Three metabolic pathways are responsible for the accumulation and maintenance of high AsA content in kiwifruit (Actinidia eriantha)

Guanglian Liao,Xiaobiao Xu,Xishi Li,Chunhui Huang,Min Zhong,Shuyao Yi,Dongfeng Jia,Xueyan Qu,Lu Chen,Yanqun He,Zhengxin Lv

doi:10.1186/s12864-020-07311-5

Guanglian Liao, Xiaobiao Xu + Show 9 more

Open Access

https://doi.org/10.1186/s12864-020-07311-5

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Abstract

BackgroundActinidia eriantha is a precious material to study the metabolism and regulation of ascorbic acid (AsA) because of its high AsA content. Although the pathway of AsA biosynthesis in kiwifruit has been identified, the mechanism of AsA metabolism and regulation is still unclear. The purpose of this experiment is to reveal the AsA metabolic characteristics of A. eriantha ‘Ganmi 6’ from the molecular level, and lay a theoretical foundation for the research on the genetic improvement of kiwifruit quality.ResultsWe found that AsA reached the accumulation peak at S7 (110 DAF) during the process of fruit growth and development. The activity of GalDH, GalLDH, MDHAR and DHAR in fruit was similar to AsA accumulation trend, and both of them were significantly positively correlated with AsA content. It was speculated that GalDH and GalLDH were key enzymes in AsA biosynthesis, while MDHAR and DHAR were key enzymes in AsA regeneration cycle, which together regulated AsA accumulation in fruit. Also, we identified 98,656 unigenes with an average length of 932 bp from the transcriptome libraries using RNA-seq technology after data assembly. There were 50,184 (50.87%) unigenes annotations in four databases. Two thousand nine hundred forty-nine unigenes were enriched into the biosynthesis pathway of secondary metabolites, among which 133 unigenes involved in the AsA and aldehyde metabolism pathways, and 23 candidate genes related to AsA biosynthesis, cycling and degradation were screened out.ConclusionsConsidering gene expression levels and changes of physiological traits and related enzyme activity, we concluded that the accumulation of AsA depends mainly on the L-galactose pathway, and the D-galacturonic acid pathway and AsA recycling pathway as the secondary pathways, which co-maintain the high AsA content in fruit of A. eriantha.

Highlights

Actinidia eriantha is a precious material to study the metabolism and regulation of ascorbic acid (AsA) because of its high AsA content
AsA content was determined, it was found that AsA began to accumulate and its content increased at the early stage of fruit development, reached the first peak of AsA accumulation at S2 (7.56 mg·g− 1)
The activity of galactose dehydrogenase (GalDH), GalLDH, MDHAR and dehydroascorbate reductase (DHAR) in fruit was similar to AsA accumulation trend, and these enzymes were significantly positively correlated with AsA content

Summary

Introduction

Actinidia eriantha is a precious material to study the metabolism and regulation of ascorbic acid (AsA) because of its high AsA content. The pathway of AsA biosynthesis in kiwifruit has been identified, the mechanism of AsA metabolism and regulation is still unclear. Ascorbic acid (AsA) is one of the antioxidants abundant in plant tissues. It is involves in plant cell oxidation, photosynthesis protection, cell division, growth and signal transduction, and plays a crucial role in plant development and abiotic stress tolerance [1]. Kiwifruit is an excellent material for studying the metabolism of AsA. In the process of plant growth, AsA accumulation is mainly regulated by biosynthesis, cycling and degradation. Structural genes and many factors (such as light, temperature, ozone, hormones and regulatory factors) can regulate the accumulation of AsA [7]

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