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:C0016632 (Fox)
1,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Exposure of 32P-labelled human platelets to ionophore A23187 results in an increased incorporation of 32P into polypeptides with apparent mol.wts. of 47 000 (P47) and 20 000 (P20), whereas exposure to prostaglandin E1 results in increased labelling of polypeptides with apparent mol.wts. of 24 000 (P24) and 22 000 (P22) [Haslam, Lynham & Fox (1979) Biochem. J. 178, 397-406]. Labelled platelets that had been incubated with ionophore A23187 or prostaglandin E1 were sonicated and rapidly separated into three fractions by differential centrifugation. Electron microscopy and measurement of marker enzymes indicated that the 1300-19 000 gav. particulate fraction was enriched in granules, mitochondria and plasma membranes, that the 19 000-90 000 gav. particulate fraction was enriched in both intracellular and plasma membranes and that the 90 000 gav. supernatant contained only soluble proteins. 32P-labelled phosphopolypeptide P47 was present almost exclusively in the 90 000 gav. supernatant, whereas phosphopolypeptide P20 was largely dephosphorylated under fractionation conditions that protected other phosphopolypeptides. 32P-labelled phosphopolypeptide P24 was enriched in both particulate fractions, but particularly in the 19 000-90 000 gav. fraction, and may therefore be present in both the intracellular and plasma membranes. Phosphopolypeptide P22 appeared to be similarly distributed. Both particulate fractions were capable of the ATP-dependent oxalate-stimulated uptake of Ca2+. When the 19 000-90 000 gav. membrane fraction was prepared from platelets that had been incubated with ionophore A23187, active uptake of Ca2+ did not occur, but when this fraction was isolated from platelets that had been exposed to prostaglandin E1, uptake of Ca2+ was significantly greater than observed with the corresponding membranes from control platelets. It is suggested that phosphorylation of polypeptide P24 (or P22) by a cyclic AMP-dependent protein kinase may promote the active transport of Ca2+ out of the platelet cytosol.
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PMID:Subcellular distribution of the different platelet proteins phosphorylated on exposure of intact platelets to ionophore A23187 or to prostaglandin E1. Possible role of a membrane phosphopolypeptide in the regulation of calcium-ion transport. 12 Feb

Bacillus subtilis delta protein is a 21 500-Mr polypeptide that can be isolated in association with RNA polymerase holoenzyme from uninfected bacteria and with modified forms of RNA polymerase from cells infected with phage SP01 [Pero, J., Nelson, J. and Fox, T. (1975) Proc. Natl Acad. Sci. U.S.A. 72,1589]. Although no function has been assigned to delta protein in uninfected cells, this host polypeptide enhances the specificity of transcription by phage-modified forms of RNA polymerase that contain SP01-coded regulatory subunits. This report describes the purification of delta and sigma proteins from uninfected B. subtilis and examines the comparative effects of these polypeptides on transcription by core RNA polymerase. Purified sigma polypeptide was found to stimulate the transcription of phage DNA while having little effect on RNA synthesis with the synthetic DNA poly(dA-dT) as template. In contrast, purified delta protein markedly depressed the transcription of poly(dA-dT) while having little effect on enzyme activity with phage DNA as template. The inhibitory effect of delta protein on poly (dA-dT) transcription was strongly dependent on the presence of KC1 in the RNA synthesis reaction mixture.
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PMID:Purification and comparative properties of the delta and sigma subunits of RNA polymerase from Bacillus subtilis. 40 42

Acetate kinase from Salmonella typhimurium and Escherichia coli was purified to electrophoretic homogeneity. The amino acid compositions of both proteins were similar, and the apparent molecular weights were the same, about 40,000 for the putative monomers. The native proteins gave higher molecular weights, suggesting that the enzymes may be oligomers, perhaps with two polypeptide subunits. Steady-state kinetic studies were performed with the enzymes isolated from both organisms and the kinetic constants were determined. The Km values were 0.07 and 7 mM for ATP and acetate, respectively. In contrast to earlier studies using less pure preparations, the homogeneous enzymes from both strains were active only with acetate but not with propionate or butyrate. The enzyme activity was cold-labile, and the length of reactivation time in the presence of Mg X ATP and acetate was dependent on protein concentration, suggesting that the monomer may not be catalytically active. The enzyme was phosphorylated with [gamma-32P]ATP and the phosphoprotein was isolated. Phosphoacetate kinase was capable of transferring the phosphate group to either ADP or acetate. The accompanying paper (Fox, D. K., Meadow, N. D., and Roseman, S. (1986) J. Biol. Chem. 261, 13498-13503) shows that the phosphoryl group of phosphoacetate kinase can also be reversibly transferred to Enzyme I of the phosphoenolpyruvate:glycose phosphotransferase system.
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PMID:Isolation and characterization of homogeneous acetate kinase from Salmonella typhimurium and Escherichia coli. 302 34

We injected rabbits and guinea pigs with bovine thyrotropin (TSH) daily for 3 days, while controls received saline. All animals received sodium [125I]iodide on the second day, and thyroglobulin was purified from the thyroids of each group by gel filtration. Hormonogenic tryptic peptides from each S-cyanoethylated thyroglobulin preparation were isolated by high performance liquid chromatography, and their amino acid sequences were determined, permitting their localization within the thyroglobulin polypeptide chain by comparison with cDNA-derived sequences from bovine and human thyroglobulins. Thyroglobulins from the saline-injected rabbits and guinea pigs contained the same four major hormonogenic sites, designated A-D, previously described (Dunn, J. T., Anderson, P. C., Fox, J. W., Fassler, C. A., Dunn, A. D., Hite, L. A., and Moore, R. C. (1987) J. Biol. Chem. 262, 16948-16952). In both species, sites A and C were the major loci for thyroxine and triiodothyronine, respectively. However, site D in the guinea pig had a greater ratio of [125I]thyroxine to [127I]thyroxine than did site A, whereas the reverse was true in the rabbit. TSH administration produced the following changes in thyroglobulins of both species, relative to controls: 1) an increase in the ratio of [125I]triiodothyronine to [125I] thyroxine (rabbit, 0.29 versus 0.17; guinea pig, 0.19 versus 0.08), with the increase in triiodothyronine principally at site C; 2) a marked increase in 125I/127I and in thyroxine formation at site D (14.1% of thyroglobulin's thyroxine versus 9.8% in rabbits, 24 versus 13% in guinea pigs); 3) a corresponding decrease in thyroxine formation at site A (33 versus 43% in rabbits, 30 versus 46% in guinea pigs); and 4) a sharp increase in conversion of thyroglobulin's N-terminal 125I-labeled approximately 20 kDa hormone-rich iodopeptide, which contains site A, to a 125I-labeled approximately 15-kDa (rabbit) or 125I-labeled approximately 13-kDa (guinea pig) form, reflecting probable peptide bond cleavage. Our results show that TSH alters both the structure of the thyroglobulin molecule and the priority of utilization of its hormonogenic sites. We conclude that these changes are important to TSH's enhancement of thyroid hormone synthesis.
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PMID:Thyrotropin alters the utilization of thyroglobulin's hormonogenic sites. 318 49

The secondary structure of alamethicin, a membrane channel-forming polypeptide, has been examined by circular dichroism spectroscopy to determine the relationship of its conformation in organic solution to its conformation in a membrane-bound state. The spectrum of alamethicin in small unilamellar dimyristoyl phosphatidylcholine vesicles is significantly different from its spectrum in 10% methanol/acetonitrile, the solvent from which it was crystallized (Fox and Richards: Nature 300:325-330, 1982), as well as its spectrum in methanol, the solvent in which NMR studies have been done (Banerjee and Chan: Biochemistry 22:3709-3713, 1983). This suggests that structural models based on studies of the molecule in organic solvents may not be entirely appropriate for the membrane-bound state. To distinguish between different models for channel formation and insertion, two different methods were used to associate the alamethicin with vesicles; in addition, the effect of oligomerization on the conformation of the membrane-bound state was investigated. These studies are consistent with a modified insertion model in which alamethicin monomers, dimers, or trimers associate with the bilayer and then spontaneously oligomerize to form a prechannel with a higher helix content. This aggregate could then "open" upon application of an appropriate gating transmembrane potential.
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PMID:Conformation of alamethicin in phospholipid vesicles: implications for insertion models. 322 17

In our preceding paper [Ratnam, M., Sargent, P. B., Sarin, V., Fox, J. L., Le Nguyen, D., Rivier, J., Criado, M., & Lindstrom, J. (1986) Biochemistry (preceding paper in this issue)], we presented results from peptide mapping studies of purified subunits of the Torpedo acetylcholine receptor which suggested that the sequence beta 429-441 is on the cytoplasmic surface of the receptor. Since this finding contradicts earlier theoretical models of the transmembrane structure of the receptor, which placed this sequence of the beta subunit on the extracellular surface, we investigated the location of the corresponding sequence (389-408) and adjacent sequences of the alpha subunit by a more direct approach. We synthesized peptides including the sequences alpha 330-346, alpha 349-364, alpha 360-378, alpha 379-385, and alpha 389-408 and shorter parts of these peptides. These peptides corresponded to a highly immunogenic region, and by using 125I-labeled peptides as antigens, we were able to detect in our library of monoclonal antibodies to alpha subunits between two and six which bound specifically to each of these peptides, except alpha 389-408. We obtained antibodies specific for alpha 389-408 both from antisera against the denatured alpha subunit and from antisera made against the peptide. These antibodies were specific to alpha 389-396. In binding assays, antibodies specific for all of these five peptides bound to receptor-rich membrane vesicles only after permeabilization of the vesicles to permit access of the antibodies to the cytoplasmic surface of the receptors, suggesting that the receptor sequences which bound these antibodies were located on the intracellular side of the membrane. Electron microscopy using colloidal gold to visualize the bound antibodies was used to conclusively demonstrate that all of these sequences are exposed on the cytoplasmic surface of the receptor. These results, along with our previous demonstration that the C-terminal 10 amino acids of each subunit are exposed on the cytoplasmic surface, show that the hydrophobic domain M4 (alpha 409-426), previously predicted from hydropathy profiles to be transmembranous, does not, in fact, cross the membrane. Further, these results show that the putative amphipathic transmembrane domain M5 (alpha 364-399) also does not cross the membrane. Our results thus indicate that the transmembrane topology of a membrane protein cannot be deduced strictly from the hydropathy profile of its primary amino acid sequence. We present a model for the transmembrane orientation of receptor subunit polypeptide chains which is consistent with current data.
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PMID:Transmembrane topography of nicotinic acetylcholine receptor: immunochemical tests contradict theoretical predictions based on hydrophobicity profiles. 371 69

The C-phycocyanin from the marine blue-green alga, Agmenellum quadruplicatum, has been isolated and purified to electrophoretic homogeneity. This is the first C-phycocyanin for which a low resolution three dimensional structure has been published (Hackert, M.L., Abad-Zapatero, C., Stevens, S.E. Jr. and Fox, J.L. (1977), J. Mol. Biol. 111, 365-369 and Abad-Zapatero, C., Fox, J.L. and Hackert, M.L. (1977) Biochem. Biophys. Res Commun. 78, 266-272). The native C-phycocyanin complex shows an absorption maximum at 622 nm and another peak at 355 nm. In urea solutions, the 622 nm maximum of whole C-phycocyanin is shifted to 662 nm. Am662 = 94400 was determined. The fluorescence emission maxima at 650 nm for haloprotein is shifted and largely quenched in acid urea. The monomeric protein consists of two polypeptide chains with molecular weights of 16,000 for the alpha chain and 18,500 for the beta chain. Spectra in 8 M urea indicate that the alpha chain possesses one and the beta chain two phycocyanobilin chromophores. The isolated chains show absorption maxima at 622 nm for the alpha chain and 608 nm for the beta chain. Amino acid compositions of the holoprotein and the separated chains are given and N-terminal amino acid sequences are presented.
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PMID:Purification and characterization of the C-phycocyanin from Agmenellum quadruplicatum. 677 86

Previous studies have demonstrated that the activity of Euglena gracilis chloroplast elongation factor Ts is regulated by light and the gene for this factor is nuclear coded (Fox, L., Erion, J., Tarnowski, J., Spremulli, L., Brot, N., and Weissbach, H., J. Biol. Chem. (1980) 255, 6018-6019). Chloroplast elongation factor Ts has been purified to near homogeneity from E. gracilis extracts prepared from light-grown cells. It is composed of a single polypeptide chain of approximately 62,000 daltons. It interacts stoichiometrically with Escherichia coli elongation factor Tu to form an elongation factor Tu.elongation factor Ts complex.
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PMID:Purification of Euglena gracilis chloroplast elongation factor Ts. 679 May 24

Secretion of platelet granule constituents is closely associated with the phosphorylation of a cytosol polypeptide of Mr = 47,000 that we have called P47 (Haslam, R. J., Lynham, J. A., and Fox, J. E. B. (1979) Biochem. J. 178, 397-406). This polypeptide is a substrate of Ca2+-activated phospholipid-dependent protein kinase (Kawahara, Y., Takai, Y., Minakuchi, R., Sano, K., and Nishizuka, Y. (1980) Biochem. Biophys. Res. Commun. 97, 309-317). Two-dimensional gel electrophoresis of protein from human platelets that had been preincubated with 32Pi demonstrated the presence under control conditions of 2-3 major forms of P47 that contained very little 32P (pI values, 6.6-6.8) and, after induction of secretion with thrombin, their replacement by 7-9 highly labeled phosphorylated forms of P47 (pI values, 6.1-6.5). Native phosphorylated P47 was purified from thrombin-stimulated 32P-labeled platelets by ammonium sulfate fractionation and column chromatography on DEAE-cellulose, phenyl-Sepharose, and hydroxylapatite. The final 32P-labeled product was obtained in a yield of 20-25% and was purified about 400-fold relative to platelet lysate. This material was homogeneous on sodium dodecyl sulfate-polyacrylamide gel electrophoresis but, like the starting material, contained 7-9 separable phosphorylated components with different pI values. Purified phosphorylated P47 had a sedimentation coefficient (s20,w) of 3.57 S and a Stokes radius of 3.33 nm from which an Mr = 49,000 and a frictional ratio (f/f0) of 1.4 were calculated. These findings and failure to detect multimers after treatment of the protein with dimethyl suberimidate indicate that P47 normally exists as a monomer. The 32P-labeled phosphate present in purified P47 had the chemical stability of serine or threonine phosphoesters and analysis indicated the presence of 83% phosphoserine and 17% phosphothreonine. Limited proteolysis of purified 32P-labeled P47 by Staphylococcus aureus V8 protease generated a major unlabeled fragment (Mr = 23,500) and up to six labeled fragments (Mr = 24,700-14,800), the relative amounts of the latter depending on the extent of proteolysis. The same labeled fragments were obtained after proteolysis of each of the major phosphorylated components of P47, suggesting that these represent different phosphorylation states of variants of the same protein and that most or all of the phosphorylation sites are on a single 14,800-Da segment of the protein. The availability of pure native phosphorylated P47 should facilitate investigation of the physiological role of this protein in platelets.
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PMID:Purification and characterization of the 47,000-dalton protein phosphorylated during degranulation of human platelets. 688 23

The collagenase domain of bovine glomerular basement membrane was isolated in soluble form after limited digestion with pepsin. Gel filtration chromatography of the domain under denaturing conditions revealed that most of the polypeptide constituents exhibit apparent molecular weights greater than the type I collagen beta-chain, while approximately 15% are similar in size to that of alpha-chain. Carboxymethyl cellulose chromatography of the alpha-size region revealed that 70% of the protein was polypeptide XIV, as previously designated (West, T. W., Fox, J. W., Jodlowski, M., Freytag, J. W., and Hudson, B. G. (1980) J. Biol. Chem. 255, 10451-10459). This polypeptide exhibits an apparent molecular weight of 102,000 as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. An absolute molecular weight value of 86,000 was determined by sedimentation equilibrium ultracentrifugation in 6 M guanidine hydrochloride. About 15% of the mass is carbohydrate which exists in the form of glucosylgalactosylhydroxylysine. Thus, the polypeptide backbone has a molecular weight of 73,000, a value which is considerably smaller than the alpha-chains of classical collagen. The amino acid and carbohydrate composition and cyanogen bromide patterns indicate that polypeptide XIV has a structure similar to that of C-chain or alpha 1 (IV) collagen which has been identified in other tissues. In addition, the cyanogen bromide pattern of the entire collagenous domain is similar to that of polypeptide XIV, suggesting that the latter is a structural segment of many of the higher molecular weight components.
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PMID:Bovine glomerular basement membrane. Characterization of an alpha-size collagenous polypeptide. 725 9


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