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)

Binding of heptameric GroES to the tetradecameric chaperonin GroEL in the absence or presence of nucleotides was investigated by analytical ultracentrifugation. In the absence of nucleotides, the association constant for the binding of GroES to GroEL, K1, was found to be approximately equal to 3 x 10(5) M(-1). The binding of a second GroES heptamer with only one-fourth the affinity of the first one can be neglected at subequimolecular concentrations relative to GroEL. Under these conditions, mainly an asymmetric "bullet"-shaped complex is formed [see also Schmidt et al. (1994) Science 265, 656-659]. In the presence of ADP or ATP analogues such as ATP-gamma-S or AMP-PNP, the affinity to bind GroES increases by at least 2 orders of magnitude depending on the nucleotide concentration. With increasing GroES:GroEL ratios in the presence of 1 mM ATP analogue, up to two GroES oligomers were bound to one GroEL oligomer, forming the symmetrical "American football"-shaped complex with apparently high affinity for the first GroES ring and considerably lower for the second one. These are the first results that provide an accurate and quantitative description of the equilibrium between asymmetrical and symmetrical complexes at relatively high concentrations of GroEL and GroES that are proposed to exist in vivo. We suggest that the increased affinity of GroEL for GroES plays a role in releasing substrate proteins from the central cavity of GroEL after folding under "non-permissive" conditions.
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PMID:Nucleotide-dependent complex formation between the Escherichia coli chaperonins GroEL and GroES studied under equilibrium conditions. 913 76

Diadenosine 5',5"'-P1,P4-tetraphosphate (Ap4A) pyrophosphohydrolase is the enzyme responsible for reducing intracellular levels of the stress-responsive nucleotide diadenosine 5',5"'-P1,P4-tetraphosphate. In order to gain more information on the relationships between the enzymes hydrolysing diadenosine polyphosphates in different eukaryotes, the Ap4A hydrolase and a corresponding cDNA have been isolated from pig small intestinal mucosa by standard procedures. The enzyme is a typical mammalian Ap4A hydrolase (Km = 0.8 microM) being sensitive to inhibition by fluoride (Ki = 24 microM) and adenosine 5'-tetraphosphate (Ki = 10 nM) and yielding ATP and AMP as products. A low Km Ap4A hydrolase (Km = 0.3 microM) was also isolated from rabbit small intestinal mucosa. These enzymes differ from the rat intestinal mucosal hydrolase, which has much higher values of Km for Ap4A and Ki for adenosine 5'-tetraphosphate. A cDNA encoding the pig enzyme was isolated from a pig ileum cDNA library. The derived amino acid sequence of the 16.8 kDa gene product shows 88% identity and 96% similarity to that of the human enzyme. The sequence has the same modification of the MutT motif found in the human enzyme in which a threonine residue replaces a hydrophobic amino acid. Sequences comparisons among eukaryotic diadenosine polyphosphate hydrolases and phosphorylases reveal two blocks of amino acid similarity, including a motif, Z[AD]Gx[ED]AGQ, which may be involved in polyphosphate binding by the hydrolases, and an invariant histidine residue that may be involved in catalysis. These sequence similarities may have arisen by convergent evolution.
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PMID:Molecular cloning of diadenosine tetraphosphatase from pig small intestinal mucosa and identification of sequence blocks common to diadenosine polyphosphate hydrolases and phosphorylases. 914 33

In the cortical collecting duct of the rat two Ca(2+)-dependent K+ channels have been described so far. In the luminal membrane a maxi K+ channel with a single channel conductance of 139 +/- 3 pS in excised membrane patches (n = 91) at 0 mV clamp voltage and asymmetrical KCl-concentrations in pipette and bath was found, while in the basolateral membrane an intermediate conductance K+ channel (85 +/- 1 pS, n = 53) and a small K+ channel (28 +/- 2 pS, n = 15) was described. All these K+ channels had similar pharmacological properties since all could be blocked by the K+ channel inhibitors Ba2+, TEA+, and charybdotoxin. Verapamil, known as a L-type Ca2+ channel blocker, was also capable of inhibiting these K+ channels. While the maxi K+ channel from the luminal membrane was upregulated by intracellular Ca2+ (EC50: 5 microM), the small and the intermediate K+ channel from the basolateral membrane were downregulated (IC50: 10 microM). When the cytosolic Ca(2+)-activity was in the physiological range below 1 microM the activity of the maxi K+ channel was low and regulated via intracellular pH and ATP. Furthermore, when CCD cells were strongly depolarized and under hypoosmotic stress, Ca2+ rose and activated this K+ channel, indicating that this channel is involved in volume regulation. Like the maxi K+ channel the intermediate conductance K+ channel from the basolateral membrane was also sensitive to intracellular changes of pH where acidic pH inhibited while alkaline pH activated this channel. But unlike the K+ channels from the luminal membrane the K+ channel from the basolateral membrane is not regulated by ATP up to 5 mM. The activity of the K+ channels from the basolateral membrane decreased steadily after excision of the membrane. This decrease could be prevented by applying cGMP and MgATP to the bath and thus, activating a membrane-bound cGMP-dependent protein kinase (PKG). The activation of the PKG could be reversed by its specific inhibitor KT5823 (1 microM). Due to the opposite regulation via intracellular Ca2+ and the involvement of different protein kinases a specific and independent regulation of K+ secretion and Na+ reabsorption is possible in the CCD of the rat.
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PMID:Ca(2+)-dependent K+ channels in the cortical collecting duct of rat. 926 90

1. Whole-cell and single-channel K+ currents were recorded at room temperature (22-24 degrees C), from smooth muscle cells enzymatically dispersed from the mouse ileum, using variations of the patch-clamp technique. 2. Net outward K+ currents recorded through amphotericin-B-perforated patches in response to step depolarizations positive to -50 mV from a holding potential of -80 mV were decreased by up to 70% by external apamin (0.5 microM). Apamin-sensitive whole-cell currents were also recorded from cells perfused internally with 150 nM Ca2+ but not from cells perfused internally with 85 nM Ca2+. 3. Three types of non-inactivating Ca(2+)-sensitive K+ channels were identified in cell-attached and excised patches under an asymmetrical K+ gradient: (i) large conductance (BKCa; approximately 200 pS) channels blocked by 2 mM external TEA; (ii) intermediate conductance (IKCa; approximately 39 pS) channels blocked by 2 mM external TEA and inhibited by external apamin (0.5 microM); and (iii) small conductance (SKCa; approximately 10 pS) channels that were not blocked by 5 mM external TEA but were sensitive to extracellular apamin (0.5 microM). 4. The TEA-resistant SKCa channels were activated by an increase in [Ca2+]i with an EC50 of 1.5 microM and a Hill coefficient of 1.3. 5. P2 purinoceptor agonists 2-methylthioATP (2-MeSATP), 2-chloroATP and ATP (10-50 microM) increased an apamin-sensitive whole-cell outward K+ current. Extrapatch application of 2-MeSATP (20-100 microM) stimulated the apamin-sensitive IKCa and SKCa channels and activated an apamin-sensitive steady outward current at 0 mV. 6. Smooth muscle cells from the mouse ileum possess two apamin-sensitive K+ channels (IKCa and SKCa); of these, the IKCa channels are TEA sensitive while the SKCa channels are TEA resistant. These channels, along with an apamin-sensitive but TEA-resistant steady outward current, may mediate membrane hyperpolarization elicited by purinergic agonists.
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PMID:Activation of small conductance Ca(2+)-dependent K+ channels by purinergic agonists in smooth muscle cells of the mouse ileum. 927 3

Chlamydomonas flagella undergo a striking waveform conversion from an asymmetrical ciliary type to a symmetrical flagellar type when the cell is stimulated by intense light and the Ca2+ concentration within the flagellum is increased above approximately 10(-6) M. To see whether the central-pair/radial spoke system is needed for this conversion as suggested by previous studies, we examined the effect of Ca2+ on the reactivated axonemes of the mutants lacking the central pair (pf18) or the radial spokes (pf14). Although the flagella of these mutants are paralyzed in vivo, demembranated axonemes can be reactivated to beat under certain nucleotide conditions such as in the presence of low concentrations (< 100 microM) of ATP. We examined the waveform of the axonemes reactivated at 20 microM ATP in the presence of 10(-8)-10(-4) M Ca2+ and found that these axonemes, as well as the wild-type axonemes, undergo a waveform conversion over a Ca2+ concentration range of 10(-7)-10(-5) M: a highly asymmetrical waveform at <10(-6) M Ca2+ and a symmetrical waveform at >=10(-5) M Ca2+. Although the waveform is different between the mutants and the wild type, the Ca2+ concentration at which the waveform conversion occurred was similar. These results indicate that the central pair/radial spoke system is not essential for the waveform conversion.
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PMID:Ca2+-dependent waveform conversion in the flagellar axoneme of Chlamydomonas mutants lacking the central-pair/radial spoke system. 929 38

In conditions in which ciliated cortical sheets prepared from detergent-extracted Paramecium multimicronucleatum cells adhered to glass coverslips on a microscope stage, perfusion of a reactivation medium containing ATP plus cyclic AMP or cyclic GMP generated metachronal waves. An analysis of the ciliary movements that generate these metachronal waves yielded the following results. During the generation of metachronal waves, there were phase differences in the ciliary orientation of adjacent cilia in the direction of wave propagation. Addition of cyclic AMP or cyclic GMP increased the rotational angular velocities during the effective stroke of ciliary beating, but did not increase the rotational angular velocity of the recovery stroke. When the ATP concentration in the cyclic GMP reactivation medium was increased, the rotational angular velocity during the effective stroke rose steeply and saturated at 0.8 mmol l-1 ATP, whereas that during the recovery stroke rose gradually. Addition of cyclic nucleotides caused a single cilium isolated from neighbouring cilia on the cortical sheet to incline almost parallel to the cortical surface during the recovery stroke. Addition of cyclic GMP increased the amplitude of bending of cilia detached from the cortical sheet. From these results, it was concluded that increases in the asymmetrical movement of individual cilia, caused by the addition of cyclic nucleotides, create the ciliary interaction that generates the metachronal waves.
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PMID:RECONSTITUTION OF METACHRONAL WAVES IN CILIATED CORTICAL SHEETS OF PARAMECIUM - ASYMMETRY OF THE CILIARY MOVEMENTS 931 63

The first isolation, cloning and expression of cDNA encoding an asymmetric diadenosine 5',5'''P1,P4-tetraphosphate pyrophosphohydrolase (Ap4A hydrolase) from a higher plant is described. Ap4A hydrolase protein was purified from seeds of both Lupinus luteus and Lupinus angustifolius and partially sequenced. The Ap4A hydrolase cDNA was cloned from L. angustifolius cotyledonary polyadenylated RNA using reverse transcription and PCR with primers based on the amino acid sequence. The cDNA encoded a protein of 199 amino acids, molecular mass 22982Da. When expressed in Escherichia coli fused to a maltose-binding protein, the enzyme catalysed asymmetric cleavage of Ap4A to AMP and ATP which was inhibited at concentrations of F- as low as 3 microM. These are properties characteristic of Ap4A hydrolase (asymmetrical) (EC 3.6.1. 17). Comparison of the Ap4A hydrolase sequences derived from the four known cDNAs from pig, human, lupin and fission yeast showed that, like the mammalian hydrolase, the lupin enzyme possesses a Mut T motif but no other significant similarities. No sequence similarity to the human fragile histidine triad protein, as found in the Ap4A hydrolase from Schizosaccharomyces pombe, was detected in the Ap4A hydrolase from lupin.
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PMID:Cloning and expression of diadenosine 5',5'''-P1,P4-tetraphosphate hydrolase from Lupinus angustifolius L. 942 14

The cystic fibrosis transmembrane conductance regulator (CFTR) forms a tightly regulated channel that mediates the passive diffusion of Cl- ions. Here we show, using macroscopic current recording from excised membrane patches, that CFTR also shows significant, but highly asymmetrical, permeability to a broad range of large organic anions. Thus, all large organic anions tested were permeant when present in the intracellular solution under biionic conditions (PX/PCl = 0.048-0.25), whereas most were not measurably permeant when present in the extracellular solution. This asymmetry was not observed for smaller anions. ATPase inhibitors that "lock" CFTR channels in the open state (pyrophosphate, 5'-adenylylimidodiphosphate) disrupted the asymmetry of large anion permeation by allowing their influx from the extracellular solution, which suggests that ATP hydrolysis is required to maintain asymmetric permeability. The ability of CFTR to allow efflux of large organic anions represents a novel function of CFTR. Loss of this function may contribute to the pleiotropic symptoms seen in cystic fibrosis.
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PMID:Adenosine triphosphate-dependent asymmetry of anion permeation in the cystic fibrosis transmembrane conductance regulator chloride channel. 952 41

Human monocyte-derived macrophages possess a NADPH oxidase that catalyzes superoxide formation upon phagocytosis. Extracellular ATP per se does not activate NADPH oxidase but potentiates superoxide generation triggered by opsonized zymosan. UTP can substitute for ATP with the same efficiency, suggesting that ATP mediates its effects specifically through P2U receptors. Extracellular UTP stimulates a rapid increase in cytoplasmic Ca2+ concentration in monocytic cells, which results from a release of intracellular Ca2+ stores. Moreover, UTP-induced calcium increase is sufficient to activate a charybdotoxin-sensitive Ca2+-dependent outward K+ channel (K(Ca)). The activity of this channel develops between 0.1 and 1.0 microM free cytoplasmic Ca2+ concentration; it is half-blocked by 10 nM charybdotoxin but insensitive to iberiotoxin. Under asymmetrical K+ conditions, this K(Ca) channel does not depend on membrane potential and is characterized by a linear single-current voltage relationship in the voltage range of -100 to +50 mV, giving a unitary conductance of 10 pico-Siemens. Interestingly, ATP/UTP-induced oxygen radicals release was inhibited by charybdotoxin in the same range of concentration as the UTP-induced K(Ca) channel. Furthermore, we show that ATP or UTP fail to enhance oxygen radicals production before K(Ca) channel is expressed (3 days). The electrogenic nature of the NADPH oxidase, i.e., its level of activation, being dependent on the plasmic membrane potential, might provide the causal link between the reactive oxygen intermediates generation and the opening of the K(Ca) channel.
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PMID:Extracellular ATP and UTP control the generation of reactive oxygen intermediates in human macrophages through the opening of a charybdotoxin-sensitive Ca2+-dependent K+ channel. 955 Apr 24

1. The electrophysiological actions of several agonists which may differentiate between P2X1- and P2X3-receptors were studied under concentration and voltage-clamp conditions in dissociated neurones of 1-4 day old rat dorsal root ganglia. 2. Beta,gamma-Methylene-D-ATP (beta,gamma-me-D-ATP) (1-300 microM), diadenosine 5',5'''-P1,P5-pentaphosphate (AP5A) (100 nM - 300 microM), diadenosine 5',5'''-P1,P4-tetraphosphate (AP4A) (300 nM - 300 microM) and uridine 5'-triphosphate (UTP) (1 microM - 1 mM) all activated concentration-dependent inward currents with a latency to onset of a few ms. 3. The concentration-response curves for beta,gamma-me-D-ATP and AP5A and ATP had similar maximum values, while that for AP4A had a lower maximum. The concentration-response curve to UTP was shallow and did not reach a maximum. Beta,gamma-Methylene-L-ATP was virtually inactive. The rank order of agonist potency was ATP > AP5A approximately AP4A > beta,gamma-me-D-ATP > UTP > > beta,gamma-methylene-L-ATP. 4. The inward currents were inhibited by the P2-receptor antagonists suramin (100 microM) and pyridoxalphosphate-6-azophenyl-2',4'-disulphonic acid (PPADS) (10 microM). PPADS also inhibited responses to ATP (800 nM) and alpha,beta-methylene ATP (2 microM) in a concentration-dependent manner. 5. This study shows that beta,gamma-me-D-ATP, AP5A, AP4A and UTP all act via a suramin- and PPADS-sensitive P2X-receptor to evoke rapid, transient inward currents in dissociated neurones of rat dorsal root ganglia. The very low activity of beta,gamma-methylene-L-ATP suggests that the agonists were acting at the P2X3-subtype to produce these effects.
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PMID:Pharmacological properties of P2X3-receptors present in neurones of the rat dorsal root ganglia. 963 Mar 57

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