A total of 60 isolates of Fusarium were isolated from fruit rot of banana (Musa spp.), papaya (Carica papaya) and guava (Psidium guajava). The most common species recovered from the fruit rot of the three fruit crops were F. semitectum (40 %), F. solani (38.3 %), F. verticillioides (11.7 %) and F. oxysporum (10 %). Fusarium semitectum was isolated from fruit rot of banana, papaya and guava; F. oxysporum from banana and papaya; F. solani from banana and guava and F. verticillioides from banana. From pathogenicity tests, F. solani and F. semitectum were pathogenic to both banana and papaya and F. verticillioides to banana. F. oxysporum was not pathogenic to banana and papaya and F. semitectum was not pathogenic to guava. The results of the present study showed the presence of several Fusarium spp. on fruit rot of banana, papaya and guava and several species are found to be pathogenic causing fruit rot on their hosts.
Background Ethylene response factor (ERF) proteins play vital roles in plant resistance and plant development. However, little is known about the ERF transcription factors of Salvia miltiorrhiza, which is a famous Chinese herb with good resistance to stress. Result Screened from our previous transcriptome data, SmERF1, an ERF transcript factor, was isolated from S. miltiorrhiza. SmERF1 had a single AP domain and was classified in the ERF E3 subfamily. SmERF1-expressing tobacco plants showed slower growth, less biomass and a decrease in chlorophyll only at the seedling stage, and there was no significant difference in other growth stages. In addition, seeds of tobacco plants with SmERF1 expression were smaller and lighter than those of wild plants, similar to some AP2 TFs. Under NaCl treatment, transgenic tobacco lines showed better tolerance to salinity, and the proline content, SOD and POD activities of transgenic lines were higher than those of wild-type plants, while MDA content was lower than that of wild-type plants. Furthermore, we determined the phytohormones related to plant resistance and showed that transgenic tobacco plants had higher ABA levels and lower GA levels than wild tobacco. The expression of SmERF1 regulated the expression of key enzyme genes related to plant hormone biosynthesis, such as NtSDR, NtGA20ox, NtACO and NtACS. Conclusions The SmERF1-expression in tobacco affect plant growth at seedling stage, and increase plant tolerance to salt. And the expression of SmERF1 cause tobacco seeds smaller and lighter. Our study suggested that SmERF1 enhanced tobacco tolerance to salt and impacted seed size through an ABA-dependent pathway.
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