拟南芥未知功能基因At3g61870编码蛋白的叶绿体定位研究

利用反向遗传学研究方法对1个预测的拟南芥叶绿体未知功能基因At3g61870编码蛋白进行了亚细胞定位研究.通过克隆At3g61870基因5′端长229 bp的DNA片段,与绿色荧光蛋白(GFP)基因构建重组表达载体pMON530-CP-TP-GFP,经农杆菌介导转化拟南芥.转基因植株的叶肉细胞经激光共聚焦显微镜观察,叶绿素自发荧光与GFP荧光共定位于叶绿体中.结果表明,未知功能基因At3g61870编码的蛋白质为叶绿体蛋白质.     

拟南芥未知功能基因At4g22890编码蛋白的叶绿体定位

蛋白质的亚细胞定位信息对于深入了解该蛋白质的功能具有重要意义。本文对一个预测的拟南芥叶绿体未知功能基因At4g22890编码蛋白进行了叶绿体定位研究。我们克隆了该基因5′端长208bp的DNA片段,与绿色荧光蛋白(GFP)基因构建重组表达载体pMON530-cTP-GFP,经农杆菌介导转化拟南芥。转基因植株经激光共聚焦显微镜观察,GFP荧光仅在叶绿体中观察到,表明所克隆的DNA序列编码的多肽能够将At4g22890编码蛋白质引导进入叶绿体,由此推测该蛋白质为叶绿体蛋白质。     

两个拟南芥未知功能蛋白的亚细胞定位研究

蛋白质的亚细胞定位对于深入了解该蛋白质所行使的生理功能具有重要意义。经生物信息学预测,两个拟南芥未知功能基因At4g16410与Atl gI8060编码蛋白含有叶绿体定位信息。我们分别克隆了这两个基因5’端长199bp与220bp的DNA片段,与绿色荧光蛋白（GFP）基因构建重组表达载体pMON530-cTP1-GFP与pMON530-cTP2-GFP,经农杆菌介导转化拟南芥。两种转基因植株经激光共聚焦显微镜观察,GFP荧光仅在叶绿体中观察到,表明所克隆的两段DNA序列编码的多肽能够将At4gl6410与Atlgl8060编码蛋白质引导进入叶绿体,确定这两个蛋白质均为叶绿体蛋白质。     

拟南芥未知功能基因At4g22890 编码蛋白的叶绿体定位

蛋白质的亚细胞定位信息对于深入了解该蛋白质的功能具有重要意义。本文对一个预测的拟南芥叶绿体未知功能基因At4g22890 编码蛋白进行了叶绿体定位研究。我们克隆了该基因5′端长208 bp 的DNA 片段, 与绿色荧光蛋白(GFP) 基因构建重组表达载体pMON530-cTP-GFP, 经农杆菌介导转化拟南芥。转基因植株经激光共聚焦显微镜观察, GFP 荧光仅在叶绿体中观察到, 表明所克隆的DNA 序列编码的多肽能够将At4g22890 编码蛋白质引导进入叶绿体, 由此推测该蛋白质为叶绿体蛋白质。     

Golgi 58K-like protein in pollens and pollen tubes ofLilium davidii

In animal cells, Golgi apparatus is located near the microtubule organizing center (MTOC) and its position is determined partly by 58K protein. By sodium dodecyl-sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and immuno-blotting methods, a 58K-like protein has been found in pollen grains and pollen tubes of Lilium davidii. Its molecular weight is very similar to that of the 58K protein of animal cells. By immunofluorescence labeling, under a confocal laser scanning microscope (CLSM), the animal 58K antibody revealed a punctate staining in pollen grains and pollen tubes, which is consistent with the distribution of Golgi apparatus in plant cells. In addition, immuno-gold labeling and transmission electron microscopy showed that the 58K-like protein bound mainly to the membrane of vesicles-like structure near Golgi apparatus. This is the first demonstration of the 58K-like protein in plant cells.     

Golgi 58K-like protein in pollens and pollen tubes of Lilium davidii

In animal cells, Golgi apparatus is located near the microtubule organizing center (MTOC) and its position is determined partly by 58K protein. By sodium dodecyl-sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and immuno-blotting methods, a 58K-like protein has been found in pollen grains and pollen tubes of Lilium davidii. Its molecular weight is very similar to that of the 58K protein of animal cells. By immunofluorescence labeling, under a confocal laser scanning microscope (CLSM), the animal 58K antibody revealed a punctate staining in pollen grains and pollen tubes, which is consistent with the distribution of Golgi apparatus in plant cells. In addition, immuno-gold labeling and transmission electron microscopy showed that the 58K-like protein bound mainly to the membrane of vesicles-like structure near Golgi apparatus. This is the first demonstration of the 58K-like protein in plant cells.     

A novel role for oleosins in freezing tolerance of oilseeds in Arabidopsis thaliana

Oil bodies in seeds of higher plants are surrounded with oleosins. Here we demonstrate a novel role for oleosins in protecting oilseeds against freeze/thaw-induced damage of their cells. We detected four oleosins in oil bodies isolated from seeds of Arabidopsis thaliana , and designated them OLE1, OLE2, OLE3 and OLE4 in decreasing order of abundance in the seeds. For reverse genetics, we isolated oleosin-deficient mutants ( ole1 , ole2 , ole3 and ole4 ) and generated three double mutants ( ole1 ole2 , ole1 ole3 and ole2 ole3 ). Electron microscopy showed an inverse relationship between oil body sizes and total oleosin levels. The double mutant ole1 ole2 , which had the lowest levels of oleosins, had irregular enlarged oil-containing structures throughout the seed cells. Germination rates were positively associated with oleosin levels, suggesting that defects in germination are related to the expansion of oil bodies due to oleosin deficiency. We found that freezing followed by imbibition at 4°C abolished seed germination of single mutants ( ole1 , ole2 and ole3 ), which germinated normally without freezing treatment. The treatment accelerated the fusion of oil bodies and the abnormal-positioning and deformation of nuclei in ole1 seeds, which caused seed mortality. In contrast, ole1 seeds that had undergone freezing treatment germinated normally when incubated at 22°C instead of 4°C, because degradation of oils abolished the acceleration of fusion of oil bodies during imbibition. Taken together, our findings suggest that oleosins increase the viability of over-wintering oilseeds by preventing abnormal fusion of oil bodies during imbibition in the spring.     

Effects of gene expression on molecular evolution in Arabidopsis thaliana and Arabidopsis lyrata

We analyzed the complete genome sequence of Arabidopsis thaliana and sequence data from 83 genes in the outcrossing A. lyrata, to better understand the role of gene expression on the strength of natural selection on synonymous and replacement sites in Arabidopsis. From data on tRNA gene abundance, we find a good concordance between codon preferences and the relative abundance of isoaccepting tRNAs in the complete A. thaliana genome, consistent with models of translational selection. Both EST-based and new quantitative measures of gene expression (MPSS) suggest that codon preferences derived from information on tRNA abundance are more strongly associated with gene expression than those obtained from multivariate analysis, which provides further support for the hypothesis that codon bias in Arabidopsis is under selection mediated by tRNA abundance. Consistent with previous results, analysis of protein evolution reveals a significant correlation between gene expression level and amino acid substitution rate. Analysis by MPSS estimates of gene expression suggests that this effect is primarily the result of a correlation between the number of tissues in which a gene is expressed and the rate of amino acid substitution, which indicates that the degree of tissue specialization may be an important determinant of the rate of protein evolution in Arabidopsis.     

The new understanding of Arabidopsis thaliana proteins associated with salinity

Abstract

Salt stress is a major abiotic stress limiting the productivity and the geographical distribution of many plant species. Arabidopsis thaliana is an excellent model with rich genetic resources for modern plant biology research. To comprehensively and representatively understand salt-response mechanisms in A. thaliana, we applied the first attempt to use the most data (252 of 10,469 reviewed A. thaliana protein) from public protein database for displaying the enriched protein domains, Kyoto Encyclopedia of Genes and Genomes pathways, molecular functions, and cell localizations involved in salt-response. The data were analyzed by Database for Annotation Visualization and Integrated Discovery. Our results indicated salt-response proteins cross-talked not only with drought and temperature stress as previously reported but also with further stresses such as bacterium, light, metal ion, radiation, and wounding stress. Multiple cellular localizations under salt stress indicated proteins were versatile. In addition, 27 proteins have the characteristics with response to multiple stresses and localization in multiple places. We called it the ‘space-stress’ double cross-talk effects, which indicated that A. thaliana proteins dealt with salt stress and other stresses in a reciprocal economical way. An enriched bioinformatics analysis of the large data could provide clues and basis for the development of salt-response potential biomarkers for plant growth and crop productivity.     

新疆北部拟南芥自然居群表型变异与协变

拟南芥(Arabidopsis thaliana)自然居群的表型特征代表其在自然环境下的适应状况, 不同居群间特征的对比可以为了解拟南芥表型变化规律, 进而分析其形成过程和机制提供重要线索。本研究以分布于新疆北部天山、塔尔巴哈台山和阿尔泰山的10个种群的9个表型性状为基础, 对比分析了小尺度、局域尺度和区域尺度环境下原生境拟南芥种群表型性状的变化。结果发现, 不同性状对环境变化的反应不同, 其中株高、株重、根重、根长、单个果实重、果实开裂力度在3种环境尺度下种群间的差异均达到极显著水平, 而分枝数、果实长度的种群间变化不显著, 种群间的表型分化系数较低。不同环境尺度下株重、根重、单株果数均表现出一致的协变格局, 反映了生理功能性状之间整合对拟南芥适应环境的重要性。同时, 各种群间整体的性状协变差异性明显, 根长、单个果实重、分枝数、果实长度、果实开裂力度等特征与其他特征协变具有明显的局部性, 局域尺度和区域尺度环境之间的变化较大。聚类分析发现区域尺度上的不同种群聚合在一起的现象非常突出, 进一步表明拟南芥的表型特征受微环境的强烈影响。Mantel检验表明, 小尺度上10个种群株高、株重、根重、单个果实重、果实长度、果实开裂力度6个性状变化存在显著的空间相关性, 而分枝数、根长的相关性却不显著。因此, 我们认为拟南芥表型变化受小尺度环境的影响强烈, 但在表型层面并非所有性状都与原生境气候存在遗传关联。     

ANGUSTIFOLIA negatively regulates resistance to Sclerotinia sclerotiorum via modulation of PTI and JA signalling pathways in Arabidopsis thaliana

Sclerotinia sclerotiorum is a devastating pathogen that infects a broad range of host plants. The mechanism underlying plant defence against fungal invasion is still not well characterized. Here, we report that ANGUSTIFOLIA (AN), a CtBP family member, plays a role in the defence against S. sclerotiorum attack. Arabidopsis an mutants exhibited stronger resistance to S. sclerotiorum at the early stage of infection than wild-type plants. Accordingly, an mutants exhibited stronger activation of pathogen-associated molecular pattern (PAMP)-triggered immunity (PTI) responses, including mitogen-activated protein kinase activation, reactive oxygen species accumulation, callose deposition, and the expression of PTI-responsive genes, upon treatment with PAMPs/microbe-associated molecular patterns. Moreover, Arabidopsis lines overexpressing AN were more susceptible to S. sclerotiorum and showed defective PTI responses. Our luminometry, bimolecular fluorescence complementation, coimmunoprecipitation, and in vitro pull-down assays indicate that AN interacts with allene oxide cyclases (AOC), essential enzymes involved in jasmonic acid (JA) biosynthesis, negatively regulating JA biosynthesis in response to S. sclerotiorum infection. This work reveals AN is a negative regulator of the AOC-mediated JA signalling pathway and PTI activation.     

New protein isoforms identified within Arabidopsis thaliana seed oil bodies combining chymotrypsin/trypsin digestion and peptide fragmentation analysis

Plant seed oil bodies, subcellular lipoprotein inclusions providing storage reserves, are composed of a neutral lipid core surrounded by a phospholipid monolayer with several integrated proteins that play a significant role in stabilization of the particles and probably also in lipid mobilization. Oil bodies' proteins are generally very hydrophobic, due to the long uncharged sequences anchoring them into the lipid core, which makes them extremely difficult to handle and to digest successfully. Although oil bodies have been intensively studied during last decades, not all their proteins have been identified yet. To overcome the problems connected with their identification, a method based on SDS-PAGE, in-gel digestion and LC-MS/MS analysis was used. Digestion was carried out with trypsin and chymotrypsin, single or in combination, which increased significantly the number of identified peptides, namely the hydrophobic ones. Thanks to this methodology it was possible to achieve an extensive coverage of proteins studied, to analyze their N-terminal modifications and moreover, to detect four new oil bodies' protein isoforms, which demonstrates the complexity of oil bodies' protein composition.     

拟南芥WUSCHEL蛋白的原核表达、亲和纯化和多克隆抗体制备

本研究构建了带有His标签的拟南芥(Arabidopsis thaliana)WUSCHEL基因原核表达载体pET-31b(+)-WUS-His(6),优化了大肠杆菌(Escherichia coli)诱导表达体系,将亲和层析纯化后的WUS融合蛋白,经尿素梯度透析复性溶解,免疫新西兰大白兔,成功制备了WUS蛋白多克隆抗体。通过琼脂糖免疫扩散检测确定了抗血清效价和特异性,并以斑点杂交和Western blotting检验其灵敏性。结果表明,成功构建的拟南芥WUS原核表达载体,在E.coli中以0.5mmol/L异丙基-β-D-硫代半乳糖苷(IPTG)28°C诱导表达10h后,融合蛋白得到高水平表达,亲和纯化后目标蛋白纯度达96%以上,所制备的多克隆抗体具有较高特异性和灵敏性,可用来检测纳克级蛋白抗原。     

Chromosomal location and expression of the single-copy gene encoding high-mobility-group protein HMG-I/Y in Arabidopsis thaliana

A cDNA encoding the HMG-I/Y protein from Arabidopsis thaliana has been isolated and characterised by nucleotide sequencing. The 903 bp cDNA contains a 612 bp open reading frame encoding a protein of 204 amino acid residues showing homology to HMG-I/Y proteins from other plant species. The protein contains four copies of the AT-hook motif which is involved in binding A/T-rich DNA. Southern blotting showed that the HMG-I/Y gene was present in a single copy in the Arabidopsis genome. The gene was localised to the top of chromosome 1 by RFLP analysis of F₈ recombinant inbred lines. Northern blotting showed that the gene was expressed in all organs examined, with the highest expression in flowers and developing siliques.