Cell Signalling 1

Beschreibung

Introduction to cell signalling and signal transduction pathways. Types of signalling and receptors.
Sophie Barrett
Karteikarten von Sophie Barrett, aktualisiert more than 1 year ago
Sophie Barrett
Erstellt von Sophie Barrett vor fast 11 Jahre
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Frage Antworten
Why is Cell Signalling Important? - The cells of the developing organism must respond to environment to survive, divide and differentiate. - The cell of the mature organism must survive, adapt and succeed in their environment.
Short Term and Rapid Effects (take hours) e.g. altered cell excitability or cell secretion. Often involves alters ion fluxes.
Medium Term and Moderate Speed Responses e.g. altered metabolism or altered gene expression.
Long Term and Slow Responses (take hours) e.g. altered cell shape or cell movement. With 2nd or 3rd messengers acting on the cytoskeletal proteins.
What are the 5 general signalling modes? 1. Endocrine 2. Paracrine 3. Neuronal 4. Contact Dependant 5. Autocrine
Describe Endocrine Signalling Messenger is produced by cell and released into bloodstream to act at a distant cell.
Describe Paracrine Signalling Messenger produced by a cell to activate another close-by cell.
Describe Neuronal Signalling Electrical activity along an axon towards a synapse or to a location distant in the body.
Describe Contact Dependant Signalling Cell Adhesion molecules usually involved in structural integrity or cell migration.
Describe Autocrine signalling. Messenger is released by a cell to act on itself.
What are the 3 major types of receptor? (Found on the external cell membrane) 1. Kinase-coupled receptors. 2. G-Protein coupled receptors. 3. Ligand-gated ion channels.
Describe Ionotropic Receptors Ion channels and are ligand gated, often exist in different isoforms. e.g. glutamate receptors or acetylcholine receptors.
Describe Metabotropic receptors. Usually involved in metabolic or Biochemical changes. Are either G-protein coupled receptors OR Enzyme-Linked Receptors.
Why are Isoforms useful? Allow different responses to the same stimulus in different cells of the body.
Give an example of different responses mediated by isoforms of a glutamate receptor. NMDA receptor: slow depolarisation and 2nd messenger activation. AMPA or KA receptor: fast depolarisation.
How can channel gating be regulated? Channel modulators, co-agonists and antagonists.
Describe how NMDA Glutamate receptors are regulated? Blocked by Mg2+ (voltage-dependant). Mg2+ is removed by depolarisation. Glyciene can also bing , modulating the channel current.
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