Genome-Wide Characterization of the Von Willebrand Factor a Gene Family in Wheat: Highlights Their Functional Roles in Growth and Biotic Stress Response
Luna Tao, Zheng Yang, Kai Han, Chao Ma, Yueming Ren, Ranran Jia, Huanhuan Li, Qianwen Liu, Yue Zhao, Wenxuan Liu

TL;DR
This study identifies and characterizes vWA genes in wheat, showing their roles in growth and resistance to biotic stresses.
Contribution
The study provides the first genome-wide characterization of vWA genes in wheat and identifies key genes involved in stress responses.
Findings
114 vWA genes were identified in wheat, unevenly distributed across 21 chromosomes.
Sixty-one vWA genes showed tissue-specific expression, and 71 responded to biotic stress treatments.
Eight specific vWA genes were linked to resistance against powdery mildew in wheat.
Abstract
Von Willebrand factor A (vWA) genes play important roles in regulating plant growth and development, as well as biotic stresses. However, limited data are available on the contributions of vWA genes to wheat (Triticum aestivum L.). In this study, 114 TavWA genes were identified in the wheat genome, which were unevenly distributed on 21 chromosomes. According to the phylogenetic analysis, the 114 TavWAs were classified into six groups, two of which (G3 and G6) were unique to wheat. Fifty-five homoeologous gene sets among A, B, and D sub-genomes were detected, which play a crucial role in the expansion of the wheat vWA gene family. Analysis of specific spatiotemporal expression patterns showed that more than 50% of TavWAs (61 out of 114) exhibited tissue-specific expression. These included 71 TavWAs that responded to one or more of the four biotic stress treatments (flg22, chitin, powdery…
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Taxonomy
TopicsPlant Reproductive Biology · Plant-Microbe Interactions and Immunity · Wheat and Barley Genetics and Pathology
