Scientists uncover process used by microbes to make greenhouse gases

July 8th, 2008 - 4:14 pm ICT by ANI  

Washington, July 8 (ANI): Scientists have uncovered a key molecule that lets microbes produce carbon dioxide and methane the two greenhouse gases associated with global warming.

The findings relate to organisms called methanogens and are explained in the latest issue of the journal Proceedings of the National Academy of Sciences.

According to Joseph Krzycki, professor of microbiology, both of Ohio State University, This enzyme is the key to the whole process of methanogenesis from acetic acid.

Without it, this form of methanogenesis wouldnt happen. Since it is so environmentally important worldwide, the impact of understanding this would be enormous, he added.

Methanogenesis is the process by which the gas methane is made, and it takes place everywhere across the globe, from swamps to landfills, releasing the gas that ultimately seeps into the atmosphere.

One central player in this process is the microbe called Methanosarcina barkeri, a member of an unusual group of organisms called the Archaea that is similar to both bacterial and animal cells.

This organism possesses large amounts of the enzyme so important for making methane.

We often think only of humans putting carbon dioxide and methane into the atmosphere but natural biology itself actually provides its own sizeable share, said Michael Chan, professor of biochemistry at Ohio State University.

This enzyme plays an important role in the process that converts acetate into these two gases, he added.

An important initial step in this kind of research is to grow crystals of the protein molecules, and from these crystals, scientists can actually map out the proteins structure.

We tried for six months when I first arrived at Ohio State but at the end of that period, we couldnt get any crystals to grow, said Chan.

Two years later, Chan and a former graduate student, Bing Hao, went back to look at those previous crystallization experiments and discovered that crystals had eventually grown.

The identification of these crystals allowed us to solve the structure of the protein making up the crystals, although it took 10 more years to do that, said Chan.

From the structure, we got a beautiful picture of the protein that we could use to understand how it works. Viewing a structure is somewhat like looking at the schematics of an engine, he added.

According to Krzycki, processes similar to those performed by this protein are currently being used in industry, although in those cases, high temperatures are required.

From studying this process in these microbes, hopefully scientists can understand how their natural catalysts make this reaction work at lower temperatures, he said. (ANI)

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