Effect of pre-sowing priming of seeds with exogenous abscisic acid on endogenous hormonal balance of spelt wheat under heat stress

IF 0.8 4区农林科学 Q3 AGRICULTURE, MULTIDISCIPLINARY

Zemdirbyste-agriculture Pub Date : 2022-03-20 DOI:10.13080/z-a.2022.109.003

Iryna V. Kosakivska, Lesya V. Voytenko, Valentyna A. Vasyuk, Mykola M. Shcherbatiuk

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引用次数: 6

Abstract

Pre-sowing priming of seeds with exogenous phytohormones affects plant growth, development and resistance. However, it remains unclear, whether the effect of exogenous hormones on growth is direct, or whether it is associated with changes in the level and distribution of endogenous hormones. The dynamics and distribution of endogenous abscisic (ABA), indole-3-acetic (IAA), gibberellic (GA3) and salicylic (SA) acids in spelt wheat (Triticum spelta L., ‘Frankenkorn’) plants grown from seeds primed with ABA (10-6 M) were analysed. Fourteenday-old, water-germinated and ABA-primed plants that had been exposed to a heat stress (2 h at +40°C) and 21-day-old plants after recovery were studied. Endogenous ABA, IAA, GA3 and SA were found to dominate in shoots of 14-day-old plants. On the 21st day, the pattern of distribution of all phytohormones, except GA3, remained unchanged. However, most of the endogenous GA3 was transferred to the roots. Pre-sowing priming of seeds with exogenous ABA induced changes in the balance of endogenous hormones. In shoots and roots of 14-day-old water-germinated, heat-stressed plants, accumulation of endogenous ABA and SA was enhanced, and the content endogenous of IAA and GA3 decreased. In the recovery period, the amount of SA in 21-day-old plants increased, and the ABA content was reduced; endogenous GA3 and IAA accumulated in the roots. In 14-day-old, exogenous ABA-primed plants, after heat stress maximal concentrations of endogenous ABA were recorded in shoots (46.8 ± 2.3 ng g-1 FW) and roots (32.3 ± 1.6 ng g-1 FW). In roots of 14-day-old exogenous ABA-primed, unstressed plants, the content of endogenous IAA reached a maximum (53.9 ± 2.7 ng g-1 FW). The maximum concentration (39.7 ± 2.0 ng g-1 FW) of endogenous GA3 was recorded on the 21 st day after recovery in roots of exogenous ABA-primed plants. The SA content in shoots and roots of exogenous ABA-primed, heat-stressed plants increased by 31% and 44.7%, respectively, while in non-primed ones – by 15.9% and 12.8%. In summary, the pre-sowing priming of spelt wheat seeds with exogenous ABA induced differentiated prolonged changes in the dynamics and distribution of endogenous ABA, IAA, GA3 and SA in shoots and roots of 14and 21-day-old water-germinated plants (controls) and high temperature (heat stress) conditions. This suggests that the response to heat stress is associated with changes in the level and distribution of endogenous hormones in young spelt wheat plants caused by pre-sowing priming of seeds with exogenous ABA.

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播前外源脱落酸对热胁迫下小麦内源激素平衡的影响

播种前外源激素对植物的生长发育和抗性有影响。然而，外源激素对生长的影响是直接的，还是与内源激素水平和分布的变化有关，目前尚不清楚。分析了外源ABA、吲哚-3-乙酸(IAA)、赤霉素(GA3)和水杨酸(SA)在小麦(Triticum spelta L.， ' Frankenkorn ')中生长的动态和分布。研究了14日龄、水萌发和aba诱导的植物，这些植物暴露于高温胁迫(+40°C下2小时)和恢复后21日龄的植物。内源ABA、IAA、GA3和SA在14日龄植株的芽中占主导地位。在第21天，除GA3外，其余植物激素的分布格局保持不变。然而，大部分内源GA3被转移到根部。播前注入外源ABA诱导种子内源激素平衡的变化。在14 d龄水萌发、热胁迫植株的茎和根中，内源ABA和SA积累增加，内源IAA和GA3含量降低。在恢复期，21日龄植株中SA含量增加，ABA含量降低;内源GA3和IAA在根系积累。在14日龄外源ABA诱导的植株中，热胁迫后外源ABA在茎部(46.8±2.3 ng g-1 FW)和根部(32.3±1.6 ng g-1 FW)的浓度最高。在外源aba诱导的14日龄非胁迫植株根系中，内源IAA含量最高(53.9±2.7 ng g-1 FW)。外源aba诱导植株恢复后第21天，其根内GA3的最高浓度为(39.7±2.0 ng g-1 FW)。经外源aba处理的热胁迫植株的茎部和根部SA含量分别增加了31%和44.7%，未处理的植株分别增加了15.9%和12.8%。综上所述，外源ABA在小麦种子播前引发了14和21日龄水萌发植株(对照)和高温(热胁迫)条件下茎部和根部内源ABA、IAA、GA3和SA的动态和分布变化。这表明，小麦幼苗对热胁迫的响应与播种前外源ABA引发的内源激素水平和分布的变化有关。

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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来源期刊

Zemdirbyste-agriculture AGRICULTURE, MULTIDISCIPLINARY-

CiteScore

1.80

自引率

11.10%

发文量

审稿时长

>12 weeks

期刊介绍： Zemdirbyste-Agriculture is a quarterly scientific journal which covers a wide range of topics in the field of agricultural sciences, agronomy. It publishes articles of original research findings in the English language in the field of agronomy (soil and crop management, crop production, plant protection, plant breeding and genetics, biotechnology, plant nutrition, agrochemistry, soil science, microbiology etc.) and related areas. Articles are peer-reviewed. Review, debating papers as well as those of a methodological nature will also be considered.