cDNA-AFLP技术在植物耐盐基因鉴定上的应用

cDNA-AFLP技术是近年来广泛应用于植物基因分离与表达研究的mRNA指纹图谱技术,在分离植物特异性基因等生物技术研究中发挥了巨大作用.在植物耐盐基因鉴定方面,该技术的应用处于新兴初始阶段,但已取得了诸多成效.本文在概述植物耐盐响应机制的基础上,着重对利用cDNA-AFLP技术鉴定的植物耐盐相关基因及其相应作用机制进行了阐述,并对其在植物耐盐分子生物学研究上的应用前景进行了展望.     

转座子标签法克隆分离植物基因的研究进展

转座子标签法是克隆与分离植物基因的一项十分有效的方法。概述了转座子标签技术克隆与分离植物基因的基本原理与方法 ,介绍了可用于转座子标签技术的转座子 ,对于转座子标签系统以及在克隆与分离异源植物基因方面的主要成就进行了综述 ,并对将来的研究方向进行了讨论。     

植物抗病基因工程的研究进展及前景展望

近年来,随着植物抗病基因(尤其是抗病毒基因)的分离,植物抗病机制的分子生物学和植物抗病基因工程的研究轰轰烈烈地展开并取得重大突破。本文针对植物抗病基因工程的原理、抗病基因、转化方法等方面的进展进行了综述,并对抗病基因工程的应用前景做了展望。     

林木抗病基因定位研究现状及策略

提高植物抗病性是植物育种的重要目标之一,传统的抗病育种研究是十分复杂和费时的,如能分离和克隆抗病基因,在分子水平上对抗病基因进行操作并加以利用,则能大大加速抗病育种的进程。近年来,在鉴定和分离抗病基因方面取得了重大进展,对某些抗病基因进行操作已进入实...     

植物矮化相关基因研究进展

矮化植株株型紧凑,冠幅小,抗倒伏,且生产管理方便,丰产性能好,矮化育种是植物育种的发展趋势。国内外学者对植物矮化的机理、矮化基因、矮化育种等进行了比较深入的研究。我们对植物矮化的遗传特点、分子标记在矮化基因研究上的应用、矮化基因的定位、矮化基因的分离与克隆、矮化转基因等方面的研究进展进行了概述。     

植物花发育调控基因AGAMOUS的研究进展

拟南芥AGAMOUS基因(AG基因)是重要的植物花发育调控基因。本文主要对AG基因的结构、功能以及同源基因的分离和AG基因的表达调控等方面的研究进展进行了综述,并对AG基因研究中存在的问题和研究方向进行了讨论。     

转基因植物发展状况及外源基因在后代中遗传分离研究进展

转基因植物近年来得到迅猛发展。本文综述了转基因植物 ,特别是转基因林木的的发展现状。并从单基因位点孟德尔遗传 ,多基因位点孟德尔遗传以及非孟德尔式遗传三个方面介绍了外源基因在转基因植物后代中遗传分离的研究进展。并就影响外源基因遗传分离的因素进行了讨论。     

不同分离源植物乳杆菌的群体基因组分析

【背景】植物乳杆菌(Lactobacillus plantarum)广泛存在于植物、乳制品、肉制品、哺乳动物和昆虫的肠道等多种生态环境中。【目的】探究不同分离源L. plantarum基因组与其所在环境是否存在潜在的联系。【方法】利用比较基因组学对126株分离自植物、乳制品、肉制品、果蝇及哺乳动物肠道和口腔等部位的L. plantarum菌株基因组进行系统发育分析和功能基因组分析,解析不同分离源菌株间的亲缘关系和进化历程。【结果】果蝇分离株的基因组大小显著高于植物、哺乳动物肠道、肉制品和乳制品分离株(P0.05),植物和哺乳动物肠道、口腔等部位与肉制品分离株的基因组大小和编码基因数量无显著差异(P0.05)。基于单拷贝基因串联和核心基因系统发育树分析均发现,果蝇分离株和乳制品分离株分别集中聚集分布在某一分支中,其余分离源均匀分布在各个分支中。附属基因分析结果与系统发育树分析结果一致。功能基因注释结果发现,果蝇分离株的环境特异性基因参与低聚果糖和几丁质代谢,乳制品分离株的环境特异性基因参与mazEF毒素-抗毒素系统和CRISPR系统。【结论】植物乳杆菌分离株为适应较为独特的果蝇和乳制品生境而发生了适应性进化。本研究为植物乳杆菌适应性进化提供了新见解,同时为解析菌株的进化历程提供了理论基础。     

木本植物开花调节基因的分离克隆及其童期控制

高等植物在萌发后需要经历一定时间的营养生长 ,即童期 ,才能进入生殖发育阶段。控制植物生殖转变调节童期的基因主要有花序分生组织特异基因、花分生组织特异基因、花器官分生组织特异基因。对近几年木本植物开花调节基因的分离克隆及其童期控制研究进行综述 ,对了解木本植物开花基因的作用功能 ,以及缩短童期和植物进化研究将有所裨益。     

蕨类植物MADS盒基因研究概况

MADS盒基因是生物重要的调控基因家族.简述了MADS盒基因的分类、分布和功能及种子植物MADS盒基因研究及一种苔藓植物的MADS盒基因概况,对目前从蕨类植物中分离定性的MADS盒基因与种子植物相比具有的特点及其演化关系进行了重点介绍.     

植物抗病相关基因分离策略

近年来植物基因克隆技术已经取得了很大进展。文章对分离植物抗病相关基因的一系列策略及其研究进展进行了综述,并对这些技术的异同,各自的优缺点,以及它们在植物中的应用现状及前景作了评述。     

Evaluation of genetic isolation within an island flora reveals unusually widespread local adaptation and supports sympatric speciation

It is now recognized that speciation can proceed even when divergent natural selection is opposed by gene flow. Understanding the extent to which environmental gradients and geographical distance can limit gene flow within species can shed light on the relative roles of selection and dispersal limitation during the early stages of population divergence and speciation. On the remote Lord Howe Island (Australia), ecological speciation with gene flow is thought to have taken place in several plant genera. The aim of this study was to establish the contributions of isolation by environment (IBE) and isolation by community (IBC) to the genetic structure of 19 plant species, from a number of distantly related families, which have been subjected to similar environmental pressures over comparable time scales. We applied an individual-based, multivariate, model averaging approach to quantify IBE and IBC, while controlling for isolation by distance (IBD). Our analyses demonstrated that all species experienced some degree of ecologically driven isolation, whereas only 12 of 19 species were subjected to IBD. The prevalence of IBE within these plant species indicates that divergent selection in plants frequently produces local adaptation and supports hypotheses that ecological divergence can drive speciation in sympatry.     

植物转座子及其在功能基因组学中的应用

转座子作为插入突变原或分子标签被广泛应用于基因的分离和克隆,且因其 独特的性质已成为发现新基因和基因功能分析的有效工具。本文综述了植物转座子及其作为基因分离和克隆工具的研究进展,并讨论其在植物基因功能研究方面的应用。 Abstract:Transposons have been widely used for gene isolation and gene cloning as insertional mutagens or molecular tagging.Furthermore,due to special characteristics of transposons,transposons techniques will be a powerful tool for new gene discovery and gene functional analysis.This paper reviewed the developments of plant transposons in gene isolating and cloning,as well as its use in studying gene function in plant.     

Lack of evidence for reproductive isolation among ecologically specialised lycaenid butterflies

Abstract 1. The evolution of reproductive isolation between recently diverged or incipient species is a critical component of speciation and a major focus of speciation models. In phytophagous insects, host plant fidelity (the habit of mating and ovipositing on a single host species) can contribute to assortative mating and reproductive isolation between populations adapting to alternative hosts. The potential role of host plant fidelity in the evolution of reproductive isolation was examined in a pair of North American blue butterfly species, Lycaeides idas and L. melissa .
2. These species are morphologically distinct and populations of each species utilise different host plants; however they share 410 bp haplotypes of the mitochondrial cytochrome oxidase subunit I (COI) gene, indicating recent divergence.
3. Some populations using native hosts exhibited strong fidelity for their natal host plant over the hosts used by nearby populations. Because these butterflies mate on or near the host plant, the development of strong host fidelity may create reproductive isolation among populations on different hosts and restrict gene flow.
4. Tests of population differentiation using allozyme allele frequency data did not provide convincing evidence of restricted gene flow among populations. Based on morphological differences, observed ecological specialisation, and the sharing of genetic markers, these butterflies appear to be undergoing adaptive radiation driven at least partially by host shifts. Neutral genetic markers may fail to detect the effects of very recent host shifts in these populations due to gene flow and/or the recency of divergence and shared ancestral polymorphism.     

Simple and reliable system for transient gene expression for the characteristic signal sequences and the estimation of the localization of target protein in plant cell

The efficiency of transient gene expression in plants credibly demonstrated characteristics of gene functions in numerous studies. Two key strategies of transient expression became favorites among researchers: protoplast transfection and agroinfiltration. Each of them, alongside the advantages, has its own constraints. In this work, an easy, rapid, and reliable system for characterization of the signal sequences and determinations of target protein localization in a plant cell is proposed and tested. This system—called the AgI–PrI—implies production of protoplasts from plant tissues after agroinfiltration. Reliability of the proposed system for transient gene expression has been proved using characterized signal sequences in Nicotiana benthamiana cells. The corresponding protocol is less expensive and depends to a lesser degree on the professional skills in the area of protoplast isolation and transfection; furthermore, it may be applicable to other plant species with either available efficient methods of agroinfiltration and protoplast isolation or with the potential for one of the protocols to be supplemented. Thus, the AgI–PrI technique makes it possible to combine the advantages of two widely used methods for the transient gene expression in plants—agroinfiltration and protoplast isolation and transfection—and concurrently avoids their critical points.     

Insertional mutagenesis in Arabidopsis thaliana

Recently, a number of mutant gene loci in the Arabidopsis thaliana plant genome have been identified through insertional mutagenesis. In this review, we evaluate different methods used for Agrobacterium tumefaciens-mediated T-DNA insertional mutagenesis with regard to their mutation frequencies and conclude that a major breakthrough in the isolation of genes involved in plant development has been acheived. To provide a specific example, we summarize recent progress made in the understanding of flower morphogenesis at the molecular level through the study of homeotic genes obtained via gene tagging. T-DNA gene fusion vectors are being discussed that will allow the isolation of plant regulatory sequences with particular cell or tissue specificity, or that are controlled by specific external stimuli. Finally, we report on the approaches followed to convert the maize transposons Ac/Ds into valuable gene tags for use in a heterologous host such as Arabidopsis.     

Rapid isolation of terminal sequences from cloned plant DNA fragments

The isolation of DNA clone termini is an important step in the development of DNA contigs utilized for a range of applications, including physical mapping, genetic map-based cloning, insertion mutagenesis cloning, and isolation of complete gene sequences. We describe a rapid PCR-based method for the isolation of vector-insert junctions, or insert terminal sequences, of cloned plant DNA fragments. PCR amplification is performed using a vector-specific primer and a nonspecific primer, originally designed for use in animal systems, containing degenerative bases that we have shown can also anneal to plant insert DNA. Using this method we have successfully isolated end-terminal sequences from plant genomic clones harbored in YAC, BAC, and bacteriophage λ vectors. Termini of genomic clones from both tomato andArabidopsis were isolated demonstrating the utility of this technique among a range of plant species.