陈宁

主要从事雌雄异株植物表观遗传调控领域的研究工作。承担《遗传学》和《生物信息学》课程的教学任务。研究成果先后在Molecular Phylogenetics and Evolution、Critical Reviews in Biotechnology、Gene等期刊上发表论文12篇，主持省级科研项目2项（262102520084和252300420690），作为主要成员参加国家自然科学基金项目面上项目2项（31870360和31870360）。

植物性别发育与演化

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(1)河南省科学技术厅，河南省国际科技合作培育项目，262102520084，m⁶A修饰介导菠菜性别分化的分子机制研究，2026-01至2027-12，在研，主持。

(2)河南省科学技术厅，河南省自然科学基金青年项目，252300420690，菠菜性染色体NUPTs的分离鉴定及其在性染色体进化中的作用解析，2025-01至2026-12，在研，主持。

(3)国家自然科学基金委员会，面上项目，32171603，小麦族含St基因组物种适应性辐射的格局及基因组水平上的驱动因子，2022-01-01至2025-12-31，58万，在研，参与。

(4)国家自然科学基金委员会，面上项目，31870360，冰草多倍化物种形成式样，2019-01-01至2022-12-31，60万元，结题，参与。

代表性论文：

（1）Ning Chen, Wenjie Chen, Hao Yan, YiWang, Hou-Yang Kang, Hai-Qin Zhang, Yong-Hong Zhou, Gen-Lou Sun, Li-Na Sha and Xing Fan. Evolutionary patterns of plastome uncover diploid-polyploid maternal relationships in Triticeae. Molecular Phylogenetics and Evolution.2020, 149. 106838.

（2）Ning Chen, Lina Sha, Zhenzhen Dong, Chao Tang, Yi Wang, Houyang Kang, Haiqin Zhang, Xuebin Yan, Yonghong Zhou and Xing Fan. Complete structure and variation of the chloroplast genome of Agropyron cristatum (L.) Gaertn. Gene. 2018, 640: 86-96.

（3）Ning Chen, Hao Zhang, En Zang, Zhixia Liu, Yafei Lan, Weili Hao, Shan He, Xing Fan,Genlou Sun and Yiling Wang. Adaptation insights from comparative transcriptome analysis of two Opisthopappus species in the Taihang mountains. BMC Genomics. 2022, 23:466.

（4）Ning Chen, Lina Sha, Yiling Wang, Lingjuan Yin, Yue Zhang, Yi Wang, Dandan Wu,Houyang Kang, Haiqin Zhang, Yonghong Zhou, Genlou Sun and Xing Fan. Variationin plastome sizes accompanied by evolutionary history in monogenomic Triticeae(Poaceae: Triticeae)[J]. Frontiers in Plant Science, 2021,12: 741063.

（5）M Scarrow, Ning Chen, Genlou Sun. Insights into the N6-methyladenosine mechanism and its functionality:progress and questions[J]. Critical reviews in biotechnology, 2020,40(5): 639-652.

（6）Scarrow M, Chen N, Namaganda A,et al. N 6-Methyladenosine and physiological response divergence confer autotetraploid enhanced salt tolerance compared to its diploid Hordeum bulbosum[J]. Physiology and Molecular Biology of Plants, 2022: 1-9.

（7）You C, Yang H, Zhao Y, Wang X, Wei S, Chen N, et al. 2025. Spatiotemporal transcriptomic atlas reveals the regulatory mechanisms underlying early inflorescence development and sex differentiation in spinach. Advance Science, 12(36): e07818.

（8）Zhang Y L, Wang L Y, Yang Y, Zhao X, Zhu H W, You C, Chen N, et al. 2024. Gibberellins regulate masculinization through the SpGAI‐SpSTM module in dioecious spinach. The Plant Journal, 118(6): 1907-1921.

（9）Y Yu, F Sun, Chen N, et al. MiR396 regulatory network and its expression during grain development in wheat. Protoplasma, 2021, 258: 103-113. 

（10）Chao Tang, Jie Qi, Ning Chen, et al. Genome origin and phylogenetic relationships of Elymus villosus (Triticeae: Poaceae) based on single-copy nuclear Acc1, Pgk1, DMC1 and chloroplast trnL-F sequences. Biochemical Systematics and Ecology, 2017, 70: 168-176. 

（11）Chen S, Yan H, Sha L, Chen N et al. Chloroplast phylogenomic analyses resolve multiple origins of the Kengyilia species (Poaceae: Triticeae) via independent polyploidization events. Frontiers in Plant Science, 2021, 12: 682040. 

（12）Scarrow M, Chen N, Namaganda A, Genlou Sun. N6Methyladenosine and physiological response divergence confer autotetraploid enhanced salt tolerance compared to its diploid Hordeum bulbosum. Physiology and Molecular Biology of Plants, 2022, 28(11): 2013-2021.