Abstract

The E. coli umuDC gene products participate in two temporally distinct roles: UmuD2C acts in a DNA damage checkpoint control, while UmuD'2C, also known as DNA polymerase V (Pol V), catalyzes replication past DNA lesions via a process termed translesion DNA synthesis. These different roles of the umuDC gene products are managed in part by the dnaN-encoded β sliding clamp protein. Co-overexpression of the β clamp and Pol V severely blocked E. coli growth at 30°C. We previously used a genetic assay that was independent of the ability of β clamp to support E. coli viability to isolate 8 mutant clamp proteins (βQ61K, βS107L, βD150N, βG157S, βV170M, βE202K, βM204K and βP363S) that failed to block growth at 30°C when co-overexpressed with Pol V. It was unknown whether these mutant clamps were capable of supporting E. coli viability and normal umuDC functions in vivo. The goals of this study were to answer these questions. To this end, we developed a novel dnaN plasmid shuffle assay. Using this assay, βD150N and βP363S were unable to support E. coli viability. The remaining 6 mutant clamps, each of which supported viability, were indistinguishable from β+ with respect to umuDC functions in vivo. In light of these findings, we analyzed phenotypes of strains overexpressing either β clamp or Pol V alone. The strain overexpressing β+, but not those expressing mutant β clamps, displayed slowed growth irrespective of the incubation temperature. Moreover, growth of the Pol V-expressing strain was modestly slowed at 30°, but not 42°C. Taken together, these results suggest the mutant clamps were identified due to their inability to slow growth rather than an inability to interact with Pol V. They further suggest that cold sensitivity is due, at least in part, to the combination of their individual effects on growth at 30°C.

Highlights

  • The E. coli dnaN-encoded b clamp helps to coordinate the actions of several proteins involved in DNA replication, DNA repair and DNA damage tolerance

  • Residues D150 and P363 of the b sliding clamp contribute to one or more functions required for E. coli viability We previously exploited the cold sensitive growth phenotype conferred by co-overexpression of b clamp and polymerase V (Pol V) to identify 8 novel mutant clamp proteins that failed to block growth at 30uC ([44]; see Fig. 1)

  • It was unknown whether these mutant clamps were capable of supporting E. coli viability and normal umuDC functions in vivo when expressed as the only clamp protein in the cell

Read more

Summary

Introduction

The E. coli dnaN-encoded b clamp helps to coordinate the actions of several proteins involved in DNA replication, DNA repair and DNA damage tolerance (reviewed in [1]). This essential protein is a head-to-tail homodimer in bacteria (see Fig. 1), the three-dimensional structure and function of which is remarkably well conserved across all domains of life [2]. While some of these non-cleft contacts contribute to function of the partner protein when bound to clamp [6,12], others play critical roles in regulating access of clamp partners to the replication fork [13,14,15,16,17,18]

Objectives
Methods
Results
Conclusion

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.