• Title/Summary/Keyword: lactose hydrolysis

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Hydrolysis of Lactose in Whey by the BetavD-Galactosidase (Beta-D-Galactosidase에 의한 유청에 함유된 유당의 가수분해)

  • 최미진;허태련
    • Microbiology and Biotechnology Letters
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    • v.20 no.1
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    • pp.46-52
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    • 1992
  • The optimum condition for the developement of a whey beverage from the concentrated whey was studied. Reverse osmosis system was used to obtain concentrated lactose from cheese whey. The hydrolysis degree of lactose by $\beta$-D-galactosidase was determined using HPLC (high performance liquid chromatography). The order of hydrolysis degree was 1:1, 2:l and 3:l concentrated lactose. It resulted from the concentrated salt which slightly inhibited $\beta$-D-galactosidase with constant enzyme dosage. The optimum condition for enzyme dosage was 2% in non-concentrated lactose, 3% in 2:l and 3% in 3:l concentrated lactose after 4 hours of reaction. When the 3:l concentrated lactose was used, more than 70% was hydrolyzed by 3% enzyme dosage. Furthermore the change of fermented whey by lactic acid bacteria was investigated. Based on the result of sensory test, the most favorable response was obtained at pH 4.2 and titratable acidity of 0.7% about 6 hours of fermentation at $37^{\circ}C$ with 2%: thermophilic starter.

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Repeated-Batch Operation of Immobilized ${\beta}$-Galactosidase Inclusion Bodies-Containing Escherichia coli Cell Reactor for Lactose Hydrolysis

  • Yeon, Ji-Hyeon;Jung, Kyung-Hwan
    • Journal of Microbiology and Biotechnology
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    • v.21 no.9
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    • pp.972-978
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    • 2011
  • In this study, we investigated the performance of an immobilized ${\beta}$-galactosidase inclusion bodies-containing Escherichia coli cell reactor, where the cells were immobilized in alginate beads, which were then used in repeated-batch operations for the hydrolysis of o-nitrophenyl-${\beta}$-D-galactoside or lactose over the long-term. In particular, in the Tris buffer system, disintegration of the alginate beads was not observed during the operation, which was observed for the phosphate buffer system. The o-nitrophenyl-${\beta}$-D-galactoside hydrolysis was operated successfully up to about 80 h, and the runs were successfully repeated at least eight times. In addition, hydrolysis of lactose was successfully carried out up to 240 h. Using Western blotting analyses, it was verified that the ${\beta}$-galactosidase inclusion bodies were sustained in the alginate beads during the repeated-batch operations. Consequently, we experimentally verified that ${\beta}$-galactosidase inclusion bodies-containing Escherichia coli cells could be used in a repeated-batch reactor as a biocatalyst for the hydrolysis of o-nitrophenyl-${\beta}$-D-galactoside or lactose. It is probable that this approach can be applied to enzymatic synthesis reactions for other biotechnology applications, particularly reactions that require long-term and stable operation.

Comparing the Quality Characteristics of Lactose-Hydrolyzed Low-Fat Milk (유당분해율에 따른 저지방 유당분해우유의 품질 특성)

  • Jeong, Da Hye;Shin, Yong Kook;Kang, Shin Ho
    • Journal of Dairy Science and Biotechnology
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    • v.35 no.1
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    • pp.39-45
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    • 2017
  • The market for lactose-hydrolyzed milk is growing due to an increased awareness of lactose intolerance, and increased market interest for modified milk with health claims. The aim of this study was to compare the quality characteristics of 2% lactose-hydrolyzed milk with its lactose hydrolysis rate, with the goal of applying the method to dairy product monitoring in the future. We observed that the freezing point of milk significantly decreased with increasing lactose hydrolysis rate. A linear relationship was found between lactose concentration and freezing point, following the equation (y=-50.416x + 767.91). However, no significant changes were observed in other physicochemical properties of the milk (pH, titratable acidity, total solids and color) (p<0.05). In conclusion, we could predict the residual lactose content quickly and easily in 2% low fat milk by measuring its freezing point. This could represent an easy means for assessing the lactose hydrolysis rate of dairy products.

Characteristics of Lactose Hydrolysis by Immobilized β-Galactosidase on Chitosan Bead (Chitosan 담체에 고정화된 β-galactosidase에 의한 유당 분해 특성)

  • Kang, Byung-Chul
    • Journal of Life Science
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    • v.21 no.1
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    • pp.127-133
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    • 2011
  • ${\beta}$-Galactosidase was immobilized on chitosan bead by covalent bonding using glutaraldehyde. The characteristics of the immobilized enzyme were investigated. Maximum immobilization yield of 75% was obtained on chitosan bead. Optimum pH and temperature for the immobilized enzyme was 7.0 and $50^{\circ}C$, respectively. The immobilized enzyme showed a broader range of pH and temperature compared to a free one. A mathematical model for the operation of the immobilized enzyme in a packed-bed reactor was established and solved numerically. Under different inlet lactose concentrations and feed flow rate conditions, lactose conversion was measured in a packed-bed reactor. The experimental results of continuous operation in a packed-bed reactor were compared to theoretic results using Michaelis-Menten kinetics with competitive product inhibition and external mass transfer resistance. The model predicted the experimental data with errors less than 5%. Process optimization of continuous operation in a packed-bed reactor was also conducted. In a recirculation packed-bed operation, conversion of lactose was 97% in 3 hours. In a continuous packed-bed operation, the effect of flow rate and initial lactose concentration was investigated. Increasing flow rates and initial lactose concentration decreased the conversion of substrate.

Fermentation Characteristics of Starter Cultures in Lactose-Hydrolyzed Milk for the Elderly (유당분해 우유를 이용한 고령자용 요구르트 배양)

  • Oh, Sejong;Kim, Bum Keun;Chun, Yong-Gi;Park, Dong June
    • Journal of Dairy Science and Biotechnology
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    • v.39 no.1
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    • pp.20-26
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    • 2021
  • Lactase (β-galactosidase) is abundant in the small intestine during early childhood and gradually decreases with age. Lactic acid bacteria (LAB) present in yogurt could survive in the stomach, and lactase produced by these LAB can aid in lactose breakdown in the small intestine, thereby reducing lactose intolerance. This study aims to provide preliminary data for development of lactose-free yogurts for the elderly, and investigate the effect of lactose-hydrolyzed milk on the growth of starter cultures. The pH during yogurt fermentation using lactose-free milk was slightly higher at 2 and 4 h of incubation, but reached 4.5 at the end of incubation, similar to that of the yogurt prepared from regular milk. The number of viable cells of Streptococcus thermophilus reached 108 CFU/mL after 2 h of incubation and increased to 109 CFU/mL after 4 h of incubation. During yogurt fermentation, the viable cells of Lactobacillus species and Bifidobacterium longum did not affect lactose hydrolysis. Although lactose-hydrolyzed milk did not promote the growth of starter cultures, manufacturing yogurt with lactose-free milk could be beneficial for the intestinal health of lactose-sensitive elderly.

Rahnella aquatilis를 이용한 Lactan gum 생산에서 탄수화물 대사

  • Na, Kun;Lee, Seong-Ho;Lee, Ki-Young
    • Microbiology and Biotechnology Letters
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    • v.24 no.4
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    • pp.493-499
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    • 1996
  • Lactan gum produced by Rahnella aquatilis is a high viscous, anionic polysaccharide and has shear thinning behaviour. Lactan gum yield and cencentration was greater on disaccharide such as lactose and sucrose than on monosaccharides such as glucose and galactose. When initial carbon source concentration was 45g/l of sucrose of lactose, the microorgnisms produced 28 g/l and 27 g/l of lactan, respectively with a yield more than 60%. $\beta$-Galactosidase, hydrolyzing lactose into galactose and glucose, was induced by lactose or galactose. When initial corbon source was 45 g/l of mixed carbon I (glucose:galactose=1:1), lactan gum concentaration was higher than that from 45 g/l of monosaccharide (glucose pf galactose) but was similar to the result from 45 g/l of lactose. Therefore, lactose hydrolysis reaction by $\beta$-galactosidase does not seem to be a rate determining step in lactan gum biosynthesis. When initial carbon source was 45 g/l of mixed carbon II (glucose:fructose=1:1). total carbon source consumption rate was slower than that from sucrose, but glucose consumption rate was faster than that from fructose.

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Studies on the ${\beta}-Galactosidase$ Activity of Whole Cell Aspergillus Phoenicis (Aspergillus Phoenicis Whole Cell의 ${\beta}-Galactosidase$ 활성(活性)에 관한 연구(硏究))

  • Kim, Mal-Nam
    • The Korean Journal of Mycology
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    • v.11 no.3
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    • pp.109-114
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    • 1983
  • ${\beta}-Galactosidase$ activity of Aspergillus phoenicis was studied using ONPG and lactose as substrate. It increased monotonically during the exponential growth phase and dropped rapidly at the beginning of the stationary one. It exhibited high tolerable temperature and acidic optimal pH which provides certain advantages from the industrial view point. Enzyme of ${\beta}-galactosidase$ had more subsrate affinity for ONPG than for lactose and its apparent maximum activity was also higher with the former as substrate. Activity of this enzyme depended upon the conditions of immobilization. Optimum crosslinking reaction was occurred at pH 7.2 and 0. 35 vol. % of glutaraldehyde concentration.

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Effects of Lactose and Yeast on the Changes of Oligosaccharides during the Fermentation of Soy Yogurts (Lactose와 효모의 첨가가 대두요구르트 발효 중 올리고당의 변화에 미치는 영향)

  • Park, Mi-Jung;Lee, Sook-Young
    • Korean Journal of Food Science and Technology
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    • v.29 no.3
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    • pp.539-545
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    • 1997
  • Lactobacillus bulgaricus and Kluyveromyces lactis were inoculated to Jangyeob and Jinpum soy milks together after the addition of different amounts of lactose to increase the contents of oligosaccharides, which were compared with single cultured samples. The contents of stachyose, raffinose, sucrose, and glucose of samples without lactose decreased by single culture method, but the oligosaccharides decreased less than in single cultured samples containing of lactose. The oligosaccharides of single cultured samples were equal or decreased compared with soy milks. While those of mixed cultured Jangyeob and Jinpum samples containing 2% lactose for 24 hr incubation increased 125.0% and 118.1%, respectively and those of samples for 36 hr incubation increased 127.0% and 141.0%, respectively, those of mixed cultured samples containing 4% lactose for 24 hr incubation increased 112.5% and 123.0%, respectively and those of samples for 36 hr incubation increased 120% and 135.9%, respectively. Therefore, the oligosaccharides in samples containing 2% lactose were slightly more than in samples containing 4% lactose. Among the cultured methods, oligosaccharides were produced in the largest amounts by the mixed culture for 36 hr. The addition of lactose in soy milks for soy yogurts was effective in the formation of oligosaccharides since the galactose, produced by the hydrolysis of lactose, was thought to be combined with sucrose by the action of ${\beta}-galactosidase$ in yeast.

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Studies on Microbial Extracellular $\beta$-Gala-ctosidase

  • Lee, Keun-Eok
    • Proceedings of the Korean Society for Applied Microbiology Conference
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    • 1979.04a
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    • pp.113.2-114
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    • 1979
  • $\beta-Galactosidase$ is an enzyme which catalizes hydrolysis of lactose, a natural substrate, to glucose and galctose and transferring some monosac-charide units to active acceptors as sugar or alcohol. The occurence of $\beta-Galactosidase$ is known in various microorganisms, animals and higher plants and has been studied by many investigatigators. Especially, a great deal of articles for the enzyme of E. coli have been presented in genetic control mechanism and induction-repression effects of proteins, On the other hand, in the dairly products industry, it is important to hydrolyes lactosd which is the principal sugar of milk and milk products. During the last few years, the interest in enzymatic hydrolysis of milk lactose has teen increased, because of the lactose intolerence in large groups of the population. Microbial $\beta-Galactosidases$ are considered potentially most suitable for processing milk to hydrolyse lactose and, in recent years, the immobilized enzyme from yeast has been examined. Howev, most of the microbial $\beta-Gal$ actosidase are intracellular enzymes, except a few fungal $\beta-Gala-$ ctosidases, and extracellular $\beta-Galactosidase$ which may be favorable to industrial applieation is not so well investigated. On this studies, a mold producing a potent extracellular $\beta-Galactosidase$ was isolated from soil and identified as an imperfect fungus, Beauveria bassians. In this strain, both extracellular and intracellular $\beta-Galactosidases$ were produced simultaneously and a great increase of the extracellular production was acheved by improving the cultural conditions. The extracellular enzyme was purified more than 1, 000 times by procedures including Phosphocellulose and Sephadex G-200 chromatographies. Several characteristics of the enzymewas clarified with this preparation. The enzyme has a main subunit of molecular weight of 80, 000 which makes an active aggregate. And at neutral pH range, it has optimum pH for activity and stability. The Km value was determined to be 0.45$\times$10$^{-3}$ M for $o-Nitrophenyl-\beta-Galactoside.$ In any event, it is interesting to sttudy the $\beta-Galactosidase$ of B. bassiana for the mechanism of secretion and conformational structure of enzyme.

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Enzymatic Production of Galactooligosaccharide by Bullera singularis $\beta$-Galactosidase

  • SHIN, HYUN-JAE;JI-WON YANG
    • Journal of Microbiology and Biotechnology
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    • v.8 no.5
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    • pp.484-489
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    • 1998
  • Galactooligosaccharides (GalOS) were efficiently produced by partially purified $\beta$-galactosidase from the yeast strain Bullera singularis ATCC 24193. Ammonium sulfate precipitation and ultrafiltration methods were used to prepare the enzyme. The enzyme activity decreased at $50^{\circ}C$ and above. A maximum yield of 40% (w/w) GalOS, corresponding to 120 g of GalOS per liter, was obtained from 300 g per liter of lactose solution at $45^{\circ}C$, pH 3.7 when the lactose conversion was 70%. The yield of GalOS did not increase with increasing initial lactose concentration but the total amounts of GalOS did. Volumetric productivity was 4.8 g of GalOS per liter per hour. During this reaction, the by-products, glucose and galactose, were found to inhibit GalOS formation. Reaction products were found to be comprised of disaccharides and trisaccharides according to TLC and HPLC analyses. We propose the structure of the major product, a trisaccharide, to be ο-$\beta$-D-galactopyranosyl-(l-4)-ο-$\beta$-D-galactopyranosyl-(l-4)-$\beta$-D-glucose (4'-galactosyl lactose).

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