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Transcript abundance supercedes editing efficiency as a factor in developmental variation of chloroplast gene expression

Published online by Cambridge University Press:  24 April 2002

NEMO M. PEETERS
Affiliation:
Department of Molecular Biology and Genetics, Cornell University, Ithaca, New York 14853-2703, USA
MAUREEN R. HANSON
Affiliation:
Department of Molecular Biology and Genetics, Cornell University, Ithaca, New York 14853-2703, USA
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Abstract

In maize plastids, transcripts are known to be modified at 27 C-to-U RNA editing sites, affecting the expression of 15 different genes. The relative contribution of editing efficiency versus transcript abundance in regulation of chloroplast gene expression has previously been analyzed for only a few genes. We undertook a comprehensive analysis of the editing efficiency of each of the 27 maize editing sites in 10 different maize tissues, which contain a range of plastid types including chloroplasts, etioplasts, and amyloplasts. Using a reproducible poisoned primer extension assay, we detected variation between RNA editing extent of different sites in the same transcript in the same tissue, and between the same site in different tissues. The most striking editing deficiency is in an editing site in ndhB that is edited at only 8% and 1% in roots and callus plastids respectively, whereas green leaf chloroplasts edit this site at 100%. Editing efficiencies of some sites are not affected by the developmental stages we examined and are always edited close to 80–100%. The relative amounts of transcripts of each of the 10 genes that exhibited variable editing extents were determined by real-time PCR. Seven genes exhibited over 100 times lower transcript abundance in either roots or tissue-cultured cells relative to green leaf tissue. The quantitative analysis indicates that a particular editing site can be efficiently edited over a large range of transcript abundance, resulting in no general correlation of transcript abundance and editing extent. The independent variation of editing efficiency of different sites within the same transcript fits with a model that postulates individual trans-acting factors specific to each editing site. Because tissues where editing efficiency at certain sites is low invariably also exhibited greatly decreased abundance of the transcripts carrying those sites, decrease in the amounts of particular RNAs rather than a lack of editing is predicted to have the most significant impact on gene expression under steady-state conditions. Our data is consistent with the hypothesis that the role of editing in angiosperm plastids is to correct otherwise detrimental mutations rather than to generate significant protein diversity.

Type
Research Article
Copyright
2002 RNA Society

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