TY - JOUR
T1 - Frequency modulation of the Min-protein oscillator by nucleoid-associated factors in Escherichia coli
AU - Shen, Jie Pan
AU - Chang, Yi Ren
AU - Chou, Chia Fu
N1 - Publisher Copyright:
© 2020 Elsevier Inc.
PY - 2020/5/14
Y1 - 2020/5/14
N2 - In E. coli, the Min-protein oscillator, together with the nucleoid occlusion (NO), destabilizes the Z-ring assembly away from the midcell to ensure faithful septation. These two inhibitory pathways are thought to be working independently for division site placement. Even though the Min-protein oscillator has been displayed by synthetic minimal systems, it is unclear the interplays of Min proteins and compartment geometry are sufficient to bolster oscillation stability in vivo. By probing if NO plays a role in the Min oscillation, we study the oscillation frequency in the anucleate and nucleoid-perturbed cells. Surprisingly, we found that the oscillation periods of the Min-protein oscillators were seriously deviated in the anucleate and nucleoid-perturbed cells, but the oscillation frequency either went up in the anucleate or down in the nucleoid-perturbed cells. Intriguingly, enhanced stability and reduced frequency were observed in the cells expressing the NO factor SlmA higher than the native level. Our results reveal an unanticipated role of the nucleoid in modulating the frequency and stability of Min-protein system. SlmA is indicated to facilitate such modulations, potentially via directly interacting with the Min-protein system. A fresh perspective is suggested that frequency modulation of Min-protein oscillator is mediated via the act of nucleoid-associated factors.
AB - In E. coli, the Min-protein oscillator, together with the nucleoid occlusion (NO), destabilizes the Z-ring assembly away from the midcell to ensure faithful septation. These two inhibitory pathways are thought to be working independently for division site placement. Even though the Min-protein oscillator has been displayed by synthetic minimal systems, it is unclear the interplays of Min proteins and compartment geometry are sufficient to bolster oscillation stability in vivo. By probing if NO plays a role in the Min oscillation, we study the oscillation frequency in the anucleate and nucleoid-perturbed cells. Surprisingly, we found that the oscillation periods of the Min-protein oscillators were seriously deviated in the anucleate and nucleoid-perturbed cells, but the oscillation frequency either went up in the anucleate or down in the nucleoid-perturbed cells. Intriguingly, enhanced stability and reduced frequency were observed in the cells expressing the NO factor SlmA higher than the native level. Our results reveal an unanticipated role of the nucleoid in modulating the frequency and stability of Min-protein system. SlmA is indicated to facilitate such modulations, potentially via directly interacting with the Min-protein system. A fresh perspective is suggested that frequency modulation of Min-protein oscillator is mediated via the act of nucleoid-associated factors.
KW - Bacterial cell division
KW - Biological oscillator
KW - Cell cycle
KW - Min oscillations & dynamics
KW - Nucleoid occlusion
KW - Single cell biophysics
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U2 - 10.1016/j.bbrc.2020.02.161
DO - 10.1016/j.bbrc.2020.02.161
M3 - Article
C2 - 32173529
AN - SCOPUS:85081533223
SN - 0006-291X
VL - 525
SP - 857
EP - 862
JO - Biochemical and Biophysical Research Communications
JF - Biochemical and Biophysical Research Communications
IS - 4
ER -