The Medicago truncatula Sucrose Transporter Family: Characterization and Implication of Key Members in Carbon Partitioning towards Arbuscular Mycorrhizal Fungi

被引:75
作者
Doidy, Joan [1 ]
van Tuinen, Diederik [1 ]
Lamotte, Olivier [1 ]
Corneillat, Marion [1 ]
Alcaraz, Gerard [1 ]
Wipf, Daniel [1 ]
机构
[1] Univ Bourgogne, Agrosup, UMR INRA 1347, Pole Interact Plantes Microorganismes ERL CNRS 63, F-21065 Dijon, France
关键词
sugar transport; sucrose transporter; SUT; sugar partitioning; Medicago truncatula; Glomus intraradices; TOMATO SUGAR TRANSPORTER; SIEVE ELEMENTS; GENE FAMILY; MONOSACCHARIDE TRANSPORTER; PHOSPHATE TRANSPORTER; PHLOEM; EXPRESSION; ARABIDOPSIS; ROOTS; TONOPLAST;
D O I
10.1093/mp/sss079
中图分类号
Q5 [生物化学]; Q7 [分子生物学];
学科分类号
071010 ; 081704 ;
摘要
We identified de novo sucrose transporter (SUT) genes involved in long-distance transport of sucrose from photosynthetic source leaves towards sink organs in the model leguminous species Medicago truncatula. The identification and functional analysis of sugar transporters provide key information on mechanisms that underlie carbon partitioning in plant-microorganism interactions. In that way, full-length sequences of the M. truncatula SUT (MtSUT) family were retrieved and biochemical characterization of MtSUT members was performed by heterologous expression in yeast. The MtSUT family now comprises six genes which distribute among Dicotyledonous clades. MtSUT1-1 and MtSUT4-1 are key members in regard to their expression profiles in source leaves and sink roots and were characterized as functional H+/sucrose transporters. Physiological and molecular responses to phosphorus supply and inoculation by the arbuscular mycorrhizal fungus (AMF) Glomus intra radices was studied by gene expression and sugar quantification analyses. Sucrose represents the main sugar transport form in M. truncatula and the expression profiles of MtSUT1-1, MtSUT2, and MtSUT4-1 highlight a fine-tuning regulation for beneficial sugar fluxes towards the fungal symbiont. Taken together, these results suggest distinct functions for proteins from the SUT1, SUT2, and SUT4 clades in plant and in biotrophic interactions.
引用
收藏
页码:1346 / 1358
页数:13
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