Classification of Genes Differentially Expressed during Water-deficit Stress in Arabidopsis thaliana: an Analysis using Microarray and Differential Expression Data

Many changes in gene expression occur in response to water-deficitstress. A challenge is to determine which changes support plantadaptation to conditions of reduced soil water content and whichoccur in response to lesions in metabolic and cellular functions.Microarray methods are being employed to catalogue all of thechanges in gene expression that occur in response to specificwater-deficit conditions. Although these methods do not measurethe amount or activities of specific proteins that functionin the water-deficit response, they do target specific biochemicaland cellular events that should be detailed in further work.Potential functions of approx. 130 genes of Arabidopsis thalianathat have been shown to be up-regulated are tabulated here.These point to signalling events, detoxification and other functionsinvolved in the cellular response to water-deficit stress. Asmicroarray techniques are refined, plant stress biologists willbe able to characterize changes in gene expression within thewhole genome in specific organs and tissues subjected to differentlevels of water-deficit stress.     

Nucleotide sequence of psbQ gene for 16-kDa protein of oxygen-evolving complex from Arabidopsis thaliana and regulation of its expression.

The psbQ gene encoding a 16-kDa polypeptide of the oxygen-evolving complex of photosystem II has been isolated from Arabidopsis thaliana and characterized. The gene consists of a 28 nucleotide long leader sequence, two introns and three exons encoding a 223-amino-acid precursor polypeptide. The first 75 amino acids act as a transit peptide for the translocation of the polypeptide into the thylakoid lumen. Expression studies show that the gene is light-inducible and expresses only in green tissues with high steady-state mRNA levels in leaves. Using this gene as a probe, restriction fragment length polymorphism between two ecotypes, Columbia and Estland, has also been detected.     

More plant growth but less plant defence? First global gene expression data for plants grown in soil amended with biochar

Biochar is a carbon (C)-rich solid formed when biomass is used to produce bioenergy. This ‘black carbon’ has been suggested as a solution to climate change, potentially reducing global anthropogenic emissions of greenhouse gases by 12%, as well as promoting increased crop growth. How biochar application to soil leads to better crop yields remains open to speculation. Using the model plant Arabidopsis and the crop plant lettuce (Lactuca sativa L.), we found increased plant growth in both species following biochar application. Statistically significant increases for Arabidopsis in leaf area (130%), rosette diameter (61%) and root length (100%) were observed with similar findings in lettuce, where biochar application also increased leaf cell expansion. For the first time, global gene expression arrays were used on biochar-treated plants, enabling us to identify the growth-promoting plant hormones, brassinosteroid and auxin, and their signalling molecules, as key to this growth stimulation, with limited impacts on genes controlling photosynthesis. In addition, genes for cell wall loosening were promoted as were those for increased activity in membrane transporters for sugar, nutrients and aquaporins for better water and nutrient uptake and movement of sugars for metabolism in the plant. Positive growth effects were accompanied by down-regulation of a large suite of plant defence genes, including the jasmonic acid biosynthetic pathway, defensins and most categories of secondary metabolites. Such genes are critical for plant protection against insect and pathogen attack, as well as defence against stresses including drought. We propose a conceptual model to explain these effects in this biochar type, hypothesizing a role for additional K⁺ supply in biochar amended soils, leading to Ca²⁺ and Reactive Oxygen Species (ROS) –mediated signalling underpinning growth and defence signalling responses.     

Expression of new mutant alleles of AS1 and AS2 genes controlling leaf morphogenesis in Arabidopsis thaliana

We have studied the morphology and vein branching of rosette leaves in Arabidopsis thaliana mutants as and sa, which proved to be alleles of the A.thaliana AS1 and AS2 genes, respectively. We have also analyzed the localization of bioactive auxin, as measured by the expression of the DR5::GUS transgene, as well as the expression patterns of BP, as measured by the expression of the BP::GUS transgene in leaves of the mutants. In mature leaves of the mutants, BP was expressed ectopically. Furthermore, the mutants showed some defects in the localization and concentration of free auxin compared to the wild type. Our results of studying new alleles of AS1 and AS2 support their role in control of class I KNOX genes and auxin transport.     

单胚RT-PCR:基因表达动态研究及应用技术探讨

为进一步探讨单胚RT-PCR技术的适用性,我们测试了3个特定的基因STM、MP和ASKη在拟南芥(Arabidopsisthaliana(L.)Heynh.)早期胚胎发生过程中的动态表达情况.进一步证实以该技术研究某些特定基因的表达动态是可行的.着重探讨了扩增产量与模板量的对应关系、基因组DNA的干扰以及DNase Ⅰ处理过程中的mRNA降解等主要技术问题.结果表明:材料制备时显微操作技术的稳定是确保单胚RT-PCR结果稳定的关键.应尽量缩短DNaseⅠ处理时间,以避免mRNA降解.     

细叶百合LpPEX7基因克隆及盐胁迫下的表达特性分析

从细叶百合的鳞茎中克隆出过氧化物酶体生物合成蛋白基因（LpPEX7）,该基因ORF全长957 bp,编码318个氨基酸。LpPEX7蛋白序列包含6个WD40保守结构域,通过同源蛋白序列比对和进化树分析,发现LpPEX7与其他植物的PEX7蛋白具有较高的同源性。LpPEX7基因在细叶百合种子,叶片和鳞茎中的表达量比较高,在根和花中表达量比较低,在H₂O₂,NaCl,NaHCO₃不同逆境处理条件下,LpPEX7基因的表达量都发生了改变。在盐碱和氧化胁迫处理下,LpPEX7过表达拟南芥株系种子的萌发要早于野生型种子的萌发,这些研究结果表明LpPEX7基因与盐碱、氧化逆境有一定的应答关系,为细叶百合的耐盐碱性分子机理研究提供一个非常重要的候选基因。     

Heavy Metal Induction of Arabidopsis Serine Decarboxylase Gene Expression

Serine (Ser) decarboxylase (SDC) catalyzes the conversion of Ser to ethanolamine (EA) in plants, while the physiological implications of the enzyme activity remain elusive. Here, we report that SDC gene expression in Arabidopsis was greatly induced by treatments with Ni²⁺ (24-fold) and Mn²⁺ (4-fold), and discuss possible genetic engineering strategies using the SDC gene for environmental stress management.     

Induction of defence gene expression by oligogalacturonic acid requires increases in both cytosolic calcium and hydrogen peroxide in Arabidopsis thaliana

Responses to oligogalacturonic acid (OGA) were determined in transgenic Arabidopsis thaliana seedlings express-ing the calcium reporter protein aequorin. OGA stimulated a rapid, substantial and transient increase in the concentration of cytosolic calcium ([Ca^2 ]cyt) that peaked after ca. 15 s. This increase was dose-dependent, saturating at ca. 50 μg Gal equiv/ml of OGA. OGA also stimulated a rapid generation of H202. A small, rapid increase in H2O2 content was followed by a much larger oxidative burst, with H2O2 content peaking after ca. 60 min and declining thereafter. Induction of the oxidative burst by OGA was also dose-dependent, with a maximum response again being achieved at ca. 50 μg Gal equiv/mL. Inhibitors of calcium fluxes inhibited both increases in [Ca^2 ]cyt and [H2O2], whereas inhibitors of NADPH oxidase blocked only the oxidative burst. OGA increased strongly the expression of the defence-related genes CHS,GST, PAL and PR-1. This induction was suppressed by inhibitors of calcium flux or NADPH oxidase, indicating that increases in both cytosolic calcium and H2O2 are required for OGA-induced gene expression.     

单胚RT-PCR：基因表达动态研究及应用技术探讨

为进一步探讨单胚RT-PCR技术的适用性,我们测试了3个特定的基因STM、MP和ASKη在拟南芥(Arabidopsisthaliana(L.)Heynh.)早期胚胎发生过程中的动态表达情况。进一步证实以该技术研究某些特定基因的表达动态是可行的。着重探讨了扩增产量与模板量的对应关系、基因组DNA的干扰以及DNaseⅠ处理过程中的mRNA降解等主要技术问题。结果表明:材料制备时显微操作技术的稳定是确保单胚RT-PCR结果稳定的关键。应尽量缩短DNaseⅠ处理时间,以避免mRNA降解。     

Enhancer-mediated reporter gene expression in Arabidopsis thaliana: a forward genetic screen

Gene expression is controlled and regulated by interactions between cis-regulatory DNA elements (CREs) and regulatory proteins. Enhancers are one of the most important classes of CREs in eukaryotes. Eukaryotic genes, especially those related to development or responses to environmental cues, are often regulated by multiple enhancers in different tissues and/or at different developmental stages. Remarkably, little is known about the molecular mechanisms by which enhancers regulate gene expression in plants. We identified a distal enhancer, CREβ, which regulates the expression of AtDGK7, which encodes a diacylglycerol kinase in Arabidopsis. We developed a transgenic line containing the luciferase reporter gene (LUC) driven by CREβ fused with a minimal cauliflower mosaic virus (CaMV) 35S promoter. The CREβ enhancer was shown to play a role in the response to osmotic pressure of the LUC reporter gene. A forward genetic screen pipeline based on the transgenic line was established to generate mutations associated with altered expression of the LUC reporter gene. We identified a suite of mutants with variable LUC expression levels as well as different segregation patterns of the mutations in populations. We demonstrate that this pipeline will allow us to identify trans-regulatory factors associated with CREβ function as well as those acting in the regulation of the endogenous AtDGK7 gene.     

Identification of the tobacco and Arabidopsis homologues of the pollen-expressed LAT59 gene of tomato

We describe the complete genomic sequences for the tobacco and Arabidopsis homologues of tomato LAT59, a previously described member of a family of pectate lyase-like genes. Translation of the tobacco gene, Nt59, predicts a protein with 93.5% overall amino acid similarity to LAT59. Nt59 has two introns whose positions are exactly conserved with the two introns of LAT59. Both LAT59 and Nt59 are specifically expressed in pollen and their promoter and 5-UTR sequences are highly similar. Furthermore, two promoter elements shown to be important for pollen expression of LAT59 are conserved in the Nt59 promoter. The Arabidopsis homologue, At59, was found by examination of four candidates. At59 has 72.6% amino acid similarity to LAT59 and the position of one of its two introns is conserved with one of the LAT59 introns. At59 is also pollen-expressed and although its promoter sequence is quite different from the Nt59 and LAT59 promoters, the two promoter elements are somewhat conserved.     

A cluster of five cell wall-associated receptor kinase genes,Wak1–5, are expressed in specific organs of Arabidopsis

WAK1 (wall-associated kinase 1) is a cytoplasmic serine/threonine kinase that spans the plasma membrane and extends into the extracellular region to bind tightly to the cell wall. The Wak1 gene was mapped and found to lie in a tight cluster of five highly similar genes (Wak1–5) within a 30 kb region. All of the Wak genes encode a cytoplasmic serine/threonine protein kinase, a transmembrane domain, and an extracytoplasmic region with several epidermal growth factor (EGF) repeats. The extracellular regions also contain limited amino acid identities to the tenascin superfamily, collagen, or the neurexins. RNA blot analysis with gene-specific probes revealed that Wak1, Wak3 and Wak5 are expressed primarily in leaves and stems of Arabidopsis. Wak4 mRNA is only detected in siliques, while Wak2 mRNA is found in high levels in leaves and stems, and in lower levels in flowers and siliques. A trace amount of Wak2 can also be detected in roots. Wak1 is induced by pathogen infection and salicylic acid or its analogue INA and is involved in the plant's response, and Wak2, Wak3 and Wak5 also can be greatly induced by salicylic acid or INA. The WAK proteins have the potential to serve as both linkers of the cell wall to the plasma membrane and as signaling molecules, and since Wak expression is organ-specific and the isoforms vary significantly in the cell wall associated domain this family of proteins may be involved in cell wall-plasma membrane interactions that direct fundamental processes in angiosperms.     

拟南芥反应调节因子研究进展

反应调节因子是His_Asp磷酸转移信号传导途径的重要组分。它通过在保守的Asp残基上接受由感受器转移而来的磷酸基团对下游基因进行调控 ,以对环境刺激作出反应。在高等植物拟南芥中已经发现 1 4种反应调节因子 ,它们可分为A ,B两种亚型。在结构上 ,B亚型反应调节因子的B盒序列和较长的C末端延伸使其具有转录因子的作用 ;在表达特性上 ,A亚型反应调节因子的转录受细胞分裂素和硝酸盐诱导 ;在生化特性上 ,A亚型反应调节因子具有磷酸化酶活性 ,而B亚型反应调节因子可能是AHPs的磷酸提供者