芸薹属植物自花和异花授粉的延时成像。

Time-lapse imaging of self- and cross-pollinations in Brassica rapa.

机构信息

Graduate School of Life Sciences, Tohoku University, 2-1-1, Katahira, Aoba-ku, Sendai 980-8577, Japan.

出版信息

Ann Bot. 2013 Jul;112(1):115-22. doi: 10.1093/aob/mct102. Epub 2013 May 3.

DOI:10.1093/aob/mct102

PMID:23644359

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3690991/

Abstract

BACKGROUND AND AIMS

Pollination is an important process in the life cycle of plants and is the first step in bringing together the male and female gametophytes for plant reproduction. While pollination has been studied for many years, accurate knowledge of the morphological aspects of this process is still far from complete. This study therefore focuses on a morphological characterization of pollination, using time-series image analysis of self- and cross-pollinations in Brassica rapa.

METHODS

Time-lapse imaging of pollen behaviour during self- and cross-pollinations was recorded for 90 min, at 1 min intervals, using a stereoscopic microscope. Using time-series digital images of pollination, characteristic features of pollen behaviours during self- and cross-pollinations were studied.

KEY RESULTS

Pollen exhibited various behaviours in both self- and cross-pollinations, and these were classified into six representative patterns: germination, expansion, contraction, sudden contraction, pulsation and no change. It is noteworthy that in 'contraction' pollen grains shrunk within a short period of 30-50 min, and in 'pulsation' repeated expansion and contraction occurred with an interval of 10 min, suggesting that a dehydration system is operating in pollination. All of the six patterns were observed on an individual stigma with both self- and cross-pollinations, and the difference between self- and cross-pollinations was in the ratios of the different behaviours. With regard to water transport to and from pollen grains, this occurred in multiple steps, before, during and after hydration. Thus, pollination is regulated by a combination of multiple components of hydration, rehydration and dehydration systems.

CONCLUSIONS

Regulated hydration of pollen is a key process for both pollination and self-incompatibility, and this is achieved by a balanced complex of hydration, dehydration and nutrient supply to pollen grains from stigmatic papilla cells.

摘要

背景与目的

授粉是植物生命周期中的一个重要过程，是将雄配子体和雌配子体结合以进行植物繁殖的第一步。虽然授粉已经研究了多年，但对这一过程的形态学方面的准确认识还远远不够。因此，本研究专注于使用拟南芥自交和异交的时间序列图像分析对授粉进行形态学描述。

方法

使用立体显微镜以 1 分钟的间隔记录自交和异交过程中花粉行为的延时成像，持续 90 分钟。使用授粉的时间序列数字图像，研究自交和异交过程中花粉行为的特征。

主要结果

花粉在自交和异交中表现出各种行为，这些行为被分为六种有代表性的模式：萌发、膨胀、收缩、突然收缩、脉动和不变。值得注意的是，在“收缩”中花粉粒在 30-50 分钟的短时间内缩小，而在“脉动”中反复的膨胀和收缩间隔 10 分钟发生，表明授粉过程中存在脱水系统。在自交和异交中，所有六种模式都在单个柱头上观察到，自交和异交之间的区别在于不同行为的比例。关于花粉向和从柱头的水分运输，这发生在水合之前、期间和之后的多个步骤中。因此，授粉是由水合、再水合和脱水系统的多个组成部分的组合来调节的。

结论

花粉的受控水合是授粉和自交不亲和的关键过程，这是通过来自柱头乳突细胞的水合、脱水和营养供应的平衡复杂组合来实现的。

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Pollination in species with dry stigmas: the nature of the early stigmatic response and the pathway taken by pollen tubes.具干柱头物种的授粉：早期柱头反应的本质及花粉管的生长途径。

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