Background Parcellation of the cerebral cortex serves the investigation of the emergence of
uniquely human brain functions and disorders. Transcriptome data enable the …

Genome-wide association studies (GWAS) have uncovered genetic variants susceptible to
brain disorders. However, due to the complex pathogenesis of these diseases and …

Gryglewski et al.(1) provide a pertinent example of this approach that aims to delineate the
spatial organization of molecular diversity in the brain by developing a transcriptomebased …

Brain function is governed by precise regulation of gene expression across its anatomically
distinct structures; however, the expression patterns of genes across hundreds of brain …

The cerebral cortex underlies many of our unique strengths and vulnerabilities, but efforts to
understand human cortical organization are challenged by reliance on incompatible …

Genes associated with risk for brain disease exhibit characteristic expression patterns that
reflect both anatomical and cell type relationships. Brain-wide transcriptomic patterns of …

Transcriptional profiles within discrete human brain regions are likely to reflect structural and
functional specialization. Using DNA microarray technology, this study investigates …

Gene networks have proven their utility for elucidating transcriptome structure in the brain,
yielding numerous biological insights. Most analyses have focused on expression …

Functionally distinct regions of the brain are thought to possess a characteristic connectional
fingerprint–a profile of incoming and outgoing connections that defines the function of that …

Genes associated with risk for brain disease exhibit characteristic expression patterns that
reflect both anatomical and cell type relationships. Brain-wide transcriptomic patterns of …