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

GLU cDNA ORF clone, Micromonas commoda

The following GLU gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the GLU 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
OMg07273 XM_002505480.1
Latest version!		 Micromonas commoda glutamate synthase (GLU), partial mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00

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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)
    GLU ( XM_002505480.1 ) cDNA ORF clone, Micromonas commoda -> XP_002505526.1 Micromonas commoda glutamate synthase (GLU), partial mRNA.
    Price & Availability↑
    CloneID OMg07273
    Clone ID Related Accession (Same CDS sequence) XM_002505480.1
    Accession Version XM_002505480.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4932bp)
    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 1498060800000
    Organism Micromonas commoda
    Product glutamate synthase
    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_013050). COMPLETENESS: incomplete on the 5' 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
    ATGCCTGCTC TCGCTCGCGC GACCGCCCTC GCGGCGCCGG TCGTCGCCCC TCGGGGCGTC 
    GCCCGACGCT CCACCGGCGC CCGCGTTCCG TCCATGGCAT CCCGCGTGCC ATCCGCGAAC 
    CTCGCGGCAT CCCTCCGATC CGTCGGCGGC AAGCAGGCGT CCATGCCCTC CTTCATGGGC 
    CTGAAGAAGT CCGCGGCGCT GCCCAGGTTC CGCAGCCTTC GCTCGGACAC CCCCGCGGCT 
    GTGACCAGGT CCGGTCACGT CGTCGCCGTC GCGTCCCGCG AGCCCTACGC CGGCGGCGCC 
    GTCGACATGA ACCAGATCCT CGAGGAGCGA GACGCGTGCG GCGTCGGTTT CATCGCGTCG 
    CTCAAGGGGG AGCGCACGCA CAAGACCGTG ACGGACGCGC TCACGGCGCT CGGTTGCATG 
    GAGCACCGCG GCGCGTGCTC CGCGGACGAC GACTCGGGCG ACGGCGCGGG CGTCATGTGC 
    AACATCCCGT GGAAGATGCT CGGGAAGTAC TGCGAGGCCG AGGGCATCGA CGGCTTCGAG 
    GAGGGCAAGG CTGGCGTCGG CATGGTGTTC CTGCCCCAGG ACGCCGCGCA GGCGAAAAAG 
    TCCCGCGAGA TCCTCAACGA GTGCGTCGAG GCGGAGGGCC TCACCGTCCT CGGCTGGCGC 
    GAGGTGCCCG TGAACAAAGC CGTCGTCGGT CGCATGGCCA AGGCGACTGA GCCCGTTATT 
    GAGCAGATCC TCGTCGCCGG CGCCGAGGAG GACGACCTCG AGCGCAAGCT CTTCGTCGCG 
    CGAAAGCTCG CCGAGAAGAA GTCCGCGGCG CTCAACGCCG AGATGCCCGG CATCGCCGAG 
    AACTTCTACG TCTGCACCAT GTCCGGCCGC ACAATCGTGT ACAAGGGCAT GCTTCGATCC 
    GCCGTCGTGG GCGAGTTCTA CGAGGATCTC AAGAACCCCG ACTTTGAGAC GCAGTTCTGC 
    ATCTACCACA GGCGCTTCTC CACCAACACC GTCCCCAAGT GGCCGCTCGC GCAGCCCATG 
    AGGTTCCTCG GCCACAACGG CGAGATTAAC ACCCTGCAGG GTAACCTCAA CTGGATGGCG 
    TCCCGAGAGG CTGACATGAC GCACCCGGTG TGGGCGGGCC GCGAGCCCGA GCTCCGACCC 
    ATCTGCAACC CCGCCGCCTC CGACTCCGCC AACCTCGACC GCGTCGCCGA GCTCCTCGTC 
    AAGTCCGGCA GGCCCGTCGC GGAGACGATG ATGCTCCTCG TCCCCGAGGC GTACCGCAAC 
    CACCCGGATC TCGACGCCAC GTACCCCGAG GTTGAGTCCT TCTACGACTA CTACGCCGGC 
    ATGCAGGAGG CTTGGGACGG ACCCGCGCTG CTCGTCTTCA CCGACGGCAA GAAGCTCGGG 
    TGCAGGCTCG ACCGCAACGG CCTCCGCCCC GCGCGCTTCT GGCGCACCTC CGACGACTAC 
    ATCTACGTCG CCTCCGAGGT TGGCGTCCTG GGCGACGCCA TCTCCAACGC GGCTAACATC 
    GTCGCCAAGG GCCGCCTCGG CCCCGGCATG ATGATCCAGG CGGACCTGGA GAGCGGCGAG 
    TTCAAGGAGA ACACCGAGGT GGCCAAGGAG GTTGCGTCCA GGCTCGATTA CAAGGGTTTC 
    CTGGAGGACA TCAAGTTCCT CGACGCCAAG GAGCCCGGAG AGGCGACGAC GATGGACGCC 
    ACCGGCCTCA TCGAGGCGCA AGCCGCGGCG GGGTACGCCG CGGAGGACGT CTCCATGATC 
    ATCGAGTCCA TGGCTGCCGA CGGCATGGAG CCCACGTGGT CCATGGGTGA CGACACCCCG 
    ATGCCCGTGC TCTCCTCCCG CCCCCACCTC CTCTACGACT ACTTCAAGCA GAGGTTTGCG 
    CAGGTTACCA ACCCGGCGAT TGACCCGCTG CGCGAGGGCC TCGTCATGTC GCTGGAGATG 
    ACCCTGGGCG CCAAGGGGAA CCTCCTCGAC AACAAGGGCG CCGAAGACAT CCCCGCGGTG 
    CACCTCAAGA CCCCCGTGCT CTTCGACGAG GACGTTGAGA CCATCATGGG CCTCGATTCC 
    CTCAAAGCCG TTCGCGTCCC CGCCAGGTAC GCAGGCACCG GCGAGAAGGG AGCGATGGCC 
    GCCGCCGTCG CCGAGCTCTG CGCCGCCGCC GAGAAGGCTG TCGCGGGCGG GTCCCAGACG 
    GTGATCATCT CCGACAAGCC CGACTGCGGC GACGCGACGA TGCCCGCCAT CCCGTCCATG 
    CTCGCGGTGG GCGCGGTGCA CCACCACCTC ATCAAGGTTG GCCTCCGGTC TCGCGCGTCC 
    ATCGTGGTGG AGTCGGCCTC CGCCTTCTCC ACGCACCACT TCGCGTGCCT CGTCGGCTTC 
    GGCGCCTCCG CGGTGAATCC GTGGCTCGCG CTCGAGACGT GCCGCCAGTG GCGCGGGTCG 
    ACCAAGATTG AGAACGCCAT CAAGCGCGGC AAGATGCCCA ACATGTCCGT GGCTGACGTG 
    CAGCGAAACT ACAAAGCCGC GGTGAACAAG GGCCTCAAGA AGATCCTCTC CAAGATGGGC 
    ATCTCGCTGC TCACCTCCTA CCACGGCGCG CAGATCTTCG AGTGCTACGG CATCGGCCCC 
    GAGGTGATCG ACACCGCGTT CAAGGGCACC GTCTCGCGCA TCGGAGGAAT GAACATGGAC 
    GATCTCGCCG CCGAGACGGC GACGTTTTAC TCGTCAAACT TTCCCGGCGA GGGCGAGGTT 
    CTCAACGGCA TCGCCGCGAG GGGCATGTTC CAGGTCAAGC CCGGGCTCGA GTACCACGCC 
    AACAACCAGG ACATGTCCAA GCTCCTGCAC AAGGCGATCG GGCTGGGCGG CAAGAAGGAG 
    AGCGGCGATT TCGACGCGTA CAAGCTCTAC CAAGAGGAGC GCAACGACCG GCCGGCGACG 
    TCTCTTCGCG ACATGCTCGT CATCGAGTCG GACCGCGAGC CCATTCCCAT CGACGAGGTG 
    GAGTCTGTTG GTGACATCTG CGCGCGCTTC TGCACCGGCG GCATGTCCCT CGGCGCCATC 
    TCCCGCGAGT GCCACGAGGC GATCGCCATC GCGATGAACC GCATCGGCGG CAAGTCCAAC 
    TCGGGCGAGG GTGGCGAGGA TCCCCAACGC TACGAGAAGA TCTCCGCGGA TGCTGAGGGC 
    AAGTCCGAGA CTTTTCCCCA CCTCCGGGGC CTGAAGACCG GGGACGTCGC GTCCTCCGCC 
    ATCAAGCAGG TTGCTTCCGG CCGTTTCGGT GTCACCACCT CCTTCCTCAT GGCTGCCGAC 
    CAGCTCGAGA TTAAGGTTGC GCAGGGCGCC AAGCCTGGCG AGGGCGGTCA GCTCCCCGGC 
    AAGAAGGTGT CGCCCTACAT CGCGTCTCTT CGCCGCTCCA AGGCTGGCGT GCCCCTCATC 
    TCCCCTCCCC CGCACCACGA CATCTACTCC ATCGAGGACC TCGCGCAGCT CATCTACGAT 
    CTCCACATGG TCAACCCCAA GGCTAAGGTT TCCGTGAAGC TCGTGGGCCA GGCTGGCATC 
    GGCACAGTCG CTTCGGGCGT CGCCAAGGCG AACGCGGACA TCATCCAGAT TTCCGGCGGC 
    GACGGCGGCA CCGGCGCGTC GCCCCTCTCC TCCATCAAGC ACGCGGGCGG GCCCCTCGAG 
    ATGGGTCTCG TCGAGGCGCA CAGGACGCTC GTCGAGAATG ACCTTCGCCA ACGCGTGGTT 
    CTCCGAGCCG ACGGCGGCTG CCGCTCCGGT CTGGACGTGA TCCAGTGCGC GCTCATGGGC 
    GCCGACGAGT ACGGCTTTGG CACCGTCGCC ATGATCGCCA CCGGGTGCGT CATGGCGCGC 
    ATCTGCCACA CCAACAACTG CCCCGTCGGC GTCGCGTCCC AGCGGGAGGA GCTCAGGGCT 
    AGGTTCCCCG GCGCCCCCGG AGACTTGGTC AACTTTTTCC AGCTGTGCGC GCAGGAGGTG 
    CGCGAGGAGC TCGCGGCGAT GGGGTACAAA TCTCTGGACG AGATCATCGG CAGGAACGAC 
    CTATTCGCGC AGAAGCGCGC CCACCCCGAC GGAAGCGCCC CGGGCCAGCC CGCGAAGACG 
    TCCGGCCTCG ACCTCTCCTT CCTCACGACG TCGAGCGGCG AAGGCGGTGT TTCTTCGGCT 
    CGACTCGCGC AAGCCACGCA CGACGACGGT CGCATGCTCG ACGACGAGAT CCTCGAGGAC 
    CCTGCCGTCA TCAAGGCGAT CGAGGAGGAG GGCGAGTACA CCGTCAAGAA GGAGATCATC 
    AACACCGATC GCTGCGCCAC CGCGCGAGTC GCCGGCGTCG TCGCCGCCAA GTACGGGGAT 
    TCCGGTTTCG CCGGAAAGCT CAACATCGAG CTGGAGGGTT CCGCGGGCCA GTCCTTCGGC 
    GCGTTCACCG TGGGCGGCGT GTCGGTGAAG CTCGTCGGCG AGGCGAATGA CTACGTGTGC 
    AAGTCGATGT CCGGCGGTGA GGTTTCCATC ATGCCCCCGG CGGCGTCTCC CTTTGCCCCC 
    GAGGATTGCA TCATCGCGGG GAACACGTGC CTCTACGGCG CAACCGGCGG GAAGGCGTTC 
    TTCAACGGCA GGGCGGGTGA GAGGTTCGCG GTGAGGAACT CGCTCGCGGA GACGGTCGTC 
    GAGGGCACCG GCGACCACTG CTGCGAGTAC ATGACGGGCG GAGTCGTGGT TGTGTTGGGT 
    CGCGTCGGGC GCAACGTGGG CGCGGGCATG ACCGGCGGCA TCGGGTACTT TCTCGACGAG 
    GACGACACCT TCGCGTCCAA GGTTAACGGC GAGATTGTCT CCATGCAGCG CGTCGCCACC 
    TCCGCGGGTG AGGCGCAGCT CAAGGGACTC ATCGAGGAGC ACGTCGCGAA GACCGGCTCC 
    CCCAAGGGTA AGGCGGTGCT CGCCGAGTGG GCCGAGTACC TGCCCAAGTT TTGGCAGCTG 
    GTGCCCCCGT CGGAGGCGAA CACCCCAGAG GCTACCGACG TCGTCCCCGA GGAGGTTGCC 
    GCCTCCGCGT GA

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

    RefSeq XP_002505526.1
    CDS1..4932
    Translation

    Target ORF information:

    RefSeq Version XM_002505480.1
    Organism Micromonas commoda
    Definition Micromonas commoda glutamate synthase (GLU), partial mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_002505480.1

    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
    ATGCCTGCTC TCGCTCGCGC GACCGCCCTC GCGGCGCCGG TCGTCGCCCC TCGGGGCGTC 
    GCCCGACGCT CCACCGGCGC CCGCGTTCCG TCCATGGCAT CCCGCGTGCC ATCCGCGAAC 
    CTCGCGGCAT CCCTCCGATC CGTCGGCGGC AAGCAGGCGT CCATGCCCTC CTTCATGGGC 
    CTGAAGAAGT CCGCGGCGCT GCCCAGGTTC CGCAGCCTTC GCTCGGACAC CCCCGCGGCT 
    GTGACCAGGT CCGGTCACGT CGTCGCCGTC GCGTCCCGCG AGCCCTACGC CGGCGGCGCC 
    GTCGACATGA ACCAGATCCT CGAGGAGCGA GACGCGTGCG GCGTCGGTTT CATCGCGTCG 
    CTCAAGGGGG AGCGCACGCA CAAGACCGTG ACGGACGCGC TCACGGCGCT CGGTTGCATG 
    GAGCACCGCG GCGCGTGCTC CGCGGACGAC GACTCGGGCG ACGGCGCGGG CGTCATGTGC 
    AACATCCCGT GGAAGATGCT CGGGAAGTAC TGCGAGGCCG AGGGCATCGA CGGCTTCGAG 
    GAGGGCAAGG CTGGCGTCGG CATGGTGTTC CTGCCCCAGG ACGCCGCGCA GGCGAAAAAG 
    TCCCGCGAGA TCCTCAACGA GTGCGTCGAG GCGGAGGGCC TCACCGTCCT CGGCTGGCGC 
    GAGGTGCCCG TGAACAAAGC CGTCGTCGGT CGCATGGCCA AGGCGACTGA GCCCGTTATT 
    GAGCAGATCC TCGTCGCCGG CGCCGAGGAG GACGACCTCG AGCGCAAGCT CTTCGTCGCG 
    CGAAAGCTCG CCGAGAAGAA GTCCGCGGCG CTCAACGCCG AGATGCCCGG CATCGCCGAG 
    AACTTCTACG TCTGCACCAT GTCCGGCCGC ACAATCGTGT ACAAGGGCAT GCTTCGATCC 
    GCCGTCGTGG GCGAGTTCTA CGAGGATCTC AAGAACCCCG ACTTTGAGAC GCAGTTCTGC 
    ATCTACCACA GGCGCTTCTC CACCAACACC GTCCCCAAGT GGCCGCTCGC GCAGCCCATG 
    AGGTTCCTCG GCCACAACGG CGAGATTAAC ACCCTGCAGG GTAACCTCAA CTGGATGGCG 
    TCCCGAGAGG CTGACATGAC GCACCCGGTG TGGGCGGGCC GCGAGCCCGA GCTCCGACCC 
    ATCTGCAACC CCGCCGCCTC CGACTCCGCC AACCTCGACC GCGTCGCCGA GCTCCTCGTC 
    AAGTCCGGCA GGCCCGTCGC GGAGACGATG ATGCTCCTCG TCCCCGAGGC GTACCGCAAC 
    CACCCGGATC TCGACGCCAC GTACCCCGAG GTTGAGTCCT TCTACGACTA CTACGCCGGC 
    ATGCAGGAGG CTTGGGACGG ACCCGCGCTG CTCGTCTTCA CCGACGGCAA GAAGCTCGGG 
    TGCAGGCTCG ACCGCAACGG CCTCCGCCCC GCGCGCTTCT GGCGCACCTC CGACGACTAC 
    ATCTACGTCG CCTCCGAGGT TGGCGTCCTG GGCGACGCCA TCTCCAACGC GGCTAACATC 
    GTCGCCAAGG GCCGCCTCGG CCCCGGCATG ATGATCCAGG CGGACCTGGA GAGCGGCGAG 
    TTCAAGGAGA ACACCGAGGT GGCCAAGGAG GTTGCGTCCA GGCTCGATTA CAAGGGTTTC 
    CTGGAGGACA TCAAGTTCCT CGACGCCAAG GAGCCCGGAG AGGCGACGAC GATGGACGCC 
    ACCGGCCTCA TCGAGGCGCA AGCCGCGGCG GGGTACGCCG CGGAGGACGT CTCCATGATC 
    ATCGAGTCCA TGGCTGCCGA CGGCATGGAG CCCACGTGGT CCATGGGTGA CGACACCCCG 
    ATGCCCGTGC TCTCCTCCCG CCCCCACCTC CTCTACGACT ACTTCAAGCA GAGGTTTGCG 
    CAGGTTACCA ACCCGGCGAT TGACCCGCTG CGCGAGGGCC TCGTCATGTC GCTGGAGATG 
    ACCCTGGGCG CCAAGGGGAA CCTCCTCGAC AACAAGGGCG CCGAAGACAT CCCCGCGGTG 
    CACCTCAAGA CCCCCGTGCT CTTCGACGAG GACGTTGAGA CCATCATGGG CCTCGATTCC 
    CTCAAAGCCG TTCGCGTCCC CGCCAGGTAC GCAGGCACCG GCGAGAAGGG AGCGATGGCC 
    GCCGCCGTCG CCGAGCTCTG CGCCGCCGCC GAGAAGGCTG TCGCGGGCGG GTCCCAGACG 
    GTGATCATCT CCGACAAGCC CGACTGCGGC GACGCGACGA TGCCCGCCAT CCCGTCCATG 
    CTCGCGGTGG GCGCGGTGCA CCACCACCTC ATCAAGGTTG GCCTCCGGTC TCGCGCGTCC 
    ATCGTGGTGG AGTCGGCCTC CGCCTTCTCC ACGCACCACT TCGCGTGCCT CGTCGGCTTC 
    GGCGCCTCCG CGGTGAATCC GTGGCTCGCG CTCGAGACGT GCCGCCAGTG GCGCGGGTCG 
    ACCAAGATTG AGAACGCCAT CAAGCGCGGC AAGATGCCCA ACATGTCCGT GGCTGACGTG 
    CAGCGAAACT ACAAAGCCGC GGTGAACAAG GGCCTCAAGA AGATCCTCTC CAAGATGGGC 
    ATCTCGCTGC TCACCTCCTA CCACGGCGCG CAGATCTTCG AGTGCTACGG CATCGGCCCC 
    GAGGTGATCG ACACCGCGTT CAAGGGCACC GTCTCGCGCA TCGGAGGAAT GAACATGGAC 
    GATCTCGCCG CCGAGACGGC GACGTTTTAC TCGTCAAACT TTCCCGGCGA GGGCGAGGTT 
    CTCAACGGCA TCGCCGCGAG GGGCATGTTC CAGGTCAAGC CCGGGCTCGA GTACCACGCC 
    AACAACCAGG ACATGTCCAA GCTCCTGCAC AAGGCGATCG GGCTGGGCGG CAAGAAGGAG 
    AGCGGCGATT TCGACGCGTA CAAGCTCTAC CAAGAGGAGC GCAACGACCG GCCGGCGACG 
    TCTCTTCGCG ACATGCTCGT CATCGAGTCG GACCGCGAGC CCATTCCCAT CGACGAGGTG 
    GAGTCTGTTG GTGACATCTG CGCGCGCTTC TGCACCGGCG GCATGTCCCT CGGCGCCATC 
    TCCCGCGAGT GCCACGAGGC GATCGCCATC GCGATGAACC GCATCGGCGG CAAGTCCAAC 
    TCGGGCGAGG GTGGCGAGGA TCCCCAACGC TACGAGAAGA TCTCCGCGGA TGCTGAGGGC 
    AAGTCCGAGA CTTTTCCCCA CCTCCGGGGC CTGAAGACCG GGGACGTCGC GTCCTCCGCC 
    ATCAAGCAGG TTGCTTCCGG CCGTTTCGGT GTCACCACCT CCTTCCTCAT GGCTGCCGAC 
    CAGCTCGAGA TTAAGGTTGC GCAGGGCGCC AAGCCTGGCG AGGGCGGTCA GCTCCCCGGC 
    AAGAAGGTGT CGCCCTACAT CGCGTCTCTT CGCCGCTCCA AGGCTGGCGT GCCCCTCATC 
    TCCCCTCCCC CGCACCACGA CATCTACTCC ATCGAGGACC TCGCGCAGCT CATCTACGAT 
    CTCCACATGG TCAACCCCAA GGCTAAGGTT TCCGTGAAGC TCGTGGGCCA GGCTGGCATC 
    GGCACAGTCG CTTCGGGCGT CGCCAAGGCG AACGCGGACA TCATCCAGAT TTCCGGCGGC 
    GACGGCGGCA CCGGCGCGTC GCCCCTCTCC TCCATCAAGC ACGCGGGCGG GCCCCTCGAG 
    ATGGGTCTCG TCGAGGCGCA CAGGACGCTC GTCGAGAATG ACCTTCGCCA ACGCGTGGTT 
    CTCCGAGCCG ACGGCGGCTG CCGCTCCGGT CTGGACGTGA TCCAGTGCGC GCTCATGGGC 
    GCCGACGAGT ACGGCTTTGG CACCGTCGCC ATGATCGCCA CCGGGTGCGT CATGGCGCGC 
    ATCTGCCACA CCAACAACTG CCCCGTCGGC GTCGCGTCCC AGCGGGAGGA GCTCAGGGCT 
    AGGTTCCCCG GCGCCCCCGG AGACTTGGTC AACTTTTTCC AGCTGTGCGC GCAGGAGGTG 
    CGCGAGGAGC TCGCGGCGAT GGGGTACAAA TCTCTGGACG AGATCATCGG CAGGAACGAC 
    CTATTCGCGC AGAAGCGCGC CCACCCCGAC GGAAGCGCCC CGGGCCAGCC CGCGAAGACG 
    TCCGGCCTCG ACCTCTCCTT CCTCACGACG TCGAGCGGCG AAGGCGGTGT TTCTTCGGCT 
    CGACTCGCGC AAGCCACGCA CGACGACGGT CGCATGCTCG ACGACGAGAT CCTCGAGGAC 
    CCTGCCGTCA TCAAGGCGAT CGAGGAGGAG GGCGAGTACA CCGTCAAGAA GGAGATCATC 
    AACACCGATC GCTGCGCCAC CGCGCGAGTC GCCGGCGTCG TCGCCGCCAA GTACGGGGAT 
    TCCGGTTTCG CCGGAAAGCT CAACATCGAG CTGGAGGGTT CCGCGGGCCA GTCCTTCGGC 
    GCGTTCACCG TGGGCGGCGT GTCGGTGAAG CTCGTCGGCG AGGCGAATGA CTACGTGTGC 
    AAGTCGATGT CCGGCGGTGA GGTTTCCATC ATGCCCCCGG CGGCGTCTCC CTTTGCCCCC 
    GAGGATTGCA TCATCGCGGG GAACACGTGC CTCTACGGCG CAACCGGCGG GAAGGCGTTC 
    TTCAACGGCA GGGCGGGTGA GAGGTTCGCG GTGAGGAACT CGCTCGCGGA GACGGTCGTC 
    GAGGGCACCG GCGACCACTG CTGCGAGTAC ATGACGGGCG GAGTCGTGGT TGTGTTGGGT 
    CGCGTCGGGC GCAACGTGGG CGCGGGCATG ACCGGCGGCA TCGGGTACTT TCTCGACGAG 
    GACGACACCT TCGCGTCCAA GGTTAACGGC GAGATTGTCT CCATGCAGCG CGTCGCCACC 
    TCCGCGGGTG AGGCGCAGCT CAAGGGACTC ATCGAGGAGC ACGTCGCGAA GACCGGCTCC 
    CCCAAGGGTA AGGCGGTGCT CGCCGAGTGG GCCGAGTACC TGCCCAAGTT TTGGCAGCTG 
    GTGCCCCCGT CGGAGGCGAA CACCCCAGAG GCTACCGACG TCGTCCCCGA GGAGGTTGCC 
    GCCTCCGCGT GA

    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,Rouzé 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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