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1.
2.
A T = 1 empty aggregate of alfalfa mosaic virus coat protein had been crystallized in a hexagonal unit cell and its orientation was determined with the rotation function. A single heavy-atom derivative has now been prepared and the position of the two Hg atoms per protein subunit were determined using a systematic Patterson search procedure, given the particle orientation. Phases, initially determined by single isomorphous replacement, were refined by six cycles of electron density averaging and solvent leveling to produce a 4.5 A resolution electron density map. The protein coat is confined between 95 and 58 A radius. The subunit boundary could be delineated easily. It has a central cavity reminiscent of the beta-barrel in other spherical plant viruses, but its topology could not be determined unambiguously. The spherical particle has large holes at the 5-fold axes, consistent with previous observations. The subunits have substantial interactions at the 2 and 3-fold axes. The structure of the elongated particles is discussed in relation to these results.  相似文献   

3.
An X-ray crystallographic study at 4.5 Å resolution has been carried out with triclinic crystals of chicken mitochondrial aspartate aminotransferase.In the electron density map, the enzyme is clearly visible as an isologous α2-dimer (105 Å × 60 Å × 50 Å) in which the subunits are associated about a molecular 2-fold axis. Each subunit of dimensions 70 Å × 50 Å × 40 Å contains at least seven helices, one of which is about 50 Å long.Difference maps have revealed the positions of the pyridoxyl and the phosphate moieties of the coenzyme as well as the general substrate binding area. The active sites are on opposite sides of the dimer, about 30 Å apart and close to the intersubunit boundary, so that probably both subunits contribute to each active site. An isolated chain segment, passing in front of the active site and ending in contact with the neighbouring subunit is interpreted as one of the chain termini.  相似文献   

4.
5.
Leukotriene (LT) C(4) synthase, an 18 kDa integral membrane enzyme, conjugates LTA(4) with reduced glutathione to form LTC(4), the parent compound of all cysteinyl leukotrienes that play a crucial role in the pathobiology of bronchial asthma. We have calculated a projection map of recombinant human LTC(4) synthase at a resolution of 4.5 A by electron crystallography, which shows that the enzyme is a trimer. A map truncated at 7.5 A visualizes four transmembrane alpha helices per protein monomer. The densities in projection indicate that most of the alpha helices run nearly perpendicular to the plane of the membrane. At this resolution, LTC(4) synthase is strikingly similar to microsomal glutathione S-transferase 1, which belongs to the same gene family but bears little sequence identity and no resemblance in substrate specificity to the LTC(4) synthase. These results provide new insight into the structure and function of membrane proteins involved in eicosanoid and glutathione metabolism.  相似文献   

6.
Rabbit globin messenger RNA was labelled in vitro with 125I to specific activities in the range 20 to 200 × 106 cts/min per μg. This 125I-labelled mRNA bound to rabbit reticulocyte ribosomes with the kinetics and sensitivity to inhibitors expected from its participation in the normal process of the initiation of protein synthesis. Furthermore, when modified in 25% of its cytidine residues with unlabelled iodide, the mRNA coded for the same series of initiation peptides as did the unmodified mRNA. Using the techniques of RNA fingerprinting, the binding reaction was shown to select against contaminants and against “globin mRNA” molecules which lack a particular oligonucleotide implicated in the initiation process. When the 125I-labelled mRNA was bound to ribosomes, both the initiating 40 S subunits and the 80 S ribosomes protected a fraction of the mRNA from digestion by pancreatic ribonuclease. Fingerprint analysis showed that highly specific regions of the mRNA were protected by the 40 S subunits and 80 S ribosomes and that these two protected regions were not identical.  相似文献   

7.
Structure of papain refined at 1.65 A resolution   总被引:24,自引:0,他引:24  
Papain is a sulfhydryl protease from the latex of the papaya fruit. Its molecules consist of one polypeptide chain with 212 amino acid residues. The chain is folded into two domains with the active site in a groove between the domains. We have refined the crystal structure of papain, in which the sulfhydryl group was oxidized, by a restrained least-squares procedure at 1.65 A to an R-factor of 16.1%. The estimated accuracy in the atomic co-ordinates is 0.1 A, except for disordered atoms. All phi/psi angles for non-glycine residues are found within the outer limit boundary of a Ramachandran plot and this provides another check on the quality of the model. In the alpha-helical parts of the structure, the C = O bonds are directed more away from the helix axis than in a classical alpha-helix, leading to somewhat longer hydrogen bonds, 2.98 A, compared to 2.89 A. The hydrogen-bonding parameters and conformational angles in the anti-parallel beta-sheet structure show a large diversity. Hydrogen bonds in the core of the sheet are generally shorter than those at the more twisted ends. The average value is 2.91 A. The hydrogen bond distance Ni+3-Oi in turns is relatively long and the geometry is far from linear. Hydrogen bond formation, therefore, is perhaps not an essential prerequisite for turn formation. Although the crystallization medium is 62% (w/w) methanol in water, only 29 out of 224 solvent molecules can be regarded with any certainty as methanol molecules. The water molecules play an important role in maintaining structural stability. This is specially true for internal water. Twenty-one water molecules are located in contact areas between adjacent papain molecules. It seems as if the enzyme is trapped in a grid of water molecules with only a limited number of direct interactions between the protein molecules. The residues in the active site cleft belong to the most static parts of the structure. In general, disorder in atomic positions increases when going from the interior of the protein molecule to its surface. This behavior was quantified and it was found that the point of minimum disorder is near the molecular centroid.  相似文献   

8.
Structure of ubiquitin refined at 1.8 A resolution   总被引:35,自引:0,他引:35  
The crystal structure of human erythrocytic ubiquitin has been refined at 1.8 A resolution using a restrained least-squares procedure. The crystallographic R-factor for the final model is 0.176. Bond lengths and bond angles in the molecule have root-mean-square deviations from ideal values of 0.016 A and 1.5 degrees, respectively. A total of 58 water molecules per molecule of ubiquitin are included in the final model. The last four residues in the molecule appear to have partial occupancy or large thermal motion. The overall structure of ubiquitin is extremely compact and tightly hydrogen-bonded; approximately 87% of the polypeptide chain is involved in hydrogen-bonded secondary structure. Prominent secondary structural features include three and one-half turns of alpha-helix, a short piece of 3(10)-helix, a mixed beta-sheet that contains five strands, and seven reverse turns. There is a marked hydrophobic core formed between the beta-sheet and alpha-helix. The molecule features a number of unusual secondary structural features, including a parallel G1 beta-bulge, two reverse Asx turns, and a symmetrical hydrogen-bonding region that involves the two helices and two of the reverse turns.  相似文献   

9.
Structure of human oxyhaemoglobin at 2.1 A resolution   总被引:16,自引:0,他引:16  
The structure of human oxyhaemoglobin was determined by single crystal X-ray analysis at 2.1 A resolution. Data were collected on an Arndt-Wonacott camera at -2 degrees C. The structure was refined to an R factor of 0.223 by the Jack-Levitt method, starting from Baldwin's model of human carbon monoxide haemoglobin. The active sites in the alpha and beta subunit are distinct. The iron atoms are 0.16(8) A and 0.00(8) A from the mean plane of the porphyrin carbons and nitrogens (0.12(8) A and -0.11(8) A from the mean plane of the porphyrin nitrogens) in the alpha and beta subunit, respectively, in correlation with the orientation of HisF8 relative to the porphyrin nitrogens. The haem group appears to be nearly planar in the alpha subunit but ruffled in the beta subunit. The Fe-O(1)-O(2) angles are 153(7) degrees and 159(12) degrees in the alpha and beta subunit, respectively. The oxygen molecule forms a hydrogen bond to N epsilon of HisE7 in the alpha, but either none or a weak one in the beta subunit. The following bond lengths were found: Fe-N epsilon (HisF8) = 1.94(9) A (alpha) and 2.07(9) A (beta); Fe-O(1) = 1.66(8) A (alpha) and 1.87(13) A (beta); Fe-Nporph (mean = 1.99(5) A (alpha) and 1.96(6) A (beta). These dimensions agree with the values obtained in oxymyoglobin and model compounds. The C-terminal residues, ArgHC3(141 alpha) and HisHC3(146 beta), are relatively delocalized, and their positions do not enable them to form the intersubunit salt bridges in which they are involved in deoxyhaemoglobin. The penultimate tyrosine residues, TyrHC2 140 alpha and 145 beta, are relatively localized and maintain the hydrogen bonds to the carbonyl oxygens of ValFG5 (93 alpha and 98 beta), with only minor variations compared to their geometry in deoxyhaemoglobin. TyrHC2(145 beta), however, alternates between a major and a minor site, in conjunction with CysF9(93 beta), both sharing the internal pocket between the F and H helices while in the major conformation. This suggests that the role of the penultimate tyrosines in the allosteric mechanism may differ from that previously proposed by Perutz. The overall quaternary structure of oxyhaemoglobin is identical, within experimental error, to that of carbon monoxide haemoglobin, and thus confirms the applicability of the allosteric mechanisms proposed by Perutz and Baldwin & Chothia to the process of oxygen binding.  相似文献   

10.
Structure of concanavalin A at 2.4-A resolution   总被引:17,自引:0,他引:17  
K D Hardman  C F Ainsworth 《Biochemistry》1972,11(26):4910-4919
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11.
Structure of alpha-chymotrypsin refined at 1.68 A resolution   总被引:16,自引:0,他引:16  
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12.
Structure of ricin B-chain at 2.5 A resolution   总被引:2,自引:0,他引:2  
E Rutenber  J D Robertus 《Proteins》1991,10(3):260-269
The heterodimeric plant toxin ricin has been refined to 2.5 A resolution. The B-chain lectin (RTB) is described in detail. The protein has two major domains, each of which has a galactose binding site. RTB has no regular secondary structure but displays several omega loops. Each RTB domain is made of three copies of a primitive 40 residue folding unit, which pack around a pseudo threefold axis. In each domain, galactose binds in a shallow cleft formed by a three residue peptide kink on the bottom and an aromatic ring on the top. At the back of the cleft, an aspartate forms hydrogen bonds to the C3 and C4 hydroxyls of galactose, whereas a glutamine bonds to the C4 alcohol, helping to define specific epimer binding. In addition to analyzing the sugar binding mechanism, the assembly of subdomain units around the pseudo threefold axis of each domain is described. The subdomains contribute conserved Trp, Leu, and Ile residues to a compact central hydrophobic core. This tight threefold binding probably drives the peptide folding and stabilizes the protein structure.  相似文献   

13.
Th?e atomic structure of the light-driven ion pump bacteriorhodopsin and the surrounding lipid matrix was determined by X-ray diffraction of crystals grown in cubic lipid phase. In the extracellular region, an extensive three-dimensional hydrogen-bonded network of protein residues and seven water molecules leads from the buried retinal Schiff base and the proton acceptor Asp85 to the membrane surface. Near Lys216 where the retinal binds, transmembrane helix G contains a pi-bulge that causes a non-proline? kink. The bulge is stabilized by hydrogen-bonding of the main-chain carbonyl groups of Ala215 and Lys216 with two buried water molecules located between the Schiff base and the proton donor Asp96 in the cytoplasmic region. The results indicate extensive involvement of bound water molecules in both the structure and the function of this seven-helical membrane protein. A bilayer of 18 tightly bound lipid chains forms an annulus around the protein in the crystal. Contacts between the trimers in the membrane plane are mediated almost exclusively by lipids.  相似文献   

14.
Structure of calmodulin refined at 2.2 A resolution   总被引:43,自引:0,他引:43  
The crystal structure of mammalian calmodulin has been refined at 2.2 A (1 A = 0.1 nm) resolution using a restrained least-squares method. The final crystallographic R-factor, based on 6685 reflections in the range 2.2 A less than or equal to d less than or equal to 5.0 A with intensities exceeding 2.5 sigma, is 0.175. Bond lengths and bond angles in the molecule have root-mean-square deviations from ideal values of 0.016 A and 1.7 degrees, respectively. The refined model includes residues 5 to 147, four Ca2+ and 69 water molecules per molecule of calmodulin. The electron density for residues 1 to 4 and 148 is poorly defined, and they are not included in the model. The molecule is shaped somewhat like a dumbbell, with an overall length of 65 A; the two lobes are connected by a seven-turn alpha-helix. Prominent secondary structural features include seven alpha-helices, four Ca2+-binding loops, and two short, double-stranded antiparallel beta-sheets between pairs of adjacent Ca2+-binding loops. The four Ca2+-binding domains in calmodulin have a typical EF hand conformation (helix-loop-helix) and are similar to those described in other Ca2+-binding proteins. The X-ray structure determination of calmodulin shows a large hydrophobic cleft in each half of the molecule. These hydrophobic regions probably represent the sites of interaction with many of the pharmacological agents known to bind to calmodulin.  相似文献   

15.
W Kabsch  H G Mannherz    D Suck 《The EMBO journal》1985,4(8):2113-2118
The shape of an actin subunit has been derived from an improved 6 A map of the complex of rabbit skeletal muscle actin and bovine pancreatic DNase I obtained by X-ray crystallographic methods. The three-dimensional structure of DNase I determined independently at 2.5 A resolution was compared with the DNase I electron density in the actin:DNase map. The two structures are very similar at 6 A resolution thus leading to an unambiguous identification of actin as well as DNase I electron density. Furthermore the correct hand of the actin structure is determined from the DNase I atomic structure. The resolution of the actin structure was extended to 4.5 A by using a single heavy-atom derivative and the knowledge of the atomic coordinates of DNase I. The dimensions of an actin subunit are 67 A X 40 A X 37 A. It consists of a small and a large domain, the small domain containing the N terminus. Actin is an alpha,beta-protein with a beta-pleated sheet in each domain. These sheets are surrounded by several alpha-helices, comprising at least 40% of the structure. The phosphate peak of the adenine nucleotide is located between the two domains. The complex of actin and DNase I as found in solution (i.e., the actin:DNase I contacts which do not depend on crystal packing) was deduced from a comparison of monoclinic with orthorhombic crystals. Residues 44-46, 51, 52, 60-62 of DNase I are close to a loop region in the small domain of actin. At a distance of approximately 15 A there is a second contact in the large domain in which Glu13 of DNase I is involved. A possible binding region for myosin is discussed.  相似文献   

16.
Structure of rice ferricytochrome c at 2.0 A resolution   总被引:7,自引:0,他引:7  
The crystal structure of ferricytochrome c from rice embryos has been solved by X-ray diffraction to a resolution of 2.0 A, applying a single isomorphous replacement method with anomalous scattering effects. The initial molecular model was built on a graphics display system and was refined by the Hendrickson and Konnert method. The R factor was reduced to 0.25. Rice cytochrome c consists of III amino acid residues. In comparison with animal cytochromes c, the peptide chain extends for eight residues at the N-terminal end, which is characteristic for plant cytochromes c. These additional residues display a collagen-like conformation and an irregular reverse turn, and are located around the C-terminal alpha-helix on the surface or the rear side of the molecule. Two hydrogen bonds between the carbonyl oxygen of the N-terminal acetyl group and O eta of Tyr65, and between the peptide carbonyl oxygen of Pro-1 and O epsilon 1 of Gln89, are involved in holding these eight residues on the molecular surface, where Tyr65 and Gln89 are invariant in plant cytochromes c. Except for the extra eight residues, the main-chain conformations of both rice and tuna cytochromes c are essentially identical, though small local conformational differences are found at residues 24, 25, 56 and 57.  相似文献   

17.
The structure of human phosphopantothenoylcysteine (PPC) synthetase was determined at 2.3 A resolution. PPC synthetase is a dimer with identical monomers. Some features of the monomer fold resemble a group of NAD-dependent enzymes, while other features resemble the ribokinase fold. The ATP, phosphopantothenate, and cysteine binding sites were deduced from modeling studies. Highly conserved ATP binding residues include Gly43, Ser61, Gly63, Gly66, Phe230, and Asn258. Highly conserved phosphopantothenate binding residues include Asn59, Ala179, Ala180, and Asp183 from one monomer and Arg55' from the adjacent monomer. The structure predicts a ping pong mechanism with initial formation of an acyladenylate intermediate, followed by release of pyrophosphate and attack by cysteine to form the final products PPC and AMP.  相似文献   

18.
A 6 A resolution electron density map has been calculated for a bacterial lysozyme produced by Streptomyces erythraeus. This lysozyme differs from the vertebrate lysozyme in its size, amino acid composition, and specificity. The structure was determined by the method of isomorphous replacement. Three heavy atom derivatives were obtained by soaking crystals of the lysozyme in HgCl2, K2PtCl4, and UO2(NO3)26H2O. The resulting electron density map clearly shows the molecular boundary. The molecule is ellipsoidal in shape with average dimensions 50 A X 35 A X 35 A. High resolution analysis and sequence analysis of the molecule are in progress.  相似文献   

19.
Structure of oxidized poplar plastocyanin at 1.6 A resolution   总被引:16,自引:0,他引:16  
The structure of poplar plastocyanin in the oxidized (CuII) state at pH 6.0 has been refined, using 1.6 A resolution counter data. The starting co-ordinates were obtained from the 2.7 A electron density map computed with phases derived by the multiple isomorphous replacement method. The model was refined successively by constrained real space, unrestrained reciprocal space, and restrained reciprocal space least-squares methods. The final residual R value is 0.17 for 8285 reflections (I greater than 2 sigma (I)). It is estimated that the root-mean-square standard deviation of the atomic positions is 0.1 A when averaged over all atoms, and 0.05 A for the Cu ligand atoms alone. The refined structure retains all the essential features of the 2.7 A model. The co-ordination geometry of the copper atom is confirmed as being distorted tetrahedral. The two Cu-N(His) bonds, 2.10 and 2.04 A, are within the range normally found in low molecular weight CuII complexes with Cu-N(imidazole) bonds. The Cu-S(Cys) bond, 2.13 A, is also normal, but the Cu-S(Met) bond, 2.90 A, is sufficiently long to raise important questions about its significance. The hydrogen-bonding and secondary structure can now be assigned confidently. Forty-four water molecules are included in the final model. Repetition of the refinement, using new data to 1.9 A resolution recorded from crystals at pH 4.2, has led to a residual R value of 0.16 for 6060 reflections (I greater than sigma (I)). There are few significant changes in the structure of poplar CuII-plastocyanin between pH 6.0 and pH 4.2. In particular, the geometry of the copper site is not affected. The observed changes in redox behaviour of plastocyanin at low pH are therefore unlikely to be connected with structural changes in the oxidized form of the protein. A number of features of the molecular structure appear to be directly related to the function of plastocyanin as an electron carrier in photosynthesis. Comparison between the known amino acid sequences of 67 plant plastocyanins reveals 52 conserved and 11 conservatively substituted residues in a total of 99. If three algal plastocyanin sequences are included in the comparison, there are still 26 conserved and 12 conservatively substituted residues. In many cases, the importance of these residues in determining the tertiary structure can be rationalized.  相似文献   

20.
Bovine β-lactoglobulin is a dimer with a molecular weight of 2 × 18,400. In solution it undergoes a pH-dependent transition at pH 7.0 between two alternative structures, named N and R. The structures of four different crystal forms have been determined by multiple isomorphous replacement with heavy-atoms. Two of them, lattices K and X, were crystallised at pH 6.5, corresponding to the N state in solution; and the other two, lattices Y and Z, were crystallised at pH 7.5, corresponding to the R state in solution. The figures of merit of the phase angles determined for these lattices were 0.76, 0.77, 0.80 and 0.80, respectively. The four structures that emerged are similar and show certain features suggestive of α-helices and pleated sheets, but the resolution is insufficient to trace the entire course of the polypeptide chain. No clear distinction can yet be made between the structures above or below pH 7.0, nor between the native molecule and the molecule from which the C-terminal leucine and histidine residues have been cleaved. Analyses at higher resolution are in progress.  相似文献   

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