High-quality assembly of the Chinese white truffle genome and recalibrated divergence time estimate provide insight into the evolutionary dynamics of Tuberaceae

生物 松露 进化生物学 分歧(语言学) 白色(突变) 基因组 质量(理念) 计算生物学 遗传学 基因 古生物学 语言学 认识论 哲学
作者
Jacopo Martelossi,Jacopo Vujovic,Yue Huang,Alessia Tatti,Kaiwei Xu,Federico Puliga,Yuanxue Chen,Omar Rota‐Stabelli,Fabrizio Ghiselli,Xiaoping Zhang,Alessandra Zambonelli
出处
期刊:Genome Research [Cold Spring Harbor Laboratory Press]
卷期号:35 (11): gr.280368.124-gr.280368.124
标识
DOI:10.1101/gr.280368.124
摘要

The genus Tuber (family: Tuberaceae) includes the most economically valuable ectomycorrhizal (ECM), truffle-forming fungi. Previous genomic analyses revealed that massive transposable element (TE) proliferation represents a convergent genomic feature of ECM fungi, including Tuberaceae. Repetitive sequences constitute a principal driver of genome evolution, shaping its architecture and regulatory networks. In this context, Tuberaceae can become an important model system to study their genomic impact; however, the family lacks high-quality assemblies. Here, we investigate the interplay between TEs and Tuberaceae genome evolution by producing a highly contiguous assembly for the endangered Chinese white truffle Tuber panzhihuanense, along with a recalibrated timeline for Tuberaceae diversification and comprehensive comparative genomic analyses. We find that, concurrently with a Paleogene diversification of the family, pre-existing Chromoviridae-related Gypsy clades independently expanded in different truffle lineages, leading to increased genome size and high gene-family turnover rates, but without resulting in highly rearranged genomes. Additionally, we uncover a significant enrichment of ECM-induced gene families stemming from ancestral duplication events. Finally, we explore the repetitive structure of nuclear ribosomal DNA (rDNA) loci for the first time in the clade. Most of the 45S rDNA paralogs are undergoing concerted evolution, although an isolated divergent locus raises concerns about potential issues for metabarcoding and biodiversity assessments. Our study establishes a fundamental genomic resource for future research on truffle genomics and showcases a clear example of how establishment and self-perpetuating expansion of heterochromatin can drive massive genome size variation owing to activity of selfish genetic elements.
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