Lin N S, Chen C C, Hsu Y H
Institute of Botany, Academia Sinica, Nankang, Taipei, Taiwan, Republic of China.
J Histochem Cytochem. 1993 Oct;41(10):1513-9. doi: 10.1177/41.10.8245409.
We developed an in situ hybridization technique for localization of plant virus RNA in ultra-thin sections of virus-infected, Lowicryl HM20- or osmium-fixed, Araldite-embedded plant leaf tissues. A digoxigenin-labeled in vitro transcript corresponding to 173 nucleotides at the 3' end of bamboo mosaic virus (BaMV) RNA was used as a riboprobe and the hybrids were detected by incubation with sheep antidigoxigenin antibody followed by gold-labeled rabbit anti-sheep IgG. Pre-treatment of ultra-thin sections with an etching agent was the critical step in enhancing hybridization signals on Lowicryl-embedded thin sections. Etching combined with K-metaperiodate treatment increased the accessibility of nucleic acids to riboprobes in osmicated Araldite-embedded sections. BaMV RNA was specifically detected within chloroplasts, mitochondria, and nuclei of infected cells. BaMV virions and BaMV-specific electron-dense crystalline bodies were also labeled. The labeling intensity on Lowicryl-embedded samples, in general, was much higher than that on osmicated Araldite-embedded samples. However, our procedure offers the advantage that it permits labeling of viral nucleic acids in tissues already processed for routine EM and should be applicable for in situ labeling of any cellular nucleic acids.
我们开发了一种原位杂交技术,用于在病毒感染的、用Lowicryl HM20固定或锇固定、环氧树脂包埋的植物叶片组织超薄切片中定位植物病毒RNA。以与竹花叶病毒(BaMV)RNA 3'端173个核苷酸相对应的地高辛标记体外转录本作为核糖探针,通过与羊抗地高辛抗体孵育,然后用金标记的兔抗羊IgG检测杂交体。用蚀刻剂对超薄切片进行预处理是增强Lowicryl包埋薄片上杂交信号的关键步骤。蚀刻结合高碘酸钾处理增加了核酸对锇固定环氧树脂包埋切片中核糖探针的可及性。在受感染细胞的叶绿体、线粒体和细胞核内特异性检测到BaMV RNA。BaMV病毒粒子和BaMV特异性电子致密晶体也被标记。一般来说,Lowicryl包埋样品上的标记强度远高于锇固定环氧树脂包埋样品上的标记强度。然而,我们的方法具有允许对已进行常规电子显微镜处理的组织中的病毒核酸进行标记的优点,并且应该适用于任何细胞核酸的原位标记。
