Rapid evolution of T2/S-RNase genes in Fragaria linked to multiple transitions from self-incompatibility to self-compatibility

IF 4.6 1区生物学 Q1 PLANT SCIENCES

Plant Diversity Pub Date : 2023-03-01 DOI:10.1016/j.pld.2022.04.003

Wu Chen , Hong Wan , Fang Liu , Haiyuan Du , Chengjun Zhang , Weishu Fan , Andan Zhu

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引用次数: 2

Abstract

The T2/RNase gene family is widespread in eukaryotes, and particular members of this family play critical roles in the gametophytic self-incompatibility (GSI) system in plants. Wild diploid strawberry (Fragaria) species have diversified their sexual systems via self-incompatible and self-compatible traits, yet how these traits evolved in Fragaria remains elusive. By integrating the published and de novo assembled genomes and the newly generated RNA-seq data, members of the RNase T2 gene family were systematically identified in six Fragaria species, including three self-incompatible species (Fragaria nipponica, Fragaria nubicola, and Fragaria viridis) and three self-compatible species (Fragaria nilgerrensis, Fragaria vesca, and Fragaria iinumae). In total, 115 RNase T2 genes were identified in the six Fragaria genomes and can be classified into three classes (I–III) according to phylogenetic analysis. The identified RNase T2 genes could be divided into 22 homologous gene sets according to amino acid sequence similarity and phylogenetic and syntenic relationships. We found that extensive gene loss and pseudogenization coupled with small-scale duplications mainly accounted for variations in the RNase T2 gene numbers in Fragaria. Multiple copies of homologous genes were mainly generated from tandem and segmental duplication events. Furthermore, we newly identified five S-RNase genes in three self-incompatible Fragaria genomes, including two in F. nipponica, two in F. viridis, and one in F. nubicola, which fit for typical features of a pistil determinant, including highly pistil-specific expression, highly polymorphic proteins and alkaline isoelectric point (pI), while no S-RNase genes were found in all three self-compatible Fragaria species. Surprisingly, these T2/S-RNase genes contain at least one large intron (>10 kb). This study revealed that the rapid evolution of T2/S-RNase genes within the Fragaria genus could be associated with its sexual mode, and repeated evolution of the self-compatible traits in Fragaria was convergent via losses of S-RNase.

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Fragaria中T2/S-RNase基因的快速进化与从自交不亲和到自交亲和的多重转变

T2/RNase基因家族在真核生物中广泛存在，该家族的特定成员在植物配子体自交不亲和（GSI）系统中发挥着关键作用。野生二倍体草莓（Fragaria）物种通过自交不亲和和自交亲和的特性使其性系统多样化，但这些特性在Fragaria中是如何进化的仍然难以捉摸。通过整合已发表的和新组装的基因组以及新生成的RNA-seq数据，在6个Fragaria物种中系统地鉴定了RNase T2基因家族的成员，包括3个自交不亲和物种（日本Fragaria nipponica、nubicola Fragaria和viridis Fragaria）和3个自交亲和物种（nilgerensis Fragaria vesca Fragaria iinumae）。在6个Fragaria基因组中共鉴定出115个RNase T2基因，根据系统发育分析，可分为三类（I–III）。根据氨基酸序列相似性、系统发育和同源性关系，已鉴定的RNase T2基因可分为22个同源基因集。我们发现，广泛的基因缺失和假基因化加上小规模的重复主要是Fragaria RNase T2基因数量变化的原因。同源基因的多个拷贝主要由串联和节段复制事件产生。此外，我们在三个自交不亲和的Fragaria基因组中新鉴定了五个S-RNase基因，其中两个在穿龙线虫中，两个在病毒性F.viridis中，一个在牛皮草中，它们符合雌蕊决定簇的典型特征，包括高度雌蕊特异性表达、高度多态性蛋白质和碱性等电点（pI），而在所有三个自交亲和的Fragaria物种中均未发现S-RNase基因。令人惊讶的是，这些T2/S-RNA酶基因含有至少一个大内含子（>；10kb）。本研究表明，Fragaria属T2／S-RNase基因的快速进化可能与其性模式有关，Fragara属自交亲和性状的重复进化是通过S-RNase的缺失而趋同的。

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来源期刊

Plant Diversity Agricultural and Biological Sciences-Ecology, Evolution, Behavior and Systematics

CiteScore

8.30

自引率

6.20%

发文量

1863

审稿时长

35 days

期刊介绍： Plant Diversity (formerly Plant Diversity and Resources) is an international plant science journal that publishes substantial original research and review papers that advance our understanding of the past and current distribution of plants, contribute to the development of more phylogenetically accurate taxonomic classifications, present new findings on or insights into evolutionary processes and mechanisms that are of interest to the community of plant systematic and evolutionary biologists. While the focus of the journal is on biodiversity, ecology and evolution of East Asian flora, it is not limited to these topics. Applied evolutionary issues, such as climate change and conservation biology, are welcome, especially if they address conceptual problems. Theoretical papers are equally welcome. Preference is given to concise, clearly written papers focusing on precisely framed questions or hypotheses. Papers that are purely descriptive have a low chance of acceptance. Fields covered by the journal include: plant systematics and taxonomy- evolutionary developmental biology- reproductive biology- phylo- and biogeography- evolutionary ecology- population biology- conservation biology- palaeobotany- molecular evolution- comparative and evolutionary genomics- physiology- biochemistry