Terrence Robson scite author profile

Terrence Robson

5Publications

104Citation Statements Received

35Citation Statements Given

How they've been cited

154

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Affiliations

Newcastle University

Publications

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The catalase activity of ferrihaems

Jones

Robson

Brown

1973

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1. The variation of the specific stoicheiometric catalatic activity of proto- and deuteroferrihaem with total ferrihaem concentration has been studied at 25 degrees C over a wide range of pH. For deuteroferrihaem the results imply that only monomeric ferrihaem species contribute significantly to the catalatic activity. Protoferrihaem is more highly dimerized in solution and, in this system, contributions to the catalatic activity from both monomeric and dimeric ferrihaem species were observed. The ratio of the specific activity of protoferrihaem monomer to that of dimer varied from approximately 20 at pH7 to 5x10(4) at pH12.2. 2. The specific activity of protoferrihaem monomer closely resembles that of deuteroferrihaem monomer, both in magnitude and pH-dependence. In both cases the activity is inversely proportional to [H(+)]. In contrast, the activity of catalase is independent of pH in the range 5-10. At pH13 the activity of ferrihaem monomer becomes equal to the maximal activity of catalase. The results are in good agreement with those reported by Brown et al. (1970b) and provide support for the assumptions upon which this previous analysis relied. 3. Information from the literature concerning the catalatic activity and dimerization of the iron(III) complex of 4,4',4'',4'''-tetrasulphophthalocyanine (Waldmeier & Sigel, 1971; Sigel et al., 1971) have been re-analysed. The results imply that both the monomeric and dimeric complexes contribute to catalatic activity and these activities closely resemble those of the corresponding protoferrihaem species.

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Oxidation of deuteroferrihaem by hydrogen peroxide

Jones

Prudhoe

Robson

1973

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1. The oxidation of deuteroferrihaem by H(2)O(2) to bile pigment and CO was studied both by stopped-flow kinetic spectrophotometry and mass spectrometry, at 25 degrees C, I=0.1m. 2. Spectrophotometric studies imply that, at constant pH, the rate of bile pigment formation is first-order with respect to [H(2)O(2)] and also proportional to [deuteroferrihaem monomer]. The effect of pH on the apparent second-order rate constant suggests that acid-ionization of deuteroferrihaem monomer is important in the reaction mechanism. 3. The relative rates of formation of O(2) (from catalytic decomposition of H(2)O(2)) and CO (from oxidation of ferrihaem) have been measured by mass spectrometry. The results are in excellent agreement with those obtained by combining kinetic data for catalytic decomposition (Jones et al., 1973, preceding paper) with the spectrophotometric results for deuteroferrihaem oxidation.

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Kinetics of formation of the peroxidatic intermediate from deuteroferriheme and hydrogen peroxide

Jones¹,

Prudhoe²,

Robson³

et al. 1974

Biochemistry

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Effects of divalent metal ions on the uptake of glutamate and GABA from synaptosomal fractions

Gabrielsson¹,

Robson²,

Norris³

et al. 1986

Brain Research

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Non-Covalent Forces Hold Glycoprotein Molecules Together in Mucous Gel

Robson

Allen

Pain

1975

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Terrence Robson

The catalase activity of ferrihaems

Oxidation of deuteroferrihaem by hydrogen peroxide

Kinetics of formation of the peroxidatic intermediate from deuteroferriheme and hydrogen peroxide

Effects of divalent metal ions on the uptake of glutamate and GABA from synaptosomal fractions

Non-Covalent Forces Hold Glycoprotein Molecules Together in Mucous Gel

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