Winter Wheat Vernalization Alleles and Freezing Tolerance at the Seedling and Jointing Stages

Winter Wheat Vernalization Alleles and Freezing Tolerance at the Seedling and Jointing Stages

This study explores the relationship between allelic variation of the vernalization genes (<i>VRN</i>) and the freezing tolerance at the seedling and jointing stages of winter wheat growth. It provides a basis for molecular marker development for freezing tolerance breeding of winter whe...

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Bibliographic Details
Main Authors: Fangfang Liu, Wenxin Cao, Qiqi Zhang, Yao Li, Heng Zhou, Yingxiu Wan
Format: Article
Language:English
Published: MDPI AG 2025-04-01
Series:Plants
Subjects:
winter wheat
vernalization gene
freezing tolerance
seedling stage
jointing stage
Online Access:https://www.mdpi.com/2223-7747/14/9/1350
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Summary:This study explores the relationship between allelic variation of the vernalization genes (<i>VRN</i>) and the freezing tolerance at the seedling and jointing stages of winter wheat growth. It provides a basis for molecular marker development for freezing tolerance breeding of winter wheat. A total of 435 wheat accessions were used to identify and evaluate the freezing tolerance at the seedling stage using field tests, while 192 wheat accessions were used to evaluate the freezing tolerance at the jointing stage in climate chamber tests. The <i>VRN</i> genes of the wheat accessions were detected using allele-specific markers of the <i>VRN-A1</i>, <i>VRN-B1</i>, <i>VRN-D1</i> and <i>VRN-B3</i> loci, and the relationship between <i>VRN</i> genotype and freezing tolerance at the two developmental stages was tested. There were significant differences in freezing tolerance between the wheat accessions. Assessing the freezing tolerance of 52 wheat accessions at both the seedling and jointing stages revealed no significant correlation between tolerance at these two stages. The genotypic analysis found that <i>Vrn-D1</i> was the most frequent dominant allele in winter wheat, while no accession contained the dominant alleles <i>Vrn-A1</i> and <i>Vrn-B3</i>. Notably, freezing tolerance showed stage-specific genetic regulation; seedling-stage freezing tolerance strongly correlated with vernalization gene allelic combinations (<i>p</i> < 0.05), whereas jointing-stage freezing tolerance exhibited no such association. The presence of all recessive alleles <i>vrn-A1</i>, <i>vrn-B1</i>, <i>vrn-D1</i> and <i>vrn-B3</i> was required for strong seedling-stage freezing tolerance. The <i>VRN-D1</i> marker was effective for screening freezing tolerance materials under the premise that <i>vrn-A1</i> and <i>vrn-B1</i> alleles are recessive at winter wheat seedling stage.
ISSN:2223-7747

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