NIH #5F32GM066554-03
Molecular evolution of the tyrosine kinase gene family
- Amount
- $49K
- Period
- 2002-09-01 → 2005-08-31
- PIs
- 1
- Est. capacity / PI
- ~0 students
Awarded at UNIVERSITY OF CHICAGO
Plant Molecular Biology Research · Plant Science
3 total · 0 active
NIH #5F32GM066554-03
Awarded at UNIVERSITY OF CHICAGO
NIH #5F32GM066554-02
Awarded at UNIVERSITY OF CHICAGO
NIH #1F32GM066554-01
Awarded at UNIVERSITY OF CHICAGO
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.
eLife · 2026-05-29
eLife · 2026-05-29
bioRxiv (Cold Spring Harbor Laboratory) · 2026-03-09
PLoS ONE · 2026-02-20
Predictive models of the genetic bases underlying budding yeast fitness in multiple environmentsPreprint
bioRxiv (Cold Spring Harbor Laboratory) · 2025-10-20
Machine learning reveals genes impacting oxidative stress resistance across yeasts
Nature Communications · 2025-07-01 · 6 citations
Philosophical Transactions of the Royal Society B Biological Sciences · 2025-05-29 · 10 citations
Optimizing genomic prediction for complex traits via investigating multiple factors in switchgrass
PLANT PHYSIOLOGY · 2025-05-07 · 1 citations
Nature Communications · 2025-04-26 · 12 citations
Genetics · 2024-11-22 · 21 citations
bioRxiv (Cold Spring Harbor Laboratory) · 2024-09-20 · 3 citations
Machine learning reveals genes impacting oxidative stress resistance across yeastsPreprint
bioRxiv (Cold Spring Harbor Laboratory) · 2024-08-14 · 1 citations
Prediction of plant complex traits via integration of multi-omics data
Nature Communications · 2024-08-10 · 64 citations