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1.
Activated folate formed by reaction of folic acid and 1-ethyl-3-(3-dimethylaminopropyl) carbodiimide irreversibly inhibits the folate transport system of Lactobacillus casei. Complete inhibition of both folate binding to the carrier protein and folate transport was achieved by pretreatment of the cells at low temperature (4 °C) and at neutral pH with 200 nm activated folate. Fifty percent inhibition of binding and transport occurred at 35 and 40 nm activated folate, respectively. Specificity was demonstrated by the fact that excess nonactivated folate added during the pretreatment step afforded complete protection of the binding protein against inhibition, and that activated folate had no effect on the binding or transport of thiamine. Rapid measurements at 4 °C were employed to show that, prior to the appearance of irreversible inhibition, activated folate (Ki = 15 nM) interacted reversibly with the binding site for folate (Kd = 0.8 nM). Cells treated with activated [3H]folate incorporated 1 mol of folate per mole of binding protein. Purification of the labeled protein followed by digestion with Pronase led to the isolation of a compound identified as ?-N-folyl lysine. The ?-amino group of a lysyl residue thus appears to be the nucleophilic group at the binding site that reacts with activated folate.  相似文献   

2.
The homologous Kunitz inhibitor proteins, bovine pancreatic trypsin inhibitor (BPTI) and dendrotoxin I (DTX-I), interact with large conductance Ca2+-activated K+ channels (maxi-KCa) by binding to an intracellular site outside of the pore to produce discrete substate events. In contrast, certain homologues of the Shaker ball peptide produce discrete blocking events by binding within the ion conduction pathway. In this study, we investigated ligand interactions of these positively charged peptide molecules by analysis of single maxi-KCa channels in planar bilayers recorded in the presence of DTX-I and BPTI, or DTX-I and a high-affinity homologue of ball peptide. Both DTX-I (K d, 16.5 nM) and BPTI (K d, 1,490 nM) exhibit one-site binding kinetics when studied alone; however, records in the presence of DTX-I plus BPTI demonstrate simultaneous binding of these two molecules. The affinity of BPTI (net charge, +6) decreases by 11.7-fold (K d, 17,500 nM) when DTX-I (net charge, +10) is bound and, conversely, the affinity of DTX-I decreases by 10.8-fold (K d, 178 nM) when BPTI is bound. The ball peptide homologue (BP; net charge, +6) exhibits high blocking affinity (K d, 7.2 nM) at a single site when studied alone, but has 8.0-fold lower affinity (K d, 57 nM) for blocking the DTX-occupied channel. The affinity of DTX-I likewise decreases by 8.4-fold (K d, 139 nM) when BP is bound. These results identify two types of negatively coupled ligand–ligand interactions at distinct sites on the intracellular surface of maxi-KCa channels. Such antagonistic ligand interactions explain how the binding of BPTI or DTX-I to four potentially available sites on a tetrameric channel protein can exhibit apparent one-site kinetics. We hypothesize that negatively coupled binding equilibria and asymmetric changes in transition state energies for the interaction between DTX-I and BP originate from repulsive electrostatic interactions between positively charged peptide ligands on the channel surface. In contrast, there is no detectable binding interaction between DTX-I on the inside and tetraethylammonium or charybdotoxin on the outside of the maxi-KCa channel.  相似文献   

3.
To improve our understanding of uranium toxicity, the determinants of uranyl affinity in proteins must be better characterized. In this work, we analyzed the contribution of a phosphoryl group on uranium binding affinity in a protein binding site, using the site 1 EF-hand motif of calmodulin. The recombinant domain 1 of calmodulin from A. thaliana was engineered to impair metal binding at site 2 and was used as a structured template. Threonine at position 9 of the loop was phosphorylated in vitro, using the recombinant catalytic subunit of protein kinase CK2. Hence, the T9TKE12 sequence was substituted by the CK2 recognition sequence TAAE. A tyrosine was introduced at position 7, so that uranyl and calcium binding affinities could be determined by following tyrosine fluorescence. Phosphorylation was characterized by ESI-MS spectrometry, and the phosphorylated peptide was purified to homogeneity using ion-exchange chromatography. The binding constants for uranyl were determined by competition experiments with iminodiacetate. At pH 6, phosphorylation increased the affinity for uranyl by a factor of ∼5, from Kd = 25±6 nM to Kd = 5±1 nM. The phosphorylated peptide exhibited a much larger affinity at pH 7, with a dissociation constant in the subnanomolar range (Kd = 0.25±0.06 nM). FTIR analyses showed that the phosphothreonine side chain is partly protonated at pH 6, while it is fully deprotonated at pH 7. Moreover, formation of the uranyl-peptide complex at pH 7 resulted in significant frequency shifts of the νas(P-O) and νs(P-O) IR modes of phosphothreonine, supporting its direct interaction with uranyl. Accordingly, a bathochromic shift in νas(UO2)2+ vibration (from 923 cm−1 to 908 cm−1) was observed upon uranyl coordination to the phosphorylated peptide. Together, our data demonstrate that the phosphoryl group plays a determining role in uranyl binding affinity to proteins at physiological pH.  相似文献   

4.
C. Barberis 《FEBS letters》1983,162(2):400-405
Characterization of specific vasopressin binding sites to rat hippocampal membranes has been assayed using tritiated lysine-vasopressin labelled on the tyrosyl residue. At 30°C specific [3H]vasopressin binding was saturable. The estimated equilibrium dissociation constant was 7.1 nM, the mean maximal binding capacity was 78 fmol/mg protein. Arginine-vasopressin has a high affinity (Kd = 2.8 nM) and dDAVP has a low affinity (Kd = 249 nM) for hippocampal synaptic membranes. (OH)AVP and Phe2Orn8VT are at least as active as AVP in inhibiting [3H]vasopressin binding. Adenylate cyclase was activated by VIP and inhibited by PIA, but not affected by lysine-vasopressin.  相似文献   

5.
Calcium- and other divalent cation-binding properties of the vitamin D-dependent calcium-binding protein isolated from the duodenal mucosa of chicks were studied using the flow dialysis technique and 45Ca. It was found that the calcium-binding protein along with the high affinity binding sites has approximately 40 low affinity binding sites with Ka of about 1000 M?1. The low affinity sites possess of certain specificity towards binding of Ca. The affinity of the calcium-bindin protein for other divalent cations depends on the ionic radius. It is suggested that the low affinity binding sites of the calcium-binding protein take part in calcium transport organization across the intestinal epithelium.  相似文献   

6.
l-[3H]Glutamate binding to synaptic plasma membranes from rat cerebral cortices was carried out at 2–4°C in 50 mM Tris-acetate buffer (pH 7.4) using a microfuge centrifugation method. Binding was increased by repeated freezing-thawing and washing in either crude or partially purified synaptic membranes. Scatchard analysis showed a single binding site (dissociation constant, KD = 697 nM; maximal binding capacity, Bmax = 7.5 pmol/mg protein) in four times distilled water washed crude synaptic membrane. After six times freezing-thawing and washing, a new high affinity site (KD1 = 26 nM, Bmax1 = 1.8 pmol/mg protein) appeared and the number of low affinity site was increased with no apparent change in affinity (KD2 = 662 nM, Bmax2 = 10.5 pmol/mg protein). l-[3H]Glutamate binding was inhibited by acidic amino acid analogues that interact with N-methyl-d-aspartate- and quisqualate-sensitive sites of glutamate receptors. Binding was marginally inhibited by kainate and l-2-amino-4-phosphonobutyrate. These results indicate that repeatedly frozen-thawed and washed synaptic plasma membrane is suitable for studying the subtypes and regulation of glutamate receptors.  相似文献   

7.
The effects of temperature on interactions between univalent cations or ATP and the p-nitrophenylphosphatase activity associated with brain (Na+,K+)-ATPase were examined. The apparent affinity for K+ activation under conditions favoring the moderate affinity site was temperature dependent, increasing with decreasing temperature. A comparison of univalent cations showed that the negative apparent ΔH and ΔS for cation binding increased with increasing apparent cation affinity. In contrast to the case with the moderate affinity sites, apparent affinity for the high affinity K+ site was independent of temperature. As temperature decreased, properties of moderate affinity site binding approached those of the high affinity site. The temperature dependence of ATP inhibition was opposite to that for K+ activation, with positive apparent ΔH and ΔS. The apparent ΔH and ΔS for cation binding approached those for the overall conformational change to K+-sensitive enzyme as cation affinity increased. These data suggest that E2, the K+-sensitive form of (Na+,K+)-ATPase, is stabilized by forces that require a decrease in entropy, explaining the predominant existence of E1 at physiologic temperatures. A conformational change leading to stabilization of E2 at higher temperatures can be produced by binding of univalent cations to a moderate affinity, presumably intracellular, site. This effect is counteracted by ATP. ATP also appears to alter the selectivity of this site to favor Na+ over K+ binding.  相似文献   

8.
Binding of [3H]folate to proteins in serum of pregnant women was studied in equilibrium dialysis experiments (pH 7.4, 37°C). A Scatchard analysis revealed the presence of high-affinity (Kass = 1010M?1, N = 0.4 nM folate) and low-affinity sites. The high-affinity folate binding protein (Mr ≈ 30 000–35 000) appeared in front effluent after application of serum to a DEAE-Sepharose CL-6B column equilibrated with 0.05 M imidazole buffer (pH 6.3)/ 30 mM NaCl. Low-affinity binding protein eluted from the column after a rise in NaCl concentration to 1 M was mainly similar to albumin. A minor part was, however, associated with a large molecular size (Mr > 200 000) protein, probably α2-macroglobulin.High-affinity binding which displayed positive cooperatively was saturated at folate concentrations above 10?10 M. Folate dissociation was a complex process consisting of an initial rapid phase (terminated within 48 h) followed by a slow release. At pH 3.5 dissociation became rapid and complete. Purified methotrexate had no effect on high-affinity binding, whereas N10-methylfolate (an impurity in the methotrexate preparation) acted as a potent inhibitor. Low-affinity binding was proportional to the folate concentration within the range 10?10–10?7 M. Dissociation of folate was rapid.  相似文献   

9.
Sucrose synthase of soybean nodules   总被引:6,自引:6,他引:0  
Sucrose synthase (UDPglucose: d-fructose 2-α-d-glucosyl transferase, EC 2.4.1.13) has been purified from the plant cytosolic fraction of soybean (Glycine max L. Merr cv Williams) nodules. The native enzyme had a molecular weight of 400,000. The subunit molecular weight was 90,000 and a tetrameric structure is proposed for soybean nodule sucrose synthase. Optimum activity in the sucrose cleavage and synthesis directions was at pH 6 and pH 9.5 respectively, and the enzyme displayed typical Michaelis-Menten kinetics. Soybean nodule sucrose synthase had a high affinity for UDP (Km, 5 micromolar) and a relatively low affinity for ADP (apparent Km, 0.13 millimolar) and CDP (apparent Km, 1.1 millimolar). The Km for sucrose was 31 millimolar. In the synthesis direction, UDPglucose (Km, 0.012 millimolar) was a more effective glucosyl donor than ADPglucose (Km, 1.6 millimolar) and the Km for fructose was 3.7 millimolar. Divalent cations stimulated activity in both the cleavage and synthesis directions and the enzyme was very sensitive to inhibition by heavy metals.  相似文献   

10.
11.
A new phlorizin derivative (2′-O-(β-d-glucopyranosyl)-4-azidophloretin, 4-azidophlorizin) has been synthesized and its affinity for the d-glucose, Na+ co-transport system in brush border vesicles from intestinal and renal membranes has been compared with that of phlorizin. The extent of the reversible interaction of the ligand with the transporter in dim light has been evaluated from three separate measurements: (1) Ki, the constant for fully-competitive inhibition of (Na+, Δψ)-dependent d-glucose uptake, (2) Kd, the dissociation constant of 4-azido[3H]phlorizin binding in the presence of an NaSCN inward gradient, and (3) Ki, the constant for fully-competitive inhibition of the specific ((Na+, Δψ)-dependent, d-glucose protectable) high-affinity [3H]phlorizin binding. In experiments with vesicles derived from rat kidney, all three constants (Ki, Kd and Ki) were essentially equal and ranged between 3.2 and 5.2 μM, that is, the azide derivative has almost the same affinity for this transporter as phlorizin itself. On the other hand, compared to phlorizin, the 4-azidophlorizin has a lower affinity for the transporter in vesicles prepared from rabbit; its Ki values are some 15–20-times larger than those determined with rat membranes. However, the affinity of the azide for the sugar transporter in membranes from either the intestine or kidney of the same animal species (rabbit or rat) was essentially the same. In spite of the lower affinity for the transporter in either membrane system from the rabbit, results described elsewhere (Hosang, M., Gibbs, E.M., Diedrich, D.F. and Semenza, G. (1981) FEBS Lett., 130, 244–248) indicate that 4-azidophlorizin is an effective photoaffinity label in this species also. Photolysis of the azide yields a reactive intermediate which reacts with a 72 kDa protein in rabbit intestine brush borders. Covalent labeling of this protein occurred under conditions which suggests that it is (a component of) the glucose transporter.  相似文献   

12.
The binding of (1)-[3H]vesamicol was characterized in several subcellular fractions and brain regions of the rat. Binding to a lysed P2 fraction from the rat cerebral cortex reached equilibrium within 4 min at 37°C and was reversible (dissociation half-time 4.9 min). At least two binding affinities were found in P2 fractions from the cerebral cortex (Kd:21 nM and 980 nM), striatum (Kd:28 nM and 690 nM), and cerebellum (Kd:22 nM and 833 nM). High affinity Bmax values were highest in striatum (1.17 pmol/mg protein), followed by cerebellum (0.67 pmol/mg protein), and cerebral cortex (0.38 pmol/mg protein). Low affinity Bmax values were highest in cerebellum (5.2 pmol/mg protein), with similar values for cerebral cortex (3.7 pmol/mg protein) and striatum (3.8 pmol/mg protein). High affinity but not low affinity binding in each brain region was stereospecific. Another inhibitor of vesicular ACh-transport also displaced 1-vesamicol binding potently (IC50:17 nM) and efficaciously (over 90%). Both high affinity and low affinity Bmax values for [3H]vesamicol-binding were highest in a partially purified synaptic vesicle fraction, followed by puriffied synaptosomes, crude membranes and P2 fractions. Specific binding was not observed in a mitochondria-enriched fraction. Crude membrane preparations of primary, neuron-enriched whole brain cultures also exhibited high (64 nM) and low affinity (1062 nM) [3H]vesamicol binding. Isoosmotic replaement of 0.18 M KCl in the binding-buffer with NaCl had no effect on binding. These results suggest that at least some high affinity [3H]vesamicol binding in rat brain preparations may be associated with synaptic vesicles, some of which may not be cholinergic in origin.  相似文献   

13.
The specific binding of the muscarinic cholinergic ligand N-methylscopolamine to human foetal brain has been measured. A level of binding of 64 pmol/g protein was found with a dissociation constant, Kd of 0.27 nM. Values of 0.17 nM min?1 and 0.048 min?1 for the association rate constant, Kon, and the dissociation rate constant Koff respectively, were obtained. The pharmacological properties of the binding site were found to be very similar to those reported for muscarinic receptors from adult mammalian brain except that the binding of pirenzepine and the nicotinic antagonists d-tubocurarine and decamethonium shows differences from that seen in adult brain.  相似文献   

14.
The ligand binding properties of folate chemotactic receptors on isolated membranes of Dictyostelium discoideum were analyzed. Three out of the four receptor states (BF, BS and BSS) were detected, showing rate constants and Kd values similar to those obtained for intact cells. Guanine nucleotides changed the proportioning of the receptor states as well as the rates of several conversions. (i) The transformation of BF into BS was inhibited by GDP but not by guanylyl imidodiphosphate (GuaPP[NH]P) or GTP. (ii) The number of BS sites was lowered by GTP and GuaPP[NH]P. (iii) The binding to BSS was lowered by GTP and GDP, but increased by GuaPP[NH]P. (iv) The rate of disappearance of BSS was increased by GTP, but not by GuaPP[NH]P. Effects of guanine nucleotides were not observed after treatment of the membrane preparations with 15 mg/ml bovine serum albumin. This treatment caused the detection of a binding type different from the types described previously. The affinity of this binding site was extremely high (Kd ≤ 0.2 nM for N10-methylfolic acid), while the dissociation was relatively slow (k−1 ≤ 3·10−4 s−1). It is proposed that bovine serum albumin uncouples the folate receptor from a guanine nucleotide regulatory (G) protein in an irreversible manner. A model is presented in which the four receptor states correspond to distinct interactions with a G protein and GDP or GTP.  相似文献   

15.
The presence of a folate binding protein of high-affinity type (affinity constant 5 · 109M–1, maximum folate binding 3 nM) in human amniotic fluid was demonstrated in equilibrium dialysis experiments (37°C, pH 7.4) with the radioligand3H-folate. Dissociation of3H-folate from the binding protein was slow at pH 7.4 but rapid at pH 3.5. By use of rabbit antibodies against low molecular weight folate binding protein from human milk we determined the concentration of folate binding protein in 5 amniotic fluids (range 1.5–2.3 nM) in an Enzyme-Linked Immunosorbent Assay (ELISA). ultrogel AcA 44 chromatography of amniotic fluid showed that immunoreactive and radioligand bound folate binding protein coeluted in two peaks: a major one (M r 25 000) and a minor one (M r 100 000).  相似文献   

16.
《Life sciences》1995,57(15):1401-1410
PD 128907 [4a R, 10 b R-(+)-trans- 3, 4, 4a, 10 b - tetrahydro - 4- n-propy12 H,5H-[1] benzopyrano[4,3-b]1,4-oxazin-9-ol.], a selective dopamine (DA) D3 receptor agonist ligand exhibits about a 1000-fold selectivity for human D3 receptors (Ki, 1 nM) versus human D2 receptors (Ki, 1183 nM) and a 10000-fold selectivity versus human D4 receptors (Ki, 7000 nM) using [3H]spiperone as the radioligand in CHO-K1-cells. Studies with [3H]PD 128907, showed saturable, high affinity binding to human D3 receptors expressed in CHO-K1 cells (CHO-K1-D3) with an equilibrium dissociation constant (Kd) of 0.99 nM and a binding density (Bmax) of 475 fmol/mg protein. Under the same conditions, there was no significant specific binding in CHO-K1-cells expressing human D2 receptors (CHO-K1-D2). The rank order of potency for inhibition of [3H]PD 128907 binding with reference DA agents was consistent with reported values for D3 receptors. These results indicate that [3H]PD 128907 is a new, highly selective D3 receptor ligand with high specific activity, high specific binding and low non-specific binding and therefore should be useful for further characterizing the DA D3 receptors.  相似文献   

17.
Ouabain binding by the human erythrocyte membrane is reversible, exhibits a high degree of chemical specificity, and can be detected at ouabain concentrations as low as 1 x 10-10 M. The relation between ouabain binding and ouabain concentration can be described by a rectangular hyperbola permitting determination of the maximal binding (B max) and the ouabain concentration at which ouabain binding is half-maximal (KB). Reducing the external sodium concentration increased KB, while reducing the external potassium concentration decreased KB. Neither cation altered B max The reciprocal of KB was a linear function of the sodium concentration at sodium concentrations ranging from 0 to 150 mM. Conversely, the relation between the reciprocal of KB and the external potassium concentration was nonlinear, and raising the potassium concentration above 4 mM produced no further increase in KB. These results are compatible with a model which postulates that the erythrocyte membrane contains a finite number of receptors each composed of a glycoside-binding site and a cation-binding site. When sodium occupies the cation-binding site, the affinity of the glycoside site for ouabain is increased; when potassium occupies the cation-binding site the affinity of the glycoside site for ouabain is decreased.  相似文献   

18.
Binding of cations by microsomes from rabbit skeletal muscle   总被引:6,自引:0,他引:6  
Fragmented sarcoplasmic reticulum and transverse tubular system, as isolated in the microsomal fraction from rabbit skeletal muscle, bind H+, Na+, K+, Ca++, Mg++, and Zn++. The binding depends on a cation exchange type of interaction between these cations and the chemical components of the membranous systems of the muscle cell. The monovalent and divalent cations exchange quantitatively for each other at the binding sites on an equivalent basis. Scatchard plots of the H+ binding data indicate that the binding groups can be resolved into two major components in terms of their pK values. Component 1 has a pK value of 6.6 and a capacity for H+ binding of 2.2 meq/g N . The second component has a much higher H+ binding capacity (7–8 meq/g N ), but its pK value, 3.4, is non-physiological. The binding of cations other than H+ at a neutral pH occurs at the binding sites making up component 1. The order of affinity of the cations for the microsome binding sites is H+ » Zn++ > Ca++ > Mg++ » Na+ = K+ as reflected by the apparent respective pKM values: 6.6, 5.2, 4.7, 4.2, 1.3, 1.3. Caffeine, which causes contracture and potentiates the twitch of skeletal muscle, does not interfere with the binding of Ca++ by the microsomes at neutral pH.  相似文献   

19.
We have investigated the anomalously weak binding of human papillomavirus (HPV) regulatory protein E2 to a DNA target containing the spacer sequence TATA. Experiments in magnesium (Mg2+) and calcium (Ca2+) ion buffers revealed a marked reduction in cutting by DNase I at the CpG sequence in the protein-binding site 3′ to the TATA spacer sequence, Studies of the cation dependence of DNA-E2 affinities showed that upon E2 binding the TATA sequence releases approximately twice as many Mg2+ ions as the average of the other spacer sequences. Binding experiments for TATA spacer relative to ATAT showed that in potassium ion (K+) the E2 affinity of the two sequences is nearly equal, but the relative dissociation constant (Kd) for TATA increases in the order K+ < Na+ < Ca2+ < Mg2+. Except for Mg2+, Kd for TATA relative to ATAT is independent of ion concentration, whereas for Mg2+ the affinity for TATA drops sharply as ion concentration increases. Thus, ions of increasing positive charge density increasingly distort the E2 binding site, weakening the affinity for protein. In the case of Mg2+, additional ions are bound to TATA that require displacement for protein binding. We suggest that the TATA sequence may bias the DNA structure towards a conformation that binds the protein relatively weakly.  相似文献   

20.
The binding of (±)-[3H]isoproterenol and (—)-[3H]dihydroalprenolol to intact turkey erythrocytes was studied using a rapid centrifugation technique. The binding of both ligands is rapid, dissociable, stereospecific and inhibited by (—)-propranolol. The total number of isoproterenol binding sites is 2800 sites/ cell. This consists of a low and high affinity site both of which show stereospecific binding. The high affinity isoproterenol site has a Kd of 15.5—19.5 nM and has 600 sites/cell. The low affinity isoproterenol site has a Kd of 195 nM and has 2200 sites/cell. The binding of (—)-[3H]dihydroalprenolol shows one type of site with a Kd of 7.8 nM and has 2500 sites/cell. The agonists epinephrine, norepinephrine, soterenol and p-hydroxyphenylisoproterenol which were tested by competition for binding showed a 6—25-fold greater affinity for the high affinity site determined by (±)-[3H]isoproterenol as compared to the (—)-[3H]dihydroalprenolol binding site. However, the antagonists propranolol, practolol and metrapolol showed similar affinities for the binding sites as determined by competition of binding of either labeled isoproterenol or dihydroalprenolol. These studies indicate that isoproterenol binding can recognize two independent stereospecific β-adrenergic receptors or can recognize two different conformational states of a single receptor. Provisional calculations are made on the turnover number of adenylate cyclase under physiological conditions using intact erythrocytes. The turnover number is 4000 molecules of cyclic AMP/10 min per high affinity receptor.  相似文献   

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