Fibrillin Influence on Plastid Ultrastructure and Pigment Content in Tomato Fruit

Overview

Journal Phytochemistry

Publisher Elsevier

Specialties Biochemistry
Biology
Chemistry

Date 2007 May 1

PMID 17466343

Citations 56

Authors

Andrew J Simkin

Joel Gaffe

Jean-Pierre Alcaraz

Jean-Pierre Carde

Peter M Bramley

Paul D Fraser

Marcel Kuntz

Affiliations

Soon will be listed here.

Abstract

The protein termed fibrillin is involved in the formation of lipoprotein structures, such as plastoglobules and fibrils in certain chromoplast types, which have been implicated in the over-production of pigments due to a sink effect. In order to examine its effect in differentiating chromoplasts of a non-fibrillar type, the pepper fibrillin gene was expressed in tomato fruit. Both the transcript and protein were found to accumulate during tomato fruit ripening from an early mature green stage. However, formation of carotenoid deposition structures in tomato chromoplasts, such as fibrils, was not observed. Nevertheless, a two-fold increase in carotenoid content and associated carotenoid derived flavour volatiles (6-methyl-5-hepten-2-one, geranylacetone, beta-ionone and beta-cyclocitral) was observed. An unexpected phenotypic observation in the transgenic fruit was the delayed loss of thylakoids in differentiating chromoplasts, leading to the transient formation of plastids exhibiting a typical chromoplastic zone adjacent to a protected chloroplastic zone with preserved thylakoids. An in vitro assay has been developed to monitor fibrillin activity on thylakoids: data were obtained suggesting a membrane protection role for fibrillin, more specifically against moderate uncoupling effects.

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