We have been using monoclonal antibodies (MAbs) as probes to study developmentally relevant cell surface antigens (CSA) that may be required for cellular interactions in Myxococcus xanthus. Three independently isolated MAbs, G69, G357, and G645, isolated by Gill and Dworkin recognize a CSA detectable only on developing cells (J. S. Gill and M. Dworkin, J. Bacteriol. 168:505-511, 1986). The CSA is made within the first 30 min of submerged development and increases until myxosporulation. The CSA is also produced at low levels after 24 h in shaken-starved cultures and during glycerol sporulation. No antigen can be detected in lysed, vegetative cells, and expression of the antigen is blocked in the presence of rifampin or chloramphenicol. The antigen is expressed in submerged, developmental cultures of asg, bsg, csg, dsg, and mgl mutants and is not expressed in a dsp mutant. All of the three MAbs immunoprecipitate the same protein of approximately 97,000 Da from lysed developmental cells. Competitive immunoprecipitations suggest that they recognize at least two different epitopes on the CSA. The epitopes recognized by MAbs G69, G357, and G645 are sensitive to protease digestion, whereas the epitopes recognized by MAbs G357 and G645 are resistant to periodate oxidation. The epitope recognized by MAb G69 is sensitive to periodate oxidation. Fractionation of lysed developing cells shows that most of the antigen is localized in the pellet after centrifugation at 100,000 x g. To determine whether the antigen is expressed on the cell surface, we labeled developing whole cells with either MAb G69, G357, or G645 and gold-labeled anti-mouse immunoglobulin G. Low-voltage scanning electron microscopy of labeled cells shows that the antigen is associated with the fibrillar matrix that surrounds the cells and that the antigen is retained on isolated, developmental fibrils from M. xanthus. The CSA has been designated dFA-1, for developmental fibrillar antigen 1.
CITATION STYLE
Clemans, D. L., Chance, C. M., & Dworkin, M. (1991). A development-specific protein in Myxococcus xanthus is associated with the extracellular fibrils. Journal of Bacteriology, 173(21), 6749–6759. https://doi.org/10.1128/jb.173.21.6749-6759.1991
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