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IN BRIEF

Regulation of Plastid Gene Expression in the Chloroplast-to-Chromoplast Transition

Science Editor

nhofmann{at}aspb.org

Plastid biogenesis and differentiation requires coordinated expression of genes encoded in the nuclear and plastid genomes. Knowledge about the regulation of expression in the plastid genome (or plastome) is central to improving our understanding of these processes (reviewed in López-Juez, 2007). The conversion of chloroplasts into carotenoid-accumulating chromoplasts is a hallmark of tomato fruit ripening and an excellent system for the study of plastid differentiation. In chloroplasts, much of the regulation appears to occur at the posttranscriptional level (reviewed in Choquet and Wollman, 2002). Regulation of gene expression during the development of non-green plastids is less well understood.

Kahlau and Bock (pages 856–874) created a microarray representing the tomato plastome to explore the developmental regulation of plastid gene expression. They found that transcript levels for most genes were much lower in green tomato fruits than in leaves but were not further changed during fruit ripening. For most genes, the amount of transcript associated with polysomes (representing active translation) was also drastically lower in fruits than in leaves. In contrast with mRNA levels, which remained steady, mRNA translation continued to decrease throughout fruit ripening. Together, these results suggest that there is regulation of chloroplast transcript accumulation upon the initiation of the fruit developmental program but that translational regulation is the key component of the subsequent chloroplast-to-chromoplast transition.

The exceptions to these global patterns of downregulation were a small number of genes involved in gene expression and one other protein-coding gene, accD, which is the only plastid gene involved in fatty acid synthesis (see figure ). Therefore, it appears that chromoplasts retain minimal expression activity to allow the synthesis of the fatty acids needed for carotenoid accumulation.

View larger version (52K): [in this window] [in a new window] [as a PowerPoint slide]   Chromoplast gene expression largely serves the production of a single protein. Most plastid genes were strongly downregulated during tomato fruit ripening, similar to the data shown for the photosynthetic gene psbD. By contrast, amounts of accD transcripts, encoding a subunit of acetyl-CoA carboxylase, increase during ripening. Panels show blots of RNA from leaves and ripening fruit probed with psbD (left) and accD (right), with loading controls shown below.

This work provides valuable information about the global patterns of plastome gene expression in tomato fruit. It also illustrates the importance of studying these processes in a variety of tissues and plastid types.

Footnotes

www.plantcell.org/cgi/doi/10.1105/tpc.108.200413

REFERENCES

Choquet, Y., and Wollman, F.-A. (2002). Translational regulations as specific traits of chloroplast gene expression. FEBS Lett. 529: 39–42.[CrossRef][ISI][Medline]

Kahlau, S., and Bock, R. (2008). Plastid transcriptomics and translatomics of tomato fruit development and chloroplast-to-chromoplast differentiation: Chromoplast gene expression largely serves the production of a single protein. Plant Cell 20: 856–874.[Abstract/Free Full Text]

López-Juez, E. (2007). Plastid biogenesis, between light and shadows. J. Exp. Bot. 58: 11–26.[Abstract/Free Full Text]

Related articles in Plant Cell:

Plastid Transcriptomics and Translatomics of Tomato Fruit Development and Chloroplast-to-Chromoplast Differentiation: Chromoplast Gene Expression Largely Serves the Production of a Single Protein

Sabine Kahlau and Ralph Bock
Plant Cell 2008 20: 856-874. [Abstract] [Full Text]  

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