TY - JOUR
T1 - Circadian and diel regulation of photosynthesis in the bryophyte Marchantia polymorpha
AU - Cuitun-Coronado, David
AU - Rees, Hannah
AU - Colmer, Joshua
AU - Hall, Anthony
AU - de Barros Dantas, Luíza L.
AU - Dodd, Antony N.
N1 - Funding Information: This study was supported by the UKRI-BBSRC Institute Strategic Programme (ISP) Genes in the Environment (BB/P013511/1), Core Strategic Programme Grant 901 (Genomes to Food Security BB/CSP1720/1), and its work package 902 BBS/E/T/000PR9819 (regulatory interactions and complex phenotypes), designing future wheat ISP (BB/P016855/1; 904 BBS/E/T/000PR9783 (WP4 data access and analysis), and Conacyt (Mexico) (CVU: 510730, Scholarship: 472284).
PY - 2022/8
Y1 - 2022/8
N2 - Circadian rhythms are 24-h biological cycles that align metabolism, physiology, and development with daily environmental fluctuations. Photosynthetic processes are governed by the circadian clock in both flowering plants and some cyanobacteria, but it is unclear how extensively this is conserved throughout the green lineage. We investigated the contribution of circadian regulation to aspects of photosynthesis in Marchantia polymorpha, a liverwort that diverged from flowering plants early in the evolution of land plants. First, we identified in M. polymorpha the circadian regulation of photosynthetic biochemistry, measured using two approaches (delayed fluorescence, pulse amplitude modulation fluorescence). Second, we identified that light-dark cycles synchronize the phase of 24 h cycles of photosynthesis in M. polymorpha, whereas the phases of different thalli desynchronize under free-running conditions. This might also be due to the masking of the underlying circadian rhythms of photosynthesis by light-dark cycles. Finally, we used a pharmacological approach to identify that chloroplast translation might be necessary for clock control of light-harvesting in M. polymorpha. We infer that the circadian regulation of photosynthesis is well-conserved amongst terrestrial plants.
AB - Circadian rhythms are 24-h biological cycles that align metabolism, physiology, and development with daily environmental fluctuations. Photosynthetic processes are governed by the circadian clock in both flowering plants and some cyanobacteria, but it is unclear how extensively this is conserved throughout the green lineage. We investigated the contribution of circadian regulation to aspects of photosynthesis in Marchantia polymorpha, a liverwort that diverged from flowering plants early in the evolution of land plants. First, we identified in M. polymorpha the circadian regulation of photosynthetic biochemistry, measured using two approaches (delayed fluorescence, pulse amplitude modulation fluorescence). Second, we identified that light-dark cycles synchronize the phase of 24 h cycles of photosynthesis in M. polymorpha, whereas the phases of different thalli desynchronize under free-running conditions. This might also be due to the masking of the underlying circadian rhythms of photosynthesis by light-dark cycles. Finally, we used a pharmacological approach to identify that chloroplast translation might be necessary for clock control of light-harvesting in M. polymorpha. We infer that the circadian regulation of photosynthesis is well-conserved amongst terrestrial plants.
KW - circadian rhythms
KW - environmental signalling
KW - evolution
KW - photosynthesis
UR - http://www.scopus.com/inward/record.url?scp=85131180175&partnerID=8YFLogxK
U2 - 10.1111/pce.14364
DO - 10.1111/pce.14364
M3 - Article
C2 - 35611455
AN - SCOPUS:85131180175
SN - 0140-7791
VL - 45
SP - 2381
EP - 2394
JO - Plant Cell and Environment
JF - Plant Cell and Environment
IS - 8
ER -