Protein S, the most abundant soluble protein synthesized by Myxococcus xanthus FB during early fruiting body formation, accumulates in the soluble fraction of developing cells, reaching a peak at about 24 h; at late stages of fruiting body formation, protein S is found on the surface of spores (M. Inouye et al. Proc. Natl. Acad. Sci. U.S.A. 76:209-213, 1979). In this study, the transport and localization of protein S were investigated. Cells were fractionated to give osmotic shock, membrane, cytoplasmic, and spore fractions. The various fractions were then analyzed for protein S. Protein S was first detected in the cytoplasmic fraction at about 3 to 6 h of development. However, transport of protein S through the cytoplasmic membrane was not observed until 15 to 18 h of development. Thus, protein S is unusual among translocated proteins in that it accumulates as a soluble cytoplasmic protein before translocation. Biosynthesis of protein S ceased after 48 h; by 72 h, protein S was only found on the surface of spores. Pulse-chase experiments were performed to determine the transport kinetics of protein S. The results showed that in 24-h developing cells, the transport of protein S across the cytoplasmic membrane was rapid, occurring in less than 2 min. However, transport across the outer membrane was slow, requiring 10 to 15 min. Pulses of 15 s with [35S]methionine failed to reveal any short-lived precursor form in immunoprecipitated material separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Isoelectric focusing also failed to detect any precursor form of protein S. Thus, protein S appears to be translocated in the absence of a cleaved signal peptide.