Biomedical Engineering Reference
In-Depth Information
69.
Martin, H. F., Factors in the development of oxidative rancidity in ready-to-eat crisp
oat flakes,
J. Sci. Food Agric.
, 9, 817, 1958.
70.
Frey, K. J. and Hammond, E. G., Genetics, characteristics, and utilization of oil in
caryopses of oat species,
J. Am. Oil Chem. Soc.,
52, 358, 1975.
71.
Molteberg, E. L., Vogt, G., Nilsson, A., and Frolich, W., Effects of storage and heat
processing on the content and composition of free fatty acids in oats,
Cereal Chem.,
72, 88, 1995.
72.
Galliard, T., Enzymic degradation, in
Lipids in Cereal Technology
, Barnes, P. J., Ed.,
Academic Press, London, 1983, 111.
73.
Pomeranz, Y., Biochemical, functional and nutritive changes during storage, in
Stor-
age of Cereal Grains and Their Products,
Christensen, C. M., Ed., Am. Assoc. Cereal
Chem. St. Paul, MN, 1974, 56.
74.
Clarke, R. J., The shelf life of coffee, in
Shelf Life Studies of Foods and Beverages:
Chemical, Biological, Physical and Nutritional Aspects
, Charalambous, G., Ed.,
Elsevier Science Publishers, Amsterdam, 1993.
75.
Flavell, R. B., Goldsbrough, L. S., Robert, L. S., Schnick, D., and Thompson, R. D.,
Genetic variation in wheat HMW glutenin subunits and the molecular basis of bread-
making quality,
Bio/Technology,
7, 1281, 1989.
76.
Schepers, J., Keizer, L. C. P., and Kolster, P., The relation between high molecular
weight glutenin subunits, bread-making quality and agronomic properties of winter
wheat,
Cereal Res. Commun.
, 21, 289, 1993.
77.
Alvarez, J. B. and Martin, L. M., Variation for breadmaking quality characters in
several crosses of hexaploid tritordeum (
XTritordeum
Ascherson et Graebner) with a
common parent,
Cereal Res. Commun.
, 22, 285, 1994.
78.
Payne, P. I., Genetics of wheat storage proteins and the effect of allelic variation on
bread-making quality,
Annu. Rev. Plant Physiol.
, 38, 141, 1987.
79.
Pogna, N. E., Mellim, F., and Dal Balin Peruffo., Glutenin subunits of Italian common
wheats of good bread-making quality and comparative effects of high molecular
weight glutenin subunits 2 and 5, 10 and 12 on flour quality, in
Agriculture: Hard
Wheat: Agronomic, Technological, Biochemical and Genetic Aspects
, Borghi, B., Ed.,
C.E.C., 1987.
80.
Gupta, R. B., Singh, N. K., and Shepherd, K. W., The relative effect of allelic variation
in LMW and HMW glutenin subunits on dough properties in the progeny of two
bread wheats,
Theor. Appl. Gen.,
77, 57, 1989.
81.
Gupta, R. B., Macritchie, F., Shepherd, K. W., and Ellison, F., Relative contribution
of LMW and HMW subunits to dough strength and dough stickiness of bread wheat,
in
Gluten Proteins
, Bushuk, W. and Tkachuk, R., Eds., AACC, St. Paul, MN, 1991, 71.
82.
Sozinov, A. A., and Poperelya, F. A., Polymorphism of prolamins and variability of
grain quality,
Qual. Plant. Foods Hum. Nutr.
, 31, 243, 1982.
83.
Branland, G. and Dardevet, M., Diversity of grain proteins and bread wheat quality.
1-Correlation between gliadin bands and flour quality characteristics,
J. Cereal Sci.,
3, 329, 1985.
84.
Branland, G. and Dardevet, M., A null
Gli-D1
allele with a positive effect on bread
wheat quality,
J. Cereal Sci.,
20, 235, 1994.
85.
Palmer, G. H., The morphology and physiology of malting barleys, in
Cereals for
Food and Beverages
, Inglett, G. E. and Munk, L., Eds., Academic Press, London,
1980, 301.
86.
Payne, P. I., Breeding for protein quantity and protein quality in seed crops, in
Seed
Proteins,
Daussant, J., Mosse, J., and Vaughan, J., Eds., Academic Press, London,
1983, 223.
Search WWH ::
Custom Search