Clery-Barraud_2002_Eur.J.Biochem_269_4297

Reference

Title : Pressure and heat inactivation of recombinant human acetylcholinesterase. Importance of residue E202 for enzyme stability - Clery-Barraud_2002_Eur.J.Biochem_269_4297
Author(s) : Clery-Barraud C , Ordentlich A , Grosfeld H , Shafferman A , Masson P
Ref : European Journal of Biochemistry , 269 :4297 , 2002
Abstract : The effects of pressure on structure and activity of recombinant human acetylcholinesterase (rHuAChE) were investigated up to a pressure of 300 MPa using gel electrophoresis under elevated hydrostatic pressure, fluorescence of bound 8-anilinonaphthalene-1-sulfonate (ANS) and activity measurements following exposure to high pressure. Study of wild-type enzyme and three single mutants (D74N, E202Q, E450A) and one sextuple mutant (E84Q/E292A/D349N/E358Q/E389Q/D390N) showed that pressure exerts a differential action on wild-type rHuAChE and its mutants, allowing estimation of the contribution of carboxylic amino acid side-chains to enzyme stability. Mutation of negatively charged residues D74 and E202 by polar side-chains strengthened heat or pressure stability. The mutation E450A and the sextuple mutation caused destabilization of the enzyme to pressure. Thermal inactivation data on mutants showed that all of them were stabilized against temperature. In conclusion, pressure and thermal stability of mutants provided evidence that the residue E202 is a determinant of structural and functional stability of HuAChE.
ESTHER : Clery-Barraud_2002_Eur.J.Biochem_269_4297
PubMedSearch : Clery-Barraud_2002_Eur.J.Biochem_269_4297
PubMedID: 12199708

Citations formats

Clery-Barraud C, Ordentlich A, Grosfeld H, Shafferman A, Masson P (2002)
Pressure and heat inactivation of recombinant human acetylcholinesterase. Importance of residue E202 for enzyme stability
European Journal of Biochemistry 269 :4297

Clery-Barraud C, Ordentlich A, Grosfeld H, Shafferman A, Masson P (2002)
European Journal of Biochemistry 269 :4297