Department of Pathology, Sahlgrenska Cancer Center, University of Gothenburg, Gothenburg, Sweden.
Clin Chem. 2012 Dec;58(12):1682-91. doi: 10.1373/clinchem.2012.191445. Epub 2012 Sep 26.
The single cell represents the basic unit of all organisms. Most investigations have been performed on large cell populations, but understanding cell dynamics and heterogeneity requires single-cell analysis. Current methods for single-cell analysis generally can detect only one class of analytes.
Reverse transcription and the proximity ligation assay were coupled with quantitative PCR and used to quantify any combination of DNA, mRNAs, microRNAs (miRNAs), noncoding RNAs (ncRNAs), and proteins from the same single cell. The method was used on transiently transfected human cells to determine the intracellular concentrations of plasmids, their transcribed mRNAs, translated proteins, and downstream RNA targets.
We developed a whole-cell lysis buffer to release unfractionated DNA, RNA, and proteins that would not degrade any detectable analyte or inhibit the assay. The dynamic range, analytical sensitivity, and specificity for quantifying DNA, mRNAs, miRNAs, ncRNAs, and proteins were shown to be accurate down to the single-cell level. Correlation studies revealed that the intracellular concentrations of plasmids and their transcribed mRNAs were correlated only moderately with translated protein concentrations (Spearman correlation coefficient, 0.37 and 0.31, respectively; P < 0.01). In addition, an ectopically expressed gene affected the correlations between analytes and this gene, which is related to gene regulation.
This method is compatible with most cell-sampling approaches, and generates output for the same parameter for all measured analytes, a feature facilitating comparative data analysis. This approach should open up new avenues in molecular diagnostics for detailed correlation studies of multiple and different classes of analytes at the single-cell level.
单细胞是所有生物体的基本单位。大多数研究都是在大细胞群体上进行的,但要了解细胞动力学和异质性,就需要单细胞分析。目前的单细胞分析方法通常只能检测一类分析物。
逆转录和邻近连接分析与定量 PCR 相结合,用于从同一个单细胞中定量检测任何组合的 DNA、mRNA、microRNA(miRNA)、非编码 RNA(ncRNA)和蛋白质。该方法用于瞬时转染的人类细胞,以确定质粒、转录的 mRNA、翻译的蛋白质及其下游 RNA 靶标的细胞内浓度。
我们开发了一种全细胞裂解缓冲液,可释放未分级的 DNA、RNA 和蛋白质,不会降解任何可检测的分析物或抑制测定。定量检测 DNA、mRNA、miRNA、ncRNA 和蛋白质的动态范围、分析灵敏度和特异性准确到单细胞水平。相关性研究表明,质粒及其转录的 mRNA 的细胞内浓度与翻译蛋白浓度仅中度相关(Spearman 相关系数分别为 0.37 和 0.31;P < 0.01)。此外,异位表达的基因会影响分析物之间的相关性,这与基因调控有关。
该方法与大多数细胞采样方法兼容,并为所有测量的分析物生成相同参数的输出,这一特性有利于比较数据分析。这种方法应该在分子诊断学中开辟新的途径,用于在单细胞水平上对多种不同类别的分析物进行详细的相关性研究。
