Assessment of Sugar Components and Genes Involved in the Regulation of Sucrose Accumulation in Peach Fruit

Overview

Journal J Agric Food Chem

Specialties Chemistry
Nutritional Sciences

Date 2016 Aug 19

PMID 27537219

Citations 31

Authors

Sornkanok Vimolmangkang

Hongyu Zheng

Qian Peng

Quan Jiang

Huiliang Wang

Ting Fang

Liao Liao

Lu Wang

Huaping He

Yuepeng Han

Affiliations

Soon will be listed here.

Abstract

Soluble sugar contents in mature fruits of 45 peach accessions were quantified using gas chromatography analysis. Sucrose is the predominant sugar in mature fruit, followed by glucose and fructose, which have similar concentrations. Overall, sucrose metabolism and accumulation are crucial determinants of sugar content in peach fruit, and there is a wide range of sucrose concentrations among peach genotypes. To understand the mechanisms regulating sucrose accumulation in peach fruit, expression profiles of genes involved in sucrose metabolism and transport were compared among four genotypes. Two sucrose-cleaving enzyme genes (SUS4 and NINV8), one gene involved in sucrose resynthesis (SPS3), and three sugar transporter genes (SUT2, SUT4, and TMT2) were prevalently expressed in peach fruit, and their expression levels are significantly correlated with sucrose accumulation. In contrast, the VAINV genes responsible for sucrose cleavage in the vacuole were weakly expressed in mature fruit, suggesting that the sucrose-cleaving reaction is not active in the vacuole of sink cells of mature peach fruit. This study suggests that sucrose accumulation in peach fruit involves the coordinated interaction of genes related to sucrose cleavage, resynthesis, and transport, which could be helpful for future peach breeding.

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