Open Access. Powered by Scholars. Published by Universities.®
- Keyword
-
- Acanthamoeba (1)
- Anaerobic oxidation (1)
- Bioelectrohydrogenesis (1)
- Desulfococcus (1)
- Desulfosarcina (1)
-
- Dictyostelium (1)
- Dictyostelium discoideum (1)
- Genome sequence (1)
- Gulf of Mexico (1)
- Hydrogen (1)
- Inhibitor (1)
- Marine phototrophic bacteria (1)
- Methane (1)
- Methanogenesis (1)
- Microbial electrolysis cell (1)
- Microbial evolution (1)
- Molecular sequence data (1)
- Parasitology (1)
- Pseudo-organism (1)
- Rhodovulum sulfidophilum (1)
- Short-chain alkanes (1)
- Single-cell bottleneck (1)
- Structured dispersal (1)
- Structured growth (1)
- Sulfate reduction (1)
Articles 1 - 5 of 5
Full-Text Articles in Life Sciences
Anaerobic Oxidation Of Ethane, Propane, And Butane By Marine Microbes: A Mini Review, Rajesh Singh, Michael S. Guzman, Arpita Bose
Anaerobic Oxidation Of Ethane, Propane, And Butane By Marine Microbes: A Mini Review, Rajesh Singh, Michael S. Guzman, Arpita Bose
Biology Faculty Publications & Presentations
The deep ocean and its sediments are a continuous source of non-methane short-chain alkanes (SCAs) including ethane, propane, and butane. Their high global warming potential, and contribution to local carbon and sulfur budgets has drawn significant scientific attention. Importantly, microbes can use gaseous alkanes and oxidize them to CO2, thus acting as effective biofilters. A relative decrease of these gases with a concomitant 13C enrichment of propane and n-butane in interstitial waters vs. the source suggests microbial anaerobic oxidation. The reported uncoupling of sulfate-reduction (SR) from anaerobic methane oxidation supports their microbial consumption. To date, strain …
Ancient Bacteria–Amoeba Relationships And Pathogenic Animal Bacteria, Joan E. Strassmann, Longfei Shu
Ancient Bacteria–Amoeba Relationships And Pathogenic Animal Bacteria, Joan E. Strassmann, Longfei Shu
Biology Faculty Publications & Presentations
Long before bacteria infected humans, they infected amoebas, which remain a potentially important reservoir for human disease. Diverse soil amoebas including Dictyostelium and Acanthamoeba can host intracellular bacteria. Though the internal environment of free-living amoebas is similar in many ways to that of mammalian macrophages, they differ in a number of important ways, including temperature. A new study in PLOS Biology by Taylor-Mulneix et al. demonstrates that Bordetella bronchiseptica has two different gene suites that are activated depending on whether the bacterium finds itself in a hot mammalian or cool amoeba host environment. This study specifically shows that B. …
Does High Relatedness Promote Cheater-Free Multicellularity In Synthetic Lifecycles?, R F. Inglis, E Ryu, O Asikhia, Joan E. Strassmann, David C. Queller
Does High Relatedness Promote Cheater-Free Multicellularity In Synthetic Lifecycles?, R F. Inglis, E Ryu, O Asikhia, Joan E. Strassmann, David C. Queller
Biology Faculty Publications & Presentations
The evolution of multicellularity is one of the key transitions in evolution and requires extreme levels of cooperation between cells. However, even when cells are genetically identical, noncooperative cheating mutants can arise that cause a breakdown in cooperation. How then, do multicellular organisms maintain cooperation between cells? A number of mechanisms that increase relatedness amongst cooperative cells have been implicated in the maintenance of cooperative multicellularity including single-cell bottlenecks and kin recognition. In this study, we explore how relatively simple biological processes such as growth and dispersal can act to increase relatedness and promote multicellular cooperation. Using experimental populations of …
Draft Genome Sequences Of Three Closely Related Isolates Of The Purple Nonsulfur Bacterium Rhodovulum Sulfidophilum, Michael S. Guzman, Beau Mcginley, Natalia Santiago-Merced, Dinesh Gupta, Arpita Bose
Draft Genome Sequences Of Three Closely Related Isolates Of The Purple Nonsulfur Bacterium Rhodovulum Sulfidophilum, Michael S. Guzman, Beau Mcginley, Natalia Santiago-Merced, Dinesh Gupta, Arpita Bose
Biology Faculty Publications & Presentations
We report here the draft genome sequences of three isolates of Rhodovulum sulfidophilum from a single population that will serve as a model system for understanding genomic traits that underlie metabolic variation within closely related marine purple nonsulfur bacteria in natural microbial communities.
Bioelectrohydrogenesis And Inhibition Of Methanogenic Activity In Microbial Electrolysis Cells - A Review, Rengasamy Karthikeyan, Ka Yu Cheng, Ammaiyappan Selvam, Arpita Bose, Jonathan W.C. Wong
Bioelectrohydrogenesis And Inhibition Of Methanogenic Activity In Microbial Electrolysis Cells - A Review, Rengasamy Karthikeyan, Ka Yu Cheng, Ammaiyappan Selvam, Arpita Bose, Jonathan W.C. Wong
Biology Faculty Publications & Presentations
Microbial electrolysis cells (MECs) are a promising technology for biological hydrogen production. Compared to abiotic water electrolysis, a much lower electrical voltage (~0.2V) is required for hydrogen production in MECs. It is also an attractive waste treatment technology as a variety of biodegradable substances can be used as the process feedstock. Underpinning this technology is a recently discovered bioelectrochemical pathway known as "bioelectrohydrogenesis". However, little is known about the mechanism of this pathway, and numerous hurdles are yet to be addressed to maximize hydrogen yield and purity. Here, we review various aspects including reactor configurations, microorganisms, substrates, electrode materials, and …