Forces driving transposable element load variation during Arabidopsis range expansion

Genetic load refers to the accumulated and potentially life-threatening deleterious mutations in populations. Understanding the mechanisms underlying genetic load variation of transposable element (TE) insertion, a major large-effect mutation, during range expansion is an intriguing question in biol...

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Published in:The Plant cell 2024-03, Vol.36 (4), p.840-862
Main Authors: Jiang, Juan, Xu, Yong-Chao, Zhang, Zhi-Qin, Chen, Jia-Fu, Niu, Xiao-Min, Hou, Xing-Hui, Li, Xin-Tong, Wang, Li, Zhang, Yong E, Ge, Song, Guo, Ya-Long
Format: Article
Language:English
Subjects:
Arabidopsis - genetics
DNA Transposable Elements - genetics
Evolution, Molecular
Genetics, Population
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Summary:Genetic load refers to the accumulated and potentially life-threatening deleterious mutations in populations. Understanding the mechanisms underlying genetic load variation of transposable element (TE) insertion, a major large-effect mutation, during range expansion is an intriguing question in biology. Here, we used 1,115 global natural accessions of Arabidopsis (Arabidopsis thaliana) to study the driving forces of TE load variation during its range expansion. TE load increased with range expansion, especially in the recently established Yangtze River basin population. Effective population size, which explains 62.0% of the variance in TE load, high transposition rate, and selective sweeps contributed to TE accumulation in the expanded populations. We genetically mapped and identified multiple candidate causal genes and TEs, and revealed the genetic architecture of TE load variation. Overall, this study reveals the variation in TE genetic load during Arabidopsis expansion and highlights the causes of TE load variation from the perspectives of both population genetics and quantitative genetics.
ISSN:1040-4651
1532-298X
1532-298X
DOI:10.1093/plcell/koad296