发表论文
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Delphinieae flowers originated from the rewiring of interactions between duplicated and diversified floral organ identity and symmetry genes. PLANT CELL[J]. 2023, 第 15 作者 通讯作者 [5] Fu, Xuehao, Shan, Hongyan, Yao, Xu, Cheng, Jie, Jiang, Yongchao, Yin, Xiaofeng, Kong, Hongzhi. Petal development and elaboration. JOURNAL OF EXPERIMENTAL BOTANY[J]. 2022, 第 7 作者 通讯作者 73(11): 3308-3318, https://academic.oup.com/jxb/article/73/11/3308/6547097.[6] 薛成, 李波卡, 雷天宇, 山红艳, 孔宏智. 生物多样性起源与进化研究进展. 生物多样性[J]. 2022, 第 5 作者30(10): 34-47, https://www.biodiversity-science.net/CN/10.17520/biods.2022460.[7] Shan, Hongyan, Kong, Hongzhi. The genome of Ginkgo biloba refined. NATURE PLANTS[J]. 2021, 第 2 作者 通讯作者 7(6): 714-715, [8] Liuyu Qin, Yiheng Hu, Jinpeng Wang, Xiaoliang Wang, Ran Zhao, Hongyan Shan, Kunpeng Li, Peng Xu, Hanying Wu, Xueqing Yan, Lumei Liu, Xin Yi, Stefan Wanke, John E Bowers, James H LeebensMack, Claude W dePamphilis, Pamela S Soltis, Douglas E Soltis, Hongzhi Kong, Yuannian Jiao. Insights into angiosperm evolution, floral development and chemical biosynthesis from the Aristolochia fimbriata genome. NATURE PLANTS[J]. 2021, 第 19 作者7(9): 1239-1253, [9] Liao, Hong, Fu, Xuehao, Zhao, Huiqi, Cheng, Jie, Zhang, Rui, Yao, Xu, Duan, Xiaoshan, Shan, Hongyan, Kong, Hongzhi. The morphology, molecular development and ecological function of pseudonectaries on Nigella damascena (Ranunculaceae) petals. NATURE COMMUNICATIONS[J]. 2020, 第 9 作者 通讯作者 11(1): [10] Jinghe Xie, Haifeng Zhao, Kunpeng Li, Rui Zhang, Yongchao Jiang, Meimei Wang, Xuelian Guo, Ben Yu, Hongzhi Kong, Yuannian Jiao, Guixia Xu. A chromosome-scale reference genome of Aquilegia oxysepala var. kansuensis. 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The morphology, molecular development and ecological function of pseudonectaries on Nigella damascena (Ranunculaceae) petals (vol 11, 1777, 2020). NATURE COMMUNICATIONS. 2020, 第 9 作者11(1): https://www.webofscience.com/wos/woscc/full-record/WOS:000558813200002.[17] Zhang, Rui, Min, Ya, Holappa, Lynn D, WalcherChevillet, Cristina L, Duan, Xiaoshan, Donaldson, Emily, Kong, Hongzhi, Kramer, Elena M. A role for the Auxin Response Factors ARF6 and ARF8 homologs in petal spur elongation and nectary maturation in Aquilegia. NEW PHYTOLOGIST[J]. 2020, 第 7 作者227(5): 1392-1405, http://dx.doi.org/10.1111/nph.16633.[18] Jiang, Yongchao, Wang, Meimei, Zhang, Rui, Xie, Jinghe, Duan, Xiaoshan, Shan, Hongyan, Xu, Guixia, Kong, Hongzhi. Identification of the target genes of AqAPETALA3-3 (AqAP3-3) in Aquilegia coerulea (Ranunculaceae) helps understand the molecular bases of the conserved and nonconserved features of petals. 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Interactions among proteins of floral MADS-box genes in Nuphar pumila (Nymphaeaceae) and the most recent common ancestor of extant angiosperms help understand the underlying mechanisms of the origin of the flower. JOURNAL OF SYSTEMATICS AND EVOLUTION[J]. 2015, 第 8 作者 通讯作者 53(4): 285-296, http://dx.doi.org/10.1111/jse.12148.[38] Zeng, Liping, Zhang, Qiang, Sun, Renran, Kong, Hongzhi, Zhang, Ning, Ma, Hong. Resolution of deep angiosperm phylogeny using conserved nuclear genes and estimates of early divergence times. NATURE COMMUNICATIONS[J]. 2014, 第 4 作者5(-): https://www.webofscience.com/api/gateway?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000342984800012&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=3a85505900f77cc629623c3f2907beab.[39] Li, Hao, Meng, Fanrui, Guo, Chunce, Wang, Yingxiang, Xie, Xiaojing, Zhu, Tiansheng, Zhou, Shuigeng, Ma, Hong, Shan, Hongyan, Kong, Hongzhi. MeioBase: acomprehensive database for meiosis. 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Revisiting taxonomy, morphological evolution, and fossil calibration strategies in Chloranthaceae. JOURNAL OF SYSTEMATICS AND EVOLUTION[J]. 2011, 第 4 作者 通讯作者 49(4): 315-329, http://lib.cqvip.com/Qikan/Article/Detail?id=38602763.[58] Liu, Yang, Guo, ChunCe, Xu, GuiXia, Shan, HongYan, Kong, HongZhi. Evolutionary pattern of the regulatory network for flower development: Insights gained from a comparison of two Arabidopsis species. JOURNAL OF SYSTEMATICS AND EVOLUTION[J]. 2011, 第 5 作者 通讯作者 49(6): 528-538, http://ir.ibcas.ac.cn/handle/2S10CLM1/13176.[59] Li, Haifeng, Liang, Wanqi, Jia, Ruidong, Yin, Changsong, Zong, Jie, Kong, Hongzhi, Zhang, Dabing. The AGL6-like gene OsMADS6 regulates floral organ and meristem identities in rice. CELL RESEARCH[J]. 2010, 第 6 作者20(3): 299-313, http://lib.cqvip.com/Qikan/Article/Detail?id=33427141.[60] 王台, 钱前, 袁明, 王小菁, 杨维才, 瞿礼嘉, 孔宏智, 许亦农, 蒋高明, 种康, , , , , , , , , , . 2009年中国植物科学若干领域重要研究进展. 植物学报[J]. 2010, 第 7 作者45(3): 265-306, https://www.chinbullbotany.com/CN/10.3969/j.issn.1674-3466.2010.03.001.[61] Liu, Cuijing, Zhang, Jian, Zhang, Ning, Shan, Hongyan, Su, Kunmei, Zhang, Jisi, Meng, Zheng, Kong, Hongzhi, Chen, Zhiduan. Interactions among Proteins of Floral MADS-Box Genes in Basal Eudicots: Implications for Evolution of the Regulatory Network for Flower Development. MOLECULAR BIOLOGY AND EVOLUTION[J]. 2010, 第 8 作者 通讯作者 27(7): 1598-1611, http://dx.doi.org/10.1093/molbev/msq044.[62] 薛皓月, 徐桂霞, 国春策, 山红艳, 孔宏智. 拟南芥和琴叶拟南芥中MADS-box 基因的比较进化分析. 生物多样性[J]. 2010, 第 5 作者18(2): 109-119, https://www.biodiversity-science.net/CN/10.3724/SP.J.1003.2010.109.[63] Gao, Xingchun, Liang, Wanqi, Yin, Changsong, Ji, Shenmin, Wang, Hongmei, Su, Xiao, Guo, Chunce, Kong, Hongzhi, Xue, Hongwei, Zhang, Dabing. The SEPALLATA-Like Gene OsMADS34 Is Required for Rice Inflorescence and Spikelet Development. 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