The evolutionary position of the rhodophyte Porphyra umbilicalis and the basidiomycete Leucosporidium scottii among other eukaryotes as deduced from complete sequences of small ribosomal subunit RNA

The evolutionary position of the rhodophyte Porphyra umbilicalis and the basidiomycete Leucosporidium scottii among other eukaryotes as deduced from complete sequences of small ribosomal subunit RNA

The complete small ribosomal subunit RNA (srRNA) sequence was determined for the red alga Porphyra umbilicalis and the basidiomycete Leucosporidium scottii, representing two taxa for which no srRNA sequences were hitherto known. These sequences were aligned with other published complete srRNA sequen...

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Bibliographic Details
Published in:Journal of molecular evolution Vol. 32; no. 2; pp. 167 - 177
Main Authors: HENDRIKS, L, DE BAERE, R, VAN DE PEER, Y, NEEFS, J, GORIS, A, DE WACHTER, R
Format: Journal Article
Language:English
Published: New York, NY Springer 01-02-1991
Subjects:
arn ribosomal
arn ribosomial
Base Sequence
Basidiomycetes
Basidiomycota - genetics
Biological and medical sciences
Biological Evolution
cellule d' eucaryote
celulas eucarioticas
DNA, Fungal
eucaryotic cells
Eukaryotic Cells
evolucion
evolution
Fundamental and applied biological sciences. Psychology
Genetics of eukaryotes. Biological and molecular evolution
Leucosporidium
Marine
Molecular Sequence Data
Nucleic Acid Conformation
nucleotide sequence
Phylogeny
Porphyra umbilicalis
rhodophyceae
Rhodophyta - genetics
ribosomal rna
RNA, Ribosomal - genetics
secuencia nucleica
Sequence Alignment
sequence nucleique
Space life sciences
Molecular structure
Nucleotide sequence
Algae
Ribosomal DNA
Porphyra
Basidiomycetes
Phylogeny
5S-RNA
Rhodophycophyta
Fungi
Molecular evolution
Leucosporidium scottii
Molecular cloning
Thallophyta
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Summary:The complete small ribosomal subunit RNA (srRNA) sequence was determined for the red alga Porphyra umbilicalis and the basidiomycete Leucosporidium scottii, representing two taxa for which no srRNA sequences were hitherto known. These sequences were aligned with other published complete srRNA sequences of 58 eukaryotes. Evolutionary trees were reconstructed by a matrix optimization method from a dissimilarity matrix based on sections of the alignment that correspond to structurally conservative areas of the molecule that can be aligned unambiguously. The overall topology of the eukaryotic tree thus constructed is as follows: first there is a succession of early diverging branches, leading to a diplomonad, a microsporidian, a euglenoid plus kinetoplastids, an amoeba, and slime molds. Later, a nearly simultaneous radiation seems to occur into a number of taxa comprising the metazoa, the red alga, the sporozoa, the higher fungi, the ciliates, the green plants, plus some other less numerous groups. Because the red alga diverges late in the evolutionary tree, it does not seem to represent a very primitive organism as proposed on the basis of morphological and 5S rRNA sequence data. Asco- and basidiomycetes do not share a common ancestor in our tree as is generally accepted on the basis of conventional criteria. In contrast, when all alignment positions, rather than the more conservative ones, are used to construct the evolutionary tree, higher fungi do form a monophyletic cluster. The hypothesis that higher fungi and red algae might have shared a common origin has been put forward. Although the red alga and fungi seem to diverge at nearly the same time, no such relationship can be detected. The newly determined sequences can he fitted into a secondary structure model for srRNA, which is now relatively well established with the exception of uncertainties in a number of eukaryote-specific expansion areas. A specific structural model featuring a pseudoknot is proposed for one of these areas.
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ISSN:0022-2844
1432-1432
DOI:10.1007/BF02515389