Research Articles
The Silent Engineer: How Metabolic Models Are Revolutionizing Medicine
Exploring how computational models of cellular metabolism are transforming drug discovery and biopharmaceutical development through systems biology engineering.
From Structure to Behavior: How Biomodel Engineering is Decoding Life's Secrets
Explore how biomodel engineering transforms biology into a predictive science through computational modeling, Petri nets, and multi-scale approaches.
Engineering Microbes: How Computer Models Are Revolutionizing Biotechnology
Explore how model-driven metabolic engineering is transforming E. coli into microscopic factories for sustainable production of fuels, medicines, and materials.
Cracking the Cell's Code: How Metabolic Network Modeling is Revolutionizing Biology
Explore how metabolic network modeling is transforming biology through digital cell simulations, disease research, and biotechnology applications.
The OME Framework: Mapping the Blueprint of Life in Systems Biology
Explore how the OME Framework revolutionizes genome-scale systems biology by integrating biological data and computational models to understand cellular complexity.
The Cell as a Supercomputer: Rewriting the Code of Life
How scientists are programming living cells to fight disease and fuel the future through metabolic engineering, synthetic biology, and systems biology.
The Hidden Network: How Plant Systems Biology is Rewriting the Book of Life
Explore how plant systems biology is transforming our understanding of plants through holistic approaches, recent discoveries, and cutting-edge technologies.
Cracking the Cellular Code: The Quest for Simpler Metabolic Networks
Explore how scientists are simplifying complex metabolic networks to unlock insights into health, disease, and biotechnology.
Cracking the Fungal Code: How Systems Biology is Unlocking New Weapons Against Deadly Pathogens
Explore how biochemical systems analysis is revolutionizing our understanding of fungal pathogenicity and paving the way for new antifungal therapies.
Cracking the Cellular Code: How Mathematical Models Decipher Life's Tiny Factories
Explore how deterministic modeling revolutionizes our understanding of cellular metabolism through constraint-based and kinetic approaches, with insights from landmark studies and future directions.