Browsing by Author "Saul, David"
Now showing items 1-3 of 3
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Description of Caldicellulosiruptor saccharolyticus gen. nov., sp. nov: An obligately anaerobic, extremely thermophilic, cellulolytic bacterium
Rainey, F.A.; Donnison, A.M.; Janssen, P.H.; Saul, David; Rodrigo, A.; Bergquist, Peter L.; Daniel, Roy M.; Stackebrandt, E.; Morgan, Hugh W. (Wiley, 1994)A new obligately anaerobic, extremely thermophilic, cellulolytic bacterium is described. The strain designated Tp8T 6331 is differentiated from thermophilic cellulolytic clostridia on the basis of physiological characteristics ... -
Eurythermalism and the temperature dependence of enzyme activity
Lee, Charles Kai-Wu; Daniel, Roy M.; Shepherd, Charis; Saul, David; Cary, S. Craig; Danson, Michael J.; Eisenthal, Robert; Peterson, Michelle E. (Federation of American Societies for Experimental Biology, 2007)The "Equilibrium Model" has provided new tools for describing and investigating enzyme thermal adaptation. It has been shown that the effect of temperature on enzyme activity is not only governed by ΔG‡cat and ΔG‡inact but ... -
On the origin and evolution of thermophily: Reconstruction of functional precambrian enzymes from ancestors of Bacillus
Hobbs, Joanne K.; Shepherd, Caris; Saul, David; Demetras, Nicholas J.; Haaning, Svend; Monk, Colin R.; Daniel, Roy M.; Arcus, Vickery L. (Oxford University Press, 2011)Thermophily is thought to be a primitive trait, characteristic of early forms of life on Earth, that has been gradually lost over evolutionary time. The genus Bacillus provides an ideal model for studying the evolution of ...
Co-authors for David Saul
David Saul has 20 co-authors in Research Commons.
- Vickery L. Arcus
- Peter L. Bergquist
- S. Craig Cary
- Roy M. Daniel
- Michael J. Danson
- Nicholas J. Demetras
- A.M. Donnison
- Robert Eisenthal
- Svend Haaning
- Joanne K. Hobbs
- P.H. Janssen
- Charles Kai-Wu Lee
- Colin R. Monk
- Hugh W. Morgan
- Michelle E. Peterson
- F.A. Rainey
- A. Rodrigo
- Caris Shepherd
- Charis Shepherd
- E. Stackebrandt