叶绿体基因组在姜亚科(姜科)中的分子进化。
Molecular evolution of chloroplast genomes in subfamily Zingiberoideae (Zingiberaceae).
机构信息
Guangdong Key Laboratory of Ornamental Plant Germplasm Innovation and Utilization, Environmental Horticulture Research Institute, Guangdong Academy of Agricultural Sciences, Guangzhou, 510640, China.
出版信息
BMC Plant Biol. 2021 Nov 23;21(1):558. doi: 10.1186/s12870-021-03315-9.
BACKGROUND
Zingiberoideae is a large and diverse subfamily of the family Zingiberaceae. Four genera in subfamily Zingiberoideae each possess 50 or more species, including Globba (100), Hedychium (> 80), Kaempferia (50) and Zingiber (150). Despite the agricultural, medicinal and horticultural importance of these species, genomic resources and suitable molecular markers for them are currently sparse.
RESULTS
Here, we have sequenced, assembled and analyzed ten complete chloroplast genomes from nine species of subfamily Zingiberoideae: Globba lancangensis, Globba marantina, Globba multiflora, Globba schomburgkii, Globba schomburgkii var. angustata, Hedychium coccineum, Hedychium neocarneum, Kaempferia rotunda 'Red Leaf', Kaempferia rotunda 'Silver Diamonds' and Zingiber recurvatum. These ten chloroplast genomes (size range 162,630-163,968 bp) possess typical quadripartite structures that consist of a large single copy (LSC, 87,172-88,632 bp), a small single copy (SSC, 15,393-15,917 bp) and a pair of inverted repeats (IRs, 29,673-29,833 bp). The genomes contain 111-113 different genes, including 79 protein coding genes, 28-30 tRNAs and 4 rRNA genes. The dynamics of the genome structures, gene contents, amino acid frequencies, codon usage patterns, RNA editing sites, simple sequence repeats and long repeats exhibit similarities, with slight differences observed among the ten genomes. Further comparative analysis of seventeen related Zingiberoideae species, 12 divergent hotspots are identified. Positive selection is observed in 14 protein coding genes, including accD, ccsA, ndhA, ndhB, psbJ, rbcL, rpl20, rpoC1, rpoC2, rps12, rps18, ycf1, ycf2 and ycf4. Phylogenetic analyses, based on the complete chloroplast-derived single-nucleotide polymorphism data, strongly support that Globba, Hedychium, and Curcuma I + "the Kaempferia clade" consisting of Curcuma II, Kaempferia and Zingiber, form a nested evolutionary relationship in subfamily Zingiberoideae.
CONCLUSIONS
Our study provides detailed information on ten complete Zingiberoideae chloroplast genomes, representing a valuable resource for future studies that seek to understand the molecular evolutionary dynamics in family Zingiberaceae. The identified divergent hotspots can be used for development of molecular markers for phylogenetic inference and species identification among closely related species within four genera of Globba, Hedychium, Kaempferia and Zingiber in subfamily Zingiberoideae.
背景
姜科姜亚科是一个大型且多样化的亚科。亚科姜属中的四个属各拥有 50 种或更多的物种,包括Globba(100 种)、Hedychium(>80 种)、Kaempferia(50 种)和 Zingiber(150 种)。尽管这些物种在农业、医药和园艺方面具有重要意义,但目前它们的基因组资源和合适的分子标记仍然稀缺。
结果
在这里,我们从姜亚科的九个物种中测序、组装和分析了十个完整的叶绿体基因组:Globba lancangensis、Globba marantina、Globba multiflora、Globba schomburgkii、Globba schomburgkii var. angustata、Hedychium coccineum、Hedychium neocarneum、Kaempferia rotunda 'Red Leaf'、Kaempferia rotunda 'Silver Diamonds'和 Zingiber recurvatum。这十个叶绿体基因组(大小范围为 162630-163968bp)具有典型的四分体结构,由一个大的单拷贝(LSC,87172-88632bp)、一个小的单拷贝(SSC,15393-15917bp)和一对反向重复(IRs,29673-29833bp)组成。基因组包含 111-113 个不同的基因,包括 79 个蛋白编码基因、28-30 个 tRNA 和 4 个 rRNA 基因。基因组结构、基因含量、氨基酸频率、密码子使用模式、RNA 编辑位点、简单重复序列和长重复序列的动态具有相似性,在十个基因组中观察到一些细微差异。进一步对十七种相关姜亚科物种的比较分析,确定了 12 个分化热点。在 14 个蛋白编码基因中观察到正选择,包括 accD、ccsA、ndhA、ndhB、psbJ、rbcL、rpl20、rpoC1、rpoC2、rps12、rps18、ycf1、ycf2 和 ycf4。基于完整的叶绿体衍生单核苷酸多态性数据的系统发育分析强烈支持Globba、Hedychium 和姜科 I + “Kaempferia 分支”(包括姜科 II、Kaempferia 和 Zingiber)在姜亚科中形成一个嵌套的进化关系。
结论
我们的研究提供了十个完整的姜亚科叶绿体基因组的详细信息,为未来研究家族姜科的分子进化动态提供了有价值的资源。鉴定出的分化热点可用于开发分子标记,用于四个属(Globba、Hedychium、Kaempferia 和 Zingiber)内的系统发育推断和种间识别。
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