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RpaA regulates the accumulation of monomeric photosystem I and PsbA under high light conditions in Synechocystis sp. PCC 6803.

Majeed W, Zhang Y, Xue Y, Ranade S, Blue RN, Wang Q, He Q.

PLoS One. 2012;7(9):e45139. Epub 2012 Sep 14.


Association of High Light-Inducible HliA/HliB Stress Proteins with Photosystem 1 Trimers and Monomers of the Cyanobacterium Synechocystis PCC 6803.

Akulinkina DV, Bolychevtseva YV, Elanskaya IV, Karapetyan NV, Yurina NP.

Biochemistry (Mosc). 2015 Oct;80(10):1254-61. doi: 10.1134/S0006297915100053.


IsiA is required for the formation of photosystem I supercomplexes and for efficient state transition in synechocystis PCC 6803.

Wang Q, Hall CL, Al-Adami MZ, He Q.

PLoS One. 2010 May 3;5(5):e10432. doi: 10.1371/journal.pone.0010432.


The high light-inducible polypeptides stabilize trimeric photosystem I complex under high light conditions in Synechocystis PCC 6803.

Wang Q, Jantaro S, Lu B, Majeed W, Bailey M, He Q.

Plant Physiol. 2008 Jul;147(3):1239-50. doi: 10.1104/pp.108.121087. Epub 2008 May 23.


An Rrf2-type transcriptional regulator is required for expression of psaAB genes in the cyanobacterium Synechocystis sp. PCC 6803.

Midorikawa T, Matsumoto K, Narikawa R, Ikeuchi M.

Plant Physiol. 2009 Oct;151(2):882-92. doi: 10.1104/pp.109.141390. Epub 2009 Aug 19.


Disruption of the ndhF1 gene affects Chl fluorescence through state transition in the Cyanobacterium Synechocystis sp. PCC 6803, resulting in apparent high efficiency of photosynthesis.

Ogawa T, Harada T, Ozaki H, Sonoike K.

Plant Cell Physiol. 2013 Jul;54(7):1164-71. doi: 10.1093/pcp/pct068. Epub 2013 May 2.


Psb28 is involved in recovery of photosystem II at high temperature in Synechocystis sp. PCC 6803.

Sakata S, Mizusawa N, Kubota-Kawai H, Sakurai I, Wada H.

Biochim Biophys Acta. 2013 Jan;1827(1):50-9. doi: 10.1016/j.bbabio.2012.10.004. Epub 2012 Oct 16.


Photosystem activity and state transitions of the photosynthetic apparatus in cyanobacterium Synechocystis PCC 6803 mutants with different redox state of the plastoquinone pool.

Bolychevtseva YV, Kuzminov FI, Elanskaya IV, Gorbunov MY, Karapetyan NV.

Biochemistry (Mosc). 2015 Jan;80(1):50-60. doi: 10.1134/S000629791501006X.


Association of Psb28 and Psb27 Proteins with PSII-PSI Supercomplexes upon Exposure of Synechocystis sp. PCC 6803 to High Light.

Bečková M, Gardian Z, Yu J, Konik P, Nixon PJ, Komenda J.

Mol Plant. 2017 Jan 9;10(1):62-72. doi: 10.1016/j.molp.2016.08.001. Epub 2016 Aug 12.


Biogenesis of chlorophyll-binding proteins under iron stress in Synechocystis sp. PCC 6803.

Liu X, Zhao J, Wu Q.

Biochemistry (Mosc). 2006;71 Suppl 1:S101-4.


The bacterial-type [4Fe-4S] ferredoxin 7 has a regulatory function under photooxidative stress conditions in the cyanobacterium Synechocystis sp. PCC 6803.

Mustila H, Allahverdiyeva Y, Isojärvi J, Aro EM, Eisenhut M.

Biochim Biophys Acta. 2014 Aug;1837(8):1293-304. doi: 10.1016/j.bbabio.2014.04.006. Epub 2014 Apr 26.


Site-directed mutations at D1-Thr179 of photosystem II in Synechocystis sp. PCC 6803 modify the spectroscopic properties of the accessory chlorophyll in the D1-branch of the reaction center.

Schlodder E, Renger T, Raszewski G, Coleman WJ, Nixon PJ, Cohen RO, Diner BA.

Biochemistry. 2008 Mar 11;47(10):3143-54. doi: 10.1021/bi702059f. Epub 2008 Feb 16.


Characterization of a Synechocystis sp. PCC 6803 double mutant lacking the CyanoP and Ycf48 proteins of Photosystem II.

Jackson SA, Eaton-Rye JJ.

Photosynth Res. 2015 May;124(2):217-29. doi: 10.1007/s11120-015-0122-0. Epub 2015 Mar 24.


Mechanism of downregulation of photosystem I content under high-light conditions in the cyanobacterium Synechocystis sp. PCC 6803.

Muramatsu M, Sonoike K, Hihara Y.

Microbiology. 2009 Mar;155(Pt 3):989-96. doi: 10.1099/mic.0.024018-0.


Chlorophyll a phytylation is required for the stability of photosystems I and II in the cyanobacterium Synechocystis sp. PCC 6803.

Shpilyov AV, Zinchenko VV, Grimm B, Lokstein H.

Plant J. 2013 Jan;73(2):336-46. doi: 10.1111/tpj.12044. Epub 2012 Nov 26.


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