Publikace
Citace | Rok |
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Koník, P, Skotnicová, P, Gupta, S, Tichý, M, Sharma, S, Komenda, J, Sobotka, R, Krynická, V*: The cyanobacterial FtsH4 protease controls accumulation of protein factorsinvolved in the biogenesis of photosystem I. BBA - Bioenergetics 1865(1), 149017, 2024. https://doi.org/10.1016/j.bbabio.2023.149017 | 2024 |
Kopejtka, K, Tomasch, J, Zeng, Y, Selyanin, V, Dachev, M, Piwosz, K, Tichý, M, Bína, D, Gardian, Z, Bunk, B, Brinkmann, H, Geffers, R, Sommaruga, R, Koblížek, M*: Simultaneous Presence of Bacteriochlorophyll and Xanthorhodopsin Genes in a Freshwater Bacterium. mSystems 5, e01044-20, 2020. https://doi.org/10.1128/mSystems.01044-20 | 2020 |
Kopejtka, K, Tomasch, J, Zeng, Y, Tichý, M, Sorokin, DY, Koblížek, M*: Genomic Analysis of the Evolution of Phototrophy among Haloalkaliphilic Rhodobacterales. Genome Biology and Evolution 9(7), 1950-1962, 2017. https://doi.org/10.1093/gbe/evx141 | 2017 |
Linhartová, M, Skotnicová, P, Hakkila, K, Tichý, M, Komenda, J, Knoppová, J, Gilabert, JF, Guallar, V, Tyystjärvi, T, Sobotka, R*: Mutations Suppressing the Lack of Prepilin Peptidase Provide Insights Into the Maturation of the Major Pilin Protein in Cyanobacteria. Frontiers in Microbiology 12, 756912, 2021. https://doi.org/10.3389/fmicb.2021.756912 | 2021 |
Shukla, MK, Llansola-Portoles, MJ, Tichý, M, Pascal, AA, Robert, B, Sobotka, R*: Binding of pigments to the cyanobacterial high-light-inducible protein HliC. Photosynthesis Research 137(1), 29-39, 2018. https://doi.org/10.1007/s11120-017-0475-7 | 2018 |
Skotnicová, P, Sobotka, R, Shepherd, M, Hájek, J, Hrouzek, P, Tichý, M*: The cyanobacterial protoporphyrinogen oxidase HemJ is a new b-type heme protein functionally coupled with coproporphyrinogen III oxidase. Journal of Biological Chemistry 293(32), 12394-12404, 2018. https://doi.org/10.1074/jbc.ra118.003441 | 2018 |
Skotnicová, P, Srivastava, A, Aggarwal, D, Talbot, J, Karlínová, I, Moos, M, Mareš, J, Koník, P, Šimek, P, Tichý, M, Sobotka, R*: A thylakoid biogenesis BtpA protein is required for the initial step of tetrapyrrole biosynthesis in cyanobacteria. New Phytologist 241(3), 1236-1249, 2024. https://doi.org/10.1111/nph.19397 | 2024 |
Strašková, A, Steinbach, G, Konert, G, Kotabová, E, Komenda, J, Tichý, M, Kaňa, R*: Pigment-protein complexes are organized into stable microdomains in cyanobacterial thylakoids. BBA – Bioenergetics 1860(12), 148053, 2019. https://doi.org/10.1016/j.bbabio.2019.07.008 | 2019 |
Boehm, M, Yu, J, Krynická, V, Barker, M, Tichý, M, Komenda, J, Nixon, PJ, Nield, J: Subunit organization of a Synechocycstis Hetero-Oligomeric thylakoid FtsH complex involved in photosystem II repair. Plant Cell 24, 3669-3683, 2012. | 2012 |
Dobáková, M., Sobotka, R., Tichý, M., Komenda, J. (2009) Psb28 protein is i volved in the biogenesis of the photosystem II inner antenna CP47 (PsbB) in the cyanobacterium Synechocystis sp. PCC 6803. Plant Physiology 149, 1076-1086. | 2009 |
Chen, GE, Hitchcock, A, Mareš, J, Gong, Y, Tichý, M, Pilný, J, Kovářová, L, Zdvihalová, B, Xu, J, Hunter, CN, Sobotka, R*: Evolution of Ycf54-independent chlorophyll biosynthesis in cyanobacteria. PNAS 118(10), e2024633118, 2021. https://doi.org/10.1073/pnas.2024633118 | 2021 |
Knoppová, J, Sobotka, R, Tichý, M, Yu, J, Halada, P, Nixon, PJ, Komenda, J: Discovery of a Chlorophyll Binding Protein Complex Involved in the Early Steps of Photosystem II Assembly in Synechocystis. Plant Cell 26, 1200-1212, 2014. | 2014 |
Komárek, J., Azevedo, S.M.F.O., Domingos, P., Komárková, J., Tichý, M.: Background of the Caruaru tragedy; a case taxonomic study of toxic cyanobacteria. - Archiv für Hydrobiologie 140/ Algological Studies 103, 9-29, 2001. | 2001 |
Komenda, J., Knoppová, J., Krynická, V., Nixon, P.J., Tichý, M.: Role of FtsH2 in the repair of Photosystem II in mutants of the cyanobacterium Synechocystis PCC 6803 with impaired assenmbly or stability of the CaMn4 cluster. – Biochimica et Biophysica Acta 1797, 566-275, 2010. | 2010 |
Komenda, J., Tichý, M., Prášil, O., Knoppová, J., Kuviková, S., de Vries, R., Nixon, P.J. (2007) The exposed N-terminal tail of the D1 subunit is required for rapid D1 degradation during Photosystem II reapir in Synechocystis sp. PCC 6803. Plant Cell 19, 2839-2854 | 2007 |
Sobotka, R, Tichý, M, Wilde, A, Hunter, AN: Functional assignments for the carboxyl-terminal domains of the ferrochelatase from Synechocystis PCC 6803: The CAB domain plays a regulatory role, and region II is essential for catalysis1[W]. Plant Physiology 155, 1735-1747, 2011. | 2011 |
Sobotka, R., Dühring, U., Komenda, J., Peter, E., Gardian, Z., Tichý, M., Grimm, B., Wilde, A. (2008) Improtance of the cyanobacterial Gun4 protein for chlorophyll metabolism and assembly of photosynthetic complexes. Journal of Biological Chemistry 283, 25794-25802. | 2008 |
Sobotka, R., Komenda, J., Bumba, L., Tichý, M. (2005) Photosystem II assembly in CP47 mutant of Synechocystis sp. PCC 6803 is dependent on the level of chlorophyll precursors regulated by ferrochelatase. Journal of Biological Chemistry 280, 31595-31602. | 2005 |
Sobotka, R., McLean, S., Žuberová, M., Hunter, C.N., Tichý, M. (2008) The C-Terminal extension of ferrochelatase is critical for enzyme aktivity and for functioning of the tetrapyrrole pathway in Synechocystis strain PCC 6803. Journal of Bacteriology 190, 2086-2095. | 2008 |
Tichý, M, Bečková, M, Kopečná, J, Noda, J, Sobotka, R, Komenda, J: Strain of Synechocystis PCC 6803 with aberrant assembly of Photosystem II contains tandem duplication of a large chromosomal region. Frontiers in Plant Science 7, 648, 2016. | 2016 |