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References
Adeboye AS, Babajide JM, Shittu TA, Omemu, AM, Oluwatola OJ (2013). Effect of honey as partial sugar substitute on pasting properties, consumer preference and shelf stability of cassava-wheat composite bread. NIFOJ 31(1):13-22. | ||||
Al Somai N, Coley KE, Molan PC, Hancock BM (1994). Susceptibility of Helicobacter pylori to the antibacterial activity of Manuka honey.J. Royal Soc. Medicine. 87:9-12. | ||||
Al-Mamary M, Al-Meeri A, Al-Habori M (2002). Antioxidant activities and total phenolics of different types of honey. Nutrition Research. 22:1041-1047. Crossref |
||||
Alzahrani HA, Alsabehi R, Boukraâ L, Abdellah F, Bellik Y, Bakhotmah BA (2012). Antibacterial and antioxidant potency of floral honeys from different botanical and geographical origins. Molecules. 17:10540-10549. Crossref |
||||
AOAC (2000). Association of Official Analytical Chemist. Methods 979.20, 969.38, 962.19, approved methods for neutraceutical analyses. Official methods of analysis of AOAC International, (17th ed.). Gaithersburg, MD, USA: AOAC. | ||||
Barcenas ME, Rosell CM (2005). Effect of HPMC on the microstructure, quality and aging of wheat bread. Fd Hydrocolloids. 19:1037−1043. Crossref |
||||
Beatriz A, Sandra M, Montserrat H, Eduardo C (2011). Quality parameters and antioxidant and antibacterial properties of some Mexican honeys. J.Fd. Sc. 71: 1 | ||||
CA (2001).Codex Alimentarius Commission: Codex standard 12, revised Codex standard for honey standards and standard methods, Vol. 11. Sperimentale per la Zoologia, Rome. | ||||
Cooper RA, Molan PC, Harding KG (1999). Antibacterial activity of honey against strains of Staphylococcus aureus from infected wounds. J.of the Royal Soc. Med. 92: 283-285. | ||||
Davidson PM, Sofos JN, Brenem AL (2005). Antimicrobials in foods, third ed. Marcel Dekker Inc., New York. pp. 291–306. Crossref |
||||
Defloor I, De Geest C, Schellekens M, Martens A, Delcour JA (1994). Impact of genotype and cropdage on the breadmaking and physiochemical properties of flour produced from cassava (Manihot esculenta Crantz) planted in the dry season. J. Sc. Fd Agr. 66:193-202. Crossref |
||||
Defloor I, Leijskens R, Bokanga M, Delcour JA (1995). Impact of genotype, crop age and planting season on the breadmaking and gelatinization properties of flour produced from cassava (Manihot esculenta Crantz). J. Sc. Fd Agr. 68: 167–174. Crossref |
||||
Defloor I, Nys M, Delcour JA (1993). Wheat starch, cassava starch, and cassava flour impairment of the bread making potential of wheat flour. Cereal Chem. 78 :525–530 | ||||
Estevinho L, Pereira AP, Moreira L, Dias LG, Pereira E (2008). Antioxidant and antimicrobial effects of phenolic compounds extracts of Northeast Portugal honey. Food Chem. Toxicol. 46:3774-3779. Crossref |
||||
Foster RJ (2008). Fortification on the rise. Bulletin of Food Product Design, official media site of supply side innovative ingredient international. Retrieved on 22/05/10 7:00am from http//www.foodproductdesign.com | ||||
Gheldof N, Wang X, Engeseth NJ (2002). Identification and quantification of antioxidant components of honey from various floral sources. J Agric Food Chem 50:5870-5877. Crossref |
||||
Gomes S, Dias LG, Moreira LL, Rodrigues P, Estevinho L (2010). Physicochemical, microbiological and antimicrobial properties of commercial honey from Portugal. Food Chem. Toxicol. 48:544–548. Crossref |
||||
Guerrini A, Bruni R, Poli F, Paganetto G, Muzzoli M, Scalvenzi L, Sacchetti G (2009). Ecuadorian stingless bee (Meliponinae) honey: a chemical and functional profile of an ancient health product. Food Chem. 114:1413-1420. Crossref |
||||
Jeddar A, Kharsany A, Ramsaroop UG, Bhamjee A, Haffejee IE, Moosa A (1985). The antibacterial action of honey. An in vitro study. SA Med. J. 67(7):257-258. | ||||
Khalil AH, Mansour EH, Dawood FM (2000). Influence of malt on rheological and baking properties of wheat-cassava composite flours. J. Fd Sc. Tech. 33: 159–164. | ||||
Molan PC (1992). The antibacterial activity of honey. The nature of the antibacterial activity. Bee World 73(1):5-28. | ||||
Mundo MA, Padilla-Zakour OI, Worobo RW (2004). Growth inhibition of foodborne pathogens and food spoilage organisms by select raw honeys. Int. J. Food Microbiol. 97:1-8. Crossref |
||||
Olaitan PB, Adeleke OE, Iyabo OO (2007). Honey: a reservoir for microorganisms and an inhibitory agent for microbes. J. Afr. Health Sc. 7(3):159-165. | ||||
Olasupo NA, Fitzgerald DJ, Gasson MJ, Narbad A (2003). Activity of natural antimicrobial compounds against Escherichia coli and Salmonella enterica serovar Typhimurium. Lett App Micro. 37 (6): 446-451. Crossref |
||||
Radwan SS, El-Essawy AA, Sarhan MM (1984). Experimental evidence for the occurrence in honey of specific substances active against microorganisms. Zentralblattfür Mikrobiologie. 139(4): 249-255. | ||||
Selomulyo VO, Zhou WB (2007). Frozen bread dough: Effects of freezing storage and dough improvers. J. Cereal Sc. 45:1-17. Crossref |
||||
Shittu TA, Raji AO, Sanni LO (2007). Bread from composite cassava-wheat flour: Effect of baking time and temperature on some physical properties of bread loaf. Fd. Res. Int. 40:280-290. Crossref |
||||
Sibel S, Osman S, Lutfiye E (2010). Total phenolic content, antiradical, antioxidant and antimicrobial activities of Rhododendron honeys. Food Chemistry 121:238243. | ||||
Stefan B, Tomislav J, Robert S, and Peter G (2008). Honey for Nutrition and Health: a Review. American J. Coll. of Nutr. 27:677-689. Crossref |
||||
Weston RJ, Mitchell KR, Allen KL (1999). Antibacterial phenolic components of New Zealand manuka honey. Food chemistry, 64:295-301. Crossref |
||||
Wooton M, Edwards RA, Rows EA (1978): Antibacterial properties of some Australian honeys. Food Technology in Australia (May): 175-176. | ||||
Yao L, Datta N, Tomás-Barberán FA, Ferreres F, Martos I, Singanusong R (2003). Flavonoids, phenolic acids and abscisic acid in Australian and New Zealand Leptospermum honeys. Food Chemistry, 81:159-168. Crossref |
||||
Zalibera M, Stasko A, Slebodav’a A, Jancovicov’a V, Cerm’akov’a T, Brezov’a V (2008). Antioxidant and radical-scavenging activities of Slovak honeys: an electron paramagnetic resonance study. Food Chem. 110:512-521. Crossref |
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