Glucokinase

1V4S, 1V4T, 3A0I, 3F9M, 3FGU, 3FR0, 3GOI, 3H1V, 3ID8, 3IDH, 3QIC, 3S41, 3VEV, 3VEY, 3VF6, 4DCH, 4DHY, 4ISE, 4ISF, 4ISG, 4IWV, 4IXC, 4L3Q, 4LC9, 3IMX, 4MLE, 4MLH, 4NO7, 4RCH2645103988n/aENSMUSG00000041798P35557P52792NM_033508NM_000162NM_033507NM_010292NM_001287386NP_001341731NP_001341732NP_001274315NP_034422Glucokinase (EC 2.7.1.2) is an enzyme that facilitates phosphorylation of glucose to glucose-6-phosphate. Glucokinase occurs in cells in the liver and pancreas of humans and most other vertebrates. In each of these organs it plays an important role in the regulation of carbohydrate metabolism by acting as a glucose sensor, triggering shifts in metabolism or cell function in response to rising or falling levels of glucose, such as occur after a meal or when fasting. Mutations of the gene for this enzyme can cause unusual forms of diabetes or hypoglycemia.1v4s: Crystal structure of human glucokinase1v4t: Crystal structure of human glucokinase Glucokinase (EC 2.7.1.2) is an enzyme that facilitates phosphorylation of glucose to glucose-6-phosphate. Glucokinase occurs in cells in the liver and pancreas of humans and most other vertebrates. In each of these organs it plays an important role in the regulation of carbohydrate metabolism by acting as a glucose sensor, triggering shifts in metabolism or cell function in response to rising or falling levels of glucose, such as occur after a meal or when fasting. Mutations of the gene for this enzyme can cause unusual forms of diabetes or hypoglycemia. Glucokinase (GK) is a hexokinase isozyme, related homologously to at least three other hexokinases. All of the hexokinases can mediate phosphorylation of glucose to glucose-6-phosphate (G6P), which is the first step of both glycogen synthesis and glycolysis. However, glucokinase is coded by a separate gene and its distinctive kinetic properties allow it to serve a different set of functions. Glucokinase has a lower affinity for glucose than the other hexokinases do, and its activity is localized to a few cell types, leaving the other three hexokinases as more important preparers of glucose for glycolysis and glycogen synthesis for most tissues and organs. Because of this reduced affinity, the activity of glucokinase, under usual physiological conditions, varies substantially according to the concentration of glucose. Alternative names for this enzyme are: human hexokinase IV, hexokinase D, and ATP:D-hexose 6-phosphotransferase, EC 2.7.1.1 (previously 2.7.1.2). The common name, glucokinase, is derived from its relative specificity for glucose under physiologic conditions. Some biochemists have argued that the name glucokinase should be abandoned as misleading, as this enzyme can phosphorylate other hexoses in the right conditions, and there are distantly related enzymes in bacteria with more absolute specificity for glucose that better deserve the name and the EC 2.7.1.2. Nevertheless, glucokinase remains the name preferred in the contexts of medicine and mammalian physiology. Another mammalian glucose kinase, ADP-specific glucokinase, was discovered in 2004. The gene is distinct and similar to that of primitive organisms. It is dependent on ADP rather than ATP (suggesting the possibility of more effective function during hypoxia), and the metabolic role and importance remain to be elucidated. The principal substrate of physiologic importance of glucokinase is glucose, and the most important product is glucose-6-phosphate (G6P). The other necessary substrate, from which the phosphate is derived, is adenosine triphosphate (ATP), which is converted to adenosine diphosphate (ADP) when the phosphate is removed. The reaction catalyzed by glucokinase is: ATP participates in the reaction in a form complexed to magnesium (Mg) as a cofactor. Furthermore, under certain conditions, glucokinase, like other hexokinases, can induce phosphorylation of other hexoses (6 carbon sugars) and similar molecules. Therefore, the general glucokinase reaction is more accurately described as: Among the hexose substrates are mannose, fructose, and glucosamine, but the affinity of glucokinase for these requires concentrations not found in cells for significant activity.