Sequence-specific resonance assignment and secondary structure of (1-71) bacterioopsin.

The conformation of chymotryptic fragment C2 of bacteriohodopsin (residues 1-71) was studied by 2D 1H NMR. The fragment was solubilized in a mixture of chloroform/methanol (1:1), 0.1 M LiClO4. Most of the resonances in 1H NMR spectra of fragment C2 were assigned using phase-sensitive DQF-COSY, TOCSY, and NOESY techniques. To simplify the assignment procedure for overlapping regions of NMR spectra, an analog of fragment C2 with leucines deuterated in beta-positions was used. Deuterium exchange rates for amide protons were measured in a series of TOCSY spectra. Two right-handed alpha-helical regions Pro8-Lys30 and Lys41-Leu62 were identified on the basis of NOE connectivities and deuterium exchange rates. The N-terminal part of the fragment (Ala2-Gly6) adopts the helical conformation stabilized by 3 hydrogen bonds.

The divalent cation-binding sites of gramicidin A transmembrane ion-channel.

The conductance of the gramicidin A single channels in glycerolmonooleate membranes is strongly reduced in the presence of Mn2+ cations. The nmr experiments were performed for N-terminal to N-terminal gramicidin A dimer formed by two right-handed single-stranded helixes incorporated into the sodium dodecyl sulfate micelles in the presence of Mn2+ ions. Dependence of the nonselective spin-lattice relaxation rates of the gramicidin A protons on Mn2+ concentration was analyzed to determine coordinates of the divalent cation binding sites. It is inferred that Mn2+ ions are bound at the channel mouths at distances of 6.4, 8.6, and 8.8 A (+/- 2 A) from the oxygen atoms of exposed carbonyl groups of D-Leu 12, 14, and 10, respectively. The bounded Mn2+ retains its hydrate shell, the size of which (approximately 6 A) exceeds the inner pore diameter (approximately 4 A). That makes the gramicidin A channel impermeable for divalent cations.

[Determination of the local structure of the protein insectotoxin I5A from the scorpion Buthus eupeus from 1H-NMR spectroscopy data]. / Opredelenie lokal'noi struktury belkovogo insektotoksina I5A skorpiona Buthus eupeus po dannym spektroskopii 1H-IaMR.

The local structure (torsion angles phi, psi and chi 1 of amino acid residues) of insectotoxin I5A (35 residues) of scorpion Buthus eupeus has been determined from cross-peak integral intensities in two-dimensional nuclear Overhauser enhancement (NOESY) spectra and spin coupling constants of vicinal H--NC alpha--H and H--C alpha C beta--H protons. The local structure determination was carried out by fitting complete relaxation matrix of peptide unit protons (protons of a given residue and NH proton of the next residue in the amino acid sequence) with experimental NOESY cross-peak intensities. The obtained intervals of backbone torsional angles phi and psi consistent with NMR data were determined for all but Gly residues. The predominant C alpha--C beta rotamer of the side chain has been unambiguously determined for 42% of the insectotoxin amino acid residues whereas for another 46% residues experimental data are fitted equally well with two rotamers. Stereospecific assignments were obtained for 38% of beta-methylene groups. The determined torsional angles phi, psi and chi 1 correspond to the sterically allowed conformations of the amino acid residues and agree with the insectotoxin secondary structure established earlier by 1H NMR spectroscopy.

Sequence-specific 1H-NMR assignment and conformation of proteolytic fragment 163-231 of bacterioopsin.

Proteolytic fragment 163-231 of bacterioopsin was isolated from Halobacterium halobium purple membrane treated with NaBH4 and papain under nondenaturing conditions. Two-dimensional 1H-NMR spectra of (163-231)-bacterioopsin solubilized in chloroform/methanol (1:1), 0.1 M LiClO4 indicated the existence of one predominant conformation. Most of the resonances in the 1H-NMR spectra of (163-231)-bacterioopsin were assigned by two-dimensional techniques. Two extended right-handed alpha-helical regions Ala168-Ile191 and Asn202-Arg227 were identified on the basis of NOE connectivities and deuterium exchange rates. The N-terminal part of the peptide is flexible and the region of Gly192-Leu201 adopts a specific conformation. The protons of OH groups of Thr178, Ser183 and Ser214 slowly exchange with solvent, and side-chain conformations of these residues, as evaluated by NOE connectivities of OH protons, are optimal for the formation of hydrogen bonds between OH and backbone carbonyl groups.

Solution spatial structure of 'long' neurotoxin M9 from the scorpion Buthus eupeus by 1H-NMR spectroscopy.

1H-NMR spectra of Buthus eupeus neurotoxin M9 (66 amino acid residues, four disulfide bonds) reveal two slowly exchangeable conformations at acidic pH. The spatial structure of the conformer prevailing under physiologically relevant conditions has been determined from two-dimensional 1H-NMR data treated by means of a distance geometry algorithm and refined by molecular modelling. Interrelation between the structure and function of mammalian neurotoxin M9 is discussed by comparing its conformation with those of the scorpion insectotoxins which exhibit different biological specificity (insectotoxins v-2, v-3 and I5A).

[Spatial structure of gramicidin A in organic solvents. 1H-NMR analysis of conformation heterogeneity in ethanol]. / Prostranstvennye struktury gramitsidina A v organicheskikh rastvoriteliakh. 1H-IaMR-analiz konformatsionnoi geterogennosti v étanole.

Structural features of double helices formed by polypeptides with alternating L- and D-amino acid residues were analysed. It was found that the map of short distances (less than 4 A) between protons of the two backbones is unique for each double helix type and even its fragment implies unambiguously parameters of the helix (i.e. parallel or antiparallel, handedness, pitch of helix, relative shift of polypeptide chains). By analysis of two-dimensional 1H-NMR spectra (COSY, RELSY, HOHAHA, NOESY), proton resonances of [Val1]gramicidin A (GA) in the ethanol solution were assigned. The results obtained show that the solution contains five stable conformations of GA in comparable concentrations. Monomer of GA is in a random coil conformation. Specific maps of short interproton distances for the other four species (1-4) were obtained by means of two dimensional nuclear Overhauser effect spectroscopy. The maps as well as spin-spin couplings of the H-NC alpha-H protons and solvent accessibilities of the individual amide groups correspond to four types of double helices pi pi LD 5,6 with 5.6 residues per turn. The double helices are related to the Veatch species 1-4 of GA. Species 1 and 2 are left-handed parallel double helices increase increase pi pi LD 5,6 with different relative shift of polypeptide chains. Species 3 is a left-handed antiparallel double helix increase decrease pi pi LD 5,6 and species 4 is a right-handed parallel double helix increase increase LD 5,6. In the dimers helices are fixed by the maximum number (28) of interbackbone hydrogen bonds NH...O = C possible for these structures. Species 1, 3 and 4 have C2 symmetry axes. Relationship between gramicidin A spatial structures induced by various media is discussed.

[The structure of Buthus eupeus neurotoxin M9 in a solution studied by 1H-NMR spectroscopy]. / Stroenie neirotoksina M9 Buthus eupeus v rastvore po dannym spektroskopii 1H-IaMR.

Neurotoxin M9 isolated from the venom of Central Asian scorpion Buthus eupeus (66 amino acid residues, 4 disulfide bridges) has two slowly exchangeable conformations at the acidic pH. 2D-1H-NMR spectroscopy has been used to determine the polypeptide backbone foiding in the conformer that dominates under physiological conditions. The conformer contains the right alpha-helix (residues 22-31) and the antiparallel beta-sheet, which consists of the three strands (residues 1-5, 46-52, 35-40). All five Xxx-Pro bonds are in the trans configuration. Comparison of the obtained data with the crystal structure of the homologous scorpion toxin v-3 Centruroides sculpturatus (65 residues) and the solution spatial structure of the "short" type insectotoxin I5A Buthus eupeus (35 residues) shows close similarity in the first case and similarity of the types and mutual disposition of the regular secondary structure elements in the second case.

1H-NMR study of gramicidin A transmembrane ion channel. Head-to-head right-handed, single-stranded helices.

The structure of [Val1]gramicidin A incorporated into sodium dodecyl-d25 sulphate micelles has been studied by two-dimensional proton NMR spectroscopy. Analysis of nuclear Overhauser effects, spin-spin couplings and solvent accessibility of NH groups show that the conformation of the Na+ complex of gramicidin A in detergent micelles, which in many ways mimic the phospholipid bilayer of biomembranes, is an N-terminal to N-terminal (head-to-head) dimer (Formula: see text) formed by two right-handed, single-stranded beta 6.3 helices with 6.3 residues per turn, differing from Urry's structure by handedness of the helices.

[2-D-NMR study of the conformation characteristics of toxin 3 from Naja naja siamensis venom]. / 2-D-OaMR-issledovanie konformatsionnykh osobennostei toksina 3 iz iada kobry Naja naja siamensis.

The spatial structure of "long" toxin 3 Naja naja siamensis in solution has been studied by methods of two-dimensional (2D) 1H NMR spectroscopy. The individual signal assignments for 67 out of 71 residues and analysis of nuclear Overhauser effects between distinct protons of the molecule allowed the comparison of the toxin 3 conformations at different pH values and temperatures. It was shown that the deprotonated imidazole ring of His22 residue (at pH greater than or equal to 7,5) is surrounded by the side chains of Cys17, Pro18, Val23, Cys24, Cys45, Ala46 and Thr48 residues. On the contrary, the protonated imidazole ring of His22 (at pH less than 4,0) is exposed into solvent. Ionization of His22 is accompanied by a change in the Tyr25 aromatic ring orientation and affects the conformational mobility of the Cys17, His22, Cys45 and Ala47 side chains. The revealed conformational features of toxin 3 in solution are discussed in connection with the differences between "long" and "short" neurotoxins in the kinetics of their binding to acetylcholine receptor.

[Contribution of NMR spectroscopy to the study of structure-function relations of proteins and peptides]. / Vklad spektroskopii IaMR v izuchenie strukturno-funktsional'nykh sootnoshenii belkovo-peptidnykh veshchestv.

NMR spectroscopy provides a unique means to study molecular conformation, mechanisms of action and structure-function relationships for peptides and proteins in solution under conditions approaching those of their physiological environment. Development of NMR techniques, especially directed to the peptide and protein conformational analysis, is considered under the topics of two-level signal assignment and structural significance of homo- and heteronuclear spin-spin couplings. The results of NMR conformational analysis are presented for solution spatial structure of valinomy cin and gramicidin A antibiotics, honey-bee neurotoxin apamin, scorpion insectotoxin I5A and snake venom neurotoxins of "short" and "long" types. The structure-function relationships are discussed for these biologically active molecules.

[Conformation NMR analysis of the spatial structure of Buthus eupeus insectotoxin I5A]. / Konformatsionnyi IaMR-analiz prostranstvennoi struktury insektotoksina I5A Buthus eupeus.

1H NMR spectroscopy has been used to collect data related to the spatial structure of insectotoxin I5A Buthus eupeus: pH-dependence of the chemical shifts, deuterium exchange rates of individual amide hydrogens, spin-spin coupling of the H-N-C alpha-H and H-C alpha-C beta-H protons, and nuclear Overhauser effect between distinct protons belonging to amino acid residues remote in the sequence. Molecular conformation in the regions from Asp9 to Cys19 (beta-turn 9-12 and right-hand alpha-helix 12-19) and from Asn23 to Asn34 (antiparallel beta-sheet with the beta-turn 27-30) directly follows from the observed parameters. Pseudoatomic approach of distance geometry algorithm was used to solve the overall folding of the molecule and propose the most probable set of disulfide bridges: Cys2-Cys19, Cys5-Cys31, Cys16-Cys26 and Cys20-Cys33. The spatial structure of insectotoxin I5A B. eupeus demonstrates remarkable similarity with that of a "long" type scorpion neurotoxin V-3 Centruroides sculpturatus.

Interaction surfaces of neurotoxins and acetylcholine receptor.

Binding of neurotoxin II Naja naja oxiana derivatives containing one spin label at various positions (Leu 1, Glu 2, Lys 15, Lys 25, Lys 26, His 31, Lys 44 and Lys 46) to purified solubilized acetylcholine receptor protein (AchR) from Torpedo marmorata was studied by EPR techniques. AchR interaction with several dansylated neurotoxin II derivatives was followed by difference fluorescence spectroscopy. A series of neurotoxin II p-azidobenzoyl derivatives were prepared and in three of them modified lysine residues were identified. In combination, spectroscopic data and photolabeling implicate a considerable area of the neurotoxin in association with AchR. Rigidity of the neurotoxin II conformation allowed to regard its binding surface as a mould of the AchR corresponding site and to estimate the minimal size of the latter. Conformation of the long-chain neurotoxins and their binding to AchR are briefly discussed basing on the 1H and 19F NMR studies of neurotoxin I Naja naja oxiana, toxin 3 Naja naja siamensis and its acetylated or trifluoroacetylated derivatives, as well as on Achr interaction with the derivatives spin labeled at Lys 27 and His 71.

The 1H nuclear-magnetic-resonance spectra and spatial structure of the Naja mossambica mossambica neurotoxin III.

The proton NMR spectra at 300 MHz of neurotoxin III from venom of Naja mossambica mossambica are reported. By the use of double resonance techniques, pH dependence chemical shifts, isotope labeling technique, and comparison with homologous neurotoxins all proton signals in the aromatic and methyl regions as well as epsilon-CH2 proton signals of some lysine residues have been assigned to individual amino acid residues and their spatial microenvironment has been determined. The results deduced on the solution structure of neurotoxin III are in complete agreement with the crystal structure of sea snake erabutoxins as well as with the previously established backbone folding and inter-residue interactions for the Naja naja oxiana short-chain neurotoxin in solution. In addition evidence has been obtained (a) that the conformation of the beta turn in the 31-34 segment depends on the ionization state of Asp-31 and His-32 side chain groups and (b) that an intricate electrostatic interaction exists in a system of ionogenic groups of the invariant Lys-27, Lys-47, Asp-31, Arg-33, Glu-38 and His-32 residues. These aspects of dynamic conformation are related to an interaction mechanism of a neurotoxin molecule and a nicotinic acetylcholine receptor.

Conformational studies of neurotoxin II from Naja naja oxiana. Selective N-acylation, circular dichroism and nuclear-magnetic-resonance study of acylation products.

After treatment of neurotoxin II, a component part of the venom of the Middle Asian cobra Naja naja oxiana, with acetoxysuccinimide all five possible epsilon-acetylated-lysyl derivatives were obtained and the position of the label was established. Trifluoroacetylation of both the derivatives and the parent toxin yielded, respectively, the five acetyl-penta(trifluoroacetyl)-neurotoxins II and the hexa(trifluoroacetyl)-neurotoxin II, which were studied by circular dichroism (CD), 1H and 19F nuclear magnetic resonance (NMR) spectroscopy. The availability of this series of compounds made possible assignment of all six fluorine signals (from the N-terminal and the five epsilon-amino groups) in the hexa(trifluoroacetyl)-neurotoxin II NMR spectra and disclosure of the proximity of the Lys-26 and Lys-46 trifluoroacetyl groups. The pH dependence of the 19F NMR signals was determined and the pK values of the groups affecting the signal chemical shifts were calculated by a computer iterative program. In order to ascertain the relative accessibility of the lysyl side chains, the change in halfwidths of the hexatrifluoroacetylated neurotoxin II 19F signals, with addition of varying amounts of an iminoxyl spin probe, was determined. The data obtained are compared with the X-ray data on sea snake neurotoxins and the significance of the side chain interactions observed in solution is discussed.

Proton-nuclear-magnetic-resonance study of the conformation of neurotoxin II from Middle-Asian cobra (Naja naja oxiana) venom.

A proton nuclear magnetic resonance (NMR) study at 100 and 300 MHz of neurotoxin II from the venom of Middle-Asian cobra Naja naja oxiana has been performed in 2H2O and H2O solutions. By means of chemical modification and double resonance all the aromatic residue resonances have been assigned. From the NMR titration curves, pK values of histidine 4 and histidine 31 residues have been determined. For one of the two neighbouring tryptophan residues pH dependence (in the 2-8-pH range) of the chemical shifts of indole protons has been revealed. According to the different sensitivity of the linewidth of indole NH resonances to pH in H2O solution, the accessibility of each of the tryptophan residues has been estimated. Temperature dependence has been observed for the linewidth of the aromatic resonances of the tyrosine 24 residue. Deuterium exchange rates have been measured for amide protons as well as for C(2)H histidine resonances. The NMR data obtained have allowed the conclusions to be made that the two histidine residues and one of the tryptophan residues should be localized on the surface of the protein globule, that arginine residues should be present in the environment of histidine 4, that histidine 31 and the buried tryptophan are possibly localized in close spatial proximity and that the side chain of tyrosine 24 is buried within the protein globule.

Intervesicular phospholipid exchange. An NMR study.

Phospholipid exchange between phosphatidylinositol and phosphatidylcholine ?vesicles has been studied by NMR spectroscopy with use of hydrophilic paramagnetic lanthanide probes (Pr-3+ and Eu-3+ ions). The dependence of the lanthanide induced shifts in the1-H and 31-P NMR spectra on the phospholipid composition of the vesicles could be used for its quantitative evaluation. The method has been proved to be applicable for studying phospholipid exchange stimulated by soluble proteins (postmicrosomal supernatant fraction) from rat liver. Furthermore it has been shown that the phospholipid molecules newly introduced by protein-stimulated exchange are predominantly incorporated into the outermonolayer of the vesicular bilayer membrane. This makes it possible to produce liposomes with asymmetric distribution of the phospholipids across the bilayer.