New lineage of filamentous, spore-forming, gram-positive bacteria from soil

A novel bacterial strain that was isolated from an Italian soil and was designated SOSP1-21(T) forms branched mycelia in solid and liquid media and has a filamentous morphology similar to that of some genera belonging to the Actinobacteria. Electron microscopy showed that this organism has a grape-like appearance, resulting from interlacing of spores originating from sporophoric hyphae. Ten strains that are morphologically related to S0SP1-21(T) were recovered from soil. Phylogenetic analyses of 16S rRNA gene segments confirmed the relatedness of these strains to SOSP1-21(T) and indicated that the newly isolated strains form separate clades in a deeply branching lineage. The closest matches for the 16S rRNA sequences of all the strains (around 79% identity) were matches with representatives of the Chloroflexi, although the affiliation with this division was not supported by high bootstrap values. The strains are mesophilic aerobic heterotrophs and are also capable of growing under microaerophilic conditions. They all stain gram positive. Strain SOSP1-21(T) contains ornithine, alanine, glutamic acid, serine, and glycine as the peptidoglycan amino acids. In addition, an unusual level of C16:1 20H (30%) was found in the cellular fatty acids. The G+C content of SOSPI-21(T) genomic DNA is 53.9%, and MK-9(H-2) was the only menaquinone detected. All these data suggest that SOSP1-21(T) and the related strains may constitute a new division of filamentous, spore-forming, gram-positive bacteria. We propose the name Redobacter racentifer gen. nov., sp. nov. for strain SOSP1-21(T).