InDel variation and contraction of the C-repeat binding factor family contribute to cold sensitivity in Betula fujianensis

The Plant Cell Pub Date : 2025-09-17 DOI:10.1093/plcell/koaf216

Hebi Zhuang, Erpei Lin, Jianbo Xie, Mei Jiang, Fei Ni, Shuaibin Shi, Meng Liu, Siyu Miao, Ming Wei, Chenghao Li, Jiming Liu, Xiaojuan Liu, Xian-Ge Hu, Wenwu Wu, Jarkko Salojärvi, Huahong Huang

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Abstract

Betula species exhibit exceptional cold tolerance, yet the evolutionary drivers of their cold adaptation remain unclear. Betula fujianensis, a subtropical member of this genus, is an ideal model to investigate the evolution of cold adaptation. Here, we present a nearly telomere-to-telomere genome assembly and identify a ten-fold reduction in nucleotide diversity in the extant B. fujianensis population compared to its temperate relatives (B. pendula and B. platyphylla). This decrease in nucleotide diversity was driven by two historical population declines during global cooling periods. B. fujianensis exhibits heightened sensitivity to low temperatures, associated with a contracted C-repeat binding factor (CBF) gene family and a 185-bp insertion in the DREB and EAR motif protein 1 (DEAR1) promoter, which enhances its expression. We demonstrate that DEAR1 is a negative regulator of CBF expression in a negative feedback loop. Collectively, our results identify the DEAR1–CBF interplay as an important regulatory module for cold adaptation. Our findings shed light on plant cold adaptation mechanisms and provide critical genomic resources to guide conservation strategies for this climate-vulnerable species under global climate change.

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InDel的变异和C-repeat结合因子家族的收缩与福建桦树的冷敏感性有关

桦树物种表现出特殊的耐寒性，但其冷适应的进化驱动因素尚不清楚。福建桦树（Betula fujianensis）是亚热带桦树属植物，是研究其冷适应进化的理想模式。在这里，我们展示了一个近端粒到端粒的基因组组装，并发现与温带近亲（B. pendula和B. platyphylla）相比，现存福建白檀种群的核苷酸多样性减少了10倍。这种核苷酸多样性的减少是由全球变冷期间的两次历史种群下降造成的。福建B.对低温的敏感性增强，与C-repeat binding factor （CBF）基因家族的收缩和DREB and EAR motif protein 1 （DEAR1）启动子中185 bp的插入有关，从而增强了其表达。我们证明了DEAR1在负反馈回路中是CBF表达的负调节因子。总的来说，我们的研究结果确定了DEAR1-CBF的相互作用是冷适应的一个重要调节模块。我们的研究结果揭示了植物的冷适应机制，并为指导全球气候变化下这种气候脆弱物种的保护策略提供了重要的基因组资源。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Plant Cell

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