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Published byCameron Bates Modified over 9 years ago
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You Must Know 3 stages of cell communication Reception, transduction, & response How G-protein-coupled receptors receive cell signals & start transduction How receptor tyrosine kinase receive cell signals & start transduction How a cell response in the nucleus turns on genes while in the cytoplasm it activates enzymes What apoptosis means & why it is important to normal functioning of multicellular organisms
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11.1 External signals are converted into responses within the cell Animal cells communicate: by direct contact by secreting local regulators (growth factors or neurotransmitters)
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3 stages of cell signaling: 1) Reception: ○ The target cell’s detection of a signal molecule coming from outside the cell 2) Transduction: ○ Conversion of the signal to a form that can bring about a specific cellular response 3) Response: ○ Specific cellular response to the signal molecule
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11.2 Reception: a signal molecule binds to a receptor protein, causing it to change shape The binding between a signal molecule (LIGAND) & a RECEPTOR is highly specific A change in the shape is the initial transduction of the signal
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Receptors are found in 2 places: 1) Intracellular ○ Inside membrane in the cytoplasm or nucleus ○ Signal molecule MUST cross the membrane (hydrophobic) : examples – steroids & NO 2) Plasma membrane receptors ○ Bind to water-soluble ligands
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3 types of plasma membrane receptors: 1) G-Protein-Coupled receptor 2) Receptor tyrosine kinase 3) Ligand-gated ion channels
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1) G-Protein-Coupled receptor Step 1 ○ The ligand (signaling molecule) has bound to the G- protein-coupled receptor ○ Causes a conformational change in the receptor so it can bind to an inactive G-protein ○ This causes a GTP to displace the GDP ○ This activates the G-protein Step 2 ○ The G protein binds to a specific enzyme & activates it ○ When activated, it triggers the next step in a pathway leading to cellular response ○ All shape changes are temporary ○ To continue, new molecules are required
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2) Receptor tyrosine kinase Step 1 ○ Shows binding of signal molecules to the receptors & formation of a dimer ○ Each tyrosine kinase adds a phosphate from an ATP Step 2 ○ Fully activated receptor protein that initiates a unique response ○ The ability of a single ligand to activate multiple responses is the difference between #2 & #1
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3) Ligand-gated ion channels Caused by specific signal molecules Opens & closes to regulate the flow of specific ions - Na + or Ca 2+
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11.3 Transduction – Multiple molecular interactions relay signals from receptors to target molecules Involve a phosphorylation cascade Usually a multistep pathway Leads to greater amplifying of the signal Enzymes called protein kinases phosphorylate & activate proteins Allows for a greater cellular response
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Not all components are proteins May include small, nonprotein water-soluble molecules or ions called SECOND MESSENGERS Calcium ions & cyclic AMP are examples Once activated, they can initiate a phosphorylation cascade
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11.4 Response – Cell signaling leads to regulation of transcription or cytoplasmic activities Many pathways regulate protein synthesis Done by turning specific genes on or off in the nucleus The final activated molecule in a signaling pathway functions as a transcription factor
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In the cytoplasm Signaling pathways often regulate the activity of proteins rather than their synthesis Example: final step in signaling pathway may affect the activity of enzymes or cause cytoskeleton rearrangement
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11.5 Apoptosis – integrates multiple cell signaling pathways Controlled cell suicide The cell is systematically dismantled & digested Protects neighboring cells from damage that would occur if a dying cell leaked out its enzymes
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Apoptosis Triggered by signals that activate a cascade of suicide proteins in the cells In vertebrates, a normal part of development: ○ Normal nervous system ○ Operation of immune system ○ Normal morphogenesis of hands & feet in humans
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