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)

Glycerol-3-phosphate acyltransferase (GPAT) catalyzes the acylation of sn-glycerol 3-phosphate to form 1-acyl-sn-glycerol 3-phosphate, a committed step in triacylglycerol and phospholipid biosynthesis. We have previously reported the cDNA cloning and transcriptional regulation of the murine mitochondrial GPAT (mGPAT). We now report the cloning of the 5'-flanking region of the murine mitochondrial GPAT. The transcription start site was identified by primer extension and RNase protection assays. A TATA box-like motif (TTATTAT) was located between -34 and -29 and a reverse CCAAT box (ATTGG) was located between -78 and -74, relative to the transcription start site. To begin studying mechanisms underlying transcriptional regulation of the mGPAT gene, chimeric luciferase (LUC) plasmids containing serial deletions, from -1447 to -38, of the 5'-flanking region of the murine mGPAT gene were prepared and transfected into 3T3-L1 cells. The fusion construct -1447 GPAT.LUC showed high promoter activity and deletions to -1353, -747, -322, and -86 did not markedly change the promoter activity. With all constructs, luciferase activity was 2-fold higher when plasmids were transfected into 3T3-L1 adipocytes. However, deletion of sequences between -86 and -55 resulted in a 9-fold decrease in LUC activity in both preadipocytes and adipocytes. Deletion of sequences between -55 and -38 did not alter promoter activity. DNase I footprint analysis revealed a protected region between -95 and -65 which included the putative CTF/NF1 binding site. Electrophoretic mobility shift assays demonstrated a single protein-DNA complex formation. Oligonucleotides synthesized according to the CTF/NF1 consensus sequence or the adenovirus NF-1 site showed a different and more complex pattern of protein-DNA interaction and were not able to compete away the mGPAT promoter-protein complex, indicating that a distinct protein was bound to -86/-55, a region important for the basal promoter activity in 3T3-L1 cells. Luciferase activity was increased 2.8- and 8-fold when adipocytes stably transfected with -322 GPAT.LUC were treated with 5 and 25 mM glucose, respectively, in the presence of 10 nM insulin. These results indicate that carbohydrate-responsive sequences are located within -322 base pairs of the mGPAT promoter.
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PMID:Characterization of the murine mitochondrial glycerol-3-phosphate acyltransferase promoter. 783 9

We and others have described methods to label specific nucleic acid sequences in fixed cells by reverse in situ transcription (IST). They are simple alternatives to the tedious steps of in situ hybridization with labeled probes. We have favored use of thermostable DNA polymerases after heat denaturation of template secondary structure, accompanied by synthesis of cDNA from an annealed primer, but the approach has been limited by the low reverse transcriptase (RT) activity of Taq polymerase and delayed detection methods. We have improved the technique by the use of recombinant Thermus thermophilus (rTth) DNA polymerase and fluorescein-12-dUTP (FIST). Jurkat T lymphocytes were stimulated with ionomycin + phorbol myristate acetate to produce interleukin-2 (IL-2) mRNA in vitro overnight. They were cytospun onto slides and fixed in 70% ethanol + 30% DEPC-treated water, acetone, and air-dried. The slides were placed on a temperature-controlled heating block, and the cell spot was covered with a plastic coverslip. The temperature was raised to 95 degrees C, and 5-10 microliters of modified Perkin-Elmer/Cetus rTth RT reaction mix was injected under the edge of the coverslip. Each 10 microliters of mix in DEPC-water contained 10 mM Tris-HCl, pH 8.3, 90 mM KCl, 1 mM MnCl2, 1 mM dithiothreitol, 10 U placental ribonuclease inhibitor, 0.125 mM dA,C,GTPs, 0.1 mM fluorescein-12-dUTP, 2 U rTth DNA polymerase, and 4 pM 22-mer oligonucleotide primer, which spanned the second intron of IL-2. After 3 min at 95 degrees C, 1 min at 50 degrees C and 10 min at 72 degrees C, the slides were washed in 0.5 x phosphate-buffered saline, pH 7.0, at 42 degrees C, in 70% ethanol, 100% ethanol, and air-dried. The cells were mounted in antifade solution (2% n-propyl gallate in 70% glycerol), and could be viewed immediately by fluorescence microscopy. Image analysis showed that stimulated Jurkat cells were brighter than uninduced controls or those treated with RNase or without polymerase or primer. FIST appears to be useful for the detection of specific mRNAs in single cells.
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PMID:In situ transcription with Tth DNA polymerase and fluorescent nucleotides. 798 81

The gene 8 product of SA11 rotavirus, NS35 (NSP2), is a nonspecific RNA-binding protein that accumulates in cytoplasmic inclusions (viroplasms) and is required for genome replication. To gain additional information on the role of NS35 in virus replication, lysates of simian rotavirus SA11-infected cells were treated with the thio-cleavable crosslinking agent, dithiobis(succinimidyl propionate) (DSP). Gel electrophoresis of NS35-specific immunoprecipitates recovered from the crosslinked lysates indicated that infected cells contained NS35 multimers, the largest consisting of four or more molecules of the protein. Sedimentation analysis of NS35 expressed in rabbit reticulocyte lysates by cell-free translation and in vTF7-3-infected cells by transfection with a gene 8-containing transcription vector showed that NS35 assembles into multimers of approximately 10S and that the formation of the multimers does not require other viral proteins. The 10S multimers were also detected in rotavirus-infected cells, providing evidence that they function in virus replication. The lack of RNase sensitivity indicates that the 10S multimers probably lack an RNA component. However, by an NS35-specific RNA capture assay, the multimers were shown to possess the RNA-binding activity previously demonstrated for NS35. Despite its ability to multimerize and bind RNA, indirect immunofluorescence assays showed that when transiently expressed in cells, NS35 alone is not sufficient to induce the formation of viroplasms. DSP-crosslinking of infected cell lysates and immunoprecipitation also revealed that NS35 interacts with the putative viral RNA polymerase VP1. Analysis of cytoplasmic extracts resolved by sedimentation on glycerol gradients suggested that the VP1-NS35 complexes are soluble and RNA-free. Complexes formed from NS35 multimers, VP1, and viral messenger RNA may function to coordinate RNA packaging and the assembly of viral cores.
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PMID:The rotavirus RNA-binding protein NS35 (NSP2) forms 10S multimers and interacts with the viral RNA polymerase. 803 Feb 43

A nucleolar endoribonuclease from mouse Ehrlich ascites tumor cells, that has been implicated in the endonucleolytic cleavage of mouse precursor ribosomal RNA, specifically and stably binds an in vitro-derived rRNA transcript containing the +650 early processing site. The specificity of binding was demonstrated by mobility shift analysis, glycerol gradient velocity sedimentation analysis, and UV-crosslinking studies. Binding did not require Mg2+ and therefore was not dependent on cleavage; however, binding was dependent on the presence of the early +650 processing site since a pre-rRNA transcript with the +650 processing site deleted failed to compete in binding. A small nucleolar RNA component was not required for the formation of this stable complex or for the specific cleavage of a processing competent pre-rRNA transcript. UV crosslinking studies using 32P-labeled 5-azidouridine-substituted pre-rRNA with bound nucleolar endoribonuclease identified three closely sized polypeptides of approximately 50, approximately 48, and approximately 45 kDa, respectively, that specifically crosslinked to the processing competent rRNA transcript. These three polypeptides species were identified following ribonuclease digestion and electrophoresis on a SDS-polyacrylamide gel. An identical pattern of labeled polypeptides was also identified from gel mobility shift analysis where the specifically shifted material was U.V. crosslinked. The largest of these polypeptides corresponded to the estimated size of the nucleolar endoribonuclease, while the lower molecular weight species may represent partially proteolyzed enzyme. Overall, these results suggest that the unique specificity of the nucleolar endoribonuclease may, in part, be attributed to the formation of a stable complex at the +650 processing site for mouse preribosomal RNA, and that formation of this unique stable complex affords a means to specifically label the limited amount of available partially purified enzyme for sequence analysis.
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PMID:Selection of a preribosomal RNA processing site by a nucleolar endoribonuclease involves formation of a stable complex. 828 28

Small nuclear (sn) ribonucleoprotein (RNP) U2 functions in the splicing of mRNA by recognizing the branch site of the unspliced pre-mRNA. When HeLa nuclear splicing extracts are centrifuged on glycerol gradients, U2 snRNPs sediment at either 12S (under high salt concentration conditions) or 17S (under low salt concentration conditions). We isolated the 17S U2 snRNPs from splicing extracts under nondenaturing conditions by using centrifugation and immunoaffinity chromatography and examined their structure by electron microscope. In addition to common proteins B', B, D1, D2, D3, E, F, and G and U2-specific proteins A' and B", which are present in the 12S U2 snRNP, at least nine previously unidentified proteins with apparent molecular masses of 35, 53, 60, 66, 92, 110, 120, 150, and 160 kDa bound to the 17S U2 snRNP. The latter proteins dissociate from the U2 snRNP at salt concentrations above 200 mM, yielding the 12S U2 snRNP particle. Under the electron microscope, the 17S U2 snRNPs exhibited a bipartite appearance, with two main globular domains connected by a short filamentous structure that is sensitive to RNase. These findings suggest that the additional globular domain, which is absent from 12S U2 snRNPs, contains some of the 17S U2-specific proteins. The 5' end of the RNA in the U2 snRNP is more exposed for reaction with RNase H and with chemical probes when the U2 snRNP is in the 17S form than when it is in the 12S form. Removal of the 5' end of this RNA reduces the snRNP's Svedberg value from 17S to 12S. Along with the peculiar morphology of the 17S snRNP, these data indicate that most of the 17S U2-specific proteins are bound to the 5' half of the U2 snRNA.
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PMID:Small nuclear ribonucleoprotein (RNP) U2 contains numerous additional proteins and has a bipartite RNP structure under splicing conditions. 838 Feb 23

Mitochondrial ribonuclease (RNase) P from Aspergillus nidulans was purified to near homogeneity using whole-cell extract as the starting material. A 4400-fold purification with a yield of 5.2% was achieved by ammonium sulfate fractionation, heat treatment, and five types of column chromatography, including tRNA-affinity column chromatography. This enzyme, which has a molecular mass of 232 kDa determined by glycerol gradient sedimentation analysis, appears to be composed of seven polypeptides and an RNA moiety. These seven polypeptides consistently copurified with the RNase P activity through two ion-exchange chromatography columns and in a glycerol gradient. As judged by nuclease sensitivity, the enzyme requires an RNA component for its activity. The 3'-end-labeled RNAs that copurified with the enzyme displayed identical sequences but had variable lengths for the 5' end, indicating that they originated from a common RNA molecule, the putative RNA component of RNase P. The purified enzyme cleaved mitochondrial precursor tRNAHis, resulting in an 8-bp acceptor stem. This implies that the purified RNase P is a mitochondrial enzyme and that an additional guanylate residue (at position -1) of tRNAHis in A. nidulans mitochondria is generated by a mode that is analogous to the generation of their counterparts in prokaryotes and chloroplasts.
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PMID:Purification and characterization of mitochondrial ribonuclease P from Aspergillus nidulans. 863 44

RNA synthesis can be detected in nuclei using modified RNA precursors (Br-UTP) introduced in permeabilized cells. Surprisingly, RNA pol I transcripts are detected only after inhibition of RNA pol II or salt enhancement of RNA pol I activity. By modifying a previously reported protocol, we found that RNA pol I transcripts can be detected selectively or simultaneously with RNA pol II transcripts without any drug treatment. Removing glycerol from the permeabilization and transcription buffers and improving the permeabilization using Triton X-100 revealed RNA pol I transcription in two cell lines (mammalian and Xenopus) and in isolated mouse oocytes. The transcripts were most probably rRNA because they were detected in the nucleoli, digested by RNase, sensitive to actinomycin D, and resistant to alpha-amanitin. We found by microinjection of the Br-UTP precursors in living cells that low ionic strength allows the detection of RNA pol I transcription. Electron microscopy of mouse oocytes showed that the "looseness" of the nucleolar organization is associated with the detection of the RNA pol I transcription; this detection does not necessarily need nucleolar disorganization. The data obtained with both permeabilized cells and microinjections of RNA precursors in the absence of glycerol support the hypothesis that the degree of hydration of the cell plays a role in RNA pol I transcription.
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PMID:Conditions favoring RNA polymerase I transcription in permeabilized cells. 866 Sep 46

RNase mitochondrial RNA processing enzyme (MRP) is a nucleolar ribonucleoprotein particle that participates in 5.8S ribosomal RNA maturation in eukaryotes. This enzyme shares a polypeptide and an RNA structural motif with ribonuclease P (RNase P), a nuclear endoribonuclease originally described in the nucleus that processes RNA transcripts to generate their mature 5' termini. Both enzymes are also located in mitochondria. This report further characterizes the relationship between RNase MRP and RNase P. Antisense affinity selection with biotinylated 2'-O-methyl oligoribonucleotides and glycerol gradient fractionation experiments demonstrated that small subpopulations of RNase MRP and RNase P associate with each other in vivo in macromolecular complex, possibly 60-80S preribosomes. This latter notion was supported by fluorescence in situ hybridization experiments with antisense oligonucleotides that localized that RNA components of RNase MRP and RNase P to the nucleolus and to discrete cytoplasmic structures. These findings suggest that small subpopulations of RNase MRP and RNase P are physically associated, and that both may function in ribosomal RNA maturation or ribosome assembly.
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PMID:Association of RNase mitochondrial RNA processing enzyme with ribonuclease P in higher ordered structures in the nucleolus: a possible coordinate role in ribosome biogenesis. 887 59

Double-stranded RNA adenosine deaminase (DsRAD), which converts adenosine in duplex RNA to inosine, has been implicated in editing of cellular mRNA and hypermutation of viral RNA in the central nervous system (CNS). We used subcellular fractionation to show that DsRAD in bovine brain tissues is associated with high-molecular-weight ribonucleoprotein (RNP) complexes in the nuclei. DsRAD-associated RNP complexes have apparent molecular mass of up to 500 kDa and buoyant density of 1.35 to 1.42 g cc-1 in CsCl solution. In human glioma cells, DsRAD is also found exclusively in intranuclear RNP complexes that co-sediment with the largest RNA species. These DsRAD-associated RNP complexes are dissociated by RNase A or high salt. The RNA component is not essential for DsRAD activity, and the protein component can be separated by dsRNA-affinity column, gel filtration column, and glycerol gradient into enzymatically active protein species with apparent molecular mass ranging from 120 kDa to 70 kDa in polyacrylamide gel. The bovine brain DsRAD has no apparent requirement for low-molecular-weight cofactors or metal ions. These results provide insight into the native state of DsRAD in brain cells and have interesting implications for its putative roles in RNA-editing and hypermutation of viral RNA in the CNS.
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PMID:Isolation and characterization of intranuclear ribonucleoprotein complexes associated with double-stranded RNA adenosine deaminase from brain cells: implications for RNA-editing and hypermutation of viral RNA in the CNS. 922 68

In Aspergillus nidulans, the nuclear ribonuclease P was separated from its mitochondrial counterpart by Q-Sepharose chromatography, and a precursor-tRNA(His) processing assay system was used to discriminate nuclear ribonuclease P activity from the mitochondrial counterpart. The nuclear ribonuclease P was purified to near homogeneity from whole-cell extracts. A 2150-fold purification with a yield of 2.3% was achieved by five types of chromatography including tRNA affinity chromatography and glycerol gradient velocity sedimentation. This enzyme, which had a molecular mass of 580 kDa determined by both glycerol-gradient sedimentation analysis and gel-permeation chromatography, appeared to be composed of seven polypeptides and an RNA molecule. Seven polypeptides, with masses of 125, 85, 45, 33, 30, 21, 19 kDa, were consistently copurified with nuclear ribonuclease P activity through MonoS and tRNA affinity chromatography and in a glycerol gradient. As judged by a micrococcal-nuclease-sensitivity assay, nuclear ribonuclease P required an RNA component for its activity, as do other ribonuclease Ps. Analysis of the radiolabeled 5' end of RNAs copurified with nuclear ribonuclease P implied that RNA molecules in the purified nuclear ribonuclease P originated from a common RNA molecule, the putative RNA molecule of nuclear ribonuclease P. Comparison of the two ribonuclease Ps in A. nidulans showed that the protein and RNA components of the nuclear ribonuclease P were different from those of the mitochondrial counterpart.
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PMID:Purification and characterization of the nuclear ribonuclease P of Aspergillus nidulans. 949 90


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