The multicellular behavior of the myxobacterium Myxococcus xanthus requires the participation of an elevated number of signal- transduction mechanisms to coordinate the cell movements and the sequential changes in gene expression patterns that lead to the morphogenetic and differentiation events. These signaltransduction mechanisms are mainly based on two-component systems and on the reversible phosphorylation of protein targets mediated by eukaryotic-like protein kinases and phosphatases. Among all these factors, protein phosphatases are the elements that remain less characterized. Hence, we have studied in this work the physiological role and biochemical activity of the protein phosphatase of the family PPP (phosphoprotein phosphatases) designated as Pph2, which is forming part of the same operon as the two-component system phoPR1. We have demonstrated that this operon is induced upon starvation in response to the depletion of the cell energy levels. The increase in the expression of the operon contributes to an efficient use of the scarce energy resources available for developing cells to ensure the completion of the fife cycle. In fact, a Δpph2 mutant is defective in aggregation, sporulation yield, morphology of the myxospores, and germination efficiency. The yeast two-hybrid technology has shown that Pph2 interacts with the gene products of MIXAN_1875 and 5630, which encode a hypothetical protein and a glutamine synthetase, respectively. Because Pph2 exhibits Ser/Thr, and to some extent Tyr, Mn 2+ -dependent protein phosphatase activity, it is expected that this function is accomplished by dephosphorylation of the specific protein substrates. © 2009 by The American Society for Biochemistry and Molecular Biology, Inc.
CITATION STYLE
García-Hernández, R., Moraleda-Muñoz, A., Castañeda-García, A., Pérez, J., & Muñoz-Dorado, J. (2009). Myxococcus xanthus Pph2 is a manganese-dependent protein phosphatase involved in energy metabolism. Journal of Biological Chemistry, 284(42), 28720–28728. https://doi.org/10.1074/jbc.M109.015248
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