Author: Pandey, Anand Kumar; Verma, Shalja
Title: An in silico analysis of effective siRNAs against COVIDâ€19 by targeting the leader sequence of SARSâ€CoVâ€2 Cord-id: pj91ziaf Document date: 2021_2_28
ID: pj91ziaf
Snippet: Severe acute respiratory syndrome coronavirus 2 (SARSâ€CoVâ€2), is a retrovirus having genome size of around 30 kb. Its genome contains a highly conserved leader sequence at its 5′ end, which is added to all subgenomic mRNAs at their 5′ terminus by a discontinuous transcription mechanism and regulates their translation. Targeting the leader sequence by RNA interference can be an effective approach to inhibit the viral replication. In the present study an inâ€silico prediction of highly ef
Document: Severe acute respiratory syndrome coronavirus 2 (SARSâ€CoVâ€2), is a retrovirus having genome size of around 30 kb. Its genome contains a highly conserved leader sequence at its 5′ end, which is added to all subgenomic mRNAs at their 5′ terminus by a discontinuous transcription mechanism and regulates their translation. Targeting the leader sequence by RNA interference can be an effective approach to inhibit the viral replication. In the present study an inâ€silico prediction of highly effective siRNAs was performed to target the leader sequence using the online software siDirect version 2.0. Low seedâ€duplex stability, exact complementarity with target, at least three mismatches with any offâ€target and least number of offâ€targets, were considered as effective criteria for highly specific siRNA. Further validation of siRNA affinity for the target was accomplished by molecular docking by HNADOCK online server. Our results revealed four potential siRNAs, of which siRNA having guide strand sequence 5′GUUUAGAGAACAGAUCUACAA3′ met almost all specificity criteria with no offâ€targets for guide strand. Molecular docking of all predicted siRNAs (guide strand) with the target leader sequence depicted highest binding score of −327.45 for aboveâ€mentioned siRNA. Furthermore, molecular docking of the passenger strand of the best candidate with offâ€target sequences gave significantly low binding scores. Hence, 5′GUUUAGAGAACAGAUCUACAA3′ siRNA possess great potential to silence the leader sequence of SARSâ€CoVâ€2 with least offâ€target effect. Present study provides great scope for development of gene therapy against the prevailing COVIDâ€19 disease, thus further research in this concern is urgently demanded.
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