CCAM at UConn Health
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 compuational 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.
Upcoming Events
CAM Presentation - Vera Licona
Friday, April 26th, 2019
12:00 PM - 01:00 PM
UConn HealthCGSB, Demo Room, R1401, 400 Farmington Ave
Speaker: Paola Vera-Licona
Title:TBA
Contact Information: Tiffany x6103
MoreCAM Presentation - Yan
Friday, May 3rd, 2019
12:00 PM - 01:00 PM
UConn HealthCGSB, Demo Room, R1401, 400 Farmington Ave
Speaker: Ping Yan
Title:TBA
Contact Information: Tiffany x6103
MoreCCAM Seminar Series - Scott Forth
Thursday, May 9th, 2019
12:00 PM - 01:00 PM
UConn HealthCGSB, CCAM Conference Room, R1673, 400 Farmington Ave.
Guest Speaker: Scott Forth, Assistant Professor
Department of Biological Sciences, Rensselaer Polytechnic Institute
Title: âDissecting the mechanics of microtubule networks in cell divisionâ
Abstract: âCells use cytoskeletal networks to perform complex mechanical tasks during diverse processes such as mitotic spindle assembly. These dynamic networks consist of microtubules that are organized, bundled, and transported by motor and non-motor proteins that produce âactiveâ pushing and âpassiveâ frictional forces to build the machinery needed to drive chromosome segregation. How these mesoscale forces are produced and regulated by ensembles of proteins has been unclear. We are addressing this knowledge gap by directly measuring force production across micron-scale microtubule bundles and simultaneously observing by single molecule fluorescence microscopy the localization of key proteins that drive the organization of these networks. We show that ensembles of the mitotic motor protein kinesin-5 can generate pushing and braking forces that scale with filament overlap length, allowing the spindle to modulate its mechanical properties in response to perturbations. We also demonstrate that small ensembles of the non-motor crosslinking protein PRC1, which is needed to build the central spindle in anaphase, are viscous elements whose resistance to motor-driven microtubule sliding scales with velocity and protein density. These properties allow for the regulated assembly of the central spindle even in the presence of poleward-directed forces in anaphase. These results help us to understand how higher-order microtubule networks operate as âmachinesâ that obey simple rules to modulate their force production, and provide insights into how cell division errors can be linked to misregulation of critical mechanical elements of the spindle.â
Contact Information: Tiffany x6103
MoreCAM Presentation - Shrestha
Friday, May 10th, 2019
12:00 PM - 01:00 PM
UConn HealthCGSB, Demo Room, R1401, 400 Farmington Ave
Speaker: Prem Shrestha
Title:TBA
Contact Information: Tiffany x6103
MoreCAM Presentation - Nickaeen
Friday, May 17th, 2019
12:00 PM - 01:00 PM
UConn HealthCGSB, Demo Room, R1401, 400 Farmington Ave
Speaker: Masoud Nickaeen
Title:TBA
Contact Information: Tiffany x6103
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