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        검색결과 23

        1.
        2020.12 KCI 등재 구독 인증기관 무료, 개인회원 유료
        Buckwheat (Fagopyrum species) has long been an excellent functional food. Besides, buckwheat sprouts contain various functional substances. In this study, we investigated the antioxidant activity of buckwheat sprouts in the context of cultivars harvested after different cultivation periods (0, 3, 5, 7, 9, 13, and 15 days after planting). Buckwheat sprouts were cultivated at 25oC for up to 15 days and then extracted with ethanol. Antioxidant components were then extracted from sprouts and leaves using a freeze dryer. The total polyphenolic content, flavonoid content, and antioxidant activity were then analyzed. The total polyphenol content increased from 32.26 mg GA eq/100 g for raw buckwheat to 114.75 mg GA eq/100 g after 7 days of cultivation. Also, the flavonoid content increased from 20.61 mg catechin eq/100 g (0 days) to 56.54 mg/g after 9 days of cultivation. The DPPH radical scavenging activity (concentration of extract at 0.25 mg/mL) increased from 7.89% at day 0 to 53.48% after 9 days of cultivation. Additionally, the ABTS radical scavenging activity increased from 10.26% at day 0 to 32.89% after 7 days of cultivation; of note, the activity decreased afterward. These results suggest that the best buckwheat sprouts with higher biological activities are those cultivated for 7-9 days. For a complete understanding of the potential of buckwheat sprouts as functional foods, we plan to further analyze their antioxidant activity in the future.
        4,000원
        5.
        2018.11 KCI 등재 서비스 종료(열람 제한)
        We analyzed the nuclear ribosomal internal transcribed spacer (ITS) sequence of common buckwheat, Fagopyrum esculentum and tartary buckwheat, F. tataricum. The diversity of the nucleotides and haplotypes, Tajima’s D, and Fu’s Fs was analyzed and compared among the varieties of common buckwheat and tartary buckwheat. The diversity of nucleotides and haplotypes indicated that the buckwheat populations had undergone rapid population expansion but D and Fs did not support their expansion statistically. The phylogenetic analysis of ITS sequences did not clearly establish the phylogenetic relationships between the varieties of common buckwheat. The In/Del sequence of ITS-1 region could, therefore, be used as a DNA marker to distinguish raw or manufactured products derived from common buckwheat and tartary buckwheat.
        6.
        2018.05 서비스 종료(열람 제한)
        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.
        7.
        2018.05 서비스 종료(열람 제한)
        sources of flavonoid, including quercetin, rutin and catechin. The flavonoid content of Tartary buckwheat is 9 - 300 times higher than the common buckwheat. The objective of this study was to compare phenolic compound content and antioxidant activity of tatary buckwheat and common buckwheat in different plant parts. Methods and Results : Total polyphenol, flavonoid contents and DPPH free radical scavenging activity was measured in seed, stem and leaf of tatary buckwheat followed by cultivation period. Total polyphenol content was higher in tatary buckwheat compared to common buckwheat. Total polyphenol contents was 347.33 ㎍/㎖ in tatary buckwheat seed extract and 57.24 ㎍/㎖ in common buckwheat stem (2 month). Total flavonoid content was also higher in tatary buckwheat than common buckwheat. Total flavonoid contents of tatary buckwheat seed extract was 45.68 ㎍/㎖, where as common buckwheat seed content 21.29 ㎍/㎖. DPPH free radical scavenging activity was higher in tatary buckwheat than common buckwheat. DPPH free radical scavenging activity was 85.76% in tatary buckwheat leaf (2 month) and 54.44% was in common buckwheat stem (2 month). Conclusion : This study indicates that polyphenol contents of tatary buckwheat extract depend on their part and the chronology is the seed> leaf > stem. Total polyphenol and flavonoid contents of leaf and stem is in inverse proportion to cultivation period. But, DPPH free radical scavenging activity make no difference according to plant cultivation age.
        8.
        2016.10 서비스 종료(열람 제한)
        Background : Plants live in restricted spaces that are constantly exposed to various environmental stresses. Under these stressful conditions, plants lead to biosynthesize specialized metabolites to adapt to environmental stresses. Here we investigate the effects of cold on the metabolome of tartaty buckwheat, focusing the flavonoid biosynthetic pathway. Methods and Results : From the metabolic profiling based on the GC-TOF-MS analysis, we identified the effect of cold on forty-four metabolites, including sugars, amino acids, and organic acids. Most of sugars and sugar derivatives remain nearly unchanged or slightly decreased in the plants grown at 25 ºC, whereas sugar and sugar derivative contents of cold-treated plants significantly increased, excepting galactose. Some of amino acid and amino acid derivatives contents decrease in cold-treated plants, whereas organic acid derived from tricarboxylic acid (TCA) cycle were increased the cold-treated plants compared with the plants grown at 25 ºC. Particularly, the contents of two anthocyanins, cyanidin 3-O-glucoside and cyanidin 3-O-rutinoside, were significantly increased by cold treatment. Proanthocyanidins such as epicatechin and catechin were also significantly affected by cold. The expression of most flavonoid biosynthetic genes were significantly upregulated in cold-treated buckwheat seedling. Among the flavonoid biosynthetic genes, the expression of FtANS was notably upregulated in response to cold. Conclusion : By analyzing both primary metabolites and secondary metabolites of tartary buchwheat without or with cold, we showed that cold play a critical role in the modulation of the primary metabolites and flavonoid synthesis pathway in tartary buchwheat. Particularly, anthocyanin and proanthocyanidin biosynthetic pathways are strongly up-regulated in response to cold.
        10.
        2015.07 서비스 종료(열람 제한)
        Breeding and cultivation techniques are being treated very severely regarding ecological and physiological development in buckwheat. This study was conducted to focus on the diversity occurring in the cultivated and tartary buckwheat and provide an overview of the characteristics and genetic resources activities. Morphological results showed that the height of common buckwheat ranges from 82-90cm, common buckwheat induced by 200Gy ranges from 52-75cm, common buckwheat induced by 300Gy ranges from 43-56cm, common buckwheat induced by 400Gy ranges from 33-60cm whereas the tartary buckwheat hight ranges from 65-87cm, and while it exposed to various radiation (200Gy, 300Gy and 400Gy), the obtained height ranges from 73-92cm, 55-80cm and 60-75cm respectively. However, the stems from the both cultivar are hollow and that’s why, the plant is very prone to lodging. The leaf color of common buckwheat was green, 200Gray, 300Gy 400Gy common buckwheat light green and green, whereas the tartary buckwheat green and bottle-green, 200Gray 300Gy 400Gy tatary buckwheat bottle-green, common buckwheat (control, 200Gy, 300Gy, 400Gy) stem color is light green and pink, flower color is white, tartary buckwheat (control, 200Gy, 300Gy, 400Gy) flower color is light green. The stem color from tartary buckwheat showed (200Gy, 300Gy, 400Gy) light green and light red color. The results revealed that the two buckwheat cultivars showed diversified characteristics.
        11.
        2014.07 서비스 종료(열람 제한)
        Bitter buckwheat, also called tartari buckwheat (F. tartaricum), contains large amount of rutin and it has antioxidant activity compared to common buckwheat. But after harvesting and processing, the discrimination of two species through visual inspection was almost impossible. Therefore we developed InDel markers to identify common and tartari buckwheat content based on the chloroplast genome sequence. We conducted complete full chloroplast genome sequence of tartari buckwheat and compared with common buckwheat chloroplast genome sequence (NC010776). Based on the mVISTA alignment, we found eight big InDel (above 50bp) regions. Among the InDel, 6 regions are intergenic region and two are genic region in ycf1. We designed InDel specific primers and applied to PCR with buckwheat genomic DNA to check the discrimination of two species. These InDel specific primers also applied to buckwheat germplasm, 75 tartari and 21 common buckwheat. Among the primers, 5 markers could be successfully amplified in all germplasm species specific amplicon. And we can detect 10pg/ul of DNA and processed food such as tea and noodle. These results could improve the QC (Quality control) of tartari buckwheat food
        12.
        2014.06 KCI 등재 서비스 종료(열람 제한)
        본 연구는 쓴메밀 추출물(FTE)의 미백 효과를 검증하기 위해 DPPH 라디칼 소거능, ABTS 라디칼 소거능, 타이로시나아제 활성 저해 효과 및 세포내 멜라닌 합성 억제 효과를 측정하였고, 단메밀 추출물(FEE)과 그 효능 비교를 하였다. 그 결과로 쓴메밀 추출물은 단메밀 추출물보다 항산화 효과 및 타이로시나아제 활성 저해, 세포내 멜라닌 합성 억제 효과가 높음을 확인하였다. 또한 인체 적용 실험에서 자외선 조사에 의한 인공 색소침착을 유발한 후, 쓴메밀 추출물을 함유한 크림을 제조하여 도포하였고, 8주 경과 후 피부 밝기를 측정한 결과 통계적으로 유의한 수준의 피부 미백 효과를 나타내었다. 이러한 결과들로 쓴메밀 추출물은 미백 개선을 위한 화장품 소재로 이용 가능성이 높을 것으로 기대된다.
        15.
        2010.04 KCI 등재 서비스 종료(열람 제한)
        Comparison of the distribution and utilization of free amino acids in buckwheat is required of understanding the amino acid metabolism. The buckwheat sprouts contained the most abundant amino acid Val (40%) followed by Tyr (28%) in common buckwheat (CB), whereas Val was the most predominant amino acid in tatary buckwheat (TB), accounting for 62%. The buckwheat stem and root contained commonly Gln (40~42% in stem; 30~37% in root). Thus, soluble amino nitrogen source is used for Gln in buckwheat. The main difference of amino acid distribution in three tissues between CB and TB was Tyr in sprouts. Low level of Tyr in TB is presumably resulted from the conversion to other phenolic metabolites. The content of essential free amino acids in TB sprout was 53% higher than that in CB. Thus, the TB sprouts are benefit to the human nutrition. The basic study of amino acids gives a clear evidence for different interconversion and metabolism of amino acids in two buckwheat species.
        16.
        2010.04 KCI 등재 서비스 종료(열람 제한)
        Buckwheat sprouts are a vegetable which provides health benefit with their nutritionally important substances. Buckwheat has been considered as preventive medicine in the last decade. The present study was focused on the reference maps common (Fagopyrum esculentum Möench.) and tatary(Fagopyrum tataricum Gaertn.) buckwheat leaf and stem cultured in light and dark condition. Proteins were extracted from 7-day germinated buckwheat sprout sand separated by two-dimensional electrophoresis(2-DE) with isoelectro focusing gel over pH3 to 10. A total of more than 1520 protein spots were revealed on 2-DE gel, in which 165 proteins were identified in the basis of peptide mass fingerprinting. Functional category analysis indicated that these differentially expressed proteins mainly involved in cellular process, defense responsive, energy production, metabolism, photosynthesis, DNA recombination, DNA replication, seed storage, signal transduction, stress responsive, transcription, translation, and energy transport proteins. The pattern at protein level suggested the important roles for energy and protein metabolism-related proteins in growing sprouts under dark and light condition, accompanied by the activated of the stress responsive and growth condition. The proteomic profiling of common and tatary buckwheat will give insight for understanding buckwheat physiology and application to buckwheat industry.
        17.
        2009.12 KCI 등재 서비스 종료(열람 제한)
        The aim of this investigation was to examine the influence of extrusion on dietary fiber profile and the contentof bioactive compounds, rutin and quercetin in young sprout, whole seed, and matured stem of Tartary buckwheat.WSI(water soluble index) is increased by a function of both screw profile and process temperature, compared to control indifferent parts of Buckwheat. Also, WSI of ME is increased more than 5.2 times in grain, compared to that of control. Theeffect of precooking by extrusion on the dietary fiber profile of buckwheat flour was evaluated. Precooking by extrusion sig-nificantly increased SDF in flour, although in most cases extrusion decrease in TDF a little. The thermo-mechanical treat-ment undergone by the buckwheat flour during extrusion led to redistribute part IDF fraction to SDF, leading to an increasein the latter. The content of rutin was increased about two fold in extruded flour of sprout, compared to in control. Thisincrease maybe why these compounds are released from cell wall by high shear processing under high temperature.
        18.
        2009.08 KCI 등재 서비스 종료(열람 제한)
        타타리메밀의 생력재배기술 확립을 목표로 파종, 제초, 수확방법의 개선을 도모하였다. 산파(손뿌림)는 종자량이 10a당 6 kg 정도 소요되었으며, 줄뿌림파종기는 4.5 kg, 복토직파기는 3.2 kg정도 소요되었다. 복도직파기를 이용한 기계파종의 경우 종실 수량이 주당 3.4 g으로 산파 시 종실수량 주당 2.4 g에 비하여 월등한 수량성을 보였다. 이것을 10a당 수량으로 환산하면 복토직파기 파종에서 113 kg으로 산파 80 kg에 비하여 우수하였다. 라쏘만 처리한 경우에 비하여 혼용과 조합 체계 처리에서 방제가가 90% 이상으로 높았으며 수량은 혼용(라쏘+그라목손)의 체계 처리 시 가장 높았다.
        19.
        2006.12 KCI 등재 서비스 종료(열람 제한)
        The aim of this study was to develop the tartary buckwheat (Fagopyrum tataricum Gaertn.) sprouts and to clarify the biological and chemical characteristics of the sprouts. At 7 days after seeding, hypocotyls length and thickness, and root length of tartary buckwheat sprouts were 137 cm, 1.4 mm, and 12.6 cm, respectively. Fresh weight, dry weight, and moisture contents of an individual sprout at 7 days after seeding were 202 mg, 5.4 mg, and 95.3%, respectively. Protein content in tartary buckwheat sprouts was 23.0% which relatively higher than that of seeds, while lipid and ash contents were 3.5% and 5.3%. Among 7 minerals, the content of phosphorus showed the highest level (1,383.5 mg/100 g), while the contents of sodium and potassium were 1,197.5 mg/100 g and 1,106 mg/100 g, respectively. The contents of other minerals were Mg (795.5 mg/100 g), Ca (149 mg/100 g), Zn (16.4 mg/ 100 g), and Fe (14.7 mg/100 g). The rutin content of tatary buckwheat sprouts including root parts was the highest (5644.9 mg/100 g) at 7 days after seeding. The concentration of catechin derivatives in tartary buckwheat sprouts was high in order of catechin (59 mg/100 g), epicatechin gallate (47 mg/100 g), and epicatechin (14 mg/100 g).
        20.
        2006.02 KCI 등재 서비스 종료(열람 제한)
        Using fluorescent microscopy and Nomarski`s interference microscopy, pollen tube growth, and embryo andendosperm development were observed to elucidate interspecific cross-incompatibility in the genus of Fagopyrum. Interspecifichybrdization between Fagopy
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