The mammalian cerebrum performs high-level sensory perception, motor control and
cognitive functions through highly specialized cortical and subcortical structures. Recent …

Divergence of cis-regulatory elements drives species-specific traits, but how this manifests in
the evolution of the neocortex at the molecular and cellular level remains unclear. Here we …

Neuroanatomically precise, genome-wide maps of transcript distributions are critical
resources to complement genomic sequence data and to correlate functional and genetic …

Recent advances in single-cell technologies have led to the discovery of thousands of brain
cell types; however, our understanding of the gene regulatory programs in these cell types is …

The mammalian brain consists of millions to billions of cells that are organized into many cell
types with specific spatial distribution patterns and structural and functional properties …

Many sequence variants have been linked to complex human traits and diseases, but
deciphering their biological functions remains challenging, as most of them reside in …

A mammalian brain is composed of numerous cell types organized in an intricate manner to
form functional neural circuits. Single-cell RNA sequencing allows systematic identification …

Single-cell transcriptomics can provide quantitative molecular signatures for large, unbiased
samples of the diverse cell types in the brain,–. With the proliferation of multi-omics datasets …

Neuronal cell types are classically defined by their molecular properties, anatomy and
functions. Although recent advances in single-cell genomics have led to high-resolution …

The function of the mammalian brain relies upon the specification and spatial positioning of
diversely specialized cell types. Yet, the molecular identities of the cell types and their …