Summary:In search of new plant enzymes Try looking in compost. Researchers have demonstrated the importance of microbial communities as a source of stable enzymes that could be used to convert plants to biofuels. This approach yields robust enzymes that researchers can’t easily obtain from isolates.
A new study led by researchers at the Department of Energy’s Joint BioEnergy Institute (JBEI), based at Lawrence Berkeley National Laboratory (Berkeley Lab), demonstrates the importance of microbial communities as a source of stable enzymes that could be used to convert plants to biofuels.
The study, recently published in the journal Nature Microbiology, reports on the discovery of new types of cellulases, enzymes that help break down plants into ingredients that can be used to make biofuels and bioproducts. The cellulases were cultured from a microbiome. Using a microbial community veers from the approach typically taken of using isolated organisms to obtain enzymes.
The scientists first studied the microbial menagerie present in a few cups of municipal compost. Metagenomic analysis at the DOE Joint Genome Institute (JGI) of the microbiome helped reveal that 70 percent of the enzymatic activity originated from cellulases produced by a cluster of uncultivated bacteria in the compost. They found that the enzymes easily broke down the cellulose in plant biomass into glucose at temperatures up to 80 degrees Celsius.
“Here we’re cultivating an entire community of microbes to access enzymes that we couldn’t get from isolates,” said study principal investigator Steve Singer, senior scientist in Berkeley Lab’s Biological Systems and Engineering Division and director of Microbial and Enzyme Discovery at JBEI. “Some microbes are difficult to culture in a lab. We are cultivating microbes living in communities, as they occur in the wild, which allows us to see things we don’t see when they are isolated. This opens up the opportunity to discover new types of enzymes that are only produced by microbes in communities.”
The bacterial population, Candidatus Reconcilibacillus cellulovorans, yielded cellulases that were arranged in remarkably robust carbohydrate-protein complexes, a structure never before observed in isolates. The stability of the new cellulase complexes makes them attractive for applications in biofuels production, the study authors said.
“The enzymes persist, even after a decline in bacterial abundance,” said Singer, who compared the microbial community with sourdough starters fermented from wild yeast and friendly bacteria. “We kept the microbial community cultivation going for more than three years in the lab.”
This stability is a key advantage over other cellulases that degrade more rapidly at high temperature, the researchers said.
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