Journal article
splatPop: simulating population scale single-cell RNA sequencing data
CB Azodi, L Zappia, A Oshlack, DJ McCarthy
Genome Biology | Published : 2021
Abstract
Population-scale single-cell RNA sequencing (scRNA-seq) is now viable, enabling finer resolution functional genomics studies and leading to a rush to adapt bulk methods and develop new single-cell-specific methods to perform these studies. Simulations are useful for developing, testing, and benchmarking methods but current scRNA-seq simulation frameworks do not simulate population-scale data with genetic effects. Here, we present splatPop, a model for flexible, reproducible, and well-documented simulation of population-scale scRNA-seq data with known expression quantitative trait loci. splatPop can also simulate complex batch, cell group, and conditional effects between individuals from diff..
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Awarded by Baker Foundation
Funding Acknowledgements
C.B.A. is supported by funding from the Baker Foundation. A.O is supported by the National Health and Medical Research Council (NHMRC) of Australia through an Ideas grant (GNT1187748) and an Investigator Grant (GNT1196256). D.J.M. is supported by the NHMRC through an Early Career Fellowship (GNT1112681), a Project Grant (GNT1162829) and an Investigator Grant (GNT1195595), by the Baker Foundation, and by Paul Holyoake and Marg Downey through a gift to St Vincent's Institute of Medical Research.