Concurrent stem- and lineage-affiliated chromatin programs precede hematopoietic lineage restriction (vol 39, 110798, 2022)

(Cell Reports 39, 110798; May 10, 2022) In the originally published version of this article, the key resources table inaccurately stated that the GEO IDs of the raw sc-ATAC and raw RNA sequencing data were GEO: GSE173075 and GEO: GSE173076, respectively. These data are actually available at GEO: GSE148746. The data and code availability section of the STAR Methods used the correct identifier for the sequencing data. Due to the age of the article, direct changes to the article could not be made. This typographical error does not alter the published results, and the authors regret this error. Concurrent stem- and lineage-affiliated chromatin programs precede hematopoietic lineage restrictionSafi et al.Cell ReportsMay 10, 2022In BriefSafi et al. reveal a unique hematopoietic transition state, displaying concurrent stem- and multi-lineage chromatin-accessibility signatures captured by LSKFlt3intCD9high immunophenotype. LSKFlt3intCD9high cells represent extensively primed progenitors lacking self-renewal but bridging multipotency and lineage restriction. These findings permit analysis of how self-renewal and multipotency are lost in favor of lineage commitment. Full-Text PDF Open Access