Abstract Background Phytate is the primary phosphorus storage molecule of plants and plays a major role in animal nutrition. To enhance phosphate availability and absorption in livestock, and to reduce eutrophication by liquid manure, bacterial phytases are often added to animal feed. The dephosphorylated form of phytate, the polyol myo -inositol ( myo -Ins) with multiple functions in eukaryotes, is metabolized by approximately 30% of all bacterial species. Results Here, we employed a culturomics approach to identify possible metabolic interactions between phytase-producing and myo -Ins degrading bacteria in intestinal samples from pigs. Selective cultivation revealed an unexpectedly high abundance of myo -Ins degrading bacteria, suggesting substantial phytate dephosphorylation in the pig gut. Phytase activity assays performed on gut isolates showed a high degree of variability, suggesting the presence of a diverse set of phytases yet to be characterized. Furthermore, using supernatants of phytase-positive gut strains cultivated in the presence of phytate, we observed cross-feeding of myo -Ins from phytase producers to phytase-negative strains, including the pathogen Salmonella enterica serovar Typhimurium. Conclusions The data demonstrate that a wide range of commensal bacteria can potentially benefit from phytase activity by utilizing myo -Ins, released through phytate hydrolysis, as a growth substrate.
Paul et al. (Wed,) studied this question.