秦 华博士、副研究员

qinhua@caas.cn
研究中心

作物分子生物学研究中心

创新团队

作物耐逆性调控与改良创新团队

课 题 组

黄荣锋课题组

招生方向

生物化学与分子生物学

学习工作经历

2011年7月在长江大学生物工程专业获工学学士学位;
2017年7月中国农业科学院获得理学博士学位;
2017-7至2019-7, 中国农业科学院生物技术研究所, 博士后;2019-7至2020-1, 中国农业科学院, 生物技术研究所, 助理研究员;
2020-1至今, 中国农业科学院, 生物技术研究所, 副研究员。

主要研究领域与成果
以水稻为研究对象,围绕水稻耐逆性适应及其遗传改良这一重大需求,剖析植物激素乙烯调控水稻根发育及耐逆性的分子机理。主持国家自然科学基金青年基金一项,在Small methods、Plant Cell、New Phytologist、PLoS Genetics等国际知名期刊发表SCI论文16篇,其中第一(含并列第一)和通讯作者12篇,获得国家发明专利3项。

主要论著
(1) Qin Hua#, Pandey Bipin K.#, Li Yuxiang#, Huang Guoqiang#, Wang Juan, Quan Ruidang, Zhou Jiahao, Zhou Yun, Miao Yuchen, Zhang Dabing*, Bennett Malcolm J.* and Huang Rongfeng*. (2021). Orchestration of ethylene and gibberellin signals determines primary root elongation in rice. Plant Cell. DOI: 10.1093/plcell/koac008.
(2) Huang Yingying, Zhou Jiahao, Li Yuxiang, Quan Ruidang, Wang Juan, Huang Rongfeng and Qin Hua*. (2021). Salt Stress Promotes Abscisic Acid Accumulation to Affect Cell Proliferation and Expansion of Primary Roots in Rice. Int J Mol Sci. 22: 10892.
(3) Qin Hua, Li Yuxiang, Huang Rongfeng. (2020). Advances and Challenges in the Breeding of Salt-Tolerant Rice. Int J Mol Sci. 21: 8385.
(4) Qin Hua, Huang Rongfeng. (2020). The phytohormonal regulation of Na+/K+ and reactive oxygen species homeostasis in rice salt response. Mol Breeding. 40: 47.
(5) Qin Hua, Wang Juan, Chen Xinbing, Wang Fangfang, Peng Peng, Zhou Yun, Miao Yuchen, Zhang Yuqiong, Gao Yadi, Qi Yidong, Zhou Jiahao, Huang Rongfeng. (2019). Rice OsDOF15 contributes to ethylene-inhibited primary root elongation under salt stress. New Phytol. 223:798-813.
(6) Qin Hua, Ma Changle, Zhou Yun, Miao Yuchen, Huang Rongfeng. (2019). Molecular Modulation of Root Development by Ethylene. Small Methods.1900067: 1-7.
(7) Qin Hua, He Lina, Huang Rongfeng. (2019). The Coordination of Ethylene and Other Hormones in Primary Root Development. Front Plant Sci. 10:874.
(8) Qin Hua, Huang Rongfeng. (2018). Auxin Controlled by Ethylene Steers Root Development. Int J Mol Sci. 19: pii: E3656.
(9) Qin Hua, Zhang Zhijin, Chen Xinbing, Wang Juan, Wei Pengcheng, Huang Rongfeng. (2017). The activation of OsEIL1 on YUC8 transcription and auxin biosynthesis is required for ethylene-inhibited root elongation in rice early seedling development. PLoS Genet. 13: e1006955.
(10) Qin Hua, Wang Yayun, Wang Juan, Liu Hai, Zhao Hui, Deng Zaian, Zhang Zhili, Huang Rongfeng, Zhang Zhijin. (2016). Knockdown expression of GMPase gene OsVTC1-1 decreases salt tolerance of rice at seedling stage and reproductive stage. PLoS ONE. 11: e0168650.
(11) Qin Hua, Deng Zaian, Zhang Chuanyu, Wang Yayun, Wang Juan, Liu Hai, Zhang Zhili, Huang Rongfeng, Zhang Zhijin. (2016). Rice GDP-mannose pyrophosphorylase OsVTC1-1 and OsVTC1-3 play different roles in Ascorbic acid synthesis. Plant Mol Biol. 90: 317-327.
(12) Xiao Guiqing#, Qin Hua#, Zhou Jiahao, Quan Ruidang, Lu Xiangyang, Huang Rongfeng, Zhang Haiwen. (2016). OsERF2 controls rice root growth and hormone response through tuning expression of key genes involved in hormone signaling and sucrose metabolism. Plant Mol Biol. 90: 293-302.
(13) Wang Juan, Qin Hua, Zhou Shirong, Wei Pengcheng , Zhang Haiwen, Zhou Yun, Miao Yuchen, Huang Rongfeng. (2019). The Ubiquitin-Binding Protein OsDSK2a Mediates Seedling Growth and Salt Responses by Regulating Gibberellin Metabolism in Rice. Plant Cell. 32: 414-428.
(14) Wang Yayun#, Zhao Hui#, Qin Hua, Li Zixuan, Liu Hai, Wang Juan, Zhang Haiwen, Quan Ruidang, Huang Rongfeng, Zhang Zhijin. (2018) The Synthesis of Ascorbic Acid in Rice Roots Plays an important role in the Salt Tolerance of Rice by Scavenging ROS. Int J Mol Sci. 19: pii: E3347.
(15) Yu Yanwen#, Wang Juan#, Li Shenghui#, Kakan Xiamusiya, Zhou Yun, Miao Yuchen, Wang Fangfang, Qin Hua, Huang Rongfeng. (2019). Ascorbic acid integrates the antagonistic modulation of ethylene and abscisic acid in the accumulation of reactive oxygen species. Plant Physiol. 179: 1861-1875.
​(16) Peng Peng#, Gao Yadi#, Li Zhe, Yu Yanwen, Qin Hua, Guo Yan, Huang Rongfeng, Wang Juan. (2019). Proteomic Analysis of a Rice Mutant sd58 Possessing a Novel d1 Allele of Heterotrimeric G Protein Alpha Subunit (RGA1) in Salt Stress with a Focus on ROS Scavenging. Int J Mol Sci. 20: pii: E167.