J Integr Plant Biol board

Dr. Yidan Ouyang

Professor
College of Life Science and Technology
National Key Laboratory of Crop Genetic Improvement, Huazhong Agricultural University, No.1 Shizishan Street, Hongshan District, Wuhan, 430070 China
E-mail: diana1983941@mail.hzau.edu.cn
Website: https://faculty.hzau.edu.cn/ouyangyidan/en/index.htm
Area of expertise: Crop, rice, yield, fertility, heterosis, hybrid sterility, reproductive isolation, QTL, mapping

Speciality Area

Plant Reproductive Biology

Selected Publications:

Sun, S, Cheng, J, Zhang, Y, Wang, Y, Wang, L, Wang, T, Wang, Z, Li, X, Zhou, Y, Li, X, Xiao, J, Yan, C, Zhang, Q, and Ouyang, Y. (2025). Novel repetitive elements in plant-specific tails of Gγ proteins as the functional unit in G-protein signalling in crops. Plant Cell 37: koaf052

Zhang, J, Che, J, and Ouyang, Y. (2024). Engineering rice genomes towards green super rice. Curr. Opin. Plant Biol. 82: 102664

Zhang, H, Yu, F, Xie, P, Sun, S, Qiao, X, Tang, S, Chen, C, Yang, S, Mei, C, Yang, D, Wu, Y, Xia, R, Li, X, Lu, J, Liu, Y, Xie, X, Ma, D, Xu, X, Liang, Z, Feng, Z, Huang, X, Yu, H, Liu, G, Wang, Y, Li, J, Zhang, Q, Chen, C, Ouyang, Y, and Xie, Q. (2023). A Gγ protein regulates alkaline sensitivity in crops. Science 379: eade8416

Zhou, P, Wang, Z, Zhu, X, Tang, Y, Ye, L, Yu, H, Li, Y, Zhang, N, Liu, T, Wang, T, Wu, Y, Cao, D, Chen, Y, Li, X, Zhang, Q, Xiao, J, Yu, S, Zhang, Q, Mi, J, and Ouyang, Y. (2023). A minimal genome design to maximally guarantee fertile inter-subspecific hybrid rice. Mol. Plant 16: 726-738

Xu, C, Xu, Y, Wang, Z, Zhang, X, Wu, Y, Lu, X, Sun, H, Wang, L, Zhang, Q, Zhang, Q, Li, X, Xiao, J, Li, X, Zhao, M, Ouyang, Y, Huang, X, and Zhang, Q. (2023). Spontaneous movement of a retrotransposon generated genic dominant male sterility providing a useful tool for rice breeding. Natl. Sci. Rev. 10: nwad210

Jiang, H, Lu, Q, Qiu, S, Yu, H, Wang, Z, Yu, Z, Lu, Y, Wang, L, Xia, F, Wu, Y, Li, F, Zhang, Q, Liu, G, Song, D, Ma, C, Ding, Q, Zhang, X, Zhang, L, Zhang, X, Li, X, Zhang, J, Xiao, J, Li, X, Wang, N, Ouyang, Y, Zhou, F, and Zhang, Q. (2022). Fujian cytoplasmic male sterility and the fertility restorer gene OsRf19 provide a promising breeding system for hybrid rice. Proc. Natl. Acad. Sci. USA 119: e2208759119

Li, X, Ouyang, Y. (2022). Better time of flower opening, a good time to improve the efficiency of hybrid seed production. Mol. Plant 15: 940-942

Mi, J, Li, G, Xu, C, Yang, J, Yu, H, Wang, G, Li, X, Xiao, J, Song, H, Zhang, Q, and Ouyang, Y. (2020). Artificial selection in domestication and breeding prevents speciation in rice. Mol. Plant 13: 650-657

Sun, S, Wang, L, Mao, H, Shao, L, Li, X, Xiao, J, Ouyang, Y, and Zhang, Q. (2018). A G-protein pathway determines grain size in rice. Nat. Commun. 9: 851

Yao, W, Li, G, Yu, Y, and Ouyang, Y. (2018). funRiceGenes dataset for comprehensive understanding and application of rice functional genes. GigaScience 7: 1-9

Ouyang, Y, Li, G, Mi, J, Xu, C, Du, H, Zhang, C, Xie, W, Li, X, Xiao, J, Song, H, and Zhang, Q. (2016). Origination and establishment of a trigenic reproductive isolation system in rice. Mol. Plant 9: 1542-1545

Ouyang Y, Zhang Q (2013). Understanding reproductive isolation based on the rice model. Annu Rev. Plant Biol. 64: 111-135

Ouyang Y, Liu YG, Zhang Q (2010). Hybrid sterility in plant: stories from rice. Curr. Opin. Plant Biol. 13: 186-192

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