Interaction of double‐stranded DNA with polymerized PprA protein from <i>Deinococcus radiodurans</i>

Adachi, Motoyasu; Hirayama, Hiroshi; Shimizu, R; Satoh, Katsuya; Narumi, Issay; Kuroki, Ryota

doi:10.1002/pro.2519

Cited by 9 publications

(12 citation statements)

References 36 publications

(89 reference statements)

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“…The polymerization of PprA depends on the concentration of the protein. Whereas PprA binds to dsDNA to form an unsaturated nucleoprotein complex at low concentrations, a larger nucleoprotein complex is formed to facilitate the association of the ends of damaged DNAs at high concentrations [54 ]. Analyses of the cellular dynamics of PprA have indicated the interactions of PprA with topoisomerase (Topo IB) and DNA gyrase, suggesting the significant role of PprA in preserving genome integrity following irradiation [55][56][57].…”

Section: Current Opinion In Microbiologymentioning

confidence: 99%

DNA repair in hyperthermophilic and hyperradioresistant microorganisms

Ishino

Narumi

2015

Current Opinion in Microbiology

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Section: Current Opinion In Microbiologymentioning

confidence: 99%

DNA repair in hyperthermophilic and hyperradioresistant microorganisms

Ishino

Narumi

2015

Current Opinion in Microbiology

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“…Although mutations on Ala139 and Trp183 residues inside the protein molecule lost the DNA binding ability by disruption of PprA oligomerization, mutations on the molecular surface near Interface 2 without the disruption of oligomerization may lead to investigating effects of interactions between PprA and gyrase to radioresistance. The binding affinity of PprA, however, is similar for linear and supercoiled DNA (33). PprA therefore seems not to assist DNA relaxation with the deformation of DNA but is a DNA guide for gyrase.…”

Section: Discussionmentioning

confidence: 89%

“…Wild-type PprA exhibits a wide range of oligomeric structures, even without binding to DNA, and the molecular size of the oligomers is estimated to be from 1 3 10 5 to 3 3 10 6 Da (tetramer to 100-mers), depending on the protein concentration (33). Attempts to crystallize wildtype PprA yielded a rod-shaped single crystal (Supplemental Fig.…”

Section: Tertiary Structure Of Mutant Ppra Obtained By Random Mutagenmentioning

confidence: 99%

“…PprA is a pleiotropic protein that is believed to be involved in the repair of DSBs and other radiation-induced damage; however, the molecular mechanism underlying this critical function remains unclear. We have previously characterized the interaction of E. coli-expressed recombinant PprA with several double-stranded DNAs (supercoiled, linear, or nicked circular double-stranded DNA) using a gel shift assay (33). The band shift of supercoiled DNA caused by PprA binding exhibits a bimodal distribution.…”

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Extended structure of pleiotropic DNA repair‐promoting protein PprA from Deinococcus radiodurans

et al. 2018

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Pleiotropic protein promoting DNA repair A (PprA) is a key protein facilitating the extreme radiation resistance of Deinococcus radiodurans. PprA is a unique protein to the genus Deinococcus and exists as an oligomer ranging from a tetramer to an ∼100‐mer depending on protein concentrations. Here, the X‐ray crystal structure of PprA was determined to clarify how PprA confers radiation resistance. The tertiary structure of dimeric PprA was elucidated by using mutants obtained with random and site‐directed mutagenesis methods (W183R and A139R); these mutants have disabled DNA binding and polymerization functions. Because the mutant A139R and W183R proteins have dimeric assemblies with 2 different interfaces (Interfaces 1 and 2), the linear and oligomerized PprA model was constructed as a left‐handed face‐to‐face periodic screw structure. In addition, the linear structure in solution was confirmed by small‐angle scattering experiments. The site‐directed mutational analysis identified essential basic amino acids for DNA binding. These analytical data support the hypothesis that a complex assembly of PprA molecules, which are extended and have a screw structure, surrounds and stretches the DNA strand, acting as a novel guide to colocalize the DNA strands for efficient DNA repairs.—Adachi, M., Shimizu, R., Shibazaki, C., Satoh, K., Fujiwara, S., Arai, S., Narumi, I., Kuroki, R. Extended structure of pleiotropic DNA repair‐promoting protein PprA from Deinococcus radiodurans. FASEB J. 33, 3647–3658 (2019). http://www.fasebj.org

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“…In vitro , PprA preferentially binds double-stranded DNA (dsDNA) carrying strand breaks, inhibits Escherichia coli exonuclease III activity, and stimulates the DNA end-joining reaction catalyzed by ATP-dependent DNA ligases ( 14 ). It has also been shown that PprA polymerizes along supercoiled, nicked, circular, or linear double-stranded DNA ( 23 ). After irradiation, PprA is part of a multiprotein complex containing 24 proteins, including DNA ligases, DNA topoisomerase IB (Topo IB), SSB, and DNA polymerase I and exhibiting both DNA synthesis and DNA end-processing functions ( 24 ).…”

Section: Introductionmentioning

confidence: 99%

PprA Protein Is Involved in Chromosome Segregation via Its Physical and Functional Interaction with DNA Gyrase in Irradiated Deinococcus radiodurans Bacteria

Devigne

Guérin

Lisboa

et al. 2016

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D. radiodurans is one of the most radiation-resistant organisms known. This bacterium is able to cope with high levels of DNA lesions generated by exposure to extreme doses of ionizing radiation and to reconstruct a functional genome from hundreds of radiation-induced chromosomal fragments. Here, we identified partners of PprA, a radiation-induced Deinococcus-specific protein, previously shown to be required for radioresistance. Our study leads to three main findings: (i) PprA interacts with DNA gyrase after irradiation, (ii) treatment of cells with novobiocin results in defects in chromosome segregation that are aggravated by the absence of PprA, and (iii) PprA stimulates the decatenation activity of DNA gyrase. Our results extend the knowledge of how D. radiodurans cells survive exposure to extreme doses of gamma irradiation and point out the link between DNA repair, chromosome segregation, and DNA gyrase activities in the radioresistant D. radiodurans bacterium.

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Interaction of double‐stranded DNA with polymerized PprA protein from Deinococcus radiodurans

Cited by 9 publications

References 36 publications

DNA repair in hyperthermophilic and hyperradioresistant microorganisms

DNA repair in hyperthermophilic and hyperradioresistant microorganisms

Extended structure of pleiotropic DNA repair‐promoting protein PprA from Deinococcus radiodurans

PprA Protein Is Involved in Chromosome Segregation via Its Physical and Functional Interaction with DNA Gyrase in Irradiated Deinococcus radiodurans Bacteria

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