Practical: Investigating Anaerobic Respiration in Yeast (Edexcel IGCSE Biology: Double Science)

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Practical: Investigating Anaerobic Respiration in Yeast

  • Yeast can respire anaerobically (without oxygen), breaking down glucose in the absence of oxygen to produce ethanol and carbon dioxide
  • Anaerobic respiration in yeast cells is called fermentation
  • Fermentation is economically important in the manufacture of bread (where the production of carbon dioxide makes dough rise) and alcoholic drinks (as ethanol is a type of alcohol)
  • It is possible to investigate the effect of temperature on yeast fermentation, by seeing how temperature affects the rate of anaerobic respiration in yeast

Word equation for anaerobic respiration in yeast

The process of anaerobic respiration in yeast

Apparatus

  • Boiling tubes
  • Capillary tubes
  • Bungs
  • Yeast
  • Sugar solution
  • Oil
  • Stopwatch
  • Water bath
  • Limewater

Method

  • Mix yeast with sugar solution in a boiling tube
    • The sugar solution provides the yeast with glucose for anaerobic respiration
  • Carefully add a layer of oil on top of the solution
    • This prevents oxygen from entering the solution (prevents aerobic respiration in the yeast)
  • Using a capillary tube, connect this boiling tube with another boiling tube that is filled with limewater
  • Place the boiling tube with yeast and sugar solution into a water bath at a set temperature and count the number of bubbles produced in a fixed time (e.g. 2 minutes)
    • The rate that carbon dioxide is produced by yeast can be used to measure the rate of anaerobic respiration (i.e. the rate of fermentation)
  • Change the temperature of the water bath and repeat

Investigating anaerobic respiration in yeast

Experimental set up for investigating anaerobic respiration in yeast

Results and Analysis

  • Compare results at different temperatures to find out at which temperature yeast respires fastest
  • The higher the temperature, the more bubbles of carbon dioxide should be produced as higher temperatures will be closer to the optimum temperature of enzymes in yeast, increasing enzyme activity
  • As respiration is an enzyme controlled reaction, as enzyme activity increases the rate of anaerobic respiration will increase
  • If the temperature is too high (beyond the optimum temperature), the enzymes will denature causing carbon dioxide production to slow down and eventually stop

Applying CORMS to practical work

  • When working with practical investigations, remember to consider your CORMS evaluation:

CORMS evaluation

CORMS evaluation

  • In this investigation, your evaluation should look something like this:
    • C – We are changing the temperature in each repeat
    • O – The type (species) of yeast we are using must be the same
    • R – We will repeat the investigation several times at each temperature to make sure our results are reliable
    • M1 – We will measure the number of bubbles (of carbon dioxide) produced
    • M2 – in a set time period (e.g. 2 minutes)
    • S – We will control the concentration, volume and pH of the sugar solution, as well as the mass of yeast added

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Lára

Author: Lára

Expertise: Biology Lead

Lára graduated from Oxford University in Biological Sciences and has now been a science tutor working in the UK for several years. Lára has a particular interest in the area of infectious disease and epidemiology, and enjoys creating original educational materials that develop confidence and facilitate learning.