Xiaowei Zhuang


Xiaowei Zhuang is a Chinese-American biophysicist who is the David B. Arnold Jr. Professor of Science, Professor of Chemistry and Chemical Biology, and Professor of Physics at Harvard University, and an Investigator at the Howard Hughes Medical Institute. She is best known for her work in the development of Stochastic Optical Reconstruction Microscopy, a super-resolution fluorescence microscopy method, and the discoveries of novel cellular structures using STORM. She received a 2019 Breakthrough Prize in Life Sciences for developing super-resolution imaging techniques that get past the diffraction limits of traditional light microscopes, allowing scientists to visualize small structures within living cells. She was elected a Member of the American Philosophical Society in 2019 and was awarded a Vilcek Foundation Prize in Biomedical Science in 2020.

Early life and education

Zhuang's father Zhuang Lixian and mother Zhu Renzhi are both professors at the University of Science and Technology of China.
Zhuang graduated from the USTC with a B.S. in Physics in 1991. She obtained her Ph.D. in Physics from the University of California, Berkeley in 1996 and conducted her thesis research under the supervision of Dr. Yuen-Ron Shen. In 1997-2001, she was a Chodorow Postdoctoral Fellow in the laboratory of Dr. Steven Chu at Stanford University. She started her faculty position in the Department of Chemistry and Chemical Biology and the Department of Physics at Harvard University in 2001 and was promoted to full professor in 2006.
She was named a Howard Hughes Medical Investigator in 2005.

Research

Zhuang's laboratory invented Stochastic Optical Reconstruction Microscopy, a single-molecule-based super-resolution fluorescence microscopy method. The Zhuang laboratory demonstrated three-dimensional super-resolution imaging with STORM. The Zhuang laboratory also discovered several photoswitchable dye molecules that enabled STORM imaging and demonstrated live-cell STORM imaging.
Using STORM, Zhuang and colleagues have studied a variety of biological systems, ranging from single-cell organisms to complex brain tissues. These studies led to the discovery of novel cellular structures, such as the periodic membrane skeletons in the axons of neurons and provided insights into many other cellular structures.
The Zhuang laboratory invented a single-cell transcriptome imaging method, MERFISH, which allows numerous RNA species to be imaged and quantified in single cells in their native context. Zhuang and colleagues used single-molecule FRET to study biomolecules and molecular complexes and developed single-virus tracking methods to study virus-cell interactions.

Honors and awards