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View article: Developing stable, simplified, functional consortia from Brachypodium rhizosphere for microbial application in sustainable agriculture
Developing stable, simplified, functional consortia from Brachypodium rhizosphere for microbial application in sustainable agriculture Open
The rhizosphere microbiome plays a crucial role in supporting plant productivity and ecosystem functioning by regulating nutrient cycling, soil integrity, and carbon storage. However, deciphering the intricate interplay between microbial r…
View article: Electrical current disrupts the electron transfer in defined consortia
Electrical current disrupts the electron transfer in defined consortia Open
Improving methane production through electrical current application to anaerobic digesters has garnered interest in optimizing such microbial electrochemical technologies, with claims suggesting direct interspecies electron transfer (DIET)…
View article: Comment on bg-2023-174
Comment on bg-2023-174 Open
Abstract. Microbial methane production is intimately linked to the biogeochemical cycling of iron, sulfur, and carbon in sedimentary environments. Sulfate-reducing microbes often outcompete methanogens for shared substrate…
View article: Comment on bg-2023-174
Comment on bg-2023-174 Open
Abstract. Microbial methane production is intimately linked to the biogeochemical cycling of iron, sulfur, and carbon in sedimentary environments. Sulfate-reducing microbes often outcompete methanogens for shared substrate…
View article: Comment on bg-2023-174
Comment on bg-2023-174 Open
Abstract. Microbial methane production is intimately linked to the biogeochemical cycling of iron, sulfur, and carbon in sedimentary environments. Sulfate-reducing microbes often outcompete methanogens for shared substrate…
View article: Supplementary material to "Crystalline Iron Oxides Stimulate Methanogenesis Under Sulfate Reducing Conditions in the Terrestrial Subsurface"
Supplementary material to "Crystalline Iron Oxides Stimulate Methanogenesis Under Sulfate Reducing Conditions in the Terrestrial Subsurface" Open
View article: Crystalline Iron Oxides Stimulate Methanogenesis Under Sulfate Reducing Conditions in the Terrestrial Subsurface
Crystalline Iron Oxides Stimulate Methanogenesis Under Sulfate Reducing Conditions in the Terrestrial Subsurface Open
Microbial methane production is intimately linked to the biogeochemical cycling of iron, sulfur, and carbon in sedimentary environments. Sulfate-reducing microbes often outcompete methanogens for shared substrates. However, in a prior stud…
View article: Decoding Root Biogeography: Building Reduced Complexity Functional Rhizosphere Microbial Consortia
Decoding Root Biogeography: Building Reduced Complexity Functional Rhizosphere Microbial Consortia Open
The rhizosphere microbiome plays a crucial role in supporting plant productivity and contributes to ecosystem functioning by regulating nutrient cycling, soil integrity, and carbon storage. However, characterizing their functional attribut…
View article: Fine scale sampling reveals early differentiation of rhizosphere microbiome from bulk soil in young <i>Brachypodium</i> plant roots
Fine scale sampling reveals early differentiation of rhizosphere microbiome from bulk soil in young <i>Brachypodium</i> plant roots Open
For a deeper and comprehensive understanding of the composition and function of rhizosphere microbiomes, we need to focus at the scale of individual roots in standardized growth containers. Root exudation patterns are known to vary along d…
View article: Fine scale sampling reveals spatial heterogeneity of rhizosphere microbiome in young<i>Brachypodium</i>plants
Fine scale sampling reveals spatial heterogeneity of rhizosphere microbiome in young<i>Brachypodium</i>plants Open
For a deeper and comprehensive understanding of the diversity, composition and function of rhizosphere microbiomes, we need to focus at the scale of individual roots in standardized growth containers. Root exudation patterns are known to v…
View article: Crystalline Iron Oxides Stimulate Methanogenesis Under Sulfate Reducing Conditions in the Terrestrial Subsurface
Crystalline Iron Oxides Stimulate Methanogenesis Under Sulfate Reducing Conditions in the Terrestrial Subsurface Open
View article: The Fate of DIET Consortium exposed to continuous and intermittent electrochemical stimulation
The Fate of DIET Consortium exposed to continuous and intermittent electrochemical stimulation Open
Electromethanogenesis is the electrochemical conversion of carbon dioxide (CO 2 ) to methane (CH 4 ) with microorganisms as catalysts, and it is a promising approach for biogas upgrading. Many studies have shown increased methane productio…
View article: Specialized Plant Growth Chamber Designs to Study Complex Rhizosphere Interactions
Specialized Plant Growth Chamber Designs to Study Complex Rhizosphere Interactions Open
The rhizosphere is a dynamic ecosystem shaped by complex interactions between plant roots, soil, microbial communities and other micro- and macro-fauna. Although studied for decades, critical gaps exist in the study of plant roots, the rhi…
View article: Culturing of “Unculturable” Subsurface Microbes: Natural Organic Carbon Source Fuels the Growth of Diverse and Distinct Bacteria From Groundwater
Culturing of “Unculturable” Subsurface Microbes: Natural Organic Carbon Source Fuels the Growth of Diverse and Distinct Bacteria From Groundwater Open
Recovery and cultivation of diverse environmentally-relevant microorganisms from the terrestrial subsurface remain a challenge despite recent advances in modern molecular technology. Here, we applied complex carbon (C) sources, i.e., sedim…
View article: Culturing of ‘Unculturable’ Subsurface Microbes: Natural Organic Carbon Source Fuels the Growth of Diverse and Distinct Bacteria from Groundwater
Culturing of ‘Unculturable’ Subsurface Microbes: Natural Organic Carbon Source Fuels the Growth of Diverse and Distinct Bacteria from Groundwater Open
The recovery and cultivation of diverse field-related microorganisms from the terrestrial subsurface environment remains a challenge despite recent advances in modern molecular technology. Here we applied natural organic carbon (C), i.e., …
View article: Extracellular electron uptake in Methanosarcinales is independent of multiheme c-type cytochromes
Extracellular electron uptake in Methanosarcinales is independent of multiheme c-type cytochromes Open
The co-occurrence of Geobacter and Methanosarcinales is often used as a proxy for the manifestation of direct interspecies electron transfer (DIET) in the environment. Here we tested eleven new co-culture combinations between methanogens a…
View article: Cultivating electroactive microbes—from field to bench
Cultivating electroactive microbes—from field to bench Open
Electromicrobiology is an emerging field investigating and exploiting the interaction of microorganisms with insoluble electron donors or acceptors. Some of the most recently categorized electroactive microorganisms became of interest to s…
View article: Culturing of “Unculturable” Subsurface Microbes: Natural Organic Carbon Source Fuels the Growth of Diverse and Distinct Bacteria From Groundwater
Culturing of “Unculturable” Subsurface Microbes: Natural Organic Carbon Source Fuels the Growth of Diverse and Distinct Bacteria From Groundwater Open
© Copyright © 2020 Wu, Spencer, Gushgari-Doyle, Yee, Voriskova, Li, Alm and Chakraborty. Recovery and cultivation of diverse environmentally-relevant microorganisms from the terrestrial subsurface remain a challenge despite recent advances…
View article: OA07.06 Patient Knowledge and Expectations Related to Return of Genomic Results in the Lung-MAP (SWOG 1400) Biomarker-Driven Clinical Trial
OA07.06 Patient Knowledge and Expectations Related to Return of Genomic Results in the Lung-MAP (SWOG 1400) Biomarker-Driven Clinical Trial Open
View article: Extracellular electron uptake in<i>Methanosarcinales</i>is independent of multiheme<i>c</i>-type cytochromes
Extracellular electron uptake in<i>Methanosarcinales</i>is independent of multiheme<i>c</i>-type cytochromes Open
The co-occurrence of Geobacter and Methanosarcinales is often used as a proxy for the manifestation of direct interspecies electron transfer (DIET) in man-made and natural aquatic environments. We previously reported that not all Geobacter…
View article: Extracellular Electron Uptake by Two Methanosarcina Species
Extracellular Electron Uptake by Two Methanosarcina Species Open
Direct electron uptake by prokaryotes is a recently described mechanism with a potential application for energy and CO2 storage into value added chemicals. Members of Methanosarcinales, an environmentally and biotechnologically relevant gr…
View article: Extracellular Electron Uptake by Two<i>Methanosarcina</i>Species
Extracellular Electron Uptake by Two<i>Methanosarcina</i>Species Open
Direct electron uptake by prokaryotes is a recently described mechanism with a potential application for energy and CO 2 storage into value added chemicals. Members of Methanosarcinales, an environmentally and biotechnologically relevant g…
View article: Biofouling control in reverse osmosis by nitric oxide treatment and its impact on the bacterial community
Biofouling control in reverse osmosis by nitric oxide treatment and its impact on the bacterial community Open
View article: Novel phenazine crystals enable direct electron transfer to methanogens in anaerobic digestion by redox potential modulation
Novel phenazine crystals enable direct electron transfer to methanogens in anaerobic digestion by redox potential modulation Open
Phenazine crystals enhance methanogenesis by electron delivery to respiratory heterodisulfide reductase enzyme.
View article: CCDC 1020368: Experimental Crystal Structure Determination
CCDC 1020368: Experimental Crystal Structure Determination Open
An entry from the Cambridge Structural Database, the world’s repository for small molecule crystal structures. The entry contains experimental data from a crystal diffraction study. The deposited dataset for this entry is freely available …