RNA folding and hydrolysis terms explain ATP-independence of RNA interference in human systems

Citation:

Ali, N. ; Manoharan, V. N. RNA folding and hydrolysis terms explain ATP-independence of RNA interference in human systems. Oligonucleotides 2009, 19, 341-346.

Download

Ali and Manoharan - 2009 - RNA folding and hydrolysis terms explain ATP-independence.pdf

339 KB

Abstract:

Although RNA interference (RNAi) has emerged as an important tool for studying the effects of gene knockdown, it is still difficult to predict the success of RNAi effectors in human systems. By examining the basic thermodynamic equations for RNA interactions in RNAi, we demonstrate how the free energies of RNA folding and phosphoester bond hydrolysis can drive RNAi without ATP. Our calculations of RNAi efficiency are close to actual values obtained from in vitro experimental data from 2 previous studies, for both silencing complex formation (2.50 vs. 2.40 for relative efficiency of RISC formation) and mRNA cleavage (0.50 vs. 0.56 for proportion cleaved). Our calculations are also in agreement with previous observations that duplex unwinding and target site folding are major energy barriers to RNAi.

Publisher's Version

Last updated on 01/27/2018

Recent Publications

Williams, L. A. ; Neophytou, A. ; Garmann, R. F. ; Chakrabarti, R. ; Manoharan, V. N. Effect of coat-protein concentration on the self-assembly of bacteriophage MS2 capsids around RNA. Nanoscale 2024. Publisher's Version

Sun, J. H. ; Plummer, A. ; Zhang, G. H. ; Nelson, D. R. ; Manoharan, V. N. Geometric frustration of hard-disk packings on cones. Physical Review E 2023, 108, 054608. Publisher's Version

de Wit, X. M. ; Paine, A. W. ; Martin, C. ; Goldfain, A. M. ; Garmann, R. F. ; Manoharan, V. N. Precise characterization of nanometer-scale systems using interferometric scattering microscopy and Bayesian analysis. Applied Optics 2023, 62, 7205-7215. Publisher's Version

Zeng, C. ; Faaborg, M. W. ; Sherif, A. ; Falk, M. J. ; Hajian, R. ; Xiao, M. ; Hartig, K. ; Bar-Sinai, Y. ; Brenner, M. P. 3D-printed machines that manipulate microscopic objects using capillary forces. Nature 2022, 611, 68-73. Publisher's Version

Martin, C. ; Altman, L. E. ; Rawat, S. ; Wang, A. ; Grier, D. G. ; Manoharan, V. N. In-line holographic microscopy with model-based analysis. Nature Reviews Methods Primers 2022, 2 83. Publisher's Version

Garmann, R. F. ; Goldfain, A. M. ; Tanimoto, C. R. ; Beren, C. E. ; Vasquez, F. F. ; Villareal, D. A. ; Knobler, C. M. ; Gelbart, W. M. ; Manoharan, V. N. Single-particle studies of the effects of RNA-protein interactions on the self-assembly of RNA virus particles. Proceedings of the National Academy of Sciences 2022, 119, e2206292119. Publisher's Version

Manoharan Lab

Soft matter, biophysics, and optics

RNA folding and hydrolysis terms explain ATP-independence of RNA interference in human systems

Citation:

Abstract:

Recent Publications