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世界性三伙伴共生地衣 Ramalina farinacea 的遗传结构证明了共生体的协同多样化。

The genetic structure of the cosmopolitan three-partner lichen Ramalina farinacea evidences the concerted diversification of symbionts.

机构信息

Department of Plant Biology, University of Alcalá, Madrid, Spain.

出版信息

FEMS Microbiol Ecol. 2013 Feb;83(2):310-23. doi: 10.1111/j.1574-6941.2012.01474.x. Epub 2012 Sep 12.

DOI:10.1111/j.1574-6941.2012.01474.x
PMID:22906221
Abstract

The epiphytic lichen Ramalina farinacea is distributed throughout the northern hemisphere in which the same two algal Trebouxia species (provisionally named TR1 and TR9) coexist in every thallus. Ramalina farinacea symbionts were characterized based on the two fungal nuclear loci (nrITS and rpb2) along with the primary and secondary structures of nrITS from each Trebouxia species in the Iberian Peninsula and Canary Islands. The results indicated a noticeable genetic differentiation between mycobionts from these two geographic areas and also suggested concerted changes in the three partners of a lichen symbiosis toward two clearly distinguishable 'holobiont' lineages. Modeling of ITS2 RNA secondary structures suggested their temperature sensitivity in TR1 but not in TR9, which was consistent with the observed superior physiological performance of TR9 phycobionts under relatively high temperatures. Both TR1 and TR9 phycobionts have been also found in a variety of taxonomically distinct lichens with a preferably Mediterranean distribution, being TR1 much more widespread than TR9. Our observations support a model in which ecological diversification and speciation of lichen symbionts in different habitats could include a transient phase consisting of associations with more than one photobiont in individual thalli. Such diversification is likely to be promoted by different physiological backgrounds.

摘要

地衣 Ramalina farinacea 是一种附生地衣,分布于北半球,每个叶状体中都存在两种相同的藻类 Trebouxia 物种(暂命名为 TR1 和 TR9)。Ramalina farinacea 共生体的特征基于两个真菌核基因座(nrITS 和 rpb2),以及伊比利亚半岛和加那利群岛每个 Trebouxia 物种的 nrITS 的一级和二级结构。结果表明,这两个地理区域的共生真菌之间存在明显的遗传分化,同时,地衣共生体的三个伙伴也朝着两个明显可区分的“整体生物”谱系发生了协同变化。ITS2 RNA 二级结构的建模表明,TR1 中的 ITS2 具有温度敏感性,但 TR9 中没有,这与 TR9 藻原生物在相对较高温度下表现出优越的生理性能是一致的。TR1 和 TR9 藻原生物也存在于多种分类上不同的地衣中,这些地衣的分布偏好地中海,TR1 的分布比 TR9 更为广泛。我们的观察结果支持这样一种模式,即在不同生境中地衣共生体的生态多样化和物种形成可能包括一个与单个叶状体中的多个光生物共生的暂态阶段。这种多样化可能是由不同的生理背景所促进的。

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The genetic structure of the cosmopolitan three-partner lichen Ramalina farinacea evidences the concerted diversification of symbionts.世界性三伙伴共生地衣 Ramalina farinacea 的遗传结构证明了共生体的协同多样化。
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