NIH #1P01AG092325-01
Project 3: Role of HIRA in epigenome homeostasis and HIRA/TXNRD1 in cGAS/STING activation in senescence and SASP
- Amount
- $401K
- Period
- 2026-02-01 → 2031-01-31
- PIs
- 1
- Est. capacity / PI
- ~6 students
Genomics and Chromatin Dynamics · Molecular Biology
50 total · 10 active
NIH #1P01AG092325-01
NIH #2T32GM133398-06
NIH #5R01NS135829-02
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.
Structure of the NAT10 acetyltransferase and mechanism of tRNA acetylation
Nature Communications · 2026-06-19
Journal of Lipid Research · 2025-10-30
Biochemistry · 2025-10-17
bioRxiv (Cold Spring Harbor Laboratory) · 2025-08-20 · 1 citations
Molecular basis of influenza ribonucleoprotein complex assembly and processive RNA synthesis
Science · 2025-05-15 · 18 citations
Molecular targets of bempedoic acid and related decoy fatty acids
Trends in Endocrinology and Metabolism · 2025-05-09 · 4 citations
Snapshots of acyl carrier protein shuttling in human fatty acid synthase
Nature · 2025-02-20 · 12 citations
Journal of Lipid Research · 2024-11-20 · 2 citations
Journal of Biological Chemistry · 2024-11-04 · 4 citations
Engineering substrate channeling in a bifunctional terpene synthase
Proceedings of the National Academy of Sciences · 2024-10-04 · 15 citations
HIRA complex deposition of histone H3.3 is driven by histone tetramerization and histone-DNA binding
Journal of Biological Chemistry · 2024-07-24 · 3 citations