Study on the formation mechanism of color and flavor during the processing of Polygonatum cyrtonema Hua (PCH)
Zhen Wang, Jin Xie, Mengshan Sun, An Liu, Li Zhou, Ye Yuan, Liu Cai, Rui Xu, Rong Song, José Alvarez-Suarez, José Alvarez-Suarez, José Alvarez-Suarez, José Alvarez-Suarez

TL;DR
This study explains how color and flavor develop in Polygonatum cyrtonema Hua during processing, showing that caramelization, not the Maillard reaction, is the main driver.
Contribution
The study challenges the traditional view by proving that caramelization, not the Maillard reaction, primarily drives color and flavor formation in PCH processing.
Findings
Caramelization marker 5-HMF strongly correlates with browning (r = 0.96), while Maillard marker CML shows weak correlation (r = 0.50).
Fructose accumulation and amino acid reduction favor caramelization over Maillard reactions in later processing stages.
Oxygen-containing heterocyclic compounds, linked to 5-HMF, are the main contributors to PCH's flavor.
Abstract
This study elucidated the formation mechanism of color and flavor in Polygonatum cyrtonema Hua (PCH) processing, corrected the traditional view that the Maillard reaction dominated, and verified the effects of processing on PCH’s pharmacological activity and safety. Key parameters were monitored through colorimetric reactions and HPLC analysis during processing. Metabolic variations were analyzed by LC-MS, and volatile flavor compounds were examined via HS-SPME-GCMS. Antioxidant activity was assessed using DPPH and ABTS methods, and anti – aging efficacy was evaluated with a UVB-induced senescence model of HaCaT cells. The relationship between components and color/flavor profiles was explored through correlation analysis. The correlation coefficient between caramelization marker 5 – HMF and browning degree reached 0.96, much higher than that of Maillard marker CML (0.50). 5 – HMF…
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Taxonomy
TopicsPolysaccharides and Plant Cell Walls · Postharvest Quality and Shelf Life Management · Polysaccharides Composition and Applications
