Roscoff Culture Collection

Marine Microalgae, Macroalgae, Protists, Bacteria and Viruses

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2022

Doré H, Leconte J, Guyet U, Breton S, Farrant GK, Demory D, Ratin M, Hoebeke M, Corre E, Pitt FD et al.. 2022. Global Phylogeography of Marine Synechococcus in Coastal Areas Reveals Strong Community Shifts. mSystems. :e00656–22.

Dore et al_2022_Global Phylogeography of Marine Synechococcus in Coastal Areas Reveals Strong.pdf (1.87 MB)

Liao S, Huang Y. 2022. Group 2i Isochrysidales flourishes at exceedingly low growth temperatures (0 to 6 °C). Organic Geochemistry. :104512.

Liao et Huang - 2022 - Group 2i Isochrysidales flourishes at exceedingly .pdf (862.05 KB)

Vázquez V, León P, Gordillo FJL, Jiménez C, Concepción I, Mackenzie K, Bresnan E, Segovia M. 2022. High-CO2 Levels Rather than Acidification Restrict Emiliania huxleyi Growth and Performance. Microbial Ecology.

Vazquez et al_2022_High-CO2 Levels Rather than Acidification Restrict Emiliania huxleyi Growth and.pdf (1.81 MB)

Fernandes T, Cordeiro N. 2022. High-value lipids accumulation by Pavlova pinguis as a response to nitrogen-induced changes. Biomass and Bioenergy. 158:106341.

Fernandes et Cordeiro - 2022 - High-value lipids accumulation by Pavlova pinguis .pdf (3.94 MB)

Parsy A, Guyoneaud R, Lot M-C, Baldoni-Andrey P, Périé F, Sambusiti C. 2022. Impact of salinities, metals and organic compounds found in saline oil & gas produced water on microalgae and cyanobacteria. Ecotoxicology and Environmental Safety. 234:113351.

Parsy et al. - 2022 - Impact of salinities, metals and organic compounds.pdf (1.49 MB)

Zhang Q-C, Liu C, Wang J-X, Kong F-Z, Niu Z, Xiang L, Yu R-C. 2022. Intense blooms of Phaeocystis globosa in the South China Sea are caused by a unique “giant-colony” ecotype. Harmful Algae. 114:102227.

Zhang et al. - 2022 - Intense blooms of Phaeocystis globosa in the South.pdf (7.05 MB)

Biller S, Marin MMuñoz, Lima S, Matinha-Cardoso J, Tamagnini P, Oliveira P. 2022. Isolation and Characterization of Cyanobacterial Extracellular Vesicles. Journal of Visualized Experiments.

Biller et al_2022_Isolation and Characterization of Cyanobacterial Extracellular Vesicles.pdf (557.9 KB)

Falciatore A, Bailleul B, Boulouis A, Bouly J-P, Bujaldon S, Cheminant-Navarro S, Choquet Y, de Vitry C, Eberhard S, Jaubert M et al.. 2022. Light-driven processes: key players of the functional biodiversity in microalgae. Comptes Rendus. Biologies. 345:1–24.

Falciatore et al_2022_Light-driven processes.pdf (2.62 MB)

Castejón D, Nogueira N, Andrade CAP. 2022. Limpet larvae (Patella aspera Röding, 1798), obtained by gonad dissection and fecundation in vitro, settled and metamorphosed on crustose coralline algae. Journal of the Marine Biological Association of the United Kingdom. :1–12.

Castejon et al_2022_Limpet larvae (Patella aspera Roding, 1798), obtained by gonad dissection and.pdf (901.99 KB)

Domínguez-Martín MAgustina, López-Lozano A, Melero-Rubio Y, Gómez-Baena G, Jiménez-Estrada JAndrés, Kukil K, Díez J, García-Fernández JManuel. 2022. Marine \textit{Synechococcus sp. Strain WH7803 Shows Specific Adaptative Responses to Assimilate Nanomolar Concentrations of Nitrate. Microbiology Spectrum. 10:e00187–22.

Domínguez-Martín et al. - 2022 - Marine Synechococcus sp. Strain WH7803 Show.pdf (2.07 MB)

Nikitashina V, Stettin D, Pohnert G. 2022. Metabolic adaptation of diatoms to hypersalinity. Phytochemistry. :113267.

Nikitashina et al. - 2022 - Metabolic adaptation of diatoms to hypersalinity.pdf (1.63 MB)

Koppelle S, López-Escardó D, Brussaard CPD, Huisman J, Philippart CJM, Massana R, Wilken S. 2022. Mixotrophy in the bloom-forming genus Phaeocystis and other haptophytes. Harmful Algae. 117:102292.

Koppelle et al. - 2022 - Mixotrophy in the bloom-forming genus Phaeocystis .pdf (5.56 MB)

Gómez F, Gourvil P, Li T, Huang Y, Zhang H, Courcot L, Artigas LF, Onís ESoler, Gutierrez-Rodriguez A, Lin S. 2022. Molecular phylogeny of the spiny-surfaced species of the dinoflagellate Prorocentrum with the description of P. Thermophilum sp. nov. and P. criophilum sp. nov. (Prorocentrales, Dinophyceae). Journal of Phycology. n/a

Gómez et al. - Molecular phylogeny of the spiny-surfaced species .pdf (26.8 MB)

Haney AM, Sanfilippo JE, Garczarek L, Partensky F, Kehoe DM. 2022. Multiple Photolyases Protect the Marine Cyanobacterium Synechococcus from Ultraviolet Radiation. mBio. 13:e01511–22.

Haney et al. - 2022 - Multiple Photolyases Protect the Marine Cyanobacte.pdf (1.2 MB)

Johnson R, Langer G, Rossi S, Probert I, Mammone M, Ziveri P. 2022. Nutritional response of a coccolithophore to changing pH and temperature. Limnology and Oceanography. n/a

Johnson et al. - Nutritional response of a coccolithophore to chang.pdf (1.61 MB)

Azizah M, Pohnert G. 2022. Orchestrated Response of Intracellular Zwitterionic Metabolites in Stress Adaptation of the Halophilic Heterotrophic Bacterium Pelagibaca bermudensis. Marine Drugs. 20:727.

Azizah et Pohnert - 2022 - Orchestrated Response of Intracellular Zwitterioni.pdf (2 MB)

Lacour T, Larivière J, Ferland J, Morin P-I, Grondin P-L, Donaher N, Cockshutt A, Campbell DA, Babin M. 2022. Photoacclimation of the polar diatom Chaetoceros neogracilis at low temperature. PLOS ONE. 17:e0272822.

Lacour et al_2022_Photoacclimation of the polar diatom Chaetoceros neogracilis at low temperature.pdf (2.08 MB)

Carrigee LA, Frick JP, Liu X, Karty JA, Trinidad JC, Tom IP, Yang X, Dufour L, Partensky F, Schluchter WM. 2022. The phycoerythrobilin isomerization activity of MpeV in Synechococcus sp. WH8020 is prevented by the presence of a histidine at position 141 within its phycoerythrin-I β-subunit substrate. Frontiers in Microbiology. 13:1011189.

Carrigee et al_2022_The phycoerythrobilin isomerization activity of MpeV in Synechococcus sp.pdf (5.76 MB)

Liu F, Gledhill M, Tan Q-G, Zhu K, Zhang Q, Salaün P, Tagliabue A, Zhang Y, Weiss D, Achterberg EP et al.. 2022. Phycosphere pH of unicellular nano- and micro- phytoplankton cells and consequences for iron speciation. The ISME Journal. 16:2329–2336.

Liu et al_2022_Phycosphere pH of unicellular nano- and micro- phytoplankton cells and.pdf (1.5 MB)

Meyer N, Rydzyk A, Pohnert G. 2022. Pronounced Uptake and Metabolism of Organic Substrates by Diatoms Revealed by Pulse-Labeling Metabolomics. Frontiers in Marine Science. 9:821167.

Meyer-et-al-2022.pdf (3.81 MB)

Akita S, Vieira C, Hanyuda T, Rousseau F, Cruaud C, Couloux A, Heesch S, J. Cock M, Kawai H. 2022. Providing a phylogenetic framework for trait-based analyses in brown algae: Phylogenomic tree inferred from 32 nuclear protein-coding sequences. Molecular Phylogenetics and Evolution. 168:107408.

Fan X, Batchelor-McAuley C, Yang M, Barton S, Rickaby REM, Bouman HA, Compton RG. 2022. Quantifying the Extent of Calcification of a Coccolithophore Using a Coulter Counter. Analytical Chemistry. :acs.analchem.2c01971.

Fan et al. - 2022 - Quantifying the Extent of Calcification of a Cocco.pdf (2.95 MB)

Groussman RD. 2022. Resolving the molecular ecology of marine microbial eukaryotes with metatranscriptomes.

Groussman - Resolving the molecular ecology of marine microbia.pdf (20.31 MB)

Pilátová J, Pánek T, Obornik M, Čepička I, Mojzeš P. 2022. Revisiting biocrystallization: purine crystalline inclusions are widespread in eukaryotes. The ISME Journal.

Pilátová et al. - 2022 - Revisiting biocrystallization purine crystalline .pdf (4.85 MB)

41396_2022_1264_MOESM1_ESM.pdf (3.69 MB)

de la Broise D, Ventura M, Chauchat L, Guerreiro M, Michez T, Vinet T, Gautron N, Le Grand F, Bideau A, Le Goïc N et al.. 2022. Scale-Up to Pilot of a Non-Axenic Culture of Thraustochytrids Using Digestate from Methanization as Nitrogen Source. Marine Drugs. 20:499.

de la Broise et al. - 2022 - Scale-Up to Pilot of a Non-Axenic Culture of Thrau.pdf (4.81 MB)

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