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1.
The underlying basis of the main chain directed (MCD) resonance assignment strategy for the analysis of 1H NMR spectra of proteins is reexamined. The criteria used in the construction of the patterns used in the MCD method have been extended to increase the robustness of the approach to the presence of variable protein secondary structure and significant spectral degeneracy. These criteria have led to the development of several dozen patterns exclusively involving the short distance relationships between main chain amide NH-C alpha-H-C beta H (NAB) J-coupled subspin systems of the amino acid residues. The MCD patterns have been examined for fidelity and frequency of occurrence in a database composed of the high resolution crystal structures of 39 proteins. The analysis has identified several extremely robust patterns, suitable for initiating a hierarchical construction of units of secondary structure based upon a systematic analysis of two-dimensional nuclear Overhauser effect spectra. A formal procedure, suitable for the computer assisted application of the MCD strategy, is developed. This procedure, termed MCDPAT, has been applied to the analysis of the crystal structures of human ubiquitin, T4 lysozyme, and ribonuclease A. It has been found that the MCDPAT procedure is conservative producing no significant errors and is globally successful in correctly identifying the appropriate units of secondary structure contained in these three proteins.  相似文献   

2.
Proton resonance assignments of horse ferrocytochrome c   总被引:4,自引:0,他引:4  
Two-dimensional nuclear magnetic resonance (NMR) spectroscopy was used to assign the proton resonances of horse ferrocytochrome c. Assignments were based on the main chain directed (MCD) and sequential assignment procedures. The fundamental units of the MCD approach, the main-chain NH-C alpha H-C beta H J-coupled subspin systems of each amino acid residue (NAB sets), were defined by analysis of direct and relayed coherence transfer spectra. Recognition of main-chain NOE connectivity patterns specified in the MCD algorithm then allowed NAB sets to be aligned in their proper juxtaposition within secondary structural units. The units of secondary structure were placed within the polypeptide sequence of identification of a small number of side-chain J-coupled spin systems, found by direct recognition in 2D spectra of some J-coupled spin systems and by pairwise comparisons of the J-correlated spectra of six homologous cytochromes c having a small number of known amino acid differences. The placement of a given segment in this way defines the amino acid identity of all its NAB sets. This foreknowledge allowed the vast majority of the side-chain resonances to be discerned in J-correlated spectra. Extensive confirmation of the assignments derives internally from multiple main-chain NOE connectivities and their consistency following temperature-induced changes of the chemical shifts of NOE-correlated protons. The observed patterns of main-chain NOEs provide some structural information and suggest small but potentially significant differences between the solution structure observed by NMR and that defined earlier in crystallographic studies at 2.8-A resolution.  相似文献   

3.
Two-dimensional NMR studies of the antimicrobial peptide NP-5   总被引:5,自引:0,他引:5  
A C Bach  M E Selsted  A Pardi 《Biochemistry》1987,26(14):4389-4397
Nearly complete proton resonance assignment of the rabbit antimicrobial peptide NP-5 has been made from two-dimensional NMR data taken at a single temperature. The assignment procedure involved acquisition of phase-sensitive double-quantum-filtered correlation spectra, relayed coherence-transfer spectra, total correlation (homonuclear Hartmann-Hahn) spectra, double- and triple-quantum spectra, and nuclear Overhauser effect spectra. The combination of these complementary experiments simplified and accelerated resonance assignment of the peptide. Individual assignments were made at 20 degrees C for all amide and C alpha protons in the peptide, and for all nonlabile side-chain protons on 26 of the 33 amino acid residues in NP-5. Analysis of the proton-proton nuclear Overhauser effect connectivities, the slowly exchanging amide protons, and the proton chemical shifts in NP-5 indicates that the peptide has a stable, ordered structure in solution. These data also indicate that residues 19-29 in NP-5 are involved in an antiparallel beta-sheet that has a hairpin conformation.  相似文献   

4.
Kringle 4 is an autonomous structural and folding domain within the proenzyme plasminogen. Homologous domains are found throughout the blood clotting and fibrinolytic proteins. In this paper, we present the almost complete assignment of the 1H nuclear magnetic resonance (n.m.r.) spectrum of the kringle 4 domain of human plasminogen. A detailed structural analysis has been completed. The sequential pattern of nuclear Overhauser enhancements indicated little regular secondary structure but rather a series of turns and loops connecting beta-strands. A small stretch of antiparallel beta-sheet was identified between the residues 61 to 63 and 71 to 73 and the close proximity of other strands was determined from two-dimensional nuclear Overhauser enhancement spectra. Slowly exchanging amide (NH) resonances were found to be associated with residues of the beta-sheet and neighbouring strands that support the hydrophobic core of the domain. A total of 526 interproton distance constraints and two hydrogen bonds were specified as input to the distance geometry program DISGEO. Tertiary structures were produced that were consistent with the n.m.r. data. The structures were compared with that of our earlier model based on n.m.r. studies and with that of prothrombin fragment 1 determined crystallographically.  相似文献   

5.
S W Englander  A J Wand 《Biochemistry》1987,26(19):5953-5958
A strategy for assigning the resonances in two-dimensional (2D) NMR spectra of proteins is described. The method emphasizes the analysis of through-space relationships between protons by use of the two-dimensional nuclear Overhauser effect (NOE) experiment. NOE patterns used in the algorithm were derived from a statistical analysis of the combinations of short proton-proton distances observed in the high-resolution crystal structures of 21 proteins. One starts with a search for authentic main-chain NH-C alpha H-C beta H J-coupled units, which can be found with high reliability. The many main-chain units of a protein are then placed in their proper juxtaposition by recognition of predefined NOE connectivity patterns. To discover these connectivities, the 2D NOE spectrum is examined, in a prescribed order, for the distinct NOE patterns characteristic of helices, sheets, turns, and extended chain. Finally, the recognition of a few amino acid side-chain types places the discovered secondary structure elements within the polypeptide sequence. Unlike the sequential assignment approach, the main-chain-directed strategy does not rely on the difficult task of recognizing many side-chain spin systems in J-correlated spectra, the assignment process is not in general sequential with the polypeptide chain, and the prescribed connectivity patterns are cyclic rather than linear. The latter characteristic avoids ambiguous branch points in the analysis and imposes an internally confirmatory property on each forward step.  相似文献   

6.
Nuclear magnetic resonance data on the protease inhibitor IIA from bull seminal plasma were used to determine the secondary structure elements in the solution conformation of the protein. The experimental data were obtained from analyses of two-dimensional 1H nuclear magnetic resonance spectra at 500 and 360 MHz and include details of inter-residue nuclear Overhauser enhancements, vicinal spin-spin coupling constants and the sequence location of slowly exchanging amide protons. Accurate measurement of coupling constants and reliable assignments of nuclear Overhauser enhancements were facilitated by the use of absorption mode two-dimensional spectroscopy and large data matrices. It is shown that the peptide backbone is extended from residues 4 to 7, followed by a poorly defined helical region from residues 8 to 13 with a marked change of direction at residue Phe10. Residues 15 to 19 are extended and there is a kink at residue Glu20. Residues 22 to 27 form the central strand of a triple-stranded antiparallel beta-sheet, of which the other two strands are residues 29 to 33 and 49 to 53. Residues 34 to 46 form a helix. The tight turn in the beta-sheet is of type I geometry, and there is a beta-bulge at residue His53.  相似文献   

7.
D E Wemmer  S H Chou  D R Hare  B R Reid 《Biochemistry》1984,23(10):2262-2268
The resonances of most of the nonexchangeable protons of both + and - strands of the consensus Pribnow dodecamer d( CGTTATAATGCG ) have been assigned by two-dimensional nuclear magnetic resonance methods. Application of the two-dimensional nuclear Overhauser effect ( NOESY ) sequential connectivity method, combined with two-dimensional autocorrelated ( COSY ) spectra to reveal scalar-coupled protons, results in assignment of virtually all of the base and sugar protons, except the sugar C5 protons which are inadequately resolved. Analysis of the nuclear Overhauser data indicates that the helix assumes a fairly uniform B form conformation.  相似文献   

8.
A conformational species of gramicidin A has been isolated in dioxane by high pressure liquid chromatography and characterized by circular dichroism and two-dimensional proton nuclear magnetic resonance. Double-quantum filtered two-dimensional correlation spectroscopy, two-dimensional homonuclear Hartman Hahn spectroscopy and two-dimensional nuclear Overhauser effect spectra at 500 MHz were used to obtain virtually complete proton assignments and produce 192 distance constraints. Protocols to determine the state of aggregation, monomer-specific assignment of nuclear Overhauser enhancement values, hydrogen bonding pattern and helix handedness are described. A distance geometry/simulated annealing routine was used to generate well-defined backbone and side-chain structures. The species isolated is a right-handed intertwined double helix, with approximately 5.7 residues per turn. Unique values for helical dimensions are also specified.  相似文献   

9.
The sequential resonance assignment of the 1H NMR spectrum of the antihypertensive and antiviral protein BDS-I from the sea anemone Anemonia sulcata is presented. This is carried out with two-dimensional NMR techniques to identify through-bond and through-space (less than 5 A) connectivities. Added spectral complexity arises from the fact that the sample is an approximately 1:1 mixture of two BDS-I isoproteins, (Leu-18)-BDS-I and (Phe-18)-BDS-I. Complete assignments, however, are obtained, largely due to the increased resolution and sensitivity afforded at 600 MHz. In addition, the stereospecific assignment of a large number of beta-methylene protons is achieved from an analysis of the pattern of 3J alpha beta coupling constants and the relative magnitudes of intraresidue NOEs involving the NH, C alpha H, and C beta H protons. Regular secondary structure elements are deduced from a qualitative interpretation of the nuclear Overhauser enhancement, 3JHN alpha coupling constant, and amide NH exchange data. A triple-stranded antiparallel beta-sheet is found to be related to that found in partially homologous sea anemone polypeptide toxins.  相似文献   

10.
H J Dyson  A Holmgren  P E Wright 《Biochemistry》1989,28(17):7074-7087
Complete proton assignments are reported for the 1H nuclear magnetic resonance (NMR) spectrum of Escherichia coli thioredoxin in the oxidized (with active-site disulfide bridge) and reduced (with two sulfhydryl groups) states. The assignments were obtained by using an integrated assignment strategy in which spin systems were identified from a combination of relayed and multiple quantum NMR techniques prior to sequential assignment. Elements of secondary structure were identified in each protein from characteristic nuclear Overhauser effects (NOE), coupling constants, and slowly exchanging amide protons. In both oxidized and reduced thioredoxin, approximately 33% of the 108 amino acid residues participate in a beta-sheet containing four major strands (three antiparallel and one parallel). A further short beta-strand is connected in a parallel fashion at the N-terminal end of the sheet. Two of the antiparallel beta-strands are connected by a 7-residue beta-bulge loop. Three helical segments, also containing approximately 33% of the amino acid residues, are well-defined in both oxidized and reduced thioredoxin. The remaining third of the molecule apparently consists of reverse turns and loops with little defined secondary structure. The global folds of oxidized and reduced thioredoxin are shown to be essentially identical. Both NOE connectivities and chemical shift values for the two proteins are very similar, except in the immediate vicinity of the active site where significant variations in the chemical shift indicate subtle conformational changes. While the overall fold of oxidized thioredoxin is the same in solution and in the crystalline state, some small differences in local conformation are apparent.  相似文献   

11.
S Ludvigsen  F M Poulsen 《Biochemistry》1992,31(37):8771-8782
Barwin, a basic protein from barley seed of 125 amino acid residues, has been studied by two-dimensional 1H nuclear magnetic resonance spectroscopy. This protein is closely related to the C-terminal domain of proteins whose synthesis is induced by wounding, the so-called win proteins. These proteins may, therefore, have a role in the defense against fungal attack. Full assignment of the 1H nuclear magnetic resonances has been obtained for 104 amino acid residues, and 18 amino acid spin systems were partially assigned. Sequence-specific assignment using nuclear Overhauser spectroscopy has been achieved for 122 of the 125 residues. This has revealed that the secondary structure of the protein is dominated by a large four-stranded antiparallel beta-sheet consisting of the strands Gln2-Thr9, Lys65-Asn71, Gln77-Arg81, and His113-Val121, a small parallel beta-sheet of the strands Trp48-Cys52 and Asp84-Ala87, which together account for a third of the protein. Sequential effects indicate the presence of three small alpha-helices, Tyr30-Lys38, Leu40-Tyr46, and Thr97-Asp103. The secondary structure in other regions of the sequence is characterized mainly by loops and turns and regions where no regular secondary structure arrangement could be identified. A large number of long-range nuclear Overhauser effects has been identified, and these have been used, together with sequential and intranuclear Overhauser effects, for a calculation of the protein's three-dimensional structure.  相似文献   

12.
H Torigoe  I Shimada  A Saito  M Sato  Y Arata 《Biochemistry》1990,29(37):8787-8793
The recombinant B domain (FB) of staphylococcal protein A, which specifically binds to the Fc portion of immunoglobulin G (IgG), has been investigated with the use of two-dimensional proton nuclear magnetic resonance spectroscopy. All backbone and side-chain proton resonances of FB (60 amino acid residues), except the amide proton resonance of Ala2, were assigned by the sequential assignment procedures by using double-quantum-filtered correlated spectroscopy (DQF-COSY), homonuclear Hartmann-Hahn spectroscopy (HOHAHA), and nuclear Overhauser enhancement spectroscopy (NOESY). On the basis of the NOESY data, three helical regions, Glu9-His19, Glu25-Asp37, and Ser42-Ala55, were identified in the free FB in solution. Existence of two of the three helical regions, Glu9-His19 and Glu25-Asp37, in consistent with the X-ray crystallographic structure of the Fc-bound FB [Deisenhofer, J. (1981) Biochemistry 20, 2361-2370]. By contrast, in the Fc-bound FB as revealed by the X-ray analysis, the Ser42-Glu48 segment is extended and no structural information has been available in the Ala49-Ala55 segment. We suggest that a significant conformation change is induced in the C-terminal region of FB when it is bound to the Fc portion of IgG.  相似文献   

13.
Sequence-specific assignments are reported for the 500-MHz 1H nuclear magnetic resonance (NMR) spectrum of the 48-residue polypeptide neurotoxin I from the sea anemone Stichodactyla helianthus (Sh I). Spin systems were first identified by using two-dimensional relayed or multiple quantum filtered correlation spectroscopy, double quantum spectroscopy, and spin lock experiments. Specific resonance assignments were then obtained from nuclear Overhauser enhancement (NOE) connectivities between protons from residues adjacent in the amino acid sequence. Of a total of 265 potentially observable resonances, 248 (i.e., 94%) were assigned, arising from 39 completely and 9 partially assigned amino acid spin systems. The secondary structure of Sh I was defined on the basis of the pattern of sequential NOE connectivities, NOEs between protons on separate strands of the polypeptide backbone, and backbone amide exchange rates. Sh I contains a four-stranded antiparallel beta-sheet encompassing residues 1-5, 16-24, 30-33, and 40-46, with a beta-bulge at residues 17 and 18 and a reverse turn, probably a type II beta-turn, involving residues 27-30. No evidence of alpha-helical structure was found.  相似文献   

14.
1H Nuclear magnetic resonance assignments are given for the NH and C alpha H protons of two alpha-helical segments of tuna ferricytochrome c. The assignments were obtained using two-dimensional nuclear magnetic resonance sequential assignment procedures and illustrate the applicability of these methods to medium-sized proteins. By comparing nuclear Overhauser intensities between the NH and C alpha H protons the precise structures of the two helical segments are compared and their deviations from ideality are discussed.  相似文献   

15.
This paper describes a new nuclear magnetic resonance approach for the determination of secondary structure in globular proteins. To illustrate the practical application of the new procedure, two-dimensional correlated spectroscopy and two-dimensional nuclear Overhauser enhancement spectroscopy were used to obtain individual assignments for all the backbone protons of the beta-sheet secondary structures in the basic pancreatic trypsin inhibitor. First, combined connectivity diagrams of these two methods recorded in both 2H2O solution and H2O solution of the inhibitor were employed to obtain sequential, individual resonance assignments for the separate strands in the beta sheet. Second, a 2D nuclear Overhauser enhancement spectrum recorded with a long mixing time was used to determine how the separate, extended polypeptide strands are linked by hydrogen bonds in the sheet structures. By combination of these results with the identifications of the amino acid side-chain resonances described in the preceding paper, the beta-sheet structures can, without reference to data on the spatial structure obtained with other techniques, be localized in the amino acid sequence. This investigation confirms results on limited regions of the beta sheet in the inhibitor obtained previously with one-dimensional nuclear magnetic resonance experiments and demonstrates that the entire beta-sheet structure seen in single crystals of the inhibitor is preserved in aqueous solution.  相似文献   

16.
Two-dimensional proton nuclear magnetic resonance spectroscopy at 500 MHz has been carried out on the cyclic decapeptide antagonist of gonadotropin-releasing hormone: cyclo-(delta 3-Pro1-D-pClPhe2-D-Trp3-Ser4-Tyr5-D-Trp6-NMeLeu7-Arg8- Pro9-beta-Ala 10). The antagonist exists in two slowly interconverting conformations. All data are consistent with the conclusion that one form has all-trans peptide bonds and the other has a cis beta-Ala10-delta3-Pro1 bond. With the use of sequential assignment methods, chemical shift assignments were obtained for all backbone and side-chain protons of both conformational isomers except for the serine and tyrosine hydroxyl groups and the C gamma, C delta, and guanidinium group protons of the arginine. Temperature dependence of spectral parameters and magnitudes of observed nuclear Overhauser effects support the interpretation that both conformers of the antagonist consist of two beta-turns (type II', D-Trp6-NMeLeu7; type II, delta 3-Pro1-D-pClPhe2) connected by extended antiparallel beta-like strands.  相似文献   

17.
The secondary structure of two-electron-reduced Megasphaera elsdenii flavodoxin has been determined by visual, qualitative inspection of the sequential connectivities involving C alpha H, C beta H and NH protons observed in NOESY (two-dimensional nuclear Overhauser enhancement spectroscopy) spectra. Results from an amide proton exchange experiment were used to confirm the secondary structure assignment and to demonstrate the compactness and stability of the protein. After the secondary structure elements were established, the global fold of the protein and the flavin binding site have been determined using nonsequential interresidual NOE connectivities as primary source of information. The secondary structure and the global fold of M. elsdenii and Clostridium MP flavodoxin appeared to be very similar, differences are observed however. M. elsdenii flavodoxin consists of a central parallel beta-sheet including five strands surrounded on both sides by a pair of alpha-helices.  相似文献   

18.
The snake venom protein echistatin is a potent inhibitor of platelet aggregation. The inhibitory properties of echistatin have been attributed to the Arg-Gly-Asp sequence at residues 24-26. In this paper, sequence-specific nuclear magnetic resonance assignments are presented for the proton resonances of echistatin in water. The single-chain protein contains 49 amino acids and 4 cystine bridges. All of the backbone amide, C alpha H, and side-chain resonances, except for the eta-NH of the arginines, have been assigned. The secondary structure of the protein was characterized from the pattern of nuclear Overhauser enhancements, from the identification of slowly exchanging amide protons, from 3JC alpha H-NH coupling constants, and from circular dichroism studies. The data suggest that the secondary structure consists of a type I beta-turn, a short beta-hairpin, and a short, irregular, antiparallel beta-sheet and that the Arg-Gly-Asp sequence is in a flexible loop connecting two strands of the distorted antiparallel beta-sheet.  相似文献   

19.
N J Skelton  S Forsén  W J Chazin 《Biochemistry》1990,29(24):5752-5761
The solution structure and dynamics of apo bovine calbindin D9k have been studied by a wide range of two-dimensional 1H nuclear magnetic resonance experiments. Due to the presence of conformational heterogeneity in the wild-type protein, the sequential resonance assignment was carried out on a Pro43----Gly mutant. By use of a combination of scalar correlation experiments acquired from H2O solution, 61 of the 76 1H spin systems could be assigned to particular amino acid types. The remaining resonances were assigned by a parallel series of experiments acquired from 2H2O solution. These spin system assignments provided a basis for complete sequential resonance assignments from interresidue backbone nuclear Overhauser effects (NOEs). Elements of secondary structure were identified from sequential and medium-range NOEs, backbone spin-spin coupling constants, and slowly exchanging amide protons. Four sections of helix are delineated, together with a short antiparallel beta-sheet interaction between the peptide loops involved in Ca2+ binding. The global fold is provided by combining these elements of secondary structure with a subset of the long-range, interhelix NOEs. Comparison with similar studies on the Ca2(+)-saturated protein indicates that at this crude level the structures are very similar. However, removal of the Ca2+ does dramatically affect the dynamics of the protein, as judged by amide proton exchange rates and aromatic ring rotation. This is particularly evident in the increased flexibility of the residues in the hydrophobic core.  相似文献   

20.
A J Wand  S W Englander 《Biochemistry》1986,25(5):1100-1106
The 1H resonances of 11 sequential amino acids in the N-terminal helix of horse ferrocytochrome c were studied by two-dimensional nuclear magnetic resonance techniques. All the main-chain protons from Lys-5 through Ala-15 and many of the side-chain protons were assigned. J-Correlated spectroscopy (COSY) was used to distinguish protons on neighboring bonds and to recognize amino acid types. Nuclear Overhauser effect spectroscopy (NOESY) was used to define spatially contiguous protons and to determine amino acid sequence neighbors. The relayed coherence experiment (relay COSY) was used to resolve many ambiguities in intraresidue J-coupled connectivities and interresidue NOE connectivities. This required no explicit knowledge of the solution structure. The pattern of NOEs found is consistent with a regular alpha helix between glycine-6 and lysine-13; H bonding continues at least through alanine-15 [see Wand, A.J., Roder, H., & Englander, S. W. (1986) Biochemistry (following paper in this issue)]. Chain disorder occurs at the N-terminus. There is no indication of significant spin diffusion among the backbone amide and alpha-protons of this 12.4-kilodalton protein even at the longest NOE mixing time used (140 ms).  相似文献   

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