A Comparative Kinetic and Thermodynamic Perspective of the σ-Competition Model in Escherichia coli

Ganguly, Abantika ; Chatterji, Dipankar (2012) A Comparative Kinetic and Thermodynamic Perspective of the σ-Competition Model in Escherichia coli Biophysical Journal, 103 (6). pp. 1325-1333. ISSN 00063495

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Official URL: http://doi.org/10.1016/j.bpj.2012.08.013

Related URL: http://dx.doi.org/10.1016/j.bpj.2012.08.013

Abstract

Transcription is the most fundamental step in gene expression in any living organism. Various environmental cues help in the maturation of core RNA polymerase (RNAP; α2ββ′ω) with different σ-factors, leading to the directed recruitment of RNAP to different promoter DNA sequences. Thus it is essential to determine the σ-factors that affect the preferential partitioning of core RNAP among various σ-actors, and the role of σ-switching in transcriptional gene regulation. Further, the macromolecular assembly of holo RNAP takes place in an extremely crowded environment within a cell, and thus far the kinetics and thermodynamics of this molecular recognition process have not been well addressed. In this study we used a site-directed bioaffinity immobilization method to evaluate the relative binding affinities of three different Escherichia coli σ-factors to the same core RNAP with variations in temperature and ionic strength while emulating the crowded cellular milieu. Our data indicate that the interaction of core RNAP-σ is susceptible to changes in external stimuli such as osmolytic and thermal stress, and the degree of susceptibility varies among different σ-factors. This allows for a reversible σ-switching from housekeeping factors to alternate σ-factors when the organism senses a change in its physiological conditions.

Item Type:Article
Source:Copyright of this article belongs to Biophysical Society
ID Code:133091
Deposited On:26 Dec 2022 09:18
Last Modified:26 Dec 2022 09:18

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