Produce Degradation Pathways and Prevention

Mechanical Injury of Fresh Produce 113

179. de Souza, A.L.B., Chitarra, M.I.F., Chitarra, A.B., Machado, J.-da-C., and de Souza,
     A.L.B., Biochemical reactions in mechanically damaged peaches treated with CaCl2
     at the site of the injury, Cienc. Agrotecnol., 23, 658–666, 1999.


180. Gooding, P.S., Bird, C., and Robinson, S.P., Molecular cloning and characterisation
     of banana fruit polyphenol oxidase, Planta, 213, 748–757, 2001.


181. Gillis, N., Verlinden, B.E., Hecke, P., Baerdemaeker, J., Nicolai, B.M., de Baerde-
     maeker, J., Ben-Arie, R., and Philosoph-Hadas, S., Finite element analysis of mechan-
     ical damage in chicory (Cichorium intybus L.), Acta Hortic., 553, 527–529, 2001.


182. Loaiza-Velarde, J.G., Tomas-Barbera, F.A., and Saltveit, M.E., Effect of intensity and
     duration of heat-shock treatments on wound-induced phenolic metabolism in iceberg
     lettuce, J. Am. Soc. Hortic. Sci, 122, 873–877, 1997.


183. Richard-Forget, F.C., and Gauillard, F.A., Oxidation of chlorogenic acid, catechins,
     and 4-methylcatechol in model solutions by combinations of pear (Pyrus communis
     cv. Williams) polyphenol oxidase and peroxidase: A possible involvement of perox-
     idase in enzymatic browning, J. Agric. Food Chem. 45, 2472–2476, 1997.


184. Lopez-Serrano, M. and Ros-Barcelo, A., Kinetic properties of (dextro)-catechin oxida-
     tion by a basic peroxidase isoenzyme from strawberries, J. Food Sci., 62, 676–679, 1997.


185. Robinson, D.S., Peroxidases and catalases in foods, in Oxidative Enzymes in Foods,
     Robinson, D.S. and Eskin, N.A.M., Eds., Elsevier, London, pp 1-47, 1991.


186. Nicholas, J.J., Richard, F.F., Goupy, P., Amiot, M.J., and Aubert, S., Enzymatic
     browning reactions in apple and apple products, CRC Crit. Rev. Food Sci. Nutr. 34,
     109–157, 1994.


187. Morimoto, S., Tateishi, N., Matsuda, T., Tanaka, H., Taura, F., Furuya, N., Matsuyama,
     N., and Shoyama, Y., Novel hydrogen peroxide metabolism in suspension cells of
     Scutellaria baicalensis Georgi, J. Biol. Chem., 273, 12606–12611, 1998.


188. Svalheim, C. and Robertsen, B., Induction of peroxidases in cucumber hypocotyls
     by wounding and fungal infection, Physiol. Plant, 78, 261–267, 1990.


189. Lamikanra O. and Watson, M.A., Effects of ascorbic acid on peroxidase and polyphe-
     noloxidase activities in fresh-cut cantaloupe melon, J. Food Sci., 66, 1283–1286, 2001.


190. Lamikanra, O. and Watson, M.A., Cantaloupe melon peroxidase: Characterization
     and effects of additives on activity, Nahrung, 44, 168–172, 2000.


191. Yamamoto, E., Bokelman, G.H., and Lewis, N.G., Phenylpropanoid metabolism in
     cell walls: An overview, ACS Symp. Ser., 399, 68–88, 1989.


192. Oosterveld, A., Beldman, G., and Voragen, A.G.J., Oxidative cross-linking of pectic
     polysaccharides from sugar beet pulp, Carbohydr. Res., 328, 199–207, 2000.


193. Quiroga, M., Guerrero, C., Botella, M.A., Barcelo, A., Amaya, I., and Medina, M.I.,
     A tomato peroxidase involved in the synthesis of lignin and suberin, Plant Physiol.,
     122, 1119–1127, 2000.


194. Bernards, M.A., Fleming, W.D., Llewellyn, D.B., Priefer, R., Yang, X., Sabatino, A.,
     and Plourde, G.L., Biochemical characterization of the suberization-associated
     anionic peroxidase of potato, Plant Physiol. 121, 135–145, 1999.


195. Rangel, M., Machado, O.L.T., Cunha, M., and Jacinto, T., Accumulation of chloro-
     plast-targeted lipoxygenase in passion fruit leaves in response to methyl jasmonate,
     Phytochemistry, 60, 619–625, 2002.


196. Grun, I.U., Barbeau, W.E., and Crowther, J.B., Changes in headspace volatiles and
     peroxide values of undeodorized menhaden oil over 20 weeks of storage, J. Agric.
     Food Chem., 44, 1190–1194, 1996.


197. Wardale, D.A. and Galliard, T., Subcellular localization of lipoxygenase and lipolytic
     acyl hydrolase enzymes in plants, Phytochemistry, 14, 2323–2329, 1975.