The study delves into the intricate mechanisms of the TOR signaling pathway in A. flavus, highlighting its impact on growth, sporulation, sclerotia formation, aflatoxin production, and stress responses. Key findings include the involvement of Fkbp3 in rapamycin resistance and aflatoxin biosynthesis, Sch9 kinase's role in aflatoxin synthesis and stress response regulation, TipA's influence on sclerotia development and cell wall stress response, as well as SitA and Ppg1's critical functions in growth, conidiation, sclerotial formation, aflatoxin production, pathogenicity, lipid droplet biogenesis regulation, and cell wall integrity maintenance.
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by Li,G., Cao,X... في www.biorxiv.org 06-18-2023
https://www.biorxiv.org/content/10.1101/2023.06.18.545466v3استفسارات أعمق