Validation strategies for antibodies targeting modified ribonucleotides
- Franziska Weichmann1,
- Robert Hett1,
- Aloys Schepers2,
- Taku Ito-Kureha3,
- Andrew Flatley2,
- Kaouthar Slama4,
- Florian Hastert5,
- Nick Angstmann6,
- Cristina M Cardoso5,
- Julian König7,
- stefan huettelmaier8,
- Christoph Dieterich9,
- Stefan Canzar6,
- Mark Helm10,
- Vigo Heissmeyer3,
- Regina Feederle2 and
- Gunter Meister1,11
- 1 University of Regensburg;
- 2 Helmholtz Zentrum München;
- 3 Biomedical Center of the Ludwig-Maximilians-University München;
- 4 University of Mainz;
- 5 University of Darmstadt;
- 6 Ludwig-Maximilians-University Munich;
- 7 Institute of Molecular Biology;
- 8 University of Halle-Wittenberg;
- 9 University Hospital Heidelberg;
- 10 Johannes Gutenberg-University
- ↵* Corresponding author; email: gunter.meister{at}vkl.uni-regensburg.de
Abstract
Chemical modifications are found on almost all RNAs and affect their coding and non-coding functions. The identification of m6A on mRNA and its important role in gene regulation stimulated the field to investigate whether additional modifications are present on mRNAs. Indeed, modifications including m1A, m5C, m7G, 2’-OMe and Ψ were detected. However, since their abundances are low and tools used for their corroboration are often not well characterized, their physiological relevance remains largely elusive. Antibodies targeting modified nucleotides are often used but have limitations such as low affinity or specificity. Moreover, they are not always well characterized and due to the low abundance of the modification, particularly on mRNAs, generated datasets might resemble noise rather than specific modification patterns. Therefore, it is critical that the affinity and specificity is rigorously tested using complementary approaches. Here, we provide an experimental toolbox that allow for testing antibody performance prior to their use.
Keywords
- Received April 22, 2020.
- Accepted June 30, 2020.
- Published by Cold Spring Harbor Laboratory Press for the RNA Society
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