Separation of sulfur-containing components of transfer ribonucleic acid on Bio-Gel P-2 and Sephadex G-10 columns

High-molecular-weight forms of aminoacyl-tRNA synthetases and tRNA modification enzymes in Escherichia coli

The presence of high-molecular-weight complexes of aminoacyl-tRNA synthetases in Escherichia coli has been reported (C. L. Harris, J. Bacteriol. 169:2718-2723, 1987). In the current study, Bio-Gel A-5M gel chromatography of 105,000 x g supernatant preparations from E. coli Q13 indicated high molecular weights for both tRNA methylase (300,000) and tRNA sulfurtransferase (450,000). These tRNA modification enzymes did not appear to exist in the same multienzymic complex. On the other hand, 4-thiouridine sulfurtransferase eluted with aminoacyl-tRNA synthetase activity on Bio-Gel A-5M, and both of these activities were cosedimented after further centrifugation of cell supernatants at 160,000 x g for 18 h. Despite this evidence for association of the sulfurtransferase with the synthetase complex, isoleucyl-tRNA synthetase and tRNA sulfurtransferase were totally resolved from each other by DEAE-Sephacel chromatography. Subsequent gel chromatography showed little change in their elution positions on agarose. Hence, either nonspecific aggregation occurred here, or the modification enzymes studied are not members of the aminoacyl-tRNA synthetase complex in E. coli. These findings do suggest that some bacterial tRNA modification enzymes are present in multiprotein complexes of high molecular weight.

A rapid diethylaminoethyl paper disk assay for transfer RNA sulfurtransferase

A rapid assay for tRNA sulfurtransferase from Escherichia coli was developed, reducing the time needed to determine enzyme activity from 11 to 2 h. The reaction measured is the transfer of sulfur from [35S]cysteine to acceptor sites in a thionucleotide-deficient tRNA substrate. Processing is done by binding the product, [35S]-tRNA, to DEAE-cellulose filter disks. The disks are then treated to remove unreacted [35S]cysteine, cysteine-protein adducts and [35S]cysteinyl-tRNA. The DE81 disk assay and the 11-h standard assay are shown to give identical values over a wide range of incubation times and enzyme levels. Incorporation was greater when thionucleotide-deficient tRNA was used as substrate, as compared to fully modified tRNA. [35S]-tRNA was found to be the major reaction product, although some [35S]cysteine was also bound to the filters. The major thionucleoside labeled in nucleoside digests was 4-thiouridine, as determined by Bio-Gel P2 chromatography. We also observed other labeled peaks by this method, in amounts too small for positive identification. This rapid assay should be useful in the purification and study of this uncharacterized class of tRNA modification enzymes.