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grape sugar,

monosaccharide sugar with the empirical formula C6H12O6 . This carbohydratecarbohydrate,
any member of a large class of chemical compounds that includes sugars, starches, cellulose, and related compounds. These compounds are produced naturally by green plants from carbon dioxide and water (see photosynthesis).
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 occurs in the sap of most plants and in the juice of grapes and other fruits. Glucose is a normal component of animal blood; it thus requires no digestion prior to absorption into the bloodstream. Glucose can be obtained by hydrolysishydrolysis
, chemical reaction of a compound with water, usually resulting in the formation of one or more new compounds. The most common hydrolysis occurs when a salt of a weak acid or weak base (or both) is dissolved in water.
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 of a variety of carbohydrates, e.g., milk and cane sugars, maltose, cellulose, or glycogen, but it is usually manufactured by hydrolysis of cornstarchcornstarch,
material made by pulverizing the ground, dried residue of corn grains after preparatory soaking and the removal of the embryo and the outer covering. It is used as laundry starch, in sizing paper, in making adhesives, and in cooking.
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 with steam and dilute acid; the corn syrup thus obtained contains also some dextrins and maltose. Glucose is used in the manufacture of candy, chewing gum, jams, jellies, table syrups, and other foods, and for many other purposes. It is the major source of energy in animal metabolism. Glucose tastes only about three-fourths as sweet as table sugar (sucrosesucrose
, commonest of the sugars, a white, crystalline solid disaccharide (see carbohydrate) with a sweet taste, melting and decomposing at 186°C; to form caramel. It is known commonly as cane sugar, beet sugar, or maple sugar, depending upon its natural source.
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). The presence of glucose can be detected by use of Fehling's solutionFehling's solution
, deep-blue, alkaline solution used to test for the presence of aldehydes (e.g., formaldehyde, HCHO) or other compounds that contain the aldehyde functional group, -CHO.
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; various modifications of this test are used to detect glucose in urine, which may be a symptom of diabetes.


A monosaccharide also known as d -glucose, d -glucopyranose, grape sugar, corn sugar, dextrose, and cerelose. The structure of glucose is shown in the illustration.

Structural formula for α- D -glucoseenlarge picture
Structural formula for α- D -glucose

Glucose in free or combined form is not only the most common of the sugars but is probably the most abundant organic compound in nature. It occurs in free state in practically all higher plants. It is found in considerable concentrations in grapes, figs, and other sweet fruits and in honey. In lesser concentrations, it occurs in the animal body fluids, for example, in blood and lymph. Urine of diabetic patents usually contains 3–5%.

Cellulose, starch, and glycogen are composed entirely of glucose units. Glucose is also a major constituent of many oligosaccharides, notably sucrose, and of many glycosides. It is produced commercially from cornstarch by hydrolysis with dilute mineral acid. The commercial glucose so obtained is used largely in the manufacture of confections and in the wine and canning industries. See Glycogen

d -Glucose is the principal carbohydrate metabolite in animal nutrition; it is utilized by the tissues, and it is absorbed from the alimentary tract in greater amounts than any other monosaccharide. Glucose could serve satisfactorily in meeting at least 50% of the entire energy needs of humans and various animals.

Glucose enters the bloodstream by absorption from the small intestine. It is carried via the portal vein to the liver, where part is stored as glycogen, the remainder reentering the circulatory system. Another site of glycogen storage is muscle tissue.

Glucose is readily fermented by yeast, producing ethyl alcohol and carbon dioxide. It is also metabolized by many bacteria, resulting in the formation of various degradation products, such as hydrogen, acetic and butyric acids, butyl alcohol, acetone, and many others. See Carbohydrate, Monosaccharide



(grape sugar, dextrose), the carbohydrate most frequently found in nature; it belongs to the hexoses, that is, to monosaccharides containing six carbon atoms. Its crystals are colorless, and its melting point is 146.5° C. It is highly soluble in water. Glucose solutions contain molecules in the α- and β- forms; equilibrium is attained at 37 percent and 63 percent, respectively, of these forms. Glucose is optically active, bending a beam of polarized light to the right. Glucose of the α-form is an essential component of all living organisms, from viruses to higher plants and vertebrates (including man). It is a component of various compounds, ranging from saccharose, cellulose, and starch to some glycoproteins and viral ribonucleic acid. For a number of bacteria, glucose is the only source of energy. Glucose participates in many metabolic reactions.

The glucose content of human blood is about 100 mg percent, and it is regulated by the neurohumoral mechanism. A lowering of the glucose content to 40 mg percent leads to a sharp disturbance of the activity of the central nervous system. The basic means of glucose utilization in the organism are anaerobic transformations, accompanied by the ATP synthesis and terminating in the formation of lactic acid; glycogen synthesis; aerobic oxidation to gluconic acid in the presence of glucoseoxydase, a process occurring in some microorganisms that utilize it to produce energy and accompanied by oxygen absorption from the air; and the conversion of glucose to pentoses and other simple sugars. The complete enzymatic oxidation of glucose to CO2 and H2O is accompanied by the release of energy: C6H12O6 + 602—6CO2 + 6H2O + 686 kilocalories per mole. Most of this energy is accumulated by high-energy compounds of the ATP type. The synthesis of glucose from inorganic components is the reverse process, carried out by plants and some bacteria using the energy of sunlight (photosynthesis) and the energy of chemical oxidation reactions (chemosynthesis).

Glucose is produced industrially by starch hydrolysis. It is used in the pastry industry and medically as a drug.


Glucose is used for medical purposes in powder and tablet form, as well as in isotonic (4.5-5 percent) and hypertonic (10-40 percent) glucose solutions. Isotonic solutions are administered (subcutaneously and in enemas) for replacing fluid in the organism. These solutions are also a source of readily assimilable nutrients. Introduction of hypertonic solutions (intravenously) leads to an increase in the osmotic pressure of the blood, improves the metabolic processes, strengthens the antitoxic function of the liver and the contractive activity of the heart muscles, dilates the blood vessels, and increases the elimination of urine. Glucose solutions are used to treat infectious diseases, heart ailments, various intoxications, and other conditions, frequently in combination with ascorbic acid.


Khimia uglevodov, Moscow, 1967.


C6H12O6 A monosaccharide; occurs free or combined and is the most common sugar. Also known as cerelose;D-glucopyranose.


1. a white crystalline monosaccharide sugar that has several optically active forms, the most abundant being dextrose: a major energy source in metabolism. Formula: C6H12O6
2. a yellowish syrup (or, after desiccation, a solid) containing dextrose, maltose, and dextrin, obtained by incomplete hydrolysis of starch: used in confectionery, fermentation, etc.
References in periodicals archive ?
The effect of combination treatment with acarbose and glibenclamide on postprandial glucose and insulin profiles: additive blood glucose lowering effect and decreased hypoglycaemia.
O'Dea, "Arabinoxylan fiber, a byproduct of wheat flour processing, reduces the postprandial glucose response in normoglycemic subjects," TheAmerican Journal of Clinical Nutrition, vol.
The integrated areas under the postprandial glucose response curves were calculated using the trapezoidal method.
Kay and Holub [13] reported that serum glucose concentrations were significantly higher in the blueberry group at 3 and 4 h than in control, in accordance with the delayed onset of postprandial glucose after fructose ingestion [46].
Patients taking the triple therapy also did significantly better on 24-hour measures of fasting plasma and postprandial glucose. They showed "markedly attenuated" increases in postprandial glucose, Dr.
Besides, in a phase I pilot study, Delphinol[R] was able to decrease the postprandial glucose and plasma insulin in patients with impaired glucose tolerance, modifying the shape of the curves for insulin and glucose, suggesting its potential use for prediabetic patients and as well in diseases associated to impaired carbohydrate metabolism.
In addition, the Premix Summit highlighted the epidemics of global obesity and type 2 diabetes as well as the latest clinical data; examine the importance of postprandial glucose (PPG) control in the treatment of diabetes; and discuss the value of and barriers to early insulin initiation as well as intensification.
However, if a woman with previously diagnosed GDM has a fasting plasma glucose level [greater than or equal to] 95 mg/dL or a 1-hour postprandial glucose level [greater than or equal to]130 mg/dL, after attempts have been made to control her blood sugar using dietary management, then insulin or another type of antihyperglycemic therapy should be initiated.
At the beginning of the study insulin resistance was significantly correlated with diastolic blood pressure, postprandial glucose and insulin, triglycerides, fructosamine, BMI and negatively correlated with HDLC.
IGT is identified by oral glucose tolerance test (OGTT) and is considered positive when the 2 hour postprandial glucose measurement is between 140-199 mg/dl.
JERUSALEM, October 20/PRNewswire-FirstCall/ -- Oramed Pharmaceuticals, Inc.(OTCBB: ORMP.OB;, a developer of oral drug delivery systems, announced today that its poster entitled "A novel GLP-1 analog delivered orally reduces postprandial glucose excursions in a porcine model," has been accepted for presentation at the Diabetes Technology Society's Ninth Annual Meeting in San Francisco, California between November 5-7, 2009.
These results suggest that Rosa damascena might exert an anti-diabetic effect by suppressing carbohydrate absorption from the intestine and can reduce the postprandial glucose level.