The plastome and phylogenetic status of Cotoneaster rosiflorus (Rosaceae).

IF 0.7 4区生物学 Q4 GENETICS & HEREDITY Mitochondrial DNA. Part B, Resources Pub Date : 2024-08-02 eCollection Date: 2024-01-01 DOI:10.1080/23802359.2024.2385616

Kaikai Meng, Qiang Fan, Min Lin, Shouhui Huang

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Abstract

Endemic to Taiwan Province, China, Cotoneaster rosiflorus Kun-Cheng Chang & Fu-Yuan Lu 2011 (Rosaceae) holds significant ecological and ornamental importance. Despite its value, research on its molecular data and phylogenetic position has remained limited. In this study, we addressed this gap by sequencing the genome-skimming data, assembling its plastome, and investigating its phylogenetic position. The plastome, spanning 159,449 bp in length, consisted of a large single-copy (87,433 bp), a small single-copy (19,262 bp), and two inverted repeat regions (26,377 bp). We annotated a total of 128 functional genes, including 84 protein-coding genes, 36 transfer genes, and eight ribosomal RNA genes. The phylogenetic results indicated that C. rosiflorus is closely related to C. dammerii, suggesting that C. rosiflorus might have captured its chloroplast from C. dammerii through hybridization and introgression events. This study offered valuable insights for forthcoming phylogenetic and population genetic investigations of Cotoneaster.

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Cotoneaster rosiflorus（蔷薇科）的质体和系统发育状况。

Cotoneaster rosiflorus（蔷薇科）是中国台湾省特有的植物，具有重要的生态和观赏价值。尽管它很有价值，但对其分子数据和系统发育位置的研究仍然有限。在本研究中，我们针对这一空白，对其基因组脱脂数据进行了测序，组装了其质粒体，并研究了其系统发育位置。质粒组的长度为 159,449 bp，由一个大的单拷贝（87,433 bp）、一个小的单拷贝（19,262 bp）和两个倒置重复区（26,377 bp）组成。我们共注释了 128 个功能基因，包括 84 个蛋白质编码基因、36 个转移基因和 8 个核糖体 RNA 基因。系统发育结果表明，C. rosiflorus与C. dammerii亲缘关系密切，表明C. rosiflorus的叶绿体可能是通过杂交和引种事件从C. dammerii获得的。这项研究为即将开展的栒子属系统发育和种群遗传研究提供了宝贵的见解。

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来源期刊

Mitochondrial DNA. Part B, Resources Biochemistry, Genetics and Molecular Biology-Molecular Biology

CiteScore

1.30

自引率

20.00%

发文量

670

期刊介绍： This open access journal publishes high-quality and concise research articles reporting the sequence of full mitochondrial genomes, and short communications focusing on the physical, chemical, and biochemical aspects of mtDNA and proteins involved in mtDNA metabolism and interactions.