Biomaterial Database

[Defects in erythrocyte glycolysis enzymes as the cause of nonspherocytic hemolytic anemia]. 1976

Ulrich Trenckmann

Hereditary non-spherocytary haemolytic anaemias have their cause in enzymopathies of the pentose phosphate cycle and the glycolysis of the erythrocytes. The 11 known enzyme defects of the erythrocytary glycolysis in consequence of the reduced preparation of adenosine triphosphatase condition a deficient stability of the membrane of the erythrocytes. Therefore, the increased autohaemolysis in normal osmotic resistance is a reference to these forms of anaemia, which are particularly to be differentiated from hereditary sperocytoses. In Middle Europe the deficiency of pyruvate kinase plays the greatest part among the otherwise rarely diagnosed enzymopenic haemolytic anaemias.

UI	MeSH Term	Description	Entries
D008297	Male		Males
D008875	Middle Aged	An adult aged 45 - 64 years.	Middle Age
D010732	Phosphofructokinase-1	An allosteric enzyme that regulates glycolysis by catalyzing the transfer of a phosphate group from ATP to fructose-6-phosphate to yield fructose-1,6-bisphosphate. D-tagatose- 6-phosphate and sedoheptulose-7-phosphate also are acceptors. UTP, CTP, and ITP also are donors. In human phosphofructokinase-1, three types of subunits have been identified. They are PHOSPHOFRUCTOKINASE-1, MUSCLE TYPE; PHOSPHOFRUCTOKINASE-1, LIVER TYPE; and PHOSPHOFRUCTOKINASE-1, TYPE C; found in platelets, brain, and other tissues.	6-Phosphofructokinase,6-Phosphofructo-1-kinase,Fructose-6-P 1-Kinase,Fructose-6-phosphate 1-Phosphotransferase,6 Phosphofructokinase,Phosphofructokinase 1
D010735	Phosphoglycerate Kinase	An enzyme catalyzing the transfer of a phosphate group from 3-phospho-D-glycerate in the presence of ATP to yield 3-phospho-D-glyceroyl phosphate and ADP. EC 2.7.2.3.	Kinase, Phosphoglycerate
D011770	Pyruvate Kinase	ATP:pyruvate 2-O-phosphotransferase. A phosphotransferase that catalyzes reversibly the phosphorylation of pyruvate to phosphoenolpyruvate in the presence of ATP. It has four isozymes (L, R, M1, and M2). Deficiency of the enzyme results in hemolytic anemia. EC 2.7.1.40.	L-Type Pyruvate Kinase,M-Type Pyruvate Kinase,M1-Type Pyruvate Kinase,M2-Type Pyruvate Kinase,Pyruvate Kinase L,R-Type Pyruvate Kinase,L Type Pyruvate Kinase,M Type Pyruvate Kinase,M1 Type Pyruvate Kinase,M2 Type Pyruvate Kinase,Pyruvate Kinase, L-Type,Pyruvate Kinase, M-Type,Pyruvate Kinase, M1-Type,Pyruvate Kinase, M2-Type,Pyruvate Kinase, R-Type,R Type Pyruvate Kinase
D002648	Child	A person 6 to 12 years of age. An individual 2 to 5 years old is CHILD, PRESCHOOL.	Children
D004912	Erythrocytes	Red blood cells. Mature erythrocytes are non-nucleated, biconcave disks containing HEMOGLOBIN whose function is to transport OXYGEN.	Blood Cells, Red,Blood Corpuscles, Red,Red Blood Cells,Red Blood Corpuscles,Blood Cell, Red,Blood Corpuscle, Red,Erythrocyte,Red Blood Cell,Red Blood Corpuscle
D005260	Female		Females
D006009	Glycogen Storage Disease Type II	An autosomal recessively inherited glycogen storage disease caused by GLUCAN 1,4-ALPHA-GLUCOSIDASE deficiency. Large amounts of GLYCOGEN accumulate in the LYSOSOMES of skeletal muscle (MUSCLE, SKELETAL); HEART; LIVER; SPINAL CORD; and BRAIN. Three forms have been described: infantile, childhood, and adult. The infantile form is fatal in infancy and presents with hypotonia and a hypertrophic cardiomyopathy (CARDIOMYOPATHY, HYPERTROPHIC). The childhood form usually presents in the second year of life with proximal weakness and respiratory symptoms. The adult form consists of a slowly progressive proximal myopathy. (From Muscle Nerve 1995;3:S61-9; Menkes, Textbook of Child Neurology, 5th ed, pp73-4)	Acid Maltase Deficiency Disease,Generalized Glycogenosis,Glycogenosis 2,Lysosomal alpha-1,4-Glucosidase Deficiency Disease,Pompe Disease,Acid Alpha-Glucosidase Deficiency,Acid Maltase Deficiency,Adult Glycogen Storage Disease Type II,Alpha-1,4-Glucosidase Deficiency,Deficiency Disease, Acid Maltase,Deficiency Disease, Lysosomal alpha-1,4-Glucosidase,Deficiency of Alpha-Glucosidase,GAA Deficiency,GSD II,GSD2,Glycogen Storage Disease II,Glycogen Storage Disease Type 2,Glycogen Storage Disease Type II, Adult,Glycogen Storage Disease Type II, Infantile,Glycogen Storage Disease Type II, Juvenile,Glycogenosis Type II,Infantile Glycogen Storage Disease Type II,Juvenile Glycogen Storage Disease Type II,Pompe's Disease,Acid Alpha Glucosidase Deficiency,Acid Alpha-Glucosidase Deficiencies,Acid Maltase Deficiencies,Alpha 1,4 Glucosidase Deficiency,Alpha-1,4-Glucosidase Deficiencies,Alpha-Glucosidase Deficiencies,Alpha-Glucosidase Deficiencies, Acid,Alpha-Glucosidase Deficiency,Alpha-Glucosidase Deficiency, Acid,Deficiencies, Acid Alpha-Glucosidase,Deficiencies, Acid Maltase,Deficiencies, Alpha-1,4-Glucosidase,Deficiencies, GAA,Deficiency of Alpha Glucosidase,Deficiency, Acid Alpha-Glucosidase,Deficiency, Acid Maltase,Deficiency, Alpha-1,4-Glucosidase,Deficiency, GAA,Disease, Pompe,Disease, Pompe's,GAA Deficiencies,GSD2s,Generalized Glycogenoses,Glycogenoses, Generalized,Glycogenosis, Generalized,Lysosomal alpha 1,4 Glucosidase Deficiency Disease,Maltase Deficiencies, Acid,Pompes Disease,Type II, Glycogenosis,Type IIs, Glycogenosis
D006593	Hexokinase	An enzyme that catalyzes the conversion of ATP and a D-hexose to ADP and a D-hexose 6-phosphate. D-Glucose, D-mannose, D-fructose, sorbitol, and D-glucosamine can act as acceptors; ITP and dATP can act as donors. The liver isoenzyme has sometimes been called glucokinase. (From Enzyme Nomenclature, 1992) EC 2.7.1.1.	Hexokinase A,Hexokinase D,Hexokinase II