Laminin α1 is a genetic modifier of TGF-β1–stimulated pulmonary fibrosis

In rapidly growing cells, with recombinational DNA repair required often and a new replication fork passing every 20 min, the pace of RecA-mediated DNA strand exchange is potentially much too slow for bacterial DNA metabolism. The enigmatic RadD protein, a putative SF2 family helicase, exhibits no independent helicase activity on branched DNAs. Instead, RadD greatly accelerates RecA-mediated DNA strand exchange, functioning only when RecA protein is present. The RadD reaction requires the RadD ATPase activity, does not require an interaction with SSB, and may disassemble RecA filaments as it functions. We present RadD as a new class of enzyme, an accessory protein that accelerates DNA strand exchange, possibly with a helicase-like action, in a reaction that is entirely RecA-dependent. RadD is thus a DNA strand exchange (recombination) synergist whose primary function is to coordinate closely with and accelerate the DNA strand exchange reactions promoted by the RecA recombinase. Multiple observations indicate a uniquely close coordination of RadD with RecA function.

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RecF protein targeting to post-replication (daughter strand) gaps II: RecF interaction with replisomes

Henry

Kaur

Cherry

et al. 2023

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The bacterial RecF, RecO, and RecR proteins are an epistasis group involved in loading RecA protein into post-replication gaps. However, the targeting mechanism that brings these proteins to appropriate gaps is unclear. Here, we propose that targeting may involve a direct interaction between RecF and DnaN. In vivo, RecF is commonly found at the replication fork. Over-expression of RecF, but not RecO or a RecF ATPase mutant, is extremely toxic to cells. We provide evidence that the molecular basis of the toxicity lies in replisome destabilization. RecF over-expression leads to loss of genomic replisomes, increased recombination associated with post-replication gaps, increased plasmid loss, and SOS induction. Using three different methods, we document direct interactions of RecF with the DnaN β-clamp and DnaG primase that may underlie the replisome effects. In a single-molecule rolling-circle replication system in vitro, physiological levels of RecF protein trigger post-replication gap formation. We suggest that the RecF interactions, particularly with DnaN, reflect a functional link between post-replication gap creation and gap processing by RecA. RecF’s varied interactions may begin to explain how the RecFOR system is targeted to rare lesion-containing post-replication gaps, avoiding the potentially deleterious RecA loading onto thousands of other gaps created during replication.

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Interaction with the carboxy-terminal tip of SSB is critical for RecG function in E. coli

Bonde

Henry

Wood

et al. 2023

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In Escherichia coli, the single-stranded DNA-binding protein (SSB) acts as a genome maintenance organizational hub by interacting with multiple DNA metabolism proteins. Many SSB-interacting proteins (SIPs) form complexes with SSB by docking onto its carboxy-terminal tip (SSB-Ct). An alternative interaction mode in which SIPs bind to PxxP motifs within an intrinsically-disordered linker (IDL) in SSB has been proposed for the RecG DNA helicase and other SIPs. Here, RecG binding to SSB and SSB peptides was measured in vitro and the RecG/SSB interface was identified. The results show that RecG binds directly and specifically to the SSB-Ct, and not the IDL, through an evolutionarily conserved binding site in the RecG helicase domain. Mutations that block RecG binding to SSB sensitize E. coli to DNA damaging agents and induce the SOS DNA-damage response, indicating formation of the RecG/SSB complex is important in vivo. The broader role of the SSB IDL is also investigated. E. coli ssb mutant strains encoding SSB IDL deletion variants lacking all PxxP motifs retain wildtype growth and DNA repair properties, demonstrating that the SSB PxxP motifs are not major contributors to SSB cellular functions.

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Reactivity of Methyl Diruthenium Complexes with CO and Bipyridine Ligands

et al. 2021

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Two different methyl diruthenium complexes, [cis-{(η5-C5H3)2(CMe2)2}Ru2(CO)4(CH3)][OTf] and [cis-{(η5-C5H3)2(CMe2)2}Ru2(κ2-(4,4′-di-tert-butyl)-2,2′-bipyridine)2(μ-CH3)][B(ArF)4], have been synthesized and characterized. When CO is the ancillary ligand, the CH3 group is terminal and susceptible to migration to the Cp ligand. Computationally, this methyl complex has two Ru(II) centers with a dative bond, and one of the metal centers is reduced by the rate-determining methyl migration to the Cp ligand. When the ancillary ligand is di-tert-butylbipyridine, the CH3 group bridges the two ruthenium centers where one ruthenium has a direct Ru–C bond and the other one interacts with the CH3 group through an agostic interaction. Interchange of the CH3 group between the rutheniums has low activation barriers. Here, addition of an acid, [H(OEt2)2][B(ArF)4], causes the migration of the CH3 group to the Cp ligand.

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Nina J Bonde

RadD is a RecA-dependent accessory protein that accelerates DNA strand exchange

RecF protein targeting to post-replication (daughter strand) gaps II: RecF interaction with replisomes

Interaction with the carboxy-terminal tip of SSB is critical for RecG function in E. coli

Reactivity of Methyl Diruthenium Complexes with CO and Bipyridine Ligands

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