EC:3.1.27.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

An insertion of 6.4 kb is present in intron 9 of 60% of the human complement C4 genes, as well as in the C4 genes of a number of Old World primates. This insertion has the typical genomic organization of endogenous retroviruses, with the three major genes gag, pol and env flanked by long terminal repeats (LTRs). This human endogenous retrovirus K [HERV-K(C4)] insertion is in reverse orientation to the C4 coding sequence. Using RT-PCR as well as RNase protection assays, retroviral transcripts could be detected in different human cell lines which were only present in the antisense orientation of the retrovirus. Furthermore, C4 expression as well as intermediate transcripts comprising both HERV-K(C4) and C4 coding sequences was observed in these cells. These findings were confirmed using real-time PCR to quantitate the number of specific mRNA transcripts. Using reporter gene assays, it could be demonstrated that only the 3'LTR exhibits promoter activity, but in the sense orientation of the retrovirus. It has been suggested earlier that expression of C4 could lead to the transcription of a retroviral antisense RNA, which might protect against exogenous retroviral infections. In a previous study, it was shown that the expression of retroviral-like constructs was significantly downregulated in mouse cells transfected with human C4 genes, and that this downregulation was further modulated after IFN-gamma stimulation of C4 expression. In a new series of experiments, we have now confirmed these observations, using human hepatoma cells constitutively expressing C4. A dose-dependent downregulation of up to 45% caused by hybridization of retroviral sense and genomic HERV-K(C4) antisense RNA was observed. The functional 3'LTR promoter, the presence of retroviral antisense RNA transcripts and the functional detection of HERV-K(C4)-specific antisense activity provide strong evidence for a major role of the HERV-K(C4) insertion in the control of gene expression, resulting in a selective advantage favouring the presence of this element in human and primate C4 genes.
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PMID:Detection of retroviral antisense transcripts and promoter activity of the HERV-K(C4) insertion in the MHC class III region. 1530 46

Retroviral RNA encapsidation is mediated by specific interactions between viral Gag proteins and cis-acting packaging sequences in genomic RNA. Feline immunodeficiency virus (FIV) RNA encapsidation determinants have been shown to be discrete and noncontinuous, comprising one region at the 5' end of the genomic mRNA (R-U5) and another region that mapped within the proximal 311 nt of gag. To aid comparative understanding of lentiviral encapsidation and refinement of FIV vector systems, we used RNase protection assays (RPAs) of cellular and virion RNAs to investigate in detail the gag element. mRNAs of subgenomic vectors as well as of full-length molecular clones were optimally packaged into viral particles and resulted in high-titer FIV vectors when they contained only the proximal 230 nucleotides (nt) of gag. Further 3' truncations of gag sequences progressively diminished encapsidation and transduction. Deletion of the initial ninety 5' nt of the gag gene abolished mRNA packaging, demonstrating that this segment is indispensable for encapsidation. Focusing further on this proximal sequence, we found that a deletion of only 13 nt at the 5' end of gag impaired encapsidation of subgenomic vector and proviral RNAs.
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PMID:The critical role of proximal gag sequences in feline immunodeficiency virus genome encapsidation. 1532 2

In eukaryotic cells, an mRNA bearing a premature termination codon (PTC) or an abnormally long 3' untranslated region (UTR) is often degraded by the nonsense-mediated mRNA decay (NMD) pathway. Despite the presence of a 5- to 7-kb 3' UTR, unspliced retroviral RNA escapes this degradation. We previously identified the Rous sarcoma virus (RSV) stability element (RSE), an RNA element downstream of the gag natural translation termination codon that prevents degradation of the unspliced viral RNA. Insertion of this element downstream of a PTC in the RSV gag gene also inhibits NMD. Using partial RNase digestion and selective 2'-hydroxyl acylation analyzed by primer extension (SHAPE) chemistry, we determined the secondary structure of this element. Incorporating RNase and SHAPE data into structural prediction programs definitively shows that the RSE contains an AU-rich stretch of about 30 single-stranded nucleotides near the 5' end and two substantial stem-loop structures. The overall secondary structure of the RSE appears to be conserved among 20 different avian retroviruses. The structural aspects of this element will serve as a tool in the future design of cis mutants in addressing the mechanism of stabilization.
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PMID:Structural characterization of the Rous sarcoma virus RNA stability element. 1909 66

In recent years, mRNA-based vaccines have emerged to be a great alternative to DNA-based vaccines due to the safety of not inserting into host genome. However, mRNA molecules are single-stranded nucleic acids that are vulnerable under RNase existing in human skin and tissues. In this study, a self-assembled cationic nanomicelles based on polyethyleneimine-stearic acid (PSA) copolymer were developed to delivery HIV-1 gag encoding mRNA to dendritic cells and BALB/c mice. We evaluated the transfection efficiency and cell uptake efficiency of naked EGFP mRNA, PSA, PEI-2k and PEI-25k nanoparticles format on DC2.4 cell lines. Immune responses after sub-cutaneous administration of gag mRNA to BALB/c mice were notably induced by PSA as compared with naked gag mRNA. We found the PSA/mRNA nanomicelles were potent systems that can effectively deliver mRNA and induce antigen-specific immune response, stimulating various new vaccine strategies using mRNA.
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PMID:Induction of HIV-1 gag specific immune responses by cationic micelles mediated delivery of gag mRNA. 2602 87

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