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AMD1 mRNA employs ribosome stalling as a mechanism for molecular memory formation.
Yordanova, Martina M.; Loughran, Gary; Zhdanov, Alexander V.; Mariotti, Marco; Kiniry, Stephen J.; O'Connor, Patrick B. F.; Andreev, Dmitry E.; Tzani, Ioanna; Saffert, Paul; Michel, Audrey M.; Gladyshev, Vadim N.; Papkovsky, Dmitri B.; Atkins, John F.; Baranov, Pavel V.
In addition to acting as template for protein synthesis, messenger RNA (mRNA) often contains sensory sequence elements that regulate this process1,2. Here we report a new mechanism that limits the number of complete protein molecules that can be synthesized from a single mRNA molecule of the human AMD1 gene encoding adenosylmethionine decarboxylase 1 (AdoMetDC). A small proportion of ribosomes translating AMD1 mRNA stochastically read through the stop codon of the main coding region. These readthrough ribosomes then stall close to the next in-frame stop codon, eventually forming a ribosome queue, the length of which is proportional to the number of AdoMetDC molecules that were synthesized from the same AMD1 mRNA. Once the entire spacer region between the two stop codons is filled with queueing ribosomes, the queue impinges upon the main AMD1 coding region halting its translation. Phylogenetic analysis suggests that this mechanism is highly conserved in vertebrates and existed in their common ancestor. We propose that this mechanism is used to count and limit the number of protein molecules that can be synthesized from a single mRNA template. It could serve to safeguard from dysregulated translation that may occur owing to errors in transcription or mRNA damage.
Keyword(s): Gene regulation; Translation; Protein synthesis; Messenger RNA; mRNA
Publication Date:
2018
Type: Journal article
Peer-Reviewed: Yes
Language(s): English
Institution: University College Cork
Funder(s): Science Foundation Ireland; Health Research Board
Citation(s): Yordanova, M. M., Loughran, G., Zhdanov, A. V., Mariotti, M., Kiniry, S. J., O’Connor, P. B. F., Andreev, D. E., Tzani, I., Saffert, P., Michel, A. M., Gladyshev, V. N., Papkovsky, D. B., Atkins, J. F. and Baranov, P. V. (2018) 'AMD1 mRNA employs ribosome stalling as a mechanism for molecular memory formation', Nature, 553, pp. 356. doi: 10.1038/nature25174
Publisher(s): Macmillan Publishers Ltd, part of Springer Nature
File Format(s): application/pdf
First Indexed: 2018-02-15 06:30:11 Last Updated: 2018-04-20 06:31:00