RCC809

Ostreococcus_clade_B

Distributed

NB: Empty fields are hidden.

Please login or register to order strains

ABS compliance

Are users allowed to use this biological resource without applying for formal ABS authorization?
Yes - (D) No information on country of origin, resource sampled pre-NP

ABS = Access & Benefit Sharing according to the Nagoya Protocol (NP) to the Convention for Biological Diversity (find out more here)
ABS Clearing House EMBRC step by step guide
IDENTITY

Ostreococcus_clade_B

Domain: 
Eukaryota
Division: 
Chlorophyta
Class: 
Mamiellophyceae
Order: 
Mamiellales
Family: 
Bathycoccaceae
Genus: 
Ostreococcus
Clade: 
clade B
Strain name: 
Eum16BBL_clonal
Strain name synonyms: 
NIES-2674
Authentic culture: 
STATUS
Clonal: 
Axenic: 
Pure: 
Heterotrophic: 
Toxic: 
Symbiotic: 
Transformed: 
MORPHOLOGY
Cell shape: 
coccoid
Length: 
2.00
Cell motility: 
non-motile
ORIGIN
Sampling ocean: 
Atlantic Ocean
Sampling regional sea: 
Tropical Atlantic
Sampling country: 
International waters
Sampling ecosystem: 
pelagic
Sampling cruise: 
EUMELI3
Sampling station: 
OLIGO
Sampling depth (m): 
105
Sampling date: 
Tuesday, October 1, 1991
Isolation by: 
Partensky F.
CULTURE CONDITIONS
RCC medium: 
RCC temperature: 
20.00
RCC transfer period weeks: 
2.00
RCC light: 
10
Remark: 
Clonal version of RCC 141. Clade B confirmed by sequencing 2019-12-20.
RCC Staff >
Details for RCC staff only
Date entered catalog: 
Thursday, March 10, 2005
Mother strain: 
RCC141
Sampling by: 
Partensky F.
Isolation medium: 
mod.K/10
Isolation light: 
10
Purification date: 
Wednesday, December 1, 2004
Purification by: 
Rodriguez F.
Purification method: 
One colony on plate

Sequences available for this RCC strain

GenBank Accession Gene name Gene location Genome link Genbank organism Genbank taxonomy Description
JA223053 Sequence 447 from Patent WO2011020746 nucleus Ostreococcus sp. RCC809 Eukaryota; Viridiplantae; Chlorophyta; prasinophytes; Mamiellophyceae; Mamiellales; Bathycoccaceae; Ostreococcus Sequence 447 from Patent WO2011020746
HH804881 Sequence 457 from Patent WO2010097343 nucleus Ostreococcus sp. RCC809 Eukaryota; Viridiplantae; Chlorophyta; prasinophytes; Mamiellophyceae; Mamiellales; Bathycoccaceae; Ostreococcus Sequence 457 from Patent WO2010097343
PRJNA30933 Genome nucleus Ostreococcus sp. RCC809
HI660908 Sequence 489 from Patent WO2010127969 nucleus Ostreococcus sp. RCC809 Eukaryota; Viridiplantae; Chlorophyta; prasinophytes; Mamiellophyceae; Mamiellales; Bathycoccaceae; Ostreococcus Sequence 489 from Patent WO2010127969
JC051746 Sequence 19 from Patent WO2013153404 nucleus Ostreococcus sp. RCC809 Eukaryota; Viridiplantae; Chlorophyta; prasinophytes; Mamiellophyceae; Mamiellales; Bathycoccaceae; Ostreococcus Sequence 19 from Patent WO2013153404
JA223314 Sequence 708 from Patent WO2011020746 nucleus Ostreococcus sp. RCC809 Eukaryota; Viridiplantae; Chlorophyta; prasinophytes; Mamiellophyceae; Mamiellales; Bathycoccaceae; Ostreococcus Sequence 708 from Patent WO2011020746
JB742101 Sequence 32 from Patent EP2593555 nucleus Ostreococcus sp. RCC809 Eukaryota; Viridiplantae; Chlorophyta; prasinophytes; Mamiellophyceae; Mamiellales; Bathycoccaceae; Ostreococcus Sequence 32 from Patent EP2593555
JB309448 Sequence 35 from Patent EP2547774 nucleus Ostreococcus sp. RCC809 Eukaryota; Viridiplantae; Chlorophyta; prasinophytes; Mamiellophyceae; Mamiellales; Bathycoccaceae; Ostreococcus Sequence 35 from Patent EP2547774
JB309450 Sequence 37 from Patent EP2547774 nucleus Ostreococcus sp. RCC809 Eukaryota; Viridiplantae; Chlorophyta; prasinophytes; Mamiellophyceae; Mamiellales; Bathycoccaceae; Ostreococcus Sequence 37 from Patent EP2547774
JB331920 Sequence 57 from Patent EP2547775 nucleus Ostreococcus sp. RCC809 Eukaryota; Viridiplantae; Chlorophyta; prasinophytes; Mamiellophyceae; Mamiellales; Bathycoccaceae; Ostreococcus Sequence 57 from Patent EP2547775
JB742127 Sequence 58 from Patent EP2593555 nucleus Ostreococcus sp. RCC809 Eukaryota; Viridiplantae; Chlorophyta; prasinophytes; Mamiellophyceae; Mamiellales; Bathycoccaceae; Ostreococcus Sequence 58 from Patent EP2593555
JB331922 Sequence 59 from Patent EP2547775 nucleus Ostreococcus sp. RCC809 Eukaryota; Viridiplantae; Chlorophyta; prasinophytes; Mamiellophyceae; Mamiellales; Bathycoccaceae; Ostreococcus Sequence 59 from Patent EP2547775
JB414172 Sequence 67 from Patent WO2011006717 nucleus Ostreococcus sp. RCC809 Eukaryota; Viridiplantae; Chlorophyta; prasinophytes; Mamiellophyceae; Mamiellales; Bathycoccaceae; Ostreococcus Sequence 67 from Patent WO2011006717
JB742147 Sequence 78 from Patent EP2593555 nucleus Ostreococcus sp. RCC809 Eukaryota; Viridiplantae; Chlorophyta; prasinophytes; Mamiellophyceae; Mamiellales; Bathycoccaceae; Ostreococcus Sequence 78 from Patent EP2593555
HC880478 Sequence 113 from Patent WO2010055024 nucleus Ostreococcus sp. RCC809 Eukaryota; Viridiplantae; Chlorophyta; prasinophytes; Mamiellophyceae; Mamiellales; Bathycoccaceae; Ostreococcus Sequence 113 from Patent WO2010055024
JC551471 Sequence 280 from Patent EP2755465 nucleus Ostreococcus sp. RCC809 Eukaryota; Viridiplantae; Chlorophyta; prasinophytes; Mamiellophyceae; Mamiellales; Bathycoccaceae; Ostreococcus Sequence 280 from Patent EP2755465
JB414413 Sequence 308 from Patent WO2011006717 nucleus Ostreococcus sp. RCC809 Eukaryota; Viridiplantae; Chlorophyta; prasinophytes; Mamiellophyceae; Mamiellales; Bathycoccaceae; Ostreococcus Sequence 308 from Patent WO2011006717
JA223051 Sequence 445 from Patent WO2011020746 nucleus Ostreococcus sp. RCC809 Eukaryota; Viridiplantae; Chlorophyta; prasinophytes; Mamiellophyceae; Mamiellales; Bathycoccaceae; Ostreococcus Sequence 445 from Patent WO2011020746

Associated references

Displaying 1 - 20 of 20
Degraeve-Guilbault C, Bréhélin C, Haslam R, Sayanova O, Marie-Luce G, Jouhet J, Corellou F.  2017.  Glycerolipid characterization and nutrient deprivation-associated changes in the green picoalga ostreococcus tauri. Plant Physiology. 173:2060–2080. PDF icon Download pdf (2.8 MB)
Derilus D, Rahman MZ, Pinero F, Massey SE.  2020.  Synergism between the Black Queen effect and the proteomic constraint on genome size reduction in the photosynthetic picoeukaryotes. Scientific Reports. 10:8918. PDF icon Download pdf (2.27 MB)
Leconte, Benites, Vannier, Wincker, Piganeau, Jaillon.  2020.  Genome resolved biogeography of mamiellales. Genes. 11:66. PDF icon Download pdf (1.03 MB)
Subirana L, Péquin B, Michely S, Escande M-L, Meilland J, Derelle E, Marin B, Piganeau G, Desdevises Y, Moreau H et al..  2013.  Morphology, genome plasticity, and phylogeny in the genus ostreococcus reveal a cryptic species, o. mediterraneus sp. nov. (mamiellales, mamiellophyceae). Protist. 164:643–659. PDF icon Download pdf (4.48 MB)
Blanc-Mathieu R, Krasovec M, Hebrard M, Yau S, Desgranges E, Martin J, Schackwitz W, Kuo A, Salin G, Donnadieu C et al..  2017.  Population genomics of picophytoplankton unveils novel chromosome hypervariability. Science Advances. 3:e1700239.
Limardo AJ, Sudek S, Choi CJae, Poirier C, Rii YM, Blum M, Roth R, Goodenough U, Church MJ, Worden AZ.  2017.  Quantitative biogeography of picoprasinophytes establishes ecotype distributions and significant contributions to marine phytoplankton. Environmental Microbiology. PDF icon Download pdf (2.02 MB)
Schaum C-E, Rost B, Collins S.  2015.  Environmental stability affects phenotypic evolution in a globally distributed marine picoplankton. The ISME Journal. :1–10. PDF icon Download pdf (814.38 KB)
Weynberg KD, Allen MJ, Wilson WH.  2017.  Marine prasinoviruses and their tiny plankton hosts : A review. Viruses. :1–20. PDF icon Download pdf (4.59 MB)
Cardol P, Bailleul B, Rappaport F, Derelle E, Baal D, Breyton C, Bailey S, Wollman FAndré, Grossman A, Moreau H et al..  2008.  An original adaptation of photosynthesis in the marine green alga Ostreococcus. Proceedings of the National Academy of Sciences of the United States of America. 105:7881–7886. PDF icon Download pdf (636.13 KB)
Bouget FYves.  2019.  Transient transformation of ostreococcus species (OTTH595, RCC809 and RCC802) and bathycoccus. PDF icon Download pdf (152.75 KB)
Karpowicz SJ, Prochnik SE, Grossman AR, Merchant SS.  2011.  The GreenCut2 resource, a phylogenomically derived inventory of proteins specific to the plant lineage. Journal of Biological Chemistry. 286:21427–21439. PDF icon Download pdf (1.45 MB)
Guyon J-baptiste, Schatt P, Lozano J-C, Liennard M, Bouget F-Y.  2018.  Comparative analysis of culture conditions for the optimization of carotenoid production in several strains of the picoeukaryote ostreococcus. Marine Drugs. 16:76. PDF icon Download pdf (1.45 MB)
Yau S, Hemon C, Derelle E, Moreau H, Piganeau G, Grimsley N.  2016.  A viral immunity chromosome in the marine picoeukaryote, ostreococcus tauri. PLOS Pathogens. 12:e1005965. PDF icon Download pdf (2.55 MB)
Six C, Sherrard R, Lionard M, Roy S, Campbell DA.  2009.  Photosystem II and pigment dynamics among ecotypes of the green alga Ostreococcus. Plant Physiology. 151:379–390. PDF icon Download pdf (286.12 KB)
Monier A, Chambouvet A, Milner DS, Attah V, Terrado R, Lovejoy C, Moreau H, Santoro AE, Derelle E, Richards TA.  2017.  Host-derived viral transporter protein for nitrogen uptake in infected marine phytoplankton. Proceedings of the National Academy of Sciences. :201708097. PDF icon Download pdf (7.09 MB)
Castillo YM, Forn I, Yau S, Morán XAnxelu G, Alonso-Sáez L, Arandia-Gorostidi N, Vaqué D, Sebastián M.  2021.  Seasonal dynamics of natural Ostreococcus viral infection at the single cell level using VirusFISH. Environmental Microbiology. n/a PDF icon Download pdf (3.15 MB)
Benites LFelipe, Bucchini F, Sanchez-Brosseau S, Grimsley N, Vandepoele K, Piganeau G.  2021.  Evolutionary Genomics of Sex-Related Chromosomes at the Base of the Green Lineage. Genome Biology and Evolution. 13:evab216. PDF icon Download pdf (2 MB)
Yung CCM, Redondo ERey, Sanchez F, Yau S, Piganeau G.  2022.  Diversity and Evolution of Mamiellophyceae: Early-Diverging Phytoplanktonic Green Algae Containing Many Cosmopolitan Species. Journal of Marine Science and Engineering. 10:240. PDF icon Download pdf (6.06 MB)
Strauss J, Choi CJae, Grone J, Wittmers F, Jimenez V, Makareviciute-Fichtner K, Bachy C, Jaeger GSpiro, Poirier C, Eckmann C et al..  2023.  The Bay of Bengal exposes abundant photosynthetic picoplankton and newfound diversity along salinity-driven gradients. Environmental Microbiology. PDF icon Download pdf (7.31 MB)
Sands E, Davies S, Puxty RJohn, Vergé V, Bouget F-Y, Scanlan DJohn, Carré IAlice.  2023.  Genetic and physiological responses to light quality in a deep ocean ecotype of Ostreococcus, an ecologically important photosynthetic picoeukaryote. Journal of Experimental Botany. :erad347. PDF icon Download pdf (1.84 MB)