Professor | Wei Wang | Asia Growth Partners

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Name	Wei Wang
Contact Information	oneway1985 (AT) pku.edu.cn
Language ability	English, Chinese
Province	Beijing

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Name

Wei Wang

Contact Information

oneway1985 (AT) pku.edu.cn

Language ability

English, Chinese

Province

Beijing

University/Lab Affiliation and Title	Peking University
Faculty	Life Sciences
Academic Background & Achievements	2007 - 2012 PhD in Biology, Duke University 2003 - 2007 Bachelor in Biotechnology, Fudan University
Work Experience	2018 - Present, Researcher, Peking University, Life Sciences Joint Center 2014 - 2018, Assistant Professor, Iowa State University 2013 - 2014, Postdoctoral Researcher, Duke University

University/Lab Affiliation and Title

Peking University

Faculty

Life Sciences

Academic Background & Achievements

2007 - 2012 PhD in Biology, Duke University
2003 - 2007 Bachelor in Biotechnology, Fudan University

Work Experience

2018 - Present, Researcher, Peking University, Life Sciences Joint Center
2014 - 2018, Assistant Professor, Iowa State University
2013 - 2014, Postdoctoral Researcher, Duke University

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
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

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

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

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

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