Transport and localization of protein S, a spore coat protein, during fruiting body formation by Myxococcus xanthus.

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.