Carola Glotz scite author profile

Short base-paired RNA fragments, and fragments containing intra-RNA cross-links, were isolated from E. coli 23S rRNA or 50S ribosomal subunits by two-dimensional gel electrophoresis. The interactions thus found were used as a first basis for constructing a secondary structure model of the 23S rRNA. Sequence comparison with the 23S rDNA from Z. mays chloroplasts, as well as with the 16S (large subunit) rDNA from human and mouse mitochondria, enabled the experimental model to be improved and extrapolated to give complete secondary structures of all four species. The structures are organized in well-defined domains, with over 450 compensating base changes between the two 23S species. Some ribosomal structural "'switches" were found, one involving 5S rRNA.

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Secondary structure comparisons between small subunit ribosomal RNA molecules from six different species

Zwieb

1981

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Secondary structure models are presented for three pairs of small subunit ribosomal RNA molecules. These are the 16S rRNA from E. coli cytoplasmic and Z. mays chloroplast ribosomes, the 18S rRNA from S. cerevisiae and X. laevis cytoplasmic ribosomes, and the 12S rRNA from human and mouse mitochondrial ribosomes. Using the experimentally-established secondary structure of the E. coli 16S rRNA as a basis, the models were derived both by searching for primary structural homology between the three classes of sequence (12S, 16S, 18S), and also by searching for compensating base changes in putative helical regions of each pair of sequences. The models support the concept that secondary structure of ribosomal RNA has been extensively conserved throughout evolution, differences in length between the three classes of sequence being accommodated in distinct regions of the molecules.

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An experimentally-derived model for the secondary structure of the 16S ribosomal RNA from Escherichia coli

Glotz

Brimacombe

1980

Nucl Acids Res

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Ribonucleoprotein fragments are isolated by mild ribonuclease digestion of E. coli 30S ribosomal subunits, and are deproteinized and subjected to a second partial digestion. Base-pairing between the resulting small RNA fragments is investigated using the two-dimensional gel electrophoresis procedure already reported (see Ref. 1). The interactions thus found are incorporated into a secondary structure model covering approximately 80% of the 16S RNA.

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Characterization of crystals of small ribosomal subunits

Yonath

Glotz

Gewitz

et al. 1988

Journal of Molecular Biology

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Metal Compounds as Tools for the Construction and the Interpretation of Medium-Resolution Maps of Ribosomal Particles

Weinstein

Jahn

Glotz

et al. 1999

Journal of Structural Biology

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Carola Glotz

Secondary structure of the large subunit ribosomal RNA from Escherichia coli, Zea mays chloroplast, and human and mouse mitochondrial ribosomes

Secondary structure comparisons between small subunit ribosomal RNA molecules from six different species

An experimentally-derived model for the secondary structure of the 16S ribosomal RNA from Escherichia coli

Characterization of crystals of small ribosomal subunits

Metal Compounds as Tools for the Construction and the Interpretation of Medium-Resolution Maps of Ribosomal Particles

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