激活标签法及其在植物基因工程上的应用

激活标签法是新近发展起来的一种用于基因分离和鉴定的方法。它通过诱变使特定内源基因发生过量表达,而产生显性功能获得型突变,从而对基因进行鉴定和分析。因为具有独特的性质已使其成为发现新基因和进行基因功能分析的有效工具。本文综述了激活标签法的原理、研究现状和在植物基因工程上的应用。 Abstract:Activation tagging is a new method for isolation and functional identification.It can generate dominant gain-of-function mutants by overexpression of a particular endogenous gene.Due to this special characteristics of activation tagging,this method has been a powerful tool for new gene discovery and gene functional analysis.This paper reviewed the principle and study conditions of activation tagging,as well as its use in plant genetic engineering.     

植物转座子及其在番茄功能基因组的应用

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,已成为发现新基因和基因功能分析的有效工具。该文综述了植物转座子及其在基因分离中的研究进展,并讨论其在番茄功能基因遗传资源、功能基因组分离等研究中的应用。     

图位克隆技术在分离植物基因中的应用

本文综述图位克隆技术的原理及基本技术环节,并与其它基因克隆技术相比较说明图位克隆技术的优缺点。本文还对近年来图位克隆技术在分离不同的植物发育基因上的广泛应用进行了简要概述,并对其应用前景和近期的预期进展作出展望。 Abstract:In this review,the principle and basis steps of map-based gene cloning on plant were introduced in detail.At the same time,the advantages and disadvantage of the method were evaluated as compared with the other methods.The extensive application of the map-based gene cloning method on cloning genes of different plants in the past was also summarized in brief.The prospect and the expected progress in several years were proposed in this paper.     

植物中的反转录转座子及其应用

反转录转座子是植物中最不稳定的遗传元件之一,它们对基因组的大小、结构、功能和进化都有重要作用。本文综述了近年来对植物反转录转座子类型和结构、在基因组中表达、调控、转座活动、进化等方面的研究进展,讨论了它们在遗传研究中的应用前景。 Abstract:Retrotransposons are one of the most unstable genetic elements in the plant kingdom,they have the potential to dramatically affect gene function and host genome structure.The current status of their types and structure,expression regulation,transposition,and evolution are reviewed.Their potential as genetic tools are also discussed.     

植物纤维素合成酶基因的研究进展

纤维素是植物细胞壁的主要成分。自然界中每年大约有1800亿吨的纤维素产物生成。纤维素的巨大经济价值使纤维素合成酶基因成为基因工程的热点之一。1996年, Delmer小组首次从植物中克隆出纤维素合成酶基因。近年来,在纤维素合成酶的结构、功能、定位和基因功能的研究方面成果斐然。本文概述了植物纤维素合成酶基因的研究进展。 Abstract:Cellulose is a major component in plant cell wall.About 180 billion tons of cellulose are produced per year in nature.The commercial importance of cellulose makes the genes coding it one of attractive targets for plant genetic engineering.A number of cellulose synthase genes have been first cloned from plant species by Delmer's group in 1996.Recently,research achievement has been obtained in accumulating to understanding the cellulose synthase function,location,and the gene function.The paper summarized the research progress of cellulose synthase genes in higher plants.     

High-throughput Binary Vectors for Plant Gene Function Analysis

A series of high-throughput binary cloning vectors were constructed to facilitate gene function analysis in higher plants. This vector series consists of plasmids designed for plant expression, promoter analysis, gene silencing, and green fluorescent protein fusions for protein localization. These vectors provide for high-throughput and efficient cloning utilizing sites for λ phage integrase/excisionase. In addition, unique restriction sites are incorporated in a multiple cloning site and enable promoter replacement. The entire vector series are available with complete sequence information and detailed annotations and are freely distributed to the scientific community for non-commercial uses.     

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。     

简并PCR技术及其在基因克隆中的应用

本文简要介绍简并PCR技术,包括什么是简并引物,如何设计简并引物,进行简并PCR的反应条件,应用简并PCR获得全长基因的方法和简并PCR技术的应用范围,并对简并PCR技术的局限性及其新进展进行讨论。在此基础上,简述基因的克隆策略以及简并PCR技术在基因克隆中的应用。简并PCR技术是寻找和发现“新”基因或蛋白质家族新成员的一种非常有用的工具。 Abstract:Degenerate PCR is introduced in this paper,including what is degenerate PCR,how to design degenerate primers,how to optimize degenerate PCR parameters,how to applying degenerate PCR to obtain full-length gene and which fields can apply degenerate PCR.The limits and recent advances of degenerate PCR are also discussed.Based on this introduction,strategies of gene cloning and applications of degenerate PCR in gene cloning are summarized in brief.Degenerate PCR is a very useful tool for searching and discovering new genes and new members of a protein family.     

Plant transposable elements and their application in genetics and biotechnology

Data concerning plant transposable elements and their contribution to plant genome evolution are reviewed. Much attention is focused on utilization of transgenic plants as heterologous hosts of transposons for investigation of transposition mechanisms and gene cloning. Probable ways of the use of plant transposons as genetic tools in biotechnology are discussed.     

Transposable elements in the fungal plant pathogenFusarium oxysporum

The genome of the fungal plant pathogenFusarium oxysporum contains at least six different families of transposable elements. Representatives of both DNA transposons and retrotransposons have been identified, either by cloning of dispersed repetitive sequences (Foret andpalm) or by trapping in the nitrate reductase gene (Fot1, Fot2 Impala andHop).Fot1 andImpala elements are related to theTc1 andmariner class of transposons. These transposable elements can affect gene structure and function in several ways: inactivation of the target gene through insertion, diversification of the nucleotide sequence by imprecise excisions, and probably chromosomal rearrangements as suggested by the extensive karyotype variation observed among field isolates. Comparisons of the distribution of these elements inFusarium populations have improved our understanding of population structure and epidemiology and provided support for horizontal genetic transfer. Also they could be developed as genetic tools for tagging genes, a cloning strategy that is particularly promising in imperfect fungi.     

Amplification of genomic sequences flanking transposable elements in host and heterologous plants: a tool for transposon tagging and genome characterization.

The isolation of sequences flanking integrated transposable elements is an important step in gene tagging strategies. We have demonstrated that sequences flanking transposons integrated into complex genomes can be simply and rapidly obtained using the polymerase chain reaction. Amplification of such sequences was established in a model system, a transgenic tobacco plant carrying a single Ac element, and successfully applied to the cloning of a specific Spm element from a maize line carrying multiple Spm hybridizing sequences. The described utilization of methylation sensitive restriction enzymes (including those with degenerate recognition sequences) in the generation of templates for amplification will simplify the cloning and mapping of genomic sequences adjacent to transposable elements.     

Transposable elements for efficient manipulation of a wide range of gram-negative bacteria: promoter probes and vectors for foreign genes

We describe here the construction and use of a series of modified transposons based on the insertion sequence IS1. Like their parent, omegon-Km [Fellay et al., Gene 76 (1989) 215-226], these elements permit efficient insertional mutagenesis of a variety of Gram-negative bacteria. The presence of a functional pBR322 origin of replication within the transposable element facilitates subsequent cloning of the mutated gene. The omegon-Km system was previously shown to function in Pseudomonas putida, Rhizobium leguminosarum and Paracoccus denitrificans. The results we present here demonstrate that its use can be extended to Xanthomonas campestris, a plant pathogen, and to the microaeroduric Zymomonas mobilis. Derivative transposons carrying unique restriction sites for ScaI, NdeI, XbaI and XhoI have been constructed, allowing the cloning and introduction of foreign genes. We have also constructed two derivatives which can be used to generate operon fusions upon insertion and are thus useful for isolating and characterising indigenous promoters. One carries a promoterless chloramphenicol acetyl-transferase (CAT)-encoding gene (cat) and the second, the entire promoterless Escherichia coli lac operon. We demonstrate the utility of the cat promoter probe in X. campestris to target conditional promoters inducible by high salt or subject to repression by glucose.     

Molecular structure and interrelationships of multiresistance beta-lactamase transposons

Transposons coding for beta-lactamases OXA-3, OXA-4, OXA-5, LCR-1, and CARB-3 have been isolated and compared functionally and structurally with transposons for TEM-1, OXA-1, PSE-1, PSE-2, and PSE-4 enzymes. Each beta-lactamase gene type occurred in a unit together with resistance to other antibiotics, particularly streptomycin and sulfonamide but also chloramphenicol, mercuric ion, or gentamicin, kanamycin, and tobramycin. Restriction mapping, gene cloning, and DNA hybridization were used to compare the transposons and to localize their functional components. Although the multiresistance beta-lactamase transposons varied in size from 8 to 25 kb, the similarity of some of their restriction maps suggested a common derivation. Six of 12 transposons contained DNA segments homologous to the tnpR gene of transposon Tn21 and could complement a tnpR- Tn21 derivative. Consequently, these six transposons appear to have evolved from a common progenitor by acquisition of DNA coding for various beta-lactamases and other resistance genes.     

青鳉Tol2转座子研究进展

鳉鱼Tol2转座子作为hAT（hobo/Activayor/Tam3）转座子家族中的一员,是目前所发现的唯一的天然存在且有转座活性的脊椎动物转座子。本文从Tol2转座子的结构,转座机制和应用方面作一个综述。     

Plant tagnology

Transposable elements have been used as an effective mutagen and as a tool to clone tagged genes. Insertion of a transposable element into a gene can lead to loss- or gain-of-function, changes in expression pattern, or can have no effect on gene function at all, depending on whether the insertion took place in coding or non-coding regions of the gene. Cloning transposable elements from different plant species has made them available as a tool for the isolation of tagged genes using homologous or heterologous tagging strategies. Based on these transposons, new elements have been engineered bearing reporter genes that can be used for expression analysis of the tagged gene, or resistance genes that can be used to select for knockout insertions. While many genes have been cloned using transposon tagging following traditional forward genetics strategies, gene cloning has ceased to be the rate-limiting step in the process of determining sequence–function relations in several important plant model species. Large-scale insertion mutagenesis and identification of insertion sites following a reverse genetics strategy appears to be the best method for unravelling the biological role of the thousands of genes with unknown functions identified by genome or expressed sequence tag (EST) sequencing projects. Here we review the progress in forward tagging technologies and discuss reverse genetics strategies and their applications in different model species.     

水稻转座子研究进展

转座子是植物基因组的重要组成部分, 对于研究植物基因组进化等具有重要意义。随着水稻全基因组测序计划的开展和完成, 水稻转座子研究取得了极大进展, 目前已经在水稻基因组中发现了几乎所有类型的转座子, 约占水稻基因组的35%。在正常情况下, 大多数水稻转座子不具有转座活性, 但是在特定的条件下(如组织培养或辐射等), 水稻基因组中沉默的转座子可以被激活, 从而可能导致插入突变并影响基因的表达。在水稻中已鉴定出6个有活性的转座子, 其中Tos17已被应用到水稻功能基因组研究中。转座子序列的新的分子标记转座子展示(transposon display, TD)现已被开发, 并在水稻遗传作图和遗传分化研究中得到应用     

Characterisation of the ColE8 plasmid, a new member of the group E colicin plasmids

We have determined the restriction map of the ColE8-J plasmid after cloning it into the pBR322 vector. By subcloning and transposon mutagenesis we have localized the colicin immunity gene, the colicin structural gene, and lys, the region that determines MC sensitivity. In contrast to the ColE3-CA38 plasmid, the genes coding for colicin E8 production and immunity cannot be cloned on a single EcoRI fragment. Insertion of Tn5 transposons into the colicin structural gene region of the recombinant plasmid inactivated colicin production and MC sensitivity. Insertion of transposons into the lys region reduced colicin E8 production and MC induced lysis, the extent of which was dependent upon the precise site of insertion. We propose that the colicin E8 structural gene and lys must be transcribed from a common promoter situated proximal to the structural gene, whilst the colicin E8 immunity gene is transcribed from a second promoter. The lys region is responsible both for cell lysis after MC induction and positive regulation of colicin E8 synthesis.