@article {Yau2020, title = {Virus-host coexistence in phytoplankton through the genomic lens}, journal = {Science Advances}, volume = {6}, number = {14}, year = {2020}, note = {tex.mendeley-tags: RCC2590,RCC2596}, month = {apr}, pages = {eaay2587}, abstract = {Virus-microbe interactions in the ocean are commonly described by {\textquotedblleft}boom and bust{\textquotedblright} dynamics, whereby a numerically dominant microorganism is lysed and replaced by a virus-resistant one. Here, we isolated a microalga strain and its infective dsDNA virus whose dynamics are characterized instead by parallel growth of both the microalga and the virus. Experimental evolution of clonal lines revealed that this viral production originates from the lysis of a minority of virus-susceptible cells, which are regenerated from resistant cells. Whole-genome sequencing demonstrated that this resistant-susceptible switch involved a large deletion on one chromosome. Mathematical modeling explained how the switch maintains stable microalga-virus population dynamics consistent with their observed growth pattern. Comparative genomics confirmed an ancient origin of this {\textquotedblleft}accordion{\textquotedblright} chromosome despite a lack of sequence conservation. Together, our results show how dynamic genomic rearrangements may account for a previously overlooked coexistence mechanism in microalgae-virus interactions.}, keywords = {RCC2590, RCC2596}, issn = {2375-2548}, doi = {10.1126/sciadv.aay2587}, url = {https://advances.sciencemag.org/lookup/doi/10.1126/sciadv.aay2587}, author = {Yau, Sheree and Krasovec, Marc and Benites, L. Felipe and Rombauts, Stephane and Groussin, Mathieu and Vancaester, Emmelien and Aury, Jean-Marc and Derelle, Evelyne and Desdevises, Yves and Escande, Marie-Line and Grimsley, Nigel and Guy, Julie and Moreau, Herv{\'e} and Sanchez-Brosseau, Sophie and Van de Peer, Yves and Vandepoele, Klaas and Gourbi{\`e}re, S{\'e}bastien and Piganeau, Gwenael} } @article {Monier2017, title = {Host-derived viral transporter protein for nitrogen uptake in infected marine phytoplankton}, journal = {Proceedings of the National Academy of Sciences}, year = {2017}, note = {tex.mendeley-tags: RCC1107,RCC1621,RCC2573,RCC2593,RCC745,RCC809}, pages = {201708097}, keywords = {rcc1107, RCC1621, RCC2573, RCC2593, RCC745, RCC809}, issn = {0027-8424}, doi = {10.1073/pnas.1708097114}, url = {http://www.pnas.org/lookup/doi/10.1073/pnas.1708097114}, author = {Monier, Adam and Chambouvet, Aurelie and Milner, David S. and Attah, Victoria and Terrado, Ram{\'o}n and Lovejoy, Connie and Moreau, Herv{\'e} and Santoro, Alyson E. and Derelle, Evelyne and Richards, Thomas A.} } @article {Derelle2017, title = {Prasinovirus attack of ostreococcus is furtive by day but savage by night}, journal = {Journal of Virology}, volume = {92}, number = {4}, year = {2017}, note = {tex.mendeley-tags: RCC4221}, month = {nov}, pages = {JVI.01703{\textendash}17}, abstract = {Prasinoviruses are large DNA viruses that infect diverse genera of green microalgae worldwide in aquatic ecosystems, but molecular knowledge of their life-cycles is lacking. Several complete genomes of both these viruses and their marine algal hosts are now available and have been used to show the pervasive presence of these species in microbial metagenomes. We have analysed the life-cycle of OtV5, a lytic virus, using RNA-Seq from 12 time points of healthy or infected Ostreococcus tauri cells over a day/night cycle in culture. In the day, viral gene transcription remained low while host nitrogen metabolism gene transcription was initially strongly repressed for two successive time points before being induced for 8 hours, but in the night viral transcription increased steeply while host nitrogen metabolism genes were repressed and many host functions that are normally reduced in the night appeared to be compensated either by genes expressed from the virus or by increased expression of a subset of 4.4 \% of the host{\textquoteright}s genes. Some host cells lysed progressively during the night, but a larger proportion lysed the following morning. Our data suggest that the life-cycles of algal viruses mirror the diurnal rhythms of their hosts.}, keywords = {accepted 9, mamiellophyceae, ncldv, Ostreococcus, phycodnaviridae, prasinophytes, RCC4221, received 28 september 2017}, issn = {0022-538X}, doi = {10.1128/JVI.01703-17}, url = {http://jvi.asm.org/lookup/doi/10.1128/JVI.01703-17}, author = {Derelle, Evelyne and Yau, Sheree and Moreau, Herv{\'e} and Grimsley, Nigel H.} } @article {Simon2017, title = {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}, journal = {Protist}, volume = {168}, number = {5}, year = {2017}, note = {tex.mendeley-tags: 2017,RCC1109,RCC114,RCC2306,RCC2308,RCC299,RCC372,RCC373,RCC418,RCC434,RCC447,RCC448,RCC449,RCC450,RCC451,RCC461,RCC465,RCC472,RCC497,RCC498,RCC570,RCC629,RCC647,RCC658,RCC676,RCC692,RCC746,RCC803,RCC804,RCC805,RCC806,RCC807,RCC808,RCC828,RCC829,RCC830,RCC831,RCC833,RCC834,RCC835,RCC836,sbr?hyto$_\textrmd$ipo}, month = {nov}, pages = {612{\textendash}635}, keywords = {2017, ASSEMBLE, rcc, RCC1109, RCC114, RCC2306, RCC2308, RCC299, RCC372, RCC373, RCC418, RCC434, RCC447, RCC448, RCC449, RCC450, RCC451, RCC461, RCC465, RCC472, RCC497, RCC498, RCC570, RCC629, RCC647, RCC658, RCC676, RCC692, RCC746, RCC803, RCC804, RCC805, RCC806, RCC807, RCC808, RCC828, RCC829, RCC830, RCC831, RCC833, RCC834, RCC835, RCC836, SBR$_\textrmP$hyto$_\textrmD$IPO, SBR$_\textrmP$hyto$_\textrmP$PM, sbr?hyto$_\textrmd$ipo}, issn = {14344610}, doi = {10.1016/j.protis.2017.09.002}, url = {http://linkinghub.elsevier.com/retrieve/pii/S1434461017300780}, author = {Simon, Nathalie and Foulon, Elodie and Grulois, Daphne and Six, Christophe and Desdevises, Yves and Latimier, Marie and Le Gall, Florence and Tragin, Margot and Houdan, Aude and Derelle, Evelyne and Jouenne, Fabien and Marie, Dominique and Le Panse, Sophie and Vaulot, Daniel and Marin, Birger} } @article {Yau2016, title = {A viral immunity chromosome in the marine picoeukaryote, ostreococcus tauri}, journal = {PLOS Pathogens}, volume = {12}, number = {10}, year = {2016}, note = {tex.mendeley-tags: 2016,RCC299,RCC4221,RCC809}, month = {oct}, pages = {e1005965}, keywords = {2016, RCC299, RCC4221, RCC809}, issn = {1553-7374}, doi = {10.1371/journal.ppat.1005965}, url = {http://dx.plos.org/10.1371/journal.ppat.1005965}, author = {Yau, Sheree and Hemon, Claire and Derelle, Evelyne and Moreau, Herv{\'e} and Piganeau, Gwenael and Grimsley, Nigel}, editor = {Ding, Shou-Wei} } @article {Subirana2013, title = {Morphology, genome plasticity, and phylogeny in the genus ostreococcus reveal a cryptic species, o. mediterraneus sp. nov. (mamiellales, mamiellophyceae)}, journal = {Protist}, volume = {164}, number = {5}, year = {2013}, note = {tex.mendeley-tags: RCC1112,RCC1114,RCC1117,RCC143,RCC1620,RCC1621,RCC1623,RCC1624,RCC2572,RCC2573,RCC2574,RCC2575,RCC2577,RCC2578,RCC2579,RCC2582,RCC2583,RCC2584,RCC2585,RCC2587,RCC2590,RCC344,RCC356,RCC393,RCC501,RCC745,RCC809}, pages = {643{\textendash}659}, abstract = {Coastal marine waters in many regions worldwide support abundant populations of extremely small (1-3 ??m diameter) unicellular eukaryotic green algae, dominant taxa including several species in the class Mamiellophyceae. Their diminutive size conceals surprising levels of genetic diversity and defies classical species{\textquoteright} descriptions. We present a detailed analysis within the genus Ostreococcus and show that morphological characteristics cannot be used to describe diversity within this group. Karyotypic analyses of the best-characterized species O. tauri show it to carry two chromosomes that vary in size between individual clonal lines, probably an evolutionarily ancient feature that emerged before species{\textquoteright} divergences within the Mamiellales. By using a culturing technique specifically adapted to members of the genus Ostreococcus, we purified {\textquestiondown}30 clonal lines of a new species, Ostreococcus mediterraneus sp. nov., previously known as Ostreococcus clade D, that has been overlooked in several studies based on PCR-amplification of genetic markers from environment-extracted DNA. Phylogenetic analyses of the S-adenosylmethionine synthetase gene, and of the complete small subunit ribosomal RNA gene, including detailed comparisons of predicted ITS2 (internal transcribed spacer 2) secondary structures, clearly support that this is a separate species. In addition, karyotypic analyses reveal that the chromosomal location of its ribosomal RNA gene cluster differs from other Ostreococcus clades.}, keywords = {barcode, Chromosome, culture, ITS2, karyotype, picoeukaryote, rcc, RCC1112, RCC1114, RCC1117, RCC143, RCC1620, RCC1621, RCC1623, RCC1624, RCC2572, RCC2573, RCC2574, RCC2575, RCC2577, RCC2578, RCC2579, RCC2582, RCC2583, RCC2584, RCC2585, RCC2587, RCC2590, RCC344, RCC356, RCC393, rcc501, RCC745, RCC809, ribosomal gene}, doi = {10.1016/j.protis.2013.06.002}, url = {http://www.sciencedirect.com/science/article/pii/S1434461013000497}, author = {Subirana, Lucie and P{\'e}quin, B{\'e}rang{\`e}re and Michely, St{\'e}phanie and Escande, Marie-Line and Meilland, Julie and Derelle, Evelyne and Marin, Birger and Piganeau, Gwenael and Desdevises, Yves and Moreau, Herv{\'e} and Grimsley, Nigel H} } @article {Moreau2010, title = {Marine Prasinovirus genomes show low evolutionary divergence and acquisition of protein metabolism genes by horizontal gene transfer}, journal = {Journal of Virology}, volume = {84}, number = {24}, year = {2010}, note = {ISBN: 0022-538X tex.mendeley-tags: RCC1105,RCC745}, pages = {12555{\textendash}12563}, abstract = {Although marine picophytoplankton are at the base of the global food chain, accounting for half of the planetary primary production, they are outnumbered 10 to 1 and are largely controlled by hugely diverse populations of viruses. Eukaryotic microalgae form a ubiquitous and particularly dynamic fraction of such plankton, with environmental clone libraries from coastal regions sometimes being dominated by one or more of the three genera Bathycoccus, Micromonas, and Ostreococcus (class Prasinophyceae). The complete sequences of two double-stranded (dsDNA) Bathycoccus, one dsDNA Micromonas, and one new dsDNA Ostreococcus virus genomes are described. Genome comparison of these giant viruses revealed a high degree of conservation, both for orthologous genes and for synteny, except for one 36-kb inversion in the Ostreococcus lucimarinus virus and two very large predicted proteins in Bathycoccus prasinos viruses. These viruses encode a gene repertoire of certain amino acid biosynthesis pathways never previously observed in viruses that are likely to have been acquired from lateral gene transfer from their host or from bacteria. Pairwise comparisons of whole genomes using all coding sequences with homologous counterparts, either between viruses or between their corresponding hosts, revealed that the evolutionary divergences between viruses are lower than those between their hosts, suggesting either multiple recent host transfers or lower viral evolution rates.}, keywords = {RCC1105, RCC745}, doi = {10.1128/jvi.01123-10}, author = {Moreau, Herv{\'e} and Piganeau, Gwenael and Desdevises, Yves and Cooke, Richard and Derelle, Evelyne and Grimsley, Nigel} } @article {Derelle2008, title = {Life-cycle and genome of OtV5, a large DNA virus of the pelagic marine unicellular green alga {\textexclamdown}i{\textquestiondown}Ostreococcus tauri{\textexclamdown}/i{\textquestiondown}}, journal = {PLoS ONE}, volume = {3}, number = {5}, year = {2008}, note = {Publisher: Public Library of Science tex.mendeley-tags: RCC,rcc}, pages = {e2250}, abstract = {Large DNA viruses are ubiquitous, infecting diverse organisms ranging from algae to man, and have probably evolved from an ancient common ancestor. In aquatic environments, such algal viruses control blooms and shape the evolution of biodiversity in phytoplankton, but little is known about their biological functions. We show that Ostreococcus tauri, the smallest known marine photosynthetic eukaryote, whose genome is completely characterized, is a host for large DNA viruses, and present an analysis of the life-cycle and 186,234 bp long linear genome of OtV5. OtV5 is a lytic phycodnavirus which unexpectedly does not degrade its host chromosomes before the host cell bursts. Analysis of its complete genome sequence confirmed that it lacks expected site-specific endonucleases, and revealed the presence of 16 genes whose predicted functions are novel to this group of viruses. OtV5 carries at least one predicted gene whose protein closely resembles its host counterpart and several other host-like sequences, suggesting that horizontal gene transfers between host and viral genomes may occur frequently on an evolutionary scale. Fifty seven percent of the 268 predicted proteins present no similarities with any known protein in Genbank, underlining the wealth of undiscovered biological diversity present in oceanic viruses, which are estimated to harbour 200Mt of carbon.}, keywords = {rcc}, doi = {10.1371/journal.pone.0002250}, url = {http://dx.doi.org/10.1371/journal.pone.0002250}, author = {Derelle, Evelyne and Ferraz, Conchita and Escande, Marie-Line and Eycheni{\'e}, Sophie and Cooke, Richard and Piganeau, Gwenael and Desdevises, Yves and Bellec, Laure and Moreau, Herv{\'e} and Grimsley, Nigel} } @article {Cardol2008, title = {An original adaptation of photosynthesis in the marine green alga Ostreococcus}, journal = {Proceedings of the National Academy of Sciences of the United States of America}, volume = {105}, number = {22}, year = {2008}, note = {tex.mendeley-tags: RCC745,RCC809}, pages = {7881{\textendash}7886}, abstract = {Adaptation of photosynthesis in marine environment has been examined in two strains of the green, picoeukaryote : OTH95, a surface/high-light strain, and RCC809, a deep-sea/low-light strain. Differences between the two strains include changes in the light-harvesting capacity, which is lower in OTH95, and in the photoprotection capacity, which is enhanced in OTH95. Furthermore, RCC809 has a reduced maximum rate of O evolution, which is limited by its decreased photosystem I (PSI) level, a possible adaptation to Fe limitation in the open oceans. This decrease is, however, accompanied by a substantial rerouting of the electron flow to establish an HO-to-HO cycle, involving PSII and a potential plastid plastoquinol terminal oxidase. This pathway bypasses electron transfer through the cytochrome complex and allows the pumping of {\^a}{\texteuro}{\oe}extra{\^a}{\texteuro} protons into the thylakoid lumen. By promoting the generation of a large {\^I}{\textquotedblright}pH, it facilitates ATP synthesis and nonphotochemical quenching when RCC809 cells are exposed to excess excitation energy. We propose that the diversion of electrons to oxygen downstream of PSII, but before PSI, reflects a common and compulsory strategy in marine phytoplankton to bypass the constraints imposed by light and/or nutrient limitation and allow successful colonization of the open-ocean marine environment.}, keywords = {rcc, RCC745, RCC809}, doi = {10.1073/pnas.0802762105}, url = {http://www.pnas.org/content/105/22/7881.abstract}, author = {Cardol, Pierre and Bailleul, Benjamin and Rappaport, Fabrice and Derelle, Evelyne and Baal, Daniel and Breyton, C{\'e}cile and Bailey, Shaun and Wollman, Francis Andr{\'e} and Grossman, Arthur and Moreau, Herv{\'e} and Finazzi, Giovanni} } @article {Derelle2006, title = {Genome analysis of the smallest free-living eukaryote Ostreococcus tauri unveils many unique features}, journal = {Proceedings of the National Academy of Sciences of the United States of America}, volume = {103}, number = {31}, year = {2006}, note = {tex.mendeley-tags: RCC745}, pages = {11647{\textendash}11652}, abstract = {The green lineage is reportedly 1,500 million years old, evolving shortly after the endosymbiosis event that gave rise to early photosynthetic eukaryotes. In this study, we unveil the complete genome sequence of an ancient member of this lineage, the unicellular green alga Ostreococcus tauri (Prasinophyceae). This cosmopolitan marine primary producer is the world{\textquoteright}s smallest free-living eukaryote known to date. Features likely reflecting optimization of environmentally relevant pathways, including resource acquisition, unusual photosynthesis apparatus, and genes potentially involved in C4 photosynthesis, were observed, as was downsizing of many gene families. Overall, the 12.56-Mb nuclear genome has an extremely high gene density, in part because of extensive reduction of intergenic regions and other forms of compaction such as gene fusion. However, the genome is structurally complex. It exhibits previously unobserved levels of heterogeneity for a eukaryote. Two chromosomes differ structurally from the other eighteen. Both have a significantly biased G+C content, and, remarkably, they contain the majority of transposable elements. Many chromosome 2 genes also have unique codon usage and splicing, but phylogenetic analysis and composition do not support alien gene origin. In contrast, most chromosome 19 genes show no similarity to green lineage genes and a large number of them are specialized in cell surface processes. Taken together, the complete genome sequence, unusual features, and downsized gene families, make O. tauri an ideal model system for research on eukaryotic genome evolution, including chromosome specialization and green lineage ancestry.}, keywords = {rcc, RCC745, SBR$_\textrmP$hyto}, doi = {10.1073/pnas.0604795103}, url = {http://www.pnas.org/cgi/content/abstract/103/31/11647}, author = {Derelle, Evelyne and Ferraz, Conchita and Rombauts, Stephane and Rouze, Pierre and Worden, Alexandra Z and Robbens, Steven and Partensky, Fr{\'e}d{\'e}ric and Degroeve, Sven and Echeynie, Sophie and Cooke, Richard and Saeys, Yvan and Wuyts, Jan and Jabbari, Kamel and Bowler, Chris and Panaud, Olivier and Piegu, Benoit and Ball, Steven G and Ral, Jean-Philippe and Bouget, Fran{\c c}ois-Yves and Piganeau, Gwenael and De Baets, Bernard and Picard, Andr{\'e} and Delseny, Michel and Demaille, Jacques and Van de Peer, Yves and Moreau, Herv{\'e}} }