The low-energy forms of photosystem I light-harvesting complexes: spectroscopic properties and pigment-pigment interaction characteristics. - Wikidata - awgldk - TriplyDB

The low-energy forms of photosystem I light-harvesting complexes: spectroscopic properties and pigment-pigment interaction characteristics.

The low-energy forms of photosystem I light-harvesting complexes: spectroscopic properties and pigment-pigment interaction characteristics.

http://www.wikidata.org/entity/Q41970989

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Analysis of LhcSR3, a protein essential for feedback de-excitation in the green alga Chlamydomonas reinhardtii A comparison between plant photosystem I and photosystem II architecture and functioning Conformational switching explains the intrinsic multifunctionality of plant light-harvesting complexes.Exciton delocalization and transport in photosystem I of cyanobacteria Synechococcus elongates: simulation study of coherent two-dimensional optical signals.Defining the far-red limit of photosystem I: the primary charge separation is functional to 840 nm.A red-shifted antenna protein associated with photosystem II in Physcomitrella patens PSI-LHCI of Chlamydomonas reinhardtii: Increasing the absorption cross section without losing efficiency.Conservation of core complex subunits shaped the structure and function of photosystem I in the secondary endosymbiont alga Nannochloropsis gaditana.Light-harvesting in photosystem I.Fluorescence spectral dynamics of single LHCII trimers.Picosecond fluorescence of intact and dissolved PSI-LHCI crystals.Excitation-energy transfer dynamics of higher plant photosystem I light-harvesting complexes.The origin of the low-energy form of photosystem I light-harvesting complex Lhca4: mixing of the lowest exciton with a charge-transfer state.The role of the individual Lhcas in photosystem I excitation energy trapping.Mixing of exciton and charge-transfer states in light-harvesting complex Lhca4.Unusual features of the high light acclimation of Chromera velia.The light-harvesting complexes of higher-plant Photosystem I: Lhca1/4 and Lhca2/3 form two red-emitting heterodimers.Far-red fluorescence: a direct spectroscopic marker for LHCII oligomer formation in non-photochemical quenching.Tuning the Intrinsic Photophysical Properties of Chlorophyll a.

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P2860

The low-energy forms of photosystem I light-harvesting complexes: spectroscopic properties and pigment-pigment interaction characteristics.

http://www.wikidata.org/entity/Q41970989

description

2007 nî lūn-bûn

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2007年の論文

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2007年論文

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2007年論文

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2007年論文

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2007年論文

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2007年論文

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2007年论文

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2007年论文

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2007年论文

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name

The low-energy forms of photos ...... t interaction characteristics.

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The low-energy forms of photos ...... t interaction characteristics.

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The low-energy forms of photos ...... t interaction characteristics.

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BIOPHYSJ.107.106955

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Biophysical Journal

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The low-energy forms of photos ...... t interaction characteristics.

@en

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Agnieszka Chojnicka

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Frank van Mourik

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Jan P Dekker

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Janne A Ihalainen

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P2860

Crystal structure of plant photosystem I

Fluorescence spectral fluctuations of single LH2 complexes from Rhodopseudomonas acidophila strain 10050.

Energy transfer and trapping in photosystem I.

Crystal structure of spinach major light-harvesting complex at 2.72 A resolution.

Structure and function of photosystems I and II.

In vitro reconstitution of the photosystem I light-harvesting complex LHCI-730: heterodimerization is required for antenna pigment organization

Stark effect spectroscopy of Rhodobacter sphaeroides and Rhodopseudomonas viridis reaction centers.

Recombinant Lhca2 and Lhca3 subunits of the photosystem I antenna system.

Energy transfer and charge separation in photosystem I: P700 oxidation upon selective excitation of the long-wavelength antenna chlorophylls of Synechococcus elongatus.

The calculated in vitro and in vivo chlorophyll a absorption bandshape.

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2418-2428

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10.1529/BIOPHYSJ.107.106955

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7

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93

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Rienk van Grondelle

Tomas Morosinotto

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2007-06-01T00:00:00Z

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6291744

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