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新生基因、水平基因转移和基因复制作为与鹅膏菌共生起源相关的新基因家族的来源。

De Novo Gene Birth, Horizontal Gene Transfer, and Gene Duplication as Sources of New Gene Families Associated with the Origin of Symbiosis in Amanita.

机构信息

Departments of Botany and Bacteriology, University of Wisconsin-Madison.

Department of Soil Ecology, Helmholtz Centre for Environmental Research - UFZ, Leipzig, Germany.

出版信息

Genome Biol Evol. 2020 Nov 3;12(11):2168-2182. doi: 10.1093/gbe/evaa193.

Abstract

By introducing novel capacities and functions, new genes and gene families may play a crucial role in ecological transitions. Mechanisms generating new gene families include de novo gene birth, horizontal gene transfer, and neofunctionalization following a duplication event. The ectomycorrhizal (ECM) symbiosis is a ubiquitous mutualism and the association has evolved repeatedly and independently many times among the fungi, but the evolutionary dynamics enabling its emergence remain elusive. We developed a phylogenetic workflow to first understand if gene families unique to ECM Amanita fungi and absent from closely related asymbiotic species are functionally relevant to the symbiosis, and then to systematically infer their origins. We identified 109 gene families unique to ECM Amanita species. Genes belonging to unique gene families are under strong purifying selection and are upregulated during symbiosis, compared with genes of conserved or orphan gene families. The origins of seven of the unique gene families are strongly supported as either de novo gene birth (two gene families), horizontal gene transfer (four), or gene duplication (one). An additional 34 families appear new because of their selective retention within symbiotic species. Among the 109 unique gene families, the most upregulated gene in symbiotic cultures encodes a 1-aminocyclopropane-1-carboxylate deaminase, an enzyme capable of downregulating the synthesis of the plant hormone ethylene, a common negative regulator of plant-microbial mutualisms.

摘要

通过引入新的能力和功能,新的基因和基因家族可能在生态转型中发挥关键作用。产生新基因家族的机制包括从头基因诞生、水平基因转移以及重复事件后的新功能化。外生菌根(ECM)共生是一种普遍存在的互利共生关系,这种共生在真菌中已经多次独立进化,但使共生关系出现的进化动态仍然难以捉摸。我们开发了一种系统发育工作流程,首先了解是否 ECM 鹅膏菌真菌特有的、不存在于密切相关的非共生物种中的基因家族在功能上与共生相关,然后系统推断它们的起源。我们确定了 109 个 ECM 鹅膏菌特有的基因家族。与保守或孤儿基因家族的基因相比,属于独特基因家族的基因受到强烈的纯化选择,并在共生过程中上调。其中七个独特基因家族的起源强烈支持是从头基因诞生(两个基因家族)、水平基因转移(四个)或基因复制(一个)。另外 34 个家族之所以看起来是新的,是因为它们在共生物种中被选择性保留。在这 109 个独特的基因家族中,共生培养中上调最明显的基因编码 1-氨基环丙烷-1-羧酸脱氨酶,这是一种能够下调植物激素乙烯合成的酶,乙烯是植物-微生物共生的常见负调控因子。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c39e/7674699/845ff3abdc55/evaa193f1.jpg

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