The secondary structure of large-subunit rRNA divergent domains, a marker for protist evolution

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The secondary structure of large-subunit rRNA divergent domains, a marker for protist evolution. / Lenaers, G; Nielsen, Henrik; Engberg, J; Herzog, M.

In: BioSystems, Vol. 21, No. 3-4, 1988, p. 215-22.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Lenaers, G, Nielsen, H, Engberg, J & Herzog, M 1988, 'The secondary structure of large-subunit rRNA divergent domains, a marker for protist evolution', BioSystems, vol. 21, no. 3-4, pp. 215-22.

APA

Lenaers, G., Nielsen, H., Engberg, J., & Herzog, M. (1988). The secondary structure of large-subunit rRNA divergent domains, a marker for protist evolution. BioSystems, 21(3-4), 215-22.

Vancouver

Lenaers G, Nielsen H, Engberg J, Herzog M. The secondary structure of large-subunit rRNA divergent domains, a marker for protist evolution. BioSystems. 1988;21(3-4):215-22.

Author

Lenaers, G ; Nielsen, Henrik ; Engberg, J ; Herzog, M. / The secondary structure of large-subunit rRNA divergent domains, a marker for protist evolution. In: BioSystems. 1988 ; Vol. 21, No. 3-4. pp. 215-22.

Bibtex

@article{76e68800a68e11debc73000ea68e967b,
title = "The secondary structure of large-subunit rRNA divergent domains, a marker for protist evolution",
abstract = "The secondary structure of the large-subunit ribosomal RNA (24-26S rRNA) has been studied with emphasis on comparative analysis of the folding patterns of the divergent domains in the available protist sequences, that is Prorocentrum micans (dinoflagellate), Saccharomyces carlsbergensis (yeast), Tetrahymena thermophila (ciliate), Physarum polycephalum and Dictyostelium discoideum (slime moulds), Crithidia fasciculata and Giardia lamblia (parasitic flagellates). The folding for the D3, D7a and D10 divergent domains has been refined and a consensus model for the protist 24-26S rRNA structure is proposed. Two hundred seventy-seven nucleotide-long aligned sequences representing all or part of the D3, H32-33, D8, D9 and D10 divergent domains are used for the construction of unrooted phylogenetic trees either calculated from a nucleotide difference matrix, or determined with the PAUP programme based on the parsimony method. Both phylogenies suggest three major branchings, the first leading to the dinoflagellate (which branches off first), ciliate and yeast, the second to the slime moulds, and the last to the parasitic flagellates.",
author = "G Lenaers and Henrik Nielsen and J Engberg and M Herzog",
note = "Keywords: Animals; Base Sequence; Dictyostelium; Evolution; Mastigophora; Molecular Sequence Data; Nucleic Acid Conformation; Phylogeny; Physarum; RNA, Ribosomal; Saccharomyces; Sequence Homology, Nucleic Acid; Species Specificity; Tetrahymena",
year = "1988",
language = "English",
volume = "21",
pages = "215--22",
journal = "BioSystems",
issn = "0303-2647",
publisher = "Elsevier",
number = "3-4",

}

RIS

TY - JOUR

T1 - The secondary structure of large-subunit rRNA divergent domains, a marker for protist evolution

AU - Lenaers, G

AU - Nielsen, Henrik

AU - Engberg, J

AU - Herzog, M

N1 - Keywords: Animals; Base Sequence; Dictyostelium; Evolution; Mastigophora; Molecular Sequence Data; Nucleic Acid Conformation; Phylogeny; Physarum; RNA, Ribosomal; Saccharomyces; Sequence Homology, Nucleic Acid; Species Specificity; Tetrahymena

PY - 1988

Y1 - 1988

N2 - The secondary structure of the large-subunit ribosomal RNA (24-26S rRNA) has been studied with emphasis on comparative analysis of the folding patterns of the divergent domains in the available protist sequences, that is Prorocentrum micans (dinoflagellate), Saccharomyces carlsbergensis (yeast), Tetrahymena thermophila (ciliate), Physarum polycephalum and Dictyostelium discoideum (slime moulds), Crithidia fasciculata and Giardia lamblia (parasitic flagellates). The folding for the D3, D7a and D10 divergent domains has been refined and a consensus model for the protist 24-26S rRNA structure is proposed. Two hundred seventy-seven nucleotide-long aligned sequences representing all or part of the D3, H32-33, D8, D9 and D10 divergent domains are used for the construction of unrooted phylogenetic trees either calculated from a nucleotide difference matrix, or determined with the PAUP programme based on the parsimony method. Both phylogenies suggest three major branchings, the first leading to the dinoflagellate (which branches off first), ciliate and yeast, the second to the slime moulds, and the last to the parasitic flagellates.

AB - The secondary structure of the large-subunit ribosomal RNA (24-26S rRNA) has been studied with emphasis on comparative analysis of the folding patterns of the divergent domains in the available protist sequences, that is Prorocentrum micans (dinoflagellate), Saccharomyces carlsbergensis (yeast), Tetrahymena thermophila (ciliate), Physarum polycephalum and Dictyostelium discoideum (slime moulds), Crithidia fasciculata and Giardia lamblia (parasitic flagellates). The folding for the D3, D7a and D10 divergent domains has been refined and a consensus model for the protist 24-26S rRNA structure is proposed. Two hundred seventy-seven nucleotide-long aligned sequences representing all or part of the D3, H32-33, D8, D9 and D10 divergent domains are used for the construction of unrooted phylogenetic trees either calculated from a nucleotide difference matrix, or determined with the PAUP programme based on the parsimony method. Both phylogenies suggest three major branchings, the first leading to the dinoflagellate (which branches off first), ciliate and yeast, the second to the slime moulds, and the last to the parasitic flagellates.

M3 - Journal article

C2 - 3395681

VL - 21

SP - 215

EP - 222

JO - BioSystems

JF - BioSystems

SN - 0303-2647

IS - 3-4

ER -

ID: 14585519