Dynamics of mitochondria during the Neurospora crassa tip growth

Abstract

Tip growth of the mycelial fungus N. crassa vegetative hyphae is realized owing to the combined activities of tens of the cells and diverse intracellular structures, such as microvesicles, microtubules, microfilaments, mitochondria, etc. Using a vital mitochondrial probe Mitotracker Red (10 μM, 10 min) we have found that the same mitochondria can move hundreds of microns along the hyphae within several hours. Analysis of the mitochondria distribution along 100 μm of the tips in intact hyphae as well as in the isolated apical fragments has shown that the congregation of mitochondria in the growing tips can correlate with the rate of elongation. These data together with the earlier electrophysiological estimations of the membrane potential gradients along the hyphal tips suggest that the electrical gradients along the hyphal apical part can be involved in the regulation of the energy supply of the tip growth.