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International Journal of Food Sciences and Nutrition Volume 45, 1994 - Issue 1
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Original Article

Possible additives for extension of shelf-life of single-strength reconstituted citrus juice aseptically packaged in laminated cartons

M. G. Roig Research Laboratory for the Chemistry of Bioactive Carbohydrates and Proteins, School of Chemistry, Birmingham University, B15 2TT, UK
,
J. F. Bello Departamento de Quimica Fisica, Facultad de Farmacia, Universidad de Salamanca, Apartado 449, Salamanca, 37080, Spain
,
Z. S. Rivera Research Laboratory for the Chemistry of Bioactive Carbohydrates and Proteins, School of Chemistry, Birmingham University, B15 2TT, UK
&
J. F. Kennedy Research Laboratory for the Chemistry of Bioactive Carbohydrates and Proteins, School of Chemistry, Birmingham University, B15 2TT, UK
Pages 15-28 | Published online: 05 Aug 2009

References

  • Birch G G, Pepper T. Protection of vitamin C by sugars and their hydrogenated derivatives. J. Agric. Food Chem. 1983; 31: 980–985
  • Bissett O W, Berry R E. Ascorbic acid retention in orange juice as related to container type. J. Food Sci. 1975; 40: 178–180
  • Braddock R J, Marcy J E. Quality of freeze concentrated orange juice. J. Food Sci. 1987; 52: 159–162
  • Braddock R J, Sadler G D. Chemical changes in citrus juices during concentration processes. Am. Chem. Soc. Symp. Ser. 1989; 405: 293–304
  • Briggs J, Finch P, Matulewicz M C, Weigel H. Complexes of copper (II), calcium, and other metal-ions with carbohydrates. Thin-layer ligand-exchange chromatography and determination of relative stabilities of complexes. Carbohydr. Res. 1981; 97: 181–188
  • Charoenrein S, Reid D S. Effects of freezing conditions and storage-temperature on the stability of frozen green beans. Am. Chem. Soc. Symp. Ser. 1989; 405: 226–238
  • Chempakam B. Distribution of ascorbic acid and ascorbic acid oxidase activity in the developing cashew apple (Anarcadium occidentale L). J. Hortic. Sci. 1983; 58: 447–448
  • Clegg K M, Morton A D. Phenolic compounds of blackcurrant juice and their protective effect on ascorbic acid. I. Characterization and estimation of phenolic compounds in blackcurrant juice. J. Food Technol. 1968; 3: 277–284
  • Deshpande S S, Cheryan M, Sathe S K, Salunkhe D K. Freeze concentration of fruit juices. CRC Crit. Rev. Food Sci. Nutr. 1984; 20: 173
  • Eison-Perchonok M H, Downes T W. Kinetics of ascorbic-acid autoxidation as a function of dissolved-oxygen concentration and temperature. J. Food Sci. 1982; 47: 765
  • Ellinger R H. CRC Handbook of Food Additives2nd edn, T E Furia. The Chemical Rubber Co. 1972; 617–780
  • Food Additives and Contaminants Committee. Food Additives and Contaminants Committee Report on the Review of Sweeteners in Food. HMSO, London 1982, FAC/REP/34
  • Griffiths N M, Mather A M, Fenwick G R, Frijters J E R, Merz J H. An effect of sulfur dioxide on the odour of mustard paste. Chem. Ind. 1980; 239–240
  • Henshall J D. Vitamin C (ascorbic acid), J N Gounsell, D H Hornig. Applied Science Publishers Ltd., London 1981; 123–137
  • Huelin F E, Coggiola I M, Sidhu G S, Kennett B H. Anaerobic decomposition of ascorbic acid in the pH range of foods and in more acid solutions. J. Sci. Food Agric. 1971; 22: 540–542
  • Kaanane A, Kane D, Labuza T P. Time and temperature effect on stability of Moroccan processed orange juice during storage. J. Food Sci. 1978; 53: 1470–1473; 1489
  • Kacem B, Matthews R F, Crandall P G, Cornell J A. Nonenzymatic browning in aseptically packaged orange drinks. Effect of amino acids, deaer-ation and anaerobic storage. J. Food Sci. 1987a; 52: 1665–1667
  • Kacem B, Cornell J A, Marshall M R, Shireman R B, Matthews R F. Nonenzymatic browning in aseptically packaged orange drinks: Effect of ascorbic acid, amino acids and oxygen. J. Food Sci. 1987b; 52: 1668–1672
  • Kagawa T. Enzymatic studies on ascorbic acid catabolism in animals. J. Biochem. 1962; 51: 134–144
  • Kanner J, Harel S, Ben-Shalom N. Ascorbate oxidase in mature orange peel. J. Food Sci. 1981; 46: 1407–1409
  • Kanner J, Fishbein J, Shalom P, Harel S, Ben-Gera I. Storage stability of orange juice concentrate packaged aseptically. J. Food Sci. 1982; 47: 429–431; 436
  • Kanner J, Shapira N. Oxygen- and metal-ion-dependent nonenzymic browning of grapefruit juice. Am. Chem. Soc. Symp. Ser. 1989; 405: 55–64
  • Kurata T, Sakurai Y. Degradation of L-ascorbic acid and mechanism of enzymic browning reaction. III. Oxidative degradation of L-ascorbic acid. Degradation of dehydro-L-ascorbic acid. Agric. Biol. Chem. 1967a; 31: 177–184
  • Kurata T, Sakurai Y. Degradation of L-ascorbic acid and mechanism of non-enzymic browning reaction. II. Nonoxidative degradation of L-ascorbic acid, including the formation of 3–deoxy-L-pentosone. Agric. Biol. Chem. 1967b; 31: 170–176
  • Laing B M, Schlueter D L, Labuza T P. Degradation kinetics of ascorbic acid at high temperature and water activity. J. Food Sci. 1978; 43: 1440–1443
  • Lee H S, Nagy S. Quality changes and nonenzymic browning intermediates in grapefruit juice during storage. J. Food Sci. 1988; 53: 168
  • Liao M L, Seib P A. Selected reactions of L-ascorbic acid related to foods. Food Technol. 1987; 11: 104–107
  • Lloyd L L, Warner F P, Kennedy J F, White C A. Quantitative analysis of vitamin-C (L-ascorbic acid) by ion suppression reversed phase chromatography. Food Chem. 1988; 28: 257–268
  • Lohmann W. Ascorbic acid and cancer. Ann. NY Acad. Sci. 1987; 498: 402–417
  • Maeda E E, Mussa D M D N. The stability of vitamin-C (L-ascorbic acid) in bottled and canned orange juice. Food Chem. 1986; 22: 51–58
  • Martell A E. Ascorbic acid: chemistry, metabolism and uses, P A Seib, B M Tolberg. Advances in Chemistry Series, No. 200, American Chemical Society, Washington, DC 1982; 153–178
  • Mitchell E L. A review of aseptic processing. Adv. Food Res. 1988; 32: 1–37
  • Montgomery M W. Cysteine as an inhibitor of browning in pear juice concentrate. J. Food Sci. 1983; 48: 951–952
  • Nagy S. Vitamin C contents of citrus fruit and their products: a review. J. Agric. Food Chem. 1980; 28: 8–18
  • Namiki M, Terao A, Ueda S, Hayashi T. Amino-carbonyl reactions in food and biological systems, M Fujimaki, M Namiki, H Kato. Kodansha Ltd, Tokyo 1986; 105–114, Amsterdam: Else-vier Science Publishers
  • Noel G L, Robberstad M T. Stability of vitamin C in canned apple juice and orange juice under refrigerated conditions. Food Technol. 1963; 17: 947
  • Passy N, Mannheim C H. Tropical foods chemistry and nutrition, J Inglett, G Charalambous. Academic Press, New York 1979; volume 1: 141
  • Robertson G L, Samaniego C M L. Effect of initial dissolved-oxygen levels on the degradation of ascorbic-acid and the browning of lemon juice during storage. J. Food Sci. 1986; 51: 184
  • Sizer C E, Waugh P L, Edstam S, Ackermann P. Maintaining flavour and nutrient quality of aseptic orange juice. Food Technol. 1988; 42: 152
  • Squires S R, Hanna J G. Concentration and stability of ascorbic acid in marketed reconstituted orange juice. J. Agric. Food Chem. 1979; 27: 639–641
  • Tannenbaum S R. Principles of Food Science, O R Fennema. Marcel Dekker Inc., New York 1976; 347–384
  • Taylor S L, Higley N A, Bush R K. Sulfites in foods: uses, analytical methods, residues, fate, exposure assessment, metabolism, toxicity and hypersensitivity. Adv. Food Res. 1986; 30: 1–64
  • Trammell D J, Dalsis D E, Malone C T. Effect of oxygen on taste, ascorbic acid loss and browning for HTST-pasteurized, single-strength orange juice. J. Food Sci. 1986; 51: 1021–1023
  • Uprety M C, Revis B. Elevated temperature studies on stability of ascorbic acid in certain fruit juice and aqueous vehicles. J. Pharm. Sci. 1964; 53: 1248–1251
  • Van Coillie R. Presented at the Fifth International Conference on Gums and Stabilisers for the Food Industry, WrexhamUK, 1989
  • Webb G K. Vitamin C stability in foods. Flavour Industry 1972; 8: 401
  • Wedzicha B L. Sulfur dioxide: the reaction of sulfite species with food components. Nutr. Food Sci. 1981; 72: 12–13; 19
  • Wedzicha B L. Chemistry of sulphur dioxide in foods. Elsevier Applied Science Publishers Ltd., Barking, Essex 1984; 183–229
  • White C A, Corran P H, Kennedy J F. Analysis of underivatised D-gluco-oligosaccharides (d.p. 2–20) by high-pressure liquid chromatography. Carbohydr. Res. 1980; 87: 165–173
  • Yu M H, Wu M T, Wang D J, Salunkhe D K. Nonenzymic browning in synthetic systems containing ascorbic acid, amino acids, organic acids, and inorganic salts. Can. Inst. Food Sci. Technol. J. 1974; 7: 279–282
  • Zipper A F. Flavour of food systems. Food Technol. Aust. 1974; 26: 228

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