A highly repeated DNA sequence in Arabidopsis thaliana

Summary Three members of a family of highly repeated DNA sequences from Arabidopsis thaliana have been cloned and characterized. The repeat unit has an average length of 180 bp and is tandemly repeated in arrays longer than 50 kb. This family represents more than one percent of the Arabidopsis genome. Sequence comparisons with tandemly repeated DNA sequences from other Cruciferae species show several regions of homology and a similar length of the repeat unit. Homologies are also found to highly repeated sequences from other plant species. When the sequence CCGG occurs in the repeated DNA, the inner cytosine is generally methylated.     

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.     

In planta transformation of Arabidopsis thaliana

Transformants of Arabidopsis thaliana can be generated without using tissue culture techniques by cutting primary and secondary inflorescence shoots at their bases and inoculating the wound sites with Agrobacterium tumefaciens suspensions. After three successive inoculations, treated plants are grown to maturity, harvested and the progeny screened for transformants on a selective medium. We have investigated the reproducibility and the overall efficiency of this simple in planta transformation procedure. In addition, we determined the T-DNA copy number and inheritance in the transformants and examined whether transformed progeny recovered from the same Agrobacterium-treated plant represent one or several independent transformation events. Our results indicate that in planta transformation is very reproducible and yields stably transformed seeds in 7–8 weeks. Since it does not employ tissue culture, the in planta procedure may be particularly valuable for transformation of A. thaliana ecotypes and mutants recalcitrant to in vitro regeneration. The transformation frequency was variable and was not affected by lower growth temperature, shorter photoperiod or transformation vector. The majority of treated plants gave rise to only one transformant, but up to nine siblings were obtained from a single parental plant. Molecular analysis suggested that some of the siblings originated from a single transformed cell, while others were descended from multiple, independently transformed germ-line cells. More than 90% of the transformed progeny exhibited Mendelian segregation patterns of NPTII and GUS reporter genes. Of those, 60% contained one functional insert, 16% had two T-DNA inserts and 15% segregated for T-DNA inserts at more than two unlinked loci. The remaining transformants displayed non-Mendelian segregation ratios with a very high proportion of sensitive plants among the progeny. The small numbers of transformants recovered from individual T₁ plants and the fact that none of the T₂ progeny were homozygous for a specific T-DNA insert suggest that transformation occurs late in floral development.National Research Council of Canada Publication No. 38003     

Characterization of two Arabidopsis thaliana fructokinases

Two different fructokinase isoforms of Arabidopsis thaliana have been identified and characterized by non-denaturing electrophoresis followed by activity-staining. The two fructokinases, fructokinase1 (FRK1) and fructokinase2 (FRK2), showed a high specificity for fructose and did not stain when glucose or mannose were used as substrate. Fructose and ATP at high concentrations (above 5 mM) induced a substrate inhibition of the two enzymatic activities. Arabidopsis FRK1 and FRK2 were capable of employing GTP, CTP, UTP and TTP as phosphate donors, although with a significantly lower efficiency than ATP. The two fructokinase activities were also activated by K⁺, at around 10–20 mM, and inhibited by ADP and AMP at concentrations above 10 mM. Finally, FRK1 and FRK2 showed a different expression pattern in the plant, with FRK1 being more abundant in the roots and FRK2 in the shoots. The results demonstrate a simple technique that provides important information about fructokinase activities in the plants and which can be useful for the analysis of Arabidopsis mutants.     

UV-B预处理诱导拟南芥耐旱性的提高

为了解UV-B提高拟南芥(Arabidopsis thaliana)耐旱性的生理机制,将2周龄的野生型拟南芥(WT)和sto突变体幼苗用不同剂量UV-B预处理1周,再用30%PEG模拟干旱处理24 h,对植株的表型进行统计,并测定类黄酮、脯氨酸和MDA含量。结果表明,低剂量UV-B预处理能够提高拟南芥的耐旱性,植株的类黄酮与脯氨酸含量分别提高了20%～40%和50%～65%,细胞膜受损程度降低,从而提高了保水性。低剂量UV-B提高拟南芥耐旱性的效应在sto突变体中消失,证明这种效应在分子机制上可能与STO蛋白相关。     

A two-element Enhancer-Inhibitor transposon system in Arabidopsis thaliana

The Enhancer-Inhibitor (En-I), also known as Suppressor-mutator (Spm-dSpm), transposable element system of maize was modified and introduced into Arabidopsis by Agrobacterium tumefaciens transformation. A stable En/Spm transposase source under control of the CaMV 35S promoter mediated frequent transposition of I/dSpm elements. Transposition occurred continuously throughout plant development over at least seven consecutive plant generations after transformation. New insertions were found at both linked and unlinked positions relative to a transposon donor site. The independent transposition frequency was defined as a transposition parameter, which quantified the rate of unique insertion events and ranged from 7.8% to 29.2% in different populations. An increase as well as a decrease in I/dSpm element copy number was seen at the individual plant level, but not at the population level after several plant generations. The continuous, frequent transposition observed for this transposon system makes it an attractive tool for use in gene tagging in Arabidopsis.     

Responses of Arabidopsis thaliana to bicarbonate-induced iron deficiency

Morpho-physiological and biochemical responses of Arabidopsis thaliana (accession N1438) to bicarbonate-induced iron deficiency were investigated. Plants were grown in cabinet under controlled conditions, in a nutrient solution containing 5 μM Fe, added or not with 10 mM NaHCO₃. After 30 days, bicarbonate-treated plants displayed significantly lower biomass, leaf number and leaf surface area as compared to control plants, and slight yellowing of their younger leaves was observed. Potassium (K⁺) content was not modified by bicarbonate treatment in roots, whereas it was significantly diminished in shoots. Their content in ferrous iron (Fe²⁺) and in leaf total chlorophylls was noticeably lower than in control plants. Root Fe(III)-chelate reductase and phosphoenolpyruvate carboxylase (PEPC) activities were significantly enhanced, but leaf ribulose 1.5-bisphosphate carboxylase (Rubisco) activity was decreased.     

SMB基因与拟南芥细胞脱分化

应用Affymetrix基因芯片技术研究脱分化过程的全基因组表达情况,分析拟南芥叶柄细胞在脱分化过程中的差异表达基因。结果显示:(1)脱分化叶柄有4 222个基因表现出2倍或以上的表达差异,其中1 684个基因表达上调,2 538个基因表达下调。(2)半定量RT-PCR对部分差异表达基因进行验证,进一步筛选出参与拟南芥脱分化候选基因SMB(SOMBRERO)。(3)实时PCR结果表明,野生型叶柄诱导脱分化时,SMB基因表达量随着诱导时间延长而逐渐增加。(4)SMB基因功能缺失突变体smb-3经CIM诱导很难形成愈伤组织;在激素诱导不同时间段,smb-3叶柄没有明显脱分化现象,SMB基因缺失造成拟南芥叶柄脱分化障碍。研究表明,SMB基因参与拟南芥叶柄细胞脱分化过程。     

拟南芥基因密码子偏爱性分析

密码子偏爱性对外源基因的表达强度有一定影响,特别是编码蛋白质N端7～8个氨基酸残基的密码子.通过对拟南芥染色体中26 827个蛋白质对应的基因密码子进行分析,得到了编码氨基酸的61种密码子在拟南芥中的使用频率,并与大肠杆菌和哺乳动物进行了比较,结果表明三者间的密码子偏爱性有较大差异.这一分析结果对于动物基因在植物中的表达,及植物基因在微生物中的表达具有一定指导意义.同时提供了一种直接以XML文档为数据源解析巨型XML格式染色体数据的方法.     

AtNHX5基因过量表达对拟南芥耐盐性的影响

为了研究AtNHX5基因在植物耐盐中的作用,构建了植物过量表达载体pROKⅡ-AtNHX5,并转化拟南芥。结果显示:(1)RT-PCR检测表明,转基因拟南芥中AtNHX5基因的表达大幅提高。(2)对转基因纯合株系进行耐盐性分析显示,AtNHX5过量表达提高了植株在种子萌发和苗期的耐盐性。(3)转基因植株在盐处理下的干重、鲜重以及地上部分Na+、K+含量均高于野生型对照。在200mmol/L NaCl处理下,以转基因株系a1-4为例,其地上部分单株鲜重、单株干重、K+含量分别是野生型的1.27、1.54、1.16倍,较野生型显著升高。研究表明,过量表达AtNHX5基因促进了盐胁迫下转基因植株对K+的吸收,转基因拟南芥的耐盐性明显提高。     

Expression of a yeast polygalacturonase gene in Arabidopsis thaliana

Polygalacturonases are enzymes involved in plant cell wall growth and reorganization. Transgenic Arabidopsis thaliana plants with a Saccharomyces cerevisiae endopolygalacturonase gene (PGU1) were obtained. The yeast gene was properly expressed in the plants as it has been shown by RT-PCR as well as by the increase in the endopolygalacturonase activity. The transgenic plants showed conspicuous malformations in early stages of development probably due to a weak cell adhesion. On the other hand, adult plants exhibited almost no phenotypic differences as compared to the wild type plants, this suggesting the appearance of some mechanisms on the plant side to counteract the effect of the overexpressed polygalacturonase.     

Evolutionary origins of Brassicaceae specific genes in Arabidopsis thaliana

Background  

All sequenced genomes contain a proportion of lineage-specific genes, which exhibit no sequence similarity to any genes outside the lineage. Despite their prevalence, the origins and functions of most lineage-specific genes remain largely unknown. As more genomes are sequenced opportunities for understanding evolutionary origins and functions of lineage-specific genes are increasing.     

Auxin-resistant mutants of Arabidopsis thaliana with an altered morphology

Summary Mutant lines of Arabidopsis thaliana resistant to the artificial auxin 2,4-dichloro phenoxyacetic acid (2,4-D) were isolated by screening for growth of seedlings in the presence of toxic levels of 2,4-D. Genetic analysis of these resistant lines indicated that 2,4-D resistance is due to a recessive mutation at a locus we have designated Axr-1. Mutant seedlings were resistant to approximately 50-fold higher concentrations of 2,4-D than wild-type and were also resistant to 8-fold higher concentrations of indole-3-acetic acid (IAA) than wild-type. Labelling studies with (¹⁴C)2,4-D suggest that resistance was not due to changes in uptake or metabolism of 2,4-D. In addition to auxin resistance the mutants have a distinct morphological phenotype including alterations of the roots, leaves, and flowers. Genetic evidence indicates that both auxin resistance and the morphological changes are due to the same mutation. Because of the pleiotropic morphological effects of these mutations the Axr-1 gene may code for a function involved in auxin action in all tissues of the plant.     

Analysis of naturally occurring late flowering in Arabidopsis thaliana

Summary We have examined the late-flowering behavior of two ecotypes of Arabidopsis thaliana, Sf-2 and Le-0. The late-flowering trait segregates as a single dominant gene in crosses with the early-flowering Columbia ecotype. This gene, which we refer to as FLA, is located at one end of chromosome 4 between RFLP markers 506 and 3843 and is thus distinct from previously mapped genes that affect flowering time. The extreme delay in flowering time caused by the FLA gene can be overcome by vernalization in both the ecotypes in which it occurs naturally and in the Columbia ecotype into which this gene has been introgressed.     

花色素苷对拟南芥耐盐性的影响

为探讨花色素苷在盐胁迫中的防御作用及其机制,以模式植物拟南芥(Arabidopsis thaliana)花色素苷合成途径相关基因缺失突变体(DFR基因缺失突变体tt3,CHS基因缺失突变体tt4,CHS、DFR基因双缺失突变体tt3tt4)及其野生型(WT)为材料,采用叶绿素荧光和超氧阴离子(O_2·~–)组织定位等方法,分析了tt3,tt4,tt3tt4和WT对盐胁迫处理的生理响应。结果表明,盐胁迫下3种缺失突变体叶片花色素苷含量的增加显著低于野生型,与WT相比,叶绿素荧光参数Fv/Fm、Yield、ETR、q P和NPQ下降较快,膜渗漏率升高显著,叶片O_2·~–积累程度为tt3tt4tt3/tt4WT。这表明花色素苷在植物抵御盐胁迫过程中起着重要作用,它可能是作为渗透调节剂及抗氧化剂来增强植物的耐盐性。因此,花色素苷含量可以作为筛选耐盐作物的指标。     

拟南芥细胞异三聚体G蛋白的分离纯化

以拟南芥哥伦比亚Columbia(Col-0)野生型悬浮培养细胞为材料,采用超声波破碎、匀浆、离心、40%~60%饱和度硫酸铵分步沉淀、Sephadex G-25脱盐、DEAE-Sepharose Fast Flow离子交换、Sephadex G-200凝胶过滤,最后经过Sepharose CL-6B得到纯化的目的蛋白,蛋白收率为0.097%。纯化的蛋白质经非变性聚丙烯酰胺凝胶电泳鉴定显示为一条带,经Western blotting证实为G蛋白。把经Native-PAGE鉴定的蛋白质的条带回收,进行SDS-PAGE显示有3条带。一条是Gα亚基,其分子量为60kDa左右;另外2条带分子量为45kDa和35kDa,可能是β、γ亚基,初步证实拟南芥中存在异三聚体G蛋白。G蛋白提取方法的建立为在基因突变型拟南芥中G蛋白功能的研究奠定基础。     

GFP基因在新疆小拟南芥和拟南芥中的表达分析

以质粒pMCB30为模板,扩增GFP基因,连接到载体pCMBIA2300-35S-OCS上,构建过量表达载体p35S:GFP,将其转入农杆菌GV3101.通过农杆菌介导法将p35S:GFP载体分别转入新疆特色植物小拟南芥和拟南芥中.T0代经含有卡那霉素的1/2MS培养基筛选,获得了T1代转基因小拟南芥2株,T1代转基因拟南芥9株.通过激光共聚焦显微镜观察,在转基因小拟南芥和拟南芥的根尖细胞中均可检测到GFP绿色荧光蛋白;对转基因植株进行PCR扩增,均可检测到GFP基因,表明GFP基因已成功转入小拟南芥和拟南芥中.该研究建立了小拟南芥的遗传转化体系,为进一步利用GFP基因和进一步研究小拟南芥的功能基因奠定基础.