# Dynamic Changes in Amino Acid Release Patterns of Different Plant Protein Sources During In Vitro Digestion and Their Nutritional Value Assessment

**Authors:** Yueli Fan, Zehua Kou, Jiahua Cao, Zhongshen Wang, Tianrui Zhang, Rui Han, Dongsheng Che

PMC · DOI: 10.3390/ani15213094 · 2025-10-24

## TL;DR

This study compares how five plant protein sources break down during digestion and assesses their nutritional value.

## Contribution

A new 'nutritional value equivalence' model was developed to compare plant protein sources during digestion phases.

## Key findings

- Soybean meal showed the highest protein hydrolysis in the gastric phase (61.8%) compared to other sources.
- Corn gluten meal released more low-molecular-weight peptides in the intestinal phase than corn DDGS.
- Rapeseed meal had only 32.2% gastric digestion equivalence relative to soybean meal.

## Abstract

A gastric–intestinal enzymatic hydrolysis digestion method compared five plant protein sources: soybean meal, rapeseed meal, corn DDGS, corn gluten meal, and corn germ meal. Results showed soybean meal’s protein hydrolysis reached 61.8% in the gastric digestion phase, significantly higher than rapeseed meal (43.8%), corn DDGS (31.0%), and corn gluten meal (14.0%). In the intestinal digestion phase, soybean meal’s total nitrogen and low-molecular-weight peptide release were 61.8 mg/g and 42.9 mg/g, higher than those of corn DDGS (17.9 and 17.4 mg/g). A “nutritional value equivalence” model using soybean meal showed rapeseed meal’s gastric digestion phase equivalence was 32.2%, and corn gluten meal’s intestinal phase equivalence was 62.9%. This study provides a basis for soybean meal substitution in feed formulations and precise nutritional requirements.

A gastric–intestinal two-step enzymatic hydrolysis in vitro digestion simulation system was used to systematically investigate the digestion kinetics and amino acid release characteristics of five plant protein sources: soybean meal, rapeseed meal, corn DDGS, corn gluten meal, and corn germ meal. The results showed that in the gastric digestion phase (120 min), the protein hydrolysis degree of soybean meal was the highest (61.8%, p < 0.001), which was 4.4 times that of corn gluten meal (14.0%). In the intestinal digestion phase (240 min), the low-molecular-weight peptide release of corn gluten meal (31.2 mg/g) was significantly higher than that of corn DDGS (17.4 mg/g), showing a “weak in the stomach but strong in the intestine” characteristic. The “nutritional value equivalence” model constructed with soybean meal as the reference showed that the gastric digestion phase equivalence of rapeseed meal was only 32.2% (significantly lower than other materials), and the intestinal digestion phase equivalence of corn gluten meal was 62.9%. This study clarified the differences in digestion characteristics and key related indicators of different plant protein sources, providing quantitative references and scientific support for the food and feed industries to precisely select protein sources according to digestion phases and optimize the formula design.

## Full-text entities

- **Chemicals:** rapeseed meal (-), Amino Acid (MESH:D000596)

## Figures

2 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12609017/full.md

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Source: https://tomesphere.com/paper/PMC12609017