Functional disassociation of the central and peripheral fatty acid amide signaling systems Benjamin F. Cravatt*†, Alan Saghatelian*, Edward G. Hawkins*, Angela B. Clement*, Michael H. Bracey*, and Aron H. Lichtman‡ *

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Date: 2008-05-12 15:27:36 Chemistry Neurochemistry Biochemistry Cannabinoids G protein coupled receptors Fatty acid amides Fatty acid amide hydrolase Alcohols Endocannabinoid system Anandamide Cannabinoid receptor type 2 Cannabinoid receptor type 1		Functional disassociation of the central and peripheral fatty acid amide signaling systems Benjamin F. Cravatt†, Alan Saghatelian, Edward G. Hawkins, Angela B. Clement, Michael H. Bracey, and Aron H. Lichtman‡ Add to Reading List Source URL: www.scripps.edu Download Document from Source Website File Size: 532,57 KB Share Document on Facebook

	Supersensitivity to anandamide and enhanced endogenous cannabinoid signaling in mice lacking fatty acid amide hydrolase Benjamin F. Cravatt†, Kristin Demarest, Matthew P. Patricelli, Michael H. Bracey, Dan K. Giang DocID: 1rAzU - View Document
	Biochemistry 2004, 43, Assignment of Endogenous Substrates to Enzymes by Global Metabolite Profiling† Alan Saghatelian, Sunia A. Trauger, Elizabeth J. Want, Edward G. Hawkins, Gary Siuzdak, and DocID: 1rnMe - View Document
	REPORTS and a HexNAc residue, suggesting that the glycan in the m/z⫹ glycopeptide was linked to the peptide through HexNAc rather than DATDH (Fig. 4C, inset). In view of the DATDH synthesis pathway (19), it is l DocID: 1rlsq - View Document
	Functional disassociation of the central and peripheral fatty acid amide signaling systems Benjamin F. Cravatt†, Alan Saghatelian, Edward G. Hawkins, Angela B. Clement, Michael H. Bracey, and Aron H. Lichtman‡ DocID: 1qJmk - View Document
	doi:S1367 DocID: 1qvvT - View Document