School of Natural Sciences, Linnaeus University, SE-39182 Kalmar, Sweden.
Plant Sci. 2012 Feb;183:9-13. doi: 10.1016/j.plantsci.2011.10.019. Epub 2011 Nov 4.
The aim of this project was to evaluate the effect of fixation on plant material prior to Laser Microdissection and Pressure Catapulting (LMPC) and to identify an appropriate method for preserving good RNA quality after cell isolation. Therefore, flower buds from Artemisia annua L. were exposed to either the fixative formaldehyde or a non-fixative buffer prior to cell isolation by LMPC. Proteinase K was used after cell isolation from fixed plant tissue, in an attempt to improve the RNA yield. The ability to detect gene expression using real-time quantitative PCR with or without previous amplification of RNA from cells isolated by LMPC was also evaluated. Conclusively, we describe a new technique, without fixation, enabling complete isolation of intact glandular secretory trichomes and specific single trichome cells of A. annua. This method is based on LMPC and preserves good RNA quality for subsequent RNA expression studies of both whole trichomes, apical and sub-apical cells from trichomes of A. annua. Using this method, expression of genes of terpene metabolism was studied by real-time quantitative PCR. Expression of genes involved in artemisinin biosynthesis was observed in both apical and sub-apical cells.
本项目旨在评估在激光显微切割和压力弹射(LMPC)之前固定植物材料的效果,并确定一种合适的方法,以确保在细胞分离后保持良好的 RNA 质量。因此,在通过 LMPC 进行细胞分离之前,将黄花蒿花蕾暴露于固定剂甲醛或非固定缓冲液中。在固定植物组织中分离细胞后,使用蛋白酶 K,试图提高 RNA 产量。还评估了使用实时定量 PCR 检测基因表达的能力,包括未经 LMPC 分离的细胞中 RNA 扩增之前和之后。总之,我们描述了一种新的技术,无需固定,能够完整地分离出完整的腺毛状分泌毛状体和黄花蒿的特定单个毛状体细胞。该方法基于 LMPC,并为随后的 RNA 表达研究保留了良好的 RNA 质量,包括整个毛状体、毛状体的顶端和亚顶端细胞。使用这种方法,通过实时定量 PCR 研究了萜类代谢基因的表达。观察到青蒿素生物合成相关基因在顶端和亚顶端细胞中均有表达。
