Abstract

Strigolactones (SLs) are recently identified plant hormones that inhibit shoot branching and control various aspects of plant growth, development and interaction with parasites. Previous studies have shown that plant D10 protein is a carotenoid cleavage dioxygenase that functions in SL biosynthesis. In this work, we used an allelic SL-deficient d10 mutant XJC of rice (Oryza sativa L. spp. indica) to investigate proteins that were responsive to SL treatment. When grown in darkness, d10 mutant seedlings exhibited elongated mesocotyl that could be rescued by exogenous application of SLs. Soluble protein extracts were prepared from d10 mutant seedlings grown in darkness in the presence of GR24, a synthetic SL analog. Soluble proteins were separated on two-dimensional gels and subjected to proteomic analysis. Proteins that were expressed differentially and phosphoproteins whose phosphorylation status changed in response to GR24 treatment were identified. Eight proteins were found to be induced or down-regulated by GR24, and a different set of 8 phosphoproteins were shown to change their phosphorylation intensities in the dark-grown d10 seedlings in response to GR24 treatment. Analysis of these proteins revealed that they are important enzymes of the carbohydrate and amino acid metabolic pathways and key components of the cellular energy generation machinery. These proteins may represent potential targets of the SL signaling pathway. This study provides new insight into the complex and negative regulatory mechanism by which SLs control shoot branching and plant development.

Highlights

  • Strigolactones, a group of carotenoid-derived terpenoid lactones, are recently identified endogenous plant hormones that inhibit shoot branching [1,2]

  • Rescue of the tillering phenotype in XJC by GR24 D10 gene expression is controlled by feedback regulation [4], indicating that the level of D10 mRNA accumulation might be a critical step in the regulation of SL biosynthesis

  • Quantitative real-time reverse transcription-PCR analysis confirms the dramatic upregulation of D10 expression in XJC compared to that in the wild type GC13 [46]

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Summary

Introduction

Strigolactones, a group of carotenoid-derived terpenoid lactones, are recently identified endogenous plant hormones that inhibit shoot branching [1,2]. Remarkable progress has been made in understanding the molecular basis of shoot branching through studies of a series of increased branching mutants in the SL pathway, including more axillary growth (max) of Arabidopsis, ramosus (rms) of pea (Pisum sativum), decreased apical dominance (dad) of petunia (Petunia hybrida), and dwarf (d) or high-tillering dwarf (htd) of rice [3,4,5,7,8,9,10,11,12,13,14,15,16,17,18,19,20]. D17/HTD1 encodes a carotenoid cleavage dioxygenase 7 (OsCCD7) that cleaves 9-cis-b-carotene into a 9-cis-configured aldehyde. D10 encodes another type of carotenoid cleavege dioxygenase (OsCCD8b) that incorporates three oxygens into 9-

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