Jiandong Chen scite author profile

Fourteen ORFs have been identified in the severe acute respiratory syndrome-associated coronavirus (SARS-CoV) genome. ORF 3a of SARS-CoV codes for a recently identified transmembrane protein, but its function remains unknown. In this study we confirmed the 3a protein expression and investigated its localization at the surface of SARS-CoV-infected or 3a-cDNA-transfected cells. Our experiments showed that recombinant 3a protein can form a homotetramer complex through interprotein disulfide bridges in 3a-cDNA-transfected cells, providing a clue to ion channel function. The putative ion channel activity of this protein was assessed in 3a-complement RNA-injected Xenopus oocytes by two-electrode voltage clamp. The results suggest that 3a protein forms a potassium sensitive channel, which can be efficiently inhibited by barium. After FRhK-4 cells were transfected with an siRNA, which is known to suppress 3a expression, followed by infection with SARS-CoV, the released virus was significantly decreased, whereas the replication of the virus in the infected cells was not changed. Our observation suggests that SARS-CoV ORF 3a functions as an ion channel that may promote virus release. This finding will help to explain the highly pathogenic nature of SARS-CoV and to develop new strategies for treatment of SARS infection. caused alarm all over the world. The newly discovered human coronavirus named SARS-associated coronavirus (SARS-CoV) was identified as the causative agent for this disease (1, 2). SARSCoV has a large single-positive-strand RNA genome that contains 14 ORFs. Some of these ORFs encode viral structural proteins, such as spike protein, membrane protein, small envelope protein, and nucleocapsid protein, as well as viral replicase and protease (3). Those proteins play important roles in viral infection and replication. However, functions for other ORFs are not clear. Therefore, identification and characterization of new functional proteins from the ORFs will be helpful for understanding the pathogenesis of SARS-CoV. Up to now there are still no effective drugs or vaccines against SARS-CoV. The identification of new viral proteins and the elucidation of their functions will provide potential targets for design of drugs or vaccines against SARS.Our previous work has revealed that ORF 3a of SARS-CoV is such a viral protein (4). Since then, other publications have concurred in this observation and have shown that it is a structural protein (5-8). ORF 3a is located between the S and E protein loci and encodes a protein of 274 aa. The only available information based on proteomics and immunoblotting suggests that 3a protein is structural in nature, but its localization, topology, and biological function have not been identified.A computed biology analysis of the amino acid sequence of the 3a protein revealed that it has low similarity with any other known protein. Its C-terminal region shares Ϸ50% similarity to Plasmodium calcium pump protein and to the Shewanella outer-membrane porin. Interestingly, comparison of ORFs ...

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sRNA-Mediated Control of Transcription Termination in E. coli

Sedlyarova

Shamovsky

Bharati

et al. 2016

Cell

194

173

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SUMMARY Bacterial small RNAs (sRNAs) have been implicated in various aspects of post-transcriptional gene regulation. Here we demonstrate that sRNAs also act at the level of transcription termination. We use the rpoS gene, which encodes a general stress sigma factor σS, as a model system, and show that sRNAs DsrA, ArcZ, and RprA bind the rpoS 5′UTR to suppress premature Rho-dependent transcription termination, both in vitro and in vivo. sRNA-mediated antitermination markedly stimulates transcription of rpoS during the transition to the stationary phase of growth, thereby facilitating a rapid adjustment of bacteria to global metabolic changes. Next generation RNA sequencing and bioinformatic analysis indicate that Rho functions as a global “attenuator” of transcription, acting at the 5′UTR of hundreds of bacterial genes, and that its suppression by sRNAs is a widespread mode of bacterial gene regulation.

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A Subset of Drosophila Integrator Proteins Is Essential for Efficient U7 snRNA and Spliceosomal snRNA 3′-End Formation

Ezzeddine

Chen

Waltenspiel

et al. 2011

Molecular and Cellular Biology

116

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Proper gene expression relies on a class of ubiquitously expressed, uridine-rich small nuclear RNAs (snRNAs) transcribed by RNA polymerase II (RNAPII). Vertebrate snRNAs are transcribed from a unique promoter, which is required for proper 3-end formation, and cleavage of the nascent transcript involves the activity of a poorly understood set of proteins called the Integrator complex. To examine 3-end formation in Drosophila melanogaster, we developed a cell-based reporter that monitors aberrant 3-end formation of snRNA through the gain in expression of green fluorescent protein (GFP). We used this reporter in Drosophila S2 cells to determine requirements for U7 snRNA 3-end formation and found that processing was strongly dependent upon nucleotides located within the 3 stem-loop as well as sequences likely to comprise the Drosophila equivalent of the vertebrate 3 box. Substitution of the actin promoter for the snRNA promoter abolished proper 3-end formation, demonstrating the conserved requirement for an snRNA promoter in Drosophila. We tested the requirement for all Drosophila Integrator subunits and found that Integrators 1, 4, 9, and 11 were essential for 3-end formation and that Integrators 3 and 10 may be dispensable for processing. Depletion of cleavage and polyadenylation factors or of histone pre-mRNA processing factors did not affect U7 snRNA processing efficiency, demonstrating that the Integrator complex does not share components with the mRNA 3-end processing machinery. Finally, flies harboring mutations in either Integrator 4 or 7 fail to complete development and accumulate significant levels of misprocessed snRNA in the larval stages.In eukaryotes, the major transcripts produced by RNA polymerase II (RNAPII) include the polyadenylated [poly (A) ϩ ] mRNAs, the replication-dependent histone mRNAs, and the Sm class of small nuclear RNAs (snRNAs). The 3Ј ends of these three general classes of RNAs are all formed by cotranscriptional cleavage, but each one has a distinct mechanism for 3Ј-end formation (for reviews, see references 29 and 32). In poly(A) ϩ and histone pre-mRNAs there are conserved upstream and downstream sequences that flank the cleavage site; factors bind to these sites and then recruit additional factors that initiate cleavage (53). In the case of poly(A) ϩ pre-mRNA, the upstream element is the canonical AAUAAA polyadenylation signal (PAS) and the downstream sequence is the G/Urich downstream element (DSE). Recognition of the PAS is carried out by the cleavage and polyadenylation specificity complex (CPSF) component CPSF160 via its RNA recognition motifs (RRM) (36), whereas the DSE is bound by the RRM of the cleavage stimulation factor (CstF) component CstF64 (28). Subsequent to this recognition event is recruitment of additional factors that activate the endonucleolytic cleavage between the PAS and the DSE.Histone pre-mRNA contains a distinct set of flanking elements. Upstream of the cleavage site is a conserved stem-loop structure (SL) and downstream a purine-rich element called the ...

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Jiandong Chen

Mapping of the p53 and mdm-2 interaction domains.

Severe acute respiratory syndrome-associated coronavirus 3a protein forms an ion channel and modulates virus release

sRNA-Mediated Control of Transcription Termination in E. coli

A Subset of Drosophila Integrator Proteins Is Essential for Efficient U7 snRNA and Spliceosomal snRNA 3′-End Formation

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