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September 2013

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Subject:
From:
"Diane St. Germain" <[log in to unmask]>
Reply To:
Diane St. Germain
Date:
Wed, 11 Sep 2013 14:01:35 +0000
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Did you miss Dr. Jafri's talk at the Tuesday Bioinformatics Colloquium? Here's an opportunity to attend at the Fairfax campus.
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Please join us for the next Krasnow Monday Seminar on 9/16/13.
Refreshments will be served at 3:30pm.  Come chat with colleagues and like-minded researchers and students prior to the talk at 4pm.
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TITLE:
Computational Studies of Cardiac Excitation-Contraction Coupling: From Molecule to Arrhythmia

SPEAKER:
Dr. Saleet Jafri
Department of Molecular Neuroscience,
Krasnow Institute for Advanced Study

DATE:  Monday, September 16, 2013
TIME:  4:00 p.m.
LOCATION:  Lecture Room (Room 229)
            Krasnow Institute Building
            George Mason University, Fairfax, VA

ABSTRACT:
Calcium dynamics in the cardiac myocyte links the electrical excitation of the heart to contraction in a process known as excitation-contraction coupling. Dysfunction of critical calcium signaling proteins in heart is associated with lethal inherited cardiac arrhythmias. However, how the altered proteins lead to arrhythmias remains both unknown and controversial. We have used computational models to investigate fundamental mechanisms that underlie calcium-dependent arrhythmias, the same class of arrhythmias that follow myocardial infarction, heart failure and diverse genetic arrhythmic diseases. Even very common arrhythmias (one episode of sudden cardiac death in a month) are rare when normalized to the events occurring within a single cell over the period of a typical long experiment (e.g. one hour). Stochastic modeling, however, with the powerful computer clusters available and with our recent advances in computational algorithms, enable us to examine stochastic model systems over prolonged periods without missing the rare events. We start with the most elementary event of cardiac calcium release, the calcium spark, and construct stochastic models that explain mechanisms of calcium release termination, calcium homeostasis and the sarcoplasmic reticulum calcium leak, and the generation of arrhythmias from defects in calcium signaling. These insights begin to provide insight in to the normal and abnormal physiology of cardiac excitation-contraction coupling.
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   ** Parking Note: The former meter/pay-station lot across Shenandoah River Lane has been converted to a loading/unloading zone and can no longer served for Monday seminar visitor parking. Visitors should park in one of the campus decks.
For additional directions or information call 703-993-4333 or browse to http://krasnow.gmu.edu/location/ .
The schedule of future seminars can be found at http://krasnow.gmu.edu/blog/category/monday-seminars/upcomingmondayseminars/
.

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