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Pangenome and pantranscriptome as the new reference for gene-family characterization: A case study of basic helix-loop-helix (bHLH) genes in barley

基因 螺旋 螺旋(腹足类) 遗传学 循环(图论) 生物 数学 组合数学 转录因子 DNA结合蛋白 生态学 蜗牛
作者
Cen Tong,Yong Jia,Haifei Hu,Zhanghui Zeng,B.E. Chapman,Chengdao Li
出处
期刊:Plant communications [Elsevier BV]
卷期号:6 (1): 101190-101190 被引量:44
标识
DOI:10.1016/j.xplc.2024.101190
摘要

Genome-wide identification and comparative gene-family analyses have commonly been performed to investigate species-specific evolution linked to various traits and molecular pathways. However, most previous studies have been limited to gene screening in a single reference genome, failing to account for the gene presence/absence variations (gPAVs) in a species. Here, we propose an innovative pangenome-based approach for gene-family analyses based on orthologous gene groups (OGGs). Using the basic helix-loop-helix (bHLH) transcription factor family in barley as an example, we identified 161-176 bHLHs in 20 barley genomes, which can be classified into 201 OGGs. These 201 OGGs were further classified into 140 core, 12 softcore, 29 shell, and 20 line-specific/cloud bHLHs, revealing the complete profile of bHLH genes in barley. Using a genome-scanning approach, we overcame the genome annotation bias and identified an average of 1.5 un-annotated core bHLHs per barley genome. We found that whole-genome/segmental duplicates are predominant mechanisms contributing to the expansion of most core/softcore bHLHs, whereas dispensable bHLHs are more likely to result from small-scale duplication events. Interestingly, we noticed that the dispensable bHLHs tend to be enriched in the specific subfamilies SF13, SF27, and SF28, implying the potentially biased expansion of specific bHLHs in barley. We found that 50% of the bHLHs contain at least 1 intact transposon element (TE) within the 2-kb upstream-to-downstream region. bHLHs with copy-number variations (CNVs) have 1.48 TEs on average, significantly more than core bHLHs without CNVs (1.36), supporting a potential role of TEs in bHLH expansion. Analyses of selection pressure showed that dispensable bHLHs have experienced clear relaxation of selection compared with core bHLHs, consistent with their conservation patterns. We also integrated the pangenome data with recently available barley pantranscriptome data from 5 tissues and discovered apparent transcriptional divergence within and across bHLH subfamilies. We conclude that pangenome-based gene-family analyses can better describe the previously untapped, genuine evolutionary status of bHLHs and provide novel insights into bHLH evolution in barley. We expect that this study will inspire similar analyses in many other gene families and species.
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