The RadA protein from a hyperthermophilic archaeon <i>Pyrobaculum islandicum</i> is a DNA‐dependent ATPase that exhibits two disparate catalytic modes, with a transition temperature at 75 °C

Spies, Maria; Kil, Yury V.; Masui, Ryoji; Kato, Ryuichi; Kujo, Chizu; Ohshima, Toshihisa; Kuramitsu, Seiki; Lanzov, Vladislav A.

doi:10.1046/j.1432-1327.2000.01108.x

Cited by 25 publications

(22 citation statements)

References 58 publications

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“…1). This concentration is fivefold lower than that used for RadA Pi (17). Moreover, the addition of 100 mM NaCl resulted in a 3.2-fold decrease of the monomer k cat value.…”

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confidence: 84%

“…Like other members of this family, RadA polymerizes on single-stranded DNA (ssDNA) in the presence of ATP, forming a presynaptic complex (PC) which possesses the ATPase activity. PC interacts with double-stranded DNA (dsDNA) to promote homologous pairing and strand exchange, the two critical steps of recombination (4, 15).The biochemical and recombination activities of five RadA proteins from different hyperthermophilic crenarchaeons and euryarchaeons have been described (6,7,10,14,17). One of them, RadA from Pyrobaculum islandicum (RadA Pi ), has been studied in more detail than the others.…”

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confidence: 99%

“…The biochemical and recombination activities of five RadA proteins from different hyperthermophilic crenarchaeons and euryarchaeons have been described (6,7,10,14,17). One of them, RadA from Pyrobaculum islandicum (RadA Pi ), has been studied in more detail than the others.…”

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confidence: 99%

“…One of them, RadA from Pyrobaculum islandicum (RadA Pi ), has been studied in more detail than the others. The ATPase of its PC exhibits two disparate catalytic modes, and its PC is active within a wide temperature range (from 37 to 90°C) (17).…”

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confidence: 99%

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Characteristic Thermodependence of the RadA Recombinase from the Hyperthermophilic Archaeon Desulfurococcus amylolyticus

2005

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The Desulfurococcus amylolyticus RadA protein (RadA Da ) promotes recombination at temperatures approaching the DNA melting point. Here, analyzing ATPase of the RadA Da presynaptic complex, we described other distinguishing characteristics of RadA Da . These include sensitivity to NaCl, preference for lengthy singlestranded DNA as a cofactor, protein activity at temperatures of over 100°C, and bimodal ATPase activity. These characteristics suggest that RadA Da is a founding member of a new class of archaeal recombinases.RadA belongs to the RecA/RadA/Rad51 protein superfamily found in all three domains of life, the Bacteria, Archaea, and Eukarya (3, 11, 13). As homologous DNA transferases, these filamenting proteins are responsible for homologous recombination, recombination DNA repair, and other aspects of DNA metabolism (5,8,9). Like other members of this family, RadA polymerizes on single-stranded DNA (ssDNA) in the presence of ATP, forming a presynaptic complex (PC) which possesses the ATPase activity. PC interacts with double-stranded DNA (dsDNA) to promote homologous pairing and strand exchange, the two critical steps of recombination (4, 15).The biochemical and recombination activities of five RadA proteins from different hyperthermophilic crenarchaeons and euryarchaeons have been described (6,7,10,14,17). One of them, RadA from Pyrobaculum islandicum (RadA Pi ), has been studied in more detail than the others. The ATPase of its PC exhibits two disparate catalytic modes, and its PC is active within a wide temperature range (from 37 to 90°C) (17).Earlier, we described a distinguishing property of RadA protein from crenarchaeon Desulfurococcus amylolyticus (RadA Da ), namely, its ability to promote efficient strand exchange even at 95°C (6). Here, we continued the analysis of biochemical activities of RadA Da and presented its additional characteristics, which include both expected and distinguishing properties of the protein with regard to known activities of the RecA and RadA recombinases.ATP hydrolysis is an intrinsic property of the ternary PC (RecA/RadA/Rad51::ATP::ssDNA) formed by any member of the homologous recombinase family. The hydrolysis rate is strongest for the RecA PC (k cat ϭ 30 min Ϫ1 ) and is reduced roughly 10 times for representatives of the RadA/Rad51 subfamily. Though ATP hydrolysis is not necessary for the initiation of recombination by the PC, it is essential for the strand exchange progression and completion (4). Since the accumulation of ADP results in PC inactivation, the ATP hydrolysis is routinely used to monitor an active state of PC.As ATP hydrolysis catalyzed by RadA Da was measured at temperatures around 90°C and above in the absence of ATPregenerating system, a linear part of ATPase kinetics was observed within the limits of 1 to 4 min of the reaction (data not shown). Unless otherwise specified, the experimental conditions used in all further experiments were as follows. The reaction was carried out at 90°C in the 20-l mixture containing TMD buffer (25 mM Tris-HCl [pH 7.5],...

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“…1). This concentration is fivefold lower than that used for RadA Pi (17). Moreover, the addition of 100 mM NaCl resulted in a 3.2-fold decrease of the monomer k cat value.…”

mentioning

confidence: 84%

mentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

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Characteristic Thermodependence of the RadA Recombinase from the Hyperthermophilic Archaeon Desulfurococcus amylolyticus

2005

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“…This recombinase is a RecARadA-like protein, found in all three domains of life (4), which forms filaments on single-stranded DNA (ssDNA) in the presence of ATP (and thus possesses ATPase activity) and promotes homologous pairing and strand exchange, which are the two main steps in the initiation of homologous recombination and recombination repair, as well (6,16,27). All members of the RecA-RadA-Rad51 recombinase superfamily form nucleoprotein filaments of similar structures and stoichiometries, and they display similar preferences in DNA substrates for DNAdependent ATP hydrolysis (26,30,32). Although similar in ATP-dependent recombination functions, these members are divided into two subfamilies: RecA-like and RadA-Rad51-like proteins.…”

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Rad51 Protein from the Thermotolerant Yeast Pichia angusta as a Typical but Thermodependent Member of the Rad51 Family

et al. 2004

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The Rad51 protein from the methylotrophic yeast Pichia angusta (Rad51 Pa ) of the taxonomic complex Hansenula polymorpha is a homolog of the RecA-RadA-Rad51 protein superfamily, which promotes homologous recombination and recombination repair in prokaryotes and eukaryotes. We cloned the RAD51 gene from the cDNA library of the thermotolerant P. angusta strain BKM Y1397. Induction of this gene in a rad51-deficient Saccharomyces cerevisiae strain partially complemented the survival rate after ionizing radiation. Purified Rad51 Pa protein exhibited properties typical of the superfamily, including the stoichiometry of binding to single-stranded DNA (ssDNA) (one protomer of Rad51 Pa per 3 nucleotides) and DNA specificity for ssDNAdependent ATP hydrolysis [poly(dC) > poly(dT) > X174 ssDNA > poly(dA) > double-stranded M13 DNA]. An inefficient ATPase and very low cooperativity for ATP interaction position Rad51 Pa closer to Rad51 than to RecA. Judging by thermoinactivation, Rad51 Pa alone was 20-fold more thermostable at 37°C than its S. cerevisiae homolog (Rad51 Sc ). Moreover, it maintained ssDNA-dependent ATPase and DNA transferase activities up to 52 to 54°C, whereas Rad51 Sc was completely inactive at 47°C. A quick nucleation and an efficient final-product formation in the strand exchange reaction promoted by Rad51 Pa occurred only at temperatures above 42°C. These reaction characteristics suggest that Rad51 Pa is dependent on high temperatures for activity.Pichia angusta, one of the species of the taxonomic complex Hansenula polymorpha (25), is a methylotrophic yeast which has attracted considerable attention as a promising host for the production of recombinant proteins because of its powerful promoter elements, its ability to grow at high density on inexpensive substrates, and the unusual properties of its homologous and nonhomologous recombination systems promoting a multiple tandem integration of a nonlinearized plasmid in the host chromosome (for reviews, see references 11, 28, and 31). One additional characteristic that might have a biotechnological advantage is its thermotolerance, an ability to grow at temperatures (42°C and higher) which are not acceptable for other yeast strains.Among 2,500 P. angusta novel protein-encoding genes now identified, 6% have no homologs in Saccharomyces cerevisiae (3). Little is known about the recombination or DNA repair proteins in P. angusta, such as the homologous DNA transferase Rad51 and its paralogs. This recombinase is a RecARadA-like protein, found in all three domains of life (4), which forms filaments on single-stranded DNA (ssDNA) in the presence of ATP (and thus possesses ATPase activity) and promotes homologous pairing and strand exchange, which are the two main steps in the initiation of homologous recombination and recombination repair, as well (6,16,27). All members of the RecA-RadA-Rad51 recombinase superfamily form nucleoprotein filaments of similar structures and stoichiometries, and they display similar preferences in DNA substrates for DNAdependent ATP hy...

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Crystal structure of the YjeE protein from Haemophilus influenzae: A putative Atpase involved in cell wall synthesis

et al. 2002

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A hypothetical protein encoded by the gene YjeE of Haemophilus influenzae was selected as part of a structural genomics project for X-ray analysis to assist with the functional assignment. The protein is considered essential to bacteria because the gene is present in virtually all bacterial genomes but not in those of archaea or eukaryotes. The amino acid sequence shows no homology to other proteins except for the presence of the Walker A motif G-X-X-X-X-G-K-T that indicates the possibility of a nucleotide-binding protein. The YjeE protein was cloned, expressed, and the crystal structure determined by the MAD method at 1.7-A resolution. The protein has a nucleotide-binding fold with a four-stranded parallel beta-sheet flanked by antiparallel beta-strands on each side. The topology of the beta-sheet is unique among P-loop proteins and has features of different families of enzymes. Crystallization of YjeE in the presence of ATP and Mg2+ resulted in the structure with ADP bound in the P-loop. The ATPase activity of YjeE was confirmed by kinetic measurements. The distribution of conserved residues suggests that the protein may work as a "molecular switch" triggered by ATP hydrolysis. The phylogenetic pattern of YjeE suggests its involvement in cell wall biosynthesis.

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The RadA protein from a hyperthermophilic archaeon Pyrobaculum islandicum is a DNA‐dependent ATPase that exhibits two disparate catalytic modes, with a transition temperature at 75 °C

Cited by 25 publications

References 58 publications

Characteristic Thermodependence of the RadA Recombinase from the Hyperthermophilic Archaeon Desulfurococcus amylolyticus

Characteristic Thermodependence of the RadA Recombinase from the Hyperthermophilic Archaeon Desulfurococcus amylolyticus

Rad51 Protein from the Thermotolerant Yeast Pichia angusta as a Typical but Thermodependent Member of the Rad51 Family

Crystal structure of the YjeE protein from Haemophilus influenzae: A putative Atpase involved in cell wall synthesis

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