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Query: EC:1.6.5.4 (
SOR
)
720
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Despite its fast autoxidation in vitro, ascorbate remains in its reduced form in vivo, indicating a special mechanism may be involved in its regeneration. The presence of an NADH-dependent reductase system,
semidehydroascorbate reductase
(
SDR
), for regeneration of ascorbate from its partially oxidized form, semidehydroascorbate (SDA), was demonstrated in bovine ocular tissues after extraction in
Triton X-100
. Highest
SDR
activity was detected in retinal extracts in the order of retina greater than pigment epithelium-choroid = ciliary body greater than iris. Minimal or no activity was observed in lens extracts or in aqueous fluid. Freezing and thawing, or boiling, destroyed the NADH-dependent
SDR
activity. NADH oxidation was significantly reduced (22% of total activity) when assays with retinal extracts were performed at 5 degrees C. Treatment with 4 mM, N-ethylmaleimide reduced the rate of NADH oxidation to 73 or 42% compared with control values with retinal or ciliary body extracts, respectively.
...
PMID:Ascorbate regeneration in bovine ocular tissues by NADH-dependent semidehydroascorbate reductase. 375 16
Interrelationships between the catalytic behavior of glucose-6-phosphatase and the structure of rat-liver microsomal membranes were investigated. 2. Rabbit anti-microsomal serum completely inhibited glucose-6-phosphate hydrolysis in detergent-modified microsomes but showed no inhibitory effect on the enzyme activity of intact or mechanically disrupted vesicles. 2. Controlled proteolysis of intact microsomes using carboxypeptidase A and/or aminopeptidase M largely denatured enzymes situated on the outer surface of the microsomal vesicles such as
monodehydroascorbate reductase
and cytochrome c reductase. However, it did not affect the glucose-6-phosphatase activity at all, which remained in a latent state within the membrane. 3. Temperature studies on glucose-6-phosphatase have revealed that only the enzyme activity of intact microsomes exhibited a nonlinear Arrhenius plot, whereas detergent-modified microsomes showed a linear temperature response. 4. Treatment of microsomes with phospholipase C and toluene-2,4-diisocyanate resulted in an apparent loss of about 65% and 85% of the original glucose-6-phosphatase activity and was closely correlated with hydrolysis and chemical modification of phosphatidylethanolamine, respectively. These apparent inactivations could be reversed by addition of
Triton X
-114 alone without any phospholipid supplementation. These observations indicate that glucose-6-phosphatase is buried within the microsomal membrane, not exposed on either side. They also suggest that phospholipids are involved in the glucose-6-phosphate transport mechanism.
...
PMID:Investigations on the possible involvement of phospholipids in the glucose-6-phosphate transport system of rat-liver microsomal glucose-6-phosphatase. 624 79
Glyoxysomal membranes from germinating castor bean (Ricinus communis L. cv Hale) endosperm contain an NADH dehydrogenase. This enzyme can utilize extraorganellar ascorbate free-radical as a substrate and can oxidize NADH at a rate which can support intraglyoxysomal demand for NAD(+). NADH:
ascorbate free-radical reductase
was found to be membrane-associated, and the activity remained in the membrane fraction after lysis of glyoxysomes by osmotic shock, followed by pelleting of the membranes. In whole glyoxysomes, NADH:
ascorbate free-radical reductase
, like NADH:ferricyanide reductase and unlike NADH:cytochrome c reductase, was insensitive to trypsin and was not inactivated by
Triton X-100
detergent. These results suggest that ascorbate free-radical is reduced by the same component which reduces ferricyanide in the glyoxysomal membrane redox system. NADH:
ascorbate free-radical reductase
comigrated with NADH:ferricyanide and cytochrome c reductases when glyoxy-somal membranes were solubilized with detergent and subjected to rate-zonal centrifugation. The results suggest that ascorbate free-radical, when reduced to ascorbate by membrane redox system, could serve as a link between glyoxysomal metabolism and other cellular activities.
...
PMID:Ascorbate free-radical reduction by glyoxysomal membranes. 1666 45
