Roscoff Culture Collection

Marine Microalgae, Macroalgae, Protists, Bacteria and Viruses

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Biller SJ, Berube PM, Berta-Thompson JW, Kelly L, Roggensack SE, Awad L, Roache-Johnson KH, Ding H, Giovannoni SJ, Rocap G et al.. 2014. Genomes of diverse isolates of the marine cyanobacterium Prochlorococcus. Scientific Data. 1:1–11.

Biller et al_2014_Genomes of diverse isolates of the marine cyanobacterium Prochlorococcus.pdf (225.56 KB)

Guérin N, Ciccarella M, Flamant E, Frémont P, Mangenot S, Istace B, Noel B, Belser C, Bertrand L, Labadie K et al.. 2022. Genomic adaptation of the picoeukaryote Pelagomonas calceolata to iron-poor oceans revealed by a chromosome-scale genome sequence. Communications Biology. 5:1–14.

Guerin et al_2022_Genomic adaptation of the picoeukaryote Pelagomonas calceolata to iron-poor.pdf (4.25 MB)

Guérin N, Ciccarella M, Flamant E, Frémont P, Mangenot S, Istace B, Noel B, Belser C, Bertrand L, Labadie K et al.. 2022. Genomic adaptation of the picoeukaryote Pelagomonas calceolata to iron-poor oceans revealed by a chromosome-scale genome sequence. Communications Biology. 5:1–14.

Guerin et al_2022_Genomic adaptation of the picoeukaryote Pelagomonas calceolata to iron-poor.pdf (4.25 MB)

Demir-Hilton E, Sudek S, Cuvelier ML, Gentemann CL, Zehr JP, Worden AZ. 2011. Global distribution patterns of distinct clades of the photosynthetic picoeukaryote Ostreococcus. The ISME journal. 5:1095–1107.

Demir-Hilton et al_2011_Global distribution patterns of distinct clades of the photosynthetic.pdf (5.04 MB)

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)

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)

Guillou L, Jacquet S, Chrétiennot-Dinet M.-J., Vaulot D. 2001. Grazing impact of two small heterotrophic flagellates on Prochlorococcus and Synechococcus. Aquatic Microbial Ecology. 26:201–207.

Guillou et al_2001_Grazing impact of two small heterotrophic flagellates on Prochlorococcus and.pdf (32 KB)

Worden AZ, Lee J.-H, Mock T, Rouzé P, Simmons MP, Aerts AL, Allen AE, Cuvelier ML, Derelle E, Everett MV et al.. 2009. Green evolution and dynamic adaptations revealed by genomes of the marine picoeukaryotes Micromonas. Science. 324:268–272.

Worden AZ, Lee J.-H, Mock T, Rouzé P, Simmons MP, Aerts AL, Allen AE, Cuvelier ML, Derelle E, Everett MV et al.. 2009. Green evolution and dynamic adaptations revealed by genomes of the marine picoeukaryotes Micromonas. Science. 324:268–272.

Worden AZ, Lee J.-H, Mock T, Rouzé P, Simmons MP, Aerts AL, Allen AE, Cuvelier ML, Derelle E, Everett MV et al.. 2009. Green evolution and dynamic adaptations revealed by genomes of the marine picoeukaryotes Micromonas. Science. 324:268–272.

Worden AZ, Lee J.-H, Mock T, Rouzé P, Simmons MP, Aerts AL, Allen AE, Cuvelier ML, Derelle E, Everett MV et al.. 2009. Green evolution and dynamic adaptations revealed by genomes of the marine picoeukaryotes Micromonas. Science. 324:268–272.

Worden AZ, Lee J.-H, Mock T, Rouzé P, Simmons MP, Aerts AL, Allen AE, Cuvelier ML, Derelle E, Everett MV et al.. 2009. Green evolution and dynamic adaptations revealed by genomes of the marine picoeukaryotes Micromonas. Science. 324:268–272.

Worden AZ, Lee J.-H, Mock T, Rouzé P, Simmons MP, Aerts AL, Allen AE, Cuvelier ML, Derelle E, Everett MV et al.. 2009. Green evolution and dynamic adaptations revealed by genomes of the marine picoeukaryotes Micromonas. Science. 324:268–272.

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.

Karpowicz et al_2011_The GreenCut2 resource, a phylogenomically derived inventory of proteins.pdf (1.45 MB)

Giovagnetti V, Cataldo ML, Conversano F, Brunet C. 2012. Growth and photophysiological responses of two picoplanktonic ¡i¿Minutocellus species¡/i¿, strains RCC967 and RCC703 (Bacillariophyceae). European Journal of Phycology. 47:408–420.

Giovagnetti et al_2012_Growth and photophysiological responses of two picoplanktonic ¡i¿Minutocellus.pdf (912.82 KB)

López-Pacheco IY, Ayala-Moreno VGuadalupe, Mejia-Melara CArlette, Rodríguez-Rodríguez J, Cuellar-Bermudez SP, González-González RBerenice, Coronado-Apodaca KG, Farfan-Cabrera LI, González-Meza GMaría, Iqbal HMN et al.. 2023. Growth Behavior, Biomass Composition and Fatty Acid Methyl Esters (FAMEs) Production Potential of Chlamydomonas reinhardtii, and Chlorella vulgaris Cultures. Marine Drugs. 21:450.

López-Pacheco et al. - 2023 - Growth Behavior, Biomass Composition and Fatty Aci.pdf (2.38 MB)

López-Pacheco IY, Ayala-Moreno VGuadalupe, Mejia-Melara CArlette, Rodríguez-Rodríguez J, Cuellar-Bermudez SP, González-González RBerenice, Coronado-Apodaca KG, Farfan-Cabrera LI, González-Meza GMaría, Iqbal HMN et al.. 2023. Growth Behavior, Biomass Composition and Fatty Acid Methyl Esters (FAMEs) Production Potential of Chlamydomonas reinhardtii, and Chlorella vulgaris Cultures. Marine Drugs. 21:450.

López-Pacheco et al. - 2023 - Growth Behavior, Biomass Composition and Fatty Aci.pdf (2.38 MB)

H

Garcia NS, Sexton J, Riggins T, Brown J, Lomas MW, Martiny AC. 2018. High variability in cellular stoichiometry of carbon, nitrogen, and phosphorus within classes of marine eukaryotic phytoplankton under sufficient nutrient conditions. Frontiers in Microbiology. 9:1–10.

Garcia et al_2018_High variability in cellular stoichiometry of carbon, nitrogen, and phosphorus.pdf (2.18 MB)

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)

Klouch KZ, Schmidt S, Andrieux-Loyer F, Le Gac M, Hervio-Heath D, Qui-Minet ZN, Quéré J, Bigeard E, Guillou L, Siano R. 2016. Historical records from dated sediment cores reveal the multidecadal dynamic of the toxic dinoflagellate Alexandrium minutum in the Bay of Brest (France). FEMS Microbiology Ecology. 92:fiw101.

Klouch et al_2016_Historical records from dated sediment cores reveal the multidecadal dynamic of.pdf (4.25 MB)

I

Carrillo JB, Gomez-Casati DF, Martín M, Busi MV. 2018. Identification and analysis of OsttaDSP, a phosphoglucan phosphatase from Ostreococcus tauri. PLOS ONE. 13:e0191621.

Carrillo JB, Torresi F, Morales LL, Ricordi M, Gomez-Casati DF, Busi MV, Martín M. 2020. Identification and characterization of ChlreSEX4, a novel glucan phosphatase from Chlamydomonas reinhardtii green alga. Archives of Biochemistry and Biophysics. 680:108235.

Baumeister TUH, Vallet M, Kaftan F, Guillou L, Svatoš A, Pohnert G. 2020. Identification to species level of live single microalgal cells from plankton samples with matrix-free laser/desorption ionization mass spectrometry. Metabolomics. 16:28.

Waltman PH, Guo J, Reistetter ENahas, Purvine S, Ansong CK, van Baren MJ, Wong C-H, Wei C-L, Smith RD, Callister SJ et al.. 2016. Identifying aspects of the post-transcriptional program governing the proteome of the green alga micromonas pusilla.. PloS one. 11:e0155839.

Waltman et al_2016_Identifying aspects of the post-transcriptional program governing the proteome.pdf (1.69 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)

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