Selective modification of cytidine and uridine residues in Escherichia coli formylmethionine transfer ribonucleic acid

Abstract

The specificity of methoxyamine for the cytidine residues in Escherichia coli formylmethionine tRNA is described in detail. Of the nine cytidine residues not involved in hydrogen-bonding in the clover leaf model of the tRNA, three are very reactive (C-1, 75 and 76), three less so (C-16, 17 and 35) and three unreactive (C-33, 49 and 57). Surprisingly, residue C-35 at the 3′ end of the anticodon triplet is not completely modified by methoxyamine. The specificity of 1-cyclohexyl 3-[2-morpholino (4)-ethyl] carbodiimide methotosylate for the uridine and guanosine residues of this tRNA is also described in detail. Of the twelve uridine and guanosine residues not involved in hydrogen-bonding in the secondary structure of the molecule, two are reactive (U-37 and48), one less so (U-18), one partially (U-34), and eightare unreactive (U-8 and 61; G-9, 15, 19, 20, 27 and 46). No guanosine residues in the tRNA are modified by the carbodiimide. The ribosylthymine and pseudouridine residues in loop IV are also unreactive. The extent and position of the carbodiimide modification as a function of time is also described. The importance of particular residues being modified or not under the reaction conditions used is discussed in terms of transfer RNA conformation. A reduction from 10 to 4 mm-magnesium ions in the modification experiments has no apparent effect on the extent and position of the carbodiimide or methoxyamine reactions.