2021年12月毕业于山东农业大学发育生物学专业,获理学博士学位。2022年5月进入枣庄学院生命科学学院工作。主要从事作物农艺性状的分子解析与调控的相关研究。参与国家自然科学基金项目3项。近年来以第一或共同作者身份在《Journal of Experimental Botany》、《Plant Science》、《Journal of Integrative Plant Biology》等国内外主流学术期刊上发表SCI论文8篇。
科研项目:
[1] 魏一鸣(2/6),核质转运受体SMK307调控玉米胚乳早期发育的分子机制(32071921), 国家自然科学基金面上项目,58万元,2021.01-2024.12。在研, 参与;
[2] 魏一鸣(5/6),拟南芥WUSCHEL互作因子WIC1调控茎端分生组织功能的机理研究(31600157), 国家自然科学基金青年项目,20万元,2017.01-2019.12, 结题, 参与;
[3] 魏一鸣(8/10),ZmAUX1基因调控玉米穗行数形成的遗传网络解析(91535109),国家自然科学基金重大研究计划项目,95.2万元,2016.01-2017.12, 结题, 参与。
近年来发表的代表性论文(#表示共同第一;*表示通讯作者):
[1] Wei Y M#, Wang B H#, Shao D J#, Yan R Y, Wu J W, Zheng G M, Zhao Y J, Zhang X S, Zhao X Y*. Defective kernel 66 encodes a GTPase essential for kernel development in maize.Journal of Experimental Botany, 2023, online
[2]Wei Y M#, Ren Z J#, Wang B H, Zhang L, Zhao Y J, Wu J W, Li L G, Zhang X S*, Zhao X Y*. A nitrate transporter encoded by ZmNPF7.9 is essential for maize seed development,Plant Science, 2021, 308: 110901
[3] Wu D,Wei Y M, Zhao X Y, Li B K, Zhang H K, Xu G, Lv J T, Zhang D J, Zhang X S*, Ni M*. Ancestral HAIKU2 function but divergent epigenetic regulation reveals routes of seed developmental evolution.Molecular Plant, 2022
[4] Shao D J,Wei Y M, Yu Z Q, Dai X R, Gao X Q*. Arabidopsis AtPRP17 functions in embryo development by regulating embryonic patterning,Planta, 2021, 254: 58
[5] Ren R C, Lu X D, Zhao Y J,Wei Y M, Wang L L, Zhang L, Zhang W T, Zhang C Y, Zhang X S*, Zhao X Y*. Pentatricopeptide repeat protein DEK45 is required for mitochondrial function and kernel development in maize,Journal of Experimental Botany, 2019, 70: 6163-6179
[6] Ren R C, Wang L L, Zhang L, Zhao Y J, Wu J W,Wei Y M, Zhang X S*, Zhao X Y*. DEK43 is a P-type pentatricopeptide repeat (PPR) protein responsible for the Cis-splicing of nad4 in maize mitochondria,Journal of Integrative Plant Biology, 2020, 62: 299-313
[7] Ren R C, Yan X W, Zhao Y J,Wei Y M, Lu X D, Zang J, Wu J W, Zheng G M, Ding X H, Zhang X S, Zhao X Y*. The novel E-subgroup pentatricopeptide repeat protein DEK55 is responsible for RNA editing at multiple sites and for the splicing of nad1 and nad4 in maize,BMC Plant Biology, 2020, 20: 553
[8] Liu N, Zhao Y J, Wu J W,Wei Y M, Ren R C, Zang J, Zhang W T, Zhang L, Shen Q, Zhang X S*, Zhao X Y*. Overexpression of ZmDWF4 improves major agronomic traits and enhances yield in maize,Molecular Breeding, 2020, 40: 71