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Effect of modulating unfolded state structure on the folding kinetics of the villin headpiece subdomain.


ABSTRACT: Equilibrium Fourier transform infrared (FTIR) and temperature-jump (T-jump) IR spectroscopic techniques were used to study the thermodynamics and kinetics of the unfolding and folding of the villin headpiece helical subdomain (HP36), a small three-helix protein. A double phenylalanine mutant (HP36 F47L, F51L) that destabilizes the hydrophobic core of this protein also was studied. The double mutant is less stable than wild type (WT) and has been shown to contain less residual secondary structure and tertiary contacts in its unfolded state. The relaxation kinetics after a T-jump perturbation were studied for both HP36 and HP36 F47L, F51L. Both proteins exhibited biphasic relaxation kinetics in response to a T-jump. The folding times for the WT (3.23 micros at 60.2 degrees C) and double phenylalanine mutant (3.01 micros at 49.9 degrees C) at the approximate midpoints of their thermal unfolding transitions were found to be similar. The folding time for the WT was determined to be 3.34 mus at 49.9 degrees C, similar to the folding time of the double phenylalanine mutant at that temperature. The double phenylalanine mutant, however, unfolds faster with an unfolding time of 3.01 micros compared with 6.97 micros for the WT at 49.9 degrees C.

SUBMITTER: Brewer SH 

PROVIDER: S-EPMC1283803 | biostudies-literature | 2005 Nov

REPOSITORIES: biostudies-literature

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Effect of modulating unfolded state structure on the folding kinetics of the villin headpiece subdomain.

Brewer Scott H SH   Vu Dung M DM   Tang Yuefeng Y   Li Ying Y   Franzen Stefan S   Raleigh Daniel P DP   Dyer R Brian RB  

Proceedings of the National Academy of Sciences of the United States of America 20051103 46


Equilibrium Fourier transform infrared (FTIR) and temperature-jump (T-jump) IR spectroscopic techniques were used to study the thermodynamics and kinetics of the unfolding and folding of the villin headpiece helical subdomain (HP36), a small three-helix protein. A double phenylalanine mutant (HP36 F47L, F51L) that destabilizes the hydrophobic core of this protein also was studied. The double mutant is less stable than wild type (WT) and has been shown to contain less residual secondary structure  ...[more]

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