RCC references

Export 124 results:
Author [ Title(Desc)] Year
Filters: First Letter Of Last Name is T  [Clear All Filters]
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z 
A
Decelle J, Stryhanyuk H, Gallet B, Veronesi G, Schmidt M, Balzano S, Marro S, Uwizeye C, Jouneau P-H, Lupette J et al..  2019.  Algal remodeling in a ubiquitous planktonic photosymbiosis. Current Biology. 29:968–978.e4.PDF icon Decelle et al_2019_Algal remodeling in a ubiquitous planktonic photosymbiosis.pdf (5.3 MB)
Helliwell KE, Chrachri A, Koester JA, Wharam S, Verret F, Taylor AR, Wheeler GL, Brownlee C.  2019.  Alternative mechanisms for fast na + /ca 2+ signaling in eukaryotes via a novel class of single-domain voltage-gated channels. Current Biology. 29:1503–1511.e6.PDF icon Helliwell et al_2019_Alternative mechanisms for fast na + -ca 2+ signaling in eukaryotes via a novel.pdf (2.62 MB)
Stewart A, Rioux D, Boyer F, Gielly L, Pompanon F, Saillard A, Thuiller W, Valay J-G, Maréchal É, Coissac E.  2021.  Altitudinal Zonation of Green Algae Biodiversity in the French Alps. Frontiers in Plant Science. 12:1066.PDF icon Stewart et al. - 2021 - Altitudinal Zonation of Green Algae Biodiversity i.pdf (5.59 MB)
Trefault N, de la Iglesia R, Moreno-Pino M, Santos ALopes dos, Ribeiro CGérikas, Parada-Pozo G, Cristi A, Marie D, Vaulot D.  2021.  Annual phytoplankton dynamics in coastal waters from fildes bay, western antarctic peninsula. Scientific Reports. 11:1368.PDF icon Trefault et al. - Annual phytoplankton dynamics in coastal waters from Fildes Bay, Western Antarctic Peninsula.pdf (1.35 MB)
B
Abby SS, Touchon M, De Jode A, Grimsley N, Piganeau G.  2014.  Bacteria in Ostreococcus tauri cultures - friends, foes or hitchhikers? Frontiers in microbiology. 5:505.PDF icon Abby et al_2014_Bacteria in Ostreococcus tauri cultures - friends, foes or hitchhikers.pdf (1.03 MB)
Kirkham AR, Jardillier LE, Tiganescu A, Pearman J, Zubkov MV, Scanlan DJ.  2011.  Basin-scale distribution patterns of photosynthetic picoeukaryotes along an Atlantic Meridional Transect. Environmental Microbiology. 13:975–990.PDF icon Kirkham et al_2011_Basin-scale distribution patterns of photosynthetic picoeukaryotes along an.pdf (2.5 MB)
Everroad C, Six C, Partensky F, Thomas JC, Holtzendorff J, Wood AM.  2006.  Biochemical bases of Type IV chromatic adaptation in marine Synechococcus spp.. Journal of Bacteriology. 188:3345–3356.PDF icon Everroad et al_2006_Biochemical bases of Type IV chromatic adaptation in marine Synechococcus spp.pdf (559.03 KB)
Dennu L, Devic M, Rigonato J, Falciatore A, Lozano J-C, Vergé V, Mariac C, Jaillon O, Team TDark Edge, Sabot F et al..  2023.  Biological and genomic resources for the cosmopolitan phytoplankton Bathycoccus: Insights into genetic diversity and major structural variations. PDF icon Dennu et al_2023_Biological and genomic resources for the cosmopolitan phytoplankton Bathycoccus.pdf (7.52 MB)
Kuwata A, Yamada K, Ichinomiya M, Yoshikawa S, Tragin M, Vaulot D, Santos ALopes dos.  2018.  Bolidophyceae, a sister picoplanktonic group of diatoms – a review. Frontiers in Marine Science. 5:370.PDF icon Kuwata et al_2018_Bolidophyceae, a sister picoplanktonic group of diatoms – a review.pdf (8.84 MB)
Probert I, Siano R, Poirier C, Decelle J, Biard T, Tuji A, Suzuki N, Not F.  2014.  Brandtodinium gen. nov. and B. nutricula comb. Nov. (Dinophyceae), a dinoflagellate commonly found in symbiosis with polycystine radiolarians. Journal of Phycology. 50:388–399.PDF icon Probert et al_2014_Brandtodinium gen.pdf (625.03 KB)
C
Fox E, Meyer E, Panasiak N, Taylor AR.  2018.  Calcein staining as a tool to investigate coccolithophore calcification. Frontiers in Marine Science. 5PDF icon Fox et al_2018_Calcein staining as a tool to investigate coccolithophore calcification.pdf (2.53 MB)
Leliaert F, Tronholm A, Lemieux C, Turmel M, DePriest MS, Bhattacharya D, Karol KG, Fredericq S, Zechman FW, Lopez-Bautista JM.  2016.  Chloroplast phylogenomic analyses reveal the deepest-branching lineage of the Chlorophyta, Palmophyllophyceae class. nov.. Scientific Reports. 6:25367.PDF icon Leliaert et al_2016_Chloroplast phylogenomic analyses reveal the deepest-branching lineage of the.pdf (2.32 MB)
Leliaert F, Tronholm A, Lemieux C, Turmel M, DePriest MS, Bhattacharya D, Karol KG, Fredericq S, Zechman FW, Lopez-Bautista JM.  2016.  Chloroplast phylogenomic analyses reveal the deepest-branching lineage of the Chlorophyta, Palmophyllophyceae class. nov.. Scientific Reports. 6:25367.PDF icon Leliaert et al_2016_Chloroplast phylogenomic analyses reveal the deepest-branching lineage of the.pdf (2.32 MB)
Drescher B, Dillaman RM, Taylor AR.  2012.  Coccolithogenesis in scyphosphaera apsteinii (prymnesiophyceae). Journal of Phycology. 48:1343–1361.
Clark AJ, Torres-Romero I, Jaggi M, Bernasconi SM, Stoll HM.  2023.  Coccolithophorids precipitate carbonate in clumped isotope equilibrium with seawater. PDF icon Clark et al. - 2023 - Coccolithophorids precipitate carbonate in clumped.pdf (1.42 MB)
Thomy J, Sanchez F, Gut M, Cruz F, Alioto T, Piganeau G, Grimsley N, Yau S.  2021.  Combining Nanopore and Illumina Sequencing Permits Detailed Analysis of Insertion Mutations and Structural Variations Produced by PEG-Mediated Transformation in Ostreococcus tauri. PDF icon Thomy et al. - 2021 - Combining Nanopore and Illumina Sequencing Permits.pdf (1.99 MB)
Thomy J, Sanchez F, Gut M, Cruz F, Alioto T, Piganeau G, Grimsley N, Yau S.  2021.  Combining Nanopore and Illumina Sequencing Permits Detailed Analysis of Insertion Mutations and Structural Variations Produced by PEG-Mediated Transformation in Ostreococcus tauri. Cells. 10:664.PDF icon Thomy et al. - 2021 - Combining Nanopore and Illumina Sequencing Permits.pdf (1.99 MB)
Coutinho F, Tschoeke DAntonio, Thompson F, Thomson C.  2015.  Comparative genomics of Synechococcus and proposal of the new genus Parasynechococcus. PeerJ. :e–1522.PDF icon Coutinho et al_2015_Comparative genomics of Synechococcus and proposal of the new genus.pdf (7.66 MB)
Coutinho F, Tschoeke DAntonio, Thompson F, Thomson C.  2015.  Comparative genomics of Synechococcus and proposal of the new genus Parasynechococcus. PeerJ. :e–1522.PDF icon Coutinho et al_2015_Comparative genomics of Synechococcus and proposal of the new genus.pdf (7.66 MB)
Coutinho F, Tschoeke DAntonio, Thompson F, Thomson C.  2015.  Comparative genomics of Synechococcus and proposal of the new genus Parasynechococcus. PeerJ. :e–1522.PDF icon Coutinho et al_2015_Comparative genomics of Synechococcus and proposal of the new genus.pdf (7.66 MB)
Pittera J, Humily F, Thorel M, Grulois D, Garczarek L, Six C.  2014.  Connecting thermal physiology and latitudinal niche partitioning in marine Synechococcus. The ISME journal. 8:1221–1236.PDF icon Pittera et al_2014_Connecting thermal physiology and latitudinal niche partitioning in marine.pdf (1.62 MB)
Ribeiro CGérikas, Santos ALopes dos, Gourvil P, Le Gall F, Marie D, Tragin M, Probert I, Vaulot D.  2020.  Culturable diversity of Arctic phytoplankton during pack ice melting. Elementa: Science of the Anthropocene. 8:6.PDF icon Ribeiro et al_2020_Culturable diversity of Arctic phytoplankton during pack ice melting.pdf (6.82 MB)
D
Turmel M, Otis C, Lemieux C.  2010.  A deviant genetic code in the reduced mitochondrial genome of the picoplanktonic green alga pycnococcus provasolii. Journal of Molecular Evolution. 70:203–214.PDF icon Turmel et al_2019_Tracing the evolution of the plastome and mitogenome in the chloropicophyceae.pdf (3.28 MB)
Wittek B, Carnat G, Delille B, Tison J-L, Gypens N.  2020.  Dimethylsulfoniopropionate (DMSP) and dimethylsulfoxide (DMSO) cell quotas variations arising from sea ice shifts of salinity and temperature in the Prymnesiophyceae Phaeocystis antarctica. Environmental Chemistry.
Long M, Marie D, Szymczak J, Toullec J, Bigeard E, Sourisseau M, Le Gac M, Guillou L, Jauzein C.  2021.  Dinophyceae can use exudates as weapons against the parasite Amoebophrya sp. (Syndiniales). ISME Communications. 1:1–10.PDF icon Long et al. - 2021 - Dinophyceae can use exudates as weapons against th.pdf (1.72 MB)

Pages