Presence of state transitions in the cryptophyte alga Guillardia theta. Cheregi, O., Kotabova, E., Prasil, O., Schroder, W. P., Kana, R., & Funk, C. J Exp Bot, 66(20):6461–70, October, 2015. Edition: 2015/08/09Paper doi abstract bibtex Plants and algae have developed various regulatory mechanisms for optimal delivery of excitation energy to the photosystems even during fluctuating light conditions; these include state transitions as well as non-photochemical quenching. The former process maintains the balance by redistributing antennae excitation between the photosystems, meanwhile the latter by dissipating excessive excitation inside the antennae. In the present study, these mechanisms have been analysed in the cryptophyte alga Guillardia theta. Photoprotective non-photochemical quenching was observed in cultures only after they had entered the stationary growth phase. These cells displayed a diminished overall photosynthetic efficiency, measured as CO2 assimilation rate and electron transport rate. However, in the logarithmic growth phase G. theta cells redistributed excitation energy via a mechanism similar to state transitions. These state transitions were triggered by blue light absorbed by the membrane integrated chlorophyll a/c antennae, and green light absorbed by the lumenal biliproteins was ineffective. It is proposed that state transitions in G. theta are induced by small re-arrangements of the intrinsic antennae proteins, resulting in their coupling/uncoupling to the photosystems in state 1 or state 2, respectively. G. theta therefore represents a chromalveolate algae able to perform state transitions.
@article{cheregi_presence_2015,
title = {Presence of state transitions in the cryptophyte alga {Guillardia} theta},
volume = {66},
issn = {1460-2431 (Electronic) 0022-0957 (Linking)},
url = {https://www.ncbi.nlm.nih.gov/pubmed/26254328},
doi = {10/f3pqj8},
abstract = {Plants and algae have developed various regulatory mechanisms for optimal delivery of excitation energy to the photosystems even during fluctuating light conditions; these include state transitions as well as non-photochemical quenching. The former process maintains the balance by redistributing antennae excitation between the photosystems, meanwhile the latter by dissipating excessive excitation inside the antennae. In the present study, these mechanisms have been analysed in the cryptophyte alga Guillardia theta. Photoprotective non-photochemical quenching was observed in cultures only after they had entered the stationary growth phase. These cells displayed a diminished overall photosynthetic efficiency, measured as CO2 assimilation rate and electron transport rate. However, in the logarithmic growth phase G. theta cells redistributed excitation energy via a mechanism similar to state transitions. These state transitions were triggered by blue light absorbed by the membrane integrated chlorophyll a/c antennae, and green light absorbed by the lumenal biliproteins was ineffective. It is proposed that state transitions in G. theta are induced by small re-arrangements of the intrinsic antennae proteins, resulting in their coupling/uncoupling to the photosystems in state 1 or state 2, respectively. G. theta therefore represents a chromalveolate algae able to perform state transitions.},
language = {en},
number = {20},
urldate = {2021-06-07},
journal = {J Exp Bot},
author = {Cheregi, O. and Kotabova, E. and Prasil, O. and Schroder, W. P. and Kana, R. and Funk, C.},
month = oct,
year = {2015},
note = {Edition: 2015/08/09},
keywords = {*Electron Transport, *Photochemical Processes, Blue/low light adaptation, Carbon Dioxide/*metabolism, Cryptophyta/growth \& development/*physiology, Light, Photosynthesis, chlorophyll a/c antenna, cryptophytes, growth stage, non-photochemical quenching, state transitions.},
pages = {6461--70},
}
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In the present study, these mechanisms have been analysed in the cryptophyte alga Guillardia theta. Photoprotective non-photochemical quenching was observed in cultures only after they had entered the stationary growth phase. These cells displayed a diminished overall photosynthetic efficiency, measured as CO2 assimilation rate and electron transport rate. However, in the logarithmic growth phase G. theta cells redistributed excitation energy via a mechanism similar to state transitions. These state transitions were triggered by blue light absorbed by the membrane integrated chlorophyll a/c antennae, and green light absorbed by the lumenal biliproteins was ineffective. It is proposed that state transitions in G. theta are induced by small re-arrangements of the intrinsic antennae proteins, resulting in their coupling/uncoupling to the photosystems in state 1 or state 2, respectively. 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