lecture 10: invasive physiological research methods (animals)
2-deoxyglucose technique
2-DG; inject animal with radioactive 2-DG and allow it to engage in behavior of interest, animal is sacrificed and its brain is removed and sliced, brain slices are subjected to autoradiography to see where radioactivity accumulated and hence, which brain regions were most active during behavior
bregma
a point on the top of the skull often used as a reference point
types of optogenetics
chlamydomonas reihardti channelrhodopsin-2, natronomonas pharaonis halorhodopsin
in situ hybridization vs immunocytochemistry
detects: mRNA vs protein uses: nucleotide probes vs antibodies
disadvantage of gene knockout techniques
difficult to interpret results - most behavior is controlled by many genes and removing one gene may alter the expression of others, including compensation for missing gene
cerebral dialysis process
fine tube with a short permeable section is implanted in the brain, extracellular neurchemicals are continuously drawn off for analysis
invasive EEG recording
in lab animals, EEG signals are typically recorded through large, implanted electrodes
invasive recording methods
intracellular unit recording, extracellular unit recording, multiple-unit recording, invasive EEG recording
invasive physiological research methods
lesioning, electrical stimulation, recording methods, manipulating or measuring within the brain
intracellular unit recording
measures membrane potential of an individual neuron
extracellular unit recording
measures the firing of an individual neuron
multiple-unit recording
measures the firing of many neurons
manipulating or measuring within the brain
measuring in vivo chemical activity of the brain: 2-deoxyglucose (2-DG) technique
cerebral dialysis
microdialysis; method for recording changes in brain chemistry in live, behaving animals
optogenetics
neuro engineering tool that utilizes the properties of two light sensitive microbial opsin proteins to investigate neural function with cell-type specific, temporally precise, reversible neuromodulation
immunocytochemistry
procedure for detecting and locating individual proteins by tagging the protein of interest with a specific antibody
stereotaxic atlas
provides coordinates for locating structures within the brain
lesioning
remove, damage, destroy a part of the brain to observe impact on behavior
lesion warning
studies must be interpreted carefully because it is difficult to make small, precise lesions in the brain
gene knockout techniques
subject missing given gene can provide insight into what the gene controls
in situ hybridization
technique for locating a specific mRNA sequence in a portion or section of cell tissue
immunocytochemistry process
tissue is first incubated with a primary antibody specific for the protein of interest, tissue is washed and incubated with a tagged secondary antibody that binds to the primary antibody, tissue is washed again and viewed on microscope
electrical stimulation
used to activate a structure; may have the opposite effect of lesioning
stereotaxic instrument
used to hold head steady and guide the device to be inserted
stereotaxic surgery
used to position experimental devices
in situ hybridization process
utilizes specifically constructed probes containing a sequence complementary to the mRNA of interest, probes are tagged with a dye, fluorescence, or radioactivity to allow visualization and localization of the sequence of interest
