RCC references

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Edvardsen B, Eikrem W, Throndsen J, A. S, Probert I, Medlin L.  2011.  Ribosomal DNA phylogenies and a morphological revision privide the basis for a new taxonomy of Prymnesiales (Haptophyta). European Journal of Phycology. 46:202–228.PDF icon Edvardsen et al_2011_Ribosomal DNA phylogenies and a morphological revision privide the basis for a.pdf (298.42 KB)
Pilátová J, Pánek T, Obornik M, Čepička I, Mojzeš P.  2022.  Revisiting biocrystallization: purine crystalline inclusions are widespread in eukaryotes. The ISME Journal. PDF icon Pilátová et al. - 2022 - Revisiting biocrystallization purine crystalline .pdf (4.85 MB)PDF icon 41396_2022_1264_MOESM1_ESM.pdf (3.69 MB)
Pilátová J, Pánek T, Obornik M, Čepička I, Mojzeš P.  2022.  Revisiting biocrystallization: purine crystalline inclusions are widespread in eukaryotes. The ISME Journal. PDF icon Pilátová et al. - 2022 - Revisiting biocrystallization purine crystalline .pdf (4.85 MB)PDF icon 41396_2022_1264_MOESM1_ESM.pdf (3.69 MB)
Cuvelier ML, Guo J, Ortiz AC, van Baren MJ, Tariq MAkram, Partensky F, Worden AZ.  2017.  Responses of the picoprasinophyte Micromonas commoda to light and ultraviolet stress. PLOS ONE. 12:e0172135.PDF icon Cuvelier et al_2017_Responses of the picoprasinophyte Micromonas commoda to light and ultraviolet.pdf (3.4 MB)
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)
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)
Perez-Sepulveda B, Pitt F, N'Guyen ANgoc, Ratin M, Garczarek L, Millard A, Scanlan DJ.  2018.  Relative stability of ploidy in a marine Synechococcus across various growth conditions. Environmental Microbiology Reports. :inpress.PDF icon Perez-Sepulveda et al_2018_Relative stability of ploidy in a marine Synechococcus across various growth.pdf (198.7 KB)
Perez-Sepulveda B, Pitt F, N'Guyen ANgoc, Ratin M, Garczarek L, Millard A, Scanlan DJ.  2018.  Relative stability of ploidy in a marine Synechococcus across various growth conditions. Environmental Microbiology Reports. :inpress.PDF icon Perez-Sepulveda et al_2018_Relative stability of ploidy in a marine Synechococcus across various growth.pdf (198.7 KB)
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)
Bendif EMahdi, Probert I, Díaz-Rosas F, Thomas D, van den Engh G, Young JR, von Dassow P.  2016.  Recent reticulate evolution in the ecologically dominant lineage of coccolithophores. Frontiers in Microbiology. 7PDF icon Bendif et al_2016_Recent reticulate evolution in the ecologically dominant lineage of.pdf (4.89 MB)
Kawachi M, Nakayama T, Kayama M, Nomura M, Miyashita H, Bojo O, Rhodes L, Sym S, Pienaar RN, Probert I et al..  2021.  Rappemonads are haptophyte phytoplankton. Current Biology. PDF icon Kawachi et al. - 2021 - Rappemonads are haptophyte phytoplankton.pdf (6.09 MB)
Kawachi M, Nakayama T, Kayama M, Nomura M, Miyashita H, Bojo O, Rhodes L, Sym S, Pienaar RN, Probert I et al..  2021.  Rappemonads are haptophyte phytoplankton. Current Biology. PDF icon Kawachi et al. - 2021 - Rappemonads are haptophyte phytoplankton.pdf (6.09 MB)
Farhat S, Le P, Kayal E, Noel B, Bigeard E, Corre E, Maumus F, Florent I, Alberti A, Aury J-M et al..  2021.  Rapid protein evolution, organellar reductions, and invasive intronic elements in the marine aerobic parasite dinoflagellate Amoebophrya spp.. BMC Biology. :1–21.PDF icon Farhat et al_2021_Rapid protein evolution, organellar reductions, and invasive intronic elements.pdf (2.01 MB)
Bendif EMahdi, Probert I, Archontikis OA, Young JR, Beaufort L, Rickaby RE, Filatov D.  2023.  Rapid diversification underlying the global dominance of a cosmopolitan phytoplankton. The ISME Journal. :1–11.PDF icon Bendif et al_2023_Rapid diversification underlying the global dominance of a cosmopolitan.pdf (2.88 MB)
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Limardo AJ, Sudek S, Choi CJae, Poirier C, Rii YM, Blum M, Roth R, Goodenough U, Church MJ, Worden AZ.  2017.  Quantitative biogeography of picoprasinophytes establishes ecotype distributions and significant contributions to marine phytoplankton. Environmental Microbiology. PDF icon Limardo et al_2017_Quantitative biogeography of picoprasinophytes establishes ecotype.pdf (2.02 MB)
P
Percopo I, Ruggiero MValeria, Balzano S, Gourvil P, Lundholm N, Siano R, Tammilehto A, Vaulot D, Sarno D.  2016.  Pseudo-nitzschia arctica sp. nov., a new cold-water cryptic Pseudo-nitzschia species within the P. pseudodelicatissima complex. Journal of Phycology. 52:184–199.PDF icon Percopo et al_2016_Pseudo-nitzschia arctica sp.pdf (771.04 KB)
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)
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)
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.PDF icon Meyer-et-al-2022.pdf (3.81 MB)
Morel A, Ahn Y.-W., Partensky F, Vaulot D, Claustre H.  1993.  Prochlorococcus and Synechococcus: a comparative study of their size, pigmentation and related optical properties. Journal of Marine Research. 51:617–649.PDF icon Morel et al_1993_Prochlorococcus and Synechococcus.pdf (3.66 MB)
Avilan L, Lebrun R, Puppo C, Citerne S, Cuiné S, Li-Beisson Y, Menand B, Field B, Gontero B.  2020.  ppGpp influences protein protection, growth and photosynthesis in Phaeodactylum tricornutum. bioRxiv. :2020.03.05.978130.PDF icon Avilan et al_2020_ppGpp influences protein protection, growth and photosynthesis in Phaeodactylum.pdf (635.67 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.
Aveiro SS, Melo T, Figueiredo A, Domingues P, Pereira H, Maia IB, Silva J, M. Domingues R, Nunes C, Moreira ASP.  2020.  The polar lipidome of cultured emiliania huxleyi: A source of bioactive lipids with relevance for biotechnological applications. Biomolecules. 10:1434.PDF icon Aveiro et al_2020_The polar lipidome of cultured emiliania huxleyi.pdf (1.72 MB)
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)
Khan H, Parks N, Kozera C, Curtis BA, Parsons BJ, Bowman S, Archibald JM.  2007.  Plastid genome sequence of the cryptophyte alga Rhodomonas salina CCMP1319: lateral transfer of putative DNA replication machinery and a test of chromist plastid phylogeny. Molecular Biology and Evolution. 24:1832–1842.

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