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"Hyeonah Shim"

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"Hyeonah Shim"

Research Articles
High-Throughput Digital Genotyping Tools for Panax ginseng Based on Diversity among 44 Complete Plastid Genomes
Woojong Jang, Yeeun Jang, Woohyeon Cho, Sae Hyun Lee, Hyeonah Shim, Jee Young Park, Jiang Xu, Xiaofeng Shen, Baosheng Liao, Ick-Hyun Jo, Young Chang Kim, Tae-Jin Yang
Plant Breed. Biotech. 2022;10(3):174-185.   Published online August 31, 2022
DOI: https://doi.org/10.9787/PBB.2022.10.3.174

Cultivation of the medicinal herb Panax ginseng Meyer began by domesticating wild mountain ginsengs several hundred years ago in Korea. Elucidating the diversity of the maternally inherited plastid genome (plastome) in diverse ginseng collections including wild ginsengs would provide valuable information on ginseng breeding and cultivation history. We sequenced and compared the plastomes of 44 ginseng accessions collected from various Northeast Asian countries. The plastomes revealed 18 polymorphic sites, including 11 SNPs and 7 InDels, which portrayed less diversity than in the most closely related species, P. quinquefolius. We developed 10 kompetitive allele-specific PCR (KASP) markers and utilized them along with four previously developed InDel markers to characterize the genotypes of 203 ginseng accessions. Digital genotyping based on the developed KASP markers classified the accessions into 10 main and 2 branching haplotypes. Four InDel markers derived from different copy numbers of tandem repeats showed dynamic subgrouping within the haplotypes due to the occurrence of multi-alleles and reversible mutations. The digital haplotype genotyping (haplotyping) revealed that haplotype A, representing 60.1% of the accessions, might be the original plastome form without any SNP occurrence. Accumulation patterns of the variations suggest that nine main haplotypes (B-J) diverged independently by new SNP occurrences from the original plastome, and branching haplotypes may have derived from the first mutant lineage by additional SNP deposition. The digital haplotyping system based on plastome diversity deepens understanding of ginseng evolution and serves as a useful molecular breeding tool.

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  • PCR-Based Molecular Authentication Method for Sources of Agrimoniae Herba via Comparative Analyses of Complete Chloroplast Genomes
    Woojong Jang, Sae Hyun Lee, Wook Jin Kim, Sungyu Yang, Byeong Cheol Moon
    International Journal of Molecular Sciences.2025; 26(22): 11189.     CrossRef
  • Development and authentication of Panax ginseng cv. Sunhong with high yield and multiple tolerance to heat damage, rusty roots and lodging
    Jiho Seo, Joon-Soo Lee, Sung-Lye Shim, Jun-Gyo In, Chol-Soo Park, Yong-Jae Lee, Hee-Jun Ahn
    Horticulture, Environment, and Biotechnology.2023; 64(5): 753.     CrossRef
  • The current research progress of ginseng species: The cultivation and application
    Kaimei Zhang, Shengai Zhang, Atsushi Ebihara, Xiaoqi Zhou, Likun Fan, Pengfei Li, Zhuqi Zhang, Yuyan Wang, Yu Shen
    Cogent Food & Agriculture.2023;[Epub]     CrossRef
  • In Vitro Cultivation and Ginsenosides Accumulation in Panax ginseng: A Review
    Fengjiao Xu, Anjali Kariyarath Valappil, Ramya Mathiyalagan, Thi Ngoc Anh Tran, Zelika Mega Ramadhania, Muhammad Awais, Deok Chun Yang
    Plants.2023; 12(17): 3165.     CrossRef
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Genomic Signature for Stem Swollen of Kohlrabi Morphotype in Brassica oleracea
Hyunjin Koo, Hyeonah Shim, Sampath Perumal, Ho Jun Joh, Tae-Jin Yang
Plant Breed. Biotech. 2021;9(1):45-54.   Published online March 1, 2021
DOI: https://doi.org/10.9787/PBB.2021.9.1.45

Brassica oleracea contains various morphotypes within the species, but genomic signatures differentiating each morphotype have been poorly understood of. Here, we utilized whole genome sequence data of 44 B. oleracea collections including those of seven different morphotypes such as cabbage, broccoli, cauliflower, kailan, kale, brussels sprout, and kohlrabi to elucidate the genomic signature of B. oleracea morphotypes. Molecular structure analysis divided the 44 B. oleracea lines into two groups: group I represents broccoli, cauliflower, kailan; group II represents other B. oleracea subspecies. Kohlrabi has admixed genomic structure through genetic admixture analysis. Based on the population stratification result, we have investigated genetic signatures that offer the possible evolutionary processes for the kohlrabi morphotype. Several statistical analyses were implemented to identify selective regions and explore 45 candidate loci that may contribute to stem swollen in kohlrabi. Above all, we identified two kohlrabi-unique genes, LOC106333915 and LOC106308097, showing kohlrabi-unique non-synonymous mutations, which might be candidate genes for stem swollen in kohlrabi.

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Characterization of Chloroplast Genomes, Nuclear Ribosomal DNAs, and Polymorphic SSR Markers Using Whole Genome Sequences of Two Euonymus hamiltonianus Phenotypes
Junki Lee, Shin-Jae Kang, Hyeonah Shim, Sang-Choon Lee, Nam-Hoon Kim, Woojong Jang, Jee Young Park, Jeong Hwa Kang, Wan Hee Lee, Taek Joo Lee, Gyoungju Nah, Tae-Jin Yang
Plant Breed. Biotech. 2019;7(1):50-61.   Published online March 1, 2019
DOI: https://doi.org/10.9787/PBB.2019.7.1.50

Although genomics provides useful tools for crops, most wild resource plants still lack molecular data. To retrieve useful genomic data and thus provide fundamental information for a resource plant, we established a multi-directional approach using two low coverage whole-genome shotgun sequence (WGS) data of Euonymus hamiltonianus, which is a wild resource plant with potential as a medicinal and ornamental plant. We assembled complete chloroplast genome and nuclear ribosomal DNA (nrDNA) sequences and analyzed polymorphic simple sequence repeats (pSSRs) in the nuclear genome based on the comparison of WGS data between two different phenotypes. We developed a bioinformatics pipeline to identify pSSR motifs by systematic comparison of two WGS datasets. The pipeline is composed of multiple steps including end-joining of paired reads, isolation of joined reads harboring SSR motifs derived from unique non-repetitive regions, identification of pSSR via in silico comparison with counterpart WGS reads, design of pSSR primer sets, and validation. The pipeline was applied to WGS data of E. hamiltonianus and identified 161 contigs with pSSR motifs between the two different phenotypes. Based on the pSSR motifs, 20 primer pairs were designed, of which seven were successfully validated as real pSSR markers. We expect this information to be applicable to genomic resources of E. hamiltonianus.

Citations

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  • A First Approach for the In Vitro Cultivation, Storage, and DNA Barcoding of the Endangered Endemic Species Euonymus koopmannii
    Balnur Kali, Sara Bekkuzhina, Dilnur Tussipkan, Shuga Manabayeva
    Plants.2024; 13(16): 2174.     CrossRef
  • High-throughput discovery of plastid genes causing albino phenotypes in ornamental chimeric plants
    Hyun-Seung Park, Jae-Hyeon Jeon, Woohyeon Cho, Yeonjeong Lee, Jee Young Park, Jiseok Kim, Young Sang Park, Hyun Jo Koo, Jung Hwa Kang, Taek Joo Lee, Sang Hoon Kim, Jin-Baek Kim, Hae-Yun Kwon, Suk-Hwan Kim, Nam-Chon Paek, Geupil Jang, Jeong-Yong Suh, Tae-J
    Horticulture Research.2023;[Epub]     CrossRef
  • Analysis of the complete plastomes and nuclear ribosomal DNAs from Euonymus hamiltonianus and its relatives sheds light on their diversity and evolution
    Young Sang Park, Jong-Soo Kang, Jee Young Park, Hyeonah Shim, Hyun Ok Yang, Jung Hwa Kang, Tae-Jin Yang, Sudhindra R. Gadagkar
    PLOS ONE.2022; 17(10): e0275590.     CrossRef
  • Comparative Analyses of Euonymus Chloroplast Genomes: Genetic Structure, Screening for Loci With Suitable Polymorphism, Positive Selection Genes, and Phylogenetic Relationships Within Celastrineae
    Yongtan Li, Yan Dong, Yichao Liu, Xiaoyue Yu, Minsheng Yang, Yinran Huang
    Frontiers in Plant Science.2021;[Epub]     CrossRef
  • De Novo Assembly and Species-Specific Marker Development as a Useful Tool for the Identification of Scutellaria L. Species
    Hakjoon Choi, Wan Seok Kang, Jin Seok Kim, Chang-Su Na, Sunoh Kim
    Current Issues in Molecular Biology.2021; 43(3): 2177.     CrossRef
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