Yeast Sphingolipids - Structure, Biological Importance and Metabolism (CROSBI ID 87000)
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Podaci o odgovornosti
Bauman, Mirela ; Mesarić, Marko ; Marić, Vladimir
engleski
Yeast Sphingolipids - Structure, Biological Importance and Metabolism
Sphingolipids, detected and named by J. L. W. Thudicum more than a hundred years ago, have a common long chain sphingoid base. In most mammals this base is sphingosine. In yeast, phytosphingosine occurs. Complex sphingolipids are made of sphingoid base to which a fatty acid is linked via an amide bond. Yeat sphingolipids are involved in membrane signaling, regulation of cell wall biosynthesis, phospholipid biosynthesis and binding of cell surface glycoproteins. Besides, they are proven to play important roles in signal transduction during the heat stress response, regulation of calcium homeostasis or components in calcium-mediated signaling pathways and in regulation of the cell cycle. The key reaction in yeasts sphingolipids biosynthesis is condensation of palmitoyl-CoA with serine yielding D-3-ketosphinganine. The reaction is catalyzed by serine palmitoyltransferase ; the mechanism by which yeast cells regulate activity of the enzyme and the concentration of sphingolipids is still being investigated. Little is known about sphingolipids breakdown pathways in yeast. A form of mammalian sphingomyelinase was found to exist in Saccharomyces cerevisia. There are no data on the activity of ceremidase in the yeast. Secretory pathway is regarded the main pathway of sphingolipid transport in the cell ; Golgi appears to be the branching point in this process.
yeast ; sphingolipids ; degradation ; biosynthesis
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