• Journal of the Korean Society of Food Science and Nutrition
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• v.28 no.5
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• pp.1034-1043
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• 1999

Rheological properties of dough made from waxy barley(Iri28) flour wheat flour mixtures with additives were investigated for the preparation of waxy barley bread using farinograph, extensograph and amy lograph. The water absorption, development time and dough weakness increased as the waxy barley flour level increased in all blends; however, dough stability decreased. Farinogram properties of 10% waxy barley flour added mixture were similar to those of 100% wheat flour. The addition of A.A(ascorbic acid), gluten, HPMC(hydroxy propyl methyl cellulose) improved rheological properties of dough with 30% waxy barley flour added mixture. In particular, stability and weakness of the dough showed greater dough improving effect by addition of A.A. For the extensograph data, strength, resistance and extensibility of dough decreased with increasing level of waxy barley flour. With the addition of additives, extensogram properties were variable for 30% waxy barley flour mixture. Of these additives, gluten had highest value in strength of dough. Addition of A.A and HPMC to 30% waxy barley flour added mixture resulted in an increase in the resistance and a decrease in the extensibility. Waxy barley flour added mixtures showed little higher gelatinization temperature on amylograph data than control. Maximum viscosity reduced as the waxy barley flour level increased. Also 30% waxy barley flour added mixture containing A.A and HPMC showed a decrease in maximum viscosity. But addition of gluten to 30% waxy barley flour mixture resulted an increase in the maximum viscosity. All of 30% waxy barley flour added mixture with additives had lower gelatinization temperature than those without additives. In the SEM images, starch granules were dispersed in a protein matrix. A non continuous, loose protein starch matrix was observed in all waxy barley flour mixture by SEM. Addition of additives gave the dough a more continuous structure with interactions between the starch granule and protein component.

• Journal of the Korean Society of Food Science and Nutrition
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• v.27 no.5
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• pp.890-896
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• 1998

In order to increase the use of waxy barley, cakes were made and the textural and sensory properties were investigated. The moisture content of cakes made out of waxy barley grain and flour were 51.0 and 52.1%, respectively. L values in color of the waxy barley cakes tended to decrease during 3 day storage at 15$^{\circ}C$. Textural analysis showed that there were no differences among two waxy barley and waxy rice cakes in hardness at fresh state. But after 3 day storage at 15$^{\circ}C$, the hardness of the waxy barley cake was lower than that of waxy rice cake. These results implied that the degree of retrogradation of waxy barley cake might be low due to its high dietary fiber content. The hardness and adhesiveness of the waxy barley cake thawed after 15 day freezing were not significantly different from those of the fresh cake. In sensory evaluation, the overall preference of waxy barley cake was lower than that of waxy rice, but the sensory score of the cake made of waxy baley flour was above 4 point in the 5 point scale, showing a patency of waxy barley for the cakes.

• Journal of the Korean Society of Food Culture
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• v.37 no.4
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• pp.345-353
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• 2022

This study compared the physicochemical and gelatinization properties of naked barley, tetrastichum barley, and waxy barley. Compared to tetrastichum barley and waxy barley, naked barley had shorter and rounder grains with a 1.43 length/width ratio. Tetrastichum barley had lower crude protein, crude lipid, and crude ash content and higher amylose content compared to naked barley and waxy barley. The L, a, b color values of waxy barley were significantly higher than those of naked barley and tetrastichum barley. The water absorption index (WAI) and the water soluble index (WSI) were highest in waxy barley. The X-ray diffraction pattern was type A in all samples, and the peak intensity was highest in waxy barley. The maximum viscosity, cooling viscosity, breakdown, and setback of amylogram properties were the highest in tetrastichum barley. The thermal properties through the differential scanning calorimeter showed that the waxy barley had higher values of the onset, peak, conclusion temperature and enthalpy (?H). In conclusion, the variety of barley influenced the physicochemical and gelatinization properties, which could be important factors in the manufacture of processed foods. These results would thus useful inputs for the manufacturing of these foods using barley.

• Culinary science and hospitality research
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• v.19 no.4
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• pp.119-135
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• 2013

This study investigates waxy barley powder substituted for wheat flour in bread recipes with the amounts of 0%(control), 5%, 10%, 15% and 20%. Waxy barley powder consisted of 8.33% of moisture content, 10.47% of crude protein, 1.63% of crude fat, and 2.97% of crude ash. Sedimentation value and pelshenke value have decreased as the waxy barley powder content increased. The farinograph measurement result of the bread made with waxy barley powder showed that consistency, water absorption, development time, stability and time breakdown have increased as the waxy barley powder content increased. The amylograph measurement result of the bread made with waxy barley powder showed that T have increased as the waxy barley powder content increased. Their P, H and P-H have decreased as the ingredient contents increased. Baking loss and specific loaf volume have decreased as the waxy barley powder content increased. The chromaticity measurement result of the bread made with waxy barley powder showed no significant difference as the waxy barley powder content increased. The texture measurement result showed that the hardness and gumminess of bread have increased as the waxy barley powder content increased. Their cohesiveness, springiness and chewiness have decreased as the ingredient contents increased. Overall preference scores showed a high acceptability for the bread made with 10% waxy barley powder.

• Applied Biological Chemistry
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• v.34 no.2
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• pp.94-101
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• 1991

Physicochemical properties of waxy and non-waxy naked barley starches were investigated. The starch granules observed by photomicroscope, polarized-light microscope and scanning electron microscope were round. The starch showed a typical A type by X-ray diffraction pattern. Water binding capacity, swelling power and solubility of waxy naked barley starch were higher than non-waxy naked barley starch at the same temperature. Transmittance of 0.1% starch suspension was increased rapidly from $60^{\circ}C$ in case of waxy naked barley starch and from $65^{\circ}C$ in case of non-waxy naked barley starch. Amylogram revealed that the non-waxy naked barley starches had higher initial pasting temperature than waxy naked barley starch. Enthalpy for gelatinization of non-waxy and waxy naked barley starches were 1.12-1.58 and 0.85 cal/g, respectively.

• KOREAN JOURNAL OF CROP SCIENCE
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• v.31 no.1
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• pp.16-18
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• 1986

This experiment was conducted to know the genetic nature of waxy and fractured starch endosperm genes in 1983. F$_2$ seeds involve simple recessive gene(1：3) for the waxy and fractured starch endosperm genes, respectively. Also, association between waxy and fractured starch endosperm have shown to be segregated as expected to fit in the ratio 9：3：3：1 respectively of normal-nonwaxy： fractured-nonwaxy： normal-waxy： fractured-waxy showing the acceptable value of X$^2$ test of independence.

• Korean Journal of Food Science and Technology
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• v.35 no.5
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• pp.918-923
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• 2003

Replacement of wheat flour by 10, 20 30% waxy and normal (non-waxy) hull-less barley flour was tested for the effects on bread-making properties. The addition of waxy hull-less barley flour resulted in lower amylograph pasting temperature, peak, and set back viscosities and in higher water absorption, compared with normal hull-less barley flour. Increasing proportions of hull-less barley flour significantly decreased the loaf volume and had deleterious effects on subjective bread scoring. Replacement of 10% of wheat flour by both waxy and normal hull-less barley flour did not significantly affect bread characteristics. However, significant differences in bread quality were observed between the control bread and bread containing more than 20% barley flour, with the normal barley flour showing slightly better scores in organoleptical preference. Textural measurements of crumb firmness showed that the bread containing 20% waxy hull-less barley flour hardened slower during 5-day storage at $25^{\circ}C$ than bread containing normal hull-lee barley flour.

• Food Science and Preservation
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• v.16 no.5
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• pp.661-668
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• 2009

A total of 107 pearled barley products produced in Korea, 58 non-waxy and 49 waxy, were analyzed for protein and $\beta$-glucan content, whiteness, cooking characteristics (water absorption and expansibility), and pasting properties, with respect to the region of production. We compared non-waxy and waxy pearled barley products and sought correlations between levels of chemical components and cooking characteristics. Waxy pearled barley products had higher concentrations of protein (7.17-12.57%, w/w) and $\beta$-glucan (2.81-7.38%, w/w), a higher whiteness grade (27.1-49.6), and a greater water absorption (218-593%) and expansibility (366-593%) than did non-waxy barley products. The pasting temperature of non-waxy pearled barley ($73.9^{\circ}C$) was higher than that of waxy pearled barley ($66.9^{\circ}C$). Peak viscosity, hot paste viscosity, and final viscosity of non-waxy pearled barley products were higher than those of waxy products. The results showed that waxy pearled barley products had better cooking characteristics than did non-waxy products. A significant positive correlation was observed between protein and $\beta$-glucan content in both non-waxy and waxy pearled barley products ($r=0.632^{***}$ and $r=0.453^{**}$, respectively). Whiteness showed a negative correlation with protein content of both non-waxy and waxy pearled barley products ($r=-0.433^{***}$, $r=-0.343^{**}$). However, neither water absorption nor expansibility showed any significant correlation with protein or $\beta$-glucan content. The waxy ratio of 49 waxy pearled barley products ranged from 84-100%.

• Korean Journal of Food Science and Technology
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• v.36 no.2
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• pp.276-282
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• 2004

Barley flakes were developed by extrusion cooking using broken kernels, by-products of the barley pearling process. Broken kernels from both non-waxy and waxy barley broken kernels were sufficiently gelatinized at the barrel temperature of over $100^{\circ}C$ and the moisture content of broken kernels of over 35%. Cutting and flaking roll separating properties of pellets prepared from non-waxy barley broken kernels were better than those of waxy barley broken kernels. Characteristics of pellets prepared by extrusion cooking in different mixing ratios of non-waxy and waxy barley broken kernels were investigated. As the mixing ratio of waxy barley broken kernels increased, RVA peak viscosity, apparent viscosity, and yield stress of prepared pellets decreased, while flow behavior index increased. As the mixing ratio of waxy barley broken kernels increased, compressive strength and bulk density of deep-fat fried flakes drastically decreased, and the size of air cells on cross-section increased, and thickness of cell-constituting bodies decreased. Sensory evaluation results showed that acceptability for texture and taste of flakes inclosed as the mixing ratio of waxy barley broken kernels increased, and optimum mixing level of waxy barley broken kernels appeared to be 30-40%.

• Korean Journal of Food Science and Technology
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• v.31 no.3
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• pp.644-650
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• 1999

A normal and a waxy hull-less barley with similar ${\beta}-glucan$ contents were selected, and the effects of ${\beta}-glucans$ on rheological and pasting properties were investigated by using their flour extracts and isolated ${\beta}-glucan$ gum materials. ${\beta}-Glucans$ in the barley cultivars were extracted in a crude form with alkaline extraction, and the waxy hull-less barley produced more ${\beta}-glucan$ gum yield. The waxy barley also showed higher viscosities of water and alkaline flour extracts, compared to the normal barley. Both normal and waxy barley ${\beta}-glucan$ gums exhibited pseudoplastic flow behavior, and increasing ${\beta}-glucan$ concentration increased viscosity in a similar manner. The normal barley flour had a higher amylograph peak viscosity than did waxy barley flour. On the other hand, waxy barley flour with treatment of $HgCl_2$ demonstrated considerably higher increase in peak viscosity. Pasting characteristics of normal and waxy barley starches in the presence of ${\beta}-glucan$ gum solutions were tested using a rapid visco-analyzer (RVA). ${\beta}-Glucan$ gums increased the pasting viscosities of the barley starches, and the synergistic increase in viscosity appeared to be higher in the normal barley starch.