Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0272170 (SDS)
50,377 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Rat liver microsomes oxidized ethanol two to three times faster than propanol when incubated with either an NADPH- or an H2O2-generating system. In addition, solubilized, purified microsomal subfractions were found to contain protein with an electrophoretic mobility identical to rat liver catalase on SDS polyacrylamide gels, suggesting that the separation of catalase from cytochrome P-450 and other microsomal components may not be feasible. These data support the postulate that catalase is responsible for NADPH-dependent microsomal ethanol oxidation. Direct read-out techniques for pyridine nucleotides, the catalase-H2O2 complex, and cytochrome P-450 were utilized to evaluate the specificity of inhibitors of alcohol dehydrogenase (4-methylpyrazole; 4 mM) and catalase (aminotriazole; 1.0 g/kg) qualitatively in perfused rat livers. 4-Methylpyrazole and aminotriazole are specific inhibitors for alcohol dehydrogenase and catalase, respectively, under these conditions. Neither inhibitor nor a combination of them altered the mixed function oxygen of p-nitroanisole to p-nitrophenol as observed by oxygen uptake and product formation. When ethanol utilization was measured over the concentration range 20-80 mM in perfused liver, a concentration dependence was observed. At low concentrations of ethanol, ethanol oxidation was almost totally abolished by 4-methylpyrazole; however, the contribution of 4-methylpyrazole-insensitive ethanol uptake increased as a function of ethanol concentration. At 80 mM ethanol, ethanol utilization was nearly 50% methylpyrazole-insensitive. This portion of ethanol oxidation, however, was abolished by aminotriazole. The data indicate that alcohol dehydrogenase and catalase-H2O2 are responsible for hepatic ethanol oxidation. At low ethanol concentrations (less than 20 mM), alcohol dehydrogenase is predominant; however, at higher ethanol concentrations (up to 80 mM), the contribution of catalase-H2O2 to overall ethanol utilization is significant. No evidence that the endoplasmic reticulum is involved in ethanol metabolism in the perfused liver emerged from these studies.
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PMID:Significant pathways of hepatic ethanol metabolism. 24 Jul 43

1. The presence of glutamate dehydrogenase in the microsomal fraction of rat liver was confirmed. The identities of mitochondrial and microsomal glutamate dehydrogenases were proved by immunochemical methods and by SDS polyacrylamide gel electrophoresis of purified enzymes. 2. Synthesis of glutamate dehydrogenase by the membrane-bound ribosomes of rough endoplasmic reticulum was determined. Newly synthesized enzyme molecules were discharged on the cytoplasmic surface of endoplasmic reticulum membranes. 3. A precursor-product relationship was found between microsomal and mitochondrial glutamate dehydrogenases. About six hours were needed for the transport of glutamate dehydrogenase from the site of synthesis to mitochondria. 4. The half-life of glutamate dehydrogenase was about 5.5 days, which was somewhat longer than that of mitochondrial total protein determined in the same experiment. 5. Mitochondrial-type malate dehydrogenase was also present in the microsomal fraction. Subfractionation of smooth microsomes revealed the existence of particular light microsomal vesicles in which both glutamate dehydrogenase and malate dehydrogenase were concentrated. These vesicles may participate in intracellular transport of matrix enzymes from microsomes to mitochondria.
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PMID:Biogenesis of the mitochondrial matrix enzyme, glutamate dehydrogenase, in rat liver cells. I. Subcellular localization, biosynthesis, and intracellular translocation of glutamate dehydrogenase. 59 7

Rough endoplasmic reticulum membranes were dissolved in 1% deoxycholate and the deoxycholate was then dialysed out for five days. Well-defined bilayer vesicles were formed only if the dialysis was performed at room temperature for the first six hours. The vesicles were separated into a pelleted fraction (Fraction 1) and a fluffy layer (Fraction II) by centrifugation. As measured by amino acid incorporation ability, Fraction II bound polysomes, while Fraction I did not. When smooth endoplasmic reticulum was assembled, it was found that Fraction II so derived had a polysome binding capacity which was more sensitive to increased KCl concentrations (25 mM - 100 mM KCl) and that it bound significantly more monosomes than the corresponding fraction derived from rough membranes. The SDS-polyacrylamide polypeptide patterns of the various fractions were compared.
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PMID:The in vitro reassembly of rough endoplasmic reticulum: ribosome binding capacity. 68 83

Pre-proparathyroid hormone, discovered previously by the translation of messenger RNA from parathyroid glands in heterologous cell-free systems, is a polypeptide of 115 amino acids consisting of 25 amino acids added to the NH2 terminus of proparathyroid hormone (90 amino acids), the immediate biosynthetic precursor of parathyroid hormone (84 amino acids). We now have detected pre-proparathyroid hormone formation within intact parathyroid cells, thus providing direct evidence that it is a biosynthetic precursor of proparathyroid hormone. A radiolabeled protein synthesized by slices of bovine parathyroid glands during 1 to 10 min of incubation with [35S] methionine was identified that co-migrated on both urea-acetate and urea-SDS acrylamide gels with 3H-labeled pre-proparathyroid hormone prepared by mRNA translation in a cell-free system derived from wheat germ. The amount of radiolabeled protein reached a maximum 3 min after exposure of the tissue to[35S] methionine and decreased during a 3-min chase incubation with unlabeled methionine. It bound to antisera to both proparathyroid hormone and parathyroid hormone and contained 35S-labeled tryptic peptides that migrated identically with peptides of pre-proparathyroid hormone prepared from the wheat germ system. Radiolabeled proparathyroid hormone was identified in the tissue after 1 min of incubation with [35S] methionine. These findings indicate that pre-proparathyroid hormone is an early biosynthetic precursor of proparathyroid hormone in parathyroid tissue and that this precursor is converted to proparathyroid hormone within 1 min after completion of its synthesis on the rough endoplasmic reticulum.
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PMID:Pre-proparathyroid hormone. Evidence for an early biosynthetic precursor of proparathyroid hormone. 93 12

The isolation of rough and smooth endoplasmic reticulum from rat parotid salivary gland is described. The rough membrane was stripped of its bound ribosomes using the KCl-puromycin method. Rough endoplasmic reticulum was reconstituted from stripped-rough membrane and polyribosomes. The reconstituted rough membrane resembled the native rough membrane in the following aspects: RNA/protein ratio, buoyant density in a continuous sucrose gradient and amino acid incorporation capacity. The in vitro synthesis of alpha-amylase by both rough and in vitro reconstituted rough membrane was demonstrated using SDS polyacrylamide gel electrophoresis. The reconstituted rough membrane could be restripped by KCl-puromycin. The in vitro synthesized alpha-amylase remained associated with the rough or the in vitro reconstituted rough membrane, even after these membranes were stripped of their bound ribosomes.
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PMID:The synthesis of alpha-amylase by rough and in vitro reconstituted rough endoplasmic reticulum derived from rat parotid gland. 95 15

The serological relationships among strains of bean common mosaic virus (BCMV) (genus Potyvirus, family Potyviridae) were investigated by testing 13 isolates of the 10 known BCMV pathotypes with two monoclonal antibodies and six antisera to BCMV strains. In addition, other properties of serologically distinct BCMV strains were compared. Two groups of BCMV strains were obtained by ELISA and Western blot serology: serotype A contained the BCMV strains NL3, NL5, and NL8 and serotype B contained the BCMV strains NL1, NL2, NL4, NL6, US4, NL7, NY15, and Fla. SDS polyacrylamide gel electrophoresis and Western blotting of freshly purified preparations, and of extracts from leaves infected with eleven BCMV strains showed that the apparent molecular mass of the capsid protein of the serotype A isolates NL3, NL5, and NL8 are lower (about M(r) 33,000) than those of the serotype B isolates (M(r) 34,500 to 35,000). The normal lengths of the particles of the serotype A isolates were shorter (810-818 nm) than those of most isolates (except NL6 and NY15) of serotype B (847-886 nm). All isolates studied induced cytoplasmic pinwheel and scroll inclusions. Cells infected with serotype A isolates contained a specific type of proliferated endoplasmic reticulum which was never found in cells infected with serotype B isolates. The capsid protein gene of a representative member of each serotype was cloned and sequenced. Molecular mass calculations based upon nucleotide sequence-derived amino acid sequences yielded M(r) of 29,662 and 32,489 for the capsid proteins of the serotype A isolate NL8 and the serotype B isolate NL4, respectively. Comparison of the coat-protein sequences showed considerable differences at the N-termini whereas the core regions and the C-termini appeared to be highly conserved. Marked differences were also observed within the 3' non-coding regions of cloned cDNAs of NL 4 and NL 8. The striking differences between the two serotypes of BCMV strongly suggest that they be classified as two distinct potyviruses which naturally infect Phaseolus beans.
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PMID:Serotype A and B strains of bean common mosaic virus are two distinct potyviruses. 128 May 10

We have isolated a novel cDNA from Euglena gracilis that encodes a protein composed of 24.9% aspartate with an estimated pI of 3.56, and a deduced molecular mass of 73,542 Da. The first 20 or so amino acids are hydrophobic and resemble a signal sequence. The rest of the polypeptide is composed of a 23-amino-acid repeat. There are 30 repeats, of which 23 are full length. Part of the consensus sequence derived from the repeats has some similarity to the loop of the EF-hand type calcium-binding motif. Evidence is presented that a fusion protein of this novel protein with beta-galactosidase can bind calcium. Northern blotting indicates a single transcript of 2.3 kb (the same size as the cDNA). In-vitro translation of the cDNA gives a protein that migrates on SDS/PAGE with an apparent molecular mass of 120-125 kDa. The protein is processed into a smaller, protease-protected form (110-120 kDa) when translated in the presence of canine pancreatic microsomal vesicles. This suggests that the protein is targeted across the endoplasmic reticulum membrane in vivo, and is the first report of a signal sequence from E. gracilis. We propose that the cDNA obtained encodes a novel calcium-binding protein that is either secreted or resident in the endomembrane system of E. gracilis, and call it the acidic-repeat protein.
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PMID:A novel calcium-binding protein from Euglena gracilis. Characterisation of a cDNA encoding a 74-kDa acidic-repeat protein targeted across the endoplasmic reticulum. 128 88

The UL53 gene is the locus altered in many syncytial mutants of herpes simplex virus type 1 (HSV-1). However, the protein encoded by this gene has not been characterized. In this study, the UL53 protein was produced by in vitro translation of in vitro-transcribed UL53 RNA. Post-translational processing of the protein was studied by translation in the presence of pancreatic microsomal membranes. These microsomes carry out the processing steps that normally occur in the rough endoplasmic reticulum. The unprocessed protein had an apparent molecular weight of 27K, whereas the microsomally processed form had an apparent molecular weight of 36K. Two types of post-translational modification were detected: Addition of N-linked oligosaccharides and cleavage of an N-terminal signal sequence. N-linked glycosylation occurred in the first 112 residues of the protein, consistent with the presence of N-linked glycosylation signals at residues 48 and 58. Signal sequence cleavage occurred after residue 30. A membrane-binding, possibly transmembrane, domain was found between residues 113 and 170, probably consisting of the hydrophobic sequence 125-139. These results establish that the N-terminal domain of the UL53 protein, which is the site of those syncytial mutations that have been sequenced, is on the interior side of the microsomal membranes, which is topologically equivalent to the lumen of the rough endoplasmic reticulum and to the extracellular side of the plasma membrane. Additional hydrophobic, possibly transmembrane, domains exist nearer the C-terminus of the protein. It also was found that the in vitro-translated UL53 protein aggregated when heated, even in the presence of SDS. This property was mapped to the C-terminal one-third of the protein.
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PMID:In vitro characterization of the HSV-1 UL53 gene product. 131 Jan 86

Translational regulation of digestive enzyme synthesis during short-term stimulation by cholecystokinin-octapeptide (CCK-OP), was examined in minced rabbit pancreas by measuring protein synthesis and monitoring alterations in the size of polysomes attached to the rough endoplasmic reticulum (RER). The effect of CCK-OP on protein synthesis was determined by measuring [3H]leucine incorporation into trichloroacetic-acid-precipitable proteins. Concentrations of CCK-OP that caused maximal enzyme secretion (10 and 30 nM) decreased protein synthesis by approx. 50% compared to control. Protein synthesis returned to the control level 60 min after terminating the action of CCK-OP. Autoradiography of [35S]methionine-labeled proteins separated by one-dimensional SDS-polyacrylamide gel electrophoresis demonstrated that CCK-OP reversibly inhibited the synthesis of all of the major groups of digestive enzymes. Northern blot analysis revealed that CCK-OP did not alter the cellular content of amylase and elastase mRNA. Incubation with CCK-OP caused a decrease in the size distribution of RER-bound polysomes. Polysome profiles returned to the control pattern 60 min following termination of the stimulus. These results suggest that the inhibitory effects of CCK-OP on the synthesis of digestive enzymes is regulated at translation by decreasing the number of RER-bound ribosomes that are actively translating digestive enzyme mRNA.
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PMID:Cholecystokinin-induced changes in polysome structure regulate protein synthesis in pancreas. 138 13

The oligomeric structure of rat liver microsomal glutathione transferase was investigated using four different chemical cross-linking reagents. Studies were performed with the isolated enzyme, with the enzyme incorporated into phosphatidyl choline liposomes and with rat liver microsomes. Cross-linking was analyzed by use of SDS-PAGE combined with Western blotting. Our results strongly suggest that the microsomal glutathione transferase is a trimer in situ in the endoplasmic reticulum, as well as in the purified state and in proteoliposomes. These results lend strong support to previous studies, involving hydrodynamic characterization and radiation inactivation, indicating that the microsomal glutathione transferase is a trimeric enzyme.
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PMID:The oligomeric structure of rat liver microsomal glutathione transferase studied by chemical cross-linking. 139 Sep 7


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