Covering: 2002 to 2020 In their natural environment, fungi must compete for resources. It
has been hypothesized that this competition likely induces the biosynthesis of secondary …

Natural products (NPs) are considered as a cornerstone for the generation of bioactive leads
in drug discovery programs. However, one of the major limitations of NP drug discovery …

The application of microbial co-cultures is now recognized in the fields of biotechnology,
ecology, and medicine. Understanding the biological interactions that govern the …

Increasing evidence shows that microbial synthesis plays an important role in producing
high value-added products. However, microbial monoculture generally hampers metabolites …

In natural product research, microbial metabolites have tremendous potential to provide new
therapeutic agents since extremely diverse chemical structures can be found in the nearly …

Fungal co-cultivation has emerged as a promising way for activating cryptic biosynthetic
pathways and discovering novel antimicrobial metabolites. For the success of such studies …

Fungal secondary metabolites (FSMs) are capable of manipulating plant community
dynamics by inhibiting or facilitating the establishment of co‐habitating organisms. Although …

An endophytic fungal strain isolated from a seagrass endemic to the Mediterranean Sea
(Posidonia oceanica) was studied in order to identify its antimicrobial constituents and …

Fusarium proliferatum is the primary cause of spikelet rot disease in rice (Oryza sativa L.) in
China. The pathogen not only infects a wide range of cereals, causing severe yield losses …

Over the past few years, metabolomics has been employed in a broad range of applications
in different research fields. Microbial metabolomics has been applied in several …