This domain is found at the C-terminal end of Galactocerebrosidase from Mus musculus (GALCERase) and similar proteins predominantly found in animals and bacteria. GALCERase hydrolyses the galactose ester bonds of glycolipids such as galactosylceramid ...
This domain is found at the C-terminal end of Galactocerebrosidase from Mus musculus (GALCERase) and similar proteins predominantly found in animals and bacteria. GALCERase hydrolyses the galactose ester bonds of glycolipids such as galactosylceramide and galactosylsphingosine. It is responsible for the lysosomal catabolism of galactosylceramide, a major lipid in myelin, kidney and epithelial cells of small intestine and colon. This protein is organised into three domains, all of them contributing residues to the substrate- binding pocket. This entry represents the lectin domain, which is not present in other lysosomal enzymes, is likely to be be involved in processes that are not found in related enzymes. Mutations in this domain lead to Krabbe disease [1].
Saposin B is a small non-enzymatic glycoprotein required for the breakdown of cerebroside sulphates (sulphatides) in lysosomes. Saposin B contains three intramolecular disulphide bridges, exists as a dimer and is remarkably heat, protease, and pH sta ...
Saposin B is a small non-enzymatic glycoprotein required for the breakdown of cerebroside sulphates (sulphatides) in lysosomes. Saposin B contains three intramolecular disulphide bridges, exists as a dimer and is remarkably heat, protease, and pH stable. The crystal structure of human saposin B reveals an unusual shell-like dimer consisting of a monolayer of alpha-helices enclosing a large hydrophobic cavity [1,2]. It is one of the most studied members of the saposin protein family and it is involved in the hydrolysis of glycolipids and glycerolipids. SapB is unique in the saposin family in that it facilitates degradation by interacting with the substrate, not the enzymes [3].