Ribosome Assembly and Drug Screening
Ribosomes are essential macromolecular machines that translate the genetic information into proteins. To provide cells with the appropriate number of translation apparatuses the precise coordination of a large variety of synthesis and assembly steps to produce new ribosomal subunits is required. We design and apply fluorescently labeled ribosomes ("Fluorosomes") to investigate ribosomal assembly. Moreover, we use this technique to screen for potent inhibitors of bacterial ribosome biogenesis.
The figure below shows live E. coli cells with mCherry-labeled ribosomes and DAPI-stained DNA.
Ribosome profiling via sucrose density gradient centrifugation allows to biochemically characterize ribosome biogenesis in wild type and "Fluorosome"-containing mutant cells under different conditions.
The figure below shows ribosome profiles of E. coli cells with mCherry- and mAzami-labeled ribosomes and conditional gene knock outs that lack either the ribosomal protein S17 or L3. Strongly altered ribosome and polysome assembly is evident. For details see Nikolay et al. 2016
Selected Publications
Nikolay, R., Hilal, T., Schmidt, S., Qin, B., Schwefel, D., Vieira-Vieira, C.H., Mielke, T., Bürger, J., Loerke, J., Amikura, K., Flügel, T., Ueda, T., Selbach, M., Deuerling, E., and Spahn, C.M.T. (2021) Snapshots of native pre-50S ribosomes reveal a biogenesis factor network and evolutionary specialization. Mol. Cell 81, 1200-1215 short | full
Nikolay, R., Schmidt, S., Schlömer, R., Deuerling, E., and Nierhaus, K. (2016) Ribosome assembly as antimicrobial target. Antibiotics 5, 18 short | full
Nikolay, R., Schlömer, R., Müller, S., and Deuerling, E. (2015) Fluorescence-based monitoring of ribosome assembly landscapes. BMC Mol. Biol. 16, 3 full
Nikolay, R., Schlömer, R., Schmidt, S., Müller, S., Heubach, A., and Deuerling, E. (2014) Validation of a fluorescence-based screening concept to identify ribosome assembly defects in Escherichia coli. Nucleic Acids Res. 42, e100 short | full