NIH #5R35GM147125-04
Computational Modeling of Lineage Decisions using Single-cell Data
- Amount
- $425K
- Period
- 2022-09-17 → 2027-07-31
- PIs
- 1
- Est. capacity / PI
- ~1 students
Awarded at FRED HUTCHINSON CANCER CENTER
Single-cell and spatial transcriptomics · Molecular Biology
4 total · 4 active
NIH #5R35GM147125-04
Awarded at FRED HUTCHINSON CANCER CENTER
NIH #5R35GM147125-03
Awarded at FRED HUTCHINSON CANCER CENTER
NIH #5R35GM147125-02
Awarded at FRED HUTCHINSON CANCER CENTER
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.
Zenodo (CERN European Organization for Nuclear Research) · 2026-04-10
SCOPE: Localizing fate-decision states and their regulatory drivers in single-cell differentiation
bioRxiv (Cold Spring Harbor Laboratory) · 2026-04-09
Cancer Research · 2026-04-03
Author Correction: Age-related epithelial defects limit thymic function and regeneration
Nature Immunology · 2026-03-13 · 1 citations
Blood · 2025-11-03
Blood · 2025-11-03 · 1 citations
Computational methods to infer lineage decision-making in cancer using single-cell data
2025-09-01
Molecular profiling of adult C. elegans glia across sexes by single-nuclear RNA-seq
Developmental Cell · 2025-06-16 · 9 citations
Patterns of intra- and intertumor phenotypic heterogeneity in lethal prostate cancer
Journal of Clinical Investigation · 2025-06-10 · 9 citations
bioRxiv (Cold Spring Harbor Laboratory) · 2025-06-07
Developmental Cell · 2024-12-26 · 2 citations
Age-related epithelial defects limit thymic function and regeneration
Nature Immunology · 2024-08-07 · 77 citations