Signal TransductionGulf Professional Publishing, 08/03/2002 - 420 páginas Signal Transduction is a well-illustrated, coherent look at cellular signaling processes. Beginning with the basics, it explains how cells respond to external cues, hormones, growth factors, cytokines, cell surfaces, etc., and then shows how these inputs are integrated and coordinated. The extensive color artwork provides the reader with a clearer comprehension of key topics, and margin notes are incorporated to highlight milestones in the evolution of signal transduction. This book serves as an invaluable resource for advanced undergraduates, graduate researchers, and established scientists working in cell biology, pharmacology, immunology, and related fields.
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... domains and signal transduction Structurally conserved protein modules Domains that bind oligopeptide motifs Domains that bind proteins and lipids Polypeptide modules that bind Ca” Protein kinase domains Index 383 384 393 393 395 398 40 ...
... domains and signal transduction Structurally conserved protein modules Domains that bind oligopeptide motifs Domains that bind proteins and lipids Polypeptide modules that bind Ca” Protein kinase domains Index 383 384 393 393 395 398 40 ...
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... domain that exposes residues which then interact with the transmembrane core of the receptor. In this way, the extracellular domain of the receptor acts as its own auto-ligand. The Ca”-sensing receptor confronts a particular problem ...
... domain that exposes residues which then interact with the transmembrane core of the receptor. In this way, the extracellular domain of the receptor acts as its own auto-ligand. The Ca”-sensing receptor confronts a particular problem ...
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... domain which acts as a low affinity chelator, binding or releasing Ca” as its concentration varies within the (extracellular) physiological range.” The Ca” sensor may operate as a dimer, the two components being joined by a disulphide ...
... domain which acts as a low affinity chelator, binding or releasing Ca” as its concentration varies within the (extracellular) physiological range.” The Ca” sensor may operate as a dimer, the two components being joined by a disulphide ...
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... domain. Others, however, are much larger (370–1400 residues), and possess multiple structural domains (DH, PH, PTB, PDZ, etc. see Chapter 18) that might allow them to link up with other proteins involved in signalling. An example is the ...
... domain. Others, however, are much larger (370–1400 residues), and possess multiple structural domains (DH, PH, PTB, PDZ, etc. see Chapter 18) that might allow them to link up with other proteins involved in signalling. An example is the ...
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Índice
Adenylyl cyclase and phospholipase C | |
Chapter 6 The regulation of visual transduction | |
Chapter 7 Calcium and signal transduction | |
Chapter 11 Signalling pathways operated by receptor protein tyrosine kinases | |
Chapter 12 Signalling pathways operated by nonreceptor protein tyrosine kinases | |
Chapter 13 Phosphoinositide 3kinases protein kinase B and signalling through the insulin receptor | |
Chapter 14 Signal transduction to and from adhesion molecules | |
Chapter 15 Adhesion molecules and trafficking of leukocytes | |
Chapter 16 Signalling through receptor bound protein serinethreonine kinases | |
Chapter 17 Protein dephosphorylation and protein phosphorylation | |
Chapter 18 Protein domains and signal transduction | |
Outras edições - Ver tudo
Signal Transduction Bastien D. Gomperts,Peter E.R. Tatham,Ijsbrand M. Kramer Pré-visualização limitada - 2002 |
Signal Transduction Bastien D. Gomperts,Ijsbrand M. Kramer,Peter E.R. Tatham Pré-visualização limitada - 2003 |
Signal Transduction Bastien D. Gomperts,ljsbrand M. Kramer,Peter E.R. Tatham Pré-visualização indisponível - 2002 |
Palavras e frases frequentes
3-kinase action activation acts adenylyl cyclase adhesion affinity amino acids appears associated attachment become binding Biol cAMP catalytic causes cell cycle cells cellular changes channels Chapter Chem complex components concentration consequence contain cyclic cytoplasm cytosol direct domain effect effector enzymes example expression Figure formation function G-proteins gene glucose growth factor GTPase hormone human important increase indicated induced inhibition inhibitor initially interaction intracellular involved ligand light linked mechanism mediated membrane messengers molecules muscle mutations myosin Nature nucleotide occurs organization pathway phosphatase phosphorylation plasma platelet-derived growth factor present protein kinase provides receptor region regulation release remains residues response result role sequence SH2 domains signal signal transduction similar single specific stimulation structure substrate subunits surface Table tion tissue transcription transformation tumour tyrosine tyrosine kinase