Difference between revisions of "UW-Stout/G418 SP23"
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===G418 Genticin=== | ===G418 Genticin=== | ||
− | In the spring of 2023, | + | In the spring of 2023, the Intro Cell and Molecular Biology class at the |
− | [https://uwstout.edu University of Wisconsin -- Stout] | + | [https://uwstout.edu University of Wisconsin -- Stout] |
− | [[UW-Stout/Knockout_Protocol| | + | [[UW-Stout/Knockout_Protocol|knocked out]] 3 [https://yeastmine.yeastgenome.org/yeastmine/bagDetails.do?scope=all&bagName=Uncharacterized_ORFs genes of unknown function] in a |
[https://www.atcc.org/en/Products/All/200897.aspx BY4735 strain] | [https://www.atcc.org/en/Products/All/200897.aspx BY4735 strain] | ||
− | background | + | background. This page is specifically about screening those knockout strains for phenotypes using G418 Genticin. |
'''''Materials:''''' | '''''Materials:''''' |
Revision as of 11:21, 20 April 2023
G418 Genticin
In the spring of 2023, the Intro Cell and Molecular Biology class at the University of Wisconsin -- Stout knocked out 3 genes of unknown function in a BY4735 strain background. This page is specifically about screening those knockout strains for phenotypes using G418 Genticin.
Materials:
- Wild type yeast tube in 2x synthetic complete media at an OD600 of 0.1-0.2
- Tubes with each modified yeast strain
- 100µL of 100mg/mL G418 geneticin (100 mM solution in water)
- 2mL sterile H2O3
- Petri dishes
- Corning COSTAR 96-well clear flat-bottom assay plate
- Molecular Devices SpectraMax Plus 384 Microplate Reader
Procedure:
- Dilute G418 geneticin from 100mg/mL to 100µg/mL, making a total of 1mL (1000µL) of diluted solution 1 (with 100 µL of G418 geneticin and 900 µL of sterile water)
- Make second dilution of G418 geneticin from 100µg/mL to 10µg/mL, making 0.1mL (100µL) of diluted solution 2 (10 µL of first diluted solution + 90 µL of sterile water)
- 50µL of each (Logarithmic concentrations for pilot experiment)
- 100µg/mL concentration (50µL of 100µg/mL G418 geneticin diluted solution 1)
- 50µg/mL concentration (25µL of diluted solution 1 + 25 µL sterile water)
- 25µg/mL concentration (12.5µL of diluted solution 1 + 37.5 µL sterile water)
- 12µg/mL concentration (6µL of diluted solution 1 + 44 µL sterile water)
- 6µg/mL concentration (3µL of diluted solution 1 + 47 µL sterile water)
- 3µg/mL concentration (15µL of diluted solution 2 + 35µL sterile water)
- 2µg/mL concentration (10µL of diluted solution 2 + 40 µL sterile water)
- 1µg/mL concentration (5µL of diluted solution 2 + 45 µL sterile water)
- 0.5µg/mL concentration (2.5µL of diluted solution 2 + 47.5 µL sterile water)
- 0.25µg/mL concentration (1.25µL of diluted solution 2 + 48.75 µL sterile water)
- 0µg/mL concentration (50µL of sterile water) for control
- Pipette entire 50µL amount of each diluted G418 geneticin solution into each of the 10 micro wells to find out which concentration we will use for the final experiment.
- Pipette 50µL of wild type yeast into each of the 10 micro wells in the plate.
- Wait, then measure yeast growth.
- Vortex the yeast culture briefly to resuspend the yeast cells.
- Set up the plate reader as follows:
- Temperature: 30°C
- Mode: Kinetic
- Wavelength: 600 nm
- Interval: 5 minutes
- Total run time: 24 hours
- Shake before read: 30 seconds
- Transfer the assay plate to the reader and read for 24 hours.