植物生根的分子机理研究进展

随着无性系育种在农林业上的广泛应用,其生根难的问题显得尤为突出。通过查阅相关文献,本文探讨了影响植物根发育的分子机理。从植物激素,主要从生长素调控植物根发育的分子机理;细胞周期相关基因影响植物根发育和与细胞壁形成相关的基因影响植物根发育等方面叙述了目前关于植物根发育的研究进展。并提出了解决研究生根分子机理材料难选择问题的方法。     

植物MYB转录因子在花药发育中的调控作用

MYB转录因子作为最大的转录因子家族之一,参与植物的生长发育、胁迫反应、产物代谢等过程,在植物花的发育特别是花药发育过程中发挥着重要的调控作用。花药的发育在植物繁殖后代中起关键作用,文中就MYB转录因子在花药绒毡层发育、花药开裂、花粉发育、糖类物质和激素途径等方面对花药发育过程中的调控作用进行总结,以期为植物花药发育调控机制及调控网络的深入研究提供可行的参考。     

WOX转录因子在植物发育中的作用

WOX(WUSCHEL-related homeobox)转录因子与植物发育密切相关,包括植物胚胎发育和体胚发生、花和根发育、愈伤组织的形成和维持,以及干细胞维持等过程。越来越多的研究表明WOX在植物发育过程中扮演着极其重要的角色。WOX调控植物发育的机理研究在促进植物发育以及构建植物良好表型等研究提供了突破口。本文主要对WOX调控植物发育的相关研究进行综述,并结合表观遗传学调控,探讨了WOX调控植物发育的过程,以期为WOX转录因子调控植物的作用机制提供启示。     

活性氧调控植物生长发育的研究进展

活性氧(ROS)是植物有氧代谢过程中的副产物, 它在植物的许多生命过程中均具有有害和有利的双重功能。ROS对细胞的氧化损伤作用和信号转导诱导植物防卫反应已有详尽的研究。近年来, 越来越多的关于ROS调控植物生长发育的证据开始引起了人们的广泛关注。细胞的生长是植物发育的重要部分, ROS通过直接或间接调节细胞的生长来控制植物的发育, 成为植物发育的重要调节剂。该文综述了羟自由基(.OH)及其前体超氧阴离子自由基(O2^–. )和过氧化氢(H₂O₂)调控植物生长发育的研究进展, 包括ROS调控植物不同器官生长的证据和机理、ROS产生的途径及其检测方法, 同时对今后的研究进行了展望。     

中国植物分类及标本采集史简述

植物分类学是一门古老的科学,其发展也受到了社会历史变革的深刻影响。该文通过对我国植物分类学研究和发展史进行简要回顾,根据人们对植物分类学科的认识程度以及社会重大历史事件等,将我国植物分类的发展史大体分为原始、古代、近代和现代4个阶段,并对各阶段进行了简要说明。植物标本是植物分类研究最基本和最重要的凭证材料,因此我国的植物标本采集史也见证了植物采集人员在我国植物分类学研究发展的历史过程中所付出的血汗、泪水甚至生命。植物资源的保护和种质资源的收集和保存正日益成为我国生态文明建设的主要内容,在新时代生物多样性保护的背景下,植物分类学和植物分类研究人员将会发挥更重要的作用,为我国的生物多样性保护提供更加有力的支撑。     

结构植物学在中国的五十年发展

结构植物学由植物解剖学发展而来,是植物学的一个重要分支学科.本文根据其近代的发展,分别就植物发育解剖学向植物发育生物学的发展、植物比较解剖学向植物系统发育生物学的发展,以及环境生态结构植物学三个主要部分简要介绍了50年来在我国的发展,并对它们的发展趋势进行了预测.     

结构植物学在中国的五十年发展

结构植物学由植物解剖学发展而来 ,是植物学的一个重要分支学科。本文根据其近代的发展 ,分别就植物发育解剖学向植物发育生物学的发展、植物比较解剖学向植物系统发育生物学的发展 ,以及环境生态结构植物学三个主要部分简要介绍了 5 0年来在我国的发展 ,并对它们的发展趋势进行了预测     

Research Progress and Application of Plant Branching

Plant branching development plays an important role in plant morphogenesis (aboveground plant type), the number and angle of branches are important agronomic characters that determine crop plant type. Effective branches determine the number of panicles or pods of crops and then control the yield of crops. With the rapid development of plant genomics and molecular genetics, great progress has been made in the study of branching development. In recent years, a series of important branching-related genes have been validated from Arabidopsis thaliana, rice, pea, tomato and maize mutants. It is reviewed that plant branching development is controlled by genetic elements and plant hormones, such as auxin, cytokinin and lactones (or lactone derivatives), as well as by environment and genetic elements. Meanwhile, shoot architecture in crop breeding was discussed in order to provide theoretical basis for the study of crop branching regulation.     

Hydrolytic enzymes and their proteinaceous inhibitors in regulation of plant–pathogen interactions

This review considers the main groups of hydrolytic enzymes associated with plant pathogens, as well as proteinaceous inhibitors of these enzymes, acting as the components of plant defense system. The role of hydrolases is described in the development of a pathological process in plant tissues. Significance of hydrolase inhibitors in the development of plant resistance to pathogens is analyzed. It is proposed that specific interactions in the “host plant–pathogen” system, involving hydrolytic enzymes and their proteinaceous inhibitors, depend on the nutritional specialization of fungi.     

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。     

Strigolactones are regulators of root development

Strigolactones (SLs) have been defined as a new group of plant hormones or their derivatives that suppress lateral shoot branching. Recently, a new role for SLs was discovered, in the regulation of root development. Strigolactones were shown to alter root architecture and affect root-hair elongation. Here, I review the recent findings regarding the effects of SLs on root growth and development, and their association with changes in auxin flux. The networking between SLs and other plant hormones that regulate root development is also presented. Strigolactone regulation of plant development suggests that they are coordinators of shoot and root development and mediators of plant responses to environmental conditions.     

N-酰基高丝氨酸内酯调控植物生长发育的研究进展

植物与细菌之间存在着复杂的相互作用关系。N-酰基高丝氨酸内酯（AHLs）是革兰氏阴性细菌进行胞间通讯的信号分子,也是介导植物与细菌互作的重要信号分子,在调控植物生长发育方面起着重要作用。本文对近年来的相关研究进展作一综述,这将有助于全面了解植物与细菌间的信息交流机制,并对实际农业生产具有指导意义。     

Asymmetric cell division in plant development

Asymmetric cell division(ACD) is a fundamental process that generates new cell types during development in eukaryotic species.In plant development,post-embryonic organogenesis driven by ACD is universal and more important than in animals,in which organ pattern is preset during embryogenesis.Thus,plant development provides a powerful system to study molecular mechanisms underlying ACD.During the past decade,tremendous progress has been made in our understanding of the key components and mechanism...     

Plant tissue culture. Biotechnology. Milestones

Summary The progress in the development of the technologies of plant tissue and cell culture over the past four decades has been remarkable. This article covers my personal reflections on the various topics and is based on my involvement in the field during that period. There are three fundamental technologies which constitute most of what is referred to as plant in vitro technologies or tissue culture. The origin and some of the key persons involved in the development of each of these procedures will be discussed. The technology that is most common is growing plant tissue on gel-solidified nutrient media. That technology is being used in the most vital procedures, namely the regeneration of plants from cultured cells. The culture of plant cells in liquid suspension was developed very shortly after that, and has become a very effective technology for plant regeneration by somatic embryogenesis. The method of meristem culture arose out of a need for developing plants that were virus-free. In many species the technique is now being used to produce virus-free crop plants. Another important technology is the culture of anthers and microspores for producing haploid and homozygous plants. Included with plant tissue culture is the development of the plant protoplast and cell fusion technologies for the production of new plant hybrids. The final aspect of the development concerns the integration of tissue culture with molecular genetics, which has developed into the rapidly expanding field of biotechnology.     

植物抗旱基因工程研究进展

干旱、高温、低温、盐胁迫等是影响植物生存的主要逆境因子,它们均引起植物失水,导致细胞生理干旱,作者对植物抗旱的生物学原理及其基因工程研究进展进行了论述。     

脱落酸在植物体细胞胚胎发生中的调控作用

脱落酸是一种具有全面生理功能的植物激素,在植物体细胞胚胎发生发育过程中具有重要的作用。根据国内外最新的研究文献,从脱落酸对植物体细胞胚胎发生的影响、植物体细胞胚胎发生过程中内源脱落酸含量的变化、脱落酸对体细胞胚胎发生过程中基因表达、信号转导的调控和转基因的表达调控入手,概述了脱落酸在植物体细胞胚胎发生中的调控作用。     

中国植物发育生物学若干重要领域的研究回顾

植物发育是指从种子萌发经过营养生长、开花与花器官发育、受精结果形成新一代的有序过程.每一个时期具有复杂的代谢和基因表达与调控网络.过去的数10年中我国在该领域的研究取得了许多重要的进展,特别是近10年来发育生物学已经从以往的以描述为主要特征发展到在分子水平上阐明发育控制的机理.花器官的发育研究是发育生物学研究最具突破性的领域,开花和营养器官的发育已经成为新的研究热点.本文按照植物发育的时间顺序,回顾了我国发育生物学若干重要领域的重要研究进展,并展望了基因组时代给发育生物学研究带来的新的机遇和研究平台.