Biphasic unbinding of Zur from DNA for transcription (de)repression in Live Bacteria

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Abstract

Transcription regulator on-off binding to DNA constitutes a mechanistic paradigm in gene regulation, in which the repressors/activators bind to operator sites tightly while the corresponding non-repressors/non-activators do not. Another paradigm regards regulator unbinding from DNA to be a unimolecular process whose kinetics is independent of regulator concentration. Using single-molecule single-cell measurements, we find that the behaviors of the zinc-responsive uptake regulator Zur challenges these paradigms. Apo-Zur, a non-repressor and presumed non-DNA binder, can bind to chromosome tightly in live E. coli cells, likely at non-consensus sequence sites. Moreover, the unbinding from DNA of its apo-non-repressor and holo-repressor forms both show a biphasic, repressed-followed-by-facilitated kinetics with increasing cellular protein concentrations. The facilitated unbinding likely occurs via a ternary complex formation mechanism; the repressed unbinding is first-of-its-kind and likely results from protein oligomerization on chromosome, in which an inter-protein salt-bridge plays a key role. This biphasic unbinding could provide functional advantages in Zur's facile switching between repression and derepression.

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last seen: 2026-05-19T01:45:01.086888+00:00