Industrial processes based on biotechnology require a reliable source of microbial cultures,
raising a need for the microbial safe long-term storage. The expanding biotechnological
applications of Aspergillus niger requires effective long-term preservation that maintains their
viability and also their physiological and genetic features [I].
From the best of our knowledge, proteomic analysis for monitoring the effect of preservation
techniques on fungai intra- and extracellular protein expression by filamentous fungi has not
been studied. Proteomic analysis is a powerful methodology for evaluation of proteins in
complex mixtures and for the study of alteration of protein expression in an organism under
varying environmental conditions. Proteomics can also be used as an important monitoring
tool on the fungai cellular structure and enzymatic expression before and after filamentous
fungi long-term preservation.
ln this study, a comparative proteomic analysis of intra- and extracellular protein secretion
expressed by A. niger type strain (MUM 03.01) preserved on freeze-drying ampoules and
then subjected to accelerated shelf-life aging through the temperature increasing was assessed.
Proteomic analysis based on 2D gel electrophoresis of A. niger (MUM 03.01) was assessed in
5 different liquid media. According to the results obtained the intracellular fungai proteomic
profile was not modified by the accelerated shelf-life aging. It was also observed that the
extracellular fungai proteomic profile was negligible which makes this A. niger type strain a
weak fungallineage for biotechnological applications
