Genic C-Methylation in Soybean Is Associated with Gene Paralogs Relocated to Transposable Element-Rich Pericentromeres

作     者：Moaine El Baidouri Kyung Do Kim Brian Abernathy Ying-Hui Li Li-Juan Qiu Scott A. Jackson 

作者机构：Center for Applied Genetic Technologies University of Georgia 111 Riverbend Road Athens GA 30602 USA Corporate R&D LG Chem LG Science Park 30 Magokjungang 10-ro Gangseo-gu Seoul 07796 Republic of Korea The National Key Facility for Crop Gene Resources and Genetic Improvement (NFCRI) Institute of Crop Science Chinese Academy of Agricultural SciencesBeijing China These authors contributed equally to this article. 

出 版 物：《Molecular Plant》 (分子植物（英文版）)

年 卷 期：2018年第11卷第3期

页      面：485-495页

核心收录：

学科分类：0710[理学-生物学] 07[理学] 08[工学] 09[农学] 071007[理学-遗传学] 0901[农学-作物学] 0836[工学-生物工程] 090102[农学-作物遗传育种] 

基　　金：We appreciation the generous support of the US National Science Foundation to S.A.J The sequencing of the G. soja Methylomes and transcriptomes was supported by the National Key R&D Program for Crop Breeding to Y.-H.L. and L.-J.Q 

主　　题：soybean paralog gene methylation proximal transposable element methylation spreading 

摘      要：Most plants are polyploid due to whole-genome duplications （WGD） and can thus have duplicated genes. Following a WGD, paralogs are often fractionated （lost） and few duplicate pairs remain. Little attention has been paid to the role of DNA methylation in the functional divergence of paralogous genes. Using high- resolution methylation maps of accessions of domesticated and wild soybean, we show that in soybean, a recent paleopolyploid with many paralogs, DNA methylation likely contributed to the elimination of ge- netic redundancy of polyploidy-derived gene paralogs. Transcriptionally silenced paralogs exhibit partic- ular genomic features as they are often associated with proximal transposable elements （TEs） and are pref- erentially located in pericentromeres, likely due to gene movement during evolution. Additionally, we provide evidence that gene methylation associated with proximal TEs is implicated in the divergence of expression profiles between orthologous genes of wild and domesticated soybean, and within populations.