The intact photosystem I of maize containing its full antenna complement (PSI-200) has been purified and fractionated into the core and outer antenna (LHCI) components. It is demonstrated by absorption and fluorescence spectroscopy that at least 80% of the long wavelength absorbing antenna pigments (red forms) are located in LHCI. Absorption spectra in the Q(y) region of all three preparations were measured between 72 and 300 K and subjected to a thermal broadening analysis. Data are interpreted in the linear electron-phonon coupling assumption, and the average optical reorganization energy (Sv(m)) for the bulk pigment band and the red absorption tail determined. A marked asymmetry in Sv(m) values across the absorption band is demonstrated....
Photosystem I with its full antenna complement (PSI-LHCI) has been prepared by mild detergent solubi...
In this work the spectroscopic properties of the special low-energy absorption bands of the outer an...
The spectral forms of the two chlorophyll species in higher plant Photosystem II antenna proteins ha...
The red antenna states of the external antenna complexes of higher plant photosystem I, known as LHC...
AbstractThe red antenna states of the external antenna complexes of higher plant photosystem I, know...
In this work the spectroscopic properties of the special low-energy absorption bands of the outer an...
ABSTRACT In this work the spectroscopic properties of the special low-energy absorption bands of the...
In this work the spectroscopic properties of the special low-energy absorption bands of the outer an...
AbstractIn this work the spectroscopic properties of the special low-energy absorption bands of the ...
AbstractThe Photosystem II (PSII) core antenna complexes, CP43 and CP47, were prepared from spinach ...
In higher-plant Photosystem I (PSI), the majority of “red” Chls (absorbing at longer wavelengths tha...
One of the special spectroscopic characteristics of photosystem I (PSI) complexes is that they posse...
The minor photosystem II antenna complex CP29(Lhcb-4) has been reconstituted in vitro with the Lhcb-...
The existence of at least three low-energy chlorophyll a (Chl a) antenna states is shown for photosy...
A photosystem I preparation from maize, containing its full antenna complement (PSI-200) and in whic...
Photosystem I with its full antenna complement (PSI-LHCI) has been prepared by mild detergent solubi...
In this work the spectroscopic properties of the special low-energy absorption bands of the outer an...
The spectral forms of the two chlorophyll species in higher plant Photosystem II antenna proteins ha...
The red antenna states of the external antenna complexes of higher plant photosystem I, known as LHC...
AbstractThe red antenna states of the external antenna complexes of higher plant photosystem I, know...
In this work the spectroscopic properties of the special low-energy absorption bands of the outer an...
ABSTRACT In this work the spectroscopic properties of the special low-energy absorption bands of the...
In this work the spectroscopic properties of the special low-energy absorption bands of the outer an...
AbstractIn this work the spectroscopic properties of the special low-energy absorption bands of the ...
AbstractThe Photosystem II (PSII) core antenna complexes, CP43 and CP47, were prepared from spinach ...
In higher-plant Photosystem I (PSI), the majority of “red” Chls (absorbing at longer wavelengths tha...
One of the special spectroscopic characteristics of photosystem I (PSI) complexes is that they posse...
The minor photosystem II antenna complex CP29(Lhcb-4) has been reconstituted in vitro with the Lhcb-...
The existence of at least three low-energy chlorophyll a (Chl a) antenna states is shown for photosy...
A photosystem I preparation from maize, containing its full antenna complement (PSI-200) and in whic...
Photosystem I with its full antenna complement (PSI-LHCI) has been prepared by mild detergent solubi...
In this work the spectroscopic properties of the special low-energy absorption bands of the outer an...
The spectral forms of the two chlorophyll species in higher plant Photosystem II antenna proteins ha...