Upload Avatar (500 x 500)
Wen Qiguang
Life Science
University of Chinese Academy of Sciences
Shanghai
Language: English, Chinese
Ethylene
Signal Transduction
Arabidopsis
Molecular Biology
Cell Biology
Plant Hormones
Receptor Signaling
Experimental Evidence
Model Re-Evaluation
Plant Physiology
Areas of Focus
- Ethylene Signal Transduction
Work Experience
- 2002-08~2016-06 - Chinese Academy of Sciences, Shanghai Institute for Biological Sciences - Researcher
- 1997-10~2002-07 - University of Maryland - Post-Doc Fellow
- 1989-08~1991-07 - National Taiwan University - Technician
- 1987-08~1989-06 - Army - Military Service, Corporal
Academic Background & Achievements
- 1991-09--1997-10 PhD: Purdue University
- 1983-09--1987-06 BS: National Taiwan University
- 1997-2002: Post-doc Fellow with Dr. Caren Chang, University of Maryland, College Park, MD, USA
Publications
- Statistics as Part of Scientific Reasoning in Plant Sciences: Overlooked Issues and Recommended Solutions., Wen Qiguang, 2019
- Editorial: Hormonal Control of Important Agronomic Traits, Wen Qiguang, 2018
- Cryptic Role of the ETHYLENE INSENSITIVE2 Nuclear Localization Signal in Ethylene Signaling, Wen Qiguang, 2015
- Ethylene signalling: EIN2 dual targeting, Wen Qiguang, 2015
- HYPER RECOMBINATION1 of the THO/TREX Complex Plays a Role in Controlling Transcription of the REVERSION-TO-ETHYLENE SENSITIVITY1 Gene in Arabidopsis., Wen Qiguang, 2015
- An Alternate Route of Ethylene Receptor Signaling, Wen Qiguang, 2014
- ENHANCING CTR1-10 ETHYLENE RESPONSE2 is a novel allele involved in CONSTITUTIVE TRIPLE-RESPONSE1-mediated ethylene receptor signaling in Arabidopsis., Wen Qiguang, 2014
- Rice CONSTITUTIVE TRIPLE-RESPONSE2 is involved in the ethylene-receptor signalling and regulation of various aspects of rice growth and development., Wen Qiguang, 2013
- Arabidopsis aux1rcr1 mutation alters AUXIN RESISTANT1 targeting and prevents expression of the auxin reporter DR5:GUS in the root apex., Wen Qiguang, 2013
- Modulation of ethylene responses by OsRTH1 overexpression reveals the biological significance of ethylene in rice seedling growth and development, Wen Qiguang, 2012
- Arabidopsis ETR1 and ERS1 Differentially Repress the Ethylene Response in Combination with Other Ethylene Receptor Genes, Wen Qiguang, 2012
- Cooperative ethylene receptor signaling., Wen Qiguang, 2012
- Arabidopsis RTE1 Is Essential to Ethylene Receptor ETR1 Amino-Terminal Signaling Independent of CTR1, Wen Qiguang, 2012
- Possible modulation of Arabidopsis ETR1 N-terminal signaling by CTR1, Wen Qiguang, 2012
- The Basal Level Ethylene Response is Important to the Wall and Endomembrane Structure in the Hypocotyl Cells of Etiolated Arabidopsis Seedlings., Wen Qiguang, 2012
- Modulation of ethylene responses by OsRTH1 overexpression reveals the biological significance of ethylene in rice seedling growth and development, Wen Qiguang, 2012
Awards
- Chinese Academy of Sciences Zhu Liyuehua Excellent Teacher Award (2013)
