Comparative Study of Volatile Compounds and Expression of Related Genes in Fruit from Two Apple Cultivars during Different Developmental Stages.

Shuaishuai Feng,Chengtai Yan,Hua Gao,Miaomiao Ji,Ru Tao,Tianhao Zhang

doi:10.3390/molecules26061553

Shuaishuai Feng, Chengtai Yan + Show 4 more

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https://doi.org/10.3390/molecules26061553

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Abstract

Aromatic volatile compounds are important contributors to fruit quality that vary among different cultivars. Herein, headspace solid-phase microextraction coupled with gas chromatography-mass spectrometry was used to determine changes in volatile compounds and related gene expression patterns in “Ruixue” and “Fuji” apples (Malus domestica Borkh.) during fruit development and maturation. Volatile compounds detected in the fruit of both cultivars exhibited similar trends across different developmental stages. In the early stages of “Ruixue” fruit development (60 days after full bloom), there were fewer volatile compounds, mainly aldehydes (87.0%). During fruit maturation (180 days after full bloom), the types and amounts of volatile compounds increased, mainly including esters (37.6%), and alkenes (23.2%). The total volatile concentration, the types of major volatile compounds, and their relative content in both cultivars varied across different stages. Gene expression analysis indicated that the upregulation of MdLOX, MdAAT2, and MdADH3 was associated with increased aroma compound content, especially esters, during fruit development in both cultivars. Changes in the expression of MdArAT, MdACPD, MdADH3, MdAAT2, and MdLOX may lead to differences in volatile compounds between apple cultivars.

Highlights

Apple (Malus domestica Borkh.) is one of the most popular fruits worldwide, renowned for nutritional and taste quality, and high economic value
We observed that soluble solid content, sugar:acid ratio, and total volatile concentration all increased with fruit development, while acidity decreased gradually in both “Fuji” and “Ruixue” apple cultivars
Based on RT-qPCR data, we explored the possible mechanisms underpinning the differences in aromatic volatile compounds between apple cultivars and the key factors affecting aroma synthesis in apple fruit

Summary

Introduction

Apple (Malus domestica Borkh.) is one of the most popular fruits worldwide, renowned for nutritional and taste quality, and high economic value. The quality of apple fruit is valued by consumers. The process of apple fruit development is regulated by multiple biochemical factors that affect the color, texture, flavor, and nutrition of fruit [1,2]. Aromatic volatile compounds are among the key factors that determine the fruit quality [3]. More than 300 volatile compounds have been reported in apple fruit [4], mainly including aldehydes, esters, alcohols, alkenes, and ketones. Evidence suggests that the greatest contribution to apple sweetness is made by several volatile compounds, primarily esters [5]

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