随着分子生物学及其相关技术的飞速发展,人们对植物与病原微生物相互作用的分子机制了解得越来越透彻。
As the development of molecular biology and relative techniques, the molecular mechanism of the interaction of plant and its pathogen is becoming more and more clear.
试验结果表明在水稻-土壤-微生物相互作用的体系中,土壤微生物量和酶活性明显受到水稻生长发育的影响。
It was suggested that soil biochemical characteristics was affected significantly by rice growth in the interaction system of the rice, soil and microorganisms.
根据活性生物膜扩张原理,建立了硝化生物膜中微生物相互作用的非稳态解析数学模型,并可预测生物膜厚度的变化与微生物菌群的空间分布。
Based on the principle of active biofilm expansion , a non-steady state analytic mathematical model of microbial interactions in nitrifying biofilm was developed.
现在我们感兴趣的是,这些微生物的相互作用如何随时间发生变化,以及它们是否可以用于追踪一个人的活动。
Now we're interested in seeing how these microbial interactions change over time, and whether they could be used to track an individual's movements.
通过与高浓度臭氧微生物的相互作用涉及到的细菌和病毒消除其造成的破坏氧化膜胶囊。
Through interaction of microorganisms with high ozone concentrations it comes to elimination of both bacteria and viruses resulted from oxidative destruction of their capsulated membrane.
以水生植物为主体的水污染控制技术,利用植物及其微生物与环境之间的相互作用,通过分解、吸收或吸附作用,使水污染得到有效控制。
As a principal technique of water pollution control, aquatic plants make water pollution control effectively by decomposition, absorption, and adsorption among plants, microbes and environment.
土壤微生物与植物的根系形成一个稳定的动态系统,在这个系统中它们之间相互作用,相互影响。
Soil microbes and plant root systems together form a stable dynamic system, where they interact with each other.
作为研究木质素降解系统的模式微生物黄孢原毛平革菌,迄今还没有蛋白-蛋白相互作用方面的报道。
There has been no report on protein-protein interaction in Phanerochaete chrysosporium, a model microorganism for studying lignin degradation.
感染性疾病是病原微生物和宿主紧密相互作用的结果。
The infectious disease is result of an intimate interaction between pathogen and host.
研究微生物与矿物的相互作用,能够为矿物的风化机理和生物矿化提供一定的理论依据。
The Research of interaction between minerals and microbes can provide theory evidence to weathering mechanism and biomineralization.
矿物-水-微生物体系在分子级别上之相互作用的定量研究,对于理解低温地球化学和生物地球化学过程将是重要的。
Quantitative study of the interactions in the system of mineral-water-micro be at the molecular level will be important for understanding low-temperature geochemical and biogeochemical processes.
矿物-水-微生物体系在分子级别上之相互作用的定量研究,对于理解低温地球化学和生物地球化学过程将是重要的。
Quantitative study of the interactions in the system of mineral-water-micro be at the molecular level will be important for understanding low-temperature geochemical and biogeochemical processes.
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