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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Optical and thermochemical properties of E. coli DNA molecules are compared in solutions containing poly(ethyleneglycol) (PEG) in concentrations at which compactization is not yet observed. It is shown that under conditions preceding DNA compactization (CPEG less than 60 mg/ml) changes in CD spectra occur which suggest that the secondary structure of some DNA fragments is altered. These changes of the secondary structure result from dehydration of DNA molecules in PEG-containing solutions. Electron micrographs of DNA molecules obtained under conditions preceding compactization suggest that under these conditions linear DNA molecules may form "four-stranded" fragments as well as double-stranded "loops".
Mol Biol (Mosk)
PMID:[DNA compact form. VI. Changes of DNA secondary structure under conditions preceding its compaction in a solution]. 80 73

A comparative X-ray study of DNA compact particles, formed in PEG-containing solution from native DNA and from DNA molecules with altered secondary structure was carried out. Low-angle reflections, present in X-ray patterns of compact particles (in powder form) from native DNA, correspond to spacings of 84, 42 and 35 A, while wide-angle reflections correspond to spacings of 12.8; 8.4, 6.0, 4.5, 3.4 A. Low-angle reflections at 84 and 42 A are present also in X-ray patterns of compact particles, formed from DNA molecules with altered secondary structures. These two reflections are believed to be the results of an ordering of DNA molecules within the compact particles. The main features of this ordering appear in the first approximation to be independent on DNA secondary structure. The CD spectra of all types of compact particles, mentioned above, were also studied. It has been shown that the intense negative band (lambda approximately 270 nm) in a CD spectrum appeared only in the case of compact particles, formed from native DNA molecules. The nature of the revealed correlation between the 35 A reflection and the CD negative band is discussed. Data presented in the paper allow one to suppose that the 35 A reflection in X-ray patterns and the CD negative band result from specific interactions between double-stranded DNA fragments spatially brought together in compact particles. Such type of interaction is believed to be characteristic only of native DNA molecules.
Mol Biol (Mosk)
PMID:[DNA compact form. 8. X-ray diffraction study of DNA compact particles, formed in solutions containing polyethylene glycol]. 80 81

Data on transforming activity of DNA in water-salt (0.3 M NaCl) solutions containing polyethylene glycol (PEG) are presented. Bacillus subtilis deficient mutant lys 42 and prototrophic strain SHgw were used as recipient and donor, respectively, for transformation experiments. It has been shown that when PEG concentrations were increased the relative experiments. It has been shown that when PEG concentrations were increased the relative transforming activity (RTA) at first (at PEG concentrations approximately 30-40 mg/ml) increased to the value of 200-250%, then began to decrease. At PEG concentrations approximately 100-125 mg/ml, when DNA molecules form compact particles, the RTA does not exceed 10%. The observed changes in RTA are interpreted as a result of conformational changes of double-stranded DNA molecules. The increase in the RTA at low PEG concentrations may be explained as an increase in transforming activity of the precompact form of DNA, while the decrease in RTA at PEG concentrations exceeding 60-70 mg/ml was believed to be connected with the fact that compact particles of DNA could not penetrate through the walls of bacterial cells.
Mol Biol (Mosk)
PMID:[DNA compact form in solution. VII. Transforming activity of precompact forms of DNA]. 83 44

Protoplasts of methionine- and lysine-requiring h- mutants isolated from the L972 h- strain of Schizosaccharomyces pombe were fused. The protoplasts were obtained from the cells with enzymes produced by Trichoderma viride. When a mixture of the protoplasts was treated with 30% PEG 4000 solution containing 10 mM CaCl2, cell fusion and complementation was attained with a frequency of 0.17%. Both fusion partners were recovered among the spores after crossing of the fusion products with the strain M210 ade6 h+. Cytological and haploidization examinations showed that the fusion cells are not heterokaryons, and that the increased amount of genetic material is situated in one nucleus.
Mol Gen Genet 1977 Feb 28
PMID:Protoplast fusion of Schizosaccharomyces pombe Auxotrophic mutants of identical mating-type. 86 81

DNA-dependent heat effects accompanying mixing of water-salt (0.3 M NaCl) solutions of PEG and DNA within the range of PEG 10-50 mg/ml at 25 degrees C were determined by the method of difference microcalorimetry. It was found that, unlike optical and hydrodynamical methods, microcalorimetry makes it possible to detect some changes of the DNA-PEG system preceding formation of compact particles of DNA. In the studied range of DNA concentrations (up to 50 X 10(-3) MG/ML) the specific DNA-dependent heat effect is essentially independent of DNA concentration. It is negative and its absolute value increases from 0 to 5 cal/g of DNA in the PEG concentration range from 0 to 35-40 mg/ml after that the rate of its increase raises greatly and at PEG concentration of 50 mg/ml it is equal to 35 cal/g of DNA. It is suggested that the studied DNA dependent heat effects at low concentrations of PEG (less than 40 mg/ml) are caused by dehydration of DNA preceding its compactization.
Mol Biol (Mosk)
PMID:[The compact form of DNA in solution. V. The heat effect preceding compactization of double-chained DNA in PEG containing water-salt solutions]. 94 May 53

The data showing the features of the DNA compactization process in PEG-containing solutions of chlorides of different alkaline metals (LiCl, KCl, RbCl and CsCl) and an ammonium salt (CH3-(CH2)17-N-(CH3)3Br) are presented. The data indicate that the formation of a compact form of the double-stranded DNA in PEG-containing water-salt solutions depends not only on the PEG concentration and ionic strength but on tha cation nature as well. The compactization occurs most easily in the presence of Na+-ions. This indicates a specific character of interaction between Na+-ions and DNA phosphate groups which may be due to an optimum structural fit between the hydrated Na+-ions and orientation of the phosphate groups in the DNA molecule. The nature of forces involved in the processes of the intramolecular compactization and intermolecular aggregation of double-stranded DNA molecules in water-salt solution is discussed. The difference between the effect of Na+ and that of K+-ions on the compactization process at the ionic strengths close to physiological values makes it possible to suggest that the changes of the tertiary structure of double-stranded DNA which accompany its function in vivo may take place under conditions of a decreased water activity at the expense of relatively slight changes in ion composition of the water surrounding DNA.
Mol Biol (Mosk)
PMID:[A compact form of DNA in solution. III. Influence of the ion composition of the solution on the compactization process of double-stranded DNA in the presence of peg]. 121

Erythrocytes from various species have been partitioned in aqueous two-phase systems consisting of water, dextran, poly-(ethylene glycol), salt and buffer. The terminal hydroxyl groups of the latter polymer were esterified with palmitic, oleic, linoleic and linolenic acids, as well as with deoxycholic acid. In a two-phase system containing unesterified poly(ethylene glycol) the erythrocytes are exclusively in the dextran-rich lower phase. When the poly(ethylene glycol)-rich upper phase depending on the type and concentration of esterified acid. Palmitate ester is most effective in increasing the affinity of the cells for the upper phase, followed by oleate, linolate, linolenate, and deoxycholate esters. The partition behaviour of erythrocytes from various species differs considerably. Two groups can be distinguished: one consisting of erythrocytes from dog, guinea pig and rat, the other from human, sheep and rabbit. This division can be correlated to the content of sphingomyelin and phosphatidyl choline in the erythrocyte membranes.
Mol Cell Biochem 1976 Feb 16
PMID:Hydrophobic surface properties of erythrocytes studied by affinity partition in aqueous two-phase systems. 125 48

Antibodies to DNA can be found in the circulation of the majority of patients with Systemic Lupus Erythematosus (SLE). They are quite specific for this disease, which makes their detection an important diagnostic aid to the clinician. Fluctuations in the level of anti-dsDNA in an individual patient generally parallel the clinical state of that patient. Furthermore, the presence of anti-dsDNA may precede the diagnosis of SLE by more than a year. Four methods relevant for the measurement of anti-dsDNA antibodies are discussed in this paper: the ELISA, the indirect immunofluorescence test on Crithidia luciliae, the PEG assay, and the Farr assay. Each of these methods detects a part of the spectrum of anti-dsDNA antibodies present in the circulation of an individual patient. The ELISA is the most sensitive method, whereas the Farr assay is the most specific for SLE. However, with the latter method only antibodies of a relative high avidity for DNA are detected. Mild forms of SLE, where patients only have anti-dsDNA of a low avidity in their circulation, may easily be missed by this technique. Clinically, high avidity anti-dsDNA is related with the more frequent occurrence of nephritis, whereas low avidity anti-dsDNA antibodies are more often found in patients with central nervous system involvement.
Mol Biol Rep 1992 Nov
PMID:Detection of antibodies to DNA: a technical assessment. 128 79

The mechanism of adenylyl cyclase desensitization by carbachol, an agent that stimulates polyphosphoinositide hydrolysis, was studied in thyroid cells. Incubation of cultured dog thyroid cells with 10 microM carbachol for 2-4 hr reduced the subsequent thyrotropic hormone (TSH) stimulation of adenylyl cyclase activity of membrane preparations by approximately 40%. This inhibition was reversed by atropine, occurred even in a Ca(2+)-free medium containing ethylene glycol bis(beta-aminoethylether)-N,N,N',N'-tetraacetic acid, and was not reproduced by the Ca2+ ionophore A23187. The carbachol effect was not prevented by simultaneous incubation of cells with either isobutylmethylxanthine, an inhibitor of phosphodiesterase, or H-7, an inhibitor of protein kinase. Pretreatment of cells with pertussis toxin to inactivate the Gi inhibitory protein also failed to affect the carbachol inhibition. Although carbachol did not reduce the basal or the TSH-stimulated cyclase activities when added to membranes directly during the assay, exposure of cells to carbachol for 2-4 hr resulted in long lasting inhibition of TSH-stimulated cyclase activity (for at least 24 hr); recovery was seen by 48 hr after its removal. Carbachol pretreatment had no effect on 125I-TSH binding to membranes but reduced the cyclase stimulation by not only TSH but also cholera toxin, guanosine 5'-O-(3-thio)triphosphate, and forskolin; it also significantly reduced the cholera toxin-mediated AD[32P]-ribosylation of Gs in membranes. These data indicate that carbachol-induced inhibition of adenylyl cyclase occurs beyond the level of TSH receptor binding and that Gs is a possible site of its action. Thus, in dog thyroid cells, carbachol, via muscarinic receptors, can reduce the adenylyl cyclase activity by a process that does not involve Ca2+ or activation of phosphodiesterase.
Mol Pharmacol 1992 Jan
PMID:Carbachol-induced decrease in thyroid cell adenylyl cyclase activity is independent of calcium and phosphodiesterase activation. 131 Jan 40

DDT1-MF2 smooth muscle cells demonstrated a robust phospholipase C response to norepinephrine, as detected by inositol phosphate accumulation. A selective A1-adenosine receptor agonist, cyclopentyladenosine, caused only a minor stimulation of phospholipase C, which was eliminated in the absence of added extracellular calcium. The simultaneous addition of norepinephrine and cyclopentyladenosine resulted in a synergistic increase in phosphoinositide hydrolysis either in the absence or in the presence of external calcium. In the presence of external calcium and a calcium ionophore, and adenosine agonist caused a significant stimulation of phosphoinositide hydrolysis without the addition of norepinephrine. Influx of extracellular calcium through voltage-sensitive calcium channels did not appear to be required to observe an effect of cyclopentyladenosine, because neither calcium channel antagonists (nifedipine, verapamil, and LaCl3) nor a chelator of extracellular calcium (ethylene glycol bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid) were able to alter the degree of potentiation of norepinephrine-stimulated phosphoinositide hydrolysis due to the adenosine agonist. On the other hand, buffering of intracellular calcium concentration with the membrane-permeant calcium chelator quin2 blocked the potentiation. This blockade of potentiation by quin2 was reversed by the addition of extracellular calcium. Agents that stimulated cAMP production or membrane-permeable analogues of cAMP also blocked the action of the adenosine agonist to potentiate norepinephrine-stimulated phosphoinositide hydrolysis. This effect of cAMP was less pronounced in the presence of elevated extracellular calcium and was abolished in the presence of a calcium ionophore. When norepinephrine-stimulated calcium transients were quantitated using fura-2 fluorescence, a reduction in the amplitude of the calcium response was observed in the presence of forskolin. Conversely, both the amplitude and the duration of the calcium response were enhanced by the addition of the adenosine agonist. The results of these studies suggest that the mechanism by which adenosine receptors enhance the stimulation of phosphoinositide hydrolysis is dependent upon a rise in intracellular Ca2+ concentration resulting from the simultaneous activation of alpha 1-adrenergic receptors. The results further suggest that cAMP inhibits this mechanism by decreasing the norepinephrine-stimulated rise in intracellular Ca2+ concentration.
Mol Pharmacol 1992 Mar
PMID:Competitive regulation of phospholipase C responses by cAMP and calcium. 131 17


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