RCC references

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Bowler C, Allen AE, Badger JH, Grimwood J, Jabbari K, Kuo A, Maheswari U, Martens C, Maumus F, Otillar RP et al..  2008.  The Phaeodactylum genome reveals the evolutionary history of diatom genomes. Nature. 456:239–244.PDF icon Bowler et al_2008_The Phaeodactylum genome reveals the evolutionary history of diatom genomes.pdf (436.19 KB)
Bowler C, Allen AE, Badger JH, Grimwood J, Jabbari K, Kuo A, Maheswari U, Martens C, Maumus F, Otillar RP et al..  2008.  The Phaeodactylum genome reveals the evolutionary history of diatom genomes. Nature. 456:239–244.PDF icon Bowler et al_2008_The Phaeodactylum genome reveals the evolutionary history of diatom genomes.pdf (436.19 KB)
Bowler C, Allen AE, Badger JH, Grimwood J, Jabbari K, Kuo A, Maheswari U, Martens C, Maumus F, Otillar RP et al..  2008.  The Phaeodactylum genome reveals the evolutionary history of diatom genomes. Nature. 456:239–244.PDF icon Bowler et al_2008_The Phaeodactylum genome reveals the evolutionary history of diatom genomes.pdf (436.19 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)
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)
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)
Soitamo A, Havurinne V, Tyystjärvi E.  2017.  Photoinhibition in marine picocyanobacteria. Physiologia Plantarum. 161:97–108.
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)
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)
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)
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)
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.
Klinger CM, Paoli L, Newby RJ, Wang MYu-Wei, Carroll HD, Leblond JD, Howe CJ, Dacks JB, Bowler C, A Cahoon B et al..  2018.  Plastid transcript editing across dinoflagellate lineages shows lineage-specific application but conserved trends. Genome Biology and Evolution. 10:1019–1038.PDF icon Klinger et al_2018_Plastid transcript editing across dinoflagellate lineages shows.pdf (744.63 KB)
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.
Guillou L, Bachar D, Audic S, Bass D, Berney C, Bittner L, Boutte C, Burgaud G, de Vargas C, Decelle J et al..  2013.  The protist ribosomal reference database (PR2): a catalog of unicellular eukaryote small SubUnit rRNA sequences with curated taxonomy. Nucleic Acids Research. 41:D597–D604.PDF icon Guillou et al_2013_The protist ribosomal reference database (PR2).pdf (266.2 KB)
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.
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.
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Domínguez-Martín MAgustina, Gómez-Baena G, Díez J, López-Grueso MJosé, Beynon RJ, García-Fernández JManuel.  2017.  Quantitative proteomics shows extensive remodeling induced by nitrogen limitation in prochlorococcus marinus SS120. mSystems. 2:e00008–17.PDF icon Dominguez-Martin et al_2017_Quantitative proteomics shows extensive remodeling induced by nitrogen.pdf (3.74 MB)
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Roesler C, Uitz J, Claustre H, Boss E, Xing X, Organelli E, Briggs N, Bricaud A, Schmechtig C, Poteau A et al..  2017.  Recommendations for obtaining unbiased chlorophyll estimates from in situ chlorophyll fluorometers: A global analysis of WET Labs ECO sensors. Limnology and Oceanography: Methods. 15:572–585.PDF icon Roesler et al_2017_Recommendations for obtaining unbiased chlorophyll estimates from in situ.pdf (686.25 KB)
Johnsen SAlexander, Bollmann J, Gebuehr C, Herrle JO.  2019.  Relationship between coccolith length and thickness in the coccolithophore species Emiliania huxleyi and Gephyrocapsa oceanica. PLOS ONE. 14:e0220725.
Bendif EMahdi, Nevado B, Wong ELY, Hagino K, Probert I, Young JR, Rickaby REM, Filatov DA.  2019.  Repeated species radiations in the recent evolution of the key marine phytoplankton lineage Gephyrocapsa. Nature Communications. 10:4234.PDF icon Bendif et al. - 2019 - Repeated species radiations in the recent evolutio.pdf (830.15 KB)
Walker CE, Taylor AR, Langer G, Durak GM, Heath S, Probert I, Tyrrell T, Brownlee C, Wheeler GL.  2018.  The requirement for calcification differs between ecologically important coccolithophore species. New Phytologist. in pressPDF icon Walker et al_2018_The requirement for calcification differs between ecologically important.pdf (1.97 MB)
Simon N, Foulon E, Grulois D, Six C, Desdevises Y, Latimier M, Le Gall F, Tragin M, Houdan A, Derelle E et al..  2017.  Revision of the genus micromonas manton et parke (chlorophyta, mamiellophyceae), of the type species m. pusilla (butcher) manton & parke and of the species m. commoda van baren, bachy and worden and description of two new species based on the genetic. Protist. 168:612–635.PDF icon Simon et al. - Revision of the Genus Micromonas Manton et Parke (Chlorophyta, Mamiellophyceae), of the Type Species M. pusilla (Butcher).pdf (7.29 MB)
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.PDF icon Langer et al. - 2021 - Role of silicon in the development of complex crys.pdf (2.03 MB)
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Hepach H, Hughes C, Hogg K, Collings S, Chance R.  2020.  Senescence as the main driver of iodide release from a diverse range of marine phytoplankton. Biogeosciences. 17:2453–2471.PDF icon Hepach et al_2020_Senescence as the main driver of iodide release from a diverse range of marine.pdf (3.5 MB)

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