Evaluation of the carbonylation of filamentous fungi proteins by dry immune dot blotting.

The development of mycological gerontology requires effective methods for assessing the biological age of fungal cells. This assessment is based on the analysis of a complex of aging and oxidative stress markers. One of the most powerful such markers is the protein carbonylation. In this study, the already known method of dry immune dot blotting is adapted for mycological studies of the content of protein carbonyl groups. After testing the method on a number of filamentous fungi species, some features of the accumulation of carbonylated proteins in mycelium were established. Among these features: (i) a weak effect of exogenous oxidative stress on the accumulation of carbonyls in a number of fungi, (ii) reversibility of the carbonyl accumulation, (iii) possibility of arbitrary regulation of carbonyl content by fungus itself and (iv) the influence of hormesis. In addition, two polar strategies for the accumulation of carbonyl modification were revealed, named Id-strategy (Indifferent) and Cn-strategy (Concern). Thus, even the analysis of one marker allows making some preliminary general assumptions and conclusions. For example, the idea that fungi can freely regulate their biological age is confirmed. This feature makes fungi very flexible in terms of responding to environmental influences and promising objects for gerontology.

Nitrogen-obtaining and -conserving strategies in xylotrophic basidiomycetes.

Nitrogen in sufficient quantities is strictly necessary for all living organisms. In this study, the ability of some xylotrophic basidiomycetes to grow extremely long on a solid growth medium full of carbon nutrition but lacking a nitrogen source in its composition was discovered. The nitrogen oligotrophy of wood-decaying fungi is associated with their adaptation to live in a wood substrate, which is also deficient in nitrogen content. This nitrogen-depleted cultural growth is called "pseudo-foraging" and can be used as a simplified model of wood-decaying growth. Four main nitrogen-obtaining and -conserving strategies (nitrogen concentration, using alternative sources of nitrogen, economy of growth, and nutritional recycling), which are attributed to wood-colonizing xylotrophs in the literature, were revised studying the pseudo-foraging model. Based on the results, some aspects of the behavior of xylotrophs deep in undecomposed wood were predicted. For example, one of the results is that for pseudo-foraging xylotrophs, the main way to obtain nitrogen is its concentration in their mycelium from the nutrient medium in which nitrogen is contained in the impurities of the components of the medium. The result suggests that in bulk solid wood, the nitrogen concentration strategy also dominates the strategy of using diazotrophic and other alternative nitrogen. In addition, three individual unprecedented mechanisms, which supposedly help the xylotrophic fungi to colonize wood in nature (generation of fine mycelium, macrovesicular endocytosis, formation and conversion of super-elongated mitochondria), were investigated in the laboratory.