Your search keyword '"Várkonyi, Z."' showing total 32 results

1. Leaf rolling and photosystem II efficiency in Ctenanthe setosa exposed to drought stress

Author

Nar, H., Saglam, A., Terzi, R., Várkonyi, Z., and Kadioglu, A.

Published

2009

2. Contributory presentations/posters

Author

Gries, A., Singh, Balwinder, Nakazawal, Chicko, Genest, D., Getzoff, E. D., Matsuo, H., Kaur, Harpreet, Borst, J. W., Chadha, K. C., Tingyun, Kuang, Jagannadham, M. V., Leijon, Mikael, Sato, S., Bhakuni, Vlnod, Vijayan, M., Surolia, A., Suguna, K., Manoj, N., Srinivas, V. R., Ravishankar, R., Laggner, P., Prassl, R., Schwarzenbacher, R., Zeth, K., Kostner, G. M., Taylor, Susan S., Xuong, Nguyen-huu, Akamine, Pearl, Sagar, Bidva M., Saikrishnan, K., Purnapatre, K., Handa, P., Roy, S., Varshney, U., Biswal, B. K., Sukumar, N., Rao, J. K. Mohana, Johnson, A., Pattabhi, Vasantha, Murthy, M. R. N., Krishna, Sri S., Savithri, H. S., Sastri, Mira, Hosur, M. V., Pillai, Bindu, Kannan, K. K., Kumar, Mukesh, Patwardhan, Swati, Padmanabhaa, B., Sasaki-Sugio, S., Matsuzaki, T., Nukaga, M., Singh, T. P., Sharma, A. K., Srinivasan, A., Khan, J. A., Paramasivam, M., Kumar, P., Karthikevan, S., Sharma, S., Yadav, S., Srintvasan, A., Alam, Neelima, Gourinath, S., Kaur, Punit, Chandra, Vikas, Betzel, Ch., Ghosh, S., Bera, A. K., Pal, A. K., Baneriee, Asok, Mukhopadhyay, B. P., Bhattacharya, S., Chakraborty, S., Haldar, U., Dey, I., Solovicova, Adriana, Sevcik, Jozef, Sekar, K., Sundaralingam, M., Genov, N., Liang, Dong-cai, Zhang, Ji-ping, Jiang, Tao, Chang, Wen-rui, Blommers, Marcel, Jahnke, Wolfgang, Hosur, R. V., Panchal, S. C., Pillay, Bindu, Jaganathan, N. R., Mathur, Puniti, Srivatsun, S., Joshi, Ratan Mani, Chauhan, V. S., Govil, Girjesh, Atreya, H. S., Sahu, S. C., Quinjou, Éric, Adjadj, Elisabeth, Mispelter, Joël, Izadi-Pruneyre, Nadia, Blouquit, Yves, Heyd, Bernadette, Lerat, Guilhem, Desmadreil, Michel, Milnard, Philippe, Lin, Y., Rao, B. D. Nageswara, Raghunathan, Vidva, Chau, Mei H., Coutinho, Evans, Pesais, Prashant, Srivastava, Sudha, Saran, Anil, Srikrishnan, Thamarapu, Lijima, Herbert, Gesme, Jayson, Sapico, Leizl F., Paxton, Raymond, Grace, C. R., Nagenagowda, G., Lynn, A. M., Cowsik, Sudha M., Govil, G., Sahu, Sarata C., Bhattacharya, A., Chauhan, S., Kumar, Anil, Zuiderweg, Erik R. P., Pellecchia, Maurizio, Nitta, Katsutoshi, Ohnishi, Atsushi, Kawano, Keiichi, Hikichi, Kunio, Fujitani, Naoki, Ohkubo, Tadayasu, Aizawa, Tomoyasu, Kumaki, Yasuhiro, Hayakawa, Yoichi, Parvathy, Rani V., Kini, R. M., Nakagawa, Astushi, Tanaka, Isao, Demura, Makoto, Yao, Min, Koshiba, Takumi, Kobashigawa, Yoshihiro, Kuwajima, Kunihiro, Linge, Jens, Nilges, Michael, Donoghue, Seán O., Chakshusmathi, G., Ratnaparkhi, Girish S., Madhu, P. K., Varadarajan, R., Tetreau, C., Tourbez, M., Lavalette, D., Bulone, D., Manno, M., Emanuele, A., Palma-Vittorelli, M. B., Palma, M. U., Vaiana, S. M., Martorana, V., Biagio, P. L. San, Chang, D. K., Cheng, S. F., Yang, S. H., Francis, S., Trivedi, V. D., Chien, W. J., Manstein, Dietmar J., Batra, Renn, Geeves, Michael A., Geller, Maciej, Trvlska, Joanna, Grochowski, Pawel, Lesyng, B., Ginalski, K., Grochowski, P., Lavalette, P., Blouquit, Y., Roccatano, D., Berendsen, H. J. C., Amadei, A., Nola, Di A., Ho, Bosco, Curmi, P. M. G., Berry, H., Pelta, J., Pauthe, E., Lairez, D., Srinivasan, M., Sahi, Shakti, Kothekar, V., Madhusudnan, Kartha S., Nandel, Fateh S., Jain, D. V. S., Berendsen, Herman J. C., Feenstra, Anton K., Tama, F., Sanejouand, Y.-H., Go, N., Sharma, Deepak, Pasha, Santosh, Sharma, Sunita, Brahmachari, Samir K., Makker, Jyoti, Viiavaraghavan, R., Kumar, S., Dey, Sharmisllia, Krishnamoorthy, G., Lakshmikanth, G. S., Zaitseva, E. M., Mazhul, V. M., Kierdaszuk, Borys, Widengren, J., Rigler, R., Terry, B., Mets, Ü., Swaminathan, R., Yathindra, N., Thamotharan, S., Chosrowjan, H., Mataga, N., Shibata, Y., Morisima, I., Xiao, Ming, Selvin, Paul, Chakraharty, Tania, Cooke, Roger, Faraone, A., Branca, C., Maisano, G., Migliardo, P., Magazù, S., Villari, V., Behere, Digambar V., Deva, Sharique Zahida Waheed M., Vallone, B., Savino, C., Travaglini-Allocatelli, C., Cutruzzolà, F., Brunori, M., Gibson, Q. H., Mazumdar, Shyamalava, Mitra, Samaresh, Prasad, Swati, Soto, P., Fayad, R., Tyulkova, N. A., Sukovataya, I. E., Mamedov, Sh. V., Aksakal, B., Canturk, M., Aktas, B., Yilgin, R., Bogutska, K. I., Miroshnichenko, N. S., Wein, A. J., Hypolite, J. A., DiSanto, M., Chacko, S., Zheng, Y-M., Antosiewicz, J., Wojciechowski, M., Grycuk, T., Di Nola, Alfredo, Ceruso, Marc A., Chatterjee, Bishnu P., Bandvopadhvay, Subhasis, Choudhury, Devapriva, Khight, Stefan, Thompson, Andrew, Stojanoff, Vivian, Pinkner, Jerome, Hultgren, Scott, Flatters, Delphine, Goodfellow, Julia, Takazawatt, Fumi, Kanehisa, Minoru, Sasai, Masaki, Nakamura, Hironori, Wang, Bao Han, Pan, xin Min, Zheng, Yuan, Wang, Zhi Xin, Ahmad, Atta, Kulkarni, Sangeeta, Prakash, Koodathingal, Prajapati, Shashi, Surin, Alexey, Kihara, Hiroshi, Yang, Li, Matsumoto, Tomoharu, Nakagawa, Yuki, Semisotnov, Gennady V., Kimura, Kazumoto, Amemiya, Yoshiyuki, Tayyab, Saad, Muzammil, Salman, Kumar, Yogesh, Bhakuni, Vinod, Sundd, Monica, Kundu, Suman, Jagannadham, Medicherla V., Chandani, Bina, Warrier, Deepti, Sinha, Lalankumar, Dhar, Ruby, Mehrotra, Sonam, Khandelwal, Purnima, Seth, Subhendu, Gidwani, Arun, Prabha, Ratna C., Sasidhar, Y. U., Madhusudan, K. P., Nishikawa, Ken, Kinjo, Akira R., Varadarajan, Raghavan, Chakravarty, Suvobrata, Van Dael, H., Noyelle, K., Joniau, M., Haezebrouck, P., Jha, Indra Brata, Bhat, Rajiv, Dash, Sheffali, Mohanty, Prasanna, Bandyopadhyay, A. K., Sonawat, H. M., Rao, Ch. Mohan, Datta, Siddhartha, Raman, B., Rajaraman, K., Ramakrishna, T., Pande, A., Benedek, G., King, J., Betts, S., Pande, J., Asherie, N., Ogun, O., Kalacheva, G. S., Sokolova, I. V., Mitaku, Shigeki, Sonoyama, Masashi, Taira, Kunihiro, Yokoyama, Yasunori, Sasakil, Takanori, Kamo, Naoki, Mukai, Yuri, Dalal, Seema, Regan, Lynne, Mituku, Shigeki, Kumar, Devesh, Roychoudhury, Mihir, Lőrinczv, Dénes, Könczöl, Franciska, Farkas, László, Belagyi, Joseph, Schick, Christoph, Thomson, Christy A., Ananthanarayanan, Vettai S., Alirzayeva, E. G., Baba-Zade, S. N., Sarai, A., Kono, H., Uedaira, H., An, J., Gromiha, Michael M., Oobatake, M., Yutani, Katsuhide, Takano, Kazufumi, Yamagata, Yuriko, Jas, Gouri S., Hofrichter, James, Muñoz, Victor, Eaton, William A., Penoyar, Jonathan, Lo Verde, Philip T., Bódi, Á., Venekei, I., Kardos, J., Gráf, L., Závodszky, P., Szilágyi, András, Závodszky, Péter, Woolfson, D. N., Walshaw, J., Allan, R. D., Funahashi, Jun, Gupta, Savan, Di Nola, A., Mangoni, M., Roccatano, P., Ramachandraiah, Gosu, Chandra, Nagasuma R., Ciani, Barbara, Woolfson, Derek N., Nair, Usha B., Salunke, Dinakar M., Kaur, Kanwal J., Swaminathan, Chittoor P., Surolia, Avadhesha, Pramanik, A., Jörnvall, H., Nygren, P.-Å., Jonasson, P., Ståhl, S., Johansson, B.-L., Kratz, G., Wahren, J., Ekberg, K., Uhlén, M., Jansson, O. T., Uhlén, S., Misselwitz, Rolf, Welfle, Heinz, Welfle, Karin, Höhne, Wolfgang, Kurganov, B. I., Mitskevich, L. G., Fedurkina, N. V., Jarori, Gotam K., Maity, Haripada, Guharay, J., Sengupta, P. K., Sengupta, B., Sridevi, K., Kasturi, S. R., Gupta, S. P., Agarwal, Gunjan, Briehl, Robin W., Kwong, Suzanne, Tyulkova, N A., Ismailova, O. I., Parola, A. H., Yayon, A., Hariharan, C., Pines, D., Pines, E., Zamai, M., Cohen-Luria, R., Woolfeon, D. N., Spooner, G. A., Padya, M. J., Bharadwaj, D. K., Bakshi, Panchan, Jagannathan, N. R., Sharma, U., Srivastava, N., Barthwal, R., Matsuda, Keiko, Nishioka, Takaaki, Go, Nobuhiro, Urata, S., Aita, T., Husimi, Y., Majumder, Mainak, Subirana, Juan A., Malinina, Lucy, Abrescia, Nicola G. A., Aymami, Juan, Coll, Miquel, Eritxa, Ramón, Premraj, B. J., Thenmalarchelvi, R., Gautham, N., Kumar, Satheesh P., Kan, Lou-Sing, Hou, Ming, Lin, Shwu-Bin, Roy, Kanal B., Sana, Tapas, Bruant, N., Flatters, D., Lavery, R., Sklenar, Heinz, Rons, Remo, Lavery, Richard, Thakur, Ashoke Ranjan, Kundu, Sudip, Bandyopadhyay, Debashree, Bhattacharyya, Dhananjay, Majumdar, Rabi, Barceló, F., Portugal, J., Rao, B. J., Ramanathan, Sunita, Gliosli, Mahua, Varshney, Umesh, Kumar, Vinay N., Pataskar, Shashank S., Sarojini, R., Selvasekarapandian, S., Kolandaivel, P., Sukumar, S., Kolmdaivel, P., Maiti, Motilal, Das, Suman, Sen, Anjana, Xodo, Luigi, Suraci, Chiara, Del Terra, Elisa, Quadrifoglio, Franco, Diviacco, Silvia, Ray, Arghya, Rao, Basuthkar J., Karthikeyan, G., Chary, Kandala V. R., Mujeeb, Anwer, James, Thomas L., Bogdanov, A., Zanina, A., Haya, E. E. F., Kasyanenko, N., Cornélio, M. L., Bugs, M. R., Tolstorukov, Ye. M., Sanval, Nitish K., Tiwari, S. N., Sanyal, Nitish K., Choudhury, Mihir Roy, Patel, P. K., Bhavesh, Neel S., Gabrielian, Anna, Rigler, Rudolf, Edman, Lars, Wennmalm, Stefan, Constantinescu, B., Gazdaru, D., Radulcscu, I., Radu, L., Wärmländer, Sebastian, Aoki, Setsuyuki, Ishiura, Masahiro, Kondo, Takao, Pashinskaya, V. A., Kosevich, M. V., Shelkovsky, V. S., Blagoy, Yu. P., Wang, Ji-hua, Malathi, R., Chandrasekhar, K., Kandimalla, E. R., Agrawal, S., Rastogi, V. K., Palafox, Alcolea M., Singh, Chatar, Beniaminov, A. D., Minyat, E. E., Zdobnov, E. M., Ulyanov, N. B., Bondarenko, S. A., Ivanov, V. I., Singh, J. S., Tewari, Ravindra, Sonawane, Kailas D., Grosjean, Henri, Sonavane, Uddhavesh B., Morin, Annie, Doherty, Elizabeth A., Doudna, Jennifer A., Tochio, H., Shirakawa, M., Kyogoku, Y., Das, Achintya, Javaram, B., Kalra, Parul, Shukla, Piyush, Dixit, Surjit B., Beveridge, David L., McConnell, Kevin, Davidson, B. E., Chan, R. Y. S., Sawyer, W. H., Eccelston, J. F., Yan, Yuling, Norden, Bengt, Tuite, Eimer, Nielsen, Peter, Takahashi, Masayuki, Ghosh, Anirban, Bansal, Manju, Pingoud, Alfred, Christ, Frauke, Thole, Hubert, Pingoud, Vera, Wende, Wolfgang, Luthra, Pratibha Mehta, Chandra, Ramesh, Sen, Ranjan, Weisberg, Robert, King, Rodney, Gobets, Bas, van Amerongen, Herbert, van Stokkum, Ivo H. M., Larsen, Olaf F. A., van Grondelle, Rienk, Hilbers, Cornelis W., Heus, Hans A., Berends, Jos, Sngrvan, H E., Khudaverdian, N. V., Babayan, Yu. S., Pichierri, F., Gromiha, M., Prabakaran, P., Aida, M., Sayano, K., Merkienė, Eglė, Vilkaitis, Giedrius, Klimašauskas, Saulius, Serva, Saulius, Weinhold, Elmar, Bandiera, Antonella, Marsich, Eleonora, Manzini, Giorgio, Potikyan, G., Arakelyan, V., Babayan, Yu., Ninaber, Alex, Goodfellow, Julia M., Ohta, Shigeru, Ito, Yoichiro, Husimi, Yuzuru, Usukura, J., Aiba, H., Tagami, H., Nunes, Elia, Suarez, Mougli, Candreva, Carmen E., Keszenman, Deborah, Thyberg, Per, Földes-Papp, Zeno, Joshi, Amita, Singh, Dinesh, Rajeswari, M. R., Amenitsch, H., Pregetter, M., Chapman, J., Mishra, K. P., Pandev, B. N., Tonevitsky, A. G., Pohl, E. E., Agapov, I. I., Sun, J., Pohl, P., Dennison, S. M., Gorbeako, G. P., Dynbko, T. S., Mishra, A. K., Pappavee, N., Luis, Loura, Rodrigo, Almeida, Manuel, Prieto, Gendel, Ya. L., Kleszczyńska, H., Kuczera, J., Przestalski, S., Kral, T., Chernitsky, E. A., Senkovich, O. A., Rosin, V. V., Gasanov, R. A., Allakhverdieva, Y. M., Papageorgiou, G. C., Savopol, Tudor, Apetrei, Calin, Balea, Marius, Cucu, D., Mihailescu, D., Ramanathan, K. V., Bačić, Goran, Genest, Monique, Sajot, Nicolas, Garnier, Norbert, Crouzy, Serge, Zsiros, O., Várkonyi, Z. S., Combos, Z., Farkas, T., Cribier, Sophie, de Paula, F., Fraceto, I. F., Schreier, S., Spisni, A., Sevšek, F., Žekš, B., Gomišček, G., Svetina, S., Arrigler, V., Hotani, Hirokazu, Nomura, Fumimasa, Takiguchi, Kingo, Nagata, Miki, Panicker, Lata, Parvathanathan, P. S., Hotani, H., Takiguchi, K., Ishino, A., Saitoh, A., Afonin, S., Takahashi, A., Takizawa, T., Nakato, Y., Marathe, Dipti, Jørgensen, Kent, Chattopadhyay, Amitabha, Rukmini, R., Rawat, Satinder S., Pečar, S., Štrancar, J., Šentiurc, M., Stolič, Z., Filipin, K., Biswas, S. C., Samanta, Anunay, Sana, Satyen, Kinoshita, Koji, Yamazaki, Masahito, Ohki, Kazuo, Goto, Akira, Kiuchi, Tai, Kumeta, Takaaki, Ohba, Tetsuhiko, Sugar, I. P., Thompson, K. K., Biltonen, R. L., Thompson, T. E., Ichinose, H., Suezaki, Y., Akivama, M., Matuoka, S., Tsuchihashi, K., Gasa, S., Pike, H. M., Mattjus, P., Brown, R. E., Molotkovsky, J. G., Arora, Ashish, Kleinschmidt, Jörg H., Tamm, Lukas K., Kruglyakova, K. E., Luneva, O. G., Fedin, V. A., Kuptsoya, O. S., Visser, A. J. W. G., Visser, N. V., Dyubko, T. S., Ogihara, Toshihiko, Mishima, Kiyoshi, Shvaleva, A. L., Radenović, Č. N., Jeremić, M. G., Radenović, N. Č., Minić, P. M., Salakhutdinov, B. A., Aripov, T. F., Tadjibaeva, E. T., Zamaraeva, M. V., Vagina, O. N., Basak, A. K., Cole, A., Naylor, C., Poppofl, M., Titball, R., Naylor, C. E., Moss, D. S., Eaton, J. T., Justin, N., Titball, R. W., Nomura, F., Nagata, M., Ishjkawa, S., Takahashi, S., Obuchi, Kaoru, Staudegger, Erich, Lohner, Karl, Kriechbaum, Manfred, Waring, Alan J., Lehrer, Robert I., Mayer, Bernd, Köhler, Gottfried, Gangl, Susanne, Shobini, J., Hu, B., Lortz, B., Sackmann, E., Guttenberg, Z., Antonovich, A. N., Slobozhanina, E. I., Lukyanenko, L. M., Kozlova, N. M., Krylov, Andrey V., Kotova, Elena A., Antonenko, Yuri N., Yaroslavov, Alexander A., Ghosh, Subhendu, Bera, Amal K., Das, Sudipto, Urbánková, Eva, Freeman, Karl, Jelokhani-Niaraki, Masood, Jezek, Petr, Usmanov, P. B., Tonkikh, A. K., Ongarbaev, A., Pohl, Peter, Saparov, Sapar M., Harikumar, P., Reeves, J. P., Sikdar, S. K., Rao, S., Ghatpande, A. S., Corsso, C., Varanda, W. A., ElHamel, C., Dé, E., Molle, G., Saint, N., Varshney, Anurae, Mathew, M. K., Isacoff, E. Y., Loots, E., Kasai, Michiki, Yamaguchi, Naohiro, Ghosh, Paramita, Tigyi, Joseph, Miledi, Ricardo, Tigyi, Gabor, Liliom, Karoly, Djurisic, Maja R., Andjus, Pavle R., Shrivastava, Indira H., Sansom, M. S. P., Barrias, C., Oliveira, P. F., Lopes, I. A., Mauricio, A. C., Fedorovich, S. V., Konev, S. V., Sholukh, M. V., Chubanov, V. S., Klevets, M., Fedirko, N., Shvinka, N., Manko, V., Prabhananda, B. S., Kombrabail, Mamata H., Aravamudhan, S., Venegas-Cotero, Berenice, Blake, Ivan Ortega, Zhou, Han-qing, Hu, Xiao-jian, Zhang, Zhi-hong, Feng, Hang-fang, Cheng, Wei-ying, Zalyvsky, I. A., Dubitsky, L. O., Vovkanvch, L. S., Savio-Galimberti, E., Ponce-Homos, J. E., Bonazzola, P., Capurro, Claudia, Parisi, Mario, Toriano, Roxana, Thomas, David D., Ready, Laxma G., Jones, Larry R., Tashmukhamedov, B. A., Sagdullaev, B. T., Heitzmann, D., Bleich, M., Warth, R., Ferreira, H. G., Ferreira, K. T. G., Greger, R., Parola, Abraham H., Alfahel, Essa, Zagoory, Orna, Priel, Zvi, Hama-Inaba, H., Ohyama, H., Hayata, I., Choi, K., Haginoya, K., Mori, M., Wang, R., Yukawa, O., Nakajima, T., Joshi, Nanda B., Kannurpatti, Sridhar K., Sinha, Mau, Joshi, Preeti G., Bei, Ling, Hu, Tianhui, Shen, Xun, Knetsch, Menno L. W., Schäfers, Nicole, Sandblom, John, Galvanovskis, Juris, Kovacs, Eugenia, Dinu, Alexandra, Pologea-Moraru, Roxana, Sanghvi, S. H., Jazbinšek, V., Tronteli, Z., Thiel, G., Wübeller, G., Müller, W., Brumen, Milan, Fajmut, Leš, Marhl, Marko, Volotovski, I. D., Sokolovski, S. G., Knight, M. R., Chalyi, Alexander V., Vasilʼev, Alexei N., Sharma, P., Pant, H. C., Sharma, M., Amin, N. D., Albers, R. W., Steinbach, P. J., Barchir, J., Balasubramanyam, M., Gardner, J. P., Condrescu, M., Pilarczyk, Gotz, Greulich, K. O., Monajembashi, Shamci, El-Awadi, A. I., El-Refaei, F. M., Talaat, M. M., Ali, F. M., Zahradniková, Alexandra, Tahradník, Ivan, Pavelková, Jana, Zhorov, Boris S., Ananthanaravanan, Vettai S., Weiss, D. G., Martin, D., Gornik, E., Neu, E., Michailov, Ch. M., Welscher, U., Seidenbusch, W., Jellali, A., Pattnaik, B. R., Hicks, D., Dreyfus, H., Sahel, J., Picaud, S., Forster, V., Wang, Hong-Wei, Sui, Sen-fang, Luther, Pradeep K., Morris, Ed, Barry, John, Squire, John, Sundari, Sivakama C., Balasubramanian, D., Christlet, Hema Thanka T., Veluraia, K., Suresh, Xavier M., Laretta-Garde, V., Krilov, Dubravka, Herak, Janko N., Stojanović, Nataša, Ferrone, Frank A., Ivanova, Maria, Jasuja, Ravi, Mirchev, Rossen, Stopar, David, Wolfs, Cor J. A. M., Hemminga, Marcus A., Spruijt, Ruud B., Arcovito, G., De Spirito, M., Frank, Joachim, Heagle, Amy B., Grassucci, Robert, Penczek, Pawel, Agrawal, Rajendra K., Sharma, Manjuli R., Wagenknecht, Terence, Jeyakumar, Loice H., Fleischer, Sidney, Knupp, Carlo, Squire, John M., Ezra, Eric, Munro, Peter M. G., Kitazawa, Hidefumi, Ichihara, Koji, Itoh, Tomohiko J., Iguchi, Yusuke, Pifat, Greta, Kveder, Marina, Pečar, Slavko, Schara, Milan, Nair, Deepak, Singh, Kavita, Rao, Kanury V. S., Sundaravadivel, B., Jain, Deepti, Kaur, Kanwaljeet, Salunke, D. M., Goel, Manisha, Kovalenko, E. I., Semenkova, G. N., Cherenkevich, S. N., Loganathan, D., Lakshmanan, T., Sriram, D., Srinivasan, S., Lebrón, J. A., Bjorkman, P. J., Ramalingam, T. S., Singh, A. K., Gayatri, T. N., Bisch, Paulo M., Caffarena, Ernesto R., Grigera, Raul J., Fromherz, P., Kiessling, V., Suresh, C. G., Rao, K. N., Khan, M. I., Gaikwad, S. M., Elanthiraiyan, M., Kaliannan, P., Payne, J., Chadha, K., Ambrus, J. L., Nair, M. P. N., Nair, Madhavan P. N., Hewitt, R., Schwartz, S. A., Mahajan, S., Macherel, D., Bourguignon, J., Neuburger, M., Douce, R., Cohen-Addad, C., Faure, M., Ober, R., Sieker, L., Gurumurthy, D. S., Velmurugan, S., Lobo, Z., Phadke, Ratna S., Desai, Prashant, Alieva, D. R., Guseinova, I. M., Zulfugarov, I. S., Aliev, J. A., Ismayilov, M. A., Novruzova, S. N., Savchenko, T. V., Suleimanov, Yu. S., Bartošková, Hana, Nauš, Jan, Ilík, Petr, Kouřil, Roman, Vidyasagar, P. B., Thomas, Sarah, Gaikwad, Jvoti U., Cseh, Z., Mustárdy, L., Garab, G., Simidjiev, I., Rajagopal, S., Várkonyi, Zs., Holzenburg, A., Stoylova, S., Papp, E., Millar, D. P., Bruder, R., Woo, T. T., Genick, U. K., Gerwert, K., Jávorfí, Tamás, Garab, Győző, Naqvi, Razi K., Gaikwad, Jyoti, Kalimullah, Md., Semwal, Manoj, Naus, Man, Ilik, Petr, Kouril, Roman, Horváth, Gábor, Bernard, Gary D., Pomozi, István, Wehner, Rüdiger, Damjanović, Ana, Schulten, Klaus, Ritz, Thorsten, Yandao, Gong, Jushuo, Wang, Nanming, Zhao, Jixiu, Shan, Freiberg, Arvi, Timpmann, Kõu, Woodbury, Neal W., Ruus, Rein, Nemtseva, E. V., Kudryasheva, N. S., Sizykh, A. G., Tikhomirov, A. A., Nesterenko, T. V., Shikhov, V. N., Forti, Giorgio, Furia, Alberto, Finazzi, Giovanni, Barbagallo, Romina Paola, Agalarov, R., Gasanov, R., Iskenderova, S., Nobuhiro, G. O., Osamu, Miyashita, Ramrakhiani, M., Soni, R. K., Yoshida, Masasuke, Akutsu, Hideo, Yagi, Hiromasa, Tozawa, Kacko, Sekino, Nobuaki, Iwabuchi, Tomoyuki, Kaulen, A. D., Avetisyan, A. V., Feniouk, B. A., Skulachev, V. P., Breyton, Cécile, Kühlbrandt, Werner, Gräslund, Astrid, Assarsson, Maria, Libisch, B., Horváth, G., Gombos, Z., Budagovskaya, N. V., Kudryasheva, N., Fukunishi, Arima, Harada, Erisa, Fukuoka, Yuki, Ohmura, Tomoaki, Kawai, Gota, Watanabe, Kimitsuna, Žekš, Boštjan, Božič, Bojan, Derganc, Jure, Svetina, Saša, Hoh, J. F. Y., Li, Z. B., Rossmanith, G. H., Frederix, P. L. T. M., de Beer, E. L., Treijtel, B. W., Blangè, T., Galtet, F., Hénon, S., Isabey, D., Planus, E., Laurent, V., Rath, L. S., Raval, M. K., Dash, P. K., Ramakrishnan, C., Balaram, R., Basak, Kanika, Balaban, Alexandra T., Nandy, Ashesh, Grunwald, Gregory D., Vracko, Marjan, Randic, Milan, Basak, Subhash C., Amic, Dragan, Beslo, Drago, Trinajstic, Nenad, Nikolic, Sonja, Walahaw, J., Lensink, Marc F. J., Reddy, Boojala V. B., Shindylov, Ilya N., Bourne, Philip E., Grigera, J. R., de Xammar Oro, J., Donnamaria, M. C., Neagu, Monica, Neagu, Adrian, Janežič, Dušanka, Praprotnik, Matej, Nilsson, Lennart, Mark, Pekka, Fata, La L., Dardenne, Laurent E., Werneck, Araken S., Neto, Marçal de O., Kannan, N., Vishveshwara, S., Veluraja, K., Opitz, David, Balasubramanian, Krishnan, Gute, Brian D., Mills, Denise, Lungeanu, Diana, Mihalas, G. I., Macovievici, G., Gruia, Raluca, Dalcin, B., Cortez-Maghelly, C., Passos, E. P., Ljubisavljevic, M., Blesic, S., Milosevic, S., Stratimirovic, D. J., Bachhawat, Nandita, Mande, Shekhar C., Nandy, A., Nishigaki, Koichi, Saito, Ayumu, Naimuddin, Mohammed, Takaesu, Hirotomo, Ono, Mitsuo, Hirokawa, Takatsugu, Eissa, A. M., Ahmed, Abdalla S., El Gohary, M. I., Nakashima, Hiroshi, Raghava, G. P. S., Kurgalvuk, N., Goryn, O., Gerstman, Bernard S., Kratasyuk, V. A., Esimbekova, E. N., Gritsenko, E. V., Remmel, N. N., Maznyak, O. M., German, A., Tikhonov, A., Tchitchkan, D., Koulchitsky, S., Pashkevich, S., Pletnev, S., Kulchitsky, V., Pesotskaya, Y., Shapiro, Erik M., Borthakur, Arijitt, Dimitrov, Ivan, Leigh, John S., Rizi, Rahim, Reddy, Ravinder, Charagundla, Sridhar, Duvvuri, Umamaheswar, Degaonkar, M., Khubchandani, M., Kumar, Mahesh, Jagannathan, N R., Raghunathan, P., Jayasundar, Rama, Coshic, O., Rath, O. K., Julka, P. K., Iliescu, Karina Roxana, Sajin, Maria, Petcu, Ileana, Moisoi, Nicolcta, Kuzmenko, A. I., Donchenko, G. V., Nikolenko, I. A., Morozova, R. P., Rahman, M. K., Ahmed, M. M., Watanabe, Takehiro, Uretzky, G., Ammar, R., Sharony, R., Rubin, Y., Gilboa, H., Mallick, H. N., Kumar, Mohan V., Begum, Gulnaz M., Degaonkar, Mahaveer N., Govindasamy, S., Kumosani, T. A., Lupusoru, C., Titescu, G., Haulica, I., Stefanescu, I., Iliescu, R., Nastasa, V., Bild, W., Khetawat, Gopal, Nealen, M., Faraday, N., Bray, P. F., Noga, S., Lycholat, E. A., Ananieva, T. V., Kosevich, M V., Stepanyan, S. G., Antonyuk, S. V., Khachatryan, A., Kumar, A., Arakelian, H., Khachatryan, R., Agadjanyan, S., Ayrapetyan, S., Mkheyan, V., Rajan, S. S., Kabaleeswaran, V., Gopalakrishnan, Geetha, Govindachari, T. R., Ramrakhiani, Meera, Cullen, David C., Lowe, Phillip, Badley, Andrew, Hermel, H., Möhwald, H., Schmahl, W., Singh, Anil K., Das, Joydip, Majumdar, Nirmalya, Dér, András, Oroszi, László, Kelemen, Loránd, Ormos, Pál, Hámori, András, Ramsden, Jeremy J., Mitra, Chanchal K., Savitri, D., Yanagida, Toshio, Esaki, Seiji, Sowa, Yosiyuki, Nishida, Tomoyuki, Kimura, Yuji, Radu, M., Laukhina, E. E., Kasumova, L. A., Koltover, V. K., Bubnov, V. P., Estrin, Ya. I., Dotta, Rajiv, Zahradník, Ivan, Marko, Milan, Novák, Pavel, Miyata, Hidetake, Hirata, Hiroaki, Sengupta, P., Maiti, S., Balaji, J., Banerjee, S., Barker, A. L., Winlove, C. P., OʼHare, D., Macpherson, J. V., Gonsalves, M., Unwin, P. R., Phillip, R., Kumar, Ravindra G., Murata, K., Nagayaka, K., Danev, R., Sugitani, S., Gősch, Michael, Thyberg, P., Földes-Papp, Z., Björk, G., Blom, H., Holm, J., Heino, T., Inagaki, Fuyuhiko, Yokochi, Masashi, Kusunoki, Masami, Matthews, E. K., Pines, J., Chukova, Yu. P., Koltover, Vitaly K., Kang, B. P. S., Bansal, Geetanjali, Bansal, M. P., Singh, U., Singh, Uma, Nakata, Kotoko, Nakano, Tastuya, Kaminuma, Tsuguchika, Kirn, Bonn, Potocnik, Neja, Stare, Vito, Shukla, Latal, Sastry, M. D., Natarajan, V., Devasagayam, T. P. A., Kesavan, P. C., Sayfutdinov, R., Degermendzhy, A. G., Adamovich, V. V., Rogozin, Yu. D., Khetrapal, C. L., Gowda, G. A. Nagana, Ghimire, Kedar Nath, Masaru, Ishida, Fujita, H., Ishiwata, S., Suzuki, M., Kawahara, S., Kirino, Y., Kishimoto, Y., Mori, H., Mishina, M., Ohshima, H., Dukhin, A. S., Goetz, P. J., Shilov, V. N., and Mishra, R. K.

Published

1999

3. Artificial Chlorophyll-Protein Complexes

Author

Tombácz, Elisabeth, Várkonyi, Z., Szalay, L., and Sybesma, C., editor

Published

1984

4. Detergent effects on an albumin-chlorophyll complex model of photosynthetic protein-pigment complexes

Author

Szalay, L., Tombácz, E., Várkonyi, Z., and Faludi-Dániel, Á.

Published

1982

5. Investigations on connections between fluorescence polarization and foreign quenching in viscous solutions

Author

Szalay, L. and Várkonyi, Z.

Published

1970

6. Increased thermostability of thylakoid membranes in isoprene-emitting leaves probed with three biophysical techniques

Author

Velikova, V, Várkonyi, Z, Szabó, M, Maslenkova, L, Nogues, I, Kovács, L, Peeva, V, Busheva, M, Garab, G, Sharkey, TD, Loreto, F, Velikova, V, Várkonyi, Z, Szabó, M, Maslenkova, L, Nogues, I, Kovács, L, Peeva, V, Busheva, M, Garab, G, Sharkey, TD, and Loreto, F

Published

2011

7. The tolerance of cyanobacterium Cylindrospermopsis raciborskii to low-temperature photo-inhibition affected by the induction of polyunsaturated fatty acid synthesis

Author

Várkonyi, Z., primary, Zsiros, O., additional, Farkas, T., additional, Garab, G., additional, and Gombos, Z., additional

Published

2000

8. Direct evidence for requirement of phosphatidylglycerol in photosystem II of photosynthesis.

Author

Hagio, M, Gombos, Z, Várkonyi, Z, Masamoto, K, Sato, N, Tsuzuki, M, and Wada, H

Abstract

Phosphatidylglycerol (PG) is considered to play an important role in the ordered assembly and structural maintenance of the photosynthetic apparatus in thylakoid membranes. However, its function in photosynthesis remains poorly understood. In this study we have identified a pgsA gene of Synechocystis sp. PCC6803 that encodes a PG phosphate synthase involved in the biosynthesis of PG. A disruption of the pgsA gene allowed us to manipulate the content of PG in thylakoid membranes and to investigate the function of PG in photosynthesis. The obtained pgsA mutant could grow only in the medium containing PG, and the photosynthetic activity of the pgsA mutant dramatically decreased with a concomitant decrease of PG content in thylakoid membranes when the cells grown in the presence of PG were transferred to the medium without PG. This decrease of photosynthetic activity was attributed to the decrease of photosystem (PS)II activity, but not to the decrease in PSI activity. These findings demonstrate that PG is essential for growth of Synechocystis sp. PCC6803 and provide the first direct evidence that PG plays an important role in PSII.

Published

2000

9. Contributory presentations/posters

Author

Manoj, N., Srinivas, V., Surolia, A., Vijayan, M., Suguna, K., Ravishankar, R., Suguna, K., Surolia, A., Vijayan, M., Schwarzenbacher, R., Zeth, K., Diederichs, Kostner, G., Gries, A., Laggner, P., Prassl, R., Madhusudan, Akamine, Pearl, Xuong, Nguyen-huu, Taylor, Susan, Sagar, M., Ravishankar, R., Saikrishnan, K., Roy, S., Purnapatre, K., Handa, P., Varshney, U., Vijayan, M., Biswal, B., Sukumar, N., Vijayan, M., Rao, J., Johnson, A., Pattabhi, Vasantha, Krishna, S., Sastri, Mira, Savithri, H., Murthy, M., Pillai, Bindu, Kannan, Hosur, M., Kumar, Mukesh, Patwardhan, Swati, Kannan, K., Hosur, M., Padmanabhaa, B., Sasaki-Sugio, S., Nukaga, M., Matsuzaki, T., Karthikevan, S., Sharma, S., Sharma, A., Paramasivam, M., Kumar, P., Khan, J., Yadav, S., Srinivasan, A., Singh, T., Gourinath, S., Alam, Neelima, Srintvasan, A., Singh, T., Chandra, Vikas, Kaur, Punit, Betzel, Ch., Singh, T., Ghosh, S., Bera, A., Bhattacharya, S., Chakraborty, S., Pal, A., Mukhopadhyay, B., Dey, I., Haldar, U., Baneriee, Asok, Sevcik, Jozef, Solovicova, Adriana, Sekar, K., Sundaralingam, M., Betzel, Ch., Genov, N., Singh, T., Liang, Dong-cai, Jiang, Tao, Zhang, Ji-ping, Chang, Wen-rui, Jahnke, Wolfgang, Blommers, Marcel, Panchal, S., Hosur, R., Pillay, Bindu, Hosur, M., Mathur, Puniti, Srivatsun, S., Joshi, Ratan, Jaganathan, N., Chauhan, V., Atreya, H., Sahu, S., Chary, K., Govil, Girjesh, Adjadj, Elisabeth, Quinjou, Éric, Izadi-Pruneyre, Nadia, Blouquit, Yves, Mispelter, Joël, Heyd, Bernadette, Lerat, Guilhem, Milnard, Philippe, Desmadreil, Michel, Lin, Y., Rao, B., Raghunathan, Vidva, Chau, Mei, Rao, B., Pesais, Prashant, Srivastava, Sudha, Coutinho, Evans, Saran, Anil, Sapico, Leizl, Gesme, Jayson, Lijima, Herbert, Paxton, Raymond, Srikrishnan, Thamarapu, Grace, C., Nagenagowda, G., Lynn, A., Cowsik, Sudha, Sahu, Sarata, Chauhan, S., Bhattacharya, A., Chary, K., Govil, G., Kumar, Anil, Pellecchia, Maurizio, Zuiderweg, Erik, Kawano, Keiichi, Aizawa, Tomoyasu, Fujitani, Naoki, Hayakawa, Yoichi, Ohnishi, Atsushi, Ohkubo, Tadayasu, Kumaki, Yasuhiro, Hikichi, Kunio, Nitta, Katsutoshi, Rani Parvathy, V., Chary, K., Kini, R., Govil, G., Koshiba, Takumi, Kobashigawa, Yoshihiro, Yao, Min, Demura, Makoto, Nakagawa, Astushi, Tanaka, Isao, Kuwajima, Kunihiro, Nitta, Katsutoshi, Linge, Jens, Donoghue, Seán, Nilges, Michael, Chakshusmathi, G., Ratnaparkhi, Girish, Madhu, P., Varadarajan, R., Tetreau, C., Tourbez, M., Lavalette, D., Manno, M., Biagio, P., Martorana, V., Emanuele, A., Vaiana, S., Bulone, D., Palma-Vittorelli, M., Palma, M., Trivedi, V., Cheng, S., Chien, W., Yang, S., Francis, S., Chang, D., Batra, Renn, Geeves, Michael, Manstein, Dietmar, Trvlska, Joanna, Grochowski, Pawel, Geller, Maciej, Ginalski, K., Grochowski, P., Lesyng, B., Lavalette, P., Tetreau, C., Tourbez, M., Blouquit, Y., Roccatano, D., Amadei, A., Nola, A., Berendsen, H., Ho, Bosco, Curmi, P., Berry, H., Lairez, D., Pauthe, E., Pelta, J., Kothekar, V., Sahi, Shakti, Srinivasan, M., Singh, Anil, Madhusudnan, Kartha, Nandel, Fateh, Kaur, Harpreet, Nandel, Fateh, Singh, Balwinder, Jain, D., Feenstra, K., Berendsen, Herman, Tama, F., Sanejouand, Y., Go, N., Sharma, Deepak, Sharma, Sunita, Pasha, Santosh, Brahmachari, Samir, Viiavaraghavan, R., Makker, Jyoti, Dey, Sharmisllia, Kumar, S., Singh, T., Lakshmikanth, G., Krishnamoorthy, G., Mazhul, V., Zaitseva, E., Kierdaszuk, Borys, Widengren, J., Terry, B., Mets, Ü., Rigler, R., Swaminathan, R., Thamotharan, S., Yathindra, N., Shibata, Y., Chosrowjan, H., Mataga, N., Morisima, I., Chakraharty, Tania, Xiao, Ming, Cooke, Roger, Selvin, Paul, Branca, C., Faraone, A., Magazù, S., Maisano, G., Migliardo, P., Villari, V., Behere, Digambar, Deva, M., Brunori, M., Cutruzzolà, F., Gibson, Q., Savino, C., Travaglini-Allocatelli, C., Vallone, B., Prasad, Swati, Mazumdar, Shyamalava, Mitra, Samaresh, Soto, P., Fayad, R., Sukovataya, I., Tyulkova, N., Mamedov, Sh., Aktas, B., Canturk, M., Aksakal, B., Yilgin, R., Bogutska, K., Miroshnichenko, N., Chacko, S., DiSanto, M., Hypolite, J., Zheng, Y-M., Wein, A., Wojciechowski, M., Grycuk, T., Antosiewicz, J., Lesyng, B., Ceruso, Marc, Nola, Alfredo, Bandvopadhvay, Subhasis, Chatterjee, Bishnu, Choudhury, Devapriva, Thompson, Andrew, Stojanoff, Vivian, Pinkner, Jerome, Hultgren, Scott, Khight, Stefan, Flatters, Delphine, Goodfellow, Julia, Takazawatt, Fumi, Kanehisa, Minoru, Sasai, Masaki, Nakamura, Hironori, Sasai, Masaki, Han, Wang, Zheng, Yuan, Xin, Wang, Min, Pan, Bhakuni, Vlnod, Kulkarni, Sangeeta, Ahmad, Atta, Prakash, Koodathingal, Prajapati, Shashi, Surin, Alexey, Matsumoto, Tomoharu, Yang, Li, Nakagawa, Yuki, Kimura, Kazumoto, Amemiya, Yoshiyuki, Semisotnov, Gennady, Kihara, Hiroshi, Tayyab, Saad, Muzammil, Salman, Kumar, Yogesh, Kulkarni, Sangeeta, Prajapati, Shashi, Prakash, Koodathingal, Ahmad, Atta, Bhakuni, Vinod, Sundd, Monica, Kundu, Suman, Jagannadham, M., Kundu, Suman, Sundd, Monica, Jagannadham, Medicherla, Chandani, Bina, Dhar, Ruby, Sinha, Lalankumar, Warrier, Deepti, Mehrotra, Sonam, Khandelwal, Purnima, Seth, Subhendu, Hosur, R., Sasidhar, Y., Prabha, C., Gidwani, Arun, Ahmad, Atta, Kulkarni, Sangeeta, Madhusudan, K., Bhakuni, Vinod, Kinjo, Akira, Nishikawa, Ken, Chakravarty, Suvobrata, Varadarajan, Raghavan, Noyelle, K., Haezebrouck, P., Joniau, M., Dael, H., Dash, Sheffali, Jha, Indra, Bhat, Rajiv, Mohanty, Prasanna, Bandyopadhyay, A., Sonawat, H., Rao, Ch., Datta, Siddhartha, Rajaraman, K., Raman, B., Ramakrishna, T., Rao, Ch., Pande, A., Pande, J., Betts, S., Asherie, N., Ogun, O., King, J., Benedek, G., Sokolova, I., Tyulkova, N., Kalacheva, G., Sonoyama, Masashi, Yokoyama, Yasunori, Taira, Kunihiro, Mitaku, Shigeki, Nakazawal, Chicko, Sasakil, Takanori, Mukai, Yuri, Kamo, Naoki, Sonoyama, Masashi, Mitaku, Shigeki, Dalal, Seema, Regan, Lynne, Mukai, Yuri, Kamo, Naoki, Mituku, Shigeki, Roychoudhury, Mihir, Kumar, Devesh, Lőrinczv, Dénes, Könczöl, Franciska, Farkas, László, Belagyi, Joseph, Schick, Christoph, Thomson, Christy, Ananthanarayanan, Vettai, Alirzayeva, E., Baba-Zade, S., Gromiha, M., Oobatake, M., Kono, H., An, J., Uedaira, H., Sarai, A., Takano, Kazufumi, Yamagata, Yuriko, Yutani, Katsuhide, Jas, Gouri, Muñoz, Victor, Hofrichter, James, Eaton, William, Penoyar, Jonathan, Srikrishnan, Thamarapu, Lo Verde, Philip, Kardos, J., Bódi, Á., Venekei, I., Závodszky, P., Gráf, L., Szilágyi, András, Závodszky, Péter, Allan, R., Walshaw, J., Woolfson, D., Funahashi, Jun, Takano, Kazufumi, Yamagata, Yuriko, Yutani, Katsuhide, Gupta, Savan, Mazumdar, Shyamalava, Di Nola, A., Mangoni, M., Roccatano, P., Ramachandraiah, Gosu, Chandra, Nagasuma, Kothekar, V., Srinivasan, M., Sahi, Shakti, Chakraborty, S., Bhattacharya, S., Bera, A., Ghosh, S., Pal, A., Haldar, U., Mukhopadhyay, B., Baneriee, Asok, Ciani, Barbara, Woolfson, Derek, Nair, Usha, Kaur, Kanwal, Salunke, Dinakar, Swaminathan, Chittoor, Surolia, Avadhesha, Rigler, R., Pramanik, A., Jonasson, P., Kratz, G., Jansson, O., Nygren, P., Ståhl, S., Ekberg, K., Johansson, B., Uhlén, S., Uhlén, M., Jörnvall, H., Wahren, J., Welfle, Karin, Misselwitz, Rolf, Höhne, Wolfgang, Welfle, Heinz, Mazhul, V., Zaitseva, E., Mitskevich, L., Fedurkina, N., Kurganov, B., Jarori, Gotam, Maity, Haripada, Guharay, J., Sengupta, B., Sengupta, P., Sridevi, K., Kasturi, S., Gupta, S., Agarwal, Gunjan, Kwong, Suzanne, Briehl, Robin, Ismailova, O., N, Tyulkova, Hariharan, C., Pines, D., Pines, E., Zamai, M., Cohen-Luria, R., Yayon, A., Parola, A., Padya, M., Spooner, G., Woolfeon, D., Bakshi, Panchan, Sharma, Deepak, Sharma, Sunita, Bharadwaj, D., Pasha, Santosh, Sharma, U., Srivastava, N., Barthwal, R., Jagannathan, N., Matsuda, Keiko, Nishioka, Takaaki, Go, Nobuhiro, Aita, T., Urata, S., Husimi, Y., Majumder, Mainak, Chatterjee, Bishnu, Abrescia, Nicola, Malinina, Lucy, Subirana, Juan, Aymami, Juan, Eritxa, Ramón, Coll, Miquel, Premraj, B., Yathindra, N., Thenmalarchelvi, R., Yathindra, N., Kumar, P., Gautham, N., Kan, Lou, Ming-Hou, Lin, Shwu-Bin, Sana, Tapas, Roy, Kanal, Bruant, N., Flatters, D., Lavery, R., Genest, D., Rons, Remo, Sklenar, Heinz, Lavery, Richard, Kundu, Sudip, Bhattacharyya, Dhananjay, Bandyopadhyay, Debashree, Thakur, Ashoke, Majumdar, Rabi, Barceló, F., Portugal, J., Ramanathan, Sunita, Chary, K., Rao, B., Gliosli, Mahua, Kumar, N., Varshney, Umesh, Chary, K., Pataskar, Shashank, Brahmachari, Samir, Sarojini, R., Selvasekarapandian, S., Kolandaivel, P., Sukumar, S., Selvasekarapandian, S., Sarojini, R., Kolmdaivel, P., Sukumar, S., Sarojini, R., Selvasekarapandian, S., Kolandaivel, P., Sukumar, S., Selvasekarapandian, S., Sarojini, R., Kolandaivel, P., Sukumar, S., Maiti, Motilal, Sen, Anjana, Das, Suman, Terra, Elisa, Suraci, Chiara, Diviacco, Silvia, Quadrifoglio, Franco, Xodo, Luigi, Bandyopadhyay, Debashree, Bhattacharyya, Dhananjay, Kundu, Sudip, Thakur, Ashoke, Das, Suman, Ray, Arghya, Maiti, Motilal, Karthikeyan, G., Chary, Kandala, Rao, Basuthkar, Mujeeb, Anwer, James, Thomas, Kasyanenko, N., Haya, E., Bogdanov, A., Zanina, A., Bugs, M., Cornélio, M., Srikrishnan, Thamarapu, Tolstorukov, M., Sanval, Nitish, Tiwari, S., Tiwari, S., Sanyal, Nitish, Choudhury, Mihir, Kumar, Devesh, Sanyal, Nitish, Patel, P., Bhavesh, Neel, Hosur, R., Gabrielian, Anna, Wennmalm, Stefan, Edman, Lars, Rigler, Rudolf, Constantinescu, B., Radu, L., Radulcscu, I., Gazdaru, D., Wärmländer, Sebastian, Leijon, Mikael, Aoki, Setsuyuki, Kondo, Takao, Ishiura, Masahiro, Pashinskaya, V., Kosevich, M., Shelkovsky, V., Blagoy, Yu., Wang, Ji-hua, Malathi, R., Chandrasekhar, K., Premraj, B., Patel, P., Kandimalla, E., Agrawal, S., Hosur, R., Yathindra, N., Rastogi, V., Palafox, M., Singh, Chatar, Beniaminov, A., Bondarenko, S., Zdobnov, E., Minyat, E., Ulyanov, N., Ivanov, V., Singh, J., Sonawane, Kailas, Grosjean, Henri, Tewari, Ravindra, Sonavane, Uddhavesh, Morin, Annie, Grosjean, Henri, Tewari, Ravindra, Doherty, Elizabeth, Doudna, Jennifer, Tochio, H., Sato, S., Matsuo, H., Shirakawa, M., Kyogoku, Y., Javaram, B., Dixit, Surjit, Shukla, Piyush, Kalra, Parul, Das, Achintya, McConnell, Kevin, Beveridge, David, Sawyer, W., Chan, R., Eccelston, J., Yan, Yuling, Davidson, B., Ray, Arghya, Tuite, Eimer, Norden, Bengt, Nielsen, Peter, Takahashi, Masayuki, Ghosh, Anirban, Bansal, Manju, Christ, Frauke, Thole, Hubert, Wende, Wolfgang, Pingoud, Alfred, Pingoud, Vera, Luthra, Pratibha, Chandra, Ramesh, Sen, Ranjan, King, Rodney, Weisberg, Robert, Larsen, Olaf, Berends, Jos, Heus, Hans, Hilbers, Cornelis, Stokkum, Ivo, Gobets, Bas, Grondelle, Rienk, Amerongen, Herbert, Sngrvan, HE., Babayan, Yu., Khudaverdian, N., Kono, H., Gromiha, M., Pichierri, F., Aida, M., Prabakaran, P., Sayano, K., An, J., Uedaira, H., Sarai, A., Serva, Saulius, Merkienė, Eglė, Vilkaitis, Giedrius, Weinhold, Elmar, Klimašauskas, Saulius, Marsich, Eleonora, Bandiera, Antonella, Xodo, Luigi, Manzini, Giorgio, Potikyan, G., Arakelyan, V., Babayan, Yu., Ninaber, Alex, Goodfellow, Julia, Ito, Yoichiro, Ohta, Shigeru, Husimi, Yuzuru, Usukura, J., 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F., Gomišček, G., Arrigler, V., Svetina, S., Žekš, B., Nomura, Fumimasa, Nagata, Miki, Takiguchi, Kingo, Hotani, Hirokazu, Panicker, Lata, Parvathanathan, P., Ishino, A., Saitoh, A., Hotani, H., Takiguchi, K., Afonin, S., Takahashi, A., Nakato, Y., Takizawa, T., Marathe, Dipti, Mishra, K., Jørgensen, Kent, Rawat, Satinder, Nair, Usha, Rukmini, R., Chattopadhyay, Amitabha, Šentiurc, M., Štrancar, J., Stolič, Z., Filipin, K., Pečar, S., Chattopadhyay, Amitabha, Biswas, S., Rukmini, R., Sana, Satyen, Samanta, Anunay, Kinoshita, Koji, Yamazaki, Masahito, Ohba, Tetsuhiko, Kiuchi, Tai, Yoshitoshi, Kamakura, Goto, Akira, Kumeta, Takaaki, Ohki, Kazuo, Sugar, I., Thompson, T., Thompson, K., Biltonen, R., Suezaki, Y., Ichinose, H., Takiguchi, K., Hotani, H., Akivama, M., Matuoka, S., Tsuchihashi, K., Gasa, S., Mattjus, P., Molotkovsky, J., Pike, H., Brown, R., Arora, Ashish, Kleinschmidt, Jörg, Tamm, Lukas, Luneva, O., Gendel, L., Kruglyakova, K., Fedin, V., Kuptsoya, O., Borst, J., Visser, N., 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S., Sikdar, S., Ghatpande, A., Rao, S., Sikdar, S., Corsso, C., Campos de Carvalho, A., Varanda, W., ElHamel, C., Dé, E., Saint, N., Molle, G., Varshney, Anurae, Mathew, M., Loots, E., Isacoff, E., Kasai, Michiki, Yamaguchi, Naohiro, Ghosh, Paramita, Ghosh, Subhendu, Tigyi, Joseph, Tigyi, Gabor, Liliom, Karoly, Miledi, Ricardo, Djurisic, Maja, Andjus, Pavle, Shrivastava, Indira, Sansom, M., Barrias, C., Oliveira, P., Mauricio, A., Rebelo da Costa, A., Lopes, I., Barrias, C., Fedorovich, S., Chubanov, V., Sholukh, M., Konev, S., Fedirko, N., Manko, V., Klevets, M., Shvinka, N., Prabhananda, B., Kombrabail, Mamata, Aravamudhan, S., Venegas-Cotero, Berenice, Blake, Ivan, Zhang, Zhi-hong, Hu, Xiao-jian, Zhou, Han-qing, Cheng, Wei-ying, Feng, Hang-fang, Dubitsky, L., Vovkanvch, L., Zalyvsky, I., Savio-Galimberti, E., Bonazzola, P., Ponce-Homos, J., Parisi, Mario, Capurro, Claudia, Toriano, Roxana, Ready, Laxma, Jones, Larry, Thomas, David, Tashmukhamedov, B., Sagdullaev, B., Usmanov, P., Mauricio, A., Heitzmann, D., Warth, R., Bleich, M., Greger, R., Ferreira, K., Ferreira, H., Zagoory, Orna, Alfahel, Essa, Parola, Abraham, Priel, Zvi, Hama-Inaba, H., Wang, R., Choi, K., Nakajima, T., Haginoya, K., Mori, M., Ohyama, H., Yukawa, O., Hayata, I., Joshi, Nanda, Kannurpatti, Sridhar, Joshi, Preeti, Sinha, Mau, Shen, Xun, Hu, Tianhui, Bei, Ling, Knetsch, Menno, Schäfers, Nicole, Manstein, Dietmar, Sandblom, John, Galvanovskis, Juris, Pologea-Moraru, Roxana, Kovacs, Eugenia, Savopol, Tudor, Dinu, Alexandra, Sanghvi, S., Mishra, K., Jazbinšek, V., Thiel, G., Müller, W., Wübeller, G., Tronteli, Z., Fajmut, Leš, Marhl, Marko, Brumen, Milan, Volotovski, I., Sokolovski, S., Knight, M., Vasil’ev, Alexei, Chalyi, Alexander, Sharma, P., Steinbach, P., Sharma, M., Amin, N., Barchir, J., Albers, R., Pant, H., Balasubramanyam, M., Condrescu, M., Reeves, J., Gardner, J., Monajembashi, Shamci, Pilarczyk, Gotz, Greulich, K., Kovacs, Eugenia, El-Refaei, F., Talaat, M., El-Awadi, A., Ali, F., Tahradník, Ivan, Pavelková, Jana, Zahradniková, Alexandra, Zhorov, Boris, Ananthanaravanan, Vettai, Michailov, M., Neu, E., Seidenbusch, W., Gornik, E., Martin, D., Welscher, U., Weiss, D., Pattnaik, B., Jellali, A., Forster, V., Hicks, D., Sahel, J., Dreyfus, H., Picaud, S., Wang, Hong-Wei, Sui, Sen-fang, Luther, Pradeep, Barry, John, Morris, Ed, Squire, John, Sundari, C., Balasubramanian, D., Veluraia, K., Christlet, T., Suresh, M., Berry, H., Pelta, J., Lairez, D., Laretta-Garde, V., Krilov, Dubravka, Stojanović, Nataša, Herak, Janko, Jasuja, Ravi, Ivanova, Maria, Mirchev, Rossen, Ferrone, Frank, Stopar, David, Spruijt, Ruud, Wolfs, Cor, Hemminga, Marcus, Arcovito, G., Spirito, M., Sui, Sen-fang, Wang, Hong-Wei, Agrawal, Rajendra, Heagle, Amy, Penczek, Pawel, Grassucci, Robert, Frank, Joachim, Sharma, Manjuli, Jeyakumar, Loice, Fleischer, Sidney, Wagenknecht, Terence, Knupp, Carlo, Munro, Peter, Luther, Pradeep, Ezra, Eric, Squire, John, Ichihara, Koji, Kitazawa, Hidefumi, Iguchi, Yusuke, Hotani, Hirokazu, Itoh, Tomohiko, Pifat, Greta, Kveder, Marina, Pečar, Slavko, Schara, Milan, Nair, Deepak, Singh, Kavita, Rao, Kanury, Salunke, Dinakar, Kaur, Kanwaljeet, Jain, Deepti, Sundaravadivel, B., Goel, Manisha, Salunke, D., Kovalenko, E., Semenkova, G., Cherenkevich, S., Lakshmanan, T., Sriram, D., Srinivasan, S., Loganathan, D., Ramalingam, T., Lebrón, J., Bjorkman, P., Singh, A., Gayatri, T., Jain, Deepti, Kaur, Kanwaljeet, Sundaravadivel, B., Salunke, Dinakar, Caffarena, Ernesto, Grigera, J., Bisch, Paulo, Kiessling, V., Fromherz, P., Rao, K., Gaikwad, S., Khan, M., Suresh, C., Kaliannan, P., Gromiha, M., Elanthiraiyan, M., Chadha, K., Payne, J., Ambrus, J., Nair, M., Nair, Madhavan, Mahajan, S., Chadha, K., Hewitt, R., Schwartz, S., Bourguignon, J., Faure, M., Cohen-Addad, C., Neuburger, M., Ober, R., Sieker, L., Macherel, D., Douce, R., Gurumurthy, D., Velmurugan, S., Lobo, Z., Srivastava, Sudha, Phadke, Ratna, Govil, Girjesh, Desai, Prashant, Coutinho, Evans, Guseinova, I., Suleimanov, S., Zulfugarov, I., Novruzova, S., Aliev, J., Ismayilov, M., Savchenko, T., Alieva, D., Ilík, Petr, Kouřil, Roman, Bartošková, Hana, Nauš, Jan, Gaikwad, Jvoti, Thomas, Sarah, Vidyasagar, P., Garab, G., Simidjiev, I., Rajagopal, S., Várkonyi, Zs., Stoylova, S., Cseh, Z., Papp, E., Mustárdy, L., Holzenburg, A., Bruder, R., Genick, U., Woo, T., Millar, D., Gerwert, K., Getzoff, E., Jávorfí, Tamás, Garab, Győző, Naqvi, K., Kalimullah, Md., Gaikwad, Jyoti, Thomas, Sarah, Semwal, Manoj, Vidyasagar, P., Kouril, Roman, Ilik, Petr, Naus, Man, Pomozi, István, Horváth, Gábor, Wehner, Rüdiger, Bernard, Gary, Damjanović, Ana, Ritz, Thorsten, Schulten, Klaus, Jushuo, Wang, Jixiu, Shan, Yandao, Gong, Tingyun, Kuang, Nanming, Zhao, Freiberg, Arvi, Timpmann, Kõu, Ruus, Rein, Woodbury, Neal, Nemtseva, E., Kudryasheva, N., Sizykh, A., Shikhov, V., Nesterenko, T., Tikhomirov, A., Forti, Giorgio, Finazzi, Giovanni, Furia, Alberto, Barbagallo, Romina, Forti, Giorgio, Iskenderova, S., Agalarov, R., Gasanov, R., Osamu, Miyashita, Nobuhiro, G., Soni, R., Ramrakhiani, M., Yagi, Hiromasa, Tozawa, Kacko, Sekino, Nobuaki, Iwabuchi, Tomoyuki, Yoshida, Masasuke, Akutsu, Hideo, Avetisyan, A., Kaulen, A., Skulachev, V., Feniouk, B., Breyton, Cécile, Kühlbrandt, Werner, Assarsson, Maria, Gräslund, Astrid, Zsiros, O., Horváth, G., Mustárdy, L., Libisch, B., Gombos, Z., Budagovskaya, N., Kudryasheva, N., Harada, Erisa, Fukuoka, Yuki, Ohmura, Tomoaki, Fukunishi, Arima, Kawai, Gota, Watanabe, Kimitsuna, Akutsu, Hideo, Derganc, Jure, Božič, Bojan, Svetina, Saša, Žekš, Boštjan, Hoh, J., Li, Z., Rossmanith, G., Beer, E., Treijtel, B., Frederix, P., Blangè, T., Hénon, S., Galtet, F., Laurent, V., Planus, E., Isabey, D., Rath, L., Dash, P., Raval, M., Ramakrishnan, C., Balaram, R., Randic, Milan, Basak, Subhash, Vracko, Marjan, Nandy, Ashesh, Amic, Dragan, Beslo, Drago, Nikolic, Sonja, Trinajstic, Nenad, Walahaw, J., Woolfson, D., Lensink, Marc, Berendsen, Herman, Reddy, Boojala, Shindylov, Ilya, Bourne, Philip, Donnamaria, M., Xammar Oro, J., Grigera, J., Neagu, Monica, Neagu, Adrian, Praprotnik, Matej, Janežič, Dušanka, Mark, Pekka, Nilsson, Lennart, Martorana, V., Bulone, D., Fata, L., Manno, M., Biagio, P., Dardenne, Laurent, Werneck, Araken, Neto, Marçal, Bisch, Paulo, Kannan, N., Vishveshwara, S., Christlet, T., Veluraja, K., Grunwald, Gregory, Balaban, Alexandra, Basak, Kanika, Gute, Brian, Mills, Denise, Opitz, David, Balasubramanian, Krishnan, Mihalas, G., Lungeanu, Diana, Macovievici, G., Gruia, Raluca, Neagu, Monica, Cortez-Maghelly, C., Dalcin, B., Passos, E., Blesic, S., Ljubisavljevic, M., Milosevic, S., Stratimirovic, D., Bachhawat, Nandita, Mande, Shekhar, Ghosh, S., Nandy, A., Saito, Ayumu, Nishigaki, Koichi, Nishigaki, Koichi, Naimuddin, Mohammed, Mitaku, Shigeki, Hirokawa, Takatsugu, Ono, Mitsuo, Takaesu, Hirotomo, El Gohary, M., Ahmed, Abdalla, Eissa, A., Nakashima, Hiroshi, Nishikawa, Ken, Neagu, Monica, Neagu, Adrian, Raghava, G., Kurgalvuk, N., Goryn, O., Gerstman, Bernard, Gritsenko, E., Remmel, N., Maznyak, O., Kratasyuk, V., Esimbekova, E., Kratasyuk, V., Tchitchkan, D., Koulchitsky, S., Tikhonov, A., German, A., Pesotskaya, Y., Pashkevich, S., Pletnev, S., Kulchitsky, V., Duvvuri, Umamaheswar, Charagundla, Sridhar, Rizi, Rahim, Leigh, John, Reddy, Ravinder, Kumar, Mahesh, Coshic, O., Julka, P., Rath, O., Jagannathan, NR., Iliescu, Karina, Sajin, Maria, Moisoi, Nicolcta, Petcu, Ileana, Kuzmenko, A., Morozova, R., Nikolenko, I., Donchenko, G., Rahman, M., Ahmed, M., Naimuddin, Mohammed, Watanabe, Takehiro, Nishigaki, Koichi, Rubin, Y., Gilboa, H., Sharony, R., Ammar, R., Uretzky, G., Khubchandani, M., Mallick, H., Kumar, V., Jagannathan, N., Borthakur, Arijitt, Shapiro, Erik, Begum, M., Degaonkar, Mahaveer, Govindasamy, S., Dimitrov, Ivan, Kumosani, T., Bild, W., Stefanescu, I., Titescu, G., Iliescu, R., Lupusoru, C., Nastasa, V., Haulica, I., Khetawat, Gopal, Faraday, N., Nealen, M., Noga, S., Bray, P., Ananieva, T., Lycholat, E., Pashinskaya, V., Kosevich, MV., Stepanyan, S., Lycholat, E., Ananieva, T., Antonyuk, S., Khachatryan, R., Arakelian, H., Kumar, A., Ayrapetyan, S., Mkheyan, V., Agadjanyan, S., Khachatryan, A., Rajan, S., Kabaleeswaran, V., Malathi, R., Gopalakrishnan, Geetha, Govindachari, T., Ramrakhiani, Meera, Lowe, Phillip, Badley, Andrew, Cullen, David, Hermel, H., Schmahl, W., Möhwald, H., Singh, Anil, Majumdar, Nirmalya, Das, Joydip, Madhusudnan, Kartha, Dér, András, Kelemen, Loránd, Oroszi, László, Hámori, András, Ramsden, Jeremy, Ormos, Pál, Savitri, D., Mitra, Chanchal, Yanagida, Toshio, Esaki, Seiji, Kimura, Yuji, Nishida, Tomoyuki, Sowa, Yosiyuki, Radu, M., Koltover, V., Estrin, Ya., Kasumova, L., Bubnov, V., Laukhina, E., Dotta, Rajiv, Degaonkar, M., Raghunathan, P., Jayasundar, Rama, Jagannathan, N., Novák, Pavel, Marko, Milan, Zahradník, Ivan, Hirata, Hiroaki, Miyata, Hidetake, Ohki, Kazuo, Balaji, J., Sengupta, P., Maiti, S., Gonsalves, M., Barker, A., Macpherson, J., O’Hare, D., Winlove, C., Unwin, P., Sengupta, P., Phillip, R., Banerjee, S., Kumar, G., Maiti, S., Nagayaka, K., Danev, R., Sugitani, S., Murata, K., Gősch, Michael, Blom, H., Thyberg, P., Földes-Papp, Z., Björk, G., Holm, J., Heino, T., Rigler, Rudolf, Yokochi, Masashi, Inagaki, Fuyuhiko, Kusunoki, Masami, Matthews, E., Pines, J., Chukova, Yu., Koltover, Vitaly, Bansal, Geetanjali, Singh, Uma, Bansal, M., Nakata, Kotoko, Nakano, Tastuya, Kaminuma, Tsuguchika, Kang, B., Singh, U., Kirn, Bonn, Potocnik, Neja, Stare, Vito, Shukla, Latal, Natarajan, V., Devasagayam, T., Sastry, M., Kesavan, P., Sayfutdinov, R., Adamovich, V., Rogozin, D., Degermendzhy, A., Khetrapal, C., Ramanathan, K., Gowda, G., Ghimire, Kedar, Masaru, Ishida, Fujita, H., Ishiwata, S., Kishimoto, Y., Kawahara, S., Suzuki, M., Mori, H., Mishina, M., Kirino, Y., Ohshima, H., Dukhin, A., Shilov, V., Goetz, P., Sengupta, B., Guharay, J., Sengupta, P., and Mishra, R.

Published

1999

10. Elevated growth temperature can enhance photosystem I trimer formation and affects xanthophyll biosynthesis in Cyanobacterium Synechocystis sp. PCC6803 cells.

Author

Kłodawska K, Kovács L, Várkonyi Z, Kis M, Sozer Ö, Laczkó-Dobos H, Kóbori O, Domonkos I, Strzałka K, Gombos Z, and Malec P

Subjects

Autotrophic Processes, Carotenoids metabolism, Chromatography, Ion Exchange, Circular Dichroism, Gene Silencing, Genes, Bacterial, Genetic Complementation Test, Mutation genetics, Oxygen metabolism, Phototrophic Processes, Synechocystis cytology, Synechocystis ultrastructure, Thylakoids metabolism, Hot Temperature, Photosystem I Protein Complex metabolism, Protein Multimerization, Synechocystis growth & development, Synechocystis metabolism, Xanthophylls biosynthesis

Abstract

In the thylakoid membranes of the mesophilic cyanobacterium Synechocystis PCC6803, PSI reaction centers (RCs) are organized as monomers and trimers. PsaL, a 16 kDa hydrophobic protein, a subunit of the PSI RC, was previously identified as crucial for the formation of PSI trimers. In this work, the physiological effects accompanied by PSI oligomerization were studied using a PsaL-deficient mutant (ΔpsaL), not able to form PSI trimers, grown at various temperatures. We demonstrate that in wild-type Synechocystis, the monomer to trimer ratio depends on the growth temperature. The inactivation of the psaL gene in Synechocystis grown phototropically at 30°C induces profound morphological changes, including the accumulation of glycogen granules localized in the cytoplasm, resulting in the separation of particular thylakoid layers. The carotenoid composition in ΔpsaL shows that PSI monomerization leads to an increased accumulation of myxoxantophyll, zeaxanthin and echinenone irrespective of the temperature conditions. These xanthophylls are formed at the expense of β-carotene. The measured H2O→CO2 oxygen evolution rates in the ΔpsaL mutant are higher than those observed in the wild type, irrespective of the growth temperature. Moreover, circular dichroism spectroscopy in the visible range reveals that a peak attributable to long-wavelength-absorbing carotenoids is apparently enhanced in the trimer-accumulating wild-type cells. These results suggest that specific carotenoids are accompanied by the accumulation of PSI oligomers and play a role in the formation of PSI oligomer structure., (© The Author 2014. Published by Oxford University Press on behalf of Japanese Society of Plant Physiologists. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published

2015

11. Heat- and light-induced detachment of the light-harvesting antenna complexes of photosystem I in isolated stroma thylakoid membranes.

Author

Krumova SB, Várkonyi Z, Lambrev PH, Kovács L, Todinova SJ, Busheva MC, Taneva SG, and Garab G

Subjects

Enzyme Stability radiation effects, Spinacia oleracea cytology, Spinacia oleracea enzymology, Spinacia oleracea radiation effects, Time Factors, Hot Temperature, Light, Light-Harvesting Protein Complexes chemistry, Photosystem I Protein Complex chemistry, Thylakoids enzymology, Thylakoids radiation effects

Abstract

The multisubunit pigment-protein complex of photosystem I (PSI) consists of a core and peripheral light-harvesting antenna (LHCI). PSI is thought to be a rather rigid system and very little is known about its structural and functional flexibility. Recent data, however, suggest LHCI detachment from the PSI supercomplex upon heat and light treatments. Furthermore, it was suggested that the splitting off of LHCI acts as a safety valve for PSI core upon photoinhibition (Alboresi et al., 2009). In this work we analyzed the heat- and light-induced reorganizations in isolated PSI vesicles (stroma membrane vesicles enriched in PSI). Using differential scanning calorimetry we revealed a stepwise disassembly of PSI supercomplex above 50°C. Circular dichroism, sucrose gradient centrifugation and 77K fluorescence experiments identified the sequence of events of PSI destabilization: 3min heating at 60°C or 40min white light illumination at 25°C resulted in pronounced Lhca1/4 detachment from the PSI supercomplex, which is then followed by the degradation of Lhca2/3. The similarity of the main structural effects due to heat and light treatments supports the notion that thermo-optic mechanism, structural changes induced by ultrafast local thermal transients, which has earlier been shown to be responsible for structural changes in the antenna system of photosystem II, can also regulate the assembly and functioning of PSI antenna., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2014

12. Membrane crystals of plant light-harvesting complex II disassemble reversibly in light.

Author

Hind G, Wall JS, Várkonyi Z, Istokovics A, Lambrev PH, and Garab G

Subjects

Cations metabolism, Circular Dichroism, Darkness, Hot Temperature, Light, Light-Harvesting Protein Complexes ultrastructure, Magnesium metabolism, Membrane Lipids, Microscopy, Electron, Scanning, Microscopy, Electron, Transmission, Models, Molecular, Pisum sativum radiation effects, Pisum sativum ultrastructure, Photosystem II Protein Complex chemistry, Photosystem II Protein Complex ultrastructure, Plant Leaves chemistry, Plant Leaves radiation effects, Plant Leaves ultrastructure, Thylakoids ultrastructure, Adaptation, Physiological, Light-Harvesting Protein Complexes chemistry, Pisum sativum chemistry, Thylakoids chemistry

Abstract

Using the mass-measuring capability of scanning transmission electron microscopy, we demonstrate that membrane crystals of the main light-harvesting complex of plants possess the ability to undergo light-induced dark-reversible disassociations, independently of the photochemical apparatus. This is the first direct visualization of light-driven reversible reorganizations in an isolated photosynthetic antenna. These reorganizations, identified earlier by circular dichroism (CD), can be accounted for by a biological thermo-optic transition: structural changes are induced by fast heat transients and thermal instabilities near the dissipation, and self-association of the complexes in the lipid matrix. A comparable process in native membranes is indicated by earlier findings of essentially identical kinetics, and intensity and temperature dependences of the ΔCD in granal thylakoids., (© The Author 2014. Published by Oxford University Press on behalf of Japanese Society of Plant Physiologists. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published

2014

13. Anisotropic circular dichroism signatures of oriented thylakoid membranes and lamellar aggregates of LHCII.

Author

Miloslavina Y, Lambrev PH, Jávorfi T, Várkonyi Z, Karlický V, Wall JS, Hind G, and Garab G

Subjects

Anisotropy, Light, Light-Harvesting Protein Complexes isolation & purification, Light-Harvesting Protein Complexes radiation effects, Photosystem II Protein Complex isolation & purification, Photosystem II Protein Complex radiation effects, Spinacia oleracea radiation effects, Thylakoids radiation effects, Circular Dichroism methods, Light-Harvesting Protein Complexes chemistry, Photosystem II Protein Complex chemistry, Spinacia oleracea chemistry, Thylakoids chemistry

Abstract

In photosynthesis research, circular dichroism (CD) spectroscopy is an indispensable tool to probe molecular architecture at virtually all levels of structural complexity. At the molecular level, the chirality of the molecule results in intrinsic CD; pigment-pigment interactions in protein complexes and small aggregates can give rise to excitonic CD bands, while "psi-type" CD signals originate from large, densely packed chiral aggregates. It has been well established that anisotropic CD (ACD), measured on samples with defined non-random orientation relative to the propagation of the measuring beam, carries specific information on the architecture of molecules or molecular macroassemblies. However, ACD is usually combined with linear dichroism and can be distorted by instrumental imperfections, which given the strong anisotropic nature of photosynthetic membranes and complexes, might be the reason why ACD is rarely studied in photosynthesis research. In this study, we present ACD spectra, corrected for linear dichroism, of isolated intact thylakoid membranes of granal chloroplasts, washed unstacked thylakoid membranes, photosystem II (PSII) membranes (BBY particles), grana patches, and tightly stacked lamellar macroaggregates of the main light-harvesting complex of PSII (LHCII). We show that the ACD spectra of face- and edge-aligned stacked thylakoid membranes and LHCII lamellae exhibit profound differences in their psi-type CD bands. Marked differences are also seen in the excitonic CD of BBY and washed thylakoid membranes. Magnetic CD (MCD) spectra on random and aligned samples, and the largely invariable nature of the MCD spectra, despite dramatic variations in the measured isotropic and anisotropic CD, testify that ACD can be measured without substantial distortions and thus employed to extract detailed information on the (supra)molecular organization of photosynthetic complexes. An example is provided showing the ability of CD data to indicate such an organization, leading to the discovery of a novel crystalline structure in macroaggregates of LHCII.

Published

2012

14. Increased thermostability of thylakoid membranes in isoprene-emitting leaves probed with three biophysical techniques.

Author

Velikova V, Várkonyi Z, Szabó M, Maslenkova L, Nogues I, Kovács L, Peeva V, Busheva M, Garab G, Sharkey TD, and Loreto F

Subjects

Alkyl and Aryl Transferases genetics, Arabidopsis genetics, Chloroplasts metabolism, Circular Dichroism, Hot Temperature, Light-Harvesting Protein Complexes analysis, Photosystem II Protein Complex analysis, Plants, Genetically Modified, Pueraria enzymology, Pueraria genetics, Thylakoids metabolism, Trees, Arabidopsis metabolism, Biophysics methods, Butadienes metabolism, Hemiterpenes metabolism, Magnoliopsida metabolism, Pentanes metabolism, Plant Leaves metabolism, Thylakoids chemistry

Abstract

Three biophysical approaches were used to get insight into increased thermostability of thylakoid membranes in isoprene-emittingplants.Arabidopsis (Arabidopsis thaliana) plants genetically modified to make isoprene and Platanus orientalis leaves, in which isoprene emission was chemically inhibited, were used. First, in the circular dichroism spectrum the transition temperature of the main band at 694 nm was higher in the presence of isoprene, indicating that the heat stability of chiral macrodomains of chloroplast membranes, and specifically the stability of ordered arrays of light-harvesting complex II-photosystem II in the stacked region of the thylakoid grana, was improved in the presence of isoprene. Second, the decay of electrochromic absorbance changes resulting from the electric field component of the proton motive force (ΔA₅₁₅) was evaluated following single-turnover saturating flashes. The decay of ΔA₅₁₅ was faster in the absence of isoprene when leaves of Arabidopsis and Platanus were exposed to high temperature, indicating that isoprene protects the thylakoid membranes against leakiness at elevated temperature. Finally, thermoluminescence measurements revealed that S₂Q(B)⁻ charge recombination was shifted to higher temperature in Arabidopsis and Platanus plants in the presence of isoprene, indicating higher activation energy for S₂Q(B)⁻ redox pair, which enables isoprene-emitting plants to perform efficient primary photochemistry of photosystem II even at higher temperatures. The data provide biophysical evidence that isoprene improves the integrity and functionality of the thylakoid membranes at high temperature. These results contribute to our understanding of isoprene mechanism of action in plant protection against environmental stresses.

Published

2011

15. Functional domain size in aggregates of light-harvesting complex II and thylakoid membranes.

Author

Lambrev PH, Schmitt FJ, Kussin S, Schoengen M, Várkonyi Z, Eichler HJ, Garab G, and Renger G

Subjects

Microscopy, Atomic Force, Spectrometry, Fluorescence, Spinacia oleracea, Light-Harvesting Protein Complexes chemistry, Thylakoids chemistry

Abstract

The functional domain size for efficient excited singlet state quenching was studied in artificial aggregates of the main light-harvesting complex II (LHCIIb) from spinach and in native thylakoid membranes by picosecond time-resolved fluorescence spectroscopy and quantum yield measurements. The domain size was estimated from the efficiency of added exogenous singlet excitation quenchers-phenyl-p-benzoquinone (PPQ) and dinitrobenzene (DNB). The mean fluorescence lifetimes τ(av) were quantified for a range of quencher concentrations. Applying the Stern-Volmer formalism, apparent quenching rate constants k(q) were determined from the dependencies on quencher concentration of the ratio τ(0)(av)/τ(av), where τ(0)(av) is the average fluorescence lifetime of the sample without addition of an exogenous quencher. The functional domain size was gathered from the ratio k(q)'/k(q), i.e., the apparent quenching rate constants determined in aggregates (or membranes), k(q)', and in detergent-solubilised LHCII trimers, k(q), respectively. In LHCII macroaggregates, the resulting values for the domain size were 15-30 LHCII trimers. In native thylakoid membranes the domain size was equivalent to 12-24 LHCII trimers, corresponding to 500-1000 chlorophylls. Virtually the same results were obtained when membranes were suspended in buffers promoting either membrane stacking or destacking. These domain sizes are orders of magnitude smaller than the number of physically connected pigment-protein complexes. Therefore our results imply that the physical size of an antenna system beyond the numbers of a functional domain size has little or no effect on improving the light-harvesting efficiency., (2011 Elsevier B.V. All rights reserved.)

Published

2011

16. Isolation and characterization of lamellar aggregates of LHCII and LHCII-lipid macro-assemblies with light-inducible structural transitions.

Author

Simidjiev I, Várkonyi Z, Lambrev PH, and Garab G

Subjects

Circular Dichroism, Light-Harvesting Protein Complexes metabolism, Pisum sativum enzymology, Spinacia oleracea enzymology, Thylakoids enzymology, Cell Fractionation methods, Chemical Fractionation methods, Light, Light-Harvesting Protein Complexes chemistry, Light-Harvesting Protein Complexes isolation & purification, Lipid Metabolism

Abstract

We describe the method of isolation of loosely stacked lamellar aggregates of LHCII that are capable of undergoing light-induced reversible structural changes, similar to those in granal thylakoid membranes (LHCII, the main chlorophyll a/b light-harvesting antenna complex of photosystem II). This unexpected structural flexibility of the antenna complexes depends largely on the lipid content that is retained during the isolation. As revealed by circular dichroism, in lipid-LHCII aggregates, the pigment-pigment interactions are very similar to those in the thylakoid membranes, while they differ significantly from those in solubilized trimers. The essence of the procedure is to adjust--for the plant material used--the proper conditions of detergent solubilization and purification that are mild enough for the associated lipids but provide sufficient purity. Microcrystals and most other LHCII preparations, which are more delipidated, are not capable of similar changes. The light-induced structural reorganizations can be enhanced by the addition of different thylakoid lipids, which--depending on the lipid species--also lead to the transformation of the lamellar structure. The preparation of different LHCII-lipid macro-assemblies is also described. Both in structurally flexible LHCII preparations and in thylakoids, the changes originate from a thermo-optic effect: fast local thermal transients, T-jumps, due to the dissipation of the (excess) excitation energy, which lead to elementary structural transitions in the close vicinity of the dissipating centers. This can occur because thylakoids and structurally flexible LHCII assemblies, but, e.g., not the microcrystals, exhibit a thermal instability below the denaturation temperature, and thus (local) heating leads to reorganizations without the loss of the molecular architecture of the constituents. We also list the main biochemical and biophysical techniques that can be used for testing the structural flexibility of LHCII, and discuss the potential physiological significance of the structural changes in light adaptation and photoprotection of plants.

Published

2011

17. Effect of phosphorylation on the thermal and light stability of the thylakoid membranes.

Author

Várkonyi Z, Nagy G, Lambrev P, Kiss AZ, Székely N, Rosta L, and Garab G

Subjects

Dose-Response Relationship, Radiation, Pisum sativum cytology, Plant Leaves ultrastructure, Hot Temperature, Light, Phosphorylation physiology, Thylakoids radiation effects

Abstract

Higher plant thylakoid membranes contain a protein kinase that phosphorylates certain threonine residues of light-harvesting complex II (LHCII), the main light-harvesting antenna complexes of photosystem II (PSII) and some other phosphoproteins (Allen, Biochim Biophys Acta 1098:275, 1992). While it has been established that phosphorylation induces a conformational change of LHCII and also brings about changes in the lateral organization of the thylakoid membrane, it is not clear how phosphorylation affects the dynamic architecture of the thylakoid membranes. In order to contribute to the elucidation of this complex question, we have investigated the effect of duroquinol-induced phosphorylation on the membrane ultrastructure and the thermal and light stability of the chiral macrodomains and of the trimeric organization of LHCII. As shown by small angle neutron scattering on thylakoid membranes, duroquinol treatment induced a moderate (~10%) increase in the repeat distance of stroma membranes, and phosphorylation caused an additional loss of the scattering intensity, which is probably associated with the partial unstacking of the granum membranes. Circular dichroism (CD) measurements also revealed only minor changes in the chiral macro-organization of the complexes and in the oligomerization state of LHCII. However, temperature dependences of characteristic CD bands showed that phosphorylation significantly decreased the thermal stability of the chiral macrodomains in phosphorylated compared to the non-phosphorylated samples (in leaves and isolated thylakoid membranes, from 48.3 degrees C to 42.6 degrees C and from 47.5 degrees C to 44.3 degrees C, respectively). As shown by non-denaturing PAGE of thylakoid membranes and CD spectroscopy on EDTA washed membranes, phosphorylation decreased by about 5 degrees C, the trimer-to-monomer transition temperature of LHCII. It also enhanced the light-induced disassembly of the chiral macrodomains and the monomerization of the LHCII trimers at 25 degrees C. These data strongly suggest that phosphorylation of the membranes considerably facilitates the heat- and light-inducible reorganizations in the thylakoid membranes and thus enhances the structural flexibility of the membrane architecture.

Published

2009

18. Oxygen and temperature-dependent structural and redox changes in a novel cytochrome c(4) from the purple sulfur photosynthetic bacterium Thiocapsa roseopersicina.

Author

Branca RM, Bodó G, Várkonyi Z, Debreczeny M, Osz J, and Bagyinka C

Subjects

Computer Simulation, Oxidation-Reduction, Protein Conformation, Temperature, Cytochrome c Group chemistry, Cytochrome c Group ultrastructure, Models, Chemical, Oxygen chemistry, Thiocapsa roseopersicina enzymology

Abstract

A novel cytochrome c(4), the first of this type in purple phototrophic bacteria has been discovered in Thiocapsa roseopersicina. The fact that cytochrome c(4) has been found in an anaerobic organism puts in question the up hereto suggested role of cytochromes c(4) in the aerobic respiratory metabolism. The structure of cytochrome c(4) was studied under both aerobic and anaerobic conditions, using differential scanning calorimetry and a combination of redox potentiostatic measurements with CD and UV-Vis absorption techniques. Cytochrome c(4) maintained its functional capability at high temperature (60 degrees C) if it was kept under anaerobic conditions. With increasing temperature under aerobic conditions, however, there are dramatic conformational changes in the protein and coordination changes on the iron side. Presumably oxygen binds to the iron at the position left vacant by the methionine and facilitates conformational changes with low reversibility.

Published

2007

19. Importance of trimer-trimer interactions for the native state of the plant light-harvesting complex II.

Author

Lambrev PH, Várkonyi Z, Krumova S, Kovács L, Miloslavina Y, Holzwarth AR, and Garab G

Subjects

Circular Dichroism, Detergents pharmacology, Glucosides pharmacology, Light-Harvesting Protein Complexes isolation & purification, Octoxynol pharmacology, Photosystem II Protein Complex isolation & purification, Solubility drug effects, Solvents pharmacology, Spectrometry, Fluorescence, Thylakoids chemistry, Light-Harvesting Protein Complexes chemistry, Photosystem II Protein Complex chemistry

Abstract

Aggregates and solubilized trimers of LHCII were characterized by circular dichroism (CD), linear dichroism and time-resolved fluorescence spectroscopy and compared with thylakoid membranes in order to evaluate the native state of LHCII in vivo. It was found that the CD spectra of lamellar aggregates closely resemble those of unstacked thylakoid membranes whereas the spectra of trimers solubilized in n-dodecyl-beta,D-maltoside, n-octyl-beta,D-glucopyranoside, or Triton X-100 were drastically different in the Soret region. Thylakoid membranes or LHCII aggregates solubilized with detergent exhibited CD spectra similar to the isolated trimers. Solubilization of LHCII was accompanied by profound changes in the linear dichroism and increase in fluorescence lifetime. These data support the notion that lamellar aggregates of LHCII retain the native organization of LHCII in the thylakoid membranes. The results indicate that the supramolecular organization of LHCII, most likely due to specific trimer-trimer contacts, has significant impact on the pigment interactions in the complexes.

Published

2007

20. Thermo-optically induced reorganizations in the main light harvesting antenna of plants. II. Indications for the role of LHCII-only macrodomains in thylakoids.

Author

Holm JK, Várkonyi Z, Kovács L, Posselt D, and Garab G

Subjects

Circular Dichroism, Light, Light-Harvesting Protein Complexes chemistry, Light-Harvesting Protein Complexes radiation effects, Pisum sativum chemistry, Temperature, Thylakoids chemistry, Thylakoids radiation effects

Abstract

We have investigated the circular dichroism spectral transients associated with the light-induced reversible reorganizations in chirally organized macrodomains of pea thylakoid membranes and loosely stacked lamellar aggregates of the main chlorophyll a/b light harvesting complexes (LHCII) isolated from the same membranes. These reorganizations have earlier been assigned to originate from a thermo-optic effect. According to the thermo-optic mechanism, fast local thermal transients due to dissipation of the excess excitation energy induce elementary structural changes in the close vicinity of the dissipation [Cseh et al. (2000) Biochemistry 39: 15250-15257]. Here we show that despite the markedly different CD spectra in the dark, the transient (light-minus-dark) CD spectra associated with the structural changes induced by high light in thylakoids and LHCII are virtually indistinguishable. This, together with other close similarities between the two systems, strongly suggests that the gross short-term, thermo-optically induced structural reorganizations in the membranes occur mainly, albeit probably not exclusively, in the LHCII-only domains [Boekema et al. (2000) J Mol Biol 301: 1123-1133]. Hence, LHCII-only domains might play an important role in light adaptation and photoprotection of plants.

Published

2005

21. Protective effect of supplemental low intensity white light on ultraviolet-B exposure-induced impairment in cyanobacterium Spirulina platensis: formation of air vacuoles as a possible protective measure.

Author

Rajagopal S, Sicora C, Várkonyi Z, Mustárdy L, and Mohanty P

Subjects

Circular Dichroism, Cyanobacteria ultrastructure, Photosystem II Protein Complex metabolism, Photosystem II Protein Complex radiation effects, Spectrophotometry, Atomic, Air, Cyanobacteria cytology, Cyanobacteria radiation effects, Light, Ultraviolet Rays adverse effects, Vacuoles radiation effects

Abstract

Intact trichomes of Spirulina platensis were exposed to 1-5 h of low (0.2 mW cm(-2)) or high (0.6 mW cm(-2)) intensity UV-B (280-320 nm) radiation, alone or with photosynthetically active radiation (PAR) of supplemental 50 muE m(-2) s(-1) white light (WL). The mitigating effect of supplemental WL on UV-B induced alterations in Spirulina were investigated by monitoring time-dependent change in photosystem (PS) II mediated O(2) evolution, absorption, circular dichroism (CD) spectra, and ultrastructure. At low intensity, UV-B induced loss in PS II-catalyzed O(2) evolution, but caused no change in the absorption spectrum. At high intensity, UV-B caused a decrease in absorption by phycobilisomes (PBsomes), which was only partly prevented by the presence of low-intensity supplemental WL. The CD spectral analysis revealed that UV-B exposure caused time-dependent enhancement of the negative psi-type bands at 452 and 689 nm, reflecting alterations in the macroaggregation of chlorophyll-protein complexes. This enhancement of negative PS II-type bands was substantially arrested by the presence of supplemental WL exposure, even when UV-B exposure was continued for 5 h. These changes in UV-B-induced CD spectrum suggest alterations in the antenna structure of Spirulina involving both PBsomes and Chlorophyll a. Thus, supplemental low intensity WL arrests, to large extent, the macroaggregation of pigment-protein complexes. Furthermore, the electron micrographs of Spirulina revealed that UV-B exposure caused disorganization of the cellular ultrastructure, while the inclusion of supplemental WL enhanced the formation of air vacuoles in Spirulina. We suggest that the formation of vacuoles by supplemental WL is a protective feature against UV-B.

Published

2005

22. Resonance Raman spectroscopy of xanthophylls in pigment mutant thylakoid membranes of pea.

Author

Andreeva A, Stoitchkova K, Busheva M, Apostolova E, Várkonyi Z, and Garab G

Subjects

Photosystem II Protein Complex physiology, Pigmentation, Protein Structure, Tertiary, Pyridines chemistry, Temperature, Mutation, Pisum sativum metabolism, Spectrum Analysis, Raman methods, Thylakoids metabolism, Xanthophylls chemistry

Abstract

Low-temperature resonance Raman spectroscopy was used to study the changes in the molecular structure and configuration of the major xanthophylls in thylakoid membranes isolated from mutants of pea with modified pigment content and altered structural organization of their pigment-protein complexes. The Raman spectra contained four known groups of bands, nu(1)-nu(4), which could be assigned to originate mainly from the long wavelength absorbing lutein and neoxanthin upon 514.5 nm and at 488 nm excitations, respectively. The overall configuration of these bound xanthophyll molecules in the mutants appeared to be similar to the wild type, and the configuration in the wild type was almost identical with that in the isolated main chlorophyll a/b light harvesting protein complex of photosystem II (LHCII). Significant differences were found mainly in the region of nu(4) (around 960 cm(-1)), which suggest that the macroorganization of PS II-LHCII supercomplexes and/or of the LHCII-only domains are modified in the mutants compared to the wild type., (Copyright 2004 Wiley Periodicals, Inc. Biopolymers, 2004)

Published

2004

23. Isolation and characterization of lamellar aggregates of LHCII and LHCII-lipid macro-assemblies with light-inducible structural transitions.

Author

Simidjiev I, Várkonyi Z, and Garab G

Subjects

Intracellular Membranes chemistry, Membrane Lipids chemistry, Pisum sativum chemistry, Pisum sativum cytology, Plant Leaves chemistry, Spinacia oleracea chemistry, Spinacia oleracea cytology, Thylakoids chemistry, Light, Light-Harvesting Protein Complexes isolation & purification, Photosystem II Protein Complex isolation & purification, Plant Proteins isolation & purification, Protein Conformation

Abstract

In this chapter we describe isolation of loosely stacked lamellar aggregates of LHCII that are capable of undergoing light-induced reversible structural changes, similar to those in granal thylakoid membranes (LHCII, the main chlorophyll a/b light-harvesting antenna complex of photosystem II). This unexpected structural flexibility of the antenna complexes depends largely on the lipid content retained during the isolation. The essence of the procedure is to adjust-for the plant material used-the proper conditions of detergent solubilization and purification mild enough for the associated lipids but also provide sufficient purity. Microcrystals and most other LHCII preparations, which are more delipidated, are not capable of similar changes. The light-induced structural reorganizations can be enhanced by the addition of different thylakoid lipids, which depending on the lipid species, also lead to the transformation of the lamellar structure. The preparation of different LHCII-lipid macro-assemblies is also described. In structurally flexible LHCII preparations and in thylakoids, the changes originate from a thermo-optic effect: fast local thermal transients, T-jumps, resulting from dissipation of the (excess) excitation energy that lead to elementary structural transitions in the vicinity of the dissipating centers. This can occur because thylakoids and structurally flexible LHCII assemblies but, for example, not the microcrystals, exhibit a thermal instability below the denaturation temperature, and thus (local) heating lead to reorganizations without the loss of the molecular architecture of the constituents. We also list the main biochemical and biophysical techniques that can be used for testing the structural flexibility of LHCII, and discuss the potential physiological significance of the structural changes in light adaptation and photoprotection of plants.

Published

2004

24. Structural rearrangements in chloroplast thylakoid membranes revealed by differential scanning calorimetry and circular dichroism spectroscopy. Thermo-optic effect.

Author

Dobrikova AG, Várkonyi Z, Krumova SB, Kovács L, Kostov GK, Todinova SJ, Busheva MC, Taneva SG, and Garab G

Subjects

Calorimetry, Differential Scanning, Circular Dichroism, Hordeum chemistry, Hot Temperature, Light, Light-Harvesting Protein Complexes, Magnesium Chloride pharmacology, Membrane Microdomains radiation effects, Osmolar Concentration, Photosynthetic Reaction Center Complex Proteins radiation effects, Photosystem II Protein Complex, Thermodynamics, Thylakoids radiation effects, Membrane Microdomains chemistry, Photosynthetic Reaction Center Complex Proteins chemistry, Thylakoids chemistry

Abstract

The thermo-optic mechanism in thylakoid membranes was earlier identified by measuring the thermal and light stabilities of pigment arrays with different levels of structural complexity [Cseh, Z., et al. (2000) Biochemistry 39, 15250-15257]. (According to the thermo-optic mechanism, fast local thermal transients, arising from the dissipation of excess, photosynthetically not used, excitation energy, induce elementary structural changes due to the "built-in" thermal instabilities of the given structural units.) The same mechanism was found to be responsible for the light-induced trimer-to-monomer transition in LHCII, the main chlorophyll a/b light-harvesting antenna of photosystem II (PSII) [Garab, G., et al. (2002) Biochemistry 41, 15121-15129]. In this paper, differential scanning calorimetry (DSC) and circular dichroism (CD) spectroscopy on thylakoid membranes of barley and pea are used to correlate the thermo-optically inducible structural changes with well-discernible calorimetric transitions. The thylakoid membranes exhibited six major DSC bands, with maxima between about 43 and 87 degrees C. The heat sorption curves were analyzed both by mathematical deconvolution of the overall endotherm and by a successive annealing procedure; these yielded similar thermodynamic parameters, transition temperature and calorimetric enthalpy. A systematic comparison of the DSC and CD data on samples with different levels of complexity revealed that the heat-induced disassembly of chirally organized macrodomains contributes profoundly to the first endothermic event, a weak and broad DSC band between 43 and 48 degrees C. Similarly to the main macrodomain-associated CD signals, this low enthalpy band could be diminished by prolonged photoinhibitory preillumination, the extent of which depended on the temperature of preillumination. By means of nondenaturing, "green" gel electrophoresis and CD fingerprinting, it is shown that the second main endotherm, around 60 degrees C, originates to a large extent from the monomerization of LHCII trimers. The main DSC band, around 70 degrees C, which exhibits the highest enthalpy change, and another band around 75-77 degrees C relate to the dismantling of LHCII and other pigment-protein complexes, which under physiologically relevant conditions cannot be induced by light. The currently available data suggest the following sequence of events of thermo-optically inducible changes: (i) unstacking of membranes, followed by (ii) lateral disassembly of the chiral macrodomains and (iii) monomerization of LHCII trimers. We propose that thermo-optical structural reorganizations provide a structural flexibility, which is proportional to the intensity of the excess excitation, while for their localized nature, the structural stability of the system can be retained.

Published

2003

25. Light-induced trimer to monomer transition in the main light-harvesting antenna complex of plants: thermo-optic mechanism.

Author

Garab G, Cseh Z, Kovács L, Rajagopal S, Várkonyi Z, Wentworth M, Mustárdy L, Dér A, Ruban AV, Papp E, Holzenburg A, and Horton P

Subjects

Arabidopsis Proteins chemistry, Arabidopsis Proteins isolation & purification, Centrifugation, Density Gradient, Chlorophyll chemistry, Chlorophyll A, Circular Dichroism, Electrophoresis, Gel, Two-Dimensional, Electrophoresis, Polyacrylamide Gel, Light-Harvesting Protein Complexes, Pisum sativum, Photosynthetic Reaction Center Complex Proteins isolation & purification, Photosystem II Protein Complex, Spectrophotometry, Spinacia oleracea, Thylakoids chemistry, Light, Photosynthetic Reaction Center Complex Proteins chemistry, Thermodynamics

Abstract

The main chlorophyll a/b light-harvesting complex of photosystem II, LHCIIb, has earlier been shown to be capable of undergoing light-induced reversible structural changes and chlorophyll a fluorescence quenching in a way resembling those observed in granal thylakoids when exposed to excess light [Barzda, V., et al. (1996) Biochemistry 35, 8981-8985]. The nature and mechanism of this unexpected structural flexibility has not been elucidated. In this work, by using density gradient centrifugation and nondenaturing green gel electrophoresis, as well as absorbance and circular dichroic spectroscopy, we show that light induces a significant degree of monomerization, which is in contrast with the preferentially trimeric organization of the isolated complexes in the dark. Monomerization is accompanied by a reversible release of Mg ions, most likely from the outer loop of the complexes. These data, as well as the built-in thermal and light instability of the trimeric organization, are explained in terms of a simple theoretical model of thermo-optic mechanism, effect of fast thermal transients (local T-jumps) due to dissipated photon energies in the vicinity of the cation binding sites, which lead to thermally assisted elementary structural transitions. Disruption of trimers to monomers by excess light is not confined to isolated trimers and lamellar aggregates of LHCII but occurs in photosystem II-enriched grana membranes, intact thylakoid membranes, and whole plants. As indicated by differences in the quenching capability of trimers and monomers, the appearance of monomers could facilitate the nonphotochemical quenching of the singlet excited state of chlorophyll a. The light-induced formation of monomers may also be important in regulated proteolytic degradation of the complexes. Structural changes driven by thermo-optic mechanisms may therefore provide plants with a novel mechanism for regulation of light harvesting in excess light.

Published

2002

26. Phosphatidylglycerol requirement for the function of electron acceptor plastoquinone Q(B) in the photosystem II reaction center.

Author

Gombos Z, Várkonyi Z, Hagio M, Iwaki M, Kovács L, Masamoto K, Itoh S, and Wada H

Subjects

Chlorophyll metabolism, Cyanobacteria metabolism, Electrons, Fluorescence, Oxygen metabolism, Photosynthetic Reaction Center Complex Proteins drug effects, Quinones pharmacology, Phosphatidylglycerols metabolism, Photosynthetic Reaction Center Complex Proteins metabolism, Plastoquinone metabolism

Abstract

Phosphatidylglycerol (PG), a ubiquitous constituent of thylakoid membranes of chloroplasts and cyanobacteria, is demonstrated to be essential for the functionality of plastoquinone electron acceptor Q(B) in the photosystem II reaction center of oxygenic photosynthesis. Growth of the pgsA mutant cells of Synechocystis sp. PCC6803 that are defective in phosphatidylglycerolphosphate synthase and are incapable of synthesizing PG, in a medium without PG, resulted in a 90% decrease in PG content and a 50% loss of photosynthetic oxygen-evolving activity as reported [Hagio, M., Gombos, Z., Várkonyi, Z., Masamoto, K., Sato, N., Tsuzuki, M., and Wada, H. (2000) Plant Physiol. 124, 795-804]. We have studied each step of the electron transport in photosystem II of the pgsA mutant to clarify the functional site of PG. Accumulation of Q(A)(-) was indicated by the fast rise of chlorophyll fluorescence yield under continuous and flash illumination. Oxidation of Q(A)(-) by Q(B) plastoquinone was shown to become slow, and Q(A)(-) reoxidation required a few seconds when measured by double flash fluorescence measurements. Thermoluminescence measurements further indicated the accumulation of the S(2)Q(A)(-) state but not of the S(2)Q(B)(-) state following the PG deprivation. These results suggest that the function of Q(B) plastoquinone was inactivated by the PG deprivation. We assume that PG is an indispensable component of the photosystem II reaction center complex to maintain the structural integrity of the Q(B)-binding site. These findings provide the first clear identification of a specific functional site of PG in the photosynthetic reaction center.

Published

2002

27. Low-temperature-induced accumulation of xanthophylls and its structural consequences in the photosynthetic membranes of the cyanobacterium Cylindrospermopsis raciborskii: an FTIR spectroscopic study.

Author

Várkonyi Z, Masamoto K, Debreczeny M, Zsiros O, Ughy B, Gombos Z, Domonkos I, Farkas T, Wada H, and Szalontai B

Subjects

Carotenoids chemistry, Cells, Cultured, Cyanobacteria chemistry, Fatty Acids analysis, Hot Temperature, Lipids chemistry, Spectroscopy, Fourier Transform Infrared, Temperature, Thylakoids chemistry, Xanthophylls chemistry, Cyanobacteria metabolism, Xanthophylls biosynthesis

Abstract

The effects of the growth temperature on the lipids and carotenoids of a filamentous cyanobacterium, Cylindrospermopsis raciborskii, were studied., The relative amounts of polyunsaturated glycerolipids and myxoxanthophylls in the thylakoid membranes increased markedly when this cyanobacterium was grown at 25 degrees C instead of 35 degrees C. Fourier transform infrared spectroscopy was used to analyze the low-temperature-induced structural alterations in the thylakoid membranes. Despite the higher amount of unsaturated lipids there, conventional analysis of the v(sym)CH(2) band (characteristic of the lipid disorder) revealed more tightly arranged fatty-acyl chains for the thylakoids in the cells grown at 25 degrees C as compared with those grown at 35 degrees C. This apparent controversy was resolved by a two-component analysis of the v(sym)CH(2) band, which demonstrated very rigid, myxoxanthophyll-related lipids in the thylakoid membranes. When this rigid component was excluded from the analysis of the thermotropic responses of the v(sym)CH(2) bands, the expected higher fatty-acyl disorder was observed for the thylakoids prepared from cells grown at 25 degrees C as compared with those grown at 35 degrees C. Both the carotenoid composition and this rigid component in the thylakoid membranes were only growth temperature-dependent; the intensity of the illuminating light during cultivation had no apparent effect on these parameters. We propose that, besides their well-known protective functions, the polar carotenoids in particular may have structural effects on the thylakoid membranes. These effects should be exerted locally--by forming protective patches, in-membrane barriers of low dynamics--to prevent the access of reactive radicals generated in either enzymatic or photosynthetic processes to sensitive spots of the membranes.

Published

2002

28. Induction of polyunsaturated fatty-acid synthesis enhances tolerance of a cyanobacterium, Cylindrospermopsis raciborskii, to low-temperature photoinhibition.

Author

Zsiros O, Várkonyi Z, Kovács A, Farkas T, Gombos Z, and Garab G

Subjects

Cyanobacteria metabolism, Cyanobacteria radiation effects, Adaptation, Physiological, Cold Temperature, Cyanobacteria physiology, Fatty Acids, Unsaturated biosynthesis, Light

Abstract

Acyl-lipid desaturation introduces double bonds (unsaturated bonds) at specifically defined positions of fatty acids that are esterified to the glycerol backbone of membrane glycerolipids. Desaturation pattern of the glycerolipids of Cylindrospermopsis raciborskii (C. raciborskii), a filamentous cyanobacterial strain, was determined in cells grown at 35 degrees C and 25 degrees C. The lowering of the growth temperature from 35 degrees C to 25 degrees C resulted in a considerable accumulation of polyunsaturated octadecanoic fatty acids in all lipid classes. Lipid unsaturation of C. raciborskii was also compared to Synechocystis PCC6803. In C. raciborskii cells, a shift in growth temperature induced a much more pronounced alteration in the desaturation pattern of all lipid classes than in Synechocystis PCC6803. The tolerance to low-temperature photoinhibition of the C. raciborskii cells grown at 25 degrees C and 35 degrees C was also compared to the tolerance of Synechocystis cells grown at the same temperatures. Lower growth temperature increased the tolerance of C. raciborskii cells but not that of Synechocystis cells. These results strengthen the importance of polyunsaturated glycerolipids in the tolerance to environmental stresses and may give a physiological explanation for the determinative role of C. raciborskii strain in algal blooming in the Lake Balaton (Hungary).

Published

2000

29. Absorption and fluorescence of fluram-labelled lysozyme and peroxidase solutions.

Author

Várkonyi Z, Bálint E, and Szalay L

Subjects

Binding Sites, Ovalbumin, Protein Binding, Spectrometry, Fluorescence, Spectrophotometry, Ultraviolet, Fluorescamine, Horseradish Peroxidase, Muramidase, Peroxidases, Spiro Compounds

Abstract

The absorption spectra of fluram, lysozyme, horse-radish peroxidase, and mixtures of lysozyme + fluram and peroxidase + fluram and the fluorescence and fluorescence excitation spectra of the mixtures in 0.05 M phosphate buffer with 1 per cent dioxane are determined. Due to formation of a protein-fluram compound, the absorption spectra of the mixtures are not algebraic sums of the components. From the fluorescence intensities the number of bonding sites is found 6 in both cases. The fluorescence spectrum of the peroxidase-fluram compound has maxima at 305, 350, 400, 450 nm due to peroxidase and at 480 nm originating from fluram. In mixtures of 10(-5) M lysozyme + 10(-4) M fluram, 3/4 of the excitation energy is transferred from lysozyme to fluram within the compound under 280 nm excitation. Under similar conditions 4/5 of the excitation energy is transferred from peroxidase to fluram.

Published

1979

30. Chromophore conformational analysis in phycocyanin and in related chromopeptides by surface enhanced Raman spectroscopy.

Author

Debreczeny M, Gombos Z, Csizmadia V, Várkonyi Z, and Szalontai B

Subjects

Peptide Fragments, Protein Conformation, Spectrophotometry, Spectrum Analysis, Raman methods, Phycocyanin isolation & purification, Pigments, Biological isolation & purification

Abstract

Chromopeptides got from phycocyanin by proteolytic digestion do not preserve the extended chromophore conformations characteristic to the native protein. Chromophore conformations in the chromopeptides showed heterogenity varying between completely folded and semi-extended states. Indications were found that the silver sol-phycocyanin interaction involves the UV electronic transition of the biliprotein which may explain why the visible excited surface enhanced Raman spectra were similar not to the visible excited but to the UV-excited resonance Raman spectrum of phycocyanin.

Published

1989

31. Spectral properties of protein solutions labelled with fluorescent dyes.

Author

Várkonyi Z and Kovács K

Subjects

Chromatography, Gel, Fluoresceins, Methylamines, Naphthalenes, Protein Binding, Spectrophotometry, Sulfonic Acids, Thiocyanates, Fluorescent Dyes, Peroxidases, Plants enzymology

Published

1972

32. The complexity of the fluorescence of peroxidase.

Author

Várkonyi Z and Szalay L

Subjects

Freeze Drying, Histidine analysis, Plants enzymology, Protein Conformation, Spectrometry, Fluorescence, Spectrophotometry, Spectrophotometry, Ultraviolet, Tryptophan analysis, Tyrosine analysis, Peroxidases

Published

1974