Construction of 3D printed meat analogs from plant-based proteins: Improving the printing performance of soy protein- and gluten-based pastes facilitated by rice protein

大豆蛋白 食品科学 豌豆蛋白 植物蛋白 面筋 流变学 3d打印 高蛋白 微观结构 无麸质 材料科学 化学 复合材料 医学 生物医学工程
作者
Yuxuan Qiu,David Julian McClements,Jun Chen,Changhong Li,Chengmei Liu,Taotao Dai
出处
期刊:Food Research International [Elsevier BV]
卷期号:167: 112635-112635 被引量:90
标识
DOI:10.1016/j.foodres.2023.112635
摘要

Additive technology (3D printing) is increasingly being used to produce plant-based meat analogs. However, there are several challenges to fabricating meat analogs using this technology: (i) the protein content in the final printed product is often too low to match the nutritional profile of real meat; (ii) it is often difficult to accurately mimic the textural and structural attributes of real meat using existing plant protein edible inks. In this study, the rheological properties and printing performance of edible inks produced from soy protein isolate (SPI), wheat gluten (WG), and rice protein (RP) were investigated. Our goal was to mix SPI, WG, RP powders to develop a high-protein edible ink (25% of total dry matter content) that can be used to create 3D-printed meat analogs. The rheological properties, moisture distribution, texture, microstructure, and printing performance (fidelity and stability) of protein pastes with different SPI-WG-to-RP ratios were measured. These protein-enriched inks exhibited pseudoplastic behavior with viscoelastic properties. The apparent viscosity and storage modulus of these pastes decreased with increasing rice protein proportion, which improved their 3D printing performance, such as hardness, support force, and plasticization. These edible inks prepared by mixed protein may be useful for 3D printing of plant-based foods.
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