# Genome-Wide Identification and Expression Profiling of Sugar Transport Protein Response to Fusarium Head Blight in Wheat (Triticum aestivum L.)

**Authors:** Yongjiang Liu, Jianfeng Sha, Suhong Zhang, Yawen Sun, Zhiruo Hu, Haigang Ma, Hongxiang Ma

PMC · DOI: 10.3390/plants14192976 · 2025-09-25

## TL;DR

This study identifies and analyzes sugar transporter genes in wheat to understand their role in resistance to Fusarium head blight, a major wheat disease.

## Contribution

The study identifies a new STP gene and reveals differential expression patterns of 11 STP genes in response to FHB-related stressors.

## Key findings

- 50 TaSTP genes showed differential expression under biotic or abiotic stress.
- 11 TaSTP genes were differentially expressed after treatment with chitin, Fusarium graminearum, or deoxynivalenol.
- TaSTP26-5A was 28-fold upregulated to chitin in 'Yangmai 158' compared to 'Fielder'.

## Abstract

Fusarium head blight (FHB) negatively affects wheat yield and quality worldwide. As wheat varieties differ in terms of their resistance to FHB, the identification of FHB-resistant genes is of great importance for the genetic improvement for FHB resistance in wheat breeding. Although sugar transporter proteins (STPs) play vital roles in plant–pathogen interactions, the functions of STP genes in wheat FHB resistance remain poorly understood. In this study, bioinformatics analyses were conducted to identify novel STP genes and characterize their expression profiles in wheat. We confirmed the presence of the 81 TaSTP genes previously reported and identified one additional member, designated as TaSTP6-2D. Based on RNA-seq profiles, 50 TaSTP genes that showed differential expression under biotic or abiotic stress were selected to explore the potential function in the resistance to Fusarium head blight. RT-qPCR analysis revealed that 11 TaSTP genes (TaSTP1-2D, TaSTP3-2A, TaSTP3-2B, TaSTP6-2A, TaSTP6-2B, TaSTP13-4B, TaSTP13-4D, TaSTP19-4A, TaSTP26-5A, TaSTP28-3A and TaSTP28-3D) were differential expressed following the treatment with chitin, Fusarium graminearum or deoxynivalenol. Among them, TaSTP26-5A showed a 28-fold upregulation to chitin in “Yangmai 158” compared to a 6-fold change in “Fielder”. These findings establish a foundation for understanding the function of TaSTP genes in FHB resistance and provide potential genetic targets for improving disease resistance in wheat.

## Linked entities

- **Chemicals:** deoxynivalenol (PubChem CID 40024)
- **Species:** Fusarium graminearum (taxon 5518)

## Full-text entities

- **Diseases:** FHB (MESH:D006258)
- **Chemicals:** Sugar (MESH:D000073893), chitin (MESH:D002686), deoxynivalenol (MESH:C007262)
- **Species:** Fusarium graminearum (species) [taxon 5518], Triticum aestivum (bread wheat, species) [taxon 4565]

## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12526077/full.md

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Source: https://tomesphere.com/paper/PMC12526077