Results 231 to 240 of about 139,170 (271)

Bacterial Vesicles Mediate Extracellular Electron Transfer

open access: yesEnvironmental Science & Technology Letters, 2019
Many Gram-negative bacteria are known to release outer membrane vesicles (OMVs) into the surrounding environment during normal growth; OMVs perform diverse biological and environmental functions (e...
Xing Liu   +5 more
openaire   +2 more sources

Cathodes as electron donors for microbial metabolism: Which extracellular electron transfer mechanisms are involved?

open access: yesBioresource Technology, 2011
This review illuminates extracellular electron transfer mechanisms that may be involved in microbial bioelectrochemical systems with biocathodes. Microbially-catalyzed cathodes are evolving for new bioprocessing applications for waste(water) treatment ...
Miriam A Rosenbaum   +2 more
exaly   +2 more sources

Extracellular DNA Promotes Efficient Extracellular Electron Transfer by Pyocyanin in Pseudomonas aeruginosa Biofilms [PDF]

open access: yesCell, 2020
Redox cycling of extracellular electron shuttles can enable the metabolic activity of subpopulations within multicellular bacterial biofilms that lack direct access to electron acceptors or donors.
Scott H Saunders   +2 more
exaly   +1 more source

pH dependence of quinone-mediated extracellular electron transfer in a bioelectrochemical system

open access: yesElectrochimica Acta, 2016
Quinone-mediated extracellular electron transfer (EET) is a well-known and important microbial respiration process in many natural and engineering systems.
Yundang Wu, Fangbai Li, Tongxu Liu
exaly   +2 more sources
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Extracellular electron transfer in microbial biocorrosion

Current Opinion in Electrochemistry, 2021
Abstract Biocorrosion by microbial biofilms is also termed microbiologically influenced corrosion (MIC). For many decades in MIC research, people focused on corrosive metabolites. In the past decade, researchers started to apply bioenergetics to MIC science research.
Tingyue Gu   +3 more
openaire   +1 more source

Moving towards the enhancement of extracellular electron transfer in electrogens

World Journal of Microbiology and Biotechnology, 2023
Electrogens are very common in nature and becoming a contemporary theme for research as they can be exploited for extracellular electron transfer. Extracellular electron transfer is the key mechanism behind bioelectricity generation and bioremediation of pollutants via microbes.
Manisha, Verma   +2 more
openaire   +2 more sources

Extracellular electron transfer via microbial nanowires

Nature, 2005
Microbes that can transfer electrons to extracellular electron acceptors, such as Fe(iii) oxides, are important in organic matter degradation and nutrient cycling in soils and sediments. Previous investigations on electron transfer to Fe(iii) have focused on the role of outer-membrane c-type cytochromes.
Lovley, Derek   +5 more
openaire   +2 more sources

A role for excreted quinones in extracellular electron transfer

Nature, 2000
Respiratory processes in bacteria are remarkable because of their ability to use a variety of compounds, including insoluble minerals, as terminal electron acceptors. Although much is known about microbial electron transport to soluble electron acceptors, little is understood about electron transport to insoluble compounds such as ferric oxides.
Newman, Dianne K., Kolter, Roberto
openaire   +3 more sources

Extracellular electron transfer of Methylophilus methylotrophs

Process Biochemistry, 2020
Abstract Methylophilus methylotrophs, as representatives of C1 microbes, widely exist in the interface of hyperoxia–hypoxia environment and plays a key role in global carbon cycle. Most studies of Methylophilus were carried out under hyperoxic conditions, while it remains unclear how Methylophilus survive under oxygen-limited conditions.
Yeyi Yang   +5 more
openaire   +1 more source

The Functional Mechanisms and Application of Electron Shuttles in Extracellular Electron Transfer

Current Microbiology, 2017
Electron shuttles extensively exist in various environments. Some kinds of organic substances can be applied by microorganisms to produce electrons, and then the electrons can be transferred to other substances or microorganisms through electron shuttles, resulting in coexistence and interaction of diverse species of microbes.
Bin, Huang   +4 more
openaire   +2 more sources

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