Agriculture Reference
In-Depth Information
Dawson-Hughes, B., Harris, S.S., Krall, E.A. and Dallal, G.E. (1997) Effect of calcium and vitamin D sup-
plementation on bone density in men and women
65
years of age or older.
New England Journal of
Medicine
337,
670-676.
Dellapenna, D. and Pogson, B. (2006) Vitamin synthesis in plants: tocopherols and carotenoids.
Annual
Review of Plant Biology
57,
711-738.
Denslow, S.A., Walls, A.A. and Daub, M.E. (2005) Regulation of biosynthetic genes and antioxidant proper-
ties of vitamin B
6
vitamers during plant defense responses.
Physiological and Molecular Plant Path-
ology
66,
244-255.
Desborough, S.L. (1985)
Potato Proteins
. Academic Press, Michigan.
Desborough, S.L., Liener, I.E. and Lulai, E.C. (1981) The nutritional quality of potato protein from intraspe-
cific hybrids.
Plant Foods for Human Nutrition
31,
11-20.
Diretto, G., Al-Babili, S., Tavazza, R., Papacchioli, V., Beyer, P. and Giuliano, G. (2007) Metabolic engineer-
ing of potato carotenoid content through tuber-specific overexpression of a bacterial mini-pathway.
PLoS ONE
2,
e350.
Diretto, G., Al-Babili, S., Tavazza, R., Scossa, F., Papacchioli, V., Migliore, M.,
et al
. (2010) Transcriptional-
metabolic networks in beta-carotene-enriched potato tubers: the long and winding road to the Golden
phenotype.
Plant Physiology
154,
899-912.
di Salvo, M.L., Contestabile, R. and Safo, M.K. (2011) Vitamin B(6) salvage enzymes: mechanism, structure
and regulation.
Biochimica et Biophysica Acta
1814, 1597-1608.
Dixon, R.A. and Paiva, N.L. (1995) Stress-induced phenylpropanoid metabolism.
Plant Cell
7,
1085-1097.
Doucet-Chabeaud, G., Godon, C., Brutesco, C., de Murcia, G. and Kazmaier, M. (2001) Ionising radiation
induces the expression of PARP-
1
and PARP-
2
genes in Arabidopsis.
Molecular Genetics and Gen-
omics
265,
954-963.
Drewnowski, A. and Rehm, C.D. (2013) Vegetable cost metrics show that potatoes and beans provide most
nutrients per penny.
PLoS One
8,
e63277.
Ducreux, L.J.M., Morris, W.L., Hedley, P.E., Shepherd, T., Davies, H.V.,
et al
. (2005) Metabolic engineering
of high carotenoid potato tubers containing enhanced levels of beta-carotene and lutein.
Journal of
Experimental Botany
56,
81-89.
Dyer, A.R., Elliot, P. and Shipley, M. (1994) Urinary electrolyte excretion in 24 hours and blood pressure in
the INTERSALT Study. II. Estimates of electrolyte-blood pressure associations corrected for regres-
sion dilution bias.
American Journal of Epidemiology
139,
940-951.
Ehrenshaft, M., Jenns, A.E., Chung, K.R. and Daub, M.E. (1998) SOR1, a gene required for photosensitiz-
er and singlet oxygen resistance in Cercospora fungi, is highly conserved in divergent organisms.
Molecular Cell
1,
603-609.
FAO (Food and Agriculture Organization) (2009) Food Security and Agricultural Mitigation in Developing
Countries: Options for Capturing Synergies (
http://www.fao.org/docrep/012/i1318e/i1318e00.pdf,
accessed
23
May 2014).
Farah, A., Monteiro, M., Donangelo, C.M. and Lafay, S. (2008) Chlorogenic acids from green coffee extract
are highly bioavailable in humans.
Journal of Nutrition
138,
2309-2315.
Fernandes, G., Velangi, A. and Wolever, T.M. (2005) Glycemic index of potatoes commonly consumed in
North America.
Journal of the American Dietetic Association
105,
557-562.
Fernandez-Orozco, R.B., Gallardo-Guerrero, L. and Hornero-Mendez, D. (2013) Carotenoid profiling in
tubers of different potato (Solanum sp) cultivars: accumulation of carotenoids mediated by xanthophyll
esterification.
Food Chemistry
141,
2864-2872.
Fitzpatrick, T.B., Basset, G.J., Borel, P., Carrari, F., Dellapenna, D., Fraser, P.D.,
et al
. (2012) Vitamin defi-
ciencies in humans: can plant science help?
Plant Cell
24,
395-414.
Food and Nutrition Board, Institute of Medicine (1998) Biotin. In
:
Dietary Reference Intakes: Thiamin, Ribo-
flavin, Niacin, Vitamin B6, Vitamin B12, Pantothenic Acid, Biotin, and Choline
. National Academy Press,
Washington, DC, pp. 374-389.
Fraser, P.D. and Bramley, P.M. (2004) The biosynthesis and nutritional uses of carotenoids.
Progress in
Lipid Research
43,
228-265.
Friedman, M. (2002) Tomato glycoalkaloids: role in the plant and in the diet.
Journal of Agricultural and
Food Chemistry
50,
5751-5780.
Friedman, M. and McDonald, G.M. (1997) Potato glycoalkaloids: chemistry, analysis, safety, and plant
physiology.
Critical Reviews in Plant Sciences
16,
55-132.
Friedman, M., Lee, K.R., Kim, H.J., Lee, I.S. and Kozukue, N. (2005) Anticarcinogenic effects of glycoalka-
loids from potatoes against human cervical, liver, lymphoma, and stomach cancer cells.
Journal of
Agricultural and Food Chemistry
53,
6162-6169.