Abstract
Reconstructing lineage relationships in complex tissues can reveal mechanisms underlying development and disease. Recent methods combine single-cell transcriptomics with mitochondrial DNA variant detection to establish lineage relationships in primary human cells, but are not scalable to interrogate complex tissues. To overcome this limitation, here we develop a technology for high-confidence detection of mitochondrial mutations from high-throughput single-cell RNA-sequencing. We use the new method to identify skewed immune cell expansions in primary human clonal hematopoiesis.
Competing Interest Statement
A patent application covering MAESTER has been filed by the Broad Institute of MIT and Harvard. B.E.B. discloses financial interests in Fulcrum Therapeutics, HiFiBio, Arsenal Biosciences and Cell Signaling Technologies, unrelated to this work.