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  4. Does microbial life always feed on negative entropy? Thermodynamic analysis of microbial growth
 
research article

Does microbial life always feed on negative entropy? Thermodynamic analysis of microbial growth

von Stockar, U.  
•
Liu, J. S.
1999
Biochimica et Biophysica Acta (BBA) - Bioenergetics

A review and discussion with 59 refs. Schrodinger stated in his landmark book, What is Life, that life feeds on neg. entropy. In this contribution, the validity of this statement is discussed through a careful thermodn. anal. of microbial growth processes. In principle, both feeding on neg. entropy, i.e. yielding products of higher entropy than the substrates, and generating heat can be used by microorganisms to rid themselves of internal entropy prodn. resulting from maintenance and growth processes. Literature data are reviewed in order to compare these two mechanisms. It is shown that entropy-neutral, entropy-driven, and entropy-retarded growth exist. The anal. of some particularly interesting microorganisms shows that enthalpy-retarded microbial growth may also exist, which would signify a net uptake of heat during growth. However, the existence of endothermic life has never been demonstrated in a calorimeter. The internal entropy prodn. in live cells also reflects itself in the Gibbs energy dissipation accompanying growth, which is related quant. to the biomass yield. An empirical correlation of the Gibbs energy dissipation in terms of the physico-chem. nature of the growth substrate has been proposed in the literature and can be used to predict the biomass yield approx. The ratio of enthalpy change and Gibbs energy change can also be predicted since it is shown to be approx. equal to the same ratio of the relevant catabolic process alone. [on SciFinder (R)]

  • Details
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Type
research article
DOI
10.1016/S0005-2728(99)00065-1
Web of Science ID

WOS:000082097200001

Author(s)
von Stockar, U.  
Liu, J. S.
Date Issued

1999

Published in
Biochimica et Biophysica Acta (BBA) - Bioenergetics
Volume

1412

Issue

3

Start page

191

End page

211

Editorial or Peer reviewed

REVIEWED

Written at

EPFL

EPFL units
LGCB  
Available on Infoscience
February 27, 2006
Use this identifier to reference this record
https://infoscience.epfl.ch/handle/20.500.14299/226040
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