端粒到端粒胡萝卜(Daucus carota)基因组组装揭示了类胡萝卜素的特征。

IF 7.6 Q1 GENETICS & HEREDITY
园艺研究(英文) Pub Date : 2023-05-10 eCollection Date: 2023-07-01 DOI:10.1093/hr/uhad103
Ya-Hui Wang, Pei-Zhuo Liu, Hui Liu, Rong-Rong Zhang, Yi Liang, Zhi-Sheng Xu, Xiao-Jie Li, Qing Luo, Guo-Fei Tan, Guang-Long Wang, Ai-Sheng Xiong
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引用次数: 0

摘要

胡萝卜(Daucus carota)是一种具有多色肉质根的Apiaceae植物,为类胡萝卜素的研究提供了一个模型系统。在这项研究中,我们在“Kurodagosun”胡萝卜的端粒到端粒(T2T)水平上组装了一个430.40Mb的高质量无间隙基因组。总共36 已鉴定268个基因,34个 其中961例为功能性注释。重复序列在基因组中的比例为55.3%,主要是长末端重复序列。根据重复序列的覆盖范围,预测了染色体上的14个端粒和9个着丝粒区域。系统发育分析表明,胡萝卜在Apiaceae科中进化较早。基于T2T基因组,我们重建了类胡萝卜素代谢途径,并鉴定了调节类胡萝卜素生物合成的结构基因。在筛选的65个基因中,有9个是新鉴定的。此外,一些基因序列与转座子重叠,表明胡萝卜进化过程中类胡萝卜素相关基因的复制和功能分化。考虑到一些基因拷贝在发育过程中几乎没有表达,它们可能在功能上是多余的。与类胡萝卜素生物合成相关的24个细胞色素P450基因的比较揭示了串联或近端重复导致CYP基因家族的扩增。这些结果为胡萝卜类胡萝卜素的积累提供了分子信息,并为新的遗传资源做出了贡献。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Telomere-to-telomere carrot (<i>Daucus carota</i>) genome assembly reveals carotenoid characteristics.

Telomere-to-telomere carrot (<i>Daucus carota</i>) genome assembly reveals carotenoid characteristics.

Telomere-to-telomere carrot (<i>Daucus carota</i>) genome assembly reveals carotenoid characteristics.

Telomere-to-telomere carrot (Daucus carota) genome assembly reveals carotenoid characteristics.

Carrot (Daucus carota) is an Apiaceae plant with multi-colored fleshy roots that provides a model system for carotenoid research. In this study, we assembled a 430.40 Mb high-quality gapless genome to the telomere-to-telomere (T2T) level of "Kurodagosun" carrot. In total, 36 268 genes were identified and 34 961 of them were functionally annotated. The proportion of repeat sequences in the genome was 55.3%, mainly long terminal repeats. Depending on the coverage of the repeats, 14 telomeres and 9 centromeric regions on the chromosomes were predicted. A phylogenetic analysis showed that carrots evolved early in the family Apiaceae. Based on the T2T genome, we reconstructed the carotenoid metabolic pathway and identified the structural genes that regulate carotenoid biosynthesis. Among the 65 genes that were screened, 9 were newly identified. Additionally, some gene sequences overlapped with transposons, suggesting replication and functional differentiation of carotenoid-related genes during carrot evolution. Given that some gene copies were barely expressed during development, they might be functionally redundant. Comparison of 24 cytochrome P450 genes associated with carotenoid biosynthesis revealed the tandem or proximal duplication resulting in expansion of CYP gene family. These results provided molecular information for carrot carotenoid accumulation and contributed to a new genetic resource.

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