<p>This study investigated the effects of varying concentrations of purslane extract (PE) (0, 0.05, 0.10, 0.15, 0.20, and 0.40&#xa0;mg&#xa0;mL<sup>−1</sup>) on the gelling properties of pork myofibrillar proteins (MPs) under a Fenton oxidation system, with 0.02&#xa0;mg&#xa0;g<sup>−1</sup> BHA as a positive control. Both BHA and PE alleviated the deterioration of gel properties induced by oxidation, as evidenced by suppressed cooking loss, improved water-holding capacity (WHC), and enhanced texture characteristics. Notably, PE at 0.20&#xa0;mg&#xa0;mL<sup>−1</sup> exhibited the most pronounced effects, leading to increased elasticity, cohesiveness, gumminess, and resilience, as well as maximal storage (<i>G</i>′) and loss (<i>G</i>″) modulus. LF-NMR analysis revealed that oxidation promoted the migration of water from immobilized to free states, a trend reversed by BHA and PE. The immobilized water content was significantly higher at 0.20&#xa0;mg&#xa0;mL<sup>−1</sup> PE than in the oxidized and BHA groups (<i>P</i> &lt; 0.05), indicating an improved gel network. Microstructural analysis further confirmed that the addition of 0.20&#xa0;mg&#xa0;mL<sup>−1</sup> PE under oxidative conditions significantly improved the three-dimensional network structure of MPs gels. However, further increasing the PE concentration to 0.40&#xa0;mg&#xa0;mL<sup>−1</sup> deteriorated all gel properties, highlighting a concentration-dependent regulatory effect. Therefore, optimizing PE concentration is critical for practical applications. These findings provide a theoretical basis for using PE as a natural antioxidant in gel-type meat products.</p>

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Effects of Purslane Extract on the Gel Properties of Isolated Porcine Myofibrillar Proteins Under Oxidative Stress

  • Haijun Chang,
  • Yu Huang,
  • Xin Wen,
  • Yuanwei Shi,
  • Wenbin Zhou,
  • Li Wu

摘要

This study investigated the effects of varying concentrations of purslane extract (PE) (0, 0.05, 0.10, 0.15, 0.20, and 0.40 mg mL−1) on the gelling properties of pork myofibrillar proteins (MPs) under a Fenton oxidation system, with 0.02 mg g−1 BHA as a positive control. Both BHA and PE alleviated the deterioration of gel properties induced by oxidation, as evidenced by suppressed cooking loss, improved water-holding capacity (WHC), and enhanced texture characteristics. Notably, PE at 0.20 mg mL−1 exhibited the most pronounced effects, leading to increased elasticity, cohesiveness, gumminess, and resilience, as well as maximal storage (G′) and loss (G″) modulus. LF-NMR analysis revealed that oxidation promoted the migration of water from immobilized to free states, a trend reversed by BHA and PE. The immobilized water content was significantly higher at 0.20 mg mL−1 PE than in the oxidized and BHA groups (P < 0.05), indicating an improved gel network. Microstructural analysis further confirmed that the addition of 0.20 mg mL−1 PE under oxidative conditions significantly improved the three-dimensional network structure of MPs gels. However, further increasing the PE concentration to 0.40 mg mL−1 deteriorated all gel properties, highlighting a concentration-dependent regulatory effect. Therefore, optimizing PE concentration is critical for practical applications. These findings provide a theoretical basis for using PE as a natural antioxidant in gel-type meat products.