Deep-tissue SWIR imaging using rationally designed small red-shifted near-infrared fluorescent protein.

TitleDeep-tissue SWIR imaging using rationally designed small red-shifted near-infrared fluorescent protein.
Publication TypeJournal Article
Year of Publication2023
AuthorsOS Oliinyk, C Ma, S Pletnev, M Baloban, C Taboada, H Sheng, J Yao, and VV Verkhusha
JournalNat Methods
Volume20
Issue1
Start Page70
Pagination70 - 74
Date Published01/2023
Abstract

Applying rational design, we developed 17 kDa cyanobacteriochrome-based near-infrared (NIR-I) fluorescent protein, miRFP718nano. miRFP718nano efficiently binds endogenous biliverdin chromophore and brightly fluoresces in mammalian cells and tissues. miRFP718nano has maximal emission at 718 nm and an emission tail in the short-wave infrared (SWIR) region, allowing deep-penetrating off-peak fluorescence imaging in vivo. The miRFP718nano structure reveals the molecular basis of its red shift. We demonstrate superiority of miRFP718nano-enabled SWIR imaging over NIR-I imaging of microbes in the mouse digestive tract, mammalian cells injected into the mouse mammary gland and NF-kB activity in a mouse model of liver inflammation.

DOI10.1038/s41592-022-01683-0
Short TitleNat Methods