Tree Genetics and Molecular Breeding 2024, Vol.14, No.4, 194-205 http://genbreedpublisher.com/index.php/tgmb 203 Acknowledgments We would like to thank Professor Lee from Hong Kong University for his invaluable guidance, insightful suggestions, and continuous support throughout the development of this study. Funding This study was funded by the Guizhou Academy of Agricultural Sciences Talent Special Project (No. 2023-02 and 2024-02), National High Technology Research and Development Program of China (“863’’ Program) [grant number 2013AA102605-05], Talent Base for Germplasm Resources Utilization and Innovation of Characteristic Plant in Guizhou (grant number RCJD2018-14). Conflict of Interest Disclosure The authors affirm that this research was conducted without any commercial or financial relationships that could be construed as a potential conflict of interest. Reference Belhaj K., Chaparro‐Garcia A., Kamoun S., Patron N., and Nekrasov V., 2015, Editing plant genomes with CRISPR/Cas9, Current Opinion in Biotechnology, 32: 76-84. https://doi.org/10.1016/j.copbio.2014.11.007 PMid:25437637 Devlin R., and Nagahama Y., 2002, Sex determination and sex differentiation in fish: an overview of genetic, physiological, and environmental influences, Aquaculture, 208: 191-364. https://doi.org/10.1016/S0044-8486(02)00057-1 Du Q., Wu Z., Liu P., Qing J., He F., Du L., Sun Z., Zhu L., Zheng H., Sun Z., Yang L., Wang L., and Du H., 2023, The chromosome-level genome of Eucommia ulmoides provides insights into sex differentiation and α-linolenic acid biosynthesis, Frontiers in Plant Science, 14: 1118363. https://doi.org/10.3389/fpls.2023.1118363 PMid:37063180 PMCid:PMC10102601 Edelaar P., Jovani R., and Gomez-Mestre I., 2017, Should I change or should I go, Phenotypic plasticity and matching habitat choice in the adaptation to environmental heterogeneity, Am. Nat., 190(4): 506-520. https://doi.org/10.1086/693345 Goldberg S.D., Zhao Y.L., Harrison R.D., Monkai J., Li Y.W., Chau K.T., and Xu J.C., 2017, Soil respiration in sloping rubber plantations and tropical natural forests in Xishuangbanna, China, Agric. Ecosyst. Environ., 249: 237-246. https://doi.org/10.1016/j.agee.2017.08.001 He X.R., Wang J.H., Li M.X., Hao D.J., Yang Y., Zhang C.L., He R., and Tao R., 2014, Eucommia ulmoides Oliv.: ethnopharmacology, phytochemistry and pharmacology of an important traditional Chinese medicine, J. Ethnopharmacol., 151(1): 78-92. https://doi.org/10.1016/j.jep.2013.11.023 PMid:24296089 Heisler M.G., Jönsson H., Wenkel S., and Kaufmann K., 2022, Context-specific functions of transcription factors controlling plant development: from leaves to flowers, Current Opinion in Plant Biology, 69: 102262. https://doi.org/10.1016/j.pbi.2022.102262 Hu X., Li Y., Xia Y., and Ma Y., 2023, The MYB transcription factor family in Eucommia ulmoides: genome-wide identification, characterization, and network analysis in relation to the rubber biosynthetic genes, Forests, 14(10): 2064. https://doi.org/10.3390/f14102064 Hussain T., Tan B.E., Liu G., Oladele O.A., Rahu N., Tossou M.C., and Yin Y.L., 2016, Health-promoting properties of Eucommia ulmoides: a review, Evidence-Based Complementary and Alternative Medicine, 2016(1): 5202908. https://doi.org/10.1155/2016/5202908 PMid:27042191 PMCid:PMC4793136 Jin C., Li Z., Li Y., Wang S., Li L., and Liu M., 2020, Update of genetic linkage map and QTL analysis for growth traits in Eucommia ulmoides Oliver, Forests, 11(3): 311. https://doi.org/10.3390/f11030311 Lan J.Y., Liu Z., Zhang Q., Pei Z.C., and Li B.H., 2019, A study on growth characteristics of Eucommia ulmoides oliver in different areas and the dynamic changes of main effective components in leaves, J. Agric. Univ. Hebei, 42: 51-56. Li Y., Wei H., Yang J., Du K., Li J., Zhang Y., Qiu T., Liu Z., Ren Y., Song L., and Kang X., 2020, High-quality de novo assembly of the Eucommia ulmoides haploid genome provides new insights into evolution and rubber biosynthesis, Horticulture Research, 7: 183. https://doi.org/10.1038/s41438-020-00406-w PMid:33328448 PMCid:PMC7603500
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