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Literature DB >> 10022

Flash photometric experiments on the photochemical cycle of bacteriorhodopsin.

Abstract

The photochemical reaction cycle of bacteriorhodopsin was investigated by means of flash photometric methods. Three different intermediates with absorption maxima at about 630 nm, 411 nm, and 646 nm could be detected. Kinetic data of the occurrence of these intermediates were obtained from isolated purple membrane in different mediums and from intact halobacteria. An activation energy of 14.1 +/- 0.4 kcal-mol-1 and of about 19 kcal-mol-1 for formation of bacteriorhodopsin 411 and of bacteriorhodopsin 565, resp., was calculated. pH-changes in the medium caused by the reaction cycle of bacteriorhodopsin were detected by use of the pH-indicator bromocresol green.

Entities: Chemical

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Year: 1975 PMID： 10022 DOI： 10.1007/BF00535760

Source DB: PubMed Journal: Biophys Struct Mech ISSN： 0340-1057

9 in total

1. Reconstitution of purple membrane vesicles catalyzing light-driven proton uptake and adenosine triphosphate formation.

Authors: E Racker; W Stoeckenius
Journal: J Biol Chem Date: 1974-01-25 Impact factor: 5.157

2. Light energy conversion in Halobacterium halobium.

Authors: W Stoeckenius; R H Lozier
Journal: J Supramol Struct Date: 1974

3. Tunable laser resonance raman spectroscopy of bacteriorhodopsin.

Authors: A Lewis; J Spoonhower; R A Bogomolni; R H Lozier; W Stoeckenius
Journal: Proc Natl Acad Sci U S A Date: 1974-11 Impact factor: 11.205

4. Photophosphorylation in Halobacterium halobium.

Authors: A Danon; W Stoeckenius
Journal: Proc Natl Acad Sci U S A Date: 1974-04 Impact factor: 11.205

5. Reversible photolysis of the purple complex in the purple membrane of Halobacterium halobium.

Authors: D Oesterhelt; B Hess
Journal: Eur J Biochem Date: 1973-08-17

6. Reversible dissociation of the purple complex in bacteriorhodopsin and identification of 13-cis and all-trans-retinal as its chromophores.

Authors: D Oesterhelt; M Meentzen; L Schuhmann
Journal: Eur J Biochem Date: 1973-12-17

7. Structure of the purple membrane.

Authors: A E Blaurock; W Stoeckenius
Journal: Nat New Biol Date: 1971-09-29

8. Rhodopsin-like protein from the purple membrane of Halobacterium halobium.

Authors: D Oesterhelt; W Stoeckenius
Journal: Nat New Biol Date: 1971-09-29

9. Functions of a new photoreceptor membrane.

Authors: D Oesterhelt; W Stoeckenius
Journal: Proc Natl Acad Sci U S A Date: 1973-10 Impact factor: 11.205

9 in total

42 in total

Review 1. Pathways of proton transfer in the light-driven pump bacteriorhodopsin.

Authors: J K Lanyi
Journal: Experientia Date: 1993-07-05

2. Surface-bound optical probes monitor protein translocation and surface potential changes during the bacteriorhodopsin photocycle.

Authors: J Heberle; N A Dencher
Journal: Proc Natl Acad Sci U S A Date: 1992-07-01 Impact factor: 11.205

3. A gene-fusion strategy for stoichiometric and co-localized expression of light-gated membrane proteins.

Authors: Sonja Kleinlogel; Ulrich Terpitz; Barbara Legrum; Deniz Gökbuget; Edward S Boyden; Christian Bamann; Phillip G Wood; Ernst Bamberg
Journal: Nat Methods Date: 2011-11-06 Impact factor: 28.547

4. In situ determination of transient pKa changes of internal amino acids of bacteriorhodopsin by using time-resolved attenuated total reflection Fourier-transform infrared spectroscopy.

Authors: C Zscherp; R Schlesinger; J Tittor; D Oesterhelt; J Heberle
Journal: Proc Natl Acad Sci U S A Date: 1999-05-11 Impact factor: 11.205

10. Effect of genetic modification of tyrosine-185 on the proton pump and the blue-to-purple transition in bacteriorhodopsin.

Authors: D J Jang; M A el-Sayed; L J Stern; T Mogi; H G Khorana
Journal: Proc Natl Acad Sci U S A Date: 1990-06 Impact factor: 11.205