Because the stress-induced expression of fbp1 + and pyp2 + genes

Because the stress-induced expression of fbp1 + and pyp2 + genes is positively regulated by Sty1 via Atf1, we considered the possibility that the delayed expression of both genes in pmk1Δ cells during the shift

to a non-fermentable carbon source might result from an altered kinetics in the activation of the SAPK pathway. Therefore, we comparatively analyzed Sty1 phosphorylation during glucose deprivation in control versus pmk1Δ cells. As shown in Figure  LY3023414 cell line 5D, glucose withdrawal induced a quick activation of Sty1 in control cells that was maintained and slowly decreased after 3-4 hours in the presence of non-fermentable carbon sources. However, the kinetics of Sty1 activation in pmk1Δ cells was clearly altered, with a more pronounced dephosphorylation after the initial activation, and the activation Gemcitabine mw maintained for longer times (Figure  5D). Similarly, despite a decreased mobility shift and expression observed

early after transfer from fermentative to respiratory medium, Atf1 protein levels (expressed as a genomic copy of the atf1 + gene tagged with two copies of the HA epitope and six histidine residues) remained high in pmk1Δ cells at longer incubation times as compared to control cells (Figure  Methisazone 5E). Notably, the late activation of both Sty1 and Atf1 prompted in the absence of Pmk1 is in good agreement with the delayed expression pattern observed for Fbp1 or Pyp2 (Figures  5B and C). Taken together, these results suggest that in fission yeast Pmk1 positively regulates the Gefitinib solubility dmso timely activation of the SAPK pathway during the switch from fermentative to respiratory metabolism. Discussion Several lines of evidence obtained in this work strongly suggest that the signal for glucose exhaustion is channelled to the Pmk1 MAPK module through a mechanism involving unknown elements.

While Rho2 GTPase is fully or partially involved in Pmk1 activation in response to most environmental stresses [18], stimulation of the MAPK cascade in response to glucose withdrawal is barely dependent on the activity of this GTPase, since in Rho2-less cells Pmk1 is activated similar to wild type cells except for a slower kinetics at earlier times after carbon source depletion. Lack of function or dominant negative mutants in Rho GTPases like Rho5, whose expression is heavily induced after nutrient deprivation [24], and in Rho1 or Cdc42, which have been mentioned as potential upstream activators of this signaling pathway [17, 20], were able to activate Pmk1 in response to this nutritional stress.

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