Geoffrey Tomalin scite author profile

Geoffrey Tomalin

5Publications

38Citation Statements Received

30Citation Statements Given

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Affiliations

University of Manchester

Publications

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The kinetics of hydrolysis of some extended N-aminoacyl-l-arginine methyl esters by human plasma kallikrein. Evidence for subsites S2 and S3

Levison¹,

Tomalin²

1982

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Subsites in the S2-S4 region were identified in human plasma kallikrein. Kinetic constants (kcat., Km) were determined for a series of seven extended N-aminoacyl-L-arginine methyl esters based on the C-terminal sequence of bradykinin (-Pro-Phe-Arg) or (Gly)n-Arg. The rate-limiting step for the enzyme-catalysed reaction was found to be deacylation of the enzyme. It was possible to infer that hydrogen-bonded interactions occur between substrate and the S2-S4 region of kallikrein. Insertion of L-phenylalanine at residue P2 demonstrates that there is also a hydrophobic interaction with subsite S2, which stabilizes the enzyme-substrate complex. The strong interaction demonstrated between L-proline at residue P3 and subsite S3 is of greatest importance in the selectivity of human plasma kallikrein. The purification of kallikrein from Cohn fraction IV of human plasma is described making use of endogenous Factor XIIf to activate the prekallikrein. Kallikreins I (Mr 91 000) and II (Mr 85 000) were purified 170- and 110-fold respectively. Kallikrein I was used for the kinetic work.

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A search for an intermediate in carboxypeptidase A catalyzed ester hydrolyses

Tomalin¹,

Kaiser²,

Kaiser³

1970

J. Am. Chem. Soc.

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The kinetics of hydrolysis of some extended N-aminoacyl-l-arginine methyl esters by porcine pancreatic kallikrein. A comparison with human plasma Kallikrein

Levison¹,

Tomalin²

1982

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The effects of subsite interactions in the S2-S4 region [Schechter & Berger (1967) Biochem. Biophys. Res. Commun. 27, 157-162] of porcine pancreatic kallikrein (EC 3.4.21.8) on its catalytic efficiency have been investigated. Kinetic constants (Kcat, Km) have been determined for a series of seven extended N-aminoacyl-L-arginine methyl esters whose sequence is based on either the C-terminal sequence of kallidin (-Pro-Phe-Arg) or (-Gly-)nArg. With these substrates it has been found that neither acylation nor deacylation of the enzyme is rate-limiting. Values of Kcat. range from 21.5 to 2320s-1, indicating that there are interactions with different residues in the N-aminoacyl chain and enzyme subsites in the S2-S4 region. It is shown that possible hydrogen-bonded interactions with the enzyme in the S3-S4 region have a significant effect on catalysis. The presence of L-phenylalanine at P2 has a very large effect on both Kcat, and Km, giving a greatly enhanced catalytic efficiency. Substrates with L-proline at P3 also have a marked effect, but in this case the overall effect is one of lowered catalytic efficiency. By comparison with the results of a similar study with human plasma kallikrein I (EC 3.4.21.8), it has been possible to demonstrate that there are considerable differences in kinetic behaviour between the two enzymes. These are related to relative differences in the rates of acylation and deacylation with ester substrates and also the roles of subsites S2 and S3 of the two enzymes.

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The kinetics of hydrolysis of some extended N-aminoacyl-l-phenylalanine methyl esters by bovine chymotrypsin Aα Evidence for enzyme subsite S5

Hill

Tomalin

1981

Biochimica et Biophysica Acta (BBA) - Enzymology

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A conductometric method for the assay of amidase and peptidase activities

Hill

Tomalin

1982

Analytical Biochemistry

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