Phylogenetic relationships among Artemisia species based on nuclear ITS and chloroplast psbA-trnH DNA markers

Haghighi, Ahmad Razban; Beldüz, Ali Osman; Vahed, Mohammad Moghaddam; Çoşkunçelebi, Kamil; Terzioğlu, Salih

doi:10.2478/s11756-014-0379-3

Cited by 20 publications

(15 citation statements)

References 21 publications

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“…In the past, because of the number of species, diverse morphological types, ploidy, and complicated genetic relationships of Artemisia , the taxonomic relationships of the genus are controversial and based only on morphological traits, such as the capitula type and floret fertility[19, 20]. As a result, considering the conserved structural and relatively compact gene density, chloroplast genomic materials are widely used in genomic evolution studies, molecular marker development, and phylogenetic analysis of the genus Artemisia .…”

Section: Introductionmentioning

confidence: 99%

Detecting useful genetic markers and reconstructing the phylogeny of an important medicinal resource plant, Artemisia selengensis, based on chloroplast genomics

et al. 2019

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Artemisia selengenesis is not only a health food, but also a well-known traditional Chinese medicine. Only a fraction of the chloroplast (cp) genome data of Artemisia has been reported and chloroplast genomic materials have been widely used in genomic evolution studies, molecular marker development, and phylogenetic analysis of the genus Artemisia, which makes evolutionary studies, genetic improvement, and phylogenetic identification very difficult. In this study, the complete chloroplast genome of A. selengensis was compared with that of other species within Artemisia and phylogenetic analyses was conducted with other genera in the Asteraceae family. The results showed that A. selengensis is an AT-rich species and has a typical quadripartite structure that is 151,215 bp in length. Comparative genome analyses demonstrated that the available chloroplast genomes of species of Artemisia were well conserved in terms of genomic length, GC contents, and gene organization and order. However, some differences, which may indicate evolutionary events, were found, such as a re-inversion event within the Artemisia genus, an unequal duplicate phenomenon of the ycf1 gene because of the expansion and contraction of the IR region, and the fast-evolving regions. Repeated sequences analysis showed that Artemisia chloroplast genomes presented a highly similar pattern of SSR or LDR distribution. A total of 257 SSRs and 42 LDRs were identified in the A. selengensis chloroplast genome. The phylogenetic analysis showed that A. selengensis was sister to A. gmelinii. The findings of this study will be valuable in further studies to understand the genetic diversity and evolutionary history of Asteraceae.

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Section: Introductionmentioning

confidence: 99%

Detecting useful genetic markers and reconstructing the phylogeny of an important medicinal resource plant, Artemisia selengensis, based on chloroplast genomics

et al. 2019

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“…The taxonomy of this diverse genus is unresolved for many years. It has been years when taxonomists conducted investigations (Bremer and Humphries, 1993;Kornkven et al, 1998Kornkven et al, , 1999Torell et al, 1999;Watson et al, 2002;D'Andrea et al, 2003;Vallès et al, 2008;Sanz et al, 2008;Pellicer et al, 2010;Garcia et al, 2011;Riggins and Seigler, 2012;Haghighi et al, 2014;Malik et al, 2017;Hussain et al, 2019b) on this single large genus with 500 species (Torrell et al, 1999;Martin et al, 2003) and recognized its six subgenera namely Dracunculus Besser, Artemisia Tourn., Absinthium (Mill.) Less., Tridentatae (Rydberg) McArthur, Seriphidium (Besser) Poljakov and Pacifica Hobbs.…”

Section: Introductionmentioning

confidence: 99%

Pollen morphology and its systematic implication on some species of <i>Artemisia</i> L. from Gilgit-Baltistan Pakistan

Hussain

Potter

Hayat

et al. 2019

Bangladesh J. Plant Taxon

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This study was accomplished to scrutinize the pollen morphology of 15 species of the genus Artemisia of the family Asteraceae from Gilgit-Baltistan region of Pakistan by means of scanning electron microscopy (SEM). Results revealed pollen grains of Artemisia species with tricolporate shape, and characterized by globular symmetry (ellipsoid ball shaped from equatorial side and three lobed rounds from polar view) with few exceptions. Additionally, the pollens are marked with reduced spinules on their surfaces which are diagnostic character for the genus Artemisia. In this study, seven micromorphological characters of pollen grains of 15 Artemisia species viz. shape of pollen, arrangement of spinules, exine sculpture, spinules base, equatorial width and polar length, were employed to construct a dendrogram following the consequential cluster analyses. In the dentrogram, four groups within the studied Artemisia species have been recognized. The pollen morphology of Artemisia could be a good taxonomic marker to cope with its taxonomic delimitations in combination with other floral and molecular attributes.

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“…Concerning the generic or subgeneric status of Seriphidium, molecular work (Torrell & al., 1999;Watson & al., 2002;Watson, 2005;Tkach & al., 2008a, b;Sanz & al., 2008Shultz, 2009;Garcia & al., 2011;Riggins & Seigler, 2012) unequivocally showed the inclusion of Seriphidium within Artemisia. Two comprehensive studies, seminal for Asteraceae (Kadereit & Jeffrey, 2007;Funk & al., 2009), have accredited Seriphidium as a subgenus within Artemisia, even though some authors (Dobignard & Chatelain, 2011;Haghighi & al., 2014) still persist in considering Seriphidium an independent genus, a solution not supported by the current knowledge.…”

Section: Introductionmentioning

confidence: 99%

Phylogeny and biogeography of Artemisia subgenus Seriphidium (Asteraceae: Anthemideae)

Malik

Vitales

Hayat

et al. 2017

TAXON

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Artemisia subg. Seriphidium is one of the largest groups within Artemisia, encompassing more than one hundred spe cies, some of them having considerable ecological and economical importance. However, the evolution of subg. Seriphidium has received less attention in comparison to other subgenera of Artemisia, probably, apart from the difficulty of sampling throughout its very large distribution area, because of the low molecular and morphological variability observed in previous studies. Here, we use thorough taxonomic sampling within both Artemisia and subg. Seriphidium to reconstruct the evolutionary history of the subgenus, employing nuclear and plastid DNA sequences as well as various phylogenetic, biogeographic and diversification dynamics tools to analyse the data. Our results show that subg. Seriphidium is not monophyletic, but segregated into two main clades: one large monophyletic group corresponding to the formerly recognised sect. Seriphidium and a second, small clade, phylogenetically distant from the first. Biogeographic and diversification analyses indicate that a rapid radiation of species within sect. Seriphidium occurred in Central Asia during the Miocene-Pliocene transition. The results of our biogeographic analysis suggest that this diversification process started around the Tian-Shan, Pamir and Hindu Kush mountain ranges, subsequently expanding into the Eurasian continent. Finally, we uncovered numerous incongruences between taxonomic and genetic information in several sect. Seriphidium species, which could be explained by morphological uniformity, hybridisation and/or incomplete lineage sorting processes.

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Phylogenetic relationships among Artemisia species based on nuclear ITS and chloroplast psbA-trnH DNA markers

Cited by 20 publications

References 21 publications

Detecting useful genetic markers and reconstructing the phylogeny of an important medicinal resource plant, Artemisia selengensis, based on chloroplast genomics

Detecting useful genetic markers and reconstructing the phylogeny of an important medicinal resource plant, Artemisia selengensis, based on chloroplast genomics

Pollen morphology and its systematic implication on some species of <i>Artemisia</i> L. from Gilgit-Baltistan Pakistan

Phylogeny and biogeography of Artemisia subgenus Seriphidium (Asteraceae: Anthemideae)

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