扩大的双核细胞基因和分类群取样显示了寄生和自由生活方式的多重转换。

IF 4.4 1区 生物学 Q1 BIOLOGY
Monika M Wiśniewska, Eric D Salomaki, Jeffrey D Silberman, Kristina X Terpis, Eva Mazancová, Petr Táborský, Vasana Jinatham, Eleni Gentekaki, Ivan Čepička, Martin Kolisko
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引用次数: 0

摘要

背景介绍双鞭毛虫是一种厌氧鞭毛虫,属于 Metamonada 类。它们既包括与宿主相关的寄生虫和寄生在动物肠道中的寄生虫,包括人类(如肠道贾第虫),也包括栖息在淡水和海洋缺氧沉积物中的自由生活的代表(如Hexamita inflata)。这个类群的进化轨迹特别不寻常,因为自由生活类群似乎嵌套在一个与宿主相关的物种支系中,这表明从依赖宿主到第二自由生活方式的逆转。这种情况被认为是极为罕见的,因为寄生虫在越来越依赖宿主获取营养和代谢物的过程中,往往会丢失对自由生活方式至关重要的代谢途径基因。要恢复自由生活方式,就需要重建大量的代谢途径。以往所有关于外交弧菌进化的研究都存在分类群取样少、基因取样少或两者兼而有之的问题,尤其是在自由生活的外交弧菌中,这削弱了系统发生学的分辨率,阻碍了对这一奇妙转变的进化洞察:结果:我们对 1 个与宿主相关的和 13 个自由生活的外交桿菌分离物的转录组进行了测序;将外交桿菌的基因组规模数据采样扩大了约三倍。系统发生组分析清楚地表明,自由生活的外交杆菌在内生物种中形成了多个嵌套分支。此外,与内生生物生活方式相关的基因的系统发育分布表明,这些基因是在外交官菌的根部获得的,而在自由生活的外交官菌中也发现了这些基因的痕迹。基于这些结果,我们提出了一种双核生物祖先和衍生生活方式转变的进化方案:结论:在我们的系统发生组分析中,自由生活类群在内生类群中形成了多个嵌套支系,这意味着自由生活和内生生活方式之间存在多种转变。许多毒力因子的进化史证实了双鞭毛虫的祖先是内生生物的推论,这表明双鞭毛虫曾多次逆转为自由生活方式。重新获得对宿主的独立性可能得益于一部分侧向转移的基因。我们得出的结论是,现存的双鞭毛虫多样性是从非特化的内生生物演化而来的,其中一些类群成为高度特化的寄生虫,另一些类群成为自由生活类群,还有一些类群既能自由生活,也能内生。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Expanded gene and taxon sampling of diplomonads shows multiple switches to parasitic and free-living lifestyle.

Background: Diplomonads are anaerobic flagellates classified within Metamonada. They contain both host-associated commensals and parasites that reside in the intestinal tracts of animals, including humans (e.g., Giardia intestinalis), as well as free-living representatives that inhabit freshwater and marine anoxic sediments (e.g., Hexamita inflata). The evolutionary trajectories within this group are particularly unusual as the free-living taxa appear to be nested within a clade of host-associated species, suggesting a reversal from host-dependence to a secondarily free-living lifestyle. This is thought to be an exceedingly rare event as parasites often lose genes for metabolic pathways that are essential to a free-living life strategy, as they become increasingly reliant on their host for nutrients and metabolites. To revert to a free-living lifestyle would require the reconstruction of numerous metabolic pathways. All previous studies of diplomonad evolution suffered from either low taxon sampling, low gene sampling, or both, especially among free-living diplomonads, which has weakened the phylogenetic resolution and hindered evolutionary insights into this fascinating transition.

Results: We sequenced transcriptomes from 1 host-associated and 13 free-living diplomonad isolates; expanding the genome scale data sampling for diplomonads by roughly threefold. Phylogenomic analyses clearly show that free-living diplomonads form several branches nested within endobiotic species. Moreover, the phylogenetic distribution of genes related to an endobiotic lifestyle suggest their acquisition at the root of diplomonads, while traces of these genes have been identified in free-living diplomonads as well. Based on these results, we propose an evolutionary scenario of ancestral and derived lifestyle transitions across diplomonads.

Conclusions: Free-living taxa form several clades nested within endobiotic taxa in our phylogenomic analyses, implying multiple transitions between free-living and endobiotic lifestyles. The evolutionary history of numerous virulence factors corroborates the inference of an endobiotic ancestry of diplomonads, suggesting that there have been several reversals to a free-living lifestyle. Regaining host independence may have been facilitated by a subset of laterally transferred genes. We conclude that the extant diversity of diplomonads has evolved from a non-specialized endobiont, with some taxa becoming highly specialized parasites, others becoming free-living, and some becoming capable of both free-living and endobiotic lifestyles.

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来源期刊
BMC Biology
BMC Biology 生物-生物学
CiteScore
7.80
自引率
1.90%
发文量
260
审稿时长
3 months
期刊介绍: BMC Biology is a broad scope journal covering all areas of biology. Our content includes research articles, new methods and tools. BMC Biology also publishes reviews, Q&A, and commentaries.
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