2015
DOI: 10.1016/j.bpj.2015.08.026
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Theory of Triplet Excitation Transfer in the Donor-Oxygen-Acceptor System: Application to Cytochrome b 6 f

Abstract: Theoretical consideration is presented of the triplet excitation dynamics in donor-acceptor systems in conditions where the transfer is mediated by an oxygen molecule. It is demonstrated that oxygen may be involved in both real and virtual intramolecular triplet-singlet conversions in the course of the process under consideration. Expressions describing a superexchange donor-acceptor coupling owing to a participation of the bridging twofold degenerate oxygen's virtual singlet state are derived and the transfer… Show more

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Cited by 5 publications
(4 citation statements)
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“…In line with the experimental observations, this theoretically verifies that the bridging state, available through the presence of oxygen, has an accelerating effect on the electron transfer step between the two starting materials. A related involvement of an oxygen mediated bridging state for a triplet excitation energy transfer process was reported by Valkunas group [22] . This theory is also in line with GC kinetic results: at the early stage, under dioxygen the reaction is faster than under dinitrogen atmosphere, and under air (open flask) faster than under dinitrogen; the final yields according to GC are the essentially the same (Figure 6 and Figure S22, S23).…”
Section: Resultssupporting
confidence: 84%
“…In line with the experimental observations, this theoretically verifies that the bridging state, available through the presence of oxygen, has an accelerating effect on the electron transfer step between the two starting materials. A related involvement of an oxygen mediated bridging state for a triplet excitation energy transfer process was reported by Valkunas group [22] . This theory is also in line with GC kinetic results: at the early stage, under dioxygen the reaction is faster than under dinitrogen atmosphere, and under air (open flask) faster than under dinitrogen; the final yields according to GC are the essentially the same (Figure 6 and Figure S22, S23).…”
Section: Resultssupporting
confidence: 84%
“…However, transmitted electron from excited chlorophyll to molecular oxygen (O 2 ) produces singlet oxygen. 6 Plants develop defense systems consist of an inhibitor to protect themselves against ROS damages and cope with totally different environmental constraints. 7 The inhibitor system opposed ROS injury and limits ROS physiological damage in plant cells.…”
Section: Introductionmentioning
confidence: 99%
“…Solvent molecules have been implicated in the control of electronic coupling in systems containing solvent-separated ion pairs and in linked D-A pairs in favorable geometries to host solvent molecules [64][65][66]. Recently, an investigation into TTET in cytochrome b6f has proposed a non-covalent path for TTET [67]. A number of studies have provided convincing evidence that water molecules located in proximity to the D and A pairs can mediate the electronic coupling [68][69][70].…”
Section: Discussionmentioning
confidence: 99%