February 2012

New Approaches for Conversion of Plant Biomass to Ethanol

Researchers develop new assay for ease of converting plant biomass to ethanol.

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Image courtesy of University of Massachusetts

Differences in the abundance of the types of sugar that can be extracted from four varieties of Sorgham after inoculation with the microbe Clostridium phytofermentans. Image from Lee SJ at al.  “Biological conversion assay using Clostridium phytofermentans to estimate plant feedstock quality.”  Biotech for Biofuels 5 5 (2012). [doi:10.1186/1754-6834-5-5].

The Science

Researchers at the DOE BioEnergy Science Center (BESC) together with scientists funded by the USDA-DOE Plant Feedstocks Genomics for Bioenergy program report the development of a robust assay for biomass digestibility and conversion using the anaerobic bacterium Clostridium phytofermentans.

The Impact

This method provides a means of assessing feedstock quality for digestibility and ethanol production that will facilitate genetic analysis of energy crops for amenability to biological conversion.

Summary

The conversion of plant biomass to liquid transportation fuel using consolidated bioprocessing (CBP) technology is a promising, cost-efficient strategy to develop energy from renewable sources.  CBP takes advantage of the ability of certain microbes to convert sugars contained within the plant cell wall to high-energy chemicals such as ethanol or butanol, but the efficiency can be hampered by the recalcitrance of certain plant materials to deconstruction. While plant cell wall composition and corresponding resistance to breakdown varies considerably within plant species, this genetic diversity can potentially be exploited if plant material is efficiently screened for such properties. The anaerobic bacterium Clostridium phytofermentans, is capable of directly converting a wide array of fermentable biomass components to ethanol without the addition of costly, exogenous, deconstruction enzymes. The assay, which measures ethanol production under the influence of different variables, was tested on both herbaceous grasses and woody plants. Significant differences in ethanol production within individual plant species were found, indicating detection of subtle genetic differences.

Contact

Samuel P. Hazen
University of Massachusetts - Amherst
hazen@bio.umass.edu

Funding

DOE Office of Science Biological and Environmental Research (BER) program and the United States Department of Agriculture

Publications

Lee SJ et al..  2012.  Biological conversion assay using Clostridium phytofermentans to estimate plant feedstock quality.  Biotech for Biofuels 2012, 5:5 [DOI: 10.1186/1754-6834-5-5].

Highlight Categories

Program: BER, BSSD, BRCs

Performer/Facility: University

Additional: Collaborations, Non-DOE Interagency Collaboration

Last modified: 9/3/2013 12:11:23 PM