• 1
    Aytac, S. A. and Acar, J., Effect of L-ascorbic acid and sulfur dioxide on the stability of patulin in apple juice and buffer solutions. Ernaehrung, 1994, 18, 1517.
  • 2
    Brackett, R. E. and Marth, E. H., Ascorbic acid and ascorbate cause disappearance of patulin from buffer solutions and apple juice. Food Res. Inst., 1979, 42, 864866.
  • 3
    Burroughs, L. F., Stability of patulin to sulfur dioxide and to yeast fermentation. J. AOAC, 1977, 60, 100103.
  • 4
    Ciegler, A., Patulin. In: Mycotoxins in Human and Animal Health. J. Rodricks, C. Hesseltine and M. Mehlman, Eds., Pathotox: Park Forest South, IL, USA, 1977, pp. 609624.
  • 5
    Drusch, S., Kopka, S. and Kaeding, J., Stability of patulin in a juice-like aqueous model system in the presence of ascorbic acid. Food Chem., 2006, 100, 192197.
  • 6
    Farkas, J. and Schreiner, E., Presence and inactivation of patulin in food. II. Elelmiszervizsgalati Kozlemenyek, 1978, 24, 3540.
  • 7
    Fliege, R. and Metzler, M., The mycotoxin patulin induces intra- and intermolecular protein crosslinks in vitro involving cysteine, lysine, and histidine side chains, and α-amino groups. Chem.-Biol. Interact., 1999, 123, 85103.
  • 8
    Franck, R. L. and Varland, R. H., Organic synthesis III. Horning: London, 1955, pp. 829830.
  • 9
    Harrison, M. A., Presence and stability of patulin in apple products? J. Food Safety 1989, 9, 147153.
  • 10
    Kadakal, C. and Nas, S., Effect of heat treatment and evaporation on patulin and some other properties of apple juice? J. Sci. Food Agric. 2003, 83, 987990.
  • 11
    Lai, C.-L., Fuh, Y.-M. and Shih, D. Y-C., Detection of mycotoxin patulin in apple juice. J. Food Drug Anal., 2000, 8, 8596.
  • 12
    Lezi, S. Z., Thonart, P., Whatelet, J. P., Blanpain, P. and Bechet, J., Patulin: production, purification, degradation, and determination by gas-phase chromatography. Rev. Ferm. Ind. Alim., 1981, 36, 122129.
  • 13
    Lovett, J. and Peeler, J. T., Effect of pH on the thermal destruction kinetics in aqueous solution. J. Food Sci., 1974, 38, 10941095.
  • 14
    McKenzie, K. S., Sarr, A. B., Mayura, K., Bailey, R. H., Miller, D. R., Rogers, T. D., Norred, W. P., Voss, K. A., Plattner, R. D., Kubena, L. F. and Phillips, T. D., Oxidative degradation and detoxification of mycotoxins using a novel source of ozone. Food Chem. Toxicol., 1997, 35, 807820.
  • 15
    Ough, C. S. and Corison, C. A., Measurement of patulin in grapes and wines. J. Food Sci., 1980, 45, 476478.
  • 16
    Pohland, A. E. and Allen, R., Stability studies with patulin. J. AOAC, 1970, 53, 688691.
  • 17
    Rychlik, M. and Schieberle, P., Quantification of the mycotoxin patulin by stable isotope dilution assay. J. Agric. Food Chem., 1999, 47, 37493755.
  • 18
    Scott, P. M. and Somers, E., Stability of patulin and penicillic acid in fruit juices and flour. J. Agric. Food Chem., 1968, 16, 483485.
  • 19
    Zegota, H., Zegota, A. and Bachman, S., Effect of irradiation on the patulin content and chemical composition of apple juice concentrate. Z. Lebensm.-Unters.-Forsch., 1988, 187, 235238.