AI Article Synopsis
- Rho GTPases are important signaling molecules that influence cell structure, metabolism, and transport in Aspergillus niger, revealing significant roles in growth and secretion.
- Six Rho GTPases were identified in A. niger, with RhoA playing a key role in maintaining cell polarity and viability, while RhoB and RhoD support cell wall integrity and septum formation.
- The study demonstrates that RacA is vital for maintaining polarity through actin control, and its interaction with CftA is essential for both proteins to effectively regulate actin dynamics and support normal fungal development.
Article Abstract
Rho GTPases are signalling molecules regulating morphology and multiple cellular functions including metabolism and vesicular trafficking. To understand the connection between polarized growth and secretion in the industrial model organism Aspergillus niger, we investigated the function of all Rho family members in this organism. We identified six Rho GTPases in its genome and used loss-of-function studies to dissect their functions. While RhoA is crucial for polarity establishment and viability, RhoB and RhoD ensure cell wall integrity and septum formation respectively. RhoC seems to be dispensable for A. niger. RacA governs polarity maintenance via controlling actin but not microtubule dynamics, which is consistent with its localization at the hyphal apex. Both deletion and dominant activation of RacA (Rac(G18V)) provoke an actin localization defect and thereby loss of polarized tip extension. Simultaneous deletion of RacA and CftA (Cdc42) is lethal; however, conditional overexpression of RacA in this strain can substitute for CftA, indicating that both proteins concertedly control actin dynamics. We finally identified NoxR as a RacA-specific effector, which however, is not important for apical dominance as reported for A. nidulans but for asexual development. Overall, the data show that individual Rho GTPases contribute differently to growth and morphogenesis within filamentous fungi.
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| http://dx.doi.org/10.1111/j.1365-2958.2010.07524.x | DOI Listing |
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