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Ceramide 1-phosphate formation in neutrophilsRILE, Ge; YATOMI, Yutaka; TAKAFUTA, Toshiro et al.Acta haematologica. 2003, Vol 109, Num 2, pp 76-83, issn 0001-5792, 8 p.Article

The Role of Ceramide-1-Phosphate in Biological FunctionsALEXIS HOEFERLIN, L; WIJESINGHE, Dayanjan S; CHALFANT, Charles E et al.Handbook of experimental pharmacology. 2013, Vol 215, pp 153-166, issn 0171-2004, 14 p.Article

Kinetics of the Ceramide Kinase Inhibitor K1, a Suppressor of Mast-Cell ActivationKUMADA, Hirotaka; MITSUTAKE, Susumu; INAGAKI, Yuichi et al.Bioscience, biotechnology, and biochemistry. 2007, Vol 71, Num 10, pp 2581-2584, issn 0916-8451, 4 p.Article

TRAIL and ceramideLEE, Yong J; AMOSCATO, Andrew A.Vitamins and hormones. 2004, Vol 67, pp 229-255, issn 0083-6729, 27 p.Article

DETERMINATION OF THE ANOMERIC CONFIGURATIONS OF CORBICULA CERAMIDE DI- AND TRIHEXOSIDE BY CHROMIUM TRIOXIDE OXIDATION.ITASAKA O; SUGITA M; YOSHIZAKI H et al.1976; J. BIOCHEM.; JAP.; DA. 1976; VOL. 80; NO 5; PP. 935-936; BIBL. 6 REF.Article

Ceramide kinaseCHARLFANT, Charles E.Lipids (sphingolipid metabolizing enzymes 2004). 2004, pp 17-31, isbn 81-7736-229-1, 15 p.Book Chapter

STUDIES ON THE GLYCOSPHINGOLIPIDS OF THE STARFISH, ASTERINA PECTINIFERA. I. THE ISOLATION AND CHARACTERIZATION OF CERAMIDE MONO AND DI-HEXOSIDES.SUGITA M.1977; J. BIOCHEM.; JAP.; DA. 1977; VOL. 82; NO 5; PP. 1307-1312; BIBL. 20 REF.Article

Safety studies of pseudo-ceramide SLE66 : Acute and short-term toxicityMORITA, Osamu; OGURA, Ryosuke; HAYASHI, Kazuhiko et al.Food and chemical toxicology. 2009, Vol 47, Num 4, pp 669-673, issn 0278-6915, 5 p.Article

THE PRESENCE OF CERAMIDE HYDROLASE AND SYNTHETASE IN PIG LENS EPITHELIUMYU WEI SHEN; TAO RVP.1982; INVEST. OPHTHALMOL. VISUAL SCI.; ISSN 0146-0404; USA; DA. 1982; VOL. 22; NO 6; PP. 734-743; BIBL. 21 REF.Article

Synthesis of Sphingolipids with an ω-Esterified Long Acyl Chain, Ceramide Components of the Human EpidermisTASHIRO, Takuya; MORI, Kenji.Bioscience, biotechnology, and biochemistry. 2012, Vol 76, Num 9, pp 1715-1720, issn 0916-8451, 6 p.Article

OCCURRENCE OF GLYCOSPHINGOLIPIDS IN CHICKEN EGG YOLK.SU CHEN LI; JAW LONG CHIEN; CHIN CHIN WAN et al.1978; BIOCHEM. J.; GBR; DA. 1978; VOL. 173; NO 2; PP. 697-699; BIBL. 16 REF.Article

HIGH PERFORMANCE PREPARATIVE COLUMN CHROMATOGRAPHY OF LIPIDS USING A NEW POROUS SILICA, IATROBEADS. I. SEPARATION OF MOLECULAR SPECIES OF SPHINGOGLYCOLIPIDS.ANDO S; ISOBE M; NAGAI Y et al.1976; BIOCHIM. BIOPHYS. ACTA; PAYS-BAS; DA. 1976; VOL. 424; NO 1; PP. 98-105; BIBL. 21 REF.Article

Analysis of Sphingolipid Classes and Their Contents in MealsYUNOKI, Keita; OGAWA, Takuya; ONO, Jisaburo et al.Bioscience, biotechnology, and biochemistry. 2008, Vol 72, Num 1, pp 222-225, issn 0916-8451, 4 p.Article

Mitochondrial ceramide increases in UV-irradiated HeLa cells and is mainly derived from hydrolysis of sphingomyelinQIANG DAI; JIHUA LIU; JUN CHEN et al.Oncogene (Basingstoke). 2004, Vol 23, Num 20, pp 3650-3658, issn 0950-9232, 9 p.Article

CHARACTERIZATION OF THE SULFATED MONOSIALOSYLTRIGLYCOSYLCERAMIDE FROM BOVINE GASTRIC MUCOSASLOMIANY BL; KOJIMA K; BANAS GRUSZKA Z et al.1981; EUR. J. BIOCHEM.; ISSN 0014-2956; DEU; DA. 1981; VOL. 119; NO 3; PP. 647-650; BIBL. 27 REF.Article

CERAMIDE AMINOETHYLPHOSPHONATE IN FUNGUS PYTHIUM PROLATUM.WASSEF MK; HENDRIX JW.1977; BIOCHIM. BIOPHYS. ACTA; PAYS-BAS; DA. 1977; VOL. 486; NO 1; PP. 172-178; BIBL. 23 REF.Article

Neuartige Ceramide aus Cystobacter fuscus (Myxobacterales) = Nouvelles céramides de Cytobacter fuscus (Myxobacterales) = Novel ceramides from Cystobacter fuscus (Myxobacterales)ECKAU, H; DILL, D; BUDZIKIEWICZ, H et al.Zeitschrift fur Naturforschung. Section C, Biosciences. 1984, Vol 39, Num 1-2, pp 1-9, issn 0341-0382Article

Therapeutic potential of targeting ceramide/glucosylceramide pathway in cancerYANDIM, Melis Kartal; APOHAN, Elif; BARAN, Yusuf et al.Cancer chemotherapy and pharmacology. 2013, Vol 71, Num 1, pp 13-20, issn 0344-5704, 8 p.Article

Compartmentalization and properties of ceramide metabolizing enzymesBIRBES, Helene; SAMER EL BAWAB.Lipids (sphingolipid metabolizing enzymes 2004). 2004, pp 1-16, isbn 81-7736-229-1, 16 p.Book Chapter

Safety studies of pseudo-ceramide SLE66. Part 2: Metabolism, cytotoxicity and genotoxicityMORITA, Osamu; OGURA, Ryosuke; HAYASHI, Kazuhiko et al.Food and chemical toxicology. 2009, Vol 47, Num 4, pp 674-680, issn 0278-6915, 7 p.Article

The Effect of a Hydrocolloid Dressing Containing Ceramide-2 on Split-Thickness Wounds in a Laser-Induced Erosion ModelTSUCHIYA, Sunao; ICHIOKA, Shigeru; SEKIYA, Naomi et al.Advances in skin & wound care (Print). 2013, Vol 26, Num 5, pp 224-229, issn 1527-7941, 6 p.Article

Ceramides and Barrier Function in Healthy SkinMUTANU JUNGERSTED, Jakob; HELLGREN, Lars I; HØGH, Julie K et al.Acta dermato-venereologica. 2010, Vol 90, Num 4, pp 350-353, issn 0001-5555, 4 p.Article

Tumor specific cytotoxicity of glucosylceramideOKU, Hirosuke; WONGTANGTINTHARN, Sawitree; IWASAKI, Hironori et al.Cancer chemotherapy and pharmacology. 2007, Vol 60, Num 6, pp 767-775, issn 0344-5704, 9 p.Article

The interplay between bioactive sphingolipids and steroid hormonesLUCKI, Natasha C; SEWER, Marion B.Steroids. 2010, Vol 75, Num 6, pp 390-399, issn 0039-128X, 10 p.Article

TRAIL activates acid sphingomyelinase via a redox mechanism and releases ceramide to trigger apoptosisDUMITRU, C. A; GULBINS, E.Oncogene (Basingstoke). 2006, Vol 25, Num 41, pp 5612-5625, issn 0950-9232, 14 p.Article

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