• Korean journal of food and cookery science
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• v.31 no.5
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• pp.574-580
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• 2015

This study investigated the proximate composition, sweetness, color, texture, and sensory properties of baked Gangjung prepared using different coating syrups (maltose syrup, oligosaccharide, rice syrup, and maltitol syrup). The crude protein content was 3.22~3.28% in baked Gangjung prepared with maltose syrup, oligosaccharide, or rice syrup, while that prepared using maltitol syrup had 2.61%. Crude ash was the highest when rice syrup was used (1.08%), and the lowest when maltose syrup or oligosaccharide was used (0.64% and 0.68%, respectively). The sweetness of the baked Gangjung was the highest in the rice syrup group, at $70.07^{\circ}Brix$, and lowest in the maltose syrup group, at $33.5^{\circ}Brix$ (p<0.05). The hardness of the Gangjung prepared with the different coating syrups was the highest for the grain syrup (1.42), followed by the oligosaccharide group at 0.96, maltose syrup (0.40), and maltitol syrup (0.35) (p<0.05). The number of peaks and the indirect measure of crispness also showed the highest values for the rice syrup group (p<0.05), but there was no significant difference among the values in the other groups. Lightness was in the range of 63.26~73.04 depending on the coating syrup, decreasing from the oligosaccharide to the maltitol, rice syrup, and then to the maltose syrup group (p<0.05). The a-value was the highest for the maltose and rice syrup groups at 10.69 and 10.38, respectively (p<0.05), and the b-value showed the same trend. Baked Gangjung showed the highest scores for color, flavor, and overall preference when prepared using maltitol syrup.

• Journal of the East Asian Society of Dietary Life
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• v.18 no.1
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• pp.72-79
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• 2008

This study investigated the changes in textural characteristics that occurred by adding maltose syrup, dextrin, and sucrose to whole egg gels, by assessing coagulation after cooling. It also examined the optimal NaCl and sucrose concentrations for whole egg gels sensory evaluations, and then studied how the addition of sucrose effected gel formation and textural characteristics under optimal NaCl concentration. The additions of maltose syrup, dextrin, and sucrose, presented some color changes. The greater the addition of maltose syrup or dextrin, the lower the L, a, and b values of the whole egg gel and whole egg liquid, and ultimately the color turned dark bluish green. With increasing additions of sucrose, maltose syrup, and dextrin, the viscosity of the whole egg liquid increased slightly. In terms of the mechanical texture characteristic of the gel, the texture was most elastic with the 0.8% addition of sucrose, and hardness decreased by increasing the ratio of added sucrose. Increasing amounts of maltose syrup resulted in less hardness and SF. And for dextrin, the SF increased up to 2.5 and then decreased, and hardness decreased with increasing amounts of dextrin. Based on sensory evaluations, the 0.8% addition of NaCl was significantly preferred(p<0.05), in terms of salty taste. The overall preference scores indicated that the whole egg gel made with 0.3% sucrose and the optimal NaCl concentration(0.8%) was most preferred, and each sample was significant(p<0.05). Under the optimal 0.8% NaCl concentration increasing the sucrose concentration resulted in a darker egg gel color, in terms the L value. SF, NF, and hardness, which are mechanical texture parameters, were when 0.8% sucrose and the optimal NaCl concentration of 0.8% were added to whole egg liquid, in preparing the whole egg gel.

• Korean journal of food and cookery science
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• v.9 no.2
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• pp.78-81
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• 1993

"Yut Kang Jung" is a kind of Korean traditional cookie. The purpose of this study is to examine the effects of various kinds of syrups and cooking methods of Yut Kang Jung. The quality of Yut Kang Jung was evaluated by sensory and Instron machine test. The results is as follows; 1. The Recipe of the best Yut Kang Jung is this: White sesame 120g, sugar syrup 40g, and crude maltose watery 50g are used. Mixing sugar syrup crude maltose watery boiling for 4 min, in temperature $105^{\circ}C$. The sugar density after boiling was 86%. 2. Yut Kang Jung made by sugar syrup and crude watery maltose got the best result in sensory best. 3. Yut Kang Jung made by crude watery maltose got the best result in mechanical test. 4. The comparison between the sensory test & mechanical test were as follow; The hardness in the mechanical test was comparable with hardness & fracturability in the sensory test, and the chewiness in the mechanical test was comparable with flavor, adhesiveness, fractur ability in sensory test.

• The Korean Journal of Food And Nutrition
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• v.20 no.1
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• pp.68-73
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• 2007

In an effort to improve the quality of malt syrup, Chlorella, ginseng steamed red, green tea, and aloe powder were added to malt syrup. Glucose, maltose, and maltotriose concentration was assessed for each sample, as well as the L(lightness), a(redness), and b(yellowness) values and the sensory test. The glucose content in the control, Chlorella, ginseng streamed red, green tea, and aloe powder was 7.39%, 7.35%, 7.25%, 8.87% and 7.43%, respectively. Whereas, the maltose content was 68.10%, 60.46%, 68.32%, 67.88% and 70.46%, respectively. In addition, maltotriose content was 21.12%, 20.51%, 20.30%, 22.14% and 21.72%, respectively. Moreover, the L value in control, Chlorella, ginseng streamed red, green tea, aloe was 72.44, 22.93, 23.34, 23.56, 19.64 respectively. The value was -1.55, -1.77, -0.20, -0.40, -0.44, respectively and lastly, the b value was 22.81, 8.72, 4.00, 6.57, 6.44, respectively. The sensory evaluation test revealed that malt syrup with added ginseng streamed red powder showed the best sensory scores.

• Korean Journal of Food Science and Technology
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• v.23 no.4
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• pp.503-509
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• 1991

Action of a cyclodextrin glycosyltransferase (CGTase) produced from alkalophilic Bacillus sp. No.4 was studied in a solution containing starch and sucrose to prepare glycosyl sucrose syrup with good sweetness and antidecaying properties of teeth. In the initial stage of the reaction the CGTase produced cyclodextrin, however, the cyclodextrin disappeared and glycosyl sucrose was formed with the lapse of reaction time. The best proportion of sucrose to starch for prodution of glycosyl sucrose was about 1 : 1. The optimum pH and temperature of the coupling reaction was pH 6.0 and $60^{\circ}C$, respectively. Main composition of glycosyl sucrose syrup prepared with 20% starch and 20% sucrose was sucrose 18%, glucosyl sucrose ($G_{2}F$) 15.3% and maltosyl sucorse ($G_{3}F$) 11.3%. And glucose, maltose and maltotriose were produced very little. Smaller amounts of acid and insoluble glucan were formed in the syrup by Streptococcus mtans OMZ176 than in the sucrose. Therefore, the prepared glycosyl sucrose sucrose syrup is expected to prevent teeth from decaying.

• Journal of Microbiology and Biotechnology
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• v.32 no.8
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• pp.1054-1063
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• 2022

Trehalose is a non-conventional sugar with potent applications in the food, healthcare and biopharma industries. In this study, trehalose was synthesized from maltose using whole-cell Pseudomonas monteilii TBRC 1196 producing trehalose synthase (TreS) as the biocatalyst. The reaction condition was optimized using 1% Triton X-100 permeabilized cells. According to our central composite design (CCD) experiment, the optimal process was achieved at 35℃ and pH 8.0 for 24 h, resulting in the maximum trehalose yield of 51.60 g/g after 12 h using an initial cell loading of 94 g/l. Scale-up production in a lab-scale bioreactor led to the final trehalose concentration of 51.91 g/l with a yield of 51.60 g/g and productivity of 4.37 g/l/h together with 8.24 g/l glucose as a byproduct. A one-pot process integrating trehalose production and byproduct bioremoval showed 53.35% trehalose yield from 107.4 g/l after 15 h by permeabilized P. moteilii cells. The residual maltose and glucose were subsequently removed by Saccharomyces cerevisiae TBRC 12153, resulting in trehalose recovery of 99.23% with 24.85 g/l ethanol obtained as a co-product. The present work provides an integrated alternative process for trehalose production from maltose syrup in bio-industry.

• Korean Journal of Food Science and Technology
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• v.30 no.4
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• pp.983-987
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• 1998

Effects of sugars, temperature, pH and some chemicals on caramelization were investigated for improving of its reaction rates. Among the sugars tested, fructose showed the fastest reaction rate, followed by sucrose, glucose, starch syrup and maltose. As the reaction temperature increased from 80 to $110^{\circ}C$, the rate greatly increased by the range of $150{\sim}8000$ folds depending on sugars. It was indicated that pH 10 resulted in the highest reaction rate in the range of $pH{\;}4{\sim}10$. When several chemicals, such as phosphates and organic acid salts, were added to starch syrup, the rate increased by more than 10 folds, in particular effects of $K_2HPO_4$ and sodium salts of citrate, oxalate and succinate were significant.

• Journal of Microbiology and Biotechnology
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• v.17 no.5
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• pp.733-738
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• 2007

An extracellular exoinulinase($2,1-\beta-D$ fructan fructanohydrolase, EC 3.2.1.7), which catalyzes the hydrolysis of inulin into fructose and glucose, was purified 23.5-fold by ethanol precipitation, followed by Sephadex G-100 gel permeation from a cell-free extract of Kluyveromyces marxianus YS-1. The partially purified enzyme exhibited considerable activity between pH 5 to 6, with an optimum pH of 5.5, while it remained stable(100%) for 3 h at the optimum temperature of $50^{\circ}C$. $Mn^{2+}\;and\;Ca^{2+}$ produced a 2A-fold and 1.2-fold enhancement in enzyme activity, whereas $Hg^{2+}\;and\;Ag^{2+}$ completely inhibited the inulinase. A preparation of the partially purified enzyme effectively hydrolyzed inulin, sucrose, and raffinose, yet no activity was found with starch, lactose, and maltose. The enzyme preparation was then successfully used to hydrolyze pure inulin and raw inulin from Asparagus racemosus for the preparation of a high-fructose syrup. In a batch system, the exoinulinase hydrolyzed 84.8% of the pure inulin and 86.7% of the raw Asparagus racemosus inulin, where fructose represented 43.6mg/ml and 41.3mg/ml, respectively.

• Journal of Adhesion and Interface
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• v.21 no.4
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• pp.135-142
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• 2020

Recently, people's interest in eco-friendly plastics derived from nature to replace petroleum-based plastics is increasing due to environmental problems such as microplastics. In line with this trend, eco-friendly adhesives using natural materials and processes are also being developed in the adhesive field. Among them, maltose is a natural substance derived from starch and is the main component of starch syrup used as a food additive. Due to its lower molecular weight than starch, it is easily soluble in water, and above all, there is a possibility that it can be copolymerized with other monomers through solution polymerization. However, researches related to the application of maltose to adhesives are very rare. In this study, after modifying maltose using acrylic anhydride, the product was analyzed through FT-IR and H-NMR. And the modified maltose was copolymerized with two kinds of acrylic monomers. The synthesized adhesive was applied on the wood and the adhesive performance were investigated.

• Korean Journal of Food Science and Technology
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• v.26 no.6
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• pp.659-664
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• 1994

Waxy rice, Oryza sativa, and foxtail millet, Setaria italitica, and mixture (1 : 1, w/w) of the cereals were saccharified by barley malt. The optimum conditions of saccharification were at $50^{\circ}C$ for 3 hrs on waxy rice and $55^{\circ}C$for 3 hrs on foxtail millet, respectively. The equilibrium of saccharification were reached at $20^{\circ}Brix$ on waxy rice and mixture, and $17^{\circ}Brix$ in foxtail millet. The free sugars in saccharifying liquids were found maltose, glucose and fructose with the contents of ca. 13%, 1% and trace, respectively, by HPLC analysis. The close relationships (r=0.954) between $^{\circ}{Brix}$ and reducing sugar of saccharifying liquids were observed. The result may be useful for the estimation of the end point of the saccharification.