| Gene Symbol | FLA10 |
| Entrez Gene ID | 8243598 |
| Full Name | kinesin-like protein FLA10 |
| Gene Type | protein-coding |
| Organism | Micromonas commoda |
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FLA10 cDNA ORF clone, Micromonas commoda
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Gene
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Clones
gRNAs
The following FLA10 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the FLA10 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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Reference Sequences (Refseq)
CloneID OMg02728 Clone ID Related Accession (Same CDS sequence) XM_002502642.1 Accession Version XM_002502642.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2397bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector 
User ManualClone information Clone Map MSDSTag 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 kinesin-like protein FLA10 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 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
2341ATGCCGTCGT ATAACTTCAA AACCGCGGCG ACAGCCGTGG TGTCTGGGAT AAAGATGCAG
AACGCCGCCG CGGGCGAGTG CGTGAAGGTT GTGGTGCGAT GTCGTCCCTT GTTCGGCAAG
GAGATTCGGG AGGCGCGGAA CCAGATCGTC GACTGCGACG TGCGCAGAGG AGAGGTCCGC
ATCGCCAACC CGAAGACACC GGAGGATCCC CCAAAGCAGT TCACCTTCGA CGGAGTGTAC
GACCACACGA GCACGCAGAA GGAAATATTC GAGGGATGCG CGTTGCCGAT CGTACGCGCG
GCGATCGAGG GATACAACGG CACCATATTC TGCTACGGCC AGACGGGCAC GGGCAAGACG
CACACGATGG AGGGAAAAGA CGAGCCCGAG AACGAGCGAG GCCTGATACC CAACACGTTT
GAGACTGTGT TTGGTGACAT CGACGCGCTG GAGTCGGCGA ACAAGAACTT TCTCGTCCGC
GCGTCGTTCC TGGAGATCTA CAACGAGGAG GTCAGGGATC TTCTCGGCAA AGATCAGACC
AGGAGGTGCG ACCTAAAGGA GGACCCGGAC AAGGGTGTGT ACGTGAAGGA CCTGACCACA
TTCGTGGTGA AGTCGGTGGC AGAGATACGC AAGCTGCACG AAGTTGGAAA GAAGAACAGG
AGCGTTGGAG CGACGCTCAT GAATGCCGAC TCCTCCCGCT CGCATTCCAT CTTCACGGTG
ACGATAGAGA CGAGCGAGGT AAACGAGGGG GAGCCTGCCG AGGATGCTCA CATCCGCGTC
GGTAAGCTGA ACATGGTGGA CCTCGCCGGA AGCGAGCGGC AGGCAAAGAC CGGAAGCACG
GGCGACCGGC TGAAGGAGGC GACCAAGATT AACCTCTCGT TATCCGCGCT CGGTAATGTC
ATCAGCGCGC TGGTGGACGG GAAGAGCTCG CACATCCCGT ACCGAGACTC AAAGCTGACG
CGGCTGCTTC AGGACTCGCT TGGTGGAAAC ACGAAAACGG TGATGATTGC AAACCTTGGC
CCCGCAGACT ACAACTTCGA CGAGACGATG AGCACGCTTC GGTACGCGAA CCGCGCGAAG
AACATCAAGA ACAAGCCGAA GATCAACGAG GACCCGAAGG ACGCGATGTT GAGGGAGTTT
CAGGAAGAGA TTGCTCGTCT CAAGGCTCAG CTTGGCGAAG GCGGCAACCT CGCGGATGGC
GTGCCTGGTC ACCGACCCGG CCGGCGCCGC CAGGAGTTCA TCGAGAAGAC GGTCTCACAG
GTCTCCGACG CACGATTGCA GCGCATCCGC GATGAGATGC GGCAGCAGAT GGAGGAGAAC
ATGAGGCAGA ACCTCGAGGC TGAGGAGGCA GAGAAGGCTC AGGCAAAAGT TCAAAGGGAG
GCTCAGGAGC AGATGGACCA GTTGATGTCA GAGAAGGCTC GCACCGAGGA AGAGCGCGCC
GAGCTCGAGG CACAGTTCAA GCGCCAGCAG GAGGAGATGG ACGCCAAGTT CCAGGACCTT
CAGAGAGAGC GCGAGGAGCA GAAAGCTCTT GAGGACAGAC TCGCGGCGAT GCAGGCCAAG
GTGATGCGCG GCGGCACCAA CCTCTTGGAT CAGGAGGAGA GGCTTCGTGA GGAGCAGAGA
CGGCAGGAAG ACGAGCTCCG GAAAATCGCC GAACAGGAAG AGGAAGCGCA GCGGCGCATC
CAGGAATTGG AAGACCTGCA GACCATCACC AGCGACTCTT ACAAGACGAT TGAGGAAGAA
ATAGAGAGCA AGGGTAGGAA GACGAAGAAA CTCCATGAGG CTTACGAGAG ATGTCTGGTT
GACATCAAGG ACCTGGAACG TGACTGGACG TCCGAGCGAG AGGATCTGCT GGACGTCATA
CGTGCTCTTA CTCGCGAAAT CAAGCTCAAG AATCTCGTGC TCGACGCTTA CATTCCCCCG
GACGAGATTG ACCGCCTGTC GCGTCACGCC ACGTGGGACG ACAAGGCGGA GACGTGGCGA
ATTTCTCACG CGAGAATAGC CGGGAACAGG GCGAGAGAGC GCCGTGAGAA GGAGGCGAAC
GATGCGTGCG GGAAGGACGG CGCGCCTCCT CCGAACGATC GCGTCGTCGC CGCAATCGCG
GAGGCCAACG GCGGGGACGT GGAGGCGGCG ACGAAGCTCG CGACGAACAC GTACGCCGAG
AGGGTCAAGG GGGTGTACCG CCAGTACAAG GAAGGCGGCG GGAGCGGCGC GGGCGACAGG
CGGCGAGCAC GACCGGGATC GGCGCGACCC GGCAGCGCCC GATCCAGGTC TAAATCGTCG
TCCGCGGGTT CGAAGGACGG GACGAGGATG CTCGGGTCGC TTCGTGATGA TGTGGCGGAT
TTAGACGAAG GTCCGCGGGA CGCGGCGCGA TTCCCGGGGA GGATCTCCAG GCGGTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_002502688.1 CDS 1..2397 Translation 
Target ORF information:
RefSeq Version XM_002502642.1 Organism Micromonas commoda Definition Micromonas commoda kinesin-like protein FLA10 (FLA10), partial mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_002502642.1
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
2341ATGCCGTCGT ATAACTTCAA AACCGCGGCG ACAGCCGTGG TGTCTGGGAT AAAGATGCAG
AACGCCGCCG CGGGCGAGTG CGTGAAGGTT GTGGTGCGAT GTCGTCCCTT GTTCGGCAAG
GAGATTCGGG AGGCGCGGAA CCAGATCGTC GACTGCGACG TGCGCAGAGG AGAGGTCCGC
ATCGCCAACC CGAAGACACC GGAGGATCCC CCAAAGCAGT TCACCTTCGA CGGAGTGTAC
GACCACACGA GCACGCAGAA GGAAATATTC GAGGGATGCG CGTTGCCGAT CGTACGCGCG
GCGATCGAGG GATACAACGG CACCATATTC TGCTACGGCC AGACGGGCAC GGGCAAGACG
CACACGATGG AGGGAAAAGA CGAGCCCGAG AACGAGCGAG GCCTGATACC CAACACGTTT
GAGACTGTGT TTGGTGACAT CGACGCGCTG GAGTCGGCGA ACAAGAACTT TCTCGTCCGC
GCGTCGTTCC TGGAGATCTA CAACGAGGAG GTCAGGGATC TTCTCGGCAA AGATCAGACC
AGGAGGTGCG ACCTAAAGGA GGACCCGGAC AAGGGTGTGT ACGTGAAGGA CCTGACCACA
TTCGTGGTGA AGTCGGTGGC AGAGATACGC AAGCTGCACG AAGTTGGAAA GAAGAACAGG
AGCGTTGGAG CGACGCTCAT GAATGCCGAC TCCTCCCGCT CGCATTCCAT CTTCACGGTG
ACGATAGAGA CGAGCGAGGT AAACGAGGGG GAGCCTGCCG AGGATGCTCA CATCCGCGTC
GGTAAGCTGA ACATGGTGGA CCTCGCCGGA AGCGAGCGGC AGGCAAAGAC CGGAAGCACG
GGCGACCGGC TGAAGGAGGC GACCAAGATT AACCTCTCGT TATCCGCGCT CGGTAATGTC
ATCAGCGCGC TGGTGGACGG GAAGAGCTCG CACATCCCGT ACCGAGACTC AAAGCTGACG
CGGCTGCTTC AGGACTCGCT TGGTGGAAAC ACGAAAACGG TGATGATTGC AAACCTTGGC
CCCGCAGACT ACAACTTCGA CGAGACGATG AGCACGCTTC GGTACGCGAA CCGCGCGAAG
AACATCAAGA ACAAGCCGAA GATCAACGAG GACCCGAAGG ACGCGATGTT GAGGGAGTTT
CAGGAAGAGA TTGCTCGTCT CAAGGCTCAG CTTGGCGAAG GCGGCAACCT CGCGGATGGC
GTGCCTGGTC ACCGACCCGG CCGGCGCCGC CAGGAGTTCA TCGAGAAGAC GGTCTCACAG
GTCTCCGACG CACGATTGCA GCGCATCCGC GATGAGATGC GGCAGCAGAT GGAGGAGAAC
ATGAGGCAGA ACCTCGAGGC TGAGGAGGCA GAGAAGGCTC AGGCAAAAGT TCAAAGGGAG
GCTCAGGAGC AGATGGACCA GTTGATGTCA GAGAAGGCTC GCACCGAGGA AGAGCGCGCC
GAGCTCGAGG CACAGTTCAA GCGCCAGCAG GAGGAGATGG ACGCCAAGTT CCAGGACCTT
CAGAGAGAGC GCGAGGAGCA GAAAGCTCTT GAGGACAGAC TCGCGGCGAT GCAGGCCAAG
GTGATGCGCG GCGGCACCAA CCTCTTGGAT CAGGAGGAGA GGCTTCGTGA GGAGCAGAGA
CGGCAGGAAG ACGAGCTCCG GAAAATCGCC GAACAGGAAG AGGAAGCGCA GCGGCGCATC
CAGGAATTGG AAGACCTGCA GACCATCACC AGCGACTCTT ACAAGACGAT TGAGGAAGAA
ATAGAGAGCA AGGGTAGGAA GACGAAGAAA CTCCATGAGG CTTACGAGAG ATGTCTGGTT
GACATCAAGG ACCTGGAACG TGACTGGACG TCCGAGCGAG AGGATCTGCT GGACGTCATA
CGTGCTCTTA CTCGCGAAAT CAAGCTCAAG AATCTCGTGC TCGACGCTTA CATTCCCCCG
GACGAGATTG ACCGCCTGTC GCGTCACGCC ACGTGGGACG ACAAGGCGGA GACGTGGCGA
ATTTCTCACG CGAGAATAGC CGGGAACAGG GCGAGAGAGC GCCGTGAGAA GGAGGCGAAC
GATGCGTGCG GGAAGGACGG CGCGCCTCCT CCGAACGATC GCGTCGTCGC CGCAATCGCG
GAGGCCAACG GCGGGGACGT GGAGGCGGCG ACGAAGCTCG CGACGAACAC GTACGCCGAG
AGGGTCAAGG GGGTGTACCG CCAGTACAAG GAAGGCGGCG GGAGCGGCGC GGGCGACAGG
CGGCGAGCAC GACCGGGATC GGCGCGACCC GGCAGCGCCC GATCCAGGTC TAAATCGTCG
TCCGCGGGTT CGAAGGACGG GACGAGGATG CTCGGGTCGC TTCGTGATGA TGTGGCGGAT
TTAGACGAAG GTCCGCGGGA CGCGGCGCGA TTCCCGGGGA GGATCTCCAG GCGGTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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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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