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Literature DB >> 1196385

Conversion of a photon to an electrical signal by sudden polarisation in the N-retinylidene visual chromophore.

L Salem, P Bruckmann.

Abstract

Entities: Chemical

Mesh：

Substances：

Year: 1975 PMID： 1196385 DOI： 10.1038/258526a0

Source DB: PubMed Journal: Nature ISSN： 0028-0836 Impact factor: 49.962

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17 in total

1. Schiff Base Proton Acceptor Assists Photoisomerization of Retinal Chromophores in Bacteriorhodopsin.

Authors: Chih-Chang Hung; Xiao-Ru Chen; Ying-Kuan Ko; Takayoshi Kobayashi; Chii-Shen Yang; Atsushi Yabushita
Journal: Biophys J Date: 2017-06-20 Impact factor: 4.033

2. An observation concerning electronically excited retinal.

Authors: J Simons
Journal: Proc Natl Acad Sci U S A Date: 1977-08 Impact factor: 11.205

3. Experimental evidence for secondary protein-chromophore interactions at the Schiff base linkage in bacteriorhodopsin: Molecular mechanism for proton pumping.

Authors: A Lewis; M A Marcus; B Ehrenberg; H Crespi
Journal: Proc Natl Acad Sci U S A Date: 1978-10 Impact factor: 11.205

Review 4. Microbial and animal rhodopsins: structures, functions, and molecular mechanisms.

Authors: Oliver P Ernst; David T Lodowski; Marcus Elstner; Peter Hegemann; Leonid S Brown; Hideki Kandori
Journal: Chem Rev Date: 2013-12-23 Impact factor: 60.622

5. Vibrational motions associated with primary processes in bacteriorhodopsin studied by coherent infrared emission spectroscopy.

Authors: Géza I Groma; Anne Colonna; Jean-Louis Martin; Marten H Vos
Journal: Biophys J Date: 2011-03-16 Impact factor: 4.033

6. Microsecond atomic force sensing of protein conformational dynamics: implications for the primary light-induced events in bacteriorhodopsin.

Authors: I Rousso; E Khachatryan; Y Gat; I Brodsky; M Ottolenghi; M Sheves; A Lewis
Journal: Proc Natl Acad Sci U S A Date: 1997-07-22 Impact factor: 11.205

Conversion of a photon to an electrical signal by sudden polarisation in the N-retinylidene visual chromophore.

1. Schiff Base Proton Acceptor Assists Photoisomerization of Retinal Chromophores in Bacteriorhodopsin.

2. An observation concerning electronically excited retinal.

3. Experimental evidence for secondary protein-chromophore interactions at the Schiff base linkage in bacteriorhodopsin: Molecular mechanism for proton pumping.

Review 4. Microbial and animal rhodopsins: structures, functions, and molecular mechanisms.

5. Vibrational motions associated with primary processes in bacteriorhodopsin studied by coherent infrared emission spectroscopy.

6. Microsecond atomic force sensing of protein conformational dynamics: implications for the primary light-induced events in bacteriorhodopsin.

7. Evidence from Chlamydomonas on the photoactivation of rhodopsins without isomerization of their chromophore.

8. Charge stabilization mechanism in the visual and purple membrane pigments.

9. The molecular mechanism of excitation in visual transduction and bacteriorhodopsin.

10. Insights into excited-state and isomerization dynamics of bacteriorhodopsin from ultrafast transient UV absorption.