• 한국식품과학회지
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• 제26권3호
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• pp.300-304
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• 1994

고추장의 유통기간 중 품질변화를 예측하기 위하여 숙성 완료된 고추장을 $13^{\circ}C$, $27^{\circ}C$ and $37^{\circ}C$ 에 저장하면서 품질의 변화를 측정하였다. 수분, 조단백질, 캡사이신함량은 저장 중 거의 변화하지 않았으나, 아미노태질소, 표면색도, pH는 감소하는 경향을 나타내었으며 암모니아태질소, 산도는 증가하였다. 이러한 증감현상은 저장온도가 높을수록 더욱 뚜렷하여 저장 온도가 고추장의 품질변화에 밀접한 관련이 있음을 알 수 있었다. 총균수는 저장온도 및 기간의 증가에 따라 큰 변화는 보이지 않았으며, 진균류는 검출되지 않았다. 이화학적 품질 특성과 관능검사와의 상관관계를 구한 결과 아미노태질소의 변화가 가장 높은 상관관계를 보였다. 저장기간에 따른 아미노태 질소값의 변화율은 1차 반응식으로 해석되었음, 반응상수로부터 계산된 $Q_{10}$값은 2.98이었다. 또한, Arrhenius equation을 이용하여 활성화에너지를 구한 결과 15.84 Kcal/mole인 것으로 나타났다.

• 한국수산과학회지
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• 제9권2호
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• pp.79-110
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• 1976

In Korea fermented fish and shellfish have traditionally been favored and consumed as seasonings or further processed for fish sauce. Three major items in production quantity among more than thirty kinds which are presently available in the market are fermented anchovy, oyster and small shrimp. They are usually used as a seasoning mixture of Kimchi in order to provide a distinctive flavor. Fermented small shrimp, Acetes chinensis is most widely and largely used ana occupies an important position in food industry of this country. But no study on its taste compounds has been reported. This study was attempted to establish the basic data for evaluating taste compounds of fermented small shrimp. The changes of such compounds during fermentation as free amino acids, nucleotides and their related compounds, TMAO, TMA, and betaine were analysed. In addition, change in microflora during the fermentation under the halophilic circumstance was also investigated. The samples were prepared with three different salt contents of 20, 30 and $40\%$ to obtain the proper degree of fermentation at a controlled tempeature of $20{\pm}2^{\circ}C$. The results are summarized as follows: Volatile basic nitrogen increased rapidly until 108 days of fermentation and afterwards it tended to increase slowly. Amino nitrogen also increased rapidly until 43 days of fermentation and then increased slowly. Extract nitrogen increased and marked the maximum value at 72 day fermentation and then decreased slowly. ADP, AMP and IMP tended to degrade rapidly while hypoxanthine increased remarkably at 27 day fermentation but slightly decreased at 72 day fermentation. It is presumed that the characteristic flavor of fermented small shrimp might be attributed to the relatively higher content of hypoxanthine. In the free amino acid composition of fresh small shrimp abundant amino acids were proline, arginine, alanine, glycine, lysine, glutamic acid, leucine, valine and threonine in order. Such amino acids like serine, methionine, isoleucine, phenylalanine, aspartic acid, tyrosine and histidine were poor. In small shrimp extract, proline, arginine, alanine, glycine, lysine and glutamic acid were dominant holding $18.5\%,\;14.6\%,\;10.8\%,\;8.7\%,\;8.1\%\;and\;7.7\%$ of total free amino acids respectively. The total free amino acid nitrogen in fresh small shrimp was $63.9\%$ of its extract nitrogen. The change of free amino acid composition in the extract of small shrimp during fermentation was not observed. Lysine, alanine glutamic acid, proline, glycine and leucine were abundant in both fresh sample and fermented products. The increase of total free amino acids during 72 day fermentation reached approximately more than 2 times as compared with that of fresh sample and then decreased slowly. Fermented small shrimp with $40\%$ of salt was too salty to be commercial quality as the results of organoleptic test showed. It is found that 72 day fermentation with $20\%\;and\;30\%$ of salt gave the most favorable flavor. It is convinced that the characteristic flavor of fermented small shrimp was also attributed to such amino acids as lysine, proline, alanine, glycine and serine known as sweet compounds, as glutamic acid with meaty taste, and as leucine known as bitter taste. The amount of betaine increased during fermentation and reached the maximum at 72 day fermentation and then decreased slowly TMA increased while TMAO decreased during fermentation. The amount of TMAO nitrogen in fermented small shrimp was $200mg\%$ on moisture and salt free base. Betaine and TMAO known as sweet compounds were abundant in fermented small shrimp. It is supposed that these compounds could also play a role as important taste compounds of fermented small shrimp. At the initial stage of fermentation, Achromobacter, Pseudomonas, Micrococcus denitrificans which belong to marine bacteria were isolated. After 40 day fermentation, they disappeared rapidly while Halabacterium, Pediococcus, Sarcian, Micrococcus morrhuae and the yeasts such as Saccharomyces sp. and Torulopsis sp. dominated. It is concluded that the most important taste compounds of fermented small shrimp were amino acids such as lysine, proline, alanine, glycine, serine, glutamic acid, and leucine, betaine, TMAO and hypoxanthine.

• 대한가정학회지
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• 제24권4호
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• pp.105-116
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• 1986

This paper provides the analysis and the comparisons of three kinds of soy sauces based on the manufacturing sources. The main factors of this study are concentrated on general and amino acids components. Three samples represented as domestic market soy sauces, imported Japanese soy sauces and homemade soy sauce are analyzed and compared by Kjeldahl and AOAC method and amino acid autoanlyzer method which have the results as follows; 1. For total nitrogen and pure extract and sodium chloride known as general components, the domestic market soy sauces show the ranges of 0.85~1.51%, 11.37~17.4% and 16.03~17.43% and the imported soy sauce shows the ranges of 1.65~1.83%, 19.54~19.80%, 17.20~18.46% and the homemade soy sauce indicates 0.73%, 30.96% for each components. The results implicates that the homemade soy sauce contains less total nitrogen and pure extract while it contains more sodium chloride than the domestic market soy sauces. 2. The amount of total amino acids contained in each soy indicated the range of 3.864~6.883% for the domestic market soy sauce and the range of 7.705~7.839% for the imported soy sauce and 2.035% for the homemade soy sauce. Especially, 20~50% glutamic acids are contained in total amino acids of each soy sauces.

• 대한화학회지
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• 제5권1호
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• pp.9-14
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• 1961

Ethanol extracts of Mung Bean seeds and seedings were analysed by 2-dimensional and circular paper partion chromatography for Nitrogen compounds as a part of the study on the Amino acids metabolism. In the seeds, 18 ninhydrin positive substances were present, before germination, but the number increased to 21 after germination. There were 3 unknown substances and one of it formed newly after germination. After 2-days germination, the amount of amides, such as Asparagine and Glutamine. where increased very large which were very small amount before it. Those were accumulated more in dark place than in light and the amount of Asparigine were more than that of Glutamine. Through the germination, there were large amount of Glutarmic acid, Aspartic acid and Alanine which seems to be concerned in transamination reaction in seedings. Valine, Leucine, and Phenylalanine increased to considerable amount after germination. This is very remarkable fact as those Amino acids were reported to be concerned in transamination reaction recently. ${\gamma}$-amino butyric acid was detected in both Cotyledon and Embroy through the germination. It seemed that there is no any Nitrogen Metabolism in the unbroken seed even if it is preserved very long period.

• 고려인삼학회:학술대회논문집
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• 고려인삼학회 1990년도 Proceedings of International Symposium on Korean Ginseng, 1990, Seoul, Korea
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• pp.175-189
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• 1990

Nitrogen compounds of Panax ginseng and their biological activities in plant and animal were reviewed. Major nitrogen compounds found in P. ginseng are free amino acids. Water solilble proteins, indouble proteins and peptides. Minor nitrogen compounds are dencichine. Glycolyroteins, amines, alkaloides, methoxy or alkyl pyrazine derivatives, free nucleosides and nucleic acid bases. 4-methyl-i-thiazoltethanol and pyroglutamic acid the contents of total nitrogen and protein in root Increased until 13 years old which was the highest age tinder investigation. Soluble protein content increased with the root weight and was higher in xylem pith than cortex-epidermis indicating the close relation with root growth. Arginine, which covered 58% of total free amino acids, may serve as storage nitrogen. Arginine seems to be changed into proline in rhizome. threonine in stem and again threonine and arginine in leaf. The greater the root weight the higher the polyamine stimulated Polyamine stimlllated the growth of root callus. Physiological roles of other minor nitrogen compounds are unknown although content is relatively high ((1.if) 6.w). Biochemical and pharmacological activities of some nitrogen compounds for animal were more investigated than physiological role there plant itself. Radiation and U.V protective function (heat stable protein). insulin-like activity in lipogenesis and livolysis (adenosine and pyroglutamic acid), depression of blood sugar content (glycopevtide). htmostatic and nellrotoxic activity (dencichine) and, sedative and hypnotic activity (4-methyl-i-thiazoleethanol) are reported. Heat stable protein increased with root age. The traditional quality criteria appear to be well in accordance with biological activities of nitrogen compounds. Chemical studies of nitrogen compounds seem relatively rare, probably due to difficulty of isolation, subsequently the investigations of biological activities are little.

• Journal of Ginseng Research
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• 제14권2호
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• pp.317-331
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• 1990

Nitrogen compounds of Panax ginseng and their biological activities in plant and animal were reviewed. Major nitrogen combounds found in P. ginseng are free amino acids, Water soluble teins, insoluble proteins and peptides. Minor nitrogen compounds are dencichine. glycol)roteins. amines, alkaloides, methoxy or alkyl pyrazine derivatives. free nucleosides and nllrleir arid bases. 4-me- thymi-5-thiazoleethanol and pyroglutamic acid. The contents of total nitrogen and protein in root increased until 13 years old rvhich was the highest age tinder investigation. Soluble protein content increased With the root weight and was higher in xylem pith than cortex-epidermis indicating the rlosc relation with root growth. Arginine which covered 58% of total free amino aroids may serve as a storage nitrogen. Arginine seems to be changed into proline in rhizome, threonine in stem and again threoning and arginine in leaf. The greater the root weight the higher the polyaminc content. Polyamine stimulated the growth of root callus. Physiological roles of other minor nitrogen compounds are unknown although dencichine content is relatively high (0.5% d.w.). biochemical and pharmatological activities of some nitrogen compounds for animal were more investigated than physiological roll iota plant itself. Radiation and U.V. protective function (heat stable protein), insulin-like activity in lipogenesis and lipolysis (adenosine and pyroglutamic acid), depression of blood sugar content (glycopeptide). hemostatir and nellrotoxic activity (denrichine) and. sedative and hypnotic activity (4-methyl-5-thiazoleethilnol) are reported. Heat stable protein increased with root age. The traditional quality critsria appear to be well in accordance with biological activities of nitrogen compounds. Chemical stlldies of nitrogen compounds seem relatively rare, probably dole to difficulty of isolation, subsequently the investigations of biological activities are little.

• 한국토양비료학회지
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• 제3권1호
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• pp.49-54
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• 1970

대두(大豆)의 유식물시기(幼植物時期)에 있어서의 가용성(可溶性)질소와 Amino 산 및 Total alcohol 가용(可溶) Aminno 산을 자엽(子葉)과 배적(胚的)기관으로 구분(區分)하여 그의 생육(生育)에 따른 소장(消長)을 검토하면서 중간(中間)대사 및 생합성(生合成)의 면(面)을 고찰하여 보았다. 1. 가용성(可溶性)질소에 있어서는 증감의 비율은 자엽(子葉)과 배적(胚的)기관에서 공(共)히 비슷한 현상을 나타냈으며 발아후 17일(日)째 즉 성엽이 전개한 시기에는 최고치를 나타내었다. 이것은 유식물시기(幼植物時期)에 있어서는 형태적으로 뚜렷한 시기인 성엽 형성시기를 경계로 하여 그 전기는 질소동화기 임을 뒷받침하여 주었다. 2. 종자(種子)상태에서 검출한 Amino 산은 17종(種)이었으나 침종(浸種) 3일째에는 19종(種)이였으며 그간(間) Amino 산의 분포(分布)에 이동이 있었다. 배적(胚的)기관이 분화(分化)하기 시작한 것이 발아후 9일(日)째부터였는데 이후 자엽(子葉) 배적(胚的)기관을 막론하고 검출된 수(數)에도 변동이 있을 뿐만 아니라 분포(分布) 및 양적(量的)관계에도 많은 변화가 있었다. 특히 현저한 것은 Asparagine의 축적을 들을 수 있다. Asparagine의 축적의 현상은 외부에서 전혀 양분을 공급하자 않았음에도 불구하고 형성되고 있다는 것인데 이것이 곧 타식물(他植物)의 배(胚)와는 전(全)혀 다른 대두(大豆)의 특이(特異)한 현상이라고 말할 수 있다. 3. 배적(胚的)기관에 있어서는 분화(分化)초기에는 검출된 Amino 산의 수(數)가 적었고 이어서 그 수(數)가 약간 증감하는 현상을 나타냈다. 이것은 즉 초기에 검출된 것은 자엽(子葉)에서 이동한 것이고 그것이 기초가 되어서 Amino 산의 중간대사를 형성하기 때문에 생겼다고 볼 수 있다. 4. 전(全) Alcohol 가용(可溶) Amino 산의 증감현상은 수용성질소의 그것과 크게 다른 경향은 없었다. 그러나 양자(兩者)사이에 함유량의 차(差)는 심하였다.

• Nutrition Research and Practice
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• 제3권3호
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• pp.200-207
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• 2009

This study examined the effects of com gluten (CG) and its hydrolysate consumptions on weight reduction in rats fed a high-fat diet. Eight-month-old male Sprague-Dawley rats (n=40) were fed a high-fat diet (40% calorie as fat) for 4 weeks. They were then randomly divided into four groups and fed the isocaloric diets with different protein sources for 8 weeks. The protein sources were casein (control group), intact CG (CG group), CG hydrolysate A (CGHA group, 30% of protein as peptides and 70% as free amino acids) and CG hydrolysate P (CGHP group, 93% of protein as peptides and 7% as free amino acids). Body weight gain, adipose tissue weights, nitrogen balance, absorptions of energy, protein and fat, lipid profiles in plasma, liver and feces and hepatic activities of camitine palmitoyl transferase (CPT), fatty acid synthase (FAS), malic enzyme (ME) and glucose-6-phosphate dehydrogenase (G6PDH) were assessed. The CGHA diet had the highest amount of BCAAs, especially leucine, and most of them existed as free amino acid forms. The CGHA group showed significant weight reduction and negative nitrogen balance. Protein absorption and apparent protein digestibility in the CGHA group were significantly lower than those in other groups. Adipose tissue weights were the lowest in the CGHA group. Activity of CPT tended to be higher in the CGHA group than in other groups and those of FAS, ME and G6PDH were significantly lower in the CGHA group than in other groups. In conclusion, the CGHA diet which had relatively high amounts of free amino acids and BCAAs, especially leucine, had a weight reduction effect by lowering adipose tissue weight and the activities of FAS, ME and G6PDH in experimental animals, but it seemed to be a negative result induced by lowering protein absorption, increasing urinary nitrogen excretion and protein catabolism.

• Asian-Australasian Journal of Animal Sciences
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• 제29권7호
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• pp.1022-1028
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• 2016

Milk composition is an imperative aspect which influences the quality of dairy products. The objective of study was to compare the chemical composition, nitrogen fractions and amino acids profile of milk from buffalo, cow, sheep, goat, and camel. Sheep milk was found to be highest in fat ($6.82%{\pm}0.04%$), solid-not-fat ($11.24%{\pm}0.02%$), total solids ($18.05%{\pm}0.05%$), protein ($5.15%{\pm}0.06%$) and casein ($3.87%{\pm}0.04%$) contents followed by buffalo milk. Maximum whey proteins were observed in camel milk ($0.80%{\pm}0.03%$), buffalo ($0.68%{\pm}0.02%$) and sheep ($0.66%{\pm}0.02%$) milk. The non-protein-nitrogen contents varied from 0.33% to 0.62% among different milk species. The highest r-values were recorded for correlations between crude protein and casein in buffalo (r = 0.82), cow (r = 0.88), sheep (r = 0.86) and goat milk (r = 0.98). The caseins and whey proteins were also positively correlated with true proteins in all milk species. A favorable balance of branched-chain amino acids; leucine, isoleucine, and valine were found both in casein and whey proteins. Leucine content was highest in cow ($108{\pm}2.3mg/g$), camel ($96{\pm}2.2mg/g$) and buffalo ($90{\pm}2.4mg/g$) milk caseins. Maximum concentrations of isoleucine, phenylalanine, and histidine were noticed in goat milk caseins. Glutamic acid and proline were dominant among non-essential amino acids. Conclusively, current exploration is important for milk processors to design nutritious and consistent quality end products.

• 한국식품영양학회지
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• 제8권3호
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• pp.184-191
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• 1995

This study was designed to investigate the changes In chemical characteristics of traditional kochujang increase in fermentation time, whereas that of total sugar decreased rather rapidly during aging of meju. Amino nitrogen content of meju Increased sharply up to 40 days of fermentation and then decreased there after On the other hand, ammoniacle nitrogen content continued to increase with increasing aging time. Initially, maltose was the most abundant free sugar, but was later replaced by glucose or fructose as the fermentation proceeded. Among non-volatile organic acids, pyroglutamic acid was present at an appreciably other organic acids did not change considerably during fermentation. The total free amino acid content Increased up to 40th day of aging and then decreased thereafter The was the most abundant amino acid followed in decreasing order by Try and Glu in meju fermented for 40 days.