Author: Wu, Shuwen; Xu, Junqiang; Liu, Jiangxia; Yan, Xuan; Zhu, Xiaodong; Xiao, Gengfu; Sun, Lunquan; Tien, Po
Title: An efficient RNAâ€cleaving DNA enzyme can specifically target the 5′â€untranslated region of severe acute respiratory syndrome associated coronavirus (SARSâ€CoV) Cord-id: wg5y75y1 Document date: 2007_10_26
ID: wg5y75y1
Snippet: BACKGROUND: The worldwide epidemic of severe acute respiratory syndrome (SARS) in 2003 was caused by a novel coronavirus called SARSâ€CoV. We report the use of DNAzyme (catalytic DNA) to target the 5′â€untranslated region (5′UTR) of a highly conserved fragment in the SARS genome as an approach to suppression of SARSâ€CoV replication. A monoâ€DNA enzyme (Dzâ€104) possessing the 10–23 catalytic motif was synthesized and tested both in vitro and in cell culture. MATERIALS AND METHODS: SA
Document: BACKGROUND: The worldwide epidemic of severe acute respiratory syndrome (SARS) in 2003 was caused by a novel coronavirus called SARSâ€CoV. We report the use of DNAzyme (catalytic DNA) to target the 5′â€untranslated region (5′UTR) of a highly conserved fragment in the SARS genome as an approach to suppression of SARSâ€CoV replication. A monoâ€DNA enzyme (Dzâ€104) possessing the 10–23 catalytic motif was synthesized and tested both in vitro and in cell culture. MATERIALS AND METHODS: SARSâ€CoV total RNA was isolated, extracted from the SARSâ€CoVâ€WHU strain and converted into cDNA. We designed a RNAâ€cleaving 10–23 DNAzyme targeting at the loop region of the 5′UTR of SARSâ€CoV. The designed DNAzyme, Dzâ€104, and its mutant version, Dzâ€104 (mut), as a control consist of 9 + 9 arm sequences with a 10–23 catalytic core. In vitro cleavage was performed using an in vitro transcribed 5′UTR RNA substrate. A vector containing a fused 5′UTR and enhanced green fluorescent protein (eGFP) was coâ€transfected with the DNAzyme into E6 cells and the cells expressing eGFP were visualized with fluorescence microscopy and analyzed by fluorescenceâ€activated cell sorting (FACS). RESULTS AND CONCLUSIONS: Our results demonstrated that this DNAzyme could efficiently cleave the SARSâ€CoV RNA substrate in vitro and inhibit the expression of the SARSâ€CoV 5′UTRâ€eGFP fusion RNA in mammalian cells. This work presents a model system to rapidly screen effective DNAzymes targeting SARS and provides a basis for potential therapeutic use of DNA enzymes to combat the SARS infection. Copyright © 2007 John Wiley & Sons, Ltd.
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