NIH #1R01NS143073-01A1
Mapping the Epigenomic and Spatial Transcriptomic Landscape in Parkinson's Disease
- Amount
- $670K
- Period
- 2026-01-20 → 2030-12-31
- PIs
- 1
- Est. capacity / PI
- ~10 students
Genetic Associations and Epidemiology · Genetics
1 total · 1 active
NIH #1R01NS143073-01A1
Student capacity is a rough estimate from remaining award size, split equally among PIs. Actual funding decisions vary.
Direct collaborators. Node size = influence, colour = community, dashed = past collaboration.
Nature Communications · 2026-04-06
Cell-type-resolved <i>NRXN1</i> isoforms in human brain and hiPSC cortical organoidsPreprint
bioRxiv (Cold Spring Harbor Laboratory) · 2025-11-12 · 1 citations
Nature Neuroscience · 2025-10-27 · 1 citations
Common variants contribute to intrinsic human brain functional networks
UNC Libraries · 2025-10-21
Common genetic variation influencing human white matter microstructure
UNC Libraries · 2025-10-17
Sex Differences in Brain Cell Type–Specific Chromatin Accessibility in Schizophrenia
Biological Psychiatry · 2025-10-08
Alzheimer’s disease transcriptional landscape in ex vivo human microglia
Nature Neuroscience · 2025-08-04 · 5 citations
A Transcriptomic Roadmap of Parkinson’s Disease Progression at Single Cell ResolutionPreprint
medRxiv · 2025-07-30 · 1 citations
Neuron · 2025-06-13 · 5 citations
Multiomic single-cell profiling identifies critical regulators of postnatal brain
Nature Genetics · 2025-02-17 · 12 citations
Chromatin accessibility provides a window into the genetic etiology of human brain disease
Trends in Genetics · 2025-01-23 · 6 citations
Genomics yields biological and phenotypic insights into bipolar disorder
Nature · 2025-01-22 · 166 citations
Single-Nucleus Atlas of Cell-Type Specific Genetic Regulation in the Human BrainPreprint
Research Square · 2024-12-11 · 1 citations
A multi-region single nucleus transcriptomic atlas of Parkinson’s disease
Scientific Data · 2024-11-23 · 12 citations
Nature Communications · 2024-11-21 · 6 citations
Research Square · 2024-11-08
A lifespan transcriptomic atlas of the human prefrontal cortex at single-cell resolutionPreprint
medRxiv · 2024-11-07 · 6 citations
Single-nucleus transcriptome-wide association study of human brain disordersPreprint
medRxiv · 2024-11-05 · 4 citations
Single-Nucleus Atlas of Cell-Type Specific Genetic Regulation in the Human BrainPreprint
medRxiv · 2024-11-04 · 1 citations
medRxiv · 2024-11-04 · 16 citations