ELM13: Optogenetics and dyes

Question 1

How do fluorescent reporter dyes work?

Answer 1

Substance binds to something else
Reporter dye changes optical properties

Question 2

What is fluorescence?

Answer 2

Substance absorbs photon of light and emits light at longer wavelength

Question 3

How does fluorescence work in a substance?

Answer 3

1. Electrons excited by absorbing light
2. Undergoes lots of small energy losses
3. Drops down to lower state and emits light at lower energy level with longer wavelength

Question 4

What are some uses of reporter dyes?

Answer 4

Harmless unlike electrophysiology
Can record multiple cells and circuits at a time

Question 5

What is Fura-2?

Answer 5

Calcium fluorescent dye excited by UV light Ion sensitive

Question 6

What is the structure of Fura-2?

Answer 6

Negative charges at top attract positive calcium ions

Question 7

What happens when calcium interacts with Fura-2?

Answer 7

Calcium binds and distorts dye structure
Changes the spectrum of light Fura-2 absorbs and how it emits light

Question 8

What is the absorption spectrum of Fura-2?

Answer 8

Type of light it will absorb
380nm in UV range

Question 9

What is the emission spectrum of Fura-2?

Answer 9

Type of light Fura-2 emits
510nm in visible range

Question 10

What occurs to the absorption and emission spectrum of Fura-2 when calcium is added?

Answer 10

Emission peak still at 510nm with increased intensity
Absorption peak at 340 and increased intensity

Question 11

What is the process of using Fura-2 with calcium?

Answer 11

1. Excite sample at 340 then 380 to stimulate with and without calcium
2. Measure emission at 510nm for both
3. Take ratio emission from 340 excitation /380
4. Result is the measure of calcium

Question 12

What is meant by the polarity of indicator dyes?

Answer 12

Polar so can’t cross cell membrane and enter dye

Question 13

How do we overcome the barrier of indicator dyes not being able to enter cell?

Answer 13

Esterify the dye to make it non-polar
Can no longer bind calcium but enters cell
When inside esterases remove esters on COO- groups so they can bind calcium

Question 14

What are genetically encoded calcium indicators?

Answer 14

Development in being targeted to single cells and tissues
Temporal control
A fusion protein

Question 15

What are the uses of genetically encoded calcium indicators?

Answer 15

Make transgenic animal that expresses the receptor
Can target to tissue/cell specific promotor

Question 16

What is fluorescence resonance energy transfer?

Answer 16

1.Uses one donor fluorophore and one acceptor fluorophore
2. Excited and emit at different wavelengths
3. Put in close proximity and donor excited using appropriate wavelength
4. Donor transfers energy to acceptor so emits fluorescence at characteristic wavelength

Question 17

What are light activated channels and pumps?

Answer 17

Single celled organisms have channels powered by light so they can respond to it

Question 18

What is ChR2?

Answer 18

Non selective cation channel
Built in retinal molecule
Blue light opens channel and influx of cations

Question 19

What is NpHR?

Answer 19

Light powered chloride pump
Light hits retinal and chloride enters cell

Question 20

What would be the effect of ChR2 in a neuron?

Answer 20

Influx of cations and depolarisation to fire AP

Question 21

What would be the effect of NpHR in a neuron?

Answer 21

Membrane hyperpolarised due to influx of chlorine ions

Question 22

What are OptoXRs?

Answer 22

Works in the eye but not in the brain
Can use chimeric proteins to make it work

Question 23

What are chimeric proteins made up of?

Answer 23

Transmembrane and extracellular domain of vertebrate rhodopsin
Intracellular domain of desired GPCR

Question 24

What is the method of radioligand binding experiments?

Answer 24

1. Make radioligand of subject
2. Mix with tissue of interest
3. Measure how much radioactivity bound to tissue

Question 25

What are the applications of radioligand binding experiments?

Answer 25

Adding radioligand to intact tissue
How tightly radioligand binds

Question 26

What are some advantages of radioligand binding experiments?

Answer 26

Simple
Scaled up easily
Cheap

Question 27

What are some disadvantages of radioligand binding experiments?

Answer 27

Doesn’t tell if drug is inhibiting or activating receptor
Bad time resolution
Hazardous materials and waste