Research Articles
The Whole Yeast Model: A Tiny Cell with Massive Insights
Explore how baker's yeast (Saccharomyces cerevisiae) is revolutionizing our understanding of cellular biology, disease mechanisms, and biotechnology through whole-cell modeling approaches.
Cellular Control Systems: How Biochemical Networks Compute Life
Explore how biochemical networks function as dynamic control systems that process information and execute complex behaviors within cells.
Beyond BIO2010: The Mathematical Revolution Transforming Biology
Explore how the integration of mathematics and biology is revolutionizing scientific research and education, from transdisciplinary classrooms to machine learning applications.
Editorial: The New Fight Against Cancer—A Revolution in Systems Biology
Exploring how cancer systems biology is transforming cancer treatment through computational modeling, evolutionary therapy, and predictive digital twins.
The Digital Detective: How Automated Reasoning is Cracking Biology's Toughest Cases
Explore how automated reasoning is revolutionizing systems biology and medicine by creating digital models of living organisms to predict disease and develop treatments.
Cracking Life's Code: When Computers Meet Cells
How Computational Biochemistry is Unraveling the Mysteries of Biology through digital simulations and systems biology approaches.
Modeling Life's Networks: The Petri Net Approach in Systems Biology
Explore how Petri nets provide powerful computational frameworks for modeling complex biological systems, from molecular interactions to disease pathways.
Genes in Conversation: Mapping the Social Networks of Cells
Exploring how structured modeling reveals the complex transcription networks within mammalian cells and their implications for understanding health and disease.