Abstract
In order to screen for cellular substrates of the Bacillus subtilis BY-kinase PtkA, and its cognate phosphotyrosine-protein phosphatase PtpZ, we performed a triple Stable Isotope Labeling by Amino acids in Cell culture-based quantitative phosphoproteome analysis. Detected tyrosine phosphorylation sites for which the phosphorylation level decreased in the ΔptkA strain and increased in the ΔptpZ strain, compared to the wild type (WT), were considered as potential substrates of PtkA/PtpZ. One of those sites was the residue tyrosine 601 of the molecular chaperone DnaK. We confirmed that DnaK is a substrate of PtkA and PtpZ by in vitro phosphorylation and dephosphorylation assays. In vitro, DnaK Y601F mutant exhibited impaired interaction with its co-chaperones DnaJ and GrpE, along with diminished capacity to hydrolyze ATP and assist the re-folding of denatured proteins. In vivo, loss of DnaK phosphorylation in the mutant strain dnaK Y601F, or in the strain overexpressing the phosphatase PtpZ, led to diminished survival upon heat shock, consistent with the in vitro results. The decreased survival of the mutant dnaK Y601F at an elevated temperature could be rescued by complementing with the WT dnaK allele expressed ectopically. We concluded that the residue tyrosine 601 of DnaK can be phosphorylated and dephosphorylated by PtkA and PtpZ, respectively. Furthermore, Y601 is important for DnaK chaperone activity and heat shock survival of B. subtilis.
Highlights
DnaK belongs to the Hsp70 family of molecular chaperones, and plays a ubiquitous and crucial cellular role
The wild type (WT) strain was labeled with light lysine, the ptkA, lysA strain was labeled with medium and the ptpZ, lysA strain was labeled with heavy lysine
Since the phosphatase PtpZ was seen to be abundantly expressed during the stationary phase and the BY-kinase PtkA was observed to be abundant during midlogarithmic growth phase, replicate individual experiments were performed by harvesting cultures during both stages of growth (Supplementary Figure 1B)
Summary
DnaK belongs to the Hsp family of molecular chaperones, and plays a ubiquitous and crucial cellular role. DnaJ stimulates the ATPase activity of DnaK and attracts the unfolded proteins to the active site of DnaK, while GrpE facilitates the ADP–ATP exchange and triggers the folded protein release and resetting of DnaK (Laufen et al, 1999; Mally and Witt, 2001). It was suggested by a previous study that the C-terminus of DnaK is involved in the interaction with DnaJ (Smock et al, 2011). The functional relevance of these phosphorylation events still remains unknown
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