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Expression of genes coding for sugar transporters and sugar metabolizing enzymes during dynamic fructan metabolism in chicory (Cichorium intybus L.).

Created on 11 Jul 2026

Authors

Fatemeh Mohammadi, Frank Reinhardt, Meerim Arystanbek Kyzy, Melissa Meinert, Ruth Wartenberg, Leo Bellin, Isabel Keller, H Ekkehard Neuhaus

Published in

Journal of plant physiology. Volume 324. Pages 154839. Jul 03, 2026. Epub Jul 03, 2026.

Abstract

Carbohydrate partitioning and intracellular sugar transport are central to plant energy management, stress adaptation, and storage metabolism. In fructan-accumulating species such as Cichorium intybus, however, the underlying transport processes remain poorly understood. Because fructan metabolism occurs in the vacuole, coordinated regulation of tonoplast transporters and fructan-metabolizing enzymes is required to control sugar fluxes across the vacuolar membrane. Here, we analyzed the expression of genes encoding sugar transporters, including TSTs, ERDL6, SUC4, SWEETs, and SUT1, during vegetative growth, cold stress, and flowering, together with key genes involved in fructan metabolism. The predicted sucrose transporter CiTST2.1 was consistently upregulated and showed expression patterns closely associated with fructan biosynthetic genes. Their vacuolar localization and sucrose-transport activity of CiTST2.1 and CiTST2.2 were experimentally confirmed. Notably, CiTST2.1 expression closely paralleled that of the vacuolar hexose exporters CiERDL6.1 and CiERDL6.2, providing now a mechanistic framework for sugar fluxes across the tonoplast during fructan accumulation in the vegetative growth phase. In contrast, cold exposure and floral transition induced the expression of genes associated with fructan degradation (1-FEH I and II) and sucrose allocation (SWEET16, SUC4, and SUT1) in roots, suggesting carbon remobilization to support reproductive sink tissues. Together, these findings reveal the coordinated regulation of sugar transport and fructan metabolism underlying fructan accumulation and remobilization in chicory roots across developmental and environmental transitions.

PMID:
42430814
Bibliographic data and abstract were imported from PubMed on 11 Jul 2026.

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