植物小分子化合物的糖基化与糖基转移酶

文章介绍近年来植物体内亲脂性小分子化合物的糖基化和与其相关的糖基转移酶研究进展.     

Overexpression of glucosyltransferase UGT85A1 influences trans-zeatin homeostasis and trans-zeatin responses likely through O-glucosylation

Trans-zeatin is a kind of cytokinins that plays a crucial role in plant growth and development. The master trans-zeatin O-glucosyltransferase of Arabidopsis thaliana, UGT85A1, has been previously identified through biochemical approach. To determine the in planta role of UGT85A1 gene, the characterization of transgenic Arabidopsis plants overexpressing UGT85A1 was carried out. Under normal conditions, transgenic Arabidopsis did not display clearly altered phenotypes. A remarkable alteration is that the accumulation level of the trans-zeatin O-glucosides was significantly increased in UGT85A1 overexpressing transgenic Arabidopsis, while other forms of cytokinins kept the similar concentrations compared to the wild type. When treated with exogenously applied trans-zeatin, UGT85A1 overexpressing Arabidopsis showed much less sensitivity to trans-zeatin in primary root elongation and lateral root formation. Meanwhile, the chlorophyll content of detached leaves of transgenic Arabidopsis was much lower than wild type. Studies of spatial–temporal expression patterns showed that UGT85A1 was mainly expressed in the early seedlings and developing seeds. Analysis of subcellular localization suggested that UGT85A1 was localized to cytoplasm and nucleus. Taken together, our data suggest that overexpression of Arabidopsis glucosyltransferase UGT85A1 influences trans-zeatin homeostasis and trans-zeatin responses likely through O-glucosylation in planta.     

Over-expression of a putative poplar glycosyltransferase gene, PtGT1, in tobacco increases lignin content and causes early flowering

Family 1 glycosyltransferases catalyse the glycosylation of small molecules and play an important role in maintaining cell homeostasis and regulating plant growth and development. In this study, a putative glycosyltransferase gene of family 1, PtGT1, was cloned from poplar (Populus tomentosa Carr.). Sequence analysis showed that this gene encodes a protein of 481 amino acid residues with a conserved PSPG box at its C-terminal, suggesting that it is active in the glycosylation of plant secondary products. The PtGT1 gene was expressed in poplar stems and leaves, with a particularly high expression level in elongating stems. Transgenic tobacco plants ectopically over-expressing PtGT1 were obtained and phenotypes were analysed. Wiesner and M?ule staining showed that stem xylem of transgenic tobacco plants stained more strongly than controls. Measurement of the Klason lignins showed much higher lignin content in the transgenic lines than in control plants. Furthermore, the ectopic over-expression of PtGT1 in tobacco resulted in an early flowering phenotype. These findings offer a possible starting point towards better understanding of the function of poplar PtGT1, and provide a novel strategy for lignin engineering and flowering control in plants through the genetic manipulation of a poplar glycosyltransferase gene.     

巴氏小体案例在遗传学教学中的应用

细胞遗传学在染色体水平上有3个经典问题,即巴氏小体、多线染色体和灯刷染色体的形成机制和遗传学效应。其中巴氏小体因其与哺乳动物在两性间X染色体的剂量补偿效应、人类性别鉴定和某些人类疾病的相关性而引起科研和教学工作者的持续关注。在遗传学教学过程中,作者尝试将国外的案例教学方式引入教学实践,将巴氏小体这一经典遗传学问题作为一条线贯穿于遗传学教学的部分环节,例如伴性遗传、基因表达调控、癌症发生以及遗传学实验,最后通过课堂讨论会的形式全面总结相关的遗传学知识。结果发现,这种改进的教学方法不仅可以优化遗传学教学内容,拓宽并巩固学生的遗传学基础知识,形成了对一个经典遗传学问题的系统观、发展观;还能引导和激发学生对生命科学的兴趣,收到了良好的教学效果。     

生物钟的分子机制研究进展

RecentDevelopmentsinMolecularMechanismsofBiologicalClockHouBingkai(DepartmentofBiology,ShandongUniversity,Jinan250100)YuHuimin(DepartmentofBiochemistry,ShandongEducationCollege,Jinan250013)生物的昼夜节奏表现,从单细胞生物到多细胞生物,从原校生物到真核生物都曾被描述过。由于这种现象在生物界广泛存在,关于它的特征、意义和机理的研究日益受到人们重视。其中最重要和最吸引人的方面是它的测时系统—一生物钟（biologicalclock）,也称生物振荡器（oscillators）。近年来,人们从分子水平对生物钟的研究比较活…     

Transgenic wheat progeny resistant to powdery mildew generated by Agrobacterium inoculum to the basal portion of wheat seedling

To improve the transformation efficiency of wheat (Triticum aestivum L.) mediated by Agrobacterium tumefaciens, we explored the possibility of employing the basal portion of wheat seedling (shoot apical meristem) as the explants. Three genotypes of wheat were transformed by A. tumefaciens carrying β-1, 3-glucanase gene. After vernalization, the seeds to be transformed were germinated. When these seedlings grew up to 2∼5 cm, their coleoptile and half of the cotyledon were cut out, and the basal portions were infected by A. tumefaciens. A total 27 T₀ transgenic plants were obtained, and the average transformation efficiency was as high as 9.82%. Evident segregation occurred in some of the T₁ plants, as was indicated by PCR and Southern blotting analysis. Investigation of the T₂ plants revealed that some transformed plants had higher resistance to powdery mildew than the controls. Northern blotting revealed that β-1, 3-glucanase gene was normally expressed in the T₂ plants, which showed an increased resistance to powdery mildew. The results above indicate that the exogenous gene has been successfully integrated into the genome of wheat, transmitted and expressed in the transgenic progeny. From all the results above, it can be concluded that Agrobacterium inoculum to the basal portion of wheat seedling is a highly efficient and dependable transformation method. It can be developed into a practicable method for transfer of target gene into wheat.Tong-Jin Zhao and Shuang-Yi Zhao contributed equally to this paper.     

Chloroplast Transformation in Oilseed Rape

The chloroplast transformation vector pNRAB carries two expression cassettes for the spectinomycin resistance gene aadA and the insect resistance gene cry1Aa10. The two cassettes are sited between the rps7 and ndhB targeting fragments. Biolistic delivery of the vector DNA, followed by spectinomycin selection, yielded chloroplast transformants at a frequency of four in 1000 bombarded cotyledon petioles. PCR analysis and Southern blot of PCR products confirmed the site-specific integration of aadA and cry1Aa10 into the chloroplast genomes of transgenic oilseed rape. When transgenic oilseed rape leaves were fed to second instar Plutella xylostera larvae, 47% mortality was observed against this insect and the surviving larvae had significantly lower weight than the control. This is the first report of chloroplast transformation in oilseed rape and the introduction of novel genes between the rps7 and ndhB genes in the chloroplast genome. This offers an opportunity for improvement of oilseed rape by chloroplast genetic engineering.