Add to ORKGProkaryotes have been shaping the surface of the Earth and impacting geochemical cycles for the past four billion years. Biomineralization, the capacity to form minerals, is a key process by which microbes interact with their environment. While we keep improving our understanding of the mechanisms of this process (“how?”), questions around its functions and adaptive roles (“why?”) have been less intensively investigated. Here, we discuss biomineral functions for several examples of prokaryotic biomineralization systems, and propose a roadmap for the study of microbial biomineralization through the lens of adaptation. We also discuss emerging questions around the potential roles of biomineralization in microbial cooperation and as important ...
© 2015 Elsevier Ltd. Soil is composed of a mosaic of different rocks and minerals, usually considere...
Bacteria are small, prokaryotic, microorganisms that are ubiquitous in surface and subsurface terres...
Biomineralization processes have traditionally been grouped into two distinct modes; biologically in...
Prokaryotes have been shaping the surface of the Earth and impacting geochemical cycles for the past...
International audienceProkaryotes have been shaping the surface of the Earth and impacting geochemic...
Microorganisms capable of biomineralization can catalyze mineral precipitation by modifying local ph...
Microbes play key geoactive roles in the biosphere, particularly in the areas of element biotransfor...
Conceptually, minerals represent challenging “substrates” (sources of nutrients and/or energy) for p...
International audienceMicroorganisms can mediate the formation of minerals by a process called biomi...
Microorganisms have populated the Earth for billions of years and their activities are important for...
Biomineralization is a frequently used term in nanotechnology, astrobiology, geology, and medicine. ...
Bacteria and fungi are fundamental biotic components of natural biogeochemical cycles for metals and...
Minerals and microbes have coevolved throughout much of Earth history. They interact at the microsco...
© 2016, Springer Science+Business Media New York. Understanding how minerals affect bacterial commun...
Though the most ready example of biomineralization is the calcium phosphate of vertebrate bones and ...
© 2015 Elsevier Ltd. Soil is composed of a mosaic of different rocks and minerals, usually considere...
Bacteria are small, prokaryotic, microorganisms that are ubiquitous in surface and subsurface terres...
Biomineralization processes have traditionally been grouped into two distinct modes; biologically in...
Prokaryotes have been shaping the surface of the Earth and impacting geochemical cycles for the past...
International audienceProkaryotes have been shaping the surface of the Earth and impacting geochemic...
Microorganisms capable of biomineralization can catalyze mineral precipitation by modifying local ph...
Microbes play key geoactive roles in the biosphere, particularly in the areas of element biotransfor...
Conceptually, minerals represent challenging “substrates” (sources of nutrients and/or energy) for p...
International audienceMicroorganisms can mediate the formation of minerals by a process called biomi...
Microorganisms have populated the Earth for billions of years and their activities are important for...
Biomineralization is a frequently used term in nanotechnology, astrobiology, geology, and medicine. ...
Bacteria and fungi are fundamental biotic components of natural biogeochemical cycles for metals and...
Minerals and microbes have coevolved throughout much of Earth history. They interact at the microsco...
© 2016, Springer Science+Business Media New York. Understanding how minerals affect bacterial commun...
Though the most ready example of biomineralization is the calcium phosphate of vertebrate bones and ...
© 2015 Elsevier Ltd. Soil is composed of a mosaic of different rocks and minerals, usually considere...
Bacteria are small, prokaryotic, microorganisms that are ubiquitous in surface and subsurface terres...
Biomineralization processes have traditionally been grouped into two distinct modes; biologically in...