Recent evidence sheds light on the peculiar type of plant intelligence. Plants have developed complex molecular networks that allow them to remember, choose, and make decisions depending on the stress stimulus, although they lack a nervous system. Being sessile, plants can exploit these networks to optimize their resources cost-effectively and maximize their fitness in response to multiple environmental stresses. Even more interesting is the capability to transmit this experience to the next generation(s) through epigenetic modifications that add to the classical genetic inheritance. In this opinion article, we present concepts and perspectives regarding the capabilities of plants to sense, perceive, remember, re-elaborate, respond, and to some extent transmit to their progeny information to adapt more efficiently to climate change.
Deep inside the epigenetic memories of stressed plants / Philippe Gallusci; Dolores R Agius; Panagiotis N Moschou; Judit Dobranszki; Eirini Kaiserli; Federico Martinelli. - In: TRENDS IN PLANT SCIENCE. - ISSN 1360-1385. - ELETTRONICO. - 28:(2022), pp. 142-153. [10.1016/j.tplants.2022.09.004]
Deep inside the epigenetic memories of stressed plants.
Philippe Gallusci;Judit Dobranszki;Eirini Kaiserli;Federico Martinelli
2022
Abstract
Recent evidence sheds light on the peculiar type of plant intelligence. Plants have developed complex molecular networks that allow them to remember, choose, and make decisions depending on the stress stimulus, although they lack a nervous system. Being sessile, plants can exploit these networks to optimize their resources cost-effectively and maximize their fitness in response to multiple environmental stresses. Even more interesting is the capability to transmit this experience to the next generation(s) through epigenetic modifications that add to the classical genetic inheritance. In this opinion article, we present concepts and perspectives regarding the capabilities of plants to sense, perceive, remember, re-elaborate, respond, and to some extent transmit to their progeny information to adapt more efficiently to climate change.
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