植物与真菌共生的曙光。
The dawn of symbiosis between plants and fungi.
机构信息
Department of Biology, Imperial College London, London SW7 2AZ, UK.
出版信息
Biol Lett. 2011 Aug 23;7(4):574-7. doi: 10.1098/rsbl.2010.1203. Epub 2011 Mar 9.
Abstract
The colonization of land by plants relied on fundamental biological innovations, among which was symbiosis with fungi to enhance nutrient uptake. Here we present evidence that several species representing the earliest groups of land plants are symbiotic with fungi of the Mucoromycotina. This finding brings up the possibility that terrestrialization was facilitated by these fungi rather than, as conventionally proposed, by members of the Glomeromycota. Since the 1970s it has been assumed, largely from the observation that vascular plant fossils of the early Devonian (400 Ma) show arbuscule-like structures, that fungi of the Glomeromycota were the earliest to form mycorrhizas, and evolutionary trees have, until now, placed Glomeromycota as the oldest known lineage of endomycorrhizal fungi. Our observation that Endogone-like fungi are widely associated with the earliest branching land plants, and give way to glomeromycotan fungi in later lineages, raises the new hypothesis that members of the Mucoromycotina rather than the Glomeromycota enabled the establishment and growth of early land colonists.
摘要
植物的陆地定殖依赖于基本的生物学创新,其中包括与真菌共生以增强养分吸收。在这里,我们提供的证据表明,代表最早陆地植物群的几个物种与毛霉真菌共生。这一发现提出了这样一种可能性,即陆地化是由这些真菌促成的,而不是像传统上提出的那样,是由球囊霉门成员促成的。自 20 世纪 70 年代以来,人们一直认为,主要是从观察到早泥盆世(4.00 亿年前)的维管植物化石显示出丛枝状结构这一事实来看,球囊霉门真菌是最早形成菌根的真菌,进化树也一直将球囊霉门真菌放在已知的内生菌根真菌的最古老谱系中。我们观察到与最早分支的陆地植物广泛相关的类似内囊霉的真菌让位于后来谱系中的球囊霉门真菌,这提出了一个新的假说,即毛霉真菌门成员而不是球囊霉门真菌使早期陆地殖民者得以建立和生长。
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