| Gene Symbol | OSTLU_30685 |
| Entrez Gene ID | 5000603 |
| Full Name | predicted protein |
| Gene Type | protein-coding |
| Organism | Ostreococcus lucimarinus CCE9901 |
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OSTLU_30685 cDNA ORF clone, Ostreococcus lucimarinus CCE9901
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Gene
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Clones
gRNAs
The following OSTLU_30685 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the OSTLU_30685 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 OOe01182 Clone ID Related Accession (Same CDS sequence) XM_001416954.1 Accession Version XM_001416954.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4089bp)
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_009357). 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
4081ATGGCGGAGG TCGCGCGAGA CGATCGGTCG CCGACGGTGG GAGGGAGTAA CACGCTGTCC
ATGGACGTCG AGGTCGTGGA TGGAATGGTG CCGAAGCACG AGTTTGATCG AGCGATCGAA
GCGGCGCAGC AGGCGCTGCG AGCGAAGACG GCGTCGAGTC AGCAGATGCT GGCGCAGGCG
TCGAGCGCCA TGCGCAACGC GCTCACGGCG CTGTCGCTGA GCGAACAAGA GGTGGCCAAC
TTGAAGGCGA CGGTGAAGGA GCTGCAAGAG CGACCGGCGG AAGGGACGAA TGAAATCATC
GAACGCGAGC GAGAGGAGCT GAGACAGGCG CAACAGCGCG TGGCTGATTT GTCGTCGGCG
TTTCGGCAGT TGCAGGGCGA GGTGGCGCGC GTGCGATACG AGCAGGAGGG CTTCGACATG
CCGGTGGCGA TGTCGTTGCC GGTGAAGATT GCACCGGAAT TGGCGAGTCG AGTGACGGTG
ATCGCGCAGC TGGTGATGCT GGGGTACTCG TATGAGGATG GGGAGATGGC TTTGGACGCG
ATCAGGGTGA ATGACTTGCA CTTGGCGCTC GAGTGGCTTG AGGGAAGACA CGCGACGAAG
TCGCAATTTT CAATCAACCA GCGACGCGCG GCGGAGTTGG ATGACGAAAC AAAAGCGCGT
CGCATCACAA ACACGACAGA AGAGGCGACG CAAGATCGTA CGCGGAGCCA CAAGCCTCGA
CCGGCGGCGC CTGCGCGGGC TTTGCGCGCA CCGCCGACTC AGGGGCCAGA TAGAGTCGAG
GAGGTACGTG TCGTCGCCCG CAGCGGAACT AAAGCTACGG TGATGCGTCA GCGGTCAATG
ATGAGCACAT ACGACGCTCG AAAGCGCGCG GTGTCGTCGA TGATTTGTAT GGCGATCAAG
CCTCCTGGTG TCGCCCAAGG AATGACAAAG GAGGACTCGG AAGCGATCGC CCAACGTTGC
ATCGAGGGAC TAGCGCGTCT CGCGCACAAG AGCAGTGCTT TTATGATTCT CACTCTTGGA
GGCAATCGAT GCGCTTTCGA CTGCTTGAAG CTCTACGAAA CGAATCCCGA CGTCGTCGTC
GCGGCTTTCA AGTTGATGCG AGCACTGGAG AGCAATATGT CCACGATGAT GCACATCAAA
AAGCAACAGC GCTTCAGATT GCTTCCCAAC GCCATTTCGC ACGCGACTGG TCTTCATGCC
GGCGAAATTG ACATCGTTGG CGAAGGGGCT CATGCCTTGT GGGCATCGAA TACGTTGGGA
GGAAAGCTTG CTCAAGAACG TTGCAAGAGC TCCGGATTTT TGCGTTACGT TAAGACATCA
CTCAACGATC TGAAGATCAA AGAAAAGGAT CCGAACGCCA AGTACCGTCA CAAAATTGTG
GGTATGCTCT TATCACTTGC GAACGGCAAC AAGACCATGC AAAACTTCTT GGTAAATGAG
GGTTATCGCG CGATGATTCG CAAGACACTT ACCGAAAATC CTTCACTTTC GTTTGCCGGC
GAGTTTTCGT CCCTCAAAGA TTGGATCAAA GAAGAATACG AGTCGCCATC TTTCGCTCCC
GACGATGAAA CACCGAAAGC ACGAACTCCA GGAGGACGTG ATGCTAATGA GTCGAACGAT
AAACAGTCGA AGAAACCGAA GGATGATCGC GAGAAGAAAG TTATTGAACA GCAGCAGAGA
GCGTCAGCTC TGCGCTCACA CATGACGGCG CGTGGAATCA CGAAGGAAGG CATTTATTTC
GCGAAGAAAA GAGTGATTAT GATGCTATGC AAGATTGCTC TTAATCCTCC AGGCTCGGTT
GCTGGCGTGT CGAAGGCGGA AAGCGAAGAA ATCGCTTACC GCTCCCTGCT CGCATTGGCG
CGGATCACGG AGAAGGGATG TGCATACCTT GTTCTCACGT GCGGTGGTCC TCGCACGGCG
GTGGAGTGCT TGCGTTACTA TTTGTACAAT CCCGACATGA TGTATGCGTG TATGCGTGTC
TTGCGCGCCT TGCTTACGGA TCCAAGCACG ATGATGCGAC TGATGAAACA AGTGCGTTTC
AAGATCTTGC CGTCTGCAAT CATGGACGCA GTGGTGCGTC ACTCAGATGA TCTGGAGATG
AAAGCTGAAG CAGCGCACGC TCTCTGGGCG TACACCGGTG TTGGTGGTAA ATTTGCGCAA
CAGAATGTCA TGGATTGCGG CCCGCAAGTC ATGGATTTCC TCAAAGAAGG GTTGAGCCAG
GCGCGCGCTG ACGTTGGATC TAACCAGTAT GTGTCGACCA TTCGCAAGTT TCTCGGATGC
ATTCTTTCCC TTGCAAAAGA CAACAAAGAG ATTCAAGACC AACTGGTTGA ACGTGGGTTG
CGCAGCGATG TGCGAAAAGC ACTCAGCGAA AATCAAGGCA TTTCCTTTCA CGGTGAGTTT
GGTTCGTTGC GTGATTGGAT CAGAGGCGAT AGAGGCGGTG CGAAATCTAC CTCTCGAAGT
AACCCCGTAT CCCGGACGGA GCGAAACGCC GCGGAAAGTG CGCTCGAATC CGGGACGCAA
GAGGATTCTC AACTTTCAAA CGATCATATT AAGGCGCAAA AGTTATTTGC ACAAGCCTCA
GAGGACGAAA GCGCGTTGAC GCCGGCGCCA AAAGTGAGGA CGAGTGCGCA AAATCAAGAG
GAAGACGAAC GTCAACGATC CAGACCAGAT CGCGCTGAGA CGGCGCCAAA AGTGAGGACG
AGTGCGCAAA ATCAAGAGGA AGACGAACGT CAACGATCTA GACCAGATCG CGCTGAGACG
GCGCCAAAAG TGAGGACGAG TGCGCAAAAT CAAGAGGAAG ACGAACGTCA ACGATCTAGA
CCAGATCGCG CTGAGACGGC GCCAAAAGTG AGGACGAGTG CGCAAAATCA AGAGGAAGAC
GAACGTCAAC GATCTAGACC AGATCGCGCT GAGACGGCGC CAAAAGTGAG GACGAGTGCG
CAAAATCAAG AGGAAGACGA ACGTCAACGA TCTAGACCAG ATCGCGCTGA GACGGCGCCA
AAAGTGAGGA CGAGTGCGCA AAATCAAGGG CAAGACGAAC GTCAACGCTC TAGACCAGAT
CGCGCCGAGA CGGCGCCAAA AGCGAGGACG AGTGCGCAAA ATCAAGGGCA AGACGAGCGT
CAACGCTCTA GCCTCAATGA CGCAAATTCA TCGCTTCAAG CTATTCATTC TCAGTCTGGT
TTGGATGCTT TTGACACCCG AGGTGCGGAG TCAAAGTCGG CTAAGCAAGA TGAGGTTGAT
GATGGGAAGC AAATGAGCGC GCTGCAGCGT AACTTCTCTG GAGAGAACCT GCATCAAAGT
GGGGAAGGAA AGTCTTCGCA TCTTCGTAGT AAGCAACCCA GTTTTGGAGA AGTGAAGGAA
CGCAGTAAAC ATGAGTGGAC CATAAACGAA GCTATTTCGG TTTTGAAAGC ACGTGACAGC
AGAATGCACG TTGAAGCCTC TGAAGCTCTC GCAAACATGT TCTACGAGGA ACCAACCGTT
GGCATCGCAA TCGTGCTGAA TGGAGGCCTT GCTGCTTTGG CGCACGCTAT CACTATTGGT
GATGCGACTT TCTGTACTGG TGCCTGCGCG CTAATTCACA TGCTTACGTC GAGTAACTTG
ACGCTCAAAC GCTGCCAGTC GGACGCATCT GTTATCAGTG GCGACATGTT CAAGGCCATC
TTAGACGCCA TGTCGAAGTC TTCCAGCAAC ATTGAGTTGC AACAGTGGGG CGCCACAGCT
ATTTGGGCGC TCGTCAAGGA GAATCATCGC GCTAAGGTGG CATTCATGTT AGTTAAGACC
AACCAAGGCG AATCTTCGCT AAGAGTCTTG AAGAACGCCT TGAAAGATTT CGGCGCCGAA
TCTGAGGGCA TCACGCGCGC CGTCATCGGG TGCACACTGG CGTTGGCGCT CAATTCGGTC
CCATCTCAAA AGGCCATATC CGATCTTGCG ATGCCATACC TTATGTTGGA TATATTAGCC
AAGCATCCAC AGATTTCGTT CCGAGGTGAA TTCGATAATC TCCGTGAATG GCTTAGAGAT
AACTCGTCGC GCAAGGAAGA AGTTCACCGC GACGTCTCGT TCAACGAACG GCACTCAAAG
AAAGATTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_001416991.1 CDS 1..4089 Translation 
Target ORF information:
RefSeq Version XM_001416954.1 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_001416954.1
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
4081ATGGCGGAGG TCGCGCGAGA CGATCGGTCG CCGACGGTGG GAGGGAGTAA CACGCTGTCC
ATGGACGTCG AGGTCGTGGA TGGAATGGTG CCGAAGCACG AGTTTGATCG AGCGATCGAA
GCGGCGCAGC AGGCGCTGCG AGCGAAGACG GCGTCGAGTC AGCAGATGCT GGCGCAGGCG
TCGAGCGCCA TGCGCAACGC GCTCACGGCG CTGTCGCTGA GCGAACAAGA GGTGGCCAAC
TTGAAGGCGA CGGTGAAGGA GCTGCAAGAG CGACCGGCGG AAGGGACGAA TGAAATCATC
GAACGCGAGC GAGAGGAGCT GAGACAGGCG CAACAGCGCG TGGCTGATTT GTCGTCGGCG
TTTCGGCAGT TGCAGGGCGA GGTGGCGCGC GTGCGATACG AGCAGGAGGG CTTCGACATG
CCGGTGGCGA TGTCGTTGCC GGTGAAGATT GCACCGGAAT TGGCGAGTCG AGTGACGGTG
ATCGCGCAGC TGGTGATGCT GGGGTACTCG TATGAGGATG GGGAGATGGC TTTGGACGCG
ATCAGGGTGA ATGACTTGCA CTTGGCGCTC GAGTGGCTTG AGGGAAGACA CGCGACGAAG
TCGCAATTTT CAATCAACCA GCGACGCGCG GCGGAGTTGG ATGACGAAAC AAAAGCGCGT
CGCATCACAA ACACGACAGA AGAGGCGACG CAAGATCGTA CGCGGAGCCA CAAGCCTCGA
CCGGCGGCGC CTGCGCGGGC TTTGCGCGCA CCGCCGACTC AGGGGCCAGA TAGAGTCGAG
GAGGTACGTG TCGTCGCCCG CAGCGGAACT AAAGCTACGG TGATGCGTCA GCGGTCAATG
ATGAGCACAT ACGACGCTCG AAAGCGCGCG GTGTCGTCGA TGATTTGTAT GGCGATCAAG
CCTCCTGGTG TCGCCCAAGG AATGACAAAG GAGGACTCGG AAGCGATCGC CCAACGTTGC
ATCGAGGGAC TAGCGCGTCT CGCGCACAAG AGCAGTGCTT TTATGATTCT CACTCTTGGA
GGCAATCGAT GCGCTTTCGA CTGCTTGAAG CTCTACGAAA CGAATCCCGA CGTCGTCGTC
GCGGCTTTCA AGTTGATGCG AGCACTGGAG AGCAATATGT CCACGATGAT GCACATCAAA
AAGCAACAGC GCTTCAGATT GCTTCCCAAC GCCATTTCGC ACGCGACTGG TCTTCATGCC
GGCGAAATTG ACATCGTTGG CGAAGGGGCT CATGCCTTGT GGGCATCGAA TACGTTGGGA
GGAAAGCTTG CTCAAGAACG TTGCAAGAGC TCCGGATTTT TGCGTTACGT TAAGACATCA
CTCAACGATC TGAAGATCAA AGAAAAGGAT CCGAACGCCA AGTACCGTCA CAAAATTGTG
GGTATGCTCT TATCACTTGC GAACGGCAAC AAGACCATGC AAAACTTCTT GGTAAATGAG
GGTTATCGCG CGATGATTCG CAAGACACTT ACCGAAAATC CTTCACTTTC GTTTGCCGGC
GAGTTTTCGT CCCTCAAAGA TTGGATCAAA GAAGAATACG AGTCGCCATC TTTCGCTCCC
GACGATGAAA CACCGAAAGC ACGAACTCCA GGAGGACGTG ATGCTAATGA GTCGAACGAT
AAACAGTCGA AGAAACCGAA GGATGATCGC GAGAAGAAAG TTATTGAACA GCAGCAGAGA
GCGTCAGCTC TGCGCTCACA CATGACGGCG CGTGGAATCA CGAAGGAAGG CATTTATTTC
GCGAAGAAAA GAGTGATTAT GATGCTATGC AAGATTGCTC TTAATCCTCC AGGCTCGGTT
GCTGGCGTGT CGAAGGCGGA AAGCGAAGAA ATCGCTTACC GCTCCCTGCT CGCATTGGCG
CGGATCACGG AGAAGGGATG TGCATACCTT GTTCTCACGT GCGGTGGTCC TCGCACGGCG
GTGGAGTGCT TGCGTTACTA TTTGTACAAT CCCGACATGA TGTATGCGTG TATGCGTGTC
TTGCGCGCCT TGCTTACGGA TCCAAGCACG ATGATGCGAC TGATGAAACA AGTGCGTTTC
AAGATCTTGC CGTCTGCAAT CATGGACGCA GTGGTGCGTC ACTCAGATGA TCTGGAGATG
AAAGCTGAAG CAGCGCACGC TCTCTGGGCG TACACCGGTG TTGGTGGTAA ATTTGCGCAA
CAGAATGTCA TGGATTGCGG CCCGCAAGTC ATGGATTTCC TCAAAGAAGG GTTGAGCCAG
GCGCGCGCTG ACGTTGGATC TAACCAGTAT GTGTCGACCA TTCGCAAGTT TCTCGGATGC
ATTCTTTCCC TTGCAAAAGA CAACAAAGAG ATTCAAGACC AACTGGTTGA ACGTGGGTTG
CGCAGCGATG TGCGAAAAGC ACTCAGCGAA AATCAAGGCA TTTCCTTTCA CGGTGAGTTT
GGTTCGTTGC GTGATTGGAT CAGAGGCGAT AGAGGCGGTG CGAAATCTAC CTCTCGAAGT
AACCCCGTAT CCCGGACGGA GCGAAACGCC GCGGAAAGTG CGCTCGAATC CGGGACGCAA
GAGGATTCTC AACTTTCAAA CGATCATATT AAGGCGCAAA AGTTATTTGC ACAAGCCTCA
GAGGACGAAA GCGCGTTGAC GCCGGCGCCA AAAGTGAGGA CGAGTGCGCA AAATCAAGAG
GAAGACGAAC GTCAACGATC CAGACCAGAT CGCGCTGAGA CGGCGCCAAA AGTGAGGACG
AGTGCGCAAA ATCAAGAGGA AGACGAACGT CAACGATCTA GACCAGATCG CGCTGAGACG
GCGCCAAAAG TGAGGACGAG TGCGCAAAAT CAAGAGGAAG ACGAACGTCA ACGATCTAGA
CCAGATCGCG CTGAGACGGC GCCAAAAGTG AGGACGAGTG CGCAAAATCA AGAGGAAGAC
GAACGTCAAC GATCTAGACC AGATCGCGCT GAGACGGCGC CAAAAGTGAG GACGAGTGCG
CAAAATCAAG AGGAAGACGA ACGTCAACGA TCTAGACCAG ATCGCGCTGA GACGGCGCCA
AAAGTGAGGA CGAGTGCGCA AAATCAAGGG CAAGACGAAC GTCAACGCTC TAGACCAGAT
CGCGCCGAGA CGGCGCCAAA AGCGAGGACG AGTGCGCAAA ATCAAGGGCA AGACGAGCGT
CAACGCTCTA GCCTCAATGA CGCAAATTCA TCGCTTCAAG CTATTCATTC TCAGTCTGGT
TTGGATGCTT TTGACACCCG AGGTGCGGAG TCAAAGTCGG CTAAGCAAGA TGAGGTTGAT
GATGGGAAGC AAATGAGCGC GCTGCAGCGT AACTTCTCTG GAGAGAACCT GCATCAAAGT
GGGGAAGGAA AGTCTTCGCA TCTTCGTAGT AAGCAACCCA GTTTTGGAGA AGTGAAGGAA
CGCAGTAAAC ATGAGTGGAC CATAAACGAA GCTATTTCGG TTTTGAAAGC ACGTGACAGC
AGAATGCACG TTGAAGCCTC TGAAGCTCTC GCAAACATGT TCTACGAGGA ACCAACCGTT
GGCATCGCAA TCGTGCTGAA TGGAGGCCTT GCTGCTTTGG CGCACGCTAT CACTATTGGT
GATGCGACTT TCTGTACTGG TGCCTGCGCG CTAATTCACA TGCTTACGTC GAGTAACTTG
ACGCTCAAAC GCTGCCAGTC GGACGCATCT GTTATCAGTG GCGACATGTT CAAGGCCATC
TTAGACGCCA TGTCGAAGTC TTCCAGCAAC ATTGAGTTGC AACAGTGGGG CGCCACAGCT
ATTTGGGCGC TCGTCAAGGA GAATCATCGC GCTAAGGTGG CATTCATGTT AGTTAAGACC
AACCAAGGCG AATCTTCGCT AAGAGTCTTG AAGAACGCCT TGAAAGATTT CGGCGCCGAA
TCTGAGGGCA TCACGCGCGC CGTCATCGGG TGCACACTGG CGTTGGCGCT CAATTCGGTC
CCATCTCAAA AGGCCATATC CGATCTTGCG ATGCCATACC TTATGTTGGA TATATTAGCC
AAGCATCCAC AGATTTCGTT CCGAGGTGAA TTCGATAATC TCCGTGAATG GCTTAGAGAT
AACTCGTCGC GCAAGGAAGA AGTTCACCGC GACGTCTCGT TCAACGAACG GCACTCAAAG
AAAGATTAGThe 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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