质体结构、系统发育基因组学和樟科樟族的分歧时间。

Plastome structure, phylogenomics, and divergence times of tribe Cinnamomeae (Lauraceae).

机构信息

Key Laboratory of Plant Resources Conservation and Sustainable Utilization, South China Botanical Garden, Chinese Academy of Sciences, Guangzhou, China.

Center of Conservation Biology, Core Botanical Gardens, Chinese Academy of Sciences, Guangzhou, China.

出版信息

BMC Genomics. 2022 Sep 8;23(1):642. doi: 10.1186/s12864-022-08855-4.

DOI:10.1186/s12864-022-08855-4

PMID:36076185

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9461114/

Abstract

BACKGROUND

Tribe Cinnamomeae is a species-rich and ecologically important group in tropical and subtropical forests. Previous studies explored its phylogenetic relationships and historical biogeography using limited loci, which might result in biased molecular dating due to insufficient parsimony-informative sites. Thus, 15 plastomes were newly sequenced and combined with published plastomes to study plastome structural variations, gene evolution, phylogenetic relationships, and divergence times of this tribe.

RESULTS

Among the 15 newly generated plastomes, 14 ranged from 152,551 bp to 152,847 bp, and the remaining one (Cinnamomum chartophyllum XTBGLQM0164) was 158,657 bp. The inverted repeat (IR) regions of XTBGLQM0164 contained complete ycf2, trnI, rpl32, and rpl2. Four hypervariable plastid loci (ycf1, ycf2, ndhF-rpl32-trnL, and petA-psbJ) were identified as candidate DNA barcodes. Divergence times based on a few loci were primarily determined by prior age constraints rather than by DNA data. In contrast, molecular dating using complete plastid protein-coding genes (PCGs) was determined by DNA data rather than by prior age constraints. Dating analyses using PCGs showed that Cinnamomum sect. Camphora diverged from C. sect. Cinnamomum in the late Oligocene (27.47 Ma).

CONCLUSIONS

This study reports the first case of drastic IR expansion in tribe Cinnamomeae, and indicates that plastomes have sufficient parsimony-informative sites for molecular dating. Besides, the dating analyses provide preliminary insights into the divergence time within tribe Cinnamomeae and can facilitate future studies on its historical biogeography.

摘要

背景

樟科是热带和亚热带森林中物种丰富且具有重要生态意义的一个类群。先前的研究使用有限的基因座探索了其系统发育关系和历史生物地理学，由于缺乏简约信息位点，可能导致分子定年存在偏差。因此，本研究新测序了 15 个质体基因组，并与已发表的质体基因组相结合，研究了该科的质体结构变异、基因进化、系统发育关系和分化时间。

结果

在新生成的 15 个质体基因组中，有 14 个长度在 152551bp 到 152847bp 之间，其余一个（樟科图表叶樟 XTBGLQM0164）为 158657bp。XTBGLQM0164 的反向重复（IR）区包含完整的 ycf2、trnI、rpl32 和 rpl2。鉴定出 4 个超变质体基因座（ycf1、ycf2、ndhF-rpl32-trnL 和 petA-psbJ）为候选 DNA 条形码。少数基因座的分化时间主要由先前的年龄限制决定，而不是由 DNA 数据决定。相反，使用完整质体蛋白编码基因（PCG）的分子定年由 DNA 数据决定，而不是由先前的年龄限制决定。使用 PCG 进行的定年分析表明，樟科樟属 Camphora 组与樟科 Cinnamomum 组在渐新世晚期（27.47 Ma）分化。

结论

本研究首次报道了樟科中剧烈的 IR 扩张，表明质体基因组具有足够的简约信息位点用于分子定年。此外，定年分析为樟科内部的分化时间提供了初步见解，并有助于未来对其历史生物地理学的研究。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9f3b/9461114/30ce8f8b36e3/12864_2022_8855_Fig1_HTML.jpg

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质体结构、系统发育基因组学和樟科樟族的分歧时间。

Plastome structure, phylogenomics, and divergence times of tribe Cinnamomeae (Lauraceae).

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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