UNIPROT:P50583 - FACTA Search

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

Recognition of metal cations by biological systems can be compared with the geochemical criteria for isomorphous replacement. Biological systems are more highly selective and much more rapid. Methods of maintaining an optimum concentration, including storage and transfer for the essential trace elements, copper and iron, used in some organisms are in part reproducible by coordination chemists while other features have not been reporduced in models. Poisoning can result from a foreign metal taking part in a reaction irreversibly so that the recognition site or molecule is not released. For major nutrients, sodium, potassium, magnesium and calcium, there are similarities to the trace metals in selective uptake but differences qualitatively and quantitatively in biological activity. Compounds selective for potassium replace all the solvation sphere with a symmetrical arrangement of oxygen atoms; those selective for sodium give an asymmetrical environment with retention of a solvent molecule. Experiments with naturally occurring antibiotics and synthetic model compounds have shown that flexibility is an important feature of selectivity and that for transfer or carrier properties there is an optimum (as opposed to a maximum) metal-ligand stability constant. Thallium is taken up instead of potassium and will activate some enzymes; it is suggested that the poisonous characteristics arise because the thallium ion may bind more strongly than potassium to part of a site and then fail to bind additional atoms as required for the biological activity. Criteria for the design of selective complexing agents are given with indications of those which might transfer more than one metal at once.
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PMID:Recognition of metal cations by biological systems. 0 15

Calcium ions can trigger an emission of light from Veretillum cynomorium lumisomes (bioluminescent vesicles) under conditions where they are not lysed. This process does not require a metabolically-linked source of energy, but is dependent upon the nature of the ions present inside and outside the vesicles. The Ca2+-triggered bioluminescence is stimulated by an asymmetrical distribution of cations or anions. Either high internal sodium or high external chloride is required for the maximal effect. When sodium is present outside the structure and potassium inside, the slow inward diffusion of calcium is decreased. Unbalanced diffusion of internal cations also stimulates the bioluminescence, suggesting control of the calcium influx by an electrochemical gradient. It is assumed that rapid outward diffusion of sodium or inward diffusion of chloride generates an electrical potential difference (inside negative) which drives the Ca2+-influx. With purified lumisomes it has been shown that Ca2+-triggered bioluminescence and calcium uptake (presumably net uptake) were correlated. In two instances uptake of the lipophilic cation dibenzyldimethylammonium has given direct evidence for the existence of a potential difference. With NaCl-loaded vesicles, it has not been possible to demonstrate an uptake of lipophilic cations but experiments with 22Na and 42D indicated a higher rate of sodium efflux, in accord with the proposed hypothesis.
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PMID:Control of the Ca2+-triggered bioluminescence of Veretillum cynomorium lumisomes. 3 Apr 80

Erythroycte ghosts fixed in glutaraldehyde were dehydrated in (a) alcohol or acetone, (b) propylene glycol followed by Epon and embedded in an epoxy resin. A water-soluble urea/glutaraldehyde mixture was also used. The aim was to study the structure of the peripheral protein layer, which contains spectrin and actin, in the absence of OsO4 induced denaturation changes. Ghost membranes prepared in this way had an asymmetrical quadrilaminar structure. A layer of amorphous peripheral protein +/- 18 nm in width covered the entire inner face of the membrane in the form of a coarse meshwork in both Wash I (haemoglobin-containing) and haemoglobin-free ghosts. Cations (Mg2+ or Ca2+, or Mg2+ plus ATP) had no apparent effect on its fine structure. In contrast, the corresponding layer in OsO4-fixed membranes was represented by scanty, fuzzy material attached to the unit membrane only at irregular intervals. The results demonstrate the superior ability of glutaraldehyde to preserve the peripheral protein layer in thin sections, and afford further support for the view that much of this protein normally exists in an unpolymerized state.
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PMID:The ultrastructural organization of the contractile peripheral protein layer of the human erythroycte membrane. 10 28

Isolated sarcoplasmic reticulum vesicles from rabbit white muscle were separated into a light (15--20% of total microsomes) and a heavy (80--85%) fraction by density gradient centifugation. The ultrastructure, chemical composition, enzymic activities and localization of membrane components in the vesicles of both fractions were investigated. From the following results it was concluded that both fractions are derived from the membranes of the sarcoplasmic reticulum system of the muscle: (i) The protein pattern of both fractions is essentially the same, except for different ratios of acidic, Ca2+-binding proteins. (ii) The 105000 dalton protein of the light fraction cross-reacts immunologically with the Ca2+-dependent ATPase of the heavy fraction. (iii) Ca2+-dependent ATPase, although of different specific activity, is found in both fractions. After rendering the vesicles leaky, specific activities in both fractions reach the same value. The light fraction was found to consist of "inside-out" vesicles by the following criteria: (i) No Ca2+ accumulation can be measured and the Ca2+-dependent ATPase activity is low and variable. (ii) The rate of trypsin digestion is lower and, compared to the heavy microsomes, a different ratio of degradation products is obtained. (iii) The sarcoplasmic reticulum membrane has a highly asymmetrical lipid distribution. This distribution of aminophospholipids is opposite to that in vesicles of heavy fraction. The light sarcoplasmic reticulum fraction has a higher phospholipid to protein ratio than the heavy one. This is consistent with the possibility that the two fractions derive from different parts of the sarcoplasmic reticulum system.
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PMID:Studies on the heterogeneity of sarcoplasmic reticulum vesicles. 15 48

This study demonstrates the postsynaptic localization of one of the isozymes of cyclic nucleotide phosphodiesterase (PDE) activity at asymmetrical, axospinous terminals in the rat corpus striatum and neocortex. Characterization of this enzymatic activity demonstrates that the PDE form surviving aldehyde fixation for electron cytochemistry can be considered to preferentially hydrolyze cyclic 3'5'-guanosine monophosphate, and it requires calcium and a heat-stable calcium-dependent regulator protein (CDR) for full hydrolytic activity. Ion exchange chromatographic analysis of extracts of corresponding unfixed brain regions demonstrates that only one enzyme activity peak exhibits similar aldehyde resistance and calcium and regulator protein activatibility.
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PMID:Biochemical characterization of postsynaptically localized cyclic nucleotide phosphodiesterase. 22 34

Asymmetrical bending waves can be obtained by reactivating demembranated sea urchin spermatozoa at high Ca2+ concentrations. Moving-film flash photography shows that asymmetrical flagellar bending waves are associated with premature termination of the growth of the bends in one direction (the reverse bends) while the bends in the opposite direction (the principal bends) grow for one full beat cycle, and with unequal rates of growth of principal and reverse bends. The relative proportions of these two components of asymmetry are highly variable. The increased angle in the principal bend is compensated by a decreased angle in the reverse bend, so that there is no change in mean bend angle; the wavelength and beat frequency are also independent of the degree of asymmetry. This new information is still insufficient to identify a particular mechanism for Ca2+-induced asymmetry. When a developing bend stops growing before initiation of growth of a new bend in the same direction, a modification of the sliding between tubules in the distal portion of the flagellum is required. This modification can be described as a superposition of synchronous sliding on the metachronous sliding associated with propagating bending waves. Synchronous sliding is particularly evident in highly asymmetrical flagella, but is probably not the cause of asymmetry. The control of metachronous sliding appears to be unaffected by the superposition of synchronous sliding.
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PMID:Calcium-induced asymmetrical beating of triton-demembranated sea urchin sperm flagella. 47 7

A high affinity calcium-binding protein has recently been purified from the adrenal medulla (Kuo, I.C.Y., and Coffee, C.J. (1976) J. Biol. Chem. 251, 1603-1609). This protein is closely related in its chemical and physical properties to troponin-C (TN-C) of muscle tissue. Further examination of the adrenal medulla protein indicates that the removal of calcium is accompanied by a marked change in the conformation. This change in structure is similar, if not identical, to the calcium-dependent conformational change which has been described for skeletal muscle TN-C (Murray, A.C., and Kay, C.M. (1972) Biochemistry 11, 2622). The far ultraviolet circular dichroism spectrum of native adrenal medulla calcium-binding protein (AM-CBP) shows characteristic helical ellipticity bands at 222 and 207 nm. The helical content, as estimated from these data, is between 40 and 45%. Removal of calcium is accompanied by a change in ellipticity which corresponds to a decrease from 40 to 20% in the helical content. The near-ultraviolet circular dichroism spectrum shows negative dichroic bands at 262 and 268 nm which are characteristic of phenylalanine. These bands are relatively insensitive to changes in the calcium ion concentration. Sedimentation velocity studies likewise are indicative of a calcium-dependent structural alteration. The sedimentation coefficient of the native protein was observed to be 1.89 S. Similar measurements performed in the presence of 3 mM ethylene glycol bis(beta-aminoethyl ether) N,N, N', N'-tetraacetic acid (EGTA) gave a sedimentation coefficient of 1.50 S. The molecular weight, as determined by sedimentation equilibrium studies, was 16,000 regardless of whether the measurements were made in the presence of CaCl2 or EGTA. From the elution properties of AM-CBP on Sephadex G-100, the Stokes radius was observed to be 19.8 A in the presence of calcium and 21.9 A in the presence of EGTA. All of these changes which were induced by the addition of EGTA were completely reversible by the readdition of excess CaCl2. These data suggest that the removal of calcium from AM-CBP is accompanied by a pronounced conformational change which occurs without a molecular weight change. The decreased sedimentation coefficient, the increased Stokes radius, and the reduced helical content, which are observed for the apoprotein, indicate that removal of calcium results in a transformation from a compact symmetrical structure to one that is less ordered and more asymmetrical.
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PMID:Bovine adrenal medulla troponin-C. Demonstration of a calcium-dependent conformational change. 97 71

A small conductance K+ channel was identified in smooth muscle cells of the rat aortic cell line A7r5 and also in rat aortic smooth muscle cells in primary culture, using conventional single-channel recording techniques. The single-channel conductance shows no rectification, either in the range -70 to +40 mV under asymmetrical conditions (9.1 pS), or in the range -100 to +50 mV in symmetrical 150 mM K+ (37 pS). Channel activity is reversibly inhibited by extracellular application of charybdotoxin, with a concentration of 8 nM producing half-maximal inhibition. It is unaffected by apamin or scyllatoxin. Channel activity depends on the presence of free Ca2+ on the cytosolic face of the membrane, with an activation zone between 0.1 and 1 microM. This small-conductance, charybdotoxin-sensitive, Ca(2+)-regulated K+ channel is activated by vasoconstrictors such as vasopressin and endothelin.
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PMID:A small-conductance charybdotoxin-sensitive, apamin-resistant Ca(2+)-activated K+ channel in aortic smooth muscle cells (A7r5 line and primary culture). 137 76

Recordings were made on excised apical membrane patches from vestibular dark cells from the semicircular canal of gerbils to determine if ion channels could be involved in the process of K+ secretion. Both nonselective cation channels [Am. J. Physiol. 262 (Cell Physiol. 31): C1430-C1436, 1992] and K(+)-selective channels were found. The K+ channels occurred in only 0.7% of the patches. In symmetrical 145 mM KCl solutions, the current-voltage (I-V) relation of the K(+)-selective channel was linear, indicating the absence of rectification, and the conductance was 240 +/- 8 pS (n = 8). The Goldman-Hodgkin-Katz equation for current carried solely by K+ could be fitted to the I-V relation in asymmetrical K+ and Na+ solutions and yielded a K+ permeability of 5.78 x 10(-13) cm3/s (n = 12). The channel was shown to be impermeable to Li+, NH4+, N-methyl-D-glucamine, and Cl-. Channel activity increased with depolarization and with increasing free [Ca2+]; for voltages between +40 and -60 mV, the strongest regulation occurred in the range 10(-6) to 10(-5) M Ca2+. Tetraethylammonium (2 x 10(-2) M) had from the cytosolic side no effect on the open probability (Po) but completely inhibited activity from the extracellular side. Po was reduced by Ba2+ (5 x 10(-3) M), verapamil (10(-4) M), quinine (10(-4) M), and quinidine (10(-4) and 10(-3) M), while lidocaine (5 x 10(-3) M) had no measurable effect on Po but decreased the amplitude. Rb+ and Cs+ were either poorly permeable or partially blocked the channel in a voltage-dependent manner.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Maxi K+ channel in apical membrane of vestibular dark cells. 161 10

1. Two mutants of the sodium channel II have been expressed in Xenopus oocytes and have been investigated using the patch-clamp technique. In mutant E387Q the glutamic acid at position 387 has been replaced by glutamine, and in mutant D384N the aspartic acid at position 384 has been replaced by asparagine. 2. Mutant E387Q, previously shown to be resistant to block by tetrodotoxin (Noda et al. 1989), has a single-channel conductance of 4 pS, that can be easily measured only using noise analysis. At variance with the wild-type, the open-channel current-voltage relationship of mutant E387Q is linear over a wide voltage range even under asymmetrical ionic conditions. 3. Mutant D384N has a very low permeability for any of the following ions: Cl-, Na+, K+, Li+, Rb+, Ca2+, Mg2+, NH+4, TMA+, TEA+. However, asymmetric charge movements similar to the gating currents of the Na(+)-selective wild-type are still observed. 4. These results suggest that residues E387 and D384 interact directly with the pathway of the ions permeating the open channel.
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PMID:Single point mutations of the sodium channel drastically reduce the pore permeability without preventing its gating. 166 Mar 94

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