Roscoff Culture Collection

Marine Microalgae, Macroalgae, Protists, Bacteria and Viruses

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Langer G, Taylor AR, Walker CE, Meyer EM, Ben Joseph O, Gal A, Harper GM, Probert I, Brownlee C, Wheeler GL. 2021. Role of silicon in the development of complex crystal shapes in coccolithophores. New Phytologist. 231:1845–1857.

Langer et al. - 2021 - Role of silicon in the development of complex crys.pdf (2.03 MB)

Vaulot D, Le Gall F, Marie D, Guillou L, Partensky F. 2004. The roscoff culture collection (RCC): a collection dedicated to marine picoplankton. Nova Hedwigia. 79:49–70.

Vaulot et al_2004_The roscoff culture collection (RCC).pdf (1.77 MB)

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Piganeau G, Moreau H. 2007. Screening the Sargasso Sea metagenome for data to investigate genome evolution in Ostreococcus (Prasinophyceae, Chlorophyta). Gene. 406:184–190.

Beaufort L, Probert I, de Garidel-Thoron T, Bendif EM, Ruiz-Pino D, Metzl N, Goyet C, Buchet N, Coupel P, Grelaud M et al.. 2011. Sensitivity of coccolithophores to carbonate chemistry and ocean acidification. Nature. 476:80–83.

Beaufort et al_2011_Sensitivity of coccolithophores to carbonate chemistry and ocean acidification.pdf (621.83 KB)

Tsuboi S, Yamaguchi H, Fuchida S, Koshikawa H, Kawachi M. 2019. Short-term changes in marine prokaryotic and eukaryotic microalgal communities exposed to the leachate of a seafloor hydrothermal sulfide. Water, Air, & Soil Pollution. 230:175.

Jardillier L, Zubkov MV, Pearman J, Scanlan DJ. 2010. Significant CO2 fixation by small prymnesiophytes in the subtropical and tropical northeast Atlantic Ocean. The ISME Journal. 4:1180–1192.

Jardillier et al_2010_Significant CO2 fixation by small prymnesiophytes in the subtropical and.pdf (669.17 KB)

Dia A, Guillou L, Mauger S, Bigeard E, Marie D, Valero M, Destombe C. 2014. Spatiotemporal changes in the genetic diversity of harmful algal blooms caused by the toxic dinoflagellate Alexandrium minutum. Molecular Ecology. 23:549–560.

Dia et al_2014_Spatiotemporal changes in the genetic diversity of harmful algal blooms caused.pdf (764.4 KB)

Ral JP, Derelle E, Ferraz C, Wattebled F, Farinas B, Corellou F, Buleon A, Slomianny MC, Delvalle D, D HC et al.. 2004. Starch division and partitioning. A mechanism for granule propagation and maintenance in the picophytoplanktonic green alga Ostreococcus tauri. Plant Physiology. 136:3333–3340.

Ral et al_2004_Starch division and partitioning.pdf (257.21 KB)

Graeff JE, Leblond JD. 2021. Sterol Composition of the Peridinioid Dinoflagellate Zooxanthella nutricula, A Symbiont of Polycystine Radiolarians. Protist. 172:125817.

Langer G, Nehrke G, Probert I, Ly J, Ziveri P. 2009. Strain-specific responses of Emiliania huxleyi to changing seawater carbonate chemistry. Biogeosciences. 6:2637–2646.

Guillou L, Chrétiennot-Dinet M.-J., Boulben S, van der Staay SYMoon-, Vaulot D. 1999. Symbiomonas scintillans gen. et sp nov and Picophagus flagellatus gen. et sp nov (Heterokonta): Two new heterotrophic flagellates of picoplanktonic size. Protist. 150:383–398.

Guillou et al_1999_Symbiomonas scintillans gen.pdf (1.18 MB)

Toledo G, Palenik B. 2003. A Synechococcus serotype is found preferentially in surface marine waters. Limnology and Oceanography. 48:1744–1755.

Toledo_Palenik_2003_A Synechococcus serotype is found preferentially in surface marine waters.pdf (508.2 KB)

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Müller MN, Blanco-Ameijeiras S, Stoll HM, Méndez-Vicente A, Lebrato M. 2021. Temperature Induced Physiological Reaction Norms of the Coccolithophore Gephyrocapsa oceanica and Resulting Coccolith Sr/Ca and Mg/Ca Ratios. Frontiers in Earth Science. 9:273.

Müller et al. - 2021 - Temperature Induced Physiological Reaction Norms o.pdf (1.37 MB)

Labban A, Palacio AS, García FC, Hadaidi G, Ansari MI, López-Urrutia Á, Alonso-Sáez L, Hong P-Y, Morán XAnxelu G. 2021. Temperature Responses of Heterotrophic Bacteria in Co-culture With a Red Sea Synechococcus Strain. Frontiers in Microbiology. 12:612732.

Labban et al. - 2021 - Temperature Responses of Heterotrophic Bacteria in.pdf (2.12 MB)

Kulk G, De Vries P, Van De Poll WH, Visser RJW, Buma AGJ. 2012. Temperature-dependent growth and photophysiology of prokaryotic and eukaryotic oceanic picophytoplankton. Marine Ecology Progress Series. 466:43–55.

Kulk et al_2012_Temperature-dependent growth and photophysiology of prokaryotic and eukaryotic.pdf (506.33 KB)

Chisholm SW, Frankel SL, Goericke R, Olson RJ, Palenik B, Waterbury JB, West-Johnsrud L, Zettler ER. 1992. \textit{Prochlorococcus marinus nov. gen. nov. sp.: an oxyphototrophic marine prokaryote containing divinyl chlorophyll a and b. Archives of Microbiology. 157:297–300.

Liu H, Aris-Brosou S, Probert I, de Vargas C. 2010. A timeline of the environmental genetics of the haptophytes. Molecular Biology and Evolution. 27:171–176.

Palenik B, Grimwood J, Aerts A, Rouzé P, Salamov A, Putnam N, Dupont C, Jorgensen R, Derelle E, Rombauts S et al.. 2007. The tiny eukaryote \textit{Ostreococcus provides genomic insights into the paradox of plankton speciation. Proceedings of the National Academy of Sciences of the United States of America. 104:7705–7710.

Rokitta SD, de Nooijer LJ, Trimborn S, de Vargas C, Rost B, John U. 2011. Transcriptome analyses reveal differential gene expression patterns between the life-cycle stages of Emiliania huxleyi (Haptophyta) and reflect specialization to different ecological niches. Journal of Phycology. 47:829–838.

Rokitta et al_2011_Transcriptome analyses reveal differential gene expression patterns between the.pdf (240 KB)

von Dassow P, Ogata H, Probert I, Wincker P, Da Silva C, Audic S, Claverie J-M, de Vargas C. 2009. Transcriptome analysis of functional differentiation between haploid and diploid cells of Emiliania huxleyi, a globally significant photosynthetic calcifying cell. Genome Biology. 10:R114.

von Dassow et al_2009_Transcriptome analysis of functional differentiation between haploid and.pdf (1.19 MB)

O'Kelly CJ, Sieracki ME, Thier EC, Hobson IC. 2003. A transient bloom of ¡i¿Ostreococcus¡/i¿ (chlorophyta, prasinophyceae) in west neck bay, long island, new york. Journal of Phycology. 39:850–854.

Roquis D, Cosseau C, Raffalli KBrener, Romans P, Masanet P, Mitta G, Grunau C, Vidal-Dupiol J. 2021. The tropical coral Pocillopora acuta displays an unusual chromatin structure and shows histone H3 clipping plasticity upon bleaching.

Roquis et al. - 2021 - The tropical coral Pocillopora acuta displa.pdf (2.43 MB)

Six C, Thomas J-C, Thion L, Lemoine Y, Zal F, Partensky F. 2005. Two novel phycoerythrin-associated linker proteins in the marine cyanobacterium synechococcus sp. Strain WH8102. Journal of Bacteriology. 187:1685–1694.

Six et al_2005_Two novel phycoerythrin-associated linker proteins in the marine cyanobacterium.pdf (346.78 KB)

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Thompson AW, Foster RA, Krupke A, Carter BJ, Musat N, Vaulot D, Kuypers MMM, Zehr JP. 2012. Unicellular cyanobacterium symbiotic with a single-celled eukaryotic alga. Science. 337:1546–1550.

Thompson et al. - Unicellular cyanobacterium symbiotic with a single-celled eukaryotic alga(2).pdf (2.25 MB)

Clerissi C, Grimsley N, Ogata H, Hingamp P, Poulain J, Desdevises Y. 2014. Unveiling of the diversity of prasinoviruses (phycodnaviridae) in marine samples by using high-throughput sequencing analyses of PCR-Amplified DNA polymerase and major capsid protein genes. Applied and Environmental Microbiology. 80:3150–3160.

Clerissi et al_2014_Unveiling of the diversity of prasinoviruses (phycodnaviridae) in marine.pdf (1.24 MB)

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