Michael Ding: Difference between revisions
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1. The first crystal of fragments of yeast prion: | 1. The first crystal of fragments of yeast prion: | ||
[[Image:Structure of the cross- spine of amyloid-like fibrils.pdf]. The second paper come out on Ribonuclease A: | [[Image:Structure of the cross- spine of amyloid-like fibrils.pdf]]. | ||
The second paper come out on Ribonuclease A: | |||
[[Image:Amyloid-like fibrils of ribonuclease A with three-dimensional domain-swapped and native-like structure.pdf]] | [[Image:Amyloid-like fibrils of ribonuclease A with three-dimensional domain-swapped and native-like structure.pdf]] | ||
Revision as of 06:01, 21 November 2007
Terahertz spectroscopy - intro
Terahertz (THz) Spectroscopy is an emerging technology that will become a useful tool for numerous aspects of physical chemistry. In terms of frequency, THz spectroscopy covers the region from ~0.1 THz to 10 THz, which lies in the border between far infrared and microwave. Due to the nature of THz radiation, the spectra represent information on intermolecular vibration as well as the translations and liberation of the molecule. Driven by the foreseeable applications, the knowledge of THz Spectroscopy had been greatly expanded over the last few years.
Terahertz spectroscopy on fibril forming peptide
A) related article:
1. The first crystal of fragments of yeast prion: File:Structure of the cross- spine of amyloid-like fibrils.pdf. The second paper come out on Ribonuclease A: File:Amyloid-like fibrils of ribonuclease A with three-dimensional domain-swapped and native-like structure.pdf
2. experimental procedure:
3. follow up studies had identified 8 class of zipper structure. File:Atomic structures of amyloid cross-b.pdf
