C M Ryle scite author profile

C M Ryle

5Publications

28Citation Statements Received

76Citation Statements Given

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Trinity College Dublin

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Subcellular localization of aldehyde reductase activities in ox brain

Ryle¹,

Tipton²

1981

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The distribution of the two principal isoenzymes of aldehyde reductase (EC 1.1.1.2) has been studied in ox brain. The more active of these, which has been termed the high-Km enzyme, has been shown to be located in the cytosol and the less abundant low-Km form has a similar localization. p-Nitrobenzaldehyde, which has been used as a substrate in previous studies, caused the reduction of NADH in the presence of the mitochondrial fraction, but mixed substrate experiments with 1,3-dinitrobenzene and the effects of pH on the activity indicate that this is due to the presence of a nitro reductase activity which has been recently described (Köchli, Wermuth & von Wartburg (1980) Biochim. Biophys. Acta 616, 133-142] rather than to the low-Km aldehyde reductase activity. Fractionation of the mitochondria indicated this activity to be largely confined to the mitochondrial inner membrane.

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Studies on the glutathione S-transferase activity associated with rat liver mitochondria

Ryle¹,

Mantle²

1984

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The major proportion of rat liver glutathione S-transferase is cytosolic. Carefully washed mitochondria contain 0.25-0.47% of the cytosolic activity. Subfractionation of washed mitochondria using digitonin treatment revealed that glutathione S-transferase release did not parallel that of any of the mitochondrial marker enzymes. Glutathione S-transferase release paralleled that of lactate dehydrogenase, suggesting that these 'mitochondrial' activities are due to loosely bound cytoplasmic forms.

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Kinetic studies with the low-Km aldehyde reductase from ox brain

Ryle¹,

Tipton²

1985

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Initial-rate studies of the low-Km aldehyde reductase-catalysed reduction of pyridine-3-aldehyde by NADPH gave families of parallel double-reciprocal plots, consistent with a double-displacement mechanism being obeyed. Studies on the variation of the initial velocity with the concentration of a mixture of the two substrates were also consistent with a double-displacement mechanism. In contrast, the initial-rate data indicated that a sequential mechanism was followed when NADH was used as the coenzyme. Product-inhibition studies, however, indicated that a compulsory-order mechanism was followed in which NADPH bound before pyridine-3-aldehyde with a ternary complex being formed and the release of pyrid-3-ylcarbinol before NADP+. The apparently parallel double-reciprocal plots obtained in the initial-rate studies with NADPH and pyridine-3-aldehyde were thus attributed to the apparent dissociation constant for the binary complex between the enzyme and coenzyme being finite but very low.

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Selective induction of glutathione S-transferase D in rat testis by phenobarbital

Sheehan¹,

Ryle²,

Mantle³

1984

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Testis cytosol is shown to contain the Yb2Yb2 -homodimer glutathione S-transferase D in addition to the previously described glutathione S-transferases A ( Yb1Yb1 ) and C ( Yb1Yb2 ). Treatment of rats with phenobarbital induces the level of glutathione S-transferase D in testis with no increase in the activities of glutathione S-transferases A and C. This result indicates a specific induction of the Yb2 subunit in testis, in contrast with the situation in rat liver, where phenobarbital specifically induces the Yb1 subunit.

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Purification and properties of low-Km aldehyde reductase from ox brain

Ryle

Dowling

Tipton

1984

Biochimica et Biophysica Acta (BBA) - Protein Structure and Mol

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C M Ryle

Subcellular localization of aldehyde reductase activities in ox brain

Studies on the glutathione S-transferase activity associated with rat liver mitochondria

Kinetic studies with the low-Km aldehyde reductase from ox brain

Selective induction of glutathione S-transferase D in rat testis by phenobarbital

Purification and properties of low-Km aldehyde reductase from ox brain

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