• Journal of Life Science
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• v.8 no.3
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• pp.318-325
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• 1998

To investigate changes in protein and total lipid contents, seed storage protein pattern, and fatty acid composition of germination perilla(Perilla frutescens) seeds. Also, the corresponding value components in cotyledons, hypocotyles and roots were measured according to germination stage. The results were summarized as follows ; During germination, pertein and total lipid contents of Yepsilldalggae and Kwangyang cultivar were decreased continuously. In particular, protein contents rapidly decreased to the 3 days after germination(DAG), and then total lipid contents rapidly decreased between 3 DAG and 10 DAG. In changes of protein and total lipid contents of cotyledons, protein contents of Yeupsildalggae was increased during the germination, but Kwangyang cultivar was decreased during the same periods. The total lipids contents of Yeupsildalggae and Kwangyang cultivar were decreased during the germination. According to SDS-PAGE analysis, there was no detectible polypeptide bands on the gel before seed germination suggesting that this may be due to the rapid degradation of the storage proteins in the mature seed by hydrolyttic enzymes during the stage. During germinatation , the polypeptide band with 27$\sim$28KD of Yeupsildalggae and Kwangyang cultivar were accumulated gradually. In changes of fatty acid composition of total lipid of Yeupsildalggae and Kwangyang cultivar , saturated fatty acids such as palmitic acid and stearic acid increased during the germination. On the other hand, unsaturated fatty acid such as linoleic acid and linolenic acid decreased during the same periods. However, oleic acid increased to the 5 DAG, and then was repidly decreased.

• The Korean Journal of Food And Nutrition
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• v.36 no.6
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• pp.551-560
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• 2023

This study was performed to investigate antioxidant and anti-inflammatory activities of perilla(Perilla frutescens L.) seed, flower and leaf according to extraction condition. Perilla seed extracts(PSE), perilla flower extracts(PFE), perilla leaf extracts(PLE) was extracted by stirring extraction (STE, 25℃), shaking extraction (SHE, 80℃), and sonication assisted extraction(SAE, 25℃) with 94% ethanol, 60% ethanol and distilled water, followed by analysis of total polyphenol and flavonoid and testing radical scavenging activities. The highest total polyphenol content (5.47, 9.36, 38.58 mg gallic acid equivalent/g), total flavonoid content(5.77, 8.62, 46.44 mg catechin equivalent/g), ABTS(10.68, 19.46, 63.56 mg trolox equivalent/g) and DPPH(6.51, 7.69, 79.73 mg trolox equivalent/g) radical scavenging activity of PSE, PFE and PLE was observed in the HWE with 60% ethanol,. Among the three extraction method, SHE provided the best results for yield, polyphenol, flavonoid content of perilla seed, flower, leaf in comparison to STE or SAE. SHE with 60% ethanol of perilla seed, flower, leaf more effectively inhibited secretion of nitric oxide(NO) and pro-inflammatory cytokine in RAW 264.7 macrophage exposed to LPS compared to other extraction solvent and method. Therefore, these extracts obtained from perilla seed, flower, leaf could be used antioxidant and anti-inflammatory ingredients in the food industry.

• Applied Biological Chemistry
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• v.41 no.8
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• pp.578-582
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• 1998

Grape seed oil was characterized to assess the usefulness in the food industry. Among the various oils, the initial antioxidant activity was the highest for grape seed oil. Heating the oil at $180^{\sim}C$ for 20 min retained 86% of the initial activity. Grape seed and sesame oils showed a low peroxide value, about 2, implying a less oxidative reaction. The oxidation of grape seed oil was increased to a less extent by heat-treatment than other oils. Light exposure for 1 month resulted in a slight decrease in the antioxidant activity of grape seed oil, maintaining 96% of the initial activity. Other oils were all light-susceptible and the activities decreased significantly. The peroxide values of all the oils increased by light exposure, but the extent of oxidation was still the least for grape seed oil. The addition of grape seed oil to perilla oil was very effective, in that the peroxide value was 5-times decreased by 1 : 5 composition of grape seed oil versus perilla oil. These results indicate that grape seed oil can be used as a good cooking oil or an additive for other oils.

• KOREAN JOURNAL OF CROP SCIENCE
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• v.35 no.5
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• pp.449-463
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• 1990

To obtain the basic informations on quality improvement, seed protein and amino acid composition were analyzed in 460 strains of perilla germplasm. Among the tested strains, total protein content ranged from 17.9% to 28.1 % with the 23.6% of varietal means. Form the experiment, Namji, Sandong, and Eunjin were selected as high protein strains of which content was as high as 28.1%. In protein content, collected strains from Jeonnam province showed highest, and was not significantly different by maturity, but this characteristics showed differences by seed coat color and 1,000 seed weight. The significantly negative correlation was observed between protein content and seed setting ratio. However it was observed that significant and high positive correlation between protein and oil content. A calibration for an Infra-Alyzer 450 using log reflectance readings at 2208, 1982, 1940 and 1722nm could be used without adjustment for the measurment of the protein content in perilla with a standard deviation of differences against micro-kjeldahl of 0.27%. The amino acid composition of perilla was similar to the other oilseed crops, and showed a relatively high lysine and methionine content. Further, amino acid composition of perilla seed was exellently characterized with bal ance and higher than FAO recommendation. Major amino acids were indentified as a glutamic acid and arginine in perilla seed protein.

• Plant Resources
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• v.6 no.3
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• pp.178-182
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• 2003

This study was conducted to investigate the relationship between yearly variations of climatic elements and yearly variations of productivity in perilla. In addition, correlation coefficients among yield and yield components were estimated. The data of yield and yield components were investigated for 10 years from 1991 to 2000. The meteorological data gathered at the Yeosu Weather Station for the same period were used to find out the relationships between climatic elements and productivity. Yearly variation of the amount of precipitation in September was large with coefficients of variation(c. v.) of 11.1%, but the coefficient of variance(c. v.) in July and August were relative small with 1.8, 2.1%, respectively. Number of cluster per hill and weight of 1,000 grains were greatly with c. v. of 76.1, 79.3%, respectively, but the coefficients of variance(c. v.) of plant height and seed yield were more less with 9.58, 10.60%, respectively. Correlation coefficients between precipitation of September and seed yield were positively significant correlation at the level of 5.1%, respectively, but the duration of sunshine in September and seed yield were negatively significant at the level of 5.1%, respectively. Correlation coefficients of these, the plant height, number of branches per plant, cluster length, number of cluster per hill, weight of 1,000 grains and seed yield were positively significant at the level of 5.1% respectively.

• Applied Biological Chemistry
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• v.35 no.3
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• pp.139-145
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• 1992

To investigate changes in fatty acid and lipid composition of maturing perilla(Perilla frutescens var. japonica Hara) seeds, Suweon 10 and Jeju varieties were subjected to lipid analysis. The results were summarized as follows; As perilla seeds matured, content of ether-extractable lipids increased continuously to 46.3% in Suweon and 24.0% in Jeju. In ether-extractable lipids of mature perilla seeds, palmitic acid was $9.4{\sim}18.2%$, stearic acid $2.2{\sim}5.1%$, oleic acid $19.1{\sim}32.7%$, linoleic acid $12.4{\sim}15.3%$ and linolenic acid $30.6{\sim}54.1%$ of total fatty acid. Therefore, major fatty acid were unsaturated In mature seeds while those were saturated in the early stage of seed development. As perilla seeds matured, content of neutal lipids in total lipids increased. Neutral lipids of mature seed was 70.1% in Suweon 10 and 51.5% in Jeju, respectively. Triglycerides, free fatty acid and diglycerides were major components of ether-extractable neutral lipids. Triglyceride, which showed relatively rapid increase in the early stage of development, increased to 61.4% in Suweon 10 and 68.2% in Jeju, respectively.

• Korean Journal of Plant Resources
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• v.16 no.2
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• pp.134-140
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• 2003

To increase self-sufficiency ratio and agricultural income, six cropping systems by introducing several crops in perilla were tested from 2001 and 2002. Weed occurrence was high in barley+perilla and safflower+perilla cropping system. Pre-and post-crops in barley+perilla and safflower+perilla showed good growth. Safflower+perilla cropping system was labor-saying and cost down because polyethylene film of pre-crop was reused in post-crop. But when perilla was introduced as post-crop of sesame, delayed seed date resulted in decreased growth and grain yield. The income in barley+perilla and safflower+perilla was greater 4.1fold and 5.2fold, respectively than in perilla mono-crop system. Soil physical properties were improved in order of safflower+perilla, barley+perilla cropping system.

• Journal of the Korean Society of Food Science and Nutrition
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• v.26 no.6
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• pp.1033-1038
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• 1997

Antioxidant effect of several antioxidative components on the high purity $\alpha$-linolenic acid(HALA; ALA, 78.1%) ethyl ester concentrated from perilla oil were investigated by measuring weight-gains and peroxide value(POV) during storage at 5$0^{\circ}C$, 23$^{\circ}C$ and 4$^{\circ}C$. Amounts of antioxidant components were 0.2g/kg HALA ethyl ester for sesamin, sesangolin and butylated hydroxytolune(BHT), and 0.1g/kg for sesamol and 100g/kg for ether extracts from perilla seed. The oxidative stability of HALA ethyl ester was particularly increased by adding sesamol, ether extracts and BHT, but sesamin and sesangolin scarcely showed an antioxidant effect. POV on the HALA ethyl ester added sesamol and ether extract was less than 15.0meq/kg by 9 weeks of storage at 23$^{\circ}C$. However, in the case of low temperature storage at 4$^{\circ}C$, all the samples estimated showed less than 7.0meq/kg in POV by 5 months. Consequently, sesamol and ether extracts were recognized as available antioxidant components on the HALA ethyl ester from perilla oil.

• Journal of the Korean Society of International Agriculture
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• v.30 no.4
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• pp.370-375
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• 2018

In order to promote the mechanized cultivation of perilla for seed, which has been increasing in cultivation area and production recently as demand increases according to the health-functional effects, we carried out this experiment to determine the optimum sowing time of perilla to minimize the seed loss at harvest and increase the yield. We used two different types of perilla varieties, 'Sodam(small-branch)' and 'Deulsaem(multi-branch)', and the sowing time was June 15, June 30, July 15 and August 1. As the sowing time is late, days of growth from sowing to flowering were shortened, and they were shortened from 14, 26 and 31~32 days on June 30, July 15 and August 1 as compared with June 15, respectively. And, the stem length and culm diameter were shortened or tapered and the number of nodes tended to decrease. The number of effective branch was 82%, 61% and 56% on June 30, July 15 and August 1 as compared with June 15, respectively. Accordingly, it seems to make against in securing the yield from July 15. And, the lowest cluster height was generally shorter as the sowing time is late, and the height was below 15cm on July 15 and August 1. It seems that this may work against the machine harvest. There was a high degree of significance between the sowing time and the yield. Although, the total yield was not statistically significant among June 15, June 30 and July 15, the ratio of shattering seed at harvest was in order of July 15, August 1(30.3%)> June 15(15.3%)> June 30(13.5%). Therefore, the net yield except for shattered seed was higher in order of June 30${\geq}$ June 15> July 15> August 1. This tendency was characteristic regardless of variety and sowing method. And, the protein content in perilla seed increased as the sowing time was delayed, and the content was the highest on August 1. The content of crude fat was relatively high on June 15 and July 15 in 'Sodam', and June 30 and July 15 in 'Deulsaem', respectively. And, the content of linolenic acid was found to be the highest on August 1. As a result, the optimal sowing time for machine harvest of perilla for seed is about June 30. At this time, it is determined that the sowing time is the most suitable to be advantageous in increasing the yield of perilla seed, while minimizing the seed loss due to the shattering at harvest.

• Journal of the Korean Society of Food Science and Nutrition
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• v.30 no.5
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• pp.900-905
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• 2001

In this study, the levels of insoluble dietary fiber(IDF) and soluble dietary fiber (SDF) in Perilla frutescens seed were quantified and antimutageinc effects of perilla seeds extracts (method extract, hexane extract, methanol soluble fraction and dietary fiber)was carried out IDF and SDF values of perilla seeds were 16.1% and 1.1% , respectively, with 17.2 of total fiber content. Among the solvent extracts of perilla seeds, methanol extract and methanol soluble fraction (MSF) effectively inhibited the mutagenicity induced by aflatoxin B$_{1}$(AFB$_{1}$)in Salmonella typhimurium TA100, Methanol extract of perilla seeds showed 91% inhibition against AFB$_{1}$ mutagen under the 2.5 mg/assay concentration, and MSF inhibited the mutagenicity of 87% by adding 1.25,g/assay. However, perilla seed extracts showed low inhibition rate on the mutagenicity induced by N-methyl-N-nitro-N-nitosoguanidine(MNNG). And also, SDF and hexane extracts from perilla seeds did not show the antimutagenic effects against AFB$_{1}$ and MNNG. On the hand, IDF extracted from perilla seeds inhibited 21% of mutagenicity induced Trp-P-2 due to the carcinogen binding effect.