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Nucleic Acids Research 2005 33(14):4602-4611; doi:10.1093/nar/gki770
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Published online 12 August 2005

© The Author 2005. Published by Oxford University Press. All rights reserved
The online version of this article has been published under an open access model. Users are entitled to use, reproduce, disseminate, or display the open access version of this article for non-commercial purposes provided that: the original authorship is properly and fully attributed; the Journal and Oxford University Press are attributed as the original place of publication with the correct citation details given; if an article is subsequently reproduced or disseminated not in its entirety but only in part or as a derivative work this must be clearly indicated. For commercial re-use, please contact journals.permissions{at}oupjournals.org

Article

A peripheral element assembles the compact core structure essential for group I intron self-splicing

Mu Xiao, Tingting Li, Xiaoyan Yuan, Yuan Shang, Fu Wang, Shoudeng Chen and Yi Zhang*

Department of Biotechnology, State Key Laboratory of Virology, College of Life Sciences, Wuhan University Wuhan, Hubei 430072, China

*To whom correspondence should be addressed. Tel: +86 27 68756207; Fax: +86 27 68754945; Email: yizhang{at}whu.edu.cn

Received May 17, 2005. Revised July 20, 2005. Accepted July 31, 2005.

The presence of non-conserved peripheral elements in all naturally occurring group I introns underline their importance in ensuring the natural intron function. Recently, we reported that some peripheral elements are conserved in group I introns of IE subgroup. Using self-splicing activity as a readout, our initial screening revealed that one such conserved peripheral elements, P2.1, is mainly required to fold the catalytically active structure of the Candida ribozyme, an IE intron. Unexpectedly, the essential function of P2.1 resides in a sequence-conserved short stem of P2.1 but not in a long-range interaction associated with the loop of P2.1 that stabilizes the ribozyme structure. The P2.1 stem is indispensable in folding the compact ribozyme core, most probably by forming a triple helical interaction with two core helices, P3 and P6. Surprisingly, although the ribozyme lacking the P2.1 stem renders a loosely folded core and the loss of self-splicing activity requires two consecutive transesterifications, the mutant ribozyme efficiently catalyzes the first transesterification reaction. These results suggest that the intron self-splicing demands much more ordered structure than does one independent transesterification, highlighting that the universally present peripheral elements achieve their functional importance by enabling the highly ordered structure through diverse tertiary interactions.


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