Cell-to cell communication importance
Critical for the function and survival of cells. Responsible for the growth and development of multicellular organisms
Three ways cells communicate
- Direct contact
- Local signaling
- Long-distance signaling
Direct contact
Communication through cell junctions, signaling substances and other material in the cytoplasm can pass freely between adjacent cells
Animal cells: Gap junctions
Plant cells: Plasmodesmata
Local regulators/signaling
- Secreting cell releases chemical messages that travel a short distance through the extracellular fluid
- Chemical messages will cause a response in a target cell
Paracrine signaling
Secretory cells release local regulators (growth factors) via exocytosis to an adjacent cell
Synaptic signaling
Occurs in animal nervous systems
1. Neurons secrete neurotransmitters
2. Diffuse across the synaptic cleft-space between the nerve and target cell
Long Distance signaling
-Animals and plants use hormones for this type of signaling
Plants: Release hormones that travel in the plants (xylem or phloem) or through the air to reach target tissues
Animals: Endocrine signaling. Specialized cells release hormones into the circulatory system where they reach target cells
Insulin as an example of endocrine signaling
Released from the pancreas into the bloodstream where it circulates through the body and binds to target cells
Cell messaging three stages
- Reception
- Transduction
- Response
Reception Overview
The detection and receiving of a ligand by a receptor in a target cell
Receptor definition
Macromolecule that binds to a signal molecule (ligand)
Receptor interaction
- All receptors have an area that interacts with the ligand and an area that transmits a signal to another protein
*Binding between ligand and receptor is highly specific
Steps of reception
- When the ligand binds to the receptor, the receptor activates via a conformational change
- This allows the receptor to initiate a transduction signal
Ligand
Molecule that binds to another (usually larger) molecule
Where are receptors located?
Plasma membrane or intracellular
Plasma membrane receptors
-Most common type of receptor
-Binds to receptors that are polar(water soluble, large)
Examples: G protein coupled receptors, ligand-gated ion channels
Intracellular receptors
-Found in cytoplasm or nucleus of target cell
-Binds to ligands that can pass through the plasma membrane (hydrophobic molecules, steroid and thyroid hormones, gasses like nitric oxide)
Transduction overview
The conversion of an extracellular signal to an intracellular signal that will bring about a cellular response
What does transduction require?
A sequence of changes in a series of molecules known as the signal transduction pathway
Signal transduction pathway and protein activity
Regulates protein activity through phosphorylation and dephosphorylation
Kinase
Phosphorylation, turns on the process, relays signal inside cell
Phosphotase
Dephosphorylation, shuts off pathways
During transduction a signal is…
Amplified
Second messengers
Small, non-protein molecules help relay the message and amplify the message and response.
*Cyclic AMP common 2nd messenger
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Chemistry Review17
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Properties of Water17
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Elements of Life14
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Intro to biological macromolecules7
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Carbohydrates6
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Proteins17
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Nucleic Acids12
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Lipids8
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Cells- Endomembrane organelles26
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Cells-energy organelles18
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Cell size, Plasma membrane16
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Selective permeability23
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Tonicity and osmoregulation5
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Metabolism & energy26
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Enzymes26
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Photosynthesis32
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Cellular Respiration38
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Cell Communication33
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Homeostasis and feedback loops13
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Cell cycle34
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Heredity and Punnet Squares37
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Non-medelian Genetics22
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DNA and DNA replication26
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Steps of Transcription and Translation28
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Proteins13
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Gene Expression25
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Mutations25
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Natural Selection49
