ISSN:
1432-0614
Source:
Springer Online Journal Archives 1860-2000
Topics:
Biology
,
Process Engineering, Biotechnology, Nutrition Technology
Notes:
Abstract Fibrobacter succinogenes S85 digested ball-milled cellulose at a rapid rate (0.10 h–1), but there was a long lag time if the culture was not transferred daily. When F. succinogenes was starved for 100 h, a large fraction of the cells (〉30%) still bound to cellulose, but the lag time was 150 h. The lag time was similar for either cellulose- or cellobiose-grown inocula, and lag times were highly correlated (r 2 = 0.91) with a decrease in viable cell number. The number of viable cells declined from 108 to 106 in the first 30 h of starvation, and by 72 h the viable cell number was less than 103/ml. Cells growing exponentially on cellobiose had a large pool of polysaccharide, and continuous culture experiments indicated that polysaccharide accumulation was not significantly influenced by the growth rate of the culture (approximately 0.7 mg polysaccharide mg–1 protein). When the cellobiose was depleted, cellular polysaccharide decreased at a first order rate of 0.09 h–1. The rate of endogenous metabolism was initially 0.08 mg polysaccharide mg–1 protein h–1, and there was little decline in viability until the rate of endogenous metabolism was less than 0.01 mg polysaccharide mg–1 protein h–1. When the rate was less than 0.01 mg polysaccharide mg–1 protein h–1, the cells could not maintain a sodium gradient, transport cellobiose or grow. The endogenous metabolic rate needed for cell survival was 20 fold less than the maintenance energy of cells growing in continuous culture (0.01 versus 0.232 mg carbohydrate mg–1 protein h–1).
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF01982538
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