UNLABELLED: Microorganisms often inhabit environments that are suboptimal for growth and reproduction. To survive when challenged by such conditions, individuals engage in dormancy, where they enter a metabolically inactive state. For this persistence strategy to confer an evolutionary advantage, microorganisms must be able to resuscitate and reproduce when conditions improve. Among bacteria in the phylum Actinomycetota, dormancy can be terminated by resuscitation-promoting factor (Rpf), an exoenzyme that hydrolyzes glycosidic bonds in the peptidoglycan of cell walls. We characterized Rpf from IMPORTANCE: Dormancy is a process whereby individuals enter a reversible state of reduced metabolic activity. In fluctuating environments, dormancy protects individuals from unfavorable conditions, enhancing fitness and buffering populations against extinction. However, waking up from dormancy is a critical yet risky decision. Some bacteria resuscitate stochastically, while others rely on environmental cues or signals from neighboring cells to transition back to active growth. Resuscitation-promoting factor (Rpf) is an exoenzyme that cleaves bonds in the peptidoglycan of bacterial cell walls, facilitating dormancy termination and enabling regrowth. Although this family of proteins has been well characterized in model organisms and clinically relevant strains, our study characterizes Rpf from a soil bacterium and examines its effects on resuscitation across a diverse collection of bacteria, linking it to functional traits that may influence dormancy dynamics in both natural and managed ecosystems.