Dong Liu
liu-d@mail.tsinghua.edu.cn
Chinese, English
Beijing
Tsinghua University
Life Sciences
  • 1984 Bachelor: East China Normal University
  • 1987 Master: University of Science and Technology of China
  • 1994 PhD: Purdue University, USA
  • 1987-1990 - Shanghai Institute of Plant Physiology, Chinese Academy of Sciences - Assistant Researcher
  • 1994-1999 - University of California, San Diego, USA - Postdoctoral Researcher
  • 1999-2005 - Dow AgroSciences, USA - Senior Researcher
  • 2005-present - Tsinghua University - Professor
  • 2007: Beijing Excellent Course Award for 'Biochemistry 1' (taught in English)
  • 2016: Tsinghua University Second Prize for Teaching Achievements
  • 2018: Zheng Chang Teaching Excellence Award
Signal transduction mechanisms in plant responses to nutritional stress
Molecular basis of plant root system development
  • PHOSPHATE RESPONSE 1 family members act distinctly to regulate transcriptional responses to phosphate starvation, Wang, Z., Zheng, Z., Zhu, Y., Kong, S., Liu, D., 2023
  • Root developmental responses to phosphorus nutrition, Liu, D., 2021
  • Blue light-triggered chemical reactions underlie phosphate deficiency-induced inhibition of root elongation of Arabidopsis seedlings grown in Petri dishes, Zheng, Z., Wang, Z., Wang, X., Liu, D., 2019
  • Genetic dissection of Fe-dependent signaling in root developmental responses to phosphate deficiency, Wang, X., Wang Z., Zheng, Z., Dong, J., Song, L., Sui, L., Nussaume, L., Desnos, T., Liu, D., 2019
  • Functions and regulation of phosphate starvation-induced secreted acid phosphatases in higher plants, Wang L, Liu D., 2018
  • An Arabidopsis ABC transporter mediates phosphate deficiency-induced remodeling of root architecture by modulating iron homeostasis in roots, Dong, J., Piñeros, MA., Li, X., Yang, H., Liu, Y., Muphy, AS., Kochian, LV., Liu, D., 2017
  • The molecular mechanism for ethylene-mediated root hair development induced by phosphate starvation, Song, L., Yu, H., Dong, J., Che, X., Jiao, Y., Liu, D., 2016
  • The THO/TREX complex active in miRNA biogenesis negatively regulates root-associated acid phosphatase activity induced by phosphate starvation, Tao, S., Zhang, Y., Wang, X., Xu, L., Fang, X., Lu, Z., Liu, D., 2016
  • Arabidopsis PHL2 and PHR1 act redundantly as the key components of the central regulatory system controlling transcriptional responses to phosphate starvation, Sun, L., Song, L., Zhang, Y., Zheng, Z., Liu, D., 2016
  • Ethylene and plant responses to phosphate deficiency, Song, L., Liu, D., 2015
  • Suppression of photosynthetic gene expression in roots is required for sustained root growth under phosphate deficiency, Kang, J., Yu, H., Tian, C., Zhou, W., Li, C., Jiao, Y., Liu, D., 2014
  • Functional disruption of the pentatricopeptide protein SLG1 affects mitochondrial RNA editing, plant development, and responses to abiotic stresses in Arabidopsis, Yuan, H., Liu, D., 2012
  • The Arabidopsis purple acid phosphatase AtPAP10 is predominantly associated with the root surface and plays an important role in plant tolerance to phosphate limitation, Wang, L., Li, Z., Qian, W., Guo, W., Ga, X., Huang, L., Wang, H., Zhu, H., Wu, J., Wang, D., Liu D., 2011
  • Genetic and genomic evidence that sucrose is a global regulator of plant responses to phosphate starvation in Arabidopsis, Lei, M., Liu, Y., Zhang, B., Zhao, Y., Wang, X., Zhou, Y., Raghothama, K., and Liu, D., 2011
Signal Transduction Nutritional Stress Plant Responses Molecular Basis Root Development Plant Biology Phosphate Starvation Root Architecture Gene Regulation Transcriptional Responses

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