Direct measurement of the energy landscape of ligand-receptor interactions
In this thesis, a novel single molecule technique will be presented that will, for the first time, give direct access to the interaction energy landscapes of small molecules. The technique relies on the interpretation of thermal position fluctuations of a colloidal probe particle tethered to the mol...
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2011
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ndltd-UTEXAS-oai-repositories.lib.utexas.edu-2152-ETD-UT-2010-08-19702015-09-20T16:56:38ZDirect measurement of the energy landscape of ligand-receptor interactionsSchwemmer, Frank Heinz, 1986-LigandReceptorForcesSpecific interactionSingle moleculeBiophysicsAvidinBiotinEnergy landscapeIn this thesis, a novel single molecule technique will be presented that will, for the first time, give direct access to the interaction energy landscapes of small molecules. The technique relies on the interpretation of thermal position fluctuations of a colloidal probe particle tethered to the molecular complex of interest and a geometrical amplification effect that converts Ångstrom scale fluctuations of the ligand in the binding pocket of the receptor to tens of nanometer fluctuation of the bead. The position of the bead is measured with 0.5 MHz bandwidth and 2 nm spatial resolution. The surface characteristic of the substrate was found to be critical for this new technique and various surface effects were observed. Methods were developed to block nonspecific interaction between the surfaces. The mobility of specifically bound particles was found to depend strongly on the density of specific bonds and the length of the molecular complex; low concentration and short linker lead to slow ligand-receptor mediated surface diffusion, high concentration and/or long linkers to an immobilization of the particle. Transient bond formation was observed for the intermediate range. Details of the interaction energy landscape were not resolved. However, a systematic change in the linker length from 22 Å to 29 Å led to a corresponding change in the lateral position fluctuations from 12.9 nm to 13.2 nm in excellent agreement with our theoretical calculations, confirming the geometrical amplification effect. Also, a new phenomenon of nanometer scale friction in the gap between the bead and the surface was discovered. In summary, the results underline that the novel technique might be able to measure details of the interaction energy landscape of a specific ligand-receptor bond and thus test theoretical predictions for its shape.text2011-01-04T16:31:02Z2011-01-04T16:31:13Z2011-01-04T16:31:02Z2011-01-04T16:31:13Z2010-082011-01-04August 20102011-01-04T16:31:13Zthesisapplication/pdfhttp://hdl.handle.net/2152/ETD-UT-2010-08-1970eng |
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NDLTD |
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English |
| format |
Others
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Ligand Receptor Forces Specific interaction Single molecule Biophysics Avidin Biotin Energy landscape |
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Ligand Receptor Forces Specific interaction Single molecule Biophysics Avidin Biotin Energy landscape Schwemmer, Frank Heinz, 1986- Direct measurement of the energy landscape of ligand-receptor interactions |
| description |
In this thesis, a novel single molecule technique will be presented that will, for the first time, give direct access to the interaction energy landscapes of small molecules. The technique relies on the interpretation of thermal position fluctuations of a colloidal probe particle tethered to the molecular complex of interest and a geometrical amplification effect that converts Ångstrom scale fluctuations of the ligand in the binding pocket of the receptor to tens of nanometer fluctuation of the bead. The position of the bead is measured with 0.5 MHz bandwidth and 2 nm spatial resolution.
The surface characteristic of the substrate was found to be critical for this new technique and various surface effects were observed. Methods were developed to block nonspecific interaction between the surfaces. The mobility of specifically bound particles was found to depend strongly on the density of specific bonds and the length of the molecular complex; low concentration and short linker lead to slow ligand-receptor mediated surface diffusion, high concentration and/or long linkers to an immobilization of the particle. Transient bond formation was observed for the intermediate range. Details of the interaction energy landscape were not resolved. However, a systematic change in the linker length from 22 Å to 29 Å led to a corresponding change in the lateral position fluctuations from 12.9 nm to 13.2 nm in excellent agreement with our theoretical calculations, confirming the geometrical amplification effect. Also, a new phenomenon of nanometer scale friction in the gap between the bead and the surface was discovered.
In summary, the results underline that the novel technique might be able to measure details of the interaction energy landscape of a specific ligand-receptor bond and thus test theoretical predictions for its shape. === text |
| author |
Schwemmer, Frank Heinz, 1986- |
| author_facet |
Schwemmer, Frank Heinz, 1986- |
| author_sort |
Schwemmer, Frank Heinz, 1986- |
| title |
Direct measurement of the energy landscape of ligand-receptor interactions |
| title_short |
Direct measurement of the energy landscape of ligand-receptor interactions |
| title_full |
Direct measurement of the energy landscape of ligand-receptor interactions |
| title_fullStr |
Direct measurement of the energy landscape of ligand-receptor interactions |
| title_full_unstemmed |
Direct measurement of the energy landscape of ligand-receptor interactions |
| title_sort |
direct measurement of the energy landscape of ligand-receptor interactions |
| publishDate |
2011 |
| url |
http://hdl.handle.net/2152/ETD-UT-2010-08-1970 |
| work_keys_str_mv |
AT schwemmerfrankheinz1986 directmeasurementoftheenergylandscapeofligandreceptorinteractions |
| _version_ |
1716821230354432000 |