Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.27.1 (RNase)
 16,360 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

As part of a screening program for pseudomonad enzymes having an industrial interest, we selected ribonuclease (RNase) producing strains. Of the 150 pseudomonads screened, 6 were found to produce an extracellular RNase activity when grown on solid medium. In broth culture, the RNase activity from these six species remained bound to the cells unless gelatin was added to the medium. Gelatin was essential for the release of RNase in the broth culture, but the pH of the medium, addition of potential inducers such as nucleic acids, or addition of cations did not affect this release. However, gelatin did not appear to induce the synthesis of the enzyme. Strain B-88, identified as Pseudomonas maltophilia, was selected for further study of the enzyme. The extracellular RNase isolated from B-88 broth cultures could be separated in two fractions on the basis of the molecular weight by the ultrafiltration technique. The low molecular weight fraction reacts optimally at temperatures between 55 and 60 degrees C and optimal pH values varying from 7.4 to 9.5. At neutral or alkaline pH, the enzyme was stable at temperatures below 37 degrees C but was inactivated at 55 degrees C. The RNase was inhibited by mercury and cobalt and stimulated by magnesium.
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PMID:Production of an extracellular ribonuclease by Pseudomonas maltophilia. 3 76

Nuclear receptors (RARs) for retinoic acid (RA) are considered to be the ultimate mediators of the action of RA in the control of cell differentiation and inhibition of tumorigenesis. We have isolated and partially purified and characterized RAR from a RA-responsive tissue, chick embryo skin. The purification steps included Affi-Gel blue chromatography, ultrafiltration, size exclusion chromatography, and preparative isoelectric focusing. The electrofocusing of RAR-[3H]RA complex in ampholines (pH 3-10) revealed that the receptors have an isoelectric pH of 7.5. Whereas pronase-digested the RAR-[3H]RA complex completely, DNase showed 20-35% and RNase showed negligible digestive action on the complex. The ligand binding to RAR was completely inhibited by a mercury compound. RAR-alpha- and RAR-beta-specific antibodies, on Western blot analysis, immunoreacted with a protein having a molecular weight of 50,000, presumably RAR. Binding affinity studies revealed that biologically active analogs of RA with a free COOH group (e.g., 13-cis-RA, RO-13-7410, Ch 55, and Am 80) showed, like RA, high binding affinity for RAR, whereas biologically ineffective analogs of RA (e.g., furyl and pyridyl) were poor binders. Other groups of retinoids, in which the COOH group was either lacking or blocked, did not bind to RAR whether or not they were biologically active.
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PMID:Isolation, partial purification and characterization of nuclear retinoic acid receptors from chick skin. 217 87

A cytosolic factor that stimulates transcription in isolated nuclei was purified approximately 4000-fold to near homogeneity from rat liver. The molecular weight of the factor was determined as 47 000 by SDS-polyacrylamide gel electrophoresis. The factor had no detectable deoxyribonuclease and protease activity but showed ribonuclease inhibitor activity. The factor could stimulate transcription in isolated nuclei by 50% at about 3.0 ng and the maximal stimulation was about 100%. When [gamma-S]ATP and [gamma-S]GTP were included in the reaction, the factor stimulated the synthesis of RNA which was able to bind to a mercury-Sepharose column and about 80% of the bound RNA was sensitive to a low concentration of alpha-amanitin. When heparin was added before initiation to preincubation mixture containing RNA polymerases II and DNA, a small but definite incorporation of [14C]UTP was observed. The factor alone had no stimulatory effect on the heparin-resistant incorporation of [14C]UTP but, in the presence of two rat liver nuclear fractions, phosphocellulose 0.5 and 1 M KCl step fractions, could stimulate the incorporation above the level with the combination of the two nuclear fractions. Antibody raised against the factor inhibited accurate transcription from the adenovirus 2 major late promoter in a nuclear lysate from Ehrlich ascites tumor cells, and the inhibition was neutralized by the factor.
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PMID:Purification of a cytosolic factor from rat liver that stimulates transcription in isolated nuclei and its action on purified RNA polymerase II-DNA system. 407 43

The degradation of S--S bonds in 0.2 M-NaOH at 25 degrees C was studied for a series of proteins and simple aliphatic disulphide compounds, by using cathodic stripping voltammetry, ion-selective-electrode potentiometry, spectrophotometry and ultrafiltration. The disulphide bonds that dissociated in 0.2 M-NaOH were usually those that are solvent accessible and that can be reduced by mild chemical reductants. Some unexpected differences were found between similar proteins, both in the number of S--S bonds dissociated and in their rates of decomposition. Chymotrypsin has one S--S bond attacked, whereas chymotrypsinogen and trypsinogen have two. Ribonuclease A has two S--S bonds dissociated, but ribonuclease S and S-protein have three. Denaturation in 6 M-guanidine hydrochloride before alkaline digestion caused the loss of an additional S--S bond in ribonuclease A and insulin, and increased the rate of dissociation of the S--S bonds of some other proteins. The initial product of S--S bond dissociation in dilute alkali is believed to be a persulphide intermediate formed by a beta-elimination reaction. This intermediate is in mobile equilibrium with bisulphide ion, HS-, and decomposes at a mercury electrode or in acid solution to yield a stoichiometric amount of sulphide. Rate constants and equilibrium constants were measured for the equilibria between HS- and the intermediates involved in the alkaline dissociation of several proteins. Elemental sulphur was not detected in any of the protein digests. It is suggested that formation of HS- from a persulphide intermediate involves a hydrolysis reaction to yield a sulphenic acid derivative. The small polypeptides glutathione and oxytocin gave only a low yield of persulphide, and their alkaline decomposition must proceed by a mechanism different from that of the proteins.
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PMID:Degradation of protein disulphide bonds in dilute alkali. 721 43

Metallothioneins (MTs) are low-molecular-weight cytosolic proteins that are induced by cellular stress as well as exposure to various heavy metals including mercury. Excessive residues of mercury have recently been identified in various fish species of the lower Ouachita River system in Arkansas. Fillets of mature largemouth bass (Micropterus salmoides) collected from Woodard Lake, an ox-bow lake of the Ouachita River, possessed muscle residues of mercury ranging from 0.3 to 1.0 ppm (micrograms/g). To assess the usefulness of using MT expression as a biomarker of mercury exposure, livers and fillets were obtained from feral bass of Woodard Lake. Ouachita served as a control site having mercury residues below detection. Analyses using a ribonuclease protection assay with winter flounder MT cDNA revealed that bass had significantly elevated levels of MT mRNA which correlated (r2 = 0.756) with the levels of mercury in muscle fillets. To further explore the water quality of Woodard Lake, 10 juvenile channel catfish were housed in cages and placed where feral collections were made in both sites for 2 weeks. Mercury was not detected in muscle or liver and no significant difference in hepatic MT mRNA was observed. These data demonstrate that MT mRNA expression can be used as a tool to assess exposure to heavy metals and suggest that the elevated levels of mercury in large predatory fish may be due to trophic magnification rather than a single point-source exposure.
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PMID:Expression of hepatic metallothionein messenger RNA in feral and caged fish species correlates with muscle mercury levels. 749 68

Cholangiocytes line the intrahepatic bile ducts and regulate salt and water secretion during bile formation, but the mechanism(s) regulating ductal water movement remains obscure. A water-selective channel, the aquaporin CHIP, was recently described in several epithelia, so we tested the hypothesis that osmotic water movement by cholangiocytes is mediated by CHIP. Isolated rodent cholangiocytes showed a rapid increase in volume in the presence of hypotonic extracellular buffers; the ratio of osmotic to diffusional permeability coefficients was > 10. The osmotically induced increase in cholangiocyte volume was inversely proportional to buffer osmolality, independent of temperature, and reversibly blocked by HgCl2. Also, the luminal area of isolated, enclosed bile duct units increased after exposure to hypotonic buffer and was reversibly inhibited by HgCl2. RNase protection assays, anti-CHIP immunoblots, and immunocytochemistry confirmed that CHIP transcript and protein were present in isolated cholangiocytes but not in hepatocytes. These results demonstrate that (i) isolated cholangiocytes and intact, polarized bile duct units manifest rapid, mercury-sensitive increases in cell size and luminal area, respectively, in response to osmotic gradients and (ii) isolated cholangiocytes express aquaporin CHIP at both the mRNA and the protein level. The data implicate aquaporin water channels in the transcellular movement of water across cholangiocytes lining intrahepatic bile ducts and provide a plausible molecular explanation for ductal water secretion.
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PMID:Cholangiocytes express the aquaporin CHIP and transport water via a channel-mediated mechanism. 752 28

The aquaporins transport water through membranes of numerous tissues, but the molecular mechanisms for sensing changes in extracellular osmolality and regulating water balance in brain are unknown. We have isolated a brain aquaporin by homology cloning. Like aquaporin 1 (AQP1, also known as CHIP, channel-forming integral membrane protein of 28 kDa), the deduced polypeptide has six putative transmembrane domains but lacks cysteines at the known mercury-sensitive sites. Two initiation sites were identified encoding polypeptides of 301 and 323 amino acids; expression of each in Xenopus oocytes conferred a 20-fold increase in osmotic water permeability not blocked by 1 mM HgCl2, even after substitution of cysteine at the predicted mercury-sensitive site. Northern analysis and RNase protection demonstrated the mRNA to be abundant in mature rat brain but only weakly detectable in eye, kidney, intestine, and lung. In situ hybridization of brain localized the mRNA to ependymal cells lining the aqueduct, glial cells forming the edge of the cerebral cortex and brainstem, vasopressin-secretory neurons in supraoptic and paraventricular nuclei of hypothalamus, and Purkinje cells of cerebellum. Its distinctive expression pattern implicates this fourth mammalian member of the aquaporin water channel family (designated gene symbol, AQP4) as the osmoreceptor which regulates body water balance and mediates water flow within the central nervous system.
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PMID:Molecular characterization of an aquaporin cDNA from brain: candidate osmoreceptor and regulator of water balance. 752 31

Administration of subtoxic doses of HgCl2 affects differentially the immune system depending on the strain of rats tested. Susceptible Brown-Norway (BN) rats exhibit a CD4+ T cell-dependent polyclonal activation of B cells; in contrast, Lewis (LEW) rats are resistant and develop an immunosuppression mediated by CD8+ T cells recruited by CD4+ T cells. The mechanisms by which mercury induces immune disorders are poorly understood. We were interested in analyzing the diversity and mercury-mediated changes of the TCR Vbeta repertoire in the BN and LEW strains of rats at different times of HgCl2 exposure. Our results obtained after analysis of lymph node T cells by RNase protection assay, flow cytometry or immunoscope assay (i) were not consistent with a superantigen-like stimulus since we observed neither a V beta-selective expansion nor deletion that would have been expected and (ii) showed that in BN rats, as well as in LEW rats, an increase in the number of T cells was associated with the heterogeneous TCR V beta repertoire, thus supporting a polyclonal T cell activation. However, in BN rats the total number of T cells increased very rapidly, whereas in LEW rats only CD8+ T cells accumulated.
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PMID:Evidence for heterogeneous TCR V beta repertoire expression in mercury-induced immune disorders in rats. 904 8

Acid alizarin violet N in an acidified aluminum potassium sulfate solution (AAV) is presented as a nuclear fluorochrome. We demonstrate using 1 N HCl, deoxyribonuclease, and ribonuclease digestion methods that this stain has specificity for nucleic acids similar to other aluminum mordant stains in 95% ethanol-fixed material. The method presented gives stable preparations and is resistant to fading for at least two years. Strong fluorescence of AAV stained material is detected under conventional mercury vapor lamp and argon ion laser illumination. AAV stained confocal scanning laser microscope (CSLM) images are collected in the red channel of the microscope (detecting lambda > 600 nm), there being no AAV emission in the green channel (detecting lambda 527-565 nm). The xanthene dyes eosin Y and dichlorofluorescein are used as counterstains and can be imaged in both channels. We present a method for use with the CSLM, utilizing double imaging techniques.
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PMID:Aluminum acid alizarin violet: a general purpose nuclear fluorochrome. 945 75

We recently reported that secretin induces the exocytic insertion of functional aquaporin-1 water channels (AQP1) into the apical membrane of cholangiocytes and proposed that this was a key process in ductal bile secretion. Because AQP1 is present on the basolateral cholangiocyte membrane in low amounts, we hypothesized that another AQP must be expressed at this domain to facilitate transbasolateral water movement. Thus, we investigated the expression, subcellular localization, possible regulation by secretin, and functional activity of AQP4, a mercury-insensitive water channel expressed in other fluid transporting epithelia. Using reverse transcription-polymerase chain reaction (RT-PCR) on RNA prepared from purified rat cholangiocytes, we amplified a product of 311 bp that was 100% homologous to the reported AQP4 sequence. RNase protection assay confirmed the presence of an appropriate size transcript for AQP4 in cholangiocytes. Immunoblotting detected a band of approximately 31 kd corresponding to AQP4 in basolateral but not apical membranes of cholangiocytes. Secretin did not alter the amount of plasma membrane AQP4 but, as expected, induced AQP1 redistribution from intracellular to apical plasma membranes. Functional studies showed that AQP4 accounts for about 15% of total cholangiocyte membrane water permeability. Our results indicate that: (1) cholangiocytes express AQP4 messenger RNA (mRNA) and protein and (2) in contrast to AQP1, which is targeted to the apical cholangiocyte membrane by secretin, AQP4 is constitutively expressed on the basolateral cholangiocyte membrane and is secretin unresponsive. The data suggest that AQP4 facilitates the basolateral transport of water in cholangiocytes, a process that could be relevant to ductal bile formation.
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PMID:Expression of aquaporin-4 water channels in rat cholangiocytes. 1082 57


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