In this study, quality properties of rapeseed oil by different roasting temperatures (140, 160, 180, and 200℃) were investigated. Roasted-pressed oil (RPO) showed a decrease in lightness and an increase in redness and yellowness with an increase in temperature compared to cold-pressed oil (CPO). In addition, the β-carotene and tocopherol content also increased in RPO as the roasting temperature increased. The tocopherol content increased by 18~20% in RPO at 200℃ compared to CPO. This increase in bioactive components led to improved radical scavenging activity dependent on roasting temperature, and RPO at 200°C showed a 2.7-fold improvement compared to CPO. Finally, it was observed that higher roasting temperatures resulted in an extended oxidation induction period, increasing by up to 3.3 times. In conclusion, roasting is an effective method for enhancing the oil functionality of domestic rapeseed varieties. This study provides basic data for producing high-quality oil.
The purpose of this study was to investigate the Maillard reaction–related physicochemical properties of three maize varieties (Kwangpyeongok, Sinhwangok2ho and Gangdaok) after roasting them for different times (0, 15, 25, 40, and 55 minutes). The Maillard reaction is a non-enzymatic browning reaction involving reducing sugars and amino compounds. The content of reducing sugar, the causative agent of the Maillard reaction, decreased as roasting time increased. Gangdaok showed the lowest reducing sugar content of 1.04 mg/g after 55 minutes of roasting. In the elapsed roasting time, chromaticity ‘L’ and ‘b’ values decreased. At 55 minutes of roasting, wherein the Maillard reaction occurred most actively, Gangdaok showed the lowest ‘L’ value of 56.37 and the highest ‘a’ value of 7.60. Gangdaok had superior conditions for inducing the Maillard reaction compared to other varieties, and it is consider that 'flint–type', an endosperm characteristic, may have been the influencing agent. This study detected a total of 52 types of volatile aroma compounds (VACs), of which 28 were produced after roasting. Of the total VACs detected, 2-Formyl-5-methylfuran and 2-Furancarboxaldehyde accounted for 43.8~45.5% and have been confirmed to be the major VACs present in roasted maize. Most of the correlations between the Maillard reaction–related characteristics showed high correlation coefficients.
Cassia tora seed was processed by germination and roasting to develop a germinated Cassia tora tea. The effects of extraction temperature on antioxidative compounds in tea extracts were examined and compared to four different commercial Cassia tora tea products. The contents of antioxidative compounds, such as phenolics, flavonoids, and β-carotene, increased as the extraction temperature increased (5 to 80oC), subsequently increasing in vitro antioxidant activities (DPPH and ABTS radical scavenging activities). Germinated Cassia tora tea had higher antioxidative activity than selected commercial Cassia tora teas, and the difference was significant at low extraction temperature. Therefore, the germinated Cassia tora tea could contribute to a new type of tea product with enhanced bioactive and antioxidative activities by adopting appropriate processing and extraction conditions.
The present study aimed to evaluate the effects of roasting temperature on the quality characteristics and biological activity of quinoa. Quinoa was roasted at 160, 200, and 220oC for 20 min. The lightness (L*) of quinoa decreased, however, the redness (a*) increased as the roasting temperature increased. The yellowness (b*) was the highest at 160oC and decreased at 200 and 220oC. The highest contents of total polyphenol, flavonoid, and quercetin were observed at 220oC, the highest roasting temperature. The highest radical scavenging activities of 2,2'-azino-bis (3-ethylbenzothiazoline-6-sulfonic acid) (73.65%) and α,α-diphenyl-β-picrylhydrazyl free radicals (47.82%) were found in roasted quinoa at 220oC. The α- glucosidase activity was inhibited by 62.13% at this temperature. The roasted quinoa at 220oC also showed a significant cytoprotective effect against oxidative stress in HepG2 cells. These results could be useful in the development of food products using quinoa.
This study was conducted to explore the potential of Pungsannamul-kong, which did not germinate from soybean to bean sprouts and was discarded, and to find out the changes in composition and bioactivity during roasting treatment. The functional effectiveness of isoflavone contents, as well as their antioxidant and antiinflammatory activities, were analyzed with Pungsannamul-kong roasted at various temperatures: 100oC (RoJP100), 120oC (RoJP120), 140oC (RoJP140), 160oC (RoJP160), and 180oC (RoJP180). The aglycone content of isoflavones was the highest (87.58 μg/g) in RoJP180 and was correlated with the increase of genistein. As the roasting temperature rose, total polyphenol content increased to 410.32 μg GAE/mg, flavonoid content to 56.04 μg QE/mg, DPPH radical scavenging activity to 76.59%, ABTS radical scavenging activity to 51.97%, and SOD-like activity to 52.63%. NO production was significantly suppressed in 500 μg/mL of all the roasted Pungsannamul-kong groups (p<0.05). TNF-α, IL-1β, and IL-6 expressions were suppressed in a concentrationdependent manner as the roasting temperature increased. Western blotting also showed that iNOS and COX-2 expression were suppressed after roasting at 180oC, confirming an anti-inflammatory effect. This study concluded that non-germinated soybeans were still valuable in terms of nutritional and functional properties. Moreover, roasting treatment increased the isoflavone content and improved physiological bioactivities such as antioxidant and anti-inflammatory activities.
Chungyuk-jang is one of korean traditional soy food made by boiling with meat, seafood and soybean which is fermented after roasting. To investigate the difference in the physicochemical characteristics of the Chungyuk-jang fermented with roasted soybean in different conditions, Chungyuk-jang was made from soybean roasted on the three condition, 140oC for 21 min (CY140), 180oC 9.5 min (CY180), 220oC 6 min (CY220) which was decided by pre-test and compared to one made without roasting (CY0). The moisture of Chungyuk-jang was 79.98~81.87% and pH was 6.15~6.25. The lightness and yellowness of CY0 was higher than Chungyuk-jang made of roasted bean whereas redness and brown pigment was the highest on CY220. The contents of free sugar of CY140 was the highest among the treatment. The contents of amino-N of Chungyuk-jang (CY140, CY190, CY220) was higher significantly than CY0. The contents of total free amino acid and glutamic acid was highest on fermented soybean roasted for 140oC, 21 min (CY140) and followed by fermented soybean roasted on 180oC 9.5 min (CY180), 220oC 6 min (CY220) and CY0 (without roasting).
In this study, to develop balloon flower (Platycodon grandiflorum) leaves, which are not used as tea, a method of making green tea was referred to, and several physiological activities were analyzed using the balloon flower leaf tea with different times of roasting and rubbing. The highest total polyphenol and tannin contents were 33.02 mg GAE/g and 5.03 mg/g at two times of roasting and one time of rubbing, respectively. In the case of the total flavonoids, the RO3 + RU2, subjected to three times of roasting and two times of rubbing, showed the highest value, whereas there was no significant difference between the control and the other samples. Except for the green tea as a control, the RO2 + RU1 samples reported the highest antioxidant activity whereas it decreased with increasing number of times of roasting and rubbing. The color, lightness, and yellowness tended to decrease slightly as the number of increasing roasting and rubbing among the samples with no significant difference. All of these things together, to develop tea using the balloon flower leaves would be suitable with two times of roasting and one time of rubbing.
본 연구는 건조버섯 분말을 이용하여 다양한 가공제품에 혼합 가공하기 위하여 국내에서 소비도 및 인지도가 높은 식용버섯인 느타리, 큰느타리, 노루궁뎅이를 대상으로 로스팅 처리 후 건조분말 버섯시료의 생리활성과 영양 성분의 변화를 알아보기 위하여 실험을 수행하였다. 가정용 멀티오븐(HR)을 이용하여 로스팅 시간별로 생리활성 성분의 변화를 분석한 결과 생버섯(fresh) 시료에 비하여 소거활성과 함량치가 낮아지거나 비슷였으나, 회전드럼식 로스팅(CR) 처리 후 아질산염소거능은 큰느타리와 노루궁뎅이의 로스팅 시료에서 증가하는 것으로 나타났으며, 총 폴리페놀 함량은 노루궁뎅이 로스팅 시료가 생버섯 (fresh) 시료에 비하여 크게 증가하였다. 가정용 멀티 오븐 60분 로스팅 처리(HR60) 및 회전드럼식 로스팅 처리(CR) 후 각 건조시료의 아미노산 성분 분석한 결과, 느타리의 경우 회전드럼식 로스팅 처리로 인하여 감칠맛을 내는 성분과 단맛을 내는 성분이 증가하였고, 반대로 쓴맛을 내는 성분은 생버섯(fresh)에 비하여 감소한 것으로 나타났다. 큰느타리는 감칠맛과 단맛을 내는 성분이 로스팅 처리 후 증가하였으나, 쓴맛을 내는 성분들도 로스팅 처리로 인하여 동시에 증가하는 것으로 나타났다. 노루궁뎅이는 단맛을 내는 성분은 회전드럼식 로스팅(CR) 처리 후 증가하였고 동시에 쓴맛을 내는 성분도 크게 증가하는 것으로 나타났다. 위와 같은 결과로부터 전반적으로 수분함량이 많은 버섯은 초기 건조 후 여분의 수분을 증발시키며 로스팅하는 방법이 가정용 멀티오븐에 비하여 생리활성 성분의 증가에 효과적이었으며 아미노산의 단맛과 감칠맛을 증대시키는 것으로 확인되었다. 향후 더 다양한 식용버섯 및 버섯과 혼합 가능한 첨가물들에 대한 검토가 이루어져야하며, 이들 단독으로 또는 혼합하여 로스팅한 후의 생리활성 및 영양성분의 변화에 대한 연구를 진행하여야 할 것으로 사료된다.
The purpose of this study was to evaluate the antioxidant activity of roasted and germinated peanut flours. This study also aims to utilize it as a functional material to be applied to processed foods. The moisture, crude protein, crude fat and ash carbohydrate contents of the common peanut powder used in this study were 1.27, 25.63, 42.19, 2.38, 28.20 g / 100 g, respectively. The moisture content, crude protein, crude fat and ash carbohydrate in germinated peanut powder were 1.47, 25.86, 42.86, 2.25 and 26.66 g / 100 g, respectively. 26.52, 45.02, 2.33, 24.70, g / 100 g, and the dietary fiber content of peanut, roasted peanut and germinated peanut powder was 12.27, 13.05 and 14.22 g / 100g, respectively. The antioxidants and radical scavenging ability of polyphenols and flavonoids in peanut powder treated with germination and germination compared to ordinary peanuts. Resverasterol content was high in the germinated peanut powder. Especially, germinated peanut powder can act as a natural antioxidant.
The change of phenolic compounds and radical scavenging activity of black soybean flours after germination and roasting treatment were evaluated as a part of the purpose of setting the quality of black soybean flours for each application. The moisture content of roasted black soybean flours decreased significantly according to roasting temperature and time, and the crude ash, protein, and fat contents increased. Water binding capacity of roasted black soybean flours without and with germination increased significantly according to roasting temperature and time, however water solubility index and swelling power decreased. The lightness of roasted black soybean flours was significantly decreased, and the redness and yellowness increased. The phenolic compounds and radical scavenging activity of roasted black soybean flours increase with increasing roasting temperature and time. The total polyphenol contents of roasted black soybean flours without and with germination were 5.43∼7.81 and 4.52∼6.17 mg GAE/g, and total flavonoid contents were 2.90∼3.50 and 2.34∼3.01 mg CE/g, respectively. DPPH radical scavenging activity of roasted black soybean flours without and with germination was 254.98∼415.05 and 171.95∼295.15 mg TE/100 g, and ABTS radical scavenging activity was 459.74∼596.37 and 422.95∼526.85 mg TE/100 g, respectively. As a result, it is necessary to set quality standards for each application considering the quality and antioxidant properties of roasted black soybean flours.
The change of quality and physicochemical characteristics of mung-bean flours after germination and roasting treatment were evaluated. The moisture content of the roasted mung-bean flours decreased significantly according to the roasting temperatures and times, and the crude ash, protein and fat contents increased. The lightness of the roasted mung-bean flours significantly decreased, and the redness and yellowness increased. The water binding capacity of the roasted mung-bean flours without and with germination were 151.71 and 192.77% at 240℃ for 20 min, respectively. The water solubility index and swelling power decreased with an increase in roasting temperatures and times. The phenolic compounds and radical scavenging activity of the roasted mung-bean flours increased with an increase in the roasting temperatures and times. The total polyphenol contents of the roasted mung-bean flours without and with germination were 4.81~7.71 and 4.22~5.63 mg GAE/g, and the total flavonoid contents were 2.46~3.05 and 2.45~2.87 mg CE/g, respectively. The DPPH radical scavenging activity of the roasted mung-bean flours, without and with germination, were 106.83~376.08 and 174.41~346.70 mg TE/100 g, and the ABTS radical scavenging activity was 251.67~534.31 and 274.39~430.02 mg TE/100 g, respectively. As a result, it is necessary to set quality standards for each application considering the quality and antioxidant properties of the roasted mung-bean flours.
The change of quality characteristics and antioxidant properties of black soybean flours after germination and roasting treatment were evaluated. The moisture content of roasted black soybean flours decreased significantly according to roasting temperatures and times, and the crude ash, protein, and fat contents increased. The water binding capacity of roasted black soybean flours with and without germination increased significantly according to roasting temperatures and times; however, water solubility index and swelling power decreased. The lightness of roasted black soybean flours was significantly decreased, and the redness and yellowness increased. The phenolic compounds and radical scavenging activity of roasted black soybean flours increased with increasing roasting temperatures and times. The total polyphenol contents of roasted black soybean flours with and without germination were 5.43-7.81 and 4.52-6.17 mg GAE/g, and total flavonoid contents were 2.90-3.50 and 2.34-3.01 mg CE/g, respectively. The DPPH radical scavenging activity of roasted black soybean flours, with and without germination, was 254.98-415.05 and 171.95-295.15 mg TE/100 g, and the ABTS radical scavenging activity was 459.74-596.37 and 422.95-526.85 mg TE/100 g, respectively. As a result, it is necessary to establish quality standards for each application by considering the quality characteristics and antioxidant properties of roasted black soybean flours.
Physicochemical properties of buckwheat roasted at specified temperatures (175, 200, 225 and 250°C) and times (5 and 10 min) were investigated. Appearance of roasted buckwheat showed that non-enzymatic browning reaction occurred mainly at the embryo due to the presence of sugars and proteins. Microstructure of roasted buckwheat showed the formation of air cells inside the endosperm indicating the expansion of grain during roasting. Rapid Visco Analyzer profiles revealed that the extent of starch gelatinization was depending preferentially upon the roasting time rather than temperature. Total polyphenol and flavonoid content in roasted buckwheat were not significantly different from those of unroasted grains, although polyphenols and flavonoids in ethanol extracts increased slightly after roasting. Antioxidant activities of buckwheat increased after roasting.
In this study, we aimed to develop a mixed tea prepared with roasted mulberry leaf and fruit using response surface methodology (RSM). Roasting of mulberry leaf was by 6 stages, as shown in Fig. 1; and mulberry fruit was roasted in 4 stages, as shown in Fig. 2. Subsequently, physicochemical measurements such as total polyphenol content, nitric oxide production content, and α-glucosidase inhibitory effect were obtained for each sample. Central composite design was applied to prepare samples containing varying contents of roasted mulberry leaf (RoML) and roasted mulberry fruit (RoMF); subsequently, sensory evaluation was conducted. The total polyphenol content of roasted samples (RoML and RoMF) were significantly higher than that of raw samples (RaML and RaMF), respectively. The nitric oxide (NO) production of roasted samples were significantly lower than that of control (LPS induced RAW 264.7 cell). The α-glucosidase inhibitory effect of roasted samples was significantly higher than that of raw samples, respectively. Based on the RSM estimation for determination of optimum ratio by sensory evaluation (taste, color, and flavor) among 13 mixed samples, the optimum mixing ratio of RoML and RoMF for taste, color, and flavor were 1.64 g (RoML) and 0.88 g (RoMF), 1.35 g (RoML) and 0.92 g (RoMF), 1.65 g (RoML) 1.03 g (RoMF), respectively. Based on results of three sensory evaluations, mixing ratio comprising 1.54 g of RoML and 0.92 g of RoMF is desirable for delicious tea with functionality.