Background : Zingiber officinale is known as the source of the pungent, aromatic spice called ginger. Ginger, especially dried rhizomes, has been widely used for many medicinal purposes. The pungent principles in ginger are the non-volatile phenolic compounds gingerol, gingeridione and shogaol. It is cultivated 1,046 ha as 5 th of 55 medicinal crops in Korea (2016). Ginger has been successfully propagated using internodal cuttings. Ginger emergences at 18℃ or higher, and it takes about 40 - 50 days to emerges after sowing. Therefore, it is required a cultivation method that promote the emergence.
Methods and Results : The internodal cuttings with 25 – 35 g was planted on 30 April at 30 × 30 ㎝ on 120 ㎝ broad bed. Five covering materials included the illite non-woven fabric (18 g/㎡), rice straw and vinyl were treated to promote emergence and early growth. Soil temperature covered by illite non-woven fabric was higher by 2.6 - 2.8℃ than that of rice straw covering, and lower by 2.2 - 2.4℃ than that of the transparent vinyl mulching. Emergence was faster in the illite non-woven fabric mulching by 5 - 6 days compared to vinyl mulching. It was presumed to be due to the small diurnal difference with increasing soil temperature. The covering with illite non-woven fabric had a large plant height and a large leaf number. So, the early growth in the covering of illite non-woven fabric was better than other treatments. There was a differences in rhizome’s yield among treatments. The content of gingerol was 2.29 – 2.37 ㎎/g and there was no significant difference.
Conclusion : From the above results, covering illite non-woven fabric until sprouting after planting promoted its emergence and early growth.
Background : The rhizome of ginger (Zingiber officinale) is widely used as a spice or a traditional medicine. It contains the phenolic compounds, such as gingerol, zingerone and shogaols as the major pungent compound. Ginger is commonly used for various types of "stomach problems," including motion sickness, colic, upset stomach, gas, diarrhea, irritable bowel syndrome (IBS), nausea. The cultivation area of ginger is 1,046 ha, and it is cultivated as 5th of 55 medicinal crops in Korea (2016). When ginger is cultivated in a vinyl house, the growing periods can be prolonged by early sowing and the yield is improved compared to the conventional cultivation. This experiment was carried out to investigated on growth, rhizome shape and yield as affected by the soil covering in rain-shelter greenhouse.
Methods and Results : Seed ginger was planted on March 10 at 75 × 15 ㎝ planting density in greenhouse. The soil covering on furrow area was carried out on June 20, July 20 and August 20. The control, conventional cultivation was planted four rows on 120 ㎝ wide ridge. As a results of applying the soil covering, emergence was 2 - 3 days earlier than that of conventional cultivation. On November 5, samples were harvested for each treatment, and growth characteristics, tuber shape, and yield were investigated. As the number of soil-cover increased up to 3-times, the weight of the tuber increased to 44.4% and the length to 21.9% as compared with the control. However, as the number of soil-cover increased, workspace was needed, resulting in fewer seeding gingers and lower total yield. Therefore, it was advantageous to perform two times soil-cover to obtain the maximum yield. In the case of soil cultivation, the length of the foot was longer than that of conventional cultivation, and the quality was improved.
Conclusion : From the above results, it is recommended that the soil covering is carried out twice at greenhouse’s cultivation. The first covering is in mid-June, and the second is in mid-July.
Background : Ginseng (Panax ginseng C. A. Meyer) is a multi-year-cultivated plant that causes many insects and disease damage during the growing season. The Ginseng Rain-sheltered Shade House is one of the efficient cultivation techniques as reducing the damages caused by natural disaster such as blight, high temperature & humidity, dry, and heavy rain & snow. This study was conducted to investigate the growth characteristics of 4-years-old ginseng using rain-sheltered shade house suitable shading materials for the Gyeongsangbuk-do.
Methods and Results : The rain-sheltered shade house shading materials were PE film with layered polyethylene net 90%, Light diffusion film with layered polyethylene net 75%, blue-white duplicated film. In order to determine proper shading materials of the rain-sheltered shade house, ginseng growth characteristics such as plant length, stem diameter, leaf length, root length and root diameter were investigated at 4-years-old ginseng. As a result, the evaluations of aerial part growth by measurements were good in the following order: PE film + polyethylene net 90%, Blue-white duplicated film and light diffusion film + polyethylene net 75%. The evaluations of root weight by measurements were heavy in the following order: Blue-white duplicated film, PE film + polyethylene net 90% and light diffusion film + polyethylene net 75%. The net photosynthetic rate was higher in blue-white duplicated film than other shading materials treatments during growth season including summer high-temperature period.
Conclusion : In the 4-years-old ginseng cultivation in Gyeongsangbuk-do using the rain-sheltered shade house, aerial part growth in PE film + polyethylene net 90% was better than other shading materials. In addition, root weight in Blue-white duplicated film was heavier than other shading materials. It will be possible to know which shading material is the most suitable for Gyeongsangbuk-do area after further growth.
Background : The cultivation method of ginseng (Panax ginseng C. A. Meyer) has been introduced not only in the existing shading facilities but also in the cultivation method using the rain shelter house. In addition, direct seedling cultivation of ginseng is increasing in order to save labor. Ginseng cultivation area in the northern area is increasing with the disappearance of first planted field. Proper shading method in the northern ares is needed to grow direct grown ginseng using rain forest house.
Methods and Results : Shading method using rain shelter house was Polyethylene film with layered polyethylene net 75%, blue-white duplicated PE film 85%, blue-white duplicated PE film 90%. Plant materials is 5-years-old Ginseng using direct seedling cultivation. In order to select proper shading materials of the rain shelter house in northern area, we investigated photosynthetic properties and growth of 5-years-old ginseng in rain shelter house. The temperature and humidity were slightly different between the traditional conventional shade facility and the rain shelter house, but the light intensity of the shading facility tended to decrease with the passage of time. The difference in shading method in rain shelter house was the highest at polyethylene film with layered polyethylene net 75%. As a result of the growth characteristics of the top part, 90% of blue-green double-sided film showed the greatest growth with 89.8 ± 1.5. The difference in top part between rain shelter house and shading facility is about 23 ㎝.
Conclusion : Although the above growth characteristics of the ginseng shows this tendency, the root growth characteristics of the ginseng must be further observed.
Background : Although Aster scaber is a perennial plant, it needs to be renewed every three years in the cultivation of the facility, so it is necessary to increase the efficiency of production by extending the cultivation period. This study was carried out to investigate the differences in the growth characteristics of facility grown A. scaber according to the treatment of soil conditioner for the extension of the plant cultivation.
Methods and Results : Soil physics improvement material for the extension of cultivated aster scaber was selected from rice straw, rice husk charcoal and coir fiber. In this study, 1,000 ㎏ of coir fiber, 1,000 ㎏ of rice straw, and 1,000 ㎏ of rice husk charcoal were treated per 10a of the soil improvement material, and the untreated control was set as a control. After the test treatment, the growth conditions such as survival rate, plant length, leaf length, leaf width, and stalk diameter were investigated. The control group was investigated as the survival rate was 96.1%, plant length average was 16.3 ± 1.8 ㎝, leaf length average was 7.7 ± 1.2 ㎝, leaf width average was 7.4 ± 0.7 ㎝, and stalk diameter average was 1.97 ± 0.3 ㎜. rice straw treatment is as the survival rate was 95.8%, plant length average was 13.8 ± 1.9 ㎝, leaf length average was 6.5 ± 0.8 ㎝, the leaf width average was 5.9 ± 0.7 ㎝ and the stalk diameter average was 1.85 ± 0.4 ㎜. Rice husk charcoal treatment is as the survival rate was 99.7%, plant length average was 17.4 ± 1.7 ㎝, leaf length average was 8.4 ± 1.1 ㎝, the leaf width average was 7.5 ± 0.8 ㎝ and the stalk diameter average was 2.15 ± 0.5 ㎜. Coir fiber treatment is as the survival rate was 96.9%, plant length average was 16.9 ± 1.7 ㎝, leaf length average was 7.9 ± 1.4 ㎝, the leaf width average was 6.9 ± 1.0 ㎝ and the stalk diameter average was 2.01 ± 0.5 ㎜. The results of the study showed that the growth of rice husk charcoal was good and the survival rate was high and the growth of straw treatment was relatively low and the rate of survival was low. However, no significant difference was found in the treatment of the remedies.
Conclusion : As a result of investigating the differences in the growth characteristics of the A. scaber according to the treatments of the soil improvement agent, the growth and survival rate of the rice husk charcoal treatments were relatively high, but no significant difference was found. Therefore, the use of rice straw, rice husk charcoal, and coir fiber as a soil improvement agent does not appear to have much effect on the initial growth of the A. scaber.
Background : Wild-simulated ginseng (WSG, panax ginseng C. A. Meyer) is known to be grown in high altitudes with a climate of cool, well ventilated and fertile humid forests. In this study, the effects of altitude and soil characteristics on the growth of WSG were investigated.
Methods and Results : The seeds were planted on designated line, and the altitude was set at 600 highland and 300 highland. At each highland soil characteristics and forest condition were investigated also Hobo (HOBO U30 Werther station) was set up to measure the microclimate in the site. Experiments were conducted in each highland to determine the difference in the growth of WSG according to the soil condition. Growth characteristics of undergrowth, such as root thickness and length also upper growth such as stem length and thickness were measured. As a result of the soil characteristics survey, the value of available phosphorus was found to be 256.7 ㎎/㎏ at 300 highlands. On the other hand, in 600 highland, available phosphorus was 29.59 ㎎/㎏, which showed big difference.
Conclusion : Overall, the cation exchange capacity was higher than the 600 highland at 300 highland. The weight, stem length, root length and leaflet size of the wild-simulated ginseng were higher than those of 600 highland at 300 highland.
Background : A major medicinal plant, Angelica gigas Nakai, have using root parts and mainly cultivated the cool temperature region of high alpine as wild type in the northeast of China, Japan and Korea. The roots of grow it’s rapidly form August, and harvested from October to November. This study performed that the growth characteristics on soil mulching vegetation cultivation field of 300 m altitude of under Larix leptolepis (S. et Z.) Gordon in Bonghwa-gun, Gyeongsangbuk-do.
Methods and Results : After one-year seeding of the same size (7 - 8 ㎜) were transplanted in three types soil mulching of cultivation (plastic, straw and non-mulching) overground growth surveyed in three times (May to August), To confirm of soil condition compared the average. Soil condition of plot were observed to pH 5.56, OM 3.22%, T-N 017%, and growth increment were higher observed to that straw and non-mulching then plastic mulching of such as plant length 46.8 ㎝, stem diameter 5.9 ㎜, leaf length 24.4 ㎝ and width 28.9 ㎝, number of radical leaf 3.1. But from August, when the average temperature was high, the growth characteristics such as plant length, petiole Length, leaf length and width were reversed compared to those of plastic and non-mulching.
Conclusion : In case of cultivation of A. gigas in the environmental conditions of mountainous area, considering the growth from August to October when the roots growth bigger, It suggested that strew mulching is better than plastic and non-mulching, would be done through further research on underground growth characteristics of A. gigas according to harvesting time confirmed the relationship to the growth characteristics of A. gigas according to environmental conditions and soil mulching mountainous plantations.
Background : Oplopanax elatus has many compounds such as essential oils, saponin, flavonoids, anthraquinones, and polyacetylenes etc. in all part of stems, roots, and leaves. In previous study, we isolated five compounds (uracil, adenosine, protocatechuic acid, syringin, and scoparone) from the water extract of in stems of O. elatus. In this study, we confirmed the variation of chemical constituents and antioxidant activity in leaves of O. elatus by different cultivation environment.
Methods and Results : We analyzed three types of O. elatus in different cultivation environment (in vitro plant, in vivo plant and wild plant). We detected five compounds (uracil, adenosine, protocatechuic acid, syringin, and scoparone) in three types of plants by using HPLC. The contents of five compounds varied depending on the different cultivation environment. Syringin and adenosine were detected on all plants and showed different contents, respectively. We compared antioxidant activities such as total phenol contents (TPC), total flavonoid contents (TFC), DPPH and reducing power assay. The values of antioxidant activities (DPPH and reducing power) in leaves of in vitro plants were higher than other plants. Also TPC and TFC in leaves of in vitro plants showed the highest contents.
Conclusion : These results could be basic data for cultivation methods about enhancement of syringin and adenosine compounds contents in leaves of O. elatus.
Background : Matricaria recutita and Dendranthema indicum are known to have effects such as antioxidant and antihypertensive effects, and they are used as processed food materials. Therefore, it is necessary to examine the possibilities as a natural material for cosmetics. This study was carried out to analyze the volatile flavor components of flowers during cultivation in order to examine the possibility of cosmetics using M. recutita and D. indicum.
Methods and Results : This experiment was carried out from April to October, 2017 at Unbong-eup (500 m above sea level) in Namwon, Jeollabuk-do. M. recutita and D. indicum were planted in late May. Then, flowers were collected in October and volatile flavor components were analyzed by Solid Phase Micro Extraction (SPME) method. Samples of flowers for component analysis were weighed in 0.4 g each and placed in a 20 ㎖ vial. GC/MS was used with Agilent Technologies 7890A/5975C (Agilent, USA). Column and carrier gas were DB-5MS (30 m × 0.25 ㎜ × 0.25 ㎛) and helium gas, respectively. As a result of the analysis of M. recutita flowers, we identified a total of 24 components. The major flavor components were mono terpenes and ketones. The main compounds were β-ocimene (24.08%), artemisia ketone (22.82%), γ-terpinene (16.65%), cis-3-hexenyl isovalerate (3.92%), artemisiatriene (3.72%) and O-cymene (3.44%). As a result of analyzing the composition of D. indicum flower, we identified 33 kinds of ingredients. The major flavor components were monoterpenes and sesquiterpenes. The main compounds were sabinene (19.67%), trans-oiperitol (13.22%), α-phellandrene (10.05%), myrcene (7.53%), cineole (4.36%), α-terpinene (3.60%) and trans-ocimene (3.57%).
Conclusion : We identified 24 flavor components and 33 flavor components in flower of M. recutita and D. indicum, respectively. Eight of the identified or estimated compounds were common to both samples. The reason why the flavor components kinds of M. recutita flowers were few was thought to be due to the influence of collection time. The main flowering period of M. recutita and D. indicum were May and October, respectively, but the use of the samples collected in October seemed to have influenced.
Background : This study was carried out to investigate the possibility of cosmetics materials by comparing growth characteristics, photosynthetic rate and major functional components of Rosa multiflora and Perilla frutescens at different altitudes.
Methods and Results : This experiment is being carried out in April 2018 in Namwon (500 m above sea level) and Iksan (15 m above sea level) in Jeollabuk-do. The growth characteristics of R. multiflora were investigated at the end of May. Flowers were collected at this time and used as samples for functional analysis. The growth characteristics of P. frutescens were investigated in the middle of August and the ground part was collected at this time and used as a sample for functional analysis. Photosynthetic rates were measured using LCpro+ (ADC, UK). The marker compound were investigated and analyzed using HPLC Alliance e2695 and 2998 PDA detector (Waters, USA). Photosynthetic rate (based on 1,600 μ mole of light intensity) was measured in mid-June as follows. The R. multiflora showed 9.8 μ mole․CO2/㎡/s in Iksan and 7.9 μmole․CO2/㎡/s in Namwon. The P. frutescens showed 15.0 μmole․CO2/㎡/s in Iksan and 8.8 μmole․CO2/㎡/s in Namwon. Overall, Photosynthetic rate was higher in Iksan. As a result of analyzing 18 kinds of marker compound, gallic acid and astragalin were found in R. multiflora, caffeic acid and rosmarinic acid were found in P. frutescens. Gallic acid and Astragalin of R. multiflora showed 5.4 ㎎/g and 28.4 ㎎/g in Iksan and 3.2 ㎎/g and 21.6 ㎎/g in Namwon, respectively. Caffeic acid and rosmarinic acid of P. frutescens were 2.7 ㎎/g and 49.7 ㎎/g in Iksan and 2.5 ㎎/g and 33.6 ㎎/g in Namwon, respectively.
Conclusion : Comparing the yield of the harvesting parts by region, both R. multiflora and P. frutescens was higher in Namwon. As a result of quantitative analysis of four detected elements of gallic acid, astragalin, caffeic acid and rosmarinic acid, all four components were high in Iksan. It is considered that this is due to optical environment difference.
Background : In recent years, the demand for oriental cuisine has increased due to the increase of multicultural families and dietary changes, and Coriandrum sativum is also consumed steadily. Therefore, this study was conducted to establish the optimum planting density for high-quality seed production of Coriandrum sativum in order to increase the utilization of leafy vegetables and establish a foundation for production throughout the year through house cultivation
Methods and Results : This experiment was carried out from March to August 2017 at a house facility located in Namwon-si (500 m above sea level) in Jeollabuk-do. Seeds of Coriandrum sativum were sown on March 10, 2017 and planting density was set at 4 levels of 10 × 5 ㎝, 10 × 10 ㎝, 10 × 20 ㎝, and 10 × 30 ㎝. Seeds were harvested on August 2 and 142 days after sowing. Growth characteristics of C. sativum were investigated on May 16, 66 days after sowing. Plant height, leaf length and leaf width were good at 52.9 ㎝, 3.8 ㎝, and 4.1 ㎝ in planting density of 10 × 10 ㎝, respectively, but there was no statistically significant difference between treatments. As a result of examining the number of leaflets per plant, 20.9 leaves in 10 × 30 ㎝ treatment was the best and the difference was significant. The fresh weight of the overground part was the highest at 2,322 ㎏/10a in 10 × 10 ㎝ treatment. The total fresh weight of the overground and underground parts were 2,633 ㎏/10a and 2,572 ㎏/10a at 10 × 10 ㎝ and 10 × 20 ㎝, respectively. The total weight of seeds per treatment was the highest at 146 ㎏/10a at 10 × 10 ㎝ treatment, but the difference was not significant.
Conclusion : As a result of the experiment to determine the proper planting density, the growth characteristics and the total weight of seeds were good at 10 × 10 ㎝ treatment, but there was no statistically significant difference. Therefore, when C. sativum are cultivated for the purpose of seed production, the planting density of 10 × 30 ㎝ is considered to be the most appropriate for seed requirement and labor saving.
Background : Polygala tenuifolia is mainly distributed in Korea and China. It is known to be mainly helpful for brain function and has been used medicinally for a long time. Currently, most of that used in domestic are imported from China. We want to identify the basic characteristics to replace imports and grow into new domestic income crops. Previous studies have examined the storage conditions of seeds and the areas suitable for cultivation. In this study, seed harvesting, germination conditions and seedling production methods are explained.
Methods and Results : Seed harvest method - in early June, we have covered the funnel, paper bag and mesh bag. Seed harvested at the end of June were sorted by wind speed of 3.5 m/s – 6.1 m/s and 1 ㎜ - 4 ㎜ mesh size. The germination rate was measured at 20℃ for 10 days. Suit of the germination temperature - the germination rate was measured by 100 seeds, three replicates with a temperature gradient of 15℃ to 35℃ and 2℃ intervals. In order to confirm the conditions for seedling production, the emergence rate was examined at 20℃, 25℃, 30℃ and 35℃ in growth chamber. The seed harvesting method was 1.88 g of mesh bag the highest yield. The best sorting method was 2 ㎜ mesh size and 5.7 m/s wind speed. The germination temperature was the highest at 89.7 - 90.3% at the temperature range of 1 9℃ - 20℃ and the germination rate was decreased to 21.0% at 27℃. The seedling production rate was highest at 20℃. There was no difference in growth according to the pot size, but the survival rate was the highest in 105 size
Conclusion : As a result of this study, Polygala tenuifolia was confirmed that harvesting by mesh bag and sorting by size and wind speed were effective for seed quality and yield. The seed germination was observed at relatively low temperature. These results can be used as basic data for cultivation.
Background : Lycoris radiata (L. radiata), which belongs to Amaryllidaceae family, is native to Northeast Asia including Korea, Japan, and China. It is known for its high ornamental and medicinal values. Extensive research has been conducted in a several fields, including molecular biology, morphology, pharmacology, physiology, palynology, and chromosomal biology. The plant is notable for its various biological activities, including anti-cancer, anti-malarial, anti-microbial, reduction in blood pressure, anti-inflammatory, cytotoxicity, and neuroprotective effects.
Methods and Results : The results of studies conducted in duplicate revealed the presence of a total of 325,609 and 404,019 unigenes, acquired from 9,913,869,968 and 10,162,653,038 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 L. radiata is genetically closer to Elaeis guineensis and Phoenix dactylifera. The unigenes of L. radiata were clustered into three major categories: biological processes, cellular components, and molecular functions, with 51 functional sections. A large number of unigenes (203,157 and 224,813 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, 78,017 and 88,817 unigenes, respectively, matched the molecular function cluster with 14 sections, of which most unigenes were related to binding and catalytic activity.
Conclusion : This study provides functional information of L. radiata and highlights the use of the Illumina platform for transcriptome research.
Background : Lycoris radiata belongs to the Amaryllidaceae family and is a bulbous plant native to South Korea, China, and Japan. Galantamine, a representative alkaloid of Amaryllidaceae plants, including L. radiata, exhibits selective and dominant acetylcholinesterase inhibition. In this study, transcriptome analysis of L. radiata was performed.
Methods and Results : Genes for galantamine biosynthesis were used to design primers for qRT-PCR. Quantitative RT-PCR was performed with LrActin as a reference gene for normalization. The RT-PCR results reveal the expression of LrPAL A and LrC4H at an early stage in the pathway. Interestingly, the expression of these genes was significantly higher in roots. However, the expression levels of LrNNR and LrN4OMT, which are closely involved in galantamine biosynthesis, were significantly higher in bulbs than leaves and roots. The expression levels of LrPAL B, LrTYDC, LrCYP98A3 and LrCYP76T were not significantly different among the different parts of the plants tested. HPLC analysis confirmed the presence of galantamine in all the organs, including the root (0.53 ± 0.07 ㎎/g dry weight), bulb (0.27 ± 0.04 ㎎/g dry weight), and leaf (0.75 ± 0.09 ㎎/g dry weight). The galantamine level in the bulb was 1.42 and 2.78 times higher than that in the root and leaf, respectively. The results of qRT-PCR for the eight galantamine genes revealed relatively high levels of genes expressed early, including LrPAL A, LrPAL B, LrC4H, and LrTYDC in the roots. However, in the bulbs, the levels of LrNNR and LrN4OMT were higher, which are crucial for galantamine biosynthesis. It also explains why bulbs contain high amounts of galantamine, which is likely due to the increased expression of LrNNR and LrN4OMT and the high levels of LrCYP96T, although the genes expressed early were expressed at high levels in the root.
Conclusion : Transcript data of plants grown in a growth chamber revealed high expression levels of LrNNR and LrN4OMT genes that are closely involved in galantamine biosynthesis, and, as expected, we observed higher amounts of galantamine in the bulbs than in the root and leaves.
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 : Members of Amaryllidaceae family produce several alkaloids with unique structures and a variety of medicinal properties. Galantamine, in particular, is one of the alkaloids approved by the Food and Drug Administration (FDA), and the European Registration Bureau for treatment of Alzheimer’s disease. Lycoris radiata (L. radiata), belonging to the Amaryllidaceae family, is a bulbous plant containing galantamine, which exhibits selective and dominant acetylcholinesterase inhibition. In this study, metabolic profiling of L. radiata different organs was performed.
Methods and Results : Galantamine in root, bulb, and leaf of L.radiata analyzed by high performance liquid chromatography (HPLC). The amount of galantamine in leaf is about 1.07 ± 0.17 ㎎/g and it is the higher than bulb (0.88 ± 0.01 ㎎/g) and root (0.75 ± 0.01 ㎎/g). These results are statistically significant. Six phenolics are identified in L. radiata through high performance liquid chromatography. Total amounts of phenolics are the highest in bulb. Because plant secondary metabolism is closely related to plant primary metabolism, we used GC-TOF-MS on the levels of hydrophilic low-molecular-weight molecules in the L. radiata. A total of 41 metabolites, including sugars, amino acids, organic compounds, and phenolic acids, were identified and measured, and the resulting quantitative data were subjected to principal components analysis (PCA). The results of PCA of metabolic profiles clearly showed the lack of marked variance among different organs of L. radiata. Two principal components of the score plot explained 89.4% of the total variance (component 1, 51.86%; component 2, 37.54%). Component 1 resolved the separation of leaves from the other plant parts.
Conclusion : Amaryllidaceae family synthesize galantamine belonging to alkaloids. Particularly, in bulb of Lycoris radiata, galantamine contents are the highest level. Thus, bulb is very beneficial for Alzheimer’s disease because the galantamine is well known as treatment of dementia of Alzheimer type.
Background : Galantamine is mainly obtained from the bulbs and flowers of Galanthus caucasicus, Galanthus woronowii, and other related genera such as Narcissus tazetta, Narcissus pseudonarcissus, Leucojum aestivum, and Lycoris radiata. Galantamine is used to treat Alzheimer’s disease (AD) and as an AD painkiller. Narcissus tazetta (N. tazetta), belonging to the Amaryllidaceae family, is a ornamental plant containing galantamine. In this study, metabolic profiling of N. tazetta different organs was performed.
Methods and Results : The amount of galantamine in bulb of N. tazetta is the highest levels. About 0.61 ± 0.09 ㎎/g in bulb, 0.15 ± 0.17 ㎎/g in root, and 0.10 ± 0.0 ㎎/g in leaf. Contents of galantamine in root and leaf are not statistically significant. The total phenolic contents in leaf are the highest level. Rutin and kaempferol are identified all part of N. tazetta. On the other hands, 4-hydroxybenzoic acid is existed in leaf and caffeic acid is only existed in root. None of the bulbs except rutin and kaempferol are identified. Because plant secondary metabolism is closely related to plant primary metabolism, we used GC-TOF-MS on the levels of hydrophilic low-molecular-weight molecules in the N. tazetta. A total of 41 metabolites, including sugars, amino acids, organic compounds, and phenolic acids, were identified and measured, and the resulting quantitative data were subjected to principal components analysis (PCA). The results of PCA of metabolic profiles clearly showed the lack of marked variance among different organs of L. radiata. Two principal components of the score plot explained 86.79% of the total variance (component 1; 55.40%, component 2; 31.39%). Component 1 resolved the separation of leaves from the other plant parts.
Conclusion : Narcissus tazetta belongs to amaryllidaceae family. These family has various alkaloids, in particular, galantamine is beneficial to Alzheimer patients. All parts of N. tazetta produce galantamine, in particular, the highest level is existed in the bulb. In contrast, phenolic compounds are identified
Background : Agastache rugosa (A. rugosa), belonging to the Lamiaceae family, is a medicinal plant mainly distributed in Korea and contains various phenolic compounds revealing anti-fungal and anti-HIV properties. This study is aim to investigate change in phenylpropanoid content of flowers at different developmental stages using high performance liquid chromatography (HPLC) and quantitative real time polymerase chain reaction (qRT-PCR).
Methods and Results : The variation in the transcriptional level of phenylpropanoid biosynthetic genes and phenylpropanoid contents in the flowers of A. rugosa at different developmental stages was analyzed. The transcript levels of phenylpropanoid biosynthesis genes, including ArPAL (phenylalanine ammonia-lyase), ArC4H (cinnamate 4-hydroxylase), and ArCHS (Chalcone synthase), were high in flowers at 1st stage compared with flowers at 2nd and 3rd stages. On the other hand, the expression levels of flavonoid biosynthesis genes, including ArTAT (tyrosine amino transferase), ArHPPR (hydroxyl phenylpyruvate reductase), and ArRAS (rosmarinic acid synthase), were higher in flowers at 3rd stage than those of flowers at 1st and 2nd. These results were consistent with HPLC analysis revealing that most phenolic compounds were higher in flowers at 1st and 2nd stage but the level of rosmarinic acid was the highest in 3rd stage.
Conclusion : Our findings provide the information on change in phenylpropanoid biosynthesis in A. rugosa flowers at different developmental stages.
Background : Morus alba L. (M. alba L.), belonging to the family Moraceae, is widely distributed in East Asia. Fruits of M. alba L. have been used in traditional herbal medicine due to their antioxidant, anticancer, and antidiabetic properties. Phenolics play a main role for the growth, development, and pigment accumulation of plants. In this study, metabolic profiling of white (M. alba L. ‘Turkey’) and red (M. alba L. ‘Cheongil’) fruits during maturation.
Methods and Results : Phenolic compounds are secondary metabolites found in most of the higher plants. In the current study, the levels of phenolic compounds decreased during the maturation of Turkey and Cheongil fruits. Particularly, the Turkey fruits showed a dramatic decrease in the accumulation of phenolics. Principal component analysis (PCA) is one of powerful tools to identify overall patterns in the multivariat experimental data. The PCA score plots results revealed a clear classification between Cheongil and Turkey. Additioanlly, each group spread left to right in the X-axis by maturity. Two principal components of the score plot explained 71.1% of the total variance. Principal component 1 was associated with the separation of each group by maturity and isolation of Turkey 1.
Conclusion : In this study, we investigated primary metabolites and secondary metabolites (phenolics) in the white fruits (M. alba L. ‘Turkey’) and red fruits (M. alba L. ‘Cheongil’) in order to provide information on change in metabolite patterns during maturation.
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