# Effect of Allelic Variations in Wx and SSIIa on Rice Cooking and Eating Quality

**Authors:** Yi Peng, Yuqianqian Li, Lin Zhang, Jing Yu, Jianming Pan, Bowen Deng, Jinsong Bao

PMC · DOI: 10.3390/ijms27062588 · 2026-03-11

## TL;DR

This study explores how genetic variations in Wx and SSIIa genes affect rice cooking and eating quality, revealing their combined impact on texture and viscosity.

## Contribution

The study provides new insights into the combined allelic effects of Wx and SSIIa on rice quality traits.

## Key findings

- Six Wx alleles were identified, with Wxlv showing the highest and wx the lowest apparent amylose content.
- SSIIa alleles G/GC showed higher gelatinization temperature than G/TT and A/GC.
- Interactions between Wx and SSIIa alleles significantly influence pasting viscosity and gel texture.

## Abstract

The cooking and eating quality (CEQ) of rice is primarily regulated by the Wx and SSIIa genes. Multiple allelic variations in these genes exist in rice, but the effect of allelic combination of Wx and SSIIa on rice CEQ was less understood. In this study, the Wx and SSIIa genes of 164 rice accessions were sequenced, and the effects of nucleotide variation, both individually and in combination, on physicochemical properties such as apparent amylose content (AAC), gelatinization temperature (GT), pasting viscosities and gel texture were analyzed. Six Wx alleles were identified, with the highest AAC found in the Wxlv allele and the lowest in the wx allele. No significant difference in AAC for the same genotype harvested from two locations, Hangzhou and Sanya, was observed. Three SSIIa alleles were identified, i.e., G/GC, G/TT, and A/GC. The genotype with the G/GC exhibited significantly higher GT than those with G/TT and A/GC genotypes. However, the GT of the same genotype was higher in Hangzhou than in Sanya, suggesting an environmental effect. Under the same Wxlv allele background, the gel hardness (HD) of G/TT allele of SSIIa was the highest among all combinations, and significantly higher than that of G/GC. Under the same wx allele background, the peak viscosity (PV), hot paste viscosity (HPV), and cold paste viscosity (CPV) of G/GC were significantly higher than that of G/TT and A/GC. Under the same G/GC allele of SSIIa background, Wxlv had a slightly lower peak temperature (Tp) and a slightly higher enthalpy of gelatinization (ΔHg) than other allele combinations. Under the same G/TT allele of SSIIa background, Wxb had a significantly lower onset temperature (To), Tp and conclusion temperature (Tc) than other combinations. This study indicated that variation in the Wx gene primarily affects AAC, viscosity and gel texture, with its interaction with SSIIa influencing GT, while variation in the SSIIa gene primarily affects GT, with its interaction with Wx influencing pasting viscosity.

## Linked entities

- **Genes:** wx (waxy) [NCBI Gene 249899], SSIIA (glycosyltransferase family 5 protein) [NCBI Gene 8249213]

## Full-text entities

- **Chemicals:** amylose (MESH:D000688)
- **Species:** Oryza sativa (Asian cultivated rice, species) [taxon 4530]

## Figures

8 figures with captions in the complete paper: https://tomesphere.com/paper/PMC13027240/full.md

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Source: https://tomesphere.com/paper/PMC13027240