Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.1.27.5 (RNase)
17,967 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ribonuclease St consists of 101 amino acid residues in a single polypeptide chain with one disulfide bond. It has two histidines located at positions 60 and 91 from the amino terminus. The pKa values of His-60 and His-91 were estimated by hydrogen-tritium exchange titration to be 8.0 and 6.3, respectively, and these values were confirmed by 1H NMR titration. The high pKa value of His-60 suggests that it interacts with a neighboring negative charge, presumably of a carboxylate. This is suggested by the presence of an inflection at pH 4.5 in the 1H NMR titration plot for His-60. The 1H-NMR titration plot for His-91 also suggests its interaction with a carboxylate, although the pKa of His-91 was close to that of unperturbed histidine residues. This suggests that a positively charged group is also located in the vicinity of His-91. It was concluded that His-91 is one of the active site residues of the enzyme. The pKa for His-91 was shifted to the alkaline side in the presence of 3'-GMP, a competitive inhibitor, in the titration plots observed by both hydrogen-tritium exchange and 1H NMR spectroscopy. The 31P NMR titration data suggest that in the 3'-GMP-RNase St complex the dianion form of the nucleotide participates in the interaction with the protonated form of His-91. The existence of another positively charged group with pKa of 7.0 was also suggested on the basis of the 31P NMR data.
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PMID:Hydrogen-tritium exchange and nuclear magnetic resonance titrations of the histidine residues in ribonuclease St and analysis of their microenvironment. 626 Jul 63

Difference Fourier maps have been calculated at 2.8-A resolution by using neutron diffraction data obtained from a single crystal of RNase A. The phases were derived from a model resulting from the joint refinement of x-ray and neutron data at 2.0-A and 2.8-A resolution, respectively. The orientation of histidine-48 assumed during the refinement of the x-ray model at 2.5 A was confirmed, whereas the other three histidines had to be rotated around C beta--C gamma bonds in order to agree with the neutron difference Fourier maps. In the final model, histidine-12 is clearly hydrogen bonded to the carbonyl oxygen of threonine-45 and to the oxygen of the inorganic phosphate, and histidine-119 is bonded to another oxygen of the phosphate and to the oxygen OD1 of aspartic acid-121.
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PMID:Orientation of histidine residues in RNase A: neutron diffraction study. 626 17

This paper describes the structure of bovine pancreatic ribonuclease A, refined by a restrained parameter least squares procedure at 2.0 A resolution, and rebuilt using computer graphics. The final agreement factor (formula see text) is 0.159. The positions of the 951 main chain atoms have been determined with an estimated accuracy of 0.17 A. In addition, the model includes a phosphate group in the active site and 176 waters, many of them with partial occupancy. The bond lengths in the refined structure of RNase A differ from the ideal values by an overall root mean square deviation of 0.022 A; the corresponding value for angle distances is 0.06 A. The root mean square deviation of planar atoms from ideality is 0.017 A, and root mean square deviation of the peptide torsion angles from 180 degrees is 3.4 degrees. The model is in good agreement with the final difference Fourier maps. Two active site histidines, His 12 and His 119, form hydrogen bonds to the phosphate ion. His 119 is also hydrogen bonded to the carboxyl of ASp 121 and His 12 to the carbonyl of Thr 45. The structure of the RNase A is very similar to that of RNase S, particularly in the active site region. The root mean square discrepancy of all atoms from residues 1 to 16 and 24 to 123 is 1.06 A and the root mean square discrepancy for the active site region is 0.6 A.
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PMID:The refined crystal structure of ribonuclease A at 2.0 A resolution. 627 80

C-peptide, which contains the 13 NH2-terminal residues of RNase A, shows partial helix formation in water at low temperature (1 degree C, pH 5, 0.1 M NaCl), as judged by CD spectra; the helix is formed intramolecularly [Brown, J. E. & Klee, W. A. (1971) Biochemistry 10, 470-476]. We find that helix stability depends strongly on pH: both a protonated histidine (residue 12) and a deprotonated glutamate (residue 9 or 2 or both) are required for optimal stability. This information, together with model building, suggests that the salt bridge Glu-9- ... His-12+ stabilizes the helix. Formation of the helix is enthalpy driven [van't Hoff delta H, - 16Kcal/mol (1 cal = 4.18 J)] and the helix is not observed above 30 degrees C. Proton NMR data indicate that several side chains adopt specific conformations as the helix is formed. These results have two implications for the mechanism of protein folding. First, they indicate that short alpha-helices, stabilized by specific side-chain interactions within the helix, can be stable enough in water to function as folding intermediates. Second, they suggest that similar experiments with peptides of controlled amino acid sequence could be used to catalogue the intrahelix interactions that stabilize or destabilize alpha-helices in aqueous solution. These data might provide the code relating amino acid sequence to the locations of alpha-helices in proteins.
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PMID:A salt bridge stabilizes the helix formed by isolated C-peptide of RNase A. 628 28

The modified purine nucleotide 8-oxo-guanosine-2'-phosphate binds at the pyrimidine binding site of ribonuclease-A. The O8-2'GMP inhibitor is in a syn conformation, with an intramolecular hydrogen bond between the N-3 atom of the base and the O-5' atom of the ribose. The essential groups of the protein involved in base recognition are O gamma 45 and N-45, which form hydrogen bonds to the five-membered ring of the heterocyclic base. Mobility of enzyme side-chains (viz. Lys41, Lys66, His119) close to the catalytic cleft of the protein allows conformational flexibility in the substrate binding region of ribonuclease-A. Inhibitor binding alters the solvent structure of the protein but the overall shape of the enzyme is not effected.
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PMID:Specificity of pancreatic ribonuclease-A. An X-ray study of a protein-nucleotide complex. 631 34

Mouse hepatitis virus A59 codes for seven mRNAs in infected cells. These mRNAs are transcribed from a minus (-) strand template of genome length and contain a leader RNA at their 5' ends. To further elucidate the mechanism of coronavirus transcription, we examined the structure of mouse hepatitis virus replicative intermediates (RIs) isolated by 2 M NaCl precipitation and Sepharose 2-B column chromatography. Purified RIs migrated as a single species on agarose gels and sedimented between 12 and 38S on 10 to 25% sucrose gradients. The complexes were readily heat denatured into a heterogeneous population of smaller RNA molecules which probably represent nascent plus (+) strands. RNase A digestion of RIs produced a single replicative form which sedimented between 30 and 32S. These data suggest that the RI is composed of a single genome-sized (-) strand hydrogen bonded to an average of 4 to 6.5 nascent (+) strands. In contrast, a column-purified replicative form was extremely resistant to RNase A digestion and heat denaturation and migrated as a single RNA species on agarose gels and sucrose gradients. Oligonucleotide fingerprinting of an RI revealed the presence of the 5' leader RNA on the nascent (+) strands. In addition, an average of 6.2 cap structures were present in each RI, which agrees with the average number of nascent (+) strands per RI. These data suggest that the leader RNA is utilized as a primer for mouse hepatitis virus RNA transcription and is not added to mRNA post-transcriptionally.
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PMID:Characterization of replicative intermediate RNA of mouse hepatitis virus: presence of leader RNA sequences on nascent chains. 631 63

The effect of varying LET over a wide range (0.2-1570 eV/nm) on the radiation-induced inactivation of the enzyme papain in dilute aqueous solution has been investigated. Measurements of total, reparable and non-reparable inactivation G values in oxygen, nitrous oxide and argon saturated solutions have allowed the contributions to inactivation from radicals and hydrogen peroxide to be evaluated. At high LET the results demonstrate an increasing component due to reaction of the superoxide radical, formed from oxygen produced in the track as a primary radiolysis product. This effect was not observed in our previous study with ribonuclease due to the insensitivity of ribonuclease to inactivation by superoxide and hydrogen peroxide. The results obtained with papain clearly demonstrate a maximum in G (H2O2) at an LET of approximately 140 eV/nm. Generation of O2 within the track as a primary radiolysis product at high LET now appears to be confirmed as an important mechanism leading to reduction in the oxygen enhancement ratio for cellular systems exposed to high LET radiations (Baverstock and Burns 1981).
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PMID:The inactivation of papain by high LET radiations. 633 8

Insulin, ribonuclease, papain and collagen solutions saturated with nitrogen, N2O or air were irradiated with doses of 10 to 640 Gy of gamma rays. Protein solutions were also oxidized enzymatically in a system of horse-radish peroxidase: hydrogen peroxide. Column chromatography (Sephadex G-75 or Sephacryl S-200) of treated protein solutions revealed that they contain protein molecular aggregates. Nitrogen saturation of solution before irradiation was most favourable for radiation-induced aggregation of proteins. Fluorescence analysis of protein solutions resulted in detection of dityrosyl structures in irradiated as well as in enzymatically oxidized proteins. Concentration of dityrosine in proteins studied was determined fluorimetrically in their hydrolysates separated on BioGel P-2 column. In irradiated proteins, dityrosine was present almost exclusively in their aggregated forms. In proteins oxidized enzymatically, dityrosine was also present in fractions containing apparently unchanged protein. Mechanisms which could account for differences in the yield of dityrosine formation in radiolysis and in enzymatic oxidation of proteins are suggested.
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PMID:Radiolytic and enzymatic dimerization of tyrosyl residues in insulin, ribonuclease, papain and collagen. 633 34

Autolysis of cell walls of Bacillus subtilis 168 resulted in solubilization of wall-associated DNA. Most of the DNA was solubilized only in the later stages of autolysis. Solubilization of up to 70% of the wall by autolysins resulted in only 25 to 30% solubilization of wall-associated DNA. When the wall fragments remaining after 70% autolysis were analyzed by electron microscopy, it was observed that the preparations were highly enriched for completed septa, or poles. Partial autolysis at pH 5.2 or pH 8.6, both of which reflect hydrogen ion levels that permit either N-acetylglucosaminidase or N-acetylmuramyl-L-alanine amidase, but not both, to act, gave rise to enrichment of cell poles. When walls were incubated with subtilisin, DNase, or RNase, release of DNA (or DNA fragments) was accelerated. Density gradient centrifugation patterns of lysates of cells pulse-labeled with N-[3H]acetylglucosamine and then chased revealed that a small, but significant, proportion of the radioactivity sedimented to a density position equivalent to that of DNA-membrane complexes. Because the pulse-chase sequence enriched for radioactivity in cell poles, the results suggest that at least some molecules from polar cell walls have an affinity for DNA-membrane complexes. We suggest that DNA binds strongly, possibly via a DNA-membrane complex, to cell poles of B. subtilis. The results provide support for a view offered previously (Koch et al., FEMS Microbiol. Lett. 12:201-208, 1981) that some special structure in or very near the poles of gram-positive bacilli is involved in the segregation of DNA during cell division.
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PMID:Cell wall-DNA association in Bacillus subtilis. 640 1

Folding of bovine pancreatic ribonuclease A (RNase A) is a sequential process which involves the formation of well-populated structural intermediates under suitable conditions. Two intermediates have been detected on the major slow-refolding pathway of RNase A: a late intermediate (IN) which already resembles the native protein in a number of properties and a rapidly formed early intermediate (I1) which shows extensive hydrogen-bonded secondary structure. Here competition experiments between refolding and proteolytic cleavage of the peptide chain are described which yield information about the decrease in accessibility of particular proteolytic cleavage sites during the folding process. Results obtained with pepsin as a proteolytic probe of folding indicate that the primary cleavage site for pepsin, Phe-120-Asp-121, becomes inaccessible early in the course of refolding, if folding is carried out under conditions which effectively stabilize the native state. Under marginally stable conditions, folding is very slow, and protection against peptic cleavage is not detectable prior to the final formation of native protein. The comparison with amide proton exchange experiments suggests that the protection against peptic cleavage occurs during the formation and/or stabilization of hydrogen-bonded secondary structure in the early intermediate (I1). We conclude that the carboxy-terminal region of the RNase peptide chain, which is known to be important for the stability of the folded protein, may also be relevant for early steps of refolding.
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PMID:An early intermediate in the folding of ribonuclease A is protected against cleavage by pepsin. 642 47


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