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The δ subunit of RNA polymerase is required for rapid changes in gene expression and competitive fitness of the cell.


ABSTRACT: RNA polymerase (RNAP) is an extensively studied multisubunit enzyme required for transcription of DNA into RNA, yet the δ subunit of RNAP remains an enigmatic protein whose physiological roles have not been fully elucidated. Here, we identify a novel, so far unrecognized function of δ from Bacillus subtilis. We demonstrate that δ affects the regulation of RNAP by the concentration of the initiating nucleoside triphosphate ([iNTP]), an important mechanism crucial for rapid changes in gene expression in response to environmental changes. Consequently, we demonstrate that δ is essential for cell survival when facing a competing strain in a changing environment. Hence, although δ is not essential per se, it is vital for the cell's ability to rapidly adapt and survive in nature. Finally, we show that two other proteins, GreA and YdeB, previously implicated to affect regulation of RNAP by [iNTP] in other organisms, do not have this function in B. subtilis.

SUBMITTER: Rabatinova A 

PROVIDER: S-EPMC3676059 | biostudies-literature | 2013 Jun

REPOSITORIES: biostudies-literature

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The δ subunit of RNA polymerase is required for rapid changes in gene expression and competitive fitness of the cell.

Rabatinová Alžbeta A   Šanderová Hana H   Jirát Matějčková Jitka J   Korelusová Jana J   Sojka Luděk L   Barvík Ivan I   Papoušková Veronika V   Sklenár Vladimír V   Žídek Lukáš L   Krásný Libor L  

Journal of bacteriology 20130329 11


RNA polymerase (RNAP) is an extensively studied multisubunit enzyme required for transcription of DNA into RNA, yet the δ subunit of RNAP remains an enigmatic protein whose physiological roles have not been fully elucidated. Here, we identify a novel, so far unrecognized function of δ from Bacillus subtilis. We demonstrate that δ affects the regulation of RNAP by the concentration of the initiating nucleoside triphosphate ([iNTP]), an important mechanism crucial for rapid changes in gene express  ...[more]

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