EVOLUTIONARY RELATIONSHIPS BETWEEN 4 SPECIES OF CLADOPHORA (CLADOPHORALES, CHLOROPHYTA) BASED ON DNA-DNA HYBRIDIZATION

Analysis of the reassociation kinetics of the DNA from Cladophora pellucida (Huds.) Kutz. indicates that the genome of this benthic alga is comprised of approximately 75% repetitive sequences. Single-copy sequences reassociated with a rate constant of 1.8 x 10(-3) M-1.s-1, which corresponds to a haploid genome size of 4.7 x 10(8) bp. Genotypic relationships between members of the form section Longiarticulatae were determined by the method of DNA-DNA hybridization. No significant divergence was observed between the single-copy sequences of C. pellucida isolates from the East Atlantic coast and Mediterranean Sea. Cladophora feredayi Harv. and C. att. ad pellucida from Australia and C. pellucidoidea van den Hoek from the West Atlantic coast were highly and about equally divergent from C. pellucida. The data support the hypothesis that the West Atlantic-West Pacific divergence reflects the middle Miocene closure of the Mediterranean-Indo-Pacific seaways, and the hypothesis that the Northwest Atlantic-Northeast Atlantic divergence reflects the middle Miocene thermal separation of these coasts

Molecular divergence between North Atlantic and Indo-West Pacific Cladophora albida (Cladophorales: Chlorophyta) isolates as indicated by DNA-DNA hybridization

Genomic relationships between North Atlantic, Australian and Japanese isolates of the benthic seaweed Cladophora albida (Huds.) Kütz. were examined in 1987 by means of DNA-DNA hybridization. The data indicate that C. albida can be divided into a North Atlantic and an Indo-West Pacific group with an intergroup hybridization response of 25 to 30% and 5.5° to 6.0°C for hybridization percentage and ΔT me the melting temperature reduction of hybridized sequences, respectively. This level of genome divergence is considerably higher than that observed in most other eukaryotes. The separation between the two C. albida groups presumably dates back to the closure of the Asian part of the Tethys Ocean, about 12 million years ago. The data also indicate that transatlantic C. albida populations have a greater genetic inter-relatedness than have Japanese and Australian populations. In C. albida there is no clear correlation between molecular evolution and the evolution of morphological traits. C. albida and C. rupestris (L.) Kütz have hardly any DNA sequences in common

Evolution of nuclear rDNA ITSsequences in the Cladophora albida/sericea clade (Chlorophyta)

Ribosomal DNA ITS sequences were compared among 13 different species and biogeographic isolates from the monophyletic albida/sericea clade in the green algal genus Cladophora. Six distinct ITS sequence types were found, characterized by multiple insertions and deletions and high levels of nucleotide substitution. Conserved domains within the ITS regions indicate the presence of ITS secondary structure. Low transition/transversion ratios among the six types and nearly symmetrical tree-length frequency distributions indicate some saturation, and low phylogenetic signal. Although branching order among five of the six ITS sequence types could not be resolved, estimates of ITS sequence divergence as compared with 18S divergence in a subset of the taxa suggests that the origin of the different ITS types is probably in the mid-Miocene (12 Ma ago) but that biogeographic isolates within a single ITS type (including both Pacific and Atlantic representatives) have probably dispersed on a time scale of thousands rather than millions of years