Chloroplast genome analyses of Caragana arborescens and Caragana opulens.

IF 1.9 Q3 GENETICS & HEREDITY BMC genomic data Pub Date : 2024-02-09 DOI:10.1186/s12863-024-01202-4
LiE Liu, Hongyan Li, Jiaxin Li, Xinjuan Li, Na Hu, Honglun Wang, Wu Zhou
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Abstract

Background: Numerous species within the genus Caragana have high ecological and medicinal value. However, species identification based on morphological characteristics is quite complicated in the genus. To address this issue, we analyzed complete plastid genome data for the genus.

Results: We obtained chloroplast genomes of two species, Caragana arborescens and Caragana opulens, using Illumina sequencing technology, with lengths of 129,473 bp and 132,815 bp, respectively. The absence of inverted repeat sequences in the two species indicated that they could be assigned to the inverted repeat-lacking clade (IRLC). The genomes included 111 distinct genes (4 rRNA genes, 31 tRNA genes, and 76 protein-coding genes). In addition, 16 genes containing introns were identified in the two genomes, the majority of which contained a single intron. Repeat analyses revealed 129 and 229 repeats in C. arborescens and C. opulens, respectively. C. arborescens and C. opulens genomes contained 277 and 265 simple sequence repeats, respectively. The two Caragana species exhibited similar codon usage patterns. rpl20-clpP, rps19-rpl2, and rpl23-ycf2 showed the highest nucleotide diversity (pi). In an analysis of sequence divergence, certain intergenic regions (matK-rbcL, psbM-petN, atpA-psbI, petA-psbL, psbE-petL, and rps7-rps12) were highly variable. A phylogenetic analysis showed that C. arborescens and C. opulens were related and clustered together with four other Caragana species. The genera Astragalus and Caragana were relatively closely related.

Conclusions: The present study provides valuable information about the chloroplast genomes of C. arborescens and C. opulens and lays a foundation for future phylogenetic research and molecular marker development.

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Caragana arborescens 和 Caragana opulens 的叶绿体基因组分析。
背景:卡拉干达属(Caragana)中的许多物种都具有很高的生态和药用价值。然而,根据形态特征鉴定该属的物种相当复杂。为了解决这个问题,我们分析了该属的完整质体基因组数据:结果:我们利用 Illumina 测序技术获得了 Caragana arborescens 和 Caragana opulens 两个物种的叶绿体基因组,长度分别为 129,473 bp 和 132,815 bp。这两个物种中没有倒转重复序列,表明它们可以归入缺乏倒转重复支系(IRLC)。基因组包括 111 个不同的基因(4 个 rRNA 基因、31 个 tRNA 基因和 76 个蛋白质编码基因)。此外,在两个基因组中还发现了 16 个含有内含子的基因,其中大部分都含有一个内含子。重复分析显示,C. arborescens 和 C. opulens 分别有 129 和 229 个重复。C. arborescens 和 C. opulens 基因组分别含有 277 和 265 个简单序列重复序列。rpl20-clpP、rps19-rpl2 和 rpl23-ycf2 显示出最高的核苷酸多样性(π)。在序列差异分析中,某些基因间区域(matK-rbcL、psbM-petN、atpA-psbI、petA-psbL、psbE-petL 和 rps7-rps12)的差异很大。系统进化分析表明,C. arborescens 和 C. opulens 与其他四种 Caragana 属有亲缘关系,并聚集在一起。黄芪属和 Caragana 属的亲缘关系相对较近:本研究提供了有关 C. arborescens 和 C. opulens 叶绿体基因组的宝贵信息,为今后的系统发育研究和分子标记开发奠定了基础。
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