Differential allelic expression of IL13 and CSF2 genes associated with asthma

An important area of genetic research is the identification of functional mechanisms in polymorphisms associated with diseases. A highly relevant functional mechanism is the influence of polymorphisms on gene expression levels (differential allelic expression, DAE). The coding single nucleotide polymorphisms (SNPs) CSF2^rs25882 and IL13^rs20541 have been associated with asthma. In this work, we investigated whether the mRNA expression levels of CSF2 or IL13 were correlated with these SNPs. Samples were analyzed by mass spectrometry-based quantification of gene expression. Both SNPs influenced gene expression levels (CSF2^rs25882: p_overall = 0.008 and p_{DAE samples} = 0.00006; IL13^rs20541: p_overall = 0.059 and p_{DAE samples} = 0.036). For CSF2, the expression level was increased by 27.4% (95% CI: 18.5%–35.4%) in samples with significant DAE in the presence of one copy of risk variant CSF2^rs25882-T. The average expression level of IL13 was increased by 29.8% (95% CI: 3.1%–63.4%) in samples with significant DAE in the presence of one copy of risk variant IL13^rs20541-A. Enhanced expression of CSF2 could stimulate macrophages and neutrophils during inflammation and may be related to the etiology of asthma. For IL-13, higher expression could enhance the functional activity of the asthma-associated isoform. Overall, the analysis of DAE provides an efficient approach for identifying possible functional mechanisms that link disease-associated variants with altered gene expression levels.     

Use of QTL analysis in physiological research

Quantitative trait locus (QTL) analysis is a powerful approach to map and subsequently identify genes involved in complex traits. Here we describe the basic principles and recent achievements of this method, and its application in physiological research in plants. The rapidly increasing amount of molecular and “omics” data and genetic resources and tools, in model species (Arabidopsis) and crops, will greatly support and stimulate the use of this approach in the near future. Published in Russian in Fiziologiya Rastenii, 2007, Vol. 54, No. 1, pp. 15–21. The text was submitted by the authors in English.     

Laser capture microdissection for the analysis of gene expression during embryogenesis of Arabidopsis

It is during embryogenesis that the body plan of the developing plant is established. Analysis of gene expression during embryogenesis has been limited due to the technical difficulty of accessing the developing embryo. Here we demonstrate that laser capture microdissection can be applied to the analysis of embryogenesis. We show how this technique can be used in concert with DNA microarray for the large-scale analysis of gene expression in apical and basal domains of the globular-stage and heart-stage embryo, respectively, when critical events of polarity, symmetry and biochemical differentiation are established. This high resolution spatial analysis shows that up to approximately 65% of the genome is expressed in the developing embryo, and that differential expression of a number of gene classes can be detected. We discuss the validity of this approach for the functional analysis of both published and previously uncharacterized essential genes.     

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.     

拟南芥不定芽发生早期的数字基因表达谱分析

目前,有关不定芽发生的研究主要集中在单基因的调控方面,缺乏转录组方面的系统研究.利用RNA-seq高通量测序技术在全基因组范围内检测了不定芽发生早期的基因表达谱,共检测到2457个差异表达基因.这些基因参与了激素代谢和信号转导、愈伤组织和侧根的形成、茎顶端分生组织的发育和光合作用等过程.进一步的途径富集分析表明,不定芽发生早期苯丙氨酸代谢和苯丙胺素合成等途径相关的基因显著富集.并且苯丙氨酸可以显著抑制不定芽的发生,暗示了苯丙氨酸代谢和苯丙胺素的合成可能在不定芽发生过程起着重要的作用.     

小拟南芥MKK基因家族全基因组鉴定及进化和表达分析

丝裂原活化蛋白激酶激酶(mitogen-activated protein kinase kinase,MAPKK或MKK)是丝裂原活化蛋白激酶(mitogen-activatedproteinkinase,MAPK)级联的重要组成部分,在植物的生长发育和胁迫应答过程中发挥重要作用。目前,已在多种植物中鉴定了MKK基因家族,但在十字花科植物小拟南芥(Arabidopsis pumila)中MKK基因家族的系统鉴定与分析尚未见报道。为了探索小拟南芥MKK基因家族的进化和功能,本研究通过全基因组分析鉴定了小拟南芥中16个MKK基因,散布于小拟南芥的10条染色体上。基于系统发育分析和多重序列比对,将这些基因分为5个亚族:A亚族(5个)、B亚族(2个)、C亚族(4个)、D亚族(3个)和E亚族(2个)。分子进化和共线性分析表明小拟南芥中存在7对复制基因,分别是ApMKK1-1/1-2、ApMKK2-1/2-2、ApMKK3-1/3-2、ApMKK4-1/4-2、ApMKK5-1/5-2、ApMKK9-1/9-2和ApMKK10-1/10-2,其中ApMKK1-1/1-2在复制事件之后发生了加速进化。结合ApMKKs启动子区的顺式元件分布和ApMKKs在成熟叶片、茎、花和果实以及盐胁迫下的表达模式,结果发现复制基因的表达具有组织特异性和功能多样性。部分复制基因在组织中的表达模式存在差异,但在盐胁迫下的表达模式却基本相同。本研究结果为解析MKK介导的小拟南芥发育过程和非生物胁迫信号转导通路的复杂机制奠定了基础。     

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.     

细菌卤代烷烃脱卤酶基因在拟南芥菜中的高效表达

报道了细菌Xanthobacter autotrophicus编码卤代烷烃脱卤酶基因在拟南芥菜中的高效表达。以土壤农杆菌介导将该基因整合到拟南芥菜基因组中,经数代筛选得到了转基因纯合种子,Northern印迹和气相色谱检测表明,转基因的表达程度很高,酶量占细胞总可溶性蛋白的8%,酶活力达7.8mU·ml^-1提取物。转基因植株在含二氯乙烷的培养基上不能生长。     

An Arabidopsis embryonic lethal mutant with reduced expression of alanyl—t RNA synthetase gene

In present paper,one of the T-DNA insertional embryonic lethal mutant of Arabidopsis is identified and designated as acd mutant.The embryo developmant of this mutant is arrested in globular stage,The cell division pattern is abnormal during early embryogenesis and results in distubed cellular differentiation.Most of mutant embryos are finally degenerated and aborted in globular stage,However,a few of them still can germinate in agar palte and produce seedlings with shoter hypoctyl and distorted shoot meristem.To understand the molecular basis of the phenotype of this mutant,the joint fragment of T-DNA/plant DNA is isolated by plasmid rescue and Dig-labeled as probe for cDNA library screening.According to the sequence analysis and similarity searching,a 936 bp cDNA sequence(EMBL accession #:Y12555)from selectoed positive clone shows a 99.8%(923/925bp) sequence homolgy with Alanyl-tRNA Synthetase(AlaRS) gene of Arabidopsis thaliana.Furthermore,the data of in situ hybridization experiment indicate that the expression of Ala RS gene is weak in early embryogenesis and declines along with globular embryodevelopment in this mutant Accordingly,the reduced expression of Ala RS gene may be closely related to the morphological changes in early embryogenesis of this lethal mutant.     

拟南芥AtcpSecA基因表达的特异性

前期研究表明AtcpSecA基因的突变使叶绿体发育缺陷,内部缺少正常类囊体片层结构,叶片呈黄白色。在此基础上我们进一步研究AtcpSecA基因的表达特异性,并构建了AtcpSecA基因启动子与报告基因GUS的融合基因AtcpSecA：：GUS,以农杆菌介导方法转化获得转基因拟南芥。GUS组织化学染色结果表明,在AtcpSecA：：GUS转基因拟南芥的下胚轴、子叶、叶片、果柄等绿色组织中有很强的GUS活性,而在根、花序和种荚等非绿色组织中几乎没有GUS活性。降低培养基中琼脂浓度转基因拟南芥中AtcpSecA：：GUS基因的表达明显受抑制,暗中则显著受到促进。     

Identification,sequence analysis and expression studies of novel anther-specific genes of Arabidopsis thaliana

Relatively little is known about pollen development at the molecular level. For the purpose of gaining understanding of the molecular control of pollen development, a number of Arabidopsis cDNA fragments were isolated using subtractive hybridizations. DNA and RNA hybridizations and sequence analyses indicate that we have isolated cDNAs representing 13 genes. Sequences for 8 of these genes are novel, while those for the remaining 5 genes have substantial similarity to genes previously reported as anther- or pollen-specific. RNA in situ hybridizations with 5 genes revealed that four of them are tapetum-specific with differing temporal expression patterns during pollen development and one is pollen-specific within the flower. Sequence analysis of full-length cDNAs showed that one of the novel genes, ATA7, encodes a protein related to lipid transfer proteins. Another gene, ATA20, encodes a protein with novel repeat sequences and a glycine-rich domain that shares a predicted structure with a known cell wall protein. The full-length ATA27 cDNA encodes a protein similar to the BGL4 -glucosidase from Brassica napus. The ATA27 protein is predicted to have an ER retention signal and an acidic isoelectric point, suggesting that it may be localized to the ER lumen. This may be a means of compartmentalization from its substrate(s). Our studies demonstrate that subtractive hybridizations can be used to identify previously unknown genes, which should be valuable tools for further study of pollen and anther development and function.     

The effects of a stimulating intron on the expression of heterologous genes in Arabidopsis thaliana

Introns are often added to transgenes to increase expression, although the mechanism through which introns stimulate gene expression in plants and other eukaryotes remains mysterious. While introns vary in their effect on expression, it is unknown whether different genes respond similarly to the same stimulatory intron. Furthermore, the degree to which gene regulation is preserved when expression is increased by an intron has not been thoroughly investigated. To test the effects of the same intron on the expression of a range of genes, GUS translational fusions were constructed using the promoters of eight Arabidopsis genes whose expression was reported to be constitutive (GAE1, CNGC2 and ROP10), tissue specific (ADL1A, YAB3 and AtAMT2) or regulated by light (ULI3 and MSBP1). For each gene, a fusion containing the first intron from the UBQ10 gene was compared to fusions containing the gene's endogenous first intron (if the gene has one) or no intron. In every case, the UBQ10 intron increased expression relative to the intronless control, although the magnitude of the change and the level of expression varied. The UBQ10 intron also changed the expression patterns of the CNGC2 and YAB3 fusions to include strong activity in roots, indicating that tissue specificity was disrupted by this intron. In contrast, the regulation of the ULI3 and MSBP1 genes by light was preserved when their expression was stimulated by the intron. These findings have important implications for biotechnology applications in which a high level of transgene expression in only certain tissues is desired.