Marlis Meinke scite author profile

When E. coli ribosomal subunits are reacted with 2-iminothiolane and then subjected to a mild ultraviolet irradiation, an RNA-protein cross-linking reaction occurs. About 5% of the total protein in each subunit becomes cross-linked to the RNA, and a specific sub-set of proteins is involved in the reaction. In the case of the 50S subunit, the sites of cross-linking to the 23S RNA have been determined for six of these proteins: protein L4 is cross-linked within an oligonucleotide comprising positions 613-617 in the 23S sequence, L6 within positions 2473-2481, L21 within positions 540-548, L23 within positions 137-141, L27 within positions 2332-2337 and L29 within positions 99-107.

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Chemical cross-linking of protein to RNA within intact ribosomal subunits from Escherichia coli

Ulmer

Meinke

Ross

et al. 1978

Molec. Gen. Genet.

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Bifunctional reagents, namely bis-(2-chloroethyl)-amine ("nitrogen mustard") and activated esters of 3-(2-bromo-3-oxobutane-1-sulphonyl)-propionic acid ("bromo-ketone reagent") are used to cross-linked protein to RNA within intact ribosomal subunits. The cross-linked proteins are analysed on two different two-dimensional gel electrophoresis sytems, and the existence of a stable cross-linkage is demonstrated by isolating cross-linked protein-oligonucleotide complexes from subunits containing 32P-labelled RNA. Proteins S3, S4, S5, S9/S11 and S13 from the 30S subunit, and proteins L1 and L2 from the 50S subunit were cross-linked to RNA by the nitrogen mustard, together with a number of other so far unresolved proteins. Correspondingly S3, S4, S7, S9/S11 and L12 were cross-linked by the bromoketone reagent, although in lower yield. The reagents should prove useful topographical studies on ribosomal subunits, and arguments are presented favouring the use of non-cleavable and relatively non-specific RNA-protein cross-linking reagents for such studies.

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Evidence for RNA-RNA cross-link formation in Escherichia coli ribosomes

et al. 1978

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Evidence is presented in three separate cases for the formation of RNA-RNA cross-links in intact E. coli ribosomes and ribosomal subunits. The first case is a cross-link between the 18S and 13S regions of the 23S RNA, induced by ultraviolet irradiation. The second is a cross-link at the subunit interface, generated by the bifunctional reagent bis-(2-chloroethyl)-amine. The third example is a cross-link between sections O'-D and P-A of the 16S RNA, induced as in the first case by ultraviolet irradiation. The RNA-RNA cross-links can be identified as such, despite the complications introduced by concomitant RNA-protein cross-linking reactions. The experiments represent a first attempt to introduce RNA-RNA cross-linking into studies of the topographical organization of the RNA within the ribosome.

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The use of azidoarylimidoesters in RNA-protein cross-linking studies with Escherichia coli ribosomes

Rinke

Meinke

Brimacombe

et al. 1980

Journal of Molecular Biology

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Marlis Meinke

The use of 2-iminothiolane as an RNA-protein cross-linking agent in Escherichia coli ribosomes, and the localisation on 23S RNA of sites cross-linked to proteins L4, L6, L21, L23, L27 and L29

Chemical cross-linking of protein to RNA within intact ribosomal subunits from Escherichia coli

Evidence for RNA-RNA cross-link formation in Escherichia coli ribosomes

The use of azidoarylimidoesters in RNA-protein cross-linking studies with Escherichia coli ribosomes

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