{"title":"Molecular and evolutionary mechanisms of self-incompatibility in angiosperms.","authors":"Hong Zhao, Yong-Biao Xue","doi":"10.16288/j.yczz.23-300","DOIUrl":null,"url":null,"abstract":"<p><p>As an intraspecific outcrossing mechanism, self-incompatibility (SI) widely adopted by hermaphroditic plants is usually controlled by a polymorphic multi-allelic S locus. Typically, six molecular types of SI have been found, including type-I controlled by the pistil S S-RNase and pollen S SLFs commonly spread in Plantaginaceae, Solanaceae, Rosaceae and Rutaceae, type-II by SRK and SCR in Brassicaceae, type-III by PrsS and PrpS in Papaveraceae, type-IV by CYP-GLO2-KFB-CCM-PUM in Primulaceae, type-V by TsSPH1-TsYUC6-TsBAHD in Turneraceae and type-VI by HPS10-S and DUF247I-S in Poaceae, with type-I characterized as a non-self recognition system but types-II, -III and -VI self ones. Furthermore, remarkable progresses have been made in their origin and evolutionary mechanisms recently. Among them, type-I SI possessed a single origin in the most recent common ancestor of eudicots and types II-V dynamically evolved following its losses, while type-VI SI exclusively existed in monocot Poaceae may be regained after the loss of the ancient type-I. Here, we mainly review the molecular and evolutionary mechanisms of angiosperm SI systems, thus providing a helpful reference for their theoretical research and breeding application.</p>","PeriodicalId":35536,"journal":{"name":"遗传","volume":"46 1","pages":"3-17"},"PeriodicalIF":0.0000,"publicationDate":"2024-01-20","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"遗传","FirstCategoryId":"1091","ListUrlMain":"https://doi.org/10.16288/j.yczz.23-300","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q3","JCRName":"Medicine","Score":null,"Total":0}
引用次数: 0
Abstract
As an intraspecific outcrossing mechanism, self-incompatibility (SI) widely adopted by hermaphroditic plants is usually controlled by a polymorphic multi-allelic S locus. Typically, six molecular types of SI have been found, including type-I controlled by the pistil S S-RNase and pollen S SLFs commonly spread in Plantaginaceae, Solanaceae, Rosaceae and Rutaceae, type-II by SRK and SCR in Brassicaceae, type-III by PrsS and PrpS in Papaveraceae, type-IV by CYP-GLO2-KFB-CCM-PUM in Primulaceae, type-V by TsSPH1-TsYUC6-TsBAHD in Turneraceae and type-VI by HPS10-S and DUF247I-S in Poaceae, with type-I characterized as a non-self recognition system but types-II, -III and -VI self ones. Furthermore, remarkable progresses have been made in their origin and evolutionary mechanisms recently. Among them, type-I SI possessed a single origin in the most recent common ancestor of eudicots and types II-V dynamically evolved following its losses, while type-VI SI exclusively existed in monocot Poaceae may be regained after the loss of the ancient type-I. Here, we mainly review the molecular and evolutionary mechanisms of angiosperm SI systems, thus providing a helpful reference for their theoretical research and breeding application.
作为一种种内杂交机制,雌雄同体植物广泛采用的自交不亲和(SI)通常由多态性多等位基因 S 基因座控制。通常,已发现的 SI 有六种分子类型,其中Ⅰ型由雌蕊 S S-RNase 和花粉 S SLF 控制,常见于车前草科、茄科、蔷薇科和芸香科;Ⅱ型由十字花科中的 SRK 和 SCR 控制;Ⅲ型由罂粟科中的 PrsS 和 PrpS 控制;Ⅳ型由 CYP-GCR 控制、其中 I 型为非自我识别系统,II 型、III 型和 VI 型为自我识别系统。此外,近年来在其起源和进化机制方面也取得了显著进展。其中,Ⅰ型 SI 单一起源于裸子植物最近的共同祖先,Ⅱ-Ⅴ型在其丧失后动态演化,而Ⅵ型 SI 只存在于单子叶植物 Poaceae 中,可能在古老的Ⅰ型丧失后重新获得。在此,我们主要综述了被子植物SI系统的分子和进化机制,从而为其理论研究和育种应用提供有益的参考。
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