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Query: EC:2.7.7.49 (
reverse transcriptase
)
31,746
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The recent report on RNA-mediated group II intron (IVS, intervening sequence) transposition in mitochondria (mt) of Saccharomyces cerevisiae and Podospora anserina and the demonstration of
reverse transcriptase
(RT) activity encoded by the mobile S. cerevisiae intron cox1-aI1 suggests that group II introns constitute a new class of site-specific retro-like (retroid) elements. This is supported by the finding that the mitochondrial cob1-bI1 intron from the fission yeast Schizosaccharomyces pombe, encoding an RT-like open reading frame, is transposed in mtDNA populations. In agreement with the involvement of an RNA-intermediate in IVS transposition: First, the insertion sites were preceded by at least an IBS1-like (intron binding site) motif, which corresponds to the upstream exon and suffices to form the IBS1/
EBS1
(EBS: exon binding site) base-pairing interactions. Second, intron transposition was conservative with respect to sequences flanking the insertion sites. We formulated the hypothesis that transient IVS insertion at non-allelic sites followed by recombination can be viewed as a general molecular mechanism, applicable equally well to site-specific genomic instabilities involving splice-site borders of group II introns and to the formation of extra-genomic IVS plasmid DNAs (plDNAs). We used polymerase chain reaction (PCR) techniques to detect infrequent rearrangements in mtDNA and report here on duplicative IVS transposition, twintron formation (e.g. bI1 insertion into another bI1 intron), and IVS insertions at canonical 5' exon-intron borders in S. pombe (cob1-bI1) and in S. cerevisiae (cox1-aI1). These data substantiate the concept that group II intron homing, IVS transposition and circular IVS plDNA formation involve a common RNA-mediated mechanism. Finally, the findings suggest that extra-genomic group II IVS copies are not restricted to senescence mycelia of P. anserina, but constitute natural components of group II IVS-containing genomes.
...
PMID:Transposable group II introns in fission and budding yeast. Site-specific genomic instabilities and formation of group II IVS plDNAs. 793 46
We describe herein a large group-II intron which is inserted in the mitochondrial cox1 gene of the Schizosaccharomyces pombe strain EF2. The intron RNA consists of 2492 nucleotides which can be folded into a secondary structure with all the expected sequence motifs of subgroup-IIA1 introns (Michel et al. 1989). Determination of the exact splice point revealed that the intron is inserted in the same codon, but 1 bp downstream, as the mobile intron aI2 in the Saccharomyces cerevisiae cox1 homologue. A total of nine nucleotide changes was observed around the insertion site of the intron in the cox1 gene of strain EF2 compared with the reference strain ade7-50h(-). Seven of these changes are clustered within the 51 bp upstream of the splice point. Only one sequence deviation was found in the downstream exon. The intron is capable of splicing despite the fact that both the
EBS1
/IBS1 and the EBS2/IBS2 sequence motifs, thought to be necessary for correct splicing, extend over 5 instead of 6 bp. The maturase, endonuclease and
reverse transcriptase
domains of the putative protein encoded by the newly described S. pombe group-II intron were not closer to those encoded by the other two, cobI and cox2I, S. pombe group-II introns than to the group-II intron-encoded proteins in Allomyces, Marchantia, Podospora and Saccharomyces.
...
PMID:A novel group-II intron in the cox1 gene of the fission yeast Schizosaccharomyces pombe is inserted in the same codon as the mobile group-II intron aI2 in the Saccharomyces cerevisiae cox1 homologue. 1046 4
