期刊
BIOCHIMICA ET BIOPHYSICA ACTA-BIOENERGETICS
卷 1837, 期 6, 页码 734-743出版社
ELSEVIER SCIENCE BV
DOI: 10.1016/j.bbabio.2014.01.012
关键词
Chromera velia; Chromatic adaptation; Red-shifted chlorophyll; Light-harvesting complex; Photosystem II; Non-photochemical quenching
资金
- Photosynthesis Research Center [GACR P501/12/G055]
- Czech Science Foundation
- project Algatech [CZ.1.05/2.1.00/03.0110]
- [GAJU 134/2010/P]
Chromera velia is an alveolate alga associated with scleractinian corals. Here we present detailed work on chromatic adaptation in C velia cultured under either blue or red light. Growth of C velia under red light induced the accumulation of a light harvesting antenna complex exhibiting unusual spectroscopic properties with red-shifted absorption and atypical 710 nm fluorescence emission at room temperature. Due to these characteristic features the complex was designated Red-shifted Chromera light harvesting complex (Red-CLH complex). Its detailed biochemical survey is described in the accompanying paper (Bina et al. 2013, this issue). Here, we show that the accumulation of Red-CLH complex under red light represents a slow acclimation process (days) that is reversible with much faster kinetics (hours) under blue light. This chromatic adaptation allows C. velia to maintain all important parameters of photosynthesis constant under both light colors. We further demonstrated that the C velia Red-CLH complex is assembled from a 17 kDa antenna protein and is functionally connected to photosystem II as it shows variability of chlorophyll fluorescence. Red-CLH also serves as an additional locus for non-photochemical quenching. Although overall rates of oxygen evolution and carbon fixation were similar for both blue and red light conditions, the presence of Red-CLH in C velia cells increases the light harvesting potential of photosystem II, which manifested as a doubled oxygen evolution rate at illumination above 695 nm. This data demonstrates a remarkable long-term remodeling of C velia light-harvesting system according to light quality and suggests physiological significance of 'red' antenna complexes. (C) 2014 Elsevier B.V. All rights reserved.
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