The water-holding capacity (WHC) is among the key factors in determining the quality of meat and its value, which is strongly influenced by the content and quality of the connective tissue proteins like collagen. Therefore, the factors that influence the proteins' stability, e.g., pH, ionic strength, and the antioxidants which are used to increase the meat shelf-life, also affect the WHC. The interaction of collagen, whose structure is strongly influenced by the interaction with water molecules, can be studied following the behavior of water diffusion by low-resolution 1H NMR experiments. The present study is addressed to study the collagen stability as a function of pH, ionic strength, and phenolic antioxidants like catechin. The experimental study demonstrated how the 1H NMR time domain (TD) experiments are able to evaluate the hydration properties of collagen, not only as a function of ionic strength and pH, but also in determining the ability of catechin to interact both on the surface of the collagen fibrils and inside the fibrillar domain.
Stability of the Meat protein type I collagen: Influence of pH, ionic strength, and phenolic antioxidant / Lucarini, Massimo; Durazzo, Alessandra; Sciubba, Fabio; Di Cocco, Maria Enrica; Gianferri, Raffaella; Alise, Mosè; Santini, Antonello; Delfini, Maurizio; Lombardi-Boccia, Ginevra. - In: FOODS. - ISSN 2304-8158. - 9:4(2020). [10.3390/foods9040480]
Stability of the Meat protein type I collagen: Influence of pH, ionic strength, and phenolic antioxidant
Sciubba, Fabio;Di Cocco, Maria Enrica;Gianferri, Raffaella;Delfini, Maurizio;
2020
Abstract
The water-holding capacity (WHC) is among the key factors in determining the quality of meat and its value, which is strongly influenced by the content and quality of the connective tissue proteins like collagen. Therefore, the factors that influence the proteins' stability, e.g., pH, ionic strength, and the antioxidants which are used to increase the meat shelf-life, also affect the WHC. The interaction of collagen, whose structure is strongly influenced by the interaction with water molecules, can be studied following the behavior of water diffusion by low-resolution 1H NMR experiments. The present study is addressed to study the collagen stability as a function of pH, ionic strength, and phenolic antioxidants like catechin. The experimental study demonstrated how the 1H NMR time domain (TD) experiments are able to evaluate the hydration properties of collagen, not only as a function of ionic strength and pH, but also in determining the ability of catechin to interact both on the surface of the collagen fibrils and inside the fibrillar domain.File | Dimensione | Formato | |
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