笑对人生 (2022-10-01 23:59):
#paper doi: 10.1038/s41586-018-0414-6. RNA velocity of single cells. Nature. 2018 Aug;560(7719):494-498. 本研究首次将RNA速率(RNA velocity)这一概念引入单细胞转录组测序数据科学中,即利用新生(未剪切)和成熟(剪切)mRNA相对丰度变化来评估基因剪切和降解的速率。此外,研究者运用该概念揭示了小鼠胚胎海马组织和人类胚胎大脑中细胞转录动力学特征,表明了RNA速率在单细胞数据科学中的应用价值。RNA速率的发现:在真核生物中,细胞核的DNA首先经过转录形成初级mRNA(或未成熟mRNA),接着需要经过加工(可变剪接)才产生成熟的mRNA。在这个过程中,细胞内就可能存在不同状态的mRNAs。传统转录组测序的mRNA富集方法是利用带有oligo(dT)的磁珠对mRNA进行分离纯化。本研究通过对不同技术平台的单细胞转录组测序数据进行read检查发现,存在15-25%的reads包含内含子序列(内含子序列在mRNA加工成熟过程会被切掉,在成熟mRNA一般不会存在)。基于这些reads的内含子序列和对应外显子序列可认为它们代表的是未剪接的mRNAs前体。 RNA速率中未剪接(unspliced)和剪接(spliced)事件的预测公式(微积分方程):du/dt=α(t)-β(t)u(t),ds/dt=β(t)u(t)-γ(t)s(t),α表示转录速率,β表示剪接速率,s表示剪切mRNAs分子数,t表示时间,u表示未剪切的mRNA分子数,γ表示降解的速率。RNA速率是由unspliced mRNA形成spliced mRNA和mRNA降解两个事件的动态平衡来决定的。对于给定某个基因的,利用unspliced和spliced分子数可以建立一个线性回归模型,本文将其定义为steady-state model。在这个方程拟合直线上的细胞认为具有正速度(unspliced更占优),细胞处于下方则具有负速度(降解更占优),若在直线上,就处于稳态。
IF:50.500Q1 Nature, 2018-08. DOI: 10.1038/s41586-018-0414-6 PMID: 30089906
RNA velocity of single cells
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Abstract:
RNA abundance is a powerful indicator of the state of individual cells. Single-cell RNA sequencing can reveal RNA abundance with high quantitative accuracy, sensitivity and throughput. However, this approach captures only a static snapshot at a point in time, posing a challenge for the analysis of time-resolved phenomena such as embryogenesis or tissue regeneration. Here we show that RNA velocity-the time derivative of the gene expression state-can be directly estimated by distinguishing between unspliced and spliced mRNAs in common single-cell RNA sequencing protocols. RNA velocity is a high-dimensional vector that predicts the future state of individual cells on a timescale of hours. We validate its accuracy in the neural crest lineage, demonstrate its use on multiple published datasets and technical platforms, reveal the branching lineage tree of the developing mouse hippocampus, and examine the kinetics of transcription in human embryonic brain. We expect RNA velocity to greatly aid the analysis of developmental lineages and cellular dynamics, particularly in humans.
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