ORF » Species Summary » Micromonas commoda » MICPUN_58926 cDNA ORF clone

MICPUN_58926 cDNA ORF clone, Micromonas commoda

The following MICPUN_58926 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the MICPUN_58926 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
OMg03051 XM_002502262.1
Latest version!		 Micromonas commoda predicted protein partial mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $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)
    MICPUN_58926 ( XM_002502262.1 ) cDNA ORF clone, Micromonas commoda -> XP_002502308.1 Micromonas commoda predicted protein partial mRNA.
    Price & Availability↑
    CloneID OMg03051
    Clone ID Related Accession (Same CDS sequence) XM_002502262.1
    Accession Version XM_002502262.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6465bp)
    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 2017-06-22
    Organism Micromonas commoda
    Product predicted 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 (NC_013042). 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
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    ATGTGGACGC ACGGCCGGGG CGGTCACCCG GCGCTTCCGG CTCTGGCCCG TGTTGCCTTA 
    ACCTTGTCTT CAGACGCTTA CGGTTATTAC ATTCACTGCA ATGAAACTTT TTTCCCTAAA 
    GGAAAACTAA TTTCCTTGGA GTTATCTTGT CTATTTGCGC ATACGACGAG AGCCTGCTCC 
    TTGGGCATGA CCGCACCTCC CGGAGTGCAC GTTCGGCTCG GGACCGCACT CCGAGGTCCG 
    ACTCCCGAGG AGGTCGAATC CTTGGACGCG GTACGCGAAG AGGCGACGCG CAGGTACGTC 
    GCTCGACTCG CGCCCAAGTC TGGGGAGCCC ACGCACGGTA ATCGCGACAT ACCGGACGAT 
    GGCGTGGGGC AAGGGGAAGA AGACGGCCGC GTCGCGGCCG CGAAGGGCCG CGACGCGAAG 
    ATAGAGAAGA GCGGACCCGC CGGAGGGAAG GCATCCTCGG GAAACGGGGC GCTGACCAAG 
    CGTTTCGACT CGCTCAAGAT TGGGGGGCAA GCCCGACGGG GCAAAAACGG GAGGTCCGGC 
    TCGGCGCACG ACAAACCCGA GCGAGGCCAC GACGCGGGCG CGGGCGCGGA CTCCGGCACG 
    GCGCCATCCA AGGTGAGCGT CGGGACTCTC AACGCGGAGG TGCGCCGCGC CGCTCGCGCG 
    TACATAGAGC GTCGTGAATC GGAGTTTTGG ATCGAGGCTA AAACTCGCGA GGCTGGTGCT 
    GTTGAACGCA GCGCGCAGAG GGTCTTGAAC AACGAGTTAC TCGAGGCTCG GCTGCGCGCC 
    TGGCCGCTGG CCCGCGTACT CGGGGAGGTG GAGTCGGCTT ACAGGGCTGC GTTGAGCGAG 
    CGCGAGGAAA ACTGGCGACG CGGTGTAAGG AACGCGCCCA GGCCCAACTC AGCGCCCCAA 
    CCAGAGCCGG ATCTGAACCC CGCGGTGGAC GCACGGAGGG ACGTTAGCTT TGCCGATCCC 
    GAAGCGATCG AGCCGGCGGA GGAACGCGAG GCCGATCCTG AAGCCGCGCC AGAGCCAGAG 
    GCTGACGCAG AGGCTGACGC AGAGGCTGAC GCAGAGGCTG ACGCAGAGGC TGACGCAGAG 
    GCTGACGCAG AGGCTGACGC AGAGGCTGAC GCAGAGGCTG ACGCAGAGGC TGACGCAGAG 
    GCTGACGCAG ACGCCGAACC GGGGATGGAA GCAGAGGTAA CGCCCGAGGG TGAAGCCAAG 
    GTTGAGTCCG ACGCAGAGGC GCAGAGTGAG GCGGAACCCG ATTCTGATGC AGAAGCTGAA 
    GCCGAATCCA AGCCAGAGCC CGACGCAGAA GCTGAAACCG AATCCAAGCC AGAGCCCGAC 
    GCAGAACCCG ATGTAGAGGC CCAGGCTGAA TCCGAATCTG ATGCCGATGT TGAGCCTAAG 
    ACAGTTGCCG ATGCAGAGCG TTTCGAAGCT CCCTCGGGAG ACATTGCGTT GGGGTCTGAG 
    TTTGAGTCGA TCCTTGATCC ACAACCCGAG CCCGTGGAAC CCTCGCTCAA AACCTCAGAA 
    GAGGAATTAC CGGAGGGTGT CGAACATCGC TTCATCGATG ACGACGACCT CGACCTCGAG 
    AACATTGATC AACTCATCTT TGAGACGGCG CGCTCGCTCG CTCGAGCGAG GCTGAGCCGC 
    GGCTCCAAGA AGGTAACCTT CCGCGGCGAC GATAGCCGGG AGTCACGCAT CAGGGCGTCC 
    ATCACAAAGC AGTATATCAA GACGATTCAG GCGGGCGTGG GGTACACCGG TGACGCAGTG 
    GACACCAAAA ACCACCGCAA GTCTGACCTT GAGATGCAGG GTCTCTTTGA CAAGTGGGAC 
    ACTGCGACGC GCAGGTCGCA CGACCGGGAC GGTGTTGGAT GGGACGCAAT CAAAAACAGG 
    GGCATAGTGG AATCCAAGAA GAAGATTGCA CATCGATCAT CCGCTTCAAG CGATGATACC 
    AATGGTGACG GCTGTGTCAA TCGAGAAGTC ACGGACGTGT ACGCGGAAAG TTGCAAGGAG 
    CGCCGGTGCA TTCCCAACAC CCGAGCGTCA CAAGGTTTGC AGATGCGCGA GTGCAATCTG 
    TGTCATGCGG GTCTGGGTGA TGATGGCGTC GCGGCACTTT CATTGGCGTT GCAGATGTGT 
    ACTTCTGTGA TTAGCCTCGA CCTGAGGGAC AACAAGCTCG GATCAGAGGG TTTCAGGGCA 
    GTCGCGCACG GACTGTCGAA GAATCCACAC GTGAAGATTT TAAACCTGTC AAACAACCCT 
    GGACCCGGTC GCGACGGGGT CGCGGCTATC GGGCGGGTGC TTGACCCTTC TTTCCTGGCT 
    CAGCCCGCCG TCGTGGAACT GCGCCTCGCT AACTGCAACC TTTCAGACGC CGAGGGCGCG 
    ATGCTGCTGC ATGCGATGAG GAGTAATGAC AGCGTCCGCG TCCTGGACCT GTCCAACAAC 
    AATCTTGGTC TGCAGACATC GAGAGCTATG CGTGCCTTTG TCGAGGATAA TCACACGTGT 
    GCTTACTTCG ACTTGAGCGG CAACAGTTTT AACGCCGAGT GCGCGGGCGA GATCTCGAGT 
    GCCCTTTCAC TGAGCCGCAG TCTGTCGTAT CTGTCCTTGG CTGCAAACGG TATTGGCGAT 
    GTCGGGGCTT CTCGCATCGC AGATATGATC GCCAAAAACA AATCCATTGA AGATATTGAC 
    CTGAGTTCTA TACGTATGGG ACCGGTGGGC GCTGCTGAGA TTGCTAAAGC GCTCGAGGGA 
    CAAAACGTGC ATCCCATGCG ACACGTATAC CTCGATAACA ACCCCATGGG CGCCGAGATT 
    AGCCAGAGGC TTCTGTCGCT TTCACGACGG GCAGCCGGAG TCACGGTATC GGATGACAAT 
    GTGGCTGGGG AGAATGCGGA TCGGTTCCAA GTTGAAACCG TGACGCTCAC TGGGGTCACG 
    CTCGAGTCGC TGGAGTCCCG ACTGGTCGCA GGATTGAAGC GACGCGACGA GGAAAACAAA 
    GCGGCGGTTG CCGCTGCCGG GAAAAAGCCA AAGAAGGGCA AGGGGAAGAA GGAAGGAGGC 
    AAAAACGCAA AGAACGCGGA CGCGACAGGG CTGATTCTCG AGAGCAAGTT TGCTGCGAGC 
    GGCTACGGCG CATTCGATCC CGAGCGGCCG GATGGGCGCT ACCGGCTGGA CCTCGCCAAT 
    CCAATTGACC TTGACGTGGC GACCAAGCTG TGGACGATGG AACGGGACAC CGACGCTGCC 
    GCATCTTCGC AATCAACGCA GAGCCACCGA AGGCAGCGCA TCGTCAACGT GAAATACCAG 
    GGCGACTGCA TGAGGGATGA TCCGTTGGCC ATCGGCTGGC CGGACCACAT GCCCGCACAC 
    GGCATCCTCG AGATGGACTA TGTCACCCAC GAGGGCGCGC CCGCTGGGTC TGAGCTCGTC 
    TCCGCCGATG ACTTTGAGGG CCTTCGCAGG CGGGTCGCTC ACCCGCTGGC CTCGCCGGAG 
    GAGCGCCTTC GCATAATTCA GGACGTGGTG TGTCGCAACT TTTTCCTGCG ACCCACCGAC 
    GCAGAGGCTC TGCTCTGGGA GATGGAGAGT GGAGCAGAGC GCGTCGAGGC ACTCGCAGCT 
    ATGCTTCCGC GAATCCTGTT TGACTCTCCT GGAGACGATG TTCGTCGCAT GCTGCGGGGA 
    CTGACGCAGT CCGAACAGAT CAGGTTCATG CGCCGCGTTG GAACAGCGGG CGCGCATTAC 
    TCTGGACCCT TCAGTGATAT AAATCCCACC GGACACTACG AGCTCGATTT AGGGATTGCC 
    GCGCAACGCG CAATAGTTGT GAAACTTGCG GAGGTCAGTT TGAAAACTCA GGGTGAAGAC 
    GGTGGGGCTG ATGCAGTGGG GTCGTCCTCA ATTCCGAACT GGCGAAACGT AGCTTATGAC 
    GACGTGTCCG TGGCTGTGGC GTGTTCCCTG CCTGAGATTC CAGGCTCATC GGGTCCTTGG 
    ATCAAGCCCG CGCGGGACGT GCCTAAATCA GGCATCATTC GGTTCGATTA CGTTGCGACC 
    AAAAAGTCAT ACCGTCATCC AAAGACCAAC GAATACATCG ACGGCGACGC GCGACTGACC 
    TCGGATGAGG TCGAGCGGCT TCGCGACGAG CTCGCGCTCG AGGTGGGCCG TGGAAACCGG 
    GCCGGTTACG TCGGCAGAGG AGGGATCGGC GGCGGGGACA CCATGTGCGA TTTTAGGGCG 
    GTCATCGCCC ATCGAACAAC GACGTGCGCA GAGGCGGCGA TGATAGTCAG TCGCATAAAT 
    TGTGCCGAGA CAAGATGCGA GGCGGCCGTC GCGCTGTACG GTGTGTGCGT TGACGTCGAC 
    GAGGAAGAGT GGTGGCGAGT TGTGGCGCAG CTGGGTGGGG CAGAGCAAGC AAGGGTTTGT 
    GCTAGGCTCG GTGTCTGGCC AAAGGCTCCT TCTTCCCTGT CCAGATGTGT GCCGGAGGCA 
    CCGGAAGAAC CCGAACTGGA GCCTGACCCA GAACCAGAGC CCGAACCGCA GGCAGAGTCA 
    GGTCCTGACG CTAGCGCGGT GGAGGCTTCA GGGGAAATAG AGGGAAGCGC CGACGCTGAG 
    CTCGAGGAGT TTGAAGCGCT GGAGAAGGCC GCCGCCGAGG AGGCCGCCGC CGAGGTCAAC 
    GGCGTACCCG CAGTCGCAAC CGATGTCGCC GACGAGGTGC AAAACGACAT CGCACAGGAC 
    GATGCGCCTG CAGAAAATCC AGAAACCGCG GGGGAGGGTG CCGATCCCGC CGAGGGAGAG 
    CCACCTGCTG AAGACGATGC GGCGGGGGCG GAGGAGGATG AAGAGGAAGA CGATGACTCA 
    GATGCCGATT CCGAGCCCGA GCCAGAACCC GAGCCCGATC CCGAGCCCGA GCCTGAGGAT 
    GACCCACCCG TGATGCGTTC GATGTCCATG CGCTACTCCC TGGACCTCTC CGATGAAGCG 
    CAGCGCGACA TTCTTCGCGC TGCCTGCGAG CAAGCCGCGA ACGGAGAGAT TCCGTGGCGG 
    TGCTTTCGCA ACCTTCGCGT CAACGGCGCG CGGACCGACG CCGTCAAGCT CATCGAAGAG 
    CGAAAACTCA AACGTGCAAA GAAACGAAGA GCGTCCGACG ATCCTGCCGA CCTGGAGACA 
    GTCGCTCCAA ATGAGCTTTT TGAAGCCATC ACGGTTGACA CCGCCGCGGC GATTGTTGAT 
    TTCGATTTTT TCGGCGCAGA CGTTTGGGAC CGGGTCAACG TCGAGCCAAT GTCCGGCGAC 
    TGGGTCGGAG ATCGGAGCGA GCAACACTGG GTGCTCGATC ATGGCTATCT CGACGGCTAC 
    GAGCTCAGGC TCGAGGCTGA GCGAGTACGT TGTGGGCATC CGTACCATCT ATGGCTGCTC 
    CTGAATGATT CGGTTGAGGG ACGCGTGACG CGATCGGCAT GGACAGCGCC GGATGGACGC 
    CTGCGAGCCG TCGAAACCTC CGTGACGGGT CAACTCCTCG CGGATACCGC AAGCCTGGCG 
    TTCCAGAAAG ACTGGGACAG ATCGATGCTC GCTGCAGCAC GACGGGAGAG ATCCGCCGCC 
    GCGAAGGATT TGGCTTCTGA CTTTGACTGC CCGCTCCGCC AGTACTGGCG GGCACTCGGG 
    CCGGACGTAG AGGGACAACC GGGAAACAGG AAGGTTTCGA CCGCAAAGAC CGCGATGGGA 
    GAACTTTCTC TCGCCACCGG TGGAGTCTAT CCAACCGAAG AGCGGGTCTT ATCCTGCTGT 
    GCCCTCACGG AGGAATCGGC TGCGGCTCGG GCAAAATTCC AGTCTTCGCT TGACGAGTGG 
    ATGGCGAGAC ATCCGGATGA AACCCCGGAA CCGGTGTCCG ACAAACGCGT CGCGGATGCA 
    AACAAAGCTG GGAAATCTGA CGGCGCCACG GGGGAGACGG ACGATCCGGC GCCGACGATG 
    CCCGCGGTTG AGCGGATGCT GACATGGCGA GCTTTTGAAG CGCTATTCAT GACGATGGAC 
    TTTTCACCCG AGCCGTGTTC AAGCCGCTTT GAGCCCCCGG AGGATGCCCC GTGGTGGTTC 
    GAGCCTGAAC CTGCACCCCA GTCCGAACCC GGGCAAAACG AAGATGCCGA ACCAGGTCCG 
    GAGCCGGCGG CGACTCCGAA GAAGGGTGGT AAGGGTGGCA AGAAGGGCGA CAGGGCTCCA 
    AACGAAATTC CCCCGCCGCC GCCGGAGCCA GACACCCCCG TCCCTGAGAC ACCCGCCGGC 
    GAAGGCGGCG AAGCTGACGC GGCGCAGGAG GCATCGGACG CCGGGGACGC ACGAAAACCG 
    TGGCCGGCAC CAGCGACGAC GATGCCGCGG ATGCCGTGCT CGGGAGTGCC GACGATTGAC 
    GCCGCGCTCA CGTCGGAGCT TCTCGAGCAA TATCCGTCGG AGCCGCCCGA GGCGAAGCCG 
    ATTGACGCGG GGACTGTCGC GCGGAACGGG GACAGGACGG CGGCTGGATA CTGGGATGGA 
    GACGATATGG TCGCCGCCGC GGCGGGCATC GCACCACCTC ACGACCCGCC GAGTGCAGAC 
    GACGACACAG CAGAGGATCC GATTGGTGAG GCAAAGAGAA AGTGA

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

    RefSeq XP_002502308.1
    CDS1..6465
    Translation

    Target ORF information:

    RefSeq Version XM_002502262.1
    Organism Micromonas commoda
    Definition Micromonas commoda predicted protein partial mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_002502262.1

    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
    6241
    6301
    6361
    6421
    ATGTGGACGC ACGGCCGGGG CGGTCACCCG GCGCTTCCGG CTCTGGCCCG TGTTGCCTTA 
    ACCTTGTCTT CAGACGCTTA CGGTTATTAC ATTCACTGCA ATGAAACTTT TTTCCCTAAA 
    GGAAAACTAA TTTCCTTGGA GTTATCTTGT CTATTTGCGC ATACGACGAG AGCCTGCTCC 
    TTGGGCATGA CCGCACCTCC CGGAGTGCAC GTTCGGCTCG GGACCGCACT CCGAGGTCCG 
    ACTCCCGAGG AGGTCGAATC CTTGGACGCG GTACGCGAAG AGGCGACGCG CAGGTACGTC 
    GCTCGACTCG CGCCCAAGTC TGGGGAGCCC ACGCACGGTA ATCGCGACAT ACCGGACGAT 
    GGCGTGGGGC AAGGGGAAGA AGACGGCCGC GTCGCGGCCG CGAAGGGCCG CGACGCGAAG 
    ATAGAGAAGA GCGGACCCGC CGGAGGGAAG GCATCCTCGG GAAACGGGGC GCTGACCAAG 
    CGTTTCGACT CGCTCAAGAT TGGGGGGCAA GCCCGACGGG GCAAAAACGG GAGGTCCGGC 
    TCGGCGCACG ACAAACCCGA GCGAGGCCAC GACGCGGGCG CGGGCGCGGA CTCCGGCACG 
    GCGCCATCCA AGGTGAGCGT CGGGACTCTC AACGCGGAGG TGCGCCGCGC CGCTCGCGCG 
    TACATAGAGC GTCGTGAATC GGAGTTTTGG ATCGAGGCTA AAACTCGCGA GGCTGGTGCT 
    GTTGAACGCA GCGCGCAGAG GGTCTTGAAC AACGAGTTAC TCGAGGCTCG GCTGCGCGCC 
    TGGCCGCTGG CCCGCGTACT CGGGGAGGTG GAGTCGGCTT ACAGGGCTGC GTTGAGCGAG 
    CGCGAGGAAA ACTGGCGACG CGGTGTAAGG AACGCGCCCA GGCCCAACTC AGCGCCCCAA 
    CCAGAGCCGG ATCTGAACCC CGCGGTGGAC GCACGGAGGG ACGTTAGCTT TGCCGATCCC 
    GAAGCGATCG AGCCGGCGGA GGAACGCGAG GCCGATCCTG AAGCCGCGCC AGAGCCAGAG 
    GCTGACGCAG AGGCTGACGC AGAGGCTGAC GCAGAGGCTG ACGCAGAGGC TGACGCAGAG 
    GCTGACGCAG AGGCTGACGC AGAGGCTGAC GCAGAGGCTG ACGCAGAGGC TGACGCAGAG 
    GCTGACGCAG ACGCCGAACC GGGGATGGAA GCAGAGGTAA CGCCCGAGGG TGAAGCCAAG 
    GTTGAGTCCG ACGCAGAGGC GCAGAGTGAG GCGGAACCCG ATTCTGATGC AGAAGCTGAA 
    GCCGAATCCA AGCCAGAGCC CGACGCAGAA GCTGAAACCG AATCCAAGCC AGAGCCCGAC 
    GCAGAACCCG ATGTAGAGGC CCAGGCTGAA TCCGAATCTG ATGCCGATGT TGAGCCTAAG 
    ACAGTTGCCG ATGCAGAGCG TTTCGAAGCT CCCTCGGGAG ACATTGCGTT GGGGTCTGAG 
    TTTGAGTCGA TCCTTGATCC ACAACCCGAG CCCGTGGAAC CCTCGCTCAA AACCTCAGAA 
    GAGGAATTAC CGGAGGGTGT CGAACATCGC TTCATCGATG ACGACGACCT CGACCTCGAG 
    AACATTGATC AACTCATCTT TGAGACGGCG CGCTCGCTCG CTCGAGCGAG GCTGAGCCGC 
    GGCTCCAAGA AGGTAACCTT CCGCGGCGAC GATAGCCGGG AGTCACGCAT CAGGGCGTCC 
    ATCACAAAGC AGTATATCAA GACGATTCAG GCGGGCGTGG GGTACACCGG TGACGCAGTG 
    GACACCAAAA ACCACCGCAA GTCTGACCTT GAGATGCAGG GTCTCTTTGA CAAGTGGGAC 
    ACTGCGACGC GCAGGTCGCA CGACCGGGAC GGTGTTGGAT GGGACGCAAT CAAAAACAGG 
    GGCATAGTGG AATCCAAGAA GAAGATTGCA CATCGATCAT CCGCTTCAAG CGATGATACC 
    AATGGTGACG GCTGTGTCAA TCGAGAAGTC ACGGACGTGT ACGCGGAAAG TTGCAAGGAG 
    CGCCGGTGCA TTCCCAACAC CCGAGCGTCA CAAGGTTTGC AGATGCGCGA GTGCAATCTG 
    TGTCATGCGG GTCTGGGTGA TGATGGCGTC GCGGCACTTT CATTGGCGTT GCAGATGTGT 
    ACTTCTGTGA TTAGCCTCGA CCTGAGGGAC AACAAGCTCG GATCAGAGGG TTTCAGGGCA 
    GTCGCGCACG GACTGTCGAA GAATCCACAC GTGAAGATTT TAAACCTGTC AAACAACCCT 
    GGACCCGGTC GCGACGGGGT CGCGGCTATC GGGCGGGTGC TTGACCCTTC TTTCCTGGCT 
    CAGCCCGCCG TCGTGGAACT GCGCCTCGCT AACTGCAACC TTTCAGACGC CGAGGGCGCG 
    ATGCTGCTGC ATGCGATGAG GAGTAATGAC AGCGTCCGCG TCCTGGACCT GTCCAACAAC 
    AATCTTGGTC TGCAGACATC GAGAGCTATG CGTGCCTTTG TCGAGGATAA TCACACGTGT 
    GCTTACTTCG ACTTGAGCGG CAACAGTTTT AACGCCGAGT GCGCGGGCGA GATCTCGAGT 
    GCCCTTTCAC TGAGCCGCAG TCTGTCGTAT CTGTCCTTGG CTGCAAACGG TATTGGCGAT 
    GTCGGGGCTT CTCGCATCGC AGATATGATC GCCAAAAACA AATCCATTGA AGATATTGAC 
    CTGAGTTCTA TACGTATGGG ACCGGTGGGC GCTGCTGAGA TTGCTAAAGC GCTCGAGGGA 
    CAAAACGTGC ATCCCATGCG ACACGTATAC CTCGATAACA ACCCCATGGG CGCCGAGATT 
    AGCCAGAGGC TTCTGTCGCT TTCACGACGG GCAGCCGGAG TCACGGTATC GGATGACAAT 
    GTGGCTGGGG AGAATGCGGA TCGGTTCCAA GTTGAAACCG TGACGCTCAC TGGGGTCACG 
    CTCGAGTCGC TGGAGTCCCG ACTGGTCGCA GGATTGAAGC GACGCGACGA GGAAAACAAA 
    GCGGCGGTTG CCGCTGCCGG GAAAAAGCCA AAGAAGGGCA AGGGGAAGAA GGAAGGAGGC 
    AAAAACGCAA AGAACGCGGA CGCGACAGGG CTGATTCTCG AGAGCAAGTT TGCTGCGAGC 
    GGCTACGGCG CATTCGATCC CGAGCGGCCG GATGGGCGCT ACCGGCTGGA CCTCGCCAAT 
    CCAATTGACC TTGACGTGGC GACCAAGCTG TGGACGATGG AACGGGACAC CGACGCTGCC 
    GCATCTTCGC AATCAACGCA GAGCCACCGA AGGCAGCGCA TCGTCAACGT GAAATACCAG 
    GGCGACTGCA TGAGGGATGA TCCGTTGGCC ATCGGCTGGC CGGACCACAT GCCCGCACAC 
    GGCATCCTCG AGATGGACTA TGTCACCCAC GAGGGCGCGC CCGCTGGGTC TGAGCTCGTC 
    TCCGCCGATG ACTTTGAGGG CCTTCGCAGG CGGGTCGCTC ACCCGCTGGC CTCGCCGGAG 
    GAGCGCCTTC GCATAATTCA GGACGTGGTG TGTCGCAACT TTTTCCTGCG ACCCACCGAC 
    GCAGAGGCTC TGCTCTGGGA GATGGAGAGT GGAGCAGAGC GCGTCGAGGC ACTCGCAGCT 
    ATGCTTCCGC GAATCCTGTT TGACTCTCCT GGAGACGATG TTCGTCGCAT GCTGCGGGGA 
    CTGACGCAGT CCGAACAGAT CAGGTTCATG CGCCGCGTTG GAACAGCGGG CGCGCATTAC 
    TCTGGACCCT TCAGTGATAT AAATCCCACC GGACACTACG AGCTCGATTT AGGGATTGCC 
    GCGCAACGCG CAATAGTTGT GAAACTTGCG GAGGTCAGTT TGAAAACTCA GGGTGAAGAC 
    GGTGGGGCTG ATGCAGTGGG GTCGTCCTCA ATTCCGAACT GGCGAAACGT AGCTTATGAC 
    GACGTGTCCG TGGCTGTGGC GTGTTCCCTG CCTGAGATTC CAGGCTCATC GGGTCCTTGG 
    ATCAAGCCCG CGCGGGACGT GCCTAAATCA GGCATCATTC GGTTCGATTA CGTTGCGACC 
    AAAAAGTCAT ACCGTCATCC AAAGACCAAC GAATACATCG ACGGCGACGC GCGACTGACC 
    TCGGATGAGG TCGAGCGGCT TCGCGACGAG CTCGCGCTCG AGGTGGGCCG TGGAAACCGG 
    GCCGGTTACG TCGGCAGAGG AGGGATCGGC GGCGGGGACA CCATGTGCGA TTTTAGGGCG 
    GTCATCGCCC ATCGAACAAC GACGTGCGCA GAGGCGGCGA TGATAGTCAG TCGCATAAAT 
    TGTGCCGAGA CAAGATGCGA GGCGGCCGTC GCGCTGTACG GTGTGTGCGT TGACGTCGAC 
    GAGGAAGAGT GGTGGCGAGT TGTGGCGCAG CTGGGTGGGG CAGAGCAAGC AAGGGTTTGT 
    GCTAGGCTCG GTGTCTGGCC AAAGGCTCCT TCTTCCCTGT CCAGATGTGT GCCGGAGGCA 
    CCGGAAGAAC CCGAACTGGA GCCTGACCCA GAACCAGAGC CCGAACCGCA GGCAGAGTCA 
    GGTCCTGACG CTAGCGCGGT GGAGGCTTCA GGGGAAATAG AGGGAAGCGC CGACGCTGAG 
    CTCGAGGAGT TTGAAGCGCT GGAGAAGGCC GCCGCCGAGG AGGCCGCCGC CGAGGTCAAC 
    GGCGTACCCG CAGTCGCAAC CGATGTCGCC GACGAGGTGC AAAACGACAT CGCACAGGAC 
    GATGCGCCTG CAGAAAATCC AGAAACCGCG GGGGAGGGTG CCGATCCCGC CGAGGGAGAG 
    CCACCTGCTG AAGACGATGC GGCGGGGGCG GAGGAGGATG AAGAGGAAGA CGATGACTCA 
    GATGCCGATT CCGAGCCCGA GCCAGAACCC GAGCCCGATC CCGAGCCCGA GCCTGAGGAT 
    GACCCACCCG TGATGCGTTC GATGTCCATG CGCTACTCCC TGGACCTCTC CGATGAAGCG 
    CAGCGCGACA TTCTTCGCGC TGCCTGCGAG CAAGCCGCGA ACGGAGAGAT TCCGTGGCGG 
    TGCTTTCGCA ACCTTCGCGT CAACGGCGCG CGGACCGACG CCGTCAAGCT CATCGAAGAG 
    CGAAAACTCA AACGTGCAAA GAAACGAAGA GCGTCCGACG ATCCTGCCGA CCTGGAGACA 
    GTCGCTCCAA ATGAGCTTTT TGAAGCCATC ACGGTTGACA CCGCCGCGGC GATTGTTGAT 
    TTCGATTTTT TCGGCGCAGA CGTTTGGGAC CGGGTCAACG TCGAGCCAAT GTCCGGCGAC 
    TGGGTCGGAG ATCGGAGCGA GCAACACTGG GTGCTCGATC ATGGCTATCT CGACGGCTAC 
    GAGCTCAGGC TCGAGGCTGA GCGAGTACGT TGTGGGCATC CGTACCATCT ATGGCTGCTC 
    CTGAATGATT CGGTTGAGGG ACGCGTGACG CGATCGGCAT GGACAGCGCC GGATGGACGC 
    CTGCGAGCCG TCGAAACCTC CGTGACGGGT CAACTCCTCG CGGATACCGC AAGCCTGGCG 
    TTCCAGAAAG ACTGGGACAG ATCGATGCTC GCTGCAGCAC GACGGGAGAG ATCCGCCGCC 
    GCGAAGGATT TGGCTTCTGA CTTTGACTGC CCGCTCCGCC AGTACTGGCG GGCACTCGGG 
    CCGGACGTAG AGGGACAACC GGGAAACAGG AAGGTTTCGA CCGCAAAGAC CGCGATGGGA 
    GAACTTTCTC TCGCCACCGG TGGAGTCTAT CCAACCGAAG AGCGGGTCTT ATCCTGCTGT 
    GCCCTCACGG AGGAATCGGC TGCGGCTCGG GCAAAATTCC AGTCTTCGCT TGACGAGTGG 
    ATGGCGAGAC ATCCGGATGA AACCCCGGAA CCGGTGTCCG ACAAACGCGT CGCGGATGCA 
    AACAAAGCTG GGAAATCTGA CGGCGCCACG GGGGAGACGG ACGATCCGGC GCCGACGATG 
    CCCGCGGTTG AGCGGATGCT GACATGGCGA GCTTTTGAAG CGCTATTCAT GACGATGGAC 
    TTTTCACCCG AGCCGTGTTC AAGCCGCTTT GAGCCCCCGG AGGATGCCCC GTGGTGGTTC 
    GAGCCTGAAC CTGCACCCCA GTCCGAACCC GGGCAAAACG AAGATGCCGA ACCAGGTCCG 
    GAGCCGGCGG CGACTCCGAA GAAGGGTGGT AAGGGTGGCA AGAAGGGCGA CAGGGCTCCA 
    AACGAAATTC CCCCGCCGCC GCCGGAGCCA GACACCCCCG TCCCTGAGAC ACCCGCCGGC 
    GAAGGCGGCG AAGCTGACGC GGCGCAGGAG GCATCGGACG CCGGGGACGC ACGAAAACCG 
    TGGCCGGCAC CAGCGACGAC GATGCCGCGG ATGCCGTGCT CGGGAGTGCC GACGATTGAC 
    GCCGCGCTCA CGTCGGAGCT TCTCGAGCAA TATCCGTCGG AGCCGCCCGA GGCGAAGCCG 
    ATTGACGCGG GGACTGTCGC GCGGAACGGG GACAGGACGG CGGCTGGATA CTGGGATGGA 
    GACGATATGG TCGCCGCCGC GGCGGGCATC GCACCACCTC ACGACCCGCC GAGTGCAGAC 
    GACGACACAG CAGAGGATCC GATTGGTGAG GCAAAGAGAA AGTGA

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

  • PubMed

    Green evolution and dynamic adaptations revealed by genomes of the marine picoeukaryotes Micromonas.
    Science (New York, N.Y.)324(5924)268-72(2009 Apr)
    Worden AZ,Lee JH,Mock T,Rouz? P,Simmons MP,Aerts AL,Allen AE,Cuvelier ML,Derelle E,Everett MV,Foulon E,Grimwood J,Gundlach H,Henrissat B,Napoli C,McDonald SM,Parker MS,Rombauts S,Salamov A,Von Dassow P,Badger JH,Coutinho PM,Demir E,Dubchak I,Gentemann C,Eikrem W,Gready JE,John U,Lanier W,Lindquist EA,Lucas S,Mayer KF,Moreau H,Not F,Otillar R,Panaud O,Pangilinan J,Paulsen I,Piegu B,Poliakov A,Robbens S,Schmutz J,Toulza E,Wyss T,Zelensky A,Zhou K,Armbrust EV,Bhattacharya D,Goodenough UW,Van de Peer Y,Grigoriev IV


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