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)

The 5' and 3'-terminal oligonucleotides of 18-S ribosomal RNA of L 5178 Y (a mouse cell line) obtained after total T1 ribonuclease hydrolysis were isolated by a diagonal procedure. They were localized on the fingerprint of T1-ribonuclease-hydrolysed 18-S RNA. These two oligonucleotides were partially hydrolysed by snake venom and spleen phsophodiesterases and resulting products were fractionated bidimensionally. Their base compositions were determined by total hydrolysis with piperidine or snake venom phosphodiesterase. From these results the following sequences were deduced: pU-A-C-C-U-G for the 5'-terminal oligonucleotide and G-A-U-C-A-U-U-Aoh for the 3'-terminal oligonucleotide. Quantitative studies indicated that these sequences represent at least 70% for the 5' oligonucleotide and 85% for the 3' oligonucleotide of the terminal sequences of the 18-S RNA.
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PMID:Sequence determination of 5'-terminal and 3'-terminal T1 oligonucleotides of 18-S ribosomal RNA of a mouse cell line (L 5178 Y). 17 97

The sequence of the first 71 nucleotides from the 3'-OH end of tobacco mosaic virus RNA has been determined. After total T1 ribonuclease digestion of the viral RNA, the oligonucleotide C-C-C-A-OH, which originates from the 3'-OH terminus of the RNA, may be readily detected by electrophoresis at pH 2.5 or pH 3.0; it is the only oligonucleotide that migrates toward the cathode at these pHs. This property has been used to screen the purified products of partial T1 ribonuclease digestion of tobacco mosaic virus RNA for the fragment originating from the 3'-end of the native molecule. The sequence of nucleotides in the 3'-terminal fragment, identified in this manner, was determined by radiochemical methods. The fragment contained 71 nucleotides; no abnormal bases could be detected. Although it has been reported that the 3'-end of tobacco mosaic virus RNA is a substrate for aminoacylation by the histidyl-tRNA synthetase of yeast or Escherichia coli, we were unable to fold the sequence into the cloverleaf structure characteristic of tRNAs.
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PMID:Sequence of 71 nucleotides at the 3'-end of tobacco mosaic virus RNA. 105 85

RNase T, a nuclease thought to be involved in end-turnover of tRNA, has been purified about 4,000-fold from extracts of Escherichia coli. At this stage of purification, the enzyme was judged to be at least 95% pure based on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The native molecular weight of RNase T determined from gel filtration and sedimentation analyses is about 50,000, whereas the monomer molecular weight determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis is 25,000, suggesting that the protein is an alpha 2 dimer. Purified RNase T is extremely sensitive to inactivation by oxidation, sulfhydryl group reagents, and temperature. The ribonuclease activity against tRNA-C-C-[14C]A is optimal at pH 8-9 in the presence of 2-5 mM MgCl2 and ionic strengths of less than 50mM. Although RNase T is highly specific for intact tRNA-C-C-A as a substrate and can hydrolyze all species in a mixed population of tRNA, it is inhibited by other RNAs, such as poly(A), rRNA, 5 S RNA, and tRNA-C-C. RNase T is an exoribonuclease which initiates attack at a free 3' terminus of tRNA and releases AMP; aminoacyl-tRNA is not a substrate. The role of RNase T in the end-turnover of tRNA and its possible involvement in other aspects of RNA metabolism are discussed.
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PMID:Purification and characterization of Escherichia coli RNase T. 388 94

The nucleotide sequence of a 3'-terminal fragment obtained by ribonuclease T(1) hydrolysis of the ribonucleic acid from bacteriophage Qbeta has been determined by an improved method of sequence analysis which involves sequential removal of bases by periodate oxidation and beta-elimination. The results obtained from ten such oxidation-elimination cycles and from the alkaline hydrolysis of the remaining oligonucleotide indicate that the first 16 nucleotides at the 3'-terminus of this ribonucleic acid have the sequence: -G-C-C-C-U-C-U-C-U-C-C-U-C-C-C-A.
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PMID:Polynucleotide sequence analysis by sequential base elimination: 3'-terminus of phage Q-beta RNA. 498 94

A new ribonuclease, RNase BN, has been identified and partially purified from a strain of Escherichia coli lacking RNase II and RNase D by using the artificial tRNA precursor tRNA-C-[14C]U as substrate. This enzyme is present in E. coli B but absent from the tRNA processing mutant strain BN which is unable to process extraneous 3' residues on certain phage T4-specified tRNA precursors. The properties of RNase BN clearly distinguish this enzyme from other known E. coli exoribonucleases. It is optimally active at pH 6.5 with 0.2 mM divalent cation and 0.2 M monovalent cation. It is most active against tRNA substrates containing nucleotide substitutions within the -C-C-A sequence and relatively inactive against other types of RNAs. This substrate specificity in vitro is consistent with a processing function in vivo. However, in contrast to the other processing enzymes whose function has been confirmed by mutation, RNase BN is an exoribonuclease. The presence of multiple RNases in E. coli and a strategy for their identification and separation are discussed.
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PMID:Ribonuclease BN: identification and partial characterization of a new tRNA processing enzyme. 634 80

The complete nucleotide sequences of human placenta, human liver, and bovine liver tRNAAsn have been determined. A comparison of these tRNA structures with the previously reported nucleotide sequences of rat liver and Walker 256 carcinosarcoma tRNAAns reveals that the primary nucleotide sequences of the major species of mammalian cytoplasmic tRNAasn are conserved in higher eucaryotes. The complete nucleotide sequence of these tRNAs is: pG-U-C-U-C-U-G-U-m1G-m2G-C-G-C-A-A-D-C-G-G-D-X-A-G-C-G-C-m2(2)G-psi-psi-C-G-G-C-U-Q(G)-U-U-t6A-A-C-C-G-A-A-A-G-m7G-D-U-G-G-U-G-G-Z-psi-C-G-m1A-G-C-C-C-A-C-C-C-A-G-G-G-A-C-G-C-C-AOH where X is 3-(3-amino-3-carboxyl-n-propyl)uridine, Q is 7-(4,5-cis-dihydroxyl-1-cyclopenten-3-yl-aminomethyl)-7-deazaguanosine, Z is an unknown modified nucleotide, and Q(G) represents the replacement of Q nucleoside by G nucleoside in Walker 256 carcinosarcoma tRNAAsn. These primary structures were determined by combined use of the 3H- and 32P-post-labeling techniques. Sequences were compared by tritium nucleoside trialcohol analysis, completed RNAase T1 digestion followed by 3H-labeled fingerprinting on polyethylenimine-impregnated cellulose by two-dimensional thin-layer chromatography (TLC), and polyacrylamide gel electrophoresis of either 5'-32P- and/or 3'-[32P]pCp-labeled tRNA after partial ribonuclease digestions.
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PMID:Structural comparison of human, bovine, rat, and Walker 256 carcinosarcoma asparaginyl-tRNA. 678 75

The effects of ultraviolet irradiation on Escherichia coli 30-S ribosomal subunits were studied. At the doses of radiation used in this work (0-4.5 x 10(5) quanta/30-S subunit), only protein S7 was found to be significantly crosslinked to the 16-S RNA. In conditions where 25% of the protein was covalently crosslinked, the ability of the irradiated 30-S subunits to reassociate with 50-S subunits and their activity in polyphenylalanine synthesis decreased strongly. Similar results were obtained by irradiation with a germicide lamp (254 nm) or with a monochromatic ultraviolet light at 248 nm. No additional proteins were crosslinked to the 16-S RNA by irradiating 30-S subunits depleted in protein S1 or 70-S ribosomes. The covalent complex of 16-S RNA and protein S7 was isolated and digested by T1 ribonuclease. The oligonucleotide remaining attached to the crosslinked protein was characterised as A-C-C-U-C-G [position 1261 - 1266, see the sequence published by Carbon et al. (1979) Eur. J. Biochem. 160, 399-410]. Analysis of this fragment suggests that protein S7 was linked to the cytosine at position 1265 in the RNA sequence.
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PMID:Effect of ultraviolet irradiation on 30-S ribosomal subunits. Identification of the RNA region crosslinked to protein S7. 698 1

The nucleotide sequence of wheat (Triticum aestivum L.) chloroplastid ribosome-associated 4.5 S RNA is U-A-A-G-G-U-G-A-G-C-G-G-C-G-A-G-A-C-G-A-G-C-C-G-U-U-U-A-A-A-U-A-G-G-U-G-U-C-A-A -G-U-G-G-A-A-G-U-G-C-A-G-U-G-A-U-G-U-A-U-G-C-A-G-C-U-G-A-G-G-C-A-U-C-C-U-A-A-C- G-A-A-C-G-A-A-C-G-A-U-U-U-G-A-A-COH. The sequence is highly conserved among chloroplastid 4.5 S RNAs but not related to either the 5 S or 5.8 S rRNA species. When compared with 4.5 S RNAs from other origins, the results indicate that this molecule bears little sequence homology to the mammalian nuclear 4.5 S RNA but suggest that chloroplastid 4.5 S RNA may be related to the bacerial 4.5 S species. An estimate for the secondary structure of the wheat 4.5 S molecule was deduced from products of limited pancreatic and T1 ribonuclease digestion, and similarities with the Escherichia coli 4.5 S RNA are discussed.
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PMID:Nucleotide sequence of wheat chloroplastid 4.5 S ribonucleic acid. Sequence homologies in 4.5 S RNA species. 744 May 75

Endothelial synthesis of the C-C chemokine monocyte chemotactic protein-1 (MCP-1) has been implicated in the regulation of monocyte recruitment for extravascular pools under both physiologic and inflammatory conditions. We designed and characterized five antisense phosphorothioate oligodeoxynucleotides (PS-ODN) targeting MCP-1 secretion by human pulmonary artery endothelial cells (HPAEC) and pulmonary microvascular endothelial cells (HMVEC-L). The most effective PS-ODN (MCP-1 AS 2) dose-dependently suppressed the secretion of MCP-1 but not the secretion of the C-X-C chemokine interleukin-8 (IL-8) in both HPAEC and HMVEC-L in the nanomolar concentration range. Mismatch controls bearing 2 or 4 bp substitutions showed markedly reduced inhibitory capacity. MCP-1 mRNA levels were not affected even at the highest PS-ODN doses employed (ribonuclease protection assay), suggesting a translational arrest of MCP-1 production. Accordingly, PS-ODN exhibited no nonspecific side effects on immediate-early gene regulation of the transcription factor nuclear factor-kappaB (NF-kappaB), as analyzed by gel shift assays. Antisense pretreatment of HPAEC reduced the monocyte chemotactic bioactivity liberated from tumor necrosis factor-alpha (TNF-alpha)-activated endothelial cells (EC) and reduced the TNF-alpha-induced transendothelial monocyte migration. We conclude that nanomolar concentrations of specific antisense oligodeoxynucleotides effectively inhibit human endothelial MCP-1 synthesis and may thus provide a rational approach to modulate monocyte recruitment under inflammatory conditions.
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PMID:Antisense oligomers for selective suppression of MCP-1 synthesis in human pulmonary endothelial cells. 1090 55

4-Hydroxy-4-methyl-2-oxoglutarate (HMG)/4-carboxy-4-hydroxy-2-oxoadipate (CHA) aldolases are class II (divalent metal ion dependent) pyruvate aldolases from the meta cleavage pathways of protocatechuate and gallate. The enzyme from Pseudomonas putida F1 is structurally similar to a group of proteins termed regulators of RNase E activity A (RraA) that bind to the regulatory domain of RNase E and inhibit the ribonuclease activity in certain bacteria. Analysis of homologous RraA-like proteins from varying species revealed that they share sequence conservation within the active site of HMG/CHA aldolase. In particular, the P. putida F1 HMG/CHA aldolase has a D-X20-R-D motif, whereas a G-X20-R-D-X2-E/D motif is observed in the structures of the RraA-like proteins from Thermus thermophilus HB8 (TtRraA) and Saccharomyces cerevisiae S288C (Yer010Cp) that may support metal binding. TtRraA and Yer010Cp were found to contain HMG aldolase and oxaloacetate decarboxylase activities. Similar to the P. putida F1 HMG/CHA aldolase, both TtRraA and Yer010Cp enzymes required divalent metal ions for activity and were competitively inhibited by oxalate, a pyruvate enolate analogue, suggesting a common mechanism among the enzymes. The RraA from Escherichia coli (EcRraA) lacked detectable C-C lyase activity. Upon restoration of the G-X20-R-D-X2-E/D motif, by site-specific mutagenesis, the EcRraA variant was able to catalyze oxaloacetate decarboxylation. Sequence analysis of RraA-like gene products found across all the domains of life revealed conservation of the metal binding motifs that can likely support a divalent metal ion-dependent enzyme reaction either in addition to or in place of the putative RraA function.
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PMID:Biochemical and structural analysis of RraA proteins to decipher their relationships with 4-hydroxy-4-methyl-2-oxoglutarate/4-carboxy-4-hydroxy-2-oxoadipate aldolases. 2435 11

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