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: UNIPROT:P50583 (asymmetrical)
12,197 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The clotting activity of Staphylococcus aureus strain 104 was purified 46,000-fold, but absolute purity was not achieved. Carbohydrate content of the purified material was not more than 5%. Elution of clotting activity from denaturing and nondenaturing polyacrylamide gels revealed the presence of four distinct molecular forms. Molecular weights of the forms were approximately 31,500, 34,800, 44,800, and 56,800 as determined by gel filtration in 8 M urea, by sodium dodecyl sulfate-urea polyacrylamide gel electrophoresis, and by calculation with determined values for the Stokes radius and sedimentation coefficient. Molecular weights determined on sodium dodecyl sulfate-urea gels were found to decrease as the gel concentration increased, suggesting that the amount of sodium dodecyl sulfate bound was less than normal. Estimated frictional ratios for the forms showed that they differ in shape from one another and that they are all highly asymmetrical. Each of the forms had an isoelectric point between pH 5.44 and 5.47 when focused in 6% polyacrylamide gels for 9 h; however, prolonged focusing altered the isoelectric point of the forms to within the range of pH 4.35 to 4.65. The multiple clotting forms were not artifacts of the purification procedure and did not appear to be products of the proteolytic degradation of a larger protein.
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PMID:Partial purification and characterization of the multiple molecular forms of staphylococcal clotting activity (coagulase). 730 79

Nerve terminals as well as glial cells are thought to possess high-affinity Na(+)-dependent transport sites for excitatory amino acids. However, recent immunocytochemical results with antibodies against such a transporter isolated from rat brain showed a selective labelling of glial cells [Danbolt et al. (1992) Neuroscience 51, 295-310]. Critical evaluation of the literature indicates that previous evidence for nerve terminal uptake of acidic amino acids might possibly be attributed to glia. To find out whether there is indeed a glutamate transporter in nerve endings, we incubated hippocampal slices with D-aspartate (10 and 50 microM), a metabolically inert substrate for the high-affinity glutamate transport system. After fixation by glutaraldehyde/formaldehyde the slices were processed immunocytochemically with specific polyclonal antibodies raised against D-aspartate coupled to albumin by glutaraldehyde/formaldehyde. The electron-microscopic postembedding immunogold technique demonstrated a large accumulation of gold particles in nerve terminals making asymmetrical synapses, compared to their postsynaptic dendritic spines, as well as in glial cell processes. The labelled terminals include those of the glutamatergic Schaffer collaterals. Axosomatic boutons appeared unlabelled. Comparison with a test conjugate with known concentration of fixed D-aspartate (94 mM) suggests that the concentration attained in the terminals after incubation with 50 microM D-aspartate was in the lower millimolar range. The uptake was totally dependent on Na+, blocked by L-threo-3-hydroxyaspartate, and had a high affinity for D-aspartate (apparent Km about 20 microM). There was no labelling in slices incubated without D-aspartate. Compared to glia, the nerve terminals had a higher D-aspartate density and accounted for a much higher proportion of the total tissue uptake, but this relationship may be different in vivo. At the light-microscopic level the D-aspartate-like immunoreactivity showed a distinct laminar distribution, identical to that shown autoradiographically for D-[3H]aspartate and L-[3H]glutamate uptake sites [Taxt and Storm-Mathisen (1984) Neuroscience 11, 79-100], and corresponding to the terminal fields of the major excitatory fibre systems in the hippocampal formation. The novel approach described here establishes that glutamatergic nerve terminals as well as glia do sustain sodium-dependent high-affinity transport of excitatory amino acids, implying that more than one glutamate transporter must be present in the brain. Immunogold detection of D-aspartate gives a much higher anatomical resolution than electron microscopic autoradiography of D-[3H]aspartate or L-[3H]glutamate uptake, the only method that has been available previously for ultrastructural demonstration of uptake activity.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Demonstration of glutamate/aspartate uptake activity in nerve endings by use of antibodies recognizing exogenous D-aspartate. 790 57

The patch-clamp method was used to determine the properties and response to angiotensin II (ANG II) of K+ channels in subpassages of human mesangial cell cultures. In cell-attached patches, with 140 mM KCl in the bath and cell potential equal to 40 mV, the open probability (Po) of large K+ channels (MKCa) was 0.8 with 0.5 mM Ca2+ in the bath and < 0.05 if the bath Ca2+ concentration was reduced to 1.0 microM. Open and closed dwell-time histograms of MKCa displayed both fast and slow time constants. Addition of ANG II (100 nM) to the bath solution (Ca2+ = 1.0 microM) increased the Po of MKCa in cyclic bursts by decreasing the time constant of the slow closed state. In excised inside-out patches, the mean single-channel conductance of MKCa was 206 pS in symmetrical 140 mM KCl. The selectivity sequence, established in asymmetrical cationic solutions, was K+ (1.0) > Rb+ (0.54) > NH+4 (0.11) > > Cs+ = Na+ (< 0.05). The Po of MKCa was increased by depolarizing potentials and high bath Ca2+. The Boltzmann distribution was consistent with an effective valence of 1.0, and the Hill coefficient for Ca2+ activation was 0.52. We conclude that MKCa has properties similar to large Ca(2+)-activated K+ channels and may act to repolarize the membrane of mesangial cells in response to an agonist-induced mobilization of intracellular Ca2+.
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PMID:Large Ca(2+)-activated K+ channels responsive to angiotensin II in cultured human mesangial cells. 794 71

Nanhumycin, a new polyether antibiotic, has potent growth inhibitory effect on hay bacillus and antagonistic activity against chicken coccidiosis. Previous experiments on nerve-muscle preparations have shown that all the effects of nanhumycin on biological membrane could be correlated with its ability to act as a Na+ carrier. In this paper, the effects of nanhumycin on the permeability of the lipid bilayers were characterized and the main results were as follows: Nanhumycin caused a concentration-dependent increase in membrane conductance (Gm) of the lipid bilayers. By measuring the reversal potential in an asymmetrical solution system, it was demonstrated that the changes of Gm were attributed to an increase in permeability of the lipid bilayers to cations (PLi/PNa = 0.02), especially to Li+ and Na+. The PLi:PNa:PK = 4.55:1.00:0.03. These results suggests that nanhumycin is a cation carrier with high permeability for Li+ and Na+.
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PMID:[Selective transport of Li+ and Na+ through lipid bilayers by nanhumycin]. 797 9

The effects of magnesium supplement in a biological medium (milk) diluted in a survival medium (1/20 dilution in Hanks' solution) have been studied on the multiple ionic exchangers in a human membrane, the amniotic membrane, which is a leaky and asymmetrical membrane. In normal milk, the Ca/Mg molar ratio (MR) is equal to 6.0. In this study, this ratio has been modified to between 0.36 and 6.0, with particular attention to MR values of 0.36, 0.6, 1.0, and 2.0. The transamniotic conductance, Gt, is a function of the Ca/Mg MR: Gt decreases when the MR increases from 0.36 to 6.0, with an inflexion point to 0.7. In the human amnion, Gt is the sum of three paracellular components (Gp) and nine cellular components (Gc). The addition of normal milk (MR = 6) or magnesium-supplemented milk (MR = 0.36, 0.6, 1.0 or 2.0) induces variation in 2 Gp (GpNa and GpK) and three cellular conductances (Na+ and K+ channels and Na/Mg exchanger). Among the MR values studied, MR = 0.36 increased all five components. These data show the relationship between magnesium and milk components and the cellular targets of magnesium supplements and define the best Ca/Mg molar ratio in the biological medium.
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PMID:Effect of magnesium supplement in a biological medium (milk) on multiple ionic exchangers in a human membrane. 799 32

Insulin (Ins) decreases Na+ delivery in the final urine. To determine whether the loop of Henle participates in this reduction, the effects of Ins were tested on cortical (CTAL) and medullary thick ascending limbs (MTAL) of the mouse nephron, microperfused in vitro. In the MTAL, Ins increased the transepithelial potential difference (Vt) and the Na+ and Cl- net reabsorption fluxes (JNa and JCl, respectively) in a dose-dependent manner, the threshold being below 10(-9) M. At 10(-7) M, Ins reversibly increased JNa and JCl, leaving Mg2+ and Ca2+ fluxes (JMg and JCa, respectively) close to zero. In the CTAL, 10(-7) M Ins reversibly increased Vt, JNa, JCl, JMg, and JCa. In CTAL segments perfused under asymmetrical conditions, with a bath-to-lumen-directed NaCl gradient (lumen 50 mM NaCl, bath 150 mM NaCl), addition of 10(-7) M Ins to the bath resulted in a large increase in JMg and JCa. Thus the responses of CTAL and MTAL to Ins are in all ways similar to those already reported for the adenosine 3',5'-cyclic monophosphate (cAMP)-generating hormones acting on these nephron segments. When 10(-10) M arginine vasopressin (AVP) and 10(-7) M Ins were used in combination, previous addition of one hormone to the bath potentiated the response to the second hormone. In cAMP accumulation experiments, performed in the presence of a phosphodiesterase inhibitor, the amounts of cAMP formed with 10(-7) M Ins and 10(-10) M AVP (which elicit maximal physiological responses in these segments) were in the same range.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Insulin stimulates Na+, Cl-, Ca2+, and Mg2+ transports in TAL of mouse nephron: cross-potentiation with AVP. 821 94

The influenza B virus protein, NB, was expressed in Escherichia coli, either with a C-terminal polyhistidine tag or with NB fused to the C-terminus of glutathione S-transferase (GST), and purified by affinity chromatography. NB produced ion channel activity when added to artificial lipid bilayers separating NaCl solutions with unequal concentrations (150-500 mM cis, 50 mM trans). An antibody to a peptide mimicking the 25 residues at the C-terminal end of NB, and amantadine at high concentration (2-3 mM), both depressed ion channel activity. Ion channels had a variable conductance, the lowest conductance observed being approximately 10 picosiemens. At a pH of 5.5 to 6.5, currents reversed at positive potentials indicating that the channel was more permeable to sodium than to chloride ions (PNa/PCl approximately 9). In asymmetrical NaCl solutions at a pH of 2.5, currents reversed closer to the chloride than to the sodium equilibrium potential indicating that the channel had become more permeable to chloride than to sodium ions (PCl/PNa approximately 4). It was concluded that, at normal pHs, NB forms cation-selective channels.
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PMID:Ion channels formed by NB, an influenza B virus protein. 866 76

A hypothesis that, in the rat, fluid circulates across the placenta, with circulation being maintained by active transport of Na+ from mother to fetus, has been tested. Transfer of 51Cr-EDTA from mother to fetus and from fetus to mother has been measured and the respective unidirectional transfer constants, Kmf and Kfm, have been calculated. Immediately before the transfer measurement, the fetuses were injected intravenously with 10 microliters of isotonic glucose (controls); with 30 or 300 microliters of isotonic saline; or with 10, 30, or 60 microliters of 9% NaCl. In controls, Kmf of 51Cr-EDTA was 2.0 +/- 0.6 microliters/min, and Kfm was 4.3 +/- 1.0 microliters/min. Injecting the fetus with NaCl had no effect on Kmf, whereas the Kfm was increased significantly in a dose-dependent way. In other experiments, 51Cr-EDTA was injected into nephrectomized maternal animals, and the radioactivity of maternal and fetal plasma was followed for 30 h. The time course of fetal plasma radioactivity supported the thesis that the transfer of 51Cr-EDTA across the rat placenta is highly asymmetrical.
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PMID:Effect of NaCl load administered to the fetus on the bidirectional movement of 51Cr-EDTA across rat placenta. 903 41

The physicochemical properties of water enable it to act as a solvent for electrolytes, and to influence the molecular configuration and hence the function--enzymatic in particular--of polypeptide chains in biological systems. The association of water with electrolytes determines the osmotic regulation of cell volume and allows the establishment of the transmembrane ion concentration gradients that underlie nerve excitation and impulse conduction. Fluid in the central nervous system is distributed in the intracellular and extracellular spaces (ICS, ECS) of the brain parenchyma, the cerebrospinal fluid, and the vascular compartment--the brain capillaries and small arteries and veins. Regulated exchange of fluid between these various compartments occurs at the blood-brain barrier (BBB), and at the ventricular ependyma and choroid plexus, and, on the brain surface, at the pia mater. The normal BBB is relatively permeable to water, but considerably less so to ions, including the principal electrolytes Brain fluid regulation takes place within the context of systemic fluid volume control, which depends on the mutual interaction of osmo-, volume-, and pressure-receptors in the hypothalamus, heart and kidney, hormones such as vasopressin, renin-angiotensin, aldosterone, atriopeptins, and digitalis-like immunoreactive substance, and their respective sites of action. Evidence for specific transport capabilities of the cerebral capillary endothelium, for example high Na+K(+)-ATPase activity and the presence at the abluminal surface of a Na(+)--H+ antiporter, suggests that cerebral microvessels play a more active part in brain volume regulation and ion homoeostasis than do capillaries in other vascular beds. The normal brain ECS amounts to 12-19% of brain volume, and is markedly reduced in anoxia, ischaemia, metabolic poisoning, spreading depression, and conventional procedures for histological fixation. The asymmetrical distributions of Na+ K+ and Ca2+ between ICS and ECS underlie the roles of these cations in nerve excitation and conduction, and in signal transduction. The relatively large volume of the CSF, and extensive diffusional exchange of many substances between brain ECS and CSF, augment the ion-homeostasing capacity of the ECS. The choroid plexus, in addition to secreting CSF principally by biochemical mechanisms (there is an additional small component from the extracellular fluid), actively transports some substances from the blood (e.g. nucleotides and ascorbic acid), and actively removes others from the CSF. In contrast with CSF secretion, CSF reabsorption is principally a biomechanical process, passively dependent on the CSF-dural sinus pressure gradient. Pathological increases in intracranial water content imply development of an intracranial mass lesion. The additional water may be distributed diffusely within the brain parenchyma as brain oedema, as a cyst, or as increase in ventricular volume due to hydrocephalus. Brain oedema is classified on the basis of pathophysiology into four categories, vasogenic, cytotoxic, osmotic and hydrostatic. The clinical conditions in which brain oedema presents the greatest problems are tumour, ischaemia, and head injury. Peritumoural oedema is predominantly vasogenic and related to BBB dysfunction. Ischaemic oedema is initially cytotoxic, with a shift of Na+ and CI- ions from ECS to ICS, followed by osmotically obliged water, this shift can be detected by diffusion-weighted MRI. Later in the evolution of an ischaemic lesion the oedema becomes vasogenic, with disruption of the BBB. Recent imaging studies in patients with head injury suggest that the development of traumatic brain oedema may follow a biphasic time course similar to that of ischaemic oedema. Hydrocephalus is associated in the great majority of cases with an obstruction to the circulation or drainage of CSF, or, occasionally, with overproduction of CSF by a choroid plexus papilloma. In either case, the consequence is a ris
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PMID:The normal and pathological physiology of brain water. 907 71

1. The delayed rectifier (DR) K+ channel pore was probed using different permeant and blocking ions applied intra- and extracellularly. Currents were recorded from bullfrog sympathetic neurons using whole-cell patch-clamp techniques. 2. With intra- and extracellular Cs+ (0 K+), there were large, tetraethylammonium (TEA)-sensitive currents. Adding K+ back to the extracellular solution revealed that the current with Cs+i was K+ selective (permeability ratio PCs/PK = 0.17 +/- 0.02, n = 4) and showed a strong anomalous mole fraction effect. 3. There were also large non-inactivating currents with Na+i and Na+o (0 K+). The current with Na+i was K+ selective (Na+o vs. K+o: PNa/PK = 0.022 +/- 0.005, n = 5), and was TEA sensitive with K+o but not with Na+o. 4. Permeant ions affected gating kinetics. DR currents activated faster in K+ than in Cs+, and activated faster with increasing concentrations of either K+ or Cs+. Deactivation was slowed by increased K+ or Cs+ concentration, with no difference between K+ and Cs+. 5. The pore was also characterized using intracellular blocking ions. A wide variety of monovalent cations (TEA, N-methyl-D-glucamine, arginine, choline, CH3NH3+, Li+, Cs+ and Na+) blocked DR channels from the inside in a voltage-dependent manner: KD at 0 mV was 2.9 mM for TEA and 134-487 mM for the others, at apparent electrical distances (delta) of 0.33-0.79. There was no detectable block by 10 mM Mgi2+. Apart from TEA, the organic cations did not block from the outside. 6. The permeability to Na+ in the absence of K+, and the strong anomalous mole fraction effects observed for Cs+o + K+o mixtures, suggest that DR channels select for K+ using ion-ion competition. The block by large intracellular cations shows that the pore is asymmetrical. The loss of high affinity TEAo block with Na+i and Na+o, and the effects of permeant ions on gating, suggest that channel conformation may be affected by ions in the pore.
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PMID:Delayed rectifier current of bullfrog sympathetic neurons: ion-ion competition, asymmetrical block and effects of ions on gating. 908 Mar 70


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