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)

The seco-steroid hormone 1,25-dihydroxyvitamin D3 is known to induce the expression of a calcium binding protein termed calbindin-D28K in a variety of target tissues. In order to comprehend the mechanism of induction we have cloned and sequenced the chicken calbindin-D28K gene. The gene spans some 18.5 kilobases (kb) of chromosomal DNA from the putative Cap site to the polyadenylation site of the 2.8 kb mRNA. It is split into 11 coding exons by 10 intervening sequences. The promoter region of this gene is markedly G + C-rich (60-80%) extending from -225 to +400. Within this region we find 70 CpG dinucleotides, four G-C boxes, and numerous known promoter regulatory signals. These putative regulatory signals include a TATA box (ATAAATA) at -30 and a CAT box (CCAAT) at -326. Ten additional variant CAT boxes are found in the upstream promoter region (-218 to -770) of this gene. Furthermore we have identified a glucocorticoid-like responsive element at -410 (TCTACACACTGTTCC) and this element overlaps a metal responsive element (TGCACTC) and a variant CAT box (CCAAAT) and juxtaposes an enhancer-like core element (AAATGGT) on its 3'-side. In addition, the calbindin-D28K promoter is composed of a variety of simple repeated sequences, some of which are components of putative regulatory signals. All splice junctions were found to conform to the GT-AG rule. A consensus sequence of the 5'-splice junction reads AG/GTAAG-TTATA. A consensus sequence of the 3'-splice site consists of two elements: a pyrimidine track (mainly T) followed by ACAG/G-T. A two-dimensional model of calbindin-D28K was constructed which projects the existence of 6 alpha-helix-loop-alpha-helix regions characteristic of calcium binding domains. The 3'-end of the gene consists of a single large (2039 base pair) uninterrupted exon, an organizational feature common to other members of the calcium binding protein gene family which include calmodulin, parvalbumin, Spec I, myosin light chains, etc. Another feature common to the gene family is the presence of the repeated sequence ATTT or TTTA located in the 3'-untranslated exons. These simple repeat sequences could be involved in regulating mRNA degradation by serving as a ribonuclease recognition signal.
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PMID:Molecular structure of the chicken vitamin D-induced calbindin-D28K gene reveals eleven exons, six Ca2+-binding domains, and numerous promoter regulatory elements. 296 15

The primary structure of a pyrimidine base-specific ribonuclease from bovine brain was determined. The sequence determined is (sequence; see text). Although the sequence homology of this RNase with bovine pancreatic RNase A is 78.2%, it consists of 140 amino acid residues, and it is 16 amino acid residues longer than RNase A at the carboxyl-terminal. In addition to an N-glycosylated long carbohydrate chain, the bovine brain RNase has two short O-glycosylated carbohydrate chains at the 129th and the 133rd serine residues. The additional C-terminal tail of the bovine brain RNase has a unique composition: 6 proline, 5 hydrophobic amino acids, and two basic amino acids, arginine and histidine.
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PMID:Primary structure of a ribonuclease from bovine brain. 324 67

A ribonuclease (RNAase) was isolated and purified from the urine of a 45-year-old man by column chromatographies on DEAE-Sepharose CL-6B, cellulose phosphate and CM-cellulose followed by gel filtrations on Bio-Gel P-100 and Sephadex G-75, and finally to a homogeneous state by SDS-polyacrylamide gel electrophoresis. The enzyme was designated RNAase 1. It was possible to detect RNAase 1 isozymes in urine and serum without difficulty using isoelectric focusing electrophoresis followed by immunoblotting with a rabbit antibody specific to RNAase 1. The existence of genetic polymorphism of RNAase 1 was detected in human serum utilizing this technique (Yasuda, T. et al. (1988) Am. J. Hum. Genet., in press). RNAase 1 in serum and urine seemed to exist in multiple forms with regard to molecular weight and pI value. Genetically polymorphic RNAase 1 was a glycoprotein, containing three mannose, one fucose, four glucosamine and no sialic acid residues per molecule, with a molecular weight of 16,000 and 17,500 determined by gel filtration and SDS-polyacrylamide gel electrophoresis, respectively. The enzyme was most active at pH 7.0 on yeast RNA substrate and inhibited remarkably by Cu2+, Hg2+ and Zn2+. It also showed definite substrate preference for poly(C) and poly(U), but much less activity against poly(A) and poly(G). Thus, the enzyme is a pyrimidine-specific RNAase.
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PMID:Purification and characterization of a human urine ribonuclease (RNAase 1) showing genetic polymorphism. 336 53

Kinetic constants for the transesterification of eight dinucleoside phosphates CpX and UpX by bovine and turtle pancreatic ribonuclease were determined. Both ribonucleases have a preference for purine nucleotides at the position X. However, bovine ribonuclease, like other mammalian ribonucleases, prefers 6-amino bases at this site, while turtle ribonuclease prefers 6-keto bases. This difference in specificity at the B2 site may be explained by the substitution of glutamic acid at position 111 by valine in turtle ribonuclease. These results have been confirmed by inhibition studies with the four nucleoside triphosphates. Inhibition studies with pT and pTp showed that a cationic binding group (P0) for the 5'-phosphate of the pyrimidine nucleotides bound at the primary B1 site is present in turtle ribonuclease, although lysine at position 66 in bovine ribonuclease is absent in turtle ribonuclease. However, the side chain of lysine 122 in turtle ribonuclease is probably located in the correct position to take over the role as cationic P0 site.
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PMID:Kinetic studies on turtle pancreatic ribonuclease: a comparative study of the base specificities of the B2 and P0 sites of bovine pancreatic ribonuclease A and turtle pancreatic ribonuclease. 375 85

A mutant of Salmonella typhimurium has been isolated that has less than 5% of the ribonuclease activity of the parent strain. Mutant screening and enzyme assays were done in the presence of ethylenediaminetetraacetic acid, a substance that activates ribonuclease I and inhibits other known microbial nucleases. Genetic mapping indicates that the mutation is located between the purE and gal genes on the Salmonella chromosome. A ribonuclease-deficient mutant that carries a deletion in the pyrF gene is unable to utilize ribonucleic acid as a pyrimidine source, whereas the pyrF parent with normal ribonuclease activity will grow. This suggests that the enzyme may perform a scavenge function in the utilization of exogenous ribonucleic acid. Loss of this enzyme seems to have no detrimental effects on the growth of Salmonella.
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PMID:Isolation and properties of a ribonuclease-deficient mutant of Salmonella typhimurium. 463 52

1. A marked decrease in the total RNA content during the withering process of tea leaves was found. During the fermentation process, there was a small but significant decrease in the total RNA content. 2. During isolation of RNA from tea leaf tissues, the action of leaf ribonuclease was minimized by the addition of sodium dodecyl sulphate during extraction; 1% (w/v) sodium dodecyl sulphate in 0.2m-tris-hydrochloric acid buffer, pH8.0, containing 0.005% EDTA was found to be most efficient for the extraction and gave about 93% yield. 3. The total RNA preparations isolated from fresh, withered and fermented tea leaves were compared with regard to nucleotide composition and spectral characteristics. The total RNA preparations from all three sources contained more purines than pyrimidines (purine/pyrimidine ratio 1.47-1.52).
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PMID:Studies on the ribonucleic acids of fresh and processed tea leaves. 496 54

Pyrophosphate, p-nitrophenyl phosphate and a variety of pyrimidine and purine nucleotides are hydrolyzed by the solubilized membrane-bound enzymes of the brush border plasma membrane of Hymenolepis diminuta. The pH optima (or ranges) for hydrolysis of substrates are 8.0 (pyrophosphate), 8.8 (p-nitrophenyl phosphate), 8.4-8.9 (nucleoside monophosphates), and 7.1-8.1 (nucleoside triphosphates); all substrates, with the exception of nucleoside triphosphates, have a higher affinity for the solubilized enzyme at pH 7.4 than at their optimal pH for hydrolysis. ATP is degraded completely by the enzyme preparation to adenosine and inorganic phosphate, but since neither ADP nor ATP accumulate in the incubation medium it is not known whether ATP hydrolysis involves the sequential hydrolysis of terminal phosphate groups. Isoelectric focusing and various chromatographic procedures (gel permeation, ion-exchange and hydrophobic interaction chromatography) fail to separate the alkaline phosphatase, phosphodiesterase, 5'-nucleotidase, adenosine triphosphatase and ribonuclease activities associated with the solubilized membrane preparation. Additionally, inhibitor studies indicate that only a single enzyme with low substrate specificity is involved in the hydrolysis of nucleotides, p-nitrophenyl phosphate, pyrophosphate and hexose phosphate esters. Purines and pyrimidines and their nucleosides interact with the active site, and in some instances activity of the enzyme is stimulated by an unknown mechanism.
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PMID:Nucleotide hydrolysis by solubilized membrane-bound enzymes of the brush border plasma membrane of Hymenolepis diminuta. 613 88

An experimental approach was used to determine and compare the highest order structure within the 150 to 200 nucleotides at the 3'-ends of the RNAs from the small ribosomal subunits of Escherichia coli, Bacillus stearothermophilus and Saccharomyces cerevisiae. Chemical reagents were employed to establish the degree of stacking and/or accessibility of each adenosine, guanosine and cytidine. The double helices were probed with a cobra venom ribonuclease from Naja naja oxiana, and the relatively unstructured and accessible sequences were localized with the single strand-specific ribonucleases A, T1, T2 and S1. The data enabled the various minimal secondary structural models, proposed for the 3'-regions of the E. coli and S. cerevisiae RNAs, to be critically examined, and to demonstrate that the main common features of these models are correct. The results also reveal the presence and position of additional higher order structure in the renatured free RNA. It can be concluded that a high level of conservation of higher order structure has occurred during the evolution of the gram negative and gram positive eubacteria and the eukaryote in both the double helical regions and the "unstructured" regions. Several unusual structural features were detected. Multiple G X A pairings in two of the putative helices, which are compatible with phylogenetic sequence comparisons, are strongly supported by the occurrence of cobra venom ribonuclease cuts adjacent to, and in one case between, these pairings. Evidence is also provided for the stacking of an A X A pair within a double helix of the yeast RNA. Other special structural features include adenosines bulged out from double helices; such nucleotides, which are hyper-reactive, have been implicated in protein recognition in 5 S ribosomal RNA. The 3'-terminal regions of the RNAs are particularly important for the functioning of the ribosome. They are involved in mRNA, tRNA and ribosomal factor binding. The results reveal that while the functionally important RNA sequences tend to be conserved, they are not always accessible in the free RNA; the pyrimidine-rich "Shine and Dalgarno" sequence, for example, which is involved in mRNA recognition, occurs in a double helix in both eubacterial RNAs.
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PMID:Higher order structure in the 3'-minor domain of small subunit ribosomal RNAs from a gram negative bacterium, a gram positive bacterium and a eukaryote. 619 4

The substrate specificity of pancreatic ribonuclease A is discussed in light of observations based on accurate X-ray structure analysis of several enzyme-nucleotide complexes. A hypothesis for protein-nucleic acid recognition is presented which proposes that: (a) pyrimidine bases in RNA are recognised by ribonuclease due to the charge complementarity of two groups (the amide nitrogen and the side chain oxygen (OG) of threonine 45) of the protein and relevant atoms in the heterocyclic base (O2 and N3 in pyrimidine nucleotides); (b) interaction of the protein with the ribose moiety of the nucleotides is non-specific; and (c) conformational flexibility in the region of the scissile P-O bond is provided by different locations of the phosphoryl oxygens, rather than by an overall translation of the phosphate moiety.
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PMID:Enzyme specificity: base recognition and hydrolysis of RNA by ribonuclease A. 619 18

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


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