Your search keyword '"Young-Soon Cha"' showing total 17 results

1. Comparison of Weaving Techniques of Hansan Mosi and Echigo-jofuㆍOjiya-chijimi

Author

Bo-Yeun Kim and Young-Soon Cha

Subjects

Engineering, business.industry, Metallurgy, Weaving, business

Published

2021

2. A Study on the Artistic Significance of Sheila Hicks’ Works Challenging the Boundaries of Fiber Art

Author

Kyung Min Cho and Young Soon Cha

Subjects

Fiber (mathematics), media_common.quotation_subject, Art, Visual arts, media_common

Published

2021

3. A Case Study of Paper Formative Work from the Perspective of Sustainability

Author

Ju-youn Lee and Young-soon Cha

Subjects

Formative assessment, Work (electrical), Perspective (graphical), Sustainability, Engineering ethics, General Medicine, Sociology

Published

2021

4. A Study on the Images of Delivery as Abjection

Author

Young Soon Cha and Nuri Kim

Published

2020

5. Development and Application of a Target Capture Sequencing SNP-Genotyping Platform in Rice

Author

Chaewon, Lee, Kyeong-Seong, Cheon, Yunji, Shin, Hyoja, Oh, Young-Min, Jeong, Hoon, Jang, Yong-Chan, Park, Kyung-Yun, Kim, Hang-Chul, Cho, Yong-Jae, Won, Jeongho, Baek, Young-Soon, Cha, Song-Lim, Kim, Kyung-Hwan, Kim, and Hyeonso, Ji

Subjects

Plant Breeding, Genotype, Quantitative Trait Loci, Genetics, food and beverages, Oryza, genotyping, preharvest sprouting, QTL, rice, SNP, target capture sequencing, Phylogeny, Genetics (clinical)

Abstract

The development of efficient, robust, and high-throughput SNP genotyping platforms is pivotal for crop genetics and breeding. Recently, SNP genotyping platforms based on target capture sequencing, which is very flexible in terms of the number of SNP markers, have been developed for maize, cassava, and fava bean. We aimed to develop a target capture sequencing SNP genotyping platform for rice. A target capture sequencing panel containing 2565 SNPs, including 1225 SNPs informative for japonica and 1339 SNPs informative for indica, was developed. This platform was used in diversity analysis of 50 rice varieties. Of the 2565 SNP markers, 2341 (91.3%) produced useful polymorphic genotype data, enabling the production of a phylogenetic tree of the 50 varieties. The mean number of markers polymorphic between any two varieties was 854. The platform was used for QTL mapping of preharvest sprouting (PHS) resistance in an F8 recombinant inbred line population derived from the cross Odae × Joun. A genetic map comprising 475 markers was constructed, and two QTLs for PHS resistance were identified on chromosomes 4 and 11. This system is a powerful tool for rice genetics and breeding and will facilitate QTL studies and gene mapping, germplasm diversity analysis, and marker-assisted selection.

Published

2022

6. Identification of Grain Size-Related QTLs in Korean japonica Rice Using Genome Resequencing and High-Throughput Image Analysis

Author

Yunji Shin, Yong Jae Won, Chaewon Lee, Kyeong-Seong Cheon, Hyoja Oh, Gang-Seob Lee, Jeongho Baek, In Sun Yoon, Song Lim Kim, Young-Soon Cha, Kyung-Hwan Kim, and Hyeonso Ji

Subjects

grain size, QTL mapping, rice, Agriculture (General), kompetitive allele-specific PCR (KASP) markers, food and beverages, Plant Science, Agronomy and Crop Science, Food Science, S1-972

Abstract

Grain size is a key factor influencing the grain yield in rice. To identify the as-yet-unknown genes regulating grain size in Korean japonica rice, we developed a recombinant inbred line population (n = 162) from a cross between Odae (large-grain) and Joun (small-grain), and measured six traits including the thousand-grain weights of unhulled and hulled seeds, grain area, grain length, grain width and grain length-to-width ratio using high-throughput image analysis at the F8 and F9 generations. A genetic map was constructed using 248 kompetitive allele-specific PCR (KASP) markers that were polymorphic between the parental genotypes, and 29 QTLs affecting the six traits were identified, of which 15 were stable in both F8 and F9 generations. Notably, three QTL clusters affecting multiple traits were detected on chromosomes 6, 7 and 11. We analyzed whole-genome resequencing data of Odae and Joun, and selected candidate genes for the stable QTLs in the identified clusters that have high- or moderate-impact variations between Odae and Joun and encode proteins the families of which have been reported to be related to grain size regulation. These results will facilitate the identification of genes underlying the QTLs and promote molecular breeding of high-yielding Korean japonica rice varieties.

Published

2022

7. Genomic Variation in Korean japonica Rice Varieties

Author

Oh Hyo Ja, Young-Soon Cha, Jeong-Ho Baek, Hyeonso Ji, Song Lim Kim, Kyung-Hwan Kim, Gang-Seob Lee, In Sun Yoon, Yunji Shin, and Chaewon Lee

Subjects

Cloning, Genetics, marker, resequencing, Candidate gene, biology, rice, food and beverages, SNP, Single-nucleotide polymorphism, Quantitative trait locus, QH426-470, biology.organism_classification, Japonica, InDel, japonica, variation, Indel, Genotyping, Gene, Genetics (clinical)

Abstract

Next-generation sequencing technologies have enabled the discovery of numerous sequence variations among closely related crop varieties. We analyzed genome resequencing data from 24 Korean temperate japonica rice varieties and discovered 954,233 sequence variations, including 791,121 single nucleotide polymorphisms (SNPs) and 163,112 insertions/deletions (InDels). On average, there was one variant per 391 base-pairs (bp), a variant density of 2.6 per 1 kbp. Of the InDels, 10,860 were longer than 20 bp, which enabled conversion to markers resolvable on an agarose gel. The effect of each variant on gene function was predicted using the SnpEff program. The variants were categorized into four groups according to their impact: high, moderate, low, and modifier. These groups contained 3524 (0.4%), 27,656 (2.9%), 24,875 (2.6%), and 898,178 (94.1%) variants, respectively. To test the accuracy of these data, eight InDels from a pre-harvest sprouting resistance QTL (qPHS11) target region, four highly polymorphic InDels, and four functional sequence variations in known agronomically important genes were selected and successfully developed into markers. These results will be useful to develop markers for marker-assisted selection, to select candidate genes in map-based cloning, and to produce efficient high-throughput genome-wide genotyping systems for Korean temperate japonica rice varieties.

Published

2021

8. An Aesthetic-theological Study on the Man in Sapphire Blue in Scivias

Author

Jong Hyeok Sim and Young Soon Cha

Subjects

media_common.quotation_subject, Sapphire, Art, Theology, media_common

Published

2019

9. Inactivation of the CTD phosphatase-like geneOsCPL1enhances the development of the abscission layer and seed shattering in rice

Author

Myung-Chul Lee, Hee-Jong Koh, Gynheung An, Jung-Sook Lee, Hakbum Kim, Sung-Ryul Kim, Yeon-Hee Lee, Gang-Seob Lee, Jungil Yang, Il-Doo Jin, Yul-Ho Kim, Wenzhu Jiang, Susan R. McCouch, Byung-Ohg Ahn, Ung-Han Yoon, Young-Soon Cha, Ping Jin, Doh-Won Yun, Hyeonso Ji, Seok-Cheol Suh, and Moo-Young Eun

Subjects

DNA, Bacterial, Recombinant Fusion Proteins, Green Fluorescent Proteins, Molecular Sequence Data, Phosphatase, Mutant, Locus (genetics), Plant Science, Biology, Abscission, Gene Expression Regulation, Plant, RNA interference, Phosphoprotein Phosphatases, Genetics, Point Mutation, Amino Acid Sequence, Gene, Plant Proteins, Regulation of gene expression, Sequence Homology, Amino Acid, Intron, food and beverages, Oryza, Cell Biology, Plants, Genetically Modified, Cell biology, Mutagenesis, Insertional, Seeds, RNA Interference

Abstract

Although susceptibility to seed shattering causes severe yield loss during cereal crop harvest, it is an adaptive trait for seed dispersal in wild plants. We previously identified a recessive shattering locus, sh-h, from the rice shattering mutant line Hsh that carries an enhanced abscission layer. Here, we further mapped sh-h to a 34-kb region on chromosome 7 by analyzing 240 F(2) plants and five F(3) lines from the cross between Hsh and Blue&Gundil. Hsh had a point mutation at the 3' splice site of the seventh intron within LOC_Os07g10690, causing a 15-bp deletion of its mRNA as a result of altered splicing. Two transferred DNA (T-DNA) insertion mutants and one point mutant exhibited the enhanced shattering phenotype, confirming that LOC_Os07g10690 is indeed the sh-h gene. RNA interference (RNAi) transgenic lines with suppressed expression of this gene exhibited greater shattering. This gene, which encodes a protein containing a conserved carboxy-terminal domain (CTD) phosphatase domain, was named Oryza sativa CTD phosphatase-like 1 (OsCPL1). Subcellular localization and biochemical analysis revealed that the OsCPL1 protein is a nuclear phosphatase, a common characteristic of metazoan CTD phosphatases involved in cell differentiation. These results demonstrate that OsCPL1 represses differentiation of the abscission layer during panicle development.

Published

2010

10. A Ds-insertion mutant of OSH6 (Oryza sativa Homeobox 6) exhibits outgrowth of vestigial leaf-like structures, bracts, in rice

Author

Hai Long Piao, Sung Han Park, Mi Sook Choe, Su Hyun Park, Byoung Il Je, Moo Young Eun, Shoshi Kikuchi, Chang-deok Han, Myung-Chul Lee, Seok-Cheol Suh, Chul Min Kim, Kouji Satoh, Hyeon So Ji, Soon Ju Park, Young Soon Cha, Doh Won Yun, Byung Ohg Ahn, Yuan Hu Xuan, and Kon Ho Lee

Subjects

Transgene, Molecular Sequence Data, Mutant, Plant Science, Biology, Exon, Transformation, Genetic, Gene Expression Regulation, Plant, Genetics, Amino Acid Sequence, Plant Proteins, Homeodomain Proteins, Regulation of gene expression, Bract, Microscopy, Confocal, Oryza sativa, Base Sequence, Reverse Transcriptase Polymerase Chain Reaction, Oryza, Plants, Genetically Modified, Cell biology, Plant Leaves, Mutagenesis, Insertional, Phenotype, Mutation, Microscopy, Electron, Scanning, Homeobox, Ectopic expression, Sequence Alignment, Rhizobium

Abstract

OSH6 (Oryza sativa Homeobox6) is an ortholog of lg3 (Liguleless3) in maize. We generated a novel allele, termed OSH6-Ds, by inserting a defective Ds element into the third exon of OSH6, which resulted in a truncated OSH6 mRNA. The truncated mRNA was expressed ectopically in leaf tissues and encoded the N-terminal region of OSH6, which includes the KNOX1 and partial KNOX2 subdomains. This recessive mutant showed outgrowth of bracts or produced leaves at the basal node of the panicle. These phenotypes distinguished it from the OSH6 transgene whose ectopic expression led to a "blade to sheath transformation" phenotype at the midrib region of leaves, similar to that seen in dominant Lg3 mutants. Expression of a similar truncated OSH6 cDNA from the 35S promoter (35S::DeltaOSH6) confirmed that the ectopic expression of this product was responsible for the aberrant bract development. These data suggest that OSH6-Ds interferes with a developmental mechanism involved in bract differentiation, especially at the basal nodes of panicles.

Published

2007

11. Analysis of gene-trap Ds rice populations in Korea

Author

Min-Hee Nam, Byoung Il Je, Hai Long Piao, Chang-deok Han, Moo Young Eun, Hyeon So Ji, Tae Yong Oh, Chul Min Kim, Soon Ju Park, Myung-Chul Lee, Doh Won Yun, Seok Cheol Suh, Nam Soo Jun, Gihwan Yi, Jin Huang, Byung Ohg Ahn, Young Soon Cha, Soo Hyun Park, Yuan Hu Xuan, and Sung Han Park

Subjects

Transposable element, Population, Plant Science, Root hair, Genes, Plant, Genome, Chromosomes, Plant, Japonica, Botany, Genetics, education, Gene, DNA Primers, Glucuronidase, Reporter gene, education.field_of_study, Korea, Base Sequence, biology, fungi, Chromosome Mapping, food and beverages, Oryza, General Medicine, biology.organism_classification, Mutagenesis, Insertional, Callus, Agronomy and Crop Science

Abstract

Insertional mutagen-mediated gene tagging populations have been essential resources for analyzing the function of plant genes. In rice, maize transposable elements have been successfully utilized to produce transposant populations. However, many generations and substantial field space are required to obtain a sufficiently sized transposant population. In rice, the japonica and indica subspecies are phenotypically and genetically divergent. Here, callus cultures with seeds carrying Ac and Ds were used to produce 89,700 lines of Dongjin, a japonica cultivar, and 6,200 lines of MGRI079, whose genome is composed of a mixture of the genetic backgrounds of japonica and indica. Of the more than 3,000 lines examined, 67% had Ds elements. Among the Ds-carrying lines, 81% of Dongjin and 63% of MGRI079 contained transposed Ds, with an average of around 2.0 copies. By examining more than 15,000 lines, it was found that 12% expressed the reporter gene GUS during the early-seedling stage. GUS was expressed in root hairs and crown root initials at estimated frequencies of 0.78% and 0.34%, respectively. The 5,271 analyzed Ds loci were found to be randomly distributed over all of the rice chromosomes.

Published

2007

12. Mapping QTLs related to salinity tolerance of rice at the young seedling stage

Author

J. C. Ko, Moo-Young Eun, Seung Yeob Lee, K. S. Lee, Young Soon Cha, J. H. Ahn, Doh-Won Yun, and Myung-Chul Lee

Subjects

education.field_of_study, Oryza sativa, biology, Population, food and beverages, Plant Science, Quantitative trait locus, biology.organism_classification, Japonica, Horticulture, Inbred strain, Seedling, Botany, Genetics, Halotolerance, Poaceae, education, Agronomy and Crop Science

Abstract

Using a population of recombinant inbred lines of the 164 genotypes derived from a cross between ‘Milyang 23’ (indica) and ‘Gihobyeo’ (japonica) in rice (Oryza sativa L.), salt tolerance was evaluated at a young seedling stage in concentrations of 0.5% and 0.7% NaCl. Mapping quantitative trait loci (QTLs) related to salt tolerance was carried out by interval mapping using Qgene 3.0. Two QTLs (qST1 and qST3) conferring salt tolerance at young seedling stage were mapped on chromosome 1 and 3, respectively, and explained 35.5–36.9% of the total phenotypic variation in 0.5% and 0.7% NaCl. The favourable allele of qST1 was contributed by ‘Gihobyeo’, and that of qST3 by ‘Milyang 23’. The results obtained in 0.5% and 0.7% NaCl for 2 years were similar in flanked markers and phenotypic variation.

Published

2007

13. Rapid, large-scale generation ofDstransposant lines and analysis of theDsinsertion sites in rice

Author

Bingyao Sun, Moo Young Eun, Sung Han Park, Jin Young Park, Young Suk Lee, Nam Soo Chon, Doh Won Yun, Jeung Joo Lee, Byoung Il Je, Hai Long Piao, Soon Ju Park, Min Jung Kim, Chang-deok Han, Yong Jae Won, Min Hee Nam, Chul Min Kim, Woo Sik Chung, Eun Jin Lee, Young Soon Cha, Gihwan Yi, and Kon Ho Lee

Subjects

DNA, Bacterial, Transposable element, DNA, Plant, Callus formation, Genetic Vectors, Population, Plant Science, Biology, Transposition (music), Insertional mutagenesis, Transformation, Genetic, Gene mapping, Culture Techniques, Genetics, Regeneration, Insertion, Promoter Regions, Genetic, education, Crosses, Genetic, education.field_of_study, Models, Genetic, Gene Transfer Techniques, Chromosome Mapping, Oryza, Cell Biology, Mutagenesis, Insertional, GenBank, Seeds, DNA Transposable Elements, Genome, Plant

Abstract

Rapid, large-scale generation of a Ds transposant population was achieved using a regeneration procedure involving tissue culture of seed-derived calli carrying Ac and inactive Ds elements. In the F(2) progeny from genetic crosses between the same Ds and Ac starter lines, most of the crosses produced an independent germinal transposition frequency of 10-20%. Also, many Ds elements underwent immobilization even though Ac was expressed. By comparison, in a callus-derived regenerated population, over 70% of plants carried independent Ds insertions, indicating transposition early in callus formation. In the remaining population, the majority of plants carried only Ac. Most of the new Ds insertions were stably transmitted to a subsequent generation. An exceptionally high proportion of independent transposants in the regenerated population means that selection markers for transposed Ds and continual monitoring of Ac/Ds activities may not necessarily be required. By analyzing 1297 Ds-flanking DNA sequences, a genetic map of 1072 Ds insertion sites was developed. The map showed that Ds elements were transposed onto all of the rice chromosomes, with preference not only near donor sites (36%) but also on certain physically unlinked arms. Populations from both genetic crossing and tissue culture showed the same distribution patterns of Ds insertion sites. The information of these mapped Ds insertion sites was deposited in GenBank. Among them, 55% of Ds elements were on predicted open-reading frame (ORF) regions. Thus, we propose an optimal strategy for the rapid generation of a large population of Ds transposants in rice.

Published

2004

14. Fine mapping of the rice Bph1 gene, which confers resistance to the brown planthopper (Nilaparvata lugens stal), and development of STS markers for marker-assisted selection

Author

Young-Soon, Cha, Hyeonso, Ji, Doh-Won, Yun, Byoung-Ohg, Ahn, Myung Chul, Lee, Seok-Cheol, Suh, Chun Seok, Lee, Eok Keun, Ahn, Yong-Hee, Jeon, Il-Doo, Jin, Jae-Keun, Sohn, Hee-Jong, Koh, and Moo-Young, Eun

Subjects

Genetic Markers, Hemiptera, Animals, Chromosome Mapping, Oryza, Genes, Plant, Plant Diseases, Sequence Tagged Sites

Abstract

The brown planthopper (BPH) is a major insect pest in rice, and damages these plants by sucking phloem-sap and transmitting viral diseases. Many BPH resistance genes have been identified in indica varieties and wild rice accessions, but none has yet been cloned. In the present study we report fine mapping of the region containing the Bph1 locus, which enabled us to perform marker-aided selection (MAS). We used 273 F8 recombinant inbred lines (RILs) derived from a cross between Cheongcheongbyeo, an indica type variety harboring Bph1 from Mudgo, and Hwayeongbyeo, a BPH susceptible japonica variety. By random amplification of polymorphic DNA (RAPD) analysis using 656 random 10-mer primers, three RAPD markers (OPH09, OPA10 and OPA15) linked to Bph1 were identified and converted to SCAR (sequence characterized amplified region) markers. These markers were found to be contained in two BAC clones derived from chromosome 12: OPH09 on OSJNBa0011B18, and both OPA10 and OPA15 on OSJNBa0040E10. By sequence analysis of ten additional BAC clones evenly distributed between OSJNBa0011B18 and OSJNBa0040E10, we developed 15 STS markers. Of these, pBPH4 and pBPH14 flanked Bph1 at distances of 0.2 cM and 0.8 cM, respectively. The STS markers pBPH9, pBPH19, pBPH20, and pBPH21 co-segregated with Bph1. These markers were shown to be very useful for marker-assisted selection (MAS) in breeding populations of 32 F6 RILs from a cross between Andabyeo and IR71190, and 32 F5 RILs from a cross between Andabyeo and Suwon452.

Published

2008

15. Mapping of quantitative trait loci for salt tolerance at the seedling stage in rice

Author

Seung Yeob, Lee, Jeong Ho, Ahn, Young Soon, Cha, Doh Won, Yun, Myung Chul, Lee, Jong Cheol, Ko, Kyu Seong, Lee, and Moo Young, Eun

Subjects

Phenotype, Genotype, Seedlings, Quantitative Trait Loci, Oryza, Salts

Abstract

Salt tolerance was evaluated at the young seedling stage of rice (Oryza sativa L.) using recombinant inbred lines (MG RILs) from a cross between Milyang 23 (japonica/indica) and Gihobyeo (japonica). 22 of 164 MG RILs were classified as tolerant with visual scores of 3.5-5.0 in 0.7% NaCl. Interval mapping of QTLs related to salt tolerance was conducted on the basis of the visual scores at the young seedling stage. Two QTLs, qST1 and qST3, conferring salt tolerance, were detected on chromosome 1 and 3, respectively, and the total phenotypic variance explained by the two QTLs was 36.9% in the MG RIL population. qST1 was the major QTL explaining 27.8% of the total phenotypic variation. qST1 was flanked by Est12-RZ569A, and qST3 was flanked by RG179-RZ596. The detection of new QTLs associated with salt tolerance will provide important information for the functional analysis of rice salt tolerance.

Published

2006

16. Reprogramming of the activity of the activator/dissociation transposon family during plant regeneration in rice

Author

Chul Min, Ki, Byoung Il, Je, Hai Long, Piao, Soon Ju, Par, Min Jung, Kim, Sung Han, Park, Jin Young, Park, Su Hyun, Park, Eun Kyeong, Lee, Nam Soo, Chon, Yong Jae, Won, Gi Hwan, Lee, Min Hee, Nam, Doh Won, Yun, Myung Chul, Lee, Young Soon, Cha, Ho, Le Kon, Moo Young, Eun, and Chang-Deok, Han

Subjects

Gene Expression Regulation, Plant, DNA Transposable Elements, Oryza, Zea mays

Abstract

Many aspects of epigenetic phenomena have been elucidated via studies of transposable elements. An active transposable element frequently loses its ability to mobilize and goes into an inactive state during development. In this study, we describe the cyclic activity of a maize transposable element dissociation (Ds) in rice. In rice genome, Ds undergoes the spontaneous loss of mobility. However, an inactive state of Ds can be changed into an active state during tissue culture. The recovery of mobility accompanies not only changes in the methylation patterns of the terminal region of Ds, but also alteration in the steady state level of the activator (Ac) mRNA that is expressed by a constitutive CaMV 35S promoter. Furthermore, the Ds-reactivation process is not random, but stage-specific during plantlet regeneration. Our findings have expanded previous observations on Ac reactivation in the tissue culture of maize.

Published

2002

17. Cryopreservation of tea (Camellia sinensis L.) seeds and embryonic axes

Author

Haeng-Hoon, Kim, Young-Soon, Cha, Hyung-Jin, Baek, Eun-Gi, Cho, Young-Am, Chae, and Florent, Engelmann

Subjects

Cryopreservation, Time Factors, Seeds, Humans, Germination, Desiccation, Cotyledon, Camellia sinensis

Abstract

This study investigated the tolerance to desiccation and freezing of tea seeds, embryonic axes (EAs) and cotyledonary embryonic axes (CEAs, consisting of EAs with portions of cotyledons still attached). No seeds germinated after desiccation and cryopreservation. EAs extracted from seeds desiccated to 18.9% moisture content (fresh weight basis) and cryopreserved showed 20.7% survival but plantlet production from these EAs was impossible. When EAs and CEAs were extracted from seeds before being submitted to desiccation and freezing, survival of control and frozen samples was equivalent with both types of materials. However, plantlet production was significantly higher from control and cryopreserved CEAs than EAs. The maturity stage of the seeds from which CEAs were extracted had an important effect on their survival and plant production percentages, mature seeds providing better results than early mature and late mature seeds. The highest percentages of plantlet production from cryopreserved CEAs, which ranged between 75.1 and 80.4%, were achieved for EA moisture contents between 21.5 and 15.0%.

Published

2002