Deep learning can predict subgenome dominance in ancient but not in neo/synthetic polyploidized genomes
文献类型: 外文期刊
第一作者: Guo, Zhongwei
作者: Guo, Zhongwei;Zhang, Kang;Cai, Chengcheng;Li, Xing;Zhang, Lingkui;Yang, Yinqing;Wang, Xiang;Chen, Shumin;Zhang, Lei;Cheng, Feng
作者机构:
关键词: deep learning; convolutional neural networks; subgenome dominance; promoter; methylation; gene expression
期刊名称:PLANT JOURNAL ( 影响因子:6.2; 五年影响因子:7.1 )
ISSN: 0960-7412
年卷期: 2024 年
页码:
收录情况: SCI
摘要: Deep learning offers new approaches to investigate the mechanisms underlying complex biological phenomena, such as subgenome dominance. Subgenome dominance refers to the dominant expression and/or biased fractionation of genes in one subgenome of allopolyploids, which has shaped the evolution of a large group of plants. However, the underlying cause of subgenome dominance remains elusive. Here, we adopt deep learning to construct two convolutional neural network (CNN) models, binary expression model (BEM) and homoeolog contrast model (HCM), to investigate the mechanism underlying subgenome dominance using DNA sequence and methylation sites. We apply these CNN models to analyze three representative polyploidization systems, Brassica, Gossypium, and Cucurbitaceae, each with available ancient and neo/synthetic polyploidized genomes. The BEM shows that DNA sequence of the promoter region can accurately predict whether a gene is expressed or not. More importantly, the HCM shows that the DNA sequence of the promoter region predicts dominant expression status between homoeologous gene pairs retained from ancient polyploidizations, thus predicting subgenome dominance associated with these events. However, HCM fails to predict gene expression dominance between new homoeologous gene pairs arising from the neo/synthetic polyploidizations. These results are consistent across the three plant polyploidization systems, indicating broad applicability of our models. Furthermore, the two models based on methylation sites produce similar results. These results show that subgenome dominance is associated with long-term sequence differentiation between the promoters of homoeologs, suggesting that subgenome expression dominance precedes and is the driving force or even the determining factor for sequence divergence between subgenomes following polyploidization. Our study demonstrates that deep learning models can predict subgenome dominance in ancient polyploids but not in newly synthesized polyploids, highlighting the importance of long-term sequence divergence. These findings provide valuable insights into the evolutionary mechanisms of polyploidy and offer a novel approach for studying complex genomic interactions.
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