neuro methods Flashcards
main methods used in neuroscience
- Psychophysical methods (e.g. illusions) and behaviour
- Lesions and other ways to silence neurons or parts of the brain
- Anatomical studies and morphology
- fMRI, electrophysiological recordings and imaging
- Modeling and theoretical simulations
- Brain connectomics
model organisms
humans
primates
lower mammals - cats/rodents
lower vertebrates - zebrafish
invertebrates - drosophila
how are sharp electrode recordings used
- very thin electrodes placed inside neurones
- compare potential between 2 sides of membrane
- predict action potentials
disadvantages of sharp electrode recordings
- No solution change inside or outside the cell (some electroinjection is
still possible) - Limited possibility for controlling membrane potential
- Cannot measure single channels
on cell patch clamp
electrode placed on membrane of cell
inside out patch clamp
pull on on-cell patch clamp
whole cell patch clamp
suck on on-cell patch clamp
- breaks part of membrane to record currents through rest of membrane
- can use to inhibit cell by inserting inhibitors
outside out patch clamp
outer part of membrane exposed and change solution in outer memb/record activity
how can you visualise neurone morphology? Any problems?
dye in pipette = diffuses into cell and labels neurone
problems:
- cant label many cells
- limited ability to label specific cell type
- limited to label cellular compartments
- limited for live labelling
how to do fluorescence microscopy
excitation filter = makes wavelength more precise
emission filter = passes one type of wavelength
dichroic mirror = reflects light of certain wavelength and allows certain wavelengths through
Using GFP to understand neurone function
- Fusion of GFP and two calcium binding proteins
- In presence of calcium these two proteins interact
- GFP becomes much brighter
- increased Ca conc in cytoplasm when neurones are active
- neurones become brighter
adv of WC patch clamp over sharp electrode
larger opening at the tip of the patch clamp electrode provides lower resistance and thus better electrical access to the inside of the cell.
general principle of patch clamp recordings
- glass pipette containing electrolyte solution is tightly sealed onto the cell membrane and isolates a membrane patch electrically.
- Currents fluxing through the channels in this patch flow into the pipette and can be recorded by an electrode that is connected to a highly sensitive differential amplifier.
- In the voltage-clamp configuration, a current is injected into the cell via a negative feedback loop to compensate changes in membrane potential. Recording this current allows conclusions about the membrane conductance.
principles of GCAMP imagins
GCaMP5G is genetically expressed in Gal4-labeled cells and fluoresces with low intensity prior to neuronal stimulation. Application of a stimulus triggers an action potential in the neuron and causes Ca 2+ influx
benefits of using confocal microscopes
Confocal microscopy provides the ability to collect clear images from a thin section of a thick sample with low background and minimal out-of-focus interference.
= high spatial resolution
