具有多重碳-碳键的大分子的燃烧涉及到一系列更复杂的反应。
The combustion of larger molecules, which have multiple carbon-carbon bonds, involves a more complex series of reactions.
生物大分子的功能取决于它的空间结构。
The function of biomacromolecule is dependent on its space structure.
溶酶体也为膜所包绕,含有分解某些大分子的酶。
Lysosomes are also membrane bound and they contain the enzymes concerned with the breakdown of macromolecules.
氨基酸是蛋白质、酶等生物大分子的基本结构单元。
The amino acids are the basic structural units of biomacromolecules such as protein, enzyme.
木村资生的中性学说反映了生物大分子的部分规律。
这些多糖的抗补体活性可能和整个大分子的结构有关。
The anti-complementary activity of those polysaccharides seems that related to their whole moieties.
给出大分子的伸展网状结构是其稀溶液高粘度的结构本质。
This paper presents a detailed study on the relationship between structure and viscosity of solution.
本文综述了近年来所报道的多肽树枝状大分子的合成进展。
The synthesis of peptide dendrimers reported in recent years were briefly introduced in this review.
没有对生物大分子的结构与功能的认识,就没有分子生物学。
Not to biological macromolecule's structure and the function understanding, does not have the molecular biology.
大分子的输运物质流决定于其分子量、密度、分子尺寸和形状。
The mass flux of macromolecules ia solution depends on molecular weight, polymer density, molecular size and shape.
生物大分子的结构与功能的研究是了解分子水平的先象的基础。
Biological macromolecule's structure and the function research is understands the molecular level the first alike foundation.
含不同分支官能团树枝状大分子的合成是目前研究的一个热点。
Synthesis research of dendrimers containing different branches is becoming a hot point recently.
为大脑提供补给的毛细血管里紧密排列着相连的细胞,以防止大分子的进入。
The capillaries that feed the brain are lined with tightly bound cells, which keep out large molecules.
烯烃主要是来自石油气或大分子的碳氢化合物裂解,如乙烯,丙烯。
The olefins, such as ethylene and propylene, are formed from petroleum gas or from cracking of larger hydrocarbons. Ethylene is used to make polyethylene e.g.
目前已知的部分生物大分子的介电常数基本都是由实验加以测定的。
The dielectric constants of some biological molecules were known basically only with measurement of experiments.
例如,“裂解”在催化剂和加热下,将大分子的碳氢化合物破坏成小的。
For example, "cracking" involves breaking larger hydrocarbons into smaller ones with either heat or catalysts.
测定了龙眼胚性愈伤组织体胚发生过程中若干生物大分子的动态变化。
The dynamic changes of some biomacromolecules were measured in the process of somatic embryogenesis from embryogenic callus in longan(Dimocarpus longan Lour. ).
通过对一些较大分子的计算,考察了几种因素对分区计算精度的影响。
The effect of several factors on the calculation accuracy was studied through the calculation of several relatively larger molecules.
生物小分子是生物大分子的基本组成单元,也是生命活动的重要参与者。
Small biological molecules are basic elements of large biological molecules, and also the important participants in the activities of life.
量子点与生物大分子的连接方式主要有共价耦联结合和静电吸附作用两种。
The two main methods of the connection between QDs and biological molecules are covalent coupling and electrostatic adsorption.
一般情况下,只有知道生物大分子的原子水平结构才能更好地了解其功能。
In general, only with a good understanding of the structure of the macromolecular complexes at atomic resolution level, can its function be better understood.
研究了恩施双河产玉米中硒的赋存形态、分布及含硒大分子的提取分离技术。
Study the combined forms and distribution of selenium, the extraction and separation technology of macromolecule containing selenium in corn of Shuanghe of Enshi city.
用条纹相机测定了血卟琳、核黄素有机生物大分子的激发单态s_1的寿命。
The lifetimes of the excited singlet states S1 of the organic biological macromolecules haematoporphyrin and lactoflavin were measured with streak camera.
结果表明:沸石能有效地去除大分子的有机物,对小分子有机物的去除效果很差。
The results demonstrated that the zeolite could be effective for removing higher molecular weight (MW) organics but less effective at lower one.
研究了湖北恩施所购买的荸荠中硒的赋存形态、分布及含硒大分子的提取分离技术。
Study the combined forms and distribution of selenium, the extraction and separation technology of macromolecule containing selenium in corn of Shuanghe of Enshi city.
研究了湖北恩施所购买的荸荠中硒的赋存形态、分布及含硒大分子的提取分离技术。
To study the combined forms and distribution of selenium, the extraction and separation technology of macromolecule containing selenium in Scrophularia ningpoensis hemsl picked from Badong.
通过介绍高静压力作用于生物大分子的机制,推出一些有关高压力生物学的基本概念。
The goal of this mini review is to explain how hydrostatic pressure acts on bio macromolecules(mainly on protein), giving some basic knowledge.
综合分析用各种方法得到的信息才能更好地认识沥青质这类复杂有机大分子的化学结构。
To understand better the complex chemical structure of asphaltenes, information obtained by various analytical methods should be combined.
综合分析用各种方法得到的信息才能更好地认识沥青质这类复杂有机大分子的化学结构。
To understand better the complex chemical structure of asphaltenes, information obtained by various analytical methods should be combined.
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