Difference between revisions of "UW-Stout/Ethanol FA22"

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(Procedure)
(Materials)
 
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#Turn on the biological safety cabinet
 
#Turn on the biological safety cabinet
 
#Steralize your hands and other materials you need in the biological safety cabinet
 
#Steralize your hands and other materials you need in the biological safety cabinet
#Complete steps 4-19 in the biological safety cabinet
+
#Complete steps 4-20 in the biological safety cabinet
#Make the ethanol solution by add 942µl of water and 58µl of 100% ethanol
+
#Make the ethanol solution in a 1.7 ml PCR tube by adding 942µl of water and 58µl of 100% ethanol
 
#Collect well a clear flat-bottom assay plate
 
#Collect well a clear flat-bottom assay plate
 
#Vortex yeast culture for about 5 seconds
 
#Vortex yeast culture for about 5 seconds
Line 35: Line 35:
  
 
===Data===
 
===Data===
 +
[[Image:Ethanol bs resized.jpg]]
  
 
===Analysis===
 
===Analysis===
 +
Well 1 through 10 had roughly the same growth curve with linear movement from 25 minutes to 103 minutes. It plateaus starting at 103 minutes.
 +
Well 11 had a slow growth and the curve plateaued out just under 0.4 OD600.
 +
Well 12 also had a slow growth and the curve is concave down parabola shape that peaks at 0.37 OD600.
 +
Well 11 and 12 were our outliers because it did not fit into our expected curve. Overall we observed how Ethanol affected yeast. We found a concentration of Ethanol that made the yeast cells stressed out while still growing. We concluded that the appropriate concentration of Ethanol is 1M.
  
 
==Knockout Yeast Ethanol Stress Experiment==
 
==Knockout Yeast Ethanol Stress Experiment==
Line 43: Line 48:
  
 
===Materials===   
 
===Materials===   
 
 
*Corning COSTAR 96-well clear flat-bottom assay plate  
 
*Corning COSTAR 96-well clear flat-bottom assay plate  
 
 
*Wild-type yeast in 2x synthetic complete media at an OD600 of 0.1-0.2  
 
*Wild-type yeast in 2x synthetic complete media at an OD600 of 0.1-0.2  
 
+
*Ethanol concertation of 1M (labeled ETH01M)
*Ethanol concertation of 1M (labeled ETH01M)  
+
*Sterile water
 
+
'''*[[BY-BY4735]] (wild type)'''
*YJL133C-A yeast knockout strand  
+
*[[YJL133C-A]] yeast knockout strand (well 2)
 
+
*[[YER186C]] yeast knockout strand (well 3)
*YER186C yeast knockout strand  
+
*[[YER076C]] yeast knockout strand (well 4)
 
+
*[[YHR033W]] yeast knockout strand (well 5)
*YER076C yeast knockout strand  
+
*[[YCR095C]] yeast knockout strand (well 6)
 
 
*YHR033W yeast knockout strand  
 
 
 
*YCR095C yeast knockout strand
 
  
 
===Procedure===  
 
===Procedure===  
 
+
#Turn on biological safety cabinet
#Make/find your ethanol solution, add 942µl of water and 58µl of neat ethanol  
+
#Steralize your hands and any other materials you need in the biological safety cabinet
 +
#Complete steps 4-13 in the biological safety cabinet
 +
#Make/find your ethanol solution, add 942µl of water and 58µl of neat ethanol in a 1.7ml PCR tube
 
#Collect well a clear flat-bottom assay plate  
 
#Collect well a clear flat-bottom assay plate  
 
#Vortex yeast culture for about 5 seconds before adding to the wells  
 
#Vortex yeast culture for about 5 seconds before adding to the wells  
#Add 50 µl of wild yeast culture into well 1.
+
#Add 50 µl of wild yeast culture and 50 ul of ethanol solution into well 1
#Add 50 µl of knockout strain yeast culture #1 into well 2  
+
#Add 50 µl of knockout strain yeast culture and 50 µlof ethanol solution #1 into well 2  
#Add 50 µl of knockout strain yeast culture #2 into well 3  
+
#Add 50 µl of knockout strain yeast culture and 50 µlof ethanol solution #2 into well 3  
#Add 50 µl of knockout strain yeast culture #3 into well 4  
+
#Add 50 µl of knockout strain yeast culture and 50 µl of ethanol solution #3 into well 4  
#Add 50 µl of knockout strain yeast culture #4 into well 5  
+
#Add 50 µl of knockout strain yeast culture and 50 µl of ethanol solution #4 into well 5  
#Add 50 µl of knockout strain yeast culture #5 into well 6
+
#Add 50 µl of knockout strain yeast culture and 50 µl of ethanol solution #5 into well 6  
#Then 50 µl of the ethanol solution to the same 6 wells
 
 
#Put your well clear flat-bottom assay plate into the incubator and let sit  
 
#Put your well clear flat-bottom assay plate into the incubator and let sit  
 
#Wait and observe the growth
 
#Wait and observe the growth
  
 
===Data===
 
===Data===
 +
[[Image:Best Ethanol KO graph.png|Graph|center|1000px]]
 +
===Analysis===
 +
-Well 1 with the wild type had a steady growth throughout the experiment. Doubling time is 71.76
 +
 +
-Well 2 line lies on the middle of the overall growth curve. Doubling time is 67.78
  
===Analysis===
+
-Well 3 is the outlier. The Ethanol dramatically decreased cell growth. The doubling time is 189.60 
 +
 
 +
-Well 4 had the largest cell growth. Doubling time is 71.60
 +
 
 +
-Well 5 is slightly above well 2 but has a similar curve. Doubling time is 76.63
 +
 +
-Well 6 cell growth started off at a higher growth rate but decreased at an earlier rate. The doubling time is 60.40
 +
 
 +
-Overall we observed the growth of yeast cells when introduced to Ethanol. With our Ethanol concentration, the yeast cells became stressed out while still having cell growth.

Latest revision as of 09:33, 17 December 2022

Yeast Ethanol Stress Experiment

Introduction

We will add a sample of ethanol solution to a yeast culture and measure the growth afterward. This experiment is to determine what amounts of ethanol solution are best for the stress experiment on our class knockout genes.

Materials

  • Corning COSTAR 96-well clear flat-bottom assay plate
  • Wild-type yeast in 2x synthetic complete media at an OD600 of 0.1-0.2
  • Ethanol concertation of 1M (labeled ETH01M)
  • Sterile water

Procedure

  1. Turn on the biological safety cabinet
  2. Steralize your hands and other materials you need in the biological safety cabinet
  3. Complete steps 4-20 in the biological safety cabinet
  4. Make the ethanol solution in a 1.7 ml PCR tube by adding 942µl of water and 58µl of 100% ethanol
  5. Collect well a clear flat-bottom assay plate
  6. Vortex yeast culture for about 5 seconds
  7. Put 50µl of the yeast culture into all 12 wells.
  8. In the 1st well add 1µl of your ethanol solution and 49µl of H2O
  9. In the 2nd well add 2µl of your ethanol solution and 48µl of H2O
  10. In the 3rd well add 3µl of your ethanol solution and 47µl of H2O
  11. In the 4th well add 4µl of your ethanol solution and 46µl of H2O
  12. In the 5th well add 5µl of your ethanol solution and 45µl of H2O
  13. In the 6th well add 8µl of your ethanol solution and 42µl of H2O
  14. In the 7th well add 10µl of your ethanol solution and 40µl of H2O
  15. In the 8th well add 20µl of your ethanol solution and 30µl of H2O
  16. In the 9th well add 27µl of your ethanol solution and 23µl of H2O
  17. In the 10th well add 35µl of your ethanol solution and 15µl of H2O
  18. In the 11th well add 41µl of your ethanol solution and 9µl of H2O
  19. In the 12th well add 50µl of your ethanol solution and 0µl of H2O
  20. In E column 12th well add 0µl of your ethanol solution and 50µl of H2O
  21. Put your well clear flat-bottom assay plate into the incubator and let sit.
  22. Wait and observe the growth or death

Data

Ethanol bs resized.jpg

Analysis

Well 1 through 10 had roughly the same growth curve with linear movement from 25 minutes to 103 minutes. It plateaus starting at 103 minutes. Well 11 had a slow growth and the curve plateaued out just under 0.4 OD600. Well 12 also had a slow growth and the curve is concave down parabola shape that peaks at 0.37 OD600. Well 11 and 12 were our outliers because it did not fit into our expected curve. Overall we observed how Ethanol affected yeast. We found a concentration of Ethanol that made the yeast cells stressed out while still growing. We concluded that the appropriate concentration of Ethanol is 1M.

Knockout Yeast Ethanol Stress Experiment

Introduction

Our class had some success with knocking out certain yeast genes. We take these genes, add the ethanol solution to a culture of said knockout genes and see how the yeast without those genes live or not.

Materials

  • Corning COSTAR 96-well clear flat-bottom assay plate
  • Wild-type yeast in 2x synthetic complete media at an OD600 of 0.1-0.2
  • Ethanol concertation of 1M (labeled ETH01M)
  • Sterile water

*BY-BY4735 (wild type)

  • YJL133C-A yeast knockout strand (well 2)
  • YER186C yeast knockout strand (well 3)
  • YER076C yeast knockout strand (well 4)
  • YHR033W yeast knockout strand (well 5)
  • YCR095C yeast knockout strand (well 6)

Procedure

  1. Turn on biological safety cabinet
  2. Steralize your hands and any other materials you need in the biological safety cabinet
  3. Complete steps 4-13 in the biological safety cabinet
  4. Make/find your ethanol solution, add 942µl of water and 58µl of neat ethanol in a 1.7ml PCR tube
  5. Collect well a clear flat-bottom assay plate
  6. Vortex yeast culture for about 5 seconds before adding to the wells
  7. Add 50 µl of wild yeast culture and 50 ul of ethanol solution into well 1
  8. Add 50 µl of knockout strain yeast culture and 50 µlof ethanol solution #1 into well 2
  9. Add 50 µl of knockout strain yeast culture and 50 µlof ethanol solution #2 into well 3
  10. Add 50 µl of knockout strain yeast culture and 50 µl of ethanol solution #3 into well 4
  11. Add 50 µl of knockout strain yeast culture and 50 µl of ethanol solution #4 into well 5
  12. Add 50 µl of knockout strain yeast culture and 50 µl of ethanol solution #5 into well 6
  13. Put your well clear flat-bottom assay plate into the incubator and let sit
  14. Wait and observe the growth

Data

Graph

Analysis

-Well 1 with the wild type had a steady growth throughout the experiment. Doubling time is 71.76

-Well 2 line lies on the middle of the overall growth curve. Doubling time is 67.78

-Well 3 is the outlier. The Ethanol dramatically decreased cell growth. The doubling time is 189.60

-Well 4 had the largest cell growth. Doubling time is 71.60

-Well 5 is slightly above well 2 but has a similar curve. Doubling time is 76.63

-Well 6 cell growth started off at a higher growth rate but decreased at an earlier rate. The doubling time is 60.40

-Overall we observed the growth of yeast cells when introduced to Ethanol. With our Ethanol concentration, the yeast cells became stressed out while still having cell growth.