How fungi grow: A movie from inside the cell

Like most fungi, mold fungi are hyphal fungi. They consist of filamentous cells, hyphae, which may form large networks, mycelia. The hyphae of about 3 µm in thickness exclusively grow by directed extension of their tips. They grow very rapidly, by about 1.5 mm per day. An important objective of biological fundamental research is to understand this growth on the molecular level, as hyphal growth plays an important role in both health-damaging effects and beneficial applications of fungi.

For their studies, the researchers tagged a key enzyme required for building the chitin-containing cell wall with a fluorescent protein and observed the latter in the living cell with the help of high-resolution microscopy (nanoscopy). Use of ultrasensitive cameras in the microscope enabled high-speed imaging of tip growth and of the transport of individual vesicles. These images resemble small movies and allow to precisely determine transport speed of the vesicles. They reveal how building materials are packed into smallest vesicles and transported along the fiber structures of the cell skeleton to the cell tip by transport vehicles, the motor proteins. Motor proteins are very small nanomotors that dock to the fiber structures with two small "feet" and walk on these structures. Using genetically modified fungi, the scientists also identified the motor proteins responsible for the transports.

From their observations, the researchers of the Institute of Applied Physics and the Institute for Applied Biosciences of KIT derived a first comprehensive model to describe how the rapidly growing hyphal tip is supplied with construction material. This is an important step towards complete molecular understanding of directed cell growth processes, Professor Gerd Ulrich Nienhaus of KIT's Institute of Applied Physics says. "The findings made in hyphal fungi are of general relevance to biology, as they can be transferred to other cells and organisms. On the other hand, they open up new opportunities to specifically influence fungal growth, which is important to the mitigation of pathogenic species in medicine."