• Korean Journal of Food Science and Technology
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• v.36 no.6
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• pp.952-958
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• 2004

Effects of normal (non-waxy) and waxy millet flours on properties of sponge cake were examined. Total dietary fiber contents of normal and waxy millets were 5.04 and 5.12%, respectively, while that of soft wheat flour was 2.23%. Alkaline water retention capacity value generally increased with addition of normal and waxy millet flours, whereas peak, minimum, and final viscosities decreased. Mixing time and mixing height decreased with addition of millet flour. Lightness of cake crust increased with addition of normal millet flour, whereas it decreased with addition of waxy millet flour, tightness of cake crumb decreased as the amount of normal and waxy millet flours increased. Increasing proportions of normal and waxy millet flours resulted in significantly decreased loaf volume. Replacement of 10% wheat flour by both normal and waxy millet flours did not significantly affect characteristics of sponge cake, but addition of more than 20% millet flour resulted in significant differences in quality characteristics.

• Journal of the Korean Society of Food Science and Nutrition
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• v.34 no.3
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• pp.395-402
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• 2005

White layer cakes with 10-50% content of domestic millet and waxy millet were carried out to determine how the content of millet and waxy millet affected Quality and properties of a product. The 10% content of waxy millet resulted in the greatest volume, which decreased with the increase in the content of millet and waxy millet; up to 40% content of millet and waxy millet made no significant difference in weight from the control one. The specific loaf volume decreased with the increase in the content of millet and waxy millet. In terms of crum color, as the content of millet and waxy millet increased, the value of L tended to decrease, making it darker, and there was a significant increase in the value of a and b. As for crust color, the value of L, a, and b tended to increase with the increase in the content of millet and waxy millet, making it darker, but with no significant difference from the control one. In terms of texture, 10% content of millet and 10-20% content of waxy millet made no significant difference in hardness from the control one; as for retrogradation, waxy millet tended to make greater increase in hardness than millet. 5℃ storage resulted more rapidly in retrogradation than 25℃. The sensory evaluation showed that with the increase in the content, waxy millet, millet, and the control in order served to make it darker and harder in terms of external properties, with small pores, uneven texture, and reduced flavor in terms of internal properties. There was no significant difference between the cake with 10-20% content of millet and waxy millet and the control one in making a white layer cake by adding millet and waxy millet.

• Korean Journal of Food Science and Technology
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• v.19 no.3
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• pp.245-249
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• 1987

Physicochemical properties of domestic millet starches were determined. Amylose contents of nonwaxy and waxy millet starches were 28.0 and 8.0%, respectively. The water binding capacity of nonwaxy millet starch was slightly higher than that of waxy millet starch. There was no recognizable difference on granule size between nonwaxy and waxy millet starch. Abrupt increases in swelling power over $80^{\circ}C$ of gelatinization temperature were characteristic features of millet starches. The initiation of increase in light penetration was started slightly earlier in case of waxy millet starch. Maximum viscosities of $6{\sim}7%$ nonwaxy and waxy millet starch were 300-460 and 800-1080 B.U., respectively. The conspicuous break-down was noticed in waxy millet starch.

• Korean Journal of Food Science and Technology
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• v.20 no.6
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• pp.794-800
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• 1988

The retrogradation properties of waxy starches isolated from waxy rice(Shin sun, Tong il), waxy barley(Suwon # 227), waxy indian millet. waxy millet and Jobs tears(Yullmoo) were investigated. The extent of retrogradation determined by the glucoamyase method during freeze-thaw treatment and storage in low temperature$(0{\sim}5^{\circ}C)$ showed that six kinds of waxy starches were very slowly retrograded. The order of the retrogradation tendencies of these starches were waxy indian millet > Suwon # 227 Waxy millet > Yullmoo > Tong il > Shin sun. Waxy indian millet and Suwon # 227 starches were distinctively retrograded compared with other starches. Retrogradation properties observed during freeze-thaw 30 cycles were similar to those of storage for 30 days at $0{\sim}5^{\circ}C$. Suwon # 227, which has been the only recommened variety in our nation, was composed of 15% of non-waxy starch and 85% of waxy starch granule.

• Korean journal of food and cookery science
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• v.25 no.2
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• pp.127-133
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• 2009

The aim of this study was to determine the optimum amount of waxy millet flour (WMF) to add to rice flour in the preparation of Sulgidduk (waxy millet rice cakes). According to the results, increasing the level of WMF in the formulation caused the moisture contents of samples to increase ($37.14{\sim}38.81%$). The L-value decreased with increasing additions of WMF whereas the b-value increased and the a-value did not differ by the addition of the flour. According to the mechanical evaluation results, hardness increased with increasing amounts of added WMF. Adhesiveness, cohesiveness, gumminess, and brittleness did not differ significantly and springiness was highest at the 30% level of WMF. From the sensory evaluation results, the 30% WMF samples received the highest overall-acceptability scores. In conclusion, according to its sensory and mechanical qualities, the optimal Sulgidduk formulation consisted of 30% WMF added to rice flour.

• The Korean Journal of Food And Nutrition
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• v.29 no.4
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• pp.465-473
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• 2016

This study was conducted in order to investigate the antioxidant capabilities and quality characteristics of instant porridge made of foxtail millet (Setaria italica Beauv.) from different varieties with different endosperm characteristics and processing using different methods. The two foxtail millet varieties used in this study were waxy foxtail millet, 'Samdachal', and non-waxy foxtail millet, 'Samdame'. The means of processing food to create instant porridge were dry cereal frying, wet cereal frying, freeze drying after steaming, popping, and no treatment. The WAI (water absorption index) of instant porridge made of waxy foxtail millet was higher than that of non-waxy foxtail millet, and popping created the highest WAI among the treatments tested. Whean we analyzed RVA characteristics of non-waxy foxtail millet instant porridge, peak viscosity and setback values were decreased in all processed foxtail millet instant porridge compared to non-waxy foxtail millet instant porridge. In waxy foxtail instant porridge, the peak and final viscosities of processed treated instant porridge increased. The viscosity just after pouring hot water into the instant porridge was higher in waxy foxtail millet porridge treated by freeze drying after steaming, popping, and wet cereal frying; the viscosity of non-waxy foxtail porridge was increased after popping as compared with the other treatments. The polyphenol contents and antioxidant activities were increased in all processed, treated-instant porridge except for freeze dried porridge after steamingnt. The popping treatment showed the highest polyphenol contents (1.5 fold), and ABTS antioxidant activity (1.2 fold), compared to no treatment. Non-waxy foxtail millet porridge produced by popping earned the highest sensory evaluation scores.

• Korean Journal of Food Science and Technology
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• v.21 no.6
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• pp.742-748
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• 1989

Rheological properties of gelatinized millet starch dispersions were evaluated. Gelatinized nonwaxy and waxy millet starch dispersion were typical pseudoplastic fluids. At constant shear rate, gelatinized waxy millet starch dispersion showed higher shear stress than nonwaxy millet starch dispersion. Flow behaviours of gelatinized nonwaxy and waxy millet starch dispersion were well fitted to Herschel-Bulkley equation and flow behaviour index (n) and consistency index (K) were strongly concentration dependent. There was a linear relationship between concentration of gelatinized starch dispersion and square root of yield stress. The concentrations of gelatinized nonwaxy and waxy millet starch dispersion where yield stresses become zero were estimated as 2.19 and 1.69%, respectively. Pseudoplastic constant (m) approaches to a constant value in each type of millet starch when the concentration of gelatinized starch dispersion was increased. As the measuring temperatures increase, n value was increased, whereas, K value was decreased. The activation energies of gelatinized nonwaxy and waxy millet starch dispersion were 2.89 and 3.18kcal/mol, respectively.

• Applied Biological Chemistry
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• v.28 no.3
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• pp.137-141
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• 1985

Some properties of six kinds of waxy starches isolated from Olchal and Hankang(both of waxy rice), Chalborie (waxy barley), Yullmoo (waxy Job' tears), Chajoe (waxy foxtail millet), Chalsusu (waxy great millet) and Chalocsusu(waxy corn) were investigated. The average diameters of their starch granules were $4.2{\sim}19.0$ microns. X-ray diffraction study showed that these starches had A pattern. Blue values of iodine complexes of these waxy starches were $0.02{\sim}0.08$. The number of glucose units per segment of amylopectin molecule were $21{\sim}23$. Their raising powers were $180{\sim}280$.

• Korean Journal of Food Science and Technology
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• v.42 no.1
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• pp.115-118
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• 2010

The physicochemical properties such as blue value, iodine affinity, degree of polymerization (DP), $\alpha$-amylase digestibility, particle size, RVA pasting, and gel hardness of 4 different millet starches (foxtail, waxy foxtail, proso, and waxy proso) were investigated. The iodine affinity value of the four samples were 4.22, 0.49, 1.07, and 0.21%, and the DP values were 1830, 3880, 4660, and 4130, respectively. The levels of $\alpha$-amylase digestibility of the raw starches were 20.1, 30.7, 18.2 and 35.6%, respectively. The mean size of the proso millet starch was the smallest, $8.25\;{\mu}m$, and the size distribution of the particles was the narrowest among all the samples. Foxtail starch showed the largest peak viscosity and setback viscosity in RVA pasting.

• 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.