This workshop focuses on the complexity of dynamics and kinetics in systems from single molecules to cells. Our aim is to bring several key concepts -- such as energy landscapes, state space and conformational networks, probability inverse methods, polymer theory, statistical physics and beyond -- to deepen and integrate fundamental concepts relevant from the level of single molecules to cells.
For instance, current biophysical imaging and spectroscopy methods can probe time (< 10^â6 s), length (10^â9 m) and force (10^â12 N) scales relevant to the life cycle of a cell. Despite the wealth of experimental data, our ability to gain meaningful insight from processes occurring at such small scales is limited by fundamental challenges common to all complex dynamical systems: current experimental and theoretical methods cannot capture complex processes in their full multi-dimensional detail.
At best, they provide a small slit through the curtains of the intricate cellular theatre on display by probing complex processes along just one or a few relevant observable coordinates. Our focus will therefore be on building principled models for complex biological and physical systems directly inspired from experiments and computer simulations as well as generalizing theoretical frameworks relevant to complex biophysical phenomena.
We will bring together experimentalists and theorists from diverse fields to motivate discussions along the following broad topics:
1. What experimental spectroscopy or imaging techniques under current or future development would provide a broader, more complete and multi-dimensional, description of biophysical kinetics?
2. What is a convenient mathematical language for complex kinetics that would help understand, rather than fit, specific in silico, spectroscopy and imaging experiments? How do we maximize the predictive power of such models in a principled fashion while reducing their dependency on adjustable parameters? Related subjects include, for example, memory effects, multiple pathways on energy landscapes, networks and their relations to information processing of molecules, equilibrium and nonequilibrium properties.
3. How can we take full advantage of entire data sets from experiments or simulations in building models such as complex networks or generalized Langevin dynamics in steady-state and nonsteady-state environments?
4. Very broadly: When is a model too complicated in biophysics? When is a model too simple? Do the types of experiments from which we gather data set fixed bounds on what we can or cannot ask?
This workshop is aimed at having an interdisciplinary meeting that brings together researchers in different fields to explore the new, exciting, open questions, by stirring different disciplines. The time slot for each speaker is about one hour including 20-30 minutes interactive discussions with the audience. The program through a week is usually not fully occupied and allows the participants to exchange ideas in more detail and think about possible future projects/subjects during the meeting.
Workshop attendees (invited speakers and participants) are expected to contribute for registration and housing during the five-days workshop, and to cover their travel expenses: see, e.g., this year's registration
We are eagerly looking forward to your participation and sincerely hope that you will accept this invitation. It would be very helpful if you could indicate whether you are likely to attend or not by March 1, 2019. In particular, if you know that you will not attend, please inform us as soon as possible so that we can invite new participants!
Participants should be aware that this workshop runs Sunday through Thursday. Discounted lodging rates end after Wednesday night. If your flight is on Friday out of Montrose, we recommend having dinner in Telluride on Thursday night and taking Telluride Express to Montrose after dinner. TSRC scientists are eligible for the corporate rate ($119 + tax) at the Hampton Inn (970-547-4120) next to the airport.
The registration fee also includes five breakfasts, the TSRC BBQ picnic, and a group dinner at Rustico.
We wish to ensure an intimate workshop setting, with no more than 20 to 25 participants. If you are interested in attending, but have not received an invitation, please contact the workshop organizer before registering. If you have registered for a meeting you were not invited to, you may be subject to a $100 fee.
TSRC is about expanding the frontiers of science, exploring new ideas, and building collaborations. The workshop schedule will allow for substantial unstructured time for participants to talk and think. All participants are expected to stay for the entire duration of the workshop. Scientists are encouraged to consider bringing family or friends. Telluride offers a number of options for children's camps (including Telluride Academy, Aha School for the Arts, and Pinhead Institute). There is more information on childcare, camps, and family activities on TSRC's website. Feel free to contact TSRC's staff to help with any planning and/or coordinating care.
Telluride Intermediate School
725 West Colorado Ave Telluride, CO 81435
|Berry, R. Stephen||The University of Chicago|
|Chaudhury, Srabanti||Indian Institute of Science Education and research|
|Clément, Jean-Emmanuel||Research Institute for Electronic Science|
|Comstock, Matt||Michigan State University|
|Fujita, Katsumasa||Osaka University|
|Hernandez, Rigoberto||Johns Hopkins University|
|Komatsuzaki, Tamiki||Hokkaido University|
|Lee, Julian||Soongsil University|
|Makarov, Dmitrii||University of Texas at Austin|
|Morozov, Alexandre||Rutgers University|
|Mukherji, Shankar||Washington University|
|Munsky, Brian||Colorado State University|
|Pressé, Steve||Arizona State University|
|Ritchie, Kenneth||Purdue University|
|Shepherd, Douglas||University of Colorado Anschut Medical Campus|
|Thompson, Ward||University of Kansas|
|Wiggins, Paul||University of Washington|