Agriculture Reference
In-Depth Information
leads to its signi
cant reduction and a decrease in peanut allergenicity. Plant Biotechnol.
145.
Dodo, H., K. Konan, and O. Viquez. 2005. A genetic engineering strategy to eliminate
peanut allergy. Curr. Allergy Asthma Rep. 5:67
J. 6:135
-
-
73.
Dodo, H.W., O.M. Viquez, S.J. Maleki, and K.N. Konan. 2004. cDNA clone of a putative
peanut (
Arachis hypogaea
L.) trypsin inhibitor has homology with peanut allergens Ara
h 3 and Ara h 4. J. Agric. Food Chem. 52:1404
1409.
Du Toit, G., Y. Katz, P. Sasieni, D. Mesher, S.J. Maleki, H.R. Fisher, A.T. Fox, V. Turcanu, T.
Amir, G. Zadik-Mnuhin, A. Cohen, I. Livne, and G. Lack. 2008. Early consumption of
peanuts in infancy is associated with a low prevalence of peanut allergy. J. Allergy Clin.
Immunol. 122:984
-
991.
Dwivedi, S.L., J.H. Crouch, S.N. Nigam, M.E. Ferguson, and A.H. Paterson. 2003. Molecular
breeding of groundnut for enhanced productivity and food security in the semi-arid
tropics: Opportunities and challenges. Adv. Agron. 80:153
-
221.
Dwivedi, S.L., R. Jambunathan, S.N. Nigam, K. Raghunath, K. Ravi Shankar, and G.V.S.
Nagabhushanam. 1990. Relationship of seed mass to oil and protein contents in peanut
(
Arachis hypogaea
L.). Peanut Sci. 17:48
-
52.
Dwivedi, S.L., S.N. Nigam, and R.C.N. Rao. 2000. Photoperiod effects on seed quality traits
in peanut. Crops Sci. 40:1223
-
1227.
Dwivedi, S.L., N. Puppala, H.D. Upadhyaya, N. Manivannan, and S. Singh. 2008.
Developing a core collection of peanut speci
-
c to Valencia market type. Crop Sci.
632.
Dwivedi, S.L., K.L. Sahrawat, K.N. Rai, M.W. Blair, M.S. Andersson, and W. Pfeiffer. 2012.
Nutritionally enhanced staple food crops. Plant Breed. Rev. 36:169
48:625
-
291.
Dwivedi, S., K. Sahrawat, H. Upadhyaya, and R. Ortiz. 2013. Food, nutrition and agro-
biodiversity under global climate change. Adv. Agron. 120:1
-
128.
Ebo, D.G., M.M. Verweij, V. Sabato, M.M. Hagendorens, C.H. Bridts, and L.S. De Clerck.
2012. Hazelnut allergy: A multi-faced condition with demographic and geographic
characteristics. Acta Clin. Belg. 67:317
-
321.
Edwards, D., and J. Batley. 2010. Plant genome sequencing: Applications for crop improve-
ment. Plant Biotechnol. J. 8:2
-
-
9.
FAO. 2012. FAOSTATS. Food and Agriculture Organization of the United Nations, Rome,
Italy.
http://faostat.fao.org/site/567/default.aspx#ancor
(accessed 30 December 2012).
Fernández-Rivas, M., S. Bolhaar, E. González-Mancebo, R. Asero, A. van Leeuwen, B.
Bohle, Y. Ma, C. Ebner, N. Rigby, A.I. Sancho, S. Miles, L. Zuidmeer, A. Knulst, H.
Breiteneder, C. Mills, K. Hoffmann-Sommergruber, and R. van Ree. 2006. Apple allergy
across Europe: How allergen sensitization pro
les determine the clinical expression of
allergies to plant foods. J. Allergy Clin. Immunol. 118:481
488.
Finkelman, F.D. 2010. Peanut allergy and anaphylaxis. Curr. Opin. Immunol. 22:783
-
788.
Fokunang, C.N., E.A. Tembe-Fokunang, P. Tomkins, and S. Barkwan. 2006. Global impact
of mycotoxins on human and animal health management. Outlook Agric. 35:247
-
253.
Fonceka, D., H.-A. Tossim, R. Rivallan, H. Vignes, E. Lacut, F. de Bellis, I. Faye, O. Ndoye, S.
C.M. Leal-Bertioli, J.F.M. Valls, D.J. Bertioli, J.-C. Glaszmann, B. Courtois, and J.-F. Rami.
2012. Construction of chromosome segment substitution lines in peanut (
Arachis
hypogaea
L.) using a wild synthetic and QTL mapping for plant morphology. PLoS
One 7:e48642.
Francisco, M.L.D.L., and A.V.A. Resurreccion. 2008. Functional components in peanut.
Crit. Rev. Food Sci. Nutr. 48:715
-
-
746.
