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作物栽培学与耕作学系

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       名:郭程瑾

       别:女

       称:教授,硕士生导师

        话:0312-7528131

电子邮箱:guocj@hebau.edu.cn






个人简历(学习/访学/工作简历)

1987.09-1991.06:威廉希尔中文官方网站,作物专业,农学学士;

1999.09- 2002.06:威廉希尔中文官方网站,作物栽培学与耕作学专业,农学硕士;

2008.09-2014.06:威廉希尔中文官方网站,作物栽培学与耕作学专业,农学博士;

2017.02-2018.02USDA Central Small Grain Genotyping Lab and Agronomy Department of Kansas State University.

2010.03-至今:威廉希尔中文官方网站 教授,硕士生导师。




研究领域

小麦抗逆、养分高效的生理生化机制及相关基因功能鉴定及分子机理研究。




◆教学工作

本科生课程:《农业推广学》(主讲)、《作物生理》(参讲);




成果奖励

1. 郭程瑾(2完成人. 耐低磷小麦高效吸磷机理和遗传, 河北省人民政府, 河北省科学自然科学奖,三等,2008ZR3005-2 (2009.3.23).

2. 郭程瑾(第8完成人). 海河平原小麦节水超高产栽培技术体系,河北省人民政府,河北省科技进步奖,一等,2010JB1009-82010.12.14)。

3. 郭程瑾(第6完成人). 河北省小麦、玉米光合生产潜力及高光效技术体系河北省人民政府,河北省科技进步奖,等,2005JB2020-062005.10.31)。

4. 郭程瑾(参加). 海河平原小麦玉米两熟丰产高效关键技术创新与应用,中华人民共和国国务院,国家科技进步奖,二等,2011-J-251-2-01-D01CN-J-2-LF-R16)(2012.4.10




科研项目

1. 耐低氮小麦高效吸氮机理和氮效率杂种优势研究,河北省自然科学基金项目,5万元,2008-2010年,课题主持人

2. 小麦小分子RNA TaMIR408TaMIR1122调控植株应答低磷逆境的分子机理,河北省自然科学基金项目,7万元2013-2015,课题主持人。

3.中北部新乐及周边县市小麦-玉米节水高产增效栽培技术集成与示范,河北省科技厅,50万元2018.7-2021.12,课题主持人。

4.小麦新型磷转运蛋白基因的分子特征和功能解析,国家自然科学基金项目:30万,2010.01-2012.12第二参加人

4. 小麦NF-YB转录因子家族成员介导植株抵御干旱逆境的分子机理,国家自然科学基金面上项目,60万,2019-2022第二参加人

5. 小麦小分子RNA TaMIR167TaMIR1139应答和抵御低磷逆境的分子机理,国家自然科学基金,30万,2014.01-2017.12参加人




◆发表论文

1. Chengjin Guo, Xiaolei Zhao, Xiaoman Liu, Lijun Zhang, Juntao Gu, Xiaojuan Li, Wenjing Lu, Kai Xiao. Function of wheat phosphate transporter gene TaPHT2;1 in Pi translocation and plant growth regulation under replete and limited Pi supply conditions. Planta, 2013, 237(4): 1163-1178

2. Chengjin Guo, Li Guo, Xiaojuan Li, Juntao Gu, Miao Zhao, Weiwei Duan, Chunying Ma, Wenjing Lu, Kai Xiao. TaPT2, a high-affinity phosphate transporter gene in wheat (Triticum aestivum L.), is crucial in plant Pi uptake under phosphorus deprivation. Acta Physiologiae Plantarum, 2014 (accepted, SCI, 2012 IF 1.305)

3. Yuanyuan Zhao, Chengjin Guo, Xiaojuan Li, Weiwei Duan, Chunying Ma, Li Guo, Yanli Wen, Wenjing Lu, Kai Xiao. Characterization and expression pattern analysis of microRNAs in wheat (Triticum aestivum L.) under drought stress. Biologia Plantarum, 2015, 59(1): 37-46.(共同第一作者)

4. Gao S, Guo CJ*, Zhang YS, Zhang FF, Du XM, Gu JT, Xiao K*. Wheat microRNA Member TaMIR444a Is Nitrogen Deprivation-Responsive and Involves Plant Adaptation to the Nitrogen-Starvation Stress. Plant Molecular Biology Reports. 2016, 34: 931-94(共同第一作者)

5. Chengjin Guo, Jinfeng Zhao, Chuanfan Sun, Juntao Gu, Wenjing Lu, Xiaojuan Li, Kai Xiao*. Expression, transcriptional regulation and functional analysis of phosphate transporter genes in plants. Frontiers of Agriculture in China, 2011, 5(1): 22-30

6. Chengjin Guo, Juntao Gu, Xiaojuan Li, Wenjing Lu, Chunying Ma, Kai Xiao*. The molecular characterization and function of MiRNAs on mediation of target gene silencing in plants. Frontiers of Agriculture in China, 2011, 5(2): 162-172

7. Chengjin Guo, Wensuo Chang, Juntao Gu, Xiaojuan Li, Wenjing Lu, Kai Xiao*. Molecular characterization, transcriptional regulation and function analysis of nitrate transporters in plants. Frontiers of Agriculture in China, 2011, 5(3): 291-298

8. Chengjin Guo, Jincai Li, Wensuo Chang, Lijun Zhang and Xirong Cui, Kai Xiao*. Effects of chromosome substitution on the utilization efficiency of nitrogen, phosphorus, and potassium in wheat. Frontiers of Agriculture in China, 2011, 5(3): 253-261

9. Qianqian Bai, Xi Chen, Guiqing Shi, Zhipeng Liu, Chengjin Guo*, Kai Xiao. Wheat miRNA taemiR408 acts as an essential mediator in plant tolerance to Pi deprivation and salt stress via modulating stress-associated physiological processes. Frontiers in Plant Science, 2018, 9: 499 (通讯作者)

10. Guiqing Shi, Jingying Fu, Lingjie Rong, Pei-yue Zhang, Chengjin Guo*, Xiao Kai. TaMIR1119, a miRNA family member of wheat (Triticum aestivum), is essential in the regulation of plant drought tolerance. Journal of Integrative Agriculture 2018, 17(11): 2369-2378(通讯作者)

11. Ling Wang, Xinyang Bai1, Yuanjinzi Qiao, Lili Si, Zidi Yu, Chenyang Ni, Tianjiao Li, Chengjin Guo, Kai Xiao. tae‑miR9674a, a microRNA member of wheat, confers plant drought and salt tolerance through modulating the stomata movement and ROS homeostasis. Plant Biotechnology Reports,https://doi.org/10.1007/s11816-022-00787-5(通讯作者)



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