June

Week 1

Day 1 - 17.06.2021

1. 1ml of cell suspension was obtained and mixed with 1ml of DI water in a falcon tube. The tube was centrifuged at 4700 rpm for 1 hour.
2. The supernatant was discarded. The pellet with bacteria was mixed with a TE buffer (10mM Tris-HCl, pH 8.0, 0.1mM EDTA) of volume 1ml. The mixture was thoroughly mixed and centrifuged at 4700 rpm for 20 min.
3. With the clear division of pellet and supernatant, the supernatant was discarded leaving 300ml of the solution. The mixture was gently resuspended and divided into new 1.5ml reaction tubes.
4. One 1.5ml reaction tube with the cell suspension was treated with 1ml lysis buffer (50mM Tris, 1% SDS, pH 8.0) (BioRAD). While the second tube was mixed with lysis solution from BioRAD Aurum Plasmid Minikit of volume 1ml. Both tubes were incubated in a thermomixer at 37°C for 1 hour without applying rotations during incubation.
5. The tubes with cell lysates were kept in the fridge (4°C) overnight.

Day 2 - 18.06.2021

1. 1ml of cell suspension was obtained and mixed with 1ml of DI water in a falcon tube. The tube was centrifuged at 4700 rpm for 1 hour.
2. The supernatant was discarded. The pellet with bacteria was mixed with TE buffer (10mM Tris-HCl, pH 8.0, 0.1mM EDTA) of volume 1ml. The mixture was thoroughly mixed and centrifuged at 4700 rpm for 20 min.
3. With the clear division of pellet and supernatant, the supernatant was discarded leaving 300ml of the solution. The mixture was gently resuspended and divided into new 1.5ml reaction tubes.
4. One 1.5ml reaction tube with the cell suspension was treated with 1ml lysis buffer (50mM Tris, 1% SDS, pH 8.0) (BioRAD). While the second tube was mixed with lysis solution from BioRAD Aurum Plasmid Minikit of volume 1ml. Both tubes were incubated in a thermomixer at 37°C for 1 hour without applying rotations during incubation.
5. The tubes with cell lysates were kept in the fridge (4°C) overnight.

1. Tubes were kept in the -20°C fridge for 3 days

Week 2

Day 1 - 21.06.2021

1. The tubes were centrifuged at 10 000 rpm for 15 minutes.
2. The supernatant was descarded
3. 200 microliters of 70% ethanol was added to each tube and were centrifuged for 15 minutes at 10 000 rpm (x3)
4. The ethanol solution was decanted and tubes containing pellets were left to air dry.
5. The dried tubes were treated with ultrapure water in volume 100 microliters.

Nanodrop measurements

1. The ultrapure water was used to blank the nanodrop 8000 spectrophotometer (Thermo FIsher Scientific)
2. Four samples were measured at the same time, and the measurements were recorded in Table 2

1. The DNA extraction was repeated again and results are in Table 3

Day 2 - 22.06.2021

1. After the tubes were incubated for 24 hours at 37 °C, the tubes were treated with lysis solution and lysis buffer, and mixed. The solution was divided into 4 tubes.
2. The tubes were allowed to stay for 5 minutes and were centrifuged at 10'000 rpm for 15 minutes.
3. The upper aqueous layer was separated and loaded into new 1.5 mL tubes (1 tube).
4. The tube with DNA solution then was separated into 2 tubes.
5. Each tube was treated with 0.1 volume of sodium acetate 3M solution and 1 volume of absolute ethanol.
6. The tubes were allowed to precipitate at -20 °C for 24 hours.

Day 3 - 24.06.2021

Week 3

Day 1 - 29.06.2021

1. LB agar was prepared
2. 3 g of Luria Bertani powder was weighed and added to the bottle 500 mL.
3. 200 mL pg di water was added into the bottle and mixed until powder was dissolved.
4. 3 g of Agar powder was added into the bottle, mixed.
5. The solution was autoclaved for 15 minutes at 121°C.

Day 2 - 30.06.2021

1. Turned UV in the hood for 30 min.
2. Autoclaved LB agar.
3. Prepared 6 petri dishes by painy 20 ml of LB agar onto them.
4. While plates were solidified, prepared Nutnent Broth by adding 10 grams of NB both to the 400 ml of distilled water.
5. Using sterile loops and L-spreaders prepared 3 steak plates and 3 spread plates by inoculating E. coli-DHsd.
6. Closed each petri dish with parafilm and gathered them.
7. Put them into an incubator for 48 hours at 37°C.
8. Using left LB agar prepared 2 slant agars of 20 ml in cellstar tubes (Falcon (centrifuge bottles) bottles).
9. Put slant tube sand NB into the autoclave for ~ hour.

July

Week 1

Day 1 - 01.07.2021

1. Get out the petri dishes (cell cultures) from the incubator.
2. From one of the streak plates isolated a single colony and inoculated prenanly prepared LB agar slants.
3. Put them into an incubator for 24 hours at 37°C.

1. One single colony was taken from the streak plate cultures with E.coliand inoculated into centrifuge tubes (30 mL) containing Nutrient Broth.
2. The same was done with the second tube containing NB in 30 mL.
3. LB agar in volume of 200 mL was prepared and autoclaved.

Week 2

Day 1 - 05.07.2021

1. Brainstormed protocols for further lab procedures
2. Made a list of reagents that will be required

Day 2 - 06.07.2021

1. Prepared 100 mL 1M CaCl2 -> stored in a small refrigerator.
2. 10% of SDS (1 g SDS + 10 mL DI).
3. 2N NaOH 50 mL (4 g NaOH + 50 mL DI).
4. Nutrient Agar 200 mL, then autoclaved.
5. LB broth 200 mL, then autoclaved.

Day 3 - 07.07.2021

1. Planning of the transformation experiment
2. Prepared LB agar by adding LB agar (7.4 g) into 200 ml of distilled water
3. Autoclaved LB agar and 25 ml of distilled water
4. Microwaved Nutrient Agar
5. Prepared 2 agar slants and 1 steak plant using E.coli plates from 30/06/22 and 20 microliters nutrient agar.
6. Inoculated the E.coli into LB broth prepared 06/07/2021
7. Incubated 2 agar slants, 1 streak plate and E.coli broth for 24 hours of 37°C.
8. Get 10 ml of autoclaved water and added 0.5 g of kanamycin to it --> prepared kanamycin solutions 50 mg/ ml
9. Poured 0.2 mL = 200 uL of kanamycin solution into 200 ml of LB agar (07/07/2021 preparation)
10. Poured 20 ml of selective media (LB agar with kanamycin) into one petri dish
11. 2 petri dishes with selective medium were prepared

P.S. smth was wrong with Nutrient agar (06/07/2021 preparation) :(

Day 4 - 08.07.2021

1. Measured OD ~ 0.646
2. Poured 10 mL of the solution into a prechilled 15 mL centrifuge tube. (Everything on ice)
3. Centrifuged at 4700 rpm at 4°C for 10 min.
4. Discarded the supernatant.
5. Resuspended the pellet into 2 mL centrifuge tube with 1 mL ice-cold ddH2O
6. Microcentrifuged it at 7000 rpm for 5 minutes.
7. Discarded the supernatant and resuspended it with 1 mL of ice-cold ddH2O.
8. Repeated the steps 6-7 3 times.
9. Final time microcentrifuged at 7000 rpm for 5 minutes.
10. Discarded the supernatant.
11. Resuspended pellet with 50 uL of ice-cold ddH2O.
12. Prepared 200 mL of LB agar by pouring 7.4 g of LB agar powder into 200 mL of distilled water.
13. Autoclaved LB agar.

1. Did nanodrop.

2. We only need 75 ng -> 1 uL of Duo2 + 99 uL TEv = 100 uL overall. 1uL is 13.71 ng/uL * 6 uL ≈ 82 ng.

3. Added 6 uL of Duo2 to E.coli -> mixed gently.

4. Transferred the solution (E.coli + Duo2) to a chilled electroporation cuvette.

5. Capped the cuvette, tapped lightly on the bench -> ice.

6. Turned on electroporator (18 kV, 25 uF, 200 ohms).

7. Wiped the cuvette with Kimtech, then placed the cuvette into an electroporator for 10 sec.

8. Immediately added 1 mL of LB -> quickly pipette.

9. Transferred the mixture to a fresh 1.5 mL tube.

10.Incubated at 150 rpm 37°C for 1 hour.

1. Autoclaved 2 tubes with LB agar (slant), 2 tubes with LB broth, 2 tubes with NB
2. Prepared: 100 mL 0.1M CaCl2 (100 mL 0.1M CaCl2 + 20% glycerol)
3. Prepared 2 slant agar (LB agar) + E.coli.

11. Inoculated E.coli from slant agar tube into 2 plates by streak plate technique.

! 1 plate is clean. In the fume hood.

12. 5 mL of LB was inoculated with E.coli colony.

13. Cultures were left in incubater at 37°C overnight.

Day 5 - 09.07.2021

1. Nutrient Agar was prepared (28g/1L) - 200 mL.
2. Autoclaved: LB agar 200 mL, NA 200 mL.
3. The UV light in the safety cabinet was turned on for 35-40 minutes.
4. 0.1 mL Kanamycin (07/07/21) was taken and poured into 100 mL LB agar.
5. 100 mL of LB agar was distributed to 4 plates and allowed to solidify. 3 plates were sealed.
6. One plate with kanamycin was inoculated with E.coli -> incubation for 72 hours at 30°C.

Spectrophotometer (OD).

• DI water - 0.002 abs
• LB broth w/ E.coli - 1.341 abs [blanked with water]
• LB broth w/ E.coli - 1.312 abs [blanked with LB broth]
• LB broth w/ E.coli (diluted 1:2) - 0.705 abs [blanked with water]
• LB broth w/ E.coli (diluted 1:2) - 0.693 abs [blanked with LB broth]
• LB broth w/ E.coli (diluted 1:3) - 0.524 abs [blanked with LB broth]
• Overnight culture was diluted until OD 0.524

1. 10 mL of the culture solution was transferred into a 15 mL centrifuge tube (preliminary chilled on ice).
2. The tube was centrifuged at 4700 rpm for 10 minutes at 4°C.
3. The supernatant was discarded.
4. The pellet was resuspended with 1 mL sterile diH2O
5. Transferred into a cold 1 mL microcentrifuge tube.
6. The tube was centrifuged at 7000 rpm at 4°C for 5 min.
7. The supernatant was discarded.
8. The pellet was resuspended with 1 mL of diH2O.
9. The steps 6-8 were repeated 3 times.
10. The final pellet after 4th centrifugation was resuspended with 50 uL of ice-cold ddH2O.
11. Left to be stored at -20°C fridge.

Week 3

Day 1 - 12.07.2021

1. Turned on the UV light for 30 minutes.
2. Prepared 3 LB agar plates.
3. Prepared 3 LB slants.
4. Prepared 1 LB broth.
5. Proceed inoculation of 2 agar slants with E.coli DH5α pRGPDuo2.
6. Inoculated 1 agar slant and 1 LB broth with E.coli DH5α.
7. 2 LB agar plates were used for subculturing of transformed E.coli DH5α pRGPDuo2 (streak plate).
8. One plate was inoculated with E.coli DH5α (streak plate).
9. All agar slants, plates, and broth incubated overnight at 37°C.

Plasmid extraction

1. 1 mL of culture tubes (2 tubes) were centrifuged at 7000 rpm for 1 minute at 4°C.
2. The supernatant was discarded and the pellet was left to dry.
3. Prepared 10 mL of ALS II by mixing 1 mL of 3(?)N NaOH, 1 mL of 10% SDS and ddH2O.
4. Resuspended the pellet in 100 uL of ice cold ALS I (autoclaved) and mixed by pipetting, making sure the cells dispersed fully.
5. Added 200 uL of ALS II and mixed by inverting the tube 5 times, making sure the content of the tube makes contact with ALS II. Stored the tube on ice for 5 minutes.
6. Added 150 uL of ALS III (autoclaved) and mixed gently by inverting the tube 5 times. Stored the tube on ice for 5 minutes.
7. Centrifuged at 13500 rpm for 5 minutes at 4°C.
8. Transferred the supernatant (450 uL) to the new labeled tube.
9. Precipitated DNA from supernatant by adding 2 volumes (900 uL) of 70% ethanol at room temperature. Gently mixed by inverting and incubated 2 minutes at room temperature.
10. Centrifuged at 13500 rpm for 5 minutes at 4°C. Discarded the supernatant and dried the pellet.
11. Added 1 mL of 70% ethanol and mixed by inverting.
12. Centrifuged at 13500 rpm for 2 minutes at 4°C. Removed the supernatant and left the tube to dry for 10-15 minutes until ethanol will evaporate.
13. Dissolved pellet in 50 uL H2O and checked OD 1 uL of each solution by nanodrop.

• LB broth (250 mL) was prepared
• ddH2O, LB broth new and opened one were autoclaved (30 mL)

Day 2 - 13.07.2021

1. Turned on the UV light for 30 minutes.
2. OD measurements of colonies - 0.368
3. Microwaved NB agar.
4. Prepared 2 plates (20 mL) and 2 slants (25 mL) with NB agar.
5. Poured 10 mL of cultures into pre-chilled 15 mL centrifuge tubes.
6. Centrifuged 15 mL centrifuge tubes at 4700 rpm at 4°C for 10 minutes.
7. Discarded the supernatant and resuspended the pellet with 1 mL of ice-cold ddH2O.
8. Microcentrifuged at 7000 rpm at 4°C for 5 minutes.
9. Discarded the supernatant and resuspended the pellet with 1 mL of ice-cold ddH2O.
10. Microcentrifuged at 7000 rpm at 4°C for 5 minutes.
11. Discarded the supernatant and resuspended the pellet with 1 mL of ice-cold ddH2O.
12. Microcentrifuged at 7000 rpm at 4°C for 5 minutes.
13. Discarded the supernatant and resuspended the peller with 1 mL of ice-cold ddH2O.
14. Microcentrifuged at 7000 rpm at 4°C for 5 minutes.
15. Discarded the supernatant and resuspended the pellet with 1 mL of ice-cold ddH2O.
16. Microcentrifuged at 7000 rpm at 4°C for 5 minutes.
17. Inoculated NB agar plates and 2 NB agar slants with E.coli DHα5.
18. Discarded the supernatant and resuspended the pellet with 50 mL of ice-colled ddH2O.
19. Chilled the tubes on ice.
20. Calculated the volume of required plasmid.
21. Added 0.55 uL of E.coli pRGPDuo4 plasmid into all cultures.
22. Transferred these cultures into electroporation cuvette.
23. With Kimwipes wiped electroporation cuvettes.
24. Capped the cuvetted and turned on the electroporator (18 kV, 25uF, 200 ohms).
25. Put electroporation cuvettes into the electroporator for 10 seconds.
26. Added, immediately, 1 mL of LB and mixed by pipetting.
27. Transferred the culture into a new microcentrifuge tube.
28. Incubated at 37°C for an hour.
29. Microwaved LB agar with kanamycin.
30. Prepared 4 spread plates with cultures (sample 1, sample 2, diluted sample 1 /1:10, diluted sample 2/1:10).
31. Prepared negative control: spread plate with E.coli that was in the initial part of the experiment.
32. Prepared extra 2 plates with kanamycin.
33. Incubated overnight at 37°C.

Day 3 - 14.07.2021

1. 25 mL of LB broth was loaded into centrifuged tubes x3 -> total 3 tubes with LB broth (12.07.21 preparation).
2. 25 μL of kanamycin from the solution (50 ng/mL of kanamycin) was loaded into each tube with LB broth.
3. One single colony was inoculated from plates: Duo4 2nd sample, Duo4 2nd diluted ,Duo4 1st sample (13.07.21).
4. The tubes were incubated for 24 hours at 37°C.

https://static.igem.org/mediawiki/2021/4/4d/T--NU_Kazakhstan--Notebook_Figure_16.jpg

Day 4 - 15.07.2021

1. Prepared: LB agar 200 mL, LB broth 200 mL, NB 200 mL.
2. The solutions were autoclaved.
3. Prepared ALS II solution mixing SDS 10% + NaOH 2N + di water (10 mL).
4. 1 mL of each overnight incubated E.coli samples (1st sample and 2nd sample with pRGPDuo4) were taken and poured into microcentrifuge tubes (in total 2 tubes).
5. The tubes were centrifuged at 14000 rpm for 30 seconds.
6. The supernatant was discarded.
7. 1 mL of sterile distilled water was added to each tube and centrifuged at 12300 rpm for 1 minute.
8. The supernatant was discarded and the tubes were left to air dry inside the safety cabinet.
9. Pellets were resuspended with 100 uL of ice-cold ALS I (pre-autoclaved) and mixed by pipetting.
10. 200 uL of ALS II (doesn't have to be fresh, store at room temperature) was added into each tube and mixed gently by inverting the tube 5 times. Tubes were left on ice for 5 minutes.
11. 150 uL of ALS III (pre-autoclaved) was added into each tube and mixed gently by inverting the tube 5 times. Tubes were left on ice for 5 minutes.
12. Tubes were centrifuged at 12300 rpm for 7 minutes and 450 uL of supernatant from each tube was transferred into new tubes labelled "DNA-supernatant".
13. DNA was precipitated from the supernatant by adding 2 volumes (900 uL) of 70% ethanol chilled on ice. Mixed by inverting and incubated for 2 minutes at room temperature.
14. Tubes were centrifuged at 12300 rpm for 12 minutes and supernatant from each tube was removed, and the tubes were left to air dry.
15. 1 mL of 70% ice-cold ethanol was added to each tube and tubes were centrifuged at 12300 rpm for 3 minutes. Tubes were left to air dry for 10-15 minutes.
16. 50 uL of ultrapure water was added.
17. Nanodrop was applied:

• LB plate, LB slant agar were prepared.
• E.coli DH5α from slant tube (12.07.21 preparation) was inoculated by streak plate technique into 1 LB agar plate.
• E.coli from slant tube (12.07.21) were inoculated into 2 slant glass tubes.
• Tubes and plate were allowed for incubation overnight at 150 rpm at 37°C.

Day 5 - 16.07.2021

Preparing electrocompetent E.coli cells

1. Dilute E.coli culture (5mL E.coli culture + 20mL LB broth)
2. Incubate for 30 minutes.
3. Measure OD:

• Calibrate with LB
• 1st trial OD value - 0.233
• Incubate diluted E.coli culture for 20minutes, since OD is not enough
• 2nd trial OD value - 0.342
• Incubate the diluted sample once more for 10 minutes.
• 3rd trial OD value: 0.411

1. Pour 10mL of diluted E.coli solution into a prechilled 15mL centrifuge tube.
2. Centrifuge at 4700 rpm at 4°C for 10 minutes.
3. Discard the supernatant.
4. Resuspend pellet in 1.5mL centrifuge tube with 1mL of ice-cold dd H2O.
5. Microcentrifuge at 7000 rpm at 4°C for 5 minutes.
6. Repeat 6-8 steps 4 times more.
7. Discard the supernatant.
8. Resuspend the final pellet with 50µL of ice cold dd H2O, put cells on ice.

Electroporation:

1. 1µL of Duo3 + 1.5 µL TE buffer.
2. Duo3 concentration:

• nanodrop for Duo3 = 226ng/µL.
• Duo3 conc. = 226ng/µL*1µL/2.5µL = 90.4 ng/µL.

1. Add 1µL of Duo3 solution into E.coli.
2. Transfer bacteria to chilled electroporation cuvette.
3. Cap cuvette, tap on bench. Put the cuvette on ice.
4. Turn on electroporator (1.8 kV, 25µF, 200 Ω)
5. Wipe cuvette with Kimtech, place in electroporator.
6. start and continue for 10 seconds.
7. Remove cuvette, immediately add 1mL of LB broth.
8. Pipette up and down gently.
9. Transfer mixture to a fresh 1.5mL tube.
10. Incubate at 37°C for 1 hour.
11. 0.6mL of gentamicin (eye drops) were mixed with 120mL LB agar.
12. 90µL LB agar + gentamicin was poured into 3 plates 30mL each. Allowed to solidify.
13. First plate: 100µL of E.coli with Duo3 spread on LB+gentamicin.
14. Second plate: 100µL of diluted E.coli with Duo3 (10µL+90µL LB) on LB+gentamicin.
15. Third plate: Untransformed E.coli on LB+gentamicin.
16. Incubate plates overnight at 37°C.

Day 6 - 17.07.2021

1. Incubate E.coli Duo3 transformed plates for 2.8 hours more.
2. Ultrapure nuclease free water was autoclaved.
3. PCR tubes were autoclaved.

PCR for nadE

1. 12.5µL Master Mix + 1µL F primer nadE + 1µL R primer nadE + 1.5µL gen. DNA from tube 3 LB + 9µL nuclease free H2O.

1. 12.5µL Master Mix + 1µL F primer nadE + 1µL R primer nadE + 2µL gen. DNA from tube 1 LB + 8.5µL nuclease free H2O.
2. 12.5µL Master Mix + 1µL F primer nadE + 1µL R primer nadE + 3.3µL gen. DNA from tube 2 LB + 7.2µL nuclease free H2O.
3. 12.5µL Master Mix + 1µL F primer nadE + 1µL R primer nadE + 0.7µL gen. DNA from tube 4 LB + 9.8µL nuclease free H2O.

Primers mainstock and substock preparation

For pRGPDuo-rhlBA-F

12.93nmol

• For main stock: add 129.3µL of sterile ultrapure water
• substock 1: take 10µL of main stock + 90µL sterile ultrapure water
• substock 2: take 10µL of main stock + 90µL sterile ultrapure water

For pRGPDuo-nadE-F (E5)

13.04nmol

• For main stock: add 130.4µL of sterile ultrapure water
• substock 1: take 10µL of main stock + 90µL sterile ultrapure water
• substock 2: take 10µL of main stock + 90µL sterile ultrapure water

For pRGPDuo-nadE-R

18.96nmol

• For main stock: add 189.6µL of sterile ultrapure water
• substock 1: take 10µL of main stock + 90µL sterile ultrapure water
• substock 2: take 10µL of main stock + 90µL sterile ultrapure water

Day 7 - 18.07.2021

1. Make a subculture of Diluted Duo3 and Duo3 in 1ml of LB broth + 5µL gentamicin.
2. Incubate them overnight at 37°C.

• Prepare primers stock

For pRGPDuo-rhlB-A-R

24.28nmol

• For main stock: add 242.8µL of sterile ultrapure water
• substock 1: take 10µL of main stock + 90µL sterile ultrapure water
• substock 2: take 10µL of main stock + 90µL sterile ultrapure water

For pRGPDuo-nadE-F (G5)

20.25nmol

• For main stock: add 202.5µL of sterile ultrapure water
• substock 1: take 10µL of main stock + 90µL sterile ultrapure water
• substock 2: take 10µL of main stock + 90µL sterile ultrapure water

Week 4

Day 1 - 19.07.2021

PCR

1. 12.5µL Master Mix + 1µL F primer nadE + 1µL R primer nadE + 1.5µL gen. DNA from tube 3 LB + 9µL nucleasefree H2O.
2. Set PCR settings as in Table 7 (17.07.2021)

pRGPDuo3 plasmid extraction

1. Centrifuge 1mL of Duo3 colony at 7000 rpm 4°C for 1 minute.
2. Discard supernatant and leave the pellet as dry as possible.
3. Resuspend the pellet with 100µL of ice-cold ALS I and mix gently by pipetting.
4. Add 200µL of room temperature ALS II and gently mix by inverting tube 5 times. Put on ice for 5 minutes.
5. Add 150µL of ice-cold ALS III and gently mix by inverting the tube 5 times. Put on ice for 5 minutes.
6. Centrifuge at 13500 rpm 4°C for 5 minutes.
7. Transfer 450µL of supernatant to the new labeled tubes.
8. Precipitate DNA from supernatant by adding 900µL of 70% ethanol and incubate tube at room temperature for 2 minutes.
9. Centrifuge tubes at 13500 rpm 4°C for 5 minutes and discard supernatant, leave tubes dry for 15 minutes.
10. Add 1mL of 70% ethanol.
11. Centrifuge tubes at 13500 rpm 4°C for 5 minutes and discard supernatant, leave tubes dry for 15 minutes.
12. Dissolve plasmids with 50µL of dd water.
13. Nanodrop concentration analysis:

1st sample - 1529ng/µL

2nd sample - 80.30ng/µL

Preparations for subculturing

1. Prepared 950mL of LB broth by adding 7g of powder into 950mL of dd water.
2. Prepared 950ml of LB agar by adding 12.95g of powder into 950mL of dd water.
3. Autoclaved LB broth and LB agar.

PCR conditions calculations

1. pRGPDuo-nadE (G5-F5)

1. pRGPDuo-rhlB-A (H1-B2)

1. PCR reaction of 3rd sample genomic DNA with nadE (G5-F5).
2. Mixed 100mL of autoclaved LB agar with 500µL of gentamicin.
3. Prepared 2 LB agar plates and 2 LB agar slants with gentamicin.
4. Inoculation of pRGPDuo3 (subculturing) into 2 LB agar plates and 2 agar slants with gentamicin.
5. Incubate overnight at 37°C
6. Autoclave dd water and dd water nucleasefree

Day 2 - 21.07.2021

Performed PCR:

1. 12.5µL Master Mix + 1µL F primer rhlB-A + 1µL R primer rhlBA + 1.5µL gen. DNA from tube 3 LB + 9µL nuclease free H2O.
2. Conditions for PCR as in the table 9 (19.07.2021)

Gel electrophoresis

1. Prepared 1% agarose gel (2g of agarose in 200mL of 1xTAE.
2. Prepared samples for gel electrophoresis:

1. 500x FastBlast was diluted by adding 40 ml of it into 160???. This resulted in the final concentratio 100x FastBlast
2. TAEx1 buffer was prepared by adding 16ml of 50x TAE buffer into 784ml of water
3. Hardened agarose gel was placed into the tray
4. TAEx1 buffer was poured enough to make gel submerged in it
5. Samples were poured in order as depicted in Table 11

1. Closed the last and laft it to ??? at 90V
2. Gel was stained with FastBlast 100x for 3min
3. It was washed under tap warm water
4. FastBlast 100x was diluted into 1x
5. Gel with FastBlast 1x was left overnight

Experiment failed

Day 3 - 22.07.2021

1. 100ml of 1% agarose gel was prepared by adding 1g of agarose powder to newly diluted (yesterday) TAE 1x buffer
2. It was microwaved and poured into the gel cast. Womb was placed in.
3. Loding samples were prepared following way: 5ul of sample, 5ul og loading dye, 10ul of TAE 1x buffer
4. After gel was solidified, samples were loaded into the wells as it is demonstrated in Table 12

1. Gel Electrophoresis machine was set to 90V and run.
2. When band reached 2/3 of the gel, it was stained with FastBlast and shoved
3. Finally, it was washed several times

1. Prepared 1% gel (3g agarose + 300ml TAE)
2. Microwaved gel poured into gel cast. Put comb into it
3. Prepared samples: 10ul TAE + 5ul loading dye + 5 ul sample
4. Prepared TAE buffer (4ml of 50x TAE + 196ml autoclaved H2O)
5. Run gel electrophoresis (40-45min)
6. Prepared Sybr safe solution (7ul Sybr)
7. Poured Sybr safe solution into gel; gel was left for 24 hours of shacking

Day 4 - 23.07.2021

1. Gel electrophoresis was loaded according to Table 13. it ran at 90V, and passed half of the gel

Samples preparation:

1. 10ul sample (DNA ladder, extracted plasmids, Duo 2 distilled, PCR products) + 5ul TAE + 5ul loading dye

Agarose gel preparationC

1. Prepared 1% agarose gel (1g agarose + 100ml TAE)
2. Addition of 10ul Ethidium Bromide. Calculations:

C1V1=C2V2

Stock = 10mg/ul

1000ug/ml * V1=1ug/ml *100ml

V1= 0.01ml=10ul

Why our electrophoresis worked? (possible explanations)

1. increased concentrations of samples (10ul ladder, gene of interests, PCR products)
2. We used new loading dye (taken from Aigerim)
3. We stained with Ethidium Bromide
4. We decreased voltage to 90V

Previously we used 120V on 22.07.2021 which was too high voltage. It could melt gel smear bands of samples

PCR

1. PCR with nadE (Gs & Es): 12.5 ul Master Mix + 9ul H2O + 1.5ul gen DNA +1ul F primer + 1ul R primer nadE (Annealing temp. = 63°C) (x3 samples, 6 in total)
2. PCR with rhlA: 12.5ul Master Mix + 9ul H2O + 1.5ul gen DNA + 1ul F primer rhlA + 1ul R primer rhlA (Annealing temp.= 57°C) (3 samples)

Week 5

Day 1 - 26.07.2021

Gel Electrophoresis

1. Prepare 1% agarose gel (1g of agarose in 100mL 1xTAE)
2. Microwave gel (mix each 15-30 seconds to dissolve agarose)
3. Samples preparation:

1. Proceed gel electrophoresis at 120V for 30 minutes.

Day 2 - 27.07.2021

1. Prepare 1% agarose gel (1g of agarose in 100mL 1xTAE)
2. Prepare PCR reaction tubes with TAQx5 mastermix 3 tubes (nadEDuo3, nadEDuo2,4,rhlAB) and with NEBQ5 mastermix 3 tubes (nadEDuo3, nadEDuo2,4,rhlAB).
3. Run PCR.
4. Prepare PCR samples for gel electrophoresis.
5. Gel loading:

Started run at 17:16 (90V) till 17:56.

1. Run PCR with rhlAB primers mix.
2. Stained in EtBr.

Day 3 - 28.07.2021

1. Turned on UV light in hood.
2. Observed runned gel with primers under UV exposure.
3. Prepared PCR tubes for Q5 nadEDuo3, Q5 rhlAB, TAQx5 nadEDuo3, TAQx5 rhlAB (12.5µL master mix, 9µL of nucleose free water, 1.5µL of genomic DNA (sample 3), 0.5µL of forward primer, 0.5µL of reverse primer).
4. Runned PCR

1. Prepared PCR samples for gel electrophoresis (10µL of sample, 5µL of 1xTAE, 5µL of loading dye).

1. Run electrophoresis (90V for 1hour and 15 minutes)
2. Prepare PCR tubes NEBQ5 nadEDuo2,4 , TAQx5 nadEDuo2,4 (12.5µL master mix, 9µL nuclease free water, 1.5µL of genomic DNA (sample 3), 1µL of F.P. (13.04), 1µL of R.P. (18.96).

1. Left gel in DNA stain overnight.

Day 4 - 29.07.2021

1. Prepare 1% agarose gel.
2. Preparing DNA samples (10µL of sample, 5µL of 1xTAE, 5µL of loading dye).

1. Set electrophoresis (100V for 35 minutes).
2. Left gel in EtBr overnight.

PCR

For master mix TAQx5

• 5µL TAQx5, 1.5µL genetic DNA, 0.5µL forward primer, 0.5 reverse primer, 17.5µL nuclease free water.

For master mix NebQ5

• 12.5µL NebQ5, 1.5µL genetic DNA, 1.25µL forward primer, 1.25 reverse primer, 8.5µL nuclease free water.

1. Run PCR rhlB-A TAQx5 Ta=56°C.
2. Run PCR rhlB-A TAQx5 Ta=63°C.

Day 5 - 30.07.2021

Anar's team

1. Run PCR rhlB-A NebQ5 Ta=72°C.
2. Run PCR NadEDuo2,4 NebQ5 Ta=72°C.
3. Run PCR NadEDuo3 NebQ5 Ta=72°C.
4. Run PCR rhlB-A TAQx5 Ta=67°C.
5. Run PCR NadEDuo2,4 TAQx5 Ta=61°C.
6. Run PCR NadEDuo3 TAQx5 Ta=61°C.

Day 6 - 31.07.2021

1. Run PCR NadEDuo 3 TAQx5 Ta=68°C.
2. Run PCR NadEDuo 2,4 TAQx5 Ta=64°C.
3. Run PCR NadEDuo 2,4 TAQx5 Ta=66°C.

Gel electrophoresis:

1. Prepare agarose gel (1g of agarose in 100mL 1xTAE)
2. Sample preparation (10µL of sample, 5µL of loading dye, 5µL 1xTAE)
3. Prepared 1xTAE (4mL 50xTAE + 196mL water)

Conduct electrophoresis (90V)

August

Week 1

Day 1 - 02.08.2021

1. Turned on UV light
2. after gel electrophoresis analysis, PCR conditions for rhlAB were recalculated.
3. Prepare 4 PCR tubes: 12.5µL TAQx5, 1.5 gen. DNA(sample 3), 1.25µL forward rhlB-A primer, 1.25µL reverse rhlB-A primer, 8.5 nuclease free water.
4. Prepare 4 PCR tubes: 12.5µL TAQx2, 1.5 gen. DNA(sample 3), 1.25µL forward rhlB-A primer, 1.25µL reverse rhlB-A primer, 8.5 nuclease free water.

Day 2 - 03.08.2021

Day 3 - 04.08.2021

1. preparation of 1% agarose gel (2mL 50xTAE + 1g agarose + water up to 100mL)
2. Sample preparation: 10µL sample, 5µL 1xTAE, 5µL loading dye.

Gel electrophoresis

1. Gel observed under UV
2. Prepared 8 taqx5 PCR tubes (12.5ul Taq 5x, 1.25 of Fond R prime, 8.5ul of nuclease free water, 1.5 of genomic DNA-4)
3. Runned PCR for one tube (rhlBA taq 5x)

1. Prepared samples for gel electrophoresis: 10ul sample + 5ul TAE 1X, 5ul loading dye
2. Run gel at

1. Observed gel under UV

1. Placed unrunned (en. PCR) tubes in -20 C fridge and runned in 6

Day 4 - 05.08.2021

1. Prepare 5 new PCR tubes: 0.5 ul gen DNA + 5ul Taq 5x + 1ul Forward + 1 ul Reverse + 1 ul dNTP (0.2mM) + 16.5 Nuclease free water

55.5C, 56C, 56.5C, 57C, 57.5C

1. Prepared 50ul of 0.2mM dNTP:

C1V1 = C2V2

1ul * 10mM = 0.2mM*x

x = 50ul

1. Annealing temperature: 55.5C, 56C, 56.5C, 57C, 57.5C

Day 5 - 06.08.2021

1. Run PCR at 57C, 57.5C
2. Prepare gel electrophoresis samples: 10ul DNA sample + 5ul TAE + 5ul loading dye
3. Samples: DNA ladder, PCR at 57C, 58C, 59C, 60C, 56.5C (Ainur's team)
4. PCR at 55.5C, 56C, 56.5C, 57C, 57.5C (Anar's team)

Previously we runned Q5 sample with T a = 72C with extension time of 70 sec. However, we got our sample of rhl B-A at 1.35Rb:

1.35 - 70sec

2.4 - x

x ~ 120sec = time of extension

1. We run PCR rhl B-A Q5 with Anneal/ temperature 72, ext. = 120 sec

Day 6 - 07.08.2021

1. PCR was run with the tube rhl B-A Q5 30 volume

Week 2

Day 1 - 09.08.2021

1. Runned gel electrophoresis

1. Repeated PCR with 58C (9th product)

1. Staining protocol ???

Day 2 - 10.08.2021

1. Prepared samples for gel electrophoresis:
2. Gel electrophoresis: redoing gel because it was accidentally super thick
3. Gel was prepared by mixing 1 g of agarose + 100 ml TAE+ 10ul of EthBr. Allowed to solidify
4. Well loading: 90V for about 45 min

Day 3 - 11.08.2021

1. Gel electrophoresis results:

1. Cut bands from 15th and 16th sample
2. Melt them in Thermomixer compact at 65C

The following steps are according to the PureLink Quick Coel Extraction KIt

1. Cut minimal area of gel with a Band
2. Weight gel ~ 0.34g
3. Add Gel Solubilization Buffer (L3) to the gel in a ratio 3:1 (We added 1ml)
4. Place the tube in a thermomixer for 10 min until gel will dissolve. Each 3 min gently mix by inverting
5. Incubate the tube for additional 5 min
6. Purify DNA using a centrifuge
7. Pipet the dissolved gel into the column in wash tube. One column per 400 mg capacity is 850ml, so that we took approximately 700 ml
8. Centrifuge the flow through and place column into the wash tube
9. Add 500ul Wash buffer (W1)
10. Centrifuge at 12000 rpm for 1 min, discard the flow through
11. Centrifuge one more time at 14000 rpm for 2 mins, discard the flow through
12. Place column in a new wash tube (recovery tube). Add 50 ul of Elution Buffer (E5) into the centre of the column. Incubate 1 min at RT
13. Centrifuge the tube at 12 000 rpm for 1 min
14. Store for long term usage at -20C

Prepare PCR samples

1. With Q5 one sample (~25ul v) rhl B-A

• 12.5ul Q5, 1.5ul gen DNA (DNA elution product), 1.25 ul forward rhl B-A primer, 1.25ul Reverse rhl B-A primer, 1ul dNTP (0.2mM), 7.5 ul water
• 2 PCR samples for rhl B-A with Taq x5 (25ul), 5ul Taq x5, 1 ul gen DNA (DNA elution product), 1ul Forward rhl B-A primer, 1ul reverse rhl B-A primer, 1ul dNTP (0.2mM), 16 ul water without nuclease

Autoclaved 400 ul of LB agar, and prepared to agar slants and L agar

Day 4 - 12.08.2021

1. Autoclaved cotton
2. Prepared NA (28g/L) and NB (8gg/L)
3. Prepared media were autoclaved
4. Prepared Gel for electrophoresis (1g agarose +100ul TAE +10 ul of EthBr (stock solution))
5. Gel loading at 120V for 30 min:

Day 5 - 13.08.2021

1. Autoclaved distilled water
2. Turn on sec UV on safety cabinet for 30-40 min
3. Prepared 4 Nutrient Agar slants: 3 in glass tubes (15ml) and 1 in plastic tube (25ml)
4. Prepared 2 Nutrient Broth in plastic tubes (30ml)
5. Transferred P. putida to nutrient Broth tube. Put on 30C, 180 rpm, 48 hours shaking

Day 6 - 14.08.2021

1. PCR sample prepared rheBIA:

• 15 μl Q5 MM
• 2 μl f.primer
• 2 μl r.primer
• 9.25 μl water
• 0.75 μl gen DNA from tube 4
• 1 μl DNTP (0.02 mM)

1. PCR set up for Tsample:

1. PCR sample Taq 2x MM rheBIA:

• Taq 2x MM 15 μl
• 1 μl Fpr
• 1 μl Rpr
• 1 μl DNTPs
• 0.75 μl gen DNA
• 11.25 μl water/30

1. 2nd sample (56)

• 16.3 MM
• 1 μ F
• 1 μ R
• 1 μ DNTPs
• 0.75 gen DNA
• 13.5 water/32.25 (accidentially)

Conditions: Annealing temperature = 56 °C

Volume = 32.25

1. P.putida grown overnight were inoculated into a new AB tube, 2 slant glass NA tubes and 1 plastic slant agar tube. Left in incubator for ~24 h at temperature = 28°C, 180 rpm.

Day 7 - 15.08.2021

Because P.putida did not grow well, cultures were left for 48 hours in another incubator at 170 rpm, t = 30°C.

Week 3

Day 1 - 16.08.2021

1. Turned on UV light for 30 min.
2. Run PCR with sample Taq 5x prepared 11.08.2021

Day 2 - 17.08.2021

1. Prepared gel for gel electrophoresis (1 g agarose + 100 mL TAE + 10μl ethidium bromide
2. Gel leading:

1. Run the gel at 120 V for 35 minutes.
2. Inoculated 1 slant agar in glass with colony of P.putida from another slant agar in plastic and put into the incubator. (from 14.08.2021)
3. Prepared 2 nutrient Agar plates of 30 mL and inoculated them with P.putida from NB.
4. Prepared 2 nutrient Agar plates of 20 mL and inoculated them with P.putida from NB.
5. Prepared new x1 NB of №30mL and inoculated with P.putida from nutrient agar slant in glass that was inoculated on 14.08.2021.
6. All cultures were put into the incubator.
7. Incubator was set to 170 rpm and 30°C.

Day 3 - 18.08.2021

1. Prepared PCR samples as follows:

Day 4 - 19.08.2021

1. Turned on UV light in the safety cabinet for 30 min.
2. Prepared 100 mL Nutrient Agar and 50 mL Nutrient Broth.
3. Put Nutrient Agar and Nutrient Broth in Autoclave.
4. Prepared 2 slant agars (20 ml) and 1 nutrient broth (25 ml) with Putida, incubated overnight.

Day 5 - 20.08.2021

1. Prepared 7 samples for gel electrophoresis. (DNA ladder, 10 μl gen. DNA + 5 μl TAE + 5 μl loading dye.)
2. Prepared 100 ml of gel (1 g agarose + 100 ml TAE)

Day 6 - 22.08.2021

How the Dream Taq polymerase volume was calculated:

Stock concentration is 5 U/μl while 1.25 U in 50 μl PCR sample is needed.

5 U - 1 μl

250 U - 50 μl

C1*V1 = C2*V2

250 U * V1 = 1.25 U * 50 μl

V1 = 0.25 μl

0.25 μl of Taq polymerase in 50 μl sample

0.15 μl in 30 μl sample

Comment: "We firstly put sample on PCR machine for 10 min without adding Taq polymerase. After, we removed PCR tube, added polymerase & continued PCR."

Week 4

Day 1 - 23.08.2021

1. PCR run of 2x Phusion Master Mix samples followed protocol (Annealing 72°C, 60°C)
2. Prepared 50mM MgCl2 solution (autoclaved 1.19 g MgCl2 in 250 ml of DNA-se free water)
3. Prepared 6 agar plates (LB)
4. Inoculated with E.coli, E.coli Duo2, E.coli Duo3, E.coli Duo4, P.Putida
5. Inocubated at 37°C for 24 hours.
6. Following the protocol for Dream Taq polymerase set PCR tubes with annealing temprature 56.1°C, 60.5°C (Put polymerase after initial 10 min)

Day 2 - 24.08.2021

1. Prepared TAE:

12 ml of 50x TAE + 588 ml of DI

Day 3 - 25.08.2021

1. 3 PCR samples were prepared as follows:

1. Run PCR

1. Autoclaved LB agar. Prepared 2 plates. Inoculated them with P.putida. Left them in incubator overnight.

Week 5

Day 1 - 31.08.2021

1. Prepare 2 LB agar plater and 2 LB agar slants.
2. Subculture P. putida into 2 LB agar and 2 LB slants.
3. Prepair PCR samples for rhlB-A.

1. Prepair PCR samples into 2mL tube.
2. Centrifuge 2mL tubes at 10000 rpm for 2min.
3. Transfer PCR samples into PCR tubes.
4. Run 6 PCR tubes at 6 different condition.

September

Week 1

Day 1 - 01.09.2021

1. Turn on UV light on 30 min.
2. Prepair 1% agarose gel (mix 1g of agarose with 100mL 1xTAE, gently heat it until agarose will not dissolve).
3. Transfer gel into electrophoresis track.
4. Prepair samples for electrophoresis run.

• Run electrophoresis at 100V for 45 minutes.
• Stain the gel for minimum 2 hours.

Analysis of the gel under UV:

We gained bends in 9th and 10th wells: which are corresponds to DreamTAQ 67°C and

Dream TAQ 72°C.

7. Gel elution was made according to the protocol of the Quick gel extraction Kit.

1. Cut bands from 9th to 10th well sample (take minimal amount of the gel).
2. Melt them in Thermomixer compact at 65°C
3. Weight gel ~ 0.10g
4. Add Gel Solubilization Buffer (L3) to the gel in a ratio 3:1 (We added 0.3ml)
5. Place the tube in a thermomixer for 10 min until gel will dissolve. Each 3 min gently mix by inverting
6. Incubate the tube for additional 5 min
7. Purify DNA using a centrifuge
8. Pipet the dissolved gel into the column in wash tube. One column per 400 mg capacity is 850ml, so that we took approximately 700 ml
9. Centrifuge the flow through and place column into the wash tube
10. Add 500ul Wash buffer (W1)
11. Centrifuge at 12000 rpm for 1 min, discard the flow through
12. Centrifuge one more time at 14000 rpm for 2 mins, discard the flow through
13. Place column in a new wash tube (recovery tube). Add 50 ul of Elution Buffer (E5) into the centre of the column. Incubate 1 min at RT
14. Centrifuge the tube at 12 000 rpm for 1 min

8. Store extracted DNA samples in the -20°C. fridge.

9. Prepared sample for PCR rhlB-A from extracted DNA.

10.Run PCR at following conditions:

Day 2 - 02.09.2021

1. Turn on UV light on 30 minutes.
2. Prepared 1% agarose by adding 1g of agarose into 100mL 1xTAE
3. Gently heat agaroose gel until agarose will dissolve
4. Add 10μl GelRed
5. Run electrophoresis:

100V for 45 minutes.

1. Elution product (01.09.2021) was checked by nanodrop on DNA content. Result=15ng/μl

Not appropriate graph

Day 3 - 03.09.2021

1. Turn on UV for 30 minutes.
2. Prepared PCR samples for Phusion Master Mix (4samples)

1. Run PCR at following conditions:

1. Prepared 1% agarose gel (Adding 1g of agarose into 100mL 1xTAE).
2. Prepared PCR samples for gel electrophoresis:

1. Centrifuge samples at 10000 rpm for 2 minutes.
2. Load samples in to the wells.
3. Runned gel at 100V for 45 minutes.
4. Observed Results.

Week 2

Day 1 - 06.09.2021

1. Turn on UV light for 30 minutes.
2. Prepare 300mL LB agar by adding 11.1g of LB agar into 300mL water.
3. Heat LB agar and autoclave.
4. Autoclave di water and LB broth.
5. Prepare kanamycin solution by adding 0.5g of kanamycin sulfate into 10mL sterile (autoclaved) water.
6. Microwave used LB agar abd prepare 2LB agar slants and 2 LB agar plates.
7. Subculture P.putida from alsnt and and plate into 2 LB agar slants and 2 LB agar plates (streak plate).
8. Add 0.3mL of kanamycin solution into 300mL autoclaved LB agar and prepare 2 LB agar + kanamycin plates.
9. Subculture E.coli Duo2 and Duo4 into LB agar plates with kanamycin. (streak plate)
10. Prepare 3 PCR samples with Phusion master mix.

1. Proceed gradient PCR with conditions:

1. Store at -20 friedge.

Day 2 - 07.09.2021

1. Turn on UV on 30 minutes.
2. Placed grown plate with P.putida in -4 friedge.
3. Prepared 300mL LB agar by adding 11.1 g of LB agar into 300mL water.
4. Autoclaved LB agar.
5. Prepared 2 LB broth + kanamycin tubes by adding 25μl of kanamycin solution into 25mL LB broth in centrifuge tube.
6. Transfer E.coli Duo2 and Duo4 into prepared 2 LB broth tubes with kanamycin.
7. Place them in the incubator overnight.
8. Add 0.3mL of kanamycin solution into autoclaved 300mL LB agar.
9. Prepare 2 LB agar + kanamycin plates and subculture E.coli Duo2 and Duo4 from the previous day into new 2 LB agar+kanamycin plates (streak plate).
10. Incubate overnight at 37°C.

Day 3 - 08.09.2021

1. Turned on UV light on 30 minutes.
2. Prepared PCR samples with TAQ 2x Master Mix.

1. PCR conditions for annealing temp equal to extension can be proceed in 2 steps.

1. Prepare 100mL LB agar (3.7g of LB agar in 100mL water) and 100mL LB broth (2g LB broth in 100mL water).
2. Autoclave LB agar and LB broth.
3. Prepare 4 LB agar plates (25mL) and 2 LB broth (25mL).
4. Transfer one colony of E.coli Duo2 and Duo4 from Arlan's plates into new plates (LB agar + kanamycin).
5. 2 LB agar plates put into friedge for future use.
6. Transfer one colony of E.coli Duo 2 and Duo4 into 2 LB broth + kanamycin.

Day 4 - 09.09.2021

1. Measured OD of the E.coli Duo2 and E.coli Duo4.

E.coli Duo2 = 0.642

E.coli Duo3 = 0.746

1. Prepared electrocompetent E.coli. WE need electrocompitent P.putida, not E.coli. Need to be redone.
2. Prepare Duo3 LB broth by inoculating Duo3 slant into 1mL of LB broth + 5μl of gentamicin.
3. Incubate at 37°C for 24 hours
4. Prepare 1% agarose gel by adding 1g into 100mL 1xTAE.
5. Prepare PCR sample for gel electrophoresis

Proceed gel electrophoresis:

Run at 100V for 50minutes.

1. Prepare LB agar by adding 8.10g of LB agar into 220mL water. Heat and autoclave.
2. Add 1.1mL of gentamicin into 220mL LB agar.
3. Prepare 1 streak plate of E.coli Duo3 in LB agar + gentamicin.
4. Prepare LB broth with P.putida by inoculating single colony from streak plate into 25mL LB broth.
5. Incubate P.putida at 30°C.

Day 5 - 10.09.2021

Plasmid extraction of E.coli Duo2, E.coli Duo3 and E.coli Duo4

1. 1mL of culture tube of E.coli Duo2, Duo3 and Duo4 centrifuge at 10000rpm for 1 minute. Discard the supernatant, leave the pellet as dry as possible.
2. Resuspended the pellet in 100 uL of ice cold ALS I (autoclaved) and mixed by pipetting, makin sure the cells dispersed fully.
3. Added 200 uL of ALS II and mixed by inverting the tube 5 times, making sure the content of the tube makes contact with ALS II. Stored the tube on ice for 5 minutes.
4. Added 150 uL of ALS III (autoclaved) and mixed gently by inverting the tube 5 times. Stored the tube on ice for 5 minutes.
5. Centrifuged at 10000 rpm for 6 minutes at 4°C.
6. Transferred the supernatant (450 uL) to the new labeled tube.
7. Precipitated DNA from supernatant by adding 2 volumes (900 uL) of 70% ethanol at room temperature. Gently mixed by inverting and incubated 2 minutes at room temperature.
8. Centrifuged at 10000 rpm for 6 minutes at 4°C. Discarded the supernatant and dried the pellet.
9. Added 1 mL of 70% ethanol and mixed by inverting.
10. Centrifuged at 13500 rpm for 2 minutes at 4°C. Removed the supernatant and left the tube to dry for 10-15 minutes until ethanol will evaporate.
11. Dissolved pellet in 50 uL H2O and checked OD 1 uL of each solution by nanodrop.

• Duo2 = 260ng/μl
• Duo3 = 603ng/μl
• Duo4 = 458.7ng/μl

1. Prepare LB broth by adding 6g of LB broth into 300mL water. Heat solution.
2. Autoclave LB broth.
3. Prepare 1% agarose gel by adding 1g pf agarose into 100mL 1xTAE.
4. Microwave agarose gel until all agarose will dissolve.
5. Add 10μl of stain into the gel.
6. Prepare samples for gel electrophoresis:

1. Run gel electrophoresis at 120V for 30 minutes.
2. Prepare 2LB broth + kanamycin by adding 25μl of kanamycin into 25mL of LB broth. Inoculate E.coli Duo2 and E.coli Duo 4 into these LB broth + kanamycin tubes.
3. Prepare 1mL LB broth tube + 5μl of gentamicin. Inoculate E.coli Duo3 into LB broth with gentamicin.
4. Prepare 25mL LB agar slant, add immediately 25μl of kanamycin solution. After slant will be prepared, subculture E.coli Duo4 into LB agar + kanamycin slant.

Day 6 - 11.09.2021

1. OD of P.putida 0.266
2. Leave P.putida in incubator at 30°C for overnight.
3. Prepare PCR samples with TAQ x2:

To improve activity of TAQx2 we decided to add MgCl2

1. Prepare 10mL of 0.1M MgCl2 (0.095g +10mL water).
2. dilute 100 fold to get 1mM.

Prepare electrocompetent P.putida.

1. Measure OD of P.putida = 0.266
2. Pour 10mL of P.putida culture solution into prechilled 15mL centrifuge tube.
3. Centrifuge at 4700 rpm at 4°C for 10 minutes.
4. Discard supernatant.
5. Resuspend pellet in 1.5mL centrifuge tube with 1mL of ice-cold dd H2O.
6. Microcentrifuge at 7000 rpm at 4°C for 5 minutes.
7. Repeat 6-8 steps 4 times more.
8. Discard supernatant.
9. Resuspend final pellet with 50µL of ice cold dd H2O, put cells on ice.

Week 3

Day 1 - 13.09.2021

1. Turn UV light on 30 minutes.
2. Prepare 1% agarose gel by adding 0.3g of agarose into 30mL 1xTAE.
3. Microwave gel until agarose will dissolve.
4. Prepare PCR samples for gel electrophoresis:

Load samples into the gel:

1. Prepare 2 more electrocompetent P.putida tubes:

1. Measure OD of P.putida = 1
2. Dilute P.putida culture with LB broth.
3. Measure OD = 0.536
4. Pour 10mL of P.putida culture solution into 2 prechilled 15mL centrifuge tube.
5. Centrifuge at 4700 rpm at 4°C for 10 minutes.
6. Discard supernatant.
7. Resuspend pellet in 2 1.5mL centrifuge tube with 1mL of ice-cold dd H2O.
8. Microcentrifuge at 7000 rpm at 4°C for 5 minutes.
9. Repeat 6-8 steps 4 times more.
10. Discard supernatant.
11. Resuspend final pellet with 50µL of ice cold dd H2O, put cells on ice.

Electroporation of P.putida

Measure Duo plasmids concentration with nanodrop.

• Duo2 = 1492ng/μl
• Duo3 = 844.2ng/μl
• Duo4 = 965.7ng/μl

• We need 75ng of plasmids Duo2:

Dilute Duo 2 plasmids by adding 1µL of Duo2 plasmids with 99µL TAE.

Take 5µL of diluted Duo2 plasmids (74.6ng).

• We need 75ng of plasmids Duo3:

Dilute Duo3 plasmids by adding 1µL of Duo3 + 9µL of TAE

Take 1µL of diluted Duo3 plasmids (84.42ng).

• We need 75ng of plasmids Duo4:

Dilute Duo4 plasmids by adding 1µL of Duo4 + 9µL TAE.

Take 1µL of diluted Duo4 (96.57ng).

1. Mix needed quantity of plasmids with P.putida
2. Turned on electroporator (18 kV, 25 uF, 200 ohms).
3. Wiped the cuvette with Kimtech, then placed the cuvette into electroporator for 4 sec.
4. Immediately added 1 mL of LB -> quickly pipette.
5. Transferred the mixture to fresh 1.5 mL tube.
6. Repeat for all plasmids. Duo2, Duo3 and Duo4.
7. Incubated at 150 rpm 30°C for 1 hour.
8. Prepared 6 agar plates

• P.putida + duo2 (LB agar + kanamycine)
• P.putida + duo3 (LB agar + gentamicin)
• P.putida + duo4 (LB agar + kanamycine)
• P.putida + duo2 (LB agar + gentamicin) negative control
• P.putida + duo3 (LB agar + kanamycine) negative control
• P.putida + duo4 (LB agar + gentamicin) negative control
• For kanamycine plates add 25μl of kanamycine solution into 25mL LB agar.
• For gntamicin plates add 125μl of gentamicin solution into 25mL LB agar

Spread 100μl of transformed putida in the plates (spread plate).

Incubate plates overnight at 30°C.

Plasmid extraction of Duo2,3,4 from E.coli accoding protocol.

1. 1 mL of culture tubes (2 tubes) were centrifuged at 7000 rpm for 1 minute at 4°C.
2. The supernatant was discarded and pellet was left to dry.
3. Prepared 10 mL of ALS II by mixing 1 mL of 3N NaOH, 1 mL of 10% SDS and ddH2O.

1. Resuspended the pellet in 100 uL of ice cold ALS I (autoclaved) and mixed by pipetting, makin sure the cells dispersed fully.
2. Added 200 uL of ALS II and mixed by inverting the tube 5 times, making sure the content of the tube makes contact with ALS II. Stored the tube on ice for 5 minutes.
3. Added 150 uL of ALS III (autoclaved) and mixed gently by inverting the tube 5 times. Stored the tube on ice for 5 minutes.
4. Centrifuged at 13500 rpm for 5 minutes at 4°C.
5. Transferred the supernatant (450 uL) to the new labeled tube.
6. Precipitated DNA from supernatant by adding 2 volumes (900 uL) of 70% ethanol at room temperature. Gently mixed by inverting and incubated 2 minutes at room temperature.
7. Centrifuged at 13500 rpm for 5 minutes at 4°C. Discarded the supernatant and dried the pellet.
8. Added 1 mL of 70% ethanol and mixed by inverting.
9. Centrifuged at 13500 rpm for 2 minutes at 4°C. Removed the supernatant and left the tube to dry for 10-15 minutes until ethanol will evaporate.
10. Dissolved pellet in 50 μl H2O and checked OD 1 uL of each solution by nanodrop.

Day 2 - 14.09.2021

Proceed 2 step PCR condition:

P.putida Culture:

• Inoculated P.putida into 2 tubes with 25ml of LB broth.
• Incubate for overnight at 30°C.

Day 3 - 15.09.2021

1. Prepare 30ml 1xTAE by mixing 0.6mL 50xTAE with 29.5mL of di water.
2. Prepare agarose gel by adding 0.3g of agarose into 30ml 1xTAE.
3. Microwave gel until all agarose will dissolve.
4. Add 3μl of stain into the gel.

Prepare samples for gel electrophoresis: 10μl of sample + 5μl loading dye + 5μl 1xTAE.

Run gel electrophoresis at 120V for 29 minutes

1. 4 plates with LB agar + kanamycine were prepared (0.1mL kanamycine + 100mL LB agar).
2. 2 plates with gentamicin were prepared

Day 4 - 17.09.2021

1. Measured quantity of extracted plasmids, which were prepared on 13th September, using nanodrop.

Prepare PCR samples: 0.6μl DNTPs + 1.5μl Forward primer + 1.5μl reverse primer + 10μl Phusion master mix + 0.6μl DMSO + 1.5μl MgCl2 + 2μl genomic DNA + 8.3μl nuclease free water (Total 25μl)

For transformation we need approximately 75ng of plasmids.

Duo 2 (926ng/μl) - dilute 10 fold by adding 9μl 1xTAE into 1μl Duo2 plasmid = 92,6ng/μl. Take 1μl.

Duo 3 (1522ng/μl) - dilute 100fold by adding 99μl of 1xTAE into 1μl Duo3 plasmid = 15.22ng/μl. Take 5μl.

Duo4 (559.5ng/μl) - dilute 10 fold by adding 9μl 1xTAE into 1μl Duo4 plasmid = 55.95ng/μl. Take 1.5μl.

1. Conduct electroporation of P.putida with Duo2,3,4 at 2500V, 25μF and 200Ω according to protocol.
2. Transfer bacteria to prechilled cuvette, cap cuvette on the bench.
3. Immediately after electroporation add 1ml of LB broth and pipette quickly up and down.
4. Transfer solution into new 1.5ml tube and incubate at 30°C for 1 hour.
5. Prepared 6 agar plates

• P.putida + duo2 (LB agar + kanamycine)
• P.putida + duo3 (LB agar + gentamicin)
• P.putida + duo4 (LB agar + kanamycine)
• P.putida + duo2 (LB agar + gentamicin) negative control
• P.putida + duo3 (LB agar + kanamycine) negative control
• P.putida + duo4 (LB agar + gentamicin) negative control
• For kanamycine plates add 25μl of kanamycine solution into 25mL LB agar.
• For gntamicin plates add 125μl of gentamicin solution into 25mL LB agar

Spread 100μl of transformed putida in the plates (spread plate).

Incubate plates overnight at 30°C.

3. Prepared LB agar.

4. Inoculated P.aeruginosa on LB agar plate and LB broth.

Week 4

Day 1 - 20.09.2021

DNA extraction of P.aeruginosa

1. Turn on the UV light for 30 minutes.
2. Measure OD pf LB broth with P.aeruginosa: OD = 0.5
3. Take 2ml of cell suspension and centrifuge at 4700 rpm for 30 minutes. (2 falcon tubes)
4. Discard supernatant and resuspend the pellet with 1ml of TE buffer (10mM Tris-HCl, 0.1mM EDTA, pH 8.0) and centrifuge tube at 4700 rpm for 20 minutes.
5. Supernatant was discarded, leaving 300μl of the solution. And was resuspended with 1ml of Lysis solution (Bio-rad). Both tubes were incubated for 1 hour at 37°C.
6. Add 1 volume of phenol/chlorophorm/isoamyl (25:24:1 v/v) about 1.3mL into the tube.
7. Tubes allowed to stay or 5 minutes before centrifuge.
8. Centrifuge tubes at 4700 rpm for 33minutes.
9. The upper aqueous solution was carefuly discarded into the new tube. (2 tubes overall)
10. Into each tube 0.1 volume of sodium acetate and 1 volume of absolute ethanol were added:

For 1st tube: 80μl of sodium acetate and 0.8ml of absolute ethanol

For 2nd tube: 90μl of sodium acetate and 0.9ml absolute ethanol

1. Precipitate DNA by putting tubes into -20°C friedge overnight.
2. Prepare 300mL of LB agar by adding 11.1g of LB agar into 300mL water then heat and autoclave.
3. Prepare 300mL of LB broth by adding 6g of LB broth into 300mL water then heat and autoclave.
4. Prepare PCR result samples for gel electrophoesis: 10μl of sample +5μl of loading dye + 5μl of 1xTAE

1. Prepare agarose gel by adding 0.3g agarose into 30mL 1xTAE.
2. Microwave gel until agarose will be dissolved.
3. Run gel electrophoresis at 100V for 40 minutes.
4. Wash glassware and clean bench.

Day 2 - 21.09.2021

DNA extraction of P.aeruginosa

1. Centrifuge precipitated DNA at 10000 rpm for 15 minutes.
2. Add 200μl of 70% ethanol.
3. Centrifuge at 10000 rpm for 15 minutes.
4. Discad supernatant and repeat washing steps with ethanol 3 times.
5. After final centrifugation discard ethanol solution, pellet were left to airdry.
6. Add 100μl of ultrapure water.
7. Observe concentration by nanodrop:

1st tube = 124.1 ng/μl

2nd tube = 33.94ng/μl

Electroporation of P.putida

1. Measured OD of P.putida: OD = 0.91.
2. Added 4mL of P.putida into 15ml centrifuge tube. (Overall 3tubes)
3. Centrifuge at 4700 rpm for 10 minutes at 4°C.
4. Discard the supernatant.
5. Resuspend pellet in 1ml of ice-cold di water.
6. Centrifuge at 4700 rpm for 10 minutes at 4°C.
7. Repeat washing 2 times more.
8. Centrifuge at 10000 rpm for 5 minutes at 4°C.
9. Remove supernatant, resuspend pellet in 50μl of ice-cold di water.
10. Measure concentration of plasimds.

Duo2 - 738.5ng/μl

Duo3 - 693.2ng/μl

Duo4 - 664.3 ng/μ

We need approximately 75ng of plasmids, so we proceed dilution.

Dilute Duo2 by adding 9μl of 1xTAE into 1μl plasmid, means 73.8ng in 1μl.

Dilute Duo3 by adding 9μl of 1xTAE into 1μl plasmid, means 69.3ng in 1μl

Dilute Duo4 by adding 9μl of 1xTAE into 1μl plasmid, means 66.4ng in 1μl

1. 1μl of each plasmid was added to P.putida and mixed.
2. Transfer bacteria to prechilled cuvette, cap cuvette on the bench.
3. Turn electroporator: 2500V, 25μF and 200Ω 6ms
4. Immediately after electroporation add 1ml of LB broth and pipette quickly up and down.
5. Transfer solution into new 1.5ml tube and incubate at 30°C for 1 hour.
6. Spread 100μl of transformed P.putida into LB agar plate (spread plate).
7. 3 LB agar plates with P.putida Duo2, Duo3, Duo4 (only positive control) were prepared. (Duo2,4 with kanamycine, Duo3 with gentamicin)f
8. inoculated P.putida and P.aeruginosa into new LB broth.

Day 3 - 22.09.2021

1. Buffers from Expand High Fidelity PCR System (Roche) were thowed and incubated at 37°C to allow buffers be dissolved.
2. Prepare two mixes MIX1 (sample) and MIX2 (PCR buffer).
3. Mix 1 content (prepared for 5 PCR reactions)

7.5μl Forward Primer + 7.5μl Reverse Primer + 5μl DNTP mix + 7.5μl template DNA + 97.5μl nuclease free water (Total 125μl)

1. Mix 2 content (Prepared for 5 PCR reactions)

25μl Expand high fidelity buffer + 3.75μl Enzyme Mix + 96.25μl (Total 125μl)

1st tube (60.5°C): 25μl of Mix1 + 25μl of Mix2

2nd tube (66.5°C): 25μl of Mix1 + 25μl of Mix2

3rd tube (72°C): 25μl of Mix1 + 25μl of Mix2

Gel electrophoresis:

1. Prepare agarose gel by adding 0.3g into 30mL 1xTAE.
2. Microwave gel until agaroe will dissolve.
3. Prepare samples for gel electrophoresis: 10μl of sample + 5μl loading dye + 5μl 1xTAE

Run gel electrophoresis at 120V for 29 minutes.

Day 4 - 23.09.2021

1. Prepare agarose gel by adding 0.3g of agarose into 30mL 1xTAE.
2. Microwave until agarose will dissolve and add 3μl stain. *too much stain were used, so gel appeared red
3. Prepare samples for gel electrophoresis: 10μl of sample + 5μl loading dye + 5μl 1xTAE

Run gel electrophoresis at 120V for 29 minutes..

Day 5 - 24.09.2021

1. Turned on UV light for 30 mins.
2. Prepared 2 plates by pouring 20 microliters LB agar + kanamycin and 2 plates with LB agar + gentamycin.
3. Measured the OD of P.putida - 0.61.
4. Prepared 2 tubes with 5 ml of P. putida.
5. Centrifuged tubes 4700 rpm, 4°C, 10 min.
6. Discarded the supernatant.
7. Resuspended the pellet in 1 ml of sterile, ice-cold ddH2O and transfer inro a dilluted 1.5 ml microcentrifuge tube.
8. Centrifuged at 4700 rpm, 4°C, 10 min.
9. Discarded the supernatant.
10. Resuspended the pellet in 1 ml of ice-cold ddH2O.
11. Repeated steps 8-10 two more times for a total of three washes.
12. Spined final time, at 4700 rpm at 4°C, for 10 min, discard the supernatant, resuspend the pellet in 50 microliters of ice-cold ddH2O, and put the cells on ice.
13. Added 0.37 microliters (500 ng) of Gauttam plasmid to one tube, and 0.86 microliters (500 ng) of extracted Duo 2 to another tube.
14. Transfered the bacteria to a chilled electroporation cuvette.
15. Closed with the cap, and put cuvettes back on ice.
16. Turned on the electroporator and set it to 2.5 kV, 25 microF, 200 Ohm.
17. Wiped the cuvette with Kimwipe to remove any residual of ice or water and place cuvette into electroproparation chamber
18. The time for electroporation 5 sec.
19. Immeadiately, added 1 ml of LB broth into the cuvette and piped up and down gently.
20. Transferred the mixture into 1.5 ml microcentrifuge tubes and placed then to incubate at 37°C for 1 hour.
21. In the same time, agar gel was prepared by using 3g of agar to 30 ml of TAE.
22. The 20 microliters of samples were loaded.
23. The gel was runned at 100 V, 20 minutes.

Day 6 - 25.09.2021

1. After dilution, OD of P. putida was 1.137

Creation of competent P. putida.

1. Transfer 5 ml of LB + P.putida into tube
2. Centrifuge at 4700 rpm, 4°C, 10 min.
3. Discard the supernatant.
4. Add 5 ml of CaCl2 0.1M, resuspend.
5. Put on ice for 30 min.
6. Centrifuge at 4700 rpm, 4°C, 10 min.
7. Discard the supernatant.
8. Add 5 ml of CaCl2 0.1M, 20% glycerl solution, resuspend, adn leave for approximately 10 minutes.
9. Centrifuge at 4700 rpm, 4°C, 7-10 min.
10. Remove supernatant.
11. Wash with cold DI water, add 5 ml of DI water, resuspend, centrifuge at 4700 rpm, 4°C, 10 min.
12. Remove supernatant.
13. Resuspend pellet in 50 microliters of cold DI water.

Electroporation

1. Add 500 ng of Duo2 (0.86 microliters of Duo2 extracted)
2. Transfer bacteria inro chilled electroporator cuvette. Tap cuvette on bench.
3. Let electroporator: 2500 V, 25 microF, 200 Ohm

1. Put cuvette into electroporator, start and remove after 5 seconds.
2. Immediately, add 1 ml of LB broth, pipette avoiding bubbles.
3. Transfer P.putida + plasmid solution to fresh 1.5 ml tube.
4. Incubate at 30°C for 1 hour.
5. Prepare 2 LB agar + kanamycin (25 ml agar + 25 microliters kanamycin)
6. Pour 100 microliters of P.putida + Duo2 onto plates (streak plates)

Day 6 - 25.09.2021

1. After dilution, OD of P. putida was 1.137

Creation of competent P. putida.

1. Transfer 5 ml of LB + P.putida into tube
2. Centrifuge at 4700 rpm, 4°C, 10 min.
3. Discard the supernatant.
4. Add 5 ml of CaCl2 0.1M, resuspend.
5. Put on ice for 30 min.
6. Centrifuge at 4700 rpm, 4°C, 10 min.
7. Discard the supernatant.
8. Add 5 ml of CaCl2 0.1M, 20% glycerl solution, resuspend, adn leave for approximately 10 minutes.
9. Centrifuge at 4700 rpm, 4°C, 7-10 min.
10. Remove supernatant.
11. Wash with cold DI water, add 5 ml of DI water, resuspend, centrifuge at 4700 rpm, 4°C, 10 min.
12. Remove supernatant.
13. Resuspend pellet in 50 microliters of cold DI water.

Electroporation

1. Add 500 ng of Duo2 (0.86 microliters of Duo2 extracted)
2. Transfer bacteria inro chilled electroporator cuvette. Tap cuvette on bench.
3. Let electroporator: 2500 V, 25 microF, 200 Ohm
4. Put cuvette into electroporator, start and remove after 5 seconds.
5. Immediately, add 1 ml of LB broth, pipette avoiding bubbles.
6. Transfer P.putida + plasmid solution to fresh 1.5 ml tube.
7. Incubate at 30°C for 1 hour.
8. Prepare 2 LB agar + kanamycin (25 ml agar + 25 microliters kanamycin)
9. Prepare LB agar + gentamicin plate.
10. Pour 100 microliters of P.putida + Duo2 onto plates (spread plates)
11. Incubate overnight at 30°C.
12. Prepare 2 LB broth tubes. Inoculate P.aeruginosa and P.putida into the broth.

Week 5

Day 1 - 27.09.2021

1. Turn on UV on 30 minutes.
2. Prepare LB agar plate 20mL (125μl gentamicin)
3. Inoculate P.putida duo2 (25.09.21) 100μl spread plate.

1. Measure OD P.aeruginosa = 0.224
2. Incubate P.aeruginosa LB broth for overnight.

Day 2 - 28.09.2021

1. Plates (25.09.21) observed and palced into the +4°C friedge.
2. Measure OD P.aeruginosa = 0.802
3. Turned on UV light for 30 minutes.
4. Poured 5mL of LB broth with P.aeruginosa into 15mL tube.
5. Centrifuge at 4700 rpm for 10 minutes at 4°C.
6. Discard the supernatant
7. Resuspend with 1mL of ice-cold di water, and transfer into 2mL centrifuge tube.
8. Centrifuge at 7000 rpm for 5 minutes at 4°C.
9. Discard supernatant.
10. Resuspend in 1mL ice-cold di water,
11. Repeated the steps 8-10 two times.
12. Centrifuge at 7000 rpm for 5 minutes at 4°C, discard supernatant and add 50μl di-water.

October

Week 1

Day 1 - 01.10.2021

1. Run PCR with Q5 for rhlAB

Day 2 - 02.10.2021

1. Run PCR following coditions from 01.10.21
2. Inoculate P.aeruginosa (25.09.21) into two 25mL LB broth tubes and 5mL LB broth tube.
3. Inoculated P.aeruginosa from tube 25.09.21 into 2 plates (spread plate).
4. Plates were incubated for overnight at 37°C.

Day 3 - 03.10.2021

1. LB agar 200mL (7.4g LB agar into 200mL water), LB broth 200mL (4g LB broth into 200mL water) and 1mM MgSO4 solution were prepared and autoclaved.
2. Gel electrophoresis:

a. Agarose gel was prepared by mixing 0.3g of agarose in 30mL 1xTAE.

b. Prepare samples for gel electrophoresis by adding 10μl of sample, 5μl 1xTAE and 5μl loading dye.

Run gel electrophoresis at 100V for 20 minutes.

1. P.aeruginosa electroporation.

1. 4mL of grown overnight P.aeruginosa culture were centrifuged at 4700 rpm for 5 minutes at 23°C. (2 tubes)
2. discard supernatant and resuspend the pellet with 4mL di water and centrifuge at same condition once more.
3. The cell pellet was resuspended with 1mL of 1mM MgSO4 (room temperature).
4. Centrifuge again at the same speed and discard supernatant.
5. Resuspend the pellet with 1mL of 1mM MgSO4 (room temperature).
6. Centrifuge again at the same speed and discard supernatant.
7. Resuspend the pellet with 50μl of 1mM MgSO4 (room temperature).
8. 5-10μg of plasmid DNA was mixed with 50μl of cell mixture.
9. Measured concentration of extracted Duo2 plasmid by nanodrop:

Duo2 = 693ng/μl, so we take 5μg, means 7.2μl of Duo2 plasmids.

1. Electroporation conditions: 2200V, 25μF, 600Ω, 5ms.
2. Immediately add 1mL of LB broth and resuspend.
3. Incubate at room temperature for 5 minutes.
4. Cells were transfered into falcon tube and shaked at 37°C for three hours.
5. Transformed cells are pelleted and 700μl of supernatant discarded.
6. Cells resuspended in remaining mediim and plateed to plates with kanamycin (25mL LB agar + 25μl kanamycin).
7. Plates incubated at 37°C for 2 days.

Week 2

Day 1 - 04.10.2021

1. Turn on UV on 30 minutes.
2. Prepare PCR samples:

1. Run PCR at following conditions:

1. Inoculated E.coli+Duo2 into 30mL LB broth + 30μl kanamycin.
2. Inoculate single colony of E.coli+Duo2 into 2mL LB broth + 2μl kanamycin
3. Inoculate P.aeruginosa into LB broth and incubate at 37°C.
4. Clean bench, wash all dishes and prepare for autoclave.

Day 2 - 05.10.2021

• Electroporation of P.aeruginosa

1. OD of overnight P.aeruginosa is 1.127 (540nm)
2. Prepared electrocompetent P.aeruginosa following protocol for E.coli:
3. Poured 5mL of LB broth with P.aeruginosa into 15mL tube.
4. Centrifuge at 4700 rpm for 10 minutes at 4°C.
5. Discard the supernatant
6. Resuspend with 1mL of ice-cold di water, and transfer into 2mL centrifuge tube.
7. Centrifuge at 7000 rpm for 5 minutes at 4°C.
8. Discard supernatant.
9. Resuspend in 1mL ice-cold di water,
10. Repeated the steps 8-10 two times.
11. Centrifuge at 7000 rpm for 5 minutes at 4°C, discard supernatant and add 50μl di-water.
12. Added 2μl of Duo2 (693ng/μl) and 50μl electrocompetent P.aeruginosa into electroporation cuvette.
13. Proceed electroporation at 1600V, 25μF, 100Ω for 5 sec. Add 1mL of LB broth immediatly.
14. Transfer solution into 2mL LB and incubate it for 2 hours at 37°C.
15. Inoculate on LB agar + kanamycin
16. Preparation of electrocompetent P.aeruginosa (25.09.21) by washing with CaCl2
17. Transfer 5 ml of LB + P.putida into tube
18. Centrifuge at 4700 rpm, 4°C, 10 min.
19. Discard the supernatant.
20. Add 5 ml of CaCl2 0.1M, resuspend.
21. Put on ice for 30 min.
22. Centrifuge at 4700 rpm, 4°C, 10 min.
23. Discard the supernatant.
24. Add 5 ml of CaCl2 0.1M, 20% glycerl solution, resuspend, adn leave for approximately 10 minutes.
25. Centrifuge at 4700 rpm, 4°C, 7-10 min.
26. Remove supernatant.
27. Wash with cold DI water, add 5 ml of DI water, resuspend, centrifuge at 4700 rpm, 4°C, 10 min.
28. Remove supernatant.
29. Resuspend pellet in 50 microliters of cold DI water.

PCR:

1. 10mM solutions each primer was prepared.
2. 3 tubes PCR were prepared according to protocol Q5 with 5μl of genomic DNA, 1μl of DNTP mix and with primers 1+4/5+6/9+10.

OD of E.coli with Duo2: OD=0.560

• Extraction of Duo2 plasmid from E.coli:

1. Take 1mL of culture tubes. (2 tubes)
2. Centrifuge at 13500 rpm at 4°C for 30 seconds.
3. Discard supernatant, leave pellet to dry.
4. Resuspend pellet in 100μl of ice-cold ALS I, mix by pipetting.
5. Add 200μl of ALS II (room temperature). Mix by inverting 5 times. Store on ice for 5 minutes.
6. Add 150μl of ALS III (ice-cold). Mix gently by inverting tube 5 times. Store tube on ice for 5 minutes.
7. Centrifuge at 13500 rpm at 4°C for 5 minutes.
8. Trnsfer 450μl of supernatant into new fresh tubes.
9. Precipitate DNA from supernatant by adding 2 volumes (900μl) of 70% ethanol. Gently mix by inverting . Incubate at room temperature for 2 minutes.
10. Coolect precipitated DNA by centrifuation at 13500 rpm, 4°C for 5 minutes.
11. Remove supernatant, dry tubes.
12. Add 1ml of 70% ethanol, mix by inverting.
13. Centrifuge at 13500 rpm at 4°C for 2 minutes.
14. We got white pellet (plasmids). Supernatant was removed. Tubes were left to evaporate ethanol (10-15 minutes).
15. Dissolve plasmids in 50μl of DI water.
16. Measure concentration of Duo2 plasmids by nanodrop:
17. tube1 - 637ng/μl
18. tube2 - 606ng/μl

Day 3 - 06.10.2021

1. Prepare samples for gel electrophoresis: 10μl sample + 5μl loading dye + 5μl 1xTAE.
2. Gel loading:

Run gel electrophoresis at 90V for 1 hour.

2. Stained 1 part of the gel (5μl stain+100mL 1xTAE).

Gel elution following the protocol of Purelink Quick Gel Extraction Kit:

1. Cut band (take minimal amount of the gel).
2. Melt them in Thermomixer compact at 65°C
3. Weight gel: Stained gel ~ 0.18g ; Without stain = 0.27g
4. Add Gel Solubilization Buffer (L3) to the gel in a ratio 3:1 (We added 0.54ml and 0.81ml respectively)
5. Place the tube in a thermomixer for 10 min until gel will dissolve. Each 3 min gently mix by inverting (50°C)
6. Add 1 volume of isopropanol into the gel.
7. Incubate the tube for additional 5 min
8. Purify DNA using a centrifuge
9. Pipet the dissolved gel into the column in wash tube. One column per 400 μg capacity is 850μl, so that we took approximately 700 μl
10. Centrifuge the flow through and place column into the wash tube
11. Add 500μl Wash buffer (W1)
12. Centrifuge at 12000 rpm for 1 min, discard the flow through
13. Centrifuge one more time at 14000 rpm for 2 mins, discard the flow through
14. Place column in a new wash tube (recovery tube). Add 50 μl of Elution Buffer (E5) into the centre of the column. Incubate 1 min at RT
15. Centrifuge the tube at 12 000 rpm for 1 min.

Store at +4°C solution in reagent tube.

Day 4 - 07.10.2021

Table 107. Gel Electrophoresis track order

One half of the gel was left in a stain for overnight.

1. Measure concentration of nadE:

nadE with EtBr (eluted) = 21.41 ng/μl

nadE without (eluted) = 17.37ng/μl

Restriction Digestion (Sac I, Sal I)

keep reagents on ice; add restriction enzymes last

For plasmid Duo2

DNA 1μg = 1.57μl / C(Duo2)=637ng/μl

10x Cutsmart Buffer - 5μl (1x)

Sac I - 1μl

Sal I - 1μl

nuclease free water - 41.43μl (total 50μl)

37°C incubation for 15 minutes

65°C heat inactivation for 20 minutes

for nadE

DNA 200ng = 11.8μl / C(nadE)=17.37ng/μl

10x Cutsmart Buffer - 1.5μl (1x)

Sac I - 0.2μl

Sal I - 0.2μl

nuclease free water - 1.3μl (total 15μl)

37°C incubation for 15 minutes

65°C heat inactivation for 20 minutes

Inoculation of only colony with P.aeruginosa+pRGPDuo2 (streak plate)

negative control - P.aeruginosa in LB agar + kanamycin

Day 5 - 08.10.2021

1. Prepared 2 tubes for digestion Duo2:

1st tube: Duo2 plasmid - 2μl (637ng/μl)

CutSmart - 5μl

Sal I - 1μl

Sac I - 1 μl

nuclease free water - 41μl

2nd tube: Duo2 plasmid diluted - 2μl (70ng/μl)

CutSmart - 5μl

Sal I - 1μl

Sac I - 1 μl

nuclease free water - 41μl

1. Prepared 1 tube for digestion of nadE gene:

nadE - 19.8μl

CutSmart - 1.5μl

Sal I - 0.2μl

Sac I - 0.2μl

nuclease free water - 1.3μl

1. Tubes incubated fro 1 hour at 37°C.
2. heated at 65°C for 20 minutes in order to inactivate.
3. Prepared agarose gel solution: 0.3 of agarose were added into 30mL 1xTAE. Microwaved in order to dissolve and 3μl of GelRed stain have been added.
4. DNA (sample 2) was observed by nanodrop: resulted in 25-33ng/μl. Average concentration = 29ng/μl.

Gel electrophoresis at 90V for 30 minutes.

Prepared 6 PCR samples:

1. old rhlBA (25μl)
2. new rhlBA (1-4) (25μl)
3. nadE (5-6) (25μl)
4. rhlA (3-4) (25μl)
5. 5 rhlB (1-2) (25μl)
6. nadE (9-10) (50μl)

rhlBA (1-4) should be placed at 56°C annealing temperature.

rhlA (3-4) should be placed at 58°C annealing temperature.

nadE (9-10) (50μl)should be placed at 72°C annealing temperature.

Performed elution of double digested Duo2:

1. Cut band (take minimal amount of the gel).
2. Melt them in Thermomixer compact at 50°C
3. Weight gel~ 0.17g
4. Add Gel Solubilization Buffer (L3) to the gel in a ratio 3:1
5. Place the tube in a thermomixer for 10 min until gel will dissolve. Each 3 min gently mix by inverting (50°C)
6. Add 1 volume of isopropanol into the gel.
7. Incubate the tube for additional 5 min
8. Purify DNA using a centrifuge
9. Pipet the dissolved gel into the column in wash tube. One column per 400 μg capacity is 850μl, so that we took approximately 700 μl
10. Centrifuge the flow through and place column into the wash tube
11. Add 500μl Wash buffer (W1)
12. Centrifuge at 12000 rpm for 1 min, discard the flow through
13. Centrifuge one more time at 14000 rpm for 2 mins, discard the flow through
14. Place column in a new wash tube (recovery tube). Add 50 μl of Elution Buffer (E5) into the centre of the column. Incubate 1 min at RT
15. Centrifuge the tube at 12 000 rpm for 1 min.

Store at -20°C for long term usage

Ligation:

plasmid Duo2 - 2μl - 36.12ng

nadE - 26.85ng - 2.3μl of diluted nadE

T4 DNA ligase buffer - 2μl

T4 DNA ligase - 1μl

Nuclease free water - 13.8μl (Total 20μl)

1. Resuspend gently up and down, Incubated at room temperature for 10 minutes.
2. Incubate at 4°C overnight.

Day 6 - 09.10.2021

1. Tube with ligation l mix was incubated at 65°C for inactivation.
2. 5μl of the mixture was added to 50μl competent P.aeruginosa and electroporated at 1600μl for 5 seconds.
3. immideately 1mL of LB broth solution was added after electroporation.
4. 3ml of transformed P.aeruginosa solution left in incubator for 2 hours at 37°C.
5. 100μl of transformed P.aeruginosa were plated on 3 plates of LB agar + kanamycin.
6. negative control: LB agar without kanamycin was used to grow P.aeruginosa from tube (2.10.21)
7. The plates were left for overnight incubation at 37°C.

Ligation reaction quantity calculation:

Quanatity of insert = (size of insert/size of plasmid)*quantity of DNA plasmid*molar ratios

Quantity of insert = (842/7928)*2(18.06)*7=26.85

nadE concentration 2353, dilution 100x, so that concentration become 23.53

.We take 1.2μl of nadE for ligation mixture.

Gel electrophoresis:

1. Prepare samples for gel electrophoresis:

We took 15μl of sample or DNA ladder + 5μl loading dye for all samples, but for extracted Duo2 and ligated nadE+Duo2 we take 5μl sample + 5μl loading dye + 10μl 1xTAE.

Run Gel electrophoresis at 80V for 1 hour.

Day 7 - 10.10.2021

Fresh colony culturing for plasmid extraction:

1. One colony of P.aeruginosa was taken from plates LB agar + kanamycin (9.10.21) Duo2 + nadE (from 3 plates) and from negative control plate LB agar + kanamycin (9.10.21) and were inoculated in 1ml LB broth + 1μl kanamycin solution (overall 4 tubes).
2. 4 tubes were left for overnight incubation at 37°C.
3. Gel elution following protocol:

Cut bands (take minimal amount of the gel).

1. Melt them in Thermomixer compact at 50°C
2. Weight gel:

rhlA = 0.14g

rhlB = 0.12g

Duo2 = 0.12g

nadE = 0.16g

1. Add Gel Solubilization Buffer (L3) to the gel in a ratio 3:1
2. Place the tube in a thermomixer for 10 min until gel will dissolve. Each 3 min gently mix by inverting (50°C)
3. Add 1 volume of isopropanol into the gel.
4. Incubate the tube for additional 5 min
5. Purify DNA using a centrifuge
6. Pipet the dissolved gel into the column in wash tube. One column per 400 μg capacity is 850μl, so that we took approximately 700 μl
7. Centrifuge the flow through and place column into the wash tube
8. Add 500μl Wash buffer (W1)
9. Centrifuge at 12000 rpm for 1 min, discard the flow through
10. Centrifuge one more time at 14000 rpm for 2 mins, discard the flow through
11. Place column in a new wash tube (recovery tube). Add 50 μl of Elution Buffer (E5) into the centre of the column. Incubate 1 min at RT
12. Centrifuge the tube at 12 000 rpm for 1 min.

Use nanodrop to calculate concentration of eluted DNA samples:

rhlA = 20.70ng/μl

rhlB 41.68ng/μl

nadE 36.93ng/μl

Duo2 = 16.26ng/μl

• Inoculation of P.putida into LB broth and LB agar
• Restriction Digestion: (Total 15μl)

for nadE

DNA 150ng = 4.06μl

10x CutSmart Buffer = 1.5μl

Nhe I = 0.6μl

nuclease free water = 9.14μl

for rhlA

DNA 150ng = 7.25μl

10x CutSmart Buffer = 1.5μl

Sal I = 0.3μl

Sac I = 0.3μl

nuclease free water = 5.65μl

for rhlB

DNA 150ng =3.60μl

10x CutSmart Buffer = 1.5μl

Sal I = 0.3μl

Sac I = 0.3μl

nuclease free water =9.3μl

for Duo2 (Total 50μl)

DNA 140ng =2μl (70ng/μl)

10x CutSmart Buffer = 5μl

Sal I = 1μl

Sac I = 1μl

nuclease free water = 41μl

Incubation for 2.5 hours at 37°C.

Heat inactivation at 65°C for 20 minutes.

Gel electrophoresis:

Gel preparation by adding 0.3g og agarose into 30mL 1xTAE. Dissolve solution by microwaving and then add 3μl of Gel Red.

Samples preparation:

Run gel electrophoresis at 90V for 50 minutes.

Gel elution:

Cut bands (take minimal amount of the gel).

1. Melt them in Thermomixer compact at 50°C
2. Weight gel:

rhlA = 0.08g

rhlB = 0.09g

nadE = 0.11g

1. Add Gel Solubilization Buffer (L3) to the gel in a ratio 3:1
2. Place the tube in a thermomixer for 10 min until gel will dissolve. Each 3 min gently mix by inverting (50°C)
3. Add 1 volume of isopropanol into the gel.
4. Incubate the tube for additional 5 min
5. Purify DNA using a centrifuge
6. Pipet the dissolved gel into the column in wash tube. One column per 400 μg capacity is 850μl, so that we took approximately 700 μl
7. Centrifuge the flow through and place column into the wash tube
8. Add 500μl Wash buffer (W1)
9. Centrifuge at 12000 rpm for 1 min, discard the flow through
10. Centrifuge one more time at 14000 rpm for 2 mins, discard the flow through
11. Place column in a new wash tube (recovery tube). Add 50 μl of Elution Buffer (E5) into the centre of the column. Incubate 1 min at RT
12. Centrifuge the tube at 12 000 rpm for 1 min.

Ligation:

T4 DNA ligase buffer (10x) - 2μl

Vector dna - 2.8μl

Insert DNA:

rhlA - 0.5μl

rhlB - 1.8μl

T4 DNA ligase - 1μl

nuclease free water:

for rhlA - 13.7μl

for rhlB - 12.4μl

incubate overnight at 16°C.

50xTAE preparation:

1. Prepare 100ml EDTA pH 8.0 solution: In 80ml dd water add 14.61g of EDTA, place in magnetic stirrer, add NaOH pellets one by one until all EDTA will dissolve.
2. In total we got 125ml of 0.4M EDTA, just put 12.5ml 0.4M EDTA instead of 10ml 0.5M EDTA.
3. Make 50x TAE by adding 24.2g Tris base into 60ml dd water, mix Tris with stir bar until it will dissolve.
4. Add to the solution 5.71ml Acetic acid 99.7% and 12.5ml 0.4M EDTA. Bring final volume to 100ml with dd water.

measured concentration of genes (DNA) by nanodrop:

rhlA - 91.50ng/μl

rhlB - 31.98 ng/μl

nadE - 16.32ng/μl

Week 3

Day 1 - 11.10.2021

1. Heat inactivation of rhlA+Duo2 and rhlB+Duo2 for 20 minutes at 65°C.
2. OD of P.putida (10.10.21) = 0.268 at 578nm
3. Extraction of plasmids from P.aeruginosa (9.10.21) by Aigerim's protocol.
4. 1 mL of culture tubes (4 tubes) were centrifuged at 7000 rpm for 1 minute at 4°C.
5. The supernatant was discarded and pellet was left to dry.
6. Prepared 10 mL of ALS II by mixing 1 mL of 3N NaOH, 1 mL of 10% SDS and ddH2O.
7. Resuspended the pellet in 100 uL of ice cold ALS I (autoclaved) and mixed by pipetting, makin sure the cells dispersed fully.
8. Added 200 uL of ALS II and mixed by inverting the tube 5 times, making sure the content of the tube makes contact with ALS II. Stored the tube on ice for 5 minutes.
9. Added 150 uL of ALS III (autoclaved) and mixed gently by inverting the tube 5 times. Stored the tube on ice for 5 minutes.
10. Centrifuged at 13500 rpm for 5 minutes at 4°C.
11. Transferred the supernatant (450 uL) to the new labeled tube.
12. Precipitated DNA from supernatant by adding 2 volumes (900 uL) of 70% ethanol at room temperature. Gently mixed by inverting and incubated 2 minutes at room temperature.
13. Centrifuged at 13500 rpm for 5 minutes at 4°C. Discarded the supernatant and dried the pellet.
14. Added 1 mL of 70% ethanol and mixed by inverting.
15. Centrifuged at 13500 rpm for 2 minutes at 4°C. Removed the supernatant and left the tube to dry for 10-15 minutes until ethanol will evaporate.
16. Dissolved pellet in 50 μl H2O and checked OD 1 uL of each solution by nanodrop.

negative control - 71.82ng/μl

1st sample - 464.2ng/μl

2nd sample - 371.6ng/μl

3rd sample - 333.7ng/μl

Gel electrophoresis:

Prepare gel by adding 1g of agarose into 100ml 1xTAE, dissolve agarose by heating and then add 10μl of GelRed.

Prepare samples for gel electrophoresis: (15μl sample + 5μl loading dye)

Created competent P.putida with CaCl2 (2tubes):

1. Transfer 5 ml of LB broth + P.putida into tube
2. Centrifuge at 4700 rpm, 4°C, 10 min.
3. Discard the supernatant.
4. Add 5 ml of CaCl2 0.1M, resuspend.
5. Put on ice for 30 min.
6. Centrifuge at 4700 rpm, 4°C, 10 min.
7. Discard the supernatant.
8. Add 5 ml of CaCl2 0.1M, 20% glycerl solution, resuspend, adn leave for approximately 10 minutes.
9. Centrifuge at 4700 rpm, 4°C, 7-10 min.
10. Remove supernatant.
11. Wash with cold DI water, add 5 ml of DI water, resuspend, centrifuge at 4700 rpm, 4°C, 10 min.
12. Remove supernatant.
13. Resuspend pellet in 50 microliters of cold DI water.

Inoculated P.aeruginosa into new LB broth.

Gel elution of P.aeruginosa plasmid samples:

Cut bands (Take minimal amount of gel)

1. Melt them in Thermomixer compact at 50°C
2. Weight gel:

1st sample = 0.17g

2nd sample = 0.16g

3rd sample = 0.13g

Unknown band at 800-900bp = 0.1g

1. Add Gel Solubilization Buffer (L3) to the gel in a ratio 3:1
2. Place the tube in a thermomixer for 10 min until gel will dissolve. Each 3 min gently mix by inverting (50°C)
3. Add 1 volume of isopropanol into the gel.
4. Incubate the tube for additional 5 min
5. Purify DNA using a centrifuge
6. Pipet the dissolved gel into the column in wash tube. One column per 400 μg capacity is 850μl, so that we took approximately 700 μl
7. Centrifuge the flow through and place column into the wash tube
8. Add 500μl Wash buffer (W1)
9. Centrifuge at 12000 rpm for 1 min, discard the flow through
10. Centrifuge one more time at 14000 rpm for 2 mins, discard the flow through
11. Place column in a new wash tube (recovery tube). Add 50 μl of Elution Buffer (E5) into the centre of the column. Incubate 1 min at RT
12. Centrifuge the tube at 12 000 rpm for 1 min.

Prepare 3 PCR samples. (nadE 5-6, rhlB 1-2, rhlA 3-4)

Q5 buffer - 5μl

10mM DNTP mix - 1μl

10mM forward primer - 1.5μl

10mM reverse primer - 1.5μl

Template DNA - 3.5μl

Q5 polymerase - 0.25μl

Q5 enhancer - 5μl

nuclease free water - 7.25μl (Total 25μl)

Day 2 - 12.10.2021

1. Measured OD of P.putida; OD=1.184
2. Prepared electrocompetent P.putida (2tubes).
3. Poured 5mL of LB broth with P.putida into 15mL tube.
4. Centrifuge at 4700 rpm for 10 minutes at 4°C.
5. Discard the supernatant
6. Resuspend with 1mL of ice-cold di water, and transfer into 2mL centrifuge tube.
7. Centrifuge at 7000 rpm for 5 minutes at 4°C.
8. Discard supernatant.
9. Resuspend in 1mL ice-cold di water,
10. Repeated the steps 7-9 two times.
11. Centrifuge at 7000 rpm for 5 minutes at 4°C last time, discard supernatant and add 50μl di-water.

Digestion and ligation of pRGPDuo2 plasmid. Digestion with Nhe I, ligation of rhlA;rhlB.

Gel electrophoresis

1. Prepared agarose gel (1g agarose + 100ml 1xTAE + 10μl GelRed).
2. Prepared samples for gel (15μl sample + 5μl loadig dye).

Run gel electrophoresis at 100V for 50 minutes.

Prepared 6 plates with kanamycin inoculate E.coli to LB agar and broth + 5 plates with LB agar.

Day 3 - 13.10.2021

1. Heat inactivated ligation mix (rhlB + Duo2, rhlA + Duo2)
2. Double digestion of Duo2 and nadE with Bmt I
3. gel elution for 4th, 6th and 8th well.
4. Melt them in Thermomixer compact at 50°C

1. Weight gel: For rhlA ~ 0.32g

For rhlB = 0.34g

For nadE = 0.22g

1. Add Gel Solubilization Buffer (L3) to the gel in a ratio 3:1
2. Place the tube in a thermomixer for 10 min until gel will dissolve. Each 3 min gently mix by inverting
3. Incubate the tube for additional 5 min
4. Purify DNA using a centrifuge
5. Pipet the dissolved gel into the column in wash tube. One column per 400 μg capacity is 850μl, so that we took approximately 700 μl
6. Centrifuge the flow through and place column into the wash tube
7. Add 500μl Wash buffer (W1)
8. Centrifuge at 12000 rpm for 1 min, discard the flow through
9. Centrifuge one more time at 14000 rpm for 2 mins, discard the flow through
10. Place column in a new wash tube (recovery tube). Add 50 μl of Elution Buffer (E5) into the centre of the column. Incubate 1 min at RT
11. Centrifuge the tube at 12 000 rpm for 1 min

5. Transformed P.putida with ligation mix rhlB+Duo2; rhlA + Duo2, left for incubation on plates (LB agar + kanamycin).

6. Prepared gel electrophoresis samples for tomorrow:

15μl DNA ladder + 5μl loading dye

15μl Duo2 Bmt I + 5μl loading dye

15μl Duo2 diluted Bmt I + 5μl loading dye

15μl nadE Bmt I + 5μl loading dye

10μl ligated rhlA + Duo2 + 5μl 1xTAE + 5μl loading dye

10μl ligated rhlB + Dup2 + 5μl 1xTAE + 5μl loading dye

10μl Duo2 stock (607ng) + 5μl 1xTAE + 5μl loading dye

Day 4 - 14.10.2021

1. [Measure concentration of eluted rhlA, rhlB (13.10.21) by nanodrop.

Run gel electrophoresis at 90V for 1 hour

2. Measure concentration of eluted Duo2 + nadE extracted from P.aeruginosa

1st sample - 38.62ng/μl

2nd sample - 14.34ng/μl

3rd sample - 14.41ng/μl

Duo2 + nadE (P.putida) digestion

Bmt I - 2μl

DNA - 2μl (606ng/μl)

10x CutSmart buffer - 5μl

nadE - 26μl (2.49ng/μl)

nuclease free water - 16μl

Duo2 + nadE (P.aeruginosa) digestion

Sac I - 1μl

Sal I - 1μl

DNA - 35μl

10x CutSmart buffer - 5μl

Nuclease free water - 8μl

PCR for nadE (5-6) amplification:

Q5 buffer - 5μl

10mM DNTP mix - 2μl

forward primer 10mM - 1.5μl

reverse primer 10mM - 1.5μl

Template DNA - 4μ

Q5 polymerase - 0.25μl

Q5 enhancer - 5μl

nuclease free water - 5.75μl (2 tubes of 25μl)

• Gel have too little concentration of samples, that is why band is not clear on photo, but we got results.



Day 5 - 15.10.2021

Gel electrophoresis: (15μlsample + 5μl loading dye)

Prepare agarose gel (1g agarose + 100ml 1xTAE + 10μl GelRed)

Table 122. Gel Electrophoresis track order

2nd well	DNA ladder
3rd well	PCR nadE 1
4th well	PCR nadE 2
5th well	Duo2 + nadE digested (P.aeruginosa)
6th well	Duo2 + nadE digested (P.putida)

GRun gel electrophoresis at 90μl for 1 hour.

2. Prepare LB agar (11.1g + 300mL water) and LB broth (6g + 300mL water) and autoclave for an hour.

3. Inoculation of P.aeruginosa, P.aeruginosa with Duo2 and P.aeruginosa with Duo2 + nadE. (They are ready for electrophermentation)

4. Inoculate 2 plates with P.putida with Duo2 + rhlA and P.putida with Duo2 + rhlB.

5. 5μl of the mixture was added to 50μl competent P.aeruginosa and electroporated at 1600V for 5 seconds.

6. Immideately 1mL of LB broth solution was added after electroporation.

6. Prepared fresh LB broth with P.aeruginosa.



Day 6 - 16.10.2021

1. Prepared 2xLB agar 25ml + 25μl kanamycin.
2. Prepare electrocompetent P.aeruginosa, OD=1.0
3. Pour 5mL of diluted E.coli solution into prechilled 15mL centrifuge tube.
1. Centrifuge at 7000 rpm at 4°C for 5 minutes.
2. Discard supernatant.
3. Resuspend pellet in 1.5mL centrifuge tube with 1mL of ice-cold dd H2O.
4. Microcentrifuge at 7000 rpm at 4°C for 5 minutes.
5. Repeat c-d steps 4 times more.
6. Discard supernatant.
7. Resuspend final pellet with 50µL of ice cold dd H2O, put cells on ice.

4. Inoculated P.aeruginosa + pRGPDuo2 + rhlB into a plate with kanamycin.

5. Transformed P.aeruginosa with Duo2 + rhlA (1600V)

6. After electroporation immediately added 1mL LB broth and Incubated for 3 hours.

7. Inoculated transformed P.aeruginosa with Duo2 + rhlA into LB agar plates with kanamycin.

8. Incubate plates at 37°C overnight.





Week 4

Day 1 - 18.10.2021

Table 123. Measured concentrations

Duo2 (1)	5.326ng/μl
Duo2 (2)	144.4ng/μl
Duo2 + rhlA (1)	889.3ng/μl
Duo2 + rhlA (2)	106.8ng/μl
Duo2 + rhlB (1)	62.98ng/μl
Duo2 + rhlB (2)	433.6ng/μl
Duo2 + nadE (1)	29.51ng/μl
Duo2 + nadE (2)	164.2ng/μl

Day 2 - 19.10.2021

Planning gel electrophoresis:

Table 124. Gel Electrophoresis track order

2nd well	DNA ladder
3rd well	Duo2
4th well	Duo2 + nadE
5th well	Duo2 + rhlA
6th well	Duo2 + rhlB
8th well	DNA ladder
9th well	Duo2 double digested
10th well	Duo2 + nadE double digested
11th well	Duo2 + rhlA double digested
12th well	Duo2 + rhlB double digested

2.

Table 125. Double digestions of plasmids

plasmid	Duo2	Duo2 + rhlA	Duo2 + rhlB	Duo2 + nadE
CutSmart buffer	5μl	5μl	5μl	5μl
DNA	1.4μl	1.9μl	0.5μl	1.2μl
nuclease free water	41.6μl	41.1μl	42.5μl	41.8μl
Sac I	1μl	1μl	1μl	1μl
Sal I	1μl	1μl	1μl	1μl

heated 1 hour at 37°C, heat inactivation at 65°C for 20 minutes.

Table 126. Volumes for digestion with Nhe I

Plasmids	Duo2 + rhlA	Duo2 + rhlB
CutSmart buffer	5μl	5μl
DNA	5μl	8μl
nuclease free water	38μl	35μl
Nhe I	2μl	2μl

heated 1 hour at 37°C, heat inactivation at 80°C for 20 minutes.

Day 3 - 20.10.2021

1. Performed Double digestion of Duo2+nadE, Duo2+rhlA and Duo2+rhlB.

Table 127

Plasmids	Duo2	Duo+nadE	Duo2+rhlA	Duo2+rhlB
CutSmart buffer 10X	5μl	5μl	5μl	5μl
DNA	1.1μl	2.4μl	3.83μl	5.01μl
SacI	1μl	1μl	1μl	1μl
SalI	1μl	1μl	1μl	1μl
nuclease free water	41.9μl	40.6μl	39.17μl	37.09μl

1. Heated 1 hour at 37°C, heat inactivation at 65°C for 20 minutes in a thermomixer.
2. Performed PCR of extracted plasmids:

Table 128

DNA	Duo2 + rhlA (2) (0.71 microliters)	Duo2 + rhlB(1) (1.2 microliters)	Duo2 + nadE (1) (2.6 microliters)
Nuclease free water	10.04 microliters	9.55 microliters	8.15 microliters
Q5 Buffer	5 microliters	5 microliters	5 microliters
Q5 enhancer	5 microliters	5 microliters	5 microliters
10 mM DNTP mix	1 microliters	1 microliters	1 microliters
10 mM primer forward	1.5 microliters	1.5 microliters	1.5 microliters
10 mM primer reverse	1.5 microliters	1.5 microliters	1.5 microliters
Q5 Polymerasr	0.25 microliters	0.25 microliters	0.25 microliters

1. Treatment with acetone tubes with rhamnolipid for 10h to precipitate them. To scale the mass of precipitated rhamnolipids.

Table 129

Foil	0.43g
Duo2+NB	0.64g
Duo2+rhlB+NB	0.63g
Duo2+rhlA+NB1	0.62g
Duo2+rhlA+NB2	0.63g
Duo2+NB	0.63g
Duo2+rhlB+NB	0.62g
Plain	0.62g
Duo2+nadE+LB1	0.77g
Duo2+nadE+LB2	0.87g
Duo2+rhlA+LB1	0.83g

Running gel (15ul DNA sample + 5ul loading dye)

Table 130

2nd well	DNA ladder
3rd well	duo2
4th well	duo2+nadE
5th well	duo2+rhlA
6th well	duo2+rhlB
8th well	DNA ladder
9th well	dd duo2+nadE
10th well	dd duo2+rhlB
11th well	dd duo2+rhlB
13th well	pcr nadE
14th well	pcr rhlA
15th well	pcr rhlB

Table 131

Steps	t (°C)	time rhlB	time nadE and rhlA
Initial Denaturation	98	3 min	3 min
Denaturation	98	10 sec	10 sec	35 cycles
Annealing	72	30 sec	30 sec
Elongation	72	93 sec	40 sec
Final elongation	72	5 min	2 min
Hold	4

Day 4 - 21.10.2021

1. Extraction of plasmid by Aigerim's protocol
2. Double digestion of obtained plasmids

Table 132

Plasmids	Duo2	Duo+nadE	Duo2+rhlA	Duo2+rhlB
r1.1 NEB buffer	5μl	5μl	5μl	5μl
DNA	2.1μl	2.69μl	1.84μl	1.22μl
SacI	1μl	1μl	1μl	1μl
SalI	1μl	1μl	1μl	1μl
nuclease free water	40.9μl	40.31μl	41.16μl	41.78μl

Incubate at 37C for 1h. Heat inactivated at 65C for 20 min.

1. PCR

Table 133

Steps	t (°C)	time rhlB	time nadE and rhlA
Initial Denaturation	98	3 min	3 min
Denaturation	98	10 sec	10 sec	35 cycles
Annealing	72	30 sec	30 sec
Elongation	72	93 sec	40 sec
Final elongation	72	5 min	2 min
Hold	4

1. Running 0.8% agarose gel. Loaded 16ul DNA samples + 4ul loading dye. Set for 1h at 90V

Table 134

2nd well	DNA ladder
3rd well	Duo2
4th well	Duo2 digested with SacI (1h digestion)
5th well	Duo2 + nadE (1h digestion)
6th well	Duo2 + rhlA (1h digestion)
7th well	Duo2 + rhlB (1h digestion)
8th well	Duo2 digested with SacI (15 min digestion)
9th well	Duo2 + nadE (15 min digestion)
10th well	Duo2 + rhlA (15 min digestion)
11th well	Duo2 + rhlB (15 min digestion)
13th well	DNA ladder
14th well	PCR nadE
15th well	PCR rhlA
16th well	PCR rhlB
17th well	extracted Duo2+nadE
18th well	extracted Duo2+rhlA
19th well	extracted Duo2+rhlB