Literature DB >> 21047084

On the origin of fluorescence in bacteriophytochrome infrared fluorescent proteins.

Alex A Samma1, Chelsea K Johnson, Shuang Song, Samuel Alvarez, Marc Zimmer.   

Abstract

Tsien et al. (Science, 2009, 324, 804-807) recently reported the creation of the first infrared fluorescent protein (IFP). It was engineered from bacterial phytochrome by removing the PHY and histidine kinase-related domains, by optimizing the protein to prevent dimerization, and by limiting the biliverdins conformational freedom, especially around its D ring. We have used database analyses and molecular dynamics simulations with freely rotating chromophoric dihedrals in order to model the dihedral freedom available to the biliverdin D ring in the excited state and to show that the tetrapyrrole ligands in phytochromes are flexible and can adopt many conformations; however, their conformational space is limited/defined by the chemospatial characteristics of the protein cavity. Our simulations confirm that the reduced accessibility to conformations geared to an excited state proton transfer may be responsible for the fluorescence in IFP, just as has been suggested by Kennis et al. (Proc. Natl. Acad. Sci. U.S.A., 2010, 107, 9170-9175) for fluorescent bacteriophytochrome from Rhodopseudomonas palustris.

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Year:  2010        PMID: 21047084      PMCID: PMC2993020          DOI: 10.1021/jp107119q

Source DB:  PubMed          Journal:  J Phys Chem B        ISSN: 1520-5207            Impact factor:   2.991


  48 in total

1.  The Protein Data Bank.

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Authors:  Ian J Bruno; Jason C Cole; Paul R Edgington; Magnus Kessler; Clare F Macrae; Patrick McCabe; Jonathan Pearson; Robin Taylor
Journal:  Acta Crystallogr B       Date:  2002-05-29

3.  Crystal structure of the chromophore binding domain of an unusual bacteriophytochrome, RpBphP3, reveals residues that modulate photoconversion.

Authors:  Xiaojing Yang; Emina A Stojkovic; Jane Kuk; Keith Moffat
Journal:  Proc Natl Acad Sci U S A       Date:  2007-07-17       Impact factor: 11.205

4.  Deciphering intrinsic deactivation/isomerization routes in a phytochrome chromophore model.

Authors:  Piero Altoè; Teresa Climent; Giulia C De Fusco; Marco Stenta; Andrea Bottoni; Luis Serrano-Andrés; Manuela Merchán; Giorgio Orlandi; Marco Garavelli
Journal:  J Phys Chem B       Date:  2009-11-12       Impact factor: 2.991

5.  Resonance raman analysis of chromophore structure in the lumi-R photoproduct of phytochrome.

Authors:  F Andel; J C Lagarias; R A Mathies
Journal:  Biochemistry       Date:  1996-12-17       Impact factor: 3.162

6.  Resonance Raman spectra of the intermediates in phototransformation of large phytochrome: deprotonation of the chromophore in the bleached intermediate.

Authors:  Y Mizutani; S Tokutomi; T Kitagawa
Journal:  Biochemistry       Date:  1994-01-11       Impact factor: 3.162

7.  Crystal structure of a pH-regulated luciferase catalyzing the bioluminescent oxidation of an open tetrapyrrole.

Authors:  L Wayne Schultz; Liyun Liu; Margaret Cegielski; J Woodland Hastings
Journal:  Proc Natl Acad Sci U S A       Date:  2005-01-21       Impact factor: 11.205

8.  A facile and versatile preparation of bilindiones and biladienones from tetraarylporphyrins.

Authors:  Takae Yamauchi; Tadashi Mizutani; Kenji Wada; Shoji Horii; Hirotaka Furukawa; Shigeyuki Masaoka; Ho-Chol Chang; Susumu Kitagawa
Journal:  Chem Commun (Camb)       Date:  2005-01-21       Impact factor: 6.222

9.  Structural basis for red-shifted emission of a GFP-like protein from the marine copepod Chiridius poppei.

Authors:  Kyoko Suto; Hiromi Masuda; Yasuhiro Takenaka; Frederick I Tsuji; Hiroshi Mizuno
Journal:  Genes Cells       Date:  2009-05-14       Impact factor: 1.891

10.  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
Journal:  Science       Date:  2009-05-08       Impact factor: 47.728
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  7 in total

1.  Structure-guided engineering enhances a phytochrome-based infrared fluorescent protein.

Authors:  Michele E Auldridge; Kenneth A Satyshur; David M Anstrom; Katrina T Forest
Journal:  J Biol Chem       Date:  2011-12-30       Impact factor: 5.157

2.  Atomic force microscopy of red-light photoreceptors using peakforce quantitative nanomechanical property mapping.

Authors:  Marie E Kroeger; Blaire A Sorenson; J Santoro Thomas; Emina A Stojković; Stefan Tsonchev; Kenneth T Nicholson
Journal:  J Vis Exp       Date:  2014-10-24       Impact factor: 1.355

3.  Blue protein with red fluorescence.

Authors:  Swagatha Ghosh; Chi-Li Yu; Daniel J Ferraro; Sai Sudha; Samir Kumar Pal; Wayne F Schaefer; David T Gibson; S Ramaswamy
Journal:  Proc Natl Acad Sci U S A       Date:  2016-09-29       Impact factor: 11.205

4.  UV-trained and metal-enhanced fluorescence of biliverdin and biliverdin nanoparticles.

Authors:  Parinaz Fathi; Ayman Roslend; Kritika Mehta; Parikshit Moitra; Kai Zhang; Dipanjan Pan
Journal:  Nanoscale       Date:  2021-03-12       Impact factor: 8.307

5.  Fluorescence enhancement of a ligand-activated fluorescent protein induced by collective noncovalent interactions.

Authors:  Euihyun Lee; Sang-Hee Shim; Minhaeng Cho
Journal:  Chem Sci       Date:  2018-10-08       Impact factor: 9.825

6.  Modulation of biliverdin dynamics and spectral properties by Sandercyanin.

Authors:  Swagatha Ghosh; Sayan Mondal; Keerti Yadav; Shantanu Aggarwal; Wayne F Schaefer; Chandrabhas Narayana; Ramaswamy Subramanian
Journal:  RSC Adv       Date:  2022-07-13       Impact factor: 4.036

7.  Removal of Chromophore-Proximal Polar Atoms Decreases Water Content and Increases Fluorescence in a Near Infrared Phytofluor.

Authors:  Heli Lehtivuori; Shyamosree Bhattacharya; Nicolaas M Angenent-Mari; Kenneth A Satyshur; Katrina T Forest
Journal:  Front Mol Biosci       Date:  2015-11-25
  7 in total

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