An antisense noncoding RNA enhances translation via localized structural rearrangements of its cognate mRNA
Reis RS, Deforges J, Schmidt R, Schippers JHM, Poirier Y (2021)
The Plant Cell 33(4): 1381-1397.
Zeitschriftenaufsatz
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Autor*in
Reis, Rodrigo S;
Deforges, Jules;
Schmidt, RomyUniBi;
Schippers, Jos H M;
Poirier, Yves
Einrichtung
Abstract / Bemerkung
**Abstract**
A large portion of eukaryotic genes are associated with noncoding, natural antisense transcripts (NATs). Despite sharing extensive sequence complementarity with their sense mRNAs, mRNA–NAT pairs elusively often evade dsRNA-cleavage and siRNA-triggered silencing. More surprisingly, some NATs enhance translation of their sense mRNAs by yet unknown mechanism(s). Here, we show that translation enhancement of the rice (Oryza sativa) PHOSPHATE1.2 (PHO1.2) mRNA is enabled by specific structural rearrangements guided by its noncoding antisense RNA (cis-NATpho1.2). Their interaction in vitro revealed no evidence of widespread intermolecular dsRNA formation, but rather specific local changes in nucleotide base pairing, leading to higher flexibility of PHO1.2 mRNA at a key high guanine-cytosine�(GC) regulatory region inhibiting translation, ∼350-nt downstream of the start codon. Sense–antisense RNA interaction increased formation of the 80S complex in PHO1.2, possibly by inducing structural rearrangement within this inhibitory region, thus making this mRNA more accessible to 60S. This work presents a framework for nucleotide resolution studies of functional mRNA–antisense pairs.
A large portion of eukaryotic genes are associated with noncoding, natural antisense transcripts (NATs). Despite sharing extensive sequence complementarity with their sense mRNAs, mRNA–NAT pairs elusively often evade dsRNA-cleavage and siRNA-triggered silencing. More surprisingly, some NATs enhance translation of their sense mRNAs by yet unknown mechanism(s). Here, we show that translation enhancement of the rice (Oryza sativa) PHOSPHATE1.2 (PHO1.2) mRNA is enabled by specific structural rearrangements guided by its noncoding antisense RNA (cis-NATpho1.2). Their interaction in vitro revealed no evidence of widespread intermolecular dsRNA formation, but rather specific local changes in nucleotide base pairing, leading to higher flexibility of PHO1.2 mRNA at a key high guanine-cytosine�(GC) regulatory region inhibiting translation, ∼350-nt downstream of the start codon. Sense–antisense RNA interaction increased formation of the 80S complex in PHO1.2, possibly by inducing structural rearrangement within this inhibitory region, thus making this mRNA more accessible to 60S. This work presents a framework for nucleotide resolution studies of functional mRNA–antisense pairs.
Erscheinungsjahr
2021
Zeitschriftentitel
The Plant Cell
Band
33
Ausgabe
4
Seite(n)
1381-1397
Urheberrecht / Lizenzen
ISSN
1040-4651
eISSN
1532-298X
Page URI
https://pub.uni-bielefeld.de/record/2966148
Zitieren
Reis RS, Deforges J, Schmidt R, Schippers JHM, Poirier Y. An antisense noncoding RNA enhances translation via localized structural rearrangements of its cognate mRNA. The Plant Cell. 2021;33(4):1381-1397.
Reis, R. S., Deforges, J., Schmidt, R., Schippers, J. H. M., & Poirier, Y. (2021). An antisense noncoding RNA enhances translation via localized structural rearrangements of its cognate mRNA. The Plant Cell, 33(4), 1381-1397. https://doi.org/10.1093/plcell/koab010
Reis, Rodrigo S, Deforges, Jules, Schmidt, Romy, Schippers, Jos H M, and Poirier, Yves. 2021. “An antisense noncoding RNA enhances translation via localized structural rearrangements of its cognate mRNA”. The Plant Cell 33 (4): 1381-1397.
Reis, R. S., Deforges, J., Schmidt, R., Schippers, J. H. M., and Poirier, Y. (2021). An antisense noncoding RNA enhances translation via localized structural rearrangements of its cognate mRNA. The Plant Cell 33, 1381-1397.
Reis, R.S., et al., 2021. An antisense noncoding RNA enhances translation via localized structural rearrangements of its cognate mRNA. The Plant Cell, 33(4), p 1381-1397.
R.S. Reis, et al., “An antisense noncoding RNA enhances translation via localized structural rearrangements of its cognate mRNA”, The Plant Cell, vol. 33, 2021, pp. 1381-1397.
Reis, R.S., Deforges, J., Schmidt, R., Schippers, J.H.M., Poirier, Y.: An antisense noncoding RNA enhances translation via localized structural rearrangements of its cognate mRNA. The Plant Cell. 33, 1381-1397 (2021).
Reis, Rodrigo S, Deforges, Jules, Schmidt, Romy, Schippers, Jos H M, and Poirier, Yves. “An antisense noncoding RNA enhances translation via localized structural rearrangements of its cognate mRNA”. The Plant Cell 33.4 (2021): 1381-1397.
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