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“Background Single-stranded DNA-binding (SSB) proteins play an essential role in all in vivo processes involving ssDNA. They interact with ssDNA and RNA, in an independent from sequence manner, preventing single-stranded nucleic acids from hybridization and degradation

by nucleases [1]. SSB proteins play a central role in DNA replication, repair and recombination [2–4]. They have been identified in all classes of organisms, performing similar functions but displaying little sequence similarity and very different ssDNA binding properties. Based on their oligomeric state, SSBs can be classified into four groups: monomeric, homodimeric, heterotrimeric and homotetrameric. A prominent feature of all SSBs is that the DNA-binding domain is made up of a selleck products conserved motif, the OB (oligonucleotide binding) TSA HDAC cost fold [5]. Most of the bacterial SSBs exist as homotetramers. However, recent discoveries have shown that

SSB proteins from the genera Thermus and Deinococcus possess a different architecture. SSB proteins in these bacteria are homodimeric, with each SSB monomer encoding two OB folds linked by a conserved spacer sequence [6–9]. At present, with the exception of SSB from Thermoanaerobacter tengcongensis [11], all bacterial thermostable SSBs belong to the Deinococcus-Thermus phylum. They have been found in T. aquaticus selleck chemical [6, 12], T. thermophilus [6, 12], D. radiodurans [7], D. geothermalis [13], D. murrayi [14], D. radiopugnans [15], D. grandis and D. proteolyticus [16]. In addition, thermostable

SSBs have also been found in thermophilic crenarchaea e. g. Sulfolobus solfataricus [17]. Thermotoga maritima and T. neapolitana are strictly anaerobic heterotrophic Eubacteria growing in marine environments at Phospholipase D1 temperatures ranging from 50 to 95°C. Their DNA base composition is 46 and 41 mol% guanine+cytosine, respectively [18, 19]. Among the Eubacteria sequenced to date, T. maritima has the highest percentage (24%) of genes that are highly similar to archeal genes. The observed conservation of gene order between T. maritima and Archaea in many of the clustered regions suggests that lateral gene transfer may have occurred between thermophilic Eubacteria and Archaea [20]. Genomes of bacteria presented in the NCBI database have been screened in search for ssb gene homologs and their organization. In all the genomes, one or more genes coding for an SSB homolog were found [21]. On the basis of the ssb gene organization and the number of ssb paralogs, they classified bacteria in four different groups. T. maritima was classified as group II, which contains bacteria with the ssb gene organization rpsF-ssb-rpsR. In the present study the purification and characterization of two highly thermostable SSB proteins from T. maritima and T. neapolitana are described.