Comparative plastome analysis and taxonomic classification of snow lotus species (Saussurea, Asteraceae) in Central Asia and Southern Siberia

Four species of Saussurea , namely S. involucrata , S. orgaadayi , S. bogedaensis , and S. dorogostaiskii , are known as the “snow lotus,” which are used as traditional medicines in China (Xinjiang), Kyrgyzstan, Mongolia, and Russia (Southern Siberia). These species are threatened globally, because...

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Published in:Functional & integrative genomics 2024-04, Vol.24 (2), p.42-42, Article 42
Main Authors: Nyamgerel, Nudkhuu, Baasanmunkh, Shukherdorj, Oyuntsetseg, Batlai, Tsegmed, Zagarjav, Bayarmaa, Gun-Aajav, Lazkov, Georgy, Pyak, Elizaveta, Gil, Hee-Young, Park, Inkyu, Choi, Hyeok Jae
Format: Article
Language:English
Subjects:
Adaptation
Alpine environments
Animal Genetics and Genomics
Asteraceae
Biochemistry
Bioinformatics
Biomedical and Life Sciences
Cell Biology
China
Chloroplast DNA
chloroplast genome
Chloroplasts
Classification
Climate change
Comparative analysis
DNA
DNA-directed RNA polymerase
flora
Folk medicine
genes
Genetic analysis
genomics
Kyrgyzstan
Life Sciences
Lotus
Microbial Genetics and Genomics
Mongolia
Morphology
Nucleotide sequence
Original
Original Article
Phylogenetics
Phylogeny
Plant Genetics and Genomics
Population genetics
Population studies
Positive selection
Saussurea
Saussurea - chemistry
Saussurea - genetics
Siberia
Simple sequence repeats
Snow
species
subgenus
Taxonomy
Threatened species
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Summary:Four species of Saussurea , namely S. involucrata , S. orgaadayi , S. bogedaensis , and S. dorogostaiskii , are known as the “snow lotus,” which are used as traditional medicines in China (Xinjiang), Kyrgyzstan, Mongolia, and Russia (Southern Siberia). These species are threatened globally, because of illegal harvesting and climate change. Furthermore, the taxonomic classification and identification of these threatened species remain unclear owing to limited research. The misidentification of medicinal species can sometimes be harmful to health. Therefore, the phylogenetic and genomic features of these species need to be confirmed. In this study, we sequenced five complete chloroplast genomes and seven nuclear ITS regions of four snow lotus species and other Saussurea species. We further explored their genetic variety, selective pressure at the sequence level, and phylogenetic relationships using the chloroplast genome, nuclear partial DNA sequences, and morphological features. Plastome of the snow lotus species has a conserved structure and gene content similar to most Saussurea species. Two intergenic regions ( ndh J– ndh K and ndh D- psa C) show significantly high diversity among chloroplast regions. Thus, ITS and these markers are suitable for identifying snow lotus species. In addition, we characterized 43 simple sequence repeats that may be useful in future population genetic studies. Analysis of the selection signatures identified three genes ( rpo A, ndh B, and ycf 2) that underwent positive selection. These genes may play important roles in the adaptation of the snow lotus species to alpine environments. S. dorogostaiskii is close to S. baicalensis and exhibits slightly different adaptation from others. The taxonomic position of the snow lotus species, confirmed by morphological and molecular evidence, is as follows: (i) S. involucrata has been excluded from the Mongolian flora due to misidentification as S. orgaadayi or S. bogedaensis for a long time; (ii) S. dorogostaiskii belongs to section Pycnocephala subgenus Saussurea , whereas other the snow lotus species belong to section Amphilaena subgenus Amphilaena ; and (iii) S. krasnoborovii is synonymous of S. dorogostaiskii . This study clarified the speciation and lineage diversification of the snow lotus species in Central Asia and Southern Siberia.
ISSN:1438-793X
1438-7948
DOI:10.1007/s10142-024-01309-y