Two kinds of complementation plasmids, pMA5-purL and pUC18-purL,

Two kinds of complementation plasmids, pMA5-purL and pUC18-purL, were constructed for this purpose. The difference between the plasmids was that pMA5-purL is a multicopy shuttle expression vector and pUC18-purL is the suicide vector that can only be inserted between purQ and purF of M1. pMA5-purL and pUC18-purL were transformed into the M1 mutant, respectively, and transformants

confirmed by PCR and restriction enzyme digestion. The resulting M1-1 and M1-2 transformants were then separately tested for nematicidal activity. The mortality rates of M. javanica juveniles were 100% after a 12-h incubation in culture filtrates collected from either strain M1-1 or M1-2 (Fig. 2a). These rates were similar to those observed for the OKB105 wild-type strain, suggesting the purL gene of B. subtilis played a key role in Selleck Omipalisib mediating nematicidal activity. M1 was also chemically complemented, i.e. supernatants of M1 supplemented with adenine (12 μg mL−1) and thiamine (0.8 μg mL−1), or with AICA-riboside (4 mM) also resulted in 100% mortality of M. javanica juveniles at 12 h (Fig. 2b). In addition, to confirm whether the presence of the nematicidal

substances related to the purine biosynthesis, sulfamethoxazole or azaserine, which could interfere with the purine synthesis (Maegawa et al., 2002), was supplemented in Landy medium, respectively. Addition of sulfamethoxazole (250 μM) or azaserine (550 μM) in medium ERK inhibitors caused the nematicidal activity loss of OKB105 at 72 h. Landy culture medium alone supplemented with adenine and thiamine, with AICA-riboside, with sulfamethoxazole, or with azaserine had no effect on M. javanica viability at 72 h. Numerous studies have reported that bacterial culture filtrates possess nematicidal activity in vitro (Neipp & Becker, 1999; Tian & Riggs, 2000; Ali et al., 2002; Siddiqui & Shaukat, 2003; El-Nagdi & Youssef, 2004; Huang et al., 2005; Mendoza et al., 2008). Data presented in this report indicated that the bacterial

strains tested (OKB105, 69, B3, FZB42) had potential biological control activity against plant-parasitic nematodes. The purpose of this study was to identify B. subtilis nematicidal properties; strain OKB105 supernatants were shown to possess nematicidal activity against M. incognita, Meloidogyne arenaria and Meloidogyne hapla, similar to the activity observed against M. javanica, but had no effect on Rhabditis spp. at 72 h (data O-methylated flavonoid not shown). Several extracellular enzymes have been reported to show activity against plant-parasitic nematodes (Huang et al., 2005; Siddiqui et al., 2005; Niu et al., 2006; Tian et al., 2006). For example, 2,4-DAPG produced by P. fluorescens was used to control cyst and root-knot nematode juveniles (Cronin et al., 1997; Siddiqui & Shaukat, 2003). Oka et al. (1993) reported that ammonia and nitrite (toxic to second-stage M. javanica juveniles) could be identified from Bacillus cereus culture supernatants. Although a large number of studies have reported that B.

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