Alterations in the proteomic composition of Serratia marcescens in response to manganese (II).
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2018
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Background: Proteomics is an important tool for the investigation of dynamic physiological responses of microbes
under heavy metal stress. To gain insight into how bacteria respond to manganese (II) and identify the proteins
involved in Mn (II) oxidation, the shotgun proteomics approach was applied to a potential Mn (II)-oxidizing Serratia
marcescens strain cultivated in the absence and presence of Mn (II).
Results: The LG1 strain, which grew equally well in the two conditions, was found to express a set of proteins
related to cellular processes vital for survival, as well as proteins involved in adaptation and tolerance to Mn (II). The
multicopper oxidase CueO was identified, indicating its probable participation in the Mn (II) bio-oxidation; however,
its expression was not modulated by the presence of Mn (II). A set of proteins related to cell and metabolic
processes vital to the cells were downregulated in the presence of Mn (II), while cell membrane-related proteins
involved in the maintenance of cell integrity and survival under stress were upregulated under this condition.
Conclusions: These findings indicate that the LG1 strain may be applied successfully in the bioremediation of Mn
(II), and the shotgun approach provides an efficient means for obtaining the total proteome of this species.
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Multicopper oxidase, Serratia marcescens proteome, Mn (II) oxidation, Mn (II)-modulated protein expression
Citação
QUEIROZ, P. S. et al. Alterations in the proteomic composition of Serratia marcescens in response to manganese (II). BMC Biotechnology, v. 18, n. 83, p. 1-9, 2018. Disponível em: <https://bmcbiotechnol.biomedcentral.com/articles/10.1186/s12896-018-0493-3>. Acesso em: 25 fev. 2019.