Biology:P680

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P680, or photosystem II primary donor, is the reaction-center chlorophyll a molecular dimer associated with photosystem II in plants, algae, and cyanobacteria, and central to oxygenic photosynthesis.

Etymology

Its name is derived from the word “pigment” (P) and the presence of a major bleaching band centered around 680-685 nm in the flash-induced absorbance difference spectra of P680/ P680+•.[1]

Components

The structure of P680 consists of a heterodimer of two distinct chlorophyll molecules, referred to as PD1 and PD2. This “special pair” forms an excitonic dimer that functions as a single unit, excited by light energy as if they were a single molecule.[2]

Action and function

Excitation

P680 receives excitation energy either by directly absorbing a photon of suitable frequency or indirectly from other chlorophylls within photosystem II, thereby exciting an electron to a higher energy level. The resulting P680 with a loosened electron is designated as P680*, which is a strong reducing agent.

Charge separation

Following excitation, the loosened electron of P680* is taken up by the primary electron acceptor, a pheophytin molecule located within photosystem II near P680. During this transfer, P680* is ionized and oxidized, producing cationic P680+.

Recovery of P680

P680+ is the strongest biological oxidizing agent known, with an estimated redox potential of ~1.3 V.[3] This makes it possible to oxidize water during oxygenic photosynthesis. P680+ recovers its lost electron by oxidizing water via the oxygen-evolving complex, which regenerates P680.

See also

References

  1. Shigeru Itoh, S; Iwaki, M; Tomo, T; Satoh, K (1996). Dibromothymoquinone (DBMIB) replaces the function of QA at 77 K in the isolated photosystem II reaction center (Dl-D2-cytochrome 6559) complex: Difference spectrum of the P680+ (DBMIB") state. Plant Cell Physiol. 37(6): 833-839.
  2. Raszewski et al. (2008), pp. 105-119.
  3. Rappaport et al. (2002), pp. 8518–8527.

Bibliography