The pH sensing receptor AopalH plays important roles in the nematophagous fungus Arthrobotrys oligospora

Publication date: Available online 18 May 2019Source: Fungal BiologyAuthor(s): Juan Li, Runian Wu, Meng Wang, James Borneman, Jinkui Yang, Ke-Qin ZhangAbstractThere is well-conserved PacC/Rim101 signaling among ascomycete fungi to mediate environmental pH sensing. For pathogenic fungi, this pathway not only enables fungi to grow over a wide pH range, but it also determines whether these fungi can successfully colonize and invade the targeted host. Within the pal/PacC pathway, palH is a putative ambient pH sensor with a seven-transmembrane domain. To characterize the function of a palH homolog, AopalH, in the nematophagous fungus Arthrobotrys oligospora, we knocked out the encoding gene of AopalH through homologous recombination, and the transformants exhibited slower growth rates, greater sensitivities to cationic and hyperoxidation stresses, as well as reduced conidiation and reduced trap formation, suggesting that the pH regulatory system has critical functions in nematophagous fungi. Our results provide novel insights into the mechanisms of pH response and regulation in fungi.
Source: Fungal Biology - Category: Biology Source Type: research