Fig. 1.
Dual function of SgrS under glucose phosphate stress. (Middle) Glucose is transported and phosphorylated into the cell by IICBGlc. When G6P accumulates abnormally, the synthesis of SgrS is induced, depending on SgrR. (Right) SgrS forms a ribonucleoprotein complex associating with Hfq and RNase E to act on the ptsG mRNA encoding IICBGlc through base-pairing, resulting in translational inhibition and RNase E-dependent rapid degradation of the message (17). The physiological role of SgrS-mediated riboregulation of ptsG mRNA is to limit accumulation of toxic sugar phosphates by stopping new synthesis of IICBGlc. (Left) As shown by Wadler and Vanderpool (3) in this issue of PNAS, SgrS acts also as an mRNA template for a small functional protein SgrT to prevent glucose uptake, presumably by inhibiting the transport activity of IICBGlc. The SgrT function should be useful to rapidly prevent glucose uptake by inhibiting preexisting IICBGlc, whereas the riboregulation through base-pairing would be important for adaptation to prolonged stress. It is not known whether one SgrS molecule is involved in both base-pairing and SgrT production or different SgrS molecules exert the two functions separately.