• Korean Journal of Plant Taxonomy
• /
• v.41 no.3
• /
• pp.209-214
• /
• 2011

The taxonomy of the umbelliferous species Angelica amurensis and its allies was reviewed on the basis of molecular phylogenies derived from sequences of nuclear ribosomal DNA internal transcribed spacer (ITS) regions. Strict consensus of six minimal length 119-step trees derived from equally weighted maximum parsimony analysis of combined nuclear rDNA ITS1 and ITS2 sequences from 29 accessions of Angelica and outgroups indicated that Angelica purpuraefolia, known to be endemic to Korea, is the same species as A. amurensis. Comparisons of sequence pairs across both spacer regions revealed identity or 1-2 bp differences between A. purpuraefolia and A. amurensis. These results indicated that the two taxa are not distinguished taxonomically. Also, nuclear rDNA ITS regions are discussed as potential barcoding loci for identifying Korean Angelica.

• Journal of Life Science
• /
• v.21 no.2
• /
• pp.273-278
• /
• 2011

Plants which had been classified to the Scrophulariaceae of the Lamiales were recently reclassified. Many of them were moved to the other families of Lamiales according to the DNA sequences of the plastid DNA. Among those, Melampyrum roseum, Phtheirospermum japonicum, Pseudolysimachion undulata, Lindernia crustacea and Mazus pumilus were chosen for phylogenetic analyses. DNA sequences of 18S rRNA gene and ITS1 of those plants were determined and deposited into GenBank (accession numbers GU359046, GU359047, GU359048, GU359049, GU359050, respectively). Analyses of those DNA sequences confirmed the current classification done on the basis of the plastid DNA sequences of Melampyrum roseum, Phtheirospermum japonicum and Pseudolysimachion undulata. However, it was not possible to classify Mazus pumilus and Lindernia crustacea due to discrepancies of analyses data.

• Animal cells and systems
• /
• v.5 no.4
• /
• pp.283-290
• /
• 2001

Phylogenetic relationships among the Korean taxa of the genus Allium subgenus Rhizirideum and some related taxa were assessed on the basis of in sequences of nuclear ribosomal DNA. Twenty-eight accessions of the genus Allium L. consisting of subgenera Rhizirideum (19 taxa), Allium (5 taxa) and Amerallium (one taxon) were analyzed. The variation in the ITS region was informative at the levels of section except for sect. Reticulato- bulbosa which is known to be of multiple origin. The ITS 2 region was longer than the ITS 1 region, and all of the investigated Allium taxa were the same in length in the 5.8S region except for A. monanthum. Allium cyaneum var. cyaneum was the shortest (635 bp) and A. victorialis the longest (646 bp) among the investigated Korean taxa. The three morphologically similar taxa, A. thunbergii, A. sacculiferum that has been included in A. thunbergii, and A. deltoid- fistulosum, had the same ITS lengths of 641 bp, but were clearly distinguished in the phylogenetic analysis of their ITS sequences.

• Mycobiology
• /
• v.51 no.2
• /
• pp.109-113
• /
• 2023

Auricularia is one of the broadly cultivated edible mushrooms in Korea. Most of the Korean Auricularia strains used for cultivation and breeding are known as A. auricula-judae. Recently, this species has been reported to belong to a species complex. Therefore, this study was carried out to genetically clarify the bred and cultivated Korean A. auricula-judae strains. The internal transcribed spacer (ITS) and IGS1 rDNA region sequences were determined from 10 A. auricula-judae strains by PCR and sequencing. Variation in the nucleotide sequence and sequence length of the two rDNA regions were found among the seven A. auricula-judae strains. A maximum-likelihood (ML) phylogenetic tree based on the ITS sequences clearly placed all the 10 Korean A. auricula-judae strains in the A. heimuer clade of the A. auriculajudae complex. A. heimuer is diverged from A. auricula-judae. An ML phylogenetic tree based on the IGS1 sequences revealed the close relationship between Korean A. heimuer strains to Chinese A. heimuer strains. But each strain could be distinguishable by the IGS1 sequence. Furthermore, progeny strains in the seven Korean strains could be differentiated from their parental strains by the IGS1 sequence based phylogenetic tree. Our results are expected to be used to complement the distinction of domestic Auricularia cultivars.

• ALGAE
• /
• v.22 no.3
• /
• pp.147-152
• /
• 2007

We described two brownish freshwater Cryptomonas species, C. marssonii Skuja and C. pyrenoidifera Geitler as first records in Korea. The identification was based on light microscopy, scanning electron microscopy, and nuclear SSU rDNA sequences analysis. Cryptomonas marssonii is characterized by its sigmoid shape with a sharply pointed and dorsally curved antapex, dorso-ventrally flattened cell, two lateral plastids without pyrenoid, and its dimension of 18-25 μm in length and 8-13 μm in width. Cryptomonas pyrenoidifera is characterized by ovoid to elliptical shape with a partially twisted or rounded antapex, dorso-ventrally biconvex cell, lateral plastids with two pyrenoids, and the dimensions of 15-22 μm in length and 10-14 μm in width. Nuclear SSU rDNA sequences between C. marssonii WCK01 from Korea and CCAC0086 from Gernmay, and between C. pyrenoidifera WCK02 from Korea and CCMP152 from Australia were identical, respectively.

• Mycobiology
• /
• v.28 no.1
• /
• pp.17-26
• /
• 2000

The orchid symbiotic fungi were isolated from the roots of Korean native orchid (Cymbidium goeringii) collected and Chinese orchid (C. sinense) obtained from greenhouses. They were identified as a species of Rhizoctonia, based on the sequences of 18r rDNA, the microscopic observations of mycelia, and the symbiotic relationships with commercial orchids. The isolate collected from Chinese orchids was revealed to be a species of Ceratobasidium endophytica, and to be different from the other isolates at the thickness of the mycelia stained in the root cells of Korean native orchids. The other isolates collected from the Korean native orchids were considered to be a species of Tulsanella repens (anamorphic: Epulorhiza repens) or its related one. The physiologic or microscopic variations were oftenly observed among them, but the tendency of grouping these in the 18s rDNA sequences were observed to be consistent with those of the localities collected. The further taxonomical segregating for Korean symbiotic fungi was not made because the information concerned were limited in this moment, but was recognized as based on the sequences of 18s DNA.

• Journal of Life Science
• /
• v.11 no.2
• /
• pp.126-134
• /
• 2001

The phylogenetic tree displayed the presence of five groups in the Phellinus genus, which were distinguished based on their morphology. Most of the p. linteus appeared a cluster which was highly significant with the exception of P. linteus KACC 500122 and KACC 500411. They formed the sister taxa of P 1inteus where P. baumii, Phellinus sp. MPNU 7003, MPNU 7007, and MPNU 7010 had similar morphological characteristics. Also, P. nigricans IMSNU 32024 and P. pini var, carniformans IMSNU 32031 were grouped in the same cluster with P. igniarius KCTC 6227, KCTC 6228, and P. chrysoloma KCTC 6225 extracted from the Gen-Bank database. P. torulosus IMSNU 32028 and Phellinus sp. MPNU 7011 formed a closed group, however, these species had a distant taxa when compared with the other Phellinus species. The nucleotide sequences of the internal transcribed spacer (ITS) regions of ribosomal DNA (rDNA) including the 5.85 rDNA were determined from 24 strains of the Phellinus genus in order to analyze their phylogenetic relationship. These fungi were divided into two basic groups based on their ITS length, however, this grouping was different from that based on their morphological characteristics. Although various ITS sequences were ambiguously aligned, conserved sites were also identified. Accordingly, a neighbor-joining tree was constructed using the nucleotide sequence data of the conserved sites of the ITS regions and the 5.8S rDNA.

• The Korea Journal of Herbology
• /
• v.24 no.3
• /
• pp.59-68
• /
• 2009

Objectives : Bupleuri Radix (Siho) is prescribed as the root of different Bupleurum species on the pharmarcopoeia in Korea and China. Moreover, other species and varieties of the genus Bupleurum have been also distributed on the herbal market as Bupleuri Radix. However, due to the morphological similarity and frequent occurrence of intermediate forms, the correct identification of this radix is very difficult. To develop a reliable method for correct identification and improving the quality standards of official Bupleuri Radix, we analyzed sequences of the ribosomal RNA gene and internal transcribed spacer (rDNA-ITS) region. Methods : PCR amplification of rDNA-ITS region was performed using ITS1 and ITS4 primer from 6 Bupleurum species and 1 variety, B. falcatum L. (Siho), an improved breed of B. falcatum L. (Samdo-Siho), B. chinense DC. (Buk-Siho), B. scorzonerifolium Willd. (Nam-Siho), B. longiadiatum Turcz. (Gae-Siho), B. euphorbiodes Nakai (Deungdae-Siho) and B. latissimum Nakai (Seom-Siho), and nucleotide sequence was determined after sub-cloning into the pGEM-Teasy vector. Authentic marker nucleotides were estimated by the analysis of ClastalW using entire rDNA-ITS sequence of three samples per species. Results : In comparative analysis of the rDNA-ITS sequences, we found specific nucleotides to distinguish Korean (B. falcatum L. and its variety) and Chinese official species (B. chinense DC. and B. scorzonerifolium Willd.) from others at positions 411 and 447, and positions 89, 101, 415 and 599, respectively. Futhermore, we also found nucleotide indels (insertion and/or deletion) and substitutions to identify each of different Bupleurum species, 2 positions for B. falcatum L. and its variety, 6 positions for B. chinense DC., 49 positions for B. scorzonerifolium Willd., 8 positions for B. euphorbioides Nakai, 7 positions for B. longiradiatum Nakai and 9 positions for B. latissimum Nakai. These sequence differences at corresponding positions are avaliable nucleotide markers to determine the botanical origins of Bupleuri Radix. Moreover, we confirmed the phylogenetic relationship of B. latissimum Nakai, a Korean endemic speices, among Bupleurum species based on the rDNA-ITS sequence. Conclusions : These marker nucleotides would be useful to identify the official herbal medicines by the providing of definitive information that can identify each plant species and distinguish it from unauthentic adulterant Bupleurum species.

• The Korea Journal of Herbology
• /
• v.30 no.3
• /
• pp.41-47
• /
• 2015

Objectives : Due to the morphological similarity of the pericarp and description of multi-species in National Pharmacopoeia of Korea and China, the Zanthoxylum Pericarpium is difficult to authenticate adulterant in species levels. Therefore, we introduced the sequence analysis of DNA barcode and identification of single nucleotide polymorphism(SNP) to establish a reliable tool for the distinction of Zanthoxylum Pericarpium from its adulterants. Methods : To analyze DNA barcode region, genomic DNA was extracted from twenty-four specimens of authentic Zanthoxylum species and inauthentic adulterant and the individual internal transcribed spacer regions (rDNA-ITS and ITS2) of nuclear ribosomal RNA gene were amplified using ITS1, ITS2-S2F, and ITS4 primer. For identification of species-specific sequences, a comparative analysis was performed using entire DNA barcode sequences. Results : In comparison of four Zanthoxylum ITS2 sequences, we identified 16, 4, 6, and 4 distinct species-specific nucleotides enough to distinguish Z. schinifolium, Z. bungeanum, Z. piperitum, and Z. simulans, respectively. The sequence differences were available genetic marker to discriminate four species. Futhermore, phylogenetic relationship revealed a clear classification between different Zanthoxylum species showing 4 different clusters. These results indicated that comparative analysis of ITS2 DNA barcode was an useful genetic marker to authenticate Zanthoxylum Pericarpium in species levels. Conclusions : The marker nucleotides, enough to distinguish Z. schinifolium, Z. piperitum, Z. bungeanum, and Z. simulans, were obtained at 30 SNP marker nucleotides from ITS2 sequences. These differences could be used to authenticate official Zanthoxylum Pericarpium from its adulterants as well as discriminating each four species.

• The Korea Journal of Herbology
• /
• v.25 no.4
• /
• pp.47-54
• /
• 2010

Objectives : The original plant species of Schisandrae Fructus (O-mi-ja) is prescribed as Schisandra chinensis $B_{AILL.}$, in Korea, but S. chinensis $B_{AILL.}$ and S. sphenanthera $R_{EHD.}$ et $W_{ILS.}$ in China. Moreover, fruit of several other species in genus Schisandra also have been used as the same herbal medicines. To develop a reliable method for correct identification of Schisandrae Fructus and to evaluate the phylogenetic relationship of S. chinensis and its related species, we analyzed internal transcribed spacer (ITS) sequences of nuclear ribosomal DNA (nrDNA). Methods : Twenty-four plant samples of three Schisandra species and one Kadsura species, S. chinensis $B_{AILL.}$, S. spenanthera $R_{EHD.}$ et $W_{ILS.}$, S. nigra $M_{ax.}$ and Kadsura japonica $D_{UNAL}$ were collected from each different native habitate and farm in Korea and China. The nrDNA-ITS region of each samples were amplified using ITS1 and ITS4 primer and nucleotide sequences were determined after sub-cloning into the pGEM-Teasy vector. Authentic marker nucleotides were estimated by the analysis of ClastalW based on the entire nrDNA-ITS sequence. Results : In comparative analysis of the nrDNA-ITS sequences, we found specific nucleotide sequences including indels (insertions and deletions) and substitutions to distinguish C. chinensis, S. spenanthera, S. nigra, and K. japonica. These sequence differences at corresponding positions are avaliable nucleotide markers to determine the botanical origin of O-mi-ja. Moreover, we evaluated the phylogenetic relationship of four plant species by the analysis of nrDNA-ITS sequences. Conclusions : These marker nucleotides would be useful to identify the official herbal medicines by the providing of definitive information that can identify each plant species and distinguish it from unauthentic adulterants for O-mi-ja.