Results 221 to 230 of about 5,647 (249)
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Bioorganicheskaia khimiia, 1985
Psychosine prepared from bovine brain cerebroside was used for synthesis of galactosphingolipids with DL-, D-, or L-2-hydroxyhexadecanoic acids and 6-(2'-anthroyl) hexanoic acid. Psychosine was N-acetyl with p-nitrophenyl 2-acetoxyhexadecanoates in the presence of hydroxybenzotriazole to give cerebrosides. The 6-(2'-anthroyl)hexanoic acid reaction with
E V, Dokolina +4 more
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Psychosine prepared from bovine brain cerebroside was used for synthesis of galactosphingolipids with DL-, D-, or L-2-hydroxyhexadecanoic acids and 6-(2'-anthroyl) hexanoic acid. Psychosine was N-acetyl with p-nitrophenyl 2-acetoxyhexadecanoates in the presence of hydroxybenzotriazole to give cerebrosides. The 6-(2'-anthroyl)hexanoic acid reaction with
E V, Dokolina +4 more
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[Certain physical parameters of cerebroside and phospholipid-cerebroside membranes].
Biofizika, 1981Study of some electric properties of bilayer membranes made of cerebrosides and phospholipid-cerebroside mixture has shown that the capacity of cerebroside film is lower than that of lecithin-cerebroside and phospholipid-cerebroside ones (0.22 +/- 0.01 mkf/cm2 and 0.28 +/- 0.01 mkf/cm2 respectively). The membranes had small cation selectivity.
E E, Mkheian +3 more
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Journal of Neuroscience Research, 2001
AbstractOligodendrocytes (OLs) and the myelin produced by them are enriched in two glycosphingolipids, galactosylceramide (GalC) and its sulfated form, cerebroside sulfate (CBS). We showed earlier that these two glycolipids in opposed liposomal membranes or in methanol solution can adhere to each other.
J M, Boggs, H, Wang
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AbstractOligodendrocytes (OLs) and the myelin produced by them are enriched in two glycosphingolipids, galactosylceramide (GalC) and its sulfated form, cerebroside sulfate (CBS). We showed earlier that these two glycolipids in opposed liposomal membranes or in methanol solution can adhere to each other.
J M, Boggs, H, Wang
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[100] Cerebroside glycosidases
1966Publisher Summary This chapter discusses the synthesis of cerebroside glycosidases. The activity of the enzyme can be determined by the liberation of glucose from glucocerebroside. This process is conveniently followed by measuring the amount of water-soluble radioactivity arising from glucose-1- 14 C-cerebroside.
Roscoe O. Brady, Julian N. Kanfer
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1970
Cerebrosides contain three moieties: a fatty amine, a fatty acid, and a hexose. The fatty amine is usually sphingosine, an 18-carbon straight-chain primary amine characterized by 2 hydroxyls (one of them allylic) and 1 amine group. A small amount of dihydrosphingosine occurs also.
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Cerebrosides contain three moieties: a fatty amine, a fatty acid, and a hexose. The fatty amine is usually sphingosine, an 18-carbon straight-chain primary amine characterized by 2 hydroxyls (one of them allylic) and 1 amine group. A small amount of dihydrosphingosine occurs also.
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Cerebroside analogues from 3-phenylserines
Chemistry and Physics of Lipids, 1977Cerebroside analogues were synthesized from DL-threo-and DL-erythro-3-phenylserines by the following sequence of reactions: esterification, N-acylation, reduction with sodium bis (2-methoxyethoxy)-aluminum hydride (SMEAH), and condensation with acetobromoglucose followed by deacetylation.
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1914
Mit Hilfe des Baryt-Acetonverfahrens nach Loening -Thierfelder1) lassen sieh aus Protagon 33–39% Cerebroside (berechnet der angewandten Protagonmenge) erhalten2)
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Mit Hilfe des Baryt-Acetonverfahrens nach Loening -Thierfelder1) lassen sieh aus Protagon 33–39% Cerebroside (berechnet der angewandten Protagonmenge) erhalten2)
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1983
Ceramide* is the basic component of sphingolipids and a key intermediate of both synthesis and degradation of all sphingolipids.1 Major brain sphingolipids are cerebrosides, sulfatides, sphingomyelins, and gangliosides. These are unique to and abundant in the nervous system. In addition, there is a small quantity of free ceramide in brain.
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Ceramide* is the basic component of sphingolipids and a key intermediate of both synthesis and degradation of all sphingolipids.1 Major brain sphingolipids are cerebrosides, sulfatides, sphingomyelins, and gangliosides. These are unique to and abundant in the nervous system. In addition, there is a small quantity of free ceramide in brain.
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