Can White Rot Fungus Revolutionize Environmental Cleanup and Biotech Industries?

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The complete genome sequence of the white rot fungus Phanerochaete chrysosporium strain RP78 has been published, revealing 11,777 protein-coding genes that include various enzymes crucial for wood decay. This fungus is unique in its ability to degrade lignin, a highly resistant polymer, making it vital for the carbon cycle. Its industrial applications are significant, particularly in pulp bleaching and the degradation of organic pollutants. Additionally, the fungus shows promise for environmental remediation, specifically in cleaning soil contaminated with explosives like TNT, although its application in situ presents challenges compared to controlled industrial processes. The sequencing effort by the US Department of Energy aims to explore these biotechnological and biomass utilization potentials.
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Fungus sequence shows potential for biotechnological and environmental applications | By Cathy Holding



The complete genome sequence of a white rot fungus, reported in the May 2 Nature Biotechnology, reveals an impressive array of enzymes with potential for biotechnological exploitation, according to Diego Martinez and colleagues at the United States Department of Energy (DoE) Joint Genome Institute.

Martinez's team sequenced the 30-MB genome of Phanerochaete chrysosporium strain RP78 by a whole-genome shotgun approach. The genome contains 11,777 protein-coding genes, including secreted oxidases, peroxidases, and hydrolytic enzymes that cooperate in wood decay.

The white rot fungi are the only microbes known to efficiently degrade all the components of wood, including lignin, the most significant aromatic polymer on Earth, according to Dan Cullen, research scientist with the US Department of Agriculture Forest Products Lab and coauthor of the paper. “They're found everywhere, in dead and down trees. Only a handful of organisms are able to degrade lignin, its very recalcitrant to decay, and these fungi are able to do that… so they're believed to be important—pivotal, in fact—to the carbon cycle,” said Cullen.

P.chrysosporium is also used extensively in industry, for instance, for the bleaching of pulp from paper and textiles and the degradation of an array of organo-pollutants, Cullen said. “The DoE's decision to sequence it was based in part on those biotech angles, but they're also very interested in the biomass utilization and some related issues,” he said.

http://www.biomedcentral.com/news/20040505/01
 
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I think I should start sequencing some of the stuff that grows in my house :wink: living 1,5 m below sealevel, the walls are quite humid..
 
I was actually thinking that some people migth have to sequence stuff from their fridge :biggrin:
 
White rot fungus also has potential applications in the environmental field for cleaning up soil contaminated with explosives-related chemicals (e.g., TNT). It's a bit more complicated using it on soil "in situ" as compared to use in some industry's batch reactor, but it's certainly an interested application.
 

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