Designing brighter near-infrared fluorescent proteins: insights from structural and biochemical studies.

Chem Sci

Department of Anatomy and Structural Biology and Gruss-Lipper Biophotonics Center , Albert Einstein College of Medicine, Bronx , New York 10461 , USA . Email:

Published: June 2017

Brighter near-infrared (NIR) fluorescent proteins (FPs) are required for multicolor microscopy and deep-tissue imaging. Here, we present structural and biochemical analyses of three monomeric, spectrally distinct phytochrome-based NIR FPs, termed miRFPs. The miRFPs are closely related and differ by only a few amino acids, which define their molecular brightness, brightness in mammalian cells, and spectral properties. We have identified the residues responsible for the spectral red-shift, revealed a new chromophore bound simultaneously to two cysteine residues in the PAS and GAF domains in blue-shifted NIR FPs, and uncovered the importance of amino acid residues in the N-terminus of NIR FPs for their molecular and cellular brightness. The novel chromophore covalently links the N-terminus of NIR FPs with their C-terminal GAF domain, forming a topologically closed knot in the structure, and also contributes to the increased brightness. Based on our studies, we suggest a strategy to develop spectrally distinct NIR FPs with enhanced brightness.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5590093PMC
http://dx.doi.org/10.1039/c7sc00855dDOI Listing

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