• Title/Summary/Keyword: tempeh

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The Changes of Phytic Acid Content and its Interactions with Protein and Minerals in the Preparation of Tempeh (Tempeh 제조시 Phytic Acid 함량변화 및 그에 따른 단백질, 무기질과의 상호작용에 관한 연구)

  • Park, Eun-Soon;Yoon, Sun
    • Journal of Nutrition and Health
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    • v.16 no.4
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    • pp.281-286
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    • 1983
  • The interactions of phytic acid with protein and minerals has been blamed to decrease the bioavailability of protein and minerals in soybean products. Tempeh, the traditional Infonesian fermented soybean product, was prepared to investigate the changes of phytic acid contents nesian fermented soybean product, was prepared to investigate the changes of phytic acid contents and its interactions with protein and minerals in the fermentation. The acceptability of tempeh were also studied by conducting sersory evaluation. 1) Phytic acid contents of cooked soybeans and of tempch were significantly lower than that of raw soybeans, indicating that cooking and fermentation resulted in the decrease in phytic acid content of soybeans. In tempeh the fraction of phytic acid retained after ultrafiltration was significantly lower than that in raw soybeans. 2) The total protein contents were not significantly different between raw soybeans and tempeh. Phytic acid contents per gram of protein retained ultrafiltration were significantly higher in raw soybeans than in tempeh. This result is interpreted as that raw soybeans contain higher amounts of phytic acid- protein complexes than tempeh. 3) Both of calcium and zinc contents were not significantly different among raw, cooked soybeans and tempeh. However, the retained Ca and Zn fraction after ultrafiltration were significantly lower in tempeh comparing with that in raw soybeans. Lower retention of Ca and Zn after ultrafiltration in tempeh may be the result of lower phytate content of tempeh, thereby less chance of forming mineral- phytate complexes. 4) Tempeh received the sensory evaluation scores between good and fair and the addition of garlic to tempeh significantly improved the odor, general desirability and total score.

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Tempeh Fermentation from a Mixture of Soybean and Sorghum Grain (대두-수수 혼합곡물의 템페발효)

  • Kim, Chong-Tai;Kim, Chul-Jin;Kim, Dong-Chul;Kwon, Tae-Won
    • Korean Journal of Food Science and Technology
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    • v.22 no.6
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    • pp.668-674
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    • 1990
  • Tempeh-type fermented products were prepared from soybean, sorghum or mixture of soybean and sorghum(1 : 1) with the traditional Indonesian inoculum(LARU : mixed cultures of Rhizopus oligosporus). Fermentation increased protein and fiber contents in the soybean tempeh(ST) and tempeh of soybean-sorghum mixture(SSM). Fat content was slightly higher in sorghum tempeh(SGT) and SSM than that of control. During the fermentation, pH, soluble solid and soluble nitrogen were increased, while no significant change was found in the total solids. The trypsin inhibitor activity(TIA) and phytic acid content decreased after 32 hrs fermentation. It is suggested that Rhizopus oligosporus is capable of hydrolyzing trypsin inhibitor and phytic acid of the substrate. Thiamine and niacin contents increased in all samples as compared with the unfermented control. In amino acid level, there were some decreased in total amino acids after 32 hrs fermentation in three types of tempeh. While the concentrations of lysine, valine. tyrosine and alanine in ST, SGT and SSM were increased those of serine and glutamic acid were decreased in compare to the unfermented control.

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Stability of Lipids by Adding Soybean and Soybean Products (대두(大豆) 및 대두가공품(大豆加工品) 첨가(添加)에 따른 유지안정성(油脂安定性))

  • Lee, Chun-Son;Kim, Ze-Uook
    • Applied Biological Chemistry
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    • v.30 no.4
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    • pp.328-334
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    • 1987
  • The stability of lipids(Soybean oil & Ramyon lipid) by adding soybean products' extracts and Soybean, Soybean products was investigated, respectively. 1. Ethanolic extracts of defatted Soybean was very antioxidative in soybean oil. Soybean hot water extracts, defatted soybean water extracts and Soyprotein isolate water extracts possess antioxidative activities. But, Fresh Soybean cold extracts don't possess antioxidative activity. 2. The Oxidation of Ramyon Lipids (beef tallow) during storage at $45^{\circ}C$ incubator was effectively surpressed by addition of defatted Soybean hydrolyzate, tempeh (Defatted), Soy protein isolate hydrolyzate. The power of antioxidative activity is this order: Soy protein isolate hydrolyfate> Defatted Soybean hydrolyzate> BHA (200ppm)> Tempeh> Tempeh extracts> Defatted soybean.

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The Effect of Fermentation of Soybeans on the Protein and Mineral Bioavailability in the Rats (대두의 발효가 흰쥐의 단백질 및 무기질의 생체 이용율에 미치는 영향)

  • Bai, Young-Hee;Yoon, Sun
    • Journal of Nutrition and Health
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    • v.18 no.2
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    • pp.139-146
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    • 1985
  • This study was attempted to investigate the effect of fermentation of soybean on protein and mineral bioavailability. The traditional, oriental fermented soybean foods, Meju and Tempeh, and isolated soybean protein( ISP ) and cooked soybean were prepared and fed to rats as sources of protein. The C-PERs of ISP, cooked soybean, Meju and Tempeh were 1.82, 1.98, 2.11, and 2.36, respectively C-PERs of fermented soybean products, Meju and Tempeh were higher than ISP and cooked soybeans. However, they were not significantly different The percent retention of protein of rats fed with casein, ISP, cooked soybean, Meju and Tempeh were 47.44%, 51.83%, 47.67%, 50.90% and 45.97%, respectively, showing no significant differences among the diets. The rates of calcium retention percent were 62.26%, 59.22%, 61.59%, 55.78% and 67.09 % in rats fed with casein, ISP, cooked soybean, Meju and Tempeh, respectively, demonstrating no significant differences. Rats fed with cooked soybeans did show significantly higher iron retention rate than other samples. However, this study failed to any significant increase in iron availability. The percent of fine retained in rats fed with ISP was significantly lower than those of rats fed with other diets, however, significantly high amounts of zinc were retained in rats fed with Tempeh compared with other diets. The percents of zinc, iron, calcium retained in the bones of rats were not significantly different among the diets.

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Determination of Isoflavone, Total Saponin, Dietary Fiber, Soy Oligosaccharides and Lecithins from Commercial Soy Products Based on the One Serving Size - Some bioactive compounds from commercialized soy products - (대두 가공품 1회분량 내 이소플라본, 사포닌, 식이섬유, 대두 올리고당 및 레시틴의 함량 - 상업용 대두 가공품 1회 분량 당의 생리활성 물질 함량 분석 -)

  • Kim, Cheon-Hoe;Park, Jeom-Seon;Sohn, Heon-Soo;Chung, Chai-Won
    • Korean Journal of Food Science and Technology
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    • v.34 no.1
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    • pp.96-102
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    • 2002
  • The levels of biologically active compounds, such as isoflavone, total saponin, dietary fiber, soy oligosaccharides, and lecithin from each serving size of commercial soy products, were quantitatively determined from the raw soybean, soymilk, tofu, isolated soy protein (ISP), soybean paste(toenjang), natto, and tempeh from local and foreign market. Soy flour, natto, and soymilk contained 489.1 mg, 308.3 mg, and 138.1 mg of isoflavone in each 100 g of dry matter, respectively. The ratios of aglycone to glucoside of soybean paste and tempeh showed relatively high level compared with other tested soy products. Commercial soymilk showed the highest ratio of soluble fiber to total dietary(59%). The higher levels of dietary fiber (20.1 g) and lecithin (1.13 g) were also found in tofu. The lecithin and saponin content of isolated soy protein(ISP) were highest (0.63 g and 0.65 g/ 100 g of dry matter) among the tested samples. In conclusion, soy flour showed the highest level of biologically active compounds, such as saponin, isoflavone, dietary fiber, and soy oligosaccharides. But when the evaluation was based on the serving size, soymilk containing 31.5 mg of isoflavone, 2.59 g of dietary fiber, 0.57 g of oligosaccharides, 0.10 g of lecithin, and 0.11 g of saponin showed similarity to those of the tested soybeans(20 g).

두부의 가공과 이용

  • 김철재
    • Journal of the East Asian Society of Dietary Life
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    • v.8 no.4
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    • pp.508-535
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    • 1998
  • 콩(soybean 대두)을 이용한 식품은 동양에서는 콩 전체를, 서양에서는 콩의 영양성분을 분리하여 제품화하고 있다. 콩 전체를 자주 이용하는 동양권에서는 발효식품과 비 발효식품으로 편의상 나누는데, 주요 비 발효식품으로는 풋콩 또는 청콩단(green vegetable soybeans . edamame), 콩가루, 콩나물, 콩국 또는 두유, 두유막(soy protein-lipid film : yuba), 두부 등이 있으며 발효식품으로 우리가 잘 알고 있는 간장, 된장을 비롯해서 청국장, 템폐(tempeh), 낫또(natto), 콩 요구르트, 콩치즈 등이 있다. 아마도 콩 단백질을 식용으로 하는 면에서 두부가 대표적인 식품이라고 말할 수 있다.(중략)

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Bacillus subtilis Fermentation for Enhancement of Feed Nutritive Value of Soybean Meal

  • Kook, Moo-Chang;Cho, Seok-Cheol;Hong, Young-Ho;Park, Hoon
    • Journal of Applied Biological Chemistry
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    • v.57 no.2
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    • pp.183-188
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    • 2014
  • In order to increase the nutritional quality of soybean meal (SBM) as an animal feed, Bacillus subtilis TP6, a previously isolated strain from an Indonesian traditional fermented soybean food, Tempeh, was used as a starter organism for solid-state fermentation. In the pre-treated SBM with water content of 60% (v/w), B. subtilis TP6 was grown to a maximum viable cell number of $3.5{\times}10^9CFU/g$. Compared to control, crude protein in Bacillus fermented SBM was increased by 16%, while raffinose, stachyose, and trypsin inhibitors were reduced by 31, 37, and 90%, respectively. The Sodium dodecyl sulfate-polyacrylamide gel electrophoresis analysis showed that proteins in the fermented SBM were remarkably hydrolyzed into smaller molecular masses, resulting in a decrease in large sized proteins. Our data suggested that B. subtilis fermentation could increase the nutritive value of SBM through reduction of anti-nutritive factors and improvement of protein quality by hydrolysis of soy protein. In addition, B. subtilis TP6 produced a functional ingredient, poly-${\gamma}$-glutamic acid which has various health benefits.

Biological Activities of Soyasaponins and Their Genetic and Environmental Variations in Soybean (콩 Saponin의 생리활성 기능과 함량변이)

  • 김용호
    • KOREAN JOURNAL OF CROP SCIENCE
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    • v.48
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    • pp.49-57
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    • 2003
  • There is much evidence suggesting that compounds present in soybean can prevent cancer in many different organ systems. Especially, soybean is one of the most important source of dietary saponins, which have been considered as possible anticarcinogens to inhibit tumor development and major active components contributing to the cholesterol-towering effect. Also they were reported to inhibit of the infectivity of the AIDS virus (HIV) and the Epstein-Barr virus. The biological activity of saponins depend on their specific chemical structures. Various types of triterpenoid saponins are present in soy-bean seeds. Among them, group B soyasaponis were found as the primary soyasaponins present in soybean, and th e 2, 3-dihydro-2, 5-dihydroxy-6- methyl-4H-pyran-4-one(DDMP)-conjugated soyasaponin $\alpha\textrm{g}$, $\beta\textrm{g}$, and $\beta$ a were the genuine group B saponins, which have health benefits. On the other hand, group A saponins are responsible for the undesirable bitter and astringent taste in soybean. The variation of saponin composition in soybean seeds is explained by different combinations of 9 alleles of 4 gene loci that control the utilization of soyasapogenol glycosides as substrates. The mode of inheritance of saponin types is explained by a combination of co-dominant, dominant and recessive acting genes. The funtion of theses genes is variety-specific and organ specific. Therefore distribution of various saponins types was different according to seed tissues. Soyasaponin $\beta\textrm{g}$ was detected in both parts whereas $\alpha\textrm{g}$ and $\beta$ a was detected only in hypocotyls and cotyledons, respectively. Soyasaponins ${\gamma}$g and $\gamma\textrm{g}$ were minor saponin constituents in soybean. In case group A saponins were mostly detected in hypocotyls. Also, the total soyasaponin contents varied among different soy-bean varieties and concentrations in the cultivated soy-beans were 2-fold lower than in the wild soybeans. But the contents of soyasaponin were not so influenced by environmental effects. The composition and concentration of soyasaponins were different among the soy products (soybean flour, soycurd, tempeh, soymilk, etc.) depending on the processing conditions.