Žiga Pandur scite author profile

Bacterial quorum sensing (QS) is based on signal molecules (SM), which increase in concentration with cell density. At critical SM concentration, a variety of adaptive genes sharply change their expression from basic level to maximum level. In general, this sharp transition, a hallmark of true QS, requires an SM dependent positive feedback loop, where SM enhances its own production. Some communication systems, like the peptide SM-based ComQXPA communication system of Bacillus subtilis, do not have this feedback loop and we do not understand how and if the sharp transition in gene expression is achieved. Based on experiments and mathematical modeling, we observed that the SM peptide ComX encodes the information about cell density, specific cell growth rate, and even oxygen concentration, which ensure power-law increase in SM production. This enables together with the cooperative response to SM (ComX) a sharp transition in gene expression level and this without the SM dependent feedback loop. Due to its ultra-sensitive nature, the ComQXPA can operate at SM concentrations that are 100–1000 times lower than typically found in other QS systems, thereby substantially reducing the total metabolic cost of otherwise expensive ComX peptide.

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A Monte Carlo study of giant vesicle morphologies in nonequilibrium environments

Drab¹,

Pandur²,

Penič³

et al. 2021

Biophysical Journal

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Bacterial cell wall material properties determine E. coli resistance to sonolysis

Pandur

Dular

Kostanjšek

et al. 2022

Ultrasonics Sonochemistry

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Žiga Pandur

Effects of cavitation on different microorganisms: The current understanding of the mechanisms taking place behind the phenomenon. A review and proposals for further research

Liposome destruction by hydrodynamic cavitation in comparison to chemical, physical and mechanical treatments

Peptide signaling without feedback in signal production operates as a true quorum sensing communication system in Bacillus subtilis

A Monte Carlo study of giant vesicle morphologies in nonequilibrium environments

Bacterial cell wall material properties determine E. coli resistance to sonolysis

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