Twelve Group I Introns in the Same Pre-rRNA Transcript of the Myxomycete Fuligo septica: RNA Processing and Evolution

doi:10.1093/molbev/msh126

MBE Advance Access originally published online on March 19, 2004

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Mol. Biol. Evol. 21(7):1283-1293. 2004
DOI: 10.1093/molbev/msh126
© 2004 by the Society for Molecular Biology and Evolution. ISSN: 0737-4038

Research Article

Twelve Group I Introns in the Same Pre-rRNA Transcript of the Myxomycete Fuligo septica: RNA Processing and Evolution

Eirik W. Lundblad^*, Christer Einvik^*, Sissel Rønning^*, Kari Haugli^* and Steinar Johansen^*^,

^* Department of Molecular Biotechnology, RNA research group, Institute of Medical Biology, University of Tromsø, Tromsø, Norway
Faculty of Fishery and Natural Sciences, Bodø Regional University, Bodø, Norway

E-mail: Steinar.Johansen{at}fagmed.uit.no.

Abstract

The ribosomal DNA region of the myxomycete Fuligo septica wasinvestigated and found to contain 12 group I introns (four inthe small subunit and eight in the large subunit ribosomal RNAs).We have performed molecular and phylogenetic analyses to provideinsight into intron structure and function, intron-host biology,and intron origin and evolution. The introns vary in size from398 to 943 nt, all lacking detectable open reading frames. Secondarystructure models revealed considerable structural diversity,but all, except one (subclass IB), represent the common groupIC1 intron subclass. In vitro splicing analysis revealed that10 of the 12 introns were able to self-splice as naked RNA,but all 12 introns were able to splice out from the precursorrRNA in vivo as evaluated by reverse transcription PCR analysison total F. septica RNA. Furthermore, RNA processing analysesin vitro and in vivo showed that 10 of 12 introns perform hydrolyticcleavage at the 3' splice site, as well as intron circularization.Full-length intron RNA circles were detected in vivo. The orderof splicing was analyzed by a reverse transcription PCR approachon cellular RNA, but no strict order of intron excision couldbe detected. Phylogenetic analysis indicated that most Fuligointrons were distantly related to each other and were independentlygained in ribosomal DNA during evolution.

Key Words: Fuligo • group I intron • myxomycete • ribosomal RNA • RNA splicing

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