@article{MTMT:31629465,
	title = {Acclimation of photosynthetic processes and metabolic responses to elevated temperatures in cereals},
	url = {https://m2.mtmt.hu/api/publication/31629465},
	author = {Janda, Tibor and Tajti, Judit and Hamow, Kamirán Áron and Marček, Tihana and Ivanovska, Beti and Szalai, Gabriella and Pál, Magda and Zalewska, Ewa D. and Darkó, Éva},
	doi = {10.1111/ppl.13207},
	journal-iso = {PHYSIOL PLANTARUM},
	journal = {PHYSIOLOGIA PLANTARUM},
	volume = {171},
	unique-id = {31629465},
	issn = {0031-9317},
	year = {2021},
	eissn = {1399-3054},
	pages = {217-231},
	orcid-numbers = {Janda, Tibor/0000-0002-8249-6585; Hamow, Kamirán Áron/0000-0002-7089-1078; Pál, Magda/0000-0003-3468-962X}
}

@article{MTMT:31471519,
	title = {Ethylene: A Master Regulator of Salinity Stress Tolerance in Plants},
	url = {https://m2.mtmt.hu/api/publication/31471519},
	author = {Riyazuddin, Riyazuddin and Verma, Radhika and Singh, Kalpita and Nisha, Nisha and Keisham, Monika and Bhati, Kaushal Kumar and Kim, Sun Tae and Gupta, Ravi},
	doi = {10.3390/biom10060959},
	journal-iso = {BIOMOLECULES},
	journal = {BIOMOLECULES},
	volume = {10},
	unique-id = {31471519},
	issn = {2218-273X},
	abstract = {Salinity stress is one of the major threats to agricultural productivity across the globe. Research in the past three decades, therefore, has focused on analyzing the effects of salinity stress on the plants. Evidence gathered over the years supports the role of ethylene as a key regulator of salinity stress tolerance in plants. This gaseous plant hormone regulates many vital cellular processes starting from seed germination to photosynthesis for maintaining the plants' growth and yield under salinity stress. Ethylene modulates salinity stress responses largely via maintaining the homeostasis of Na+/K+, nutrients, and reactive oxygen species (ROS) by inducing antioxidant defense in addition to elevating the assimilation of nitrates and sulfates. Moreover, a cross-talk of ethylene signaling with other phytohormones has also been observed, which collectively regulate the salinity stress responses in plants. The present review provides a comprehensive update on the prospects of ethylene signaling and its cross-talk with other phytohormones to regulate salinity stress tolerance in plants.},
	keywords = {antioxidants; PHOTOSYNTHESIS; ETHYLENE; Programmed cell death; SALINITY STRESS; ROS; Seed germination; Hormone cross-talk},
	year = {2020},
	eissn = {2218-273X},
	orcid-numbers = {Bhati, Kaushal Kumar/0000-0002-2322-0431}
}

@article{MTMT:30515660,
	title = {Exogenous 1-Aminocyclopropane-1-carboxylic acid Controls Photosynthetic Activity, Accumulation of Reactive Oxygen or Nitrogen Species and Macroelement Content in Tomato in Long-term Experiments},
	url = {https://m2.mtmt.hu/api/publication/30515660},
	author = {Borbély, Péter Gábor and Bajkán, Szilvia and Poór, Péter and Görgényi Miklósné Tari, Irma},
	doi = {10.1007/s00344-019-09917-w},
	journal-iso = {J PLANT GROWTH REGUL},
	journal = {JOURNAL OF PLANT GROWTH REGULATION},
	volume = {38},
	unique-id = {30515660},
	issn = {0721-7595},
	year = {2019},
	eissn = {1435-8107},
	pages = {1110-1126},
	orcid-numbers = {Poór, Péter/0000-0002-4539-6358; Görgényi Miklósné Tari, Irma/0000-0003-0219-9116}
}

@article{MTMT:30710168,
	title = {Gasotransmitters in Action: Nitric Oxide-Ethylene Crosstalk during Plant Growth and Abiotic Stress Responses},
	url = {https://m2.mtmt.hu/api/publication/30710168},
	author = {Kolbert, Zsuzsanna and Feigl, Gábor and Freschi, Luciano and Poór, Péter},
	doi = {10.3390/antiox8060167},
	journal-iso = {ANTIOXIDANTS-BASEL},
	journal = {ANTIOXIDANTS},
	volume = {8},
	unique-id = {30710168},
	year = {2019},
	eissn = {2076-3921},
	orcid-numbers = {Kolbert, Zsuzsanna/0000-0002-7819-4672; Feigl, Gábor/0000-0001-6524-9147; Poór, Péter/0000-0002-4539-6358}
}

@article{MTMT:3343408,
	title = {H2O2 homeostasis in wild-type and ethylene-insensitive Never ripe tomato in response to salicylic acid treatment in normal photoperiod and in prolonged darkness},
	url = {https://m2.mtmt.hu/api/publication/3343408},
	author = {Takács, Zoltán and Poór, Péter and Borbély, Péter Gábor and Czékus, Zalán and Szalai, Gabriella and Görgényi Miklósné Tari, Irma},
	doi = {10.1016/j.plaphy.2018.02.026},
	journal-iso = {PLANT PHYSIOL BIOCH (PPB)},
	journal = {PLANT PHYSIOLOGY AND BIOCHEMISTRY},
	volume = {126},
	unique-id = {3343408},
	issn = {0981-9428},
	year = {2018},
	eissn = {1873-2690},
	pages = {74-85},
	orcid-numbers = {Poór, Péter/0000-0002-4539-6358; Görgényi Miklósné Tari, Irma/0000-0003-0219-9116}
}

@article{MTMT:2448579,
	title = {Redox control of plant growth and development},
	url = {https://m2.mtmt.hu/api/publication/2448579},
	author = {Kocsy, Gábor and Görgényi Miklósné Tari, Irma and Vanková, R and Zechmann, B and Gulyás, Zsolt and Poór, Péter and Galiba, Gábor},
	doi = {10.1016/j.plantsci.2013.07.004},
	journal-iso = {PLANT SCI},
	journal = {PLANT SCIENCE},
	volume = {211},
	unique-id = {2448579},
	issn = {0168-9452},
	abstract = {Redox changes determined by genetic and environmental factors display well-organized interactions in the control of plant growth and development. Diurnal and seasonal changes in the environmental conditions are important for the normal course of these physiological processes and, similarly to their mild irregular alterations, for stress adaptation. However, fast or large-scale environmental changes may lead to damage or death of sensitive plants. The spatial and temporal redox changes influence growth and development due to the reprogramming of metabolism. In this process reactive oxygen and nitrogen species and antioxidants are involved as components of signalling networks. The control of growth, development and flowering by reactive oxygen and nitrogen species and antioxidants in interaction with hormones at organ, tissue, cellular and subcellular level will be discussed in the present review. Unsolved problems of the field, among others the need for identification of new components and interactions in the redox regulatory network at various organization levels using systems biology approaches will be also indicated. © 2013 Elsevier Ireland Ltd.},
	keywords = {antioxidants; Flowering; HORMONES; Reactive oxygen species; Reactive nitrogen species; Compartment-specific redox control},
	year = {2013},
	eissn = {1873-2259},
	pages = {77-91},
	orcid-numbers = {Görgényi Miklósné Tari, Irma/0000-0003-0219-9116; Poór, Péter/0000-0002-4539-6358}
}

@article{MTMT:1547,
	title = {Membrane Physical State Controls the Signaling Mechanism of the Heat Shock Response in Synechocystis PCC 6803: Identification of hsp17 as a "fluidity gene"},
	url = {https://m2.mtmt.hu/api/publication/1547},
	author = {Horváth, Ibolya and Glatz, Attila and Varvasovszki, Viktória and Török, Zsolt and Páli, Tibor and Balogh, Gábor and Kovács, Eszter and Nádasdi, Levente and Benkő, Sándor and Joó, Ferenc and Vigh, László},
	doi = {10.1073/pnas.95.7.3513},
	journal-iso = {P NATL ACAD SCI USA},
	journal = {PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA},
	volume = {95},
	unique-id = {1547},
	issn = {0027-8424},
	year = {1998},
	eissn = {1091-6490},
	pages = {3513-3518},
	orcid-numbers = {Páli, Tibor/0000-0003-1649-1097; Benkő, Sándor/0000-0002-9379-8503}
}