Roscoff Culture Collection

Marine Microalgae, Macroalgae, Protists, Bacteria and Viruses

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Wolhowe MD, Prahl FG, Probert I, Maldonado M. 2009. Growth phase dependent hydrogen isotopic fractionation in alkenone-producing haptophytes. Biogeosciences. 6:1681–1694.

Wolhowe et al_2009_Growth phase dependent hydrogen isotopic fractionation in alkenone-producing.pdf (770.38 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)

Wang KJiaxi, Huang Y, Majaneva M, Belt ST, Liao S, Novak J, Kartzinel TR, Herbert TD, Richter N, Cabedo-Sanz P. 2021. Group 2i Isochrysidales produce characteristic alkenones reflecting sea ice distribution. Nature Communications. 12:15.

Wang et al_2021_Group 2i Isochrysidales produce characteristic alkenones reflecting sea ice.pdf (2.14 MB)

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)

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.

Degraeve-Guilbault C, Bréhélin C, Haslam R, Sayanova O, Marie-Luce G, Jouhet J, Corellou F. 2017. Glycerolipid characterization and nutrient deprivation-associated changes in the green picoalga ostreococcus tauri. Plant Physiology. 173:2060–2080.

Degraeve-Guilbault et al_2017_Glycerolipid characterization and nutrient deprivation-associated changes in.pdf (2.8 MB)

Chamnansinp A, Li Y, Lundholm N, Moestrup Ø. 2013. Global diversity of two widespread, colony-forming diatoms of the marine plankton, Chaetoceros socialis (syn. C. radians ) and Chaetoceros gelidus sp. nov.. Journal of Phycology. 49:1128–1141.

Chamnansinp et al_2013_Global diversity of two widespread, colony-forming diatoms of the marine.pdf (3.02 MB)

Slapeta J, López-García P, Moreira D. 2006. Global dispersal and ancient cryptic species in the smallest marine eukaryotes. Molecular Biology and Evolution. 23:23–29.

Slapeta et al_2006_Global dispersal and ancient cryptic species in the smallest marine eukaryotes.pdf (538.25 KB)

Ruvindy R, Barua A, Bolch CJS, Sarowar C, Savela H, Murray SA. 2023. Genomic copy number variability at the genus, species and population levels impacts in situ ecological analyses of dinoflagellates and harmful algal blooms. ISME Communications. 3:1–11.

Ruvindy et al_2023_Genomic copy number variability at the genus, species and population levels.pdf (2.58 MB)

Cho A, Lax G, Livingston SJ, Masukagami Y, Naumova M, Millar O, Husnik F, Keeling PJ. 2024. Genomic analyses of Symbiomonas scintillans show no evidence for endosymbiotic bacteria but does reveal the presence of giant viruses. PLOS Genetics. 20:e1011218.

Cho et al_2024_Genomic analyses of Symbiomonas scintillans show no evidence for endosymbiotic.pdf (6.58 MB)

Cho A, Lax G, Livingston SJ, Masukagami Y, Naumova M, Millar O, Husnik F, Keeling PJ. 2024. Genomic analyses of Symbiomonas scintillans show no evidence for endosymbiotic bacteria but does reveal the presence of giant viruses. PLOS Genetics. 20:e1011218.

Cho et al_2024_Genomic analyses of Symbiomonas scintillans show no evidence for endosymbiotic.pdf (6.58 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)

Robbens S, Khadaroo B, Camasses A, Derelle E, Ferraz C, Inze D, Peer Y Van de, Moreau H. 2005. Genome-wide analysis of core cell cycle genes in the unicellular green alga Ostreococcus tauri. Molecular Biology and Evolution. 22:589–597.

Robbens et al_2005_Genome-wide analysis of core cell cycle genes in the unicellular green alga.pdf (527.35 KB)

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)

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)

Collen J, Porcel B, Carré W, Ball SG, Chaparro C, Tonon T, Barbeyron T, Michel G, Noel B, Valentin K et al.. 2013. Genome structure and metabolic features in the red seaweed Chondrus crispus shed light on evolution of the Archaeplastida. Proceedings of the National Academy of Sciences. 110:5247–5252.

Collen et al_2013_Genome structure and metabolic features in the red seaweed Chondrus crispus.pdf (1012.43 KB)

Collen J, Porcel B, Carré W, Ball SG, Chaparro C, Tonon T, Barbeyron T, Michel G, Noel B, Valentin K et al.. 2013. Genome structure and metabolic features in the red seaweed Chondrus crispus shed light on evolution of the Archaeplastida. Proceedings of the National Academy of Sciences. 110:5247–5252.

Collen et al_2013_Genome structure and metabolic features in the red seaweed Chondrus crispus.pdf (1012.43 KB)

Collen J, Porcel B, Carré W, Ball SG, Chaparro C, Tonon T, Barbeyron T, Michel G, Noel B, Valentin K et al.. 2013. Genome structure and metabolic features in the red seaweed Chondrus crispus shed light on evolution of the Archaeplastida. Proceedings of the National Academy of Sciences. 110:5247–5252.

Collen et al_2013_Genome structure and metabolic features in the red seaweed Chondrus crispus.pdf (1012.43 KB)

Collen J, Porcel B, Carré W, Ball SG, Chaparro C, Tonon T, Barbeyron T, Michel G, Noel B, Valentin K et al.. 2013. Genome structure and metabolic features in the red seaweed Chondrus crispus shed light on evolution of the Archaeplastida. Proceedings of the National Academy of Sciences. 110:5247–5252.

Collen et al_2013_Genome structure and metabolic features in the red seaweed Chondrus crispus.pdf (1012.43 KB)

B. Belisle S, Paz AAAvila, Carpenter AR, Cormier TC, Lewis AJ, Menin LS, Oliveira DR, Song B, Szeto A, Tchantouridze EI et al.. 2020. Genome sequences of synechococcus sp. Strain MIT S9220 and cocultured cyanophage SynMITS9220M01. Microbiology Resource Announcements. 9:28–30.

Belisle et al_2020_Genome sequences of synechococcus sp.pdf (547.86 KB)

Palenik B, Ren Q, Dupont CL, Myers GS, Heidelberg JF, Badger JH, Madupu R, Nelson WC, Brinkac LM, Dodson RJ et al.. 2006. Genome sequence of Synechococcus CC9311: Insights into adaptation to a coastal environment. Proceedings of the National Academy of Sciences. 103:13555–13559.

Palenik et al_2006_Genome sequence of Synechococcus CC9311.pdf (1.16 MB)

Palenik B, Ren Q, Dupont CL, Myers GS, Heidelberg JF, Badger JH, Madupu R, Nelson WC, Brinkac LM, Dodson RJ et al.. 2006. Genome sequence of Synechococcus CC9311: Insights into adaptation to a coastal environment. Proceedings of the National Academy of Sciences. 103:13555–13559.

Palenik et al_2006_Genome sequence of Synechococcus CC9311.pdf (1.16 MB)

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