OSU Navigation Bar

The Ohio State University University Libraries Knowledge Bank

ULTRAFAST DYNAMICS OF RESONANCE ENERGY TRANSFER IN MYOGLOBIN

Please use this identifier to cite or link to this item: http://hdl.handle.net/1811/30906

Show full item record

Files Size Format View
abstract.gif 12.13Kb GIF image Thumbnail of ULTRAFAST DYNAMICS OF RESONANCE ENERGY TRANSFER IN MYOGLOBIN
Ultrafast Dynam ... Transfer in Myoglobin.ppt 1.745Mb Microsoft PowerPoint View/Open
Ultrafast Dynam ... Transfer in Myoglobin.pdf 874.3Kb PDF View/Open
Slide1.GIF 67.49Kb GIF image Thumbnail of ULTRAFAST DYNAMICS OF RESONANCE ENERGY TRANSFER IN MYOGLOBIN
Slide2.GIF 78.64Kb GIF image Thumbnail of ULTRAFAST DYNAMICS OF RESONANCE ENERGY TRANSFER IN MYOGLOBIN
Slide3.GIF 83.18Kb GIF image Thumbnail of ULTRAFAST DYNAMICS OF RESONANCE ENERGY TRANSFER IN MYOGLOBIN
Slide4.GIF 66.19Kb GIF image Thumbnail of ULTRAFAST DYNAMICS OF RESONANCE ENERGY TRANSFER IN MYOGLOBIN
Slide5.GIF 78.58Kb GIF image Thumbnail of ULTRAFAST DYNAMICS OF RESONANCE ENERGY TRANSFER IN MYOGLOBIN
Slide6.GIF 68.33Kb GIF image Thumbnail of ULTRAFAST DYNAMICS OF RESONANCE ENERGY TRANSFER IN MYOGLOBIN
Slide7.GIF 64.99Kb GIF image Thumbnail of ULTRAFAST DYNAMICS OF RESONANCE ENERGY TRANSFER IN MYOGLOBIN
Slide8.GIF 33.40Kb GIF image Thumbnail of ULTRAFAST DYNAMICS OF RESONANCE ENERGY TRANSFER IN MYOGLOBIN
Slide9.GIF 34.59Kb GIF image Thumbnail of ULTRAFAST DYNAMICS OF RESONANCE ENERGY TRANSFER IN MYOGLOBIN
Slide10.GIF 66.38Kb GIF image Thumbnail of ULTRAFAST DYNAMICS OF RESONANCE ENERGY TRANSFER IN MYOGLOBIN
Slide11.GIF 81.99Kb GIF image Thumbnail of ULTRAFAST DYNAMICS OF RESONANCE ENERGY TRANSFER IN MYOGLOBIN

Title: ULTRAFAST DYNAMICS OF RESONANCE ENERGY TRANSFER IN MYOGLOBIN
Creators: Link, Justin J.; Stevens, Jeffrey A.; Kao, Ya-Ting; Zhong, Dongping
Issue Date: 2006
Abstract: Myoglobin (Mb), a heme containing protein, is involved in the storage and release of ligands. We report here our recent studies of resonance energy transfer in Mb using an intrinsic tryptophan and the prosthetic heme as an energy transfer pair. With site-directed mutagenesis, we placed the single donor Trp into different helices. Utilizing the femtosecond up-conversion method, we characterized a series of energy transfer dynamics in Mb. The methodology developed here will be applied to study conformation dynamics of the E and F $\alpha$-helices when ligand (CO) dissociation occurs.
URI: http://hdl.handle.net/1811/30906
Other Identifiers: 2006-MI-03
Bookmark and Share