小孢子发生过程中的高温会致命地缩短花粉的寿命。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
ACS Applied Bio Materials Pub Date : 2022-03-01 Epub Date: 2021-07-07 DOI:10.1007/s00497-021-00425-0
Maurizio Iovane, Giovanna Aronne
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引用次数: 10

摘要

许多作物品种的种植是为了产生种子和/或果实,因此需要繁殖成功。以往的研究表明,在花药开裂时对成熟花粉进行高温处理会降低花粉的生存力和发芽能力,从而降低作物产量。我们假设高温可能会影响花粉的功能,即使热处理只在小孢子形成过程中进行。番茄茄‘Micro-Tom’的实验数据证实了我们的假设。在高温(30°C)和最佳温度(22°C)下均能成功发生小孢子。开花后,花粉在最适温度下发育的活力和发芽率逐渐下降,在30℃孵育时下降幅度略大。反之,高温花粉的温度效应明显增强。在这种情况下,花粉不仅在30°C孵育,而且在22°C孵育时,活力急剧下降,萌发能力降至零。进一步的个体发生分析表明,高温显著加速了小孢子的发生和小配子体的早期发生(从液泡化阶段到双细胞花粉阶段);因此,配子体在花期就已经衰老。我们的工作有助于揭示热胁迫对花粉的影响,揭示了小孢子发生过程中的高温条件导致雄性配子体寿命的致命缩短。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

High temperatures during microsporogenesis fatally shorten pollen lifespan.

High temperatures during microsporogenesis fatally shorten pollen lifespan.

High temperatures during microsporogenesis fatally shorten pollen lifespan.

High temperatures during microsporogenesis fatally shorten pollen lifespan.

Many crop species are cultivated to produce seeds and/or fruits and therefore need reproductive success to occur. Previous studies proved that high temperature on mature pollen at anther dehiscence reduce viability and germinability therefore decreasing crop productivity. We hypothesized that high temperature might affect pollen functionality even if the heat treatment is exerted only during the microsporogenesis. Experimental data on Solanum lycopersicum 'Micro-Tom' confirmed our hypothesis. Microsporogenesis successfully occurred at both high (30 °C) and optimal (22 °C) temperature. After the anthesis, viability and germinability of the pollen developed at optimal temperature gradually decreased and the reduction was slightly higher when pollen was incubated at 30 °C. Conversely, temperature effect was eagerly enhanced in pollen developed at high temperature. In this case, a drastic reduction of viability and a drop-off to zero of germinability occurred not only when pollen was incubated at 30 °C but also at 22 °C. Further ontogenetic analyses disclosed that high temperature significantly speeded-up the microsporogenesis and the early microgametogenesis (from vacuolated stage to bi-cellular pollen); therefore, gametophytes result already senescent at flower anthesis. Our work contributes to unravel the effects of heat stress on pollen revealing that high temperature conditions during microsporogenesis prime a fatal shortening of the male gametophyte lifespan.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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