Bioconductor workflow for single-cell RNA sequencing: normalization, dimensionality reduction, clustering, and lineage inference
Perraudeau, F., Risso, D., Street, K. et al.
Novel single-cell transcriptome sequencing assays allow researchers to measure gene expression levels at the resolution of single cells and offer the unprecedented opportunity to investigate at the molecular level fundamental biological questions, such as stem cell differentiation or the discovery and characterization of rare cell types. However, such assays raise challenging statistical and computational questions and require the development of novel methodology and software. Using stem cell differentiation in the mouse olfactory epithelium as a case study, this integrated workflow provides a step-by-step tutorial to the methodology and associated software for the following four main tasks: (1) dimensionality reduction accounting for zero inflation and overdispersion and adjusting for gene and cell-level covariates; (2) cell clustering using resampling-based sequential ensemble clustering; (3) inference of cell lineages and pseudotimes; and (4) differential expression analysis along lineages.
Perraudeau, F., Risso, D., Street, K. et al. "Bioconductor workflow for single-cell RNA sequencing: normalization, dimensionality reduction, clustering, and lineage inference" F1000 Research (2017): 1158