Properties of a tobacco DNA methyltransferase, NtMET1 and its involvement in chromatin movement during cell division

BACKGROUND AND AIMS: Plants possess three types of DNA methyltransferase, among which methyltransferase type 1 (MET1) is considered to play a major role by maintaining the CpG methylation patterns. However, little information is available as to its enzymatic activity, interacting proteins and spatial and temporal behaviours during DNA replication. In the present study, one example, NtMET1 from tobacco plants, was selected and an analysis was made of its biochemical properties and cellular localization. METHODS: NtMET1 was expressed in Sf9 insect cells, and a purified sample was subjected to a standard in vitro methylation assay. Intramolecular interaction was examined by the yeast two-hybrid and pull-down assays. Transgenic tobacco plants (Nicotiana tabacum) over-expressing NtMET1 were constructed via Agrobacterium-mediated transformation. Cellular localization was examined by fluorescence protein fusion, which was expressed in tobacco bright yellow 2 cells. KEY RESULTS: In vitro assays showed no detectable methylation activity when both hemimethylated and unmethylated DNA samples were used as the substrate. In planta assays with over-expressing transgenic lines showed no hypermethylation but rather hypomethylation of genomc DNA. The inability of methylation was conceivably due to a tight intramolecular interaction between the N- and C-terminal regions with the catalytic domain residing on the C-terminus being completely masked. Cellular localization analyses indicated that NtMET1 localized to the nucleus in the resting stage and migrates to the cytoplasm during mitosis, particularly at metaphase. The pattern observed resembled that of Ran GTPase, and in vitro pull-down assays showed a clear interaction between NtMET1 and AtRAN3, an Arabidopsis orthologue of tobacco Ran GTPase, NtRan-A1. CONCLUSIONS: The results suggest that enzymatic activity of NtMET1 is well adjusted by its own intra/intermolecular interaction and perhaps by interactions with other proteins, one of which was found to be Ran GTPase. Results also revealed that NtMET1 becomes localized to the vicinity of chromatin with the aid of Ran GTPase during cell division, and may play an important role in progress through mitosis independently of methylation activity.     

利用转基因烟草确定AtELHYPRP2蛋白对赤霉菌的抗性及其亚细胞定位特征

采用遗传转化技术获得了整合有拟南芥AtELHYPRP2(EARLI1-LIKE HYBRID PROLINE-RICH PROTEIN 2,AT4G12500)基因的转基因烟草株系,研究了该基因编码蛋白对真菌病原体赤霉菌的抗性及其亚细胞定位特征。以拟南芥Col-0生态型基因组DNA为模板,通过聚合酶链反应扩增AtELHYPRP2基因编码序列,经限制性酶切后连接至pCAMBIA1302载体,构建产生pCAMBIA1302-AtELHYPRP2-GFP融合表达载体。进一步采用农杆菌LBA4404转化烟草叶片外植体,筛选得到转基因烟草植株。RT-PCR、Western blotting印迹分析结果显示,AtELHYPRP2基因在转化体中可以有效表达。激光共聚焦显微观察发现AtELHYPRP2-GFP融合蛋白产生的绿色荧光与碘化丙啶染色后产生的红色荧光能够重合,说明AtELHYPRP2蛋白定位于细胞表面。真菌侵染实验结果显示,组成性表达AtELHYPRP2基因能够增强烟草对赤霉菌的抗性,被侵染部位有明显的H2O2积累。转基因烟草植株中PR1基因的本底表达水平比野生型高,PR1和PR5基因的系统表达水平比野生型高,说明AtELHYPRP2基因可能在SAR反应中具有一定的作用。     

Overexpression of the Arabidopsis thaliana MinD1 gene alters chloroplast size and number in transgenic tobacco plants

The Arabidopsis thaliana (L.) Heynh. minD gene (AtMinD1) was isolated and constitutively expressed in tobacco (Nicotiana tabacum L.) plants using the CaMV 35S promoter. Confocal and electron-microscopic analysis of the AtMinD1 transgenic tobacco lines revealed that the chloroplasts were abnormally large and fewer in number compared with wild-type tobacco plants. The abnormal chloroplasts were less prevalent in guard cells than in mesophyll cells. Chloroplast and nuclear gene expression was not significantly different in AtMinD1-overexpressing plants relative to wild-type tobacco plants. Chloroplast DNA copy number was not affected, based on the relative level of the rbcL gene in transgenic plants. Transgenic tobacco plants constitutively overexpressing AtMinD1 were completely normal phenotypically with respect to growth and development, and also displayed normal photosynthetic electron transport rates. These results show that the Arabidopsis MinD1 gene also functions in a heterologous system and confirm the role of the MinD protein in regulation of chloroplast division.     

Overexpression of plant uncoupling mitochondrial protein in transgenic tobacco increases tolerance to oxidative stress

An Arabidopsis thaliana cDNA clone encoding a plant uncoupling mitochondrial protein (AtPUMP1) was overexpressed in transgenic tobacco plants. Analysis of the AtPUMP1 mRNA content in the transgenic lines, determined by Northernblot, revealed variable levels of transgene expression. Antibody probing ofWestern blots of mitochondrial proteins from three independent transgenic lines showed significant accumulation of AtPUMP1 in this organelle. Overproduction of AtPUMP1 in transgenic tobacco plants led to a significantincrease in tolerance to oxidative stress promoted by exogenous hydrogen peroxide as compared to wild-type control plants. These results provide thefirst biological evidence for a role of PUMP in protection of plant cells against oxidative stress damage.     

Newly developed MSAP analysis reveals the different polymorphism patterns in transgenic tobacco plants with the dsRNA MET1 gene

DNA methylation is known to play an important role in the regulation of gene expression in eukaryotes. In this study, we isolated NtMET1 from Nicotiana tabacum cv. Havana (SR1) and obtain transgenic plants that reduced MET1 expression level with the double-strand RNA (dsRNA) MET1 gene. Transgenic tobacco plants showed dwarf and abnormal flower development when compared with the wild type. Using methylation-sensitive amplified polymorphism (MSAP) analysis, the patterns of cytosine methylation in transformed plants and the wild type were compared. MseI/HpaII selection primers showed an interesting polymorphism, and 153 DNA bands of interest were detected. Among these, 30 selective fragments were sequenced and analyzed with a BLAST search by successful MSAP modifications. The homology search showed that the transposons and tandem repeated sequences were related to the phenotypes. These results suggested that the decreased degree of methylation by dsRNA strategy caused abnormal growth and development in N. tabacum.     

CHRK1, a chitinase-related receptor-like kinase,plays a role in plant development and cytokinin homeostasis in tobacco

CHRK1 encodes a receptor-like kinase that contains a chitinase-related sequence in the extracellular domain in Nicotiana tabacum. In this study, we showed that CHRK1 is mainly expressed in the shoot apex region including leaf primordia and young leaves, and germinating seedlings and vascular tissues, based on GUS activity of transgenic tobacco plants carrying the CHRK1 promoter-GUS fusion gene. Transgenic tobacco plants in which CHRK1 expression was suppressed exhibited pleiotrophic developmental abnormality, including formation of proliferating shooty calli from emerging seedlings and severely altered seedling development. At the cellular level, ectopic cell proliferation, reduced cell specificity, and aberrant chloroplast development were observed. The transgenic lines contained 3-fold higher level of cytokinin than the wild-type plants. Consistently, the transgenic seedlings exhibited a typical cytokinin response in the absence of hormone, such as deetiolation under the dark. Based on these results, we propose that CHRK1 is involved in a developmental signaling pathway regulating cell proliferation/differentiation and the endogenous cytokinin levels in tobacco.