Cereals are the only source of nutrition for one-third of the world’s population especially in
developing and underdeveloped nations of Sub-Saharan Africa and South-east Asia. The three
major cereals, rice, wheat and maize constitute about 85% of total global cereals production
amounting to about 200 million tonnes of protein harvest annually at an average of 10% protein
content, out of which a sizeable proportion goes into human consumption (Shewry, 2007). A major
concern in case of developing nations is that in most cases, a single cereals crop is the major food
staple and as such the nutritional profile of cereal crops assumes great significance. Grain protein
content of cereals has a very narrow range with rice (5.8-7.7%), maize (9-11%), barley (8-15%) and
wheat (7-22%) as reported by various workers. In many developing countries of Latin America,
Africa and Asia, maize is the major staple food and often the only source of protein. At global level,
maize accounts for 15% of proteins and 20% of calories in world food diet. But unfortunately, the
nutritional profile of maize is poor as it is deficient in essential amino acids such as lysine,
tryptophan and methionine due to a relatively higher proportion of prolamines in maize storage
proteins which are essentially devoid of lysine and tryptophan. The reason concerning this is that
lysine, tryptophan and threonine are the limiting amino acids in human beings and non-ruminants.
Maize is also an important component of livestock feed especially in developed nations where 78%
of total maize production goes into livestock feed. Therefore, breeding strategies aimed at
improving the protein profile of maize will go a long way in reducing prevalence and persistence of
malnutrition in developing world