A spectroscopic probe of stacking interactions between nucleic acid bases and tryptophan residues of proteins.
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The external heavy atom effect of mercury on the spectroscopic properties of the indole ring has been used to investigate stacking interactions of tryptophan with mercurinucleotides in mixed aggregates formed in frozen aqueous solutions as well as in oligopeptide-polynucleotide complexes. This effect is characterized at 77 K by a quenching of the tryptophan fluorescence, an enhancement of the phosphorescence emission and a drastic shortening of the phosphorescence lifetime. These phenomena result from an enhanced spin-orbit coupling due to a close contact between the mercury atom and the indole ring. Dissociation of the complexes leads to a recovery of the spectroscopic properties of the free tryptophan ring. The possible use of this spin-orbit probe to provide evidence for stacking interactions in protein-nucleic acid complexes is discussed. (+info)
Selective extraction of isolated mitotic apparatus. Evidence that typical microtubule protein is extracted by organic mercurial.
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Mitotic apparatus isolated from sea urchin eggs has been treated with meralluride sodium under conditions otherwise resembling those of its isolation. The treatment causes a selective morphological disappearance of microtubules while extracting a major protein fraction, probably consisting of two closely related proteins, which constitutes about 10% of mitotic apparatus protein. Extraction of other cell particulates under similar conditions yields much less of this protein. The extracted protein closely resembles outer doublet microtubule protein from sea urchin sperm tail in properties considered typical of microtubule proteins: precipitation by calcium ion and vinblastine, electrophoretic mobility in both acid and basic polyacrylamide gels, sedimentation coefficient, molecular weight, and, according to a preliminary determination, amino acid composition. An antiserum against a preparation of sperm tail outer doublet microtubules cross-reacts with the extract from mitotic apparatus. On the basis of these findings it appears that microtubule protein is selectively extracted from isolated mitotic apparatus by treatment with meralluride, and is a typical microtubule protein. (+info)
Factors affecting the action of guanethidine on adrenergic neurones.
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1. The uptake of guanethidine by adrenergic neurones has been studied indirectly by testing the ability of various procedures to prevent or reverse adrenergic neurone blockade in the periarterially stimulated isolated ileum preparation.2. Adrenergic neurone blockade was prevented but not reversed by equilibration with guanethidine (3.3 x 10(-6)M) at low temperatures (10 degrees C), in the absence of sodium or in the presence of tetrodotoxin (0.3 x 10(-6)M) or noradrenaline (1.2 x 10(-3)M).3. Calcium (5 x 10(-2)M) both prevented and, to some extent, reversed the adrenergic neurone blocking action of guanethidine.4. Equilibration with guanethidine in the presence of mersalyl (0.6 x 10(-7)M) or in the absence of potassium or calcium could neither prevent nor reverse adrenergic neurone blockade. (+info)
Effects of the diuretics, triamterene and mersalyl on active sodium transport mechanisms in isolated frog skin.
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1. Triamterene reduces the rate coefficients for sodium movement into the transporting system of the isolated frog skin. The isotopically measured ;active sodium transport pool' is also reduced.2. Mersalyl reduces the rate coefficient for sodium and the calculated sodium flux from the transporting system to the inner bathing solution. The ;active sodium transport pool' is increased by this diuretic.3. The action of triamterene closely resembles that of amiloride and both reduce the entry of sodium into the system. In contrast, mersalyl limits the exit of sodium ions from the skin. (+info)
Nephrotic syndrom with heart disease: a reappraisal.
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The evidence that heart failure alone may cause a nephrotic syndrome is inconclusive. Mercurial diuretics, which have also been implicated as a cause of the nephrotic syndrome, had been given in 23 of the 24 well-documented cases.Two cases of heart disease and nephrotic syndrome are described. Glomerular lesions were minimal on light microscopy, but thickening of the glomerular tuft basement membrane and partial fusion of the epithelial cell foot processes were apparent on elecronmicroscopy. The response to prednisone was such as to justify a trial of corticosteroid therapy in such cases despite the presence of cardiac disease. (+info)
Evidence of a phosphate-transporter system in the inner membrane of isolated mitochondria.
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1. The organic mercurial sodium mersalyl, formaldehyde, dicyclohexylcarbodiimide and tributyltin each blocked respiratory-chain-linked ATP synthesis in rat liver mitochondria. 2. Mersalyl and formaldehyde also blocked a number of other processes dependent on the entry of inorganic phosphate into mitochondria, including mitochondrial respiration and swelling stimulated by cations and phosphate, the substrate-level phosphorylation reaction of the citric acid cycle, and swelling in ammonium phosphate. 3. Dicyclohexylcarbodi-imide and tributyltin did not inhibit the entry of phosphate into mitochondria. 4. Mersalyl and formaldehyde had a relatively slight effect on succinate oxidation and swelling stimulated by cations when phosphate was replaced by acetate, on succinate oxidation stimulated by uncoupling agents, and on swelling in solutions of ammonium salts other than phosphate or arsenate. 5. Formaldehyde blocked the oxidation of NAD-linked substrates in mitochondria treated with 2,4-dinitrophenol and the ATP-dependent reduction of NAD by succinate catalysed by ox heart submitochondrial particles. Both these effects appear to be due to an inhibition by formaldehyde of the NAD-flavin region of the respiratory chain. 6. Concentrations of dicyclohexylcarbodiimide or tributyltin sufficient to abolish ADP-stimulated respiration blocked the dinitrophenol-stimulated adenosine triphosphatase activity, whereas mersalyl and formaldehyde caused only partial inhibition of ATP hydrolysis. 7. When mitochondria were incubated with dinitrophenol and ATP, less than 10% of the total inorganic phosphate liberated was recovered in the mitochondria and no swelling occurred. In the presence of mersalyl or formaldehyde at least 80% of the total inorganic phosphate liberated was retained in the mitochondria and extensive swelling was observed. This swelling was inhibited by oligomycin but not by antimycin or rotenone. 8. The addition of mersalyl to mitochondria swollen by treatment with valinomycin, K(+) and phosphate blocked the contraction induced by dinitrophenol and caused an increase in the phosphate content of the mitochondria, but had no effect on the contraction of mitochondria when phosphate was replaced by acetate. 9. It is concluded that mitochondria contain a phosphate-transporter system, which catalyses the movement of phosphate in either direction across the mitochondrial membrane, and that this system is inactivated by organic mercurials and by formaldehyde. Evidence is presented that the phosphate-transporter system is situated in the inner membrane of rat liver mitochondria and is also present in other types of mammalian mitochondria. (+info)
Serum and urinary enzyme activity after renal infarction.
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Recently it has been observed that the activity of certain enzymes in serum and urine may be increased after renal infarction. Although aortography or selective renal angiography should be the diagnostic corner-stone on which one would proceed to embolectomy, it is possible that enzyme assays may serve as laboratory aids to suggest or confirm the diagnosis. This paper reviews the few existing clinical and experimental studies and reports on two patients who had a total of three episodes of renal infarction. Serial determinations after one episode showed increased activity of serum oxaloacetic glutamic transaminase (SGOT) and of lactic acid dehydrogenase (LDH) and alkaline phosphatase in the serum and urine; some elevated serum LDH and SGOT values were recorded after the other two infarctions. The time of onset and duration of these increases are discussed, and the possible difficulty in differentiating renal from myocardial infarction is illustrated. (+info)
Mercurated nucleotides: assessment of a new tool to study RNA synthesis and processing in isolated nuclei.
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Mercurated pyrimidine nucleotides have been used to study RNA synthesis and processing in isolated nuclei from mouse L cells. 5-mercuridine triphosphate (5-Hg-UTP) or 5-Hg-CTP are accepted as substrates by the purified RNA polymerases (I+III) and (II) from mouse cells, respectively, as well as by the enzymes still bound to the nuclear chromatin. In nuclei, RNA synthesis in the presence of Hg-UTP is reduced to 60-70% of a control. 30-60% of RNA labeled in vitro with (3H)UTP in isolated nuclei is not retained on sulfhydryl sepharose columns. Sucrose gradient analysis reveals a size distribution of the non-bound RNA similar to non-mercurated control RNA. Hg-RNA is found in a single peak from 4-10S. Chase experiments indicate that this RNA is the original transcript. It is argued that Hg-nucleotides may cause premature chain termination. Methylation of RNA in vitro by S-adenosyl methionine ((3H)SAM) is reduced to 75% of controls in the presence of Hg-UTP. Only 6% of the methyl groups appear in Hg-RNA. Polyadenylation is reduced as well. 15% of poly(A) (+)RNA are found in control assays whereas only 1% of Hg-RNA carries a poly(A) end added in vitro. These results limit the use of mercurated nucleotides for studies of nuclear RNA synthesis and processing. (+info)