KINETICS OF AMIDE PROTON-EXCHANGE IN HELICAL PEPTIDES OF VARYING CHAIN LENGTHS - INTERPRETATION BY THE LIFSON-ROIG EQUATION

被引:125
作者
ROHL, CA
SCHOLTZ, JM
YORK, EJ
STEWART, JM
BALDWIN, RL
机构
[1] STANFORD UNIV, MED CTR, SCH MED, DEPT BIOCHEM, STANFORD, CA 94305 USA
[2] UNIV COLORADO, HLTH SCI CTR, DEPT BIOCHEM, DENVER, CO 80262 USA
关键词
D O I
10.1021/bi00120a001
中图分类号
Q5 [生物化学]; Q7 [分子生物学];
学科分类号
071010 ; 081704 ;
摘要
The kinetics of amide proton exchange (H-1 --> H-2) have been measured by proton nuclear magnetic resonance spectroscopy for a set of helical peptides with the generic formula Ac-(AAKAA)m Y-NH2 and with chain lengths varying from 6 to 51 residues. The integrated intensity of the amide resonances has been measured as a function of time in (H2O)-H-2 at pH* 2.50. Exchange kinetics for these peptides can be modeled by applying the Lifson-Roig treatment for the helix-to-coil transition. The Lifson-Roig equation is used to compute the probability that each residue is helical, as defined by its backbone (phi, psi) angles. A recursion formula then is used to find the probability that the backbone amide proton of each residue is hydrogen bonded. The peptide helix can be treated as a homopolymer, and direct exchange from the helix can be neglected. The expression for the exchange kinetics contains only three unknown parameters: the rate constant for exchange of a non-hydrogen-bonded (random coil) backbone amide proton and the nucleation (upsilon-2) and propagation (w) parameters of the Lifson-Roig theory. The fit of the exchange curves to these three parameters is very good, and the values for upsilon-2 and w agree with those derived from circular dichroism studies of the thermally-induced unfolding of related peptides [Scholtz, J. M., Qian, H., York, E. J., Stewart, J. M., & Baldwin, R. L. (1991) Biopolymers (in press)].
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页码:1263 / 1269
页数:7
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