• Title/Summary/Keyword: Gelatin hydrolysate

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Effects of Gelatin Hydrolysates Addition on Technological Properties and Lipid Oxidation of Cooked Sausage

  • Ham, Youn-Kyung;Song, Dong-Heon;Noh, Sin-Woo;Gu, Tae-Wan;Lee, Jae-Hyeok;Kim, Tae-Kyung;Choi, Yun-Sang;Kim, Hyun-Wook
    • Food Science of Animal Resources
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    • v.40 no.6
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    • pp.1033-1043
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    • 2020
  • This study investigated the impacts of gelatin hydrolysate addition on the technological properties and lipid oxidation stability of cooked sausage. Gelatin hydrolysate was prepared from pork and duck skin gelatin, through stepwise hydrolysis using collagenase and pepsin. The cooked sausages were formulated without gelatin (control) or with 1% pork skin gelatin, 1% duck skin gelatin, 1% pork skin gelatin hydrolysate, and 1% duck skin gelatin hydrolysate. The pH, color characteristics, protein solubility, cooking loss, and textural properties of cooked sausages were evaluated, and the 2-thiobarbituric acid reactive substances (TBARS) value was measured weekly to determine lipid oxidation stability during 4 wk of refrigerated storage. Enzymatic hydrolysis of gelatin decreased protein content and CIE L* but increased redness and yellowness (p<0.05). When 1% gelatin or gelatin hydrolysate was incorporated in cooked sausage, however, little to no impacts on pH value, moisture content, protein content, color characteristics, protein solubility, and cooking loss were found (p>0.05). The addition of 1% duck skin gelatin hydrolysate increased the cohesiveness and chewiness of cooked sausages. The inclusion of 1% duck skin gelatin accelerated lipid oxidation of cooked sausages during refrigerated storage (p<0.05), whereas duck skin gelatin hydrolysate caused a lower TBARS value in cooked sausage compared to duck skin gelatin. The results show comparable effects of gelatin and gelatin hydrolysate addition on the technological properties of cooked sausages; however, the oxidative stability of raw materials for gelatin extraction should be evaluated clearly in further studies.

Comparison of Antioxidative Activity on Fish and Bovine Skin Gelatin Hydrolysates Produced in a Three-Step Membrane Enzyme Reactor (3단계 막효소반응기에서 연속적으로 생산된 어피 및 우피 젤라틴 가수분해물의 항산화활성 비교)

  • 김세권;박표잠;송병권;김종배
    • KSBB Journal
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    • v.15 no.6
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    • pp.635-643
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    • 2000
  • To compare the antioxidative activities of fish skin and bovine skin gelatin hydrolysate, gelatin hydrolysates from Alaska pollack and bovine skin were prepared by various enzymatic hydrolysis methods (1st step, Alcalase; 2nd step, pronase E; 3rd step, collagenase) using a continuous three-step membrane reactor. The molecular weight distributions of the 1st, 2nd and 3rd step hydrolysates were 7∼10 kDa, 2∼5 kDa and 0.7∼0.9 kDa, respectively. The antioxidative activity of fish skin gelatin hydrolysate was stronger than that of bovine skin gelatin hydrolysate, and in particular, both of 2nd step hydrolysates showed more antioxidative activity than hydrolysates of any other step. The optimum antioxidative activity concentration of the 2nd step hydeolysates of fish and boving skin were 1% (w/w) in a linoleic acid water-alcohol emulsion. In cultured cells exposed to t-butyl hydroperoxide (t-BHP), the 2nd step hydrolysate of fish skin gelatin delayed cell death most. These results suggest that the antioxidative activity of fish skin gelatin hydrolysate is higher than that of bovine skin gelatin hydrolysate because of their different amino acid contents.

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Fractionation of Gelatin Hydrolysates with Antioxidative Activity from Alaska Pollock Surimi Refiner Discharge

  • Park, Chan-Ho;Kim, Hyung-Jun;Kang, Kyung-Tae;Park, Joo-Dong;Heu, Min-Soo;Park, Jae-W.;Kim, Jin-Soo
    • Fisheries and Aquatic Sciences
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    • v.12 no.3
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    • pp.163-170
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    • 2009
  • This study was conducted to obtain the gelatin fraction with a high anti oxidative activity from Alaska pollock surimi by-products using a two-step enzymatic hydrolysis and ultrafiltration. Among gelatin hydrolysates from refiner discharge of Alaska Pollock surimi, the highest antioxidative activity (81.5%) resulted from gelatin hydrolysate sequentially treated with Pronase E and Flavourzyme each for 2 hr. However, no difference was seen in the anti oxidative activity of the second hydrolysate (Pronase E-/Flavourzyme-treated hydrolysate) when compared to the permeate fractionated through a 10-kDa membrane. The results suggest that the Pronase E-/Flavourzyme-treated hydrolysate from refiner discharge gelatin of Alaska pollock surimi can be used as a supplementary raw material for improving health functionality.

Anti-HIV-1 Activity of Gelatin Hydrolysate Derived from Alaska Pollack Theragra chalcogramma Skin (명태(Theragra chalcogramma) 껍질 유래 젤라틴 가수분해물의 항 HIV-1 효능)

  • Park, Sun-Joo
    • Korean Journal of Fisheries and Aquatic Sciences
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    • v.49 no.5
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    • pp.594-599
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    • 2016
  • Infection with HIV (Human immunodeficiency virus), over time, develops into acquired immunodeficiency syndrome (AIDS). The development of non-toxic and effective anti-HIV drugs is one of the most promising strategies for the treatment of AIDS. In this study, we investigated the anti-HIV-1 activity of gelatin hydrolysates from Alaska pollack skin. Gelatin hydrolysates were prepared using four enzymes (alcalase, flavourzyme, neutrase, and pronase E). Among these, the pronase E gelatin hydrolysate was found to inhibit HIV-1 infection in the human T cell-line MT4. It exhibited inhibitory activity on HIV-1IIIB-induced cell lysis, reverse transcriptase activity, and viral p24 production at noncytotoxic concentrations. Moreover, it decreased the activation of matrix metalloproteinase-2 (MMP-2) in vitro. Because HIV infection-induced activation of MMP-2 can accelerate collagen resolution and collapse of the immune system, pronase E gelatin hydrolysate might prevent the activation of MMP-2 in cells, resulting in collagen stabilization and immune cell homeostasis consistent with anti-HIV activation. These results suggest that pronase E gelatin hydrolysate could potentially be incorporated into a novel therapeutic agent for HIV/AIDS patients.

Antioxidant and ACE Inhibiting Activities of the Rockfish Sebastes hubbsi Skin Gelatin Hydrolysates Produced by Sequential Two-step Enzymatic Hydrolysis

  • Kim, Hyung-Jun;Park, Kwon-Hyun;Shin, Jun-Ho;Lee, Ji-Sun;Heu, Min-Soo;Lee, Dong-Ho;Kim, Jin-Soo
    • Fisheries and Aquatic Sciences
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    • v.14 no.1
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    • pp.1-10
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    • 2011
  • This study was conducted to obtain hydrolysates with potent antioxidative activity from rockfish skin gelatin. Gelatin was extracted under high temperature/high pressure using a two-step enzymatic hydrolysis with commercial enzymes such as Alcalase, Flavourzyme, Neutrase, and Protamex. The second rockfish-skin gelatin hydrolysate (SRSGH) was prepared by further incubating the first gelatin hydrolysate (FRSGH), which had been hydrolyzed with Alcalase for 1-h (FRSGH-A1), with Flavourzyme for 2-h (SRSGH-F2). The second gelatin hydrolysate showed higher antioxidative activity of 3.72 as measured by a Metrohm Rancimat and superior angiotensin I-converting enzyme (ACE) inhibiting activity of 0.82 mg/mL. Compared with the gelatin, the relative proportion in SRSGH-F2 was markedly decreased in the 100-kDa peak, whereas it was increased in that less than 100-kDa. The amino acid composition of SRSGH-F2 was rich in glycine (25.9%), proline (10.8%), alanine (9.1%), and glutamic acid (9.1%). In contrast, it was poor in cystine (not detected), methionine (1.6%), tyrosine (0.4%), hydroxylysine (0.9%), and histidine (0.9%). In recent years, demand for natural functional foods has been increasing, and SRSGH-F2 can be used as a functional food ingredient in the food industries. However, further detailed studies on SRSGH-F2 with regard to its antioxidant activity in vivo and the various antioxidant mechanisms are needed.

Functional Properties of Fish Skin Gelatin Hydrolysate from a Continuous Two-Stage Membrane Reactor (2단계 막반응기에서 연속적으로 생산된 어피젤라틴 가수분해물의 기능성)

  • Kim, Se-Kwon;Byun, Hee-Guk;Jeon, You-Jin;Cho, Duck-Jae
    • Applied Biological Chemistry
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    • v.37 no.2
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    • pp.85-93
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    • 1994
  • The fish skin gelatin hydrolysates were produced using a continuous two-stage membrane (MWCO 10,000, MWCO 5,000) reactor, and molecular weights, amino acids and functional properties of the hydrolysates were investigated. The major molecular weights distribution of the major fractions were $8{\sim}10\;KDa$ and $4.5{\sim}6.5\;KDa$ in the 1st-step hydrolysates, $2{\sim}6\;KDa$ and $0.5{\sim}2\;KDa$ in the 2nd-step hydrolysates. Among the amino acids in the hydrolysates, glycine, proline, serine, alanine, hydroxyproline, glutamic acid and aspartic acid having sweet taste were responsible for $68{\sim}72%$ of the total amino acids. But valine, methionine, isoleucine, leucine, phenylalanine and histidine having a bitter taste were only $23{\sim}25%$ Taste evaluations show that the gelatin hydrolysates have a brothy and sweet taste, 2nd-step hydrolysate have more a favorable taste than 1st-step hydrolysate. The hydrolysates were completely soluble and clear over the entire pH range. Moisture sorption at intermediate water activities of the 2nd-step hydrolysate was much higher than the unmodified fish skin gelatin, but foaming and emulsification properties were poor. Buffer capacity of the 2nd-step hydrolysate was higher than the fish skin gelatin and 1st-step hydrolysate, while viscosities of the hydrolysates were lower than the fish skin gelatin.

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Partial Purification of Antioxidative Peptides from Gelatin Hydrolysates of Alaska Pollock Surimi Refiner Discharge

  • Heu, Min-Soo;Park, Chan-Ho;Kim, Hyung-Jun;Park, Jae-W.;Kim, Jin-Soo
    • Fisheries and Aquatic Sciences
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    • v.12 no.4
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    • pp.249-257
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    • 2009
  • This study is conducted to partially purify an antioxidative peptide in a two-step gelatin hydrolysate from Alaska pollock surimi refiner discharge, which was obtained by sequential treatment with Pronase E and Flavourzyme. The two-step gelatin hydrolysate was fractionated using chromatographic methods. Based on the same protein concentration of each fraction, the antioxidative activities (85.1-95.4%) of positive fractions fractionated by ion-exchange chromatography were higher than those (27.2-87.8%) from gel filtration. Then, further purification of the positive fractions was performed. Among them, the partially purified A1C1L2G1 and A1C1L2G2 fractions showed 96.2% and 85.1% inhibition, respectively, of linoleic acid peroxidation. The A1C1L2G1 fraction was composed of 15 kinds of amino acids and the predominant amino acids were proline, glycine and alanine. The results obtained in this study suggested that the fraction partially purified through chromatographic methods from the two-step gelatin hydrolysate of Alaska pollock surimi refiner discharge could be useful as a supplementary source for improving health functionality.

Preparation of Imitation Sauce from Enzymatic Hydrolysate of Cod Skin Gelatin (대구피 젤라틴의 효소적 가수분해물을 이용한 조미간장의 제조)

  • 김세권;안창범;강옥주
    • Journal of the Korean Society of Food Science and Nutrition
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    • v.22 no.4
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    • pp.470-475
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    • 1993
  • The imitation sauce was prepared by using the enzymatic hydrolysate of cod skin gelatin and its product quality was also compared with three kinds of soy sauce on the market sensually. The major molecular weight of the hydrolysate used in this study was 5, 800Da and glycine, proline, serine, alanine, hydroxyproline, glutamic acid, and aspartic acid having sweet taste accounted for 65.9% of the total amino acid being in the hydrolysate. The imitation sauce was prepared the mixture of the liquor and fermented sauce (8 : 2 = v : v), where the liquor was prepared by dissolving with 10.0g the hydrolysate, 10.0g NaCl, 3.0g sucrose, 0.5g monosodium glutamate, 0.1g caramel powder, 3.0$m\ell$ fermented vinegar, 0.05g garlic powder, 0.1g black pepper powder, and 0.2g licorice powder in 100.0$m\ell$ water, boiling for 5min and filtrating with cheesecloth. From the result of sensory evaluation, the imitation sauce was at least equal to three kinds of soy sauce in product quality.

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Comparison betwee Bovine Hide and Pigskin Gelatins and Preparation of Gelatin Hydrolysates

  • Shin, Seung-Yong;Song, Kyung-Bin
    • Preventive Nutrition and Food Science
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    • v.4 no.1
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    • pp.14-17
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    • 1999
  • Bovine hide and pig skin gelatins were prepared and their molecular weight profiles were examined by SDS-PAGE. The major molecular weights of bovine hide gelatin were 220 kDa, 140kDa, and 130kDa and the weights of pigskin gelatin were 210 kDa, 135kDa and 120kDa. Also , as a typical parameter of rheological property of the gelatin , viscosities of gelatin were measured under various conditions. Gelatin hydrolysates were prepared using typical commerical proteases and their angiotensin converting enzyme inhibitory activities were examined.

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Purification and Characterization of Antioxidative Peptides from Bovine Skin

  • Kim, Se-Kwon;Kim, Yong-Tae;Byun, Hee-Guk;Park, Pyo-Jam;Ito, Hisashi
    • BMB Reports
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    • v.34 no.3
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    • pp.219-224
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    • 2001
  • To identify the antioxidative peptides in the gelatin hydrolysate of bovine skin, the gelatin was hydrolyzed with serial digestions in the order of Alcalase, pronase E, and collagenase using a three-step recycling membrane reactor. The second enzymatic hydrolysate (hydrolyzed with pronase E) was composed of peptides ranging from 1.5 to 4.5 kDa, and showed the highest antioxidative activity, as determined by the thiobarbituric acid method. Three different peptides were purified from the second hydrolysate using consecutive chromatographic methods. This included gel filtration on a Sephadex G-25 column, ion-exchange chromatography on a SP-Sephadex C-25 column, and high-performance liquid chromatography on an octadecylsilane chloride column. The isolated peptides were composed of 9 or 10 amino acid residues. They are: Gly-Glu-Hyp-Gly-Pro-Hyp-Gly-Ala-Hyp (PI), Gly-ProHyp-Gly-Pro-Hyp-Gly-Pro-Hyp-Gly (PII), and Gly-ProHyp-Gly-Pro-Hyp-Gly-Pro-Hyp (PIII), as characterized by Edman degradation and fast-atom bombardment mass spectrometry. The antioxidative activities of the purified peptides were measured using the thiobarbituric acid method, and the cell viability with a methylthiazol tetrazolium assay The results showed that PII had potent antioxidative activity on peroxidation of linoleic acid. Moreover, the cell viability of cultured liver cells was significantly enhanced by the addition of the peptide. These results suggest that the purified peptide, PII, from the gelatin hydrolysate of bovine skin is a natural antioxidant, which has potent antioxidative activity.

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