异源四倍体蕨类植物科氏鳞毛蕨及其两个二倍体亲本配子体之间的生殖和竞争相互作用。
Reproductive and competitive interactions among gametophytes of the allotetraploid fern Dryopteris corleyi and its two diploid parents.
作者信息
Jiménez Ares, Quintanilla Luis G, Pajarón Santiago, Pangua Emilia
机构信息
Departamento de Biología y Geología, ESCET, Universidad Rey Juan Carlos, 28933 Móstoles, Spain.
出版信息
Ann Bot. 2008 Sep;102(3):353-9. doi: 10.1093/aob/mcn099. Epub 2008 Jun 21.
BACKGROUND AND AIMS
Several models predict that the establishment of polyploids within diploid populations is enhanced by non-random mating (i.e. selfing and assortative mating) of cytotypes and by a higher relative fitness of polyploids. This report assesses the role that antheridiogens (i.e. maleness-inducing pheromones) and intercytotype differences in growth rate have on polyploid performance.
METHODS
Three buckler-fern species were studied: the allotetraploid Dryopteris corleyi and its diploid parents, D. aemula and D. oreades. In one experiment, gametophytes of these species were cultured under rich growth conditions to compare the timing of gametangia production. The substrata on which these gametophytes had grown were used as antheridiogen sources in a second experiment. The three species were combined as source and target of antheridiogen (i.e. nine species pairs). Timing of antheridia production and gametophyte size were determined after those antheridiogen treatments.
KEY RESULTS
Under rich growth conditions the allotetraploid produced archegonia earlier than those of diploid parents. Female gametophytes of the three species produced antheridiogens that inhibited growth and favoured maleness both within and among species. Gametophyte size was similar in the three species but antheridia formed earlier in the allotetraploid.
CONCLUSIONS
Unisexuality, promoted by non-specific antheridiogens, enhances random mating both within and among species. The resulting hybridization can favour the reproductive exclusion of the allopolyploid in sites where it is outnumbered by diploids. However, the earlier production of gametangia in the allotetraploid favours assortative mating and may thus counterbalance reproductive exclusion.
背景与目的
若干模型预测,在二倍体种群中,多倍体的形成会因细胞型的非随机交配(即自交和选型交配)以及多倍体相对较高的适合度而得到促进。本报告评估了雄配子素(即诱导雄性的信息素)和细胞型间生长速率差异对多倍体表现的作用。
方法
研究了三种盾蕨属植物:异源四倍体科氏鳞毛蕨及其二倍体亲本,即埃氏鳞毛蕨和山栖鳞毛蕨。在一项实验中,将这些物种的配子体在丰富的生长条件下培养,以比较配子囊产生的时间。在第二项实验中,将这些配子体生长的基质用作雄配子素来源。这三个物种被组合为雄配子素的来源和靶标(即九个物种对)。在那些雄配子素处理后,测定雄器产生的时间和配子体大小。
主要结果
在丰富的生长条件下,异源四倍体产生颈卵器的时间早于其二倍体亲本。这三个物种的雌配子体产生的雄配子素抑制生长,并且在种内和种间都有利于雄性化。这三个物种的配子体大小相似,但异源四倍体中雄器形成得更早。
结论
由非特异性雄配子素促进的单性现象增强了种内和种间的随机交配。由此产生的杂交可能有利于在其二倍体数量超过异源多倍体的位点对异源多倍体进行生殖排斥。然而,异源四倍体中配子囊产生较早有利于选型交配,因此可能抵消生殖排斥。
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