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New key players in the methane cycle by Staff Writers Bremen, Germany (SPX) Mar 06, 2019
Methane is a very special molecule. It is the main component of natural gas and we heat our apartments with it, but when reaching the atmosphere it is a potent greenhouse gas. It is also central in microbiology: In the absence of oxygen, a special group of microorganisms, the so-called methanogenic archaea, can produce methane. Other microorganisms - archaea living in symbiosis with bacteria - can use methane as a food source. Regardless of whether methane is produced or consumed, the same enzyme is the key: methyl coenzyme M-reductase (MCR). This enzyme produces methane, but it can also be used to break up this gas. This enzyme produces methane and can break this gas up again. For a long time, scientists believed that only a few species of microbes could convert methane in one way or another. Recently, however, increasing evidence has sprung up that important key players in the methane cycle have been overlooked.
Searching for the genome needle in a sequence haystack In his search for gene sequences similar to the known MCR genes, first author Yinzhao Wang from Jiao Tong University soon found what he was looking for. He discovered a number of previously unknown genes that carry the necessary information for the production of MCR. "These MCRs can be roughly divided into three groups," says Yinzhao Wang. "One group comprises the known gene sequences. The other two groups are completely new". The researchers used these new sequences as the first piece of the puzzle to bin complete genomes from the vast amount of data available. The results were stunning: The assembled genomes were completely different from those of known methane microbes. "For example, we found MCR in Archaeoglobi and in archaea from the TACK superphylum. Such metabolic pathways have not previously been suspected in these organisms," says Fengping Wang from Jiao Tong University, the initiator of the study. The results now published show that different variants of the methane metabolism are widespread in archaea. This suggests a greater importance of these microorganisms in global carbon balancing than previously assumed.
New species and metabolic pathways "Others obviously don't feed on methane, but on higher hydrocarbons." The genomes alone only provide clues to the way of life of these archaea. "We often do not know in which direction the organisms use the apparently very flexible metabolic pathway of methane production," Wegener continues.
From the database to the lab
Research Report: "Expanding anaerobic alkane metabolism in the domain of Archaea"
On its 5th Anniversary, GPM Still Right as Rain Greenbelt MD (SPX) Feb 28, 2019 Five years ago, on Feb. 27, 2014, the Global Precipitation Measurement (GPM) Core Observatory, a joint satellite project by NASA and the Japan Aerospace Exploration Agency (JAXA), lifted off aboard a Japanese H-IIA rocket. Since then, the cutting-edge instruments on GPM have provided advanced measurements about the rain and snow particles within clouds, Earth's precipitation patterns, extreme weather and myriad ways precipitation around the world affects society. Among the uses of GPM data are helping t ... read more
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