Florey Neuroscience Institutes, The University of Melbourne, Parkville, Victoria, Australia.
Biotechniques. 2011 Feb;50(2):116-9. doi: 10.2144/000113587.
Correlating gene expression with behavior at the single-cell level is difficult, largely because the small amount of available mRNA (<1 pg) degrades before it can be reverse transcribed into a more stable cDNA copy. This study tested the capacity for a novel acoustic microstreaming method ("micromixing"), which stirs fluid at microliter scales, to improve cDNA yields from reverse transcription (RT) reactions comprising single-cell quantities of RNA. Micromixing significantly decreased the number of qPCR cycles to detect cDNA representing mRNA for hypoxanthine phosphoribosyl-transferase (Hprt) and nuclear receptor-related 1 (Nurr1) by 9 and ~15 cycles, respectively. The improvement was equivalent to performing RT with 10- to 100-fold more cDNA in the absence of micromixing. Micromixing enabled reliable detection of the otherwise undetectable, low-abundance transcript, Nurr1. It was most effective when RNA concentrations were low (0.1-1 pg/µL, a "single-cell equivalent") but had lesser effects at higher RNA concentrations (1 ng/µL). This was supported by imaging experiments showing that micromixing improved mixing of a low concentration (20 pg/µL) of fluorescence-labeled RNA but not a higher concentration (1 ng/µL). We conclude that micromixing significantly increases RT yields obtainable from single-cell quantities of RNA.
在单细胞水平上将基因表达与行为相关联是困难的,主要是因为可用的 mRNA 量很少(<1pg),在将其逆转录成更稳定的 cDNA 拷贝之前就已经降解了。本研究测试了一种新型声学微流控方法(“微混合”)的能力,该方法可在微升尺度上搅拌流体,以提高包含单细胞 RNA 量的逆转录(RT)反应中的 cDNA 产量。微混合显著减少了 qPCR 循环的数量,分别检测到代表次黄嘌呤磷酸核糖转移酶(Hprt)和核受体相关 1(Nurr1)mRNA 的 cDNA 的数量减少了约 9 和 15 个循环。这种改进相当于在没有微混合的情况下,使用 10 到 100 倍更多的 cDNA 进行 RT。微混合使原本无法检测到的低丰度转录本 Nurr1 能够可靠地检测到。当 RNA 浓度较低(0.1-1pg/µL,相当于“单细胞当量”)时,效果最佳,但在较高 RNA 浓度(~1ng/µL)时效果较小。这得到了成像实验的支持,该实验表明微混合可改善低浓度(20pg/µL)荧光标记 RNA 的混合,但对较高浓度(1ng/µL)的 RNA 混合效果较小。我们得出结论,微混合可显著提高从单细胞 RNA 量中获得的 RT 产量。
