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Genetic and epigenetic editing experiments establish causal links between transposon-derived enhancers and gene regulation in mouse embryonic and extraembryonic lineages.

Conditions for multiplexed antibody labeling in mouse brain tissue translates to effective labeling in human brain tissue when samples are prepared similarly.

In depth characterization of gene expression in the mouse hypothalamus will facilitate understanding of the molecular pathways that affect metabolic traits and discovers new genes associated with these pathways.

A previously unrecognized subpopulation of fibroblasts that immediately responded to stimuli from mouse periodontitis models and activated the Toll-like receptor signaling and chemokine expression to guide oral barrier immunity and gingival inflammation was revealed by mouse gingival single-cell transcriptomic atlas.

Ascending and descending cortico-cortical inputs are stronger on projection neurons that project back to the source of the inputs, forming selective interareal loops in deep but not superficial cortical layers.

Silencing of gene regulatory elements by modifications of DNA-bound proteins promotes the progression of early mouse development.

Differences in patterns of social contact between settings have consequences for the spread and transmission of respiratory pathogens and the effectiveness of different measures aimed at their control.

Lineage specification and commitment are synchronized in the developing trophectoderm lineage of the mouse embryo, but are asynchronous events in the maturing inner cell mass, revealing a window of plasticity in this lineage.

A transcriptome dataset of nearly 200 genetically identified mouse neuronal cell types revealed that short low-noise homeobox transcription factors and long neuronal effector genes best distinguish neuronal cell types.

At gastrulation, mesoderm arises as a migratory germ layer that will participate to both foetal and placental development through region-dependant adaptation of cytoskeleton composition, cell shape and migration mode.