세네갈은 농촌진흥청의 아프리카 국제협력사업의 일환으로 수행되는 「아프리카 다수성 벼 품종개발 ·보급」사업의 주요 회원국으로 본 사업의 효율적 추진을 위해 세네갈의 쌀의 중요성, 쌀 생산 및 육종 현황에 대한 기초정보를 얻고자 조사하였다. 1. 현재 세네갈의 일인당 연간 쌀 소비량은 85kg로서 인구 증가, 도시화 및 쌀의 편의성으로 쌀 수요가 급격히 증가하고 있으나 쌀 생산 부족으로 국내 쌀 전체 수요량의 44%를 해외 수입쌀에 의존하고 있어 쌀 자급자족은 세네갈의 국가정책의 가장 중요한 목표이다. 2. 세네갈에서 쌀 생산은 세네갈 북부에 있는 관개농업과 이기작이 가능한 ‘Senegal River Valley’와 남부세네갈의 까자망스 지역의 천수답지대에서 이루어지고 있으나, 가뭄, 냉해, 염 해, 철분독성 불량토양, 비료 및 제초제 부족, 조류 및 잡초 피해 등 생물학적 제한 요인과 수확후 관리 기반시설 부족, 쌀 운송, 시장형성 등 제도적 제한요인 등으로 쌀 생산이 저해되고 있는 실정이다. 3. 세네갈의 벼 품종개발은 UN산하 농업연구기관인 AfricaRice, IRRI 등과 인도, 스리랑카, 중국, 한국 등 국가 협력과 지원으로 이루어져 왔으며, 1994년 이래 60개의 품종이 개발· 보급 되었다. 그러나 2017년 이후 세네갈 국가육종기관에 의한 품종개발도 이루어지고 있으며 조생종, 수량성, 향을 보유한 품종개발이 주된 육종 목표이다. 4. 현재 세네갈 국내 쌀의 품질과 밥맛에서 수입쌀에 비해 열악하여 소비자로부터 외면당하고 있는 실정으로 향후 세네 갈의 품종육성 목표는 쌀의 품질, 밥맛 및 수량을 동시에 올리기 위한 전략이 최우선시 되었다. 이를 위해 역사적으로 한국의 통일형 품종개발 및 아시아 녹색혁명을 창생시킨 IRRI 의 IR8에서 증명된 바와 같이 자포니카와 아프리카 품종과의 교배를 통한 아프리카 적응 통일형 품종을 육성하는 육종전략이 필요하다.
In this study, we examined the variation of 30 phenolic compounds in the mungbean (Vigna radiata (L.) Wilczek) germplasms. Recent studies showed that the potential health benefits from the antioxidnant activity of the phenolic compounds. The average concentration of phenolic compounds among the 70 mungbean germplasms was 2424.9 μg g-1. Among the mungbean germplasms, 25 kinds of mungbean germplasms were higher than others. Specially, 69 (IT 182280) (3836.63 ㎍ g-1) and 63 (IT 180525) (3491.51 ㎍ g-1) revealed highest levels of the total phenolic compounds. On the other hand, 27 (IT 154078) (1624 ㎍ g-1) was revealed lowest concentration of the total phenolic compounds. Among the individual phenolic compounds, rutin (avg. 1776.09 ㎍ g-1) showed highest concentrations, pyrogallol (144.31 ㎍ g-1), gentisic acid (119.19 ㎍ g-1) and chlorogenic acid (78.24 ㎍ g-1) were relatively higher than other phenolic compounds. The germplasm of 69 (IT 182280) had the highest rutin (3156.87 ㎍ g-1) concentraion. While, the biochanin A (avg. 2.02 ㎍ g-1) and formonetin (avg. 2.61 ㎍ g-1) had the lowest levels among the mungbean germplasms. This study indicateded that determination of the functional substances in mungbean germplasms and it is more valuable for the future crop cultivation and food industries.
Fusarium head blight (FHB) is the most important disease of wheat that may cause serious yield and quality losses and leads to harmful contamination of the grain with fungal toxins. Korean wheat cultivars showed much less resistant to FHB than Sumai3, which known as resistance to FHB, evaluated by spray inoculation in our companion report. Many DNA-marker studies, including sequence tagged site (STS) and simple sequence repeat (SSR) markers and qualitative trait loci (QTL) associated with FHB resistance have been identified and mapped on the specific chromosome, especially 3BS, by many previous studies. However, there was no application of DNA-markers to select FHB resistance lines in Korean wheat breeding programs. 3 SSR markers and 6 STS markers linked to major QTL on chromosome arms 3BS found in Sumai3 and its derivatives were used to screen FHB resistance in Korean wheat cultivars. All markers known to be most significant markers based on previous research (Liu and Anderson 2003). There was general lack of marker polymorphism for Korean wheat cultivars used in this study. However, STS3B-138 marker only showed the polymorphism in Korean wheat cultivars. Allele size of STS3B-138 is 355 bp in Sumai 3 and 12 of 24 cultivar showed this allele. The range in Type II resistance rating was 1-5 and average of these 12 cultivars have 355bp allele was grade 2.4. The most resistant cultivars under the 2 grade, Gobun, Jinpoom, Milseong and Namhae also showed 355bp allele. Therefore, These results provide potential for development of wheat cultivars with improved Fusarium head blight resistance through use of effective FHB screen methods and marker - assisted selection.
To tolerate environmentally adverse conditions such as cold, drought, and salinity, plants often synthesize and accumulate proline in cells as compatible osmolytes. δ1 -Pyrroline-5-carboxylate synthetase(P5CS) catalyzes the rate-limiting step of proline biosynthesis from glutamate. Two complete genes, MtP5CS1 and MtP5CS2, were isolated from the model legume Medicago truncatula by cDNA cloning and bacterial artificial chromosome library screening. Nucleotide sequence analysis showed that both genes consisted of 20 exons and 19 introns. Alignment of the predicted amino acid sequences revealed high similarities with P5CS proteins from other plant species. The two MtP5CS genes were expressed in response to high salt and low temperature treatments. Semi-quantitative reverse transcription-polymerase chain reaction showed that MtP5CS1 was expressed earlier than MtP5CS2, indicating differential regulation of the two genes. To evaluate the reverse genetic effects of nucleotide changes on MtP5CS function, a Targeting Induced Local Lesions in Genomes approach was taken. Three mutants each were isolated for MtP5CS1 and MtP5CS2, of which a P5CS2 nonsense mutant carrying a codon change from arginine to stop was expected to bring translation to premature termination. These provide a valuable genetic resource with which to determine the function of the P5CS genes in environmental stress responses of legume crops.