Balmus Gabriel, Karp Natasha A, Ng Bee Ling, Jackson Stephen P, Adams David J, McIntyre Rebecca E
1] The Wellcome Trust/Cancer Research UK Gurdon Institute, University of Cambridge, Cambridge, UK. [2] Maintenance of Genome Stability, The Wellcome Trust Sanger Institute, Genome Campus, Cambridge, UK.
The Sanger Mouse Genetics Project, The Wellcome Trust Sanger Institute, Genome Campus, Cambridge, UK.
Nat Protoc. 2015 Jan;10(1):205-15. doi: 10.1038/nprot.2015.010. Epub 2014 Dec 31.
We describe a sensitive, robust, high-throughput method for quantifying the formation of micronuclei, markers of genome instability, in mouse erythrocytes. Micronuclei are whole chromosomes or chromosome segments that have been separated from the nucleus. Other methods of detection rely on labor-intensive, microscopy-based techniques. Here we describe a 2-d, 96-well plate-based flow cytometric method of micronucleus scoring that is simple enough for a research technician experienced in flow cytometry to perform. The assay detects low levels of genome instability that cannot be readily identified by classic phenotyping, using 25 μl of blood. By using this assay, we have screened >10,000 blood samples and discovered novel genes that contribute to vertebrate genome maintenance, as well as novel disease models and mechanisms of genome instability disorders. We discuss experimental design considerations, including statistical power calculation, we provide troubleshooting tips and we discuss factors that contribute to a false-positive increase in the number of micronucleated red blood cells and to experimental variability.
我们描述了一种灵敏、稳健、高通量的方法,用于量化小鼠红细胞中微核(基因组不稳定的标志物)的形成。微核是已与细胞核分离的整条染色体或染色体片段。其他检测方法依赖于劳动强度大的基于显微镜的技术。在此,我们描述了一种基于二维96孔板的流式细胞术微核评分方法,该方法对于有流式细胞术经验的研究技术人员来说足够简单,易于操作。该检测方法使用25微升血液,可检测出经典表型分析难以轻易识别的低水平基因组不稳定。通过使用该检测方法,我们已经筛选了超过10000份血液样本,发现了有助于脊椎动物基因组维持的新基因,以及基因组不稳定疾病的新疾病模型和机制。我们讨论了实验设计考量因素,包括统计功效计算,提供了故障排除提示,并讨论了导致微核化红细胞数量假阳性增加和实验变异性的因素。