蝴蝶兰叶绿体基因组进化:IR 扩张,SSC 收缩,以及高度重排的 SSC 区域。
The chloroplast genome evolution of Venus slipper (Paphiopedilum): IR expansion, SSC contraction, and highly rearranged SSC regions.
机构信息
College of Plant Protection, Henan Agricultural University, Zhengzhou, 450002, China.
Key Laboratory of National Forestry and Grassland Administration for Orchid Conservation and Utilization, Shenzhen Key Laboratory for Orchid Conservation and Utilization, The National Orchid Conservation Center of China, The Orchid Conservation and Research Center of Shenzhen, Shenzhen, 518114, China.
出版信息
BMC Plant Biol. 2021 May 31;21(1):248. doi: 10.1186/s12870-021-03053-y.
BACKGROUND
Paphiopedilum is the largest genus of slipper orchids. Previous studies showed that the phylogenetic relationships of this genus are not well resolved, and sparse taxon sampling documented inverted repeat (IR) expansion and small single copy (SSC) contraction of the chloroplast genomes of Paphiopedilum.
RESULTS
Here, we sequenced, assembled, and annotated 77 plastomes of Paphiopedilum species (size range of 152,130 - 164,092 bp). The phylogeny based on the plastome resolved the relationships of the genus except for the phylogenetic position of two unstable species. We used phylogenetic and comparative genomic approaches to elucidate the plastome evolution of Paphiopedilum. The plastomes of Paphiopedilum have a conserved genome structure and gene content except in the SSC region. The large single copy/inverted repeat (LSC/IR) boundaries are relatively stable, while the boundaries of the inverted repeat and small single copy region (IR/SSC) varied among species. Corresponding to the IR/SSC boundary shifts, the chloroplast genomes of the genus experienced IR expansion and SSC contraction. The IR region incorporated one to six genes of the SSC region. Unexpectedly, great variation in the size, gene order, and gene content of the SSC regions was found, especially in the subg. Parvisepalum. Furthermore, Paphiopedilum provides evidence for the ongoing degradation of the ndh genes in the photoautotrophic plants. The estimated substitution rates of the protein coding genes show accelerated rates of evolution in clpP, psbH, and psbZ. Genes transferred to the IR region due to the boundary shift also have higher substitution rates.
CONCLUSIONS
We found IR expansion and SSC contraction in the chloroplast genomes of Paphiopedilum with dense sampling, and the genus shows variation in the size, gene order, and gene content of the SSC region. This genus provides an ideal system to investigate the dynamics of plastome evolution.
背景
兜兰属是拖鞋兰属中最大的属。先前的研究表明,该属的系统发育关系尚未得到很好的解决,并且记录的分类群采样稀疏表明,兜兰属的叶绿体基因组发生了反向重复(IR)扩展和小单拷贝(SSC)收缩。
结果
在这里,我们对 77 种兜兰属物种的质体基因组进行了测序、组装和注释(大小范围为 152,130-164,092bp)。基于质体的系统发育解决了该属的关系,除了两个不稳定物种的系统发育位置外。我们使用系统发育和比较基因组学方法阐明了兜兰属的质体进化。除了 SSC 区域外,兜兰属的质体具有保守的基因组结构和基因组成。大单拷贝/反向重复(LSC/IR)边界相对稳定,而反向重复和小单拷贝区(IR/SSC)的边界在物种间有所不同。与 IR/SSC 边界变化相对应,该属的质体基因组经历了 IR 扩展和 SSC 收缩。IR 区包含 SSC 区的一个到六个基因。出乎意料的是,发现 SSC 区的大小、基因顺序和基因组成存在很大的变异,特别是在亚属。此外,兜兰属为光自养植物中 ndh 基因的持续退化提供了证据。蛋白质编码基因的估计取代率显示 clpP、psbH 和 psbZ 的进化速度加快。由于边界转移而转移到 IR 区的基因也具有更高的取代率。
结论
我们在密集采样的兜兰属质体基因组中发现了 IR 扩展和 SSC 收缩,该属在 SSC 区的大小、基因顺序和基因组成方面表现出多样性。该属提供了一个研究质体进化动态的理想系统。
Zotero 插件