BMC Genomics (Jul 2009)

Comparing 2-nt 3' overhangs against blunt-ended siRNAs: a systems biology based study

  • Basu Kalyan,
  • Zhang Chaoyang,
  • Sarver Ronald W,
  • Turi Tom G,
  • Fischer James E,
  • Dullea Robert,
  • Ghosh Preetam,
  • Das Sajal K,
  • Poland Bradley W

DOI
https://doi.org/10.1186/1471-2164-10-S1-S17
Journal volume & issue
Vol. 10, no. Suppl 1
p. S17

Abstract

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Abstract In this study, we formulate a computational reaction model following a chemical kinetic theory approach to predict the binding rate constant for the siRNA-RISC complex formation reaction. The model allowed us to study the potency difference between 2-nt 3' overhangs against blunt-ended siRNA molecules in an RNA interference (RNAi) system. The rate constant predicted by this model was fed into a stochastic simulation of the RNAi system (using the Gillespie stochastic simulator) to study the overall potency effect. We observed that the stochasticity in the transcription/translation machinery has no observable effects in the RNAi pathway. Sustained gene silencing using siRNAs can be achieved only if there is a way to replenish the dsRNA molecules in the cell. Initial findings show about 1.5 times more blunt-ended molecules will be required to keep the mRNA at the same reduced level compared to the 2-nt overhang siRNAs. However, the mRNA levels jump back to saturation after a longer time when blunt-ended siRNAs are used. We found that the siRNA-RISC complex formation reaction rate was 2 times slower when blunt-ended molecules were used pointing to the fact that the presence of the 2-nt overhangs has a greater effect on the reaction in which the bound RISC complex cleaves the mRNA.