Room temperature microspectrofluorimetry as a useful tool for studying the assembly of the PSII chlorophyll-protein complexes in single living cells of etiolated Euglena gracilis Klebs during the greening process

doi:10.1093/jxb/erf031

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Journal of Experimental Botany, Vol. 53, No. 375, pp. 1753-1763, August 1, 2002
© 2002 Oxford University Press

Room temperature microspectrofluorimetry as a useful tool for studying the assembly of the PSII chlorophyll–protein complexes in single living cells of etiolated Euglena gracilis Klebs during the greening process

Received 21 September 2001; Accepted 29 April 2002

Simonetta Pancaldi, Costanza Baldisserotto, Lorenzo Ferroni, Angelo Bonora and Maria Palmira Fasulo¹^,

Dipartimento delle Risorse Naturali e Culturali, University of Ferrara, C.so Porta Mare, 2, I-44100 Ferrara, Italy

¹To whom correspondence should be addressed. Fax: +39 0532 208561. E-mail: fsm{at}dns.unife.it

The assembly kinetics of the PSII chlorophyll–proteincomplexes was followed during the greening of Euglena gracilisby microspectrofluorimetry in vivo, at room temperature, onsingle living cells. The study was correlated to micro- andsubmicroscopic events accompanying the proplastid to chloroplasttransformation and with the immunolocalization of the LHCPII.Etiolated cells of Euglena gracilis were grown in darkness inMego’s heterotrophic liquid medium under shaking at 25±1°C. At the stationary phase of growth, they were exposedto continuous light (330 µmol m^–2 s^–1) for72 h. The analyses were carried out on samples collected atdifferent times of illumination. Microspectrofluorimetric datawere recorded in the 620–780 nm range (excitation at 436nm) and were resolved into Gaussian components correspondingto the reaction centres (RCII) and the inner antennae (CP_43–47)of the PSII and LHCPII. From the RCII/CP_43–47 and LHCPII/PSIIratios, it was inferred that (1) a disconnection between RCIIand CP_43–47 syntheses occurs during the lag phase of chloroplastdifferentiation, RCII being synthesized before the inner antennae.This results in the accumulation of uncoupled PSII Chl–proteincomplexes; (2) after lag phase, the RCII and CP_43–47 synthesesare connected one to another; (3) the freshly synthesized LHCPIIcomplexes are immediately assembled with the PSII, suggestingthat the outer antennae always maintain the form bound to PSII.Micro- and submicroscopical observations and LHCPII immunolocalizationwere in agreement. These data suggest that microspectrofluorimetrymay constitute a useful non-destructive tool for studying theassembly kinetics of PSII, under fully physiological life conditions.

Key words: Key words: Euglena gracilis, greening, microspectro fluorimetry, PSII assembly.

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