Issue 25, 2011

Fluorescence quantum yield and photochemistry of bacteriophytochrome constructs

Abstract

Bacteriophytochromes (Bphs) are red-light photoreceptor proteins with a photosensory core that consists of three distinct domains, PAS, GAF and PHY, and covalently binds biliverdin (BV) to a conserved cysteine in the PAS domain. In a recent development, PAS–GAF variants were engineered for use as a near-infrared fluorescent marker in mammalian tissues (Tsien and co-workers, Science, 2009, 324, 804–807). Here, we report the fluorescence quantum yield and photochemistry of two highly-related Bphs from Rps. palustris, RpBphP2 (P2) and RpBphP3 (P3) with distinct photoconversion and fluorescence properties. We applied ultrafast spectroscopy to wild type P3 and P2 PAS–GAF proteins and their P3 D216A, Y272F and P2 D202A PAS–GAF–PHY mutant proteins. In these mutants hydrogen-bond interactions between a conserved aspartate (Asp) which connects the BV chromophore with the PHY domains are disrupted. The excited-state lifetime of the truncated P3 and P2 PAS–GAF proteins was significantly longer than in their PAS–GAF–PHY counterparts that constitute the full photosensory core. Mutation of the conserved Asp to Ala in the PAS–GAF–PHY protein had a similar but larger effect. The fluorescence quantum yields of the P3 D216A and Y272F mutants were 0.066, higher than that of wild type P3 (0.043) and similar to the engineered Bph of Tsien and co-workers. We conclude that elimination of a key hydrogen-bond interaction between Asp and a conserved Arg in the PHY domain is responsible for the excited-state lifetime increase in all Bph variants studied here. H/D exchange resulted in a 1.4–1.7 fold increase of excited-state lifetime. The results support a reaction model in which deactivation of the BV chromophore proceeds via excited-state proton transfer from the BV pyrrole nitrogens to the backbone of the conserved Asp or to a bound water. This work may aid in rational structure- and mechanism-based conversion of constructs based on P3 and other BPhs into efficient near-IR, deep tissue, fluorescent markers.

Graphical abstract: Fluorescence quantum yield and photochemistry of bacteriophytochrome constructs

Supplementary files

Article information

Article type
Paper
Submitted
06 Jan 2011
Accepted
05 May 2011
First published
25 May 2011

Phys. Chem. Chem. Phys., 2011,13, 11985-11997

Fluorescence quantum yield and photochemistry of bacteriophytochrome constructs

K. C. Toh, E. A. Stojković, I. H. M. van Stokkum, K. Moffat and J. T. M. Kennis, Phys. Chem. Chem. Phys., 2011, 13, 11985 DOI: 10.1039/C1CP00050K

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