Difference between revisions of "UW Stout/Sucrose Fermentation SP22"

From SGD-Wiki
Jump to: navigation, search
Line 11: Line 11:
 
** 0.85g YNB, 2.5 Ammonium Sulfate, 0.32g CSM, 5ml 100x Leucine, 100x Histine, 100x Uracil, 435 ml DI H2O
 
** 0.85g YNB, 2.5 Ammonium Sulfate, 0.32g CSM, 5ml 100x Leucine, 100x Histine, 100x Uracil, 435 ml DI H2O
 
* 40% Sucrose Solution
 
* 40% Sucrose Solution
 +
 +
==Equipment==
 +
 +
* High Performance Laser Chromatography (HPLC)
 +
* Incubator
 +
** Set to 30°C
 +
* Centrifuge
 +
* Vortex
 +
  
 
==Pilot Experiment Procedure==
 
==Pilot Experiment Procedure==
  
 
====Set up yeast====
 
====Set up yeast====
# Collect 1 ml of yeast solution
+
# Collect 1 ml of yeast solution (approximately 1 million cells)
 
# Centrifuge for 3 minutes at 1000x gravity
 
# Centrifuge for 3 minutes at 1000x gravity
 
# Remove supernatant
 
# Remove supernatant
 
# Add 1 ml of PBS buffer to yeast pellet
 
# Add 1 ml of PBS buffer to yeast pellet
 +
# Vortex
  
 
====Make Fermentation Solution====
 
====Make Fermentation Solution====
Line 74: Line 84:
 
===Results===
 
===Results===
  
We found that the 4% total sucrose in concentration produced the most CO2 after 48 hours.
+
We found through qualitative analysis that the 4% total sucrose in concentration produced the most CO2 after 48 hours.
 +
 
 +
==Experimental Procedure==
 +
 
 +
====Set up yeast====
 +
# Collect 1 ml of yeast solution (approximately 1 million cells) 
 +
# Centrifuge for 3 minutes at 1000x gravity
 +
# Remove supernatant
 +
# Add 1 ml of PBS buffer to yeast pellet
 +
# Vortex

Revision as of 11:20, 3 May 2022

Introduction

The purpose of this protocol is to test if knockout yeast strains undergo fermentation, and if they do how much ethanol is produced. This will tell us if the gene that was knocked out plays a role in fermentation.

Materials

  • 1 ml Yeast Culture (Approximately 1 million cells)
    • You may need to dilute with sterile H2O to approximate the 1 million cells. Keep total volume at 1 ml.
  • PBS Buffer Solution
  • Yeast Growth Solution
    • 0.85g YNB, 2.5 Ammonium Sulfate, 0.32g CSM, 5ml 100x Leucine, 100x Histine, 100x Uracil, 435 ml DI H2O
  • 40% Sucrose Solution

Equipment

  • High Performance Laser Chromatography (HPLC)
  • Incubator
    • Set to 30°C
  • Centrifuge
  • Vortex


Pilot Experiment Procedure

Set up yeast

  1. Collect 1 ml of yeast solution (approximately 1 million cells)
  2. Centrifuge for 3 minutes at 1000x gravity
  3. Remove supernatant
  4. Add 1 ml of PBS buffer to yeast pellet
  5. Vortex

Make Fermentation Solution

  1. Mix the following ingredients for each concentration *See table 1
  2. Vortex solution for 30 seconds
  3. Store in 30°C incubator
  4. Sample solution (for ethanol production) in 24 and 48 hours.

Table 1

Concentration 1 Concentration 2 Concentration 3 Concentration 4
Yeast 1ml 1ml 1ml 1ml
Growth solution 8ml 8ml 8ml 8ml
40% Sucrose Solution 1ml 0.5ml 0.25ml 0.125ml
H20 0ml 0.5ml 0.75ml 0.875ml
Total Volume 10ml 10ml 10ml 10ml
Total sucrose concentration in solution 4% 2% 1% 0.5%

Results

We found through qualitative analysis that the 4% total sucrose in concentration produced the most CO2 after 48 hours.

Experimental Procedure

Set up yeast

  1. Collect 1 ml of yeast solution (approximately 1 million cells)
  2. Centrifuge for 3 minutes at 1000x gravity
  3. Remove supernatant
  4. Add 1 ml of PBS buffer to yeast pellet
  5. Vortex