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Enzyme
Compound
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Query: EC:3.1.3.9 (
glucose-6-phosphatase
)
3,081
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A highly active and soluble
glucose-6-phosphatase
has been purified to near homogeneity from rat liver. Successful purification has been initiated by covalent labeling of the enzyme in native rat liver microsomes with pyridoxal 5'-phosphate and NaBH4, followed by solubilization of the microsomes with Triton X-100, chromatography on phenyl-Sepharose, hydroxyapatite, DEAE-Sephacel and a second chromatography step on hydroxyapatite. The final enzyme preparation obtained was approximately 700-fold purified over the activity of starting microsomes. As judged by
SDS
/PAGE the purified
glucose-6-phosphatase
is composed of a single protein with a molecular mass of 35 kDa. The present work demonstrates that the purified
glucose-6-phosphatase
must be arranged in the native microsomal membrane so that it is accessible to pyridoxal 5'-phosphate from the cytoplasmic side.
...
PMID:The purification of a detergent-soluble glucose-6-phosphatase from rat liver. 132 63
2-Bromopalmitate and 2-bromopalmitoyl-CoA have been shown to inhibit a variety of enzymes and proteins associated with lipid metabolism. We found that both of the brominated compounds were non-competitive inhibitors of two microsomal activities of triacylglycerol biosynthesis, the mono- and diacylglycerol acyltransferases. With both compounds, the calculated Ki values were lower than the Km value for the palmitoyl-CoA substrate. In addition to inhibiting two other lipid synthetic activities, fatty acid CoA ligase and glycerol-3-P acyltransferase, 2-bromopalmitate and 2-bromopalmitoyl-CoA also inhibited two microsomal enzyme activities that are not related to lipid metabolism, NADPH cytochrome-c reductase and
glucose-6-phosphatase
. Inhibition of the three acyltransferases and fatty acid CoA ligase could be overcome by the addition of phospholipid vesicles, and 2-bromo[14C]palmitate readily labeled a large number of membrane-bound proteins as well as cytosolic proteins that had been solubilized in
SDS
. Thus, it appears likely that the inhibitory properties of the brominated compounds strongly depend on the effective concentration of the inhibitor within membranes rather than on any specific affinity for an acyl-chain binding region of the enzyme.
...
PMID:2-Bromopalmitoyl-CoA and 2-bromopalmitate: promiscuous inhibitors of membrane-bound enzymes. 157 64
Glucose-6-phosphatase was effectively solubilized from rat liver-microsomal membrane by the nonionic detergent Renex 690 in the presence of 0.6M sodium chloride. Subsequent separation on hydroxylapatite proved to be a successful and rapid initial step towards the purification of this enzyme. Glucose-6-phosphatase appeared in the colourless void volume with a yield of about 40-50%. The specific activity in the pooled void volume was 3-4 U/mg protein representing an enrichment of 30- to 40-fold. The best final specific activity obtained in an enriched fraction was 6.7 U/mg protein. Analysis of the pooled
glucose-6-phosphatase
-enriched fraction by
SDS
electrophoresis revealed 2 dominant protein bands with the apparent molecular mass of 17 and 18.5 kDa and few weak protein bands in the range of 21 to 42 kDa.
...
PMID:Partial purification of rat liver microsomal glucose-6-phosphatase on hydroxylapatite. 283 62
Two SH-dependent proteinases (I and II) active in neutral media were isolated from bovine spleen and purified to apparent homogeneity. The histone-hydrolyzing activity of proteinase I was increased 3500-fold as compared to that of the original extract. Proteinase I hydrolyzed a variety of proteins (histones, azocasein, hemoglobin, collagen) but did not hydrolyze low molecular weight synthetic substrates, such as BAPA, BANA, BAEE, ATEE, Leu-beta-NA, Arg-beta-Na and Ala-beta-NA. The molecular weight of the enzyme as determined by
SDS
electrophoresis was found to be about 23,000. Isoelectrofocusing of the enzyme resulted in one major component with pI of 6.05 and in two minor components with pI of 6.2 and 6.4. Proteinase II hydrolyzed Leu-beta-NA, Arg-beta-NA and Ala-beta-NA but did not hydrolyze beta-naphthylamides of dicarboxylic acids and Gly-Phe-beta-Na. This proteinase split BANA and histone and very slowly split azocasein and collagen. Proteinase II was found to have a molecular weight of 30 000 and a pI of 6.8-6.9. Proteinase I inactivated fructose-1.6-diphosphate aldolase, partly inactivated
glucose-6-phosphatase
dehydrogenase and caused activation of phosphodiesterase of cyclic nucleotides. Proteinase II had no effect on the activity of the above enzymes. A comparison of proteinase I and II with enzymes described in literature demonstrated that the former was cathepsin L, while the latter was cathepsin H from spleen.
...
PMID:[Characteristics of two thiol proteinases from spleen active in neutral media]. 675 12
A multiple purification of phosphohydrolase (PH) and phosphotranslocase (PT) of the human liver microsomal
glucose-6-phosphatase
system has been obtained by a rapid two-step procedure using affinity chromatography. Sodium dodecyl sulphate polyacrylamide gel electrophoresis (SDS-PAGE) of the final products showed one major band each at 63 and 37 kDa for PH and PT respectively. The immunoblot analysis of
SDS
-PAGE of various purification steps for human liver using rabbit antibodies raised against the enzyme preparations also showed major bands at 63 and 37 kDa for PH and PT respectively. A major band at 260 kDa was observed by the Western blot of native PAGE of the enzyme preparation for PH. Cross-reacting materials at the positions of 63 and 37 kDa were detected only in liver, kidney and intestine. From five liver samples of patients suffering from type Ia glycogenosis there were diminished amounts of crossreacting materials at 63 kDa only in two samples. The uptake of glucose-6-phosphate has taken place in liposomes of Sepharose affinity purified products suggesting that this preparation may be a complex of PH and glucose-6-phosphate translocase.
...
PMID:Purification of human microsomal liver glucose-6-phosphatase system by affinity chromatography and immunodetection. 839 44
Glucose 6-phosphate transport has been well characterized in liver microsomes. The transport is required for the functioning of the
glucose-6-phosphatase
enzyme that is situated in the lumen of the hepatic endoplasmic reticulum. The genetic deficiency of the glucose 6-phosphate transport activity causes a severe metabolic disease termed type 1b glycogen storage disease. The cDNA encoding a liver transporter for glucose 6-phosphate was cloned and was found to be mutated in patients suffering from glycogen storage disease 1b. While related mRNAs have been described in liver and other tissues, the encoded protein(s) has not been immunologically characterized yet. In the present study, we report (using antibodies against three different peptides of the predicted amino acid sequence) that a major protein encoded by the glucose 6-phosphate transporter gene is expressed in the endoplasmic reticulum membranes of rat and human liver. The protein has an apparent molecular mass of approx. 33 kDa using
SDS
/PAGE, but several lines of evidence indicate that its real molecular mass is 46 kDa, as expected. The glucose 6-phosphate transporter protein was also immunodetected in kidney microsomes, but not in microsomes derived from human fibrocytes, rat spleen and lung, and a variety of cell lines. Moreover, little or no expression of the glucose 6-phosphate transporter protein was found in liver microsomes obtained from three glycogen storage disease 1b patients, even bearing mutations that do not directly interfere with protein translation, which can be explained by a (proteasome-mediated) degradation of the mutated transporter.
...
PMID:Immunodetection of the expression of microsomal proteins encoded by the glucose 6-phosphate transporter gene. 1575 3
