Abstract
The viable but nonculturable (VBNC) state is induced in the bacterial wilt pathogen Ralstonia solanacearum under prolonged environmental stress. These VBNC cells lose their ability to grow on standard media such as CPG agar, but some of the cells can recover this ability on media supplemented with sodium pyruvate (SP), that degrades hydrogen peroxide. Recently, we suggested that some of the cells in the low-temperature-induced SP-recoverable VBNC state regained their ability to grow on CPG agar after exposure to moderate temperature. These revived cells also retained their virulence on tomato. Although R. solanacearum is detectable on semiselective media, VBNC cells are not detectable on any known semiselective media for the pathogen. To create a suitable medium to detect VBNC cells, we therefore added various compounds that can either degrade hydrogen peroxide or serve an antioxidant function in a semiselective medium, modified SMSA. SP at 5 g/l most improved the sensitivity of R. solanacearum detection. Furthermore, counts on modified SMSA plates for R. solanacearum that had been added to field soil also increased after the addition of 5 g/l SP. SP thus improved the medium’s sensitivity for the detection of R. solanacearum by rescuing a portion of the VBNC cells.
Published Version
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