Sung Hee Yeau scite author profile

We present most comprehensive phylogenetic analysis of 196 accessions of Lilium representing 83 species and 14 varieties of Lilium and three outgroup genera (Cardiocrinum, Notholirion, and Fritillaria) to investigate infrageneric relationships within Lilium as well as to determine the origin and evolution of Korean species of Lilium. We used the internal transcribed spacer sequences of nuclear ribosomal DNA and phylogenetic analysis using maximum parsimony and Bayesian inference identified several major lineages within Lilium. Only one section, Martagon, turned out to be monophyletic in the study. Three sections, Archelirion, Liriotypus, and Pseudolirium, are not monophyletic because two, one, and two species in each section were placed in other lineage, respectively. Two major lineages of section Leucolirion were confirmed in this study, and as several previous studies suggested, section Sinomartagon is highly polyphyletic. The origin of Lilium hansonii, a Korean endemic to Ullung Island, is perplexing given the fact that it has ribotype of Martagon, while its cpDNA haplotype is similar to Sinomartagon. The origin of another endemic, Lilium amabile, is equally elusive and additional phylogenetic and phylogeographic studies will shed light on their evolutions in Korea. We determined that Lilium callosum var. flavum originated from L. callosum in Southern Korea.

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Molecular divergence between disjunct taxa in eastern Asia and eastern North America

Lee

Crawford

et al. 1996

American J of Botany

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Eastern Asian‐eastern North American disjuncts in four genera were examined for allozyme divergence and sequence divergence of the internal transcribed spacers (ITS) of nuclear ribosomal DNA. The disjunct pairs of taxa include Caulophyllum robustum‐C. thalictroid.es, Menispermum dauricum‐M. canadense, Penthorum chinense‐P. sedoides, and Phryma leptostachya var. asiatica‐P. leptostachya var. leptostachya. Allozyme divergence was comparable in Caulophyllum and Penthorum (genetic identities of 0.534 and 0.546) and was considerably higher than between pairs of taxa in Menispermum (0.273) and Phryma (0.291). Caulophyllum and Penthorum, which have the highest genetic identities at allozyme loci, also have low ITS sequence divergences (1.30 and 1.65%, respectively). Phryma, which has low isozyme identity, also has the highest ITS sequence divergence (4.46%). The two taxa of Menispermum have low ITS sequence divergence (0.93%) despite having a low identity (0.273) at allozyme loci. The results suggest that divergence between the taxa in the four genera are not the result of a single historical event. Estimated divergence times are reasonably consistent with a late Miocene disjunction for Caulophyllum and Penthorum, whereas the age of the Phryma disjunction is calculated at over 20 million years. The nonconcordant divergences between allozymes and ITS sequences in Menispermum may be caused by concerted evolution in the latter or possibly longer generation time in the woody plants. Additional molecular data are needed to clarify the situation.

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A principal components analysis of reproductive characters of Korean Adonis plants ( Ranunculaceae )

Lee¹,

Lee²,

Chung³

et al. 2000

Korean J. Pl. Taxon

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Molecular Divergence Between Disjunct Taxa in Eastern Asia and Eastern North America

Lee¹,

Sang

Crawford

et al. 1996

American Journal of Botany

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Eastern Asian-eastern North American disjuncts in four genera were examined for allozyme divergence and sequence divergence of the internal transcribed spacers (ITS) of nuclear ribosomal DNA. The disjunct pairs of taxa include Caulophyllum robustum-C. thalictroides, Menispermum dauricum-M. canadense, Penthorum chinense-P. sedoides, and Phryma leptostachya var. asiatica-P. leptostachya var. leptostachya. Allozyme divergence was comparable in Caulophyllum and Penthorum (genetic identities of 0.534 and 0.546) and was considerably higher than between pairs of taxa in Menispermum (0.273) and Phryma (0.291). Caulophyllum and Penthorum, which have the highest genetic identities at allozyme loci, also have low ITS sequence divergences (1.30 and 1.65%, respectively). Phryma, which has low isozyme identity, also has the highest ITS sequence divergence (4.46%). The two taxa of Menispermum have low ITS sequence divergence (0.93%) despite having a low identity (0.273) at allozyme loci. The results suggest that divergence between the taxa in the four genera are not the result of a single historical event. Estimated divergence times are reasonably consistent with a late Miocene disjunction for Caulophyllum and Pen tho rum, whereas the age of the Phryma disjunction is calculated at over 20 million years. The nonconcordant divergences between allozymes and ITS sequences in Menispermum may be caused by concerted evolution in the latter or possibly longer generation time in the woody plants. Additional molecular data are needed to clarify the situation.

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Nuclear and cpDNA Sequences Demonstrate Spontaneous Hybridization Between Goodyera schlechtendaliana Rchb. f. and G. velutina Maxim. (Orchidaceae) in Jeju Island, Korea

Lee

Kim

Yeau

et al. 2012

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Sung Hee Yeau

Major Lineages of the Genus Lilium (Liliaceae) Based on nrDNA ITS Sequences, with Special Emphasis on the Korean Species

Molecular divergence between disjunct taxa in eastern Asia and eastern North America

A principal components analysis of reproductive characters of Korean Adonis plants ( Ranunculaceae )

Molecular Divergence Between Disjunct Taxa in Eastern Asia and Eastern North America

Nuclear and cpDNA Sequences Demonstrate Spontaneous Hybridization Between Goodyera schlechtendaliana Rchb. f. and G. velutina Maxim. (Orchidaceae) in Jeju Island, Korea

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