Litcius/Paper detail

Turgor-dependent and coronin-mediated F-actin dynamics drive septin disc-to-ring remodeling in the blast fungus <i>Magnaporthe oryzae</i>

Nawaraj Dulal, Audra Mae Rogers, Rinalda Proko, Baronger Dowell Bieger, Rohana Liyanage, Venkata Rao Krishnamurthi, Yong Wang, Martin J. Egan

2021Journal of Cell Science38 citationsDOI

Abstract

uses a specialized pressure-generating infection cell called an appressorium to break into rice leaves and initiate disease. Appressorium functionality is dependent on the formation of a cortical septin ring during its morphogenesis, but precisely how this structure assembles is unclear. Here, we show that F-actin rings are recruited to the circumference of incipient septin disc-like structures in a pressure-dependent manner, and that this is necessary for their contraction and remodeling into rings. We demonstrate that the structural integrity of these incipient septin discs requires both an intact F-actin and microtubule cytoskeleton and provide fundamental new insight into their functional organization within the appressorium. Lastly, using proximity-dependent labeling, we identify the actin modulator coronin as a septin-proximal protein and show that F-actin-mediated septin disc-to-ring remodeling is perturbed in the genetic absence of coronin. Taken together, our findings provide new insight into the dynamic remodeling of infection-specific higher-order septin structures in a globally significant fungal plant pathogen.

Topics & Concepts

BiologySeptinTurgor pressureFungusActinCell biologyMagnaportheBotanyGeneGeneticsCytokinesisOryza sativaMagnaporthe griseaCellCell divisionFungal and yeast genetics researchSlime Mold and Myxomycetes ResearchBiotin and Related Studies