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Chapter 5 Ligand gated ion channels, intracellular receptors and phosphorylation cascades.

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1 Chapter 5 Ligand gated ion channels, intracellular receptors and phosphorylation cascades

2 You Must Know The function of ligand gated ion channels, intracellular receptors and phosphorylation cascades.

3 ligand-gated ion channel
1 Cellular response Gate open 2 Gate closed Ions Signaling molecule (ligand) Plasma membrane Ligand-gated ion channel receptor Gate closed 3 A ligand-gated ion channel receptor acts as a “gate” for ions when the receptor changes shape. When a signal molecule binds as a ligand to the receptor, the gate allows specific ions, such as Na+ or Ca2+, through a channel in the receptor. Ligand-gated ion channels are very important in the nervous system. The diffusion of ions through open channels may trigger an electric signal. © 2014 Pearson Education, Inc. 3

4 Steroid hormone interacting with an intracellular receptor
(testosterone) EXTRA- CELLULAR FLUID Steroid hormone interacting with an intracellular receptor Hydrophobic Plasma membrane Receptor protein Hormone- receptor complex DNA Intracellular receptor proteins are found in the cytosol or nucleus of target cells. Small or hydrophobic chemical messengers can readily cross the membrane and activate receptors. Examples of hydrophobic messengers are the steroid and thyroid hormones of animals and nitric oxide (NO) in both plants and animals. Testosterone behaves similarly to other steroid hormones. Only cells that contain receptors for testosterone can respond to it. The hormone binds the receptor protein and activates it. The active form of the receptor enters the nucleus, acts as a transcription factor, and activates genes needed for male sex characteristics. mRNA New protein NUCLEUS CYTOPLASM © 2014 Pearson Education, Inc. 4

5 phosphorylation cascade
Signaling molecule Activated relay molecule Receptor Protein kinase Inactive protein kinase 1 Active protein kinase 1 Inactive protein kinase 2 Phosphorylation cascade ADP Active protein kinase 2 Phosphorylation and dephosphorylation are a widespread cellular mechanism for regulating protein activity. Protein kinases transfer phosphates from ATP to protein, a process called phosphorylation. The addition of phosphate groups often changes the form of a protein from inactive to active. Protein phosphatases remove the phosphates from proteins, a process called dephosphorylation. Phosphatases provide a mechanism for turning off the signal transduction pathway. They also make protein kinases available for reuse, enabling the cell to respond to the signal again. Inactive protein ADP Active protein Cellular response Protein phosphatases © 2014 Pearson Education, Inc. 5

6 Growth factor Reception Receptor Transduction CYTOPLASM Inactive
Figure 5.26 Growth factor Reception Receptor Phosphorylation cascade Transduction CYTOPLASM Inactive transcription factor Active transcription factor Response DNA Gene NUCLEUS mRNA © 2014 Pearson Education, Inc. 6

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