1. Degreening of the unicellular alga Euglena gracilis: thylakoid composition, room temperature fluorescence spectra and chloroplast morphology.
- Author
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Ferroni, L., Baldisserotto, C., Pantaleoni, L., Fasulo, M. P., Fagioli, P., and Pancaldi, S.
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EUGLENA gracilis , *THYLAKOIDS , *CHLOROPLASTS , *PLASTIDS , *PLANT cells & tissues , *PHOTOSYNTHETIC pigments , *BIOLOGICAL pigments - Abstract
Thylakoid dismantling is one of the most relevant processes occurring when chloroplasts are converted to non-photosynthetically active plastids. The process is well characterised in senescing leaves, but other systems could present different features. In this study, thylakoid dismantling has been analysed in dividing cells of the unicellular alga, Euglena gracilis, cultured in darkness. Changes in photosynthetic pigments and in the abundance of LHC and PSII core proteins (D2 and CP43) showed that: (i) during the 0–24 h interval, the decline in LHCII was faster than that in the PSII core; (ii) during the 24–48 h interval, PSII and LHCII were strongly degraded to nearly the same extent; (iii) in the 48–72 h interval, the PSII core proteins declined markedly, while LHCII was maintained. These changes were accompanied by variations in room temperature fluorescence emission spectra recorded from single living cells with a microspectrofluorimeter (excitation, 436 nm; range 620–780 nm). Emission in the 700–715 nm range was proposed to derive from LHCI-II assemblages; changes in emission at 678 nm relative to PSII matched PSII core degradation phases. Overall, the results suggest that, in degreening E. gracilis, thylakoid dismantling is somewhat different from that associated with senescence, because of the early loss of LHCII. Moreover, it is proposed that, in this alga, disruption of the correct LHCI-II stoichiometry alters the energy transfer to photosystems and destabilises membrane appression leading to the thylakoid destacking observed using transmission electron microscopy. [ABSTRACT FROM AUTHOR]
- Published
- 2009
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