glucokinase
navigate by keyword : visual transport text system shunt shows screenshot representation red rapoportluebering pyruvate providing producing processes presentation phosphate pentose pathways pathway organ nose nadph nadh molecular metabolism metabolic map logo line leading kinase key involving involved interactions include illustrating highlighted glycolysis glut1 glucose6phosphate glucose glucokinase generating generated font features face enzymes energy drawing document differentiate diagram dehydrogenase colorcoded circle cell cartoon carriers brand blood atp

Crystal structure and space-filling molecular model of human glucokinase in complex with glucose and activator. 3d Royalty Free Stock Photo
Molecular model of human glucokinase in complex with glucose and activator. Glucokinase is responsible for maintaining Royalty Free Stock Photo
Crystal structure of human glucokinase in complex with glucose and activator. Glucokinase is an enzyme that facilitates Royalty Free Stock Photo
Molecular model of human glucokinase in complex with glucose and activator. Atoms are represented as spheres with Royalty Free Stock Photo
Human glucokinase in complex with glucose and activator. Rendering based on protein data bank entry 4dhy. Rainbow Royalty Free Stock Photo
   
   
Include glucokinase and pyruvate kinase. The pentose phosphate
Molecular model of human glucokinase in complex with glucose and activator. Rendering based on protein data bank entry Royalty Free Stock Photo
Human glucokinase in complex with novel amino thiazole activator Royalty Free Stock Photo
   
   
   
Glucose molecule. Molecular chemical structural formula Royalty Free Stock Photo
Beta-D-glucose-6-phosphate Royalty Free Stock Photo
Diagram illustrating red blood cell glucose metabolism. It features GLUT1 for glucose transport into the cell, leading to glycolysis. Key enzymes include glucokinase and pyruvate kinase. The pentose phosphate pathway is highlighted, producing NADPH and involving glucose-6-phosphate dehydrogenase. It also shows the Rapoport-Luebering shunt, generating 2,3-bisphosphoglycerate. ATP and NADH are involved as energy carriers. The diagram uses a color-coded system to differentiate pathways and molecular interactions, providing a visual representation of metabolic processes within a red blood cell.

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