| Nutritional value per 100 g (3.5 oz) | |
|---|---|
| Energy | 360 kJ (86 kcal) |
| Carbohydrates | 19.02 g |
| - Sugars | 3.22 g |
| - Dietary fiber | 2.7 g |
| Fat | 1.18 g |
| Protein | 3.2 g |
| - Tryptophan | 0.023 g |
| - Threonine | 0.129 g |
| - Isoleucine | 0.129 g |
| - Leucine | 0.348 g |
| - Lysine | 0.137 g |
| - Methionine | 0.067 g |
| - Cystine | 0.026 g |
| - Phenylalanine | 0.150 g |
| - Tyrosine | 0.123 g |
| - Valine | 0.185 g |
| - Arginine | 0.131 g |
| - Histidine | 0.089 g |
| - Alanine | 0.295 g |
| - Aspartic acid | 0.244 g |
| - Glutamic acid | 0.636 g |
| - Glycine | 0.127 g |
| - Proline | 0.292 g |
| - Serine | 0.153 g |
| Water | 75.96 g |
| Vitamin A equiv. | 9 μg (1%) |
| Thiamine (vit. B1) | 0.200 mg (17%) |
| Niacin (vit. B3) | 1.700 mg (11%) |
| Folate (vit. B9) | 46 μg (12%) |
| Vitamin C | 6.8 mg (8%) |
| Iron | 0.52 mg (4%) |
| Magnesium | 37 mg (10%) |
| Potassium | 270 mg (6%) |
| One ear of medium size (6-¾ to 7-½ inches long) maize has 90 grams of seeds Percentages are relative to US recommendations for adults. Source: USDA Nutrient Database |
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Contents |
History
Sweet corn occurs as a spontaneous mutation in field corn and was grown by several Native American tribes. The Iroquois gave the first recorded sweet corn (called Papoon) to European settlers in 1779.[2] It soon became a popular food in southern and central regions of the United States.
Sweet corn production in the 20th century was influenced by the following key developments:
- hybridization allowed for more uniform maturity, improved quality and disease resistance
- identification of the separate gene mutations responsible for sweetness in corn and the ability to breed varieties based on these characteristics:
Anatomy
Consumption
In Latin America, sweet corn is traditionally eaten with beans; each plant is deficient in an essential amino acid that happens to be abundant in the other, so together sweet corn and beans form a balanced diet Similarly, sweet corn in Indonesia is traditionally ground or soaked with milk, which makes available a B vitamin in the corn, the absence of which would otherwise lead to pellagra.The kernels are boiled or steamed. In Europe, China, Korea, and Japan, they are often used as a pizza topping, or in salads. Corn on the cob is a sweet corn cob that has been boiled, steamed, or grilled whole; the kernels are then eaten directly off the cob or cut off. Creamed corn is sweet corn served in a milk or cream sauce. Sweet corn can also be eaten as baby corn.
If left to dry on the plant, kernels may be taken off the pole and cooked in oil where, unlike popcorn, they expand to about double the original kernel size and are often called corn nuts. A soup may also be made from the plant, called sweet corn soup.
[edit] Health benefits
Varieties
Main article: List of sweetcorn varieties
Genetics
Early varieties, including those used by Native Americans, were the result of the mutant su ("sugary") allele] They contain about 5-10% sugar by weight.Supersweet corn are varieties of sweet corn which produce higher than normal levels of sugar developed by University of Illinois at Urbana–Champaign professor John Laughnan. He was investigating two specific genes in sweet corn, one of which, the sh2 gene, caused the corn to shrivel when dry. After further investigation Laughnan discovered that the endosperm of sh2 sweet corn kernels store less starch and from 4 to 10 times more sugar than normal su sweet corn. He published his findings in 1953, disclosing the advantages of growing supersweet sweet corn, but many corn breeders lacked enthusiasm for the new supersweet corn. Illinois Foundation Seeds Inc. was the first seed company to release a supersweet corn and it was called Illini Xtra Sweet, but widespread use of supersweet hybrids did not occur until the early 1980s. The popularity of supersweet corn rose due to its long shelf life and large sugar content when compared to conventional sweet corn. This has allowed the long-distance shipping of sweet corn and has enabled manufacturers to can sweet corn without adding extra sugar or salt.
All of the alleles responsible for sweet corn are recessive, so it must be isolated from any field corn varieties that release pollen at the same time; the endosperm develops from genes from both parents, and heterozygous kernels will be tough and starchy. The se and su alleles do not need to be isolated from each other. However supersweet varieties containing the sh2 allele must be grown in isolation from other varieties to avoid cross-pollination and resulting starchiness, either in space (various sources quote minimum quarantine distances from 100 to 400 feet or 30 to 120 m) or in time (i.e., the supersweet corn does not pollinate at the same time as other corn in nearby fields).
Modern breeding methods have also introduced varieties incorporating multiple gene types:
- sy (for synergistic) adds the sh2 gene to some kernels (usually 25%) on the same cob as a se base (either homozygous or heterozygous)
- augmented sh2 adds the se and su gene to a sh2 parent
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