(1)主持项目情况
先后主持国家自然科学基金青年项目、地区项目、面上项目、国家重点研发子课题、自治区重点研发项目、自治区酿酒葡萄育种专项等多个项目。
[1]国家自然科学基金面上项目“VaCOLD1-VaBI/1-VaTIP1;1模块介导自噬调控葡萄低温胁迫应答的分子机制”(32472711),2025~2028,主持在研;
[2] 国家自然科学基金地区基金项目“山葡萄VaCIPK18介导VaMYB4a磷酸化调控抗寒应答的分子机理”(32060672),2021~2024,主持在研;
[3] 国家自然科学基金地区基金项目“E3泛素连接酶HOS1介导泛素化修饰调控葡萄抗寒应答的作用机制”(31860542),2018~2021,主持完成;
[4]国家自然科学基金地区基金项目”山葡萄特异CBL-CIPK互作子介导的低温胁迫应答机理研究”(31560550),2016~2019,主持完成;
[5] 国家自然科学基金青年基金项目“中国野生山葡萄抗寒转录因子的克隆与功能研究”(31101522),2012~2014,主持完成;
[6]宁夏回族自治区重点研发项目“葡萄重要抗逆性状关键基因挖掘及无痕基因编辑抗逆新种质的创制”(2023ZDYF0830),2023~2025,主持在研;
[7]宁夏回族自治区育种专项“优质抗寒旱酿酒葡萄新品种选育”(NXNYYZ202101),2021~2025,主持在研;
[8]国家重点研发子课题“优质耐寒旱酿酒葡萄新营养系的选育 ”(2019YFD1002500),2019~2022,主持完成。
(2)代表性论著(*第一或通讯作者,本人姓名加粗)
在国内外学术刊物上发表代表性论文有:
[1]Zhao, H., Xie, Y., Zheng, Q., Yu, Q., Lv, K., Hao, X., Zhang, N., & Xu, W(通讯作者). (2024). A simple and efficient non-tissue culture method for genetic transformation of grape immature zygotic embryos via VvBBM overexpression. Scientia Horticulturae, 337, 113581.
[2]Zheng, Q., Yu, Q., Yao, W., Lv, K., Zhang, N., & Xu, W(通讯作者). (2023). Decoding VaCOLD1 Function in Grapevines: A Membrane Protein Enhancing Cold Stress Tolerance. Journal of Agricultural and Food Chemistry, 71(49), 19357-19371.
[3]Li, J., Lv, K., Wu, J., Xie, Y., Zhang, J., Zhang, N., & Xu, W(通讯作者). (2023). Exogenous Melatonin Promotes Cold Tolerance in Grape Seedlings: Physiological, Transcriptomic, and Functional Evidence. Journal of Agricultural and Food Chemistry, 71(50), 19970-19985.
[4]Zhang J., Wu J., Hao X., Xie Y., Lv K., & Xu W(通讯作者). (2023). Establishment of a stable grape immature zygotic embryo-based genetic transformation system. Scientia Horticulturae, 316, 112009.
[5]Wu N., Li J., Zheng Q., Wu J., & Xu W(通讯作者). (2023). Characterization of the core region of grape VvHOS1 promoter activity and its upstream regulatory proteins. Environmental and Experimental Botany, 207, 105199;
[6]Zheng, Q., Yu, Q., Wu, N., Yao, W., Li, J., Lv, K., & Xu W(通讯作者). (2023). A grape VvHOS1-interacting HIPP protein (VvHIPP21) negatively regulates cold and drought stress. Environmental and Experimental Botany, 207, 105203;
[7]王佳慧, 徐伟荣(通讯作者), 郑巧玲, 李俊铎, 俞沁含. (2023). ‘赤霞珠’葡萄未成熟合子胚的体细胞胚发生研究. 植物生理学报,59 (1): 67–77
[8]崔 莹,吴洁萍,张俊霞,郝新意,徐伟荣 (通讯作者).(2023). 外源海藻糖影响赤霞珠幼苗抗寒性的生理生化作用. 果树学报,40(3): 505-515
[9]Yu, Q., Zheng, Q., Shen, W., Li, J., Yao, W., & Xu W(通讯作者). (2022). Grape CIPK18 acts as a positive regulator of CBF cold signaling pathway by modulating ROS homeostasis. Environmental and Experimental Botany, 203, 105063;
[10]Ya R., Li J., Zhang N., Yu Q., & Xu W(通讯作者). (2023). Phenotypically abnormal cotyledonary Vitis vinifera embryos differ in anatomy, endogenous hormone levels and transcriptome profiles. Tree Physiology, 43(3), 467-485;
[11]Jiao, S. Z., Guo, C., Yao, W. K., Zhang, N. B., Zhang, J. Y., & Xu W(通讯作者). (2022). An Amur grape VaHsfC1 is involved in multiple abiotic stresses. Scientia Horticulturae, 295, 110785;
[12]Xu G., & Xu W(通讯作者). (2021). Complete chloroplast genomes of Chinese wild-growing Vitis species: molecular structures and comparative and adaptive radiation analysis. Protoplasma, 258, 559-571;
[13]马俊杰, 宋丽娜, 李乐, 马晓春, 靳磊, & 徐伟荣(通讯作者). (2021). 山葡萄 VaCBL6 参与非生物胁迫和 ABA 途径的响应.园艺学报, 48(6), 1079;
[14]张莹, 雅蓉, 徐伟荣(通讯作者), 王佳慧, 崔莹, & 李俊铎. (2021). 褪黑素在霞多丽葡萄种子体细胞胚诱导发生中的作用. 果树学报,38, 922-933;
[15]俞沁含, 焦淑珍, 吴楠, 张宁波, & 徐伟荣(通讯作者). (2021). 葡萄 E3 泛素酶 HOS1 基因克隆, 表达及抗血清制备. 园艺学报,48, 1173;
[16]郑巧玲, 申威, 姚文孔, & 徐伟荣(通讯作者). (2020). 山葡萄低温诱导酵母双杂三框 cDNA 文库构建和 VaCIPK18 互作蛋白筛选鉴定. 园艺学报,47, 2301;
[17]吴楠, 张宁波, 郑巧玲, 陈卫平, & 徐伟荣(通讯作者). (2020). 山葡萄 VaCIPK18 原核表达与多克隆抗体制备.核农学报, 34, 1387-1396.;
[18]雅蓉, 徐伟荣(通讯作者), 张莹, 夏思琪, & 张宁波. (2020). 褪黑素对 ‘无核白’葡萄体细胞胚的诱导作用. 园艺学报, 47, 953;
[19]Xu W., Shen W., Ma J., Ya R., Zheng Q., Wu N., ... & Zhang J. (2020). Role of an Amur grape CBL-interacting protein kinase VaCIPK02 in drought tolerance by modulating ABA signaling and ROS production. Environmental and Experimental Botany, 172, 103999;
[20]焦淑珍, 姚文孔, 张宁波, & 徐伟荣(通讯作者). (2020). 园艺植物热激转录因子研究进展. 果树学报, 37, 419-430;
[21]Xu W., Ma F., Li R., Zhou Q., Yao W., Jiao Y., ... & Wang Y. (2019). VpSTS29/STS2 enhances fungal tolerance in grapevine through a positive feedback loop. Plant, Cell & Environment, 42, 2979-2998;
[22]申威, 姚文孔, 郑巧玲, 张宁波, & 徐伟荣(通讯作者). (2019). 山葡萄 VaCBL01 基因克隆及其与 VaCIPKs 蛋白互作分析. 农业生物技术学报, 27, 1149-1160;
[23]Zhang N., Li R., Shen W., Jiao S., Zhang J., & Xu W(通讯作者). (2018). Genome-wide evolutionary characterization and expression analyses of major latex protein (MLP) family genes in Vitis vinifera. Molecular Genetics and Genomics, 293, 1061-1075;
[24]丁小玲, 张宁波, 焦淑珍, 申威, 史文婷, & 徐伟荣(通讯作者). (2017). 山葡萄 COR413 家族基因克隆及其参与低温胁迫的表达分析.农业生物技术学报, 25, 366-377;
[25]徐伟荣, 张宁波, & 王振平. (2014). 欧洲葡萄碱性螺旋-环-螺旋 (bHLH) 基因家族密码子使用偏性分析. 农业生物技术学报, 22, 440-448;
[26]Xu W., Li R., Zhang N., Ma F., Jiao Y. & Wang Z. (2014) Transcriptome profiling of Vitis amurensis, an extremely cold-tolerant Chinese wild Vitis species, reveals candidate genes and events that potentially connected to cold stress.Plant Molecular Biology, 86, 527-541;
[27] Xu W., Zhang N., Jiao Y., Li R., Xiao D. & Wang Z. (2014) The grapevine basic helix-loop-helix (bHLH) transcription factor positively modulates CBF-pathway and confers tolerance to cold-stress in Arabidopsis. Molecular Biology Reports,41, 5329-5342;
[28]Xu W., Jiao Y., Li R., Zhang N., Xiao D., Ding X., & Wang Z. (2014). Chinese wild-growing Vitis amurensis ICE1 and ICE2 encode MYC-type bHLH transcription activators that regulate cold tolerance in Arabidopsis. PloS One,9, e102303;
[29] Xu W., Yu Y., Zhou Q., Ding J., Dai L., Xie X., Xu Y., Zhang C. & Wang Y. (2011) Expression pattern, genomic structure, and promoter analysis of the gene encoding stilbene synthase from Chinese wild Vitis pseudoreticulata. Journal of Experimental Botany,62, 2745-2761;
[30] Xu W., Yu Y., Ding J., Hua Z. & Wang Y. (2010) Characterization of a novel stilbene synthase promoter involved in pathogen-and stress-inducible expression from Chinese wild Vitis pseudoreticulata. Planta,231, 475.
教育教学成果奖
《“三协同四提升”葡萄与葡萄酒全产业链人才培养模式创新与实践》获宁夏高等教育教学成果二等奖(2021)。
科研奖励
“葡萄属植物冷害应答机制的分子基础与关键调控网络解析”获宁夏回族自治区自然科学三等奖(2023)。