NIH #1R35GM161264-01
Control of biomolecular systems to guide cell phenotypes
- Amount
- $401K
- Period
- 2026-04-01 → 2031-01-31
- PIs
- 1
- Est. capacity / PI
- ~6 students
Awarded at PENNSYLVANIA STATE UNIVERSITY, THE
Gene Regulatory Network Analysis · Molecular Biology
1 total · 1 active
NIH #1R35GM161264-01
Awarded at PENNSYLVANIA STATE UNIVERSITY, THE
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.
Relating biomarkers and phenotypes using dynamical trap spaces
ArXiv.org · 2026-02-17
Relating biomarkers and phenotypes using dynamical trap spacesPreprint
arXiv (Cornell University) · 2026-02-17
On Analyzing Networks Via Curvature Measures: Review of Methodologies and Applications
Springer optimization and its applications · 2026-01-01
npj Systems Biology and Applications · 2025-12-19
Research Square · 2025-11-17
A Protein Interactome-Based Framework Reveals the General Toxicity of Chemicals
Environmental Science & Technology · 2025-11-04 · 2 citations
Journal of Complex Networks · 2025-11-04 · 2 citations
Automated model refinement using perturbation-observation pairs
npj Systems Biology and Applications · 2025-06-16
An open problem: Why are motif-avoidant attractors so rare in asynchronous Boolean networks?
Journal of Mathematical Biology · 2025-06-12 · 3 citations
Physical review. E · 2025-04-23 · 3 citations
ArXiv.org · 2025-04-01
Structural properties of hyperuniform Voronoi networks
Physical review. E · 2025-03-20 · 6 citations
Structural Properties of Hyperuniform NetworksPreprint
arXiv (Cornell University) · 2024-11-09
An open problem: Why are motif-avoidant attractors so rare in asynchronous Boolean networks?Preprint
arXiv (Cornell University) · 2024-10-04