Manganese alters expression of proteins involved in the oxidative stress of Meyerozyma guilliermondii.

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2019
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Organisms, in general, respond to environmental stress by altering their pattern of protein expression (proteome), as an alternative to growing in stressful conditions. A strain of Meyerozyma guilliermondii resistant to manganese was isolated from a sample of water collected from mine drainage in southeastern Minas Gerais (Brazil), and demonstrated manganese detoxification capacity. Protein extracts containing the soluble fractions were obtained after growth of the strain in the absence and presence of MnSO4. Tryptic peptides recovered from samples were analyzed by liquid chromatography coupled to mass spectrometry (LC-MS/MS). Shotgun/bottom-up analyses of the soluble fractions revealed a total of 1257 identified molecules. Treatment with Mn did not affect the growth of yeast but induced changes in the protein profile, with 117 proteins expressed in the absence of Mn and 69 expressed only in its presence. Most of these are annotated as related to DNA repair, oxidoreductase activity, and remodeling of gene expression. This is the first proteomic report of M. guilliermondii, with promising characteristics for Mn bioremediation, and the first of the genus Meyerozyma. This proteomic characterization may help in the understanding of molecular regulatory mechanisms associated with tolerance to excess Mn, and the potential use of biomass in bioremediation processes. Significance: Environmental pollution by heavy metals such as manganese (Mn2+) has increased as it is a by-product of the mining industry and a potential environmental contaminant. Many studies have explored the use of bacteria for manganese bioremediation, but yeasts have emerged as a promising alternative, displaying faster growth and greater removal efficiency. Previous works of our laboratory showed that Meyerozyma guilliermondii, a non-pathogenic haploid yeast (ascomycete), has excellent removal and accumulation capacity of Mn2+, potentially useful in bioremediation. Nowadays efforts have been devoted to understanding the physiology of metal hyperaccumulation to gain insights into the molecular basis of hyperaccumulation. To obtain a comprehensive understanding of the molecular mechanism of Mn2+ hyperaccumulation in M. guilliermondii, proteomic approaches were employed yielding the first compositional proteomic map of total soluble proteins and their differential expression in the presence of Mn2+. We believe our findings are of biotechnological interest concerning the utilization of M. guilliermondii for bioremediation purposes.
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Soluble proteome, Shotgun proteomics
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RUAS, F. A. D. et al. Manganese alters expression of proteins involved in the oxidative stress of Meyerozyma guilliermondii. Journal of Proteomics, v. 196, p. 173-188, mar. 2019. Disponível em: <https://www.sciencedirect.com/science/article/pii/S1874391918303919?via%3Dihub>. Acesso em: 10 fev. 2020.