Catalytic Efficiency of Cationic Micellar Catalysts Bearing a Mercapto Group as the Reaction Center

Abstract: In order to clarify micro-environmental effects on the reactivity of mercapto groups in enzymes, cationic surfactants bearing a mercapto group, N-hexadecyl-Nα-(3-trimethylammoniopropionyl)-l-cysteinamide bromide (CM·Cys-1) and N-dodecyl-Nα-(6-trimethylammoniohexanoyl)-l-cysteinamide bromide (CM·Cys-2), were synthesized and their kinetic behavior investigated. The surfactants above their critical micelle concentrations markedly catalyzed the decomposition p-nitrophenyl hexanoate (PNPH) and acetate (PNPA), the c… Show more

“…While micelles provide hydrophobic reaction sites effective for acceleration of various enzyme-mimetic reactions, those aggregates are generally soft and difficult to achieve conformational fixation of substrates for regio- and stereospecific reactions. Peptide surfactants bearing amino acid residue(s), such as 7 , developed by Murakami et al may improve such a weak aspect of micellar aggregates, since the amphiphiles tend to form tight aggregates relative to those formed with simple surfactants, originating from the intramicellar hydrogen-bonding interaction. − …”

“…Peptide surfactants bearing amino acid residue(s), such as 7, developed by Murakami et al may improve such a weak aspect of micellar aggregates, since the amphiphiles tend to form tight aggregates relative to those formed with simple surfactants, originating from the intramicellar hydrogen-bonding interaction. [34][35][36][37] It is well recognized that incorporation of substrate species into aqueous micelles proceeds through hydrophobic, electrostatic, and charge-transfer interactions. On the other hand, the hydrogen-bonding interaction between a substrate and a catalyst seems to be also effective for stereoselective catalysis in the hydrophobic micellar phases.…”

Artificial Enzymes

“…While micelles provide hydrophobic reaction sites effective for acceleration of various enzyme-mimetic reactions, those aggregates are generally soft and difficult to achieve conformational fixation of substrates for regio- and stereospecific reactions. Peptide surfactants bearing amino acid residue(s), such as 7 , developed by Murakami et al may improve such a weak aspect of micellar aggregates, since the amphiphiles tend to form tight aggregates relative to those formed with simple surfactants, originating from the intramicellar hydrogen-bonding interaction. − …”

“…Peptide surfactants bearing amino acid residue(s), such as 7, developed by Murakami et al may improve such a weak aspect of micellar aggregates, since the amphiphiles tend to form tight aggregates relative to those formed with simple surfactants, originating from the intramicellar hydrogen-bonding interaction. [34][35][36][37] It is well recognized that incorporation of substrate species into aqueous micelles proceeds through hydrophobic, electrostatic, and charge-transfer interactions. On the other hand, the hydrogen-bonding interaction between a substrate and a catalyst seems to be also effective for stereoselective catalysis in the hydrophobic micellar phases.…”

Artificial Enzymes

“…Based on the data obtained at 20-35 "C, pH 7.6 (0.083 mol dm-3 Tris buffer) in CH3CN-H20 (3 : 97 vlv) containing 0.083 mol dm-j KC1 with concentrations: PalHis,(1.5-7.5) x mol dmF3; OTAC,(3)(4)(5)(6)(7)(8)(9)(10)(11)(12)(13)(14)(15) x 10-4 mol dm-3 at [OTAC]/[PalHis] 20; substrate,…”

Enantioselective catalysis of deacylation of p-nitrophenyl N-acylphenyl-alanates by mixed micelles composed of N^α-hexadecanoyl-L-histidine and a cationic surfactant

Enzyme-Mimetic Polymers