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 Cell Analysis and Modeling 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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Sep
24
CAM Journal Club - Mendes12:00pm
CAM Journal Club - Mendes
Friday, September 24th, 2021
12:00 PM - 01:00 PM
UConn Health Virtual
CAM Journal Club
Speaker: Pedro Mendes
Title: "Identifying the combinatorial control of signal-dependent transcription
factors."
https://doi.org/10.1371/journal.pcbi.1009095
Meeting Link: https://uconnhealth.webex.com/meet/pmendesContact Information: Tiffany, jespersen@uchc.edu
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Sep
30
CCAM Seminar Series - Dimitris Vavylonis12:00pm
CCAM Seminar Series - Dimitris Vavylonis
Thursday, September 30th, 2021
12:00 PM - 01:00 PM
UConn Health Virtual
CCAM Seminar Series
Speaker: Dimitris Vavylonis, Department of Physics, Lehigh University
Title: "Cytoskeletal and membrane flows for cell polarization and motility"
Abstract: The ability of cells to polarize, move by crawling, or divide,
requires coordinated interactions of the cytoskeleton with membranes
as well as with signaling systems organizing on membranes. Predictive
models of these mechanisms of subcellular organization
requires accounting of how interactions at the molecular level lead to
collective behavior involving patterns, flows and forces over cellular
scales. I will
describe two recent examples of how mathematical and computational
modeling by our group was combined with experiments by collaborators
to understand membrane and cytoskeletal flow and turnover at regions
of cell extension. In the first example, we showed
that polarized exocytosis causes lateral membrane flows away from
regions of membrane insertion. In rod-shaped fission yeast cells, this
causes membrane-bound inhibitors of Cdc42 with sufficiently low
diffusion and/or detachment rates to deplete, thus patterning the
growing cell tip in a way that establishes its rod shape. In the
second example, we looked at actin cytoskeleton retrograde flows in
regions
of cell protrusion. Using filament-level kinetic and mechanical models
we provided an explanation of how distributed turnover through
severing and annealing generates structural changes of Arp2/3-complex
dendritic networks. We also provide a filament-level implementation of
the clutch mechanism and force transmission through the whole
lamellipodial actin network flowing over focal adhesions.
Host: Dr. Pedro Mendes
Meeting Link:
https://uconn-cmr.webex.com/uconn-cmr/j.php?MTID=m4f1c0eb4fb8d0f91e88024860e765c45
Join by meeting number
Meeting number (access code): 2620 495 1243
Meeting password: BpdHg2r4tF2
Tap to join from a mobile device (attendees only)
+1-415-655-0002,,26204951243## US Toll
Join by phone
+1-415-655-0002 US Toll
Global call-in numbers
Join from a video system or application
Dial 26204951243@uconn-cmr.webex.com
You can also dial 173.243.2.68 and enter your meeting number.
If you are a host, click here to view host information.Contact Information: Tiffany: jespersen@uchc.edu
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Oct
1
CAM Presentation - Kshitiz12:00pm
CAM Presentation - Kshitiz
Friday, October 1st, 2021
12:00 PM - 01:00 PM
UConn Health Virtual
CAM Presentation
Speaker: Kshitiz
Title: TBAContact Information: Tiffany; jespersen@uchc.edu
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Oct
8
CAM Presentation - Bruce Mayer12:00pm
CAM Presentation - Bruce Mayer
Friday, October 8th, 2021
12:00 PM - 01:00 PM
UConn Health Virtual
CAM Presentation
Speaker: Bruce Mayer
Title: TBAContact Information: Tiffany; jespersen@uchc.edu
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Oct
15
CAM Presentation - Mike Guertin12:00pm
CAM Presentation - Mike Guertin
Friday, October 15th, 2021
12:00 PM - 01:00 PM
UConn Health Virtual
CAM Presentation
Speaker: Mike Guertin
Title: TBAContact Information: Tiffany; jespersen@uchc.edu
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News
- Welcome Sathyan Mattada9-01-2021. Welcome to Dr. Sathyan Mattada, who is joining the faculty in CCAM and the Department of Genetics and Genome Sciences. Dr. Mattada works in association with Michael Guertin’s lab exploring mechanisms of transcriptional regulation using inducible rapid degradation systems.
- Pedro Mendes interviewed on NBC Connecticut news8-31-21. See Pedro Mendes’ interview with Dan Corcoran of NBC Connecticut news here. Dr. Mendes discusses the implications of his COVID-19 infection models and trajectories for the current surge. You can also find an article in the Hartford Courant by Alex Putterman that extensively quotes Dr. Mendes on the current COVID-19 infection numbers in CT […]
- Congrats to Lauren & team, first place in PhysiCell Workshop!8-2-21. Lauren Marazzi and her teammates came in first place at the PhysiCell Workshop and Hackathon 2021. They developed PhysiPKPD, a standardized addon with user friendly implementation to PhysiCell for simulating pharmacokinetics and pharmacodynamics. Congratulations on your work!
- Welcome Michael Guertin7-06-2021. Please welcome our newest faculty member, Dr. Michael Guertin, who joins CCAM and the Department of Genetics and Genome Sciences. Dr. Guertin’s laboratory uses genomics, biochemistry and computational biology tools to explore mechanisms of transcriptional regulation and regulatory cascades in hormonal signaling.
- Moraru, Blinov, Marupilla and Wilson publication5-13-21. Drs Ion Moraru and Michael Blinov along with computer specialists Gnaneswara Marupilla and Michael Wilson are co-authors on a new paper in Nuclei Acids Research describing the new resources available through RunBioSimulations, a product of the NIH-funded National Biomedical Technology Resource lead by Ion Moraru of the University of Connecticut School of Medicine and […]