Laboratory Experiment to Determine Batch Ethanol Production by S. cerevisiae Benjamin Reves May 11, 2005
Outline Background Theory Procedure Results Conclusions Recommendations Impact Questions
Background
Need for Ethanol Ethanol used as raw material and solvent in the chemical, food, and pharmaceutical industries Four million tons of ethanol are produced each year Eighty percent by fermentation Energy Information Administration has predicted annual consumption growth in U.S. of 3.2% each year
Saccharomyces cerevisiae Common type of yeast Eucaryotic Reproduces by budding Can grow aerobically or anaerobically
Current Methods Batch Reactor Fed-batch Reactor Continuous Reactor Packed Bed Reactor
Theory
Glycolysis Breakdown of 6-C glucose into two molecules of 3-C pyruvate Fate of pyruvate – Aerobic Conditions- TCA cycle – Anaerobic Conditions- Converted to ethanol via acetaldehyde
Cell Growth Substrates + cells extracellular products + more cells
Batch Growth Lag Phase Exponential Growth Phase Deceleration Phase Stationary Phase Death Phase
Yield Coefficients Help to quantify growth kinetics Y X/S =- X/ S Y P/S = - P/ S Y P/X = P/ X
Product Formation Growth-associated products Non-growth-associated products Mixed-growth-associated products
Temperature Effects Optimal temperatures Product formation affected Diffusion limitations
Objectives
Study ethanol production and glucose utilization by Saccharomyces cerevisiae Study effect of temperature on fermentation Construct growth curves
Methods
Stages of Experimentation Autoclaving Inoculation Growth of Culture Analyzing Samples
Autoclaving Sterility is a must! Saturated steam at 121 o C used to kill all spores
Autoclave
Preparing Inoculum Inoculum is typically 5-10% of total working volume Yeast obtained from microbiology department on plates Inoculating needle used to take yeast from plate into 800 mL of YEB Placed on shaker at 30 o C Importance of inoculum condition
Inoculum Preparation
Yeast Extract Broth Undefined vs. Defined Media 1 L YEB contains: – 20 grams of glucose – 10 grams of yeast extract broth Glucose is carbon/energy source Yeast extract provides cofactors and ions
Fermentor 7.5 L BioFlo 110 Modular Benchtop Fermentor Controller and PCU Temperature Control
Fermentor
PCU
Headplate
Taking Samples Fermentor equipped with sample port Sample tubes had been autoclaved Optical density of sample measured Centrifuged for 5 minutes at 2000 rpm Liquid decanted and stored at 4 o C
Centrifuge
Centrifuged Samples
Estimating Cell Concentration Spectrophotometer used to measured absorbance at 650 nm Sterile YEB used as blank Beer’s Law: A= bc Linear correlation between absorbance and concentration of cells Calibration curve constructed
Spectrophotometer
Construction of Calibration Curve Optical density measured Washed with 10 mM phosphate buffer Dried in oven at 35 Celsius
OD Calibration Curve
Glucose Determination Glucose assay kit ordered from Sigma Based on UV absorbance of NADH at 340 nm Glucose + ATP Glucose-6-Phosphate + ADP G6P + NAD + 6-Phosphogluconate + NADH Samples Diluted Hexokinase G6PDH
Ethanol Determination Ethanol assay kit ordered from R-Biopharm Based on absorbance of NADH at 340 nm Sample diluted Ethanol + NAD + acetaldehyde + NADH + H + Acetaldehyde + NAD + + H 2 O acetic acid + NADH + H + ADH Al-DH
Results
Growth Curve for 30 Celsius
Growth Curve for All Runs
Concentration Plot for 30 Celsius
Glucose Concentration
Ethanol Production
Yield Coefficients 25 o C30 o C37 o C Y P/S (mg P/mg S) Y X/s (mg cells / mg S) Y P/X (mg P/ mg cells)
Conclusions Yeast grew the fastest at 30 Celsius Lag times were longer at 25 and 37 Celsius Glucose was fully used in each run Amount of ethanol produced was almost the same for each run Runs should be allowed to proceed longer
Recommendations Determine growth and productivity effects due to other factors such as pH Determine optimal inoculum size and age Investigate better methods of analyzing samples Operate fermentor in other manners: continuous, continuous with recycle, fed- batch
HPLC
Impact Typically carried out at graduate level CBU has ability to perform at undergraduate level Hope to collaborate with School of Sciences in the future
Questions?