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Benjamin F Cravatt

Showing results (51-60 of 569) with videos related to

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Chemistry & Biology|November 24, 2004
Discovering disease-associated enzymes by proteome reactivity profilingKatherine T Barglow, Benjamin F Cravatt
Journal of Neurobiology|September 14, 2004
The endogenous cannabinoid system and its role in nociceptive behaviorBenjamin F Cravatt, Aron H Lichtman
Chemical Reviews|June 24, 2011
The metabolic serine hydrolases and their functions in mammalian physiology and diseaseJonathan Z Long, Benjamin F Cravatt
Nature Chemical Biology|July 21, 2022
Ace-ylation in the holeMicah J Niphakis, Benjamin F Cravatt
The Journal of Biological Chemistry|February 12, 2010
Chemical biology meets biological chemistry minireview seriesBenjamin F Cravatt, Joel M Gottesfeld
The Journal of Biological Chemistry|February 12, 2010
Activity-based proteomics of enzyme superfamilies: serine hydrolases as a case studyGabriel M Simon, Benjamin F Cravatt
Journal of the American Chemical Society|February 25, 2010
Activity-based probes that target functional subclasses of phospholipases in proteomesSarah E Tully, Benjamin F Cravatt
STAR Protocols|April 26, 2021
Multiplexed proteomic profiling of cysteine reactivity and ligandability in human T cellsEkaterina V Vinogradova, Benjamin F Cravatt
Annual Review of Biochemistry|June 7, 2014
Enzyme inhibitor discovery by activity-based protein profilingMicah J Niphakis, Benjamin F Cravatt
Annual Review of Pharmacology and Toxicology|September 18, 2023
Deciphering Drug Targets and Actions with Single-Cell and Spatial ResolutionZhengyuan Pang, Benjamin F Cravatt, Li Ye
Pageof 57

Showing results (51-60 of 569) with videos related to

Sort By:
Pageof 57
Chemistry & Biology|November 24, 2004
Discovering disease-associated enzymes by proteome reactivity profilingKatherine T Barglow, Benjamin F Cravatt
Journal of Neurobiology|September 14, 2004
The endogenous cannabinoid system and its role in nociceptive behaviorBenjamin F Cravatt, Aron H Lichtman
Chemical Reviews|June 24, 2011
The metabolic serine hydrolases and their functions in mammalian physiology and diseaseJonathan Z Long, Benjamin F Cravatt
Nature Chemical Biology|July 21, 2022
Ace-ylation in the holeMicah J Niphakis, Benjamin F Cravatt
The Journal of Biological Chemistry|February 12, 2010
Chemical biology meets biological chemistry minireview seriesBenjamin F Cravatt, Joel M Gottesfeld
The Journal of Biological Chemistry|February 12, 2010
Activity-based proteomics of enzyme superfamilies: serine hydrolases as a case studyGabriel M Simon, Benjamin F Cravatt
Journal of the American Chemical Society|February 25, 2010
Activity-based probes that target functional subclasses of phospholipases in proteomesSarah E Tully, Benjamin F Cravatt
STAR Protocols|April 26, 2021
Multiplexed proteomic profiling of cysteine reactivity and ligandability in human T cellsEkaterina V Vinogradova, Benjamin F Cravatt
Annual Review of Biochemistry|June 7, 2014
Enzyme inhibitor discovery by activity-based protein profilingMicah J Niphakis, Benjamin F Cravatt
Annual Review of Pharmacology and Toxicology|September 18, 2023
Deciphering Drug Targets and Actions with Single-Cell and Spatial ResolutionZhengyuan Pang, Benjamin F Cravatt, Li Ye
Pageof 57