Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.27.4 (ribonuclease)
 6,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Seven hydrophobic residues ranging in size from glycine to phenylalanine have been substituted for the wild-type methionine residue at position 13 in a 15-residue truncated version (S15) of S-peptide, the small component of ribonuclease S. Complexes of both S-15 and the seven variants with S-protein yielded isomorphous crystals. The structures of all eight complexes have been refined to final R-factors in the range of 17-19%. [See Kim, E. E. Varadarajan, R., Wyckoff, H. W., and Richards, F. M. (1992) Biochemistry (preceding paper in this issue) for the description of the reference S-15 complex.] Multiple side-chain conformations were seen for six residues in all of the complexes and for two to three additional residues in at least some of the complexes. Three of the complexes, Gly, Ala, and alpha-amino-n-butyric acid (ANB), contained a single water molecule in the cavity near residue 13 that makes three hydrogen bonds to protein atoms. Although space is available, no evidence for additional water in this region, ordered or disordered, was found. The atoms in the cavity wall tend to shrink the cavity by moving in on the small residues and to swell the cavity by moving out for the larger Phe substitution. A swelling seen with leucine was attributed to a shape effect since Leu, Ile, and Met all have the same volume. A slight volume contraction of the collection of interior residues outside of the region of position 13 was also noted. (All changes noted are in the direction to maintain a constant packing density averaged over the whole protein.) Leu51, a surface hydrophobic residue, moved considerably in the G, A, and ANB complexes in directionswhich would tend to decrease the cavity volume. The only other major change in position, 1.5 A, was the 66-69 loop, which is about 25 A from position 13. His12, Phe120, and Asp121 appear to be involved in this movement, but the connection with position 13 is not clear at all. The thermodynamic data on the association reaction for all of these complexes have been previously reported [Connelly, P. R., Varadarajan, R., Sturtevant, J. M., & Richards, F. M. (1990) Biochemistry 29, 6108-6114; Varadarajan, R., Connelly, P. R., Sturtevant, J. M., & Richards, F. M. (1992) Biochemistry 31, 1421-1426]. Some comments are offered on our initial attempts to correlate the structural changes with the changes in the thermodynamic parameters.(ABSTRACT TRUNCATED AT 400 WORDS)
 ...
PMID:Crystallographic structures of ribonuclease S variants with nonpolar substitution at position 13: packing and cavities. 146 20

The crystal structures of ribonuclease from Streptomyces aureofaciens (RNase Sa) and its complex with 3'-guanylic acid (guanosine 3'-monophosphate, 3'-GMP) have been determined by the method of isomorphous replacement. The atomic parameters have been refined by restrained least-squares minimization using data in the resolution range 10.0-1.8 A. All protein atoms and more than 230 water atoms in the two crystal structures have been refined to crystallographic R factors of 0.172 and 0.175 respectively. The estimated r.m.s. error in the atomic positions ranges from 0.2 A for well-defined atoms to about 0.5 A for more poorly defined atoms. There are two enzyme molecules in the asymmetric unit, built independently, and referred to as molecules A and B. The value of the average B factor for protein atoms in both structures is about 19 A2 and for water molecules about 35 A2. Electron density for the substrate analogue 3'-GMP was found only at the active site of molecule A. The density was very clear and the positions of all 3'-GMP atoms were refined with precision comparable to that of the protein.
 ...
PMID:Determination and restrained least-squares refinement of the structures of ribonuclease Sa and its complex with 3'-guanylic acid at 1.8 A resolution. 165 32

A procedure for the purification of Neisseria meningitidis lipopolysaccharide (LPS) from outer membrane vesicles (OMV) in spent growth media was developed. Five different LPS strains of group A N. meningitidis were grown in tryptic soy broth with vigorous aeration for 36-48 h, and centrifuged to collect both cells and supernatants. The amount of LPS in the OMV in the supernatants was higher or at least equal to that in the cells. The OMV in each supernatant were concentrated, pelleted by ultracentrifugation, and treated with 2% sodium deoxycholate to dissociate LPS from OMV. The LPS was then separated from capsular polysaccharides, proteins and phospholipids by gel filtration on Sephacryl S-300 column in 1% sodium deoxycholate, and precipitated from the column fractions in 70% ethanol. In addition, LPS was also extracted from cells with hot phenol-water, ultracentrifuged once after treatment with ribonuclease, and purified on Sephacryl S-300. When compared with an improved phenol-water extraction method, the LPS obtained from either OMV or cells by the above methods gave a 40-180% increase in yield. The LPS also had much higher activities in limulus amebocyte lysate assay, rabbit pyrogenic test, and enzyme-linked immunosorbent assay. The LPS purified from cells and from OMV were indistinguishable by sodium dodecyl sulfate-polyacrylamide gel electrophoresis analysis.
 ...
PMID:Purification of rough-type lipopolysaccharides of Neisseria meningitidis from cells and outer membrane vesicles in spent media. 177 80

The side-chains of phenylalanine and tyrosine residues in proteins are frequently found to be involved in pairwise interactions. These occur both within repeating elements of secondary structure and in tertiary and quaternary interactions. It has been suggested that they are important in protein folding and stability, and non-bonded potential energy calculations indicate that a typical aromatic-aromatic interaction has an energy of between -1 and -2 kcal/mol and contributes between -0.6 and -1.3 kcal/mol to protein stability. There is such an aromatic pair on the solvent-exposed face of the first alpha-helix of barnase, the small ribonuclease from Bacillus amyloliquefaciens. The edge of the aromatic ring of Tyr17 interacts with the face of that of Tyr13. The two residues have been mutated both singly and pairwise to alanine, and their free energies of unfolding determined by denaturation with urea. Application of the double-mutant cycle analysis gives an interaction energy of -1.3 kcal/mol for the aromatic pair in the folded protein relative to solvation by water in the unfolded protein. This value is similar to that calculated from the change in surface-accessible area between the rings on the formation of the pair. Analysis of a further double-mutant cycle in which the Tyr residues are mutated to Phe indicates that the aromatic-aromatic interactions of Tyr/Tyr and Phe/Phe make identical contributions to protein stability. However, Tyr is preferred to Phe by 0.3(+/- 0.04) kcal/mol at the solvent-exposed face of the alpha-helix.
 ...
PMID:Aromatic-aromatic interactions and protein stability. Investigation by double-mutant cycles. 201 Sep 20

The ribonuclease excreted by Bacillus amyloliquefaciens, Barnase, was co-crystallized with the deoxy-dinucleotide d(GpC). The crystal structure was determined by molecular replacement from a model of free Barnase previously derived by Mauguen et al. Refinement was carried out using data to 1.9 A resolution. The final model, which has a crystallographic R factor of 22%, includes 869 protein atoms, 38 atoms from d(GpC), a sulfate ion and 73 water molecules. Only minor differences from free Barnase are seen in the protein moiety, the root-mean-square C alpha movement being 0.45 A. The dinucleotide has a folded conformation. It is located near the active site of the enzyme, but outside the protein molecule and making crystal packing contacts with neighboring molecules. The guanine base is stacked on the imidazole ring of active site His102, rather than binding to the so-called recognition loop as it does in other complexes of guanine nucleotides with microbial nucleases. The deoxyguanosine is syn, with the sugar ring in C-2'-endo conformation; the deoxycytidine is anti and C-4'-exo. In addition to the stacking interaction, His102 hydrogen bonds to the free 5' hydroxyl, which is located near the position where the 3' phosphate group is found in other inhibitors of microbial ribonucleases. While the mode of binding observed with d(GpC) and Barnase would be non-productive for a dinucleotide substrate, it may define a site for the nucleotide product on the 3' side of the hydrolyzed bond.
 ...
PMID:Crystal structure of a barnase-d(GpC) complex at 1.9 A resolution. 202 57

The absorbance peak in the near ultraviolet electron-transfer spectrum of the oxyvanadium constellation in the "transition-state-analogue complexes" obtained by treating the dephospho form of phosphoglucomutase with inorganic vanadate in the presence of either glucose 1-phosphate or glucose 6-phosphate, as described in an accompanying paper [Ray, W. J., Jr., Burgner, J. W., II, & Post, C. B. (1990) Biochemistry (second of four papers in this issue)], is centered at a wavelength of 312 nm. The position of this peak amounts to a change in oscillator frequency of about -5000 cm-1 relative to that of tetrahedral VO4(3-). To provide a rationale for this spectral change, the near ultraviolet spectra of the di- and monoanions of inorganic vanadate and a number of derivatives of these anions are compared with that of vanadium (V) in the enzymic complexes, in terms of both what is observed experimentally and what is expected from crystal field theory. Comparisons in water and in largely anhydrous solvents show that water is not an essential element in the coordination sphere of inorganic vanadate or its mono- or diesters and hence that the coordination number of V(V) in such compounds likely is four. These comparisons also show that loss of solvating water from a 4-coordinate vanadate on binding cannot provide a rationale for the spectra of the enzymic complexes. Other comparisons show that neither the binding of metal ions nor protonation nor the binding of vanadate at a site with an unusually high or an unusually low dielectric constant can provide such a rationale. Further comparisons with vanadates known to be pentacoordinate strongly suggest that the coordination number of V(V) in the transition-state-analogue complexes of phosphoglucomutase does not exceed four. In fact, from the standpoint of crystal field theory the marked red shift observed in the electron-transfer absorbance spectrum of the oxyvanadium constellation in these complexes is more reasonably interpreted in terms of a decreased coordination at vanadium (V), viz., in terms of a weakened bonding between vanadium and one or more of its coordinating oxygens. This decreased coordination could be produced by a physical stretching of the vanadate ester linkage. By contrast, the near ultraviolet spectrum of the transition-state-analogue complex that ribonuclease forms with an adduct of uridine and vanadate [Lindquist, R. N., Lynn, J. L., & Lienhard, G. E. (1973) J. Am. Chem. Soc. 95, 8762] is similar to spectra of pentacoordinate model compounds of vanadium(V).(ABSTRACT TRUNCATED AT 400 WORDS)
 ...
PMID:The oxyvanadium constellation in transition-state-analogue complexes of phosphoglucomutase and ribonuclease. Structural deductions from electron-transfer spectra. 214 Jun 98

The attempt is made to find new correlations between local structural characteristics of proteins and the hydrogen exchange rates of their individual main-chain amides, and to relate such correlations to possible mechanisms of hydrogen exchange. It is found that in bovine pancreatic trypsin inhibitor (BPTI) the surface area buried by a particular residue and its neighbors correlates with the exchange rate of the main-chain amide of that residue. As the area buried by a particular fragment can be associated with the stabilization of the protein structure by this fragment, the correlation suggests a role for the energetics of the local unfolding in the mechanism of hydrogen exchange. Calculations based on the assumption that the exchange mechanism involves local unfolding lead to quantitative agreement between the calculated and experimentally measured exchange rates for 80% of the amides of BPTI that are buried or hydrogen bonded to the main-chain or to internal water molecules. The same degree of correlation is found between the calculated exchange rates and partial exchange data for ribonuclease S, hen lysozyme and cytochrome c. A similarly strong correlation is found between calculated exchange rates and the exchange rates of ribonuclease A determined by neutron diffraction in the crystal. The criteria of correlation are, however, less stringent in this case because of the experimental errors, which are larger than for solution data. It is suggested that the observed correlation be used for predictions of hydrogen exchange rates in proteins.
 ...
PMID:Correlation between calculated local stability and hydrogen exchange rates in proteins. 244 80

The incubation of peripheral blood smears in distilled water frequently used for the control of the digestion with ribonuclease produced distinct changes of basophilic ribonucleic acid containing structures in peripheral lymphocytes. The alteration of these structures was apparently produced by the activity of the endogenous ribonuclease since it was reduced or prevented by the lowering of the temperature or addition of the ribonuclease inhibitor. In addition, marked differences were found between peripheral blood lymphocytes of healthy persons and patients suffering from chronic lymphocytic leukaemia with respect to the sensitivity of lymphocytic basophilia to the incubation in distilled water.
 ...
PMID:The lymphocytic basophilia after incubation of blood smears in distilled water. 246 51

Along with classical lipopolysaccharide (LPS), O-specific material not precipitated by ultracentrifugation has been isolated from the water-phenol extract of S. sonnei avirulent strain 9090 possessing complete antigenic properties. The purification of O-antigen contained in the supernatant fluid has been carried out by the gel filtration of the fluid, previously treated with ribonuclease, in a column packed with Sephadex G-100. The polysaccharide nature of O-antigen thus obtained, the absence of lipid A and KDO and the low content of hexoses, or core-specific saccharides of S. sonnei LPS, in this antigen make it possible to classify this material with O-components of microbial cells, described by different authors as "native protoplasmic polysaccharide" or "L-hapten" and formed by polymers of LPS O-side chains. The content of this component in S. sonnei strains under study is, on the average, 2.5% of the weight of dry microbial substance. L-hapten preparations obtained in the course of our investigations have been found to contain two O-specific antigens detected by immunoelectrophoresis and immunodiffusion, as well as by sedimentation in saccharose gradient, where they form peaks corresponding to 4.3 S and 10.8 S. This polysaccharide O-antigen is supposed to be capable of interaction with ribosomal particles and suitable for use as a component of ribosomal dysentery vaccines.
 ...
PMID:[O-specific L-hapten in the composition of Shigella sonnei]. 248 42

The interactions of tryptophan-59 (TRP-59) and its protein environment in ribonuclease-T1 (RNAse-T1) were examined in a 50-ps molecular dynamics simulation. The simulation used was previously shown to demonstrate a fluorescence anisotropy decay that closely agreed with the experimentally determined limiting anisotropy for RNAse-T1 (Axelsen, P. H., C. Haydock, and F. G. Prendergast. 1988. Biophys. J. 54:249-258). Further characterization of TRP-59 side chain dynamics and its protein environment has now been completed and correlated to other photophysical properties of this protein. Angular fluctuations of the side chain occur at rates of 1-10 cycles/ps and are limited to +/- 0.3 radians in all directions. Side chain motions are primarily limited by nonpolar collisions, although most side chain atoms have some collisional contact with polar atoms in the adjacent protein matrix or water. The steric relationship between PRO-39 and TRP-59 changes abruptly at 16 ps into the simulation. Two types of interaction with water are observed. First, a structural water appears to H-bond with the greater than N-H group of TRP-59. Second, water frequently contacts the six-atom ring. The electrostatic field experienced by the TRP-59 rings appears to be relatively constant and featureless regardless of ring orientation. We make the following interferences from our data: The fluorescent emission of TRP-59 may be red-shifted relative to TRP in nonpolar solvents either as a result of specific interactions with the structural water or relaxations of proximal bulk water and polar protein moieties. The quenching efficiency of polar interactions with TRP-59 must be extremely low given their frequency and the high quantum yield of RNAse-T1. This low efficiency may be due to restricted and unfavorable interaction geometries. PRO-39 is located near two titratable HIS residues in RNAse-T1 and may be involved in pH-dependent fluorescence phenomena by virtue of a metastable interaction with TRP-59. The interaction of bulk water with TRP-59 illustrates features of the gated transition state model for transient exposure to exogenously added collisional quenching agents. The restrictive environment of TRP-59 suggests that extrinsic quenching can only occur via interactions with the edge of the indole six-atom ring and that the efficiency of a quencher in a protein environment is likely to be a function of molecular symmetry.
 ...
PMID:Molecular dynamics of tryptophan in ribonuclease-T1. II. Correlations with fluorescence. 250 98


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>