The next Computational Cell Biology workshop will be held in person at our Center in Farmington in June or July 2025.
Watch the previous online workshop lectures at https://www.youtube.com/@compcellbiol8898
CCAM at UConn Health
Is developing new approaches for in vivo measurements and manipulation of molecular events within the cell, and new computational approaches for organizing such data into quantitative models.
CCAM integrates new microscope technologies for making quantitative in vivo live cell measurements with new physical formulations and computational tools that will produce spatially realistic quantitative models of intracellular dynamics.
To investigate the relationships between experimental and computational worlds, we use a tripartite approach described as:
- Measure - develop new tools for measuring spatially resolved dynamic behavior of molecules in cells.
- Model - develop new methods for spatial modeling of biological systems.
- Manipulate - develop new techniques for manipulating the spatial distribution of molecules in living cells.
These three analytical approaches, (measurement, modeling and manipulation) are integrated and interdependent, e.g., models generate predictions that can be validated with new measurements, as well as experimental approaches that manipulate intracellular signals and structures. These approaches allow us to tackle fundamental questions of how the spatial organization of molecules in cell is established and how it is utilized to control cell function. CCAM hosts a confluence of expertise in physics, chemistry, experimental cell biology and software engineering immersed in a biomedical research setting that values interdisciplinary collaborations, and our Training Program in Systems Biology provides a new model for interdisciplinary training in cell biology. CCAM is the home of the Virtual Cell, a computational environment for cell biological modeling developed as a NIH-designated National Resource, and also hosts a variety of projects in biophotonics and live cell microscope imaging methods as well as a state-of-the-art user microscopy facility for nonlinear, confocal, and widefield microscopy.
Inclusivity Statement
CCAM is committed to fostering an inclusive and tolerant research environment. We support students and faculty of all races, religions, ethnicities, differing physical abilities, sexual orientations, and gender identities.
UConn maintains a number of resources to promote inclusivity and to report complaints:
Office of Institutional Equity
Ombuds Office
Dean of Students Office Bias Reporting
Office for Diversity and Inclusion
School of Medicine Office of Multicultural and Community Affairs
Upcoming Events
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May
23
CAM Journal Club: Arnab Mutsuddy 12:00pm
CAM Journal Club: Arnab Mutsuddy
Friday, May 23rd, 2025
12:00 PM
CGSB, 400 Farmington Ave
CAM Journal Club
Speaker: Arnab Mutsuddy
Title: “MCMC Techniques for Parameter Estimation of ODE Based Models in Systems Biology”
Via Webex:https://uconnhealth.webex.com/uconnhealth/j.php?MTID=mdacf393cf6a2ee5314a3b76525ea5e57
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May
30
CAM Presentation: Dr. Ji Yu 12:00pm
CAM Presentation: Dr. Ji Yu
Friday, May 30th, 2025
12:00 PM
CGSB, 400 Farmington Ave
CAM Presentation
Speaker: Dr. Ji Yu
Title: TBD
Via Webex: https://uconnhealth.webex.com/uconnhealth/j.php?MTID=mdacf393cf6a2ee5314a3b76525ea5e57
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Jun
5
CCAM Seminar Series - Dr. Daniel Lobo 4:00pm
CCAM Seminar Series - Dr. Daniel Lobo
Thursday, June 5th, 2025
04:00 PM
CGSB, Farmington Ave
CCAM Seminar Series
Speaker: Dr. Daniel Lobo, Associate Professor, Biological Sciences, University of Maryland
Title: “Regulatory mechanisms of cell differentiation and body shape formation: from phenotypes to models”
Abstract: Multicellular organisms develop tissues and body shapes through cell differentiation, proliferation, and migration. Understanding the regulatory mechanisms controlling spatial and dynamical patterns is a current challenge due to the complex feedback loops between molecular signals, mechanical forces, and the emergent cell types and tissue shapes they control. I will present our bioinformatics and systems biology approach, which integrates molecular assays, dynamic mathematical modeling, and de novo machine learning inference algorithms, to understand cell differentiation and body shape regulation. We demonstrated this methodology by understanding the whole-body regulation of planarian worm shapes, differentiation of human hematopoietic stem cells, and pattern formation of developmental synthetic biology systems.
Location: Grossman Auditorium
Via Webex:
https://uchc.webex.com/uchc/j.php?MTID=mf22ff6a646a108fce2728863c3525d53
Meeting number (access code): 2863 037 1820
Meeting password: CCAMseminars
Guest Host: Dr. Michael Blinov
Contact Information:
More -
Jun
6
CAM Presentation: Dr. Abhijit Deb Roy 12:00pm
CAM Presentation: Dr. Abhijit Deb Roy
Friday, June 6th, 2025
12:00 PM
CGSB, 400 Farmington Ave
CAM Presentation
Speaker: Dr. Abhijit Deb Roy
Title: TBD
Via Webex: https://uconnhealth.webex.com/uconnhealth/j.php?MTID=mdacf393cf6a2ee5314a3b76525ea5e57
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Jun
12
CCAM Seminar Series - Dr. Ian Wong 4:00pm
CCAM Seminar Series - Dr. Ian Wong
Thursday, June 12th, 2025
04:00 PM
CGSB, 400 Farmington Ave
CCAM Seminar Series
Speaker: Dr. Ian Wong, Associate Professor of Engineering, Associate Professor of Pathology and Laboratory Medicine, Brown University
Title: “Mechanobiology and Topology of Collective Cell Migration”
Abstract: Complex tissue architectures emerge from the interactions of migratory epithelial cells, driving self-organizing and pattern forming behaviors. In particular, transitions between multicellular groups and individuals (i.e. epithelial-mesenchymal transitions) occur widely in embryonic development, wound healing, and cancer progression. Here, I present my group’s work on collective cell migration at the interface of mechanobiology and topology. First, I describe our work on orbiting to invasive transitions of multicellular spheroids in 3D matrix, which we have systematically explored using experiment and computational modeling. Second, I present results on topological data analysis for human interpretable machine learning of multicellular patterns. I highlight the use of persistence diagrams and persistence images for dimensionality reduction and classification of tissue architectures. We envision that these physical and mathematical approaches enable new insights into the complexity of tissue morphogenesis in development and disease.
Bio: Ian Wong is Associate Professor of Engineering, and of Pathology / Laboratory Medicine at Brown University. He engineers new miniaturized technologies based on biomaterials and microfluidics to investigate cancer cell invasion, drug resistance, and heterogeneity. He is also interested in the unconventional fabrication of bio and nano materials using self-assembly and 3D printing. He did his graduate work on the directed self-assembly of biomolecular materials with Nick Melosh, receiving a Ph.D. in Materials Science and Engineering from Stanford University. His postdoctoral training was with Mehmet Toner and Daniel Irimia at the Center for Engineering in Medicine at Massachusetts General Hospital.
Location: CGSB Grossman Auditorium
Via Webex: https://uchc.webex.com/uchc/j.php?MTID=mac08cf7c2a074edebb81c5014fa956e6
Meeting number (access code): 2632 055 2912
Meeting password: CCAMseries
Guest Host: Dr. Abhi Deb Roy
Contact Information:
More
News
- Ryan Spangler: New University Director to Lead Vivarium and Whole-Cell Modeling DevelopmentMay 7, 2025. CCAM is thrilled to welcome Ryan Spangler as our new University Director, joining the Agmon Lab to lead software development for the Vivarium framework and our next-generation E. coli whole-cell model. Ryan brings nearly 20 years of experience in research software engineering, with a career spanning major institutions at the forefront of systems biology. His recent positions include senior software […]
- Advancing Space Biotechnology Through Whole-Cell Models: AFOSR SymposiumMarch 18, 2025. Dr. Eran Agmon recently presented his research at the AFOSR-sponsored workshop, Advancing Space Biotechnology through Whole-Cell Models and Functional Annotation. The symposium brought together leaders in synthetic biology, genomics, and computational modeling to explore how whole-cell models can drive innovation in space-based biotechnology. Dr. Agmon presented his work on building a multiscale simulation […]
- The 26th Annual CompCellBio workshopFebruary 28, 2025. The 26th Computational Cell Biology workshop took place ONLINE for the 5 days, February 24-28th. Cell biologists and biophysicists leaned how to use VCell (https://vcell.org/), COPASI (https://copasi.org/ ) and SpringSalad (https://vcell.org/ssalad) software to develop spatial and non-spatial models using deterministic, stochastic, agent- and rule-based approaches. The course included introductions to VCell, COPASI, and […]
- Dr. Blinov’s publication in NPJ SysBioFebruary 4, 2025. Dr. Blinov’s publication in NPJ Systems Biology and Applications details how to use AI tools to investigate systems biology resources related to mathematical modeling: Kannan, M., Bridgewater, G., Zhang, M., & Blinov, M. L. (2025). Leveraging public AI tools to explore systems biology resources in mathematical modeling. npj Systems Biology and Applications, 11(1), 15: […]
- Dr. Kshitiz publication in Advanced Materials TechnologiesJanuary 22, 2025. A collaboration led by Kazunori Hoshino lab in UConn Storrs, Kshitiz lab at CCAM tested how human endometrial cells change their mechanics in anticipation of decidualization. A recent paper published in Advanced Materials Technologies describes how cells become stiffer, but amazingly, when cells from placenta interact with them, they reverse this stiffening.