Dissecting the genetic basis of reproductive transition and reproductive growth in wheat by considering accumulated temperature

Liujie Jin; Kening Duo; Chao Fu; Yunzhen Li; Chao He; Xin Gong; Wenhao Yan

doi:10.1016/j.jgg.2025.09.012

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Dissecting the genetic basis of reproductive transition and reproductive growth in wheat by considering accumulated temperature

doi: 10.1016/j.jgg.2025.09.012

National Key Laboratory of Crop Genetic Improvement, Hubei Hongshan Laboratory, Huazhong Agricultural University, Wuhan, Hubei 430070, China

基金项目:

This research was supported by grants from Biological Breeding-National Science and Technology Major Project (2023ZD04076), the National Key Research and Development Program of Hubei Province (2022BBA154), and the Foundation of Hubei Hongshan Laboratory (2021hszd010).

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通讯作者:
Wenhao Yan,E-mail:yanwenhao@mail.hzau.edu.cn

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出版历程
- 收稿日期: 2025-05-09
- 录用日期: 2025-09-30
- 修回日期: 2025-09-28
- 刊出日期: 2026-03-10

Dissecting the genetic basis of reproductive transition and reproductive growth in wheat by considering accumulated temperature

National Key Laboratory of Crop Genetic Improvement, Hubei Hongshan Laboratory, Huazhong Agricultural University, Wuhan, Hubei 430070, China

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参考文献(11)

Andres, F., Coupland, G., 2012. The genetic basis of flowering responses to seasonal cues. Nat. Rev. Genet. 13, 627-639.

Baurle, I., Dean, C., 2006. The timing of developmental transitions in plants. Cell 125, 655-664.

Bouche, F., Woods, D. P., Amasino, R. M., 2017. Winter memory throughout the plant kingdom: different paths to flowering. Plant Physiol. 173, 27-35.

Fu, M., Liu, S., Che, Y., Cui, D., Deng, Z., Li, Y., Zou, X., Kong, X., Chen, G., Zhang, M., et al., 2024. Genome-editing of a circadian clock gene TaPRR95 facilitates wheat peduncle growth and heading date. J. Genet. Genomics 51, 1101-1110.

Kiseleva, A.A., Potokina, E.K., Salina, E.A., 2017. Features of Ppd-B1 expression regulation and their impact on the flowering time of wheat near-isogenic lines. BMC Plant Biol. 17, 172.

Levin, D. A., 2009. Flowering-time plasticity facilitates niche shifts in adjacent populations. New Phytol. 183, 661-666.

Luo, X., Yang, Y., Lin, X., Xiao, J., 2023. Deciphering spike architecture formation towards yield improvement in wheat. J. Genet. Genomics 50, 835-845.

Milec, Z., Valarik, M., Bartos, J., Safar, J., 2014. Can a late bloomer become an early bird? Tools for flowering time adjustment. Biotechnol. Adv. 32, 200-214.

Nishida, H., Yoshida, T., Kawakami, K., 2013. Structural variation in the 5' upstream region of photoperiod-insensitive alleles Ppd-A1a and Ppd-B1a identified in hexaploid wheat (Triticum aestivum L.), and their effect on heading time. Mol. Breed. 31, 27-37.

Poethig, R. S., 2003. Phase change and the regulation of developmental timing in plants. Science 301, 334-336.

Yan, L., Loukoianov, A., Tranquilli, G., Helguera, M., Fahima, T., Dubcovsky, J., 2003. Positional cloning of the wheat vernalization gene VRN1. Proc. Natl. Acad. Sci. USA 100, 6263-6268.

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文章访问数: 18
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Dissecting the genetic basis of reproductive transition and reproductive growth in wheat by considering accumulated temperature

doi: 10.1016/j.jgg.2025.09.012

通讯作者: Wenhao Yan,E-mail:yanwenhao@mail.hzau.edu.cn

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出版历程

Dissecting the genetic basis of reproductive transition and reproductive growth in wheat by considering accumulated temperature

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出版历程

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通讯作者:
Wenhao Yan,E-mail:yanwenhao@mail.hzau.edu.cn