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고추 탄저병 정밀 탐색을 위한 영상분석 기술에 대한 연구
백정호(JeongHo Baek),김년희(Nyunhee Kim),이은경(Eungyeong Lee),이홍석(Hongseok Lee),김송림(Song Lim Kim),박상렬(Sang Ryeol Park),지현소(Hyeonso Ji),최인찬(Inchan Choi),김경환(Kyung-Hwan Kim) 한국산업정보학회 2020 한국산업정보학회논문지 Vol.25 No.5
전세계적으로 널리 재배되는 고추 (Capsicum annuum)는 한국에서 소비가 많은 채소류 중 매우 중요한 작물중 하나이다. 고추는 생육기간 동안에 고추 탄저병에 심한 피해를 입어 방제나 저항성 품종에 대한 연구가 중요하다. 본 연구에서는 탄저병에 저항성이 있는 고추 4품종과 민감성을 가진 1품종에 대해 K1탄저균을 접종하였으며, 시간이 지나면서 나타나는 병 면적을 촬영하여 프로그램을 통해 정량화한 내용을 분석하였다. 고추과일 면적과 병면적의 비율을 통해 감수성 품종인 An-S는 약 40%로 약하게 나타났으며, 저항성 품종인 An-12R (23%), AR-Tan (21%), An-9R (19%)로 비교적 강하게 나타났고, PBC81는 약 11%로 탄저균에 강한 병 반응을 보였다. 이와 같은 정량적인 수치는 탄저병 품종이나 탄저균에 대한 저항성 연구를 수행하는데 비교할 수 있는 기초자료로 활용할 수 있다. One of the most important vegetables consumed in Korea, chili peppers (Capsicum annuum) are widely cultivated around the world. Chili peppers have been severely damaged by anthracnose during their growth, so it is important to study prevention and resistance varieties. K1 anthracnose was inoculated against four cultivar of chili peppers that are resistant to anthracnose and one cultivar that is sensitive. The area of the disease that appeared over time was photographed and quantified through the program was analyzed. Through the ratio of the area of chili pepper fruit and the area of the bottle, the sensitive variety An-S showed weak reactions to anthracnose with about 40%, the resistant variety An-12R (23%), An-Tan (21%), and An-9R (19%), and PBC81 showed a strong response to anthracnose with about 11%. These quantitative value can be used as a basis for comparison in conducting resistance studies for new varieties.
Kang, Do-Yu,Cheon, Kyeong-Seong,Oh, Jun,Oh, Hyoja,Kim, Song Lim,Kim, Nyunhee,Lee, Eungyeong,Choi, Inchan,Baek, Jeongho,Kim, Kyung-Hwan,Chung, Nam-Jin,Ji, Hyeonso MDPI AG 2019 INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES Vol.20 No.10
<P>Bakanae disease (BD), caused by the fungal pathogen Fusarium fujikuroi, has become a serious threat in rice-cultivating regions worldwide. In the present study, quantitative trait locus (QTL) mapping was performed using F2 and F3 plants derived after crossing a BD-resistant and a BD-susceptible Korean japonica rice variety, ‘Samgwang’ and ‘Junam’, respectively. Resequencing of ‘Junam’ and ‘Samgwang’ genomes revealed 151,916 DNA polymorphisms between the two varieties. After genotyping 188 F2 plants, we constructed a genetic map comprising 184 markers, including 175 kompetitive allele-specific PCR markers, eight cleaved amplified polymorphic sequence (CAPS) markers, and a derived CAPS (dCAPS) marker. The degree of BD susceptibility of each F2 plant was evaluated on the basis of the mortality rate measured with corresponding F3 progeny seedlings by in vitro screening. Consequently, qFfR9, a major QTL, was discovered at 30.1 centimorgan (cM) on chromosome 9 with a logarithm of the odds score of 60.3. For the QTL interval, 95% probability lay within a 7.24-7.56 Mbp interval. In this interval, we found that eight genes exhibited non-synonymous single nucleotide polymorphisms (SNPs) by comparing the ‘Junam’ and ‘Samgwang’ genome sequence data, and are possibly candidate genes for qFfR9; therefore, qFfR9 could be utilized as a valuable resource for breeding BD-resistant rice varieties.</P>
Delta 15 desaturase 유전자 억제에 의해 알파리놀렌산 함량이 낮은 들깨 육성
김경환(Kyung-Hwan Kim),이경렬(Kyeong-Ryeol Lee),김정봉(Jung-Bong Kim),이명희(Myoung Hee Lee),이은경(Eungyeong Lee),김년희(Nyunhee Kim),이홍석(Hongseok Lee),김송림(Song Lim Kim),백정호(JeongHo Baek),최인찬(Inchan Choi),지현소(Hyeonso 한국육종학회 2018 한국육종학회지 Vol.50 No.4
Perilla is an oilseed crop cultivated in Korea since ancient times. Due to the high α-linolenic acid content in perilla, perilla seed oil can easily become rancid. α-Linolenic acid is synthesized by two enzymes, endoplasmic reticulum-localized Δ15 desaturase (FAD3) and chloroplast-localized Δ15 desaturase (FAD7) in vivo. In order to lower the α-linolenic acid content of the seed oil without disturbing plant growth, we tried to suppress the expression of only the FAD3 gene using RNA interference, whilst maintaining the expression of the FAD7 gene. Seventeen transgenic plants with herbicide (Basta TM ) resistance were obtained by Agrobacterium-mediated transformation using hypocotyls of perilla plants. The transgenic plants were firstly confirmed by treatment with 0.3% (v/v) Basta TM herbicide, and the expression of FAD3 was measured by Northern blot analysis. The α-linolenic acid content was 10-20%, 30-40%, and 60% in two, seven, and three of the twelve T1 transgenic perilla plants which had enough seeds to be analyzed for fatty acid composition, respectively. Analysis of the fatty acid composition of T2 progeny seeds from T1 plants with the lowest α-linolenic acid content showed that the homozygous lines had 6-10% α-linolenic acid content and the heterozygous lines had 20-26% α-linolenic acid content. It is expected that the reduction in α-linolenic acid content in perilla seed oil will prevent rancidity and can be utilized for the production of high-value functional ingredients such as high γ-linolenic acid.
MutMap 분석에 의한 벼 왜성 돌연변이 계통의 변이 유전자 탐색
오준(Jun Oh),천경성(Kyeong-Seong Cheon),강도유(Do-Yu Kang),김송림(Song Lim Kim),이은경(Eungyeong Lee),김년희(Nyunhee Kim),오효자(Hyoja Oh),최인찬(Inchan Choi),백정호(Jeongho Baek),윤인선(In Sun Yoon),김경환(Kyung-Hwan Kim),정남진(Nam-J 한국육종학회 2020 한국육종학회지 Vol.52 No.1
A dwarf mutant rice line was selected from an Ac/Ds insertion mutant population and named dwf1. The phenotype of F1 and F2 plants derived from a cross between dwf1 and Dongjin indicated that a single recessive gene is responsible for the mutant phenotype, and we named this gene dwf1. Resequencing of the dwf1 line and Dongjin (wild type) revealed 42,386 homozygous single nucleotide polymorphisms (SNPs) between dwf1 line and Dongjin. MutMap analysis was performed by sequencing a DNA pool prepared from 100 mutant type plants in the dwf1/Dongjin F2 population, and it was found that the dwf1 gene was located in the 23 ~ 30 Mbp region on chromosome 4. In this region, we found a non-synonymous SNP in the Os04g0469800 gene, which was reported as D11 gene encoding a cytochrome P450 family protein involved in the biosynthesis of brassinosteroids (BRs). This SNP was regarded as the causative SNP for the dwf1 phenotype, and the dwf1 gene is a novel allele of D11. We performed mapping of the dwf1 gene with five SNP markers on chromosome 4 with 190 dwf1/Dongjin F2 plants. The phenotype of F2 plants was completely co-segregated with genotypes of the J10402 marker, which was developed based on the non-synonymous SNP in the D11 gene. These results will contribute to the study of the molecular biological functions of the D11 gene and BRs.