Abstract
Single-stranded DNA-binding proteins and their functional homologs, replication protein A, are essential components of cellular DNA replication, repair and recombination. We describe here the isolation and characterization of multiple replication protein A homologs, RPA1, RPA2, and RPA3, from the archaeon Methanosarcina acetivorans. RPA1 comprises four single-stranded DNA-binding domains, while RPA2 and RPA3 are each composed of two such domains and a zinc finger domain. Gel filtration analysis suggested that RPA1 exists as homotetramers and homodimers in solution, while RPA2 and RPA3 form only homodimers. Unlike the multiple RPA proteins found in other Archaea and eukaryotes, each of the M. acetivorans RPAs can act as a distinct single-stranded DNA-binding protein. Fluorescence resonance energy transfer and fluorescence polarization anisotropy studies revealed that the M. acetivorans RPAs bind to as few as 10 single-stranded DNA bases. However, more stable binding is achieved with single-stranded DNA of 18-23 bases, and for such substrates the estimated Kd was 3.82 +/- 0.28 nM, 173.6 +/- 105.17 nM, and 5.92 +/- 0.23 nM, for RPA1, RPA2, and RPA3, respectively. The architectures of the M. acetivorans RPAs are different from those of hitherto reported homologs. Thus, these proteins may represent novel forms of replication protein A. Most importantly, our results show that the three RPAs and their combinations highly stimulate the primer extension capacity of M. acetivorans DNA polymerase BI. Although bacterial SSB and eukaryotic RPA have been shown to stimulate DNA synthesis by their cognate DNA polymerases, our findings provide the first in vitro biochemical evidence for the conservation of this property in an archaeon.
Highlights
In the Archaea, which together with Bacteria and Eukarya constitute the three domains of life, single-stranded DNA-binding proteins have been described for only thermophilic and hyperthermophilic organisms (4 – 8), this domain includes numerous mesophilic genera
The polBI oligonucleotides were used to amplify MacPolBI; the Electrophoretic Mobility Shift Assay (EMSA) oligonucleotide was the probe for electrophoretic mobility shift assay; the Fluorescence Polarization Anisotropy (FPA) oligonucleotide was used for fluorescence polarization anisotropy experiments; the FRET oligonucleotides were annealed together to measure fluorescence resonance energy transfer as protein bound to the ssDNA region; mutagenesis oligonucleotides were used to create MacRPA3-C313A; and the primer extension oligonucleotide was annealed to the M13mp18 genome in the primer extension assay
Identification of MacRPA Genes—Three different genes encoding replication protein A (RPA)-like proteins were retrieved from the genome of M. acetivorans by searching with PfuRPA41
Summary
Cloning of Multiple RPA-encoding Genes from M. acetivorans— The gene coding for PfuRPA41 was used in searching for RPA-like sequences in the M. acetivorans genome (//www-genome.wi.mit.edu/ annotation/microbes/methanosarcina/?). The PCR conditions were as described for the genes encoding the RPA-like proteins except for the duration of primer extension, which was increased to 3 min due to the length (2.8 kb) of the expected product. Since each of the genes was inserted in-frame with an N-terminal hexahistidine sequence (His tag) encoded by the pET28a plasmid, the cell debris was pelleted by centrifugation (10,000 ϫ g for 20 min at 4 °C), and the supernatant was applied to a metal-affinity column (TALONTM cobalt affinity resin, Clontech) pre-equilibrated with buffer A. The eluted fractions were analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), and those containing the proteins of interest were pooled and dialyzed against buffer B (50 mM Tris-HCl, pH 8.0; 50 mM NaCl). The signals were quantified by using a phosphorimager (BAS-1800; Fuji Film)
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