Advanced search
Publication Cover
Food Reviews International Volume 29, 2013 - Issue 3
Submit an article Journal homepage
937
Views
28
CrossRef citations to date
0
Altmetric
Original Articles

Technological and Bioactive Functionalities of Canola Meal Proteins and Hydrolysates

Adeola M. Alashi Graham Centre for Agricultural Innovation, Charles Sturt University, Wagga Wagga, New South Wales, Australia; School of Agricultural and Wine Sciences, Charles Sturt University, Wagga Wagga, New South Wales, AustraliaCorrespondence[email protected]
,
Christopher L. Blanchard Graham Centre for Agricultural Innovation, Charles Sturt University, Wagga Wagga, New South Wales, Australia; School of Biomedical Sciences, Charles Sturt University, Wagga Wagga, New South Wales, Australia
,
Rodney J. Mailer Graham Centre for Agricultural Innovation, Charles Sturt University, Wagga Wagga, New South Wales, Australia
&
Samson O. Agboola Graham Centre for Agricultural Innovation, Charles Sturt University, Wagga Wagga, New South Wales, Australia; School of Agricultural and Wine Sciences, Charles Sturt University, Wagga Wagga, New South Wales, Australia
Pages 231-260 | Published online: 28 May 2013

References

  • Tan , S.H. , Mailer , R.J. , Blanchard , C.L. and Agboola , S.O. 2011 . Canola proteins for human consumption: Extraction, profile, and functional properties . J. Food Sci. , 76 : R16 – R28 .
  • United States Department of Agriculture (USDA) . 2010 . Soybeans and Oil Crops: Canola , Washington , DC : USDA Economic Research Service .
  • Howard , B . 1993 . Oils and Oilseeds to 1996: The New Patterns of Supply and Demand , New York and London : Economist Intelligence Unit .
  • Van Etten , C.H. , Daxenbichler , M.E. and Wolff , I.A. 1969 . Natural glucosinolates (thioglucosides) in foods and feeds . J. Agric. Food Chem. , 17 : 483 – 491 .
  • Khattab , R.Y. and Arntfield , S.D. 2009 . Functional properties of raw and processed canola meal . LWT Food Sci. Technol. , 42 : 1119 – 1124 .
  • Pastuszewska , B. , Jablecki , G. , Swiech , E. , Buraczewska , L. and Ochtabinska , A. 2000 . Nutritional value of rapeseed meal containing lecithin gums precipitated with citric acid . Anim. Feed Sci. Technol. , 86 : 117 – 123 .
  • Kumar , V. , Sinha , A.K. , Makkar , H.P.S. and Becker , K. 2010 . Dietary roles of phytate and phytase in human nutrition: A review . Food Chem. , 120 : 945 – 959 .
  • Vucenik , I. , Sakamoto , K. , Bansal , M. and Shamsuddin , A.M. 1993 . Inhibition of rat mammary carcinogenesis by inositol hexaphosphate (phytic acid). A pilot study . Cancer Lett , 75 : 95 – 102 .
  • Matthäus , B. 2002 . Antioxidant activity of extracts obtained from residues of different oilseeds. J. Agric . Food Chem. , 50 : 3444 – 3452 .
  • Aider , M. and Barbana , C. 2011 . Canola proteins: Composition, extraction, functional properties, bioactivity, applications as a food ingredient and allergenicity: A practical and critical review . Trends Food Sci. Technol. , 22 : 21 – 39 .
  • Jensen , S.K. , Liu , Y.B. and Eggum , B.O. 1995 . The effect of heat treatment on glucosinolates and nutritional value of rapeseed meal in rats . Anim. Feed Sci. Technol. , 53 : 17 – 28 .
  • Naczk , M. , Diosady , L.L. and Rubin , L.J. 1986 . The phytate and complex phenol content of meals produced by alkanol-ammonia/hexane extraction of canola . Lebensm.-Wiss. U. Technol. , 19 : 13 – 16 .
  • Schwenke , K.D. , Kroll , J. , Lange , R. , Kujawa , M. , Schnaak , W. and Steinert , A. 1990 . Preparation of detoxified high functional rapeseed flours . J. Sci. Food Agric. , 51 : 391 – 405 .
  • Zhou , B. , He , Z.Q. , Yu , H.M. and Mukherjee , K.D. 1990 . Proteins from double-zero rapeseed . J. Agric. Food Chem. , 38 : 690 – 694 .
  • Jensen , S.K. , Olsen , H.S. and Sørensen , H. 1990 . “ Aqueous enzymatic processing of rapeseed for production of high quality products ” . In Rapeseed/Canola: Production, Chemistry, Nutrition and Processing TechnologyVan Nostrand Reinhold Publisher Edited by: Shahidi , F. 331 – 343 . New York
  • Cosgrove , D.J. 1980 . “ Inositol Phosphates: Their Chemistry, Biochemistry and Physiology ” . In Elsevier Science 191 New York
  • Vioque , J. , Sánchez-Vioque , R. , Clemente , A. , Pedroche , J. and Millán , F. 2000 . Partially hydrolyzed rapeseed protein isolates with improved functional properties . J. Am. Oil Chem. Soc. , 77 : 447 – 450 .
  • Bos , C. , Airinei , G. , Mariotti , F. , Benamouzig , R. , Bérot , S. , Evrard , J. , Fénart , E. , Tomé , D. and Gaudichon , C. 2007 . The poor digestibility of rapeseed protein is balanced by its very high metabolic utilization in humans . J. Nutr. , 137 : 594 – 600 .
  • Paulson , A.T. and Tung , M.A. 1989 . Thermally induced gelation of succinylated canola protein isolate . J. Agric. Food Chem. , 37 : 319 – 326 .
  • Vioque , J. , Sánchez-Vioque , R. , Clemente , A. , Pedroche , J. , Bautista , J. and Millan , F. 1999 . Production and characterization of an extensive rapeseed protein hydrolysate . J. Am. Oil Chem. Soc. , 76 : 819 – 823 .
  • Cumby , N. , Zhong , Y. , Naczk , M. and Shahidi , F. 2008 . Antioxidant activity and water-holding capacity of canola protein hydrolysates . Food Chem. , 109 : 144 – 148 .
  • Farges-Haddani , B. , Tessier , B. , Chenu , S. , Chevalot , I. , Harscoat , C. , Marc , I. , Goergen , J.L. and Marc , A. 2006 . Peptide fractions of rapeseed hydrolysates as an alternative to animal proteins in CHO cell culture media . Process Biochem. , 41 : 2297 – 2304 .
  • Pinterits , A. and Arntfield , S.D. 2007 . The effect of limited proteolysis on canola protein gelation . Food Chem. , 102 : 1337 – 1343 .
  • Panyam , D. and Kilara , A. 1996 . Enhancing the functionality of food proteins by enzymatic modification . Trends Food Sci. Technol. , 7 : 120 – 125 .
  • Wu , J. , Aluko , R.E. and Muir , A.D. 2008 . Purification of angiotensin I converting enzyme-inhibitory peptides from the enzymatic hydrolysate of defatted canola meal . Food Chem. , 111 : 942 – 950 .
  • Rutherfurd-Markwick , K.J. and Moughan , P.J. 2005 . Bioactive peptides derived from food . J. Am. Oil Chem. Soc. Int. , 88 : 955 – 966 .
  • Moure , A. , Sineiro , J. , Domínguez , H. and Parajó , J.C. 2006 . Functionality of oilseed protein products: A review . Food Res. Int , 39 : 945 – 963 .
  • Moure , A. , Domínguez , H. and Parajó , J.C. 2005 . Fractionation and enzymatic hydrolysis of soluble protein present in waste liquors from soy processing . J. Agric. Food Chem. , 53 : 7600 – 7608 .
  • Pinciroli , M. , Vidal , A.A. , Añón , M.C. and Martínez , E.N. 2009 . Comparison between protein functional properties of two rice cultivars . LWT Food Sci. Technol. , 42 : 1605 – 1610 .
  • Tan , S.H. , Mailer , R.J. , Blanchard , C.L. and Agboola , S.O. 2011 . Extraction and characterisation of proteins fractions from Australian canola meals . Food Res Int. , 44 : 1075 – 1082 .
  • Höglund , A.S. , Rodin , J. , Larsson , E. and Rask , L. 1992 . Distribution of napin and cruciferin in developing rape seed embryos . Plant Physiol. , 98 : 509 – 515 .
  • Pour-El , A. 1981 . Protein functionality: Classification, definition, and methodology of protein functionality in foods . Am. Chem. Soc. , 147 : 1 – 19 .
  • Kinsella , J.E. and Whitehead , D.M. 1989 . Proteins in whey: Chemical, physical, and functional properties . Adv. Food Nutr. Res. , 33 : 343 – 438 .
  • Kinsella , J.E. and Condon , J.J. 1982 . “ Relationship between structure and functional properties of food proteins ” . In Food Proteins , Edited by: Fox , P.F. 51 – 103 . New York : Applied Science Publishers .
  • Damodaran , S. and Paraf , A. 1997 . Food Proteins and Their Applications , 1 – 24 . New York : New York: Marcel Dekker .
  • Mattos , C. 2002 . Protein-water interactions in a dynamic world . Trends Biochem. Sci. , 27 : 203 – 208 .
  • Mohamed , I.M. 1994 . Physiochemical and functional properties of protein hydrolysates in nutritional products . Food Technol. Champaign , 48 : 50 – 60 .
  • Kinsella , J.E. 1979 . Fuctional properties of soy proteins . J. Am. Oil Chem. Soc. , 56 : 242 – 258 .
  • Bigelow , C. C. 1967 . On the average hydrophobicity of proteins and the relation between it and protein structure . J. Theor. Biol. , 16 : 187 – 211 .
  • Pedroche , J. , Megías , C. , Yust , M.D.M. , Lqari , H. , Alaíz Barragán , M. , Girón-Calle , J , Alaíz , M. , Vioque , J. and Millán , F. 2004 . Utilisation of rapeseed protein isolates for production of peptides with angiotensin-I-converting enzyme inhibitory activity . Grasas Aceites , 55 : 354 – 358 .
  • Ghodsvali , A. , Khodaparast , M.H. , Vosoughi , M. and Diosady , L.L. 2005 . Preparation of canola protein materials using membrane technology and evaluation of meals functional properties . Food Res. Int. , 38 : 223 – 231 .
  • Aluko , R.E. , McIntosh , T. and Katepa-Mupondwa , F. 2005 . Comparative study of the polypeptide profiles and functional properties of Sinapis alba and Brassica juncea seed meals and protein concentrates . J. Sci. Food Agric. , 85 : 1937 – 1937 .
  • Kroll , J. 1991 . Selected functional properties of detoxified rapeseed protein preparations effected by phytic acid . Food/Nahrung , 35 : 619 – 624 .
  • Yoshie-Stark , Y. , Wada , Y. and Wäsche , A. 2008 . Chemical composition, functional properties, and bioactivities of rapeseed protein isolates . Food Chem. , 107 : 32 – 39 .
  • Dev , D.K. and Mukherjee , K.D. 1986 . Functional properties of rapeseed protein products with varying phytic acid contents . J. Agric. Food Chem. , 34 : 775 – 780 .
  • Damodaran , S. 1986 . “ Interrelationship of molecular and functional properties of food proteins ” . In Food Proteins , Edited by: Kinsella , J.E. and Soucie , W.G. 21 – 52 . Champaign , IL : American Oil Chemists' Society .
  • Ferry , J.D. 1980 . Viscoelastic Properties of Polymers , New York : John Wiley & Sons .
  • Oakenfull , D. , Pearce , J. and Burley , R.W. 1997 . “ Protein gelation ” . In Food Proteins And Their Applications , Edited by: Damodaran , S. and Paraf , A. 111 – 142 . New York : Marcel Decker .
  • Pinterits , A. and Arntfield , S.D. 2008 . Improvement of canola protein gelation properties through enzymatic modification with transglutaminase . LWT Food Sci. Technol , 41 : 128 – 138 .
  • Hyun , H.E. and Kang , Y.J. 1999 . Gelation of rapeseed protein induced with microbial transglutaminase . Korean J. Food Sci. Technol. , 31 : 1262 – 1267 .
  • Arntfield , S.D. , Murray , E.D. and Ismond , M.A.H. 1999 . Dependance of thermal properteis as well as network microstructure and rheology on protien concentration for ovalbumin and vicilin . J. Texture Stud. , 21 : 191 – 212 .
  • Léger , L.W. and Arntfield , S.D. 1993 . Thermal gelation of the 12s canola globulin. J. Am. Oil Chem. Soc , 70 : 853 – 861 .
  • Barnes , H.A. , Hutton , K.F. and Walters , K. 1989 . An introduction to rheology . J. Fluid Mech. , 228 : 694 – 695 .
  • Mahajan , A. and Dua , S. 1994 . Physicochemical properties of rapeseed (var. Toria) seed proteins: Viscosity and ionizable groups . J. Agric. Food Chem. , 42 : 1411 – 1414 .
  • Schwenke , K.D. , Linow , K.J. and Zirwer , D. 1986 . Modification of the oligomeric structure of 11S globulin from sunflower (Helianthus annuus L.) and rape (Brassica napus L.) seeds by succinylation . Food/Nahrung , 30 : 263 – 270 .
  • Paulson , A.T. and Tung , M.A. 1988 . Rheology and microstructure of succinylated canola protein isolate . J. Food Sci. , 53 : 821 – 825 .
  • Friberg , S. , Larsson , K. and Sjöblom , J. 2004 . Food Emulsions , 4th , 2 – 3 . New York : Marcel Dekker .
  • Dalgleish , D.G. 1997 . Adsorption of protein and the stability of emulsions. Trends Food Sci. Technol , 8 : 1 – 6 .
  • Eke , O.S. and Akobundu , E.N.T. 1993 . Functional properties of african yam bean (Sphenostylis stenocarpa) seed flour as affected by processing . Food Chem. , 48 : 337 – 340 .
  • Halling , P.J. 1981 . Protein-stabilised foams and emulsions . CRC Crit. Rev Food Sci. Nutr. , 15 : 155 – 203 .
  • Aluko , R.E. and McIntosh , T. 2001 . Polypeptide profile and functional properties of defatted meals and protein isolates of canola seeds . J. Sci. Food Agric. , 81 : 391 – 396 .
  • Kinsella , J.E. , Damodaran , S. and German , B. 1985 . Physicochemical and functional properties of oilseed proteins with emphasis on soy proteins . New Protein Foods , 5 : 107 – 179 .
  • Lakkis , J. and Villota , R. 1992 . Comparative performance of chemically and enzymatically modified whey proteins . Food Chem. , 43 : 93 – 105 .
  • Mahajan , A. and Dua , S. 1998 . Improvement of functional properties of rapeseed (var Toria) meal by reducing antinutritional factors employing enzymatic modification . Food Hydrocoll. , 12 : 349 – 355 .
  • Jiang , J. , Chen , J. and Xiong , Y.L. 2009 . Structural and emulsifying properties of soy protein isolate subjected to acid and alkaline pH-shifting processes . J. Agric. Food Chem. , 57 : 7576 – 7583 .
  • Mahajan , A. , Dua , S. and Bhardwaj , S. 2002 . Simple physical treatment as an effective tool to improve the functional properties of rapeseed (Brassica campestris var. Toria) and sesame seed (Sesamum indicum) meals . Int. J. Food Sci. Nutr. , 53 : 455 – 463 .
  • Darmodaran , S. , Hettiarachchy , N.S. and Zeigler , G.R. 1994 . Protein Functionality in Food Systems , 20 – 22 . New York : Marcel Dekker .
  • Mahajan , A. and Dua , S. 1998 . Role of enzymatic treatments in modifying the functional properties of rapeseed (Brassica campestris var. Toria) meal . Int. J. Food Sci. Nutr. , 49 : 435 – 440 .
  • Richert , S.H. , Morr , C.V. and Cooney , C.M. 1974 . Effect of heat and other factors upon foaming properties of whey protein concentrates . J. Food Sci. , 39 : 42 – 48 .
  • Chobert , J.M. , Sitohy , M.Z. and Whitaker , J.R. 1988 . Solubility and emulsifying properties of caseins modified enzymatically by Staphylococcus aureus V8 protease . J. Agric. Food Chem. , 36 : 220 – 224 .
  • Howell , N.K. 1996 . “ Chemical and enzymatic modifications ” . In Food Proteins Properties and Characterization , Edited by: Nakai , S. and Modler , H.W. 235 – 280 . New York : Wiley-VCH .
  • Dua , S. , Mahajan , A. and Mahajan , A. 1996 . Improvement of functional properties of rapeseed (Brassica campestris var. Toria) preparations by chemical modification . J. Agric. Food Chem. , 44 : 706 – 710 .
  • Ponnaampalam , R. , Deslie , J. , Gagne , Y. and Amiot , J. 1990 . The functional and nutritional properties of acylated rapeseed proteins . J. Am. Oil Chem. Soc. , 67 : 531 – 536 .
  • Paulson , A.T. and Tung , M.A. 1988 . Emulsification properties of succinylated canola protein isolate . J. Food Sci. , 53 : 817 – 820 .
  • Adler-Nissen , J. 1986 . “ A review of food protein hydrolysis-specific areas ” . In Enzymatic Hydrolysis of Food Proteins , Edited by: Adler-Nissen , J. 57 – 109 . London : Elsevier Applied Science Publishers .
  • Marczak , E.D. , Usui , H. , Fujita , H. , Yang , Y. , Ykoo , M. , Lipkowski , A.W. and Yoshikawa , M. 2003 . New antihypertensive peptides isolated from rapeseed . Peptides , 24 : 791 – 798 .
  • Pan , M. , Jiang , T.S. and Pan , J.L. 2009 . Antioxidant activities of rapeseed protein hydrolysates . Food Bioprocess Technol. , 4 : 1114 – 1152 .
  • Schwenke , K.D. 1994 . “ Rapeseed proteins ” . In New and Developing Sources of Food Proteins , Edited by: Hudson , B.J.F. 281 – 306 . London : Chapman & Hall .
  • Tkachuk , R. 1981 . Oil and protein analysis of whole rapeseed kernels by near infrared reflectance spectroscopy . J. Am. Oil Chem. Soc. , 58 : 819 – 822 .
  • Rape Requirement Fund (RRF) . 1986 . Rapes of New Varieties. In Breeding, Cultivation, and Use. Gelseukirchen-assessment , Germany : Bonn .
  • Ohlson , R. and Anjou , K. 1979 . Rapeseed protein products . J. Am. Food Chem. Soc. , 56 : 431 – 437 .
  • Sawar , G. , Blair , R. , Friedman , M. , Gumbmann , M.R. , Hackler , L.R. , Pellett , P.L. and Smith , T.K. 1984 . Inter- and intra-laboratory variability in rat growth assays for estimating protein quality in foods . J. Agric. Food Chem. , 67 : 974 – 976 .
  • Mnzava , N.A. and Olsson , K. 1990 . Studies on tropical vegetables seeds, amino, fatty acid and glucosinolate profile of ethiopian mustards (Brassica carinata Braun) . Food Chem. , 35 : 229 – 235 .
  • Klockeman , D.M. , Toledo , R. and Sims , K.A. 1997 . Isolation and characterization of defatted canola meal protein . J. Agric. Food Chem. , 45 : 3867 – 3870 .
  • Shahidi , F. 1990 . Canola and Rapeseed: Production, Chemistry, Nutrition and Processing , 18 London : Chapman and Hall .
  • Friedman , M. 1996 . Nutritional value of proteins from different food sources: A review . J. Agric. Food Chem. , 44 : 6 – 29 .
  • Larbier , Z.M. , Chagneau , A.M. and Lessire , M. 1991 . Bioavailability of lysine in rapeseed and soyabean meals determined by digestibility trial in cockerels and chick growth assay . Anim. Feed Sci. Technol. , 35 : 237 – 246 .
  • Wu , W. , Williams , W.P. , Kunkel , M.E. , Acton , J.C. , Huang , Y. , Wardlaw , F.B. and Grimes , L.W. 1996 . Amino acid availability and availability-corrected amino acid score of red kidney beans (Phaseolus vulgaris L.) . J. Agric. Food Chem , 44 : 1296 – 1301 .
  • Delisle , J. , Amiot , J. , Brisson , G.J. and Lacroix , M. 1983 . Improvement of rapeseed protein nutritional value . Plant Food. Human Nutr. , 33 : 173 – 177 .
  • Delisle , J. , Amiot , J , Dauphin , F. , Roy , A. , Brisson , G.J. and Jones , J.D. 1987 . Nutritive value of rapeseed proteins and fractions supplemented with methionine and tyrosine in rats . Plant Food. Human Nutr. , 37 : 109 – 116 .
  • Mwachireya , S.A. , Beames , R.M. , Higgs , D.A. and Dosanjh , B.S. 1999 . Digestibility of canola protein products derived from the physical, enzymatic and chemical processing of commercial canola meal in rainbow trout . Oncorhynchus mykiss (walbaum) held in fresh water. Aquacult. Nutr. , 5 : 73 – 82 .
  • Mariscal-Landín , G. , Reis de Souza , T.C. , Parra , S. and Aguilera , B. 2008 . Ileal digestibility of protein and amino acids from canola meal in weaned piglets and growing pigs . Livestock Sci. , 116 : 53 – 62 .
  • Anderson , J.S. , Higgs , D.A. , Beames , R.M. and Rowshandeli , M. 1997 . Fish meal quality assessment for atlantic salmon (Salmo salar L.) reared in sea water . Aquacult. Nutr. , 3 : 25 – 38 .
  • Parsons , C.M. , Hashimoto , K. , Wedekind , K.J. , Han , Y. and Baker , D.H. 1992 . Effect of overprocessing on availabilty of amino acids and energy in soybean meal . Poult. Sci. , 71 : 133 – 150 .
  • Krissansen , G.W. 2007 . Emerging health properties of whey proteins and their clinical implications . J. Am. Coll. Nutr. , 26 : 713S – 723S .
  • Shahidi , F. and Zhong , Y. 2008 . Bioactive peptides . J. Am. Oil Chem. Soc. Int. , 91 : 914 – 931 .
  • Adler-Nissen , J. 1976 . Enzymic hydrolysis of proteins for increased solubility . J. Agric. Food Chem. , 24 : 1090 – 1093 .
  • Robinson , D.S. 1987 . “ Enzyme catalysed hydrolysis of proteins ” . In Food Biochemistry and Nutritional Values , Edited by: Robinson , D.S. 152 – 179 . London : Longman Scientific and Technical .
  • Pedroche , J. , Yust , M.D.M. , Giron-Calle , J. , Alaiz , M. , Millan , F. and Vioque , J. 2002 . Utilisation of chickpea protein isolates for production of peptides with angiotensin I converting enzyme ACE-inhibitory activity . J. Sci. Food Agric. , 82 : 960 – 965 .
  • Meisel , H. 1998 . Overview on milk protein-derived peptides . Int. Dairy J. , 8 : 363 – 373 .
  • Wu , J. , Aluko , R.E. and Muir , A.D. 2009 . Production of angiotensin I converting enzyme inhibitory peptides from defatted canola meal . Bioresour. Technol. , 100 : 5283 – 5287 .
  • Spellman , D. , McEvoy , E. , O'Cuinn , G. and FitzGerald , R.J. 2003 . Proteinase and exopeptidase hydrolysis of whey protein: Comparison of the TNBS, OPA and PH stat methods for quantification of degree of hydrolysis . Int. Dairy J. , 13 : 447 – 453 .
  • Wang , W. and De Mejia , E.G. 2005 . A new frontier in soy bioactive peptides that may prevent age-related chronic diseases . Comp. Rev. Food Sci. Food Saf. , 4 : 63 – 78 .
  • Udenigwe , C.C. , Lin , Y.S. , Hou , W.C. and Aluko , R.E. 2009 . Kinetics of the inhibition of renin and angiotensin I-converting enzyme by flaxseed protein hydrolysate fractions . J. Funct. Foods , 1 : 199 – 207 .
  • Agboola , S.O. and Aluko , R.E. 2009 . Isolation and structural properties of the major protein fraction in Australian wattle seed (Acacia victoriae Bentham) . Food Chem. , 115 : 1187 – 1193 .
  • Lin , F.Y. , Chen , W.Y. , Ruaan , R.C. and Huang , H.M. 2000 . Microcalorimetric studies of interactions between proteins and hydrophobic ligands in hydrophobic interaction chromatography: Effects of ligand chain length, density and the amount of bound protein . J. Chromatogr. A , 872 : 37 – 47 .
  • Megías , C. , Pedroche , J. , Yust , M.D.M. , Girón-Calle , J. , Alaiz , M. , Millán , F. and Vioque , J. 2007 . Affinity purification of copper-chelating peptides from sunflower protein hydrolysates. J. Agric . Food Chem. , 55 : 6509 – 6514 .
  • Megías , C. , Pedroche , J. , Yust , M.D.M. , Alaiz , M. , Girón-Calle , J. , Millán , F. and Vioque , J. 2006 . Affinity purification of angiotensin converting enzyme inhibitory peptides using immobilized ACE . J. Agric. Food Chem. , 54 : 7120 – 7124 .
  • Megías , C. , Pedroche , J. , Yust , M.D.M. , Alaiz , M. , Girón-Calle , J. , Millán , F. and Vioque , J. 2006 . Immobilization of angiotensin-converting enzyme on glyoxyl-agarose . J. Agric. Food Chem. , 54 : 4641 – 4645 .
  • Pouliot , Y. , Gauthier , S.F. and Groleau , P.E. 2006 . “ Nutraceutical proteins and peptides in health and disease ” . In Bioactive Proteins and Peptides as Functional Foods and Nutraceuticals , Edited by: Shahidi , M.F. 639 – 658 . Boca Raton , FL : Taylor & Francis Group .
  • Pihlanto-Leppälä , A. 2001 . Bioactive peptides derived from bovine whey proteins: Opioid and ACE inhibitory peptides . Trends Food Sci. Technol. , 11 : 347 – 356 .
  • Hartmann , R. and Meisel , H. 2007 . Food derived peptides with biological activity: From research to food applications . Curr. Opin. Chem. Biol. , 18 : 163 – 169 .
  • Pellegrini , A. 2003 . Antimicrobial peptides from food proteins . Curr. Pharm. Des. , 9 : 1225 – 1238 .
  • Meisel , H. 2004 . Multifunctional peptides encrypted in milk proteins. BioFactors , 21 : 55 – 61 .
  • Ondetti , M. , Rubin , B. and Cushman , D. 1977 . Design of specific inhibitors of angiotensin-converting enzyme . New class of orally active antihypertensive agents. Science , 196 : 441 – 444 .
  • Chen , J.R. , Yang , S.C. , Suetsuna , K. and Chao , J.C.J. 2004 . Soybean protein-derived hydrolysate affects blood pressure in spontaneously hypertensive rats . J. Food Biochem. , 28 : 61 – 73 .
  • Yoshie-Stark , Y. , Wada , Y. , Schott , M. and Wäsche , A. 2006 . Functional and bioactive properties of rapeseed protein concentrates and sensory analysis of food application with rapeseed protein concentrates . LWT Food Sci. Technol. , 39 : 503 – 512 .
  • Vermeirssen , V. , Van Camp , J. and Verstraete , W. 2005 . Fractionation of angiotensin I converting enzyme inhibitory activity from pea and whey protein in vitro gastrointestinal digests . J. Sci. Food Agric. , 85 : 399 – 405 .
  • Meisel , H. , Walsh , D.J. , Murray , B. and FitzGerald , R.J. 2006 . “ ACE inhibitory peptides ” . In Nutraceutical Proteins and Peptides in Health and Disease , Edited by: Mine , Y. and Shahidi , F. 269 – 315 . London : CRC–Taylor and Francis Group .
  • Fujita , H. , Yokoyama , K. and Yoshikawa , M. 2000 . Classification and antihypertensive activity of angiotensin I converting enzyme inhibitory peptides derived from food proteins . J. Food Sci. , 65 : 564 – 569 .
  • Halliwell , B. 1990 . How to characterise a biological antioxidant . Free Radic. Resour. Commun. , 9 : 1 – 32 .
  • Chen , H.M. , Muramoto , K. , Yamauchi , F. , Fujimoto , K. and Nokihara , K. 1998 . Antioxidative properties of histidine-containing peptides designed from peptide fragments found in the digests of a soybean protein . J. Agric. Food Chem. , 46 : 49 – 53 .
  • Pena-Ramos , E.A. and Xiong , Y.L. 2001 . Antioxidative activity of whey protein hydrolysates in a liposomal system . J. Dairy Sci. , 84 : 2577 – 2583 .
  • Kong , B. and Xiong , Y.L. 2006 . Antioxidant activity of zein hydrolysates in a liposome system and the possible mode of action . J. Agric. Food Chem. , 54 : 6059 – 6068 .
  • Rice-Evans , C. and Miller , N.J. 1994 . Total antioxidant status in plasma and body fluids . Methods Enzymol. , 234 : 279 – 293 .
  • Brand-Williams , W. , Cuvelier , M.E. and Berset , C. 1995 . Use of a free radical method to evaluate antioxidant activity . LWT Food Sci. Technol. , 28 : 25 – 30 .
  • Ou , B. , Hampsch-Woodill , M. and Prior , R.L. 2001 . Development and validation of an improved oxygen radical absorbance capacity assay using fluorescein as the fluorescent probe . J. Agric. Food Chem. , 49 : 4619 – 4626 .
  • Benzie , I.F.F. 1996 . An automated, specific, spectrophotometric method for measuring ascorbic acid in plasma (EFTSA) . Clin. Biochem. , 29 : 111 – 116 .
  • Amarowicz , R. 2008 . Antioxidant activity of protein hydrolyastes . Eur. J. Lipid Sci. Technol. , 110 : 489 – 490 .
  • Zhang , S.B. , Wang , Z. and Xu , S.Y. 2008 . Antioxidant and antithrombotic activities of rapeseed peptides . J. Am. Oil Chem. Soc. , 85 : 521 – 527 .
  • Xue , Z. , Yu , W. , Liu , Z. , Wu , M. , Kou , X. and Wang , J. 2009 . Preparation and antioxidative properties of a rapeseed (Brassica napus) protein hydrolysate and three peptide fractions . J. Agric. Food Chem. , 57 : 5287 – 5293 .
  • Cushman , D.W. and Cheung , H.S. 1971 . Spectrophotometric assay and properties of the angiotensin-converting enzyme of rabbit lung . Biochem. Pharmacol , 20 : 1637 – 1648 .
  • Hayakari , M. , Kondo , Y. and Izumi , H. 1978 . A rapid and simple spectrophotometric assay of angiotensin-converting enzyme. Anal . Biochem. , 84 : 361 – 369 .

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.