海棠叶绿体基因组完整序列。

IF 0.7 4区生物学 Q4 GENETICS & HEREDITY Mitochondrial DNA. Part B, Resources Pub Date : 2024-09-30 eCollection Date: 2024-01-01 DOI:10.1080/23802359.2024.2410444

Huan Li, Tianlei Zhang, Jiale Liang, Xuan Tang, Zhuoyu Chenyang, Rong Zhu, Ying Chen, Qishan Kuang, Rongjie Huang, Hanbin Yin, Xingyu Zeng, Yongle Liu, Zhitian Du, Kerui Huang, Lei Sun

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引用次数: 0

摘要

Begonia pedatifida 一直被用作传统的民间草药。本研究对贴梗海棠的叶绿体基因组进行了测序，以确定其基因组特征，并分析其与其他近缘物种的系统发育关系。pedatifida 的叶绿体基因组结构显示，它是一个长度为 169,606 bp 的环状分子，包括一个 76,086 bp 的大单拷贝（LSC）区、一个 18,314 bp 的小单拷贝（SSC）区和一个 37,603 bp 的对倒重复（IRS）区。整个基因组包含 138 个基因，其中包括 88 个蛋白质编码基因、42 个 tRNA 基因和 8 个 rRNA 基因。系统发育分析表明，B. pedatifida 与峨眉海棠、缙云海棠和白花海棠亲缘关系密切，具有共同的祖先并形成姊妹系。这项研究为进一步研究 B. pedatifida 提供了遗传信息。

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The complete chloroplast genome sequence of Begonia pedatifida.

Begonia pedatifida has persistently been utilized as a traditional folk herbal medicine. This study has sequenced the chloroplast genome of B. pedatifida to establish its genomic characteristics and to discern its phylogenetic relationships with other closely related species. The chloroplast genome structure of B. pedatifida reveals a circular molecule with a length of 169,606 bp, including a large single copy (LSC) region of 76,086 bp, a small single copy (SSC) region of 18,314 bp, and a pair of inverted repeats (IRS) region of 37,603 bp. The entire genome contains 138 genes, which consist of 88 protein-coding genes, 42 tRNA genes, and 8 rRNA genes. Phylogenetic analysis suggests that B. pedatifida is closely related to Begonia emeiensis, Begonia jinyunensis, and Begonia pulchrifolia, sharing a common ancestor and forming sister lineages. This research provides genetic information for further study on B. pedatifida.

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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.