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1.
The crystal structure of glycolate oxidase from spinach has been determined to 5.5 Å resolution, using two isomorphous heavy-atom derivatives and their anomalous contributions. In the electron density map the boundaries of the octameric molecules are clearly seen. The subunit molecular weight is 37,000. Two protomers are in very close contact around one of the crystallographic 2-fold axes. Four such dimers are in contact around the 4-fold axis, so that the glycolate oxidase molecules are arranged as octamers with 422 symmetry in the crystal lattice. The roughly spherical octameric molecules have a diameter of approximately 100 Å. These octamers are arranged in a network, such that large solvent channels, approximately 60Å in diameter, pass right through the crystal lattice.The secondary structure of two-thirds of the subunit density has been interpreted in terms of eight consecutive β strand-α-helix units forming a cylinder very similar to the structure of triose phosphate isomerase. This interpretation is based on the very characteristic arrangement of the eight helices which form such a cylinder. The binding site of a substrate analogue, thioglycolate, has been localized in a deep cleft of the subunit at one end of the βα-barrel close to its axis.  相似文献   

2.
Structural trees for large protein superfamilies, such as β proteins with the aligned β sheet packing, β proteins with the orthogonal packing of α helices, two-layer and three-layer α/β proteins, have been constructed. The structural motifs having unique overall folds and a unique handedness are taken as root structures of the trees. The larger protein structures of each superfamily are obtained by a stepwise addition of α helices and/or β strands to the corresponding root motif, taking into account a restricted set of rules inferred from known principles of the protein structure. Among these rules, prohibition of crossing connections, attention to handedness and compactness, and a requirement for α helices to be packed in α-helical layers and β strands in β layers are the most important. Proteins and domains whose structures can be obtained by stepwise addition of α helices and/or β strands to the same root motif can be grouped into one structural class or a superfamily. Proteins and domains found within branches of a structural tree can be grouped into subclasses or subfamilies. Levels of structural similarity between different proteins can easily be observed by visual inspection. Within one branch, protein structures having a higher position in the tree include the structures located lower. Proteins and domains of different branches have the structure located in the branching point as the common fold. Proteins 28:241–260, 1997. © 1997 Wiley-Liss Inc.  相似文献   

3.
Hu C  Koehl P  Max N 《Proteins》2011,79(10):2828-2843
The three‐dimensional structure of a protein is organized around the packing of its secondary structure elements. Predicting the topology and constructing the geometry of structural motifs involving α‐helices and/or β‐strands are therefore key steps for accurate prediction of protein structure. While many efforts have focused on how to pack helices and on how to sample exhaustively the topologies and geometries of multiple strands forming a β‐sheet in a protein, there has been little progress on generating native‐like packings of helices on sheets. We describe a method that can generate the packing of multiple helices on a given β‐sheet for αβα sandwich type protein folds. This method mines the results of a statistical analysis of the conformations of αβ2 motifs in protein structures to provide input values for the geometric attributes of the packing of a helix on a sheet. It then proceeds with a geometric builder that generates multiple arrangements of the helices on the sheet of interest by sampling through these values and performing consistency checks that guarantee proper loop geometry between the helices and the strands, minimal number of collisions between the helices, and proper formation of a hydrophobic core. The method is implemented as a module of ProteinShop. Our results show that it produces structures that are within 4–6 Å RMSD of the native one, regardless of the number of helices that need to be packed, though this number may increase if the protein has several helices between two consecutive strands in the sequence that pack on the sheet formed by these two strands. Proteins 2011; Published 2011 Wiley‐Liss, Inc.  相似文献   

4.
Park KT  Wu W  Battaile KP  Lovell S  Holyoak T  Lutkenhaus J 《Cell》2011,146(3):396-407
In E. coli, MinD recruits MinE to the membrane, leading to a coupled oscillation required for spatial regulation of the cytokinetic Z ring. How these proteins interact, however, is not clear because the MinD-binding regions of MinE are sequestered within a six-stranded β sheet and masked by N-terminal helices. minE mutations that restore interaction between some MinD and MinE mutants were isolated. These mutations alter the MinE structure leading to release of the MinD-binding regions and the N-terminal helices that bind the membrane. Crystallization of MinD-MinE complexes revealed a four-stranded β sheet MinE dimer with the released β strands (MinD-binding regions) converted to α helices bound to MinD dimers. These results identify the MinD-dependent conformational changes in MinE that convert it from a latent to an active form and lead to a model of how MinE persists at the MinD-membrane surface.  相似文献   

5.
The 8-fold α/β barrel conformation of 2-keto-3-deoxy-6-phosphogluconate aldolase has been compared to that of triosephosphate isomerase and the A-domain of pyruvate kinase. There are eight supersecondary structure units (α/β) in each of these proteins, and the comparisons were carried out in orientations corresponding to each of the possible congruences, i.e. first to first, first to second,… of the supersecondary structure units. The comparison of the Cα structure of the main chain folding of the three enzymes indicated about 150 equivalences with rootmean-square differences of about 3.1 Å, with no orientational preference, including the aldolase with itself. In addition, there is no sequence homology between the aldolase and the isomerase, and no indication of gene duplication in the former. The lack of orientational preference among the three enzymes suggests convergence to a fold of exceptional stability. However, all three enzymes activate a CH bond adjacent to a carbonyl, and their active sites correspond to the f strand, F helix region of the α/β barrel, thus contradicting the foregoing and suggesting divergent evolution from a common precursor. Other and similar arguments are also presented for and against convergent evolution of these three strikingly similar enzymes.  相似文献   

6.
A secondary structure has been predicted for the C termini of the fibrinogen β and γ chains from an aligned set of homologous protein sequences using a transparent method that extracts conformational information from patters of variation and conservation, parsing strings, and patterns of amphiphilicity. The structure is modeled to form two domains, the first having a core parallel sheet flanked on one side by at least two helices and on the other by an antiparallel amphiphilic sheet, with an additional helix connecting the two sheets. The second domain is built entirely from β strands. © 1997 Wiley-Liss, Inc.  相似文献   

7.
The activities of glycolytic and other enzymes of carbohydrate metabolism were measured in free-living and parasitic stages of the rabbit stomach worm Obeliscoides cuniculi. Glucose-6-phosphate dehydrogenase, 6-phosphogluconate dehydrogenase, phosphoglucomutase, hexokinase, glucosephosphate isomerase, phosphofructokinase, aldolase, triosephosphate isomerase, α-glycerophosphatase, glyceraldehyde-3-phosphate dehydrogenase, phosphoglycerate kinase, phosphoglycerate mutase, enolase, pyruvate kinase, phosphoenol pyruvate carboxykinase, lactate dehydrogenase, alcohol dehydrogenase, and glucose-6-phosphatase activities were present in worms recovered 14, 20 and 190 days postinfection.The presence of glucose-6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase, and glucose-6-phosphatase indicates the possible function of a pentose phosphate pathway and a capacity for gluconeogenesis, respectively, in these worms.The ratio of pyruvate kinase (PK) to phosphoenol pyruvate carboxykinase (PEPCK) less than I in parasitic stages suggests that their most active pathway is that fixing CO2 into phosphoenol pyruvate to produce oxaloacetate.Low levels of glucose-6-phosphate dehydrogenase, triosephosphate isomerase, PEPCK and PK were recorded in infective third-stage larvae stored at 5°C for 5 and 12 mos. The ratio of PK to PEPCK greater than 1 indicates that infective larvae preferentially utilize a different terminal pathway than the parasitic stages.  相似文献   

8.
The structure of 2-keto-3-deoxy-6-phosphogluconate aldolase has been extended to 2.8 Å resolution from 3.5 Å resolution by multiple isomorphous replacement methods using three heavy-atom derivatives and anomalous Bijvoet differences to 6 Å resolution (〈m〉 = 0.72). The replacement phases were improved and refined by electron density modification procedures coupled with inverse transform phase angle calculations. A Kendrew model of the molecule was built, which contained all 225 residues of a recently determined amino acid sequence, whereas only 173 were accounted for at 3.5 Å resolution. The missing residues were found to be part of the interior of the molecule and not simply an appendage. The molecule folds to form an eight-strand α/β-barrel structure strikingly similar to triosephosphate isomerase, the A-domain of pyruvate kinase and Taka amylase. With a knowledge of the sequence, the nature of the interfaces of the two kinds of crystallographic trimers have been examined, from which it was concluded that the choice of trimers selected in the 3.5 Å resolution work was probably correct for trimers in solution. The active site region has been established from the position of the Schiff base forming Lys144 but it has not been possible to confirm it conclusively in independent derivative experiments. An apparent anomaly exists in the location of Glu56 (about 25 Å from Lys144). The latter has been reported to assist in catalysis.  相似文献   

9.
Atomic coordinates determined from a 2.5 Å electron density map are given for erabutoxin b, a sea snake venom postsynaptic neurotoxin. The principal structural features, anti-parallel β pleated sheet, β bulge and β bends are described. The erabutoxin b structure is discussed as structural prototype of this class of homologous curare-mimetic neurotoxins from both land and sea snakes.  相似文献   

10.
Analysis of electron-transfer (ET) kinetics data obtained from experiments on Ru-modified proteins (azurin, cytochrome c, myoglobin) and the bacterial photosynthetic reaction center reveals that distant donor-acceptor electronic couplings depend upon the secondary structure of the intervening polypeptide matrix. The β-sheet azurin structure efficiently and isotropically mediates coupling with an exponential distance-decay constant of 1.1?Å–1. The experimentally derived distance-decay constant of 1.4?Å–1 for long-range ET in myoglobin and the reaction center suggests that hydrogen-bond couplings are weaker through α helices than across β sheets. The donor-acceptor interactions of systems with comparable tunneling energies fall into two coupling zones: the β zone (bounded by distance-decay constants of 0.9?and 1.15 Å–1) includes all the β-sheet (azurin) couplings and all but one coupling in cytochrome c; the α zone (boundaries: 1.25 and 1.6?Å–1) includes less strongly coupled donor-acceptor pairs in myoglobin and the reaction center as well as a relatively weakly coupled pair in cytochrome c.  相似文献   

11.
李瑞芳  李宏 《生物信息学》2009,7(4):288-291
以大肠杆菌60个蛋白酶以及几种常见病毒(SARS病毒、艾滋病病毒、丙型肝炎病毒及乙型肝炎病毒)各蛋白质序列中的所有α-螺旋和β-折叠片段为研究对象,计算了各片段的折叠速率和平均极性,分别在各物种的α-螺旋和β-折叠两类二级结构片段中分析了二者的相关性。得到结论:不论是大肠杆菌中的蛋白酶还是病毒蛋白,其中的两类氨基酸片段的平均极性与折叠速率都是极显著相关的:对于所有的α片段,二者呈线性正相关,而对于所有的β片段,二者成线性负相关。结果证实了在蛋白质折叠中,氨基酸的极性起着重要的作用。  相似文献   

12.
FOLD, a computer program for the definition and analysis of protein secondary structure, is described. Algorithms implemented in the software are reviewed. These include methods for the identification of simple features such as hydrogen bonds, α helices, β strands, β bulges, and β and Ψ turns. Techniques are also described for the definition and analysis of higher-order structures, such as β hairpins, β sheets and their topology, and β barrels. In addition to considerable textual output the program supports visualization of protein secondary structure in either an atom-based display style or one reproducing the characteristics of a so-called ribbon drawing.  相似文献   

13.
Two separate unrefined models for the secondary structure of two subfamilies of the 6-phospho-β-D -galactosidase superfamily were independently constructed by examining patterns of variation and conservation within homologous protein sequences, assigning surface, interior, parsing, and active site residues to positions in the alignment, and identifying periodicities in these. A consensus model for the secondary structure of the entire superfamily was then built. The prediction tests the limits of an unrefined prediction made using this approach in a large protein with substantial functional and sequence divergence within the family. The protein belongs to the (α–β class), with the core β strands aligned parallel. The supersecondary structural elements that are readily identified in this model is a parallel β sheet built by strands C, D, and E, with helices 2 and 3 connecting strands (C + D) and (D + E), respectively, and an analogous α–β unit (strand G and helix 7) toward the end of the sequence. The resemblance of the supersecondary model to the tertiary structure formed by 8-fold α–β barrel proteins is almost certainly not coincidental. © 1995 Wiley-Liss, Inc.  相似文献   

14.
Isolation and enzymic characterization of euglena proplastids   总被引:2,自引:2,他引:0       下载免费PDF全文
Organelles were isolated from dark-grown Euglena gracilis Klebs by sucrose density gradient centrifugation. Plastids, identified by triosephosphate isomerase and NADP glyoxylate reductase were present at an equilibrium density of 1.24 grams per cubic centimeter clearly separated from mitochondria at an equilibrium density of 1.22 grams per cubic centimeter. Assay for choline phosphotransferase and glucose-6-phosphatase showed that endoplasmic reticulum membranes were present at a density of 1.12 grams per cubic centimeter. The plastid fraction contained phosphofructokinase, pyruvate kinase, triosephosphate isomerase and aldolase indicating the operation of a glycolytic pathway. During regreening pyruvate kinase and phosphofructokinase in the developing proplastid decreased, neither enzyme being present in the mature chloroplast. However, plastids were present in the photosynthetic cell as shown by a peak of glycolysis enzymes at an equilibrium density of 1.24 grams per cubic centimeter.  相似文献   

15.
The crystal structure of the B-polymorph of amylose appears to be based on double-stranded helices. The individual strands are in a right-handed six-fold helical conformation repeating in 20.8 Å and are wound parallel around each other. The steric disposition of O-6 is gt. The double helices pack in a hexagonal unit-cell (ab  18.50 Å, c (fiber repeat)  10.40 Å, γ  120°), with two helices (12 d-glucose residues) per cell. The helices are packed antiparallel and leave an open channel within a hexagonal array that is filled with water molecules. The reliability of the structure analysis is indicated by R  0.22. The structure of B-amylose is consistent with the diffraction diagrams of B-starches and accounts for the physical properties of such starches.  相似文献   

16.
A good model to experimentally explore evolutionary hypothesis related to enzyme function is the ancient‐like dual‐substrate (βα)8 phosphoribosyl isomerase A (PriA), which takes part in both histidine and tryptophan biosynthesis in Streptomyces coelicolor and related organisms. In this study, we determined the Michaelis–Menten enzyme kinetics for both isomerase activities in wild‐type PriA from S. coelicolor and in selected single‐residue monofunctional mutants, identified after Escherichia coli in vivo complementation experiments. Structural and functional analyses of a hitherto unnoticed residue contained on the functionally important β → α loop 5, namely, Arg139, which was postulated on structural grounds to be important for the dual‐substrate specificity of PriA, is presented for the first time. Indeed, enzyme kinetics analyses done on the mutant variants PriA_Ser81Thr and PriA_Arg139Asn showed that these residues, which are contained on β → α loops and in close proximity to the N‐terminal phosphate‐binding site, are essential solely for the phosphoribosyl anthranilate isomerase activity of PriA. Moreover, analysis of the X‐ray crystallographic structure of PriA_Arg139Asn elucidated at 1.95 Å herein strongly implicates the occurrence of conformational changes in this β → α loop as a major structural feature related to the evolution of the dual‐substrate specificity of PriA. It is suggested that PriA has evolved by tuning a fine energetic balance that allows the sufficient degree of structural flexibility needed for accommodating two topologically dissimilar substrates—within a bifunctional and thus highly constrained active site—without compromising its structural stability.  相似文献   

17.
Crystal structure of muconolactone isomerase at 3.3 A resolution   总被引:2,自引:0,他引:2  
The crystal structure of muconolactone isomerase from Pseudomonas putida, a unique molecule with ten 96 amino acid subunits and 5-fold, and 2-fold symmetries, has been solved at 3.3 A resolution. The non-crystallographic symmetries were used to refine the initial single isomorphous replacement phases and produce an interpretable 10-fold averaged map. The backbone trace is complete and confirmed by the amino acid sequence fit. Each subunit is composed of a body with two alpha-helices and an antiparallel twisted beta-sheet of four strands, and an extended arm. The helices and the sheet fold to form a two-layered structure with an enclosed hydrophobic core and a partially formed putative active site pocket. The C-terminal arm of another subunit related by a local dyad symmetry extends over the core to complete this pocket. The decameric protein is almost spherical, with the helices forming the external coat. There is a large hydrophilic cavity in the center with open ends along the 5-fold axis. Molecular interactions between subunits are extensive. Each subunit contacts four neighbors and loses nearly 40% of its solvent contact area on oligomerization.  相似文献   

18.
Pei‐Kun Yang 《Biopolymers》2014,101(8):861-870
To explore the effect of an external electrostatic field (EEF) on the stability of protein conformations, the molecular dynamic modeling approach was applied to evaluate the effect of an EEF along the x or y direction on a water cluster containing a parallel or antiparallel β sheet structure. The β sheet structure contained two strands with a (Gly)3 sequence separated by a distance d along the x direction. The mean forces between the two strands along the x direction were computed from the trajectories of molecular dynamics simulations. In the absence of the EEF, the forces between the two strands in vacuum were repulsive and attractive in the parallel and antiparallel β sheet structures, respectively. In contrast, the mean forces between the two strands in water were attractive in both the parallel and antiparallel β sheet structures. This is because the electric interactions between the two strands were shielded by water, and the hydrophobic effect dominated the interaction between the two strands. When an EEF >50 MV/cm was applied to the water cluster, the attractive force between the two strands in the parallel and antiparallel β sheet structures decreased and increased, respectively. Further, the binding affinity between the two strands in the parallel and antiparallel β sheet structures also decreased and increased, respectively. This is because the large EEF leads to dielectric saturation, and consequently reduces the effects of the dielectric shielding and hydrophobic interactions. © 2014 Wiley Periodicals, Inc. Biopolymers 101: 861–870, 2014.  相似文献   

19.
Glycolytic enzyme levels in synaptosomes   总被引:2,自引:0,他引:2  
The specific activities of glucosephosphate isomerase, aldolase, triosephosphate isomerase, glyceraldehydephosphate dehydrogenase, phosphoglycerate kinase, phosphoglycerate mutase, pyruvate kinase and lactate dehydrogenase were all higher in the synaptoplasmic fraction from rat brain than in 100,000 g supernatant fraction of rat brain homogenates when the supernatants were prepared in high ionic strength solutions. Four enzymes in synaptosomes and two enzymes in homogenates were associated with particulate fractions as indicated by the large increase in specific activity of the enzymes when samples were treated with 0.3 M KCl before centrifugation. Glucosephosphate isomerase, aldolase, pyruvate kinase and lactate dehydrogenase were the enzymes that showed a large increase in specific activity following salt treatment of isolated, synaptosomal membrane while aldolase and pyruvate kinase were the two enzymes which showed a large increase in specific activity in the high speed supernatant fractions. Because the specific activities of many enzymes are found to be elevated not only in synaptosomes but in synaptosomal membrane fractions it is suggested that these enzymes may provide the potential for significantly enhanced glycolysis at these locations.  相似文献   

20.
A 6 Å resolution electron density map of cat muscle pyruvate kinase has been calculated. From this map it has been possible to isolate a single molecule and to assign subunit boundaries. The binding of substrates, products and the divalent metal cation has been studied.  相似文献   

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