EC:3.1.30.2 - FACTA Search

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Query: EC:3.1.30.2 (endonuclease)
18,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In viral cap-snatching, the endonuclease intrinsic to the viral polymerase cleaves cellular capped RNAs to generate capped fragments that are primers for viral mRNA synthesis. Here we demonstrate that the influenza viral polymerase, which is assembled in human cells using recombinant proteins, effectively uses only CA-terminated capped fragments as primers for viral mRNA synthesis in vitro. Thus we provide the first in vitro system that mirrors the cap-snatching process occurring in vivo during virus infection. Further, we demonstrate that when a capped RNA substrate contains a CA cleavage site, the functions of virion RNA (vRNA) differ from those previously described: the 5' terminal sequence of vRNA alone is sufficient for endonuclease activation, and the 3' terminal sequence of vRNA functions solely as a template for mRNA synthesis. Consequently, we are able to identify the vRNA sequences that are required for each of these two separable functions. We present a new model for the influenza virus cap-snatching mechanism, which we postulate is a paradigm for the cap-snatching mechanisms of other segmented, negative-strand and ambisense RNA viruses.
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PMID:Crucial role of CA cleavage sites in the cap-snatching mechanism for initiating viral mRNA synthesis. 1260 83

In order to explore the feasibility and protective efficiency of influenza DNA vaccine, we constructed eukaryotic expressing plasmids encoding HA and HA1 of influenza A virus (A/PR/8/34) and studied their expression in HEK293 cells. HA and HA1 genes were amplified by RT-PCR and cloned into pcDNA3.1(+) to generate pcDNA3.1(+)/HA and pcDNA3.1(+)/HA1, respectively. After verification of the cloning fidelity by restriction endonuclease digestion, PCR, and sequencing, pcDNA3.1(+)/HA and pcDNA3.1(+)/HA1 were transfected into HEK293 cells using PolyFect Transfection Reagent. Immunofluorescence assay was used to detect the transient expressing cells. Fluorescence microscopy revealed strong expression of target gene in HEK293 cells transiently transfected with either pcDNA3.1(+)/HA or pcDNA3.1(+)/HA1. Therefore, the results confirm the successful construction of eukaryotic expressing plasmids capable of driving the eukaryotic expression of influenza virus antigen HA and HA1, which is likely to provide a basis for both further investigation of the mechanism of influenza viral infection and the development of influenza DNA vaccine.
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PMID:Construction of eukaryotic expressing plasmids encoding HA and HA1 of influenza A virus and their transient expression in HEK293 cells. 1685 Jul 53

RNA interference (RNAi) is widely used to silence genes in plants and animals. It operates through the degradation of target mRNA by endonuclease complexes guided by approximately 21 nucleotide (nt) short interfering RNAs (siRNAs). A similar process regulates the expression of some developmental genes through approximately 21 nt microRNAs. Plants have four types of Dicer-like (DCL) enzyme, each producing small RNAs with different functions. Here, we show that DCL2, DCL3 and DCL4 in Arabidopsis process both replicating viral RNAs and RNAi-inducing hairpin RNAs (hpRNAs) into 22-, 24- and 21 nt siRNAs, respectively, and that loss of both DCL2 and DCL4 activities is required to negate RNAi and to release the plant's repression of viral replication. We also show that hpRNAs, similar to viral infection, can engender long-distance silencing signals and that hpRNA-induced silencing is suppressed by the expression of a virus-derived suppressor protein. These findings indicate that hpRNA-mediated RNAi in plants operates through the viral defence pathway.
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PMID:RNA interference-inducing hairpin RNAs in plants act through the viral defence pathway. 1703 51

A molecular survey of TYLCV/TYLCSV and their associated vector Bemisia tabaci, was performed during 2004-2005 in five regions of Southern Italy: i.e. Sardinia (one locations), Sicily (one location), Calabria (three locations), Campania (two locations) and Basilicata (one location). A total of 71 tomato samples were checked for virus infection and for the presence of the vector. Degenerate primers allowing the amplification of the coat protein gene of both TYLCSV and TYLCV isolates were designed. PCR fragments were then digested with restriction endonuclease Ava II, which was expected to cut TYLCSV differently from TYLCV. Results clearly suggested that in all the inspected Italian regions the two viruses are widespread and present in single plant both alone and in mixed infections. The identity of the two viruses was confirmed by total or partial sequencing of field isolates. Concerning the populations of the B. tabaci associated with TYLCD epidemics, the molecular characterization of COI gene (citocrome oxidase I) indicated that Q biotype was the most prevalent biotype. This fact might be the result of the large use of some insecticides against which Q biotype populations easily develop resistances, as already confirmed in some countries of Mediterranean basin.
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PMID:Typing of tomato yellow leaf curl viruses and their vector in Italy. 1739 Aug 84

Four distinct viruses with double-stranded DNA are known to replicate in Chlorella-like algae symbiotic with hydras and paramecia. An attempt was made to infect a number of cultured Chlorella strains derived from invertebrate hosts with these viruses. One of the viruses, PBCV-1, replicated in two of the algal strains. Restriction endonuclease analysis of the viral DNA showed that the infectious progeny virus was identical to the input virus; thus, Koch's postulates were fulfilled. Viral infection of the two Chlorella strains has allowed the large-scale production of a eukaryotic algal virus and the development of a plaque assay for the virus.
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PMID:Virus infection of culturable chlorella-like algae and dlevelopment of a plaque assay. 1781 37

Aicardi-Goutieres syndrome (AGS) is a genetic encephalopathy whose clinical features mimic those of acquired in utero viral infection. AGS exhibits locus heterogeneity, with mutations identified in genes encoding the 3'-->5' exonuclease TREX1 and the three subunits of the RNASEH2 endonuclease complex. To define the molecular spectrum of AGS, we performed mutation screening in patients, from 127 pedigrees, with a clinical diagnosis of the disease. Biallelic mutations in TREX1, RNASEH2A, RNASEH2B, and RNASEH2C were observed in 31, 3, 47, and 18 families, respectively. In five families, we identified an RNASEH2A or RNASEH2B mutation on one allele only. In one child, the disease occurred because of a de novo heterozygous TREX1 mutation. In 22 families, no mutations were found. Null mutations were common in TREX1, although a specific missense mutation was observed frequently in patients from northern Europe. Almost all mutations in RNASEH2A, RNASEH2B, and RNASEH2C were missense. We identified an RNASEH2C founder mutation in 13 Pakistani families. We also collected clinical data from 123 mutation-positive patients. Two clinical presentations could be delineated: an early-onset neonatal form, highly reminiscent of congenital infection seen particularly with TREX1 mutations, and a later-onset presentation, sometimes occurring after several months of normal development and occasionally associated with remarkably preserved neurological function, most frequently due to RNASEH2B mutations. Mortality was correlated with genotype; 34.3% of patients with TREX1, RNASEH2A, and RNASEH2C mutations versus 8.0% RNASEH2B mutation-positive patients were known to have died (P=.001). Our analysis defines the phenotypic spectrum of AGS and suggests a coherent mutation-screening strategy in this heterogeneous disorder. Additionally, our data indicate that at least one further AGS-causing gene remains to be identified.
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PMID:Clinical and molecular phenotype of Aicardi-Goutieres syndrome. 1784 97

Sweet potato chlorotic stunt virus (genus Crinivirus) belongs to the family Closteroviridae, members of which have a conserved overall genomic organization but are variable in gene content. In the bipartite criniviruses, heterogeneity is pronounced in the 3'-proximal region of RNA1, which in sweet potato chlorotic stuat virus (SPCSV) encodes two novel proteins, RNase3 (RNase III endonuclease) and p22 (RNA silencing suppressor). This study showed that two Ugandan SPCSV isolates contained the p22 gene, in contrast to three isolates of the East African strain from Tanzania and Peru and an isolate of the West African strain from Israel, which were missing a 767 nt fragment of RNA1 that included the p22 gene. Regardless of the presence of p22, all tested SPCSV isolates acted synergistically with potyvirus sweet potato feathery mottle virus (SPFMV; genus Potyvirus, family Potyviridae) in co-infected sweetpotato plants (Ipomoea batatas), which greatly enhanced SPFMV titres and caused severe sweetpotato virus disease (SPVD). Therefore, the results indicate that any efforts to engineer pathogen-derived RNA silencing-based resistance to SPCSV and SPVD in sweetpotato should not rely on p22 as the transgene. The data from this study demonstrate that isolates of this virus species can vary in the genes encoding RNA silencing suppressor proteins. This study also provides the first example of intraspecific variability in gene content of the family Closteroviridae and may be a new example of the recombination-mediated gene gain that is characteristic of virus evolution in this virus family.
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PMID:Analysis of gene content in sweet potato chlorotic stunt virus RNA1 reveals the presence of the p22 RNA silencing suppressor in only a few isolates: implications for viral evolution and synergism. 1819 89

Viral infections are one of the major reasons for the huge economic losses in shrimp farming. The control of viral diseases in shrimp remains a serious challenge for the shrimp aquacultural industry, with major pathogens, such as the white spot syndrome virus, yellow head virus, Taura syndrome virus, hepatopancreatic parvovirus, and baculoviruses, being geographically widespread. In the absence of a true adaptive immune response system in invertebrates such as shrimp, one of the alternative and more specific approaches to counteract viral infections in shrimp could be the use of molecular-based gene transfer technologies, such as RNA interference (RNAi). The RNAi mechanism is initiated by double-stranded RNAs (dsRNAs), which are fragmented into shorter 21-23 nucleotides of short interfering RNAs (siRNAs) by a type III endonuclease, the Dicer. RNAi, which is mediated by small interfering RNA (siRNA), results in the sequence-specific post-transcriptional silencing of a target gene. This gene-silencing mechanism is universally conserved and is a well-known phenomenon that exists in many eukaryotes, including invertebrates. It has been recently extended to shrimp as an important potential tool in viral disease prevention. RNAi technology shows considerable promise as a therapeutic approach and efficient strategy for shrimp virus control in the aquaculture industry. Further progress in understanding the mechanism of siRNAs at the molecular level, as well as strategies to achieve their tightly regulated, stable, prolonged and tissue-specific expression in an effective manner, will definitely revolutionize therapeutic approaches for counteracting viral diseases of shrimp. In the present review, the recent development and potential use of RNAi in combating shrimp viral infections is discussed.
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PMID:Application of nucleic-acid-based therapeutics for viral infections in shrimp aquaculture. 1894 35

Otosclerosis is a primary bone remodeling disorder of the human otic capsule and is associated with persistent measles virus infection. The human cellular receptor of measles virus is the membrane cofactor protein (MCP, CD46), which has 14 well-described splicing variants. Unique CD46 expression pattern of the otic capsule and the stapes footplate may determine the susceptibility for persistent measles virus infection. A total of 51 surgically removed ankylotic stapes footplates were analyzed by histopathological and molecular biological methods, respectively. Nucleic acids were extracted. Measles virus sequences were detected by nucleoprotein RNA-specific reverse transcriptase polymerase chain reaction (RT-PCR). Alternatively spliced RNA of CD46 isoforms was amplified by RT-PCR; cDNA amplimers were separated by SDS poly-acrylamide gel electrophoresis and were purified from the gel. Complementary DNA of CD46 isoforms was restricted by endonuclease enzymes having CD46-specific recognition sites. The presence of viral RNA was associated exclusively with the histopathological diagnosis of otosclerosis; the stapes specimens with negative measles virus belonged to non-otosclerotic stapes fixations. All specimens (N = 51) were characterized by the consecutive expression of five CD46 variants (c, d, e, f and one shorter unidentified isoform). Histologically confirmed ostosclerotic specimens (N = 21) were characterized by increased expression levels of variant "f" and the unknown isoform. Increased expression levels of these isoforms and special CD46 expression pattern of the human otic capsule might produce modified or pathological intracellular signalization that could create the possibility of persistent measles virus infection.
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PMID:Restriction analysis of otosclerosis-associated CD46 splicing variants. 1959 33

Arthropod-borne diseases affect a significant portion of the world's population. Dengue fever, a viral disease carried by the Aedes aegypti mosquito, is one of the most wide-spread, with many fatalities evident each year. To date, Dengue viral diagnostic technologies have been too complex, time-consuming and expensive to be widely deployed, particularly in developing countries where the disease is most prevalent. Here we demonstrate a modular biosensor that is able to rapidly identify sequences associated with the Dengue virus genome. The biosensor consists of an oligonucleotide linker module, an aptamer/restriction endonuclease signal transducer and a fluorescent signalling molecule. The linker molecule has a simple stem/loop conformation and comprises a target-complementary moiety within the loop and a trigger moiety within the stem. When bound to the target nucleic acid, the trigger strand of the denatured stem can bind to the aptamer within the signal transducer. Disruption of the aptamer releases the restriction endonuclease EcoRI from aptamer-mediated inhibition. Active EcoRI is able to rapidly cleave multiple signalling molecules to generate a detectable signal. The biosensor was able to detect sequences derived from each of the four Dengue virus serotypes with a great degree of specificity. Along with sequences specific to each serotype, a pan-Dengue sequence, common to all serotypes, was also detected.
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PMID:Toward specific detection of Dengue virus serotypes using a novel modular biosensor. 2069 50

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