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Jen Chao Presentation November 20, 2008

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Presentation on theme: "Jen Chao Presentation November 20, 2008"— Presentation transcript:

1 Jen Chao 20.309 Presentation November 20, 2008
Unbinding forces of single antibody-antigen complexes correlate with their thermal dissociation rates Schwesinger et al, 2000 Jen Chao Presentation November 20, 2008

2 Outline Background Methods

3 Motivation Correlation between unbinding force and solution kinetics or thermodynamics Prediction of off-rates Combinatorial chemistry, genomics research The existence of a correlation between unb. Force and sol. Kin/thermo would be very impt. To find solution properties of protein-ligand systems at molecular level, predicting off-rates could be very valuable for combinatorial chemistry biology. Combinatorial chemistry involves the rapid synthesis or the computer simulation of a large number of different but structurally related molecules.

4 Background Atomic Force Microscopy (AFM) Parameters: KD = koff/kon
AFM is high-resolution, really sensitive type of scanning probe microscope, used for imaging, measuring and manipulating matter at the nanoscale. It uses a probe and piezoelectric elements to make tiny movements to measure things such as Van der Waals forces, capillary forces, chemical bonding, electrostatic forces, What they wanted to do was: So they can use the AFM too seek the correlation looking at KD (eq. behavior), kon and koffs (spont. Assoc/dissoc) because those are the parameters of prime interest in describing any biological ligand-rec sys.

5 Methods 3 fluorescein-binding antibodies, point mutations
KD, kon, koff for each protein in solution Dependence on Pulling velocity Nonlinearity They chose 3 unrelated fluorescein-binding ab’s in the form of monomeric single-chain Fv fragments. Simple b/c 1) follow 1:1 binding model (simple reversible) and no kinetically detectable allosteric effects. 2) ligand inert and rigid For each prot, determined eq, Kon, Koff, and temp dependence of Koff in solution Tested the dependence of unbinding forces on pulling velocity to determine 1) whether theres any nonlinearlity that would indicate a change of unbinding mech/transition state w/ pulling speed 2) to extrapolate to the unbinding rate at zero force.

6 Off/On-Rate Measurements
Competitive dissociation assay 1nM fluorescein solution Analog mixed in Stopped-flow fluorimeter 5 different concentrations of scFv Used a fluor. Analog of fluorescein which occupies the binding site after dissoc. Of fluorescein to PREVENT REBINDING Used a 1 nM flour. Soln. and equilibrated it w/ protein until fluorescence reached stable baseline The prot/fluor. Complex mixed with the analog and the increasing fluorescence of FREE fluor. Measured

7 Results Remarkable correlation of the unbinding forces to the off-rates By using both related and unrelated antibodies, they found a correlation of the unbinding forces to the off-rates across all systems Indicating that in the AFM exp., the molecular systems are following a dissoc. Path similar to the one at zero force

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