Postharvest Biology and Technology of Fruits, Vegetables, and Flowers

POSTHARVEST ENHANCEMENT OF PHENOLIC PHYTOCHEMICALS IN APPLES 355
Beggs, C.J., Kuhn, K., Bocker, R., and Wellmann, E. 1987. Phytochrome induced flavanoid biosynthesis in mustard
(Sinapsis alba L) cotyledons: enzymatic control and differential regulation of anthocyanin and quercetin
formation. Planta, 172: 121–126.
Bischoff, H. 1994. Pharmacology of glucosidase inhibitor. Eur. J. Clin. Invest., 24: 3–10.
Bischoff, H., Puls, W., Krause, H.P., Schutt, H., and Thomas, G. 1985. Pharmacological properties of the novel
glucosidase inhibitors BAY m 1099 (miglitol) and BAY o 1248. Diabetes Res. Clin. Pract., 1: 53–62.
Block, G., Patterson B., and Subar, A. 1992. Fruit, vegetables, and cancer prevention: a review of the epidemiological
evidence. Nutr. Cancer, 18: 1–29.
Bolwell, G.P. and Wojitaszek, P. 1997. Mechanisms for the generation of reactive oxygen species in plant defense:
a broad perspective. Physiol. Mol. Plant Pathol., 51: 347–366.
Boyer, J. and Liu, R.H. 2004. Apple phytochemicals and their health benefits. Nutr. J., 3: 5–9.
Bravo, L. 1998. Phenolic phytochemicals: chemistry, dietary sources, metabolism, and nutritional significance.
Nutr. Rev., 56: 317–333.
Briskin, D.P. 2000. Medicinal plants and phytomedicines. Linking plant biochemistry and physiology to human
health. Plant Physiol., 124: 507–514.
Brooker, F. and Miller, J. 1998. Phenylpropanoid metabolism and phenolic composition of soybean [Glycine max
(L) Merr.] leaves following exposure to ozone. J. Exp. Bot., 49: 1191–1202.
Brownlee, M. 2005. The pathobiology of diabetic complications. Diabetes, 54: 1615–1625.
Christie, P.J., Alefenito, M.R., and Walbot, V. 1994. Impact of low temperature stress on general phenylpropanoid
and anthocyanins pathways: enhancement of transcript abundance and anthocyanin pigmentation in maize
seedlings. Planta, 194: 541–549.
Chugh, L.K. and Sawhney, S.K. 1999. Effects of cadmium on activities of some enzymes of glycolysis and pentose
phosphate pathway in pea. Biol. Plant., 42: 401–407.
Copeland, L. and Turner, J.F. 1987. The regulation of glycolysis and the pentose-phosphate pathway. In: The
Biochemistry of Plants (eds, P. Stumpf and E.E. Conn), Vol. 11, Academic Press, New York, pp. 107–125.
Costantino, L., Rastelli, G., Gamberini, M.C., Vinson, J.A., Bose, P., Iannone, A., Staffieri, M., Antolini, L., Corso,
A.D., Mura, U., and Albasini, A. 1999. 1-Benzopyran-4-one antioxidants as aldose reductase inhibitors. J.
Med. Chem., 42: 1881–1893.
Crozier, A., Burns, J., Aziz, A.A., Stewart, A.J., Rabiasz, H.S., Jenkins, G.I., Edwards, C.A., and Lean, M. 2000.
Antioxidant flavanols from fruits, vegetables and beverages: measurements and bioavailability. Biol. Res., 33:
79–88.
Dat, J., Vandenabeele, S., Vranova, E., Van Montagu, M., Inze, D., and Van Breusegem, F. 2000. Dual action of
the active oxygen species during plant stress responses. Cell. Mol. Life Sci., 57: 779–795.
Del Rio, L.A., Corpas, F.J., Sandalio, L.M., Palma, J.M., Gomez, M., and Barroso. J.B. 2002. Reactive oxygen
species, antioxidant systems and nitric oxide in peroxisomes. J. Exp. Bot., 53: 1255–1272.
Dixon, R., Harrison, M., and Lamb, C. 1994. Early events in the activation of plant defence responses. Annl. Rev.
Phytopathol., 32: 479–501
Dixon, R. and Paiva, N. 1995. Stress-induced phenylpropanoid metabolism. Plant Cell, 7: 1085–1097.
Droillard, M.J., Paulin, A., and Massot, J.C. 1987. Free radical production, catalase, and superoxide dismutase
activities and membrane integrity during senescence of petal of cut carnations (Dianthus caryophyllus). Physiol.
Plant., 71: 197–202.
Duval, B. and Shetty, K. 2000. The stimulation of phenolics and antioxidant activity in pea (Pisum sativum) elicited
by genetically transformed anise root extract. J. Food Biochem., 25: 361–377.
Fonseca, V. 2003. Clinical significance of targeting postprandial and fasting hyperglycemia in managing type 2
diabetes mellitus. Curr. Med. Res. Opin., 19: 635–641.
Foti, M., Piattelli, M., Amico, V., and Ruberto, G. 1994. Antioxidant activity of phenolic meroditerpenoids from
marine algae. J. Photochem. Photobiol., 26: 159–164.
Foyer, C.H., Descurvieres, P., and Kunert, K.J. 1994. Protection against oxygen radicals: an important defence
mechanism studied in transgenic plants. Plant Cell Environ., 17: 507–523.
Frenkel, C. 1978. Role of hydroperoxides in the onset of senescence processes in plant tissues. In: Postharvest
Biology and Biotechnology (eds, H.O. Hultin and M. Milner), Food and Nutrition Press, Wesport, Spychalla,
pp. 433–448.
Hagedorn, C.H. and Phang, J.M. 1983. Transfer of reducing equivalents into mitochondria by the interconversions
of proline and α-pyrroline-5-carboxylate. Arch Biochem. Biophysics., 225: 95–101.
Hahlbrock, K. and Scheel D. 1989. Physiology and molecular biology of phenylpropanoid metabolism. Plant Mol.
Biol., 40: 347–369.
Han, J.H. 2000. Antimicrobial food packaging. Food Technol., 54: 56–65.