金针菜（Malpighia emarginata DC.）染色体级基因组组装。

IF 3.9 2区生物学 Q1 GENETICS & HEREDITY DNA Research Pub Date : 2024-12-01 DOI:10.1093/dnares/dsae029

Kenta Shirasawa, Kazuhiko Harada, Noriaki Haramoto, Hitoshi Aoki, Shota Kammera, Masashi Yamamoto, Yu Nishizawa

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引用次数: 0

摘要

金针菜（Malpighia emarginata DC.）是一种热带常绿灌木，能结出富含维生素 C 的果实。增加果实营养是金针菜育种计划的主要目标之一。基因组工具已被证明可以加速植物育种，即使是生命周期通常较长的果树物种也不例外；然而，迄今为止，金合欢的基因组资源还很有限。在本研究中，作为开发金合欢高效育种技术的第一步，我们利用高保真长线程测序和基因图谱建立了金合欢染色体组规模的基因组组装。由此产生的基因组包括 10 个染色体级序列，物理距离为 1,032.5 Mb，包含 35,892 个预测基因。对 60 种金针菜育种材料中的全基因组 SNP 进行系统发育分析，发现了三个不同的基因组。总之，本研究开发的金针菜基因组资源，包括其基因组和基因序列、遗传图谱以及育种材料之间的系统发育关系，不仅有助于金针菜育种，还将促进金针菜及相关物种的基因组和遗传研究。

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Chromosome-scale genome assembly of acerola (Malpighia emarginata DC.).

Acerola (Malpighia emarginata DC.) is a tropical evergreen shrub that produces vitamin C-rich fruits. Increasing fruit nutrition is one of the main targets of acerola breeding programs. Genomic tools have been shown to accelerate plant breeding even in fruiting tree species, which generally have a long-life cycle; however, the availability of genomic resources in acerola, so far, has been limited. In this study, as a first step toward developing an efficient breeding technology for acerola, we established a chromosome-scale genome assembly of acerola using high-fidelity long-read sequencing and genetic mapping. The resultant assembly comprises 10 chromosome-scale sequences that span a physical distance of 1,032.5 Mb and contain 35,892 predicted genes. Phylogenetic analysis of genome-wide SNPs in 60 acerola breeding materials revealed 3 distinct genetic groups. Overall, the genomic resource of acerola developed in this study, including its genome and gene sequences, genetic map, and phylogenetic relationship among breeding materials, will not only be useful for acerola breeding but will also facilitate genomic and genetic studies on acerola and related species.

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来源期刊

DNA Research 生物-遗传学

CiteScore

6.00

自引率

4.90%

发文量

审稿时长

4.5 months

期刊介绍： DNA Research is an internationally peer-reviewed journal which aims at publishing papers of highest quality in broad aspects of DNA and genome-related research. Emphasis will be made on the following subjects: 1) Sequencing and characterization of genomes/important genomic regions, 2) Comprehensive analysis of the functions of genes, gene families and genomes, 3) Techniques and equipments useful for structural and functional analysis of genes, gene families and genomes, 4) Computer algorithms and/or their applications relevant to structural and functional analysis of genes and genomes. The journal also welcomes novel findings in other scientific disciplines related to genomes.