MOLECULAR STRATEGIES FOR ENGINEERING RESISTANCE TO POTATO VIRUSES

L. Kawchuk, D. Prüfer
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引用次数: 12

Abstract

An increasing number of molecular strategies are available for engineering virus resistance in potatoes (Solatium tuberosum ssp. tuberosum L.) using pathogen-derived or other virus-inhibiting nucleic acid sequences and proteins. Virus resistance has been developed in transgenic plants expressing virus coat proteins, movement proteins, replicases, untranslatable sense or antisense RNAs, proteases, defective interfering RNAs, and satellites. Expression of ribozymes, a double-stranded RNA-specific ribonuclease, antiviral proteins, a plant pathogen resistance gene, and plantibodies has also provided virus resistance. Transgenic plants resistant to several viruses have already been approved by regulatory agencies for commercial release and virus-resistant potato varieties promise to improve yield and quality. Plant protection ranges from being specific against closely related strains of the virus to broad-spectrum resistance that extends to other virus groups. Progress has also been made in combining several s...
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马铃薯病毒工程抗性的分子策略
越来越多的分子策略可用于马铃薯(Solatium tuberosum ssp)的病毒抗性工程。结核菌(tuberosum L.)利用病原体衍生的或其他抑制病毒的核酸序列和蛋白质。在表达病毒外壳蛋白、运动蛋白、复制酶、不可翻译的正义或反义rna、蛋白酶、有缺陷的干扰rna和卫星蛋白的转基因植物中,已经发展出病毒抗性。核酶、双链rna特异性核糖核酸酶、抗病毒蛋白、植物病原体抗性基因和植物抗体的表达也提供了病毒抗性。对几种病毒具有抗性的转基因植物已经获得监管机构的商业释放批准,而抗病马铃薯品种有望提高产量和质量。植物保护的范围从对密切相关的病毒株的特异性到扩展到对其他病毒群的广谱抗性。在结合几个方面也取得了进展。
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