Abstract
Fasl-deficient (gld) mice display an altered bone phenotype, but the underlying molecular mechanisms remain incompletely understood. Here we evaluated the role of FASL in the gene expression profile of osteogenic cells. To this aim, RNA sequencing was performed on calvaria-derived primary cells from wild-type and Fasl-deficient mice that underwent osteogenic differentiation. The outcome dataset (GSE250608) contains gene expression profiles and enrichment analyses. Based on a log2 fold change >1 and adjusted p-value < 0.01, the lack of Fasl revealed 480 up- and 301 down-regulated genes. These signature changes were annotated to extracellular matrix-related pathways and chemokine signalling. This resource provides a publicly available transcriptomic dataset that can be used to better understand the complex role of FASL in bone biology.