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:3.1.27.5 (RNase)
17,967 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Components of the translational machinery of the cell, including ribosomal proteins, are generally considered to be clear examples of housekeeping genes with a spatially ubiquitous distribution of messenger RNA during embryonic development. Here we present data based upon in situ hybridization experiments as well as RNase protection assays, demonstrating that Xenopus ribosomal protein gene S1 is differentially expressed in a complex and spatially distinct pattern during embryogenesis. We observed dramatically high levels of expression in some tissues, such as the branchial arches, otic vesicles, optic vesicles and somites and virtually no expression in other tissues, such as the cement gland, epidermis and notochord. Moreover, ribosomal protein genes S22, L1, and L5 display expression patterns nearly identical to S1. Our data is consistent with a model of ribosomal gene expression according to which ribosomal protein genes (or perhaps a subset of ribosomal protein genes) may be expressed at low levels in all tissues, but are abundantly expressed in other cell types reflecting a dynamic and complex pattern of transcriptional control throughout embryonic development.
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PMID:Differential expression of Xenopus ribosomal protein gene XlrpS1c. 937 95

Acidic proteins extracted with 0.5 M NH4Cl and 50% ethanol from ribosomes of the medfly Ceratitis capitata showed two major bands of MW 15 and 17 kD after SDS electrophoresis. Isoelectrofocusing of acidic proteins resolved two groups of bands at pH 4.5 and 3.5. Similar patterns were observed both from the acidic ribosomal protein fraction and from total ribosomes, treated with RNase. Treatment with alkaline phosphatase reduced the number of bands with a shift to a higher pI, indicating dephosphorylation. The phosphorylation pattern of the acidic proteins changed at three different stages of development, six day larvae, white pupae and 0-2 days old embryos. The two protein groups correspond to multi-phosphorylated forms of eucaryotic acidic ribosomal proteins P1 and P2. This was shown by immunoblotting with specific monoclonal antibodies.
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PMID:Characterization of acidic ribosomal proteins from three developmental stages of the medfly Ceratitis capitata. 967 64

In this work we show for the first time that the overproduced N-terminal fragment (residues 1-91) of ribosomal protein TL5 binds specifically to 5S rRNA and that the region of this fragment containing residues 80-91 is a necessity for its RNA-binding activity. The fragment of Escherichia coli 5S rRNA protected by TL5 against RNase A hydrolysis was isolated and sequenced. This 39 nucleotides fragment contains loop E and helices IV and V of 5S rRNA. The isolated RNA fragment forms stable complexes with TL5 and its N-terminal domain. Crystals of TL5 in complex with the RNA fragment diffracting to 2.75 A resolution were obtained.
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PMID:N-terminal domain, residues 1-91, of ribosomal protein TL5 from Thermus thermophilus binds specifically and strongly to the region of 5S rRNA containing loop E. 1035 82

We have cloned a 3.6-kb genomic DNA fragment from Pseudomonas aeruginosa harboring the rpoA, rplQ, katA, and bfrA genes. These loci are predicted to encode, respectively, (i) the alpha subunit of RNA polymerase; (ii) the L17 ribosomal protein; (iii) the major catalase, KatA; and (iv) one of two iron storage proteins called bacterioferritin A (BfrA; cytochrome b1 or b557). Our goal was to determine the contributions of KatA and BfrA to the resistance of P. aeruginosa to hydrogen peroxide (H2O2). When provided on a multicopy plasmid, the P. aeruginosa katA gene complemented a catalase-deficient strain of Escherichia coli. The katA gene was found to contain two translational start codons encoding a heteromultimer of approximately 160 to 170 kDa and having an apparent Km for H2O2 of 44.7 mM. Isogenic katA and bfrA mutants were hypersusceptible to H2O2, while a katA bfrA double mutant demonstrated the greatest sensitivity. The katA and katA bfrA mutants possessed no detectable catalase activity. Interestingly, a bfrA mutant expressed only approximately 47% the KatA activity of wild-type organisms, despite possessing wild-type katA transcription and translation. Plasmids harboring bfrA genes encoding BfrA altered at critical amino acids essential for ferroxidase activity could not restore wild-type catalase activity in the bfrA mutant. RNase protection assays revealed that katA and bfrA are on different transcripts, the levels of which are increased by both iron and H2O2. Mass spectrometry analysis of whole cells revealed no significant difference in total cellular iron levels in the bfrA, katA, and katA bfrA mutants relative to wild-type bacteria. Our results suggest that P. aeruginosa BfrA may be required as one source of iron for the heme prosthetic group of KatA and thus for protection against H2O2.
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PMID:Bacterioferritin A modulates catalase A (KatA) activity and resistance to hydrogen peroxide in Pseudomonas aeruginosa. 1036 48

Exposure to phenolic agents contributes to the development of occupational vitiligo. Proposed as a causative factor for leukoderma in vivo, the para-substituted phenol 4-tertiary butyl phenol was chosen to investigate early cellular events responsible for selective disappearance of melanocytes from the epidermis of individuals sensitive to such agents. To this end, differential display of melanocyte mRNA isolated from three separate cultures was performed following a 12 h exposure of cells to 250 microM 4-tertiary butyl phenol or to vehicle alone. Fragments of cDNA representing differentially expressed messages were cloned and subsequently confirmed by reverse dot blotting. Alignment analysis revealed that the L30 ribosomal protein was upregulated by the treatment, potentially reflecting altered levels of protein synthesis in response to stress. In addition, a gene sequence upregulated following exposure to 4-tertiary butyl phenol was identified as the A2b receptor (a P1 receptor for adenosine). Differential expression of this gene was confirmed in an RNase protection assay. By reverse transcription-polymerase chain reaction, the gene was shown to be expressed in keratinocytes and fibroblasts as well. Flow cytometry confirmed differential expression in melanocytes and fibroblasts, but not in keratinocytes. Interestingly, it has been reported that P1 purinoceptor stimulation can induce apoptosis. This is in concordance with results reported elsewhere demonstrating induction of apoptosis by 4-tertiary butyl phenol in human melanocytes, as well as with morphologic changes observed in this study in cells exposed to 250 microM 4-tertiary butyl phenol for 72 h. In conclusion, differential display is useful to establish melanocyte components involved in the cellular response to phenolic agents.
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PMID:Altered gene expression in melanocytes exposed to 4-tertiary butyl phenol (4-TBP): upregulation of the A2b adenosine receptor 1. 1057 26

SsrA RNA acts as a tRNA and mRNA to modify proteins whose synthesis on ribosomes has stalled. Such proteins are marked for degradation by addition of peptide tags to their C termini in a reaction mediated by SsrA RNA and SmpB, a specific SsrA-RNA binding protein. Evidence is presented here for the existence of a larger ribonucleoprotein complex that contains ribosomal protein S1, phosphoribosyl pyrophosphate synthase, RNase R, and YfbG in addition to SsrA RNA and SmpB. Biochemical, genetic, and phylogenetic results suggest potential roles for some of these factors in various stages of the ribosome rescue and tagging process and/or the presence of functional interactions between one or more of these proteins and SsrA.
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PMID:Protein factors associated with the SsrA.SmpB tagging and ribosome rescue complex. 1124 28

The multifunctional ribonuclease RNase E and the 3'-exonuclease polynucleotide phosphorylase (PNPase) are major components of an Escherichia coli ribonucleolytic "machine" that has been termed the RNA degradosome. Previous work has shown that poly(A) additions to the 3' ends of RNA substrates affect RNA degradation by both of these enzymes. To better understand the mechanism(s) by which poly(A) tails can modulate ribonuclease action, we used selective binding in 1 m salt to identify E. coli proteins that interact at high affinity with poly(A) tracts. We report here that CspE, a member of a family of RNA-binding "cold shock" proteins, and S1, an essential component of the 30 S ribosomal subunit, are poly(A)-binding proteins that interact functionally and physically, respectively, with degradosome ribonucleases. We show that purified CspE impedes poly(A)-mediated 3' to 5' exonucleolytic decay by PNPase by interfering with its digestion through the poly(A) tail and also inhibits both internal cleavage and poly(A) tail removal by RNase E. The ribosomal protein S1, which is known to interact with sequences at the 5' ends of mRNA molecules during the initiation of translation, can bind to both RNase E and PNPase, but in contrast to CspE, did not affect the ribonucleolytic actions of these enzymes. Our findings raise the prospect that E. coli proteins that bind to poly(A) tails may link the functions of degradosomes and ribosomes.
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PMID:Escherichia coli poly(A)-binding proteins that interact with components of degradosomes or impede RNA decay mediated by polynucleotide phosphorylase and RNase E. 1139 Mar 93

The RegB protein, encoded by the T4 bacteriophage genome, is a ribonuclease involved in the inactivation of the phage early messenger RNAs. Its in vitro activity is very low but can be enhanced up to 100-fold in the presence of the ribosomal protein S1. The latter is made of six repeats of a conserved module found in many other proteins of RNA metabolism. Considering the difference between its size (556 amino acids) and that of several RegB substrates (10 nucleotides), we wondered whether all six modules are necessary for RegB activation. We studied the influence of twelve S1 fragments on the cleavage efficiency of three short substrates. RegB activation requires the cooperation of different sets of modules depending on the substrates. Two RNAs are quite well cleaved in the presence of the fragment formed by the fourth and fifth modules, whereas the third requires the presence of the four C-terminal domains. However, NMR interaction experiments showed that, despite these differences, the interactions of the substrates with either the bi- or tetra-modules are similar, suggesting a common interaction surface. In the case of the tetra-module the interactions involve all four domains, raising the question of the spatial organization of this region.
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PMID:Activation of the RegB endoribonuclease by the S1 ribosomal protein is due to cooperation between the S1 four C-terminal modules in a substrate-dependant manner. 1257 72

Transfer-messenger RNA (tmRNA, or SsrA), found in all eubacteria, has both transfer and messenger RNA activity. Relieving ribosome stalling by a process called trans-translation, tmRNAala enters the ribosome and adds its aminoacylated alanine to the nascent polypeptide. The original mRNA is released and tmRNA becomes the template for translation of a 10-amino-acid tag that signals for proteolytic degradation. Although essential in a few bacterial species, tmRNA is nonessential in Escherichia coli and many other bacteria. Proteins known to be associated with tmRNA include SmpB, ribosomal protein S1, RNase R, and phosphoribosyl pyrophosphate. SmpB, having no other known function, is essential for tmRNA activity. trans-translation operates within ribosomes stalled both at the end of truncated mRNAs and at rare codons and some natural termination sites. Both the release of stalled ribosomes and the subsequent degradation of tagged proteins are important consequences of trans-translation.
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PMID:A salvage pathway for protein structures: tmRNA and trans-translation. 1273 Mar 26

We have examined the association of ribosomal protein rpL34 mRNA with polysomes in Aedes albopictus C7-10 cells in culture using a simple, two-step sucrose gradient. In growing cells, 40-50% of the ribosomes were engaged on polysomes. This proportion could be increased to 80% when metabolism was stimulated by refeeding the cells with fresh medium. Conversely, ribosomes shifted off polysomes when cells were starved with phosphate-buffered saline or cell lysates were treated with puromycin. When similar approaches were used with fat body from blood-fed female Aedes aegypti mosquitoes, we were unable to obtain the polysome fraction that contained vitellogenin mRNA, which is abundantly translated after a blood meal. Addition of post-mitochondrial supernatant from fat body to polysomes from cultured cells shifted the polysome profile towards smaller polysomes and monosomes, in a dose-dependent fashion. Disruption of fat body tissue in a post-ribosomal supernatant from refed cells improved the recovery of polysomes, demonstrating both the engagement of vitellogenin mRNA on polysomes and the mobilization of rpL34 from messenger-ribonuceloprotein particles onto polysomes in blood-fed mosquitoes. These observations suggested that ribonucleases remain active when polysomes are prepared from mosquito fat body, and that cell culture supernatant contains a ribonuclease inhibitor.
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PMID:A ribosome-free extract from cultured cells improves recovery of polysomes from the mosquito fat body: analysis of vitellogenin and ribosomal protein rpL34 gene expression. 1277 46


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