Role of AtCDC48 & the AtCDC48 Regulatory Protein Family, PUX, in Plant Cell Morphogenesis
The long-term objective of this work is to understand the molecular events and mechanisms involved in secretory membrane trafficking and organelle biogenesis, which are crucial for normal plant growth and development. Our studies have suggested a vital role for the cytosolic chaperone Cdc48p/p97 during cytokinesis and cell expansion which are highly dependent upon secretory membrane trafficking. Localization studies have shown that the plant Cdc48p/p97, AtCDC48, and the Arabidopsis ortholog of the ER- and Golgi-associated SNARE, syntaxin 5, (referred to as SYP31) are targeted to the division plane during cytokinesis. In addition, AtCDC48 and SYP31 were shown to interact in vitro and in vivo. To characterize further the function of AtCDC48 and SYP31 we have utilized affinity chromatography and MALDI-MS to identify several plant-specific proteins that interact with SYP31 and/or modulate the activity of AtCDC48 including two UBX (i.e. ubiquitin-like) domain containing proteins, PUX1 and PUX2 (Proteins containing UBX domain). These proteins define a plant protein family consisting of 15 uncharacterized members that we postulate interact with AtCDC48. Biochemical studies have demonstrated that PUX2 is a novel membrane adapter for AtCDC48 that mediates AtCDC48/SYP31 interaction and is likely to control AtCDC48-dependent membrane fusion. In contrast, PUX1 negatively regulates AtCDC48 by inhibiting its ATPase activity and by promoting the disassembly of the active hexamer. These findings provide the first evidence that the assembly and disassembly of the CDC48/p97complex is actually a dynamic process. This new unexpected level of regulation for CDC48/p97 was demonstrated to be critical in vivo as pux1 loss-of-function mutants grow faster than wild-type plants. These studies suggest a role for AtCDC48 in plant cell cycle progression including cytokinesis and/or cell expansion. The proposed studies are designed to: 1) characterize further the localization and function of AtCDC48 in membrane trafficking and organelle biogenesis during plant cytokinesis and cell expansion, 2) to analyze the subcellular localization and function of two members of the SYP3 t–SNARE family, SYP31 and SYP32, and 3) to determine the role of select members of the PUX protein family and the distinct biochemical pathways to which they target the chaperone activity of AtCDC48 to. The integration of genetic, morphological, and biochemical data from these studies is expected to contribute significantly to both an understanding of the function and organization of the plant secretory pathway and its role in plant cell morphogenesis.
- Research Organization:
- University of Wisconsin, Madison, WI
- Sponsoring Organization:
- USDOE Office of Science (SC)
- DOE Contract Number:
- FG02-99ER20332
- OSTI ID:
- 977066
- Report Number(s):
- DOE/ER/20332 Final Report; TRN: US201014%%561
- Country of Publication:
- United States
- Language:
- English
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