Simulations show that a small part of variable chlorophyll \(a\) fluorescence originates in photosystem I and contributes to overall fluorescence rise
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Publication:1790753
DOI10.1016/J.JTBI.2013.06.028zbMath1397.92037OpenAlexW2031734451WikidataQ50863089 ScholiaQ50863089MaRDI QIDQ1790753
Publication date: 4 October 2018
Published in: Journal of Theoretical Biology (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.jtbi.2013.06.028
Kinetics in biochemical problems (pharmacokinetics, enzyme kinetics, etc.) (92C45) Biophysics (92C05) Plant biology (92C80)
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Cites Work
- A theoretical study on effect of the initial redox state of cytochrome \(b_{559}\) on maximal chlorophyll fluorescence level (\(F_M\)): implications for photoinhibition of photosystem II
- Modelling the fast fluorescence rise of photosynthesis
- On the approaches applied in formulation of a kinetic model of photosystem II: different approaches lead to different simulations of the chlorophyll \textit{a} fluorescence transients
- Chlorophyll \(a\) fluorescence rise induced by high light illumination of dark-adapted plant tissue studied by means of a model of photosystem II and considering photosystem II heterogeneity
- Estimation of the energetic connectivity of PS II centres in plants using the fluorescence rise O-J-I-P. Fitting of experimental data to three different PS II models
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