Deciphering the Mechanism of Melatonin-Induced Enhancement of Photosystem II Function in Moderate Drought-Stressed Oregano Plants

Plants Pub Date : 2024-09-16 DOI:10.3390/plants13182590

Julietta Moustaka, Ilektra Sperdouli, Sumrunaz İşgören, Begüm Şaş, Michael Moustakas

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Abstract

Melatonin (MT) is considered as an antistress molecule that plays a constructive role in the acclimation of plants to both biotic and abiotic stress conditions. In the present study, we assessed the impact of 10 and 100 μM MT foliar spray, on chlorophyll content, and photosystem II (PSII) function, under moderate drought stress, on oregano (Origanum vulgare L.) plants. Our aim was to elucidate the molecular mechanism of MT action on the photosynthetic electron transport process. Foliar spray with 100 μM MT was more effective in mitigating the negative impact of moderate drought stress on PSII function, compared to 10 μM MT. MT foliar spray significantly improved the reduced efficiency of the oxygen-evolving complex (OEC), and PSII photoinhibition (Fv/Fm), which were caused by drought stress. Under moderate drought stress, foliar spray with 100 μM MT, compared with the water sprayed (WA) leaves, increased the non-photochemical quenching (NPQ) by 31%, at the growth irradiance (GI, 205 μmol photons m−2 s−1), and by 13% at a high irradiance (HI, 1000 μmol photons m−2 s−1). However, the lower NPQ increase at HI was demonstrated to be more effective in decreasing the singlet-excited oxygen (1O2) production at HI (−38%), in drought-stressed oregano plants sprayed with 100 μM MT, than the corresponding decrease in 1O2 production at the GI (−20%), both compared with the respective WA-sprayed leaves under moderate drought. The reduced 1O2 production resulted in a significant increase in the quantum yield of PSII photochemistry (ΦPSII), and the electron transport rate (ETR), in moderate drought-stressed plants sprayed with 100 μM MT, compared with WA-sprayed plants, but only at the HI (+27%). Our results suggest that the enhancement of PSII functionality, with 100 μM MT under moderate drought stress, was initiated by the NPQ mechanism, which decreased the 1O2 production and increased the fraction of open PSII reaction centers (qp), resulting in an increased ETR.

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破解褪黑激素诱导中度干旱胁迫牛至植物光系统 II 功能增强的机制

褪黑激素（MT）被认为是一种抗胁迫分子，在植物适应生物和非生物胁迫条件方面发挥着建设性作用。在本研究中，我们评估了在中度干旱胁迫下，牛至（Origanum vulgare L.）植物叶面喷洒 10 和 100 μM MT 对叶绿素含量和光系统 II（PSII）功能的影响。我们的目的是阐明 MT 对光合电子传递过程的分子机制。与 10 μM MT 相比，叶面喷施 100 μM MT 能更有效地减轻中度干旱胁迫对 PSII 功能的负面影响。叶面喷施MT能明显改善干旱胁迫导致的氧气分解复合物（OEC）效率降低和PSII光抑制（Fv/Fm）。在中度干旱胁迫下，叶面喷洒 100 μM MT 与喷水（WA）叶片相比，在生长辐照度（GI，205 μmol photons m-2 s-1）下，非光化学淬灭（NPQ）提高了 31%，在高辐照度（HI，1000 μmol photons m-2 s-1）下，提高了 13%。然而，与中度干旱下喷洒 WA 的叶片相比，喷洒 100 μM MT 的干旱胁迫牛至植株在 HI 下的单激发氧（1O2）产生量减少（-38%）比在 GI 下的 1O2 产生量相应减少（-20%）更有效。与喷洒 WA 的植株相比，喷洒 100 μM MT 的中度干旱胁迫植株的 1O2 产量降低，导致 PSII 光化学量子产率（ΦPSII）和电子传输速率（ETR）显著增加，但仅在 HI 处（+27%）。我们的结果表明，在中度干旱胁迫下使用 100 μM MT 增强 PSII 功能是由 NPQ 机制启动的，该机制减少了 1O2 的产生，增加了开放的 PSII 反应中心（qp）的比例，从而提高了 ETR。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Plants

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