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Robust mammalian RNA localization elements are complex and multipartite

Created on 12 Jun 2026

Authors

Moffatt, C., Salim, S. S., Bauer, K., MacFadden, A., Jimenez, A., Weidmann, C., McClure, A., Dominguez, D., Kiebler, M., Taliaferro, M.

Abstract

The subcellular localization patterns of RNAs are controlled by regulatory elements contained within them. However, for most localized RNAs, the identities of these elements remain unknown. We had previously identified several localization elements that are necessary and sufficient for robust, kinesin-dependent RNA targeting to microtubule plus ends in a variety of cell types. Yet the characteristics of these elements that are critical for function remained unclear. To address this, we systematically created tens of thousands of mutant localization elements and quantified their ability to regulate subcellular RNA localization in neuronal cells. We found that the minimally active size of these localization elements is large, approximately 200 nucleotides. These elements contain multiple important subsequences, with some being completely intolerant of any changes and others being tolerant to a shuffling of nucleotide order but not to changes in nucleotide composition. Using single molecule microscopy, we verified these findings in primary rat neurons. Together, these results demonstrate that highly active mammalian RNA localization elements are large, complex, and multipartite and lay a foundation for further mechanistic studies of their function.

Preprint server: bioRxiv
The authors list and abstract were imported from bioRxiv on 12 Jun 2026.

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