Why Are Ruminal Cellulolytic Bacteria Unable to Digest Cellulose at Low pH?

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Why Are Ruminal Cellulolytic Bacteria Unable to Digest Cellulose at Low pH?

James B. Russell ¹ and David B. Wilson ²

¹ Agricultural Research Service, USDA and Section of Microbiology, Cornell University, Ithaca, NY 14853
² Section of Microbiology, Cornell University, Ithaca, NY 14853

Ruminant animals depend on cellulolytic ruminal bacteria todigest cellulose, but these bacteria cannot resist the low ruminalpH that modern feeding practices can create. Because the cellulolyticbacteria cannot grow on cellobiose at low pH, pH sensitivityis a general aspect of growth and not just a limitation of thecellulases per se. Acid-resistant ruminal bacteria have evolvedthe capacity to let their intracellular pH decrease, maintaina small pH gradient across the cell membrane, and prevent anintracellular accumulation of VFA anions. Cellulolytic bacteriacannot grow with a low intracellular pH, and an increase inpH gradient leads to anion toxicity. Prevotella ruminicola cannotdigest native cellulose, but it grows at low pH and degradesthe cellulose derivative, carboxymethylcellulose. The Prevotellaruminicola carboxymethylcellulase cannot bind to cellulose,but a recombinant enzyme having the Prevotella ruminicola catalyticdomain and a binding domain from Thermomonspora fusca was ableto bind and had cellulase activity that was at least 10-foldhigher. Based on these results, gene reconstruction offers ameans of converting Prevotella ruminicola into a ruminal bacteriumthat can digest cellulose at low pH.

Key Words: rumen • bacteria • cellulose • pH

Submitted on June 27, 1995
Accepted on March 22, 1996

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				B. E. Depenbusch, E. R. Loe, M. J. Quinn, M. E. Corrigan, M. L. Gibson, K. K. Karges, and J. S. Drouillard Corn distillers grains with solubles derived from a traditional or partial fractionation process: Growth performance and carcass characteristics of finishing feedlot heifers J Anim Sci, September 1, 2008; 86(9): 2338 - 2343. [Abstract] [Full Text] [PDF]

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				G. N. Gozho, M. R. Hobin, and T. Mutsvangwa Interactions Between Barley Grain Processing and Source of Supplemental Dietary Fat on Nitrogen Metabolism and Urea-Nitrogen Recycling in Dairy Cows J Dairy Sci, January 1, 2008; 91(1): 247 - 259. [Abstract] [Full Text] [PDF]

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				M. Desvaux, E. Guedon, and H. Petitdemange Metabolic flux in cellulose batch and cellulose-fed continuous cultures of Clostridium cellulolyticum in response to acidic environment Microbiology, June 1, 2001; 147(6): 1461 - 1471. [Abstract] [Full Text] [PDF]

				J. B. Russell and J. L. Rychlik Factors That Alter Rumen Microbial Ecology Science, May 11, 2001; 292(5519): 1119 - 1122. [Abstract] [Full Text]