Article ID Journal Published Year Pages File Type
4357152 Fungal Biology 2011 16 Pages PDF
Abstract

Mitochondrial genomes in the true fungi are highly variable both in size and organization. Most of this size variation is due to the presence of introns and intron-encoded open reading frames (ORFs). The objectives for this work were to examine the mitochondrial small-subunit ribosomal RNA (rns) gene of strains of Ophiostoma minus for the presence of introns and to characterize such introns and their encoded ORFs. DNA sequence analysis showed that among different strains of O. minus various rns gene exon/intron configurations can be observed. Based on comparative sequence analysis and RNA secondary structure modeling group I introns with LAGLIDADG ORFs were uncovered at positions mS569 and mS1224 and group II introns were present at positions mS379 and mS952. The mS379 group II intron encoded a fragmented reverse transcriptase (RT)-like ORF and the mS952 group II intron encoded a LAGLIDADG-type ORF. Examples of intron ORF degeneration due to frameshift mutations were observed. The mS379 group II intron is the first mitochondrial group II intron to have an ORF inserted within domain II, typically RT-like ORFs are inserted in domain IV. The evolutionary dynamics of the intron-encoded ORFs have also been examined.

► The mitochondrial rns gene of Ophiostoma minus was characterized. ► Group I introns with LAGLIDADG ORFs were noted at positions mS569 and mS1224. ► Group II introns with reverse transcriptase ORFs were found at position mS379. ► Group II introns with LAGLIDADG ORFs were found at position mS952. ► The mS379 intron is unique with the ORF inserted in domain II.

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