沙冬青逆境胁迫分子生物学研究进展

逆境胁迫是影响植物生长发育的重要因素,植物的抗逆机理是分子生物学研究的重要领域。随着分子生物学技术的发展,有关植物抗逆方面的研究已取得了很大的进展,初步揭示了植物应对逆境胁迫适应性的分子机理。沙冬青是我国温带荒漠地区惟一的常绿灌木,具有很强的抗逆性,是开展植物逆境胁迫研究和抗逆基因筛选的理想材料。本文综合论述了抗逆植物沙冬青的抗逆机理及逆境胁迫相关基因的分子生物学研究进展,为植物抗逆基因工程发掘更多的基因资源和抗旱植物的抗逆性研究提供思路。     

Fluctuation as a tool of biological molecular machines

The mechanism for biological molecular machines is different from that of man-made ones. Recently single molecule measurements and other experiments have revealed unique operations where biological molecular machines exploit thermal fluctuation in response to small inputs of energy or signals to achieve their function. Understanding and applying this mechanism to engineering offers new artificial machine designs.     

The solution structure of Escherichia coli Wzb reveals a novel substrate recognition mechanism of prokaryotic low molecular weight protein-tyrosine phosphatases

Low molecular weight protein-tyrosine phosphatases (LMW-PTPs) are small enzymes that ubiquitously exist in various organisms and play important roles in many biological processes. In Escherichia coli, the LMW-PTP Wzb dephosphorylates the autokinase Wzc, and the Wzc/Wzb pair regulates colanic acid production. However, the substrate recognition mechanism of Wzb is still poorly understood thus far. To elucidate the molecular basis of the catalytic mechanism, we have determined the solution structure of Wzb at high resolution by NMR spectroscopy. The Wzb structure highly resembles that of the typical LMW-PTP fold, suggesting that Wzb may adopt a similar catalytic mechanism with other LMW-PTPs. Nevertheless, in comparison with eukaryotic LMW-PTPs, the absence of an aromatic amino acid at the bottom of the active site significantly alters the molecular surface and implicates Wzb may adopt a novel substrate recognition mechanism. Furthermore, a structure-based multiple sequence alignment suggests that a class of the prokaryotic LMW-PTPs may share a similar substrate recognition mechanism with Wzb. The current studies provide the structural basis for rational drug design against the pathogenic bacteria.     

牙齿发育不全的分子遗传学研究进展

牙齿发育不全是一类十分常见的人类颅面部发育异常.目前的研究表明,其病因与遗传因素、环境因素及后天因素都有关联.加之,牙齿发育的分子遗传学机制已然成为现代分子生物学的研究热点.本文就牙齿发育的简要过程、分子机制和牙齿发育不全的最新分子遗传学研究进展方面作一综述.     

Investigation of a potential mechanism for the inhibition of SmTGR by Auranofin and its implications for Plasmodium falciparum inhibition

Schistosoma mansoni and Plasmodium falciparum are pathogen parasites that spend part of their lives in the blood stream of the human host and are therefore heavily exposed to fluxes of toxic reactive oxygen species (ROS). SmTGR, an essential enzyme of the S. mansoni ROS detoxification machinery, is known to be inhibited by Auranofin although the inhibition mechanism has not been completely clarified. Auranofin also kills P. falciparum, even if its molecular targets are unknown. Here, we used computational and docking techniques to investigate the molecular mechanism of interaction between SmTGR and Auranofin. Furthermore, we took advantage of the homology relationship and of docking studies to assess if PfTR, the SmTGR malaria parasite homologue, can be a putative target for Auranofin. Our findings support a recently hypothesized molecular mechanism of inhibition for SmTGR and suggest that PfTR is indeed a possible and attractive drug target in P. falciparum.     

A simple model for the evolution of molecular codes driven by the interplay of accuracy, diversity and cost

Molecular codes translate information written in one type of molecule into another molecular language. We introduce a simple model that treats molecular codes as noisy information channels. An optimal code is a channel that conveys information accurately and efficiently while keeping down the impact of errors. The equipoise of the three conflicting needs, for minimal error load, minimal cost of resources and maximal diversity of vocabulary, defines the fitness of the code. The model suggests a mechanism for the emergence of a code when evolution varies the parameters that control this equipoise and the mapping between the two molecular languages becomes non-random. This mechanism is demonstrated by a simple toy model that is formally equivalent to a mean-field Ising magnet.     

结核分枝杆菌的耐药基因及其相关分子机制

结核分枝杆菌原发性和继发性耐药是当前控帝】和治疗结核病面临的重要问题,随着分子遗传学的发展,已经阐明了结核分枝杆菌耐药的分子基础是染色体的突变,影响了药靶本身或激活了药物前体的细菌酶,造成MTB的耐药。本文主要就MTB对其常用药物的耐药机制展开讨论,以便正确认识MTB对不同药物的耐药机制,建立快速检测耐药结核分枝杆菌基因型的分子生物学方法。     

我国食用菌遗传学的发展及展望

食用菌遗传学是食用菌学科体系的重要分支之一,40年来我国食用菌遗传学研究紧密围绕为育种服务、最新分子生物学技术的应用和生产实践中的科学问题的解决等主题开展了众多科学活动.为了促进食用菌遗传学研究的系统性和全面性,本文梳理出9个方面的研究主题,主要包括食用菌种质资源调查和地方品种研究、食用菌农艺性状控制基因定位和分子辅助...     

The persistence of long-term memory: a molecular approach to self-sustaining changes in learning-induced synaptic growth

Recent cellular and molecular studies of both implicit and explicit memory storage suggest that experience-dependent modulation of synaptic strength and structure is a fundamental mechanism by which these diverse forms of memory are encoded and stored. For both forms of memory storage, some type of synaptic growth is thought to represent the stable cellular change that maintains the long-term process. In this review, we discuss recent findings on the molecular events that underlie learning-related synaptic growth in Aplysia and discuss the possibility that an active, prion-based mechanism is important for the maintenance of the structural change and for the persistence of long-term memory.     

Dynamic loading of deformable porous media can induce active solute transport

Active solute transport mediated by molecular motors across porous membranes is a well-recognized mechanism for transport across the cell membrane. In contrast, active transport mediated by mechanical loading of porous media is a non-intuitive mechanism that has only been predicted recently from theory, but not yet observed experimentally. This study uses agarose hydrogel and dextran molecules as a model experimental system to explore this mechanism. Results show that dynamic loading can enhance the uptake of dextran by a factor greater than 15 over passive diffusion, for certain combinations of gel concentration and dextran molecular weight. Upon cessation of loading, the concentration reverts back to that achieved under passive diffusion. Thus, active solute transport in porous media can indeed be mediated by cyclical mechanical loading.     

基于DNA分子导线的纳米生物传感器

DNA分子导线具有独特的导电性能和塞贝克(Seebeck)效应,它是构筑电化学纳米生物传感器和热电偶生物传感器的理想材料。文章简要介绍了DNA分子导线的制备方法及导电机理,以及基于DNA分子导线的纳米生物传感器的分子识别机制,着重分析了基于DNA分子导线的纳米生物传感器的传感原理。文章还介绍了基于DNA分子导线的纳米生物传感器在基因分析、单碱基突变检测等方面的应用。     

肉类工业微生物诱变及应用研究进展

随着分子生物学、细胞生物学及分子遗传学等学科的迅猛发展,对微生物诱变分子机理的研究也日益完善。从微生物诱变分子机理出发,着重介绍了DNA损伤分子机理、基因突变分子机理和诱变剂的种类及遗传效应,同时,列举了诱变菌在肉类工业中的应用。     

铜绿微囊藻的分子研究进展

中国淡水湖泊、水库众多,富营养化问题严重。铜绿微囊藻是中国湖泊、水库及其他水域生态系统发生、形成富营养化危害的主要藻类。目前对铜绿微囊藻的研究主要集中在水华成因、生长的特点、作用机理等,对其生命活动相关的分子机制研究不多。该文主要从生物节律、毒素合成、藻胆蛋白合成及其调控机制和ATP合成酶等四个方面综述了铜绿微囊藻的分子研究进展,为今后进一步研究铜绿微囊藻的分子作用机理及其防治具有重要意义。     

Molecular oxygen as electron acceptor in the NADH-nitrate reductase system

This paper describes first experimental evidence that dissolved molecular oxygen acts as an electron acceptor in the NADH-nitrate reductase system. The molecular mechanism and possible physiological implications on the induction mechanism of nitrate reductase by nitrate ion are discussed.     

胶质瘤的分子靶向治疗

恶性胶质瘤是最常见的中枢神经系统肿瘤,随着对肿瘤分子机制理解的深入,分子靶向疗法渐成热点。这一新疗法能改善肿瘤患者的治疗效果,同时降低药物毒性,属于肿瘤的生物治疗范畴,其原理主要是针对在肿瘤发生发展过程中一些起关键作用的分子机制进行干预而达到抗肿瘤的目的。其有助于提高患者生存质量、延长生存时间,为攻克胶质瘤带来了希望。     

植物开花时间的遗传调控通路研究进展

开花时间对植物的繁殖成功至关重要。广泛分布的物种经常发生开花时间的分化, 从而能够更好地适应不同的环境条件。为了探索植物开花行为发生适应性分化的分子机制, 首先要明确调控开花行为的遗传通路。本文梳理了植物各类群调控开花时间的遗传通路, 以期为开花时间适应性分化的分子机制研究提供依据。 植物从营养生长向繁殖转变时, 其开花行为主要受到光照、温度、水分等外界环境因子和赤霉素等内在因素的影响。通过对模式植物拟南芥(Arabidopsis thaliana)和其他类群的研究, 总结出了调控植物开花时间的6条通路, 包括日照长度和光质影响开花的光依赖通路, 长时间冷暴露后促进植物开花的春化通路, 高温或低温环境影响开花的温度通路, 以及赤霉素通路、年龄通路和自主通路3条内部调节过程。植物开花时间调控的6条上游通路信号传递到下游的开花整合基因FT(FLOWERING LOCUS T)和SOC1(SUPPRESSOR OF OVEREXPRESSION OF CONSTANS 1), 整合基因将这些复杂的调节因子整合后进一步传递到下游花分生组织, 从而启动开花。此外, 非编码RNA、转座子对开花时间的调控也具有重要作用。部分遗传通路被证实在植物适应环境的过程中起到了重要作用。目前对植物开花调控的研究已经有一百多年历史, 理论相对成熟。然而, 仍然存在许多具有争议和未解决的问题, 如开花基因的表达方式、开花行为的特殊调控机制、开花时间变异的适应性意义等等, 需要更进一步的研究。