Evaluation of Bakery Products Made from Barley-Gelatinized Corn Flour and Wheat-Defatted Rice Bran Flour Composites
In the present research, whole meal barley flour
(WBF) was supplemented with gelatinized corn flour (GCF) in 0 and
30%. Whole meal wheat flour (WWF) was mixed with defatted rice
bran (DRB) to produce 0, 20, 25, and 30% replacement levels.
Rheological properties of dough were studied. Thermal properties
and starch crystallinity of flours were evaluated. Flat bread, balady
bread and pie were prepared from the different flour blends. The
different bakeries were sensory evaluated. Color of raw materials and
crust of bakery products were determined. Nutrients contents of raw
flours and food products were assessed. Results showed that addition
of GCF to WBF increased the viscosity and falling number of the
produced dough. Water absorption, dough development time and
dough stability increased with increasing the level of DRB in dough
while, weakening and mixing tolerance index decreased.
Extensibility and energy decreased, while, resistance to extension
increased as DRB level increased. Gelatinized temperature of WWF,
WBF, GCF, and DRB were 13.26, 35.09, 28.33, and 39.63,
respectively. Starch crystallinity was affected when DRB was added
to WWF. The highest protein content was present in balady bread
made from 70% WWF and 30% DRB. The highest calcium,
phosphorus, and potassium levels were present in products made
from 100% WBF. Sensory attributes of the products were slightly
affected by adding DRB and GCF. Conclusion: Addition of DRB or
GCF to WWF or WBF, respectively affect the physical, chemical,
rheological and sensory properties of balady bread, flat bread, and pie
while improved their nutritive values.
[1] R. A. Moreau, P. Bregitzer, K. Liu, and K. B. Hicks. Compositional
equivalence of barleys differing only in low- and normal-phytate levels.
Journal of Agricultural and Food Chemistry, 2012, vol. 60 pp. 6493-
6498.
[2] S. Y. Al-Okbi, D. A. Mohamed, T. H Hamed and A. M. S. Hussein.
Cereals' products with red grape and walnut extracts as functional foods
for prevention of kidney dysfunction. International Journal of
Biological, Veterinary, Agricultural and Food Engineering, 2013, vol. 7
pp. 289-295.
[3] M. S. Islam, R. Nagasaka, K. Ohara, T. Hosoya, H. Ozaki, H. Ushio and
M. Hori. Biological abilities of rice bran-derived antioxidant
phytochemicals for medical therapy. Current Topics in Medicinal
Chemistry, 2011, vol. 11 pp. 1847-53.
[4] S.Y. Al-Okbi, D.A. Mohamed, I. M. Hamed, F.S. Agoor, A.A.M.
Ramadan, S. El-Saed and A. M. Helal. Comparative study on Egyptian
rice bran extracted by solvents and supercritical CO2. Advances in Food
Sciences, 2013, vol. 35 pp. 23-29.
[5] Y. Ayano, F.Watnabe Ohta and K. Mita. Dietary fiber fractions in
defatted rice bran and their hypocholesterolemic effect in cholesterol fed
rats. Nihon Eiyo Shokuryo Gakkai Shi, 1980, vol. 33 pp. 283–291.
[6] S. Aoe, T. Oda, T. Tojima, M. Tanaka, K. Tatsumi and T. Mizutani.
Effect of rice bran hemicelluloses on 1, 2-dimethylhydrazine induced
intestinal carcinogenesis in Fischer 344 rat. Nutrition and Cancer, 1993,
vol. 20 pp. 41–49.
[7] M.Takeshita, S. Nakamura, F. Makita, S. Ohwada, Y. Miyamoto and Y.
Morishita. Antitumor effect of RBS (rice bran saccharide) on ENNGinduced
carcinogenesis. Biotherapy, 1992, vol.4 pp. 139-45.
[8] SC. Rodrigues, JE. Dutra de Oliveira, R. A. de Souza and H.C. Silva.
Effect of a rice bran fiber diet on serum glucose levels of diabetic
patients in Brazil. Archivos Latinoamericanos de Nutricion, 2005, vol.
55 pp. 23-7.
[9] S.Y. Al-Okbi, A. M. S. Hussein, I. M. Hamed, D. A. Mohamed and A.
M. Helal. Chemical, rheological, sensorial and functional properties of
gelatinized corn- rice bran flour composite corn flakes and tortilla chips.
Journal of Food Processing and Preservation, 2014, vol. 38 pp. 83–89.
[10] A.L. Jenkins, D.J.A. Jenkins, U. Zdravkovic, P. Wursch and V. Vuksan.
Depression of the glycemic index by high levels of beta glucan fiber in
two functional foods tested in type 2 diabetes. European Journal of
Clinical Nutrition, 2002, vol. 56 pp. 622–628.
[11] L. E. Cleveland, A.J. Moshfegh, A.J. Albertson and J.D. Oldman.
Dietary intake of whole grains. Journal of American College of
Nutrition, 2000, vol. 19 pp. 331S–338S.
[12] C.W. Thane, A.R. Jones, A.M. Stephen, C.J. Seal and S.A. Jebb. Wholegrain
intake of British young people aged 4–18 years. British Journal of
Nutrition, 2005, vol. 94 pp. 825–831
[13] A. Arvola, L. Lahteenmaki, M. Dean, M. Vassallo, M. Winkelmann, E.
Claupein, A. Saba, R. Shepherd. Consumers’ beliefs about whole and
refined grain products in the UK, Italy and Finland. Journal of Cereal
Science, 2007, vol. 46 pp. 197–206.
[14] M. Dean, R. Shepherd, A. Arvola, M. Vassallo, M. Winkelmann, E.
Claupein, L. Lahteenmaki, M.M. Raats and A. Saba. Consumer
perceptions of healthy cereal products and production methods. Journal
of Cereal Science, 2007, vol. 46 pp. 188–196.
[15] M. Vassallo, A. Saba, A. Arvola, M. Dean, F. Messina, M. Winkelmann,
E. Claupein, L. Lahteenmaki and R. Shepherd. Willingness to use
functional breads. Applying the Health Belief Model across four
European countries. Appetite, 2009, vol. 52 pp. 452–460.
[16] A.A. Yaseen, A.A. Shouk and M.T. Ramadan. Corn-wheat pan bread
quality as affected by hydrocolloids. J. Amer. Sci., 2010, vol. 6 pp. 684–
690.
[17] A. M.S. Hussein, M. M. Kamil, N. A. Hegazy and S.A.H. Abo El-Nor.
Effect of Wheat Flour Supplemented with Barely and/or Corn Flour on
Balady Bread Quality. Polish Journal of Food and Nutrition Sciences,
2013, vol. 63 pp. 11-19.
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Association of Cereal Chemists, INC. st. Paul, 2000, Minnesota, USA.
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1989, vol. 66 pp. 317-320.
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Chemistry, 1992, vol. 69 pp. 275-279
[21] D. Gocmen, A.N. Inkaya and E. Aydin. Flat breads. Bulgarian Journal of
Agricultural Science, 2009, vol. 15 pp. 298-306.
[22] E. Palou, A. Lopez-Malo, G. Barbosa-Canovas, J. Chanes-Welti and W.
Swanson. Polyphenoloxidase and colour of blanched and high
hydrostatic pressure treated banana puree. Journal of Food Science.
1999, vol. 64 pp. 42–45.
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proximate composition, bioactive compounds and antioxidant activity of
rice bran and defatted rice bran from organic rice and conventional rice.
Asian Journal of Food and Agro-Industry, 2009, vol. 2 pp. 731-743.
[27] A.M.S. Hussein, H. S. Ali, G. F. Bareh and Al-Khalifa A. S.
Physicochemical, Sensory and Functional Properties of Gelatinized Corn
- Triticale Flour Composite Tortilla. Australian Journal of Basic and
Applied Sciences, 2011, vol. 5 pp. 43-54.
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wheat products. Cereal Chemistry, 1975, vol. 52 pp. 42-81.
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Application of citrus dietary fibre preparations in biscuit preparation.
Journal of Food Science and Nutrition Researches, 2011, vol. 50 pp.
182-190.
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quality of wheat-chickpea flour blends. Industrial Crops and Products,
2012, vol. 36 pp. 196-202.
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Blecker. Effect of date flesh fibre concentrate addition on dough
performance and bread quality. Journal of Texture Studies, 2011, vol. 42
pp. 300-308.
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on dough rheology and bread quality. Food Bioproc. Technol., 2012,
vol.5 pp. 2409-2418.
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by-products flour incorporation on chemical, rheological and
organolepic characteristics of biscuits. World J. Agric. Sci., 2008, vol. 4
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natural fibres used in bread making. Acta Univ. Cib., 2010, vol.14 pp. 3-
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supplementation on the properties of pide. Journal of Food Processing
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[1] R. A. Moreau, P. Bregitzer, K. Liu, and K. B. Hicks. Compositional
equivalence of barleys differing only in low- and normal-phytate levels.
Journal of Agricultural and Food Chemistry, 2012, vol. 60 pp. 6493-
6498.
[2] S. Y. Al-Okbi, D. A. Mohamed, T. H Hamed and A. M. S. Hussein.
Cereals' products with red grape and walnut extracts as functional foods
for prevention of kidney dysfunction. International Journal of
Biological, Veterinary, Agricultural and Food Engineering, 2013, vol. 7
pp. 289-295.
[3] M. S. Islam, R. Nagasaka, K. Ohara, T. Hosoya, H. Ozaki, H. Ushio and
M. Hori. Biological abilities of rice bran-derived antioxidant
phytochemicals for medical therapy. Current Topics in Medicinal
Chemistry, 2011, vol. 11 pp. 1847-53.
[4] S.Y. Al-Okbi, D.A. Mohamed, I. M. Hamed, F.S. Agoor, A.A.M.
Ramadan, S. El-Saed and A. M. Helal. Comparative study on Egyptian
rice bran extracted by solvents and supercritical CO2. Advances in Food
Sciences, 2013, vol. 35 pp. 23-29.
[5] Y. Ayano, F.Watnabe Ohta and K. Mita. Dietary fiber fractions in
defatted rice bran and their hypocholesterolemic effect in cholesterol fed
rats. Nihon Eiyo Shokuryo Gakkai Shi, 1980, vol. 33 pp. 283–291.
[6] S. Aoe, T. Oda, T. Tojima, M. Tanaka, K. Tatsumi and T. Mizutani.
Effect of rice bran hemicelluloses on 1, 2-dimethylhydrazine induced
intestinal carcinogenesis in Fischer 344 rat. Nutrition and Cancer, 1993,
vol. 20 pp. 41–49.
[7] M.Takeshita, S. Nakamura, F. Makita, S. Ohwada, Y. Miyamoto and Y.
Morishita. Antitumor effect of RBS (rice bran saccharide) on ENNGinduced
carcinogenesis. Biotherapy, 1992, vol.4 pp. 139-45.
[8] SC. Rodrigues, JE. Dutra de Oliveira, R. A. de Souza and H.C. Silva.
Effect of a rice bran fiber diet on serum glucose levels of diabetic
patients in Brazil. Archivos Latinoamericanos de Nutricion, 2005, vol.
55 pp. 23-7.
[9] S.Y. Al-Okbi, A. M. S. Hussein, I. M. Hamed, D. A. Mohamed and A.
M. Helal. Chemical, rheological, sensorial and functional properties of
gelatinized corn- rice bran flour composite corn flakes and tortilla chips.
Journal of Food Processing and Preservation, 2014, vol. 38 pp. 83–89.
[10] A.L. Jenkins, D.J.A. Jenkins, U. Zdravkovic, P. Wursch and V. Vuksan.
Depression of the glycemic index by high levels of beta glucan fiber in
two functional foods tested in type 2 diabetes. European Journal of
Clinical Nutrition, 2002, vol. 56 pp. 622–628.
[11] L. E. Cleveland, A.J. Moshfegh, A.J. Albertson and J.D. Oldman.
Dietary intake of whole grains. Journal of American College of
Nutrition, 2000, vol. 19 pp. 331S–338S.
[12] C.W. Thane, A.R. Jones, A.M. Stephen, C.J. Seal and S.A. Jebb. Wholegrain
intake of British young people aged 4–18 years. British Journal of
Nutrition, 2005, vol. 94 pp. 825–831
[13] A. Arvola, L. Lahteenmaki, M. Dean, M. Vassallo, M. Winkelmann, E.
Claupein, A. Saba, R. Shepherd. Consumers’ beliefs about whole and
refined grain products in the UK, Italy and Finland. Journal of Cereal
Science, 2007, vol. 46 pp. 197–206.
[14] M. Dean, R. Shepherd, A. Arvola, M. Vassallo, M. Winkelmann, E.
Claupein, L. Lahteenmaki, M.M. Raats and A. Saba. Consumer
perceptions of healthy cereal products and production methods. Journal
of Cereal Science, 2007, vol. 46 pp. 188–196.
[15] M. Vassallo, A. Saba, A. Arvola, M. Dean, F. Messina, M. Winkelmann,
E. Claupein, L. Lahteenmaki and R. Shepherd. Willingness to use
functional breads. Applying the Health Belief Model across four
European countries. Appetite, 2009, vol. 52 pp. 452–460.
[16] A.A. Yaseen, A.A. Shouk and M.T. Ramadan. Corn-wheat pan bread
quality as affected by hydrocolloids. J. Amer. Sci., 2010, vol. 6 pp. 684–
690.
[17] A. M.S. Hussein, M. M. Kamil, N. A. Hegazy and S.A.H. Abo El-Nor.
Effect of Wheat Flour Supplemented with Barely and/or Corn Flour on
Balady Bread Quality. Polish Journal of Food and Nutrition Sciences,
2013, vol. 63 pp. 11-19.
[18] A.A.C.C., Approved Method of the AACC. 10th ed., American
Association of Cereal Chemists, INC. st. Paul, 2000, Minnesota, USA.
[19] F. L. Normand and W. E. Marshall. Differential Scanning Calorimetry
of Whole Grain Milled Rice and Milled Rice Flour. Cereal Chemistry,
1989, vol. 66 pp. 317-320.
[20] M.H. Gomez, J.K Lee, C.M. McDonough, R.D. Waniska and L.W.
Rooney. Corn starch changes during tortilla chip processing. Cereal
Chemistry, 1992, vol. 69 pp. 275-279
[21] D. Gocmen, A.N. Inkaya and E. Aydin. Flat breads. Bulgarian Journal of
Agricultural Science, 2009, vol. 15 pp. 298-306.
[22] E. Palou, A. Lopez-Malo, G. Barbosa-Canovas, J. Chanes-Welti and W.
Swanson. Polyphenoloxidase and colour of blanched and high
hydrostatic pressure treated banana puree. Journal of Food Science.
1999, vol. 64 pp. 42–45.
[23] A.O.A.C., Official Methods of Analysis of the Association of Official
Analytical Chemists. 17th ed., Association of Official Analytical
Chemists, 2000, Arlington, Virginia, USA.
[24] H. D. Chapman and P. F. Pratt. Methods of analysis for soil, plants and
water. Univ. of California, Div. Agric. Sci., 1978, Priced Publication
4034, pp50.
[25] J.T. McClave and P.G. Benson. Statistics for business and economics.
Maxwell Macmillan International Editions. Dellen Publishing Co.USA,
1991, pp. 272-295.
[26] A. Siriku, A. Moongngarm and P. Khaengkhan. Comparison of
proximate composition, bioactive compounds and antioxidant activity of
rice bran and defatted rice bran from organic rice and conventional rice.
Asian Journal of Food and Agro-Industry, 2009, vol. 2 pp. 731-743.
[27] A.M.S. Hussein, H. S. Ali, G. F. Bareh and Al-Khalifa A. S.
Physicochemical, Sensory and Functional Properties of Gelatinized Corn
- Triticale Flour Composite Tortilla. Australian Journal of Basic and
Applied Sciences, 2011, vol. 5 pp. 43-54.
[28] W. C. Shuey. Practical instruments for rheological measurements on
wheat products. Cereal Chemistry, 1975, vol. 52 pp. 42-81.
[29] P. Colonna and C. Mercier. Gelatinization and melting of maize and pea
starches with normal and high amylose geotypes. Phytochemistry, 1985,
vol. 24 pp. 1667-1672.
[30] M. H. Boyacioglu and B. L.D'Appolonia. Characterization and
utilization of durum wheat for breadmaking. I. Comparison of chemical,
rheological and baking properties between bread wheat flours and durum
wheat flours. Cereal Chemistry, 1994, vol. 71, 21-28.
[31] Y. S. Kim,; T. Y. Ha; S. H. Lee and Lee H. Y. Effect of rice bran dietary
fiber on flour rheology and quality of wet noodles. Korean Journal of
Food Science & Technology, 1997, vol. 20 pp. 90-95.
[32] M. Tańska, R. Zadernowski and I. Konopka, The quality of wheat bread
supplemented with dried carrot pomace. Pol. J. Nat. Sci., 2007, vol. 22
pp. 126-136. [33] I. Ashoush and M. Gadallah, 2011. Utilisation of mango peels and seed
kernels powder as sources of phytochemicals in biscuit. World J. Dairy
Food Sci., 2011, vol. 6 pp. 35-41.
[34] W.G. Yackel, & C. Cox. Application of starch-based fat replacers. Food
Technol., 1992, vol. 46 pp.146-148.
[35] M.A. Bouaziz, H.B. Amara, H. Attia, Ch Blecker, S. Besbes. Effect of
the addition of defatted date seeds on wheat dough performance and
bread quality. Journal of Texture Studies, 2010, vol. 41 pp. 511-531.
[36] M. Gómez, S. Jiménez, E. Ruiz, B. Oliete. Effect of extruded wheat bran
on dough rheology and bread quality. LWT – Food Science and
Technology, 2011, vol. 44 pp. 2231-2237.
[37] Z. Kohajdová, J. Karovičová,, M. Jurasová and K. Kukurová.
Application of citrus dietary fibre preparations in biscuit preparation.
Journal of Food Science and Nutrition Researches, 2011, vol. 50 pp.
182-190.
[38] I. Mohammed, A.R. Ahmed and B. Senge. Dough rheology and bread
quality of wheat-chickpea flour blends. Industrial Crops and Products,
2012, vol. 36 pp. 196-202.
[39] C.H. Borchani, M. Masmoudi, S. Besbes, H. Attia, C. Seroanne, Ch.
Blecker. Effect of date flesh fibre concentrate addition on dough
performance and bread quality. Journal of Texture Studies, 2011, vol. 42
pp. 300-308.
[40] M. Gómez, J. González, and B. Oliente. Effect of extruded wheat germ
on dough rheology and bread quality. Food Bioproc. Technol., 2012,
vol.5 pp. 2409-2418.
[41] A.G. Nassar, A.A. Abdel-Hamied and E.A. El-Naggar. Effect of citrus
by-products flour incorporation on chemical, rheological and
organolepic characteristics of biscuits. World J. Agric. Sci., 2008, vol. 4
pp. 612-616.
[42] M. Ognean, C.F. Ognean, and N. Darie. Rheological effects of some
natural fibres used in bread making. Acta Univ. Cib., 2010, vol.14 pp. 3-
10.
[43] M. Anil Effects of wheat bran, corn bran, rice bran and oat bran
supplementation on the properties of pide. Journal of Food Processing
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@article{"International Journal of Biological, Life and Agricultural Sciences:71685", author = "Ahmed M. S. Hussein and Sahar Y. Al-Okbi", title = "Evaluation of Bakery Products Made from Barley-Gelatinized Corn Flour and Wheat-Defatted Rice Bran Flour Composites", abstract = "In the present research, whole meal barley flour
(WBF) was supplemented with gelatinized corn flour (GCF) in 0 and
30%. Whole meal wheat flour (WWF) was mixed with defatted rice
bran (DRB) to produce 0, 20, 25, and 30% replacement levels.
Rheological properties of dough were studied. Thermal properties
and starch crystallinity of flours were evaluated. Flat bread, balady
bread and pie were prepared from the different flour blends. The
different bakeries were sensory evaluated. Color of raw materials and
crust of bakery products were determined. Nutrients contents of raw
flours and food products were assessed. Results showed that addition
of GCF to WBF increased the viscosity and falling number of the
produced dough. Water absorption, dough development time and
dough stability increased with increasing the level of DRB in dough
while, weakening and mixing tolerance index decreased.
Extensibility and energy decreased, while, resistance to extension
increased as DRB level increased. Gelatinized temperature of WWF,
WBF, GCF, and DRB were 13.26, 35.09, 28.33, and 39.63,
respectively. Starch crystallinity was affected when DRB was added
to WWF. The highest protein content was present in balady bread
made from 70% WWF and 30% DRB. The highest calcium,
phosphorus, and potassium levels were present in products made
from 100% WBF. Sensory attributes of the products were slightly
affected by adding DRB and GCF. Conclusion: Addition of DRB or
GCF to WWF or WBF, respectively affect the physical, chemical,
rheological and sensory properties of balady bread, flat bread, and pie
while improved their nutritive values.", keywords = "Bakeries, rheological properties, chemical and
sensory attributes, flour thermal properties and starch crystallinity.", volume = "9", number = "9", pages = "1038-10", }
