Abstract
We show that the Saccharomyces cerevisiae ribosomal protein Rpl42ab (the identical product of the RPL42A and RPL42B genes) is monomethylated at Lys-40 and Lys-55. The methylation of Lys-40 is dependent upon the Ybr030w gene product; the methylation of Lys-55 is dependent upon the Set7 gene product. Ybr030w and SET7 genes both encode SET domain containing proteins homologous to known protein lysine methyltransferases, suggesting that their products are the specific enzymes responsible for the monomethylation of the two sites in Rpl42ab. We thus designate Ybr030w as Rkm3 and Set7 as Rkm4. Yeast strains with deletions in both the Ybr030w and SET7 genes produce unmethylated Rpl42ab. A slow growth phenotype was seen for the SET7 deletion strain and the double knock-out when grown in low concentrations of the eukaryotic protein synthesis inhibitor, cycloheximide. These results suggest that modification of Rpl42ab at Lys-55 can fine-tune its structure to avoid inhibition. An intact mass fragmentation approach ("top down mass spectrometry") was used to quantitate the extent of methylation of Rpl42ab. In wild-type strains, it was found that 78% was monomethylated at both Lys-40 and Lys-55 and that 22% was a mixture of species with either Lys-40 or Lys-55 monomethylated. The top down approach was also used to reevaluate the methylation sites of Rpl12ab. We found that the yeast Rpl12ab protein is dimethylated at the N-terminal proline residue, trimethylated at Lys-3 by Rkm2, and monomethylated at Arg-66.
Highlights
Proteins ranging from flagellin in Salmonella typhimurium to RUBISCO in plants to transcription initiation factor TAFT10 in Homo sapiens [3]
We have been interested in identifying protein lysine methyltransferases that are involved in the formation of methylation marks on ribosomal proteins
In this work we focused on the modification of the large ribosomal protein encoded by the RPL42A and the RPL42B genes of S. cerevisiae
Summary
Large ribosomal subunits were isolated from wild-type, ⌬Ybr030w, ⌬SET7, and the double knock-out ⌬Ybr030w ⌬SET7 strains as described previously [11], with the exception that the final supernatant was not lyophilized. Identification of Methylation Sites by Top Down Mass Spectrometry Using Collisionally Activated Dissociation and Electron Capture Dissociation of Intact Proteins—Fractions containing isolated ribosomal protein from LC-MSϩ were diluted with 30 l water/acetonitrile/formic acid (500/500/1, v/v/v) and analyzed by direct nanospray injection. LC fractions were individually loaded into a 2-m internal diameter externally coated nanospray emitter (New Objective Inc., Woburn, MA) and desorbed using a spray voltage between 1.2 kV and 1.4 kV versus the inlet of the mass spectrometer These conditions produced a flow rate of 20 –50 nl/min. Wild Type to give a final concentration of 1 g/ml and growth was monitored by optical density over the 40 h
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