苋科雌雄异株苋质体的比较分析及其系统发育意义。

Damilola A Raiyemo, Patrick J Tranel
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引用次数: 1

摘要

背景:苋属由70-80种组成,分布在世界温带和热带地区。九种雌雄异株,原产于北美;其中两种在农艺学上是行作物的重要杂草。该属在分类学上具有挑战性,包括雌雄异株在内的物种之间的关系尚不清楚。在本研究中,我们研究了紫红花雌雄异株间的系统发育关系,并试图获得质体树不一致的见解。对19种苋属植物的完整质体进行了分析。其中,7个雌雄异株苋质体体是新测序和组装的,另外2个质体体是从先前发表的短reads序列中组装的,另外10个质体体是从公共数据库(GenBank)中获得的。结果:对雌雄异株苋质体进行比较分析,发现其大小在150,011 ~ 150,735 bp之间,包含112个独特基因(78个蛋白质编码基因,30个转移rna和4个核糖体rna)。最大似然树、贝叶斯推理树和分裂图均支持猕猴桃亚属(7个雌雄异株种)和苋属的单系分布;然而,南麻和大麻与其他雌雄异株的关系无法确定,因为它似乎发生了叶绿体捕获,导致了猕猴桃+苋枝的分支。我们的研究结果还显示,在一些树枝上,质体内冲突在某些情况下通过使用全叶绿体基因组比对得到缓解,这表明非编码区为浅层次关系解决提供了有价值的系统发育信号。此外,我们报告了a . palmeri和a . watsonii之间的进化距离很低,表明这两个物种的遗传相关性比以前报道的要高。结论:我们的研究提供了宝贵的质体资源,并为进一步分析整个苋属的进化提供了框架,因为更多的物种被测序。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Comparative analysis of dioecious Amaranthus plastomes and phylogenomic implications within Amaranthaceae s.s.

Comparative analysis of dioecious Amaranthus plastomes and phylogenomic implications within Amaranthaceae s.s.

Background: The genus Amaranthus L. consists of 70-80 species distributed across temperate and tropical regions of the world. Nine species are dioecious and native to North America; two of which are agronomically important weeds of row crops. The genus has been described as taxonomically challenging and relationships among species including the dioecious ones are poorly understood. In this study, we investigated the phylogenetic relationships among the dioecious amaranths and sought to gain insights into plastid tree incongruence. A total of 19 Amaranthus species' complete plastomes were analyzed. Among these, seven dioecious Amaranthus plastomes were newly sequenced and assembled, an additional two were assembled from previously published short reads sequences and 10 other plastomes were obtained from a public repository (GenBank).

Results: Comparative analysis of the dioecious Amaranthus species' plastomes revealed sizes ranged from 150,011 to 150,735 bp and consisted of 112 unique genes (78 protein-coding genes, 30 transfer RNAs and 4 ribosomal RNAs). Maximum likelihood trees, Bayesian inference trees and splits graphs support the monophyly of subgenera Acnida (7 dioecious species) and Amaranthus; however, the relationship of A. australis and A. cannabinus to the other dioecious species in Acnida could not be established, as it appears a chloroplast capture occurred from the lineage leading to the Acnida + Amaranthus clades. Our results also revealed intraplastome conflict at some tree branches that were in some cases alleviated with the use of whole chloroplast genome alignment, indicating non-coding regions contribute valuable phylogenetic signals toward shallow relationship resolution. Furthermore, we report a very low evolutionary distance between A. palmeri and A. watsonii, indicating that these two species are more genetically related than previously reported.

Conclusions: Our study provides valuable plastome resources as well as a framework for further evolutionary analyses of the entire Amaranthus genus as more species are sequenced.

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