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Development of a fluorescence-based method for monitoring glucose catabolism and its potential use in a biomass hydrolysis assay
Biotechnology for Biofuels
  • Lisa J. Haney, Syngenta Seeds Inc
  • James G. Coors, University of Wisconsin–Madison
  • Aaron J. Lorenz, University of Wisconsin–Madison
  • D. Raj Raman, Iowa State University
  • Robert P. Anex, Iowa State University
  • M. Paul Scott, United States Department of Agriculture
Document Type
Article
Publication Date
1-1-2008
DOI
10.1186/1754-6834-1-17
Abstract
Background: The availability and low cost of lignocellulosic biomass has caused tremendous interest in the bioconversion of this feedstock into liquid fuels. One measure of the economic viability of the bioconversion process is the ease with which a particular feedstock is hydrolyzed and fermented. Because monitoring the analytes in hydrolysis and fermentation experiments is time consuming, the objective of this study was to develop a rapid fluorescence-based method to monitor sugar production during biomass hydrolysis, and to demonstrate its application in monitoring corn stover hydrolysis. Results: Hydrolytic enzymes were used in conjunction with Escherichia coli strain CA8404 (a hexose and pentose-consuming strain), modified to produce green fluorescent protein (GFP). The combination of hydrolytic enzymes and a sugar-consuming organism minimizes feedback inhibition of the hydrolytic enzymes. We observed that culture growth rate as measured by change in culture turbidity is proportional to GFP fluorescence and total growth and growth rate depends upon how much sugar is present at inoculation. Furthermore, it was possible to monitor the course of enzymatic hydrolysis in near real-time, though there are instrumentation challenges in doing this. Conclusion: We found that instantaneous fluorescence is proportional to the bacterial growth rate. As growth rate is limited by the availability of sugar, the integral of fluorescence is proportional to the amount of sugar consumed by the microbe. We demonstrate that corn stover varieties can be differentiated based on sugar yields in enzymatic hydrolysis reactions using posthydrolysis fluorescence measurements. Also, it may be possible to monitor fluorescence in realtime during hydrolysis to compare different hydrolysis protocols.
Comments

This article is from Biotechnology for Biofuels, 1 (2008): 17, doi:10.1186/1754-6834-1-17.

Copyright Owner
The authors
Language
en
File Format
application/pdf
Citation Information
Lisa J. Haney, James G. Coors, Aaron J. Lorenz, D. Raj Raman, et al.. "Development of a fluorescence-based method for monitoring glucose catabolism and its potential use in a biomass hydrolysis assay" Biotechnology for Biofuels Vol. 1 (2008) p. 17
Available at: http://works.bepress.com/paul-scott/17/