2e) Taken together, these results suggested that one possible me

2e). Taken together, these results suggested that one possible mechanism of Trichokonin-induced resistance against TMV is the induction of early plant defense reactions. To find out the mechanism involved in Trichokonin-induced resistance against TMV in tobacco, the activities of PAL, POD and SP600125 PPO were analyzed. These PR enzymes play key roles in tobacco resistance against TMV (Chen et al., 2009). As shown in Fig. 3a and b, the activities

of PAL and POD increased after Trichokonin treatment. On the fourth day of treatment, both PAL and POD reached their maximum activity, with the peak values of 8.4-fold (PAL) and 5.2-fold (POD) higher than in the control plants, respectively. After a 4-day treatment, the activities of these two enzymes began to decrease and showed a drastic decrease after a 5-day treatment. PPO activity showed a slight increase during a 6-day treatment with Trichokonins (Fig. 3c). Apparently, Trichokonin treatment could differentially influence the activities of PR enzymes. To gain further insight into the mechanism involved in Trichokonin-induced resistance against TMV, the transcription levels of selected plant defense genes were analyzed. As shown in Fig. 4, seven genes involved

Seliciclib in plant defense response were studied. A gene expression level that upregulated >1.5-fold (P<0.05) was considered a significant difference between control and Trichokonin treatment. SOD, CAT, APX and POX are known to be associated with the reactive oxygen intermediate (ROI)-mediated signaling pathway (Baker et al., 1997). Trichokonin treatment led to about 1.8-fold upregulation of SOD and CAT, 2.5-fold

of APX and 2.3-fold of POX genes, compared with the controls (Fig. 4a). Trichokonin treatment also upregulated the expressions of NtPR1a, a marker gene of the SA-mediated defense pathway (1.9-fold) (Fig. 4b). The expression of NtPR3, a marker of the ethylene-mediated defense pathway, was increased by 1.9-fold, 9 h after Trichokonin treatment (Fig. 4b). NtCOI1, required for JA response in tobacco, was also induced by Trichokonin treatment, the expression of which RVX-208 was increased by 1.8-fold after a 6-h treatment. These results suggested the involvement of multiple defense pathways in Trichokonins-induced tobacco resistance against TMV. Several peptaibols isolated from Trichoderma spp. have been reported to have antimicrobial activity against Gram-positive bacterial and fungal phytopathogens (Daniel & Filho, 2007). Peptaivirins A and B from Sepedonium spp. are the only two peptaibols known to have antiviral activity against TMV, with an inhibitory effect of 74% and 79%, respectively, at concentration of 10 μg mL−1 (Yun et al., 2000). The Trichokonins isolated from T. pseudokoningii SMF2 have been shown to exhibit antimicrobial activity against a range of Gram-positive bacterial and fungal phytopathogens with a concentration of 20 μg mL−1in vitro (Song et al., 2006).

Leave a Reply

Your email address will not be published. Required fields are marked *

*

You may use these HTML tags and attributes: <a href="" title=""> <abbr title=""> <acronym title=""> <b> <blockquote cite=""> <cite> <code> <del datetime=""> <em> <i> <q cite=""> <strike> <strong>