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Secondary-Structure Analysis of Denatured Proteins by Vacuum-Ultraviolet Circular Dichroism Spectroscopy

Koichi Matsuo ^*, Yoshie Sakurada , Ryuta Yonehara , Mikio Kataoka  and Kunihiko Gekko ^* 

^* Hiroshima Synchrotron Radiation Center, Hiroshima University, Higashi-Hiroshima 739-0046, Japan; Department of Mathematical and Life Sciences, Graduate School of Science, Hiroshima University, Higashi-Hiroshima 739-8526, Japan; and Graduate School of Materials Science, Nara Institute of Science and Technology, Nara 630-0192, Japan

Correspondence: Address reprint requests to Kunihiko Gekko, Tel.: 81-82-424-6481; Fax: 81-82-424-7327; E-mail: gekko{at}sci.hiroshima-u.ac.jp.

To elucidate the structure of denatured proteins, we measured the vacuum-ultraviolet circular dichroism (VUVCD) spectra from 260 to 172 nm of three proteins (metmyoglobin, staphylococcal nuclease, and thioredoxin) in the native and the acid-, cold-, and heat-denatured states, using a synchrotron-radiation VUVCD spectrophotometer. The circular dichroism spectra of proteins fully unfolded by guanidine hydrochloride (GdnHCl) were also measured down to 197 nm for comparison. These denatured proteins exhibited characteristic VUVCD spectra that reflected a considerable amount of residual secondary structures. The contents of -helices, ß-strands, turns, poly-L-proline type II (PPII), and unordered structures were estimated for each denatured state of the three proteins using the SELCON3 program with Protein Data Bank data and the VUVCD spectra of 31 reference proteins reported in our previous study. Based on these contents, the characteristics of the four types of denaturation were discussed for each protein. In all types of denaturation, a decrease in -helices was accompanied by increases in ß-strands, PPII, and unordered structures. About 20% ß-strands were present even in the proteins fully unfolded by GdnHCl in which ß-sheets should be broken. From these results, we propose that denatured proteins constitute an ensemble of residual -helices and ß-sheets, partly unfolded (or distorted) -helices and ß-strands, PPII, and unordered structures.

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