Tuesday, 5 August 2014

Aspartame and yeast-I think this may be important

Does Yeast Grow Differently in

Aspartame, Splenda, Sugar, and

Saccharine?

Biochemistry – Division II.

George Malatinszky

8th grade



Classen School of Advanced Studies

Oklahoma City, OK

Abstract

Yeast utilizes the glucose in its environment to make energy. (5)

Aspartame, saccharine, and Splenda (Sucralose) are all man made sugar

substitutes. These substances aren’t supposed to have any calorie content so

yeast life shouldn’t be possible. If yeast is grown in aspartame, Splenda,

saccharine, and sugar, then the yeast will grow fastest in sugar, therefore

sugar is the food on which yeast grows the fastest. 6 mL room temperature

water, 0.6mL sugar and 0.6mL yeast were poured into each test tube. The

tube was then shaken gently. The volume (mL) of the mixture was measured

after 30 minutes. 13 trials were done with each substance.

The trials including sugar had an average volume of 7.4 mL. The trials

using Splenda had an average volume of 5.2 mL. The trials with saccharine

had an average volume of 5 mL. The trials with aspartame had an average

volume of 7.9 mL. Aspartame had showed the most growth. Splenda had

some dextrose (sugar) in it, which might have been the reason for any growth

at all. Saccharine didn’t have any sugar and there was no growth.

A possible reason for the trials of aspartame to produce more growth is

that aspartame really could be used by the yeast. Nevertheless this is an

unlikely explanation. Another explanation is that a lower concentration of

sugar is better the yeast than a high concentration. After the main

experimentations were finished, the latter explanation was tested and it

showed that until a certain extent a lower concentration really is better for

yeast. To verify this, tests with pure aspartame remain to be conducted.
If, Then, Therefore

If yeast is grown in aspartame, Splenda, saccharine, and sugar, then

the yeast will grow fastest in sugar, therefore yeast can use sugar better

than sugar substitutes for energy.
Literature Review

Yeast are unicellular, aerobic or anaerobic organisms. (3) Yeast, like

animals, give off CO2 as a byproduct of respiration. (1) Yeast reproduce

through budding in which an adult yeast cell grows an offspring from its

body. (2) For reproducing yeast cells need energy. Yeast utilizes the glucose

in its environment to make energy. (4) Sugars are made of 5 or 6 carbon

atoms, along with hydrogen and oxygen, and they are called monosaccharide.

They can bond together to form disaccharides. (5) Aspartame, saccharine, and

Splenda (Sucralose) are all man made sugar substitutes. Aspartame is made

of carbon, oxygen, nitrogen, and hydrogen; its structure is not similar to

sugars. Saccharine consists of carbon chains, oxygen, hydrogen, sodium,

sulfur, and nitrogen; there are many elements that aren’t found in sugar.

Splenda (Sucralose) consists of carbon, oxygen, hydrogen, and chlorine;

Sucralose molecules resemble disaccharides in that they are made of two

rings. These substances are believed to have no calories because organisms’

cells aren’t able to break them down.
Procedure

commercially available baker’s yeast

52 10mL testubes

white cane sugar (C&H Cane Sugar™)

Splenda™

commercially available aspartame (NatraTaste™)

commercially available saccharine (Fasweet™)

room temperature tap water

1) Pour 6 mL of room temperature water into test tube.

2) Pour 0.6mL of sugar into test tube.

3) Pour 0.6mL of yeast into the test tube.

4) Seal the cap of the test tube onto the top and shake gently.

5) Repeat steps 1-4 thirteen times.

6) Repeat steps 1-5 substituting sugar with 0.6mL of aspartame.

7) Repeat steps 1-5 substituting sugar with 0.6mL of Splenda.

8) Repeat steps 1-5 substituting sugar with 0.6mL of saccharine.

9) Place the test tubes on their holder and wait half an hour.

10) On a spreadsheet record the difference of the current height of the

mixture and 6mL.
Data Collection Tables

(Volume in mL)

Trials Aspartame Saccharine Splenda Sugar

1 7.5 5 6 7

2 8 5 5 6.5

3 8.5 5 5 6

4 8 5 5.5 9

5 8.5 5 5 8

6 8 5 6.5 7

7 7 5 4 7.5

8 8.5 5 5.5 5.5

9 7.5 5 4 4

10 8 5 4.5 4.5

11 7.5 5 5 5

12 8 5 5.5 5.5

13 8.5 5 6 6



 

 

 

 

Data analysis

The trials including sugar had an average volume of 7.4 mL, a


difference of 2.4 mL from the starting volume.
The trials using Splenda had an average volume of 5.2 mL, a


difference of 0.2 mL from the starting volume.
The trials with saccharine had an average volume of 5 mL, a


difference of 0 mL from the starting volume.
The trials with aspartame had an average volume of 7.9 mL, a


difference of 2.9 mL.
When trials with different amounts of sugar were done, trials that


had the most sugar did not yield the highest yeast growth, instead

the trials with slightly less sugar had the most growth.
Conclusion

Aspartame was the substance that yeast grows fastest in. The only

aspartame that was commercially available was contaminated with dextrose.

A possible reason for the trials of aspartame to produce the most growth is

that aspartame really could be used by the yeast, although this is an unlikely

explanation. To test this explanation yeast would be grown in pure

aspartame. Another explanation is that a lower concentration of sugar is

better the yeast than a high concentration. After the main experimentations

were finished, this explanation was tested and it showed that until a certain

extent a lower concentration really is better for yeast. To verify this, tests

with pure aspartame remain to be conducted.
Bibliography

1) Life Science. (n.d.). Holt.


Yeast Produces CO2.
2) Miller, K. R., & Levine, J. (1989). Biology. Englewood Cliffs, NJ:


Prentice Hall.

From this book I learned how yeast reproduces through budding.
3) The Wikimedia Project. (n.d.). Yeast. In www.Wikipedia.org.


Retrieved October 5, 2005, from http://www.wikipedia.org/

From this website I learned that yeast cells can be aerobic or

anaerobic.
4) The Usborne Science Encyclopedia. (2001). London: Usborne


Publishing Ltd.

From this book I learned about the uses for yeast. I also learned that

yeast uses sugar for energy.
5) Yeast. (1978). In The New College Encyclopedia (p.45,743,767). New


York, NY: Galahad Books.

Aspartame, Saccharine, and Splenda (Sucralose) are man made sugar

substitutes.

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