Centrum Algatech

Mikrobiologický ústav AV ČR, v.v.i. - vědecké pracoviště Třeboň

Publikace

CitaceRok

Mareš, J, Hrouzek, P, Kaňa, R, Ventura, S, Strunecký, O, Komárek, J: The Primitive Thylakoid-Less Cyanobactzerium Gloeobacter Is a Common Rock –Dwelling Organism. Plos One 8, e66323, 2013.


2013

Krupnik, T, Kotabová, E, Van Bezouwen, LS, Mazur, R, Garstka, M, Nixon, PJ, Barber, J, Kaňa, R, Boekema, EJ, Kargul, J: A Reaction Center – dependent Photoprotection Mechanism in a Highly Robust Photosystem II from an Extremophilic Red alga, Cyanidioschyzon merolae. The Journal of Biological Chemistry 288, 23529-23542, 2013.


2013

Kaňa, R: Mobility of photosynthetic proteins. Photosynthesis Research 116, 465-479, 2013.


2013

Quigg, A, Kotabová, E, Jarešová, J, Kaňa, R, Šetlík, J, Šedivá, B, Komárek, O, Prášil, O: Photosynthesis in Chromera velia repressents a simple system with high efficiency. PLoS One 7(10), e47036, 2012.


2012

Kaňa, R, Kotabová, E, Komárek, O, Šedivá, B, Papageorgiou, GC, Govindjee, Prášil, O: The slow S to M fluorescence rise in cyanobacteria is due to a state 2 to state 1 transition. Biochimica et Biophysica Acta 1817, 1237-1247, 2012.


2012

Kaňa, R, Kotabová, E, Sobotka, R, Prášil, O: Non-photochemical quenching in cryprohyte alga Rhodomonas salina is located in chlorophyll a/c antennae. PLoS ONE 7(1), e29700, 2012.


2012

Kotabová, E, Kaňa, R, Jarešová, J, Prášil, O: Non-photochemical fluorescence quenching in Chromera velia is enabled by fast violaxanthin de-epoxidation. FEBS Letters 585, 1941-1945, 2011.


2011
Ilík, P., Kotabová, E., Špundová, M., Novák, O., Kaňa, R., Strzalka, K.: Low-light-induced violaxanthin de-epoxidation in shortly preheated leaves: uncoupling from ΔpH-dependent nonphotochemical quenching. – Photochemistry and Photobiology 86, 722-726, 2010.
2010

Kaňa, R., Prášil, O., Komárek, O., Papageorgiou, G.C., Govindjee: Spectral characteristic of luorescence induction in a model cyanobacterium, Synechococcus sp. (PCC 7942). – Biochimica et Biophysica Acta – Bioenergetics 1787, 1170-1178, 2009.


2009
Kaňa, R., Prášil, O., Mullineaux, C.W.: Immobility of phycobilins in the thylakoid lumen of a cryptophyte suggests that protein diffucion in the lumen is very restricted. – FEBS Letters 583, 670-674, 2009.
2009
Kotabová, E., Kaňa, R., Kyseláková, H., Lípová L., Novák, O., Ilík, P.: A pronounced light-induced zeaxanthin formation accompanied by an unusually slight increase in non-photochemical quenching: A study with barley leaves treated with methyl viologen at moderate light. – Journal of Plant Physiology 165, 1563-1571, 2008.
2008
Kaňa, R., Vass, I.: Thermoimaging as a tool for studying light-induced heating of leaves Correlation of heat dissipation with the efficiency of photosystem II photochemistry and non-photochemical quenching. – Environmental and Experimental Botany 64, 90-96, 2008.
2008
Kaňa, R., Kotabová, E., Prášil, O.: Acceleration of plastoquinone pool reduction by alternative pathways precedens a decrease in photosynthetic CO2 assimilation in preheated barely leaves. – Physiologia Plantarum 133, 794-806, 2008.
2008
Kaňa, R., Špundová, M., Ilík, P., Lazár, D., Klem, K., Tomek, P., Nauš, J., Prášil, O.: Effect of herbicide clomazone on photosynthetic processes in primary barley (Hordeum vulgare L.) leaves. - Pesticide Biochemistry and Physiology 78, 161-170, 2004.
2004
Kaňa, R., Lazár, D., Prášil, O., Nauš, J.: Experimental and theoretical studies on the excess capacity of photosystem II. - Photosynthesis Research 72, 271-284, 2002.
2002

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