AI Article Synopsis
- Starch-stabilized Pickering emulsions, particularly OSA-modified starches, enhance the gelling properties of myofibrillar protein-based gels compared to traditional MP-emulsions.
- A-OS emulsions specifically demonstrate significant improvements in storage modulus, gel strength, and water holding capacity, outpacing B-OS and C-OS.
- The incorporation of A-OS emulsions leads to a more compact gel network and facilitates changes in protein structure, reinforcing the gels through increased hydrogen bonding and hydrophobic interactions.
Article Abstract
Starch-stabilized Pickering emulsions were employed as a novel particulate filler in myofibrillar protein (MP)-based gels for improving the gelling characteristics. The role of emulsions prepared by native starches (NS) with distinctive crystalline types (i.e., A-type waxy corn starch, B-type potato starch, and C-type pea starch) and their OSA-modified counterparts (A-OS, B-OS, C-OS) in the gelling performance was evaluated and compared with MP-stabilized-emulsion. Compared with MP-emulsion, starch-emulsion caused substantial increases in the gelling properties, notably for OSA-starch emulsions. Herein, A-OS exhibited up to 1.26-, 5.3-, and 2.9-fold increments in storage modulus, gel strength, and water holding capacity relative to pure MP gel, respectively, higher than B-OS and C-OS. Moreover, light microscopy evinced a more compact gel network filled with smaller and uniform oil droplets when A-OS emulsions were incorporated into the gels. The addition of OSA-starch emulsions, especially A-OS emulsion, facilitated the protein conformational conversion from α-helix to β-sheet and caused a marked reduction of free sulfhydryls in the gels; yet, the chemical forces that stabilized the gels altered, where remarkable reinforcements in hydrogen bond and hydrophobic interaction were detected, in support of the construction of splendid MP gels. Hence, OSA-starch emulsions show promise as functional components in meat products.
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| http://dx.doi.org/10.1016/j.foodres.2022.112443 | DOI Listing |
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