PMID: 2104622Jan 5, 1990Paper

Isolation of Chinese hamster ovary ribosomal mutants differentially resistant to ricin, abrin, and modeccin.

The Journal of Biological Chemistry
S Sallustio, P Stanley

Abstract

The molecular action of ricin A chain involves cleavage of the N-glycosidic bond between ribose and the adenine 4324 nucleotides from the 5' end of mammalian 28 S rRNA (Endo, Y., and Tsurugi, K. (1987) J. Biol. Chem. 262, 8128-8130). In this paper, four ricin- and abrin-resistant Chinese hamster ovary cell mutants that possess ribosomes resistant to this N-glycosidase action are described. Three of the mutant phenotypes, Lec26, Lec27, and Lec28, were recessive in somatic cell hybrids and define at least two new lectin-resistant complementation groups. The most extensively characterized mutant type, LEC17, was dominant in such hybrids. None of the mutants were cross-resistant to modeccin. Post-mitochondrial supernatants from each of the four mutants were resistant to inhibition of cell-free protein synthesis by ricin, ricin A chain, and abrin. In addition, polysomes isolated from mutant cells were resistant to cleavage of the adenine-ribose N-glycosidic bond by ricin A chain or abrin, as assayed by the release of an approximately 470-nucleotide fragment following aniline treatment of ribosomal RNA extracted from toxin-treated polysomes. The unique lectin-resistance properties of the different mutants suggests that the accessibil...Continue Reading

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