EC:3.1.26.9 - FACTA Search

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Query: EC:3.1.26.9 (ribonuclease)
6,589 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Substantial evidence indicates that HIV-1 trans-activation by tat protein is mediated through the TAR RNA element. This RNA forms a stem-loop structure containing a three-nucleotide bulge and a six-nucleotide loop. Previous mutagenic analysis of TAR indicates that the bulge residues and a 4 bp segment of the stem constitute, in part, the tat binding site. However, there appears to be no sequence-specific contribution of the six-base loop. We have employed a ribonuclease protection technique to explore the interaction of tat with single-stranded regions of TAR. The results indicate that tat interacts with both the bulge and loop regions of TAR. Treatment of TAR RNA with RNase A results in cleavage at U23 and U31, located in the bulge and loop regions, respectively. High concentrations (approximately 2 microM) of Escherichia coli derived tat protein, prepared by standard procedures, gave complete protection of TAR RNA from RNase A cleavage. However, under these conditions, truncated TAR derivatives in which no stem-loop structure is expected to form were also protected, indicating nonspecific binding. In order to obtain a tat preparation with enhanced specificity toward TAR RNA, methods were developed for refolding the recombinant protein. This treatment enhanced the affinity of tat for TAR by approximately 30-fold [Kd(apparent) less than 25 nM] and markedly increased its specificity for the TAR. Again, tat protected TAR RNA from RNase A cleavage at both U23 and U31. Protection was also observed with RNase T1 which cleaves TAR RNA at three G residues in the six-base loop.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Refolded HIV-1 tat protein protects both bulge and loop nucleotides in TAR RNA from ribonucleolytic cleavage. 186 81

The isozymes of ribonuclease were analyzed in cell-free, crude extracts of Dictyostelium discoideum by activity staining of polyacrylamide gels after electrophoresis. The relative levels of three isozymes were then examined during the growth and during the first stages of multicellular development. We observed the replacement of two of these three isozymes by two other isozymes at the pseudoplasmodial stage. These isozymes were different from ribonuclease T1 in terms of their mobility in polyacrylamide gels during electrophoresis. The mobilities of two of the isozymes, DdI and DdII, were 59 and 42% of that of ribonuclease T1. The changes in the relative levels of the isozymes during development are discussed.
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PMID:Isozymes of ribonuclease and the changes in their relative levels during development in the cellular slime mould Dictyostelium discoideum. 190 49

Ribonuclease T1 and the mutant enzymes were cocrystallized with several ribonucleotides, including non-hydrolyzable substrate analogs of di- and triribonucleotides, which have a novel guanylate in which the 2'-hydroxyl group of the ribose is replaced by a fluorine atom. One of the mutant enzymes has a tryptophan residue, instead of Tyr45 of the wild-type enzyme, to enhance the binding of ribonucleotides to the enzyme and the other mutant enzyme has histidine and aspartate residues, instead of Asn43 and Asn44, respectively, to reproduce the natural substitutions found in ribonuclease Ms. Polymorphism of the crystals was observed for wild-type and mutant enzymes. However, orthorhombic crystals, which are virtually all isomorphous to each other, were successfully obtained from wild-type and mutant (Y45W) enzymes by the macroscopic seeding technique using mother crystals of the wild-type ribonuclease T1 complexed with 2'GMP or 3'GMP. The diffraction patterns of these crystals extend beyond 2.5 A resolution and the diffraction data were collected from some of the crystals on a diffractometer up to a range of 2.5 to 1.8 A resolution.
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PMID:Crystallographic characterization of wild-type and mutant ribonuclease T1 complexes with several ribonucleotides. 208 29

Ribonuclease activity in HeLa cell nuclei is markedly inhibited by ADP-ribosylation following incubation of intact isolated nuclei with [14C]NAD. Time course experiments demonstrate that [14C] incorporation into proteins is accompanied by a 50% inhibition of ribonuclease activity on single-strand and double-strand polynucleotides. Inhibition does not occur when 3-aminobenzamide, a potent (ADP-ribose) polymerase inhibitor, is present. Two enzymatic activities that degrade double-strand polynucleotides have been purified and partially characterized. A relevant level of radioactivity resulting from [14C]NAD incubation of nuclei was associated to the purified enzyme. The RNase F1 component, which shows maximal activity on polyU-polyA is demonstrated to be the major ADP-ribose acceptor protein.
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PMID:In vitro inhibition of HeLa cell nuclear ribonucleases by ADP-ribosylation. 211 91

The three-dimensional structures of ribonuclease (RNase) T1 complexes with the inhibitors 2'-guanylic acid (2'-GMP), 3'-guanylic acid (3'-GMP), and 5'-guanylic acid (5'-GMP) were predicted by energy minimization studies. It is shown that these inhibitors can bind to RNase T1 in either of the ribose puckered conformations (C2'-endo and C3'-endo) in solid state and exist in significant amounts in both forms in solution. These studies are in agreement with the x-ray crystallographic studies of the 2'-GMP-Lys25-RNase T1 complex, where the inhibitor binds in C2'-endo puckered conformation. These results are also in good agreement with the available 1H-nmr results of Inagaki et al. [(1985) Biochemistry 24, 1013-1020], but differ from their conclusions where the authors favor only the C3'-endo ribose conformation for all the three inhibitors. The calculations explain the apparent discrepancies in the conclusions drawn by x-ray crystallographic and spectroscopic studies. An extensive hydrogen-bonding scheme was predicted in all the three complexes. The hydrogen-bonding scheme predicted for the 2'-GMP (C2'-endo)-RNase T1 complex agrees well with those reported from x-ray crystallographic studies. In all three complexes the base and the phosphate bind in nearly identical sites independent of the position of the phosphate or the ribose pucker. The glycosyl torsion angle favors a value in the +syn range in the 2'-GMP (C2'-endo)-RNase T1, 3'-GMP (C2'-endo)-RNase T1, and 3'-GMP (C3'-endo)-RNase T1 complexes; in the high-syn range in the 2'-GMP (C3'-endo)-RNase T1 complex; and in the -syn range in the 5'-GMP (C2'-endo)-RNase T1 and 5'-GMP (C3'-endo)-RNase T1 complexes. These results are in agreement with experimental studies showing that the inhibitory power decreases in the order 2'-GMP greater than 3'-GMP greater than 5'-GMP, and they also explain the high pKa value observed for Glu58 in the 2'-GMP-RNase T1 complex.
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PMID:Computer modeling studies of ribonuclease T1-guanosine monophosphate complexes. 217 61

Coulombic interactions between charges on the surface of proteins contribute to stability. It is difficult, however, to estimate their importance by protein engineering methods because mutation of one residue in an ion pair alters the energetics of many interactions in addition to the coulombic energy between the two components. We have estimated the interaction energy between two charged residues, Asp-12 and Arg-16, in an alpha-helix on the surface of a barnase mutant by invoking a double-mutant cycle involving wild-type enzyme (Asp-12, Thr-16), the single mutants Thr----Arg-16 and Asp----Ala-12, and the double mutant Asp----Ala-12, Thr----Arg-16. The changes in free energy of unfolding of the single mutants are not additive because of the coulombic interaction energy. Additivity is restored at high concentrations of salt that shield electrostatic interactions. The geometry of the ion pair in the mutant was assumed to be the same as that in the highly homologous ribonuclease from Bacillus intermedius, binase, which has Asp-12 and Arg-16 in the native enzyme. The ion pair does not form a hydrogen-bonded salt bridge, but the charges are separated by 5-6 A. The mutant barnase containing the ion pair Asp-12/Arg-16 is more stable than wild type by 0.5 kcal/mol, but only a part of the increased stability is attributable to the electrostatic interaction. We present a formal analysis of how double-mutant cycles can be used to measure the energetics of pairwise interactions.
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PMID:Estimating the contribution of engineered surface electrostatic interactions to protein stability by using double-mutant cycles. 224 51

Solanum nodiflorum mottle virus (SNMV) RNA2 is a single-stranded, covalently closed circular molecule. RNase T2 or nuclease P1 digests of this RNA contain a minor nucleotide of unusual chromatographic and electrophoretic mobility. This nucleotide is resistant to further digestion by T2 or P1 ribonucleases, or by alkali, but is sensitive to venom phosphodiesterase digestion. Alkaline phosphatase digestion yields a product which is RNase T2 and P1 sensitive. The products of these various digests show that the minor nucleotide is a ribonuclease-resistant dinucleotide carrying a 2' phosphomonoester group with the core structure C2'p3'p5'A. This dinucleotide is found in a unique RNase T1 product of SNMV RNA2, thus establishing a unique location in the sequence for the 2' phosphomonoester group at residue 49. Identical results have been obtained with a second related virus. The phosphomonoester group probably results from the RNA ligation event by which the molecules were circularised.
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PMID:2' phosphomonoester, 3'-5' phosphodiester bond at a unique site in a circular viral RNA. 240 85

The ribonuclease inhibitor from pig brain has been purified 1,500-fold by a combination of ammonium sulfate fractionation, ion-exchange chromatography, hydroxylapatite chromatography, and gel filtration. The inhibitor has a Mr 50,000. It is a noncompetitive inhibitor for pancreatic ribonuclease A with a Ki of 1 nM, forming a 1:1 complex. Both ribonuclease A and B, but not ribonuclease U1 and T1, are inactivated by the inhibitor. The inhibition capacity was abolished by sulfhydryl reagents such as p-chloromercuribenzoate. Incubation of the enzyme-inhibitor complex with the sulfhydryl reagent caused dissociation into active ribonuclease and inactive inhibitor. Dithiothreitol was required during purification to retain the activity of the inhibitor.
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PMID:Ribonuclease inhibitor from pig brain: purification, characterization, and direct spectrophotometric assay. 254 Jun 74

The structure of base non-specific ribonuclease Ms from Aspergillus saitoi was predicted by sequence similarity to guanine-specific RNase T1 of known structure. In this paper the interaction pattern of binding site of RNase Ms with different nucleic acids bases is analysed using model building and energy minimisation techniques. It is shown that unspecificity of this protein can be explained only when taking into account flexibility of the base recognition loop.
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PMID:Recognition pattern of different bases in the active site of ribonuclease Ms--a model building study. 260 6

Two independently melting regions (energetic domains) were localized in Bacillus intermedius 7P ribonuclease by methods of circular dichroism and high resolution X-ray analysis: the lov-temperature melting domain, containing C-terminal region of the molecule with five strands in antiparallel beta-structure and the high-temperature melting alpha-helical domain in the N-terminal region. The contact between these domains is stabilized mainly by ionic interaction Asp-22 - Lys+-48. At pH 2.4 and 30.5 0 C, when the low-temperature domain melts, half of the beta-structure content in binase is destroyed though the alpha-helical structure content is conserved. It has been shown that in pH interval 2.4-4.8 at 15 0 C no changes in secondary structure and local surrounding of aromatic amino acid residues could be identified. Thus, the changes in ionic interactions in the binase molecule due to protonation of Asp side chain groups does not effect the secondary or tertiary structure, though it changes the energetical state of the binase molecule, revealing a change of number and size of energetic domains.
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PMID:[Localization of energy domains in Bacillus intermedius 7P ribonuclease]. 260 46

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