCG TGAAAGTGGA 
    CTTCCTGAAG GCACACTCTC AGCATTGCCA GATGGAGGAT GTGAGCAGAT CTGGAGCTGG 
    GCTGGTGTTC ATGAACTTTC CAACTCTCTG CTTAAAGCTG TTGAGGCTGC AGTTGGACAT 
    GCTCTCCTGG GCCCAGAAGT CATGACCGCT GACAAGTATG CGACTGCAGA GGCATACTAC 
    GGTTTGGCGA GGGCATACTC CAATGTACCT GACCTACACA TTATGTGGCT TCTTTATCTT 
    TGCGAAGTTC ATCAAGGAAA CCAATCTTAC GCAGAAGCTG CTCAATGTGC AGTTTCTGTT 
    GCAGGTGTTG TCATGCAGGC TATAGTAAGT AAAGGAGATC ACATGTGGGG CAAGGAGCAT 
    GTAGAGGCTC TGCGGAAAAT ATGCCCTATG CTCACCGGTG CTAGTTTTGG AGAAGCTGCC 
    AGTGCTGAAA TAGAGGGCTA TGGTTCATCA AAGCTCACTG TAGAATCAGC CGTGAAGTAT 
    CTTCAGCTTG CTAACAAACT TTTTGTTCAG GGAGAGCTTT TCCATTTCTG TGCTGAAATT 
    TTGGAGCTTA TCATCCCTGT TCATAAAGCA AGGCGCGCCT ACGGACAACT TTCGAAATGC 
    CACACTTCTC TGACCAGCAT TTATGAGGCC ATAGTAGAGC AGGAGTCTAG TCCGATCCCC 
    TTCTCAGATG CAACTTACTA TCGTGTGGGA TTTTATGGTG AAAGTTTTGG CAGTCTGAAT 
    GGCAAGGAGT ATGTCTACAG AGAGGCAAGA GATGTGCGAT TAGGGGATAT CATGAGGAAC 
    TTAGGTAACA TTTACGAACC TAGAGTTATC GAGGGAAAAC AGTCCTTGCA TATTATTCCT 
    GATTCTCGGC AAGTGAAACC TGAAGACCTT CATGCAGAGA TCTGCTACAT GCAAATTACA 
    TCTGTTGAGC CTGTTACTGA GGACGATATC TTGGAGAGTA GGCGAGATAG GCACTCTAGT 
    AAGTCGGTTA CAACAGTGAG TGCTCGGGTA TTCAATCGTT TCCTGTATGA TACTCCTTTC 
    ACGAAAAATG GCAAGTCACA AGGAGGTCTT GAGGATCAAT GGAAAAGACG TACTGTGCTA 
    TGGACAGAGG GATCCTTCCC TGCTCTTGTG AATCGCTTGA CAGTCGTTAA GTCGGAATCT 
    CGTGAATTTT CTCCAATTGA AAATGCAATA GGCATGATCG AAACCCGCAC AGCTGCATTA 
    GCAGGAGAAC TCGATGACAA TCGATTAAAT GAAGGTGACC ACCCGTCTCG GTTGCAAAGT 
    CTGCAGCGGA TATTGCAAGG GAGTGTTGCC GTGCAGGTAA ACAGTGGCGT GCTTGGGGTA 
    TGTGCTGCTT TCTTCTCTGG AGAACCTTCA ACAAGATTGA GCGCGCAGGA TCTGCAGGAA 
    CTCATGGCAG CACTCATGGA GTTCATGGCT GTGTGCAAGA AAGCATTACG AATTCATGCA 
    CGTCTCATAA CAGAAGAGGA TCAAGAATTC CATTCTCAAC TTGTGATTGG GTTTCAATCT 
    CTCACAGCGG AGCTGTCACA CTTCATTCCT GCTATTTTAT CTGGGTTCTG A

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

  • PubMed

    The Physcomitrella genome reveals evolutionary insights into the conquest of land by plants.
    Science (New York, N.Y.)319(5859)64-9(2008 Jan)
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