Zhang Yan, Zhang Lan, Xiao Qimeng, Wu Chunyang, Zhang Jiaqi, Xu Qiang, Yu Zijian, Bao Shoutong, Wang Jianyu, Li Yu, Wang Li, Wang Jinpeng
Center for Genomics and Computational Biology, School of Life Sciences, North China University of Science and Technology, Tangshan, Hebei, China.
University of Chinese Academy of Sciences, Beijing, China.
Front Plant Sci. 2022 Sep 23;13:1001402. doi: 10.3389/fpls.2022.1001402. eCollection 2022.
Solanales, an order of flowering plants, contains the most economically important vegetables among all plant orders. To date, many Solanales genomes have been sequenced. However, the evolutionary processes of polyploidization events in Solanales and the impact of polyploidy on species diversity remain poorly understood. We compared two representative Solanales genomes ( L. and L.) and the L. genome and confirmed two independent polyploidization events. Solanaceae common hexaploidization (SCH) and Convolvulaceae common hexaploidization (CCH) occurred ∼43-49 and ∼40-46 million years ago (Mya), respectively. Moreover, we identified homologous genes related to polyploidization and speciation and constructed multiple genomic alignments with genome, providing a genomic homology framework for future Solanales research. Notably, the three polyploidization-produced subgenomes in both and showed significant genomic fractionation bias, suggesting the allohexaploid nature of the SCH and CCH events. However, we found that the higher genomic fractionation bias of polyploidization-produced subgenomes in Solanaceae was likely responsible for their more abundant species diversity than that in Convolvulaceae. Furthermore, through genomic fractionation and chromosomal structural variation comparisons, we revealed the allohexaploid natures of SCH and CCH, both of which were formed by two-step duplications. In addition, we found that the second step of two paleohexaploidization events promoted the expansion and diversity of β-amylase (BMY) genes in Solanales. These current efforts provide a solid foundation for future genomic and functional exploration of Solanales.
茄目是一类开花植物,在所有植物目中包含经济价值最重要的蔬菜。迄今为止,许多茄目植物的基因组已被测序。然而,茄目植物中多倍体化事件的进化过程以及多倍体对物种多样性的影响仍知之甚少。我们比较了两个有代表性的茄目植物基因组(番茄属和枸杞属)以及甘薯基因组,并确认了两次独立的多倍体化事件。茄科共同六倍体化(SCH)和旋花科共同六倍体化(CCH)分别发生在约4300 - 4900万年前和约4000 - 4600万年前。此外,我们鉴定了与多倍体化和物种形成相关的同源基因,并与甘薯基因组构建了多个基因组比对,为未来茄目植物的研究提供了一个基因组同源框架。值得注意的是,番茄属和甘薯属中由多倍体化产生的三个亚基因组都表现出显著的基因组片段化偏向,这表明SCH和CCH事件具有异源六倍体的性质。然而,我们发现茄科中由多倍体化产生的亚基因组具有更高的基因组片段化偏向,这可能是其物种多样性比旋花科更丰富的原因。此外,通过基因组片段化和染色体结构变异比较,我们揭示了SCH和CCH的异源六倍体性质,它们都是由两步重复形成的。另外,我们发现两次古六倍体化事件的第二步促进了茄目植物中β -淀粉酶(BMY)基因的扩增和多样性。目前的这些工作为未来茄目植物的基因组和功能探索奠定了坚实的基础。
