REVEILLE2 thermosensitive splicing: a molecular basis for the integration of nocturnal temperature information by the Arabidopsis circadian clock

James AB, Sharples C, Laird J, Armstrong EM, Guo W, Tzioutziou N, Zhang R, Brown JWS, Nimmo HG, Jones MA (2023)
New Phytologist .

Zeitschriftenaufsatz | E-Veröff. vor dem Druck | Englisch
 
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Autor*in
James, Allan B; Sharples, Chantal; Laird, Janet; Armstrong, Emily May; Guo, Wenbin; Tzioutziou, Nikoleta; Zhang, Runxuan; Brown, John W S; Nimmo, Hugh G; Jones, Matthew A
Abstract / Bemerkung
Cold stress is one of the major environmental factors that limit growth and yield of plants. However, it is still not fully understood how plants account for daily temperature fluctuations, nor how these temperature changes are integrated with other regulatory systems such as the circadian clock. We demonstrate that REVEILLE2 undergoes alternative splicing after chilling that increases accumulation of a transcript isoform encoding a MYB-like transcription factor. We explore the biological function of REVEILLE2 in Arabidopsis thaliana using a combination of molecular genetics, transcriptomics, and physiology. Disruption of REVEILLE2 alternative splicing alters regulatory gene expression, impairs circadian timing, and improves photosynthetic capacity. Changes in nuclear gene expression are particularly apparent in the initial hours following chilling, with chloroplast gene expression subsequently upregulated. The response of REVEILLE2 to chilling extends our understanding of plants immediate response to cooling. We propose that the circadian component REVEILLE2 restricts plants responses to nocturnal reductions in temperature, thereby enabling appropriate responses to daily environmental changes.
Erscheinungsjahr
2023
Zeitschriftentitel
New Phytologist
eISSN
1469-8137
Page URI
https://pub.uni-bielefeld.de/record/2984314

Zitieren

James AB, Sharples C, Laird J, et al. REVEILLE2 thermosensitive splicing: a molecular basis for the integration of nocturnal temperature information by the Arabidopsis circadian clock. New Phytologist . 2023.
James, A. B., Sharples, C., Laird, J., Armstrong, E. M., Guo, W., Tzioutziou, N., Zhang, R., et al. (2023). REVEILLE2 thermosensitive splicing: a molecular basis for the integration of nocturnal temperature information by the Arabidopsis circadian clock. New Phytologist . https://doi.org/10.1111/nph.19339
James, Allan B, Sharples, Chantal, Laird, Janet, Armstrong, Emily May, Guo, Wenbin, Tzioutziou, Nikoleta, Zhang, Runxuan, Brown, John W S, Nimmo, Hugh G, and Jones, Matthew A. 2023. “REVEILLE2 thermosensitive splicing: a molecular basis for the integration of nocturnal temperature information by the Arabidopsis circadian clock”. New Phytologist .
James, A. B., Sharples, C., Laird, J., Armstrong, E. M., Guo, W., Tzioutziou, N., Zhang, R., Brown, J. W. S., Nimmo, H. G., and Jones, M. A. (2023). REVEILLE2 thermosensitive splicing: a molecular basis for the integration of nocturnal temperature information by the Arabidopsis circadian clock. New Phytologist .
James, A.B., et al., 2023. REVEILLE2 thermosensitive splicing: a molecular basis for the integration of nocturnal temperature information by the Arabidopsis circadian clock. New Phytologist .
A.B. James, et al., “REVEILLE2 thermosensitive splicing: a molecular basis for the integration of nocturnal temperature information by the Arabidopsis circadian clock”, New Phytologist , 2023.
James, A.B., Sharples, C., Laird, J., Armstrong, E.M., Guo, W., Tzioutziou, N., Zhang, R., Brown, J.W.S., Nimmo, H.G., Jones, M.A.: REVEILLE2 thermosensitive splicing: a molecular basis for the integration of nocturnal temperature information by the Arabidopsis circadian clock. New Phytologist . (2023).
James, Allan B, Sharples, Chantal, Laird, Janet, Armstrong, Emily May, Guo, Wenbin, Tzioutziou, Nikoleta, Zhang, Runxuan, Brown, John W S, Nimmo, Hugh G, and Jones, Matthew A. “REVEILLE2 thermosensitive splicing: a molecular basis for the integration of nocturnal temperature information by the Arabidopsis circadian clock”. New Phytologist (2023).

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