RCC references

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Nikitashina V, Stettin D, Pohnert G.  2022.  Metabolic adaptation of diatoms to hypersalinity. Phytochemistry. :113267.PDF icon Nikitashina et al. - 2022 - Metabolic adaptation of diatoms to hypersalinity.pdf (1.63 MB)
Wang J, Zeng C, Feng Y.  2024.  Meta-analysis reveals responses of coccolithophores and diatoms to warming. Marine Environmental Research. 193:106275.PDF icon Wang et al. - 2024 - Meta-analysis reveals responses of coccolithophore.pdf (6.51 MB)
Zeng Q, Chisholm SW.  2012.  Marine viruses exploit their host's two-component regulatory system in response to resource limitation. Current Biology. PDF icon Zeng_Chisholm_2012_Marine viruses exploit their host's two-component regulatory system in response.pdf (317.21 KB)
Domínguez-Martín MAgustina, López-Lozano A, Melero-Rubio Y, Gómez-Baena G, Jiménez-Estrada JAndrés, Kukil K, Díez J, García-Fernández JManuel.  2022.  Marine \textit{Synechococcus sp. Strain WH7803 Shows Specific Adaptative Responses to Assimilate Nanomolar Concentrations of Nitrate. Microbiology Spectrum. 10:e00187–22.PDF icon Domínguez-Martín et al. - 2022 - Marine Synechococcus sp. Strain WH7803 Show.pdf (2.07 MB)
Six C, Ratin M, Marie D, Corre E.  2021.  Marine Synechococcus picocyanobacteria: Light utilization across latitudes. Proceedings of the National Academy of Sciences. 118PDF icon Six et al_2021_Marine Synechococcus picocyanobacteria.pdf (1.31 MB)PDF icon Six et al. - 2021 - Marine Synechococcus picocyanobacteria Li.pdf (1.15 MB)
Weynberg KD, Allen MJ, Wilson WH.  2017.  Marine prasinoviruses and their tiny plankton hosts : A review. Viruses. :1–20.PDF icon Weynberg et al_2017_Marine prasinoviruses and their tiny plankton hosts.pdf (4.59 MB)
Moreau H, Piganeau G, Desdevises Y, Cooke R, Derelle E, Grimsley N.  2010.  Marine Prasinovirus genomes show low evolutionary divergence and acquisition of protein metabolism genes by horizontal gene transfer. Journal of Virology. 84:12555–12563.PDF icon Moreau et al_2010_Marine Prasinovirus genomes show low evolutionary divergence and acquisition of.pdf (2.2 MB)
Keeling PJ, Burki F, Wilcox HM, Allam B, Allen EE, Amaral-Zettler LA, E Armbrust V, Archibald JM, Bharti AK, Bell CJ et al..  2014.  The Marine Microbial Eukaryote Transcriptome Sequencing Project (MMETSP): illuminating the functional diversity of eukaryotic life in the oceans through transcriptome sequencing. PLoS biology. 12:e1001889.PDF icon Keeling et al_2014_The Marine Microbial Eukaryote Transcriptome Sequencing Project (MMETSP).pdf (353.97 KB)
Reddy MM, Jennings L, Thomas OP.  2021.  Marine Biodiscovery in a Changing World. Progress in the Chemistry of Organic Natural Products 116. :1–36.PDF icon Reddy et al_2021_Marine Biodiscovery in a Changing World.pdf (685.24 KB)
Duanmu D, Bachy C, Sudek S, Wong C-H, Jimenez V, Rockwell NC, Martin SS, Ngan CYee, Reistetter EN, van Baren MJ et al..  2014.  Marine algae and land plants share conserved phytochrome signaling systems. Proceedings of the National Academy of Sciences of the United States of America. 111:15827–15832.
Groussman R.D, Blaskowski S., Coesel S.N, Armbrust E.V.  2023.  MarFERReT, an open-source, version-controlled reference library of marine microbial eukaryote functional genes. Scientific Data. 10:926.PDF icon Groussman et al_2023_MarFERReT, an open-source, version-controlled reference library of marine.pdf (2.17 MB)
Zhu F, Massana R, Not F, Marie D, Vaulot D.  2005.  Mapping of picoeucaryotes in marine ecosystems with quantitative PCR of the 18S rRNA gene. FEMS Microbiology Ecology. 52:79–92.PDF icon Zhu et al_2005_Mapping of picoeucaryotes in marine ecosystems with quantitative PCR of the 18S.pdf (220.7 KB)

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