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

To investigate the role of the phosphate group 3' to the scissile phosphodiester bond of the substrate in the catalytic mechanism of Escherichia coli ribonuclease HI (RNase HI), we have used modified RNA-DNA hybrid substrates carrying a phosphorothioate substitution at this position or lacking this phosphate group for the cleavage reaction. Kinetic parameters of the H124A mutant enzyme, in which His(124) was substituted with Ala, as well as those of the wild-type RNase HI, were determined. Substitution of the pro-R(p)-oxygen of the phosphate group 3' to the scissile phosphodiester bond of the substrate with sulfur reduced the k(cat) value of the wild-type RNase HI by 6.9-fold and that of the H124A mutant enzyme by only 1. 9-fold. In contrast, substitution of the pro-S(p)-oxygen of the phosphate group at this position with sulfur had little effect on the k(cat) value of the wild-type and H124A mutant enzymes. The results obtained for the substrate lacking this phosphate group were consistent with those obtained for the substrates with the phosphorothioate substitutions. In addition, a severalfold increase in the K(m) value was observed by the substitution of the pro-R(p)-oxygen of the substrate with sulfur or by the substitution of His(124) of the enzyme with Ala, suggesting that a hydrogen bond is formed between the pro-R(p)-oxygen and His(124). These results allow us to propose that the pro-R(p)-oxygen contributes to orient His(124) to the best position for the catalytic function through the formation of a hydrogen bond.
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PMID:Catalysis by Escherichia coli ribonuclease HI is facilitated by a phosphate group of the substrate. 1107 36

The ribonuclease MC1 (RNase MC1), isolated from seeds of bitter gourd (Momordica charantia), consists of 190 amino acids and is characterized by specific cleavage at the 5'-side of uridine. Site-directed mutagenesis was used to evaluate the contribution of four amino acids, Asn71, Val72, Leu73, and Arg74, at the alpha4-alpha5 loop between alpha4 and alpha5 helices for recognition of uracil base by RNase MC1. Four mutants, N71T, V72L, L73A, and R74S, in which Asn71, Val72, Leu73, and Arg74 in RNase MC1 were substituted for the corresponding amino acids, Thr, Leu, Ala, and Ser, respectively, in a guanylic acid preferential RNase NW from Nicotiana glutinosa, were prepared and characterized with respect to enzymatic activity. Kinetic analysis with a dinucleoside monophosphate, CpU, showed that the mutant N71T exhibited 7.0-fold increased K(m) and 2.3-fold decreased k(cat), while the mutant L73A had 14.4-fold increased K(m), although it did retain the k(cat) value comparable to that of the wild-type. In contrast, replacements of Val72 and Arg74 by the corresponding amino acids Leu and Ser, respectively, had little effect on the enzymatic activity. This observation is consistent with findings in the crystal structure analysis that Asn71 and Leu73 are responsible for a uridine specificity for RNase MC1. The role of Asn71 in enzymatic reaction of RNase MC1 was further investigated by substituting amino acids Ala, Ser, Gln, and Asp. Our observations suggest that Asn71 has at least two roles: one is base recognition by hydrogen bonding, and the other is to stabilize the conformation of the alpha4-alpha5 loop by hydrogen bonding to the peptide backbone, events which possibly result in an appropriate orientation of the alpha-helix (alpha5) containing active site residues. Mutants N71T and N71S showed a remarkable shift from uracil to guanine specificity, as evaluated by cleavage of CpG, although they did exhibit uridine specificity against yeast RNA and homopolynucleotides.
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PMID:Amino acid residues in ribonuclease MC1 from bitter gourd seeds which are essential for uridine specificity. 1114 47

Restrictocin, a member of the fungal ribotoxin family, specifically cleaves a single phosphodiester bond in the 28S rRNA and potently inhibits eukaryotic protein synthesis. Residues Tyr47, His49, Glu95, Phe96, Pro97, Arg120, and His136 have been predicted to form the active site of restrictocin. In this study, we have individually mutated these amino acids to alanine to probe their role in restrictocin structure and function. The role of Tyr47, His49, Arg120, and His136 was further investigated by making additional mutants. Mutating Arg120 or His136 to alanine or the other amino acids rendered the toxin completely inactive, whereas mutating Glu95 to alanine only partially inactivated the toxin. Mutation of Phe96 and Pro97 to Ala had no effect on the activity of restrictocin. The Tyr47 to alanine mutant was inactive in inhibiting protein synthesis, and had a nonspecific ribonuclease activity on 28S rRNA similar to that shown previously for the His49 to Ala mutant. Unlike the His136 to Ala mutant, the double mutants containing Tyr47 or His49 mutated to alanine along with His136 did not compete with restrictocin to cause a significant reduction in the extent of cleavage of 28S rRNA. In a model of restrictocin and a 29-mer RNA substrate complex, residues Tyr47, His49, Glu95, Arg120, and His136 were found to be near the cleavage site on RNA. It is proposed that in restrictocin Glu95 and His136 are directly involved in catalysis, Arg120 is involved in the stabilization of the enzyme-substrate complex, Tyr47 provides structural stability to the active site, and His49 determines the substrate specificity.
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PMID:Mechanism of specific target recognition and RNA hydrolysis by ribonucleolytic toxin restrictocin. 1147 78

Poly(A)-specific ribonuclease (PARN) is the only mammalian exoribonuclease characterized thus far with high specificity for degrading the mRNA poly(A) tail. PARN belongs to the RNase D family of nucleases, a family characterized by the presence of four conserved acidic amino acid residues. Here, we show by site-directed mutagenesis that these residues of human PARN, i.e. Asp(28), Glu(30), Asp(292), and Asp(382), are essential for catalysis but are not required for stabilization of the PARN x RNA substrate complex. We have used iron(II)-induced hydroxyl radical cleavage to map Fe(2+) binding sites in PARN. Two Fe(2+) binding sites were identified, and three of the conserved acidic amino acid residues were important for Fe(2+) binding at these sites. Furthermore, we show that the apparent dissociation constant ((app)K(d)) values for Fe(2+) binding at both sites were affected in PARN polypeptides in which the conserved acidic amino acid residues were substituted to alanine. This suggests that these residues coordinate divalent metal ions. We conclude that the four conserved acidic amino acids are essential residues of the PARN active site and that the active site of PARN functionally and structurally resembles the active site for 3'-exonuclease domain of Escherichia coli DNA polymerase I.
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PMID:Identification of the active site of poly(A)-specific ribonuclease by site-directed mutagenesis and Fe(2+)-mediated cleavage. 1174 7

To provide information about the kidney GHRH receptor (GHRH-R), we assessed its tissue and cellular localization, defined its pattern of expression in developing and aging rats, and studied the effects of GHRH on the regulation of GHRH-R mRNA levels and receptor internalization. In situ hybridization and ribonuclease protection assay demonstrated that GHRH-R mRNA is restricted to the Henle's loop (HL). GHRH-R mRNA levels were low in the medulla from 3- and 12-d-old male rats, increased significantly in that from 30- to 70-d-old rats, and decreased in that from 12- and 18-month-old animals. Compared with the GHRH-R mRNA profile obtained in the pituitary, these data support the concept of a tissue-specific regulation of GHRH-R. In HL cell cultures from 70-d-old rats, a 4-h incubation with 1-100 nM rat GHRH-(1-29)NH(2) reduced GHRH-R mRNA levels significantly. As anti-GHRH-R- (392-404) immunoreactivity was demonstrated in HL cells, internalization of [N(alpha)-5-carboxyfluoresceinyl-D-Ala(2),Ala(8), Ala(15),Lys(22)]hGHRH-(1-29)NH(2) in a time- and temperature-dependent manner and inhibition of this process by phenyl arsine oxide indicate that desensitization to GHRH involves both GHRH-R internalization and down-regulation of GHRH-R mRNA levels. Localization of a functional GHRH-R in HL and its regulation during development and aging suggest roles associated with cellular proliferation, differentiation, and/or water/electrolyte transport.
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PMID:Localization and regulation of a functional GHRH receptor in the rat renal medulla. 1189 6

Familial amyotrophic lateral sclerosis (FALS) is often caused by gain-of-function mutations in Cu,Zn-superoxide dismutase (SOD1). Multiprobe ribonuclease protection assays (RPAs) were used to investigate expression of 36 different cytokines and apoptosis-related genes in spinal cords of mice that ubiquitously express human SOD1 bearing a glycine (r) alanine substitution at residue 93 (G93A-SOD1). Mice were studied at late presymptomatic stage (80 days), and at 120 days when the animals experience severe hindlimb paralysis and accumulation of oxidatively modified proteins. Spinal cord tissue from G93A-SOD1 mice expressed a selective subset of macrophage-typical cytokines (monokines) including interleukin (IL)1alpha, IL1beta and IL1RA at 80 days increasing by 120 days. Contrastingly, T-cell derived cytokines (lymphokines) including IL2, IL3 and IL4 were detected at low levels in non-transgenic mice but these were not elevated in G93A-SOD1 mice even at 120 days. Apoptosis-related genes were generally unaffected at 80 days but multiple caspases and death receptor components were up-regulated at 120 days; the only exceptions being FADD and the tumor necrosis factor (TNF)alpha receptor p55 which was up-regulated at 80 days and increased further at 120 days. These data indicate that in the G93A-SOD1 mouse: (i) cytokine expression changes precede bulk protein oxidation and apoptosis gene expression; (ii) lymphocyte contributions to cytokine expression in FALS are likely minor; and (iii) TNFalpha and its receptors may link inflammation to apoptosis in ALS.
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PMID:Temporal patterns of cytokine and apoptosis-related gene expression in spinal cords of the G93A-SOD1 mouse model of amyotrophic lateral sclerosis. 1212 37

Human pancreatic ribonuclease (HPR) and bovine seminal ribonuclease (BS-RNase) exhibit significantly higher activity against double stranded RNA (dsRNA), compared to RNase A. The high dsRNA cleavage activity of BS-RNase, in part, has been attributed to glycine residues at positions 38 and 111. HPR possesses a glycine residue at position 38, whereas it has a glutamic acid at position 111. To understand the mechanism of dsRNA degradation by the single strand preferring HPR, we have generated HPR variants containing mutations at positions 38 and 111. Our study shows that Glycine 38 is crucial for the full catalytic activity of the human enzyme on duplex RNA as its substitution with aspartate or alanine results in a drastic reduction in the dsRNA cleavage activity of HPR. The substitution of Glutamate111 with glycine also resulted in the reduction of the dsRNA cleavage activity of HPR, indicating that a glycine residue at 111 is not a requirement for the ribonucleolytic activity on double stranded substrate.
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PMID:Glycine 38 is crucial for the ribonucleolytic activity of human pancreatic ribonuclease on double-stranded RNA. 1223 31

Despite its importance for RNA processing and degradation in Escherichia coli, little is known about the structure of RNase E or its mechanism of action. We have modelled the three-dimensional structure of an essential amino-terminal domain of RNase E on the basis of its sequence homology to the S1 family of RNA-binding domains. Each of the five surface-exposed aromatic residues and most of the 14 basic residues of this RNase E domain were replaced with alanine to determine their importance for RNase E function. All the surface residues essential for cell growth and feedback regulation of RNase E synthesis mapped to one end of the domain. In vitro assays indicate that these essential residues fall into two functionally distinct groups that form discrete clusters on opposite faces of the S1 domain. One group, comprising Phe-57, Phe-67 and Lys-112 [corrected], is of general importance for the ribonuclease activity of RNase E, whereas the other group, comprising Lys-37 and Tyr-60, is entirely dispensable for catalytic activity in vitro. The side-chains of two residues previously identified as sites of temperature-sensitive mutations lie buried directly beneath the surface region defined by Phe-57, Phe-67 and Lys-112 [corrected], which probably enhances RNase E activity by making a crucial contribution to the binding of substrate RNAs. In contrast to the S1 domain, an arginine-rich RNA-binding domain in the carboxyl half of RNase E appears to have a more peripheral role in RNase E function, as it is not required for feedback regulation, cell growth or ribonuclease activity.
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PMID:Two distinct regions on the surface of an RNA-binding domain are crucial for RNase E function. 1242 3

Bovine seminal ribonuclease (BS-RNase), a natural dimeric homolog of bovine pancreatic RNase (RNase A), and HHP2-RNase, an engineered dimeric form of human pancreatic RNase (HP-RNase), are endowed with powerful antitumor effects. Here we show that BS- and HHP2-RNases, but not monomeric RNase A, induce apoptosis of human thyroid carcinoma cell lines. RNase-induced apoptosis was associated with activation of initiation caspase-8 and -9. This was followed by activation of executioner caspase-3, leading to the proteolytic cleavage of poly(ADP-ribose) polymerase. The caspase inhibitor Z-Val-Ala-Asp-(OMe)-fluoromethylketone protected thyroid cancer cells from BS-RNase-induced apoptosis. RNase-triggered apoptosis and caspase activation were accompanied by reduced phosphorylation of Akt/protein kinase B (PKB), a serine-threonine kinase that when phosphorylated is able to deliver survival signals to cancer cells. BS-RNase antitumor effects in nude mice were accompanied by caspase activation and apoptosis. Because of the high selectivity of apoptotic effects for malignant cells, BS- and HHP2-RNase are promising tools for the treatment of aggressive thyroid cancer.
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PMID:Antineoplastic ribonucleases selectively kill thyroid carcinoma cells via caspase-mediated induction of apoptosis. 1278 4

1. The ribonucleoprotein of the microsome fraction which sediments at 40,000 R.P.M. as a pellet (and which is referred to as the pellet material) has been studied with reference to its role in protein synthesis in the pancreas. 2. In pellet material nucleic acid and protein form a definite complex as shown by its electrophoretic behavior and unchanging composition under various conditions. 3. Protein of pellet material is not especially rich in the diamino acids. 4. Evidence is brought forward indicating that the protein component of pellet material takes part in the general process of protein synthesis in the cell. (a) The well known correlation between quantity of RNA and rate of protein synthesis in a tissue implicates the protein of the pellet material, for most of the RNA in the pancreas and other tissues is in this material. (b) Uptake of isotopically labelled glycine by the pellet material, confirming results of previous workers, is for short periods greater than in other protein fractions. (c) Comparing the pellet materials of pancreas, liver, and kidney-three tissues with vastly different rates of protein synthesis, in the sequence given-there is a correlation between the quantity of RNA in the pellet and the rate of protein synthesis in the tissue; a similar correlation between quantity of RNA in the pellet material and rate of N(15)-glycine uptake by the protein component of the pellet; and finally, the level of uptake by total protein varies with the tissue and is related to the uptake of N(15)-glycine by protein of the pellet. 5. In the pancreas a distinction can be made between proteins synthesized for secretion and the nucleoprotein of the pellet (not found in the secretion) which, however, takes part in the synthetic process, as shown by the fact that the N(15) uptake by protein of the pellet is increased when the synthesis of digestive enzymes is stimulated by secretion. 6. The time course of N(15) uptake by proteins of the pancreas indicates that pellet protein serves as precursor material in the synthesis of the secretory proteins. 7. Rate of uptake of N(15)-glycine by the purines of RNA of the pellet material is not correlated with uptake by the protein. 8. The uptake of C(14)-alanine by an in vitro system of microsomes + mitochondria is impaired by preincubation of the microsomes with ribonuclease. This is direct experimental evidence for the dependence of protein synthesis upon the presence or intactness of ribonucleic acid in the microsomes.
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PMID:Synthesis of protein in the pancreas. II. The role of ribonucleoprotein in protein synthesis. 1310 53


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