Comprehensive characterization and expression analysis of enzymatic antioxidant gene families in passion fruit (Passiflora edulis)

Passion fruit, a valuable tropical fruit, faces climate-related growth challenges. Antioxidant enzymes are vital for both stress protection and growth regulation in plants. We first provided systemic analysis of enzymatic antioxidant gene families in passion fruit, identifying 90 members including 1...

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Bibliographic Details
Published in:iScience 2023-11, Vol.26 (11), p.108329-108329, Article 108329
Main Authors: Liang, Jianxiang, Lu, Lin, Zhang, Wenbin, Chi, Ming, Shen, Mengqian, An, Chang, Chen, Shengzhen, Wang, Xiaomei, Liu, Ruoyu, Qin, Yuan, Zheng, Ping
Format: Article
Language:English
Subjects:
Genomics
Plant development
Plant physiology
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Summary:Passion fruit, a valuable tropical fruit, faces climate-related growth challenges. Antioxidant enzymes are vital for both stress protection and growth regulation in plants. We first provided systemic analysis of enzymatic antioxidant gene families in passion fruit, identifying 90 members including 11 PeSODs, 45 PeAPXs, 8 PeCATs, 7 PeGPXs, 6 PeMDHARs, 8 PeDHARs, and 5 PeGRs. Gene members in each gene family with same subcellular localization showed closer phylogenetic relationship. Many antioxidant genes exhibited tissue- or developmental stage-specific expression patterns during floral and fruit development, with some widely expressed. Their co-expressed genes were linked to photosynthesis and energy metabolism, suggesting roles in protecting highly proliferating tissues from oxidative damage. Potential genes for enhancing temperature stress resistance were identified. The involvement of diverse regulatory factors including miRNAs, transcription factors, and CREs might contribute to the complex roles of antioxidant genes. This study informs future research on antioxidant genes and passion fruit breeding. [Display omitted] •Found 11 SODs, 45 APXs, 8 CATs, 7 GPXs, 6 MDHARs, 8 DHARs, 5 GRs in passion fruit•Genes with same subcellular localization showed closer phylogenetic relationship•Highly expressed gene in growing flower/fruit may protect against oxidative damage•Identified candidates for enhancing passion fruit’s temperature stress resistance Plant physiology; Plant development; Genomics
ISSN:2589-0042
2589-0042
DOI:10.1016/j.isci.2023.108329