What can send, receive, interpret, and respond?
Cells
What is the signal transduction pathway?
Transduction sometimes occurs in a single step but more often requires a sequence of changes in a series of different molecules;
i.e. In mating of the yeast saccharomyces cerevisiae, there are two types of sexes, or mating types; a and α. Each type secretes a specific factor that binds to receptors only on the other type of the cell. When exposed to each other’s mating factors, a pair of cells of opposite type change shape, grow toward each other, and fuse (mate). The new cell contains genes of both original cells. Once received by the yeast cell surface receptor, a mating signal is changed, or transduced, into a form that brings about the cellular response of mating. This occurs in a series of steps called the signal transduction pathway.
What is quorum sensing?
Bacterial cells secrete molecules that can be detected by other bacterial cells. Sensing the concentration of such signaling molecules allows bacteria to monitor the local density of cells. This quorum sensing allows bacterial populations to coordinate their behaviors in activities that require a given number of cells acting synchronously.
What are growth factors?
A class of local regulators in animal cells. Compounds that stimulate nearby target cells to grown and divide.
What are two ways in which animal cells may communicate with each other?
- Local - direct contact; cell-cell recognition (synaptic), cell junctions; autocrine and paracrine
- Long distance - endocrine signaling; i.e. hormones
What is paracrine signaling?
A type of local signaling in animals; numerous cells can simultaneously receive and respond to the molecules of growth factor produced by a single cell in their vicinity.
A secreting cell acts on nearby target cells by secreting molecules of a local regulator.
- Growth factors
- Synaptic (neurotransmitters; in the animal nervous system when a neurotransmitter is released in response to an electric signal
What is autocrine signaling?
The same cell secretes and responds; i.e. positive feedback - t cell activation by cytokines
What are hormones?
In multicellular organisms, one of many types of secreted chemicals that are formed in specialized cells, travel in body fluids, and act on specific target cells in other parts of the organism, changing the target cells’ functioning.
Chemicals used for long distance signaling.
What is endocrine (hormonal) signaling?
Specialized cells release (secrete) hormone molecules, which travel via the circulatory system to other parts of the body, where they reach target cells that can recognize and respond to the hormones.
*The target cell response depends on the presence of specific receptors to that signal.
What are the two classes of release hormones?
- Proteins - insulin (pancreas) and adrenaline (adrenal glands)
- Steroids - estrogen
What are the three stages that cells receiving signals go through?
- Reception - the target’s cell detection of a signaling molecule coming from outside the cell; ligand / receptor (transmembrane or integral protein)
- Transduction - converts the signal to a form that can bring about a specific cellular response; relay molecules
- Response - the transduced signal finally triggers a specific cellular response. The response may be almost any imaginable cellular activity - such as catalysts by an enzyme, rearrangement of the cytoskeleton, protein activity, or activation of specific genes in the nucleus.
The signaling molecule is complementary in shape to a specific site on the receptor and attaches there, like a key in a lock. True or false?
True
What is a ligand?
A molecule that specifically binds to another molecule, often a larger one.
Ligand binding generally causes a receptor protein to undergo a change in shape. For many receptors, this shape change directly activates the receptor, enabling it to interact with other cellular molecules.
For some types of receptors, what is the immediate effect of ligand binding?
To cause the aggregation of two or more receptor molecule, which leads to further molecular events inside the cell. Most signal receptors are plasma membrane proteins, but others are located inside the cell.
What are the two types of ligands?
- Agonist - mimics the action of a natural ligand; insulin, erythropoietin, L-dopa
- Antagonist - competes with natural ligand for receptor; i.e. tamaxifin (binds to estrogen receptor)
* non-covalent
What are the three main types of membrane receptors?
- G protein-coupled receptors
- Receptor tyrosine kinases
- Ion channel receptors
Discuss G protein-coupled receptors (GPCRs).
G protein-coupled receptors are cell surface transmembrane receptors that work with the help of a G protein. G proteins bind to the energy rich GTP and are very similar in structure. Ligand binding activates the receptor, which then activates a specific G protein, which activates yet another protein, thus propagating the signal.
*GPCR systems are extremely widespread and diverse in their functions.
- Only found in eukaryotes
- Largest family of cell surface receptors (>1,000 known in humans)
- The target of 30%-50% of all modern medicinal drugs
- Ligands range from light-sensitive cmpds, odor, pheromones, hormones, and NTs
- Function; growth, pain, taste, immune system, vision, smell, etc…
- Structure - 7 transmembrane domains
*Activate a single transduction pathway.
Discuss receptor tyrosine kinases (RTKs).
Characterized by having enzymatic activity. A kinase is any enzyme that catalyzes the transfer of phosphate groups.
RTKs react to the binding of signaling molecules by forming dimers and then adding phosphate groups to tyrosines on the cytoplasmic part of the other monomer making up the dimer (two receptor monomers that associate closely with each other, forming a complex). Relay proteins in the cell can then be activated by binding to different phosphorylated tyrosines, allowing this receptor to trigger several pathways at once.
- Membrane receptors that attach phosphates to tyrosines
- *A receptor tyrosine kinase can trigger multiple signal transduction pathways at once
- Abnormal functioning of RTKs is associated with many types of cancers…
Discuss gated ion channels.
A type of membrane receptor containing a region that can act as a “gate” when the receptor changes shape. When a signaling molecule binds as a ligand to the receptor protein, the gate opens or closes, allowing or blocking the flow of specific ions. This regulates the flow of specific ions across the membrane. f
- Proteins that are selective for ions when they change shape
- Usually if a ligand binds to the receptor, the gate opens and specific ions can flow through the channel and rapidly change the concentration of that particular ion inside the cell
- When the ligand dissociates from the receptor, the gate closes and ions no longer enter the cell
What is an intracellular receptor?
Proteins that are found in either the cytoplasm or nucleus of target cells;
- Small or hydrophobic chemical messengers; i.e. steroid hormones and thyroid hormones of animals
- An activated hormone-receptor complex that can act as a transcription factor (TF), and is able to cause a response, like turning on specific genes
What are transcription factors?
Specialized proteins which control which genes are turned on - that is, which genes are transcribed into mRNA - in a particular cell at a particular time
What is transduction?
Cascades of molecular interactions relay signals from receptors to target molecules in the cell.
- Signal transduction usually involves multiple steps and can;
1. amplify a signal
2. provide more opportunities for coordination and regulation of the cellular response
Discuss signal transduction pathways.
- The binding of a signaling molecule to a receptor triggers the first step in a chain of molecular interactions
- Like falling dominoes; the receptor activates another protein, which activates another, and so on, until the protein producing the response is activated
- At each step, the signal is transduced into a different form, usually a shape change in a protein
What is a widespread cellular mechanism for regulating protein activity?
The phosphorylation and dephosphorylation of proteins
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Chapter 1 - Evolution & Themes42
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Chapter 2 - The Chemical Context Of Life + Test Review63
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Chapter 3 - Water And Life + Test Review50
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Chapter 4 - Carbon + Test Review14
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Chapter 5 - Test Review51
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Chapter 6 - The Cell38
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Chapter 6 - The Cell (Part 2)37
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Chapter 7 - Membrane Structure and Function50
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Chapter 11 - Cell Communication61
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Chapter 9 - Cellular Respiration and Fermentation61
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Chapter 10 - Photosynthesis47
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Chapter 10 - The Calvin Cycle18
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Chapter 12 - The Cell Cycle39
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Chapter 12 - The Cell Cycle - Part 217
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Chapter 13 - Meiosis and Sexual Life Cycles35
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Chapter 13 - Meiosis and Sexual Life Cycles PART II14
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Chapter 14 - Mendel and the Gene Idea48
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Chapter 15 - The Chromosomal Basis of Inheritance33
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Chapter 16 - The Molecular Basis of Inheritance55
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Chapter 17 - Gene Expression: From Gene to Protein71
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Chapter 18 - Regulation of Gene Expression59
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Chapter 19 - Viruses40
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Chapter 20 - DNA Tools and Biotechnology50
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Chapter 21 - Genomes and Their Evolution30
