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Stabilization and Valorization of Plant Polyphenols: From Biosynthesis Regulation to Processing and Application
Systematic Review June 03, 2026

Stabilization and Valorization of Plant Polyphenols: From Biosynthesis Regulation to Processing and Application

Deep Learning-Based Prediction of Nepal Stock Exchange Movements from Financial News Headlines
Research Article June 18, 2026

Deep Learning-Based Prediction of Nepal Stock Exchange Movements from Financial News Headlines

Audio Signal Classification Using Deep Learning
Research Article June 19, 2026

Audio Signal Classification Using Deep Learning

Machine Learning-Driven Discovery of Novel Lithium-Based Battery Materials
Review Article June 22, 2026

Machine Learning-Driven Discovery of Novel Lithium-Based Battery Materials

Towards Sustainable Fisheries Management in Tunisian Reservoirs: A Stock Assessment Approach
Research Article June 30, 2026

Towards Sustainable Fisheries Management in Tunisian Reservoirs: A Stock Assessment Approach

Intelligent Moisture Control of Biogas in Renewable Energy Systems
Original Article June 29, 2026

Intelligent Moisture Control of Biogas in Renewable Energy Systems

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Published: June 03, 2026 (41d) publication certificate
Stabilization and Valorization of Plant Polyphenols: From Biosynthesis Regulation to Processing and Application Systematic Review

Stabilization and Valorization of Plant Polyphenols: From Biosynthesis Regulation to Processing and Application

Yuna Li1, Guangwei Huang2, Roger Ruan3 and Yanling Cheng*1

Plant polyphenols are ubiquitous secondary metabolites in plants whose antioxidant, anti-inflammatory, antimicrobial, and cardioprotective activities have been systematically elucidated. They exert their physiological functions by scavenging intracellular reactive oxygen species, precisely regulating inflammatory mediators, and inhibiting pathogenic proliferation, exhibiting tremendous application potential in functional foods, biomedicine, and natural cosmetics. However, the inherent chemical instability of polyphenols leads to severe structural degradation and bioactivity loss during extraction, processing, and storage. This manifests not only as detectable content reduction but also as significant "hidden bioactivity loss" without apparent content changes, which has emerged as the core bottleneck restricting their industrial translation. Most existing reviews are limited to single-stage optimizations, and a systematic regulatory framework spanning the entire process of biosynthesis, extraction, and processing has not yet been established. In this narrative critical review, we construct an integrated system for polyphenol content enhancement and stability regulation across the entire value chain from biosynthesis to extraction and processing. We critically elaborate on stress-mediated biosynthetic mechanisms, extraction loss control strategies, and processing stabilization technologies, with the ultimate goal of improving their resource utilization efficiency and advancing the industrial innovation and application of plant polyphenols.