Designing a Green Fluorogenic Protease Reporter by Flipping a Beta Strand of GFP for Imaging Apoptosis in Animals

Qiang Zhang(University of California, San Francisco), Antonino Schepis(University of California, San Francisco), Hai Huang(University of California, San Francisco), Junjiao Yang(University of California, San Francisco), Wen Ma(University of California San Diego), Joaquim Torra(University of California, San Francisco), Shaoqing Zhang(Harvard University), Lina Yang(Huazhong Agricultural University), Haifan Wu(University of California, San Francisco), Santi Nonell(Institut Químic de Sarrià), Zhiqiang Dong(Huazhong Agricultural University), Thomas B. Kornberg(University of California, San Francisco), Shaun R. Coughlin(University of California, San Francisco), Xiaokun Shu(University of California, San Francisco)
Journal of the American Chemical Society
March 1, 2019
10.1021/jacs.8b13042
Cited by 98Open Access
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Abstract

A family of proteases called caspases mediate apoptosis signaling in animals. We report a GFP-based fluorogenic protease reporter, dubbed "FlipGFP", by flipping a beta strand of the GFP. Upon protease activation and cleavage, the beta strand is restored, leading to reconstitution of the GFP and fluorescence. FlipGFP-based TEV protease reporter achieves 100-fold fluorescence change. A FlipGFP-based executioner caspase reporter visualized apoptosis in live zebrafish embryos with spatiotemporal resolution. FlipGFP also visualized apoptotic cells in the midgut of Drosophila. Thus, the FlipGFP-based caspase reporter will be useful for monitoring apoptosis during animal development and for designing reporters of proteases beyond caspases. The design strategy can be further applied to a red fluorescent protein for engineering a red fluorogenic protease reporter.

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