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LC-MS/MS reveals variation in bioactive flavonoid profiles and MYB regulatory networks in wild vs. cultivated strawberries (white, pink, red)

类黄酮 MYB公司 白色(突变) 生物 植物 食品科学 基因 遗传学 生物化学 转录因子 抗氧化剂
作者
Mingzheng Duan,Ting Jiang,Xi Wang,Kangjian Song,Xiao Xu,Xiaoting Fu,Shuang‐Hui He,Jieming Feng,Muhammad Junaid Rao,Hengcui Guo
出处
期刊:Lebensmittel-Wissenschaft & Technologie [Elsevier BV]
卷期号:231: 118319-118319 被引量:5
标识
DOI:10.1016/j.lwt.2025.118319
摘要

Strawberries ( Fragaria × ananassa ) are prized for bioactive flavonoids and anthocyanins, contributing to antioxidant capacity and health benefits. However, decades of breeding for yield and shelf-life have eroded their phytochemical diversity. To explore this trade-off, we compared wild strawberries ( Fragaria nilgerrensis , HM) with three cultivated varieties (pink-FY, red-RF, white-DX) using integrated LC-MS/MS metabolomics and transcriptomics. Wild HM strawberries contained twice the vitamin C (134.2 mg/100g), 2.5 × more total flavonoids (138.7 mg/100g), and higher antioxidant activity (367 μg Trolox/g) than commercial varieties. In contrast, red-fruited RF showed abundant anthocyanins (pelargonidin-3-glucoside 6.6 % abundance), while the wild HM genotype accumulated higher levels of flavonoids, with neohesperidin, lonicerin, hyperin and ternatumoside II collectively representing 20.9 % of total flavonoids - concentrations 3–169 times greater than those observed in the three commercial varieties (FY, RF, DX). Transcriptomic analysis (RNA-seq, Illumina HiSeq 2500) revealed distinct MYB transcription factor associations: FxaYL_611g0111200 (MYB66) showed strong positive correlation with anthocyanin biosynthesis in RF (r = 0.92, ∗∗p < 0.005 ), while FxaYL_242g0472670 (MYB44-like) was significantly associated with HM's unique antioxidant flavonoid profile (r = 0.96, ∗∗∗p < 0.0001 ). These regulatory relationships were corroborated by hierarchical clustering demonstrating varietal-specific expression patterns and principal component analysis (82.6 % variance explained), collectively providing molecular targets for enhancing nutritional quality in strawberry breeding programs. • Tetraploid strawberry (HM) exhibit 2.5 × higher flavonoids than octoploid cultivars (FY/RF/DX). • Anthocyanin-rich RF contrasts with HM's flavonoid diversity, revealing trade-offs between pigmentation and stress adaptation. • Candidate MYB genes (e.g., MYB66 , MYB44-like ) correlate with metabolic shifts ( p < 0.005), but functional validation is required. • Wild germplasm offers potential for nutrient-dense breeding, though future studies should investigate environmental interactions. • Findings guide functional food development, with caveats on flavonoid stability across diverse growing environments.
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