Biological autoluminescence as a noninvasive monitoring tool for chemical and physical modulation of oxidation in yeast cell culture

" It seems that although the magnetic field in these experimental conditions does not have any observable influence on the cell concentration, it could alter the biochemical reactions during the cell metabolism since the time shift in reaching BAL maxima is observable." {Credits 1}

" Since BAL kinetics is tightly connected to the growth of the cell culture, we suggest that there is a slight MF influence on yeast metabolism, not observable by cell concentration measurement, but detectable by using BAL. This could indicate beneficial use of BAL for monitoring of weak effects of MF on cells, which are not detectable by standard techniques of cell culture state characterization." {Credits 1}

{Credits 1} 🎪 Bereta, M., Teplan, M., Chafai, D.E. et al. Biological autoluminescence as a noninvasive monitoring tool for chemical and physical modulation of oxidation in yeast cell culture. Sci Rep 11, 328 (2021). © 2021 The Author(s). This article is licensed under the Creative Commons Attribution License.