| Gene Symbol | OSTLU_87978 |
| Entrez Gene ID | 5003280 |
| Full Name | hypothetical protein |
| Gene Type | protein-coding |
| Organism | Ostreococcus lucimarinus CCE9901 |
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OSTLU_87978 cDNA ORF clone, Ostreococcus lucimarinus CCE9901
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Gene
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Clones
gRNAs
The following OSTLU_87978 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the OSTLU_87978 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 OOe03279 Clone ID Related Accession (Same CDS sequence) XM_001419078.1 Accession Version XM_001419078.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3279bp)
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 Ostreococcus lucimarinus CCE9901 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_009362). 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
3241ATGCGTCTAG ACGAACTGCG CGTCCCGCCT CTCGGCCTCG TCCTCGCCTT GGGGCGTCCA
GATTTGCACG AAGAGTGCGC GCGCGTTCTC AGAAATCTCA AGCCTCCGCT CGGATTAACG
ACGCGCGACG ACATCGCGGA CGCCCCCGAT GCGTTGAAAG CGCGCGCGCG CAAGCGATCC
GTCAAGGTGT CGCTGCGCGA GCGCGTCGGG CCGGGCGGCG GGGCCTCCGG TGATGCGCTG
CAGTCGTCTG GTAGGGACGA TCGCGGCGCG GCGACGGCGA CGGCGACGAC GACGGCGAGC
GGCGGATTCC GTCGAACACC CGCGCTTCCG GGAATGATAA AGCGGTCGTG GTTGAAGAAA
CATAAAGATG AACGCCCGGT TGTGGTGATG GCGCTGATCG ATAACGAGGC GTTGGAAAAT
TCGTCGACGA CGAGACGAGC GCTGGAGAGC TCGCTGGAGA AGCTGTACGG ATACGCGCAC
AACGCAGGGG CGTCGTGCTG CGTCGTCGTA GTAGCGTGTG GGCCTGGATT GCCGGAAACG
TTACCGGAGG ATAAAGCGGC GGTGATTCGA CGGGTGCTAC GCGTGGAAAA TCGCGCCATC
GTGACGCTGA ATACGGCGCA CGGTCGCGAC GCGGCGTGGA GCAAAGCGGC GAGGGTGGCA
CAAGAATTGG CGGTGAAGAA TTATGAGAGC GAGTGCGAAC GTCTGACATT GCTTGCAAGT
GAGTCGACGT GTCCTCGGGG GTTGAAAGTG CGGTACGCGT TCAAAGCAGG AGTGTACGCG
GAGTTTAGAC AGGATTGGAC CACGGCTGTT CGGCGATATC GCTTGGCGTA TGATTCCATA
CCAGACGTGA CTCCAGACGT GACGCCGCAA GATGTGATTG AAACACTTGA AGTGAGCCAA
GTGCTACACG TGAAACTGTG CGTTCTACTA TTACACAGTG GTTCGTCGGT GGAGGCTGTG
CATCAAATCG AGGAGCACAT GCGCCGATGG TCGACGGCGC CTCTCAAGGC GTTACCGCGA
GAAGCTTTGC CGACGTTTCA CCGCTGGCGC TCTCACCAGT ACGACGTGTT CGGTGATTTG
CTTAATGGAC GTTTACCCGC ACCAGCTCCC GTTGGTACAC CGCGCACGCA TTTGCCGGCG
TTTTACTTTC ACGCCGCAGC GCACTGTTCC ATTGAGCGTC GACAAGCTTT CGACGACGTA
GTCGACTCGA ACGAAGTGCC CGAGATGGAA GTGAAGGTTG AACATGCATC ATTCGTCGGG
CAATTAAAAG TCGCCGGCAC GGACGATGAG CCTTTGACTG CAGAGCAATA CATGACGTAC
CTTCGTGTCA AGGACACGCG CGACGACATC TCTCGCGAGA CGATCGAACT TTTGACCAAA
GCACATGATC ATTACAAGAC AAACTCGGCG GGTACCGCGG GTGGACGCAC GTTCGCAACG
CTCATTCGCG AACTCGCAAA CGAGTATTTG CACGCGGGAG ACTATGAAAG CGCACTCAAG
CTGTTCAAAA CCGTTGCCGT GGTGTATAGA CGCGAAAAGT GGAACGAGTT GCTGTGCTCT
GTGCTCATGA ATCTCAAGAC GTGCGCCAAA GCGCTTCGAG ACAACGAAGA GTACTTGAAC
ATTTGCCTCG AGATGGCTGC TTTGCACGAA GCCACCGACG AGCACGCGCC TTCTGCGTTT
GCGGCTGCGC TCGCGGCTAT GAACGAACCG CGCGGGGAAG ATGAAGACGC GCCGACGATT
ACCTGCGAAG ACAACCTCAG CCATACATTC ATACTCAAGG CTGGCTTCTC GACGAGCGAT
TGCGTCCCGG GAGAGCCGGT CAAGTTCCAC GTCGCCTTAA GATCAAACTT TGCGGGTGAT
CTGGACGTCA CTCACATCGA TGTTGATTTC ACCGAACTGG ACGCGTACGA ATTGAGCGAT
GCAACTCCTC GAACGTTGCG CTCGAATGAA TGGTTGAAAA TCGATTTCGA AGTCATCCCA
AAGTGTGGGT ACGTGTGCGA GGCGAATTCT TTGACGATCA CGACGGTGTC AGGGTACGAA
CTAGTTCTTC CGTTCACAAC GCAAACGAGC GATTGTTCAG TGATGAATGC AGATTACGAA
TCCCTGCCTG CGTCAGTGCT CAAGATGAAA ATCAAGACGC ACATCCTGGA CGTGAGCGAC
GCACCTCCGC GTGCGTCGAT TTCAATGAGA ACGCCTGATG GTCCGGCGCT CGTGGGTGAG
ATGTCGCGTG TAATCATCAC CGTTTTAAGC GTTGCGGATG AAATCGAGGA AGGTGAACTC
GCGTTGGTCG TCATAGAAGG CGACAAACCG TCTAAGAATG TTCAGATTCT TACGGACTCA
GGCGACGTGA TTAAGGATGG TAAAATTATC GTCGGCGACA TCGCACTTCG CGAGAAATGG
ACAGGGATGA TTTGTTTGCG ATGGACAGGT GAATGTCCGC CCGCCGCCCT ACACGCGTCG
CTCACGGCGA AACGAACAGG GGCGCGAATG ACGGAGCTCT TCAAGGACAA GCCGCGCACG
GCGCCCGTGG AGAATGTGGC GCAAATATCT TGCGATGCAC CTTTCACTGT CAAGCGCGCG
TATCTTCCGG CGTACCGACA ATCGCCATTA GTCCTTCAGG AAGACAAGTG CTCCAAGTCG
CCGCCGGTGG GTGTCATGCT CGCCACGCTT CACGTCGGCG GACCAGCTGA GATAACCCTC
GACGGCGTAC AGAGTCACGA CACCAAGGAT CCCACAAACA CGATGGCGCT CGCAACGACG
GAGACGAGGT CTGACGCCAC GCTTTACGAT GGCGATGCAT TCTTGCACGT GATCCCGCTC
CGTTCACACG AACACGGCGA AGACGCTATT CGCGTCATGT GGCATCGCAC TCACGGAGAT
TCCAGATGTG TGAAAGGCGT TCCGACGGTA ATTTTAAACG AGTACTGCTT GCCAAACGTC
ACTGGTTCGC AACCGCCCCT TGTGGTGGAG CTCAGGTGTC CGCCAAAACT TTTCGTTGGC
GATCCATTCA CGTACGAAGT ACGCGTCTCG AACGCCACGA CGGCGAACTA TGACATTAAG
ATATCCGTTA CGGATAGCAC GGGGTTTGTG TTCGCAGGAA TAAAGCGCGG TACAATGTAC
GTGCCTCCGT TGTCCACGGC GTCGTTTTAC TTTTTACTTG TTCCGATTGT CACCGGAAGC
GCCATCCTTC CCGAGTTGTC GCTCGGCGCC GAGCGCTTCT CCGCGACATT CGTGCCGCCC
ATCGAATCGC GTCGAGTGAT CGTGCGGCCG AAGTACTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_001419115.1 CDS 1..3279 Translation 
Target ORF information:
RefSeq Version XM_001419078.1 Organism Ostreococcus lucimarinus CCE9901 Definition Ostreococcus lucimarinus CCE9901 predicted protein partial mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_001419078.1
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
3241ATGCGTCTAG ACGAACTGCG CGTCCCGCCT CTCGGCCTCG TCCTCGCCTT GGGGCGTCCA
GATTTGCACG AAGAGTGCGC GCGCGTTCTC AGAAATCTCA AGCCTCCGCT CGGATTAACG
ACGCGCGACG ACATCGCGGA CGCCCCCGAT GCGTTGAAAG CGCGCGCGCG CAAGCGATCC
GTCAAGGTGT CGCTGCGCGA GCGCGTCGGG CCGGGCGGCG GGGCCTCCGG TGATGCGCTG
CAGTCGTCTG GTAGGGACGA TCGCGGCGCG GCGACGGCGA CGGCGACGAC GACGGCGAGC
GGCGGATTCC GTCGAACACC CGCGCTTCCG GGAATGATAA AGCGGTCGTG GTTGAAGAAA
CATAAAGATG AACGCCCGGT TGTGGTGATG GCGCTGATCG ATAACGAGGC GTTGGAAAAT
TCGTCGACGA CGAGACGAGC GCTGGAGAGC TCGCTGGAGA AGCTGTACGG ATACGCGCAC
AACGCAGGGG CGTCGTGCTG CGTCGTCGTA GTAGCGTGTG GGCCTGGATT GCCGGAAACG
TTACCGGAGG ATAAAGCGGC GGTGATTCGA CGGGTGCTAC GCGTGGAAAA TCGCGCCATC
GTGACGCTGA ATACGGCGCA CGGTCGCGAC GCGGCGTGGA GCAAAGCGGC GAGGGTGGCA
CAAGAATTGG CGGTGAAGAA TTATGAGAGC GAGTGCGAAC GTCTGACATT GCTTGCAAGT
GAGTCGACGT GTCCTCGGGG GTTGAAAGTG CGGTACGCGT TCAAAGCAGG AGTGTACGCG
GAGTTTAGAC AGGATTGGAC CACGGCTGTT CGGCGATATC GCTTGGCGTA TGATTCCATA
CCAGACGTGA CTCCAGACGT GACGCCGCAA GATGTGATTG AAACACTTGA AGTGAGCCAA
GTGCTACACG TGAAACTGTG CGTTCTACTA TTACACAGTG GTTCGTCGGT GGAGGCTGTG
CATCAAATCG AGGAGCACAT GCGCCGATGG TCGACGGCGC CTCTCAAGGC GTTACCGCGA
GAAGCTTTGC CGACGTTTCA CCGCTGGCGC TCTCACCAGT ACGACGTGTT CGGTGATTTG
CTTAATGGAC GTTTACCCGC ACCAGCTCCC GTTGGTACAC CGCGCACGCA TTTGCCGGCG
TTTTACTTTC ACGCCGCAGC GCACTGTTCC ATTGAGCGTC GACAAGCTTT CGACGACGTA
GTCGACTCGA ACGAAGTGCC CGAGATGGAA GTGAAGGTTG AACATGCATC ATTCGTCGGG
CAATTAAAAG TCGCCGGCAC GGACGATGAG CCTTTGACTG CAGAGCAATA CATGACGTAC
CTTCGTGTCA AGGACACGCG CGACGACATC TCTCGCGAGA CGATCGAACT TTTGACCAAA
GCACATGATC ATTACAAGAC AAACTCGGCG GGTACCGCGG GTGGACGCAC GTTCGCAACG
CTCATTCGCG AACTCGCAAA CGAGTATTTG CACGCGGGAG ACTATGAAAG CGCACTCAAG
CTGTTCAAAA CCGTTGCCGT GGTGTATAGA CGCGAAAAGT GGAACGAGTT GCTGTGCTCT
GTGCTCATGA ATCTCAAGAC GTGCGCCAAA GCGCTTCGAG ACAACGAAGA GTACTTGAAC
ATTTGCCTCG AGATGGCTGC TTTGCACGAA GCCACCGACG AGCACGCGCC TTCTGCGTTT
GCGGCTGCGC TCGCGGCTAT GAACGAACCG CGCGGGGAAG ATGAAGACGC GCCGACGATT
ACCTGCGAAG ACAACCTCAG CCATACATTC ATACTCAAGG CTGGCTTCTC GACGAGCGAT
TGCGTCCCGG GAGAGCCGGT CAAGTTCCAC GTCGCCTTAA GATCAAACTT TGCGGGTGAT
CTGGACGTCA CTCACATCGA TGTTGATTTC ACCGAACTGG ACGCGTACGA ATTGAGCGAT
GCAACTCCTC GAACGTTGCG CTCGAATGAA TGGTTGAAAA TCGATTTCGA AGTCATCCCA
AAGTGTGGGT ACGTGTGCGA GGCGAATTCT TTGACGATCA CGACGGTGTC AGGGTACGAA
CTAGTTCTTC CGTTCACAAC GCAAACGAGC GATTGTTCAG TGATGAATGC AGATTACGAA
TCCCTGCCTG CGTCAGTGCT CAAGATGAAA ATCAAGACGC ACATCCTGGA CGTGAGCGAC
GCACCTCCGC GTGCGTCGAT TTCAATGAGA ACGCCTGATG GTCCGGCGCT CGTGGGTGAG
ATGTCGCGTG TAATCATCAC CGTTTTAAGC GTTGCGGATG AAATCGAGGA AGGTGAACTC
GCGTTGGTCG TCATAGAAGG CGACAAACCG TCTAAGAATG TTCAGATTCT TACGGACTCA
GGCGACGTGA TTAAGGATGG TAAAATTATC GTCGGCGACA TCGCACTTCG CGAGAAATGG
ACAGGGATGA TTTGTTTGCG ATGGACAGGT GAATGTCCGC CCGCCGCCCT ACACGCGTCG
CTCACGGCGA AACGAACAGG GGCGCGAATG ACGGAGCTCT TCAAGGACAA GCCGCGCACG
GCGCCCGTGG AGAATGTGGC GCAAATATCT TGCGATGCAC CTTTCACTGT CAAGCGCGCG
TATCTTCCGG CGTACCGACA ATCGCCATTA GTCCTTCAGG AAGACAAGTG CTCCAAGTCG
CCGCCGGTGG GTGTCATGCT CGCCACGCTT CACGTCGGCG GACCAGCTGA GATAACCCTC
GACGGCGTAC AGAGTCACGA CACCAAGGAT CCCACAAACA CGATGGCGCT CGCAACGACG
GAGACGAGGT CTGACGCCAC GCTTTACGAT GGCGATGCAT TCTTGCACGT GATCCCGCTC
CGTTCACACG AACACGGCGA AGACGCTATT CGCGTCATGT GGCATCGCAC TCACGGAGAT
TCCAGATGTG TGAAAGGCGT TCCGACGGTA ATTTTAAACG AGTACTGCTT GCCAAACGTC
ACTGGTTCGC AACCGCCCCT TGTGGTGGAG CTCAGGTGTC CGCCAAAACT TTTCGTTGGC
GATCCATTCA CGTACGAAGT ACGCGTCTCG AACGCCACGA CGGCGAACTA TGACATTAAG
ATATCCGTTA CGGATAGCAC GGGGTTTGTG TTCGCAGGAA TAAAGCGCGG TACAATGTAC
GTGCCTCCGT TGTCCACGGC GTCGTTTTAC TTTTTACTTG TTCCGATTGT CACCGGAAGC
GCCATCCTTC CCGAGTTGTC GCTCGGCGCC GAGCGCTTCT CCGCGACATT CGTGCCGCCC
ATCGAATCGC GTCGAGTGAT CGTGCGGCCG AAGTACTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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PubMed
The tiny eukaryote Ostreococcus provides genomic insights into the paradox of plankton speciation.
Proceedings of the National Academy of Sciences of the United States of America104(18)7705-10(2007 May)
Palenik B,Grimwood J,Aerts A,Rouzé P,Salamov A,Putnam N,Dupont C,Jorgensen R,Derelle E,Rombauts S,Zhou K,Otillar R,Merchant SS,Podell S,Gaasterland T,Napoli C,Gendler K,Manuell A,Tai V,Vallon O,Piganeau G,Jancek S,Heijde M,Jabbari K,Bowler C,Lohr M,Robbens S,Werner G,Dubchak I,Pazour GJ,Ren Q,Paulsen I,Delwiche C,Schmutz J,Rokhsar D,Van de Peer Y,Moreau H,Grigoriev IV
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