三、科研项目:
主持:
1. HZD2调控水稻缺锌响应的分子机理解析 国家自然科学基金(面上项目) 2022-2025;
2. 剪接因子OsSRL1调控水稻铁转运的分子机理 国家自然科学基金(面上项目) 2018-2021;
3. 水稻缺铁信号与茉莉酸信号互作的分子机制 国家自然科学基金(面上项目) 2015-2018;
4. NAC300调控水稻镉吸收及其在土壤镉污染修复中的应用 国家自然科学基金(青年基金) 2015-2017;
5. NAC300调控水稻响应镉胁迫及镉吸收机制 江苏省自然科学基金青年科学基金 2014-2017;
6. 水稻小麦氮素高效利用性状形成的分子调控 (子课题)十四五国家重点研发专项 2021-2026;
7. 作物重金属吸收转运及其与养分互作的分子机制 子课题:水稻调控重金属及其与养分互作关键因子分析 十三五国家重点研发“七大作物育种”专项 2016-2020;
8. 南京农业大学生命科学学院“双一流”建设专项 2018-2020;
9. 南京农业大学高层次引进人才启动基金 2013-2018;
参与:
1.作物应答非生物胁迫信号网络的解析与调控 中央高校基本业务费(重大专项)2014-2017;
2. 阻抗作物重金属积累的遗传改良技术研究与示范 农业部行业专项 2014-2018;
3. 旱地作物镉生理阻隔技术与阻隔剂研发 国家重点研发“农业面源和重金属污染农田综合防治与修复技术研发”专项 2016-2020;
四、发表文章:
Wang W, Ye J, Xu H, Liu X, Fu Y, Zhang H, Rouached H, Whelan J, Shen Z, Zheng L*. (2022). OsbHLH061 links TOPLESS/TOPLESS-RELATED repressor proteins with POSITIVE REGULATOR OF IRON HOMEOSTASIS 1 to maintain iron homeostasis in rice in Rice. New Phytologist 234:1753-1769.
Mu S, Yamaji N, Sasaki A, Luo L, Du B, Che J, Shi H, Zhao H, Huang S, Deng F, Shen Z, Guerinot ML, Zheng L*, Ma JF*. (2021). A transporter for delivering zinc to the developing tiller bud and panicle in rice. Plant J. 105:786-799.
Wang W, Ye J, Ma Y, Wang T, Shou H, Zheng L*. (2020). OsIRO3 Plays an Essential Role in Iron Deficiency Responses and Regulates Iron Homeostasis in Rice. Plants 9:1095.
Dong C, He F, Berkowitz O, Liu J, Cao P, Tang M, Shi H, Wang W, Li Q, Shen Z, Whelan J, Zheng L*. (2018). Alternative splicing plays a critical role in maintaining mineral nutrient homeostasis in rice (Oryza sativa). Plant Cell 30:2267–2285.
Zhang C, Lu W, Yang Y, Shen Z, Ma JF, Zheng L*. (2018). OsYSL16 is required for preferential Cu distribution to floral organs in rice. Plant Cell Physiol. 59: 2039-2051.
Zhang C, Shinwari KI, Luo L, Zheng L*. (2018). OsYSL13 is involved in iron distribution in rice. Int. J. Mol. Sci. 19, 335.
Hu S, Yu Y, Chen Q, Mu G, Shen Z, Zheng L*. (2017). OsMYB45 plays an important role in rice resistance to cadmium stress. Plant Sci. 264:1–8.
Wang J, Yu N, Mu G, Shinwari KI, Shen Z, Zheng L*.. (2017). Screening for Cd-safe Cultivars of Chinese Cabbage and Preliminary Study on the Mechanisms of Cd Accumulation. Int. J. Environ. Res. Public Health 14, 395.
Liu Q, L Luo, X Wang, Shen Z, Zheng L*.. (2017). Comprehensive analysis of rice laccase gene (OsLAC) family and ectopic expression of OsLAC10 enhances tolerance to copper stress in Arabidopsis. Int. J. Mol. Sci. 18, 209.
He F, Liu Q, Zheng L, Cui Y, Shen Z, Zheng L*. (2015). RNA-Seq analysis of rice roots reveals the involvement of post-transcriptional regulation in response to cadmium stress. Front. Plant Sci.6:1136.
Liu Q, Zheng L, He F, Zhao FJ, Shen Z, Zheng L*. (2015). Transcriptional and physiological analyses identify a regulatory role for hydrogen peroxide in the lignin biosynthesis of copper-stressed rice roots. Plant Soil 387: 323-336.
Hu W, Lv Y, Lei W, Li X, Chen Y, Zheng L, Xia Y, Shen Z. (2014). Cloning and characterization of the Oryza sativa wall-associated kinase gene OsWAK11 and its transcriptional response to abiotic stresses. Plant Soil 384:335–346.
刘清泉, 陈亚华, 沈振国, 郑录庆*. (2014). 细胞壁在植物重金属耐性中的作用. 植物生理学报 50: 605-611.
Zheng L, Yamaji N, Yokosho K, Ma JF. (2012). YSL16 is a phloem-localized transporter of the copper-nicotianamine complex that is responsible for copper distribution in rice. Plant Cell 24: 3767-3782.
Zheng L, Fujii M, Yamaji N, Sasaki A, Yamane M, Sakurai I, Sato K, Ma JF. (2011). Isolation and characterization of a barley yellow stripe-like gene, HvYSL5. Plant Cell Physiol. 52: 765-774.
Zheng L, Ying Y, Wang L, Wang F, Whelan J, Shou H. (2010). Identification of a novel iron regulated basic helix-loop-helix protein involved in Fe homeostasis in Oryza sativa. BMC Plant Biology10: 166.
Zheng L, Cheng Z, Ai C, Jiang X, Bei X, Zheng Y, Glahn RP, Welch RM, Miller DD, Lei XG, Shou H. (2010). Nicotianamine, a novel enhancer of rice iron bioavailability to humans. PLoS ONE 5(4): e10190.
Zheng L, Huang F, Narsai R, Wu J, Giraud E, He F, Cheng L, Wang F, Wu P, Whelan J, Shou H. (2009). Physiological and transcriptome analysis of iron and phosphorus interaction in rice seedlings. Plant Physiol. 151: 262-274.
郑录庆,何晓薇,陈飒,吴平,寿惠霞. (2006). 植物的质体转基因及其应用 植物生理学通讯 42: 367-373.
Wang L, Ying Y, Narsai R, Ye L, Zheng L, Tian J, Whelan J, Shou H. (2013). Identification of OsbHLH133 as a regulator of iron distribution between roots and shoots in Oryza sativa. Plant Cell Environ. 36: 224-236.
Wu J, Wang C, Zheng L, Wang L, Chen Y, Whelan J, Shou H. (2011). Ethylene is involved in the regulation of iron homeostasis by regulating the expression of iron-acquisition-related genes in Oryza sativa. J Exp Bot. 62: 667-674.
Liu S, Zheng L, Xue Y, Zhang Q, Wang L, Shou H. (2010). Overexpression of OsVP1 and OsNHX1 increases tolerance to drought and salinity in rice. J. Plant Biol. 53: 444-452.
Cheng L, Wang F, Shou H, Huang F, Zheng L, He F, Li J, Zhao FJ, Ueno D, Ma JF, Wu P (2007) Mutation in nicotianamine aminotransferase stimulated the Fe(II) acquisition system and led to iron accumulation in rice. Plant Physiol 145: 1647-1657.
五、申请/授权专利:
1. 郑录庆,胡淑宝,沈振国。 一种可视化显示植物根系受Cd胁迫程度的生物传感器及传感方法。 ZL2017107056980;
2. 郑录庆,牟帅。 水稻基因OsZIP4的基因工程应用。 ZL201810980884.X;
3. 郑录庆,牟帅。 用于X射线仪器元素扫描的植物样品处理方法。 ZL201910467989.X;
4. 寿惠霞,吴平,郑录庆,郑晔,程龙军,雷新根,贝晓姝。 提高食物中铁素生物有效性的方法。 ZL200710071567.8
