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Cytogenetic Analysis and Genome Size Estimation of Korean Native Veronica Taxa KCI 등재

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화훼연구 (Flower Research Journal)
한국화훼학회 (Korean Society for Floricultural Science)
초록

Veronica L., the largest genus in the family Plantaginaceae, is widespread in various habitats. Due to their long-blooming flowers, Veronica species have high horticultural value as indoor potted, garden, and landscape plants. Furthermore, Veronica plants are extremely important owing to their notable diversity in habitat usage, ploidy level, and evolution. Several native taxa, which are of key interest in breeding programs and phylogenetic studies, have been identified in Korea. The genome sizes and chromosomal characteristics are basic cytogenetic features of all taxa, and their knowledge is a prerequisite when commencing genome sequencing projects. It can provide essential information for cytogenetic, taxonomic, phylogenetic, and evolutionary studies. Thus, cytogenetic analysis and genome size estimation of seven Veronica taxa native to Korea were conducted in this study. Fluorescence in situ hybridization (FISH) karyotype analysis and chromosome counting was conducted using metaphase chromosomes probed with 5S and 45S rDNA. Nuclear DNA content and genome size were determined using flow cytometry. FISH karyotype analysis revealed a common number of 5S loci and varying 45S signals that create distinctive rDNA distribution patterns in each taxon. The results indicated that the seven investigated Veronica taxa have calculated genome sizes (1C values) ranging from 517.1 to 862.0 Mbp. This study is the first to report the chromosome number and karyomorphology of seven Veronica taxa native to Korea, as well as the use of rDNA markers for identifying individual chromosomes. These findings contribute to the crucial understanding the genomic characteristics of species within the genus Veronica, serve as a basis for studying Veronica phylogeny and evolution, and provide valuable information for future breeding programs.

목차
Abstract
Introduction
Materials and Methods
    Plant materials and chromosome preparation
    Fluorescence in situ hybridization
    Karyotyping
    Genome size estimation using flow cytometryanalysis
Results and Discussion
    Chromosome FISH karyotype
    rDNA distribution patterns
    Flow cytometry analysis
Conclusion
Acknowledgment
References
저자
  • My Khanh Thi Tran Ha(Department of Convergence Science, Sahmyook University, Seoul 01795, Korea)
  • Samantha S Sevilleno(Department of Convergence Science, Sahmyook University, Seoul 01795, Korea)
  • Raisa Aone M Cabahug(Plant Genetics and Breeding Institute, Sahmyook University, Seoul 01795, Korea)
  • Ji-Hun Yi(Department of Chemistry Life Science, Sahmyook University, Seoul 01795, Korea)
  • Hye Jin Oh(Division of Plant Resources, Korea National Arboretum, Gyeonggi 12519, Korea)
  • Hyuck Hwan Kwon(Division of Plant Resources, Korea National Arboretum, Gyeonggi 12519, Korea)
  • Sang-Yong Kim(Division of Plant Resources, Korea National Arboretum, Gyeonggi 12519, Korea)
  • Yoon-Jung Hwang(Department of Convergence Science, Sahmyook University, Plant Genetics and Breeding Institute, Sahmyook University, Department of Chemistry Life Science, Sahmyook University) Corresponding author