植物毒素为植物产生的能引起人和动物致病的有毒物质,给人类和环境造成很大危害。
Plant toxins are poisonous substances existing in plants which can cause illness to human and animal, also cause large harm to human and environment.
本文对已完成全基因组测序的16个植物病原细菌基因组进行序列分析,推测出基因组中的致病基因并对其进行了功能分类。
In this paper, 16 sequenced phytopathogenic bacteria complete genome were analysed, as a result the pathogenic genes were speculated and classified basic on their function analyse.
而且,不要把盖土在树或植物的底部位堆积得像火山口一样,那会导致病害或昆虫危害。
Also, do not build up mulch around the base of trees or plants like a volcano. This could lead to disease or insect damage.
本发明涉及用于保护植物对抗各种致病媒介例如真菌、病毒和细菌的组合物和方法。
The present invention relates to compositions and methods for protecting plants against various pathogenic agents such as fungi, viruses and bacteria.
现代分子生物学实验技术,为研究植物病原菌的致病机理提供了有效的手段。
Modern molecular biological techniques have provided effective means for the study of the mechanisms of bacterial pathogenicity for plants.
目前认为植原体的致病因子主要包括酶类、毒素、激素三大类,引起植物的病理变化或生理变态。
At present we think that the main pathogenic factors include the enzymes, toxins, hormones, which can cause pathological change and physiological change in the plants.
目前已有大量研究证实,利用植物与病原菌互作的相关基因、病原菌致病性的相关基因以及杀菌肽基因可以或有望提高植物对软腐病的抗性。
Genes involved in interactions among plants and pathogens, pathogenicity related genes, and the genes encoding bactericidal peptide, which have been studied in order to promote resistance to soft rot.
植原体是引起众多植物病害的一类重要的无细胞壁的原核致病菌,其寄主种类多、危害面积广,对经济、环境等影响严重。
Phytoplasmas are cell wall-less prokaryotic pathogens causing many plant diseases with various host plants, widely geographical distribution and adverse impacts on economics and environments.
本发明“植物种子携带细菌性黑斑病致病菌的快速检测方法”,涉及植物病菌生物检测。
The invention relates to a method for quickly detecting pathogenic bacteria carried by plant seeds of bacterial black rot, and relates to the biological detection of plant pathogenic bacteria.
植物与病原菌相互作用的过程中涉及了许多信号分子的识别与传导,对病原菌而言,这些信号分子很有可能就是与植物受体蛋白起作用的激发子和其它致病因子。
The interaction involves a complex process of signal recognition and transduction, at which the signal molecules from plant fungal pathogens may be recognized as elicitors or virulence factors.
植物与病原菌相互作用的过程中涉及了许多信号分子的识别与传导,对病原菌而言,这些信号分子很有可能就是与植物受体蛋白起作用的激发子和其它致病因子。
The interaction involves a complex process of signal recognition and transduction, at which the signal molecules from plant fungal pathogens may be recognized as elicitors or virulence factors.
应用推荐