Team:Warwick/Protocols
Glass slides were prepared (put link to Glass Slide Preparation Protocol) by being cleaned and functionalised (with HCl and GOPTS respectively).
Specifically designed oligonucleotides containing zinc finger binding domains were introduced to the slides.
These oligonucleotides comprise of a general adaptor strand, a specific short strand and a specific long strand.
Terminal amine groups within the oligonucleotides bind (by a nucleophilic addition reaction) to the epoxy group of GOPTS, sticking the DNA to the glass slides.
The presence of an EcoR1 cut site in the oligonucleotide allows us to have an extra level of control in our experiments. Although the zinc finger proteins will stay attached to their binding domains, cutting the oligonucleotide at this site allows cells to become ‘unstuck’ from the slides.
Expected results:
Slides treated with GOPTS should show fluorescence.
Untreated cells should show no fluorescence.
This is a control to ensure that our zinc finger binding domains can be bound to glass slides.
After running a gel and identifying the band that contains the DNA that you wish to extract, simply use a scalpel to cut around the band leaving as little excess agarose gel as possible.
Set up the reaction as follows:
- 1ug DNA
- 5uL 10x digest buffer (use NEB cloner to find which buffer works best with which enzyme)
- 1uL or 10 units of first enzyme
- 1uL or 10 units of second enzyme
- Up to 50uL nuclease-free water
Incubate at 37C for 1 hour. If the enzymes being used are both time save qualified, this can be reduced to 5-15 minutes, but incubating for longer is still recommended.
Add the reagents into the mix from largest volume to smallest, always finishing with adding the enzymes in last.
If multiple restriction digests are being set up, a master mix containing everything but the sample DNA can be made with the condition that the concentrations of the different sample DNA are similar or equal.
1. For every cell type that needs testing, grow a culture of bacterial cells in 5mL LB
(+antibiotics) overnight at 37 ˚C.
2. Next morning, take OD600 of the cultures (OD of 1 for E. coli corresponds to ~10^8 cells/mL),
and dilute into 2 fresh 5mL LB tubes (+antibiotics) to OD600 of ~0.01. To one of these tubes,
add IPTG to end concentration of 1mM. Incubate both tubes in a 37 ˚C shaker.
3. After ~3 hr of incubation, start monitoring OD of the cultures every half hour. We want to fix
these cells at an OD600 of ~0.5.
4. As soon as a culture reaches OD600 of ~0.4-0.5, spin down 1mL of the culture in an Eppendorf
tube at 8000xg (=rcf) for 1 min, and carefully discard the supernatant (be careful so as to
only remove the supernatant, without disturbing the cells in the pellet).
5. Re-suspend the pellet in 1mL 1xPBS by pipetting up and down 5 times. Spin down the cells at
8000xg (=rcf) for 1 min, and carefully discard the supernatant.
6. Repeat the PBS wash in Step-5 two more times, but this time only use 0.5mL PBS.
7. Now, re-suspend the cells in 0.5mL 1xPBS by pipetting.
8. Mix 500 uL Blocking buffer with the annealed oligo (5.13uL) for each cell type in a separate
Eppendorf tube, then add this to your cells.
9. Spin down the cells at 8000xg (=rcf) for 1 min, and carefully discard the supernatant.
10. Do 1x PBS wash (0.5mL PBS).
11. Now, fix the cells (in the tube itself) by resuspending in 1xPBS+4%(para)formaldehyde (we used glutaraldehyde but it fulfills the same purpose) (500uL). Incubate at room temperature for 20 min.
12. Do 1x PBS washes (0.5mL PBS)
13. Drop 50uL of the resuspension on a coverslip (round coverslips preferred), and incubate at
37 ˚C until it is completely dry. Once dry, save the coverslip at RT until all the cultures have
been processed similarly.
14. Add a drop of the mounting medium (ProLong Diamond Antifade Reagent, Fisher
#15372192) on a glass slide and place the coverslip on top of it (bacterial-side-down).
15. Seal the edges of the cover-slip with nail-polish, and save in the fridge (4˚C), for later
visualization.