Physical & Quantitative Biology
CHE 558 / PHY 558
Fall / MWF 10 – 10:50 AM in Laufer Center 101
Gabor Balazsi, Course PI
Course goals: The central idea of this course is the free energy, the quantitative way we understand driving forces, i.e., the equilibria and rates in chemistry, physics and biology. We describe the underpinning components, the entropy and energy. We explore the microscopic interactions -- including hydrogen bonding, van der Waals, electrostatics and hydrophobic forces -- that explain physical and chemical mechanisms in biology and are the workhorse tools in computational drug discovery. We show how these basic ideas are applied: binding affinities are the basis for drug discovery; coupled binding is the basis for how biological machines convert energy and transduce signals; and polymer free energies are the basis for the folding of protein and RNA molecules.
(Click here to open the course page of 2014)
Please login to get the links to the videos
| Date | Topic | Reading | Speaker |
|---|---|---|---|
| 08/24 | Intro. Probability, statistics. [watch video: ] [Slides] |
MDF1, 2 | Gabor Balazsi |
| 08/26 | Entropy and energy as driving forces. [watch video: ] [Slides] |
MDF 2, 3 | Gabor Balazsi |
| 08/28 | Optimization methods. [watch video: ] [Slides] |
MDF 4 | Gabor Balazsi |
| 08/31 | Max Ent & the Boltzmann principle. [watch video: ] [Slides] |
MDF 5 | Gabor Balazsi |
| 09/02 | Energies, enthalpies, thermo states. [watch video: ] [Slides] |
MDF 6 | Gabor Balazsi |
| 09/04 | Free energies, chemical potentials. [watch video: ] [Slides] |
MDF 8, 9 | Gabor Balazsi |
| 09/07 | NO CLASS, Labor day | ||
| 09/09 | Microscopic modeling & Boltzmann Law. [watch video: ] [Slides] |
MDF 10 | Ken Dill |
| 09/11 | Equilibrium constants, binding affinities. [watch video: ] [Slides] |
MDF 13 | Gabor Balazsi |
| 09/14 | Liquids, phase equilibria. [watch video: ] [Slides] |
MDF 14 | Gabor Balazsi |
| 09/16 | Solvation, free energies of transfer. [watch video: ] [Slides] |
MDF 15,16 | Gabor Balazsi |
| 09/18 | Coulomb & electrostatics: how charges interact. [watch video: ] [Slides] |
MDF 20 | Gabor Balazsi |
| 09/21 | Electrostatic potentials. [watch video: ] [Slides] |
MDF 21 | Gabor Balazsi |
| 09/23 | Electrochemical equilibria, batteries. [watch video: ] [Slides] |
MDF 22 | Gabor Balazsi |
| 09/25 | Salts shield charges. Poisson-Boltzmann [watch video: ] [Slides] |
MDF 23 | Gabor Balazsi |
| 09/28 | Intermolecular interactions. [watch video: ] [Slides] |
MDF 24 | Gabor Balazsi |
| 09/30 | Adsorption & binding, Michaelis-Menten, catalysis. [watch video: ] [Slides] |
MDF 27 | Gabor Balazsi |
| 10/02 | Protein structures. [watch video: ] [Slides] |
PP1 | Emiliano Brini |
| 10/05 | Protein function & mechanisms. [watch video: ] [Slides] |
PP2 | Markus Seeliger |
| 10/07 | Binding cooperativity. [watch video: ] [Slides] |
MDF 28 | Jason Wagoner |
| 10/09 | Bio-machine principles. [watch video: ] [Slides] |
MDF 29 | Jason Wagoner |
| 10/12 | MIDTERM EXAM | ||
| 10/14 | Polymers 1: conformations & random flights. [watch video: ] [Slides] |
MDF 33, 34 | Helmut Strey |
| 10/16 | Polymers 2: polymer solutions, Flory-Huggins. [watch video: ] [Slides] |
MDF 32, 33 | Helmut Strey |
| 10/19 | Water: pure and as a solvent. [watch video: ] [Slides] |
MDF 30, 31 | Jin Wang |
| 10/21 | Diffusion, Fick's Law, Physical Dynamics. [watch video: ] [Slides] |
MDF 17, 18 | Jin Wang |
| 10/23 | Chemical rates. Mass-action kinetics [watch video: ] [Slides] |
MDF 19 | Gabor Balazsi |
| 10/26 | Transition states & activation processes. [watch video: ][Slides] |
MDF 19 | Gabor Balazsi |
| 10/28 | Protein folding & stability. | PP3 | Jin Wang |
| 10/30 | Cooperativity in proteins. [watch video: ][Slides] |
PP4 | Markus Seeliger |
| 11/02 | Protein folding & aggregation. [watch video: ][Slides] |
PP4 | Emiliano Brini |
| 11/04 | Folding kinetics & energy landscapes. [watch video: ][Slides] |
PP5 | Jin Wang |
| 11/06 | Protein evolution and sequence space. [watch video: ][Slides] |
PP6 | Alberto Perez |
| 11/09 | Bioinformatics.[watch video: ][Slides] | PP7 | Alberto Perez |
| 11/11 | Gene regulation.[watch video: ][Slides] | Gabor Balazsi | |
| 11/13 | Natural and synthetic gene networks.[watch video: ][Slides] | Gabor Balazsi | |
| 11/16 | Drug discovery in industry: Wendy Cornell from Merck [watch video: ][Slides] | Wendy Cornell | |
| 11/18 | Drug discovery & methods.[watch video: ][Slides] | Rob Rizzo | |
| 11/20 | Extra day | Review for final exam. | |
| 11/23 | FINAL EXAM | ||
| 11/25 | NO CLASS, Thanksgiving break. | ||
| 11/27 | NO CLASS, Thanksgiving break. | ||
| 11/30 | Research Project Presentations. | ||
| 12/02 | Research Project Presentations. |
MDF = Molecular Driving Forces, chapter numbers.
PP = Protein Principles, draft textbook.
ACADEMIC INTEGRITY
Each student must pursue his or her academic goals honestly and be personally accountable for all submitted work. Representing another person¹s work as your own is always wrong. Any suspected instance of academic dishonesty will be reported to the Academic Judiciary. For more comprehensive information on academic integrity, including categories of academic dishonesty, please refer to the academic judiciary website at http://www.stonybrook.edu/uaa/academicjudiciary/
ELECTRONIC COMMUNICATION
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RELIGIOUS OBSERVANCES
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Students are expected to notify the course professors by email of their intention to take time out for religious observance. This should be done as soon as possible but definitely before the end of the add/drop¹ period. At that time they can discuss with the instructor(s) how they will be able to make up the work covered.
DISABILITIES
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CRITICAL INCIDENT MANAGEMENT
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