Principles of Molecular Biophysics
Discussion section: 3-4pm Wednesday, 9 Evans Hall
Homework #5 solutions posted
Homework #0
Homework #1
Homework #2
Homework #3
Homework #4
Homework #5
Old exams and solutions
Old Midterm
Old Midterm Solutions
Old Final
Old Final Solutions
Homework #0 solutions
Homework #1 solutions
Homework #2 solutions
Homework #3 solutions
Homework #4 solutions
Homework #5 solutions
Midterm questions
Midterm solutions
Lecture 2
Lecture 3
Lecture 4
Lecture 5
Lecture 6
Lecture 7
Lecture 8
Lecture 9
Lecture 10
Lecture 11
Lecture 12
Lecture 13
Lecture 14
Lecture 15 - guest lecture by Prof. Krantz
Papers
PAPER PRESENTATION ASSIGNMENTS
PAPER PRESENTATION RUBRIC
A. Optogenetic Control of Cardiac Function
B. Focused Electric Field in Potassium Channel
C. Self-Polarization and Motility of Cytoplasm
D. Following Translation by Single Ribosomes
E. Diffusion Dynamics of Receptors through Qdot Tracking
F. Single-Molecule Pull-Down
G. Superresolution Imaging of Synapses
H. Control of Glutamate Receptor with Optical Switch
I. Video Imaging of Myosin V by High-Speed AFM
J. X-ray Structure of K+ Channel
K. Light-Driven Changes Entraining Circadian Oscillator
L. Single-Molecule DNA Sequencing
M. ATP Synthesis by F1-ATPase
N. Single-Molecule Calmoduling Folding
O. Mechanical Unfolding of Titin
P. Single-Molecule Membrane Signaling in T-Cells
Q. Single-Molecule Gene Expression
R. Myosin V Single Fluorophore Imaging
S. Force Generation of DNA packaging motor
T. Optical Recording of Action Potentials
U. Assembly Dynamics of Microtubules
V. Membrane Curvature Controls Dynamin Polymerization
W. Fast Optical Interrogation of Neural Circuitry
Miscellaneous
Course syllabus
