Elimination of Acrolein by Disodium 5'-Guanylate or Disodium 5'-Inosinate at High Temperature and Its Application in Roasted Pork Patty

Ergothioneine, a New Acrolein Scavenger at Elevated Temperature

Acrolein (ACR) present in vivo and in vitro can damage proteins and DNA, linking it to various chronic diseases. In this paper, ergothioneine (EGT), abundant in edible mushrooms, has been studied for its ability to trap ACR and its reaction pathway with ACR at high temperatures using ultraperformance liquid chromatography-mass spectrometry (UPLC-MS/MS). We synthesized the adducts (EGT-ACR-1 and EGT-ACR-2), elucidating their structure and reaction site through HRMS and nuclear magnetic resonance. Subsequently, we proved the synergistic trapping effect on ACR of EGT when combined with γ-aminobutyric (GABA) and disodium 5'-guanylate (GMP) in binary or ternary employing the Chou-Talalay methods. Quantitative analysis of the ACR adducts revealed that GABA and GMP enhanced EGT's ability to form additional ACR adducts. Moreover, Boletus eduli and Volvariella volvacea, as the carriers of EGT, GABA, and GMP, show a marked effect on trapping ACR generated during the baking of cookies/cakes. Our finding suggested that EGT, whether as a standalone compound or derived from mushrooms, could act as a potential ACR capturer (including single and multiple uses) in baked food.

Polyphenols as reactive carbonyl substances regulators: A comprehensive review of thermal processing hazards mitigation

Reactive carbonyl species (RCS) are a class of compounds with one or more C = O structures with highly reactive electrophilic properties. This comprehensive review delves into the multifaceted role of RCS in thermally processed foods, where they serve as both crucial intermediates in the development of food color and flavor, as well as precursors of potentially harmful compounds. By exploring the carbonyl pool concept, the impact of RCS equilibrium on the formation and reduction of hazardous substances such as acrylamide, hydroxymethylfurfural, advanced glycation end-products, and heterocyclic amines was elucidated. The review particularly emphasizes the regulatory effects of polyphenols on the carbonyl pool, highlighting their potential to reduce the levels of RCS and their associated hazards. Furthermore, the dual role of polyphenols in both mitigating and enhancing to the formation of RCS and their associated hazards was discussed. This review offers valuable insights into strategies for inhibiting RCS and their associated hazards.

Effects of umami substances as taste enhancers on salt reduction in meat products: A review

Sodium is one of the essential additives in meat processing, but excessive sodium intake may increase risk of hypertension and cardiovascular disease. However, reducing salt content while preserving its preservative effect, organoleptic properties, and technological characteristics poses challenges. In this review, the mechanism of salt reduction of umami substances was introduced from the perspective of gustation-taste interaction, and the effects of the addition of traditional umami substances (amino acids, nucleotides, organic acids(OAs)) and natural umami ingredients (mushrooms, seaweeds, tomatoes, soybeans, tea, grains) on the sensory properties of the meat with reduced-salt contents were summarized. In addition, the impacts of taste enhancers on eating quality (color, sensory, textural characteristics, and water-holding capacity (WHC)), and processing quality (lipid oxidation, pH) of meat products (MP) and their related mechanisms were also discussed. Among them, natural umami ingredients exhibit distinct advantages over traditional umami substances in terms of enhancing quality and nutritional value. On the basis of salt reduction, natural umami ingredients improve the flavor, texture, WHC and antioxidant capacity. This comprehensive review may provide the food industry with a theoretical foundation for mitigating salt consumption through the utilization of umami substances and natural ingredients.