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Citation(s) in
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El-Sayed MA
, Terner J.
POWER- AND TIME-RESOLVED RESONANCE RAMAN STUDIES AND CONFORMATIONAL CHANGES IN BACTERIORHODOPSIN.
Photochem Photobiol
1979. [DOI:
10.1111/j.1751-1097.1979.tb07124.x
]
[
Citation(s) in
RCA
: 9
]
[
Impact Index Per Article: 0.2
]
[
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[Indexed: 11/27/2022]
Number
Cited by Other Article(s)
1
Kuschmitz D
, Hess B. Trans-cis isomerisation of the retinal chromophore of bacteriorhodopsin during the photocycle.
FEBS Lett
2001. [DOI:
10.1016/0014-5793(82)80413-4
]
[
Citation(s) in
RCA
: 38
]
[
Impact Index Per Article: 1.7
]
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[Indexed: 11/15/2022]
Abstract
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2
Holzwarth AR
. Applications of ultrafast laser spectroscopy for the study of biological systems.
Q Rev Biophys
1989;
22
:239-326. [PMID:
2695961
DOI:
10.1017/s0033583500002985
]
[
Citation(s) in
RCA
: 65
]
[
Impact Index Per Article: 1.9
]
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[Indexed: 01/02/2023]
Abstract
The discovery of mode-locked laser operation now nearly two decades ago has started a development which enables researchers to probe the dynamics of ultrafast physical and chemical processes at the molecular level on shorter and shorter time scales. Naturally the first applications were in the fields of photophysics and photochemistry where it was then possible for the first time to probe electronic and vibrational relaxation processes on a sub-nanosecond timescale. The development went from lasers producing pulses of many picoseconds to the shortest pulses which are at present just a few femtoseconds long. Soon after their discovery ultrashort pulses were applied also to biological systems which has revealed a wealth of information contributing to our understanding of a broadrange of biological processes on the molecular level.It is the aim of this review to discuss the recent advances and point out some future trends in the study of ultrafast processes in biological systems using laser techniques. The emphasis will be mainly on new results obtained during the last 5 or 6 years. The term ultrafast means that I shall restrict myself to sub-nanosecond processes with a few exceptions.
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MESH Headings
Bacteriorhodopsins/metabolism
Hemeproteins/metabolism
Lasers
Photosynthesis
Phytochrome/metabolism
Proteins/metabolism
Rhodopsin/metabolism
Spectrum Analysis/methods
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Affiliation(s)
A R Holzwarth
Max-Planck-Institut für Strahlenchemie, Mülheim/Ruhr, FRG
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3
EHRENBERG BENJAMIN
, MEIRI ZVI, LOEW LESLIEM. A MICROSECOND KINETIC STUDY OF THE PHOTOGENERATED MEMBRANE POTENTIAL OF BACTERIORHODOPSIN WITH A FAST RESPONDING DYE.
Photochem Photobiol
1984. [DOI:
10.1111/j.1751-1097.1984.tb03428.x
]
[
Citation(s) in
RCA
: 10
]
[
Impact Index Per Article: 0.3
]
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[Indexed: 11/30/2022]
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4
Hsieh CL
, El-Sayed MA, Nicol M, Nagumo M, Lee JH. TIME-RESOLVED RESONANCE RAMAN SPECTROSCOPY OF THE BACTERIORHODOPSIN PHOTOCYCLE ON THE PICOSECOND AND NANOSECOND TIME SCALES.
Photochem Photobiol
1983. [DOI:
10.1111/j.1751-1097.1983.tb08370.x
]
[
Citation(s) in
RCA
: 33
]
[
Impact Index Per Article: 0.8
]
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[Indexed: 11/28/2022]
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5
Sportelli L
, Martino G, Cannistraro S. 465—Photobiological conversion of solar energy.
ACTA ACUST UNITED AC
1982. [DOI:
10.1016/0302-4598(82)80175-x
]
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Citation(s) in
RCA
: 5
]
[
Impact Index Per Article: 0.1
]
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[Indexed: 11/29/2022]
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6
[73] Time-resolved chromophore resonance raman and protein fluorescence of the intermediates of the proton pump photocycle of bacteriorhodopsin.
Methods Enzymol
1982. [DOI:
10.1016/0076-6879(82)88076-2
]
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Citation(s) in
RCA
: 3
]
[
Impact Index Per Article: 0.1
]
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