Carotenoid and ultrastructure variations in plastids of Arum italicum Miller fruit during maturation and ripening

doi:10.1093/jexbot/51.346.873

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Journal of Experimental Botany, Vol. 51, No. 346, pp. 873-884, May 2000
© 2000 Oxford University Press

Carotenoid and ultrastructure variations in plastids of Arum italicum Miller fruit during maturation and ripening

Angelo Bonora, Simonetta Pancaldi, Rita Gualandri and Maria Palmira Fasulo¹

Department of Biology, Section of Botany, University of Ferrara, C.so Porta Mare, 2, I–44100 Ferrara, Italy

The changes in the pigment pattern and composition occurringin the Arum italicum berry during the various steps of maturation(ivory to deep-green stages) and ripening (yellow and red-orangestages) were studied and correlated to the ultrastructural modificationsof plastids. Transmission electron microscopy showed that eachstage was characterized by a specific plastidial type followingthe unusual sequence amyloplast $->$ chloroplast $->$ chromoplast. Plastidialtransitions were accompanied by profound modifications in thepigmental composition, in particular, in the pattern of carotenoidsand their precursors. The HPLC analysis of the carotenoids showedthat, besides the two usual all-trans metabolic pathways leadingto lutein through ${alpha}$ -carotene and to auroxanthin through ß-carotene,an additional cis-isomeric biosynthetic pathway leading to cis-neoxanthinthrough cis-ß-carotene exists. During the pre-ripeningstages, the three pathways were present even if with qualitativeand quantitative variations. When complete ripening was reached,a block occurred at the cyclization level causing the accumulationof both all-trans (i.e. ${gamma}$ -carotene and neurosporene) and cis-isomer(i.e. lycopene and ${zeta}$ -carotene) carotene precursors. Because ofthe occurrence of unusual pigments and the presence of the threemain plastidial types, the fruit of A. italicum may constitutea most instructive model for the study of carotenogenesis.

Key words: Arum italicum Miller, carotenoid pattern, chromoplasts, fruit maturation and ripening, plastid ultrastructure.

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