悬浮培养细胞系是植物生理生化研究的好材料之一。
Cell suspensions are valuable materials for plant physiology and biochemistry studies.
以果灰藓和丛本藓为材料,采用室内模拟培养、生理生化测定等实验手段,研究了铜胁迫对这两种苔藓植物生理生化特性的影响。
Experiment was carried out on influence of copper stress on physiological and biochemical characteristics of Hypnum fertile and Anoectangium aestivum by indoor simulated culture.
作者综述了重金属对植物毒害作用机制的研究现状,并着重介绍了重金属污染对植物生理生化特性的影响以及毒害作用的分子机理。
The studies in toxicity mechanism of heavy metals on plants were reviewed. Effects of heavy metal on plant physiological and biochemical properties and molecular mechanisms were introduced.
但阿维菌素在植物和土壤中的残留检测方法、降解动态、降解模型以及阿维菌素对植物生理生化影响等方面的相关研究工作报道很少。
But its residual detection method, degradation dynamics, degradation model in plant and soil and influence on the physiological and biochemical characters of plant were seldom reported.
植物对土壤水分条件的适应性反应既有微观层次上的生理和生化反应,也有器官、单株水平上的形态响应。
The responses of plant to soil water condition are showed both by physiological and bio chemical reactions in micro level and morphological acclimation in one organ and whole plant.
植物种子衰老是一个十分复杂的过程,是各种理化反应和生理生化反应的综合结果。
Plant seed aging is a complex process, it's a series of biochemical, physical and chemical reactions.
植物的抗寒生理生化的变化是通过低温改变基因表达而引发的,在抗寒中起作用的基因已经识别出来,并且已经了解这些基因的作用方式。
Plant biochemical or physiological changes were caused by genes expression change under cold condition, moreover, the genes had been identified and the means of the genes action had been revealed.
近来越来越多的研究表明,植物糖蛋白不仅对于植物本身具有其重要的生理生化功能,而且对于人体具有极大的利用价值。
Recently more and more researches have indicated that plant glycoproteins not only had important physiological and biochemical function to the plants, but also had a lot of benefits for human bodies.
综述了关于显花植物童性的生理机制,生理生化标记,童期调控和花诱导等方面的经典理论和最新研究进展。
The classic concepts and recent advances on the physiological mechanism, biological marker and the regulation of juvenility in flowering plant were reviewed.
叶片衰老过程中伴随着一系列有序事件的发生和复杂的生理生化变化,外施植物激素或内源激素水平极大地影响叶片的衰老进程。
Series physiological and biochemical reactions are accompanied with the course of leaf senescence, and these reactions are seriously affected by endogenous and exogenous hormone level in plant.
植物面对多变的缺水环境,如何来感知环境然后做出自身形态、生理生化等一系列反应。本文评述了缺水信号的感知、反应以及抗旱的方式及其抗旱的遗传学基础。
Plant faces water deficit and varied environment how to sense and adjust morphonals of water deficit, responses, types of drought resistance and genetic fundation of drought resistance in the paper.
就植物硫代葡萄糖苷的分布、生化特性、酶促水解产物的形成和生理活性等研究进展进行综述。
The distribution and biochemical property, glucosinolate breakdown products, and their biological effects are reviewed in this paper.
植物通过一系列光保护机制来抵御光氧化伤害,这些机制反映了植物在生理和生化以及形态结构等方面对强光环境的适应性。
However, series of photo-protective mechanisms can lessen or even eliminate photo-oxidation, reflecting the adaptation of plants to the high light intensity environments.
生物学:稍稍知道一些本科层次的生物学知识,包括生化、动植物生理学、微生物学、生态学、遗传学等。
Biology: I also know a little about biology at an undergraduate level, including biochemistry, physiology, microbiology, ecology, genetics, etc.
生物学:稍稍知道一些本科层次的生物学知识,包括生化、动植物生理学、微生物学、生态学、遗传学等。
Biology: I also know a little about biology at an undergraduate level, including biochemistry, physiology, microbiology, ecology, genetics, etc.
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