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1. Influence of deacetylation on the rheological properties of xanthan-guar interactions in dilute aqueous solutions

Author

Khouryieh, H.A., Herald, T.J., Aramouni, F., Bean, S., and Alavi, S.

Subjects
Xanthan gum -- Research, Aqueous solution reactions -- Research, Viscosity -- Research, Business, Food/cooking/nutrition
Abstract

The deacetylation of xanthan increases the viscosity of xanthan and guar mixtures in dilute aqueous solutions. The intermolecular binding was observed between the disordered segments of xanthan and guar gum in aqueous solution.

Published
2007

2. SORGHUM FLOUR CHARACTERIZATION AND EVALUATION IN GLUTEN-FREE FLOUR TORTILLA

Author

Winger, M., Khouryieh, H., Aramouni, F., Herald, T., Winger, M., Khouryieh, H., Aramouni, F., and Herald, T.

Abstract

Four sorghum hybrids (Fontanelle-625 [F-625]), Fontanelle-1000 [F-1,000], ATx631xRTx2907 [NE#20] and 5,040C) were characterized and evaluated for kernel characteristics, proximate analysis, flour characterization (particle size distributions, starch damage, amylose content and starch pasting properties) and end product in gluten-free tortilla. A commercial sorghum flour (TVM) was used as a control. Significant differences were found (P < 0.05) among hybrids for kernel and flour composition except total starch (P > 0.05). NE#20 had the largest particle diameter for both flour and starch. F-1000 had significantly higher starch damage compared with the other hybrids. Flours with smaller particle size and higher starch damage contributed to softer and more extensible tortilla. Amylose content ranged from 20.2 (NE#20) to 27.3 (F-1000). Tortilla made with TVM flour had the highest extensibility, while the F-625 tortilla had the lowest. F-625 tortilla had the lightest color with L* value of 70.38, while the 5,040C tortilla had the darkest with L* value of 61.68. Descriptive sensory results showed significant differences for tortilla grain specks, angle of bend, rancidity, sweetness, springiness, hardness and grittiness. The results have shown that sorghum hybrids can differ in kernel and flour properties, which could help predict sorghum flour quality for the purpose of gluten-free products.

Published
2014

8. Development of a non-commercial sugar-free barbecue sauce.

Author

Aramouni, F., Herald, T., and Ghoush, M. Abu

Subjects
*BARBECUE sauce, *SUGAR-free diet, *XANTHAN gum, *CORN, *PLATE counts (Microbiology), *ACESULFAME-K
Abstract

There has always been a challenge in manufacturing a sugar free sauce. A basic barbecue sauce formulation was used to make 5 sugar-free preparations combining selected levels of xanthan gum, modified waxy maize starch, sucralose, and acesulfame-K. Physical, chemical, microbial and sensory properties were used to evaluate the product quality. Total Aerobic Plate Count was below detectable limits before and after the incubation period for all 6 products. Total Soluble Solids, water activity and pH -before and after incubation- of the control were significantly different from all 5 sugar-free treatments. Descriptive sensory analysis of prepared products showed that SU treatment (2.0% Starch+ 0.3% Sucralose) exhibited the best in all the sensory properties that were determined compared to all other treatments. One sugar free preparation was significantly more viscous than the control. This study will help producers in formulating a new a sugar free healthy barbecue sauce with properties closely comparable to a sugar containing control formula. [ABSTRACT FROM AUTHOR]

Published
2013
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9. Evaluation of egg replacers in a yellow cake system.

Author

Kohrs, D., Herald, T. J., Aramouni, F. M., and Abughoush, M.

Subjects
EGGS, CAKE, DRIED eggs, PROTEINS, GUAR gum, XANTHAN gum, QUANTITATIVE chemical analysis, WHEAT, STARCH
Abstract

The egg alternatives (replacers) were used to replace egg as a functional ingredient in yellow cake system productions. Egg replacers were substituted at the levels of 50% and 100% of the dried whole eggs in the yellow cake system. The egg replacers were composed of whey protein isolate, wheat starch, guar gum, xanthan gum or their blends. At 50% substitution, treatments performed closer to that of control compared to 100 % substitution. The blends of guar/whey/starch (GPS) and xanthan/whey/starch (XPS) performed the best, having the closest volume and texture measurement compared to the control. A quantitative descriptive analysis (QDA) was performed on blends of GPS and XPS at 100% replacement. Six attributes of cakecrust stickiness, crumb color, springiness, moistness, firmness, and egg flavor--were quantified by a panel. These treatments were competitive to the control across all attributes measured. In the consumer acceptability test, the XPS formulation was significantly higher in acceptability for all attributes to that of the control. These alternatives can deliver functionality at a lower cost and can be incorporated to produce a suitable yellow cake system, especially blends of guar/whey/starch (GPS) and xanthan/whey/starch (XPS). These results may help producers in formulating yellow cake system. [ABSTRACT FROM AUTHOR]

Published
2010
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12. Optimization of tannin-containing sorghum bran addition to gluten-free bread.

Author

Ardoin R, Smith B, Bean S, and Aramouni F

Subjects
Humans, Bread analysis, Antioxidants, Tannins, Edible Grain chemistry, Flour analysis, Dietary Fiber analysis, Water, Sorghum
Abstract

Ingredients used to enhance sensory quality of gluten-free (GF) bread often lack in nutrients. This presents nutritional challenges for celiac-positive individuals and fails to meet expectations of healthfulness for non-celiac GF consumers. Sorghum (Sorghum bicolor L. Moench) flour can provide acceptable GF bread properties, and tannin-containing varieties contain antioxidants concentrated in the bran along with dietary fiber. Using a central composite design, tannin-containing sumac sorghum bran, gum (xanthan + guar), and water levels were optimized in a GF sorghum-based bread formulation. Loaf specific volume and gas cells/cm 2 were maximized while minimizing hardness and cell wall thickness. The optimum formulation containing 14.2% sorghum bran, 1% gum, and 145% water (flour basis) effectively increased dietary fiber in bread to 13.4% (considered "high fiber") and showed oxygen radical absorbance capacity of 61.6 µmol TE/g. This optimum formulation did not differ from a sorghum flour-based control bread in consumers' (N = 100) liking of color, texture, flavor, overall acceptability, nor willingness to buy (WTB). All mean hedonic scores (numbered 9-point scale) were above 5, whereas average WTB was 4.7 for the optimum formulation and 4.6 for the control (9-point Likert scale) among consumers varying in GF bread consumption habits. Perceived bread bitterness was low (averaging 2.85 on 9-point intensity scale), did not vary between samples despite marked differences in antioxidant capacity, and was not correlated with WTB. When utilizing effective optimization models with key functional ingredients, sumac sorghum bran addition can enhance dietary fiber and antioxidant potential in sorghum-based GF breads without compromising quality attributes., (Published 2023. This article is a U.S. Government work and is in the public domain in the USA.)

Published
2023
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13. Sorghum Flour Application in Bread: Technological Challenges and Opportunities.

Author

Ari Akin P, Demirkesen I, Bean SR, Aramouni F, and Boyaci IH

Abstract

Sorghum has a long history of use in the production of different types of bread. This review paper discusses different types of bread and factors that affect the physicochemical, technological, rheological, sensorial, and nutritional properties of different types of sorghum bread. The main types of bread are unleavened (roti and tortilla), flatbread with a pre-ferment (injera and kisra), gluten-free and sorghum bread with wheat. The quality of sorghum flour, dough, and bread can be improved by the addition of different ingredients and using novel and traditional methods. Furthermore, extrusion, high-pressure treatment, heat treatment, and ozonation, in combination with techniques such as fermentation, have been reported for increasing sorghum functionality.

Published
2022
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14. Chemical Composition, Fatty Acid and Mineral Content of Food-Grade White, Red and Black Sorghum Varieties Grown in the Mediterranean Environment.

Author

Pontieri P, Troisi J, Calcagnile M, Bean SR, Tilley M, Aramouni F, Boffa A, Pepe G, Campiglia P, Del Giudice F, Chessa AL, Smolensky D, Aletta M, Alifano P, and Del Giudice L

Abstract

Grain sorghum ( Sorghum bicolor ) is a gluten-free cereal grown around the world and is a food staple in semi-arid and subtropical regions. Sorghum is a diverse crop with a range of pericarp colour including white, various shades of red, and black, all of which show health-promoting properties as they are rich sources of antioxidants such as polyphenols, carotenoids, as well as micro- and macro-nutrients. This work examined the grain composition of three sorghum varieties possessing a range of pericarp colours (white, red, and black) grown in the Mediterranean region. To determine the nutritional quality independent of the contributions of phenolics, mineral and fatty acid content and composition were measured. Minor differences in both protein and carbohydrate were observed among varieties, and a higher fibre content was found in both the red and black varieties. A higher amount of total saturated fats was found in the white variety, while the black variety had a lower amount of total unsaturated and polyunsaturated fats than either the white or red varieties. Oleic, linoleic, and palmitic were the primary fatty acids in all three analysed sorghum varieties. Significant differences in mineral content were found among the samples with a greater amount of Mg, K, Al, Mn, Fe, Ni, Zn, Pb and U in both red and black than the white sorghum variety. The results show that sorghum whole grain flour made from grain with varying pericarp colours contains unique nutritional properties.

Published
2022
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15. Evaluation of sorghum flour functionality and quality characteristics of gluten-free bread and cake as influenced by ozone treatment.

Author

Marston K, Khouryieh H, and Aramouni F

Subjects
Cooking methods, Hydrogen-Ion Concentration, Sorghum drug effects, Bread analysis, Diet, Gluten-Free, Food Handling methods, Ozone pharmacology, Sorghum chemistry
Abstract

Commercially milled food-grade sorghum flour was subjected to ozone at the rate of 0.06 L/min for 15, 30, and 45 min. The pH of ozone-treated flour decreased as exposure time increased. The L* (lightness) values of sorghum flour significantly increased (p < 0.05), while the b* (yellowness) values significantly decreased as ozone exposure time increased. Peak viscosity significantly increased as time of ozonation increased from 0 to 45 min. Results showed that gluten-free cake volume significantly increased as ozonation time increased. Additionally, longer ozonation exposure times increased cells per slice area, lightness, and slice brightness values in gluten-free cakes while reducing crumb firmness. Despite improving lightness and slice brightness values, ozonation did not significantly increase the specific volume of gluten-free batter-based bread. While ozonation improved the volume and texture in cakes, it did not have the same positive effects on gluten-free bread. Bread made from ozonated sorghum flour had an open ragged structure with equivalent volume to the control flour. In both applications, the increased brightness and lightness values due to ozone exposure is recommended to increase the acceptability of sorghum products., (© The Author(s) 2014.)

Published
2015
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16. Effect of sorghum flour composition and particle size on quality properties of gluten-free bread.

Author

Trappey EF, Khouryieh H, Aramouni F, and Herald T

Subjects
Color, Dietary Fiber analysis, Edible Grain, Food Handling, Food Quality, Starch chemistry, Bread analysis, Flour analysis, Glutens analysis, Particle Size, Sorghum chemistry
Abstract

White, food-grade sorghum was milled to flour of varying extraction rates (60%, 80%, and 100%) and pin-milled at different speeds (no pin-milling, low-speed, and high-speed) to create flours of both variable composition and particle size. Flours were characterized for flour composition, total starch content, particle size distribution, color, damaged starch, and water absorption. Bread was characterized for specific volume, crumb structure properties, and crumb firmness. Significant differences were found (P < 0.05) in the composition of sorghum flours of varying extraction rate, most notably for fiber and total starch contents. Flour particle size and starch damage were significantly impacted by extraction rate and speed of pin-milling. Water absorption increased significantly with increasing extraction rate and pin-milling speed. Breads produced from 60% extraction flour had significantly higher specific volumes, better crumb properties, and lower crumb firmness when compared with all other extractions and flour types. The specific volume of bread slices ranged from 2.01 mL/g (100% extraction, no pin-milling) to 2.54 mL/g (60% extraction, low-speed pin-milling), whereas the firmness ranged from 553.28 g (60% extraction, high-speed pin-milling) to 1096.26 g (commercial flour, no pin-milling). The bread characteristics were significantly impacted by flour properties, specifically particle size, starch damage, and fiber content (P < 0.05)., (© The Author(s) 2014 Reprints and permissions: sagepub.co.uk/journalsPermissions.nav.)

Published
2015
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17. Effects of xanthan-locust bean gum mixtures on the physicochemical properties and oxidative stability of whey protein stabilised oil-in-water emulsions.

Author

Khouryieh H, Puli G, Williams K, and Aramouni F

Subjects
Emulsions chemistry, Galactans chemistry, Mannans chemistry, Plant Gums chemistry, Polysaccharides, Bacterial chemistry, Water chemistry, Whey chemistry
Abstract

The effects of xanthan gum (XG)-locust bean gum (LBG) mixtures (0.05, 0.1, 0.15, 0.2 and 0.5 wt%) on the physicochemical properties of whey protein isolate (WPI) stabilised oil-in-water (O/W) emulsions containing 20% v/v menhaden oil was investigated. At higher concentrations, the apparent viscosity of the emulsions containing XG/LBG mixtures was significantly higher (p<0.05) than the emulsions containing either XG or LBG alone. Locust bean gum showed the greatest phase separation, followed by XG. Microstructure images showed depletion flocculation at lower biopolymer concentrations, and thus led to an increase in creaming instability and apparent viscosity of the emulsions. Addition of 0.15, 0.2 and 0.5 wt% XG/LBG mixtures greatly decreased the creaming of the emulsions. The rate of lipid oxidation for 8-week storage was significantly lower (p<0.05) in emulsions containing XG/LBG mixtures than in emulsions containing either of the biopolymer alone., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published
2015
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18. Physical and sensory characteristics of cookies prepared with flaxseed flour.

Author

Khouryieh H and Aramouni F

Subjects
Adhesiveness, Chemical Phenomena, Color, Female, Food Preferences, Functional Food analysis, Hardness, Humans, Kentucky, Male, Mechanical Phenomena, Quality Control, Sensation, Surface Properties, Taste, Water analysis, Fast Foods analysis, Flax chemistry, Food Handling, Seeds chemistry
Abstract

Background: Flaxseed has many health benefits and is considered a functional food ingredient. Flaxseed flour (0-18%) was used to partially replace wheat flour in cookies and its effects on the physical and sensory characteristics of the cookies were investigated. A correlation analysis was conducted between the instrumental and sensory data., Results: The cookie dough stickiness significantly (P < 0.05) decreased in relation to higher percentages of flaxseed flour. The 18% flaxseed cookies had the firmest texture, darkest color and lowest water activity. The 18% flaxseed cookies had the greatest spread ratio. However, this resulted in cookies of unacceptable quality properties. In consumer acceptance tests, cookies made with 6% and 12% flaxseed flour had the highest rating among all sensory attributes, while the 18% flaxseed cookies had the lowest sensory scores. The flavor attribute was most highly correlated with the overall acceptability (r = 0.90)., Conclusion: Results indicated that flaxseed flour can be incorporated in cookies as a partial replacement up to 12% of wheat flour without negatively affecting the physical and sensory quality. The correlation results suggest that the flaxseed flavor attributes best predict consumer preference for overall acceptability, though texture and color attributes also contribute., (Copyright © 2012 Society of Chemical Industry.)

Published
2012
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19. Effect of HPMC on the quality of wheat-free bread made from carob germ flour-starch mixtures.

Author

Smith BM, Bean SR, Herald TJ, and Aramouni FM

Subjects
Bread microbiology, Chemical Phenomena, Elasticity, Fermentation, Germ Cells, Plant chemistry, Hardness, Hypromellose Derivatives, Mechanical Phenomena, Methylcellulose chemistry, Models, Chemical, Quality Control, Saccharomyces cerevisiae growth & development, Saccharomyces cerevisiae metabolism, Statistics as Topic, Time Factors, Viscosity, Water analysis, Bread analysis, Diet, Gluten-Free, Fabaceae chemistry, Food Additives chemistry, Galactans chemistry, Mannans chemistry, Methylcellulose analogs & derivatives, Plant Gums chemistry, Starch chemistry
Abstract

Unlabelled: Carob germ proteins have been shown to have functional properties similar to wheat gluten enabling formulation and production of yeast leavened gluten-free baked goods from a true dough rather than a stiff batter. The purpose of this research was to optimize the production of wheat-free bread containing carob germ flour, corn starch, NaCl, sucrose, hydroxypropyl methylcellulose (HPMC), and H₂O. A key criterion was to formulate viscoelastic dough similar to wheat dough. To that end, response surface methodology (RSM) was used to determine optimal levels of carob germ flour, H₂O, and HPMC. Components varied as follows: 4.94%-15.05% for carob germ flour, 0.05%-3.75% HPMC, and 65.25%-83.75% H₂O (percents are on a flour basis, where carob germ flour in combination with maize starch equals 100%). Sucrose, NaCl, and yeast were held constant at 2%. Bread parameters evaluated were specific volume and crumb hardness, where the largest specific volume and the lowest value for crumb hardness were considered most desirable. The optimum formula as determined by RSM consisted of 7% carob germ flour, 93% maize starch, 2% HPMC, and 80% H₂O with predicted crumb hardness of ~200 g of force and a specific volume of ~3.5 cm³/g. When proof time was optimized, a specific volume of ~5.6 ml/g and crumb hardness value of ~156 g of force was observed. Carob germ flour may be used as an alternative to wheat flour in formulating viscoelastic dough and high quality gluten-free bread., Practical Application: Celiac disease affects approximately 1% of the world's population. Sufferers of the disease must consume a gluten-free diet. Currently, gluten-free baked products are made from batters and lack the ability to be made from dough based systems which limits the overall processability and product variety. This research is aimed at the utilization of carob germ protein and its ability to form dough to produce an optimal gluten-free bread formulation. This will help to alleviate problems in processability and product variety associated with gluten-free baked goods., (Journal of Food Science © 2012 Institute of Food Technologists® No claim to original US government works.)

Published
2012
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20. Composition and molecular weight distribution of carob germ protein fractions.

Author

Smith BM, Bean SR, Schober TJ, Tilley M, Herald TJ, and Aramouni F

Subjects
Molecular Weight, Plant Proteins isolation & purification, Fabaceae chemistry, Galactans chemistry, Mannans chemistry, Plant Gums chemistry, Plant Proteins chemistry
Abstract

Biochemical properties of carob germ proteins were analyzed using a combination of selective extraction, reversed-phase high-performance liquid chromatography (RP-HPLC), size exclusion chromatography (SEC) coupled with multiangle laser light scattering (SEC-MALS), and electrophoretic analysis. Using a modified Osborne extraction procedure, carob germ flour proteins were found to contain approximately 32% albumin and globulin and approximately 68% glutelin with no prolamins detected. The albumin and globulin fraction was found to contain low amounts of disulfide-bonded polymers with relatively low M(w) ranging up to 5 x 10(6) Da. The glutelin fraction, however, was found to contain large amounts of high molecular weight disulfide-bonded polymers with M(w) up to 8 x 10(7) Da. When extracted under nonreducing conditions and divided into soluble and insoluble proteins as typically done for wheat gluten, carob germ proteins were found to be almost entirely ( approximately 95%) in the soluble fraction with only ( approximately 5%) in the insoluble fraction. As in wheat, SEC-MALS analysis showed that the insoluble proteins had a greater M(w) than the soluble proteins and ranged up to 8 x 10(7) Da. The lower M(w) distribution of the polymeric proteins of carob germ flour may account for differences in functionality between wheat and carob germ flour.

Published
2010
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