# The Effect of Fructooligosaccharide and Inulin Addition on the Functional, Mechanical, and Structural Properties of Cooked Japonica Rice

**Authors:** Bing Dai, Ruijun Chen, Shiyu Chang, Zheng Wei, Xiaohong Luo, Jiangzhang Wu, Xingjun Li

PMC · DOI: 10.3390/gels12010048 · 2026-01-01

## TL;DR

Adding fructooligosaccharide and inulin to cooked rice changes its texture and structure, making it softer and improving sensory qualities.

## Contribution

This study demonstrates how dietary fibers like fructooligosaccharide and inulin affect rice properties through hydrogel network formation.

## Key findings

- FOS and INU addition reduced rice hardness and cooking time while increasing gruel solid loss.
- Both FOS and INU improved sensory scores and altered starch crystallization in cooked rice.
- Microstructural changes included thicker matrix walls and larger pores, leading to softer rice.

## Abstract

To test whether fructooligosaccharide (FOS) and inulin (INU) molecules can improve the hardness of cooked rice through forming a hydrogel network, we added FOS or INU at 0%, 3%, 5%, 7%, and 10% concentrations to two cooking japonica rice and compared the cooking and textural parameters, the pasting, thermal, and thermo-mechanical properties, and the microstructure of the cooked rice. General Linear Model Univariate (GLMU) analysis revealed that, compared with no oligofructose addition, both FOS and INU addition reduced the rice cooking time and increased the gruel solid loss. The addition of these dietary fibers (DFs) to cooking rice lowered the hardness, adhesiveness, springiness, gumminess, and chewiness of the rice, but maintained the cohesiveness and increased the resilience. Compared with no oligofructose addition, FOS and INU addition improved the smell, taste, and total sensory score of cooked rice. The addition of these DFs significantly decreased the trough, peak, final, breakdown, and setback viscosities, but increased the pasting temperature and peak time. Both FOS and INU addition decreased the enthalpy of gelatinization but increased the peak and conclusion temperature of gelatinization of rice flour paste. After the retrograded flour pastes were kept at 4 °C for 21 days, both FOS and INU significantly increased amylopectin aging compared with no oligofructose addition. The FOS-added and INU-added rice doughs had a higher dough development time and stability time, gelatinization peak torque, setback torque, and gelatinization speed, with a lower protein weakening degree, amylase activity, breakdown torque, heating speed, and enzymatic hydrolysis speed. Compared with no oligofructose addition, both FOS and INU addition reduced the amorphous region of starch and β-sheet percentage, but increased the percentages of random coils, α-helixes, and β-turns in cooked rice. Principal component analysis (PCA) further demonstrated that the gruel solid loss, cooked rice hardness, chewiness, gumminess, taste, and the peak, trough, breakdown, final, and setback viscosities were sensitive parameters for evaluating the effects of species and the amount of oligofructose addition on rice quality. The microstructure showed that FOS or INU addition induced thickening of the matrix walls and an increase in the pore size, forming a soft and evenly swollen structure. These results suggest that FOS or INU addition inhibits amylose recrystallization but maintains amylopectin recrystallization in cooked rice, with INU addition producing greater improvements in the texture and sensory scores of cooked rice compared withFOS addition. This study provides evidence of the advantages of adding DFs and probiotics such as INU and FOS to cooked rice.

## Linked entities

- **Chemicals:** amylase (PubChem CID 71475145)

## Full-text entities

- **Chemicals:** starch (MESH:D013213), amylose (MESH:D000688), DFs (MESH:D004043), INU (MESH:D007444), amylopectin (MESH:D000687), oligofructose (MESH:C120489), FOS (MESH:C116580)
- **Species:** Oryza sativa (Asian cultivated rice, species) [taxon 4530]

## Figures

10 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12840906/full.md

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Source: https://tomesphere.com/paper/PMC12840906