这种分子的结构能在电子显微镜下观察到。
The structure of molecule can be seen under an electron microscope.
生物学家正在寻找构成我们基因的那些分子的结构。
Biologists are looking into the structure of the molecules that comprise our genes.
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.
结果表明纳米碳管的形态结构与碳源分子的结构有关。
The results shown that the morphology of carbon microstructure to be related to the structure of carbon source molecule.
文中简要地介绍了全碳分子的结构、性质及其衍生物分类。
The structures and some properties of all-carbon molecules were introduced briefly. The derivations of all-carbon molecules were classified.
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.
介绍了富勒烯碳分子的结构、性质、制备方法及其应用情况。
This paper describes the structure, properties and applications of fullerenes.
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.
水分子与金属离子在生物巨分子的结构或功能上扮演重要的角色。
Water and metal ions are important molecules that act structurally or functionally in macromolecules.
采用密度泛函理论对莱克多巴胺分子的结构和振动频率进行了模拟。
The structure and vibrational frequencies of Ractopamine molecule in the THz range were simulated by density functional theory.
本文从热力学的角度和磷酸分子的结构分别讨论了磷酸的非氧化性。
This article separately discusses the nonoxidizability of phosphoric acid form the thermodynamics point of view and phosphoric acid molecular structure.
对水合尿嘧啶分子中,尿嘧啶分子的结构和振动频率的改变做了讨论。
The structural and vibrational frequencies of Uracil in hydrated form is discussed.
研究结果能为乙酸-水分子的结构研究特别是氢键作用研究提供参考。
This research can provide references to studies of molecular association of acetic acid-water, especially studies of hydrogen bonds.
并指出,通过改进感光高分子的结构与组成,可以获得性质优良的抗蚀剂。
It points out the structure and component of photopolymer are improved which can obtain good performance of resist.
利用稳态荧光光谱和时间分辨荧光光谱研究了乙醇-水溶液中团簇分子的结构特点。
The fluorescent spectrum and the excitation spectrum were used to present the cluster molecular structure feature in ethanol-water solutions.
和H -O的径向分布函数分析表明层间水分子的结构和水中水分子的结构不同。
Radial distribution functions of na - o, o - o and H-O analysis illustrate that the molecular structure of interlayer water is different from the bulk solution.
二氯1,3 -二(3,5 -二甲基吡唑)丙烷合钯的合成及晶体和分子的结构。
Synthesis, Crystal and Molecular Structure of Dichloro 1, 3 Bis (3, 5 Dimethylpyrazolyl) Propane Palladium.
这些计算机模型不仅能够模拟分子的结构,而且还能模拟分子如何移动以及它们如何互相联动作用。
The models can simulate not just the structures of the molecules but also how they move and interact in relation to each other.
在其他方面,金属离子也可以稳定像蛋白质或核糖核酸等巨分子的结构,而使它们能够正常地作用。
In other cases, they can also stabilize the structure of macromolecules such as proteins or RNAs for normal function.
科学家已经搞清楚了这些分子的结构,时至今日,已经在小鼠和人身上发现了十几种Toll样受体。
Since then, scientists have identified a dozen more Toll-like receptors in mice and humans.
而弄清楚这些分子的结构有助于科学家们去研究那些由畸形蛋白质引起的疾病,并找出更好的药物靶点。
Figuring out such structures could help scientists learn more about diseases caused by malformed proteins and identify better drug targets.
利用磷脂自组装膜在分子水平上研究生物分子的结构和性能,在生物学和仿生学方面有重要研究意义。
Self-assembled lipid films provide new insights into the structure-function relationships of biomolecules at the molecular level. It has potential applications in biology and bionics.
在本章中,我们将更仔细地研究一下几个特别有趣的原子和分子的结构,看一看怎样使它们便于人类利用。
In this chapter, we shall take a closer look at the structure of a few particularly interesting atoms and molecules in order to see how they are fitted to the use man makes of them.
进入零地域那儿是两种你能运作的能源:声音和光,因为你的第三度空间的身体也是由光组成的分子的结构。
There are two energies that you can work with entering the null: sound and light, because your third-dimensional body is a molecular structure also composed of light.
随着电子计算机技术的飞速发展,密度泛涵理论(DFT)方法在研究分子的结构与性能方面的应用日益广泛。
With the rapid development of computer technology, Density Functional Theory (DFT) is widely used to research the molecule's structure and properties day by day.
的生物化学与分子生物学研究进展作了简要评述,包括酶分子的结构、酶的催化反应机制、酶基因表达与调控等。
Advances in biochemical and molecular biological studies, including enzyme structure, catalytic mechanism and gene expression and regulation of peroxidases are reviewed.
CD 1蛋白与MHC分子的结构非常相似,然而二者识别结合的抗原物质却在生化性质及物理结构上有本质的区别。
Although the structure of CD1 molecules is very similar to that of MHC molecules, there are essential differences in the biochemical character and physical structure of antigens recognized by them.
CD 1蛋白与MHC分子的结构非常相似,然而二者识别结合的抗原物质却在生化性质及物理结构上有本质的区别。
Although the structure of CD1 molecules is very similar to that of MHC molecules, there are essential differences in the biochemical character and physical structure of antigens recognized by them.
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