Showing papers by "Takeshi Nakayama published in 1997"

LINKAGE OF 5S RIBOSOMAL DNA TO OTHER rDNAS IN THE CHROMOPHYTIC ALGAE AND RELATED TAXA1

Abstract: Gene organization within the nuclear ribosomal DNA cistron and linkage of the 5S rDNA gene to the cistron were surveyed in 20 taxa of protists representing most of the Chromophyta (stramenopiles) and representatives of the Dinophyceae (alveolata) and Euglenophyceae. The intergenic spacer, which separates adjacent cistrons, was first PCR-amplified from total DNA using primers anchored in the 3’end of the large subunit and the 5’end of the small subunit in the next downstream cistron. Presence of the 5S gene in the cistron was determined by a second round of PCR using primers anchored in the large subunit and the 5S gene. where 5S-linked rDNA was not detected in the cistron, the presence of 5S tandem repeating units were confirmed by the PCR of 5S-5S fragments from the total DNA. Results show that most of the Chromophyta, as well as Opalina, Proteromonas (colorless stramenopiles), Dinophyceae, and Euglenophyceae have a 5S-linked type of rDNA organization. In contrast, only tandem repeats of 5S rDNA were detected in Bacillariophyceae and Synurophyceae. The occurrence of 5S-unlinked rDNA is hypothesized to be the result of secondary transfer from an ancestral, linked 5S type. The 5S-linked type of rDNA organization is apparently common in protists. Given the fact that most of these protists have mitochondria with tubular or discoid cristae, as compared with flattened cristae common in higher plants and animals, we conclude that the 5S-linked type of rDNA diverged at a very early stage in the evolution of eukaryotes.