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Nozaki, D., T. Iwata, T. Ishikawa et al. (2004). Role of Gln1029 in the photoactivation processes of the LOV2
domain in
Adiantum
phytochrome3.
Biochemistry
43
: 8373-8379.
Pascal, A. A., Z. F. Liu, K. Broess et al. (2005). Molecular basis of photoprotection and control of photosyn-
thetic light-harvesting.
Nature
436
(7047): 134-137.
Polívka, T., C. A. Kerfeld, T. Pascher, and V. Sundström (2005). Spectroscopic properties of the carotenoid
3′-hydroxyechinenone in the orange carotenoid protein from the cyanobacterium
Arthrospira maxima
.
Biochemistry
44
(10): 3994-4003.
Rakhimberdieva, M. G., V. A. Boichenko, N. V. Karapetyan, and I. N. Stadnichuk (2001). Interaction of phy-
cobilisomes with photosystem II dimers and photosystem I monomers and trimers in the cyanobacterium
Spirulina platensis
.
Biochemistry
40
(51): 15780-15788.
Rakhimberdieva, M. G., Y. V. Bolychevtseva, I. V. Elanskaya, and N. V. Karapetyan (2007a). Protein-protein
interactions in carotenoid triggered quenching of phycobilisome l uorescence in
Synechocystis
sp. PCC
6803.
FEBS Lett
581
(13): 2429-2433.
Rakhimberdieva, M. G., I. N. Stadnichuk, I. V. Elanskaya, and N. V. Karapetyan (2004). Carotenoid-induced
quenching of the phycobilisome l uorescence in photosystem II-dei cient mutant of
Synechocystis
sp.
FEBS Lett
574
(1-3): 85-88.
Rakhimberdieva, M. G., D. V. Vavilin, W. F. Vermaas, I. V. Elanskaya, and N. V. Karapetyan (2007b). Phycobilin/
chlorophyll excitation equilibration upon carotenoid-induced non-photochemical l uorescence quenching
in phycobilisomes of the cyanobacterium
Synechocystis
sp. PCC 6803.
Biochim Biophys Acta
1767
(6):
757-765.
Ruban, A. V., D. Ress, P. A. A., and P. Horton (1992). Mechanism of pH-dependent dissipation of absorbed
excitation energy by photosynthetic membranes. II: The relationship between LHCII aggregation and qE
in isolated thylakoids.
Biochim Biophys Acta
1102
: 39-44.
Ruban, A. V., R. Berera, C. Ilioaia et al. (2007). Identii cation of a mechanism of photoprotective energy
dissipation in higher plants.
Nature
450
(7169): 575-578.
Sato, S., Y. Shimoda, A. Muraki et al. (2007). A large-scale protein-protein interaction analysis in
Synechocystis
sp. PCC6803.
DNA Res
14
: 207-216.
Scott, M., C. McCollum, S. Vasil'ev et al. (2006). Mechanism of the down regulation of photosynthesis by blue
light in the Cyanobacterium
Synechocystis
sp. PCC 6803.
Biochemistry
45
(29): 8952-8958.
Takahashi, F., D. Yamagata, M. Ishikawa et al. (2007). AUREOCHROME, a photoreceptor required for
photomorphogenesis in stramenopiles.
Proc Natl Acad Sci
104
: 19625-19630.
Wallace, A. C., R. A. Laskowski, and J. M. Thornton (1995). LIGPLOT: A program to generate schematic
diagrams of protein-ligand interactions.
Protein Eng
8
: 127-134.
Wilson, A., G. Ajlani, J. M. Verbavatz et al. (2006). A soluble carotenoid protein involved in phycobilisome-
related energy dissipation in cyanobacteria.
Plant Cell
18
(4): 992-1007.
Wilson, A., C. Boulay, A. Wilde, C. A. Kerfeld, and D. Kirilovsky (2007). Light-induced energy dissipation in
iron-starved cyanobacteria: Roles of OCP and IsiA proteins.
Plant Cell
19
(2): 656-672.
Wilson, A., C. Punginelli, A. Gall et al. (2008). A photoactive carotenoid protein acting as light intensity sensor.
Proc Natl Acad Sci
105
(33): 12075-12080.
Wu, Y. P. and D. W. Krogmann (1997). The orange carotenoid protein of
Synechocystis
PCC 6803.
Biochim
Biophys Acta
1322
(1): 1-7.
Yamamoto, H. (1979). Biochemistry of the violaxanthin cycle in higher plants.
Pure Appl Chem
51
: 639-648.
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