植物自交不亲和基因研究进展

自交不亲和性的研究是植物生殖生物学和分子生物学研究的热点之一,对自交不亲和基因和蛋白质的深入研究是解析自交不亲和性机理的关键.对控制孢子体自交不亲和性和配子体自交不亲和性的S基因及其蛋白质产物的分子生物学研究进展进行了综述.孢子体自交不亲和性植物S位点上至少存在3个基因,即SLG、SRK和SCR基因.其中SLG、SRK基因控制雌蕊自交不亲和性,而SCR控制花粉自交不亲和性.配子体自交不亲和植物雌蕊S基因产物为S-RNase,具有核酸酶活性;配子体自交不亲和植物花粉S基因产物尚未找到.     

Growth and development of conifer pollen tubes

Conifer pollen tubes are an important but underused experimental system in plant biology. They represent a major evolutionary step in male gametophyte development as an intermediate form between the haustorial pollen tubes of cycads and Ginkgo and the structurally reduced and faster growing pollen tubes of flowering plants. Conifer pollen grains are available in large quantities, most can be stored for several years, and they grow very well in culture. The study of pollen tube growth and development furthers our understanding of conifer reproduction and contributes towards our ability to improve on their productivity. This review covers taxonomy and morphology to cell, developmental, and molecular biology. It explores recent advances in research on conifer pollen and pollen tubes in vivo, focusing on pollen wall structure, male gametophyte development within the pollen wall, pollination mechanisms, pollen tube growth and development, and programmed cell death. It also explores recent research in vitro, including the cellular mechanisms underlying pollen tube elongation, in vitro fertilization, genetic transformation and gene expression, and pine pollen tube proteomics. With the ongoing sequencing of the Pinus taeda genome in several labs, we expect the use of conifer pollen tubes as an experimental system to increase in the next decade.     

基于DNA分子标记的花粉流动态分析

花粉介导的基因流是植物有性繁殖世代之间的桥梁, 花粉散布属性是植物繁殖生态学、保护生物学和进化生物学研究关注的焦点。随着DNA分子技术的发展, 花粉流分析所使用的分子标记(尤其是微卫星标记)逐步替代了早期物理标记, 基于最大似然法估计以及新兴的基于贝叶斯推断的父本指派算法的发展, 能有效地估计花粉流散布的方向、距离和强度等重要特征。花粉散布曲线由单一参数向多参数模型发展, 以更好地获得花粉散布特征的拟合效果, 双组分的复合模型利用相互独立的参数空间使得散布曲线在长距离和短距离形状上呈现更大的可塑性。这些革新的技术和方法被成功应用于植物性别表型、隔离种群和杂交物种间花粉流分析, 以探讨进化、生态和保护等多领域的基础理论问题。近年来, 高通量测序技术的发展将进一步加快以分子标记为基础的花粉流动态分析在更广泛的植物类群中运用。     

Hypoallergenic derivatives of major grass pollen allergens for allergy vaccination

Grass pollen-induced hay-fever and allergic asthma represent a major health problem in industrialized countries. Whereas the symptoms of these allergic conditions can be controlled by pharmacotherapy, specific immunotherapy vaccination is the only causative approach towards the treatment of these type 1 allergies. Specific immunotherapy is based on administration of increasing amounts of the disease-causing allergens in the form of allergen-containing extracts. However, the extracts used for immunotherapy consist of allergenic and non-allergenic components and may induce severe anaphylactic side-effects upon therapeutic administration. With recent developments in molecular biology of pollen allergens it has become feasible to produce modified hypoallergenic derivatives of recombinant allergens with abrogated or greatly reduced likelihood of anaphylactic side-effects as compared to extract-based treatments. We have demonstrated this concept through reducing the anaphylactic potential of major rye grass pollen allergens by introducing a few point mutations which leave the overall structural fold of the molecule unaltered. These modified forms are expected to make allergen-specific immunotherapy more widely used in the future.     

Antisense perturbation of protein function in living pollen tubes

During the past few years pollen tubes grown in vitro became a popular model system for cell biology studies of signal transduction in plant cells. Here we report a simple and fairly inexpensive way of studying protein function by transiently perturbing expression of the target gene in living pollen tubes. The ability of antisense oligodeoxynucleotides (ODNs) to bind to complementary mRNA sequences was used to selectively inhibit gene expression and thus assess the putative function of specific proteins in tip growth. The delivery of ODNs to growing pollen tubes was accomplished with the help of a liposomal formulation, originally developed for transfection assays in animal cells. The limitations and potentialities of this technique are discussed. Received: 23 November 2000 / Revision accepted: 29 May 2001     

Nucleotide sequence analysis of three cDNAs coding for Poa p IX isoallergens of Kentucky bluegrass pollen.

Grass pollen allergens are one of the major causes of type I allergic reactions (allergic rhinoconjunctivitis, allergic bronchial asthma, and hayfever) in temperate climates afflicting 15-20% of a genetically predisposed population. Workers have found considerable physico- and immunochemical heterogeneity within the grass pollen allergens which has made them difficult to purify for both therapeutic uses and further biochemical study. We recently reported the construction of a cDNA library in lambda gt11 using mRNA extracted from dehydrated Kentucky bluegrass (KBG, Poa pratensis). Here, we present the nucleotide and deduced amino acid sequences for three KBG pollen allergen cDNA clones, KBG 41, 60, and 31, which were isolated from the above library using a pool of six sera from grass pollen allergic patients. These clones exhibit an exceptionally high degree of sequence similarity to one another, only minor similarity to other known allergens, and no homologies to other known proteins or genes. The predicted molecular mass for the cloned proteins range from 28.3 to 37.8 kDa with pI values of 9.6-10.2. All three clones appear to possess leader peptides and lack asparagine sequons required for N-glycosylation. Therefore, the molecular mass of the post-translationally modified proteins were calculated to be 28.4-34.9 kDa, which is consistent with the size of the polypeptides revealed in Western blots of pollen proteins using an antiserum to a recombinant peptide encoded by the partial cDNA clone KBG 8.3. Northern blotting analysis indicates that expression of the genes corresponding to these clones is confined to pollen tissue. The results suggest that the clones code for a group of proteins that represent a new and previously uncharacterized group of grass pollen isoallergens, which have been hereby designated as Poa p IX.     

基因打靶技术的研究进展

基因打靶技术是一项新兴的分子生物学技术,是利用外源DNA与受体细胞染色体DNA上的同源序列之间发生重组,并整合在预定位点上,从而改变细胞遗传特性的方法。它的产生是遗传工程领域的一次革命,为发育生物学、分子遗传学、免疫学及医学等学科提供了一个全新的、强有力的研究手段。目前基因打靶技术在研究基因的结构和功能、表达与调控,转基因及基因治疗等方面均取得了进展。但基因打靶技术仍存在一些问题,主要是打靶的效率太低。本文综述了基因打靶技术的原理、操作程序并对提高基因打靶效率的可能途径进行了探讨。 Progress on Gene Targeting LIU Hong-quan1,DAI Ji-xun1,YU Wen-gong2,YANG Kun-feng1 1.Ocean University of Qingdao,College of Marine Life Sciences,Qingdao 266003,China; 2.Institute of Marine Drugs and Foods,Qingdao 266003,China Abstract:Gene targeting is a rising technology in molecular biology,which is defined as the introduction of exogeneous DNA to specific site in genome by homologous recombination,and consequently change the hereditary character of the cell.This technology provides a new and powerful means for research in developmental biology,molecular genetics,immunology and medicine.Progresses have been made in exploring gene structure and function,gene expression and regulation,transgene and gene therapy with the application of gene targeting.But there are some problems in gene targeting,especially for the low efficiency.This article just provided a review of the principle and program of gene targeting,and discussed the possible approaches to increase the efficiency of gene targeting. Key words：gene targeting;homologous recombination;targeting vector;targeting efficiency     

Antisense Oligodeoxynucleotide Inhibition as an Alternative and Convenient Method for Gene Function Analysis in Pollen Tubes

Antisense oligodeoxynucleotide (A-ODN) inhibition works well in animal cells. However, there have been few successful examples to date of its application in plants, and more specifically whether the technique can be used in pollen tubes as a model of plant cell growth. NtGNL1 plays an important role in pollen tube development and was thus selected as an indicator to assess the biological effects of A-ODN. An A-ODN inhibition technique was used to down-regulate NtGNL1 expression in tobacco pollen tubes and showed that A-ODNs could quickly enter pollen tubes through the thick wall and cell membrane and effectively block NtGNL1 expression. Phenotype analysis revealed that the down-regulation of NtGNL1 by A-ODNs resulted in abnormalities in endocytosis and subsequent vesicle trafficking, similar to the phenotypes of pollen tubes treated with NtGNL1 RNAi. This investigation confirmed that A-ODNs could specifically inhibit target gene expression, and furthermore demonstrated that A-ODN functioned in a concentration- and duration-dependent manner, because A-ODNs could be degraded when incubated with pollen tubes. Thus, the A-ODN technique was successfully used for gene function analysis in pollen tubes and appears to be an alternative and convenient technique when the in vitro pollen tube is used as the study model. This technique will greatly facilitate investigations on the molecular mechanism(s) underlying pollen tube growth.     

Tafelerklärungen

The dogma that anemophily in the humid tropics is rare or even absent is challenged. Long pollen rain shadows, leptokurtic pollen distribution patterns, and electrostatic attractions between pollen and stigma may contribute to successful abiotic pollination among plants whose mechanisms bridge a continuum between the extremes of anemophily and zoophily. Representatives of 21 families of woody, neotropical plants are shown to possess some form of abiotic pollination or pollen dispersal, suggesting a greater role of anemophily in tropical reproductive biology and allergic responses than previously assumed.     

发展中的mRNA差别显示技术

随着ＰＣＲ技术的出现（１９８５）,在分子生物学界又相继出现了两个很有影响的新技术──ＲＡＰＤ技术（１９９０）和ｍＲＮＡ差示法（１９９２）,前者用于分子标记,后者用于基因分离。ｍＲＮＡ差示法的生物学基础是基因的差别表达,既：单个细胞中表达的基因仅占基因总数的１５％。这种基因的差别表达决定了生命的所有过程,如：发育和分化、对逆境的反应、细胞分裂、老化等,图一给出了该方法最初的技术路线。提取要比较的两种或两种以上样品的ｍＲＮＡｓ,分别逆转录成ｃＤＮＡｓ,经过ＰＣＲ扩增后,直接进行测序胶电泳即可识别有差别的ｍＲＮＡ。其中、关键的是ＰＣＲ扩增时两个引物的设计．３＇端引物Ｏｌｉｇｏ（ｄＴ）ＭＮ很容易与具有Ｎ＇Ｍ＇－ｐｏｌｙ（Ａ）－３＇末端的大多数ｍＲＮＡ结合,进行ｃＤＮＡ的逆转录合成。Ｍ、Ｎ提供锚定位点,防止３＇端引物在ｐｏｌｙ（Ａ）序列不同位置上的随机结合。５＇端为１０个碱基的随机引物。这个经验上的碱基数值较理论的６－７个碱基（表一）更能满足测序胶电泳要求的条件：分子大小在５００ｂｐ左右,每条泳道上条带数在１００条左右。该方法近年来又有如下改进：一、ＰＣＲ退火温度由４２℃改为４０℃,可在保证特异性的同时,增加泳道上的     

Dysregulation of Complement System and CD4+ T Cell Activation Pathways Implicated in Allergic Response

Allergy is a complex disease that is likely to involve dysregulated CD4+ T cell activation. Here we propose a novel methodology to gain insight into how coordinated behaviour emerges between disease-dysregulated pathways in response to pathophysiological stimuli. Using peripheral blood mononuclear cells of allergic rhinitis patients and controls cultured with and without pollen allergens, we integrate CD4+ T cell gene expression from microarray data and genetic markers of allergic sensitisation from GWAS data at the pathway level using enrichment analysis; implicating the complement system in both cellular and systemic response to pollen allergens. We delineate a novel disease network linking T cell activation to the complement system that is significantly enriched for genes exhibiting correlated gene expression and protein-protein interactions, suggesting a tight biological coordination that is dysregulated in the disease state in response to pollen allergen but not to diluent. This novel disease network has high predictive power for the gene and protein expression of the Th2 cytokine profile (IL-4, IL-5, IL-10, IL-13) and of the Th2 master regulator (GATA3), suggesting its involvement in the early stages of CD4+ T cell differentiation. Dissection of the complement system gene expression identifies 7 genes specifically associated with atopic response to pollen, including C1QR1, CFD, CFP, ITGB2, ITGAX and confirms the role of C3AR1 and C5AR1. Two of these genes (ITGB2 and C3AR1) are also implicated in the network linking complement system to T cell activation, which comprises 6 differentially expressed genes. C3AR1 is also significantly associated with allergic sensitisation in GWAS data.     

Role of Macrophage Migration Inhibitory Factor (MIF) in Pollen-Induced Allergic Conjunctivitis and Pollen Dermatitis in Mice

Pollen is a clinically important airborne allergen and one of the major causes of allergic conjunctivitis. A subpopulation of patients with atopic dermatitis (AD) are also known to have exacerbated skin eruptions on the face, especially around the eyelids, after contact with pollen. This pollen-induced skin reaction is now known as pollen dermatitis. Macrophage migration inhibitory factor (MIF) is a pluripotent cytokine that plays an essential role in allergic inflammation. Recent findings suggest that MIF is involved in several allergic disorders, including AD. In this study, MIF knockout (KO), MIF transgenic (Tg) and WT littermate mice were immunized with ragweed (RW) pollen or Japanese cedar (JC) pollen and challenged via eye drops. We observed that the numbers of conjunctiva- and eyelid-infiltrating eosinophils were significantly increased in RW and JC pollen-sensitized MIF Tg compared with WT mice or MIF KO mice. The mRNA expression levels of eotaxin, interleukin (IL)-5 and IL-13 were increased in pollen-sensitized eyelid skin sites of MIF Tg mice. An in vitro analysis revealed that high eotaxin expression was induced in dermal fibroblasts by MIF combined with stimulation of IL-4 or IL-13. This eotaxin expression was inhibited by the treatment with CD74 siRNA in fibroblasts. These findings indicate that MIF can induce eosinophil accumulation in the conjunctiva and eyelid dermis exposed to pollen. Therefore, targeted inhibition of MIF might result as a new option to control pollen-induced allergic conjunctivitis and pollen dermatitis.     

木霉分子生物学研究进展

木霉Trichoderma spp.是普遍存在并具有重要经济意义的一类真菌。本文试从木霉大分子;基因克隆;转化系统;外源基因表达;在工农业生产中的应用等方面对木霉分子生物学研究进展进行综述。     

Tet system的调控原理及其在转基因小鼠模型上的应用

基因表达的调控是分子生物学研究的一个重要问题,也是基因治疗和基因功能研究的重要手段。诱导性基因表达系统可以从时间上调控基因的表达,是基因治疗和基因功能研究的重要工具之一。其中,四环素诱导基因表达系统(tetracycline inducible expression system,Tet system)是应用最广泛的一种,它可以在时间和空间上对基因进行严谨和高效地诱导表达。基于该系统获得了不同用途的转基因动物,这些模型动物的建立为研究特定基因的功能及其在疾病发生中的作用打下了实验基础。现就四环素诱导表达系统的原理和在小鼠模型上的研究应用做一综述。     

增强子及其生物信息学预测

真核生物基因表达调控是当代分子生物学研究的重要课题之一。增强子是主要的真核生物基因表达调控的顺式作用元件,能有效促进基因表达。因此,增强子的相关研究是当今分子生物学研究的重点之一。运用生物信息学方法具有方便、快捷以及成本低等优势,这使得生物信息学成为当代分子生物学研究的重要工具。本文简单综述了增强子相关研究进展和采用生物信息学策略对序列保守性增强子进行预测和定位的几个常用数据库和具体方法。     

显花植物自体和异体花粉识别的分子机理研究(英文)

显花植物的受精涉及许多识别过程;其中第一个是雌性生殖组织心皮对花粉的识别。自交不亲和性（Ｓｅｌｆ－ｉｎｃｏｍｐａｔｉｂｉｌｉｔｙ,ＳＩ）是一种广泛分布于显花植物的种内生殖障碍。在多数自交不亲和的植物中,ＳＩ的遗传控制比较简单,受控于一个由复等位基因构成的单一位点,称为Ｓ位点。在以茄科、玄参科和蔷薇科为代表的配子体自交不亲和植物中,Ｓ位点编码一类核酸酶,即Ｓ核酸酶（Ｆｉｇ．１）,控制ＳＩ在花柱中的表达,但是与花粉自交不亲和性的表达无关。后者可能由与Ｓ核酸酶不同的基因控制,这种基因常被称为花粉Ｓ基因。它是目前了解显花植物花粉识别生化和分子机理的关键。近来;通过对影响花粉ＳＩ表达突变体的分子遗传分析提出了一个花粉Ｓ基因产物如何与Ｓ核酸酶相互作用完成自体和异体花粉识别过程的模型（Ｆｉｇ．２）。另外,描述了两个在金鱼草中克隆花粉Ｓ基因的方法,即Ｓ位点选择性的转座子标记和图位克隆。     

Oral Immunotherapy for Pollen Allergy Using T-Cell Epitope-Containing Egg White Derived from Genetically Manipulated Chickens

Peptide immunotherapy using T-cell epitopes is expected to be an effective treatment for allergic diseases such as Japanese cedar (Cryptomeria japonica; Cj) pollinosis. To develop a treatment for pollen allergy by inducing oral tolerance, we generated genetically manipulated (GM) chickens by retroviral gene transduction, to produce a fusion protein of chicken egg white lysozyme and a peptide derived from seven dominant human T-cell epitopes of Japanese cedar pollen allergens (cLys-7crp). The transgene sequence was detected in all chickens transduced with the retroviral vector. Transduction efficiency in blood cells correlated to transgene expression. Western blot analysis revealed that cLys-7crp was expressed in the egg white of GM hens. Mice induced to develop allergic rhinitis by Cj pollinosis were fed with cLys-7crp-containing egg white produced by GM chickens. Total and Cj allergen (Cry j 1)-specific IgE levels were significantly decreased in allergic mice fed with cLys-7crp-containing egg white compared with allergic mice fed with normal egg white. These results suggest that oral administration of T-cell epitope-containing egg white derived from GM chickens is effective for the induction of immune tolerance as an allergy therapy.     

害虫的基因沉默控制

作为现代分子生物学的重大突破性成果之一,基因沉默是人为调控基因表达的重要途径之一。本文介绍了基因沉默的发现历史、作用机制及其在昆虫中的研究进展,以及利用基因沉默原理进行害虫控制的探索,并展望害虫基因沉默控制的应用前景。     

The gene coding for the major birch pollen allergen Betv1, is highly homologous to a pea disease resistance response gene.

Pollen of the white birch (Betula verrucosa) is one of the main causes of Type I allergic reactions (allergic rhinoconjunctivitis, allergic bronchial asthma) in Middle and Northern Europe, North America and the USSR. Type I allergies are a major threat to public health in these countries, since 10-15% of the population suffer from these diseases. BetvI, an allergenic protein with an Mr of 17 kd is a constituent of the pollen of white birch and is responsible for IgE binding in more than 95% of birch pollen allergic patients. Here, we report the complete nucleotide sequence and deduced amino acid sequence of a cDNA clone coding for the major pollen allergen (BetvI) of white birch. It is similar to the N-terminal peptide sequences of the allergens of hazel, alder and hornbeam (close relatives) but it has no significant sequence homology to any other known allergens. However, it shows 55% sequence identity with a pea disease resistance response gene, indicating that BetvI may be involved in pathogen resistance of pollen.