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.
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.
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.
在过去的三十年里,由于计算机的应用,我们才得以了解各种蛋白质及其它具有重大生物意义的大分子的结构和功能。
In the past thirty years with the use of the computer we have been able to elucidate the structure and function of many proteins and other macromolecules of biological importance.
可能是原子之间的无序碰撞产生了大分子,这些大分子能复制自己并聚集成更加复杂的结构。
It may be that random collisions between atoms built up macromolecules that could reproduce themselves and assemble themselves into more complicated structures.
通过这些研究,有利于进一步加深对生物大分子结构和功能的认识。
Through these studies, it helps us to enhance the understanding of the structure and function of biopolymers.
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.
从理论和实验两个方面研究了煤的各向电异性与煤大分子结构间的关系。
Relationships between the electrical anisotropy of coal and coal macromolecular structure were studied theoretically along with several experiments.
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.
本文介绍了核磁共振技术在生物大分子结构与动力学研究中的常用技术及新近的进展。
In this article, we briefly introduce the application of NMR spectroscopy in the studies of biomolecular structure and dynamics, alone with recently development.
如同生物体中的其它大分子一样,RNA的功能取决于它们的结构。
Like other biopolymers, the functions of RNA are dependent upon their structures.
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.
大分子一种很大的分子,如聚合物或蛋白质,由许多小的结构单位结合而成。
A very large molecule, such as a polymer or protein, consisting of many smaller structural units linked together.
评述了关于煤大分子结构和煤大分子堆垛结构研究的最新进展。
The latest advance in the study of the macromolecular structure and macromolecules stacking structure of coals were reviewed.
干酪根大分子结构的分子筛作用,是产生“蓝移”现象的直接原因;
The molecular sieve effect of the kerogen's big molecule wet structure is a direct reason.
电子显微学是结构生物学的重要分支,已经成为一种公认的研究生物大分子、超分子复合体及亚细胞结构的有力手段。
Electron microscopy is an important tool in structural biology and can be used to elucidating the structures of macromolecular complexes and assemblies, subcellular organelles and cells.
综述了新型功能液晶聚酯材料的大分子链结构、液晶相变温度与应用前景。
The macromolecular structures, liquid crystalline phase transition temperatures and practical applicability of new kind of functional liquid crystalline polyesters were reviewed.
它的研究内容包括生物大分子三维结构的测定以及与生物大分子发挥生物功能相伴随的动态的结构变化。
Structural biology, which has been the backbone of molecular biology, clarifies life based on the study of the structures, movements and interactions of biomacromolecules.
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.
提出了在质子辐照作用下硅橡胶大分子网状结构的破坏模型。
Furthermore the damage network model of silicone rubber macromolecule is mentioned with proton radiation.
DNA是重要的生物大分子聚合物,近年来DNA和其它一些生物聚合物的结构和弹性性质已经成为研究的热门课题之一。
DNA is an important biopolymer. In recent years, the configurations and elastic property of DNA and other biopolymers have been one of the pop researching topics.
实验得出,羊毛溶解后得到的角朊膜在分子结构上变化不大,但其无序结构明显, 大分子构象形式发生了变化。
The results indicate that the arrangement of the keratin large molecules in keratin films are constant, but its form has been changed.
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.
说明含硅铝酸钠溶液中存在大分子的胶性基团,属于无机高分子溶液,这种网络状“大分子”结构是硅铝酸钠溶液稳定的原因。
It has been proved that colloid units belong inorganic high polymer solution. The structure of network high polymer is why silicon dioxide containing sodium aluminate solution is stable.
复合分子筛的聚集体结构不利于大分子进入分子筛结构中进行裂化,有利于汽油组分的裂化。
The agglomerated structure of the composite zeolite was in favor of gasoline cracking, and prevented the larger hydrocarbon molecular component from entering into it and cracking.
化学家在生物体系自集现象的启示下,用各种类型的相互作用去创造整齐排列的大分子,用于构筑纳米结构的材料。
Under the inspiration of self assembly in biology, chemists are now making use of weak interaction between different moleculars to get well arrayed supramolecular to construct nano-structure.
多孔材料以其独特的孔结构和表面性能,在大分子催化、吸附与分离、纳米材料组装及生物化学等众多领域具有广泛的应用前景。
Porous materials have potential applications in catalysis, adsorption, separation, ion exchange and chemical sensing fields because of their unique porous structures and surface performances.
多孔材料以其独特的孔结构和表面性能,在大分子催化、吸附与分离、纳米材料组装及生物化学等众多领域具有广泛的应用前景。
Porous materials have potential applications in catalysis, adsorption, separation, ion exchange and chemical sensing fields because of their unique porous structures and surface performances.
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