EC:3.1.27.5 - FACTA Search

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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)

The ribonucleases (RNases) of human blood serum, urine, cerebrospinal fluid (CSF), and leukocytes were visualized by activity staining after electrophoresis in RNA-case sodium dodecyl sulfate-polyacrylamide gels. Samples were prepared for electrophoresis by heating for 2 min at 100 degrees C in 2% sodium dodecyl sulfate (NaDodSO4) and 5% mercaptoethanol, conditions which dissociate proteins into their constituent polypeptide chains and permit estimation of molecular weight. It was found that each of the five peaks of serum alkaline RNase activity separable on phosphocellulose columns, i.e., RNases 1-5 of Akagi et al. [Akagi, K., Murai, K., Hirao, N., & Yamanaka, M. (1976) Biochim. Biophys. Acta 442, 368-378], is associated with electrophoretically distinct enzymes. The molecular weights exhibited by these enzymes in NaDodSO4 gels are 31 000 and 28 000 (major species of RNase 1), 25 000 (RNase 2), 20 000 (RNase 3), 16 000 (RNase 4), and 14 000 (RNase 5). The RNase activity of leukocytes displays a molecular weight of 17 000 and exhibits a characteristic dependence of its Rf on the temperature at which samples (in 2% NaDodSO4 without mercaptoethanol) are prepared for electrophoresis. An RNase activity like that of leukocytes, distinct from RNases 1-5, is found in serum. Urine RNase activity is less heterogeneous than that of serum, consisting mainly of species like serum RNase 1 and an enzyme similar to leukocyte RNase. Conversely, CSF RNase activity is more complex and includes enzymes resembling serum RNases 1-5 as well as additional species either not observed in serum or detected in serum as minor components following chromatography. The analytical methods described herein are particularly useful for assessment of heterogeneity of RNase preparations and for direct comparison of the RNases of crude and purified samples.
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PMID:Ribonucleases of human serum, urine, cerebrospinal fluid, and leukocytes. Activity staining following electrophoresis in sodium dodecyl sulfate-polyacrylamide gels. 723 97

We have isolated a unique genomic fragment encoding human ribonuclease 4 (RNase 4) of the mammalian ribonuclease gene family, whose members include pancreatic ribonuclease, eosinophil-derived neurotoxin, eosinophil cationic protein and angiogenin. We have determined that the coding sequence of RNase 4 resides on a single exon found on human chromosome 14. The mRNA encoding RNase 4 was detected by Northern analysis in a number of human somatic tissues, including pancreas, lung, skeletal muscle, heart, kidney and placenta, but not brain; liver represents the most abundant source. Interestingly, the mRNA encoding RNase 4 is approximately 2 kb in length, which is approximately twice as large as the mRNAs encoding other members of this gene family. A larger (approximately 2.4 kb), second transcript was detected in hepatic, pancreatic and renal tissues. The approximately 2 kb RNase 4 mRNA was detected in cells of the human promyelocytic leukemia line, HL-60, that had been treated with dibutyryl-cAMP to promote neutrophilic differentiation. In contrast, no mRNA encoding RNase 4 could be detected in cells treated with phorbol myristic acid (PMA), an agent promoting differentiation toward monocyte/macrophages, suggesting the existence of elements regulating tissue specific expression of this gene.
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PMID:Human ribonuclease 4 (RNase 4): coding sequence, chromosomal localization and identification of two distinct transcripts in human somatic tissues. 750 48

A ribonuclease (RNase) that cleaves specifically on the 3' side of uridine [Shapiro, R., Fett, J. W., Strydom, D. J. & Vallee, B. L. (1986a) Biochemistry 25, 7255-7264] was purified from human plasma and its amino acid sequence was determined. This protein is a 119-residue single-chain polypeptide cross-linked by four disulfide bonds and has an amino-terminal pyroglutaminyl residue. No post-translational modifications were observed during extensive sequence studies on peptide fragments, except for the amino-terminal pyroglutamic acid and a possible deamidation of Asn66. The protein is homologous to the pancreatic ribonucleases and angiogenin, but differs substantially from both of these proteins; the protein sequence has 43% identity with human pancreatic ribonuclease and 39% identity with human angiogenin, as compared to 35% identity between human angiogenin and pancreatic ribonuclease. It is referred to as RNase 4, based on the nomenclature currently used for the genes of pancreatic RNase (RNase 1) and the eosinophil-derived RNases (RNase 2 and RNase 3). Virtually all of the RNase active-site components, including the catalytic residues His12, His119 and Lys41, are preserved. However, some invariant residues of RNase 1 are replaced, e.g. Lys7 by arginine, Asp14 by histidine, and Pro42 by arginine. RNase 4 contains a unique two-residue deletion at the position corresponding to amino acids 77 and 78 of pancreatic RNase, and its carboxyterminal sequence is truncated at position 122. The deletion in angiogenin at position 21 is also found in RNase 4. RNase 4 is very similar to two RNases isolated from bovine and porcine liver, and together they form a new family in the RNase superfamily. The degree of inter-species similarity (90%) is much greater than within the pancreatic RNase and angiogenin families, which suggests that this ribonuclease could possess a physiologically important function other than general RNA catabolism.
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PMID:The amino acid sequence of human ribonuclease 4, a highly conserved ribonuclease that cleaves specifically on the 3' side of uridine. 822 79

The tissue-specific expression of five human pancreatic-type RNases and RNase inhibitor was analyzed by Northern hybridization against poly(A)+ RNA prepared from 16 normal tissues. The widespread expression of RNase 1 was observed in almost all of the tissues. RNase 4 and angiogenin showed a similar distribution of expression abundantly present in the liver. This suggested the identity of the cell types producing these two molecules. However, no relativity appeared to be present between the vascularization of the tissues and the angiogenin expression. A narrow range of expression of the eosinophil-derived neurotoxin gene was observed. This localization seems related to the phagocytic cells in the tissues. The undetectable level of the eosinophil cationic protein mRNA in normal tissues suggests that the differentiation of eosinophils, triggered by inflammation and/or atopy, is required. The expression of RNase inhibitor was found to be ubiquitous. The regulatory function of inhibitor against RNases in the cell should be considered in studying the physiological significance of the pancreatic-type RNase family.
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PMID:Tissue-specific expression of pancreatic-type RNases and RNase inhibitor in humans. 915 Apr 28

Several ribonucleases of the RNase A family function as antibacterial, anti-parasitic and anti-viral agents. In this work, we have shown that mRNAs encoding five of the six known human ribonucleases of the RNase A family are expressed in cultured human monocytes, and that ribonucleases are released by adherent monocytes in culture. Using a polyclonal antiserum prepared against recombinant protein, we have detected one of these ribonucleases, RNase 4, in lysates of normal human peripheral blood monocytes, but not granulocytes or lymphocytes, by Western blotting. Subcellular localization by immunoelectron microscopy demonstrated the presence of RNase 4 in the cytoplasmic granules of isolated monocytes. Interestingly, mRNA encoding RNase 4 could not be detected in freshly isolated monocytes, emerging only after 16 h in culture, suggesting the possibility of de novo protein synthesis in association with monocyte differentiation.
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PMID:Ribonucleases and host defense: identification, localization and gene expression in adherent monocytes in vitro. 936 57

The structural features underlying the strong uridine specificity of ribonuclease 4 (RNase 4) are largely unknown. It has been hypothesized that the negatively charged alpha-carboxylate is close to the pyrimidine binding pocket, due to a unique C-terminal deletion. This would suppress the cleavage of cytidine-containing substrates [Zhou, H.-M., and Strydom, D. J. (1993) Eur. J. Biochem. 217, 401-410]. Replacement of the alpha-carboxylate by an alpha-carboxamide in a fragment complementation system decreased both (kcat/Km)CpA and (kcat/Km)UpA , thus refuting the hypothesis. However, model building showed that the deletion allowed the side chain of Arg-101 to reach the pyrimidine binding pocket. From the 386-fold reduction in (kcat/Km)UpA in RNase 4;R101N, it is concluded that this residue functions in uridine binding, analogous to Ser-123 in RNase A. In addition, it may have an effect on Asp-80. The 2-fold increase in (kcat/Km)CpA in the mutant R101N and the close proximity of the side chains of Arg-101 and Asp-80 suggested that the latter could be involved in suppressing CpA catalysis. The substrate specificity of RNase 4;D80A was completely reversed: (kcat/Km)UpA decreased 159-fold, whereas (kcat/Km)CpA increased 233-fold. The effect on CpA was unexpected, because the corresponding residue in bovine pancreatic RNase A (Asp-83) hardly affects cytidine-containing substrates. Furthermore, the residue is conserved in nearly all sequences of mammalian RNase 1. Thus, an evolutionary highly conserved residue does not necessarily function in the same way in homologous enzymes. A model, which proposes that the structure of RNase 4 has been optimized to permanently fix the position of Asp-80 and impede its movement away from the pyrimidine binding pocket, is presented.
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PMID:A single amino acid substitution changes ribonuclease 4 from a uridine-specific to a cytidine-specific enzyme. 964 5

The structural and enzymatic properties of RNase 4 are reviewed. This RNase shows a much higher interspecies similarity (approximately 90%) than the other members of the RNase A superfamily. The enzyme is ubiquitous, with the highest amounts present in liver and lung. Its unique uridine specificity results from alterations in and around the pyrimidine-binding site. In particular, the shortened C-terminus and the side chains of Phe-42, Asp-80 and Arg-101 appear to be involved. RNase 4 binds tightly to the intracellular RNase inhibitor, with a Kd of 4 x 10(-15) M.
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PMID:Ribonuclease 4, an evolutionarily highly conserved member of the superfamily. 976 Sep 89

The RNase 4 family is unique among RNase enzymes, displaying the highest level of sequence similarity and encompassing the shortest polypeptide chain. It is the only one showing high specificity. The human representative is an intracellular and plasma enzyme, first isolated from colon adenocarcinoma cell line HT-29. The crystal structures of human recombinant RNase 4, unliganded and in complex with d(Up), have been determined, revealing in the unique active site an explanation for the uridine specificity. Arg101, at a position not involved in catalysis in the other RNase enzymes, penetrates the enzyme moiety shaping the recognition pocket, a flip that is mediated by the interaction with the (shorter chain) C-terminal carboxylate group, providing an anchoring point for the O4 atom of the substrate uridine. The bulky Phe42 side-chain forces Asp80 to be in the chi1=-72.49 degrees rotamer, accepting a hydrogen bond from Thr44, further converting the latter into a hydrogen bond acceptor. This favours an interaction with the -NH-donor group of uridine at position 3 over that with the =N-acceptor of cytidine. The two chemical groups that distinguish uracyl from cytosine are used by the enzyme to discriminate between these two bases.
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PMID:The three-dimensional structure of human RNase 4, unliganded and complexed with d(Up), reveals the basis for its uridine selectivity. 987

Ribonucleases with antitumor activity are mainly found in the oocytes and embryos of frogs, but the role of these ribonucleases in frog development is not clear. Moreover, most frog ribonuclease genes have not been cloned and characterized. In the present study, a group of ribonucleases were isolated from Rana catesbeiana (bullfrog). These ribonucleases in mature oocytes, namely RC-RNase, RC-RNase 2, RC-RNase 3, RC-RNase 4, RC-RNase 5 and RC-RNase 6, as well as liver-specific ribonuclease RC-RNase L1, were purified by column chromatographs and detected by zymogram assay and western blotting. Characterization of these purified ribonucleases revealed that they were highly conserved in amino acid sequence and had a pyroglutamate residue at their N-termini, but possessed different specific activities, base specificities and optimal pH values for their activities. These ribonucleases were cytotoxic to cervical carcinoma HeLa cells, but their cytotoxicities were not closely correlated to their enzymatic specific activities. Some other amino acid residues in addition to their catalytic residues were implicated to be involved in the cytotoxicity of the frog ribonucleases to tumor cells. Because the coding regions lack introns, the ribonuclease genes were cloned by PCR using genomic DNA as template. Their DNA sequences and amino acid sequences are homologous to those of mammalian ribonuclease superfamily, approximately 50 and approximately 25%, respectively.
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PMID:Purification and cloning of cytotoxic ribonucleases from Rana catesbeiana (bullfrog). 1105 5

RC-RNases are ribonucleases from Rana catesbeiana oocytes with pyrimidine-guanine sequence specificity. They also possess cell cytotoxicity and lectin activity. Protein crystals of three RC-RNase isozymes, RC-RNase 3, RC-RNase 4 and RC-RNase 6, were grown in various crystal systems under different conditions. Crystals of RC-RNase3 belong to the orthorhombic C222(1) space group, with unit-cell parameters a = 66.66, b = 97.38, c = 85.74 A. Crystals of RC-RNase 4 belong to the trigonal space group P3(1) or P3(2), with unit-cell parameters a = b = 32.22, c = 92.12 A. Crystals of RC-RNase 6 complexed with cytidylyl 2'-5' guanosine belong to the tetragonal space group P4(1)2(1)2 or P4(3)2(1)2, with unit-cell parameters a = b = 61.80, c = 65.96 A.
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PMID:Crystallization and preliminary X-ray diffraction analysis of cytotoxic ribonucleases from bullfrog Rana catesbeiana. 1167 49

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