Matthew N. Tran scite author profile

We used the 10x Genomics Visium platform to define the spatial topography of gene expression in the six-layered human dorsolateral prefrontal cortex (DLPFC). We identified extensive layer-enriched expression signatures, and refined associations to previous laminar markers. We overlaid our laminar expression signatures onto large-scale single nuclei RNA sequencing data, enhancing spatial annotation of expression-driven clusters. By integrating neuropsychiatric disorder gene sets, we showed differential layer-enriched expression of genes associated with schizophrenia and autism spectrum disorder, highlighting the clinical relevance of spatially-defined expression. We then developed a data-driven framework to define unsupervised clusters in spatial transcriptomics data, which can be applied to other tissues or brain regions where morphological architecture is not as well-defined as cortical laminae. We lastly created a web application for the scientific community to explore these raw and summarized data to augment ongoing neuroscience and spatial transcriptomics research ( http://research.libd.org/spatialLIBD ).

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Transcriptome-scale spatial gene expression in the human dorsolateral prefrontal cortex

Maynard

Collado‐Torres

Weber³

et al. 2020

Preprint

142

326

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Single-nucleus transcriptome analysis reveals cell-type-specific molecular signatures across reward circuitry in the human brain

Tran

Maynard

Spangler

et al. 2021

Neuron

159

179

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Matthew N. Tran

Transcriptome-scale spatial gene expression in the human dorsolateral prefrontal cortex

Transcriptome-scale spatial gene expression in the human dorsolateral prefrontal cortex

Single-nucleus transcriptome analysis reveals cell-type-specific molecular signatures across reward circuitry in the human brain

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