The non-nuclear DNA of a number of independent senescent cultures of Podospora anserina was extracted and studied. In all cases, a specific repetitive DNA (SEN-DNA) arranged in multimeric sets of circular molecules, was identified. Depending on the senescent culture, the SEN-DNA was found either in a band of about same density as the mitochondrial DNA from young mycelia (1.694 g/cm(3)) or in a band of higher density (1.699 g/cm(3)). Electron microscopy, restriction enzyme analysis and Southern hybridization experiments allowed us to establish that: (1) SEN-DNAs obtained from independent senescent cultures, both from the same strain and from different strains, can differ in the size of their monomer unit (from 2.5 to 6.3 kb). (2) All SEN-DNAs hybridize with mitochondrial DNA of a young culture and not with nuclear DNA. (3) These SEN-DNAs belong to two classes which hybridize with two non-overlapping regions of the mitochondrial chromosome.
The amount of nucleotide sequence data is increasing exponentially. We therefore made an effort to make a comprehensive database (LISTA) for the yeast Saccharomyces cerevisiae. Each sequence has been attributed a single genetic name and in the case of allelic duplicated sequences, synonyms are given, if necessary. For the nomenclature we have introduced a standard principle for naming gene sequences based on priority rules. We have also applied a simple method to distinguish duplicated sequences of one and the same gene from non-allelic sequences of duplicated genes. By using these principles we have sorted out a lot of confusion in the literature and databanks. Along with the genetic name, the mnemonic from the EMBL databank, the codon bias, reference of the publication of the sequence and the EMBL accession numbers are included in each entry.
The amount of nucleotide sequence data is increasing exponentially. We therefore continued our effort to make a comprehensive database for the yeast Saccharomyces cerevisiae. In this database (ListA2) we have compiled 1001 protein coding sequences from this organism. Each sequence has been attributed a single genetic name and in the case of allelic duplicated sequences, synonyms are given, if necessary. For the nomenclature we have introduced a standard principle for naming gene sequences based on priority rules. We have also applied a simple method to distinguish duplicated sequences of one and the same gene from non-allelic sequences of duplicated genes. By using these principles we have sorted out a lot of confusion in the literature and databanks. Along with the genetic name, the mnemonic from the EMBL databank, the codon bias, reference of the publication of the sequence and the EMBL accession numbers are included for each entry. The database is available on request.
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