Nami Haruta scite author profile

Nucleoprotein filaments made up of Rad51 or Dmc1 recombinases, the core structures of recombination, engage in ATP-dependent DNA-strand exchange. The ability of recombinases to form filaments is enhanced by recombination factors termed 'mediators'. Here, we show that the Schizosaccharomyces pombe Swi5-Sfr1 complex, a conserved eukaryotic protein complex, at substoichiometric concentrations stimulates strand exchange mediated by Rhp51 (the S. pombe Rad51 homolog) and Dmc1 on long DNA substrates. Reactions mediated by both recombinases are completely dependent on Swi5-Sfr1, replication protein A (RPA) and ATP, although RPA inhibits the reaction when it is incubated with single-stranded DNA (ssDNA) before the recombinase. The Swi5-Sfr1 complex overcomes, at least partly, the inhibitory effect of RPA, representing a novel class of mediator. Notably, the Swi5-Sfr1 complex preferentially stimulates the ssDNA-dependent ATPase activity of Rhp51, and it increases the amounts of Dmc1 bound to ssDNA.

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Reconstitution of DNA Strand Exchange Mediated by Rhp51 Recombinase and Two Mediators

Kurokawa

Murayama

Haruta

et al. 2008

PLoS Biol

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In the fission yeast Schizosaccharomyces pombe, genetic evidence suggests that two mediators, Rad22 (the S. pombe Rad52 homolog) and the Swi5-Sfr1 complex, participate in a common pathway of Rhp51 (the S. pombe Rad51 homolog)–mediated homologous recombination (HR) and HR repair. Here, we have demonstrated an in vitro reconstitution of the central step of DNA strand exchange during HR. Our system consists entirely of homogeneously purified proteins, including Rhp51, the two mediators, and replication protein A (RPA), which reflects genetic requirements in vivo. Using this system, we present the first robust biochemical evidence that concerted action of the two mediators directs the loading of Rhp51 onto single-stranded DNA (ssDNA) precoated with RPA. Dissection of the reaction reveals that Rad22 overcomes the inhibitory effect of RPA on Rhp51-Swi5-Sfr1–mediated strand exchange. In addition, Rad22 negates the requirement for a strict order of protein addition to the in vitro system. However, despite the presence of Rad22, Swi5-Sfr1 is still essential for strand exchange. Importantly, Rhp51, but neither Rad22 nor the Swi5-Sfr1 mediator, is the factor that displaces RPA from ssDNA. Swi5-Sfr1 stabilizes Rhp51-ssDNA filaments in an ATP-dependent manner, and this stabilization is correlated with activation of Rhp51 for the strand exchange reaction. Rad22 alone cannot activate the Rhp51 presynaptic filament. AMP-PNP, a nonhydrolyzable ATP analog, induces a similar stabilization of Rhp51, but this stabilization is independent of Swi5-Sfr1. However, hydrolysis of ATP is required for processive strand transfer, which results in the formation of a long heteroduplex. Our in vitro reconstitution system has revealed that the two mediators have indispensable, but distinct, roles for mediating Rhp51 loading onto RPA-precoated ssDNA

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Tubulin isotype substitution revealed that isotype combination modulates microtubule dynamics in C. elegans embryos

Honda

Tsuchiya

Sumiyoshi

et al. 2017

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Microtubules (MTs) are polymers composed of α-and β-tubulin heterodimers that are generally encoded by genes at multiple loci. Despite implications of distinct properties depending on the isotype, how these heterodimers contribute to the diverse MT dynamics in vivo remains unclear. Here, by using genome editing and depletion of tubulin isotypes following RNAi, we demonstrate that four tubulin isotypes (hereafter referred to as α1, α2, β1 and β2) cooperatively confer distinct MT properties in Caenorhabditis elegans early embryos. GFP insertion into each isotype locus reveals their distinct expression levels and MT incorporation rates. Substitution of isotype coding regions demonstrates that, under the same isotype concentration, MTs composed of β1 have higher switching frequency between growth and shrinkage compared with MTs composed of β2. Lower concentration of β-tubulins results in slower growth rates, and the two α-tubulins distinctively affect growth rates of MTs composed of β1. Alteration of ratio and concentration of isotypes distinctively modulates both growth rate and switching frequency, and affects the amplitude of mitotic spindle oscillation. Collectively, our findings demonstrate that MT dynamics are modulated by the combination (ratio and concentration) of tubulin isotypes with distinct properties, which contributes to create diverse MT behaviors in vivo.

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A DNA Pairing-enhanced Conformation of Bacterial RecA Proteins

Haruta

Xiong

Yang

et al. 2003

Journal of Biological Chemistry

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The RecA proteins of Escherichia coli (Ec) and Deinococcus radiodurans (Dr) both promote a DNA strand exchange reaction involving two duplex DNAs. The fourstrand exchange reaction promoted by the DrRecA protein is similar to that promoted by EcRecA, except that key parts of the reaction are inhibited by Ec singlestranded DNA-binding protein (SSB). In the absence of SSB, the initiation of strand exchange is greatly enhanced by dsDNA-ssDNA junctions at the ends of DNA gaps. This same trend is seen with the EcRecA protein.The results lead to an expansion of published hypotheses for the pathway for RecA-mediated DNA pairing, in which the slow first order step (observed in several studies) involves a structural transition to a state we designate P. The P state is identical to the state found when RecA is bound to double-stranded (ds) DNA. The structural state present when the RecA protein is bound to single-stranded (ss) DNA is designated A. The DNA pairing model in turn facilitates an articulation of three additional conclusions arising from the present work. 1) When a segment of a RecA filament bound to ssDNA is forced into the P state (as RecA bound to the ssDNA immediately adjacent to dsDNA-ssDNA junction), the segment becomes "pairing enhanced." 2) The unusual DNA pairing properties of the D. radiodurans RecA protein can be explained by postulating this protein has a more stringent requirement to initiate DNA strand exchange from the P state. 3) RecA filaments bound to dsDNA (P state) have directly observable structural changes relative to RecA filaments bound to ssDNA (A state), involving the C-terminal domain.The RecA protein of Escherichia coli (EcRecA) 1 is the prototype of a class of proteins playing a central role in the recombinational DNA repair in all organisms. The 352-amino acid polypeptide (M r 37,842) functions as part of a helical nucleoprotein filament (1, 2). RecA protein promotes a DNA strand exchange reaction that reflects its major function in cellular recombination (Fig. 1A). The RecA filament forms on the circular single-stranded DNA (ssDNA). A linear duplex is then aligned with the bound ssDNA, and strand exchange ensues. This order of substrate binding, ssDNA first and dsDNA second, is characteristic of the DNA strand exchange reactions promoted by all RecA family proteins, with one exception treated below. Strand exchange can initiate on either end of the linear duplex, but the reaction is propagated uniquely 5Ј to 3Ј relative to the single-stranded DNA substrate (3-5). RecA protein is a DNA-dependent ATPase, with a k cat under most conditions of 20 -30 min Ϫ1 . DNA pairing is initiated, and considerable strand exchange can occur without ATP hydrolysis (e.g. with the use of ATP␥S or RecA mutants that bind but do not hydrolyze ATP) (6 -12). However, when ATP (or dATP) is hydrolyzed, the reaction becomes unidirectional and can bypass substantial structural barriers such as heterologous sequence insertions in one of the DNA substrates (6,8,12). The present work focuses on the initial DNA p...

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UV Resonance Raman Detection of a Ligand Vibration on Ferric Nitrosyl Heme Proteins

et al. 2001

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Nami Haruta

The Swi5–Sfr1 complex stimulates Rhp51/Rad51 - and Dmc1-mediated DNA strand exchange in vitro

Reconstitution of DNA Strand Exchange Mediated by Rhp51 Recombinase and Two Mediators

Tubulin isotype substitution revealed that isotype combination modulates microtubule dynamics in C. elegans embryos

A DNA Pairing-enhanced Conformation of Bacterial RecA Proteins

UV Resonance Raman Detection of a Ligand Vibration on Ferric Nitrosyl Heme Proteins

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