The Role of Nitric Oxide in the Growth and Development of Under Anaerobic Conditions.

Nitric oxide (NO) is a widely recognized signaling molecule found across various organisms, yet its specific effects on fungal growth and development under anaerobic conditions remain underexplored. This study investigates how NO influences the growth and development of 20R-7-F01 under anaerobic environments. The results demonstrated an increase in endogenous NO levels during mycelial growth and basidiospore germination. The addition of cPTIO, a NO scavenger, inhibited mycelial growth, delayed basidiospore germination, and reduced the expression of genes involved in basidiospore germination, highlighting the critical role of NO in fungal growth and development. On the other hand, exogenous NO supplementation accelerated mycelial growth and facilitated the formation of primordia, suggesting NO's potential as a key regulator of fungal development. These findings deepen our understanding of NO's contribution to fungal growth in anaerobic conditions and offer new perspectives on its role as a signaling molecule in the development of communities, shedding light on the metabolic regulation of anaerobic microorganisms.