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Effects of Mulberry Leaf Powder on Physicochemical Properties of Bread Dough  

Kim, Young-Ho (Department of Hotel Baking Technology, Hyejeon College)
Cho, Nam-Ji (Department of Hotel Baking Technology, Hyejeon College)
Publication Information
Korean Journal of Food Science and Technology / v.42, no.6, 2010 , pp. 705-713 More about this Journal
Abstract
This study was carried out to investigate the physicochemical properties of bread dough with added mulberry leaf powder. The crude protein, fiber and ash contents of the mulberry leaf powder were 21.25%, 7.70% and 9.27% respectively. The mulberry leaf-mixed powder showed low lightness and redness values and high yellowness. Farinograph water absorption increased as the mulberry leaf powder content increased. Both arrival and development times of the mulberry leaf powder-added dough were longer than those of wheat flour dough. As the mulberry leaf powder content increased, the degree of weakness increased. Maximum viscosity by amylograph analysis increased gradually with the addition of mulberry leaf powder, while gelatinization temperature was not affected. Degree of extension decreased as shown in extensograph analysis with increasing content of mulberry leaf powder.
Keywords
farinograph; amylograph; extensograph; mulberry leaf powder; bread dough;
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1 Bae SH, Rhee C. Effect of soybean protein isolate on the baking qualities of bread. Korean J. Food Sci. Technol. 30: 1295-1300 (1998)
2 Kwon HR, Ahn MS. Study on rheological and general baking properties of breads and their rusks prepared of various flours. Korean J. Food Cookery Sci. 11: 479-486 (1995)
3 Parades-Lopez O, Bushuk W. Development and undevelopment of wheat dough by mixing microscopic structure and its relations to bread-making quality. Cereal Chem. 60: 24-27 (1982)
4 Bernardin JE, Kasarada DD. The microstructure of wheat protein fibrils. Cereal Chem. 50: 735-739 (1973)
5 Boycioglu MH, D'Appolonea BL. Charaterization and utilization of durum wheat for breadmaking. I Comparison of chemical, rheological, and baking properities between bread wheat flours and durum wheat flours. Cereal Chem. 71: 21-28 (1994)
6 AACC. Official Approved Method of AACC. Secs. 22-10. American Association of Cereal Chemists, St. Paul, MN, USA (1985)
7 AACC. Official Approved Method of AACC. Secs. 54-10. American Association of Cereal Chemists, St. Paul, MN, USA (1985)
8 Lee KH, Park HC, Her ES. Statistics and Date Analysis Method. Hyoil Press, Seoul, Korea. pp. 253-296 (1998)
9 Magoffin CD, Hoseney RC. A review of fermentation. Baker's Digest 48: 22-29 (1974)
10 CIGI. Grains & Oilseeds Handling, Marketing, Processing. Canadian International Grains Institute, Canada. pp. 534-536 (1982)
11 AOAC. Official Methods of Analysis, 15th ed. Method 920.85. Association of Official Analytical Chemists, Washington DC, USA (1990)
12 AOAC. Official Methods of Analysis, 15th ed. Method 925.10. Association of Official Analytical Chemists, Washington DC, USA (1990)
13 AOAC. Official Methods of Analysis, 15th ed. Method 923.03. Association of Official Analytical Chemists, Washington DC, USA (1990)
14 AOAC. Official Methods of Analysis, 15th ed. Method 960.52A. Association of Official Analytical Chemists, Washington DC, USA (1990)
15 Prosky L, Asp NG, Furda I, Devreis JW, Scjweozer TF, Harland BA. Determination of total dietary fiber in foods and food products. J. Assoc. Off. Anal. Chem. 68: 677-684 (1987)
16 Chamberlain N, Collins TH, McDermott EE. $\alpha-Amylase $ and bread properties. J. Food Technol. 16: 127-152 (1981)
17 Bidlingmeyer BA, Cohen SA, Taruin TL, Frost B. A new rapid high sensitivity analysis of amino acid in food type samples. J. Assoc. Off. Anal. Chem. 70: 241-253 (1987)
18 AACC. Official Approved Method of AACC. Secs. 54-21. American Association of Cereal Chemists, St. Paul, MN, USA (1985)
19 Kim EJ, Kim SM. Bread properties utilizing extracts of pine needle according to preparation method. Korean J. Food Sci. Technol. 30: 542-547 (1998)
20 Hwang JK, Kim JT, Cho SJ, Kim CJ. Characteristics of water soluble fractions of wheat bran treated with various thermal processes. Korean J. Food Sci. Technol. 27: 934-938 (1995)
21 Sidwell VD, Hammerle OA. Changes in physical and characteristics of doughs and bread containing various amounts fish protein concentrate and lysine. Cereal Chem. 47: 739-745 (1970)
22 Wang WM, Klop CF, Ponte JG. Effects of twin-screw extrusion on the physical properties of dietary fiber and other components of whole wheat and wheat bran and on the baking quality of the wheat bran. Cereal Chem. 70: 707-711 (1993)
23 Kim SY, Ryu CH. Effect of certain additives on bread making quality of wheat purple sweet potato flours. Korean J. Soc. Food Sci. 13: 492-499 (1997)
24 Sathe SK, Ponte JG, Rangnekar PD, Salunkhe DK. Effects of addition of great northern bean flour and protein concentrates of rheological properties of dough and baking quality of bread. Cereal Chem. 58: 97-100 (1981)
25 Stillings BR, Sidwell VD, Hammerle OA. Nutritive quality of wheat flour and bread supplemented with either fish protein concentrate or lysine. Cereal Chem. 48: 292-301 (1971)
26 Kim YS, Ha TY, Lee SH, Lee HY. Effect of rice bran dietary fiber on flour rheology and quality of wet noodles. Korean J. Food Sci. Technol. 29: 90-95 (1997)
27 Kim HS, Kim YH, Woo CH, Lee SR. Development of composite flours and their products utilizing domestic raw materials. Breadmaking test with composite flours in Korean. Korean J. Food Sci. Technol. 5: 16-24 (1973)
28 Chae JY, Lee JY, Hong IS, Whangbo D, Choi PW, Lee WC, Kim JW, Kim SY, Rhee SJ. Analysis of functional components of leaves of different mulberry cultivars. J. Korean Soc. Food Sci.Nutr. 32: 15-21 (2003)   과학기술학회마을   DOI
29 Asano N, Oseki K, Tomioka E, Kizu H, Matsui K. N-containingsugar from the Morus alba and their glycosidase inhibitory activities. Carbohyd. Res. Jpn. 259: 243-255 (1994)   DOI   ScienceOn
30 Matinez-Anaya PB, Bayarri P, Benedito BC. Microflora of the sour doughs of wheat flour bread. Cereal Chem. 67: 85-91 (1990)
31 Schropp P, Belitz HD, Seilmeier W, Wieser H. Reoxidation of high molecular weight subunit of glutenin. Cereal Chem. 72: 406-410 (1995)
32 Kim JS, Kang SS, Lee MW, Kim OK. Isolation of flavonoids from the leaves of Arakia continentails. Korean J. Pharmacogn. 26: 239-243 (1995)
33 Chen F, Nakashima N, Kimura I, Kimura M. Hypoglycemic activity and mechanisms of extracts from mulberry leaves (folium mori) and cortex mori radicis in streotozotocin induced diabetic mice. Akugaku Zasshi 115: 476-482 (1995)
34 Kimura M, Chen F, Nakashima N, Kimura I, Asano N, Koya S. Antihyperglycemic effects of N-containing sugars deried from mulberry leaves in STZ-induced diabetic mice. J. Trad. Med. 12: 214-219 (1995)
35 Blocksma AH. Thiol and disulfide groups in dough rheology. Cereal Sci. Today 17: 380-386 (1975)
36 Hoseney RC, Hsu KH, Junge RC. A simple spread test to measure the rheological properties of fermenting dough. Cereal Chem. 56: 141-152 (1979)
37 Knuckles BE, Hudson CA, Chiu MM, Sayre RN. Effect of $\beta-glucan$ barley fractions in high-fiber bread and pasta. Cereal Food World 42: 94-99 (1997)
38 Sych J, Castaigne F, Lacroix C. Effects of initial moisture and storage relative humidity on textural changes of layer cakes during storage. J. Food Sci. 52: 1604-1607 (1987)   DOI
39 Lindborg KM, Tragardh C, Eliasson AC, Dejmek P. Time resolved shear viscosity of wheat flour doughs-Effect of mixing, shear rate and resting on the viscosity of doughs of different flours. Cereal Chem. 74: 49-55 (1997)   DOI   ScienceOn
40 Kim SK, Cheigh HS, Kwon HW, Marston PE. Rheological and baking studies of composite flour wheat and naked barly. Korean J. Food Sci. Technol. 10: 247-251 (1978)
41 Thompson LU, Baker LM. Influence of succinylated whey protein concentrate on farinograph characteristics and bread quality. Cereal Chem. 60: 71-73 (1982)
42 Seyam AM. Starches of non-wheat origin. The Bakers Digest April, 25-31 (1975)