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Results: 1-11 |
Results: 11
HTPS flow cytometry: A novel platform for automated high throughput drug discovery and characterization
Authors: Edwards, BS Kuckuck, FW Prossnitz, ER Ransom, JT Sklar, LA
Citation: Bs. Edwards et al., HTPS flow cytometry: A novel platform for automated high throughput drug discovery and characterization, J BIOMOL SC, 6(2), 2001, pp. 83-90
Plug flow cytometry extends analytical capabilities in cell adhesion and receptor pharmacology
Authors: Edwards, BS Kuckuck, FW Prossnitz, ER Okun, A Ransom, JT Sklar, LA
Citation: Bs. Edwards et al., Plug flow cytometry extends analytical capabilities in cell adhesion and receptor pharmacology, CYTOMETRY, 43(3), 2001, pp. 211-216
Real-time analysis of G protein-coupled receptor reconstitution in a solubilized system
Authors: Bennett, TA Key, TA Gurevich, VV Neubig, R Prossnitz, ER Sklar, LA
Citation: Ta. Bennett et al., Real-time analysis of G protein-coupled receptor reconstitution in a solubilized system, J BIOL CHEM, 276(25), 2001, pp. 22453-22460
Internalization of the human N-formyl peptide and C5a chemoattractant receptors occurs via clathrin-independent mechanisms
Authors: Gilbert, TL Bennett, TA Maestas, DC Cimino, DF Prossnitz, ER
Citation: Tl. Gilbert et al., Internalization of the human N-formyl peptide and C5a chemoattractant receptors occurs via clathrin-independent mechanisms, BIOCHEM, 40(12), 2001, pp. 3467-3475
Analysis of free intracellular calcium by flow cytometry: Multiparameter and pharmacologic applications
Authors: Burchiel, SW Edwards, BS Kuckuck, FW Lauer, FT Prossnitz, ER Ransom, JT Sklar, LA
Citation: Sw. Burchiel et al., Analysis of free intracellular calcium by flow cytometry: Multiparameter and pharmacologic applications, METHODS, 21(3), 2000, pp. 221-230
Arrestin binding to the G protein-coupled N-formyl peptide receptor is regulated by the conserved "DRY" sequence
Authors: Bennett, TA Maestas, DC Prossnitz, ER
Citation: Ta. Bennett et al., Arrestin binding to the G protein-coupled N-formyl peptide receptor is regulated by the conserved "DRY" sequence, J BIOL CHEM, 275(32), 2000, pp. 24590-24594
Deficient homologous desensitization of formyl peptide receptors stably expressed in undifferentiated HL-60 cells
Authors: Rane, MJ Prossnitz, ER Arthur, JM Ward, RA McLeish, KR
Citation: Mj. Rane et al., Deficient homologous desensitization of formyl peptide receptors stably expressed in undifferentiated HL-60 cells, BIOCH PHARM, 60(2), 2000, pp. 179-187
Flow cytometry: a versatile tool for all phases of drug discovery
Authors: Nolan, JP Lauer, S Prossnitz, ER Sklar, LA
Citation: Jp. Nolan et al., Flow cytometry: a versatile tool for all phases of drug discovery, DRUG DISC T, 4(4), 1999, pp. 173-180
The uncoupled state of the human formyl peptide receptor
Authors: Gilbert, TL Prossnitz, ER Sklar, LA
Citation: Tl. Gilbert et al., The uncoupled state of the human formyl peptide receptor, J RECEPT SI, 19(1-4), 1999, pp. 327-340
Differential phosphorylation paradigms dictate desensitization and internalization of the N-formyl peptide receptor
Authors: Maestes, DC Potter, RM Prossnitz, ER
Citation: Dc. Maestes et al., Differential phosphorylation paradigms dictate desensitization and internalization of the N-formyl peptide receptor, J BIOL CHEM, 274(42), 1999, pp. 29791-29795
Multiple activation steps of the N-formyl peptide receptor
Authors: Prossnitz, ER Gilbert, TL Chiang, S Campbell, JJ Qin, SX Newman, W Sklar, LA Ye, RD
Citation: Er. Prossnitz et al., Multiple activation steps of the N-formyl peptide receptor, BIOCHEM, 38(8), 1999, pp. 2240-2247
Risultati: 1-11 |