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| Analisis Ekspresi Pembezaan RNA-seq Sel Tunggal× | Analisis scRNA-seq× | |
|---|---|---|
| Bidang | Bioinformatik | Bioinformatik |
| Keluarga | Process / pipeline | Process / pipeline |
| Tahun asal≠ | 2013–2015 (first scRNA-seq DE tools; refined 2015–present) | 2009 (first scRNA-seq by Tang et al.); widely adopted 2015–2016 |
| Pengasas≠ | Pioneered through Seurat (Satija lab) and scde (Kharchenko lab) frameworks, building on bulk RNA-seq DE foundations | Azim Surani, Barbara Treutlein, and the Regev/McCarroll groups (foundational droplet-based methods ~2015) |
| Jenis≠ | Computational bioinformatics pipeline | High-throughput single-cell transcriptomic profiling pipeline |
| Sumber perintis≠ | Butler, A., Hoffman, P., Smibert, P., Papalexi, E., & Satija, R. (2018). Integrating single-cell transcriptomic data across different conditions, technologies, and species. Nature Biotechnology, 36(5), 411–420. DOI ↗ | Satija, R., Farrell, J. A., Gennert, D., Schier, A. F., & Regev, A. (2015). Spatial reconstruction of single-cell gene expression data. Nature Biotechnology, 33(5), 495–502. DOI ↗ |
| Alias | scRNA-seq DE, single-cell differential expression, scDE, cell-level differential expression analysis | scRNA-seq, single-cell transcriptomics, scRNAseq analysis, single-cell gene expression profiling |
| Berkaitan | 5 | 5 |
| Ringkasan≠ | Single-cell RNA-seq differential expression (scRNA-seq DE) analysis identifies genes whose expression levels differ significantly between defined groups of individual cells — such as cell types, disease states, or treatment conditions. Unlike bulk RNA-seq, which averages signals across millions of cells, scRNA-seq DE operates on the transcriptome of each individual cell, enabling fine-grained characterization of cell-population-specific gene regulation and heterogeneity within seemingly homogeneous tissue. | Single-cell RNA sequencing (scRNA-seq) analysis characterises gene expression at the resolution of individual cells, enabling discovery of cell types, states, and transitions that are invisible in bulk transcriptomics. Starting from raw sequencing reads, the workflow produces a cell-by-gene count matrix and proceeds through quality control, normalisation, dimensionality reduction, unsupervised clustering, cell-type annotation, and a range of downstream analyses such as trajectory inference and differential expression between cell populations. |
| ScholarGateSet data ↗ |
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