糙皮侧耳原基期差异表达基因分析

为解析糙皮侧耳原基期与菌丝期差异表达的基因,本研究以原基期cDNA为检测子（tester）、双核菌丝期cDNA为驱赶子（driver）,采用抑制性消减杂交法（suppression subtractive hybridization,SSH）构建了糙皮侧耳SSH cDNA文库。菌液PCR验证SSH cDNA文库插入cDNA片段后,挑取了2 055个差异转化子,差异转化子经3次反向Northern杂交筛选,得423个信号差异显著的克隆;阳性克隆测序后,经NCBI数据库Blastn和Blastx比对,共得206条差异表达序列（expressed sequence tag,EST）,重复序列去除后,有46个基因参与了细胞急救和防御、能量代谢、转录和蛋白调控、膜蛋白和信号转导,18个基因编码未知功能的推定蛋白,5个无任何同源性的新基因。挑取10个差异表达基因进行半定量RT-PCR,发现这些序列在原基期的表达水平显著高于菌丝期。结果表明,本研究成功构建了糙皮侧耳原基期与菌丝期SSH cDNA文库,为进一步分离糙皮侧耳生长发育相关基因并研究糙皮侧耳的发育机制奠定了基础。     

应用抑制性消减杂交技术研究大鼠肝脏热应激过程中基因的差异表达

目的：应用抑制性消减杂交技术,分离热应激过程中出现的差异表达基因,筛选与热应激相关的功能基因片断,探索热应激的分子机理。方法：实验分两组：热应激组和常温对照组,分别提取肝组织mRNA后反转录cDNA。内切酶酶切、接头连接后,以热应激组cDNA为tester,对照组cDNA为driver进行SSH。产物克隆T／A载体构建重组质粒转化感受态细胞后进行分离筛选。结果：mRNA质优量足,反转录cDNA并成功酶切为500bp左右片断。连接效率满意。高效杂交后成功构建消减文库,并初步从中分离获得180个片段。结论：应用SSH技术构建热应激差异表达基因消减文库为筛选热应激相关基因奠定了基础,对探索支配热应激反应的功能基因有积极意义。     

Spatial patterns of gene expression in the extramatrical mycelium and mycorrhizal root tips formed by the ectomycorrhizal fungus Paxillus involutus in association with birch (Betula pendula) seedlings in soil microcosms

Functional compartmentation of the extramatrical mycelium of ectomycorrhizal (ECM) fungi is considered important for the operation of ECM associations, although the molecular basis is poorly characterized. Global gene expression profiles of mycelium colonizing an ammonium sulphate ((NH4)2SO4) nutrient patch, rhizomorphs and ECM root tips of the Betula pendula-Paxillus involutus association were compared by cDNA microarray analysis. The expression profiles of rhizomorphs and nutrient patch mycelium were similar to each other but distinctly different from that of mycorrhizal tips. Statistical analyses revealed 337 of 1075 fungal genes differentially regulated among these three tissues. Clusters of genes exhibiting distinct expression patterns within specific tissues were identified. Genes implicated in the glutamine synthetase/glutamate synthase (GS/GOGAT) and urea cycles, and the provision of carbon skeletons for ammonium assimilation via beta-oxidation and the glyoxylate cycle, were highly expressed in rhizomorph and nutrient patch mycelium. Genes implicated in vesicular transport, cytoskeleton organization and morphogenesis and protein degradation were also differentially expressed. Differential expression of genes among the extramatrical mycelium and mycorrhizal tips indicates functional specialization of tissues forming ECM associations.