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Name .
Period .
Date .
Science
Cytochrome C Comparison Lab
PURPOSE: To compare the relatedness between organisms by examining the amino acid sequence in the
protein, Cytochrome C.
BACKGROUND: Genes are made of DNA and are inherited from parent to offspring. Some DNA
sequences code for mRNA which, in turn, codes for the amino acid sequence of proteins. Cytochrome C
is a protein involved in using energy in the cell. Cytochrome C is found in most, if not all, known
eukaryotes. Over time, random mutations in the DNA sequence occur. As a result, the amino acid
sequence of Cytochrome C also changes. Cells without usable Cytochrome C are unlikely to survive.
METHOD:
A . Compare the amino acid sequence of Cytochrome C in various organisms.
1. Mark the amino acids which are different Use the example to show you how.
- - - - - G D V A K G K K T F V Q K C A Q C H T V E N G G K H K V G P N L W G L F G R K T
- G V P A G D V E K G K K I F V Q R C A Q C H T V E A G G K H K V G P N L H G L F G R K T
2.
Note that some of the amino acids are always the same in all species, these have been shaded blue
or light gray.
Count and record the total number of differences.
Tuna &
Fly:
24
3.
Note: Be sure to study the entire molecule.
Each protein sequence has 103-112 amino acids; the sequence extends onto two (2) lines.
4. Share your data with the rest of the class and complete Table 1.
B . Make a branching tree, or cladogram using the data in Table 1.
s
ie
ec
sp
sp
ec
ie
s
2
The two most closely related species have the fewest differences in amino acid sequence.
Place the two most closely related species on the two shortest branches of the tree.
1
1.
3.
ie
ec
sp
sp
ec
ie
s
s
3
4
2. Place the next two closest species on the next shortest branches.
Place the species which is the next closest on the next longest branch.
Continue until all the species have been placed.
C. Answer the questions.
Cytochrome Clab pt 2
kew 04/02
Page 1 of 4
Name
KEY
Table 1: Differences between amino acid sequences in Cytochrome C protein for nine species.
horse
horse
0
donkey
whale
donkey
whale
1
0
5
4
0
chicken
chicken penguin
11
10
9
0
penguin
13
12
10
3
0
snake
snake
moth
yeast
wheat
21
20
18
18
17
0
29
28
27
29
27
29
0
45
46
45
46
45
46
48
0
46
45
44
46
46
46
45
47
0
moth
yeast
wheat
pe
ng
u
ch in
ic
k
w en
ha
l
do e
n
ho ke
rs y
e
o
at m
m r
to wo
rn
o
h
sn
ak
e
#
4
si
m lkw
ot o
h rm
ye
as
t
w
he
at
Cladogram, or Branching Tree,
Based on Cytochrome C Amino Acid Sequence
1
3
~5
~10
~20
~30
~45
Cytochrome Clab pt 2
kew 04/02
Page 3 of 4
KEY
pe
ng
c h uin
ic
tu ke
rk n
ey
Name
QUESTIONS:
1. How many Cytochrome C amino acid sequence
0 or none
differences are there between chickens and turkeys?
2. Make a branching tree, or cladogram for chickens, penguins, and turkeys.
3. a.
b.
pt
e
c
s1
ac les
r
0
ii. donkey and zebra
o
2
What other information did you use to make this prediction?
Horses, donkeys and zebras have similar body
structures (anatomy). They look, & act, “horsey.”
Predict the number of Cytochrome C amino acid
sequence differences you would expect to see between i. horse and zebra
4. Use this Cytochrome C sequence difference data to add a branch to the tree on page 3.
silkworm
horse
penguin
snake
tuna
yeast
moth
tomato
hornworm
26
18
24
28
5
42
moth
wheat
38
5. List three other things used to determine how organisms are related to each other.
1. fossils
2. anatomy (body structure)
3. embryology (development before birth) (This lab is
4. direct comparison of DNA base sequence indirect DNA
6. Explain why more closely related organisms have more similar Cytochrome C.
analysis.)
a. More closely related species have more recent
common ancestor. The more recent the common
ancestor, the less time for DNA mutations to occur.
b. Changes in DNA lead to changes in mRNA leads to
differences in protein amino acid sequences.
1. Limits to the total number of possible mutations
for a working copy of the gene. 2. Back mutations
may occur. DNA changing over time makes a
“molecular clock.” Here the “watch” has run down!
Cytochrome Clab pt 2
kew 04/02
Page 4 of 4
7. Other data, including other genes, suggests that fungi are more closely related to animals than plants.
What are some reasons that the Cytochrome C data suggests that fungi, plants, and animals are equally
distantly related?
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