ASAP announces new teams joining the Collaborative Research Network! Learn More
Aligning Science Across Parkinson's Logo Text

Spatial transcriptomics reveals molecular dysfunction associated with cortical Lewy pathology Code: Goralsth/Spatial-transcriptomicSpatial transcriptomics Code: Spatial-transcriptomics-reveals-molecular-dysfunction-associated-with-cortical-Lewy-pathology

By Thomas Goralski, Michael Henderson, PhD, Lindsay Meyerdirk, Libby Breton, Laura Brasseur, Kevin Kurgat, Daniella DeWeerd, Lisa Turner, Katelyn Becker,, Daniel J. Newhouse, Marie Adams
View Published Code

Output Details

Description
Code repository for Goralski, et., al., 2024. "Spatial transcriptomics reveals molecular dysfunction associated with cortical Lewy pathology" (https://doi.org/10.1038/s41467-024-47027-8)
Tags
  • Human
  • Mouse
  • Spatial Transcriptomics
Discovery Team
Team Biederer
Program
Collaborative Research Network
Theme
Circuitry and Brain-Body Interactions

Meet the Authors

  • User avatar fallback logo

    Thomas Goralski

    External Collaborator

  • Michael Henderson, PhD

    Co-PI (Core Leadership): Team Biederer Team Lee

    Van Andel Institute

  • User avatar fallback logo

    Lindsay Meyerdirk

    External Collaborator

  • User avatar fallback logo

    Libby Breton

    External Collaborator

  • User avatar fallback logo

    Laura Brasseur

    External Collaborator

  • User avatar fallback logo

    Kevin Kurgat

    External Collaborator

  • User avatar fallback logo

    Daniella DeWeerd

    External Collaborator

  • User avatar fallback logo

    Lisa Turner

    External Collaborator

  • User avatar fallback logo

    Katelyn Becker,

    External Collaborator

  • User avatar fallback logo

    Daniel J. Newhouse

    External Collaborator

  • User avatar fallback logo

    Marie Adams

    External Collaborator

Related Research

Spatial transcriptomics reveals molecular dysfunction associated with Lewy pathology

The results identify neurons vulnerable to Lewy pathology in the PD cortex and identify a conserved signature of molecular dysfunction in both mice and humans.

View Article

Progressive vulnerability of cortical synapses in α-synucleinopathy

α-Synuclein aggregation is linked to progressive loss of intracortical VGLUT1+ excitatory synapses, spares VGLUT2+ long-range synapses, and impairs cortical excitatory transmission.

View Article

Data and code for Active Escape (“Integrated Representations of Threat and Control in the Lateral Frontal Pole”)

Data, Code, and Key Resource Table used in the preprint from Stasiak et al., 2025 ("Integrated Representations of Threat and Control in the Lateral Frontal Pole").

View Dataset
View More Outputs
Aligning Science Across Parkinson's
Powered by  GDPR Cookie Compliance
Privacy Overview

This website uses cookies so that we can provide you with the best user experience possible. Cookie information is stored in your browser and performs functions such as recognising you when you return to our website and helping our team to understand which sections of the website you find most interesting and useful.