Snake venom phosphodiesterase liberates the O2′-methylnucleoside (Nm) constituents of RNA as the corresponding 5′-nucleotides (pNm), which, in contrast to normal 5′-nucleotides (pN), are resistant to dephosphorylation by venom 5′-nucleotidase. This property provides the basis of a convenient and highly reproducible quantitative assay for Nm residues in RNA. The assay method involves: (1) hydrolysis of RNA with whole or partially-purified snake venom; (2) isolation of the pNm derivatives, as a group, by anion-exchange chromatography on DEAE-cellulose; (3) resolution of the individual pNm compounds by two-dimensional paper chromatography; (4) identification and quantitative measurement of pNm derivatives by ultraviolet absorption spectrophotometry. Using this procedure, the molar proportions of the Nm constituents of wheat embryo, yeast, and Escherichia coli tRNA have been determined. The close correspondence between the values measured by venom hydrolysis and those obtained by analysis of alkali-stable dinucleotide (Nm-Np) sequences attests to the validity of the venom assay, and further indicates that alkali-stable sequences larger than dinucleotides are not present in significant amounts in the tRNA of the above three organisms.During the present investigation, several ultraviolet-absorbing components, not immediately identifiable as ribose-methylated nucleotides, were isolated along with the expected O2′-methylnucleoside 5′-phosphates. Preliminary characterization of one of these compounds suggests that it is a derivative of a novel nucleoside, O2′-methyl-5-carboxymethyluridine (cm5Um). Venom hydrolysis of yeast tRNA liberates the 5′-nucleotide of cm5Um in the form of a carboxyl-blocked derivative (pU-2). During alkaline hydrolysis of yeast tRNA, the blocking group in U-2 is labilized and cm5Um is released as part of an alkali-stable dinucleotide, cm5Um-Ap. The proportion of pU-2 in venom hydrolysates of yeast tRNA (0.02 mol%, the same as the content of cm5Um-Ap in alkaline hydrolysates) suggests that O2′-methyl-5-carboxymethyluridine may be confined to a single isoaccepting species of tRNA in yeast.In an allied study, reinvestigation of the alkali-stable dinucleotide sequences of baker's yeast tRNA has confirmed previous results concerning the sequence distribution of O2′-methylribose in yeast tRNA (Gray, M. W. &Lane, B. G. (1967) Biochim. Biophys. Acta 134, 243–257).
The spontaneous release of a high-molecular-weight aggregate containing immunoglobulin G from the surface of Ehrlich ascites tumor cells