| 1. | Interactions between small inorganic molecules and biological macromolecules in cell
无机小分子与细胞中生物大分子的相互作用 |
| 2. | " for the development of methods for identification and structure analyses of biological macromolecules
发展了生物宏观形态的鉴别和结构分析方法 |
| 3. | 2 . it also suggests that the synthesized peptide can be applied to be a special biological macromolecule vector
而且共育时间为5min组与共育时间为15min组,此合成肽在细胞中的含量差别不显著。 |
| 4. | General - purpose development platform for virtual reality and its applications to visualization of three - dimensional structure of biological macromolecule
通用虚拟现实软件开发平台的研究及其应用 |
| 5. | " for his development of nuclear magnetic resonance spectroscopy for determining the three - dimensional structure of biological macromolecules in solution
测定生物大分子在溶液中的三维结构中,引入了核磁共振光谱学 |
| 6. | In this paper , the crystallization process of biological macromolecules was presented , and the mechanisms and kinetics of crystallization were analyzed
摘要阐述了生物大分子结晶的一般过程,分析了结晶的机制和动力学。 |
| 7. | The results showed that for biological macromolecules ( for example collagen ) the best images could be gained when the substrate was mica dealt with mgcl2
结果发现,对于生物大分子(如胶原蛋白) ,使用经mgcl2处理后的云母做基底,成像效果最好。 |
| 8. | As a research object , it is possible to understand the chemical nature of some biological occurrences if the interactions between inorganic molecules and biological macromolecules in cell are studied
以细胞为研究对象,开展无机小分子与大分子相互作用的研究,有可能真正理解生命过程中一些问题的化学本质。 |
| 9. | Cardenas , g . , orlando , p . , edelio , t . , " synthesis and applications of chitosan mercaptanes as heavy metal retention agent " , international journal of biological macromolecules , vol . 28 , pp . 167 - 174 , ( 2001 )
徐薇如, "几丁聚醣/藻酸钙生物高分子对重金属吸附行为之研究" ,国立交通大学应用化学研究所硕士论文, ( 2000 ) |
| 10. | Abstract : this paper is an attempt to reviewbriefly the following fourresearch trends in plant physiology at the turn of century : from research on biological macromolecules to clarification of complex life activities - genomics , construction and function of gene ; a key link in achieving integrated life activity - signal transduction ; the energy and material basis of life activity metabolism and its control ; the interrelationship between plant and environment ( both biological and abiological ) - biological coevolution and adaptability
文摘:简要介绍了当今植物生理学研究中值得注意的四个动向,它们是:从研究生物大分子到阐明复杂生命活动? ?基因组学、基因结构与功能的研究;实现生命整体性的重要环节? ?信号传递的研究;生命活动的能量和物质基础? ?代谢及其调节的研究;植物与环境(非生物和生物环境)的相互关系? ?生物的协同进化和适应的研究。 |
