松果菊属植物中花粉管的快速生长。
Fast pollen tube growth in Conospermum species.
作者信息
Stone L M, Seaton K A, Kuo J, McComb J A
机构信息
Biological Sciences, Murdoch University, Murdoch, WA 6150, Australia.
出版信息
Ann Bot. 2004 Apr;93(4):369-78. doi: 10.1093/aob/mch050. Epub 2004 Feb 23.
BACKGROUND AND AIMS
An unusual form of pollen tube growth was observed for several Conospermum species (family Proteaceae). The rate of pollen tube growth, the number of tubes to emerge and the ultrastructure of these tubes are given here.
METHODS
Pollen was germinated in vitro in different sucrose concentrations and in the presence of calcium channel blockers, and tube emergence and growth were recorded on a VCR. Measurements were taken of the number of tubes to emerge and rate of tube emergence. Pollen behaviour in vivo was also observed. The ultrastructure of germinated and ungerminated pollen was observed using TEM.
RESULTS
After 10 s to 3 min in germination medium, up to three pollen tubes emerged and grew at rates of up to 55 micro m s(-1); the rate then slowed to around 2 micro m s(-1), 30 s after the initial growth spurt. Tubes were observed to grow in pulses, and the pulsed growth continued in the presence of calcium channel blockers. Optimal sugar concentration for pollen germination was 300 g L(-1), in which up to 81 % of pollen grains showed fast germination. Germination and emergence of multiple tubes were observed in sucrose concentrations of 100-800 g L(-1). The vegetative and generative nuclei moved into one of the tubes. Multiple tubes from a single grain were observed on the stigma. Under light microscopy, the cytoplasm in the tube showed a clear region at the tip. The ultrastructure of C. amoenum pollen showed a bilayered exine, with the intine being very thick at the pores, and elsewhere having large intrusions into the plasma membrane. The cytoplasm was dense with vesicles packed with inner tube cell wall material. Golgi apparatus producing secretory vesicles, and mitochondria were found throughout the tube. The tube wall was bilayered; both layers being fibrous and loosely packed.
CONCLUSIONS
It is proposed that, for Conospermum, initial pollen tube wall constituents are manufactured and stored prior to pollen germination, and that tube extension occurs as described in the literature for other species, but at an exceptionally fast rate.
背景与目的
在几种锥花属植物(山龙眼科)中观察到一种不寻常的花粉管生长形式。本文给出了花粉管的生长速率、伸出的花粉管数量以及这些花粉管的超微结构。
方法
花粉在不同蔗糖浓度下以及在钙通道阻滞剂存在的情况下进行体外萌发,花粉管的伸出和生长过程用录像机记录。测量伸出的花粉管数量和花粉管伸出速率。还观察了花粉在体内的行为。使用透射电子显微镜观察已萌发和未萌发花粉的超微结构。
结果
在萌发培养基中培养10秒至3分钟后,最多有三根花粉管伸出并以高达55微米/秒的速率生长;在最初的快速生长爆发30秒后,生长速率随后减慢至约2微米/秒。观察到花粉管呈脉冲式生长,并且在钙通道阻滞剂存在的情况下脉冲式生长仍会持续。花粉萌发的最佳糖浓度为300克/升,其中高达81%的花粉粒表现出快速萌发。在100 - 800克/升的蔗糖浓度下观察到多根花粉管的萌发和伸出。营养核和生殖核移入其中一根花粉管。在柱头上观察到来自单个花粉粒的多根花粉管。在光学显微镜下,花粉管内的细胞质在顶端呈现出一个清晰的区域。锥花花粉的超微结构显示出双层外壁,内壁在孔处非常厚,在其他部位向内侵入质膜形成大的突起。细胞质中充满了含有内花粉管细胞壁物质的小泡。在整个花粉管中都发现了产生分泌小泡的高尔基体和线粒体。花粉管壁为双层;两层均为纤维状且排列疏松。
结论
有人提出,对于锥花属植物来说,花粉管壁的初始成分在花粉萌发之前就已制造和储存,并且花粉管的延伸如文献中描述的其他物种那样发生,但速度异常快。
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