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Ribosome antibiotic complexes

Table 1 Crystal structures of ribosome antibiotic complexes in Figure 2... Table 1 Crystal structures of ribosome antibiotic complexes in Figure 2...
Ribosomal Protein Synthesis Inhibitors. Figure 5 Nucleotides at the binding sites of chloramphenicol, erythromycin and clindamycin at the peptidyl transferase center. The nucleotides that are within 4.4 A of the antibiotics chloramphenicol, erythromycin and clindamycin in 50S-antibiotic complexes are indicated with the letters C, E, and L, respectively, on the secondary structure of the peptidyl transferase loop region of 23S rRNA (the sequence shown is that of E. coll). The sites of drug resistance in one or more peptidyl transferase antibiotics due to base changes (solid circles) and lack of modification (solid square) are indicated. Nucleotides that display altered chemical reactivity in the presence of one or more peptidyl transferase antibiotics are boxed. [Pg.1089]

S. C., Puglisi, J. D. Structure of the A site of Escherichia coli 16 S ribosomal RNA complexed with an aminoglycoside antibiotic. Science 1996,... [Pg.337]

Antibiotic A201A. Antibiotic A201A (23), produced by S. capreolus is an /V -dimethyladenine nucleoside stmcturaHy similar to puromycin (19). Compound (23) which contains an aromatic acid and monosaccharide residues (1,4), inhibits the incorporation of amino acids into proteins but has no effect on RNA or DNA synthesis. Compound (23) does not accept polypeptides as does (19), and does appear to block formation of the initiation complex of the SOS subunit. It may block formation of a puromycin-reactive ribosome. [Pg.122]

Kinetics of fMet-tRNA binding to 30S ribosomal subunit Inhibition of ribosomal binding of fMet-tRNA by an antibiotic may reduce the level of initiation complex formed at equilibrium. However, if the effect of the inhibitor consists mainly of slowing down the binding reaction, its effect may appear less dramatic after a relatively long incubation time. For this... [Pg.286]

Nucleocidin (LXXX) [353], an adenine nucleoside antibiotic whose structure has recently been elucidated, is also a potent inhibitor of protein synthesis. Studies with this compouna have led to the conclusion that nucleocidin forms a complex with ribosomes which is inactive in peptide bond formation. Binding... [Pg.100]

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See also in sourсe #XX -- [ Pg.140 , Pg.141 , Pg.142 , Pg.143 ]



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