WSF: A Transformer-Based Framework for Microphenotyping and Genetic Analyzing of Wheat Stomatal Traits
Honghao Zhou, Haijiang Min, Shaowei Liang, Bingxi Qin, Qi Sun, Zijun Pei, Qiuxiao Pan, Xiao Wang, Jian Cai, Qin Zhou, Yingxin Zhong, Mei Huang, Dong Jiang, Jiawei Chen, Qing Li

TL;DR
This paper introduces a new AI model for analyzing wheat stomata traits, improving accuracy and efficiency in identifying genes related to these traits.
Contribution
The novel WSF model uses transformers for automated, high-precision wheat stomata phenotyping and gene association analysis.
Findings
WSF achieved high accuracy in predicting stomatal traits with R2 values up to 0.93.
36 SNP loci were identified as significantly associated with stomatal traits in wheat.
Two candidate genes were found to regulate stomatal movement and closure in wheat.
Abstract
Stomata on the leaves of wheat serve as important gateways for gas exchange with the external environment. Their morphological characteristics, such as size and density, are closely related to physiological processes like photosynthesis and transpiration. However, due to the limitations of existing analysis methods, the efficiency of analyzing and mining stomatal phenotypes and their associated genes still requires improvement. To enhance the accuracy and efficiency of stomatal phenotype traits analysis and to uncover the related key genes, this study selected 210 wheat varieties. A novel semantic segmentation model based on transformer for wheat stomata, called Wheat Stoma Former (WSF), was proposed. This model enables fully automated and highly efficient stomatal mask extraction and accurately analyzes phenotypic traits such as the length, width, area, and number of stomata on both…
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Taxonomy
TopicsHorticultural and Viticultural Research · Wheat and Barley Genetics and Pathology · Genetic Mapping and Diversity in Plants and Animals
