Background Banana bunchy top virus (BBTV) is a destructive viral disease in many countries including Egypt; it causes severe economic losses in banana crop. Recently, nanotechnology was used to generate resistance against plant viruses. The main purpose of this study was to use silver nanoparticles (AgNPs) as antiviral agents against BBTV. In this research, three different concentrations of AgNPs (40, 50 and 60 ppm) were applied by foliar spray post-BBTV inoculation. In addition, photopigments, oxidative enzymes, proline and phenolic compounds were determined. Besides, Random amplified polymorphic DNA (RAPD) and Sequence-related amplified polymorphism (SRAP) markers were used to evaluate the genotoxicity of AgNPs as antiviral factors against BBTV, compared with the control plants. Results In the current study, it was observed that banana plants infected with BBTV and treated with 50 ppm AgNPs have not shown any external symptoms where the rate of infection was 36%. On the other hand, banana plants treated with 50 ppm AgNPs after viral infection gave a significant increase in dry weight and leaf area, compared with BBTV infected banana plants (viral control). Our study showed that 50 ppm AgNPs treatment post-virus inoculation induced non-significantly and significant changes in chlorophyll (a and b) and carotenoids, respectively, compared with healthy and nano-controls. In contrast, phenol, proline and oxidative enzymes were significantly increased in all plants treated with 50 ppm AgNPs post-virus inoculation, compared with the healthy control. Our findings observed that the banana plants sprayed with 50 ppm AgNPs after BBTV infection induced a few changes at the genomic DNA level in the banana plants, whereas both RAPD and SRAP markers scored nearly the same polymorphism 36.99 and 37.5%, respectively. So, genotoxicity induced by banana plants treated with 50 ppm AgNPs post-BBTV inoculation was low. Conclusions It is evident from the study results the role of AgNPs as a novel, safe and effective antiviral agent against BBTV. These results should be taken into consideration in future for the use of AgNPs for plant viruses management.
Squash or cucurbit (Cucurbita pepo) is one of the famous and important vegetable plants in most world countries. The squash is infected by the critical Zucchini yellow mosaic virus (ZYMV) in Egypt. Though pesticides can protect the plants of pest infections, there are no effective compounds that can be applied as virucides. In this work, the effects of aqueous extracts from Jasmina montana and Artemisia herba-alba on ZYMV infection in the squash plants were examined. In addition, SDS-PAGE protein patterns and enzyme activities were evaluated and induction of resistance by plant elicitors against ZYMV was studied The results observed that using of the aqueous extracts from A. herba-alba or J. montana extracts prior to ZYMV inoculation recorded 100% inhibition of virus infection. Also, complete inhibition was obtained by treatment of A. herba-alba extract with the virus inoculum led to destroy the virus particles due to presence of the effective compounds (terpens, phenolics and the essential oils) in the plant extract. SDS-PAGE protein profiles and enzyme activities were studied in treated and untreated plants. Genomic DNA variation was studied using random amplified polymorphic DNA (RAPD) and Inter-simple sequence repeat (ISSR) loci. The alterations in RAPD and ISSR assays of representative squash plants can be applied to comprehend of induced systemic resistance. These inducers stimulated resistance in the squash plants. Therefore, elicitors should be taken into consideration in the breeding programs for ZYMV control.
The current study aimed to study the effect of foliar application of nano-NPK fertilizer to one-year-old Fig trees (cv. Black Mission) in terms of tree growth performance as well as on soil microbial activity. The investigated concentrations of nano-NPK were 100, 200, 300, 400 and 500 ppm in addition to the control treatment applied for two seasons. The obtained results for both seasons indicated that all concentrations of nano-fertilizers significantly improved parameters of vegetative growth and soil health compared to the control group. However, the highest values for leaf wet and dry weight, leaf area, and leaf water content were recorded as a result of foliar fertilization at a concentration of 300 ppm. While 400 and 500 ppm nano-NPK gave the highest values for the contents of N, P, K, Ca, Mg and chlorophyll in the leaves. On the other hand, the highest bacterial activity was found in Fig’s rhizosp here subjected to foliar application with nano-NPK at concentrations of 300, 400 and 500 ppm. In addition, the highest POX and PPO isozyme activities were scored in 200 and 300 ppm. In general, foliar fertilization with nano-NPK can be recommended as it enhances vegetative growth, leaf chlorophyll and mineral contents without negative impact on soil microbial activity.
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