The Effect of Beta Carotene on Plants Infected with

Download Report

Transcript The Effect of Beta Carotene on Plants Infected with

The Effect of Beta Carotene on
Plants Infected with Agrobacterium
Tumefaciens
Christina Adams
Grade 9
Problem
• Will Beta Carotene have any role in preventing
the effect of Agrobacterium tumefaciens on
violets?
• I picked this experiment because of my
interest in Botany and how different bacteria
and solutions can affect the plant’s growth.
Research
• Beta Carotene is a red-orange pigment found in various
types of plants. Beta Carotene is converted in the body
to Vitamin A.
• Agrobacterium tumefaciens is the bacteria that causes
tumor formation in over 140 different dicot plants
(plants with 2 or more embyrotic leaves.)
• A. tumefaciens can live freely in soil or inside plants as
a parasite; Causes disease by transferring its own DNA
into plants cells.
• Most A. tumefaciens infections caused by wounds in
the plants (result from grafting together different plant
stocks.)
Hypothesis
• If Beta Carotene is used, then it should have
no effect on preventing damage from the
Agrobacterium tumefaciens. Beta Carotene
Materials
•
•
•
•
•
•
24 violets
Beta Carotene solution
Disinfectant
Bunsen Burner
Inoculating Needle
Agrobacterium Tumefaciens
Procedure
• 8 plants were placed in each pot
• Pot A is inoculated with A. tumefaciens and
watered with 100ml of beta carotene twice
weekly.
• Pot B is inoculated with A. tumefaciens and
watered with 100ml of distilled water twice
weekly.
• Pot C is not inoculated, but watered with 100ml
of distilled water twice weekly.
• The height of the plants will be documented over
a 30-day period.
Independent and Dependent Variables
• Independent variable: what the seeds are
germinated in
• Dependent variable: the height and growth
rate of the plants
• Control: Group C (water control group)
Data
Control vs. Beta Carotene
25.000%
y = 0.0459x + 0.0077
20.000%
y = 0.029x - 0.0034
Percent Change
15.000%
Control
Beta Carotene
10.000%
Linear (Control)
Linear (Beta Carotene)
5.000%
0.000%
-2
-5.000%
-1
0
1
2
Time (Weeks)
3
4
5
6
Data
Control vs. Bacteria
25.000%
y = 0.0459x + 0.0077
Percent Change
20.000%
15.000%
y = 0.0096x + 0.0176
Control
A. tumefaciens
Linear (Control)
10.000%
Linear (A. tumefaciens)
5.000%
0.000%
-2
-1
0
1
2
Time (Weeks)
3
4
5
6
Data
Beta Carotene vs. Bacteria
16.000%
14.000%
y = 0.029x - 0.0034
12.000%
y = 0.0096x + 0.0176
Percent Change
10.000%
Beta Carotene
8.000%
A. tumefaciens
6.000%
Linear (Beta Carotene)
Linear (A. tumefaciens)
4.000%
2.000%
0.000%
-2
-2.000%
-1
0
1
2
Time (Weeks)
3
4
5
6
Conclusion
• If Beta Carotene is used then it will have no
effect on A. tumefaciens infections.
• This was not supported.
• The control group had the highest growth rate
followed by the beta carotene group.
• The bacterial group had the lowest growth
rate
-Growth stopped after two weeks and plants began
to brown
Conclusion (cont)
• How to improve experiment:
- use different types of plants, such as
monocot plants, and different types of
solution to test the effectiveness of
prevention.
- Test the effectiveness of the Beta Carotene
on infected plants in higher doses.
- Test Beta Carotene on humans with cancer.
Works Cited
•
Bochinski, Julianne Blair. The Complete Handbook of Science Fair Projects. N.p.:
n.p., n.d. Print.
•
Helling, Christopher H. “How Effective is Beta Carotene in Fighting Cancer in
Plants?” California State Science Fair 2008 Project Summary. N.p., n.d. Web. 5 Oct.
2011.
•
Tzfira, Tzvi, and Vitaly Citovsky. “Taking Biology Lessons from a Bug.” The
Agrobacterium- Plant Cell Interaction. N.p., n.d. Web. 6 Oct. 2011.
•
University of Minnesota- Department of Pediatrics. “Agrobacterium Infections in
Humans.” University of Minnesota. N.p., n.d. Web. 6 Oct. 2011.
•
Various school students. “Do Plants Get Cancer?” Student Sheet. N.p., n.d. Web. 6
Oct. 2011.
•
Thank you for listening!