PSB - Biochemie
PSV - Zoologie und Tierwissenschaften
PST - Botanik und Pflanzenwissenschaften
Inhaltsverzeichnis
I — Receptors.- 1. Real—Time Analysis of Macromolecular Assembly During Cell Activation.- 2. Identification of Residues Essential for the Active Conformation of the ?-Adrenergic Receptor by Site—Directed Mutagenesis.- 3. Mechanisms for Diversification of Responses of Human Polymorphonuclear Leukocytes to Leukotrienes.- 4. The Role of Covalent and Non—covalent Mechanisms in Insulin Receptor Action.- 5. EGF Triggers A Similar Signalling Cascade in Different Cell Types Overexpressing the EGF Receptor.- 6. Second Messenger Receptors in the Phosphoinositide Cycle.- 7. Mechanisms of Receptor Regulation for the Phosphoinositide Signalling System.- 8. Computer Simulation of Prostaglandin—Regulated Cyclic AMP Metabolism in Platelets: Activation and Desensitization of Adenylate Cyclase Appear to be Mediated Through Separate Prostaglandin Receptors Coupled to Gs and Gi.- II — G Proteins.- 9. The Family of G Proteins.- 10. Roles of G Protein Subunits in Coupling of Receptors to Ionic Channels and Other Effector Systems.- 11. Receptor—Mediated Alterations of Calcium Channel Function in the Regulation of Neurosecretion.- 12. Antibodies as Probes of G—Protein Structure and Function.- 13. Transducin: A Model of Biological Coupling Enzymes.- 14. Co—Localization by Immunofluorescence of the ? subunit(s) of Gi with Cytoplasmic Structures.- 15. “Cross-Talk” and the Regulation of Hepatocyte Adenylate Cyclase Activity: Desensitization, Gi and Cyclic AMP Phosphodiesterase Regulation.- 16. Activation of Human Neutrophils by Granulocyte—Macrophage Colony—Stimulating Factor: Role of Guanine—Nucleotide Binding Proteins.- 17. Cytoskeletal Participation in the Signal Transduction Process: Tubulin G Protein Interactions in the Regulation of Adenylate Cyclase.- 18. Initiation and Modulation of Signal Output from the T cell Antigen Receptor.- 19. Selective Phosphorylation of a G Protein within Permeabilized and Intact Platelets Caused by Activators of Protein Kinase C.- 20. G Proteins and Toxin-Catalyzed ADP-Ribosylation.- 21. Novel Endogenous ADP—Ribosylations of Proteins in Transformed Cells: Effects of Cellular Transformation and Differentiation.- III — Inositol Phosphates.- 22. Inositol 1,4,5—Trisphosphate and Inositol 1,3,4,5—Tetrakisphosphate: Two Second Messengers in a Duet of Calcium Regulation.- 23. The Role of Endogenously Stimulated Protein Kinase C in Regulating Inositol Polyphosphate Accumulation in Human Platelets.- 24. Leukotriene D4 Increases the Metabolism of an Inositol Tetrakisphosphate-Containing Phospholipid in U937 Cells.- IV — Kinases.- 25. Immunocytochemical Localization of Protein Kinase C.- 26. A Protein Kinase C Pseudosubstrate Peptide Blocks G—Protein and Mitogenic Lectin Induced Phosphorylation of the CD3 Antigen in Human T—Lymphocytes.- 27. Growth Factor—Stimulated Tyrosine Phosphorylation of Phospholipase C.- V — Phospholipases.- 28. Eicosanoid Formation and Regulation of Phospholipase A2.- 29. Inhibition of Phospholipase A2 Activation in P388D1 Macrophage—like Cells.- 30. The Role of GTP—Binding Proteins in the Regulation of Phospholipase A2 and C in Bovine Retinal Rod Outer Segments.- 31. Stimulus—Coupled Activation of Phospholipase D.- VI — Calcium.- 32. The Orchestration of Stimulatory Signals for Secretion in Rat Basophilic Leukemia (RBL-2H3) Cells.- 33. Synchronized Ca2+ Transients induced by Glucagon in Fura2 Loaded Hepatocytes.- 34. Calcium Mobilization Mechanisms in Bovine Chromaffin Cells by Vasoactive Peptides: Angiotensin, Bradykinin and Endothelin.- 35. Influence of GDP(B)S on Agonist—Induced Calcium Mobilization and Platelet Function.- VII — Eicosanoids.- 36. Regulation of the Production of Lipoxygenase Products and the Role of Eicosanoids in Signal Transduction.- 37. Eicosanoid Synthesis in Resident Macrophages: Role of Protein Kinase C.- 38. Modulation of the S—K+ Channel of Aplysia Sensory Neurons by Lipoxygenase Metabolites of Arachidonic Acid and cAMP.- 39. Inhibition of Leukotriene D4 Mediated Release of Prostacyclin Using Antisense DNA.- VIII -- Glycosylated Phosphoinositides.- 40. Second Messengers of Insulin Action.- 41. Control by TSH of the Production by Thyroid Cells of an Inositol Phosphateglycan, Putative Mediator of the cAMP—Independent Effects in the Gland.
Wenn du eine Bewertung für dieses Produkt schreibst, hilfst du allen Kund:innen, die noch überlegen, ob sie das Produkt kaufen wollen. Vielen Dank, dass du mitmachst!