The balance of ribosomal proteins is important for the assembly of ribosomal subunits and cell viability. The synthesis of ribosomal proteins in a eukaryotic cell is controlled by various mechanisms, including autoregulation, which so far has been revealed for only a few of these proteins. We applied the photoactivatable 4-thiouridine-enhanced cross-linking and immunoprecipitation assay to HEK293T cells overproducing FLAG-labeled human ribosomal protein eL29 (eL29FLAG) to determine which RNAs other than rRNA interact with eL29. We demonstrated that eL29FLAG was incorporated into 60S subunits, and that ribosomes with those containing eL29FLAG were competent in translation. Analysis of the next generation sequencing data obtained from a DNA library derived from RNA fragments with covalently attached eL29FLAG peptide residues showed that the protein was cross-linked to the mRNA of the eL29-coding gene, which turned out to be its only major RNA target. The eL29FLAG cross-linking sites were located in the 3' part of the mRNA coding sequence (CDS). A specific helix that mimics the eL29 binding site on 28S rRNA was proposed as a site that is recognized by the protein upon its binding to the cognate mRNA. In addition, it was found that both eL29FLAG mRNA and eL29 mRNA, unlike those of other ribosomal proteins, were co-immunoprecipitated with eL29FLAG from the ribosome-depleted cell lysate, and recombinant eL29 inhibited the translation of the eL29 mRNA CDS transcript in a cell-free system. All this suggests that human eL29 regulates its own synthesis via a feedback mechanism by binding to the cognate mRNA, preventing its translation.
Keywords: Feedback mechanism; HEK293T cell Transfection; Human ribosomal protein eL29; In cell RNA-Protein cross-linking; Protein binding to its own mRNA; Regulation of gene expression.
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