Methyl-esterified 3-hydroxybutyrate oligomers protect bacteria from hydroxyl radicals.

Bacteria rely mainly on enzymes, glutathione and other low-molecular weight thiols to overcome oxidative stress. However, hydroxyl radicals are the most cytotoxic reactive oxygen species, and no known enzymatic system exists for their detoxification. We now show that methyl-esterified dimers and trimers of 3-hydroxybutyrate (ME-3HB), produced by bacteria capable of polyhydroxybutyrate biosynthesis, have 3-fold greater hydroxyl radical-scavenging activity than glutathione and 11-fold higher activity than vitamin C or the monomer 3-hydroxybutyric acid. We found that ME-3HB oligomers protect hypersensitive yeast deletion mutants lacking oxidative stress-response genes from hydroxyl radical stress. Our results show that phaC and phaZ, encoding polymerase and depolymerase, respectively, are activated and polyhydroxybutyrate reserves are degraded for production of ME-3HB oligomers in bacteria infecting plant cells and exposed to hydroxyl radical stress. We found that ME-3HB oligomer production is widespread, especially in bacteria adapted to stressful environments. We discuss how ME-3HB oligomers could provide opportunities for numerous applications in human health.

Mycobacteria are hidden endophytes in the shoots of rock plant [Pogonatherum paniceum (Lam.) Hack.] (Poaceae).

A mycobacterium was isolated from micropropagated Pogonatherum paniceum and identified as a close relative of Mycobacterium cookii. The endophyte diversity in the shoots of potted and micropropagated P. paniceum plants was studied by culture-independent techniques. Group- and strain-specific PCR demonstrated that the P. paniceum plants harboured the isolated Mycobacterium strain as a minority. Altogether 101 clones of the PCR products were sequenced. The shoots of potted P. paniceum plants harboured unculturable endophytes in the families Phyllobacteriaceae, Hyphomicrobiaceae, Sphingobacteriaceae, Enterobacteriaceae, Alcaligenaceae and Mycobacteriaceae. Among the unculturable Mycobacteriaceae strains related to Mycobacterium chubuense, M. poriferae, M. obuense, M. fortuitum, M. neoaurum, M. diernhoferi, M. intracellulare and M. cookii were identified. Three unique sequences that clustered with M. llatzarense and M. mucogenicum were identified in micropropagated plants. According to the results, the shoots and micropropagated tissues of rock plant are inhabited by mycobacteria, which should stimulate further studies on the diversity of unculturable mycobacteria in edible crop plants.