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Molecular Dynamics Simulations of DNA-Free and DNA-Bound TAL Effectors

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Listed:
  • Hua Wan
  • Jian-ping Hu
  • Kang-shun Li
  • Xu-hong Tian
  • Shan Chang

Abstract

TAL (transcriptional activator-like) effectors (TALEs) are DNA-binding proteins, containing a modular central domain that recognizes specific DNA sequences. Recently, the crystallographic studies of TALEs revealed the structure of DNA-recognition domain. In this article, molecular dynamics (MD) simulations are employed to study two crystal structures of an 11.5-repeat TALE, in the presence and absence of DNA, respectively. The simulated results indicate that the specific binding of RVDs (repeat-variable diresidues) with DNA leads to the markedly reduced fluctuations of tandem repeats, especially at the two ends. In the DNA-bound TALE system, the base-specific interaction is formed mainly by the residue at position 13 within a TAL repeat. Tandem repeats with weak RVDs are unfavorable for the TALE-DNA binding. These observations are consistent with experimental studies. By using principal component analysis (PCA), the dominant motions are open-close movements between the two ends of the superhelical structure in both DNA-free and DNA-bound TALE systems. The open-close movements are found to be critical for the recognition and binding of TALE-DNA based on the analysis of free energy landscape (FEL). The conformational analysis of DNA indicates that the 5′ end of DNA target sequence has more remarkable structural deformability than the other sites. Meanwhile, the conformational change of DNA is likely associated with the specific interaction of TALE-DNA. We further suggest that the arrangement of N-terminal repeats with strong RVDs may help in the design of efficient TALEs. This study provides some new insights into the understanding of the TALE-DNA recognition mechanism.

Suggested Citation

  • Hua Wan & Jian-ping Hu & Kang-shun Li & Xu-hong Tian & Shan Chang, 2013. "Molecular Dynamics Simulations of DNA-Free and DNA-Bound TAL Effectors," PLOS ONE, Public Library of Science, vol. 8(10), pages 1-12, October.
  • Handle: RePEc:plo:pone00:0076045
    DOI: 10.1371/journal.pone.0076045
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    References listed on IDEAS

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    1. Le Cong & Ruhong Zhou & Yu-chi Kuo & Margaret Cunniff & Feng Zhang, 2012. "Comprehensive interrogation of natural TALE DNA-binding modules and transcriptional repressor domains," Nature Communications, Nature, vol. 3(1), pages 1-6, January.
    2. Keyu Gu & Bing Yang & Dongsheng Tian & Lifang Wu & Dongjiang Wang & Chellamma Sreekala & Fan Yang & Zhaoqing Chu & Guo-Liang Wang & Frank F. White & Zhongchao Yin, 2005. "R gene expression induced by a type-III effector triggers disease resistance in rice," Nature, Nature, vol. 435(7045), pages 1122-1125, June.
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    1. Jaya C Jose & Prathit Chatterjee & Neelanjana Sengupta, 2014. "Cross Dimerization of Amyloid-β and αSynuclein Proteins in Aqueous Environment: A Molecular Dynamics Simulations Study," PLOS ONE, Public Library of Science, vol. 9(9), pages 1-13, September.

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