It has been discovered that the isosaccharinic acid (ISA) formed in a cellulose degradation leachate were capable of forming soluble complexes with thorium, uranium (IV) and plutonium. Since 1993, the ISA has received particular attention in the literature due to its ability to complex a range of radionuclides, potentially affecting the migration of radionuclides. ISA is formed as a result of interactions between cellulosic materials within the waste inventory and the alkalinity resulting from the use of cementitious materials in the construction of the repository. In an alkaline cementitious environment, cellulose degrades mainly via a peeling-off reaction. The main degradation product is ISA, a polyhydroxy type of ligand forming stable complexes with tri- and tetravalent radionuclides. ISA can have an adverse effect on the sorption of radionuclides to an extent which depends on its concentration in the cement pore water and potentially enhance their mobility. The concentration of ISA is governed by several factors such as cellulose loading, cement porosity, extent of cellulose degradation, etc. The sorption of ISA on cement, however, is the process which governs the concentration of ISA in the pore water. According to the experimental result from a literature, the ISA concentration in facilities with a cellulose loading of 5% is calculated to be of the order of 10−4 M. At this level, the effect of cellulose degradation products on radionuclide sorption is negligibly small. Recently in Korea, cellulous limits as waste acceptance criteria is studying and planning to prepare the detailed requirement for near surface radioactive waste disposal facilities. It is desirable to suggest consideration on cellulose disposal limits around the time that the regulatory body and concern organizations establish the cellulose disposal limits as follows. Firstly, identify the cellulose effect on the sorption of the nuclides as cementitious disposal environments such as affected nuclides, threshold value and contribution to radiological risks under domestic disposal environment. Secondly, make sure and consider the difference between lab-scale experimental conditions and probability occurring in real disposal conditions such as probability for generation and persistence of pH in cellulosic material disposal conditions and cellulosic material disposal methods. Finally, consider characterization of cellulosic material such as polymerization, contents of cellulose in law material and time of degradation process. As a result, desirable cellulose limits are to set up for both safety and economic aspect.

프리지아 ‘Sunny Gold’는 농촌진흥청 국립원예특작과학원 에서 2010년 노랑색 반겹꽃 프리지아 육성계통 ‘036010’을 모본으로 진노란색 홑꽃 ‘Golden Flame’을 부본으로 교배하여 획득한 종자로부터 2011년 진노란색 겹꽃의 향기가 강한 프리지아 계통을 선발하여 품종화 하였다. 2011년부터 2016년까지 개화 생육특성검을 수행하였으며 핵심수요자의 기호도 평가를 통해 선발되어 2017년 ‘Sunny Gold’ 로 명명되었다. ‘Sunny Gold’는 RHS color chart YO17B의 노란색 겹꽃 프리지아 품종으로 화폭은 6.7cm로 대조품종 ‘Golden Flame’ 6.1cm에 비해 크고, 분지수는 6.5로 다수확성 품종이다. 초장이 101.9cm로 초세가 강하다. ‘Sunny Gold’의 소화수 및 소화장은 각각 13.0개, 9.3cm이며 개화소요일수는 137.7일이다. 이 품종의 절화수명은 약 9일이며 자구번식력은 5.3배로 대조 품종 ‘Golden Flame’ 4.3배에 비해 우수하다. 전자코를 이용한 PCA분석결과 PC1과 PC2는 각각 99.3%와 0.6%로 전체 변이량의 99.9%를 반영하고 있다. Rader plot 분석결과 총 6개 센서에서 모두 ‘Sunny Gold’의 센서값이 향기가 강한 상용품종 ‘Yvonne’의 값에 비해 높게 나타나 ‘Sunny Gold’의 향기가 더 강한 것으로 나타났다.

Exosomes are Nano-sized lipid vesicles secreted from mammalian cells containing diverse cellular materials such as proteins, lipids, and nucleotides. Multiple lines of evidence indicate that in saliva, exosomes and their contents such as microRNAs (miRNAs) mediate numerous cellular responses upon delivery to recipient cells. The objective of this study was to characterize the different expression profile of exosomal miRNAs in saliva samples, periodically isolated from a single periodontitis patient. Unstimulated saliva was collected from a single patient over time periods for managing periodontitis. MicroRNAs extracted from each phase were investigated for the expression of exosomal miRNAs. Salivary exosomal miRNAs were analyzed using Affymetrix miRNA arrays and prediction of target genes and pathways for its different expression performed using DIANA-mirPath, a web-based, computational tool. Following the delivery of miRNA mimics (hsa-miR-4487, -4532, and -7108-5p) into human gingival fibroblasts, the expression of pro-inflammatory cytokines and activation of the MAPK pathway were evaluated through RT-PCR and western blotting. In each phase, 13 and 43 miRNAs were found to be differently expressed (|FC| ≥ 2). Among these, hsa-miR-4487 (|FC|=9.292005) and hasmiR- 4532 (|FC|=18.322697) were highly up-regulated in the clinically severe phase, whereas hsa-miR-7108-5p (|FC|= 12.20601) was strongly up-regulated in the clinically mild phase. In addition, the overexpression of miRNA mimics in human gingival fibroblasts resulted in a significant induction of IL-6 mRNA expression and p38 phosphorylation. The findings of this study established alterations in salivary exosomal miRNAs which are dependent on the severity of periodontitis and may act as potential candidates for the treatment of oral inflammatory diseases.

본 연구는 고농도 CO2 환경에 순응한 호접란 유묘의 CO2 교환 및 생장 반응을 조사하기 위해 실시하였다. 환경 조절이 가능한 식물생장상에서 6주령 호접란 ‘만천홍’을 27주 동안 야간에 각각 400 ± 100, 900 ± 100, 1500 ± 100, 2100 ± 100μmol CO2·mol-1 농도로 유지해주었다. 처리에 앞서 발달해 있었던 최상위 성숙엽으로 측정한 야간 중 CO2 흡수량은 900μmol CO2·mol-1 처리구에서 가장 높았고, 이어 2100, 1500, 400μmol CO2·mol-1 순으로 높았다. 그러나 처리 7주 이후 새로 발달한 성숙엽에서 측정한 결과, 2100μmol CO2·mol-1 처리구가 야간 중 가장 높은 CO2 흡수량을 보였으며, CO2의 흡수량은 처리 CO2 농도가 높아질수록 증가하는 경향을 보였다. 생장 반응에서는 최상위 성숙엽의 엽장, 엽폭 및 생체량은 900, 1500, 2100μmol CO2·mol-1 등 고농도 처리구에서 감소하였으나, 신엽 발달은 고농도 CO2 처리 하에서 촉진되었다. 이러한 결과들은 호접란 유묘의 높은 CO2 환경에 대한 적응이 CO2 흡수와 신엽 발달을 증진시킬 수 있다는 것을 보여준다. 그러나 900μmol CO2·mol-1 이상의 고농도에서는 잎의 생장과 생체량이 다소 줄어드는 경향이 있어 이에 대한 원인구명 등 추가적인 연구가 필요하다.

The Maillard reaction is a complex reaction that occurs between carbonyl and amine groups during food pro-cessing and storage. In addition, it produces a large number of Maillard reaction products (MRPs), which have an importantrole in determining food characteristics including aroma, color, flavor, and texture. Importantly, recent studies have beenconducted that the Maillard reaction products and their ferments with lactic acid bacteria (LAB) induced specific biologicalcharacteristics including antimicrobial, antioxidative, and antihypertensive activities as well as improved their physiologicalfeatures such as the heat stability and emulsifying properties. Therefore, we described on new insights for enhanced physi-ologic and biologic functions of MRPs through LAB fermentation.

토천궁(L. chuanxiong Hort.)은 산형과(Umbelliferae) 기름 당귀속(Ligusticum)에 속하는 다년생 식물로, 뿌리를 이용하는 효능 및 약리작용으로 인하여 약용 목적으로 재배된다. 입지환경과 생육 특성 및 지표성분과의 상관관계를 파악한다면 보다 명확한 토천궁의 임간 재배환경 조건을 확립할 수 있을 것이며, 사회･경제적으로 관심이 증가하고 있는 고품질의 단기소득임 산물 생산을 위한 기초자료를 확보할 수 있을 것으로 사료된다. 따라서 본 연구의 목적은 기후변화에 대응하여 토천궁의 기후 대별 입지환경과 생육 특성 및 성분 함량과의 상관관계를 구명하여 최적의 재배환경에 대한 정보를 제공하는데 있다. 기후대 별 입지환경 차이에 따른 토천궁의 특성을 비교하기 위해 온대 남부의 경상남도 함양군 삼봉산, 온대중부의 경상북도 봉화군 미림산, 온대북부의 강원도 정선군 가리왕산에 각 시험지를 선정하였고, 토천궁을 이식해 생육 특성, 토양 이화학성 분석, 기후 측정, 지표성분 분석을 실시하였다. 그 결과, 정선의 토천궁 생중량 및 건중량이 49.08 g 및 20.89 g으로 가장 높았으며, 근장 및 근직경도 각각 22.79 ㎝ 및 52.46 ㎜로 함양과 봉화보다 높았다. 유효성분 함량은 정선에서 senkynolid A, z-ligustilide, chlorogenic acid, trans-ferulic acid 총 함량이 21.59 ㎎/g으로 높게 나타났다. 토천궁의 수량과 성분특성은 생육 환경에 영향을 받으며, 해발고가 높고 기온이 낮으며 토양 수분함량이 적은 지역에서 재배하는 것이 유효성분 함량과 생산량 증가에 유리하다고 사료된다. 본 연구는 환경조건과 생육 특성 및 지표성분 함량과의 상관관계에 대한 자료로써 산림 내 재배환경의 확 립 및 연구의 기초가 될 것으로 판단된다.

참당귀(Angelica gigas Nakai)는 미나리과(Apiaceae) 당귀 속(Angelica L.)에 속하는 다년생 식물로, 뿌리에 효능이 많아 약용 목적으로 재배된다. 본 연구에서는 주로 생산되는 참당귀 재배지의 특성에 대한 연구와 이에 따른 참당귀의 생장 및 지표 성분 함량과의 상관관계를 구명하여 참당귀의 안정적인 한약재 수급을 위한 생산량 및 유용성분 함량 증가에 적합한 재배 환경에 대한 정보를 제공하는데 있다. 참당귀의 근직경은 평창 두일리가, 지근 개수는 평창 탑동리가 가장 많았다. 생중량은 평창 탑동리가 가장 높았으며, 건중량도 이와 같은 경향을 보였다. 재배지의 토성은 사질식양토(Sandy Clay Loam)였으며, 유기물 함량은 탑동리에서 3.63%로 가장 높은 함량을 보였다. 전 질소 함량은 봉화 남회룡리에서 0.19%로 가장 높았으며, 유효인 산 함량은 고선리에서 높았다. 총 decursin 함량은 두일리에서 5.31%로 가장 높았다. 결과적으로 평창 두일리에서 참당귀의 생육이 가장 우수하였으며, decursin 함량 또한 높았다. 당귀의 수량이나 성분은 재배지역의 환경조건에 크게 영향을 받는데, 해발이 높은 지역에서 재배하는 것이 지표성분 함량과 생산량 증가에 유리하다고 사료되며, 환경조건과 생육 및 지표성분 함량과의 상관관계에 대한 기초자료가 될 것이라고 판단된다. 또한, 최적의 재배환경의 확립과 식물의 생리작용에 대한 연구의 기초가 될 수 있을 것이라고 판단된다.

Background : Basil is well known for its use in cooking, however, the herb is also noted for its value in traditional medicine. Basil is a digestive stimulant with antimicrobial, antibacterial, anticonvulsant and anticarcinogenic properties. Basil contains high levels of phenolic acids that contribute to its strong antioxidant capacity and the substantial concentrations of rosmarinic acid, in particular, have been associated with the herb’s medicinal qualities. Rosmarinic acid is noted in the literature to be the most prevalent basil phenolic but other caffeic acid derivatives, such as chicoric acid, are also found in high concentrations. But, no previous study about other phenolic compounds accumulation except previously mentioned. Thus, the aim of this study is to explain that basil accumulates other phenolic compounds except previously mentioned. Methods and Results : 6 basil cultivars, ‘Holy’, ‘Lemon’, ‘Cinnamon’, ‘Dark Opal’, ‘Bush’ and ‘Genovese’, were grown at experimental field of Chungnam National University. These plants leaves were freeze-dried at -80℃ for 72 h and then ground into a fine powder using a mortar and pestle. 100 ㎎ of the sample was weighed into 15 ㎖ tube and 2 ㎖ of 80% (v/v) methanol was added. Next, the tube containing the powder was allowed to be sonicated for 1h at 35℃, and then centrifugation was performed at 12,000 rpm for 10 min. The supernatant was filtered with a 0.45 ㎛ PTFE syringe filter and analyzed by a Futecs model NS-4000 HPLC apparatus. 12 phenolic compounds were identified and quantitated in the different cultivar leaves of basil through comparison of retention time, spike tests and external standard calibration curves using HPLC. Gallic acid, 4-hydroxybenzoic acid, catechin hydrate, chlorogenic acid, caffeic acid, p-coumaric acid, ferulic acid, benzoic acid, rutin, trans-cinnamic acid, quercetin, kaempferol were identified. Among 6 basil cultivars, ‘Dark Opal’ show the highest accumulation of phenolic compounds, particular benzoic acid (6.32 ㎎/g dry weight), rutin (1.13 ㎎/g dry weight) and 4-hydroxybenzoic acid (0.4 ㎎/g dry weight) are higher than other cultivars. Conclusion : The results presented herein provide information about variation of phenolic compounds in 6 basil cultivars, ‘Holy’, ‘Lemon’, ‘Cinnamon’, ‘Dark Opal’, ‘Bush’ and ‘Genovese’.

Background : Morus alba L. (M. alba L.) belongs to the family Moraceae and has been industrially used as a food source for the silkworm and as a sedative in traditional medicine due to their adaptogenic, hypotensive, anti-inflammatory, hypoglycemic, and anti-adipogenic properties. In this study, metabolic profiling of diploid and tetraploid in Morus alba L. ‘Cheongil’ Methods and Results : Carotenoids are secondary metabolites found in most of the higher plants. In the current study, the levels of carotenoids were much higher in tetraploid of M. alba L. ‘Cheongil’ than diploid of M. alba L. ‘Cheongil’. Particularly, the levels of lutein, 13z-β-carotene, α-carotene, E-β-carotene, and 9Z-β-carotene were 2.51, 5.53, 7.68, 4.43, and 4,46 times higher in tetraploid of M. alba L. ‘Cheongil’, respectively. Additionally, hierarchical cluster analysis (HCA) was carried out using Pearson’s correlation results in order to determine the relationships between metabolites of diploid and tetraploid in Morus alba L. ‘Cheongil’. The results of HCA revealed the degree of correlation among 42 metabolites, which were identified and quantitated by GC-TOFMS. Among TCA organic acids, succinic acid was positively correlated with fumaric acid (r = 0.8250, p < 0.0001) and malic acid (r = 0.9436, p < 0.0001). Among carbohydrates, fructose was positively correlated with glucose (r = 0.9398, p < 0.0001) and mannose (r = 0.9394, p < 0.0001). Conclusion : In this study, we investigated primary metabolites and secondary metabolites (carotenoids) in diploid and tetraploid in Morus alba L. ‘Cheongil’ in order to provide information on the difference between

Background : Narcissus tazetta (N. tazetta), belonging to the Amaryllidaceae family, is a bulbous plant distributed in Korea, China, and Japan. Amaryllidaceae family plants contained galantamine exhibiting dominant and selective acetylcholinesterase inhibition. In this study, transcriptome analysis of N. tazetta was carried out. Methods and Results : The results of studies conducted in duplicate revealed the presence of a total of 305,228 and 370,567 unigenes, acquired from 69,605,788 and 59,770,506 raw reads, respectively, after trimming the raw reads using CutAdapt, assembly using Trinity package, and clustering using CD-Hit-EST. The resulting unigenes were annotated based on the NCBI Non-redundant protein database, as N. tazetta is genetically closer to Phoenix dactylifera and Elaeis guineensis. The unigenes of N. tazetta were clustered into three major categories: biological processes, cellular components, and molecular functions, with 51 functional sections. A large number of unigenes (11,371 and 15,535 from replicates 1 and 2, respectively) were categorized in the biological process cluster, followed by the cellular component cluster, and the molecular function cluster. With respect to the biological process category, the unigenes were assigned to 23 functional sections. The majority of unigenes were involved in cellular processes. Among the unigenes clustered as the cellular component with 14 sections, most genes were associated with the cell and cell parts. Furthermore, 156,584 and 201,353 unigenes, respectively, matched the molecular function cluster with 14 sections, of which most unigenes were related to metabolic process and cellular process. Conclusion : This study provides functional information of N. tazetta and highlights the use of the Illumina platform for transcriptome research.

Background : Tropospheric ozone (O3) is a secondary air pollutant that negatively affects numerous agricultural crop and forest. The tropospheric ozone is constantly increasing due to fossil fuel air pollutants. Here, we study the response of tartary buckwheat to ozone gas includes physiological and biochemical changes such as change in gene expression and metabolism. Methods and Results : Tartary buckwheat plants have green stems and leaves under normal conditions, while the plants exposed to the ozone have red stems and reddish green leaves. The expression of most flavonoid biosynthetic genes were significantly upregulated in ozone-treated buckwheat plants, exceting the expression of FtF3’H2. The contents of two anthocyanins, cyanidin 3-O-glucoside and cyanidin 3-O-rutinoside, were significantly increased by ozone treatment. From the metabolic profiling based on the GC-TOF-MS analysis, we identified the effect of ozone on thirty-five metabolites, including sugars, amino acids, and organic acids. Most of the metabolites result in significantly decreased or nearly remain unchanged in the ozone-treated plants compared with untreated plants, excepting alanine, proline, tryptophan, sucrose, and raffinose. To identify the effect of ozone on the leaf, we analyzed the epidermal cells on the leaf surface by scanning electron microscopy. Interestingly, amount of epidermal cells were partially destructed in ozone-treated plants. Conclusion : By analyzing both primary and secondary metabolites of tartary buchwheat without or with ozone, we identified that ozone affects the modulation of the metabolites as well as gene expression in tartary buchwheat.