• Title/Summary/Keyword: protein-enriched fermented milk

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Quality Characteristics of Protein-enriched Fermented Milk made with Whey and Soybean Flour (유청과 콩가루를 활용한 단백질 강화발효유의 품질특성)

  • Jo, Jun-Hee;Yang, Hee-Sun;Choi, Yu-Jin;Lee, Sang-Cheon;Choi, Bong-Suk;Park, Tae-Young;Kim, Jin-Kyeong;Huh, Chang-Ki
    • Journal of Dairy Science and Biotechnology
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    • v.32 no.2
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    • pp.121-129
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    • 2014
  • This study was carried out to investigate the quality characteristics of protein enriched fermented milk made with whey and soybean flour. Protein-enriched fermented milk was prepared as follows: Soybean flour was added before fermentation. No synthetic aroma was added. The fermentation starter culture was ABT-4 (Chr. Hansen). Whey protein was added after fermentation. Sensory evaluation indicated that sample containing soybean flour amount of 5% were better than other samples. The pH values and titratable acidities of stored protein-enriched fermented milk and fermented milk, respectively, were not remarkably different. Crude protein was more than 3 times higher in protein-enriched fermented milk (8.77%) than in fermented milk (2.49%). The crude fat content of protein-enriched fermented milk was not remarkably different compared to that of fermented milk. Dietary fiber was more than 2.7 times higher in protein-enriched fermented milk (1.67%) than in fermented milk (0.62%), and the free amino acid content was more than 14 times higher in protein-enriched fermented milk (37.9%) than in fermented milk (2.6%).

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Application of Dairy Food Processing Technology Supplemented with Enriched-nutrients for the Elderly: II. The Applicable Technology of Carefoods for the Elderly (고령자를 위한 영양강화 유제품 개발 II. 고령자 영양강화 적용 기술 현황)

  • Kim, Bum Keun;Jang, Hae Won;Choi, Ga Hee;Moon, Yong-Il;Oh, Sejong;Park, Dong June
    • Journal of Dairy Science and Biotechnology
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    • v.37 no.4
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    • pp.213-222
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    • 2019
  • Milk and dairy products are the high value foods for the elderly population. In particular, fermented milk is the best source of calcium for people in the specific age group of over 79 years. It provides a good source of protein. Regular exercise and active lifestyle are recommended to slow down the muscle loss. However, exercising without proper nutrient intake is simply not sufficient at this age. Milk and dairy products provide the iron and protein content required for effective exercise-assisted growth. Milk nutrients have the advantage of being produced in various food forms, such as liquid, semi-solid, and powder types. Fat-soluble vitamins such as retinol and vitamin K can be encapsulated using various technologies for milk and dairy products. Using the encapsulation method, spray drying and fluidized-bed coating have been used for adding the micro-nutrients to the food. Microencapsulation technology is being applied in case of the fermented dairy products too. In particular, various wall materials are being developed to enhance the viability of probiotics. In the near future, advanced high-efficiency technologies that can effectively nourish the dairy products with nutrients will be developed to produce targeted high-nutrition value food for the elderly.

Effect of Supplementation of Fermented Milk Containing Active Peptides(IPP, VPP) in Accordance with Medical Nutrition Therapy in Pre- and Hypertension Subjects (고혈압 전단계 및 고혈압 환자에서 의학영양치료와 병행한 생리활성 펩티드 함유 유산균 발효유 섭취가 혈압에 미치는 영향)

  • Kim, Ji-Young;Kim, Yun-Young;Kim, Hye-Rang;Yun, Sung-Seob;Kim, Wan-Sik;Yea, Hyun-Soo;Chung, Jin-Young;Lee, In-Hoe;Choue, Ryo-Won
    • Journal of the East Asian Society of Dietary Life
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    • v.18 no.6
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    • pp.918-926
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    • 2008
  • It is well known non-drug therapy for hypertension patients can reduce blood pressure. These types of therapy include maintaining ones ideal body weight, quitting smoking, consuming large amounts of fruits and vegetables consuming low levels of saturated fat and salt and regular exercise. Fermented milk protein derived biologically active peptides such as isoleucine-proline-proline_(IPP) or valine-proline-proline_(VPP) have been shown to lower blood pressure in hypertensive subjects. This study was conducted to investigate the antihypertensive effects of medical nutritional therapy _(MNT) in accordance with the consumption of fermented milk enriched with IPP and VPP. To accomplish this, we conducted a randomized case-controlled study of 43 subjects who had blood pressure levels greater than 120/80 mmHg. The subjects in the study group were randomly allocated into two groups, an MNT + fermented milk (100mL/day) group (n=21) and an MNT+L. helveticus fermented milk with tripeptides (IPP=2.2mg, VPP=2.6mg/100mL) group (n=22). The MNT included weight management, reduction of sodium, total fat and saturated fat intake, increased intake of fruits and vegetables, and increased intake of low fat dairy products. The treatments were administered for 12 weeks during which time no drug interventions were conducted. The daily intakes of total calories, fats, cholesterol and Na decreased significantly after 12 weeks of MNT in the control and the experimental groups. In addition, the systolic blood pressure de creased significantly in the control and experimental groups; however, the diastolic blood pressure only decreased significantly in the experimental group. Overall, the results of this study indicate that the intake of fermented milk containing IPP and VPP in conjunction with MNT exerted positive effects on the blood pressure of pre- and hypertensive subjects.

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Production of highly enriched GABA through Lactobacillus plantarum fermentation of katsuobushi protein hydrolyzate made from Dendropanax morbiferus extract fermented by Bacillus subtilis (황칠나무 추출물의 고초균 발효물로 제조된 가쓰오부시 단백가수분해물의 Lactobacillus plantarum 발효를 통한 고농도 GABA 생산)

  • Yu-Jeong An;Nak-Ju Sung;Sam-Pin Lee
    • Food Science and Preservation
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    • v.30 no.1
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    • pp.146-154
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    • 2023
  • To develop a multi-functional ingredient, the bioconversion of katsuobushi protein was optimized using Bacillus subtilis HA and Lactobacillus plantarum KS2020. The Dendropanax morbiferus extract (DME) culture with protease activity (102 unit/mL) was prepared by B. subtilis with 2% glucose and 1% skim milk through one day of alkaline fermentation. Katsuobushi protein was effectively hydrolyzed by the DME culture at 60℃ for 3 hours, resulting in a tyrosine content of 156.85 mg%. Subsequently, a second lactic acid fermentation was carried out with 10% monosodium glutamate (MSG) using L. plantarum KS2020 to produce higher levels of GABA. Following co-cultivation for three days, DME exhibited a pH of 8.3 (0% acidity). After seven days, the viable cell count of L. plantarum increased to 9.33 CFU/mL, but viable Bacillus cells were not detected. Taken together, a multi-functional ingredient with enriched GABA, peptides, probiotics, and umami flavor was developed through lactic acid fermentation using hydrolyzed katsuobushi protein. These results indicate that katsuobushi protein could be used as a byproduct to produce a palatable protein hydrolysate using alkaline-fermented DME culture as a proteolytic enzyme source.