UMLS:C0344329 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: UMLS:C0344329 (collapse)
28,634 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The terminal stage of differentiation of nucleated chicken erythrocytes is associated with an overall gene repression and a condensation of the repressed chromatin portion. Two-dimensional DNP electrophoresis has been used to separate transcriptionally active and repressed chromatin of mature chicken erythrocytes. The repressed chromatin fraction is shown to be enriched with histone H5 as well as with a 42-kDa nonhistone chromosomal protein. The 42-kDa protein designated here as MENT (mature erythrocyte nuclear termination stage-specific protein) is hyperexpressed at the terminal stage of chicken erythropoiesis and is accumulated in adult chicken erythrocyte nuclei. This protein was purified by ion-exchange chromatography from 0.4 M NaCl extracts of the erythrocyte nuclei. It appeared to be a basic polypeptide (pI 9.2) which, however, precipitated at low pH. When reconstituted in vitro with immature erythrocyte nuclei, MENT promoted condensation of intact nuclear chromatin and enhanced the solubilization of nuclease-digested polynucleosomes, thus mimicking the processes occurring in vivo at the final stage of erythrocyte maturation. The extent of dissociation of specific gene sequences from the nuclear matrix in MENT-treated nuclei is in striking correlation with their transcriptional activity. No other basic proteins (H5, cytochrome c, RNase A) added to the nuclear preparation at the same level as MENT (protein/DNA = 0.005) caused any effect on nuclear organization. No alterations were observed when MENT was mixed with erythroblasts and nonerythroid nuclei having little or no histone H5. We propose that MENT cooperates with histone H5 to complete the nuclear collapse in mature nucleated erythrocytes.
...
PMID:A novel nonhistone protein (MENT) promotes nuclear collapse at the terminal stage of avian erythropoiesis. 172 33

The effects of amiodarone on the respiration of isolated mouse liver mitochondria have been determined. Amiodarone (200 microM) had a biphasic effect on state 4 respiration supported by either glutamate plus malate or succinate. Initially, the respiratory rate was increased. This stimulatory effect was not prevented by oligomycin (an inhibitor of ATP synthase). It was associated with marked accumulation of amiodarone in the mitochondria, and with collapse of the mitochondrial membrane potential. This initial uncoupling effect was followed by a progressive decrease in the state 4 respiration rate, leading eventually to marked inhibition. Preincubation for 5 min with amiodarone (200 microM) also decreased markedly ADP-stimulated (state 3) respiration, ATP production and dinitrophenol-stimulated (uncoupled) respiration supported by glutamate plus malate (which donate electrons to complex I), and respiration supported by succinate (which donate electrons to complex II), but did not affect respiration supported by duroquinol (donating electrons to complex III) or by ascorbate plus N,N,N',N'-tetramethyl-p-phenylenediamine (donating electrons to cytochrome c). Preincubation with amiodarone (150-200 microM) decreased markedly respiration mediated by fatty acids of various chain length and respiration mediated by citrate, a tricarboxylic acid cycle substrate. We conclude that amiodarone has a dual effect on mitochondrial respiration. The initial uncoupling effect is probably due to the entry of protonated amiodarone, releasing a proton in the matrix. Accumulation of amiodarone soon leads to inhibition of the respiratory chain at the levels of complex I and complex II and to decreased ATP formation.
...
PMID:Dual effect of amiodarone on mitochondrial respiration. Initial protonophoric uncoupling effect followed by inhibition of the respiratory chain at the levels of complex I and complex II. 197 17

The control of cytochrome c oxidase incorporated into proteoliposomes has been investigated as a function of membrane potential (delta psi) and pH gradient (delta pH). The oxidase generates a pH gradient (alkaline inside) and a membrane potential (negative inside) when respiring on external cytochrome c. Low levels of valinomycin collapse delta psi and increase delta pH; the respiration rate decreases. High levels of valinomycin, however, decrease delta pH as valinomycin can also act as a protonophore. Nigericin (in the absence of valinomycin) increases delta psi and collapses delta pH; the respiration rate increases. On a millivolt equivalent basis delta pH is a more effective inhibitor of activity than is delta psi. In the absence of any ionophores the cytochrome oxidase proteoliposomes enter a steady state, in which there are both delta pH and delta psi components of control. Present and previous data suggest that the respiration rate responds in a linear way ("ohmically") to increasing delta pH but in a nonlinear way to delta psi ("non-ohmically"). High levels of both delta psi and delta pH do not completely inhibit turnover (maximal respiratory control values lie between 6 and 10). The controlled steady state involves the electrophoretic entry and electroneutral exit of K+ from the vesicles. A model is presented in which the enzyme responds to both delta pH and delta psi components of the proton-motive force, but is more sensitive to delta pH than to delta psi at an equivalent delta mu H+. The steady state of the proteoliposome system can be represented for any set of permeabilities and enzyme activity levels using the computer simulation programme Stella.
...
PMID:Control of proteoliposomal cytochrome c oxidase: the overall reaction. 217 1

In a study of HeLa metaphase chromosomes depleted of histones with 2M NaCl and spread with cytochrome c, two new types of images of chromosome scaffolds have been observed in the electron microscope. In the first type, scaffolds are very large and fibrous but still display the shape typical of metaphase chromosomes. The regularity and lack of distortion in these scaffolds, despite their openness and seeming fragility, support the notion that the underlying scaffold structure is an interconnected network of fibers. In the second type, fibrous regions and dense regions are juxtaposed in the same chromosome scaffold. These micrographs suggest that the dense appearance of some previously observed scaffolds may be the result of incomplete adherence to the cytochrome c monolayer, leading to collapse and aggregation during dehydration.
...
PMID:Scaffold morphology in histone-depleted HeLa metaphase chromosomes. 270 99

The interaction between succinate-ubiquinone and ubiquinol-cytochrome c reductases in the purified, dispersed state and in embedded phospholipid vesicles was studied by differential scanning calorimetry and by electron paramagnetic resonance (EPR). When the purified, detergent-dispersed succinate-ubiquinone reductase, ubiquinol-cytochrome c reductase, and cytochrome c oxidase undergo thermodenaturation, they show an endothermic transition. However, when these isolated electron-transfer complexes are embedded in phospholipid vesicles, they undergo exothermodenaturation. The energy released could result from the collapse of the strained interaction between unsaturated fatty acyl groups of phospholipids and an exposed area of the complex formed by removal of interacting proteins. The exothermic enthalpy change of thermodenaturation of a protein-phospholipid vesicle containing both succinate-ubiquinone and ubiquinol-cytochrome c reductases was smaller than that of a mixture of protein-phospholipid vesicles formed from the individual electron-transfer complexes. This suggests specific interaction between succinate-ubiquinone reductase and ubiquinol-cytochrome c reductase in the membrane. This idea is supported by saturation transfer EPR studies showing that the rotational correlation time of spin-labeled ubiquinol-cytochrome c reductase is increased when mixed with succinate-ubiquinone reductase prior to embedding in phospholipid vesicles. These results indicate that succinate-ubiquinone reductase and ubiquinol-cytochrome c reductase are indeed present in the membrane as a supermacromolecular complex. No such supermacromolecular complex is detected between NADH-ubiquinone and ubiquinol-cytochrome c reductases or between succinate-ubiquinone and NADH-uniquinone reductases.
...
PMID:Spin-label electron paramagnetic resonance and differential scanning calorimetry studies of the interaction between mitochondrial succinate-ubiquinone and ubiquinol-cytochrome c reductases. 302 58

1. The interactions between cytochrome c (native and [(14)C]carboxymethylated) and monolayers of phosphatidylcholine, phosphatidic acid and cardiolipin at the air/water interface was investigated by measurements of surface radioactivity, pressure and potential. 2. On a subphase of 10mm-or m-sodium chloride, penetration of cytochrome c into egg phosphatidylcholine monolayers, as measured by an increase of surface pressure, and the number of molecules penetrating, as judged by surface radioactivity, were inversely proportional to the initial pressure of the monolayer and became zero at 20dynes/cm. The constant of proportionality was increased when the cytochrome c was carboxymethylated or decreased when the phospholipid was hydrogenated, but the cut-off point remained at 20dynes/cm. 3. Penetrated cytochrome c could be removed almost entirely by compression of the phosphatidylcholine monolayer above 20dynes/cm. 4. With phosphatidic acid and cardiolipin monolayers on 10mm-sodium chloride the binding of cytochrome c was much stronger and cytochrome c penetrated into films nearing the collapse pressure (>40dynes/cm.). The penetration was partly electrostatically facilitated, since it was decreased by carrying out the reaction on a subphase of m-sodium chloride, and the relationship between the surface pressure increment and the initial film pressure moved nearer to that observed with phosphatidylcholine. 5. Surface radioactivity determinations showed that [(14)C]carboxymethylated cytochrome c was still adsorbed on phosphatidic acid and cardiolipin monolayers after the cessation of penetration. This adsorption was primarily electrostatic in nature because it could be prevented and substantially reversed by adding m-sodium chloride to the subphase and there was no similar adsorption on phosphatidylcholine films. 6. The penetration into and adsorption on the three phospholipid monolayers was examined as a function of the pH of the subphase and compared with the state of ionization of both the phospholipid and the protein, and the area occupied by the latter at an air/water interface. 7. It is concluded that the binding of cytochrome c to phospholipids can only be partially understood by a consideration of the ionic interaction between the components and that subtle conformational changes in the protein must affect the magnitude and stability of the complex. 8. If cytochrome c is associated with a phospholipid in mitochondria then cardiolipin would fulfil the characteristics of the binding most adequately.
...
PMID:Interactions of cytochrome c and [14C]. 538 43

The extracellular matrix in cultures of arterial smooth muscle cells has been examined by ultrastructural histochemistry using each of the following cationic dyes: ruthenium red, Alcian blue, acridine orange, and safranin O. All dyes exhibited an affinity for a structural component that was either preserved as a granule with ruthenium red or Alcian blue, or as an extended filament or bottlebrush structure with acridine orange or safranin O. Both granules and filaments were removed when the cultures were pretreated with chondroitinase ABC, an enzyme that degrades the glycosaminoglycan moiety of some proteoglycans. These structural components of the extracellular matrix were not observed when cultures were prepared in the absence of the cationic dyes. Labeling experiments (35S-sulfate) revealed that approximately 40% of the total labeled proteoglycans were lost during routine processing for electron microscopy (i.e., fixation through dehydration). Inclusion of any one of the cationic dyes during fixation reduced the losses to less than 1%. The extended filamentous structure preserved by safranin O and acridine orange resembled the structure of purified proteoglycans prepared from the same cultures and spread on cytochrome c monolayer films. These observations suggest that proteoglycans exist as extended bottlebrush structures within the extracellular matrix, and support the interpretation that the granular deposits observed in the ruthenium red and Alcian blue preparations most likely represent individual proteoglycan monomers that have undergone molecular collapse during processing. In addition, the dyes also exhibited an affinity for chords of fine fibrils that contained small granules and/or filaments. Both the fibrillar material and the associated granular and filamentous structures enmeshed in the fibrils resisted digestion with chondroitinase ABC.
...
PMID:Proteoglycans in arterial smooth muscle cell cultures: an ultrastructural histochemical analysis. 620 May 30

A study is presented of the characteristics of redox-linked proton translocation in the b-c1 complex isolated from beef-heart mitochondria and reconstituted into phospholipid vesicles. Measurements of the H+/e- stoichiometry, with three different methods, show that four protons are released from the vesicles per 2e- flowing from quinols to cytochrome c, two of these protons formally deriving from scalar oxidation of quinols by cytochrome c. This H+/e- stoicheiometry is independent of the initial redox state of the b-c1 complex (fully reduced or oxidized) and the rate of electron flow through the complex. It does not change in the pH range 6.0 - 7.2, but declines to 1.5 going with pH from 7.2 - 8.3. This decrease is accompanied by enhancement of the rate of electron flow in the coupled state. Collapse of delta psi effected by valinomycin addition to turning-over b-c1 vesicles resulted in substantial oxidation of cytochrome b-566 and comparable reduction of cytochrome c1, with little oxidation of cytochrome b-562. Nigericin alone had no effect on the steady-state redox levels of b and c cytochromes. Its addition in the presence of valinomycin caused oxidation of b cytochromes but no change in the redox state of cytochrome c1. Valinomycin alone caused a marked enhancement of the rate of electron flow through the complex. Nigericin alone was ineffective, but caused further stimulation of electron flow when added in the presence of valinomycin. The data presented are discussed in terms of two mechanisms: the Q cycle and a model based on combination of protonmotive catalysis by special bound quinone and proton conduction along pathways in the apoproteins.
...
PMID:Redox-linked proton translocation in the b-c1 complex from beef-heart mitochondria reconstituted into phospholipid vesicles. General characteristics and control of electron flow by delta micro H+. 631 23

Rat and pigeon heart mitochondria supplemented with antimycin produce 0.3-1.0nmol of H(2)O(2)/min per mg of protein. These rates are stimulated up to 13-fold by addition of protophores (carbonyl cyanide p-trifluoromethoxyphenylhydrazone, carbonyl cyanide m-chloromethoxyphenylhydrazone and pentachlorophenol). Ionophores, such as valinomycin and gramicidin, and Ca(2+) also markedly stimulated H(2)O(2) production by rat heart mitochondria. The enhancement of H(2)O(2) generation in antimycin-supplemented mitochondria and the increased O(2) uptake of the State 4-to-State 3 transition showed similar protophore, ionophore and Ca(2+) concentration dependencies. Thenoyltrifluoroacetone and N-bromosuccinimide, which inhibit succinate-ubiquinone reductase activity, also decreased mitochondrial H(2)O(2) production. Addition of cyanide to antimycin-supplemented beef heart submitochondrial particles inhibited the generation of O(2) (-), the precursor of mitochondrial H(2)O(2). This effect was parallel to the increase in cytochrome c reduction and it is interpreted as indicating the necessity of cytochrome c(1) (3+) to oxidize ubiquinol to ubisemiquinone, whose autoxidation yields O(2) (-). The effect of protophores, ionophores and Ca(2+) is analysed in relation to the propositions of a cyclic mechanism for the interaction of ubiquinone with succinate dehydrogenase and cytochromes b and c(1) [Wikstrom & Berden (1972) Biochim. Biophys. Acta283, 403-420; Mitchell (1976) J. Theor. Biol.62, 337-367]. A collapse in membrane potential, increasing the rate of ubisemiquinone formation and O(2) (-) production, is proposed as the molecular mechanism for the enhancement of H(2)O(2) formation rates observed on addition of protophores, ionophores and Ca(2+).
...
PMID:Enhancement of hydrogen peroxide formation by protophores and ionophores in antimycin-supplemented mitochondria. 740 88

Initiation of protein folding by light can dramatically improve the time resolution of kinetic studies. Here we present an example of an optically triggered folding reaction by using nanosecond photodissociation of the heme-carbon monoxide complex of reduced cytochrome c. The optical trigger is based on the observation that under destabilizing conditions cytochrome c can be unfolded by preferential binding of carbon monoxide to the covalently attached heme group in the unfolded state. Photodissociation of the carbon monoxide thus triggers the folding reaction. We used time-resolved absorption spectroscopy to monitor binding at the heme. Before folding begins we observe transient binding of both nonnative and native ligands from the unfolded polypeptide on a microsecond time scale. Kinetic modeling suggests that the intramolecular binding of methionine-65 and -80 is faster than that of histidine-26 and -33, even though the histidines are closer to the heme. This optical trigger should provide a powerful method for studying chain collapse and secondary structure formation in cytochrome c without any limitations in time resolution.
...
PMID:Fast events in protein folding initiated by nanosecond laser photolysis. 826 38

1 2 3 4 5 6 7 8 9 10 Next >>