Add to ORKGMicrobial life in the oceans impacts the entire marine ecosystem, global biogeochemistry and climate. The marine cyanobacterium Prochlorococcus, an abundant component of this ecosystem, releases a significant fraction of the carbon fixed through photosynthesis, but the amount, timing and molecular composition of released carbon are still poorly understood. These depend on several factors, including nutrient availability, light intensity and glycogen storage. Here we combine multiple computational approaches to provide insight into carbon storage and exudation in Prochlorococcus. First, with the aid of a new algorithm for recursive filling of metabolic gaps (ReFill), and through substantial manual curation, we extended an existing genome-sca...
Metabolism mediates the flow of matter and energy through the biosphere. We examined how metabolic e...
Prochlorococcus is a marine cyanobacterium that numerically dominates the mid-latitude oceans and is...
ABSTRACT Many microorganisms produce resting cells with very low metabolic activity that allow them ...
Microbial life in the oceans impacts the entire marine ecosystem, global biogeochemistry and climate...
The marine cyanobacterium Prochlorococcus can utilize glucose as a source of carbon. However, the re...
Primary production by Prochlorococcus, the smallest known free-living photosynthetic organism in ter...
Earth System Models (ESMs) highly simplify their representation of biological processes, leading to ...
Prochlorococcus is responsible for a significant part of CO2 fixation in the ocean. Although it was ...
The marine unicellular cyanobacterium Prochlorococcus is the dominant oxygenic phototroph in the tro...
Picophytoplanktonic cells (0.2-2 μm) are the dominant phytoplankters in the largest marine biomes on...
The ability of microorganisms to withstand long periods of nutrient starvation is key to their survi...
Extensive microdiversity within Prochlorococcus, the most abundant marine cyanobacterium, occurs at ...
Small but numerically dominant species such as the cyanobacteria Prochlorococcus play a pivotal role...
Inorganic phosphorus is scarce in the eastern Mediterranean Sea, where the high-light-adapted ecotyp...
Cyanobacteria, which constitute a quantitatively dominant phylum, have attracted attention in biofue...
Metabolism mediates the flow of matter and energy through the biosphere. We examined how metabolic e...
Prochlorococcus is a marine cyanobacterium that numerically dominates the mid-latitude oceans and is...
ABSTRACT Many microorganisms produce resting cells with very low metabolic activity that allow them ...
Microbial life in the oceans impacts the entire marine ecosystem, global biogeochemistry and climate...
The marine cyanobacterium Prochlorococcus can utilize glucose as a source of carbon. However, the re...
Primary production by Prochlorococcus, the smallest known free-living photosynthetic organism in ter...
Earth System Models (ESMs) highly simplify their representation of biological processes, leading to ...
Prochlorococcus is responsible for a significant part of CO2 fixation in the ocean. Although it was ...
The marine unicellular cyanobacterium Prochlorococcus is the dominant oxygenic phototroph in the tro...
Picophytoplanktonic cells (0.2-2 μm) are the dominant phytoplankters in the largest marine biomes on...
The ability of microorganisms to withstand long periods of nutrient starvation is key to their survi...
Extensive microdiversity within Prochlorococcus, the most abundant marine cyanobacterium, occurs at ...
Small but numerically dominant species such as the cyanobacteria Prochlorococcus play a pivotal role...
Inorganic phosphorus is scarce in the eastern Mediterranean Sea, where the high-light-adapted ecotyp...
Cyanobacteria, which constitute a quantitatively dominant phylum, have attracted attention in biofue...
Metabolism mediates the flow of matter and energy through the biosphere. We examined how metabolic e...
Prochlorococcus is a marine cyanobacterium that numerically dominates the mid-latitude oceans and is...
ABSTRACT Many microorganisms produce resting cells with very low metabolic activity that allow them ...