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  • Engineering the enantioselectivity of glutathione transferase by combined active-site mutations and chemical modifications.

Engineering the enantioselectivity of glutathione transferase by combined active-site mutations and chemical modifications.

Biochimica et biophysica acta (2007-08-11)
Ylva Ivarsson, Malena A Norrgård, Ulf Hellman, Bengt Mannervik
摘要

Based on the crystal structure of human glutathione transferase M1-1, cysteine residues were introduced in the substrate-binding site of a Cys-free mutant of the enzyme, which were subsequently alkylated with 1-iodoalkanes. By different combinations of site-specific mutations and chemical modifications of the enzyme the enantioselectivity in the conjugation of glutathione with the epoxide-containing substrates 1-phenylpropylene oxide and styrene-7,8-oxide were enhanced up to 9- and 10-fold. The results also demonstrate that the enantioselectivity can be diminished, or even reversed, by suitable modifications, which can be valuable under some conditions. The redesign of the active-site structure for enhanced or diminished enantioselectivities have divergent requirements for different epoxides, calling for a combinatorial approach involving alternative mutations and chemical modifications to optimize the enantioselectivity for a targeted substrate. This approach outlines a general method of great potential for fine-tuning substrate specificity and tailoring stereoselectivity of recombinant enzymes.

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Sigma-Aldrich
反式-1,2-二苯乙烯氧化物, 98%
Sigma-Aldrich
顺均二苯代乙烯氧化物, 97%