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Query: UNIPROT:P50583 (
asymmetrical
)
12,197
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The surface tension of glycerylmonooleate-hexadecane lipid bilayer membranes and the lifetime of gramicidin A channels were measured at various concentrations of the surrounding solutions. For HCl the surface tension is essentially constant at approximately 5 mN/m up to approximately 1 M, whereas the average lifetime increases approximately 40-fold. At higher concentrations the surface tension decreases markedly. For CsCl the surface tension is constant up to about 1 M then increases with salt level. The average lifetime in this case increases about sixfold. In both cases the lifetime levels off and even decreases at higher salt levels. The increase in lifetime observed with ion activity is therefore qualitatively different from, and not explained by, the established dependence of lifetime on membrane properties (Elliot, J.R., D. Needham, J.P. Dilger, and D.A. Haydon. 1983. Biochim. Biophys. Acta. 735:95-103). We have previously proposed that ion occupancy is a determinant of channel stability, and to test this hypothesis the voltage dependence of channel lifetime was measured in
asymmetrical
solutions. For the case of a potassium chloride solution on one side of the membrane and a hydrogen chloride solution, on the other, the voltage dependence of the lifetime is
asymmetrical
. The asymmetry is such that when the electrical field is applied in the direction of the chemical gradient for each of the ions, the channel lifetime approaches, at increasing field strengths, that of a symmetrical solution of the respective ion. The voltage dependence of the surface tension, on the other hand, is negligible for the range of voltages used. These results, and the earlier findings that the order of the lifetimes for the alkali cations generally agree with the order of the permeability selectivity of the gramicidin A channel, support the hypothesis that ion occupancy is a major factor determining the lifetime of gramicidin A channels. The effects of multivalent blockers and osmotic agents were also tested. Ba2", La3+,and Mg2" decrease the lifetime and conductance markedly.
Sucrose
and urea increase the lifetime and decrease the conductance. The voltage dependence of the lifetime in symmetrical solutions was examined. Contrary to previous reports it was found that the lifetimes for K+, Cs', and H+ are voltage dependent. For 0.5 M HCI the lifetime decreases monotonically by .60% at 150 mV, and for 0.5 M KCI the lifetime increases by -60% at 200 mV. Below 10 mM there is no effect of voltage for H+, K+, and Cs+. These effects of blockers, osmotic agents, and voltage on the lifetime, as well as the lack of effect of voltage at low salt levels, are consistent with the occupancy hypothesis.
...
PMID:Evaluation of surface tension and ion occupancy effects on gramicidin A channel lifetime. 245 76
Three aspects of the location and properties of pre-prophase bands of microtubules inplant tissues were examined. (i) Anatomical locations: Pre-prophase bands were found preceding mitosis in the basal meristematic cell of uniseriate hairs in Salvinia auriculata and in intercalary dividing cells in the uniseriate hairs of Tradescantia stamens. Previously they had only been found in 2- or 3-dimensional aggregates of cells. Other new locations were Tradescantia stamen filaments, and periclinal and anticlinal divisions in root and root cap meristems of Cuperus eragrostis. (ii) Prediction of the site of cytokinesis: Developing stomatal complexes of
Saccharum
officinarum were examined in view of recent reports that guard mother cells in this plant violate the otherwise general rule that the pre-prophase band predicts the line of fusion of the cell plate and the parental wall. The generality of the prediction phenomenon was upheld. (iii) Bisection of pre-prophase band sites: Evidence that the site of the pre-prophase band in the cell cortex is (at least approximately) bisected at cytokinesis was obtained for
asymmetrical
divisions in Cyperus roots, stomatal complexes of
Saccharum
, and Salvinia hairs, and symmetrical divisions in Tradescantia stamen hairs and
Saccharum
guard mother cells. The observations are discussed with particular reference to possible roles of the pre-prophase band site after its microtubules have disappeared at prophase.
...
PMID:Observations on pre-prophase bands of microtubules in uniseriate hairs, stomatal complexes of sugar cane, and Cyperus root meristems. 739 62
In the present study, we investigated taste-taste, taste-vehicle, and simultaneous taste-vehicle-taste mixtures. Subjects made estimates of the sweetness and bitterness of 27 stimuli.
Sucrose
(292, 585, and 1170 mM), caffeine (13, 26, and 52 mM), and binary mixtures of low (292-13 mM), middle (585-26 mM), and high (1170-52 mM) levels of both components were dispersed in water, carboxymethylcellulose (CMC) 1% w/v, and gelatin 6% w/v. The sweetness and bitterness of the sucrose-vehicle-caffeine combinations were significantly weaker than the respective sucrose-vehicle and caffeine-vehicle combinations. The emerged mutual suppressive effects were
asymmetrical
and persisted when both tastants were presented in CMC and gelatin. Moreover, the increase in vehicle consistency and the simultaneous addition of another taste reduced the perceived intensity of a taste either presented alone or dissolved in water. For both sweetness and bitterness, the total taste suppression observed was always significant.
...
PMID:Perception of sweetness and bitterness in different vehicles. 813 44
Although varying in size and complexity, centrosomes have conserved functions throughout the evolutionary range of eukaryotes, and thus may display conserved components. In this work, we took advantage of the recent advances in the isolation of the budding yeast spindle pole body, the development of specific immunological probes and the molecular characterisation of genes involved in spindle pole body duplication or assembly. Screening a monoclonal antibody library against Saccharomyces cerevisiae spindle pole body components, we found that two monoclonal antibodies, directed against two different parts of the yeast Spc110p, decorate the centrosome from mammalian cells in an
asymmetrical
manner. Western blot experiments identified a 100 kDa protein specifically enriched in centrosome preparations from human cells. This protein is phosphorylated during mitosis and is tightly associated with the centrosome: only denaturing conditions such as 8 M urea were able to solubilise it. Purified immunoglobulins directed against Spc110p inhibit microtubule nucleation on isolated human centrosomes, using brain phosphocellulose-tubulin or Xenopus egg extract tubulin. This result suggested that the centrosomal 100 kDa protein could be involved in a microtubule nucleation complex. To test this hypothesis, we turned to Xenopus species, in which mAb anti-Spc110p decorated centrosomes from somatic cells and identified a 116 kDa protein in egg extract. We performed a partial purification of the gamma-tubulin-ring complex from egg extract.
Sucrose
gradient sedimentation, immunoprecipitation and native gels demonstrated that the Xenopus 116 kDa protein and gamma-tubulin were found in the same complex. Altogether, these results suggest the existence of an yeast Spc110-related protein in vertebrate centrosomes which is involved in microtubule nucleation.
...
PMID:Identification of an Spc110p-related protein in vertebrates. 937 42
Sugar
transport through maltoporin of Escherichia coli was investigated. This protein facilitates maltooligosaccharide translocation via a binding site in the channel. Because incorporation of the protein into the bilayer results in randomly orientated channels, we re-examined the postulated symmetric translocation model by reconstitution of maltoporin under an externally applied field. Upon binding of bacteriophage lambda, which exploit surface-exposed loops of maltoporin as the receptor, sugar permeation, but not the ion current, was blocked. Thus using the phage-to-probe orientation we were able to show that the channels were approximately 80% directionally inserted into the bilayer. Moreover, asymmetry of the channel was revealed because sugar entrance through the 'open' periplasmic side of maltoporin was similarly reduced. Here a new
asymmetrical
two-barrier model is presented. Based on liposome-swelling assays and current-fluctuation analysis we conclude that the periplasmic side of the porin shows a two- to threefold higher energy barrier than the extracellular loop-side of the channels.
...
PMID:Oriented channels reveal asymmetric energy barriers for sugar translocation through maltoporin of Escherichia coli. 1060 53
Molecular dynamics simulations of an archaeal membrane made up of bipolar tetraether lipids and a dipalmitoylphosphatidylcholine (DPPC) lipid membrane were performed and compared for the first time. The simulated archaeal membrane consists of a pure monolayer of
asymmetrical
lipids, analogous to the main polar lipid [MPL; Swain, M., Brisson, J.-R., Sprott, G.D., Cooper, F.P., and Patel, G.B., (1997) Identification of beta-L-Gulose as the
Sugar
Moiety of the Main Polar Lipid of Thermoplasma acidophilum, Biochim. Biophys. Acta 1345, 56-64] found in T. acidophilum, an extremophile archaeal organism. This simulated membrane lipid contains two cyclopentane rings located on one of the two aliphatic chains of the lipid. The archaeal membrane is simulated at 62degreesC, slightly above the optimal growth temperature of T. acidophilum. We compared the organization of this tetraether lipid monolayer with a DPPC bilayer simulated at 50degreesC, both of them being modeled in a partially hydrated state. Our results assess the singularity of the tetraether lipid organization, in particular the influence of the spanning structure on the molecular ordering within the archaeal membrane.
...
PMID:A molecular dynamics study of an archaeal tetraether lipid membrane: comparison with a dipalmitoylphosphatidylcholine lipid bilayer. 1638 74
Galactoside/H
+
symport by the lactose permease of Escherichia coli (LacY) involves reciprocal opening and closing of periplasmic and cytoplasmic cavities so that sugar- and H
+
-binding sites become alternatively accessible to either side of the membrane. After reconstitution into proteoliposomes, LacY with the periplasmic cavity sealed by cross-linking paired-Cys residues does not bind sugar from the periplasmic side. However, reduction of the S-S bond restores opening of the periplasmic cavity and galactoside binding. Furthermore, nanobodies that stabilize the double-Cys mutant in a periplasmic-open conformation and allow free access of galactoside to the binding site do so only after reduction of the S-S bond. In contrast, when cross-linked LacY is solubilized in detergent, galactoside binding is observed, indicating that the cytoplasmic cavity is patent.
Sugar
binding from the cytoplasmic side exhibits nonlinear stopped-flow kinetics, and analysis reveals a two-step process in which a conformational change precedes binding. Because the cytoplasmic cavity is spontaneously closing and opening in the symporter with a sealed periplasmic cavity, it is apparent that an
asymmetrical
conformational transition controls access of sugar to the binding site.
...
PMID:An Asymmetric Conformational Change in LacY. 2830 Mar 94
