#xanthorhodopsin — Public Fediverse posts

Some #microalgae smartly switch energy systems to support growth under nutrient limitation https://microbiologycommunity.nature.com/posts/some-microalgae-smartly-switch-energy-systems-to-support-growth-under-nutrient-limitation

#Plastid-localized #xanthorhodopsin increases #diatom biomass and ecosystem productivity in iron-limited surface oceans https://www.nature.com/articles/s41564-023-01498-5

"marine #diatoms, a globally important group of #algae can switch between #photosynthesis and a light-driven #rhodopsin proton pump to support growth in iron-deprived waters"

#protists #microbes #metabolism #plankton

Some #microalgae smartly switch energy systems to support growth under nutrient limitation https://microbiologycommunity.nature.com/posts/some-microalgae-smartly-switch-energy-systems-to-support-growth-under-nutrient-limitation

#Plastid-localized #xanthorhodopsin increases #diatom biomass and ecosystem productivity in iron-limited surface oceans https://www.nature.com/articles/s41564-023-01498-5

"marine #diatoms, a globally important group of #algae can switch between #photosynthesis and a light-driven #rhodopsin proton pump to support growth in iron-deprived waters"

#protists #microbes #metabolism #plankton

Some #microalgae smartly switch energy systems to support growth under nutrient limitation https://microbiologycommunity.nature.com/posts/some-microalgae-smartly-switch-energy-systems-to-support-growth-under-nutrient-limitation

#Plastid-localized #xanthorhodopsin increases #diatom biomass and ecosystem productivity in iron-limited surface oceans https://www.nature.com/articles/s41564-023-01498-5

"marine #diatoms, a globally important group of #algae can switch between #photosynthesis and a light-driven #rhodopsin proton pump to support growth in iron-deprived waters"

#protists #microbes #metabolism #plankton

Some #microalgae smartly switch energy systems to support growth under nutrient limitation https://microbiologycommunity.nature.com/posts/some-microalgae-smartly-switch-energy-systems-to-support-growth-under-nutrient-limitation

#Plastid-localized #xanthorhodopsin increases #diatom biomass and ecosystem productivity in iron-limited surface oceans https://www.nature.com/articles/s41564-023-01498-5

"marine #diatoms, a globally important group of #algae can switch between #photosynthesis and a light-driven #rhodopsin proton pump to support growth in iron-deprived waters"

#protists #microbes #metabolism #plankton

Some #microalgae smartly switch energy systems to support growth under nutrient limitation https://microbiologycommunity.nature.com/posts/some-microalgae-smartly-switch-energy-systems-to-support-growth-under-nutrient-limitation

#Plastid-localized #xanthorhodopsin increases #diatom biomass and ecosystem productivity in iron-limited surface oceans https://www.nature.com/articles/s41564-023-01498-5

"marine #diatoms, a globally important group of #algae can switch between #photosynthesis and a light-driven #rhodopsin proton pump to support growth in iron-deprived waters"

#protists #microbes #metabolism #plankton