Comparative transcriptome analysis reveals a global insight into molecular processes regulating citrate accumulation in sweet orange (Citrus sinensis)

Publication Overview
TitleComparative transcriptome analysis reveals a global insight into molecular processes regulating citrate accumulation in sweet orange (Citrus sinensis)
AuthorsLu X, Cao X, Li F, Li J, Xiong J, Long G, Cao S, Xie S
TypeJournal Article
Journal NamePhysiologia plantarum
Year2016
CitationLu X, Cao X, Li F, Li J, Xiong J, Long G, Cao S, Xie S. Comparative transcriptome analysis reveals a global insight into molecular processes regulating citrate accumulation in sweet orange (Citrus sinensis). Physiologia plantarum. 2016 Aug 10.

Abstract

Citrate, the predominant organic acid in citrus, determines the taste of these fruits. However, little is known about the synergic molecular processes regulating citrate accumulation. Using 'Dahongtiancheng' (Citrus sinensis) and 'Bingtangcheng' (C. sinensis) with significant difference in citrate, the objectives of this study were to understand the global mechanisms of high-citrate accumulation in sweet orange. 'Dahongtiancheng' and 'Bingtangcheng' exhibit significantly different patterns in citrate accumulation throughout fruit development, with the largest differences observed at 50 to 70 days after full bloom (DAFB). Comparative transcriptome profiling was performed for the endocarps of both cultivars at 50 and 70 DAFB. Over 34.5 million clean reads per library were successfully mapped to the reference database and 670 to 2630 differentially expressed genes were found in four libraries. Among the genes, five transcription factors were ascertained to be the candidates regulating citrate accumulation. Functional assignments of the differentially expressed genes indicated that photosynthesis, the citrate cycle, and amino acid metabolism were significantly altered in 'Dahongtiancheng'. Physiological and molecular analyses suggested that high photosynthetic efficiency and partial impairment of citrate catabolism were crucial for the high-citrate trait, and amino acid biosynthesis was one of the important directions for citrate flux. The results reveal a global insight into the gene expression changes in a high-citrate compared with a low-citrate sweet orange. High accumulating efficiency and impaired degradation of citrate may be associated with the high-citrate trait of 'Dahongtiancheng'. Findings in the present work increase understanding of the molecular processes regulating citrate accumulation in sweet orange.

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Additional details for this publication include:
Property NameValue
Publication ModelPrint-Electronic
ISSN1399-3054
eISSN1399-3054
Publication Date2016 Aug 10
Journal AbbreviationPhysiol Plant
Elocation10.1111/ppl.12484
CopyrightThis article is protected by copyright. All rights reserved.
LanguageEnglish
Language AbbrENG
Publication TypeJournal Article