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Learn more about "Sugar"

Sugar

- ''For the common table sugar, see sucrose.''
Sugar is an informal term for a class of edible crystalline substances, mainly sucrose, lactose, and fructose characterized by a sweet flavor. In food, sugar almost exclusively refers to sucrose, which primarily comes from sugar cane and sugar beet. Other sugars are used in industrial food preparation, but are usually known by more specific names—glucose, fructose or fruit sugar, high fructose corn syrup, etc. Excessive consumption of sucrose has been associated with increased incidences of type 2 diabetes, obesity and tooth decay.Wuebben, Joseph and Mike Carlson. "Sugar: What Kinds to Eat and When." http://men.webmd.com/features/sugar-what-kinds-eat-when Sugar consumption varies from country to country; Brazil has the highest per capita production and India the highest per-country consumption.International sugar statistics http://www.illovosugar.com/World_of_sugar/Sugar_Statistics/International.aspx

History

Sugar was not plentiful or cheap in early times—honey was more often used for sweetening. More recently it is manufactured in very large quantities in many countries, largely from sugar cane and sugar beet.

Terminology

The term ''sugar'' usually refers to sucrose, which is also called "table sugar" or "saccharose." Sucrose is a white crystalline disaccharide. Sucrose is the most popular of the various sugars for flavoring, as well as properties (such as mouthfeel, preservation, and texture) of beverages and food. Manufacturing and preparing food may involve other sugars, such as fructose, generally obtained from corn (maize) or from fruit.

Culinary/nutritional

In culinary terms, the foodstuff known as "sugar" delivers a basic taste|primary taste sensation of sweetness. Apart from the many forms of sugar and of sugar-containing foodstuffs, alternative non-sugar-based sweeteners exist, and these particularly attract interest from people who have problems with their blood sugar|blood sugar level (such as diabetics) and people who wish to limit their calorie-intake while still enjoying sweet foods. Both natural and synthetic substitutes exist with no significant carbohydrate (and thus low-calorie) content: for instance stevia (an herb), and saccharin (produced from naturally occurring but not necessarily naturally edible substances by inducing appropriate chemical reactions). The World Health Organisation and the Food and Agriculture Organization of the United Nations expert report (WHO Technical Report Series 916 Diet, Nutrition and the Prevention of Chronic Diseases) defines '''free sugars''' as all monosaccharides and disaccharides added to foods by the manufacturer, cook or consumer, plus sugars naturally present in honey, syrups and fruit juices. This includes all the sugars referred to above. The term distinguishes these forms from all other ''culinary sugars'' added in their natural form with no refining at all.

Baking weight/mass volume relationship

Different culinary sugars have different densities due to differences in particle size and inclusion of moisture. The Domino Sugar Company has established the following volume to weight conversions:
- Brown sugar 1 cup = 48 teaspoons ~ 195 g = 6.88 oz
- Granular sugar 1 cup = 48 teaspoons ~ 200 g = 7.06 oz
- Powdered sugar 1 cup = 48 teaspoons ~ 120 g = 4.23 oz Bulk Density"Engineering Resources - Bulk Density Chart," ''Powder and Bulk''
- Dextrose Sugar 0.62 g/ml
- Granulated Sugar 0.70 g/ml
- Powdered Sugar 0.56 g/ml
- Beet Sugar 0.80 g/ml

Purity standards

The International Commission for Uniform Methods of Sugar Analysis sets standards for the measurement of the purity of refined sugar, known as ICUMSA numbers; lower numbers indicate a higher level of purity in the refined sugar.

Chemistry

Scientifically, ''sugar'' loosely refers to monosaccharide or disaccharides. Monosaccharides are also called "simple sugars," the most important being glucose. Almost all sugars have the formula C_nH_2nO_n (n is between 3 and 7). Glucose has the molecular formula C₆ H₁₂O₆. The names of typical sugars end with "-ose," as in "glucose", "dextrose", "fructose.". Sometimes such words may also refer to any types of carbohydrates soluble in water. The Open-chain compound|acyclic mono- and disaccharides contain either aldehyde groups or ketone groups. These carbonyl|carbon-oxygen double bonds (C=O) are the reactive centers. All saccharides with more than one ring in their structure result from two or more monosaccharides joined by glycosidic bonds with the resultant loss of a molecule of water (H₂O) per bond. Monosaccharides in a closed-chain form can form glycosidic bonds with other monosaccharides, creating disaccharides (such as sucrose) and polysaccharides (such as starch). Enzymes must hydrolysis|hydrolyse or otherwise break these glycosidic bonds before such compounds become metabolism|metabolised. After digestion and absorption. the principal monosaccharides present in the blood and internal tissues include glucose, fructose, and galactose.Many pentoses and hexoses can form ring structures. In these closed-chain forms, the aldehyde or ketone group remains unfree, so many of the reactions typical of these groups cannot occur. Glucose in solution exists mostly in the ring form at chemical equilibrium|equilibrium, with less than 0.1% of the molecules in the open-chain form.

Natural polymers of sugars

Biopolymers of sugars are common in nature. Through photosynthesis plants produce glucose, which has the formula C₆H₁₂O₆, and convert it for storage as an energy reserve in the form of other carbohydrates such as starch, or (as in cane and beet) as sucrose (table sugar). Sucrose has the chemical formula C₁₂H₂₂O₁₁. Starch, consisting of a two different polymers of glucose, is a readily degradable chemical potential energy|energy stored by cell (biology)|cells, convert to other types of energy. Cellulose is a polymer of glucose used by plants as structural component. DNA and RNA are built up of the sugars ribose and deoxyribose. The sugar in DNA, deoxyribose has the formula C₅H₁₀O₄. [[File:Myrmicaria brunnea.jpg|thumb|ant feeding on sugar crystals]]

Etymology

The etymology reflects the spread of the commodity. The English language|English word "sugar" originates from the Arabic language|Arabic word ''سكر'' ''sukkar'', Compare the Oxford English Dictionary|OED and the ''Online Etymology Dictionary''. itself derived from Sanskrit ''शर्करा'' ''Sharkara''. Ahmad Y Hassan, Transfer Of Islamic Technology To The West, Part III: Technology Transfer in the Chemical Industries, ''History of Science and Technology in Islam''. It came to English by way of French language|French, Spanish language|Spanish and/or Italian language|Italian, which derived their word for sugar from the Arabic and Persian ''شکر'' ''shakar'' (whence the Portuguese language|Portuguese word ''açúcar'', the Spanish word ''azúcar'', the Italian word ''zucchero'', the Old French word ''zuchre'' and the contemporary French word ''sucre''). (Compare the Oxford English Dictionary|OED.) The Greek language|Greek word for "sugar", ''Ζάχαρη'' ''zahari'', means "pebble". Note that the English word ''jaggery'' (meaning "coarse brown Indian sugar") has similar ultimate etymological origins (presumably in Sanskrit).

Notes

References

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- A C Hannah, ''The International Sugar Trade'', Cambridge: Woodhead, 1996. ISBN 1-85573-069-3
- William Dufty, ''Sugar Blues'', ISBN 0-446-34312-9