Cytoplasmic degradation of ssrA‐tagged proteins

Summary Degradation of ssrA‐tagged proteins is a central feature of protein‐quality control in all bacteria. In Escherichia coli , the ATP‐dependent ClpXP and ClpAP proteases are thought to participate in this process, but their relative contributions to degradation of ssrA‐tagged proteins in vivo have been uncertain because two adaptor proteins, ClpS and SspB, can modulate proteolysis of these substrates. Here, intracellular levels of these protease components and adaptors were determined during exponential growth and  as  cells  entered  early  stationary  phase.  Levels  of ClpA and ClpP increased about threefold during this transition, whereas ClpX, ClpS and SspB levels remained nearly constant. Using GFP‐ssrA expressed from the chromosome as a degradation reporter, the effects of altered concentrations of different protease components or adaptor proteins were explored. Both ClpXP and ClpAP degraded GFP‐ssrA in the cell, demonstrating that wild‐type levels of SspB and ClpS do not inhibit ClpAP completely. Upon entry into stationary phase, increased levels of ClpAP resulted in increased degradation of ssrA‐tagged substrates. As measured by maximum turnover rates, ClpXP degradation of GFP‐ssrA in vivo was significantly more efficient than in vitro . Surprisingly, ClpX‐dependent ClpP‐independent degradation of GFP‐ssrA was also observed. Thus, unfolding of this substrate by ClpX appears to enhance intracellular degradation by other proteases.