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Wei Wang
Life Science
Peking University
Beijing
Language: English, Chinese
Stress Granules
Transcriptional Regulation
Translation Regulation
Neurodegenerative Diseases
Tumor Apoptosis
Viral Infection
Immunity
Inflammatory Response
Cell Biology
Molecular Biology
Circadian Clocks
Soybean
Cyst Nematodes
Molecular Mechanisms
Plant-Pathogen Interactions
Signal Transduction
Agricultural Biology
Crop Yield
Plant Genetics
Disease Resistance
Nanosensors
Fabry–Pérot Interferometer
Low-Cost Sensor Technology
Small Molecule Screening
Plant Hormones
Quantitative Analysis
Biotechnology
Molecular Interactions
Surface Plasmon Resonance
Sensitivity
Areas of Focus
- Mechanisms, biological functions, and evolutionary significance of stress granules in plants
- Molecular mechanisms of interactions between soybean root circadian clocks and soybean cyst nematodes
- Development of high-sensitivity, low-cost nanosensors for quantifying plant hormones
Work Experience
- 2018 - Present, Researcher, Peking University, Life Sciences Joint Center
- 2014 - 2018, Assistant Professor, Iowa State University
- 2013 - 2014, Postdoctoral Researcher, Duke University
Academic Background & Achievements
- 2007 - 2012 PhD in Biology, Duke University
- 2003 - 2007 Bachelor in Biotechnology, Fudan University
Publications
- Aptamer-based nanointerferometer enables amplification-free ultrasensitive detection and differentiation of SARS-CoV-2 variants, Chen, C., Song, X., Yu, Y., Wang, X., Xu, H., Ji, W., Ma, J., Zhao, C., Feng, S.*, Wang, Y.*, Su, X.-d.* & Wang, W.*, 2023
- SOS1 safeguards plant circadian rhythm against daily salt fluctuations, Zhou, M. & Wang, W.*, 2022
- The emerging role of biomolecular condensates in plant immunity, Wang, W.* & Gu, Y.*, 2022
- Modeling Transcriptional Regulation: Methods and Protocols, Wang, X., Xu, Y., Zhou, M.* & Wang, W.*, 2021
- Comprehensive mapping of abiotic stress inputs into the soybean circadian clock, Li, M., Cao, L., Mwimba, M., Zhou, Y., Li, L., Zhou, M., Schnable, P. S., O`Rourke, J. A., Dong, X.* & Wang, W.*, 2019
- Development of a structure-switching aptamer-based nanosensor for salicylic acid detection, Chen, C., Feng, S., Zhou, M., Ji, C., Que, L.* & Wang, W.*, 2019
- An aptamer nanopore-enabled microsensor for detection of theophylline, Feng, S., Chen, C., Wang, W.* & Que, L.*, 2018
- IEEE 30th International Conference on Micro Electro Mechanical Systems (MEMS), Song, C., Chen, C., Che, X., Wang, W. & Que, L., 2017
- IEEE SENSORS, Feng, S., Che, X., Que, L.*, Chen, C. & Wang, W.*, 2016
- Redox rhythm reinforces the circadian clock to gate immune response, Zhou, M.*, Wang, W.*, Karapetyan, S., Mwimba, M., Marqués, J., Buchler, N. E. & Dong, X., 2015
- Salicylic Acid Activates DNA Damage Responses to Potentiate Plant Immunity, Yan, S., Wang, W., Marqués, J., Mohan, R., Saleh, A., Durrant, Wendy E., Song, J. & Dong, X., 2013
- The HSF-like Transcription Factor TBF1 Is a Major Molecular Switch for Plant Growth-to-Defense Transition, Pajerowska-Mukhtar, Karolina M., Wang, W., Tada, Y., Oka, N., Tucker, Chandra L., Fonseca, Jose P. & Dong, X., 2012
- NPR3 and NPR4 are receptors for the immune signal salicylic acid in plants, Fu, Z. Q.*, Yan, S.*, Saleh, A.*, Wang, W., Ruble, J., Oka, N., Mohan, R., Spoel, S. H., Tada, Y., Zheng, N. & Dong, X., 2012
- Timing of plant immune responses by a central circadian regulator, Wang, W.*, Barnaby, J. Y.*, Tada, Y., Li, H., Tör, M., Caldelari, D., Lee, D.-u., Fu, X.-D. & Dong, X., 2011
