The inescapable effects of ribosomes on in-cell NMR spectroscopy and the implications for regulation of biological activity

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Abstract

The effects of RNA on in-cell NMR spectroscopy and ribosomes on the kinetic activity of several metabolic enzymes are reviewed. Quinary interactions between labelled target proteins and RNA broaden in-cell NMR spectra yielding apparent megadalton molecular weights in-cell. The in-cell spectra can be resolved by using cross relaxation-induced polarization transfer (CRINEPT), heteronuclear multiple quantum coherence (HMQC), transverse relaxation-optimized, NMR spectroscopy (TROSY). The effect is reproduced in vitro by using reconstituted total cellular RNA and purified ribosome preparations. Furthermore, ribosomal binding antibiotics alter protein quinary structure through protein-ribosome and protein-mRNA-ribosome interactions. The quinary interactions of Adenylate kinase, Thymidylate synthase and Dihydrofolate reductase alter kinetic properties of the enzymes. The results demonstrate that ribosomes may specifically contribute to the regulation of biological activity.

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APA

Burz, D. S., Breindel, L., & Shekhtman, A. (2019, March 2). The inescapable effects of ribosomes on in-cell NMR spectroscopy and the implications for regulation of biological activity. International Journal of Molecular Sciences. MDPI AG. https://doi.org/10.3390/ijms20061297

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