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Skip to Search Results- 1Cell cycle/physiology
- 1Facilitation
- 1Mount St. Helens
- 1Myosin Heavy Chains/metabolism
- 1Myosin Type V/metabolism
- 1Nutrient Limitation
- 2Biological Sciences, Department of
- 2Biological Sciences, Department of/Journal Articles (Biological Sciences)
- 1University of Alberta Celebration of Research and Innovation
- 1University of Alberta Celebration of Research and Innovation/2010 2nd Annual Celebration of Research and Innovation
- 1Mathematical and Statistical Sciences, Department of
- 1Mathematical and Statistical Sciences, Department of/Research Publications (Mathematical and Statistical Sciences)
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2011-01-01
Fagan, W. F., Jin, Y., Bishop, J. G., Marleau, J. M., Lewis, Mark A.
The relative importance of plant facilitation and competition during primary succession depends on the development of ecosystem nutrient pools, yet the interaction of these processes remains poorly understood. To explore how these mechanisms interact to drive successional dynamics, we devised a...
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2009
Knoblach, B., Mast, F.D., Weisman, L.S., Glover, J.N.M., Logan, M.R., Eitzen, G.A., Rachubinski, R.A., Brunner, M.J., Fagarasanu, A., Atichison, J.D., Jin, Y.
In Saccharomyces cerevisiae, the class V myosin motor Myo2p propels the movement of most organelles. We recently identified Inp2p as the peroxisome-specific receptor for Myo2p. In this study, we delineate the region of Myo2p devoted to binding peroxisomes. Using mutants of Myo2p specifically...