利用完整叶绿体基因组和核糖体DNA序列对一个分类困难的竹属进行物种鉴定

Testing complete plastomes and nuclear ribosomal DNA sequences for species identification in a taxonomically difficult bamboo genus .

作者信息

Lv Shi-Yu, Ye Xia-Ying, Li Zhong-Hu, Ma Peng-Fei, Li De-Zhu

机构信息

School of Life Science, Northwest University, Xi'an, Shaanxi, 710069, China.

Germplasm Bank of Wild Species, Kunming Institute of Botany, Chinese Academy of Sciences, Kunming, Yunnan, 650201, China.

出版信息

Plant Divers. 2022 Apr 27;45(2):147-155. doi: 10.1016/j.pld.2022.04.002. eCollection 2023 Mar.

DOI:10.1016/j.pld.2022.04.002

PMID:37069924

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10105076/

Abstract

, the largest genus within the temperate bamboo tribe Arundinarieae, has more than 90 species mainly distributed in the mountains of Southwest China. The bamboos are important components of the subalpine forest ecosystems that provide food and habitat for many endangered animals, including the giant panda. However, species-level identification of is difficult. Moreover, the rapid radiation and slow molecular evolutionary rate of pose a significant challenge to using DNA barcoding with standard plant barcodes (, , and ITS) in bamboos. With progress in the sequencing technologies, complete plastid genomes (plastomes) and nuclear ribosomal DNA (nrDNA) sequences have been proposed as organelle barcodes for species identification; however, these have not been tested in bamboos. We collected 196 individuals representing 62 species of to comprehensively evaluate the discriminatory power of plastomes and nrDNA sequences compared to standard barcodes. Our analysis indicates that complete plastomes have substantially higher discriminatory power (28.6%) than standard barcodes (5.7%), whereas nrDNA sequences show a moderate improvement (65.4%) compared to ITS (47.2%). We also found that nuclear markers performed better than plastid markers, and ITS alone had higher discriminatory power than complete plastomes. The study also demonstrated that plastomes and nrDNA sequences can contribute to intrageneric phylogenetic resolution in . However, neither of these sequences were able to discriminate all the sampled species, and therefore, more nuclear markers need to be identified.

摘要

[该属是温带竹亚科青篱竹族中最大的属，有90多个物种，主要分布在中国西南部山区。这些竹子是亚高山森林生态系统的重要组成部分，为包括大熊猫在内的许多濒危动物提供食物和栖息地。然而，[该属]物种水平的鉴定很困难。此外，[该属]的快速辐射和缓慢的分子进化速率对在竹子中使用标准植物条形码（[条形码名称1]、[条形码名称2]和ITS）进行DNA条形码鉴定提出了重大挑战。随着测序技术的进步，完整的质体基因组（质体基因组）和核糖体DNA（nrDNA）序列已被提议作为物种鉴定的细胞器条形码；然而，这些尚未在竹子中进行测试。我们收集了代表[该属]62个物种的196个个体，以全面评估质体基因组和nrDNA序列与标准条形码相比的鉴别能力。我们的分析表明，完整的质体基因组具有比标准条形码（5.7%）高得多的鉴别能力（28.6%），而nrDNA序列与ITS（47.2%）相比有适度提高（65.4%）。我们还发现核标记比质体标记表现更好，单独的ITS比完整的质体基因组具有更高的鉴别能力。该研究还表明，质体基因组和nrDNA序列有助于[该属]内的系统发育解析。然而，这些序列都无法区分所有采样物种，因此，需要鉴定更多的核标记。]

需注意，原文中部分关键属名未给出具体中文，这里用[该属]表示，实际翻译时应根据具体属名准确翻译。

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