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Precise and Efficient Sirna Design: A Key Point in Competent Gene Silencing Publisher Pubmed



Fakhr E1, 2 ; Zare F1, 2 ; Teimooritoolabi L2
Authors
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Authors Affiliations
  1. 1. Department of Medical Biotechnology, Faculty of Advanced Medical Technologies, Tehran University of Medical Sciences, Tehran, Iran
  2. 2. Molecular Medicine Department, Biotechnology Research Center, Pasteur Institute of Iran, Kargar Street, Tehran, 13169-43551, Iran

Source: Cancer Gene Therapy Published:2016


Abstract

RNA interference-related strategies have become appealing methods in various fields of research. Exact sequence design of these small molecules is an essential step in the silencing procedure. Numerous researchers have tried to define some algorithms in order to increase the chance of short interfering RNA's (siRNA's) success. In recent decades, online designing software has aimed at promoting the quality of siRNA designing based on the most cited algorithms. According to our previous experiments, a combination of different criteria would be helpful. That is, siRNAs suggested by a combination of tools seem to be more efficient. Furthermore, different factors such as distance of target region to transcription start site, nucleotide composition, absence of off-target effects and secondary structures in the target site and siRNA and the presence of asymmetry and energy valley within the siRNA will increase the efficiency of siRNAs. Despite application of different online tools and fulfilling the criteria, there is no guarantee for designing an effective siRNA. However, meticulous designing of siRNAs according to the suggested algorithms and scoring systems and using different siRNAs for targeting the same gene would lead to improved silencing outcome. In this review, we focus on common algorithms and online software, and introduce a new scoring system used in our experiments. © 2016 Nature America, Inc.
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