侯昕:女,武漢大學生命科學學院研究員,博導學科專業:遺傳學/Genetics研究方向:植物抗逆分子遺傳學/Plant Responses to the Environment, 植物光合作用的調控機制/ Regulation of Photosynthesis.
基本介紹
- 中文名:侯昕
- 畢業院校:華中農業大學
- 職務:武漢大學生命科學學院研究員
- 性別:女
人物經歷,學習經歷,工作經歷,教育科研,研究領域,科研課題,代表論文,
人物經歷
學習經歷
2000—2004,理學學士。華中農業大學,生命科學與技術學院,生物技術(本碩連讀)專業/Huazhong Agricultural University, Bachelor's Degree;
2003—2009,理學博士。華中農業大學,生命科學與技術學院,作物遺傳改良國家重點實驗室,生化與分子生物學專業/Huazhong Agricultural University, PhD.
2003—2009,理學博士。華中農業大學,生命科學與技術學院,作物遺傳改良國家重點實驗室,生化與分子生物學專業/Huazhong Agricultural University, PhD.
工作經歷
2010—2014,博士後,加州大學伯克利分校,植物與微生物學系/Department of Plant and Microbial Biology, University of California, Berkeley, Postdoctoral Researcher.
2015—今,研究員,博士生導師,武漢大學生命科學學院/College of Life Sciences, Wuhan University, Professor.
2015—今,研究員,博士生導師,武漢大學生命科學學院/College of Life Sciences, Wuhan University, Professor.
教育科研
研究領域
1)植物光合作用的調控機制。我們以水稻和擬南芥為材料研究光合作用電子傳遞、能量轉換、光合系統的組裝、光合作用的調控等科學問題。結合生物信息學、遺傳學和分子生物學的方法克隆葉綠體發育、光合作用相關的新基因,並解析其作用機制。
We study how photosynthetic energy conversion works, how it is regulated, and how it might be improved to help meet the world’s needs for food and fuel. We use rice and Arabidopsis and interdisciplinary approaches to investigate fundamental questions about assembly, regulation, and dynamics of photosynthesis.
2)植物抗逆性研究。乾旱、高鹽、低溫、高光及營養缺乏等非生物逆境會影響植物的生長發育。為了適應不斷變化的自然環境,植物有其自身的應對機制。我們的興趣在於克隆植物抗逆應答和信號傳導的相關基因,解析其分子機制及生物學功能,並將基礎理論研究的成果套用於水稻非生物逆境的抗性改良。
Our goal is to understand the molecular mechanism underlying plant response and adaptation to its environment. Several proteins and pathways have been identified that function in plant responses to environmental stress conditions including salt, drought, cold, high light, and poor nitrite. Manipulation of stress response genes and pathways can therefore enhance the growth of plants under abiotic stress, impacting agriculture and environment.
We study how photosynthetic energy conversion works, how it is regulated, and how it might be improved to help meet the world’s needs for food and fuel. We use rice and Arabidopsis and interdisciplinary approaches to investigate fundamental questions about assembly, regulation, and dynamics of photosynthesis.
2)植物抗逆性研究。乾旱、高鹽、低溫、高光及營養缺乏等非生物逆境會影響植物的生長發育。為了適應不斷變化的自然環境,植物有其自身的應對機制。我們的興趣在於克隆植物抗逆應答和信號傳導的相關基因,解析其分子機制及生物學功能,並將基礎理論研究的成果套用於水稻非生物逆境的抗性改良。
Our goal is to understand the molecular mechanism underlying plant response and adaptation to its environment. Several proteins and pathways have been identified that function in plant responses to environmental stress conditions including salt, drought, cold, high light, and poor nitrite. Manipulation of stress response genes and pathways can therefore enhance the growth of plants under abiotic stress, impacting agriculture and environment.
科研課題
武漢大學人才引進啟動費,2015-2017;
國家自然科學基金面上項目,2016-2019
國家自然科學基金面上項目,2016-2019
代表論文
1.Xin Hou, Kabin Xie, Jialing Yao, Zhuyun Qi, and Lizhong Xiong*. A homolog of human ski-interacting protein in rice positively regulates cell viability and stress tolerance. Proc Natl Acad Sci U S A, 2009, 106: 6410-6415.
2. Xin Hou, Aigen Fu, Veder Garcia, Bob B. Buchanan*, and Sheng Luan*. PSB27: a thylakoid protein enabling Arabidopsis to adapt to changing light intensity. Proc Natl Acad Sci U S A, 2015, 112: 1613-1618.
3. Xipeng Ding#, Xin Hou#, Kabin Xie, and Lizhong Xiong*. Genome-wide dentification of BURP domain–containing genes in rice reveals a gene family with diverse structures and responses to abiotic stresses. Planta, 2009, 230: 149-163. (# co-first author).
4. Yufen Che, Aigen Fu, Xin Hou, Bob B. Buchanan*, and Sheng Luan*. Arabidopsis D1 C-terminal peptidase is essential for photosystem II assembly and function. Proc Natl Acad Sci U S A, 2013, 110:16247-52.
5. Kabin Xie, Jianqiang Shen, Xin Hou, Jialing Yao, Xianghua Li, Jinhua Xiao, and Lizhong Xiong*. Gradual increase of miR156 regulates temporal expression changes of numerous genes during leaf development in rice. Plant Physiol. 2012, 158:1382-94.
6. Yujie Fang, Kabin Xie, Xin Hou, Honghong Hu, Lizhong Xiong*. Systematic analysis of GT factor family of rice reveals a novel subfamily involved in stress responses. Mol Genet Genomics, 2010, 283: 157-169.
7. Yan Xu, Wei Zong, Xin Hou, Jialing Yao, Hongbo Liu, Xianghua Li, Yunde Zhao, and Lizhong Xiong*. OsARID3, An AT-rich Interaction Domain-containing Protein Is Required for Shoot Meristem Development in Rice. Plant Journal, 2015, 83: 806-817.