Germplasm collection of lily in the mountainousarea is laborious and time consuming accompanied withhigh costs and high risk due to inappropriate environmentalconditions. Cryopreservation being an ideal method for thelong-term preservation can be employed in conservation ofvaluable lily germplasm. Previously, we developed cryo-preservation protocol for Lilium germplasm using ‘dropletvitrification’. In this paper, we have chosen shoot tips as amaterial for cryopreservation because of their genetic safetyupon regrowth in tissue culture. Using this protocol, wehave preserved approximately 160 accessions of lily germ-plasm in 2010~2012. The regeneration rates are rangedfrom 54.3% to 58.5% while the survival rates were from58.3% to 66.4%. Among Lilium germplasm cryopreserved,there are some Korean, Chinese, and Taiwanese seedstocks which have good qualities for inter-species hybrid.Moreover, we also conserved Korean wild endangered seedstock, especially Lilium hansonii. The morphological studyof Lilium germplasm regenerated from cryopreserved mate-rial confirmed the stability of clonal material following cryo-preservation. We anticipate this cryo-collection will beavailable and useful to curators or breeders of Lilium andthis cryobank will also facilitate the conservation and inter-national exchange of Lilium germplasm.
유전자원은 지역, 국가 및 국제적 수준에서 ex situ와 in situ의 상보적 보존을 통해 보존되어지고 있다. 유전자원은CBD에서 정의한 것처럼 유전적 정보와 지식을 포함한 물리적이고 실질적인 자원을 의미한다. 대만의 식물유전자원센터는 1993년 대만농업연구소 산하에 설립되었으며 2010년까지73,275점의 유전자원을 중·장기 보존소에 보존해왔다. 또한,포장유전자은행으로는 몇 개의 보존소에서 5,106점의 과수 및약용작물을 보존해왔으며 상보적으로 기내보존과 초저온동결보존을 이용하여 소실위험에 놓이거나 포장보존이 어려운 영양체 자원을 보존하고 있다. 또한 자원관리의 위험요인 및 안전관리, 종 동정 및 유전자원의 교배 및 상업적 이용 등에 대한 시행계획이 공식화되어 생물다양성에 기반한 생산물 시장개척에 기여하고 있다. 특히, 지역품종이나 육종계통 유전자원의 지속가능한 이용은 유전자원 관리의 규모에 따라 좌우된다고 할 수 있다. 유전자원의 효율적인 관리는 식량과 농업에서의 현재와 미래를 보장하는데 필수적이므로 유전자원을 보존 및 관리하는 전 세계적 노력에 참여함으로써 좀 더 큰 이익과책임을 기대할 수 있다. 특히, 지구온난화와 식량위기 등의 차원에서 효율적인 국내 및 국제적 식량 및 농업안보의 요소로서 유전자원 보존체계를 갖추고 관리하는데 적극적인 노력과실천이 필요하다.
Inflorescence, stem, and leaf samples of lettuce grown in a greenhouse in spring and autumn seasons were assayed for sesquiterpene lactones (SLs) content by high performance liquid chromatography. The concentrations of SLs were significantly higher in the inflorescences followed by upper leaf and stem compared to the other plant parts in most of the samples. SLs content (sum of lactucin and lactucopicrin) in various tissues of lettuce cultivated in spring season varied from 5.7 to 22.5 fold ranging from 27.4 ㎍/g dry weight (DW) in the upper stem (cultivar “PI 176588”) as the lowest to as high as 2,292.0 ㎍/g DW in the inflorescence (cultivar “709849-1”). During autumn cultivation, the concentration of SLs varied from 2.0 to 14.4 fold ranging from as low of 32.4 ㎍/g DW in the lower stem (cultivar “PI176588”) to as high of 838.0 ㎍/g DW in the upper leaf (cultivar “Dambaesangchu”). Higher lactucin (1.2 to 5.6 fold) and lactucopicrin (1.1 to 3.9 fold) concentration was observed during spring compared to autumn cultivation in most of the samples. SLs content in various organs of lettuce increases from the basal plant part going upwards. As lactucin and lactucopicrin are the major SLs which affects the sensory property of lettuce, their quantitative variation in the lettuce cultivars is useful for breeding new varieties with better consumer acceptance.
Background : Carotenoids are pigments that are found in plants, fruits, bacteria, and fungi. β -carotene and canthaxanthin are orange pigments among thousands of carotenoids that possess potent antioxidant activity. The objective of this study was to determine β-carotene and cantaxanthin in 55 Kimchi cabbage germplasm using liquid chromatography mass spectrometry (LC-MS) method.
Method and Results : 55 Kimchi cabbage accessions were sown in plug trays in the end of August, 2016. All the tissue samples were freeze-dried for 1 week and ground into fine powder and stored at -20℃ until analysis. Crude carotenoids from freeze-dried materials (100 mg) were extracted using 1 ㎖ of 100% (v/v) hexane in 10 minutes by using sonication bath followed by centrifugation. The average β-carotene contents was 1.43 ㎎·㎏-1 and ranged from 0.76 (IT 120045) to 2.25 ㎎·㎏-1 (IT 100378). The average canthaxanthin content in the entire domain of sample was 0.59 ㎎·㎏-1 with a range between 0.36 (IT 32746) and 1.08 ㎎․㎏-1 (IT 100386). Canthaxanthin content was significantly positively correlated with β-carotene (r = 0.65**) and leaf length (r = 0.63**). However, canthaxanthin was negatively correlated with cotyledon color (r = -0.41**). Principal component analysis results of the first two components (PC1 and PC2) explained 44.53% of the point variability.
Conclusion : The resources with the highest β-carotene and canthaxanthin content are IT 100378, 100386, 100391, and 110828. This study could be useful to select a potential sources of health beneficial carotenoids (β-carotene and canthaxanthin) in Kimchi cabbage germplasm in nutraceutical formulations and for further applications as a breeding material and other research activities.
Background : Alpha-linolenic acid is a type of omega-3 fatty acid and has been reported to be found at a remarkably high content in seeds of perilla (Perilla frutescens). The purpose of this study was to investigate the fatty acid compositions in 45 perilla accessions collected from Russia and recommend the potential genetic resources related to their fatty acid compositions.
Methods and Results : The 45 accessions of perilla seeds which were collected from Russia were used for the study. Perilla seed oil was recovered using hexane in a soxhlet extraction method. The fatty acid compositions were analyzed using gas chromatography. The total oil content was ranged between 28.39 and 46.89%. The compositions of palmitic, stearic, oleic, linoleic and linolenic acid ranged from 5.57 to 7.09%, 1.16 to 2.27%, 11.83 to 19.55%, 11.92 to 16.71%, and 59.19 to 67.28%, respectively. Cultivars 'Dayu', 'Daeyu' and 'Anyu' showed lower linolenic acid composition compared to the average value of linoleic acid in perilla germplasms collected from Russia. Cluster analysis based on the fatty acid composition of the 45 perilla accessions segregated into three groups. Group Ⅰ characterized as higher palmitic, stearic and oleic acid compositions compared to other groups. Group Ⅱ which contained 12 accessions had high total oil and linoleic acid composition. Group Ⅲ characterized as a higher linolenic acid composition compared to other groups (p < 0.001). Oleic acid showed a significant negative correlation (r = -0.825) with linolenic acid. Principal component analysis (PCA) revealed that the first two principal components together explained 74.4% total variation.
Conclusion : Our results indicated that accessions IT235818, IT235820, IT226739 which exhibited high linolenic acid composition could be useful to develop new functional vegetable oil materials.
Background : Sclerotinia rot, caused by a fungus Sclerotinia sclerotiorum, is one of the serious and unpredictable yield losses in perilla (Perilla frutescens) leaf production in Korea. Screening disease resistant genetic resources is necessary to develop disease-resistant cultivars and conduct related research.
Methods and Results : A Total of 150 perilla accessions, including 123 Korean landraces and 27 cultivars developed in Korea, were evaluated for resistance to Sclerotinia rot (Sclerotinia sclerotiorum) using detached leaf inoculation technique. Sclerotinia sclerotiorum isolate KACC40457 was inoculated at the seedling stage (five to six leaves). For detached leaf method, a mycelial plug was placed fungus-side down on the main leaf vain and incubated at 22 ± 1℃ on moistened paper towel in a plastic box. Three Korean landraces, including IT117036, IT117106, and IT117110, and cultivar IT229431 showed 100% of resistance ratio (no. of plants showed below 1 ㎝ of lesion size/total evaluated plants × 100). Seven accessions including five landraces, IT117080, IT117107, IT117048, 117042, 117029, and two cultivaers, IT276225 and IT213781, showed high level of resistance that is higher than 80% of resistance ratio
Conclusion : 11 accessions which showed strong and moderate level of resistance to Sclerotinia rot could be possibly used by breeders, farmers, and researchers to produce new disease resistant cultivars and use them commercially. However, research related to the exploration of appropriate materials (accessions) for breeding cultivars with good quality, high functional components, high consumer acceptability, etc. should be continued, considering pathogenicity test was conducted in young stage.
Background : Perilla (Perilla frutescens) seed oil is known to contain high omega-3 fatty acid than other plant oils. This study was aimed to investigate the fatty acid composition in seeds of 255 perilla accessions from South Korea and recommend the potential genetic resources rel ated to their fatty acid composition.
Method and Results : Total oil was extracted by soxhlet extraction apparatus and the fatty acid compositions were analyzed by gas chromatography (GCMS QP2010 ULTRA, SHIMADZU, JP). Total oil contents ranged from 22.41 and 47.62% with an average content of 34.20%. Palmitic, stearic, oleic, linoleic, and linolenic acid contributed 4.46 to 7.67%, 1.64 to 4.11%, 9.15 to 26.39%, 11.89 to 28.76%, and 50.24 to 64.16% to the total oil content, respectively. Seeds from Jeollabuk-do showed the highest average total oil content (41.14%) compared to other regions (p < 0.05), while the linolenic acid composition was the highest in the samples from Chungcheongnam-do (59.48%) (p < 0.05). The cluster analysis segregated the perilla seed accessions into two major clusters. ANOVA revealed that there was a significant difference between group Ⅰ and group Ⅱ (p < 0.05). Group Ⅰ (86 accessions) characterized as higher palmitic, stearic, oleic, and linolenic acid compositions than group Ⅱ (169 accessions). The highest content of linolenic acid were recorded in accessions K126190, K135903, and IT283646 from group Ⅰ, and accessions IT108680, IT208894, and IT111050 from group Ⅱ had high total oil content. Linoleic acid content showed a strong negative correlation with palmitic acid (r = -0.726*) and oleic acid (r = -0.678*) content. Principal component analysis (PCA) revealed that the first two principal components together explained 68.75% total variation.
Conclusion : Our results showed that accessions K126190, K135903, IT283646 which exhibited high linolenic acid composition and accessions IT108680, IT208894, IT111050 which exhibited high total oil composition, could be useful to develop new functional oil materials.
Background : Perilla leaves (Perilla frutescens) are known to possess antioxidant activity and have long been used to treat a variety of health related issues. The present study was conduct ed to compare the antioxidant activity among perilla accessions collected from Russia.
Method and Results : The leaves of a total of 46 accessions of perilla were collected from Russia. Crude extracts were obtained from 2 g of oven-dried perilla leaves using ASE-350 extractor. Total phenolic content (TPC) was determined by Folin-Ciocalteu method and antioxidant activities were estimated by 2,2-diphenyl-1-picryl-hydrazil (DPPH), 2,2'-azino-bis-3-ethylbenzothiazoline-6-sulphonic acid (A BTS) radical scavenging activities, ferric reducing antioxidant power (FRAP) and reducing power (RP). TPC was ranged from 88.70 to 148.85 ㎍ gallic acid equivalent (GAE) /㎎ dried extract (DE). DPPH, ABTS, FRAP, and RP were ranged from 59.49 to 94.80 ㎍ ascorbic acid equivalent (ASCE) /㎎ DE, 73.01 to 190.59 ㎍ ASCE /㎎ DE, 98.73 to 326.39 ㎍ ASCE /㎎ DE, 82.58 to 264.88 ㎍ ASCE /㎎ DE, respectively. Cluster analysis based on antioxidant assay results of 46 perilla accessions divided into three major groups. Group Ⅰ (9 accessions) characterized as higher antioxidant activity accessions than other group (p < 0.001). The correlations between antioxidant assays were strong and positive (r ≧ 0.78). Principal component analysis (PCA) revealed that the first two principal components together explained 92.96 % total variation.
Conclusion : Among the perilla accessions collected from Russia, group accessions clustered in group Ⅱ showed high antioxidant activity. Our results indicated that accessions IT274300, IT226732 and IT274293 could be used as a source of valuable natural antioxidant materials.
Cryopreservation has been known as an efficient method for long-term preservation of clonally propagated plants, and several cryopreservation methods have been developed. Among them, a droplet-vitrification method for potato using axillary shoot tips in vitro has been established previously. In this study, we have optimized the procedure in which explants were submitted to a step-wise pre-culture in liquid sucrose-enriched medium (0.3 and 0.7 M for 7 and 17 h, respectively). The pre-cultured explants were dehydrated with PVS3 (w/v, 50% glycerol + 50% sucrose) for 90 min or modified PVS2 vitrification solution (w/v, 37.5% glycerol + 15% DMSO + 15.0% ethylene glycol + 22.5% sucrose) for 30 min. This two dehydration solutions produced post-cryopreservation regeneration percentages of 57.2% and 80.9%, respectively. We also compared a new post-culture medium (0.1 mg L ・ -1 GA3, 0.1 mg L ・ -1 kinetin) with the conventional one (0.15 mg L ・ -1 IAA, 0.2 mg L ・ -1 zeatin, 0.05 mg L ・ -1 GA3); the shooting initiation rates were 80.9% and 43.5%, respectively. The results suggest that the modified droplet-vitrification protocol described in this study is more effective, easier to implement, and more economical than the droplet-vitrification protocols currently used for potato.
우리나라 수박 주산단지에 심한 피해를 주고 있는 수박 탄저병에 대한 저항성 계통 육성을 위하여 국내·외에서 수집한 수박 유전자원의 병 저항성 검정으로 탄저병 저항성이 강한 ‘AU-Producer’를 선발하여 저항성 친으로, 고품질 계통인 ‘920533’을 반복친으로 1993년 인공교배를 하였으며 1994년 부터 1998년까지 BC4F1세대를 진전하였다. 1998년부터 2001년까지 원예적 특성 고정을 위해 6회 자가수분하여 세대를 진전하였으며 원예적 특
The objective of this study was to rapidly evaluate fatty acids in a collection of foxtail millet (Setaria italica (L.) P. Beauv) of different origins so that this information could be disseminated to breeders to advance germplasm use and breeding. To develop the calibration equations for rapid and nondestructive evaluation of fatty acid content, near-infrared reflectance spectroscopy (NIRs) spectra (1104-2494 nm) of samples ground into flour (n=100) were obtained using a dispersive spectrometer. A modified partial least-squares model was developed to predict each component. For foxtail millet germplasm, our models returned coefficients of determination (R2) of 0.91, 0.89, 0.98 and 0.98 for strearic acid, oleic acid, linoleic acid, and total fatty acids, respectively. The prediction of the external validation set (n=10) showed significant correlation between references values and NIRs values (r2=0.97, 0.91, 0.99 for oleic, linoleic, and total fatty acids, respectively). Standard deviation/standard error of cross-validation (SD/SECV) values were greater than 3 (3.11, 5.45, and 7.50 for oleic, linoleic, and total fatty acids, respectively). These results indicate that these NIRs equations are functional for the mass screening and rapid quantification of the oleic, linolenic, and total fatty acids characterizing foxtail millet germplasm. Among the samples, IT153491 showed an especially high content of fatty acids (84.06 mg g-1), whereas IT188096 had a very low content (29.92 mg g-1).