Zobrazeno 1 - 10 of 189 pro vyhledávání: '"E. Lehoczki"'
1
Xanthophyll Cycle Patterns and in vivo Photoinhibition in Herbicide-Resistant Biotypes of Conyza canadensis
Autor: Endre Pölös, Zoltμn Szigeti, Gyula Varadi, E. Lehoczki, Éva Darkó
Publikováno v: Journal of Plant Physiology. 144:669-674
Summary The xanthophyll cycle and in vivo photoinhibition were investigated in the herbicide-susceptible (S), paraquat-resistant (PQ-R), atrazine-resistant (Atr-R) and paraquat-atrazine co-resistant (PQAtr-R) biotypes of Conyza canadensis using both
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::9fa3be159d512f5c3ef806fccde14739
https://doi.org/10.1016/s0176-1617(11)80658-9
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2
Diquat Resistance of Different Paraquat Resistant Conyza canadensis (L.) Cronq. Biotypes
Autor: Éva Darkó, Zoltán Szigeti, Erika Nagy, E. Lehoczki
Publikováno v: Journal of Plant Physiology. 144:686-690
Summary Photosynthetic responses of paraquat/atrazine coresistant (PqAR) and only paraquat resistant (PqR) biotypes of horseweed [ Conyza canadensis (L.) Cronq.] on diquat (Reglone) treatment were investigated. Both resistant biotypes showed a transi
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::1eec5bf6c33f3cecddf0a2b2dda50db4
https://doi.org/10.1016/s0176-1617(11)80661-9
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4
Session 10 Photosynthesis
Autor: I. Adamska, K. Kloppstech, B. Andersson, L. S. Bubolo, V. E. Sharkova, C. Büchel, G. Garab, N. V. Budagovskaya, M. T. Chaika, G. E. Savchenko, L. M. Abramchik, E. V. Serduchenko, E. A. Kluchareva, L. E. Fridlyand, M. T. Giardi, J. Komenda, J. Masojídek, T. Kučera, M. Hodges, R. Gucci, J. D. Everard, J. A. Flore, W. H. Loescher, R. Hák, J. Janáček, J. Haumann, H. R. Bolhar-Nordenkampf, T. Hiltonen, J. Karlsson, K. Palmqvist, A. Clarke, G. Samuelsson, J. Hudák, E. Masarovičová, V. M. Ivanchenko, T. Janda, G. Szalai, E. Páldi, Z. Szigeti, B. R. Jovanič, M. T. Bogdanovič, M. N. Tomaševič, O. Keerberg, P. Gardeström, H. I. Vanova, H. Keerberg, T. Pärnik, J. Kissimon, D. Lásztity, S. M. Kochubey, G. A. Kornyushenko, D. I. Sapozhnikov, J. Kovács, B. Csapó, B. Böddi, B. Kozklowska, S. Maleszewski, Z. Krupa, G. Öquist, A. Siedlecka, M. Lacuesta, B. Gonzalez-Moro, A. Diaz, C. Gonzalez-Murua, A. Muánoz-Rueda, A. V. Makeev, W. Maksymiec, T. Baszyński, J. Marques Da Silva, M. C. Arrabaça, E. N. Muzafarov, G. N. Nazarova, C. F. Davies, V. Yu. Lyubimov, S. Nogués, N. R. Baker, Á. Nosticzius, P. Nyitrai, É. Sárvári, D. Ungár, F. Lang, Christina Ottander, Gunnar Öquist, G. Ouzounidou, M. Pádua, A. Casimiro, R. Pamer, C. Perathoner, H. Bauer, D. Panković, S. Kevrešan, M. Plesničar, Z. Sakač, T. Ćupina, L.J. Vapa, K. Pazurkiewicz-Kocot, S. Peter, M. Roos, C. Schäfer, P. Poot, J. PospíŠilová, J. Čatský, H. Synková, N. Wilhelmová, W. Postl, Donis Donis, R. Klune, A. Kamnalrut, Z. Ramazanov, M. C. Henk, P. A. Sosa, M. Jimenez Del Rio, J-L. Gomez-Pincheti, G. Reina, M. Richter, R. Goss, D. T. Nguyen, A. Wild, E. Romanowska, P. -A. Albertsson, A. W. Russell, U. Schiefthaler, H. R. Bolhár-Nordenkampf, C. Critchley, M. Meister, J. Šantrůček, J. Květoň, M. Šimková, K. Roháček, S. Scagliarini, P. Trost, P. Pupillo, R. Scheibe, M. Selga, T. Selga, O. V. Shevchenko, A. P. Panchenko, E. Skórzyńska, V. Špunda, M. Čajánek, J. Kalina, I. Lachetová, B. Sundberg, K-E Renhorn, P-A Esseen, U. Sundin, E. Ögren, L. Tamás, F. Vácha, M. Durchan, K. Loven, R. Valcke, E. M. Vapaavuori, A. H. Pennanen, S. A. Ruuska, A. H. Vuorinen, Gy. Váradi, É. Darkó, E. Pölös, E. Lehoczki, S. Veljović-Jovanović, Ž. Vučinić, U. Heber, W. Bilger, J. H. Venema, P. R. Hasselt, A. J. Vigara, M. I. García-Sánchez, C. Gómez-Moreno, J. M. Vega, C. Vilchez, G. Vogg, R. Heim, J. Hansen, E. Beck, A. Waloszek, E. Sikorska, S. Wieckowski, J. Kutík, Z. Šesták, U. Wojcieska-Wyskupajtys, A. Zillinger
Publikováno v: Biologia plantarum. 36:S133-S173
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::ee0f20cbf0dfe29728881da8c09778df
https://doi.org/10.1007/bf02931122
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5
Acclimation of Vicia faba Leaves to UV-B Radiation
Autor: R. Cseh, E. Lehoczki, L. Makrai, E. Nagy
Publikováno v: Photosynthesis: Mechanisms and Effects ISBN: 9780792355472
The declining thickness of the stratospheric ozone layer has resulted in increased UV-B radiation (280–320 nm) reaching the Earth’s surface. Severe deleterious effects have been induced in plants by UV-B radiation. Exposure of plants to UV-B radi
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::3fcbecdbdf3278c7abf331ab3216a245
https://doi.org/10.1007/978-94-011-3953-3_562
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6
Effect of Paraquat Measured via In vivo P-700 Oxidation at 820 nm on Paraquat-Susceptible and Resistant Erigeron Canadensis (CRONQ.) Biotypes
Autor: E. Lehoczki, L. Almási, R. Cseh
Publikováno v: Photosynthesis: Mechanisms and Effects ISBN: 9780792355472
The absorption of paraquat (methylviologen: 1,1′-dimethy1-4,4′-bipyridinium) through the leaf cuticle after spraying, is very rapid. The immediate electron donor of paraquat is the iron sulphur cluster Fe-SA/Fe-SB (also known as P-430) (Hiyama an
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::bda4c066faa7749898d3f1cb654854ac
https://doi.org/10.1007/978-94-011-3953-3_911
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7
Comparison of Sensitivity of Triazine-Resistant and Susceptible Biotypes of Several Weeds to UV-B Exposure
Autor: E. Lehoczki, L. Makrai, T. Ertli, H. Polyánka
Publikováno v: Photosynthesis: Mechanisms and Effects ISBN: 9780792355472
Similarly to photoinhibition, it seems that the most UV-B radiation sensitive part of the photosynthetic apparatus is the donor and/or acceptor side of photosystem II (PS II). The D1 protein of the PS II reaction centre appears particularly sensitive
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::b4277f7e647492ca464bc034c36c3f42
https://doi.org/10.1007/978-94-011-3953-3_563
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8
Altered Light Response of Xanthophyll Cycle in Herbicide-Resistant Erigeron Canadensis Biotypes in the Presence of Paraquat
Autor: Éva Darkó, E. Lehoczki, Gy. Váradi
Publikováno v: Photosynthesis: Mechanisms and Effects ISBN: 9780792355472
The excess of the absorbed energy must be sufficiently dissipated to maintain the integrity of the photosynthetic apparatus. One of these protective energy dissipating mechanisms the xanthophyll epoxidation cycle working on the lumenal side of grana
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::9e77e3509a834ed9960d038aa84da3d1
https://doi.org/10.1007/978-94-011-3953-3_910
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9
Lowered Xanthophyll Cycle Capacity Accompanying Triazine Resistance of Weeds
Autor: Gy. Váradi, E. Lehoczki, H. Polyánka, T. Ertli, Éva Darkó
Publikováno v: Photosynthesis: Mechanisms and Effects ISBN: 9780792355472
Atrazine-resistant (AR) weed biotypes have a Ser264-Gly mutation on the D1 protein, causing a decreased binding of atrazine and QB, and some structural/functional changes in PSII complexes (1). The photosynthetic function of AR plants has been report
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::21f30c82249780283abd6af61e896900
https://doi.org/10.1007/978-94-011-3953-3_546
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