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Literature DB >> 29017728

Near-Infrared Fluorescent Proteins Engineered from Bacterial Phytochromes in Neuroimaging.

Kiryl D Piatkevich¹, Ho-Jun Suk², Suhasa B Kodandaramaiah¹, Fumiaki Yoshida³, Ellen M DeGennaro⁴, Mikhail Drobizhev⁵, Thomas E Hughes⁵, Robert Desimone⁴, Edward S Boyden⁶, Vladislav V Verkhusha⁷.

Abstract

Several series of near-infrared (NIR) fluorescent proteins (FPs) were recently engineered from bacterial phytochromes but were not systematically compared in neurons. To fluoresce, NIR FPs utilize an enzymatic derivative of heme, the linear tetrapyrrole biliverdin, as a chromophore whose level in neurons is poorly studied. Here, we evaluated NIR FPs of the iRFP protein family, which were reported to be the brightest in non-neuronal mammalian cells, in primary neuronal culture, in brain slices of mouse and monkey, and in mouse brain in vivo. We applied several fluorescence imaging modes, such as wide-field and confocal one-photon and two-photon microscopy, to compare photochemical and biophysical properties of various iRFPs. The iRFP682 and iRFP670 proteins exhibited the highest brightness and photostability under one-photon and two-photon excitation modes, respectively. All studied iRFPs exhibited efficient binding of the endogenous biliverdin chromophore in cultured neurons and in the mammalian brain and can be readily applied to neuroimaging.

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Year: 2017 PMID： 29017728 PMCID： PMC5700256 DOI： 10.1016/j.bpj.2017.09.007

Source DB: PubMed Journal: Biophys J ISSN： 0006-3495 Impact factor: 4.033

42 in total

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9. Mammalian expression of infrared fluorescent proteins engineered from a bacterial phytochrome.

Authors: Xiaokun Shu; Antoine Royant; Michael Z Lin; Todd A Aguilera; Varda Lev-Ram; Paul A Steinbach; Roger Y Tsien
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10. Minimal domain of bacterial phytochrome required for chromophore binding and fluorescence.

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3. VEGAS as a Platform for Facile Directed Evolution in Mammalian Cells.

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4. Near-Infrared Light-Controlled Gene Expression and Protein Targeting in Neurons and Non-neuronal Cells.

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