AI Article Synopsis
- - MecA is an adaptor protein essential for ClpC/P-mediated proteolysis, and its absence in the mutant TW416 resulted in altered cell characteristics, including mucoid colonies, growth in chains of swollen cells, and a reduced growth rate compared to the wild-type UA159.
- - The TW416 mutant exhibited significantly impaired biofilm formation, which was linked to lower expression levels of key proteins such as glucosyltransferases GtfC and GtfB, as well as the adhesins P1 and WapA.
- - Although TW416 had much lower cell wall phosphate levels, it displayed a higher signal intensity when analyzed for murein sacculi, suggesting that MecA might play additional roles
Article Abstract
MecA is an adaptor protein that guides the ClpC/P-mediated proteolysis. A MecA-deficient mutant was constructed by double-crossover allelic exchange and analyzed for the effects of such a deficiency on cell biology and biofilm formation. Unlike the wild-type, UA159, the mutant, TW416, formed mucoid and smooth colonies, severely clumped in broth and had a reduced growth rate. Transmission electron microscopy analysis revealed that TW416 grows primarily in chains of giant "swollen" cells with multiple asymmetric septa, unlike the coccoid form of UA159. As compared to UA159, biofilm formation by TW416 was significantly reduced regardless of the carbohydrate sources used for growth ( < 0.001). Western blot analysis of TW416 whole cell lysates showed a reduced expression of the glucosyltransferase GtfC and GtfB, as well as the P1 and WapA adhesins providing an explanation for the defective biofilm formation of TW416. When analyzed by a colorimetric assay, the cell wall phosphate of the mutant murein sacculi was almost 20-fold lower than the parent strain ( < 0.001). Interestingly, however, when analyzed using immunoblotting of the murein sacculi preps with UA159 whole cell antiserum as a probe, TW416 was shown to possess significantly higher signal intensity as compared to the wild-type. There is also evidence that MecA in is more than an adaptor protein, although how it modulates the bacterial pathophysiology, including cell envelope biogenesis, cell division, and biofilm formation awaits further investigation.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6141683 | PMC |
| http://dx.doi.org/10.3389/fmicb.2018.02130 | DOI Listing |
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