Isolation of telomeric DNA from the filamentous fungus Podospora anserina and construction of a self-replicating linear plasmid showing high transformation frequency

Abstract

It has been previously shown that linear plasmids bearing Tetrahymena telomeric sequences are able to replicate autonomously in the filamentous fungus Podospora anserina (1). However, autonomous replication occurs in only 50-70% of the transformants, suggesting a defect in the recognition of the Tetrahymena telomeric template by the putative P. anserina telomerase so that only a fraction of entering DNA is stabilized into linear extrachromosomal molecules. We have cloned DNA sequences added to the Tetrahymena (T2G4)n ends of the linear plasmid. Nucleotide sequencing showed that these sequences are exclusively composed of T2AG3 repeat units. Hybridization experiments of Bal31 treated DNA showed that T2AG3 repeats are confined within 200 bp in chromosomal P. anserina telomeres. A new plasmid has been constructed so that after linearization, the terminal sequences contain T2AG3 repeats. This linear molecule transforms P. anserina with a high frequency (up to 1.75 x 10(4) transformants/micrograms), autonomous replication occurs in 100% of the transformants and the plasmid copy number is about 2-3 per nucleus. These results underscore the importance of the telomeric repeat nucleotide sequence for efficient recognition as functional telomeric DNA in vivo and provide the first step toward the development of an artificial chromosome cloning system for filamentous fungi.