Tetrazolium reduction methods for assessment of substrate oxidation and strain differentiation among mycoplasmas, with particular reference to Mycoplasma bovigenitalium and some members of the Mycoplasma mycoides cluster.

AIMS: To apply a rapid nitroblue tetrazolium (NBT) reduction assay of substrate metabolism by mycoplasmas that would help to differentiate Mycoplasmas. METHODS AND RESULTS: Growth, substrate preferences and tetrazolium reduction were assessed for 18 strains of Mycoplasma bovigenitalium and Mycoplasma ovine serogroup 11. NBT reduction was detectable in 1 h with 10(8) CFU ml(-1). Use of alpha-ketobutyrate, lactate and pyruvate to support growth and NBT reduction were correlated: pyruvate was preferred and lactate was used by only four of the 18 strains. Selected members of the Mycoplasma mycoides cluster were also assessed and monotetrazoles tested as alternatives to NBT. The NBT method was applied to a further 19 species. CONCLUSIONS: This simple and reproducible method requires only small amounts of cells, enabling routine assessment of substrate use within 1 h, and the rapid assignment of numerous mycoplasmas to one of six physiological groups. The four physiological groups of M. bovigenitalium and Mycoplasma serogroup 11 strains were indistinguishable from each other, which supports the view that these belong to the same species. SIGNIFICANCE AND IMPACT OF THE STUDY: Strain-specific substrate-utilization patterns by mycoplasmas can be obtained rapidly and reliably. The method has potential as a large-scale semi-automated procedure to monitor numerous strains and substrates simultaneously.

Reduction of benzyl viologen distinguishes genera of the class Mollicutes.

We tested the ability of 62 growing strains belonging to the class Mollicutes to reduce the redox indicator and free-radical generator 1,1'-dibenzyl-4,4'-bipyridinium dichloride (benzyl viologen [BV]) to a blue-violet-purple color. BV was reduced by 12 Acholeplasma species but not by Acholeplasma multiforme PN525T (T = type strain). BV was also reduced by five of nine Mesoplasma species and by four of six Entomoplasma species. BV was not reduced by 19 Mycoplasma species, six Spiroplasma species, five unnamed Spiroplasma strains belonging to different serogroups, three Ureaplasma species, and one unnamed Ureaplasma strain. The BV-reducing ability was localized in the membrane of Acholeplasma laidlawii B-PG9 and was dependent on NADH. Reduction of BV could be expressed in mixed cultures, and this activity may be useful for recognizing the contaminating presence of an Acholeplasma species. The reductive BV response may have phylogenetic value. We believe that the test described in this paper readily distinguishes all Acholeplasma species and some Mesoplasma and Entomoplasma species from all Mycoplasma, Spiroplasma, and Ureaplasma species tested.