董雪博士与“植物分子遗传暨玫瑰遗传与种质创新团队”简介
董雪博士,校聘教授,博士生导师,“植物分子遗传暨玫瑰遗传与种质创新团队”骨干。本科毕业于山东师范大学生物系;在中国医学科学院中国协和医科大学昆明医学生物学研究所获得生物化学和分子生物学硕士学位;2008年到2012年在德国马普植物育种研究所学习并获农学博士学位,后继续从事博士后研究工作;2015年入职中国科学院昆明植物研究所;2025年入职太阳成集团tyc539观赏园艺系。主持国家自然科学基金面上项目1项。已结题国家自然科学基金青年项目和云南省青年基金各1项;参与中国科学院“百人计划”、中国科学院先导B等省部级项目若干。主要从事植物开花时间调控的分子与表观遗传机制研究,以第一作者或通讯作者(含共同)在Plant Cell、Genome Biology、Plant Physiology、Journal of Experimental Botany、Plant Diversity等发表学术论文,合作发表10多篇。
“植物分子遗传暨玫瑰遗传与种质创新团队”以植物开花时间等关键生物学和经济学性状的调控机制与多样性机理为抓手,以蔷薇科月季/玫瑰和十字花科植物等为试材,基于“自然突变体(natural mutant)”理论,充分利用分子遗传学、比较基因组学、演化生物学等方法和手段来解析植物开花性状多样化的调控规律和演化模式。发展“自然突变体”理论,提出玫瑰“皮刺储水”、食用玫瑰“复杂网状起源”等重要假说,挖掘了一批性状调控基因资源并储备了大量种质资源,为后续种业创新奠定了重要基础。近10年在National Science Review、Plant Cell、Plant Communications、Horticulture Research、Molecular Plant、Plant Journal、Plant Physiology等期刊发表学术论文20多篇,培养了一批青年骨干人才。这些发现和成果将应用于培育具特定开花习性和关键创新性状的新种质资源,从根本上为我国鲜花种业创新提供重要抓手和示范,服务于花卉种业提升和产业改善。团队现有教授1人、校聘教授2人(仲米财博士、董雪博士)、校聘副教授1人(蒋晓东博士)、博士后和研究生10余人。团队主要开展三方面研究:1、关键创新性状调控的分子遗传基础与自然变异;2、玫瑰资源遗传多样性演化与驯化;3、玫瑰种质资源创新。
董雪博士代表性论文: (*,通讯作者;#,共同一作)
1.Dong X, Zhang L, Tang Y-H, Yu D, Cheng F, Dong Y, Jiang X, Qian F, Guo Z-H*, Hu J* (*, co-corresponding authors). Arabidopsis AGAMOUS-LIKE16 and SUPPRESSOR OF CONSTANS 1 regulate the genome-wide expression and flowering time. Plant Physiology, 2023, 192:154-169.
2.Yu D, Dong X*, Zou K, Jiang X-D, Sun Y-B, Min Z, Zhang L-P, Cui H*, Hu J-Y*. A hidden mutation in the seventh WD40-repeat of COP1 determines the early flowering trait in a set of Arabidopsis myc mutants. Plant Cell, 2023, 35:345-350.
3.Wang D, Dong X *, Zhong M-C, Jiang X-D, Cui W-H, Bendahmane M *, Hu J-Y *. Molecular and genetic regulation of petal number variation in plants. Journal of Experimental Botany, 2024, 75:3233-3247.
4.Li S#, Zhong M#, Dong X#, Jiang X, Xu Y, Sun Y, Cheng F, Li D-Z, Tang K, Wang S*, Dai S*, Hu J-Y*. Comparative transcriptomics identifies patterns of selection in roses. BMC Plant Biology, 2018, 18:371.
5.Dong X, Jiang X, Kuang G, Wang Q, Zhong M, Jin D, Hu J-Y*. Genetic control of flowering time in woody plants: roses as an emerging model. Plant Diversity, 2017, 39:104-110.
6.Dong X#, Reimer J#, Göbel U, Engelhorn J, He F, Schoof H, Turck F*. Natural variation of H3K27me3 between two Arabidopsis accessions and its association with flanking transposable elements. Genome Biology, 2012,13:R117.
团队研究生招生计划:每年招收博士2-3人,学硕3-5人,专硕3-5人。
团队博士后招收计划:每年招收1-3名博士后;待遇优厚,特别资助年薪35万元(税前,下同),重点资助年薪25万元,普通资助年薪18万元,并可与国家、省部级“博新计划”等入选后专项经费资助叠加,最高约70万元。聘期内享受学校在职教职工的同等福利待遇,按有关规定办理社保、医保、住房公积金和博士后公寓等,享受子女入托、入学方面的待遇,提供学校幼儿园、附属学校等优质教育资源;支持在站博士后参加国际高水平学术活动。申请人需对科研有浓厚兴趣,身心健康,有高度责任心;具基因组学、分子遗传学、生物化学与分子生物学、农学、园艺学等相关领域博士学位,年龄在 35周岁(含)以下;具较好英文阅读和写作能力,良好独立工作、交流与沟通能力,学风严谨、工作积极、富团队合作精神;在领域或综合性期刊以第一或通讯作者身份发表过重要学术论文。
联系方式:rose@sdau.edu.cn;地址:太阳集团tyc539岱宗校区,泰安市泰山区文化路44号。
团队近10年代表性论文(*,通讯作者;#,共同一作)
1.Zhao J-X #, Wang S #, Wen J #, Zhou S-Z, Jiang X-D, Zhong M-C, Liu J, Dong X, Deng Y *, Hu J-Y *, Li D-Z *. Evolution of the FLOWERING LOCUS T-like genes in angiosperms: a core-Lamiales-specific diversification. Journal of Experimental Botany, 2024, 75:3946-3958.
2.Wang D, Dong X *, Zhong M-C, Jiang X-D, Cui W-H, Bendahmane M *, Hu J-Y *. Molecular and genetic regulation of petal number variation in plants. Journal of Experimental Botany, 2024, 75:3233-3247.
3.Liu J #, Zhou S-Z #, Liu Y-L #, Zhao B-Y #, Yu D, Zhong M-C, Jiang X-D, Cui W-H, Zhao J-X, Qiu J, Liu L-M, Guo Z-H, Li H-T, Tan D-Y, Hu J-Y *, Li D-Z *. Genomes of Meniocus linifolius and Tetracme quadricornis unveil the ancestral karyotype and genomic features of core Brassicaceae. Plant Communications, 2024, 5:100878.
4.Zhao J-X #, Wang S #, Liu J #, Jiang X-D, Wen J, Suo Z-Q, Liu J, Zhong M-C, Wang Q, Gu Z, Liu C, Deng Y *, Hu J-Y *, Li D-Z *. A comparative full-length transcriptomic resource provides insight into the perennial monocarpic mass flowering. Plant Journal,2023, 116:1842-1855.
5.Dong X, Zhang L, Tang Y-H, Yu D, Cheng F, Dong Y, Jiang X, Qian F, Guo Z-H*, Hu J-Y*. Arabidopsis AGAMOUS-LIKE16 and SUPPRESSOR OF CONSTANS 1 regulate the genome-wide expression and flowering time. Plant Physiology, 2023, 192:154-169.
6.Yu D, Dong X*, Zou K, Jiang X-D, Sun Y-B, Min Z, Zhang L-P, Cui H*, Hu J-Y*. A hidden mutation in the seventh WD40-repeat of COP1 determines the early flowering trait in a set of Arabidopsis myc mutants. Plant Cell, 2023, 35:345-350.
7.Jiang X-D, Zhong M-C, Dong X, Li S-B*, Hu J-Y*. Rosoideae-specific duplication and functional diversification of FT-like genes in Rosaceae. Horticulture Research, 2022, 9:uhac059.
8.Cui W-H, Du X-Y, Zhong M-C, Fang W, Suo Z-Q, Wang D, Dong X, Jiang X-D *, Hu J-Y *. Complex and reticulate origin of edible roses (Rosa, Rosaceae) in China. Horticulture Research, 2022, 9:uhab051.
9.Zhong M-C, Jiang X-D, Dong X, Yang G-Q, Wang W-J, Cui W-H, Suo Z-Q, Sun Y-B, Wang D, Cheng X-C, Li X-M, Tang K-X*, Li D-Z*, Hu J-Y *. Rose without prickle: genomic insights linked to moisture adaptation. National Science Review, 2021, 8:nwab092 (cover story).
10.Guo Z-H#, Ma P-F#, Yang G-Q#, Hu J-Y#, Liu Y-L#, Xia E-H, Zhong M-C, Zhao L, Sun G-L, Xu Y-X, Zhao Y-J, Zhang Y-C, Zhang Y-X, Zhang X-M, Zhou M-Y, Guo Y, Guo C, Liu J-X, Ye X-Y, Chen Y-M, Yang Y, Han B, Lin C-S*, Lu Y*, Li D-Z*. Genome sequences provide insights into the reticulate origin and unique traits of woody bamboos. Molecular Plant, 2019, 12:1353-1365.
其他代表性学术论文(*,通讯作者;#,共同一作):
1.Hu J-Y *,#, Zhou Y, He F, Dong X, Liu L-Y, Coupland G, Turck F, de Meaux J *. MiR824-modulated AGAMOUS-LIKE-16 module participates in repressor complexes to control flowering in Arabidopsis thaliana. Plant Cell, 2014, 26:2024-2037.
2.Khan MR #, Hu J-Y #, Riss S, He C, Saedler H. MPF2-like-A MADS-box genes control the inflated calyx syndrome in Withania (Solanaceae): roles of Darwinian’s selection. Molecular Biology and Evolution, 2009; 26: 2463 – 2473.
3.Hu J-Y, Saedler H. Evolution of Inflated-Calyx-Syndrome (ICS) in Solanaceae. Molecular Biology and Evolution, 2007, 24: 2443-2453.