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A study of molecular interactions in light-harvesting complexes LHCIIb, CP29, CP26 and CP24 by Stark effect spectroscopy
Authors:Dorota Olszó  wka,Waldemar Maksymiec
Affiliation:a Institute of Physics, Maria Curie-Sk?odowska University, P1. M. Curie-Sk?odowskiej 1, 20-031 Lublin, Poland
b Institute of Biology, Maria Curie-Sk?odowska University, 20-031 Lublin, Poland
Abstract:Electric field-induced absorption changes (electrochromism or Stark effect) of the light-harvesting PSII pigment-protein complexes LHCIIb, CP29, CP26 and CP24 were investigated. The results indicate the lack of strong intermolecular interactions in the chlorophyll a (Chl a) pools of all complexes. Characteristic features occur in the electronic spectrum of Chl b, which reflect the increased values of dipole moment and polarizability differences between the ground and excited states of interacting pigment systems. The strong Stark signal recorded for LHCIIb at 650-655 nm is much weaker in CP29, where it is replaced by a unique Stark band at 639 nm. Electrochromism of Chl b in CP26 and CP24 is significantly weaker but increased electrochromic parameters were also noticed for the Chl b transition at 650 nm. The spectra in the blue region are dominated by xanthophylls. The differences in Stark spectra of Chl b are linked to differences in pigment content and organization in individual complexes and point to the possibility of electron exchange interactions between energetically similar and closely spaced Chl b molecules.
Keywords:Light-harvesting   Pigment-protein   Chlorophyll   Photosystem II   Stark spectroscopy   Exciton coupling
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