Illuminating biology at the nanoscale and systems scale by imaging
AlbaNova and Nordita Colloquium
Thursday 17 May 2018
Xiaowei Zhuang (Howard Hughes Medical Institute, Harvard University)
Dissecting the inner workings of a cell requires imaging methods with molecular specificity, molecular-scale resolution, and dynamic imaging capability such that molecular interactions inside the cell can be directly visualized. However, the diffraction-limited resolution of light microscopy is substantially larger than molecular length scales in cells, making many sub-cellular structures difficult to resolve. Another major challenge in imaging is the low throughput in the number of molecular species that can be simultaneously imaged, while genomic-scale throughput (i.e. the ability to simultaneously image thousands of molecular species) is desired for investigating systems level questions. In this talk, I will describe two imaging methods that we developed to overcome these challenges and the biological applications of these methods. I will first describe STORM, a super-resolution imaging method that overcomes the diffraction limit. This approach allows multicolor and three-dimensional imaging of living cells with nanometer-scale resolution. I will present both technology development of and biological discoveries enabled by STORM. I will then describe MERFISH, a single-cell transcriptome and chromosome imaging method that allows numerous RNA species and genomic loci to be imaged in individual cells. This approach enables mapping of the spatial organization of the transcriptome and genome inside cells and distinct cell types in complex tissues.