News

Dr. Agmon’s pioneering paper on antibiotic resistance in E. coli

06-16-2023. Dr. Eran Agmon has published a pioneering paper that explores antibiotic resistance in E. coli by implementing a multiscale whole-cell model. Developed with Dr. Agmon‘s model integration software, Vivarium, the study encompasses single-cell dynamics and population-level heterogeneity to provide a mechanistic understanding of antibiotic resistance, furthering the fight against the rise of multidrug-resistant bacterial strains.

Skalnik, C. J., Cheah, S. Y., Yang, M. Y., Wolff, M. B., Spangler, R. K., … Agmon, E., & Covert, M. W. (2023). Whole-cell modeling of E. coli colonies enables quantification of single-cell heterogeneity in antibiotic responses. PLOS Computational Biology19(6), e1011232.

https://journals.plos.org/ploscompbiol/article?id=10.1371/journal.pcbi.1011232

Blinov & Loew publish new methods to analyze molecular clusters

06-01-2023. Drs. Michael Blinov and Leslie Loew together with a former student Aniruddha Chattaraj (currently a PostDoc at Harvard) published a paper introducing a novel software, MolClustPy, to characterize and visualize the distribution of cluster sizes, molecular composition, and bonds across biomolecular clusters.

Chattaraj, A., Nalagandla, I., Loew, L. M., & Blinov, M. L. (2023). MolClustPy: a Python package to characterize multivalent biomolecular clusters. Bioinformatics39(6), btad385.

https://academic.oup.com/bioinformatics/article/39/6/btad385/7199581

Dr. Vera-Licona giving an invited talk on Model Checking in Marseille, France

Dr. Vera-Licona will be giving an invited talk on Model Checking during the thematic workshop on networks and biological model inference in the context of the CNRS Bioss working group on symbolic systems biology (https://www.bioss-cnrs.fr). The aim is to gather people working on this topic to present recent results and discuss challenges and perspectives. The workshop will take place on July 3-4 2023 at CIRM in Marseille, France

Drs. Blinov, Moraru and Kuchel publish a research on aging

05-04-2023. The interdisciplinary team consisting of CCAM modelers Drs. Blinov and Moraru and researchers from the Center on Aging Drs. Kuchel and Kositsawat, together with former undergrad students Schaumburger and Pally published a manuscript theoretically explaining the bistability of clinical outcomes: the likelihood of an individual remaining mobile over time either increases to almost 100% or decreases to almost zero

Schaumburger, N., Pally, J., Moraru, I. I., Kositsawat, J., Kuchel, G. A., & Blinov, M. L. (2023). Dynamic model assuming mutually inhibitory biomarkers of frailty suggests bistability with contrasting mobility phenotypes. Frontiers in Network Physiology3, 1079070.

https://www.frontiersin.org/articles/10.3389/fnetp.2023.1079070/full

Dr. Agmon’s paper highlights dynamic 3D models (virtual cells)

04-11-2023. Dr. Eran Agmon, along with a diverse team of cell modelers from prestigious institutions including the Allen Institute for Cell Science, University of Washington, Stanford University, and University of Richmond, have collaboratively published a paper that advocates for the development of next-generation virtual cells. The paper highlights the potential of these dynamic 3D models in consolidating vast cellular information, facilitating a more comprehensive understanding of cellular behaviors, and fostering collaborative breakthroughs in cell science research.

 Johnson, G. T., Agmon, E., Akamatsu, M., Lundberg, E., Lyons, B., Ouyang, W., … & Horwitz, R. (2023). Building the next generation of virtual cells to understand cellular biology. Biophysical Journal.

https://www.cell.com/biophysj/pdf/S0006-3495(23)00236-9.pdf