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:C0027960 (mole)
21,279 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Genetic polymorphism of urine deoxyribonuclease I (DNase I) of mole rats was analyzed by isoelectric focusing in a thin-layer polyacrylamide gel (IEF-PAGE). One hundred and three subterranean mole rats, comprising 13 populations belonging to the four chromosomal species (2n = 52, 54, 58, 60) of the actively speciating Spalax ehrenbergi superspecies in Israel, were tested. The following results were indicated. (i) Spalax DNase I consisted of 6-12 major isozymes. (ii) Four phenotypes (numbers in parentheses) were 1 (92), 1-2 (5), 1-3 (4), and 2 (1). The decreasing order of genetic diversity, He, in the four species was 0.37, 0.13, 0.10, and 0.0 for 2n = 58, 52, 54, and 60, respectively. (iii) Spearman rank correlations and multiple regression analyses indicated associations of allele frequencies and genetic diversity with climatic and vegetation factors. We concluded that (a) climatic selection, either directly or indirectly through plant (i.e., food resources) diversity, plays an important role in DNase genetic differentiation and (b) no gene flow and introgression occur between the recent derivative of speciation (2n = 60) and its ancestor (2n = 58), suggesting the operation of reproductive isolation between both species despite natural hybridization.
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PMID:Genetic polymorphism of urine deoxyribonuclease I isomerases of subterranean mole rats, Spalax ehrenbergi superspecies, in Israel: ecogeographical patterns and correlates. 208 7

Interaction of rat liver histone H1 fraction with the 5'-end of the rat serum albumin gene was localized within a 346 base pair (bp) restriction fragment. Sequence analysis of the fragment showed the fragment was 72 mol % adenosine-thymidine, which is significantly greater than the mole percent adenosine-thymidine composition of the rat genome. Gel retardation assays of the histone H1-DNA interaction indicate the complex formed behaves as previously characterized H1-DNA and shows a high-affinity H1 binding site within the enriched albumin restriction site. Deoxyribonuclease I (DNase I) protection assays on the H1 binding site define three protected regions only on the template strand of the DNA fragment. The three sites lie 55 and 110 bp apart (165 bp between the first and third binding site) with a consensus binding sequence of 5'-GA-ATA-CTGGCTT-C-TT-CTA-G-3'. The sequences between the protected DNA regions are highly enriched in adenosine-thymidine bases (79.3 and 86 mol % adenosine-thymidine, respectively). The functional significance is not understood.
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PMID:High-resolution analysis of a histone H1 binding site in a rat albumin gene. 245 58

Chromatin from two human colon adenocarcinoma cell lines (HT-29 and LoVo) showed similar digestion kinetics when sensitivities to DNase I and micrococcal nuclease were examined. Chromatin conformations were probed by examining the binding of ethidium bromide. A Scatchard plot revealed that both chromatins bound the same amount of ethidium bromide per mole of DNA, but the DNA from LoVo cells was more accessible to the intercalator. The results indicate that differences in chromatin conformation are not necessarily accompanied by different nuclease sensitivities.
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PMID:Two human colon tumor cell lines with similar nuclease sensitivities have different ethidium bromide binding characteristics. 623 36

The propensity of a large number of metal ions to induce cooperative conformational or structural transitions in double-stranded poly d(G-C) was assessed by UV and CD spectrometry. This ability was seen to be an intrinsic property of most metal ions. The observed (metal ion)/(polydeoxynucleotide) mole ratio calculated per G-C base pair and corresponding to the midpoints of the principal transition ranged from 0.3 (Ag(II) to 100 (Al(III)). A strong correlation was seen [y = -1.01(log x) + 3.26, r = 0.95, n = 20] between the (metal ion)/(poly d(G-C)) mole ratio required for the transition midpoint (x) and a covalent index to complex stability (y) of the metal ions. This relationship was independent of the types of transitions observed (monophasic or biphasic) or of specific conformations (e.g., B, Z, psi). The y index measures the ability of metal ions to bind to nitrogen and/or sulphur donor atoms in ligands compared to oxygen centers; equilibrium analysis indicates that the mole-ratio x decreases with increasing affinity of metal ions for poly d(G-C). Thus the observed relationship suggests that base-nitrogen binding facilitates the induced transitions. In general, metal ions designated as Class B or nitrogen/sulphur seeking (Ag(I), Hg(II), and Ru(III)) induced monophasic transitions, whereas Class A or oxygen seeking ions (La(III), Ce(III), Tb(III), Dy(III)) induced biphasic transitions. Transitions generated by ions of more ambivalent ligand preference (Borderline ions) were either monophasic (Mn(II), Fe(III), Cu(II), Cd(II), In(III), and Pb(II)) or biphasic (Cr(III), Co(II), Ni(II) and Zn(II)). Poorly defined transition-curve profiles were observed for Pt(II), Pd(II), and Al(III). Specific conformational assignments were made for some of the observed transitions. For a limited number of metal ions (Ni(II), Cu(II), Cd(II), Ag(I), Hg(II)), interaction with calf thymus DNA was similarly examined. In these instances, the susceptibility to DNase I digestion of both the DNA and polydeoxynucleotide complexes was assessed.
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PMID:The interaction of metal ions with synthetic DNA: induction of conformational and structural transitions. 802 40

Human urinary DNase I was inactivated by monoiodoacetate and monobromoacetate. The inactivation was greater at pH 7.2 than at 6.0 and proceeded in the presence of Ca2+. Amino acid analysis of monobromoacetate-inactivated human urinary DNase I indicated that one histidine residue per mole of the enzyme reacted with monobromoacetate. Diethylpyrocarbonate also inactivated the enzyme, which was protected by DNA in the presence of Mg2+. However, oligonucleotides did not prevent the inactivation even in the presence of Mg2+. Hydroxylamine almost completely restored the activity of the inactivated enzyme by DEP. One histidine residue per mole of the enzyme was calculated to be modified, as shown by the difference spectra of DEP-inactivated enzyme. This histidine residue seems to react with the substrate. These results provide evidence that human urinary DNase I possesses one essential histidine residue at the active site.
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PMID:Evidence for an essential histidine residue on active site of human urinary DNase I: carboxymethylation and carbethoxylation. 805 72

The vancomycin resistance operon of Enterococcus faecium encodes a two-component regulatory system comprising VanS and VanR. In vitro experiments showed that about 5% of a labile phosphorylated VanR (P-VanR) was accumulated from ATP and a maltose-binding protein-VanS fusion protein (MBP-VanS). Alternatively, about an 8% abundance of P-VanR was produced with acetyl phosphate. In such incubations, gel shift experiments revealed that P-VanR selectively bound to a 254-bp DNA fragment that contains the vanH promoter for the vanH, vanA, and vanX structural genes. When VanS was added with a mole ratio for VanS:VanR of higher than 1:1, VanS competed with DNA for P-VanR and abolished the gel shift. P-VanR bound 500-fold more tightly to the vanH promoter region, with an estimated EC50 of 40 nM, than the unphosphorylated VanR. A second DNA fragment of 197 bp containing the proposed vanR promoter for the vanR and vanS regulatory genes also exhibited gel shift, but with much lower affinities. A mutant VanR(D53A) was shown to be incompetent for phosphorylation by phosphorylated MBP-VanS or by acetyl phosphate; however, it still bound DNA specifically, albeit with low affinity. DNase I footprinting by P-VanR revealed that a ca. 80-bp region was protected on the vanH promoter and a ca. 40-bp region was protected on the vanR promoter. The unphosphorylated VanR footprinted the same 80 bp on the vanH promoter, but only 20 bp on the vanR promoter.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Identification of the DNA-binding site for the phosphorylated VanR protein required for vancomycin resistance in Enterococcus faecium. 816 18

The contractile protein actin contains one mole of firmly bound nucleotide and a number of divalent cations bound with different affinities. During recent years evidence for a second nucleotide interacting site on actin has been reported. Therefore, a specific search for the presence of a second nucleotide-interacting site on actin was undertaken. For this purpose G- and F-actin or actin in complex with deoxyribonuclease I (DNase I) was passed over ADP-agarose which was found to retain all three forms of actin. Nucleotide bound to the high affinity site of actin did not exchange during passage and retention to agarose-immobilized ADP, thus indicating the presence of a second nucleotide interacting site. This site was found to be equally accessible in G- and F-actin and in the actin-DNase I complex, whereas DNase I alone passed unretained through this column. A number of nucleotides and phosphorylated compounds were tested for their ability to compete with immobilized ADP for actin interaction. It was found that all forms of actin are liberated only by high concentrations (5mM) of ADP, ATP and NADH, by 1mM CTP and ITP, and by high salt concentrations (150mM NaCl). Since it was found that EDTA- and heat-treated actin were also retained on ADP-agarose, we conclude that this second nucleotide interacting site is of limited specificity, low affinity, and not dependent on the native configuration of actin. It exhibits characteristics of an unspecific, polyanionic site, but may represent the low affinity phosphate binding site.
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PMID:Evidence that the presumptive second nucleotide interacting site on actin is of low specificity and affinity. 848 39

We have recently described a method for preparing lipid-based DNA particles (LDPs) that form spontaneously when detergent-solubilized cationic lipids are mixed with DNA. LDPs have the potential to be developed as carriers for use in gene therapy. More importantly, the lipid-DNA interactions that give rise to particle formation can be studied to gain a better understanding of factors that govern lipid binding and lipid dissociation. In this study the stability of lipid-DNA interactions was evaluated by measurement of DNA protection (binding of the DNA intercalating dye TO-PRO-1 and sensitivity to DNase I) and membrane destabilization (lipid mixing reactions measured by fluorescence resonance energy transfer techniques) after the addition of anionic liposomes. Lipid-based DNA transfer systems were prepared with pInexCAT v.2.0, a 4.49-kb plasmid expression vector that contains the marker gene for chloramphenicol acetyltransferase (CAT). LDPs were prepared using N-N-dioleoyl-N,N-dimethylammonium chloride (DODAC) and either 1, 2-dioleoyl-sn-glycero-3-phosphocholine (DOPC) or 1, 2-dioleoyl-sn-glycero-3-phosphoethanolamine (DOPE). For comparison, liposome/DNA aggregates (LDAs) were also prepared by using preformed DODAC/DOPE (1:1 mole ratio) and DODAC/DOPC (1:1 mole ratio) liposomes. The addition of anionic liposomes to the lipid-based DNA formulations initiated rapid membrane destabilization as measured by the resonance energy transfer lipid-mixing assay. It is suggested that lipid mixing is a reflection of processes (contact, dehydration, packing defects) that lead to formulation disassembly and DNA release. This destabilization reaction was associated with an increase in DNA sensitivity to DNase I, and anionic membrane-mediated destabilization was not dependent on the incorporation of DOPE. These results are interpreted in terms of factors that regulate the disassembly of lipid-based DNA formulations.
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PMID:Characterization of lipid DNA interactions. I. Destabilization of bound lipids and DNA dissociation. 967 5

Iron is essential for the survival of almost all organisms, although excess iron can result in the generation of free radicals which are toxic to cells. To avoid the toxic effects of free radicals, the concentration of intracellular iron is generally regulated by the ferric uptake regulator Fur in bacteria. The 150 aa fur ORF from Listeria monocytogenes was cloned into pRSETa, and the His-tagged fusion protein was purified by nickel affinity column chromatography. DNA binding activity of this protein was studied by an electrophoretic mobility shift assay using the end-labelled promoters P(fhuDC) and P(fur). The results showed a decrease in migration for both promoter DNAs in the presence of the Fur protein, and the change in migration was competitively inhibited with an excess of the same unlabelled promoters. No shift in migration was observed when a similar assay was performed using non-specific end-labelled DNA. The assay showed that binding of Fur to P(fur) or P(fhuDC) was independent of iron or manganese ions, and was not inhibited in the presence of 2 mM EDTA. Inductively coupled plasma MS of the Fur protein showed no iron or manganese, but 0.48 mole zinc per mole protein was detected. A DNase I protection assay revealed that Fur specifically bound to and protected a 19 bp consensus Fur box sequence located in the promoters of fur and fhuDC. There was no requirement for iron or manganese in this assay also. However, Northern blot analysis showed an increase in fur transcription under iron-restricted compared to high-level conditions. Thus, the study suggests that under in vitro conditions, the affinity of the Fur protein for the 19 bp Fur box sequence does not require iron, but iron availability regulates fur transcription in vivo. Thus, the regulation by Fur in this intracellular pathogen may be dependent on either the structure of the DNA binding domain or other intracellular factors yet to be identified.
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PMID:Molecular characterization of the Fur protein of Listeria monocytogenes. 1737 19

Vibrio cholerae is a Gram-negative bacterial pathogen that exports enterotoxins, which alter host cells through a number of mechanisms resulting in diarrheal disease. Among the secreted toxins is the multifunctional, autoprocessing RTX toxin (MARTX(Vc)), which disrupts actin cytoskeleton by covalently cross-linking actin monomers into oligomers. The region of the toxin responsible for cross-linking activity is the actin cross-linking domain (ACD). In this study, we demonstrate unambiguously that ACD utilizes G- and not F-actin as a substrate for the cross-linking reaction and hydrolyzes one molecule of ATP per cross-linking event. Furthermore, major actin-binding proteins that regulate actin cytoskeleton in vivo do not block the cross-linking reaction in vitro. Cofilin inhibits the cross-linking of G- and F-actin, at a high mole ratio to actin but accelerates F-actin cross-linking at low mole ratios. DNase I completely blocks the cross-linking of actin, likely due to steric hindrance with one of the cross-linking sites on actin. In the context of the holotoxin, the inhibition of Rho by the Rho-inactivating domain of MARTX(Vc) (Sheahan, K. L., and Satchell, K. J. F. (2007) Cell. Microbiol. 9, 1324-1335) would accelerate F-actin depolymerization and provide G-actin, alone or in complex with actin-binding proteins, for cross-linking by ACD, ultimately leading to the observed rapid cell rounding.
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PMID:Characterization of the enzymatic activity of the actin cross-linking domain from the Vibrio cholerae MARTX Vc toxin. 1795 76


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