Light represents a powerful signal for the regulation of virulence in many microbial pathogens. Monilinia fructicola is the most virulent species causing brown rot in stone fruit crops. To understand the influence of light on M. fructicola, we measured the effect of white light and photoperiods on the colonial growth and sporulation of the model M. fructicola strain 38C on solid cultures. Searches in the M. fructicola 38C genome predicted a complete set of genes coding for photoreceptors possibly involved in the perception of all ranges of wavelengths. Since white light had an obvious negative effect on vegetative growth and the asexual development of M. fructicola 38C on potato dextrose agar, we studied how light influences photoresponse genes in M. fructicola during early peach infection and in liquid culture. The transcriptomes were analyzed in "Red Jim" nectarines infected by M. fructicola 38C and subjected to light pulses for 5 min and 14 h after 24 h of incubation in darkness. Specific light-induced genes were identified. Among these, we confirmed in samples from infected fruit or synthetic media that blue light photoreceptor vvd1 was among the highest expressed genes. An unknown gene, far1, coding for a small protein conserved in many families of Ascomycota phylum, was also highly induced by light. In contrast, a range of well-known photoreceptors displayed a low transcriptional response to light in M. fructicola from nectarines but not on the pathogen mycelium growing in liquid culture media for 6 days.
Keywords: brown rot; photoreception; sporulation; transcriptional regulation; vivid1.