• Title/Summary/Keyword: plastein reaction

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Preparation of plastein product from soymilk residue protein (두유박 단백질을 이용한 plastein의 합성)

  • Lee, Sang-Joon;Park, Woo-Po;Moon, Tae-Wha;Kim, Ze-Uook
    • Applied Biological Chemistry
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    • v.35 no.6
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    • pp.501-506
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    • 1992
  • Pepsin-catalyzed hydrolysis and plastein reaction were carried out to prepare plastein product from soymilk residue protein. Conditions required for optimal hydrolysis of soymilk residue protein and subsequent plastein production were investigated. The optimum substrate concentration, enzyme-substrate ratio, pH, reaction temperature and incubation time for hydrolysis were 3%, 1/50, 1.7, $45^{\circ}C$ and 24 hours, respectively. Plastein formation from peptic hydrolysate of soymilk residue protein was most effective at substrate concentratin of 40%, pH 4 and $45^{\circ}C$. Reaction time of 18 hours and enzyme-substrate ratio of 1/100 were selected for plastein production. Electrophoresis of the products revealed that protein-like substances of high molecular weight were produced from the plastein reaction.

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Changes of Silk Fibroin Molecular Weight by Plastein Reaction (Plastein反應에 의한 絹피브로인의 分子量變化)

  • 김동건;판부막;소사효
    • Journal of Sericultural and Entomological Science
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    • v.40 no.2
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    • pp.131-135
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    • 1998
  • Changes of silk fibroin molecular weight was studied by enzymatic proteolysis and reverse reaction of enzymatic proteolysis (plastein reaction) using chromatography, X-ray diffraction and thermal analysis methods. When the treatment of enzymatic proteolysis with $\alpha$-chymotripsin to silk fibroin solution, a precipitate of Fcp fractions was formed. And, this was dissolved in LiBr aqueous solution, the precipitate of PIFcp fractions was obtained again. Fcp and PIFcp fractions showed silk IIand silk Itype structure, respectively. Fcp fractions was about 6,900 in molecular weight, PIFcp fractions obtained by plastein reaction on the precipitate of Fcp fractions increased molecular weight to abort 15,000. The molecular weight of Fcp fractions was increased by plastein reaction, but Fcp fractions almost transited to silk I type crystal. The structure of silk I type of PIFcp fractions was steady identified by X-ray diffraction and thermal analysis. As molecular weight of Fcp fractions was gradually low, PIFcp fractions was become to macromolecule little by little.

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Studies on the Improvements of Functional Properties of Sardine Protein by Plastein Reaction -2. General Properties of Plasteins- (Plastein반응을 이용한 정어리 단백질의 기능성 개선에 관한 연구 -2. Plastein의 일반적 성장-)

  • Kim, Se-Kwon;Kwak, Dong-Chae;Cho, Duck-Jae;Lee, Eung-Ho
    • Journal of the Korean Society of Food Science and Nutrition
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    • v.17 no.3
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    • pp.242-248
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    • 1988
  • Plasteins were synthesized from a peptic sardine protein hydrolysate by pepsin, ${\alpha}-chymotrypsin$ pretense(from Aspergillus saitoi) and papain under the optimum conditions of previous paper. L -glutamic acid diethylester and L-leucine ethylester also were incorporated into plastein during the plastein reaction by papain. General composition, yield, molecular weight and amino acid composition were measured. The protein, ash and lipid rontent of plasteins were $81.1{\sim}88.2%$, $1.9{\sim}7.6%$ and $0.3{\sim}0.8%$, respectively. The yield of plasteins were pretense plastein 52.3%, papain plastein 44.2%, pepsin plnstein 43.6%, ${\alpha}-chymotrypsin$ plastein 43.2%. Leu -papain plastein 33. 2% and Glu - papain plastein 29.0%. The glutamic acid and leucine content in Glu -papain plastein and Leu -papain plastein were 39.0%, 37.5%, respectively. While the contents in the papain plastein were 14.3%, 7.1%, respectively. The amino acid composition of plasteins were similar to that of peptic sardine protein hydrolysate. The major molecular weight of the peptic hydrolysnte estimated by gelfilteration were 1,800 and 285, and those of plasteins were 26,000 and 9,100 for ${\alpha}-chymotrypsin$, 23,000, 10,000 and 4,300 for pepsin, 18,000 for pretense, 13,000 for papain, 29,000 for Leu -papain plastein and 19,000 for Glu -papain plastein.

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High Temperature Cooking of Fish Protein Extracts for Plastein Reaction

  • Lee, Keun-Tai;Park, Seong-Min;Lee, Sang-Ho;Ryu, Hong-Soo;Yoon, Ho-Dong
    • Preventive Nutrition and Food Science
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    • v.2 no.4
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    • pp.321-327
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    • 1997
  • High Temperature-cooking conditions of cultured fishes(loach, crucian carp, bastard halibut, and jacopever) were optimized by response surface methodology(RSM), and plastein products were prepared using enzymatic hydrolysis. Four models were proposed with regard to effects of time(t), temperature(T), and water/fish meat (w/f) ratio on the amount of 0.3M TCA soluble fractions. The model coefficients were ranged from p<0.0001 for jacopever to p<0.0433 for bastared halibut. Cooking conditions for 60% hydrolysis were optimized at 1) 14$0^{\circ}C$ except for crucian carp(136$^{\circ}C$); 2) 10.08 hours(loach), 7.25 hours(crucian carp), 9.85 hours(ba-stard harlibut), and 9.37 hours(iacopever); 3) 1:1(w/f) ratio except for the crucian carp(1.1:1). When protein hydrolyzates were employed for the plastein synthesis, optimum plastein-reaction conditions were determined to be pH 9.0 with chymotrypsin for the loach and crucian carp hydrolyzates, pH 9.0 with papain for the bastard halibut hydrolyzate, and pH 11.0 with trypsin for the jacopever hydrolyzate. Plastein reaction could be performed in water at concentration up to 20%(w/f).

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Improvement of Functional Properties of Extracts from Hydrothermal Cooked Fish Meat by Plastein Reaction (Plastein 반응에 의한 고온조리 어육추출물의 기능성 개선)

  • 이근태;박성민;이상호;류홍수
    • Journal of the Korean Society of Food Science and Nutrition
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    • v.27 no.1
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    • pp.93-101
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    • 1998
  • In order to improve the functional properties of several fish meat extracts as an alternate protein source, theri basic plastein reactions were evaluated. The UV absorption at 270 and 290 nm indicated that plasteins had higher amount of hydrophobic peptide or amino acid than the fish meat extracts. The water solubilities of the extracts were reduced at acidic pH. Values for the emulsifying capacity of the extracts and plasteins were over 30% although the latter showed the higher ones than the former. The osmolalities of the extracts at 1.0% concentration were 39(loach), 33(bastard halibut), 30(jacopever) and 24(crucan carp) milliosmole. Generally the slightly higher osmolalities were noted in the plasteins to be compared with the extracts. Both the extracts and plasteins exhibited a higher antioxidative effect than tocopherol. The hydrophobic amino acid which had been introduced at plastein reaction attributed the stronger antionxidative effect of its product than the extracts.

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Plastein formation from sunflower seed protein (해바라기씨 단백질에서 plastein의 합성)

  • Rho, Jae-Mun;Kim, Ze-Uook
    • Applied Biological Chemistry
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    • v.34 no.1
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    • pp.1-7
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    • 1991
  • Optimum conditions for hydrolysis of sunflower seed by pepsin and for plastein formation by pepsin were determined. The optimum conditions for hydrolysis of sunflower seed were pH 1.5, $45^{\circ}C$, enzyme concentration 2%, substrate concentration 2%, and hydrolysis time 24hr. The optimum conditions for sunflower seed-plastein formation were 50% substrate, pH 4.5, $50^{\circ}C$, 0.25% pepsin and 18hrs reaction time. To verify plastein fromation from concentrated prptic hydrolysate of sunflower seed, thin layer chromatography was performed. The TLC pattern of concentrated peptic hydrolysate of sunflower seed was different from that of its plastein. The TLC pattern of concentrated peptic bydrolysate of sunflower seed and at of its plastein indicated that plastein was different material from the hydrolysate.

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Synthesis and Functional Properties of Plastein from the Enzymatic Hydrolysates of Filefish Protein 2. General Properties and IR Spectrum of Plasteins (말쥐치육 단백질의 효소적 가수분해물을 이용한 Plastein의 합성 및 그 물성 2. Plastein의 일반적 성상과 IR Spectrum)

  • KIM Se-Kwon;LEE Eung-Ho
    • Korean Journal of Fisheries and Aquatic Sciences
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    • v.20 no.5
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    • pp.431-440
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    • 1987
  • In order to develop a new type of food source for the effective utilization of fish protein, plastein reaction was applied to improve the functional properties of filefish protein. Plasteins were synthesized from a peptic filefish protein hydrolysate by papain, pepsin, $\alpha-chymotrypsin$ and protease(from Streptomyces griceus) under the optimum conditions of previous paper). Also, L-glutamic acid diethylester and L-leucine ethylester were incorporated into plastein during the plastein reaction by papain. And, General composition, yield, molecular weight, amino acid composition, color and IR spectrum of plasteins were measured. The protein, ash and lipid content of the plasteins were $72\~78\%,\;7.4\~11.8\%\;and\;0.3\~0.9\%$ respectively. The yield of plasteins were papain $55.0\%,\;pepsin\;47.6\%,\;\alpha-chymotrypsin\;38.3\%,\;protease\;23.6\%$, glutamic acid-incorporated plastein (Glu-Plastein) $35.0\%$, and leucine-incorporated plastein (Leu-plastein) $45.7\%$. The glutamic acid and leucine content in Glu-plastein and Leu-plastein were $38.7\%,\;41,7\%$, respectively, while the contents in the peptic filefish protein hydrolysate were $16.01\%\;and\;8.16\%$, respectively. The amino acid compositions were similar to that of the original filefish muscle protein. The major molecular weights of the peptic hydrolysate estimated by gel filteration were 2,000 and 310, and those of plasteihs were 21,000 and 4,900 for papain, 24,000 for pepsin, 18,500 for $\alpha-chymotrypsin$ 6,700 for protease, 24,000 for Glu-plastein and 17,000 for Leu-plastein. The structural changes in freeze-dried filefish meat, the FPC and hydrolysate were not observed on the IR spectrum. But plasteins showed amide I band in $1,600\~l,700cm^{-1}$ range and resulted in a strong band in $800\~850\;cm^{-1},\;700\~750\;cm^{-1}\;and\;650\~700\;cm^{-1}$. The amide I band of Glu-plastein was wider than those of other plasteins and had also a small band at $1,440\;cm^{-1}$.

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Synthesis and Functional Properties of Plastein from the Enzymatic Hydrolysates of Filefish Protein. 3. Functional Properties of Plasteins (말쥐치육 단백질의 효소적 가수분해물을 이용한 Plastein의 합성 및 그 물성 , 3. Plastein의 기능성)

  • KIM Se-Kwon;LEE Eung-Ho
    • Korean Journal of Fisheries and Aquatic Sciences
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    • v.20 no.6
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    • pp.582-590
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    • 1987
  • Plasteins were synthesized from a peptic filefish protein hydrolysate by papain, $\alpha-chymotrypsin$ and protease(from Streptomyces griceus) under the optimum conditions of previous paper. L-glutamic acid diethylester and L-leucine ethylester were incorporated into plastein during the plastein reaction by papain. The structural changes of freeze-dried filefish meat, peptic hydrolysate, FPC and plasteins were observed by Scanning Electron Microscopy(SEM). The functional properties of plasteins also were measured. The solubility of plasteins was higher than that of FPC and the Glu-plastein had $95\%$ solubility in the range of pH 3-10. The dispersibility of Glu-plastein and protease plastein was similar to that of egg albumin, but those of the other plasteins were lower. The water holding capacity of plasteins was lower than that of egg albumin and C. Lipid absorption of Leu-plastein was tile highest, holding 1.80 ml/g, and that of the other plasteins was similar to that of egg albumin. The emulsifying activity of Leu-plastein was the highest, holding $61.2\%$, and that of Glu-plastein was the lowest, holding $50.7\%$. The emulsifying stability of plasteins was similar to that of the emulsifying activity. The emulsifying capacity of Leu-plastein was 384 ml/g(the highest), but that of Glu-plastein and $\alpha-chymotrypsin$ plastein was 248 ml/g(the lowest). The Leu-plastein shelved the highest foaming capacity, $373\%$. The foaming capacity of other plasteins was higher than that of egg albumin. The foaming stability of plasteins was superior to that of egg albumin. The viscosity of plasteins was lower than that of egg albumin. The microstructure of $\alpha-chymotrypsin$ plastein by SEM wassimilar to that of papain plastein, but other plasteins showed differences in their microstructure. The microstructure of Glu-plastein had a smooth shape.

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Production of protein hydrolysate and plastein from alaska-pollack (명태단백 가수분해물 제조 및 plastein의 합성)

  • Suh, Hyung-Joo;Lee, Ho;Cho, Hong-Yon;Yang, Han-Chul
    • Applied Biological Chemistry
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    • v.35 no.5
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    • pp.339-345
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    • 1992
  • In order to enhance the processing quality and utility of alaska-pollack meat, the optimum conditions for the preparation of pronase hydrolysate and the synthesis of plastein were investigated. The optimum temperature and pH for the hydrolysis of alaska-pollack by pronase were $40^{\circ}C$ and pH 7.0. The reaction time and enzyme concentration were 4 hr and 1,000 units per g of substrate. Under the above optimum conditions alaska-pollack was hydrolyzed by pronase yielding a hydrolytic degree of about 89%. Pronase hydrolysate was employed as substrate for plastein synthesis. The 30% pronase hydrolysates were adjusted to pH 7 for fruit-bromelain and pH 5 for stem-bromelain, and then plastein were synthesized by 1% bromelain at $40^{\circ}C$ for 24 hr. The plasteins synthesized by fruit- and stem-bromelain were consisted of peptides having average peptide length of 22.6 and 20.8 under the optimum synthetic conditions. The plastein synthesis reaction reduced considerably the bitterness of pronase hydrolysate.

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Studies on the Improvements of Functional Properties of Sardine Protein by Plastein Reaction (Plastein반응을 이용한 정어리 단백질의 기능성 개선에 관한 연구 3. Plastein의 기능성 및 소화율)

  • Kim, Se-Kwon;Kwak, Dong-Chae;Cho, Duck-Jae;Lee, Eung-Ho
    • Journal of the Korean Society of Food Science and Nutrition
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    • v.17 no.4
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    • pp.312-319
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    • 1988
  • The functional properties of plasteins have been compared with those of sardine protein concentrate and egg albumin. The solubility of plasteins was higher than that of FPG and the glu-plastein had 84% solubility in the range of pH 3-10. The dispersibility of plasteins was lower than that of egg albumin, however those of plasteins was higher than that of sardine protein concentrate. The water holding capacity of plasteins was higher than that of egg albumin. Lipid absorption of leu-papain plastein was the highest, holding 2.2m119, and that of the other plastein was higher than that of egg albumin. The emulsifying activity of leu-papain plastein was the highest, holding 66.4%, and that of glu-papain plastein was the lowest, holding 51.2%, The emulsifying stability of plasteins was similar to that of the emulsifying activity. The foaming capacitt of leu-papain plastein was the highest, holding 460%, and those of the other plasteins was higher than that of egg albumin. The foaming stability of plasteins was superior to that of egg albumin. The viscosity of plasteins was lower than that of see albumin. The in vitro digestibility of plasteins was 67.6-78.0% range. The digestibility by four pretense were somewhat lower in the glu-papain plastein than in the FPG. The digest of plasteins treated with the microbiol pretense such as molsin and pretense(from Streptomyces griceus), which had a storage broth taste.

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