多种碳利用水生植物 Ottelia alismoides 的基因组组装。

IF 1.9 Q3 GENETICS & HEREDITY BMC genomic data Pub Date : 2024-05-23 DOI:10.1186/s12863-024-01230-0
Zheng-Feng Wang, Lin-Fang Wu, Lei Chen, Wei-Guang Zhu, En-Ping Yu, Feng-Xia Xu, Hong-Lin Cao
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引用次数: 0

摘要

目标Ottelia Pers.属水芹科。该属物种为水生植物,中国是其在亚洲的原产地中心。Ottelia alismoides (L.) Pers.分布于世界各地,是中国的一个特色物种,而该属的其他物种则为中国特有。然而,由于栖息地的丧失和一些亚洲国家的污染,O. alismoides 也被认为是濒危物种。Ottelia alismoides是唯一含有三种二氧化碳浓缩机制的沉水大型植物,即碳酸氢盐(HCO3-)利用、褐藻酸代谢和C4途径。在这项研究中,我们首次对其基因组进行了组装,以帮助说明各种碳代谢机制,并在未来实现基因保护:本研究使用从一片 O. alismoides 叶片中提取的 DNA 和 RNA,产生了 73.4 Gb HiFi 读数、126.4 Gb 全基因组测序短读数和 21.9 Gb RNA-seq 读数。从头开始的基因组组装长度为6,455,939,835 bp,有11,923个支架/片段,N50为790,733 bp。利用基准通用单拷贝同源物(Benchmarking Universal Single-Copy Orthologs)进行的基因组组装完整性评估显示,得分率为 94.4%。装配中的重复序列为 4,875,817,144 bp(75.5%)。共预测出 116 176 个基因。根据多个数据库对蛋白质序列进行了功能注释,便于进行基因组比较分析。
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Genome assembly of Ottelia alismoides, a multiple-carbon utilisation aquatic plant.

Objectives: Ottelia Pers. is in the Hydrocharitaceae family. Species in the genus are aquatic, and China is their centre of origin in Asia. Ottelia alismoides (L.) Pers., which is distributed worldwide, is a distinguishing element in China, while other species of this genus are endemic to China. However, O. alismoides is also considered endangered due to habitat loss and pollution in some Asian countries. Ottelia alismoides is the only submerged macrophyte that contains three carbon dioxide-concentrating mechanisms, i.e. bicarbonate (HCO3-) use, crassulacean acid metabolism and the C4 pathway. In this study, we present its first genome assembly to help illustrate the various carbon metabolism mechanisms and to enable genetic conservation in the future.

Data description: Using DNA and RNA extracted from one O. alismoides leaf, this work produced ∼ 73.4 Gb HiFi reads, ∼ 126.4 Gb whole genome sequencing short reads and ∼ 21.9 Gb RNA-seq reads. The de novo genome assembly was 6,455,939,835 bp in length, with 11,923 scaffolds/contigs and an N50 of 790,733 bp. Genome assembly completeness assessment with Benchmarking Universal Single-Copy Orthologs revealed a score of 94.4%. The repetitive sequence in the assembly was 4,875,817,144 bp (75.5%). A total of 116,176 genes were predicted. The protein sequences were functionally annotated against multiple databases, facilitating comparative genomic analysis.

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