The phosphoglucan phosphatase like sex four2 dephosphorylates starch at the C3-position in Arabidopsis

Diana Santelia, Oliver Kötting, David Seung, Mario Schubert, Matthias Thalmann, Sylvain Bischof, David A. Meekins, Andy Lutz, Nicola Patron, Matthew S. Gentry, Frédéric H.T. Allain, Samuel C. Zeeman

Research output: Contribution to journalArticlepeer-review

105 Scopus citations

Abstract

Starch contains phosphate covalently bound to the C6-position (70 to 80% of total bound phosphate) and the C3-position (20 to 30%) of the glucosyl residues of the amylopectin fraction. In plants, the transient phosphorylation of starch renders the granule surface more accessible to glucan hydrolyzing enzymes and is required for proper starch degradation. Phosphate also confers desired properties to starch-derived pastes for industrial applications. In Arabidopsis thaliana, the removal of phosphate by the glucan phosphatase Starch Excess4 (SEX4) is essential for starch breakdown. We identified a homolog of SEX4, LSF2 (Like Sex Four2), as a novel enzyme involved in starch metabolism in Arabidopsis chloroplasts. Unlike SEX4, LSF2 does not have a carbohydrate binding module. Nevertheless, it binds to starch and specifically hydrolyzes phosphate from the C3-position. As a consequence, lsf2 mutant starch has elevated levels of C3-bound phosphate. SEX4 can release phosphate from both the C6-and the C3-positions, resulting in partial functional overlap with LSF2. However, compared with sex4 single mutants, the lsf2 sex4 double mutants have a more severe starch-excess phenotype, impaired growth, and a further change in the proportion of C3-and C6-bound phosphate. These findings significantly advance our understanding of the metabolism of phosphate in starch and provide innovative options for tailoring novel starches with improved functionality for industry.

Original languageEnglish
Pages (from-to)4096-4111
Number of pages16
JournalPlant Cell
Volume23
Issue number11
DOIs
StatePublished - Nov 2011

Funding

FundersFunder number
National Institute of Neurological Disorders and StrokeR00NS061803

    ASJC Scopus subject areas

    • Plant Science

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