The Energetics of Electron‐transfer Reactions of Chlorophyll and Other Compounds*

Seely, G. R.

doi:10.1111/j.1751-1097.1978.tb07658.x

Cited by 163 publications

(75 citation statements)

References 170 publications

(60 reference statements)

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“…One alternative is electron transfer from one molecule to another within the complex, similar to that proposed for Chl-Chl and Chl-Phe associations in this and earlier papers. However, the energy of the singlet excited state (1.84 eV) is barely sufficient to drive this reaction, according to published redox potentials for Phe (Seely 1978b). Cyclic voltammetry of our sample of Phe in acetonitrile confirmed this conclusion in that the formation ofPhe + + Phe-from (Phe)2 would require 1.90 eV.…”

Section: Discussionsupporting

confidence: 66%

Reversible photochemistry in a chlorophyll model system

Seely

1995

Photosynth Res

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A reversible, endothermic photochemical redox reaction, sensitized by chlorophyll a and related compounds, has been demonstrated in a heterogeneous particulate system. The oxidant, 5,5'-dithiobis(2-nitrobenzoate) (DTNB), is photoreduced to the thiolate which remains primarily in an aqueous phase. Reductants are trisubstituted hydrazines, capable of oxidation to tetrazanes in the hydrocarbon particle phase. In the course of three days in the dark, thiolate and tetrazane react to regenerate DTNB in yields approaching 100%. A novelty of the present system is that photoreaction often takes place in discrete rate regimes, which are related to the presence of spectrally identifiable associations of chlorophyll pigments, Mg-containing and free bases. Among the associations that promote photochemical activity are those of chlorophyll and pheophytin with themselves and with each other. Perhaps more active are associations of a Mg rhodochlorin allomerization product of chlorophyll with its free base. Contributing to the associations is the stabilizing presence of amphiphiles that both ligate the Mg of chlorophyll strongly and hydrogen-bond to carbonyls: 2-tridecylimidazole, 2-tridecylimidazoline, and (2-aminoethyl)myristamide. Results of this work demonstrate the possibility of generating reaction center models in an artificial heterogeneous system, and of conducting reversible photochemical reactions with them.

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Section: Discussionsupporting

confidence: 66%

Reversible photochemistry in a chlorophyll model system

Seely

1995

Photosynth Res

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“…3). The ion pair state is energetically accessible through the singlet excited state but probably not through the triplet excited state (Fujita et al, 1978;Seely, 1978). To account for the low quantum yield, one need only assume that most of the time ion pairs decay by reverse electron transfer to the ground states of both molecules (Eq.…”

Section: Discussionmentioning

confidence: 99%

A REACTION BETWEEN PHEOPHYTIN and CHLOROPHYLL ADSORBED TO POLYETHYLENE‐TETRADECANE PARTICLES*

Seely

Senthilathipan

1985

Photochem & Photobiology

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Abstract— When chlorophyll is adsorbed to polyethylene‐tetradecane particles along with ligating amphiphiles, and pheophytin is present also, a slow but irreversible photobleaching of the chlorophyll is observed in suspensions of the particles in aqueous media. It is suggested that the reaction starts by transfer of an electron from singlet excited chlorophyll to pheophytin and concludes by hydration and reduction of the chlorophyll radical cation.

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“…Thus, neither the optical nor ESR evidence [4, 6,7,24] indicates that the acceptor is a Chl a dimer as earlier proposed [4,8], and in fact it seems much more likely that the acceptor is a monomer as in green bacteria [18]. The absorption difference spectrum would not exclude that the acceptor is pheophytin a [25], but this seems unlikely because of the Em of pheophytin a in vitro [26] and because of its reported absence in photosystem I particles I27].…”

Section: Photoreduction Of Almentioning

confidence: 98%