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The Snapdragon Genomes Reveal the Evolutionary Dynamics of the <i>S</i>-Locus Supergene

Sihui Zhu, Yue Zhang, Lucy Copsy, Qianqian Han, Dongfeng Zheng, Enrico Coen, Yongbiao Xue

2023Molecular Biology and Evolution24 citationsDOIOpen Access PDF

Abstract

The genus Antirrhinum has been used as a model to study self-incompatibility extensively. The multi-allelic S-locus, carrying a pistil S-RNase and dozens of S-locus F-box (SLF) genes, underlies the genetic control of self-incompatibility (SI) in Antirrhinum hispanicum. However, there have been limited studies on the genomic organization of the S-locus supergene due to a lack of high-quality genomic data. Here, we present the chromosome-level reference and haplotype-resolved genome assemblies of a self-incompatible A. hispanicum line, AhS7S8. For the first time, 2 complete A. hispanicum S-haplotypes spanning ∼1.2 Mb and containing a total of 32 SLFs were reconstructed, whereas most of the SLFs derived from retroelement-mediated proximal or tandem duplication ∼122 Mya. Back then, the S-RNase gene and incipient SLFs came into linkage to form the pro-type of type-1 S-locus in the common ancestor of eudicots. Furthermore, we detected a pleiotropic cis-transcription factor (TF) associated with regulating the expression of SLFs, and two miRNAs may control the expression of this TF. Interspecific S-locus and intraspecific S-haplotype comparisons revealed the dynamic nature and polymorphism of the S-locus supergene mediated by continuous gene duplication, segmental translocation or loss, and TE-mediated transposition events. Our data provide an excellent resource for future research on the evolutionary studies of the S-RNase-based self-incompatibility system.

Topics & Concepts

BiologyLocus (genetics)GeneticsHaplotypeGeneGene duplicationSupergene (geology)AlleleEvolutionary biologyPaleontologyWeatheringPlant Reproductive BiologyPlant Molecular Biology ResearchLegume Nitrogen Fixing Symbiosis
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