# Effects of Isolated Pea Protein on Extrusion-Induced Gelation and Gel-like Network Formation in Low-Moisture Meat Analog Systems

**Authors:** Hyun-Woo Choi, Yu Zhang, Yunju Lee, Hyerim Jeon, Gi-Hyung Ryu, Bon-Jae Gu

PMC · DOI: 10.3390/gels12020175 · Gels · 2026-02-16

## TL;DR

This study shows how adding pea protein to meat analogs changes their structure, making them denser and more meat-like.

## Contribution

The novel contribution is demonstrating how isolated pea protein modulates gelation and network formation in low-moisture meat analogs.

## Key findings

- Increasing IPP content reduces expansion and air-cell size, forming a dense protein network.
- IPP substitution at 20–30% yields gel structures similar to high-moisture meat analogs.
- IPP incorporation increases mechanical resistance but decreases water holding and springiness.

## Abstract

Low-moisture meat analogs (LMMAs) typically exhibit highly expanded structures with large air cells, which differ from the dense and fibrous architecture observed in high-moisture systems. This study investigated the role of isolated pea protein (IPP) in extrusion-induced protein gelation and gel-like network formation in LMMAs produced by low-moisture extrusion. By partially substituting isolated soy protein (ISP) with IPP, changes in expansion behavior, protein network structure, and gel-related physicochemical properties were systematically evaluated. Increasing IPP content markedly reduced expansion and air-cell size, leading to the formation of a dense and continuous gel-like protein network with enhanced fibrous alignment. At IPP substitution levels of 20–30%, the extrudates exhibited gel structures and fibrous characteristics comparable to those of high-moisture meat analogs. As IPP incorporation increased, water holding capacity, springiness, and cohesiveness declined, while mechanical resistance parameters, including chewiness, cutting strength, and integrity index, progressively increased, indicating gel network densification. Nitrogen solubility index analysis further revealed distinct protein denaturation and gelation behaviors between IPP- and ISP-based systems. These results demonstrate that controlled incorporation of IPP effectively modulates extrusion-induced gelation and gel network architecture in low-moisture meat analogs, providing mechanistic insights into gel-based structuring strategies for plant-based meat systems.

## Full-text entities

- **Diseases:** injury to (MESH:D014947), fracture (MESH:D050723), LMMA (MESH:C000655084)
- **Chemicals:** Water (MESH:D014867), nitrous oxide (MESH:D009609), KOH (MESH:C029943), Cysteine (MESH:D003545), lipid (MESH:D008055), HCl (MESH:D006851), lysine (MESH:D008239), Ca (MESH:D002118), ninhydrin (MESH:D009555), sulfur (MESH:D013455), IPP (-), platinum (MESH:D010984), disulfide (MESH:D004220), Amino Acid (MESH:D000596), Nitrogen (MESH:D009584), methane (MESH:D008697), Carbohydrate (MESH:D002241), CS (MESH:D013213)
- **Species:** Lathyrus oleraceus (garden pea, species) [taxon 3888], Arachis hypogaea (goober, species) [taxon 3818], Vigna radiata (mung bean, species) [taxon 157791], Gallus gallus (bantam, species) [taxon 9031], Powellomyces sp. EA (species) [taxon 252690], Glycine max (soybean, species) [taxon 3847], Homo sapiens (human, species) [taxon 9606]

## Full text

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## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12941180/full.md

## References

41 references — full list in the complete paper: https://tomesphere.com/paper/PMC12941180/full.md

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Source: https://tomesphere.com/paper/PMC12941180