Issue 49, 2022, Issue in Progress

Evidence for reversible light-dependent transitions in the photosynthetic pigments of diatoms

Abstract

Marine diatoms contribute to oxygenic photosynthesis and carbon fixation and handle large changes under variable light intensity on a regular basis. The unique light-harvesting apparatus of diatoms are the fucoxanthin–chlorophyll a/c-binding proteins (FCPs). Here, we show the enhancement of chlorophyll a/c (Chl a/c), fucoxanthin (Fx), and diadinoxanthin (Dd) marker bands in the Raman spectra of the centric diatom T. pseudonana, which allows distinction of the pigment content in the cells grown under low- (LL) and high-light (HL) intensity at room temperature. Reversible LL–HL dependent conformations of Chl c, characteristic of two conformations of the porphyrin macrocycle, and the presence of five- and six-coordinated Chl a/c with weak axial ligands are observed in the Raman data. Under HL the energy transfer from Chl c to Chl a is reduced and that from the red-shifted Fxs is minimal. Therefore, Chl c and the blue-shifted Fxs are the only contributors to the energy transfer pathways under HL and the blue- to red-shifted Fxs energy transfer pathway characteristic of the LL is inactive. The results indicate that T. pseudonana can redirect its function from light harvesting to energy-quenching state, and reversibly to light-harvesting upon subsequent illumination to LL by reproducing the red-shifted Fxs and decrease the number of Dds. The LL to HL reversible transitions are accompanied by structural modifications of Chl a/c and the lack of the red-shifted Fxs.

Graphical abstract: Evidence for reversible light-dependent transitions in the photosynthetic pigments of diatoms

Supplementary files

Article information

Article type
Paper
Submitted
23 Aug 2022
Accepted
31 Oct 2022
First published
03 Nov 2022
This article is Open Access
Creative Commons BY license

RSC Adv., 2022,12, 31555-31563

Evidence for reversible light-dependent transitions in the photosynthetic pigments of diatoms

C. Tselios and C. Varotsis, RSC Adv., 2022, 12, 31555 DOI: 10.1039/D2RA05284A

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