Single-cell small RNA sequencing can be used to profile small RNAs of individual cells; however, limitations of efficiency and scale prevent its widespread application. Here, we developed parallel single-cell small RNA sequencing (PSCSR-seq), which can overcome the limitations of existing methods ...
Molecular single cell analyses provide insights into physiological and pathological processes. Here, in a stepwise approach, we first evaluate 19 protocols for single cell small RNA sequencing on MCF7 cells spiked with 1 pg of 1,006 miRNAs. Second, we analyze MCF7 single cell equivalents of ...
Little is known about the heterogeneity of small-RNA expression as small-RNA profiling has so far required large numbers of cells. Here we present a single-cell method for small-RNA sequencing and apply it to naive and primed human embryonic stem cells and cancer cells. Analysis of microRNAs ...
Single-cell technologies have the capacity to unravel the phenotypes of individual cells within a tissue, revolutionizing our understanding of cancer biology. Single-cell RNA sequencing (scRNA-seq), involving the main steps of single-cell isolation, cell lysis for mRNA capture, reverse transcription, ...
单细胞测序技术(single cell sequencing)是指在单个细胞水平上,对基因组、转录组、表观组进行高通量测序分析的一项新技术,它能够弥补传统高通量测序的局限性,揭示单个细胞的基因结构和基因表达状态,反映细胞间的异质性。2013年,单细胞测序技术被《Science》将其列为年度最值得关注的六大领域榜首;2015年再次登上Science...
Single-cell RNA-sequencing (scRNA-seq) is revolutionizing our understanding of the genomic, transcriptomic and epigenomic landscapes of cells within organs. The mammalian brain is composed of a complex network of millions to billions of diverse cells wit
cell RNA sequencing (scRNA-seq) technique has introduced a new era of research on these topics, as this method provides information regarding cellular heterogeneity, new cell subtypes, functions of novel subclusters, potential molecular mechanisms, cell-fate transitions, and cell‒cell interactions ...
cell RNA sequencing (scRNA-seq) technique has introduced a new era of research on these topics, as this method provides information regarding cellular heterogeneity, new cell subtypes, functions of novel subclusters, potential molecular mechanisms, cell-fate transitions, and cell‒cell interactions ...
Single-cell RNA-sequencing (scRNA-seq) has been recently used for the profiling of tumor microenvironments7,8. This technology allows massively parallel characterization of thousands of cells at the transcriptome level. Previous scRNA-seq studies related to lung cancer have been limited to early stage...
we performed single-cell RNA sequencing (scRNA-seq) on cells isolated from the JEV-highly infected regions of mouse brain. We obtained 88,000 single cells and identified 34 clusters representing 10 major cell types. The scRNA-seq results revealed an increasing amount of activated microglia cells ...