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Transcript 
100%
0%
No
2.
Yes
No
Ye
s
1.
1.
2.
3.
4.
TATGA
ATACT
CACTA
AUACU
92%
8%
0%
1
2
3
0%
4
0%
0%
0%
GC
A
4.
AU
G
3.
100%
UG
C
2.
CGA
UGC
AUG
GCA
CG
A
1.
an
in
es
Th
ym
Ad
e
ni
ne
sa
nd
d
t. .
.
d.
..
an
te
s
Ph
os
ph
a
0%
s. .
.
0%
s..
.
nd
4.
0%
sa
3.
100%
ni
ne
2.
Adenines and
sugars
Phosphates and
sugars
Adenines and
thymines
Thymines and
sugats
Ad
e
1.
A
0%
tR
N
0%
A
8%
rR
N
4.
92%
RN
A
3.
m
2.
DNA
mRNA
rRNA
tRNA
DN
A
1.
RN
A
m
ac
id
0%
o
0%
8%
Am
in
4.
92%
an
t ic
od
on
3.
on
2.
codon
anticodon
Amino acid
mRNA
co
d
1.
RN
A
m
co
d
8%
an
t ic
od
on
8%
on
8%
id
4.
77%
ac
3.
o
2.
Amino acid
codon
anticodon
mRNA
Am
in
1.
15%
8%
A
n
og
e
ni
tr
A
ph
os
ph
at
ba
eg
s..
.
id
ac
o
am
in
An
r..
.
0%
su
g..
.
4.
ar
bo
n
3.
77%
5c
2.
A 5-carbon sugar
An amino acid
A nitrogen base
A phosphate
group
A
1.
on
es
0%
Hi
st
sm
0%
Cy
to
pl
a
es
0%
bo
so
m
4.
Ri
3.
100%
us
2.
Nucleus
Ribosomes
Cytoplasm
Histones
Nu
cle
1.
1.
2.
3.
4.
Helicase
Ribose
Ligase
DNA polymerase
85%
8%
8%
0%
1
2
3
4
8%
8%
0%
21
.5
4.
29
.4
3.
85%
19
.9
2.
28.8
19.9
29.4
21.5
28
.8
1.
8%
0%
0%
21
.5
4.
29
.4
3.
92%
13
.4
2.
19.9
13.4
29.4
21.5
19
.9
1.
rg
a
i. .
.
Cr
an
d
so
n
W
at
Ch
a
0%
ff
8%
in
3.
92%
nk
l
2.
Franklin
Watson and Crick
Chargaff
Fr
a
1.
15%
0%
0%
64
4.
20
3.
85%
3
2.
1
3
20
64
1
1.
0%
0%
4
4.
46%
3
3.
54%
2
2.
1
2
3
4
1
1.
an
d
Ad
en
in
e
Cy
to
sin
ea
nd
T.
..
A.
..
nd
ea
Cy
to
sin
Gu
.. .
8%
0%
...
Th
4.
8%
an
d
3.
85%
ni
ne
2.
Adenine and
Thymine
Cytosine and
Adenine
Cytosine and
Thymine
Adenine and
Guanine
Ad
e
1.
8%
nd
ria
i
0%
M
ito
ch
o
Go
lg
e
0%
bo
so
m
4.
Ri
3.
92%
us
2.
Nucleus
Ribosome
Golgi
Mitochondria
Nu
cle
1.
15%
n
A
Ch
ai
in
Pr
ot
e
DN
A
d
te
8%
tR
N
8%
ica
4.
Du
pl
3.
69%
RN
A
2.
mRNA
Duplicated DNA
tRNA
Protein Chain
m
1.
1600
Kirkland, Megan
1300
Curell, Blaque
1500
1500
1500
1500
Alicea, Shayna
Morgan, Savannah
Wurster, Timothy
Byerly, Andria
1200
700
Tolen, Brady
Starr, Jessica
1400
1400
1400
Case, Riley
Bonesteel, Stephen
Schwerin, Lydia
1300
1300
Fisher, Jeremy
Combs, Morgan
8%
es
Ri
bo
so
m
iB
od
ie
s
0%
Go
lg
4.
38%
sm
3.
54%
Cy
to
pl
a
2.
Nucleus
Cytoplasm
Golgi Bodies
Ribosomes
Nu
cle
us
1.
1.
2.
3.
4.
Transcription
Translation
Replication
Protein
Synthesis
62%
38%
0%
1
2
0%
3
4
15%
Re
pl
ic
tio
sla
Tr
an
at
io
n
n
8%
n
tio
3.
77%
sc
rip
2.
Transcription
Translation
Replication
Tr
an
1.
31%
8%
M
et
-P
ro
-
Le
uGl
..
.
CC
CU
A
UA
CG
UU
AA
AA
C
CC
TA
0%
TA
CG
TT
4.
GG
GA
T
3.
62%
AT
T
2.
ATGCAATTGGGAT
TACGTTAACCCTA
UACGUUAACCCUA
Met-Pro-Leu-Gly
AT
GC
A
1.
23%
8%
r.
..
su
ga
r.
..
Ho
ld
in
g
ug
a
ng
s
ki
in
g
Ho
ld
Lin
in
o
ba
se
s.
...
..
0%
m
4.
69%
ng
a
3.
ki
2.
Linking amino acids
together
Holding bases together
Linking sugar and
phosphate molecules
together
Holding sugar
molecules to bases
Lin
1.
e
8%
Cy
to
sin
0%
in
e
0%
Th
ym
4.
cil
3.
92%
Ur
a
2.
Adenine
Uracil
Thymine
Cytosine
Ad
en
in
e
1.
0%
in
e
0%
Gu
an
0%
Ad
en
in
e
0%
in
e
4.
Th
ym
3.
cil
2.
Uracil
Thymine
Adenine
Guanine
Ur
a
1.
12
0.98
Allison Miller
0.98
1
1.03
1.08
Timothy Patten
David Piontkowski
Christopher Keller
Brandy Gray
1.
2.
3.
4.
DNA Polymerase
RNA Polymerase
Helicase
Ligase
0%
1
0%
2
0%
3
0%
4
12
0%
in
e
0%
Gu
an
0%
Ad
en
in
e
0%
in
e
4.
Th
ym
3.
cil
2.
Uracil
Thymine
Adenine
Guanine
Ur
a
1.
12
te
0%
Ph
os
ph
a
0%
se
0%
Gl
uc
o
0%
os
e
4.
De
ox
yr
ib
3.
bo
se
2.
Ribose
Deoxyribose
Glucose
Phosphate
Ri
1.
12
1.
2.
3.
4.
STOP
Argenine
Threonine
Cysteine
0%
1
0%
2
0%
3
0% 12
4
0%
0%
0%
Ni
tro
g
en
ba
s
es
os
e
0%
De
ox
rib
4.
s
3.
Ph
os
ph
or
u
2.
Sugar
Phosphorus
Deoxribose
Nitrogen bases
Su
ga
r
1.
12
2200
Allison Miller
2200
2100
2100
2000
Leah Combs
Patrick Ricchi
Bobby Herrington
Gayle Simon
..
ea
in
hy
m
co
nt
a
in
st
nt
a
DN
A
co
th
bo
Th
ey
0%
...
th
e
in
ne
of
o
ad
e
m
0%
a.
.
0%
st
r
...
co
re
is
On
e
4.
0%
kb
on
es
a
3.
ac
2.
Their backbones are
composed of different
sugars.
One is made of one
strand and the other is
made of two.
They both contain the
same four bases.
DNA contains thymine
and no uracil.
Th
ei
rb
1.
12
0%
A.
0%
rR
N
0%
A
0%
tR
N
4.
RN
A
3.
m
2.
DNA
mRNA
tRNA
rRNA.
DN
A
1.
12
0%
A.
0%
rR
N
0%
A
0%
tR
N
4.
RN
A
3.
m
2.
DNA
mRNA
tRNA
rRNA.
DN
A
1.
12
0%
...
Sy
nt
he
Pr
ot
ei
n
at
io
Re
pl
ic
tio
sla
Tr
an
0%
n
0%
n
0%
n
4.
tio
3.
cip
2.
Tranciption
Translation
Replication
Protein Synthesis
Tr
an
1.
12
0%
st
ra
n
d
...
0%
DN
A
m
RN
A
al
2
id
en
ffe
r
di
2
0%
tic
an
...
en
ts
t..
.
0%
st
r
4.
gl
e
3.
sin
2.
A single strand of
DNA.
2 different strands of
DNA
2 identical DNA
strands
A mRNA strand
A
1.
12
n
0%
De
le
tio
0%
n
0%
rt
io
0%
In
se
4.
Su
bs
tit
ut
io
n
3.
nt
2.
Point
Substitution
Insertion
Deletion
Po
i
1.
12
0%
0%
De
le
tio
n
n
0%
rt
io
0%
In
se
4.
Su
bs
tit
ut
io
n
3.
nt
2.
Point
Substitution
Insertion
Deletion
Po
i
1.
12
0
Participant 1
0
Participant 11
0
0
0
0
Participant 2
Participant 3
Participant 4
Participant 5
0
0
0
0
Participant 12
Participant 13
Participant 14
Participant 15
0
0
0
Participant 6
Participant 7
Participant 8
0
0
0
Participant 16
Participant 17
Participant 18
0
0
Participant 9
Participant 10
0
0
Participant 19
Participant 20
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