RCC references

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Marie D, Simon N, Vaulot D.  2005.  Phytoplankton cell counting by flow cytometry. Algal culturing techniques. :253–267.PDF icon Marie et al_2005_Phytoplankton cell counting by flow cytometry.pdf (518.75 KB)
Stawiarski B, Buitenhuis ET, Le Quéré C.  2016.  The physiological response of picophytoplankton to temperature and its model representation. Fronitiers in Marine Science. 3:1–13.PDF icon Stawiarski et al_2016_The physiological response of picophytoplankton to temperature and its model.pdf (1.34 MB)
Mackey KRM, Post AF, McIlvin MR, Saito MA.  2017.  Physiological and proteomic characterization of light adaptations in marine Synechococcus. Environmental Microbiology. 19:2348–2365.PDF icon Mackey et al_2017_Physiological and proteomic characterization of light adaptations in marine.pdf (3.51 MB)
Parks M, Nakov T, Ruck E, Wickett NJ, Alverson AJ, Rice AL, Conservation P, Botanic C, Glencoe G.  2017.  Phylogenomics reveals an extensive history of genome duplication in diatoms (Bacillariophyta). American Journal of Botany. 105:1–18.PDF icon Parks et al_2017_Phylogenomics reveals an extensive history of genome duplication in diatoms.pdf (1.23 MB)
Cho A, Tikhonenkov DV, Lax G, Prokina KI, Keeling PJ.  2023.  Phylogenomic position of genetically diverse phagotrophic stramenopile flagellates in the sediment-associated MAST-6 lineage and a potentially halotolerant placididean. Molecular Phylogenetics and Evolution. :107964.PDF icon Cho et al. - 2023 - Phylogenomic position of genetically diverse phago.pdf (2.71 MB)
Minge MA, Shalchian-Tabrizi K, Torresen OK, Takishita K, Probert I, Inagaki Y, Klaveness D, Jakobsen KS.  2010.  A phylogenetic mosaic plastid proteome and unusual plastid-targeting signals in the green-colored dinoflagellate Lepidodinium chlorophorum. BMC Evolutionary Biology. 10:191.PDF icon Minge et al_2010_A phylogenetic mosaic plastid proteome and unusual plastid-targeting signals in.pdf (1.21 MB)
Tragin M, Santos ALopes dos, Christen R., Vaulot D..  2016.  Phylogenetic diversity and ecology of green micro algae in marine systems. Perspectives in Phycology. in pressPDF icon Tragin et al_2016_Phylogenetic diversity and ecology of green micro algae in marine systems.pdf (1.94 MB)
Rodriguez F, Feist SW, Guillou L, Harkestad LS, Bateman K, Renault T, Mortensen S.  2008.  Phylogenetic and morphological characterization of the green algae infesting blue mussel Mytilus edulis in the North and South Atlantic. Diseases of Aquatic Organisms. 81:231–240.
Henley WJ, Hironaka JL, Guillou L, Buchheim MA, Buchheim JA, Fawley MW, Fawley KP.  2004.  Phylogenetic analysis of the Nannochloris-like' algae and diagnoses of Picochlorum oklahomensis gen. et sp nov (Trebouxiophyceae, Chlorophyta). Phycologia. 43:641–652.PDF icon Henley et al_2004_Phylogenetic analysis of the '¡i¿Nannochloris¡-i¿-like' algae and diagnoses of.pdf (3.27 MB)
Courties C, Perasso R, Chrétiennot-Dinet M.-J., Gouy M, Guillou L, Troussellier M.  1998.  Phylogenetic analysis and genome size of Ostreococcus tauri (Chlorophyta, Prasinophyceae). Journal of Phycology. 34:844–849.
Fawley MW, Yun Y, Qin M.  2000.  Phylogenetic analyses of 18S rDNA sequences reveal a new coccoid lineage of the Prasinophyceae (Chlorophyta). Journal of Phycology. 36:387–393.PDF icon Fawley et al_2000_Phylogenetic analyses of 18S rDNA sequences reveal a new coccoid lineage of the.pdf (850.93 KB)
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.PDF icon Liu et al_2022_Phycosphere pH of unicellular nano- and micro- phytoplankton cells and.pdf (1.5 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.PDF icon Carrigee et al_2022_The phycoerythrobilin isomerization activity of MpeV in Synechococcus sp.pdf (5.76 MB)
Shukla A, Biswas A, Blot N, Partensky F, Karty JA, Hammad LA, Garczarek L, Gutu A, Schluchter WM, Kehoe DM.  2013.  Phycoerythrin-specific bilin lyase–isomerase controls blue-green chromatic acclimation in marine Synechococcus. Proceedings of the National Academy of Sciences of the United States of America. 109:20136–20141.PDF icon Shukla et al_2013_Phycoerythrin-specific bilin lyase–isomerase controls blue-green chromatic.pdf (2.05 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 Six et al_2009_Photosystem II and pigment dynamics among ecotypes of the green alga.pdf (286.12 KB)
Sharon I, Alperovitch A, Rohwer F, Haynes M, Glaser F, Atamna-Ismaeel N, Pinter RY, Partensky F, Koonin EV, Wolf YI et al..  2009.  Photosystem I gene cassettes are present in marine virus genomes. Nature. 461:258–262.PDF icon Sharon et al_2009_Photosystem I gene cassettes are present in marine virus genomes.pdf (779.86 KB)
Santos ALopes dos, Gourvil P, Rodriguez-Hernandez F, Garrido JLuis, Vaulot D.  2016.  Photosynthetic pigments of oceanic Chlorophyta belonging to prasinophytes clade VII. Journal of Phycology. 52:148–155.PDF icon Lopes dos Santos et al_2016_Photosynthetic pigments of oceanic Chlorophyta belonging to prasinophytes clade.pdf (979.53 KB)
Dimier C, Corato F, Saviello G, Brunet C.  2007.  Photophysiological properties of the marine picoeukaryote Picochlorum RCC 237 (Trebouxiophyceae, Chlorophyta). Journal of Phycology. 43:275–283.
Soitamo A, Havurinne V, Tyystjärvi E.  2017.  Photoinhibition in marine picocyanobacteria. Physiologia Plantarum. 161:97–108.
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.PDF icon Lacour et al_2022_Photoacclimation of the polar diatom Chaetoceros neogracilis at low temperature.pdf (2.08 MB)
Partensky F, Hoepffner N, Li WKW, Ulloa O, Vaulot D.  1993.  Photoacclimation of Prochlorococcus sp. (Prochlorophyta) strains isolated from the North Atlantic and the Mediterranean Sea. Plant Physiology. 101:295–296.PDF icon Partensky et al_1993_Photoacclimation of Prochlorococcus sp.pdf (1.16 MB)
Gerecht A.C., Šupraha L., Edvardsen B., Langer G., Henderiks J..  2015.  Phosphorus availability modifies carbon production in Coccolithus pelagicus (Haptophyta). Journal of Experimental Marine Biology and Ecology. 472:24–31.PDF icon Gerecht et al_2015_Phosphorus availability modifies carbon production in Coccolithus pelagicus.pdf (850.49 KB)
Noordally ZB, Hindle MM, Martin SF, Seaton DD, T Simpson I, Le Bihan T, Millar AJ.  2023.  A phospho-dawn of protein modification anticipates light onset in the picoeukaryote \textit{O. tauri. Journal of Experimental Botany. :erad290.PDF icon Noordally et al. - 2023 - A phospho-dawn of protein modification anticipates.pdf (2.81 MB)
Monier A, Welsh RM, Gentemann C, Weinstock G, Sodergren E, E Armbrust V, Eisen JA, Worden AZ.  2012.  Phosphate transporters in marine phytoplankton and their viruses: cross-domain commonalities in viral-host gene exchanges. Environmental Microbiology. 14:162–176.PDF icon Monier et al. - Phosphate transporters in marine phytoplankton and their viruses Cross-domain commonalities in viral-host gene exchanges.pdf (4.82 MB)
Fiore CL, Alexander H, Soule MCKido, Kujawinski EB.  2018.  A phosphate starvation response gene (psr1-like) is present and expressed in Micromonas pusilla and other marine algae. bioRxiv. PDF icon Fiore et al_2018_A phosphate starvation response gene (psr1-like) is present and expressed in.pdf (666.41 KB)

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