EC:3.1.27.1 - FACTA Search

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Query: EC:3.1.27.1 (RNase)
16,360 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Using cDNA cloning techniques we previously identified a set of genes induced by glucocorticoids and cAMP in murine T-lymphocytes. We report here the sequence of one of these cDNA clones (clone 4.2), renamed here as glucocorticoid-induced receptor (GIR), which encodes a potential new member of the family of receptors that couple to G-proteins. Several different forms of cDNA for this gene were isolated and shown to correspond to multiple mRNA species in lymphoid cells using an RNase protection assay. The cDNA clone corresponding to the most abundant form of GIR mRNA encodes a precursor protein of 423 amino acids, with a putative signal peptide of 17 amino acids. A hydropathy plot reveals the presence of seven hydrophobic regions, with significant similarities to other G-protein-coupled receptors.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Identification of a gene induced by glucocorticoids in murine T-cells: a potential G protein-coupled receptor. 166 14

A small RNA of Bacillus subtilis bacteriophage phi 29 is shown to have a novel and essential role in viral DNA packaging in vitro. This requirement for RNA in the encapsidation of viral DNA provides a new dimension of complexity to the attendant protein-DNA interactions. The RNA is a constituent of the viral precursor shell of the DNA-packaging machine but is not a component of the mature virion. Studies of the sequential interactions involving this RNA molecule are likely to provide new insight into the structural and possible catalytic roles of small RNA molecules. The phi 29 assembly in extracts and phi 29 DNA packaging in the defined in vitro system were strongly inhibited by treatment with the ribonucleases A or T1. However, phage assembly occurred normally in the presence of ribonuclease A that had been treated with a ribonuclease inhibitor. An RNA of approximately 120 nucleotides co-purified with the phi 29 precursor protein shell (prohead), and this particle was the target of ribonuclease action. Removal of RNA from the prohead by ribonuclease rendered it inactive for DNA packaging. By RNA-DNA hybridization analysis, the RNA was shown to originate from a viral DNA segment very near the left end of the genome, the end packaged first during in vitro assembly.
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PMID:A small viral RNA is required for in vitro packaging of bacteriophage phi 29 DNA. 310 24

Porphobilinogen deaminase (PBG deaminase) is an early enzyme of the pathway for chlorophyll and heme synthesis. Using degenerate oligonucleotide primers, based on amino acid sequence data for purified PBG deaminase from pea, a fragment was amplified from Arabidopsis genomic DNA by PCR, and then used to isolate both a cDNA and a genomic clone for PBG deaminase from Arabidopsis. The cDNA, shown to be full-length by primer extension, encodes a precursor protein of 382 residues, which can be imported into isolated chloroplasts and processed to the mature size. The genomic clone encodes an identical sequence to the cDNA, except for the presence of four introns within the coding region of the mature protein, and 1.7 kb of upstream sequence. There is no obvious TATA box within 50 bp of the transcription start. Southern blot analysis suggests that PBG deaminase is encoded by a single gene in the Arabidopsis genome, and RNase protection experiments demonstrated that this gene is expressed in both leaves and roots. These results support the conclusion that there is only one form of PBG deaminase in all plant cells, which is located in the plastid.
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PMID:Porphobilinogen deaminase is encoded by a single gene in Arabidopsis thaliana and is targeted to the chloroplasts. 800

Proopomelanocortin (POMC) is the precursor protein for a number of peptide hormones and neuropeptides, and the POMC gene is transcriptionally very active in the pars intermedia of the pituitary of the amphibian Xenopus laevis (Xenopus). We analysed the expression of this gene during Xenopus embryogenesis, in order to examine whether it can function as a (novel) neural marker. We investigated the spatio-temporal distribution of POMC mRNA, using a single-stranded probe that corresponds to the 3' untranslated region of Xenopus POMC gene B mRNA. Gene transcripts were first detected at stage 25 of development via RNase protection assays. In situ hybridization analysis performed at stage 46 showed clearly that these transcripts are localised in a region representing the future pars intermedia of the pituitary. Experiments using Xenopus explants indicate that the POMC gene can be used successfully as an indirect marker in studies on neural induction: in the absence of interactions with mesoderm, ectoderm fails to express the POMC gene, whereas POMC transcripts are readily detectable in conjugates of ectoderm and mesoderm. Artificial application of two different signals, which are likely to be relevant for neural differentiation (namely retinoic acid and the activation of protein kinase C via phorbol ester), was not effective in evoking POMC gene expression in cultured ectoderm explants. However, retinoic acid treatment of conjugates of Xenopus ectoderm and mesoderm successfully prevented POMC expression. We conclude that POMC gene expression can be used as an indirect marker for anterior neural differentiation in Xenopus.
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PMID:Proopiomelanocortin gene expression as a neural marker during the embryonic development of Xenopus laevis. 848 37

Amyloid precursor protein (APP) and amyloid precursor-like protein 2 (APLP2) are members of a multigene family of proteins implicated in the pathogenesis of Alzheimer's disease. We describe the development of an RNA-RNA solution hybridisation-RNase protection assay to quantify APP mRNA. APP mRNA splice forms containing the Kunitz-type protease inhibitor (KPI) insert, and APLP2 mRNA in total nucleic acid extracts from a range of tissue types. Solution hybridisation-RNase protection assay enables absolute quantification of target mRNA, by conversion of the hybridisation signal to pg mRNA using a standard curve. The assay is sensitive, capable of detecting 1 pg target mRNA, and reproducible, with an inter-assay variability of less than 10% and an intra-assay variability of 3-4%. We quantified APP and APLP2 mRNA in cell lines and post-mortem human brain tissue samples. To test whether we could detect physiological differences in APP mRNA levels, a fibroblast cell line with a paternal chromosome 21 deletion of the region including the APP gene was analysed and found to express half as much APP mRNA as control fibroblasts. In addition, a reversible, approx. 30% increase in APP mRNA levels was detected in human lymphoblastoid cell lines following heat shock, a physical stimulus previously shown to increase APP expression. Regional differences in the expression of APP and APLP2 were seen in human post-mortem cerebral cortex and cerebellum. Levels of APP and APLP2 mRNA were highest in the temporal cortex, slightly lower in frontal and occipital cortices, and lowest in the cerebellum. The highest proportion of KPI-containing APP was seen in the frontal and temporal cortices. The ratio of APP:APLP2 mRNA was 1:0.3 in the cortical tissue and 1:0.8 in the cerebellum. In conclusion, quantitative solution hybridisation-RNase protection assay of total APP. APP KPI and APLP2 mRNA provides a new tool to improve the resolution of studies of potentially subtle alterations in the expression of these genes in both cell culture model systems and Alzheimer's disease post-mortem human brain tissue.
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PMID:A new quantitative solution hybridisation-RNase protection assay for APP and APLP2 mRNA. 903 21

Amyloid precursor protein (APP) is metabolised to produce A beta, a peptide found aggregated in Alzheimer's disease neuritic plaques. APP is a member of a multigene protein family which includes amyloid precursor-like protein 2 (APLP2). Since A beta accumulation can be triggered by factors acting up- or downstream of APP processing, we investigated whether APP mRNA expression was altered in Alzheimer's disease post-mortem cerebral cortex. In addition, we characterised cortical APLP2 mRNA levels. Quantitative RNA-RNA solution hybridisation-RNase protection was used to assay total APP. APP containing the Kunitz-type protease inhibitor (KPI) insert and APLP2 mRNA in mid-temporal and superior frontal cortices from apolipoprotein E-genotyped subjects with Alzheimer's disease, other neurological diseases and non-demented controls. Approximately 3 times more APP than APLP2 mRNA was detected and about 70% of total APP mRNA contained the KPI insert in the control subjects. Total APP and APLP2 mRNA levels were significantly reduced in Alzheimer's disease mid-temporal, but not superior frontal cortex, suggesting that regional reductions in these mRNA correlate with severity of disease pathology. A small significant increase in the proportion of APP KPI mRNA was seen in both cortical regions in Alzheimer's disease. Apolipoprotein E genotype did not influence cortical levels of total APP, APP KPI or APLP2 mRNA. Alzheimer's disease-related increases in tissue DNA content were seen in both regions studied, while tissue RNA levels were reduced in the positive disease controls. In summary, these results indicate that Alzheimer's disease is not associated with over-expression of either APP or APLP2 mRNA. Our findings reveal a disease-associated increase in the proportion of APP KPI-containing isoforms, and further investigation should clarify whether this predisposes affected individuals to A beta production and aggregation, or reflects later events such as gliosis and neuronal cell death.
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PMID:Quantification of APP and APLP2 mRNA in APOE genotyped Alzheimer's disease brains. 903 22

Subunit rLMP7 of the multicatalytic proteinase (MCP), which has been associated with chymotrypsin-like proteinase activity, was examined in rat liver and hepatocyte-derived cell lines. rLMP7 was detected in both nucleus and cytosol in liver by immunohistochemistry and immunoblotting, using a peptide-specific anti-rLMP7 antibody. A M(r) 30,000 precursor protein was present only in cytosol, as was a minor component of M(r) 25,000. Mature rLMP7 (M(r) 23,000) was present in MCP in both nucleus and cytosol, although it was not detectable in the nuclear scaffold. Two rLMP7 cDNAs (designated rLMP7.1 and rLMP7.s) were identified by rapid amplification of 5' ends using RT/PCR, a result which was confirmed by Northern blot analysis and RNase protection assays. rLMP7.1 is 3-4x more abundant than rLMP7.s; it is 50 nt longer than the previously reported cDNA sequence and includes an upstream in-frame ATG within a consensus translation initiation sequence, which encodes the M(r) 30,000 rLMP7 precursor protein identified in vivo. rLMP7.s is 100 nt shorter than rLMP7.1 and does not contain the most 5' ATG. Transient transfection analyses with rLMP7.1 and rLMP7.s constructs coupled to green fluorescent protein showed that both transcripts were efficiently expressed in vivo. In vitro expression of these two rLMP7 cDNAs showed that rLMP7.1 produces the M(r) 30,000 precursor protein, whereas rLMP7.s produces two smaller peptides of M(r) 25,000 and 23,000. Purified 20S MCP preparations were able to proteolytically process the M(r) 30,000 precursor to the M(r) 25,000 product but not to the mature rLMP7 form. However, incorporation of this processed M(r) 25,000 product (or of either M(r) form produced from rLMP7.s) did not occur in vitro. In vitro processing and pulse-chase experiments suggested that the mature M(r) 23,000 subunit is derived, at least in part, from the M(r) 30,000 precursor. The M(r) 25,000 form may be a stable product produced directly from rLMP7.s.
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PMID:Studies on rLMP7, a beta-subunit of the multicatalytic proteinase. 922 75

Protein unfolding is a key step in the life cycle of many proteins, including certain proteins that are degraded by ATP-dependent proteases or translocated across membranes. The detailed mechanisms of these unfolding processes are not understood. Precursor proteins are unfolded and imported into mitochondria by a macromolecular machine that spans two membranes and contains at least nine different proteins. Here we examine import of a model precursor protein derived from the ribonuclease barnase and show that mitochondria unfold this protein by unraveling it from its N-terminus. Because barnase in free-solution unfolds by a different pathway, our results demonstrate that mitochondria catalyze unfolding in the way that enzymes catalyze reactions, namely by changing reaction pathways. The effectiveness of this mechanism depends on the structure of the N-terminal part of the precursor protein.
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PMID:Mitochondria unfold precursor proteins by unraveling them from their N-termini. 1058 40

Two overlapping clones encoding for a ribonuclease from six-day-old larvae of the insect Ceratitis capitata (Cc-RNase) have been isolated by immunoscreening a cDNA library and by 5' RACE. The sequence of the Cc-RNase cDNA contains an open reading frame of 414 nucleotides encoding for a precursor protein of 138 amino acids long with a putative signal peptide consisting of 19 amino acids. The calculated M(r) of the mature protein was found to be 13.7 kDa. Multiple alignments of the deduced amino acid Cc-RNase sequence with other ribonucleases revealed an approximate 25% average identity. Despite the low percentage of identity, histidine and lysine residues which are essential for its catalytic activity, were found to be completely conserved. Furthermore, expression of the clone in E. coli resulted in the production of a recombinant product that showed strong immunoreactivity with anti-RNase specific antibodies. These results support the hypothesis that the identified clone encodes for a protein which is a new member of the RNase superfamily.
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PMID:Isolation and sequencing of a cDNA encoding for a ribonuclease from the insect Ceratitis capitata. 1069 91

The level of an mRNA in the cytoplasm represents a balance between the rate at which the mRNA precursor is synthesized in the nucleus and the rates of nuclear RNA processing and export and cytoplasmic mRNA degradation. Although most studies of gene expression have focused on gene transcription and in the area of eukaryotic mRNA degradation, but to provide a short general discussion of the importance of mRNA degradation and its regulation and a brief overview of recent findings and present knowledge. The overview is followed by a more in-depth discussion of one of the several pathways for mRNA degradation. We concentrate on the pathway for regulated mRNA degradation mediated by mRNA-binding proteins and endonucleases that cleave within the body of mRNAs. As a potential example of this type of control, we focus on the regulated degradation of the egg yolk precursor protein vitellogenin on the mRNA-binding protein vigilin and the mRNA endonuclease polysomal ribonuclease 1 (PMR-1).
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PMID:Regulation of pathways of mRNA destabilization and stabilization. 1220 51

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