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Zhang, Chunqiu ; Shafi, Ramim ; Lampel, Ayala ; MacPherson, Douglas ; Pappas, Charalampos G. ; Narang, Vishal ; Wang, Tong ; Maldarelli, Charles ; Ulijn, Rein V. ( , Angewandte Chemie International Edition)
Abstract The reversible regulation of catalytic activity is a feature found in natural enzymes which is not commonly observed in artificial catalytic systems. Here, we fabricate an artificial hydrolase with pH‐switchable activity, achieved by introducing a catalytic histidine residue at the terminus of a pH‐responsive peptide. The peptide exhibits a conformational transition from random coil to β‐sheet by changing the pH from acidic to alkaline. The β‐sheet self‐assembles to form long fibrils with the hydrophobic edge and histidine residues extending in an ordered array as the catalytic microenvironment, which shows significant esterase activity. Catalytic activity can be reversible switched by pH‐induced assembly/disassembly of the fibrils into random coils. At higher concentrations, the peptide forms a hydrogel which is also catalytically active and maintains its reversible (de‐)activation.
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Zhang, Chunqiu ; Shafi, Ramim ; Lampel, Ayala ; MacPherson, Douglas ; Pappas, Charalampos G. ; Narang, Vishal ; Wang, Tong ; Maldarelli, Charles ; Ulijn, Rein V. ( , Angewandte Chemie)
Abstract The reversible regulation of catalytic activity is a feature found in natural enzymes which is not commonly observed in artificial catalytic systems. Here, we fabricate an artificial hydrolase with pH‐switchable activity, achieved by introducing a catalytic histidine residue at the terminus of a pH‐responsive peptide. The peptide exhibits a conformational transition from random coil to β‐sheet by changing the pH from acidic to alkaline. The β‐sheet self‐assembles to form long fibrils with the hydrophobic edge and histidine residues extending in an ordered array as the catalytic microenvironment, which shows significant esterase activity. Catalytic activity can be reversible switched by pH‐induced assembly/disassembly of the fibrils into random coils. At higher concentrations, the peptide forms a hydrogel which is also catalytically active and maintains its reversible (de‐)activation.