Abstract
Two cellulases from Trichoderma reesei - an exoglucanase, CBH I, and an endoglucanase, EG II - alone and in combination were incubated with cotton fibers. The effects of the cellulases on the surfaces of the cotton fibers were examined by atomic force microscopy. At high magnification, the physical effects on the fibers caused by the two types of enzymes were considerably different. Treatment with CBH I resulted in the appearance of distinct pathways or tracks along the length of the macrofibril. Treatment with EG II appeared to cause peeling and smoothing of the fiber surface. In combination, their effect was observed to be greatest when both enzymes were present simultaneously. When fibers smoothed by treatment with EG II were treated subsequently with CBH I, further evidence of path way formation caused by the action of CBH I along the fibers was observed. Incubation with a cellulase from Thermotoga maritima that lacks a cellulose binding domain had no effect on the surface of cotton fibers. These images provide the first physical evidence of differences in the effect of cellulase components action on the surface of cotton fibers and provide evidence for the movement or tracking of CBH I along the fibers. The first AFM image of CBH I molecules are presented. (C) 2000 Elsevier Science B.V.
Original language | English |
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Pages (from-to) | 213-221 |
Number of pages | 9 |
Journal | Ultramicroscopy |
Volume | 82 |
Issue number | 1-4 |
DOIs | |
State | Published - Feb 2000 |
Event | The International Conference on Scanning Probe Microscopy, Cantilever Sensors and Nanostructures (SPM '99) - Seattle, WA, USA Duration: May 30 1999 → Jun 1 1999 |
Funding
This research was supported by the Chemical Sciences Division, Office Science, US Department of Energy. Oak Ridge National Laboratory is managed by Lockheed Martin Energy Research Corporation for the US Department of Energy under Contract No. DE-AC05-96OR22464.
Funders | Funder number |
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Lockheed Martin Energy Research Corporation | DE-AC05-96OR22464 |
U.S. Department of Energy |
Keywords
- Cellulase action
- Cotton fibers
- Tapping mode atomic force microscopy (TMAFM)