Replacement of leucine-93 by alanine or threonine slows down the decay of the N and O intermediates in the photocycle of bacteriorhodopsin: Implications for proton uptake and 13-cis-retinal → all-trans-retinal reisomerization

Sriram Subramaniam; Duncan A. Greenhalgh; Parshuram Rath; Kenneth J. Rothschild; H. Gobind Khorana

Replacement of leucine-93 by alanine or threonine slows down the decay of the N and O intermediates in the photocycle of bacteriorhodopsin: Implications for proton uptake and 13-cis-retinal → all-trans-retinal reisomerization

Sriram Subramaniam, Duncan A. Greenhalgh, Parshuram Rath, Kenneth J. Rothschild, H. Gobind Khorana

Research output: Contribution to journal › Article › peer-review

Abstract

We report that the replacement of Leu-93 in bacteriorhodopsin by Ala (L93A) or Thr (L93T) slows down the photocycle by ≈100-fold relative to wild-type bacteriorhodopsin. Time-resolved visible absorption spectroscopy and resonance Raman experiments, respectively, show the presence of long-lived O-like and N-like intermediates in the photocycles of the above mutants. We infer the existence of an equilibrium between the N and O intermediates in the photocycles of these mutants. The L93A and L93T mutants exhibit normal proton pumping under continuous illumination, suggesting that the decay of the N and/or O intermediate, and consequently, proton translocation, can be accelerated by the absorption of a second photon. Since the 13-cis → all-trans reisomerization of retinal is completed during the decay of the N and O intermediates, we conclude that the interaction of Leu-93 with retinal is important in this phase of the photocycle. This conclusion is supported by a recent structural model of bacteriorhodopsin that suggests that Leu-93 is near the C-13 methyl group of retinal.

Original language	English (US)
Pages (from-to)	6873-6877
Number of pages	5
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	88
Issue number	15
State	Published - Aug 1 1991
Externally published	Yes

Keywords

Conformational change
Integral membrane protein
Proton pump
Resonance Raman spectroscopy
Site-specific mutagenesis

ASJC Scopus subject areas

General
Genetics

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Subramaniam, S., Greenhalgh, D. A., Rath, P., Rothschild, K. J., & Khorana, H. G. (1991). Replacement of leucine-93 by alanine or threonine slows down the decay of the N and O intermediates in the photocycle of bacteriorhodopsin: Implications for proton uptake and 13-cis-retinal → all-trans-retinal reisomerization. Proceedings of the National Academy of Sciences of the United States of America, 88(15), 6873-6877.

Replacement of leucine-93 by alanine or threonine slows down the decay of the N and O intermediates in the photocycle of bacteriorhodopsin: Implications for proton uptake and 13-cis-retinal → all-trans-retinal reisomerization. / Subramaniam, Sriram; Greenhalgh, Duncan A.; Rath, Parshuram et al.
In: Proceedings of the National Academy of Sciences of the United States of America, Vol. 88, No. 15, 01.08.1991, p. 6873-6877.

Research output: Contribution to journal › Article › peer-review

Subramaniam, S, Greenhalgh, DA, Rath, P, Rothschild, KJ & Khorana, HG 1991, 'Replacement of leucine-93 by alanine or threonine slows down the decay of the N and O intermediates in the photocycle of bacteriorhodopsin: Implications for proton uptake and 13-cis-retinal → all-trans-retinal reisomerization', Proceedings of the National Academy of Sciences of the United States of America, vol. 88, no. 15, pp. 6873-6877.

Subramaniam S, Greenhalgh DA, Rath P, Rothschild KJ, Khorana HG. Replacement of leucine-93 by alanine or threonine slows down the decay of the N and O intermediates in the photocycle of bacteriorhodopsin: Implications for proton uptake and 13-cis-retinal → all-trans-retinal reisomerization. Proceedings of the National Academy of Sciences of the United States of America. 1991 Aug 1;88(15):6873-6877.

Subramaniam, Sriram ; Greenhalgh, Duncan A. ; Rath, Parshuram et al. / Replacement of leucine-93 by alanine or threonine slows down the decay of the N and O intermediates in the photocycle of bacteriorhodopsin : Implications for proton uptake and 13-cis-retinal → all-trans-retinal reisomerization. In: Proceedings of the National Academy of Sciences of the United States of America. 1991 ; Vol. 88, No. 15. pp. 6873-6877.

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abstract = "We report that the replacement of Leu-93 in bacteriorhodopsin by Ala (L93A) or Thr (L93T) slows down the photocycle by ≈100-fold relative to wild-type bacteriorhodopsin. Time-resolved visible absorption spectroscopy and resonance Raman experiments, respectively, show the presence of long-lived O-like and N-like intermediates in the photocycles of the above mutants. We infer the existence of an equilibrium between the N and O intermediates in the photocycles of these mutants. The L93A and L93T mutants exhibit normal proton pumping under continuous illumination, suggesting that the decay of the N and/or O intermediate, and consequently, proton translocation, can be accelerated by the absorption of a second photon. Since the 13-cis → all-trans reisomerization of retinal is completed during the decay of the N and O intermediates, we conclude that the interaction of Leu-93 with retinal is important in this phase of the photocycle. This conclusion is supported by a recent structural model of bacteriorhodopsin that suggests that Leu-93 is near the C-13 methyl group of retinal.",

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AB - We report that the replacement of Leu-93 in bacteriorhodopsin by Ala (L93A) or Thr (L93T) slows down the photocycle by ≈100-fold relative to wild-type bacteriorhodopsin. Time-resolved visible absorption spectroscopy and resonance Raman experiments, respectively, show the presence of long-lived O-like and N-like intermediates in the photocycles of the above mutants. We infer the existence of an equilibrium between the N and O intermediates in the photocycles of these mutants. The L93A and L93T mutants exhibit normal proton pumping under continuous illumination, suggesting that the decay of the N and/or O intermediate, and consequently, proton translocation, can be accelerated by the absorption of a second photon. Since the 13-cis → all-trans reisomerization of retinal is completed during the decay of the N and O intermediates, we conclude that the interaction of Leu-93 with retinal is important in this phase of the photocycle. This conclusion is supported by a recent structural model of bacteriorhodopsin that suggests that Leu-93 is near the C-13 methyl group of retinal.

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Replacement of leucine-93 by alanine or threonine slows down the decay of the N and O intermediates in the photocycle of bacteriorhodopsin: Implications for proton uptake and 13-cis-retinal → all-trans-retinal reisomerization

Abstract

Keywords

ASJC Scopus subject areas

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