1155020
Description
Mind Map by Kristi Brogden, updated more than 1 year ago
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Created by Kristi Brogden
over 10 years ago
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Cell communication
- Signal
Transduction
- The process by which
extracellular signalling molecules
cause changes in target cells.
- The ability of organisms, or individual
cells within an organism, to sense
and respond to the signals in their
environment is crucial to their
development and survival.
- - even single celled
organisms eg. yeast
Dictyostelium
- - even single celled
organisms eg. yeast
Dictyostelium
- The process by which
extracellular signalling molecules
cause changes in target cells.
- Types of signals
- Proteins
- Insulin
- Hedgehog
- Wnt
- Insulin
- Small peptides
- Endorphins
- ACTH
- Endorphins
- Amino acids
- Glutamate
- Glutamate
- Nucleotides
- ATP
- ATP
- Steroids
- Oestrogen
- Testosterone
- Oestrogen
- Fatty acid derivatives
- Prostaglandins
- Prostaglandins
- Dissolved
gases
- Nitric
oxide
- Nitric
oxide
- Proteins
- Classes of receptors
- Cell surface receptors
- Intracellular receptors
- Intracellular signalling
- See along bottom of page
- See along bottom of page
- Intracellular signalling
- Ion-channel-coupled receptors
- G-protein coupled receptors
- Enzyme-coupled receptors
- Cell surface receptors
- Short range signalling
- Signalling via Gap Junctions ‘sharing signals’
- Cells are coupled metabolically and electrically
- Cells are coupled metabolically and electrically
- Signalling via Gap Junctions ‘sharing signals’
- Long range signalling
- Endrocrine vs. Synaptic Signalling
- Endrocrine vs. Synaptic Signalling
- Mechanisms of response
- Altered protein function
- Cells respond to many signals
- cells exist in a complex environment exposed to many signals
- Different types of cells often respond differently to the same signal
- cells exist in a complex environment exposed to many signals
- Signal integration
- Altered protein function
- Studying signalling
- General methods
- in vivo whole organism studies
- in vitro biochemical experiments
- in vitro experiments in cultured cells
- in vitro experiments in cultured cells
- in vitro biochemical experiments
- Visualisation or detection of
interactions/ signalling
- imaging or measuring interaction
- Biochemical methods
- protein-protein interactions, kinetics
- imaging or measuring interaction
- Inhibitors
- to disrupt signalling by
manipulating a particular
component, inhibitors or
mutations
- to disrupt signalling by
manipulating a particular
component, inhibitors or
mutations
- Misexpression/overexpression
- wild-type, constitutively active or
dominant negative molecules
- wild-type, constitutively active or
dominant negative molecules
- Genetic methods
- classical and molecular,
transgenics, mutation analysis
- classical and molecular,
transgenics, mutation analysis
- in vivo whole organism studies
- Endogenous vs. Exogenous
- Endogenous refers to the naturally occurring genes, RNA and proteins in cells or organisms.
- Exogenous refers to experimental manipulation of genes, RNA or proteins added to cells or organisms.
- usually involves transfection of cells or
generation of transgenic animals or the injection
of RNA/DNA/protein.
- usually involves transfection of cells or
generation of transgenic animals or the injection
of RNA/DNA/protein.
- Endogenous refers to the naturally occurring genes, RNA and proteins in cells or organisms.
- Live vs Fixed
- Some systems allow the measurement of effects on live cells/tissues/organisms in real time
- - electrophysiology, GFP-tags, bio-sensors
- - electrophysiology, GFP-tags, bio-sensors
- Other methods require the cells/tissues/organisms to be fixed or processed in some way
- - immunohistochemistry and biochemistry
- - immunohistochemistry and biochemistry
- Some systems allow the measurement of effects on live cells/tissues/organisms in real time
- Labelling techniques
- Direct
- Radioactive
- Photoreactive or chemically reactive
- Green fluorescent protein (GFP; other colours available)
- Radioactive
- Indirect
- Immunological
- antibodies labeled with fluorescent tags, or enzymes with easily detected products
- antibodies labeled with fluorescent tags, or enzymes with easily detected products
- Immunological
- Direct
- Fusion Proteins
- Diagram
- Diagram
- Protein-protein interactions
- Why?
- Many signalling molecules
bind to each other in order to
function
- Methods
- Co-immunoprecipitation
- GST “pull-downs”
- Yeast two-hybrid
- Fluorescence resonance
energy transfer (FRET)
- Co-immunoprecipitation
- Many signalling molecules
bind to each other in order to
function
- Why?
- Methods for
studying
transcriptional
regulation by
signaling pathways
- in vivo
- in situ hybridization
- reporter constructs (lacZ; GFP)
- in situ hybridization
- in cultured cells
- reporter constructs (lacZ; CAT; luciferase)
- RNAse protection
- reporter constructs (lacZ; CAT; luciferase)
- Whole genome approaches
- microarrays
- microarrays
- in vivo
- General methods
Media attachments
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