Senescence-specific mitochondrial DNA molecules in P. anserina: evidence for transcription and normal processing of the RNA.

In Podospora anserina the phenomenon of senescence was previously shown to be correlated with the presence of senescence-specific circular DNAs (senDNAs), resulting from the amplification of distinct regions (alpha, beta, gamma and epsilon) of the mitochondrial chromosome. The beta region gives rise to senDNAs with variable sizes, but sharing a 1-kb common sequence. Here, we present a molecular analysis of five beta senDNAs. We have determined the nucleotide sequence around the circularization site of each senDNA monomer. In two cases, the presence of a tRNA gene, very close to the 3' end of the monomer, has been observed. This suggests that some beta senDNAs could be generated via a reverse transcription step. We have furthermore shown that the beta senDNAs produce specific transcripts which undergo normal processing of their introns. We propose that a transcription start site, located in the beta common region, is involved in mitochondrial replication allowing the amplification of the beta senDNAs.