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1.
We have synthesized four oligopeptides that are structural analogues of a low-affinity Ca2+-specific binding site (site II) of rabbit skeletal troponin C. One analogue (peptide 3) was a dodecapeptide with a sequence corresponding to the 12-residue Ca2+-binding loop (residues 63-74 in troponin C), two (peptides 4 and 5) were 23-residue in length, corresponding to residues 52-74 of the protein, and the fourth (peptide 6) was a 25-residue peptide corresponding to residues 50-74. All four peptides had one amino acid substitution within the 12-residue binding loop in which phenylalanine at position 10 was replaced by tyrosine to provide a marker for spectroscopic studies. In addition, peptides 3 and 4 each had a second substitution within the binding loop where glycine at position 6 was replaced by alanine. The second substitution was motivated by the conservation of glycine at the position in the Ca2+-binding loops of all four Ca2+-binding sites in troponin C. The peptides were characterized by their intrinsic fluorescence, ability to enhance the emission of bound Tb3+, affinity for Ca2+ and Tb3+, and circular dichroism. The affinity for Ca2+ was in the range 10-10(2) M-1, and the affinity for Tb3+ was in the range 10(4)-10(5) M-1. The binding constants of the longer peptides were several-fold larger than that of the dodecapeptide. With peptides 4 and 5, substitution of glycine by alanine at position 6 within the 12-residue loop decreased the affinity for Ca2+ by a factor of four, but had little effect on the affinity for Tb3+. However, the mean residue ellipticity of peptide 4 was substantially higher than that of peptide 5. Since peptide 4 differs from peptide 5 only in the substitution of glycine at position 6 in the loop segment, the conservation of glycine at that position may serve a role in providing a suitable secondary structure of the binding sites for interaction with troponin I. Peptides 4 and 6, when present in a large excess, mimic troponin C in regulating fully reconstituted actomyosin ATPase by showing partial calcium sensitivity and activation of the ATPase. Since these peptides are the smallest peptides containing the Ca2+-binding loop of site II, their biological activity suggests that a Ca2+-dependent binding site of troponin C for troponin I could be as short as the segment comprising residues 52-62.  相似文献   

2.
The luminescent isomorphous Ca2+ analogue, Tb3+, can be bound in the 12-amino acid metal binding sites of proteins of the EF hand family, and its luminescence can be enhanced by energy transfer from a nearby aromatic amino acid. Tb3+ can be used as a sensitive luminescent probe of the structure and function of these proteins. The effect of changing the molecular environment around Tb3+ on its luminescence was studied using native Cod III parvalbumin and site-directed mutants of both oncomodulin and calmodulin. Titrations of these proteins showed stoichiometries of fill corresponding to the number of Ca2+ binding loops present. Tryptophan in binding loop position 7 best enhanced Tb3+ luminescence in the oncomodulin mutant Y57W, as well as VU-9 (F99W) and VU-32 (T26W) calmodulin. Excitation spectra of Y57F, F102W, Y65W oncomodulin, and Cod III parvalbumin revealed that the principal Tb3+ luminescence donor residues were phenylalanine or tyrosine located in position 7 of a loop, despite the presence of other nearby donors, including tryptophan. Spectra also revealed conformational differences between the Ca2+- and Tb(3+)-bound forms. An alternate binding loop, based on Tb3+ binding to model peptides, was inserted into the CD loop of oncomodulin by cassette mutagenesis. The order of fill of Tb3+ in this protein reversed, with the mutated loop binding Tb3+ first. This indicates a much higher affinity for the consensus-based mutant loop. The mutant loop inserted into oncomodulin had 32 times more Tb3+ luminescence than the identical synthetic peptide, despite having the same donor tryptophan and metal binding ligands. In this paper, a ranking of sensitivity of luminescence of bound Tb3+ is made among this subset of calcium binding proteins. This ranking is interpreted in light of the structural differences affecting Tb3+ luminescence enhancement intensity. The mechanism of energy transfer from an aromatic amino acid to Tb3+ is consistent with a short-range process involving the donor triplet state as described by Dexter (Dexter, D. L. (1953) J. Chem. Phys. 21, 836). This cautions against the use of the F?rster equation in approximating distances in these systems.  相似文献   

3.
Three hexadecapeptides which correspond to the putative Ca2+ binding domains II and III of calmodulin were synthesized employing solid phase methodology. One of the peptides contained an internal cystine bridge which was formed while the corresponding linear peptide was still attached to the polymeric carrier. The interaction of the synthetic peptides with calcium ions was investigated using Tb3+-mediated fluorescence. Binding was of the order Ca12 greater than Ca13 greater than Ca13C (Fig. 1) with binding constants KTb3+ = 0.68 X 10(-5), 0.54 X 10(-5), and 0.21 X 10(-5) M-1 respectively. Biological activity of the compounds was assessed by measuring their stimulatory effect on erythrocyte membrane (Ca2+ + Mg2+)-ATPase activity. For 50% activity as compared with CaM, the concentration of peptides required was for Ca12, Ca13 and Ca13C, 50, 100 and 167 times higher than CaM, respectively. The results suggest that the three synthetic peptides possess certain calmodulin-like features.  相似文献   

4.
beta 1-Bungarotoxin has only one tryptophan residue, namely Trp-19 in the phospholipase A2 subunit. The environment of Trp-19 was studied by intrinsic fluorescence and solute quenching. The native protein showed an emission peak at 330 nm. About 90% of the fluorescent tryptophan was accessible to quenching by either acrylamide or KI but not to CsCl. A red-shift in the emission peak occurred between 2.0 M- and 4.0 M-guanidinium chloride, and the helix-coil transition of the polypeptide backbone occurred between 4.0 M- and 6.0 M-guanidinium chloride. These results suggested that Trp-19 was in a less polar medium but near a positive charge. The local conformation around Trp-19 could be disturbed by binding of Tb3+ or Ca2+ or Sr2+ to the toxin molecule. Tb3+ a tervalent lanthanide ion, effectively substituted for Ca2+ in stimulating the phospholipase A2 activity of beta 1-bungarotoxin. Upon the binding of Tb3+ to the toxin, the Tb3+ fluorescence in the 450-650 nm region was enhanced. This resulted from the energy transfer from Trp-19 to Tb3+. The distance between the energy-transfer pair was estimated to be 0.376-0.473 nm at pH 7.6 and 0.486-0.609 nm at pH 6.3. Assuming that there were two Tb3+-binding sites on the toxin molecule, at pH 7.6 the association constants of the high-affinity and the low-affinity sites were determined to be 3.82 x 10(3) M-1 and 2.85 x 10(2) M-1 respectively. At between pH 6.0 and 7.0 Tb3+ bound to the high-affinity site decreased greatly but did not disappear entirely. Both Ca2+ and Sr2+ competed with Tb3+ at the high-affinity sites, but Sr2+ could not substitute for Ca2+ in stimulating the phospholipase A2 activity.  相似文献   

5.
The interactions of Tb3+ and sarcoplasmic reticulum (SR) were investigated by inhibition of Ca2+-activated ATPase activity and enhancement of Tb3+ fluorescence. Ca2+ protected against Tb3+ inhibition of SR ATPase activity. The apparent association constant for Ca2+, determined from the protection, was about 6 x 10(6) M-1, suggesting that Tb3+ inhibits the ATPase activity by binding to the high affinity Ca2+ binding sites. Mg2+ did not protect in the 2-20 mM range. The association constant for Tb3+ binding to this Ca2+ site was estimated to be about 1 x 10(9) M-1. No cooperativity was observed for Tb3+ binding. No enhancement of Tb3+ fluorescence was detected. A second group of binding sites, with weaker affinity for Tb3+, was observed by monitoring the enhancement of Tb3+ fluorescence (lambda ex 285 nm, lambda em 545 nm). The fluorescence intensity increased 950-fold due to binding. Ca2+ did not complete for binding at these sites, but Mg2+ did. The association constant for Mg2+ binding was 94 M-1, suggesting that this may be the site that catalyzes phosphorylation of the ATPase by inorganic phosphate. For vesicles, Tb3+ binding to these Mg2+ sites was best described as binding to two classes of binding sites with negative cooperativity. If the SR ATPase was solubilized in the nonionic detergent C12E9 (dodecyl nonaoxyethylene ether alcohol), in the absence of Ca2+, only one class of Tb3+ binding sites was observed. The total number of sites appeared to remain constant. If Ca2+ was included in the solubilization step, Tb3+ binding to these Mg2+ binding sites displayed positive cooperativity (Hill coefficient, 2.1). In all cases, the apparent association constant for Tb3+, in the presence of 5 mM MgCl2, was in the range of 1-5 x 10(4) M-1.  相似文献   

6.
In order to investigate the antiproliferative properties of antamanide, we have synthesized and studied two antamanide analogs where the phenylalanine residue in positions 6 or 9 is substituted by tyrosine, their corresponding linear forms and the cyclic and linear des Phe5,Phe6-Tyr9-analogs. Antamanide and its biologically active synthetic analogs are able to form highly stable complexes with metal ions, particularly Na+, K+ and Ca2+. We studied the ion-binding properties of the Tyr-antamanide analogs by CD and Tb3+ -mediated fluorescence in acetonitrile. In this medium the far-and near-UV CD spectra of the neat Tyr6-antamanide analog are very similar to that of the parent cyclic decapeptide. Substantial differences occur on the contrary in the CD spectra of the neat Tyr9-antamanide, particularly in the regions at 220 nm and 270-290 nm. In acetonitrile, as already found for antamanide, the interaction with the above-mentioned metal ions always produces evident changes in the far- and near-UV CD spectra of both analogs. On the contrary, the CD spectra of the linear deca- and octa- and of the cyclic octa-analogs are affected by the presence of metal ions only in the near-UV region. In the same solvent the Tb3+ -mediated fluorescence spectra of all the synthetic peptides are remarkably affected by the addition of ions. On the basis of the spectral total changes, by using either or both the spectroscopic techniques, it has been possible to determine the ion binding constants for all the linear and cyclic Tyr-antamanide analogs and to compare them with that of the parent peptide. The antitoxic and antiproliferative activities of these antamanide analogs have been tentatively correlated to their ion-binding properties. A preliminary account of this work was given in (1).  相似文献   

7.
Quantitative analyses were carried out on Tb3+ binding to porcine intestinal calcium-binding protein (CaBP). Tb3+ (emission at 547 nm) and intrinsic tyrosine (emission at 303 nm) fluorescences upon excitation at 260 nm increase almost in parallel with increasing Tb3+ concentration up to a molar ratio of 2 against the protein in the CaBP solution. The pH dependence profile of Tb3+ fluorescence of the Tb3+-CaBP complex suggests that some free carboxylate groups are involved in the binding, as also suggested for Ca2+ binding. The results of fluorometric titration of Tb3+ and intrinsic tyrosine fluorescences of the CaBP complex with Tb3+ or Ca2+ led us to conclude that Tb3+ and Ca2+ have two common binding sites for each CaBP molecule. An equilibrium dialysis experiment showed that the dissociation constants of the two Tb3+-binding sites are 0.29 and 3.51 microM. Tb3+ strongly inhibits 45Ca binding to one of the two Ca2+-binding sites in the CaBP. All of these and previous results indicate that each Tb3+ ion can bind to either of two high-affinity Ca2+-binding sites in porcine intestinal CaBP with an affinity different from that for Ca2+ ion. We discuss the localization of the Ca2+- and Tb3+-binding sites in the CaBP.  相似文献   

8.
The interaction of amino acid amides with tRNAPhe was studied by measurements of the Wye base fluorescence. Binding of phenylalanine-, tyrosine- and tryptophan-amides leads to considerable quenching, whereas the amides of e.g. glycine and leucine do not induce quenching under the same conditions. Binding constants at 0.13 M salt - 100 M-1 for Phe-, 110 M-1 for Tyr- and 300 M-1 for Trp-amide - are about a factor of 6 higher than those evaluated from independent measurements for binding to simple single-stranded polynucleotides; the corresponding factor is 10 for double-stranded polynucleotides. Since the apparent enthalpy changes derived from measurements at different temperatures remains relatively low (-9 to -20 kJ/mol), the increased affinity appears to be mainly due to an increase of the entropy changes. Titration experiments performed in the presence of Mg2+ indicate cooperative interactions of the aromatic residues with the anticodon loop that are consistent with preferential binding to one of two loop conformations. Measurements of binding constants at different pH-values indicate the protonation of a tRNA residue in the tryptophanamide-tRNAPhe complex characterised by a pK value of about 7.0.  相似文献   

9.
In the present report, we demonstrate that Tb3+ binds to protein kinase C and serves as a luminescent reporter of certain cationic metal-binding sites. Tb3+ titration of 50 nM protein kinase C results in a 20-fold enhancement of Tb3+ luminescence which is half-maximal at 12 microM Tb3+. A Kd of approximately 145 nM was determined for Tb3+ binding to the enzyme. The excitation spectrum of bound Tb3+ exhibits a peak at 280 nm characteristic of energy transfer from protein tryptophan or tyrosine residues. The luminescence of this complex can be markedly decreased by other metals, including Pb2+ (IC50 = 25 microM), La3+ (IC50 = 50 microM), Hg2+ (IC50 = 300 microM), Ca2+ (IC50 = 6 mM), and Zn2+ (IC50 greater than 10 mM), and chelation of Tb3+ by 2 mM EGTA. Tb3+ binding to protein kinase C is correlated with its inhibition of protein kinase activity (IC50 = 8 microM), r = 0.99) and phorbol ester binding (IC50 = 15 microM, r = 0.98). Tb3+ inhibition of protein kinase C activity cannot be overcome by excess Ca2+, but can be partially overcome with excess phosphatidylserine or by chelation of Tb3+ with EGTA. Tb3+ noncompetitively inhibits phorbol ester binding by decreasing the maximal extent of binding without significantly altering binding affinity. The results suggest that the Tb3(+)-binding site is at or allosterically related to the enzyme's phosphatidylserine-binding site, but is distinct from the phorbol ester-binding domain and the Ca2(+)-binding site that regulates enzyme activity.  相似文献   

10.
Fluorimetric titrations of parvalbumin II (pI 4.2) of pike (Pike II) with Ca2+ and Tb3+ show the CD and EF binding sites to be non-equivalent. The intrinsic binding constants of the strong and the weak sites obtained for Ca2+ are: KsCa = 1.6.10(8) M-1; KwCa = 6.6.10(5) M-1. Differences of the order of 100% were encountered between the Tb3+ binding constants obtained with four different versions of titration. Their average values are: KsTb = 1.9.10(11) M-1; KwTb = 1.0.10(7) M-1. The distances of the strong and the weak sites from the singular Tyr-48, rs = 9.5 A and r2 = 11.5 A, were derived from F?rster-type energy transfer and proved compatible with the X-ray structure of parvalbumin III (pI 4.2) of carp (CarpIII). From the distances, it is suggested that CD is the strong and EF the weak metal-binding site of PikeII. Tb3+ was shown by CD spectroscopy to have the same structural effect on PikeII as Ca2+. Removal of the metal ions from PikeII results in a decrease of helix content as monitored by CD spectroscopy. This decrease is larger than that in CarpIII. A concomitant decrease of the fluorescence quantum yield at nearly constant decay time is indicative of mainly static quenching, probably by the non-coordinating carboxylate groups. The maximum helix content is almost completely reestablished upon binding of the first metal ion. However, small changes of the energy transfer in PikeII with one terbium ion bound to the strong site indicate fine structural rearrangements of the strong binding site when Ca2+ is bound to the weak one.  相似文献   

11.
Direct excitation of lanthanide luminescence with a pulsed dye laser has been used to probe the molecular environment of the high affinity sites of the sarcoplasmic reticulum Ca2+-ATPase. The direct excitation spectrum of Tb3+ bound to these sites has been determined and a luminescence lifetime of approximately 1 ms measured. Measurements of the difference in lifetime of the Tb X ATPase complex in H2O and D2O indicate that there are approximately 2 H2O molecules in the first coordination sphere of Tb3+ bound at the high affinity sites of the ATPase. The results are compared with the properties of Tb3+ binding to high affinity sites of other Ca2+ binding proteins. The binding constant of Tb3+ to the ATPase is in the range of 0.3-5.0 X 10(8) M-1 as inferred from the KI for inhibition of ATP hydrolysis, in agreement with a previous report (Highsmith, S. R., and Head, M. R. (1983) J. Biol. Chem. 258, 6858-6862). The values of the Ca2+ binding constant (approximately 2 X 10(6) M-1) and the cooperative nature (n = 1.9) of Ca2+ protection of Tb3+ inhibition indicate that Tb3+ and Ca2+ compete for the high affinity sites of the ATPase. The results demonstrate that directly-excited Tb3+ luminescence provides unique information on the environment of the Ca2+ binding-transport sites of the SR ATPase.  相似文献   

12.
K Chiba  T Mohri 《Biochemistry》1987,26(3):711-715
The fluorescence of 1-anilino-8-naphthalenesulfonate (ANS) is progressively enhanced with increasing concentration of it, showing a proportionate blue shift of the emission maximum, by the interaction with the porcine intestinal Ca2+-binding protein (CaBP) in the absence of Ca2+. The apo-CaBP has a single binding site for ANS as determined by the fluorescence change, the apparent dissociation constant (Kd) estimated at 49.1 microM. Addition of Ca2+ or Tb3+ to the ANS-apo-CaBP system is capable of enhancing its fluorescence up to about 2- or 5-fold, respectively, causing further blue shift of the emission maximum. These metal ions do not affect the capacity of ANS binding, but Ca2+ slightly increases the Kd value. Increase of the fluorescence of the ANS-CaBP complex by increasing binding of Ca2+ to it was monophasic, while that with Tb3+ was biphasic, both saturated at the same molar ratio, 2, of added cations to the complex. Biphasic change of response has also been observed in UV absorption of the CaBP with increasing concentration of Tb3+. With a half-saturating concentration of Tb3+, Ca2+ can induce a much higher enhancement of the ANS fluorescence than excess Ca2+ alone. All these results indicate that the CaBP molecule contains a single ANS binding site and the conformation and/or microenvironment surrounding bound ANS of the protein is altered reversibly with binding of Ca2+ or Tb3+ to it and that there are differences between Ca2+- and Tb3+-induced conformation changes around the ANS-binding site and the tyrosine residue of it.  相似文献   

13.
C L Wang  P C Leavis  J Gergely 《Biochemistry》1984,23(26):6410-6415
The stepwise addition of Tb3+ to calmodulin yields a large tyrosine-sensitized Tb3+ luminescence enhancement as the third and fourth ions bind to the protein [Wang, C.-L. A., Aquaron, R. R., Leavis, P. C., & Gergely, J. (1982) Eur. J. Biochem. 124, 7-12]. Since the only tyrosine residues in calmodulin are located within binding sites III and IV, these results suggest that Tb3+ binds first to sites I and II. Recent NMR studies have provided evidence that Ca2+, on the other hand, binds preferentially to sites III and IV. Kinetic studies using a stopped-flow apparatus also show that the preferential binding of Ca2+ and lanthanide ions is different. Upon rapid mixing of 2Ca-calmodulin with two Tb3+ ions, there was a small and rapid tyrosine fluorescence change, but no Tb3+ luminescence was observed, indicating that Tb3+ binds to sites I and II but not sites III and IV. When two Tb3+ ions are mixed with 2Dy-calmodulin, Tb3+ luminescence rises rapidly as Tb3+ binds to the empty sites III and IV, followed by a more gradual decrease (k = 0.4 s-1 as the ions redistribute themselves over the four sites. These results indicate that (i) both Tb3+ and Dy3+ prefer binding to sites I and II of calmodulin and (ii) the binding of Tb3+ to calmodulin is not impeded by the presence of two Ca2+ ions initially bound to the protein. Thus, the Ca2+ and lanthanide ions must exhibit opposite preferences for the four sites of calmodulin: sites III and IV are the high-affinity sites for Ca2+, whereas Tb3+ and Dy3+ prefer sites I and II.  相似文献   

14.
The formaldehyde-morpholine method for the conversion of gamma-carboxyglutamyl (Gla) residues to gamma-methyleneglutamyl (gamma-MGlu) residues has been applied to the modification of bovine prothrombin fragment 1. In the absence of Tb3+ ions or at Tb3+ ion concentrations of 2 Km app and 25 Km app the action of 10,000-fold molar excess of formaldehyde and morpholine, pH 5.0, converts the 10 Gla residues of the protein into 10 gamma-MGlu residues. Modification of the protein using the same conditions but increasing the Tb3+ concentration to 100 Km app provided a homogeneous protein containing 3 gamma-MGlu and 7 Gla residues, bovine 3 gamma-MGlu-fragment 1. The modified protein binds the same number of Ca2+ ions (6-7) as bovine fragment 1. However, the positive cooperatively associated with Ca2+ binding is abolished and the overall affinity for Ca2+ ions is reduced. Fluorescence titrations of 3 gamma-MGlu-fragment 1 using either Ca2+ or Mg2+ ions indicate that the modified protein retains a fluorescence quenching behavior similar to that of the native protein. The modified protein does not bind to phosphatidylserine/phosphatidylcholine vesicles in the presence of Ca2+ ions. Thus the metal ion-induced fluorescence transition exhibited by the bovine protein appears to be a necessary but not sufficient condition for phospholipid binding.  相似文献   

15.
Terbium, a trivalent lanthanide, effectively substituted for Ca2+ in calmodulin as judged by several criteria: intrinsic fluorescence spectra, altered mobilities on polyacrylamide gel electrophoresis, formation of a stable complex with troponin I or calcineurin, and stimulation of phosphodiesterase. Calmodulin harbors four Ca2+ binding domains; domains I and II contain no tyrosine, whereas domains III and IV each have one tyrosine. The binding of Tb3+ to calmodulin was followed by the increase of Tb3+ fluorescence at 545 nm upon binding to calmodulin. This fluorescence was elicited either by exciting Tb3+ directly at 222 nm or by exciting the calmodulin tyrosine at 280 nm with resulting energy transfer from tyrosine to Tb3+. Fluorescence generated by direct excitation measures binding of Tb3+ to any of the Ca2+ binding domains, whereas energy transfer through indirect excitation is effective only when Tb3+ is within 5 A of tyrosine, indicating that Tb3+ necessarily occupies a Ca2+ binding domain that contains tyrosine. A judicious use of the direct and indirect excitation could reveal the sequence of fill of the binding domains. Our results suggest these domains are filled in the following sequence: 1) domain I or II; 2) domains III and IV; and 3) domain II or I that has not been filled initially.  相似文献   

16.
We measured by batch microcalorimetry the standard enthalpy change delta H degrees of the binding of Mn2+ to apo-bovine alpha-lactalbumin; delta H degrees = -90 +/- k J.mol-1. The binding constants, KMn2+, calculated from the calorimetric and circular dichroism titration curves, are (4.6 +/- 1).10(5) M-1 and (2.1 +/- 0.4).10(5) M-1, respectively. Batch calorimetry confirms the competitive binding Ca2+, Mn2+ and Na+ to the same site. The relatively small enthalpy change for Mn2+ binding compared to Ca2+ binding favours a model of a rigid and almost ideal Ca2+-complexating site, different from the well-known EF-hand structures. Cation binding to the high-affinity site most probably triggers the movement of an alpha-helix which is directly connected to the complexating loop.  相似文献   

17.
The effects on bovine neurophysin-I of binding the perdeuterated peptides Phe-PheNH2 and Leu-PheNH2 were compared by proton NMR. A unique difference between the two peptides in their effects on Tyr-49 ring protons indicated proximity of the Tyr-49 ring to the side-chain of position 1 of bound peptide. Non-deuterated oligopeptides containing Phe in position 3 and no methyl groups induced different changes in neurophysin methyl resonances than dipeptides, suggesting shielding of one or more protein methyl groups by Phe-3. The results demonstrate that the identity of neurophysin residues at the hormone-binding site can be probed by analysis of changes induced in the protein spectrum by systematically related NMR-transparent peptides.  相似文献   

18.
The binding of Na+ and K+ to whiting parvalbumin (pI 4.4) and pike parvalbumins (pI 4.2 and 5.0) results in a shift of the tryptophan fluorescence spectrum towards shorter wavelengths by 2-4 nm for the whiting protein and in a rise of the tyrosine and phenylalanine fluorescence quantum yield for the pike proteins. The effective binding constants of Na+ and K+ to parvalbumins are within the range of 10 M-1 to 100 M-1. Physiological concentrations of Na+ and K+ lower the affinity of whiting parvalbumin for Ca2+ and Mg2+ by almost an order of magnitude.  相似文献   

19.
The proton resonances of the biologically active peptide parathyroid-hormone-related protein (residues 1-34) were assigned using one-dimensional spin-decoupling techniques, two-dimensional correlated spectroscopy and by comparing the spectra of the peptides 1-20, 1-25, 1-29, 7-34 and 15-34. The conformation of 1-34 was determined using one- and two-dimensional nuclear Overhauser enhancement spectroscopy in the rotating frame. Amide proton temperature coefficients, vicinal coupling constants and circular dichroic spectra helped reveal a surprisingly compact structure with residues 3-9 forming alpha-helix, type-I beta-turns between residues 10-13 and 16-19 and several interactions between the N-terminal residues and the C-terminal residues. Of these latter, the strongest appeared to be between Asp-10 and Phe-22. One peptide surface in the deduced model presents multiple positive charges, while the opposite surface has a hydrophobic character possibly functioning to exclude water from the binding interface and enhancing the binding constant.  相似文献   

20.
The ability of several mu-selective opioid peptides to activate G-proteins was measured in rat thalamus membrane preparations. The mu-selective ligands used in this study were three structurally related peptides, endomorphin-1, endomorphin-2 and morphiceptin, and their analogs modified in position 3 or 4 by introducing 3-(1-naphthyl)-d-alanine (d-1-Nal) or 3-(2-naphthyl)-d-alanine (d-2-Nal). The results obtained for these peptides in [(35)S]GTPgammaS binding assay were compared with those obtained for a standard mu-opioid agonist DAMGO. [d-1-Nal(3)]Morphiceptin was more potent in G-protein activation (EC(50) value of 82.5+/-4.5 nM) than DAMGO (EC(50)=105+/-9 nM). [d-2-Nal(3)]Morphiceptin, as well as endomorphin-2 analogs substituted in position 4 by either d-1-Nal or d-2-Nal failed to stimulate [(35)S]GTPgammaS binding and were shown to be potent antagonists against DAMGO. It seems that the topographical location of the aromatic ring of position 3 and 4 amino acid residues can result in a completely different mode of action, producing either agonists or antagonists.  相似文献   

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