D. W. Ingles scite author profile

D. W. Ingles

4Publications

92Citation Statements Received

39Citation Statements Given

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203

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Dyson (United Kingdom), University of Oxford

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The stereospecificity of α-chymotrypsin

Ingles

Knowles

1968

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1. The rates of deacylation of acyl-alpha-chymotrypsins in which the hydrogen-bonding capacity of the acylamino group of the substrate has been systematically removed were measured. 2. The ratio of deacylation rates of l- and d-acyl-enzymes is found to depend largely on the existence in the substrate of an amido -NH- group. 3. The data presented agree with the postulate that the stereospecificity of alpha-chymotrypsin is exercised in catalytic rather than binding steps, and that the active site of the enzyme presents three loci to the substrate: the site containing the catalytic functionalities (including serine-195), the hydrophobic area for amino acid side-chain binding, and a hydrogen-bond acceptor site for acylamino group binding. 4. It is noted that, though the hydrogen-bonding site is crucial for the stereospecificity, the free energy of binding of substrates and inhibitors is dominated by the hydrophobic interaction. 5. It is tentatively proposed that alpha-chymotrypsin selects a high-energy conformation of the substrate when the latter binds at the enzyme's active site.

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Specificity and stereospecificity of α-chymotrypsin

Ingles¹,

Knowles²

1967

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1. The optically pure p-nitrophenyl esters of the d and l enantiomers of N-acetyl-tryptophan, N-acetylphenylalanine and N-acetyl-leucine, and the p-nitrophenyl ester of N-acetylglycine, have been prepared. 2. These materials are all substrates of alpha-chymotrypsin, and the rates of deacylation of the corresponding acyl-alpha-chymotrypsins have been determined. 3. As the size of the amino acid side chain increases, the l series deacylate progressively faster than the N-acetylglycyl-enzyme, and the d series progressively more slowly. 4. The results are interpreted in terms of a three-locus model of the enzyme's active site, which accounts for the interrelationship between substrate specificity and stereospecificity observed. 5. The concepts of negative specificity and of specificity saturation are introduced.

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The α-chymotryptic hydrolysis of glycine esters

Ingles¹,

Knowles²

1966

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1. The alpha-chymotrypsin-catalysed hydrolysis of N-acetylglycine ethyl and thiolethyl esters was investigated at pH7.90 and 25 degrees over a wide range of substrate concentrations. 2. The Lineweaver-Burk plots for these substrates are markedly curved, and it is shown that the curvature is due solely to the ;enzyme-blank' reaction. The rate of this reaction is proportional to free enzyme concentration in the range 10-100mum, with a pseudo-first-order rate constant of approx. 1x10(-3)sec.(-1). Correction for this reaction by the procedure described leads to linear plots. It is shown that the significance of the enzyme-blank reaction depends on the value of k(0)/K(m) for the substrate under investigation. 3. Interpretation of the curvature in the Lineweaver-Burk plots by previous workers in terms of activation by excess of substrate is shown to be erroneous. 4. Values of K(m) 387mm and k(0) 0.039sec.(-1), and K(m) 41mm and k(0) 0.23sec.(-1), were obtained for the ethyl and thiolethyl esters of N-acetylglycine respectively. The literature values for the methyl esters of N-acetyl- and N-propionyl-glycine have been corrected by the procedure described. The new values agree much better with current theories of alpha-chymotrypsin mechanism and specificity. 5. The kinetic parameters for the ethyl and thiolethyl esters indicate the absence of an electrophilic component in the catalytic mechanism of alpha-chymotrypsin, and the importance of the ester function in substrate binding.

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Specificity in deacylation of acyl-α-chymotrypsins

Ingles

Knowles

Tomlinson

1966

Biochemical and Biophysical Research Communications

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D. W. Ingles

The stereospecificity of α-chymotrypsin

Specificity and stereospecificity of α-chymotrypsin

The α-chymotryptic hydrolysis of glycine esters

Specificity in deacylation of acyl-α-chymotrypsins

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