The Mycelium Blueprint: insights into the cues that shape the filamentous fungal colony.

The mycelium is an organised cellular network that develops according to a functionally coherent plan. As it expands, the mycelium is capable of modulating the relative abundance of different cell types to suit the prevailing environmental conditions. This versatile pattern of multicellular development involves sophisticated environmental sensing and intercellular communication systems that have barely been recognised.

Signaling the induction of sporulation involves the interaction of two secondary metabolites in Aspergillus nidulans.

When growing Aspergillus nidulans hyphae encounter the atmosphere, they initiate a morphogenetic program leading to the production of spores. Mutants that are defective in the fluG gene fail to undergo sporulation because they lack an endogenous diffusible factor that purportedly accumulates on aerial hyphae, thus signaling the initiation of development. In this study, the defect could be reversed by adding culture extracts from a wild-type strain onto a mutant colony.

Bicarbonate gradients modulate growth and colony morphology in Aspergillus nidulans.

Fungal colonies expand through apically extending peripheral hyphae. These long and relatively unbranched leaders leave behind cells that show a higher degree of branching and lower growth rates. Towards the centre of the colony, quiescent, but viable cells sustain processes such as transport of water, solutes and organelles, and support the concerted genesis of specialized reproductive structures.

The bZIP-type transcription factor FlbB regulates distinct morphogenetic stages of colony formation in Aspergillus nidulans.

Conidiophore formation in Aspergillus nidulans involves a developmental programme in which vegetative hyphae give rise to an ordered succession of differentiated cells: foot cell, stalk, vesicle, metulae, phialides and conidia. The developmental transition requires factors that are expressed in vegetative hyphae that activate the expression of the main regulator of conidiation, BrlA. One such element is the bZIP-type transcription factor FlbB.