Using U. V. C Ray for Inducing Resistance Against Tobacco mosaic virus

H. Ali, Nihal Mohammed
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Abstract

The research discusses the use of flashes of ultraviolet-C rays in inducing resistance against viral pathogens and the possibility of its employment in covered houses or garden nurseries. A number of tomato and tobacco plants of type Nicotiana tabacum , uder protected cultivation conditions, were exposed to UV-C rays at wavelengths 200-280 nm using an electronic LED lamp, for 5 and 10 minutes, all plants were inoculated 48 hours after the last exposure to UV rays. The number and size of local lesions were calculated on the leaves of inoculated tobacco plants, as well as monitoring the development of symptoms on tomato plants inoculated with the virus for 12 days of inoculation, and the virus concentration was estimated based on the amount of absorbance at 405 nm by ELISA test. The results indicated that the ultraviolet rays used enhanced the plant's resistance to viral infection through a noticeable increase in the enzyme peroxidase, as it reached (59220 nanometers) in the treated plants compared to the untreated plants that were (28,016 nanometers). The irradiation for the first five minutes had a higher effect than the longer irradiation that lasted for ten minutes, in addition to that the irradiation for intermittent periods and for a short period was better than the continuous exposure for one time. It was found that the leaves far from the radiation exposure area acquired an inducible character of resistance against the pathogen.
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uv - C射线诱导烟草花叶病毒抗性研究
该研究讨论了使用紫外线- c射线闪光诱导对病毒病原体的抗性,以及在有盖房屋或花园苗圃中使用的可能性。在保护栽培条件下,利用电子LED灯照射200 ~ 280 nm波长的UV- c射线,照射5 min和10 min,在最后一次紫外线照射48 h后接种。计算接种后烟草植株叶片局部病变的数量和大小,监测接种12 d后番茄植株的症状发展情况,并通过ELISA检测405 nm处吸光度估算病毒浓度。结果表明,紫外线照射使植物的过氧化物酶含量显著增加,达到59220纳米,而未经紫外线照射的植物的过氧化物酶含量为28016纳米,从而增强了植物对病毒感染的抵抗力。前5分钟的照射效果高于持续10分钟的较长时间照射,间歇和短时间照射效果优于一次连续照射。结果表明,远离辐射暴露区域的叶片对病原菌具有诱导抗性。
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