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July 04, 2011 - Volume 89, Number 27
- p. 25
Science & Technology Concentrates
More Science & Technology Concentrates
- Virtual Drug Screen Targets Flexible RNAs
- Combined NMR and computational molecular dynamics helps find compounds that interact with specific RNA conformations.
- Iron Helps Trigger Artemisinin's Activity
- Study lends additional evidence to the idea that the antimalarial drug needs a helping hand from iron to kill malaria parasites.
- Wallabies Beat Cows In Methane Showdown
- Marsupial microbes could possibly be used to alter the gut microbiome of cows to cut down on greenhouse gas emissions.
- Rapamycin Diversifies To Fight Early Aging
- The immunosuppressant drug might be effective for treating progeria, the rare genetic condition that causes premature aging in children.
- Nitrenium Ligand Fills A Carbene Gap
- The triazole-based ligand fills in a missing link in the series of ubiquitous N-heterocyclic carbenes.
- Superresolution Sharpens Images In Live Organisms
- Stimulated emission depletion (STED) microscopy provides images of fluorescently labeled proteins inside C. elegans neurons.
- Titanium Sparks Ethane-To-Ethylene Conversion
- With the help of a titanium alkylidyne reagent, chemists make ethylene from ethane at room temperature.
- Isotopes Track Contaminant Breakdown
- By loading nickel onto mesoporous silica, chemists create an improved catalyst for converting ethanol into olefin building blocks.
Topics Covered
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Wallabies’ gut bacteria produce but a modicum of methane.
When wallabies chow down on a leafy dinner, they produce about one-fifth the amount of methane that cows do per volume of greens digested. Researchers led by Mark Morrison of the Commonwealth Scientific & Industrial Research Organization—Australia’s national science agency—have now tracked down a species of bacteria in the wallaby gut to explain part of this digestive difference, which could be exploited to reduce greenhouse gas emissions (Science, DOI: 10.1126/science.1205760). Like many gut microbes found in mammals, the anaerobic bacterium, named WG-1, helps wallabies break down starch into sugars for energy production. But instead of producing a lot of methane, the bacterium uses genes for hexose catabolism and carbon dioxide fixation to guide production of succinate via the reductive branch of the natural tricarboxylic acid, or Krebs, cycle; succinate is more benign to the environment and useful to the animal. Morrison and his colleagues propose that more research on WG-1 should be done because it might be possible to alter the gut microbiome of cows and other agricultural ruminants to produce significantly less methane.
- Chemical & Engineering News
- ISSN 0009-2347
- Copyright © 2011 American Chemical Society
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