School of Chemical and Biomolecular Engineering;
清华大学化学工程系;
This is the webpage of Journal of Biomolecular NMR.
这是《生物分子核磁共振杂志》的网页。
This is the website of the School of Biotechnology and Biomolecular Science.
这是生物技术和生物分子科学学院网站。
It is an innovative piece of equipment for real-time study of biomolecular interaction.
这是一个即时研究生物分子互动作用的崭新设备。
The technique of biomolecular interaction analysis (BIA) can observe real time biomolecular interactions.
生物大分子相互作用分析(BIA)技术可以实时观察分子间相互作用。
Transverse Zeeman laser is the ideal light source of phase detection in biomolecular interaction based on SPR principle.
横向塞曼激光器是基于SPR原理的生物分子相互作用相位检测的理想光源。
Therefore the investigation on the photostability of cyanine dyes possesses the main significance in biomolecular analysis field.
因而研究染料光稳定性对染料在生物分析等领域具有重要的实际意义。
So, the SPR technology has become a leading technology in the field of direct real time observation of the biomolecular interactions.
SPR生化分析技术已成为直接实时观测生物分子间相互作用的主导技术。
The network target treats a disease-specific biomolecular network as a target to help design and predict the best possible treatments.
网络靶标概念指的是将病证生物分子网络当作靶标,由此设计和预测最佳的药物干预方式。
This data bank stores the references of articles from the expanding field of mathematical and computer analysis of biomolecular sequences.
此数据库收录的参考文章来自生物大分子序列的数学和计算机分析这一扩展中的领域。
Objective To observe the efficacy and the biomolecular changes of the serum levels in the acute cerebral infarction (ACI) treated with PSS.
目的:观察藻酸双酯钠(PSS)治疗急性脑梗死(aci)的临床疗效与相关血浆生物分子学的变化。
The following review gives the biomolecular bases, electrophysiological characters, physiological functions and regulate mechanisms of KIR.
综述了其分子学基础、电生理特性、生理功能和调控机理等研究进展。
The recently released platform from Biacore AB (Uppsala, Sweden), BIACORE J, is designed for the routine analysis of biomolecular interactions.
瑞典BIACORE 公司新近推出了用于生物分子间相互作用日常分析的新型号仪器,BIACOREJ。
Surface Plasmon Resonance (SPR) technology has been becoming a leading one for biomolecular interaction analysis because of its specific advantages.
表面等离子体谐振(SPR)技术由于独特的优点日渐成为生物分子相互作用分析的领导技术。
In this paper, some problems on algorithm and coding are studied within DNA computing, which is the most popular subfield of biomolecular computing.
本文探讨了生物计算中最受关注的DNA计算中的一些算法及编码问题。
Rare earth ions can be used as a kind of effective probe in biomolecular studies, and their biological effects have received increasingly attention nowadays.
稀土金属离子是一种研究生物大分子体系的有效探针,同时其自身的生物效应也越来越受到人们重视。
Weaponed with the existing results and discoveries in this area, the study of laser-biomolecular interaction would be the new direction for future researches.
借助这些成果和发现,对激光与生物单分子相互作用的机理进行讨论,将成为以后研究的一个新方向。
In this article, we briefly introduce the application of NMR spectroscopy in the studies of biomolecular structure and dynamics, alone with recently development.
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。
Biomolecular interaction analysis mass spectrometry(BIA/MS) is a very promising method applied in proteomics for the characterization of protein-protein interactions.
利用生物传感芯片质谱法(BIA/MS)对微球蛋白及其抗体的相互作用进行分析和鉴定。
Raman spectroscopy is a molecular vibrational spectroscopic technique that is capable of optically probing the biomolecular changes associated with diseased transformation.
拉曼光谱是一种分子振动光谱技术,具有分子水平的肿瘤检测和诊断能力。
In this paper, a simple biomolecular pushdown automaton is constructed with a finite automaton and a pushdown store firstly, and an algorithm is designed to solve a kind of languages.
文中首先通过在分子有限自动机上扩展一个分子下推存储器从而获得了一种简单的分子下推自动机,并基于该下推自动机提出了一类语言的分子自动机解法。
Ole Mouritsen of the University of Southern Denmark, author of yet another paper in this week's Flavour, says that umami and kokumi may simply be two sides of the same biomolecular coin.
南丹麦大学的奥利。莫里特森,本周《味道》期刊的另一位论文作者称,鲜味和厚味也许只是生物分子银币的两面。
Detecting and monitoring the vast number of biomolecular interactions in the cell is a central effort in biology, as these interactions largely govern the behavior of nearly all cell types.
生物学关键的任务就是探测和监测细胞中大数量的生物分子间的相互作用,因为这些相互作用在很大程度上控制着几乎所有细胞类型的行为。
Used in combination with a target-specific xenon biomolecular sensor, we should be able to study the gas-exchange in the lung and detect cancerous cells at their earliest stage of development.
联合使用靶向性氙生物大分子探测器,我们应该可以研究肺中的气体交换,探测最早阶段的癌细胞。
Due to the high parallelism and recognition ability of the biomolecules in biochemical reactions, biomolecular computing behaves great advantage in solving combinatorial optimization problems.
由于生物分子在化学反应中具有高度的并行性和识别能力,使生物分子计算在解决组合优化问题中显示出巨大的优势。
Soft Matter, and was co-authored by Dickey; NC State Celanese Professor of Chemical and Biomolecular Engineering Jan Genzer; NC State Ph.D. student Ying Liu; and NC State undergraduate Julie Boyles.
“高分子材料板局部吸收光从而自我折叠”论文十一月十日在杂志《软物质》上发表,由迪克,NC州立大学生化工程人造丝教授简•干渃;NC州立大学博士刘英;以及州立大学在校大学生朱丽叶•博伊尔斯合著。
This paper presents a review of fundamental ideas, computing methods, applications and advances in biomolecular computing. Furthermore, the developmental trend of biomolecular computing is described.
本文总结了生物分子计算的基本思想与计算方法、生物分子计算的应用与进展,并对生物分子计算的发展趋势作了评述。
In addition, the unique chemical, physical and biological properties of PNAs have been exploited to produce powerful biomolecular tools, antisense and antigene agents, molecular probes and biosensors.
此外,鉴于肽核酸独特的理化和生物学性能,人们正尝试将其用于生物分子工具、反义和反基因制剂、分子探针和生物传感器。
In addition, the unique chemical, physical and biological properties of PNAs have been exploited to produce powerful biomolecular tools, antisense and antigene agents, molecular probes and biosensors.
此外,鉴于肽核酸独特的理化和生物学性能,人们正尝试将其用于生物分子工具、反义和反基因制剂、分子探针和生物传感器。
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