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Biological Hierarchy:

Biological Hierarchy:. Involves (and you should review): Structure of plasma membranes Diffusion vs. active transport Hydrophobic vs. hydrophilic compounds Proteins Surface vs. intermembrane proteins Enzyme activity. Cell to Cell Communication.

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Biological Hierarchy:

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  1. Biological Hierarchy:

  2. Involves (and you should review): Structure of plasma membranes Diffusion vs. active transport Hydrophobic vs. hydrophilic compounds Proteins Surface vs. intermembrane proteins Enzyme activity Cell to Cell Communication

  3. Figure 8.7 The structure of a transmembrane protein

  4. Figure 8.9 Some functions of membrane proteins ****************** Receptor protein ***************** Receptor protein

  5. Cells can communicate by direct contact between cells

  6. Cells can communicate by sending chemical signals to other cells: Mating in yeast cells depends on cell to cell communication

  7. Chemical signals can be sent to cells at various distances from each other

  8. Signal molecule binds to a receptor protein on the target cell (it is a ligand) The receptor molecule changes shape The shape change causes a series of reactions (transduction) to take place in the cytoplasm of the cell This series of reactions leads to a response of the cell to the chemical signal This process is called a signal-transduction pathway Once a chemical signal reaches its target cell:

  9. Figure 11.5 Overview of cell signaling (Layer 1)

  10. Figure 11.5 Overview of cell signaling (Layer 2)

  11. Figure 11.5 Overview of cell signaling (Layer 3)

  12. G-protein-linked receptors Tyrosine-kinase receptors Ligand-gated ion-channel receptor Intracellular receptors Common Types of Receptors

  13. G-protein-linked receptors

  14. When G-protein-linked receptors receive a signal, they will activate a “G protein” inside the cellThe G-protein starts the transduction pathway leading to the cell response

  15. Tyrosine-kinase receptors act as an enzyme, using ATP to start several transduction pathways simultaneously

  16. Ligand-gated ion-channel receptors open or close in response to a chemical signal, allowing ions to DIFFUSE in or out of the cell based on relative concentrations

  17. Lipid-soluble chemical signals, such as steroid hormones, can pass through the plasma membrane, and bind to an intracellular receptorInside the cell, the activated receptor may turn on or off certain genes (a transcription factor)

  18. Once the signal has been received by the receptor, this triggers the transduction pathway, that eventually leads to the cell’s response Fig. 11.11: A phosphorylation cascade

  19. Some signal-transduction pathways involve the use of small, non-protein molecules or ions. These are called second messengersSecond messengers often bind to and activate other enzymes in the pathway

  20. Cyclic AMP (cAMP) is a common second messenger

  21. Calcium ions are also used as second messengers The concentration of calcium is kept low in the cytoplasm of animal cells by actively pumping them into the mitochondria and the ER and out of the cell

  22. Calcium is used by both G-protein and tyrosine-kinase pathways as a second messenger

  23. Inositol triphosphate (IP3) opens a channel that releases Ca2+ into the cytoplasm

  24. Calcium activates calmodulin which turns on or off other proteins

  25. An example of an entire pathway In times of physical stress, the adrenal glands release the hormone epinephrine Fuel reserves are mobilized by the breakdown of glycogen to individual glucose molecules

  26. The response of a cell to signal can be varied:1. Turning on certain enzymes2. Turning on/off genes and protein production3. Muscle contraction4. Cell divisionetc…

  27. The response of a cell to a signal depends on what type of cell it is and what other types of proteins are present in the cell

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