"Geobacter is a genus of bacteria."
A unique bacterial genus which grown electricity on the Earth.
Microbial Ecology: Understanding the relationship between Geobacter and other microbes in various environments.
Microbial Physiology: Knowledge about the metabolic pathways, gene expression, and enzymatic processes of Geobacter.
Biochemistry: Understanding the reactions and pathways that are involved in the metabolism of Geobacter.
Environmental Chemistry: Understanding the chemical reactions, nutrient cycling, and mobility of various elements and substrates in the environment.
Geochemistry: Understanding the interactions of Geobacter and other geochemical factors like minerals, fluids, and gases.
Molecular Biology: Understanding the genetic mechanisms, gene regulation, and DNA/RNA replication in Geobacter.
Ecological Modeling: Building mathematical models to predict the behavior and interactions of Geobacter and other microbes in various environments.
Biotechnology: Understanding how Geobacter can be used in various applications like electricity generation, bioremediation, and biofuels production.
Microbial Genomics: Understanding the role of Geobacter in the genetic diversity and evolution of microbial communities.
Microbial Biogeography: Studying the distribution and diversity of Geobacter in different spatial scales and environmental conditions.
Microbial Evolution: Understanding the mechanisms of adaptation and evolution of Geobacter in response to various selection pressures.
Environmental Microbiology: Understanding the ecological and functional roles of Geobacter and other microbial communities in different ecosystems.
Microbial Biogeochemistry: Understanding the biogeochemical cycles and interactions between Geobacter and other biotic and abiotic factors in the environment.
Systems Biology: Understanding the networks and interactions between the molecular, cellular, and ecological processes in Geobacter and other microbes.
Synthetic Biology: Applying engineering principles to design and manipulate the genetic and metabolic pathways of Geobacter to achieve specific goals.
Geobacter metallireducens: This species is one of the best-studied Geobacter, and is known to reduce a wide range of metals, including iron, uranium, and manganese.
Geobacter sulfurreducens: This species is also well-studied and is known for its ability to use soluble Fe(III) as an electron acceptor.
Geobacter lovleyi: This species was first identified in 2009 and is known to be capable of degrading the environmental contaminant trichloroethylene.
Geobacter bremensis: This species was first identified in 2019 and is known to be capable of producing electricity through the process of microbial electrosynthesis.
Geobacter uraniireducens: This species is known for its ability to reduce uranium, an important environmental contaminant.
"Geobacter species are anaerobic respiration bacterial species which have capabilities that make them useful in bioremediation."
"Geobacter was found to be the first organism with the ability to oxidize organic compounds and metals, including iron, radioactive metals, and petroleum compounds into environmentally benign carbon dioxide."
"Geobacter species use iron oxide or other available metals as electron acceptors."
"Geobacter species have capabilities that make them useful in bioremediation."
"Geobacter species are found to be able to respire upon a graphite electrode."
"They have been found in anaerobic conditions in soils and aquatic sediment."
"Their oxidation process is aimed at converting organic compounds and metals into environmentally benign carbon dioxide."
"The capabilities of Geobacter species make them useful in bioremediation."
"Geobacter has the ability to oxidize iron, radioactive metals, and petroleum compounds."
"During the oxidation process, Geobacter species use iron oxide or other available metals as electron acceptors."
"Geobacter species are anaerobic respirators."
"They have been found in anaerobic conditions in soils and aquatic sediment."
"Geobacter species convert organic compounds and metals into environmentally benign carbon dioxide."
"Geobacter was found to be the first organism with the ability to oxidize organic compounds and metals."
"Geobacter can oxidize radioactive metals, iron, and petroleum compounds."
"Geobacter species have capabilities that make them useful in bioremediation."
"Geobacter species are found to be able to respire upon a graphite electrode."
"Geobacter species oxidize organic compounds and metals into carbon dioxide, which helps complete the carbon cycle."
"They have been found in anaerobic conditions in soils and aquatic sediment."