protein synthesis project
DESCRIPTION
TRANSCRIPT
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Protein SynthesisBy: Ethan Riley
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TACATTCCTTTACAAATGTAAGGAAATGTT
Cytoplasm
DNA
Nucleus
Cell
Ribosomes
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TAC ATTCCTTTACAA
ATG TAAGGAAATGTT
Cytoplasm
DNA
Nucleus
Ribosomes
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T A C A TTCCTTTAC A A
A T G T AAGGAAATG T T
Cytoplasm
DNA
NucleusRibosomes
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T A C A TTCCTTTAC A A
A T G T AAGGAAATG T T
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T A C A TTCCTTTAC A A
A T G T AAGGAAATG T T
RNA Polymerase
RNA Polymerase unwinds the DNA strand, creating an mRNA strand.
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T A
C A TTCCTTTAC A A
A T
G T AAGGAAATG T T
RNA Polymerase
RNA Polymerase unwinds the DNA strand, creating an mRNA strand.
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T A C
A TTCCTTTA
C
A A
A T G
T AAGGAAAT
G
T T
RNA Polymerase
RNA Polymerase unwinds the DNA strand, creating an mRNA strand.
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T A C
A TTCCTTTA
C A A
A T G
T AAGGAAAT
G T T
RNA Polymerase
RNA Polymerase unwinds the DNA strand, creating an mRNA strand.
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T A C
A TTCCTT
TAC A A
A T G
T AAGGAA
ATG T T
RNA Polymerase
RNA Polymerase unwinds the DNA strand, creating an mRNA strand.
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T A C
A TTCCTTTAC A A
A T G
T AAGG
AAATG T T
RNA Polymerase
RNA Polymerase unwinds the DNA strand, creating an mRNA strand.
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T A C
A TTCCTTTAC A A
A T G
T AA
GGAAATG T T
RNA Polymerase
RNA Polymerase unwinds the DNA strand, creating an mRNA strand.
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T A C ATT
CCTTTAC A A
A T G T
AA
GGAAATG T T
RNA Polymerase
RNA Polymerase unwinds the DNA strand, creating an mRNA strand.
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T A C A TTCCTTTAC A A
A T G T AAGGAAATG T T
RNA Polymerase
RNA Polymerase unwinds the DNA strand, creating an mRNA strand.
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T A C A TTCCTTTAC A A
A T G T AAGGAAATG T T
RNA Polymerase
The mRNA strand then breaks off and goes to the cytoplasm through the nuclear pore.
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T A C A TTCCTTTAC A A
A T G T AAGGAAATG T T
The mRNA strand then breaks off and goes to the cytoplasm through the nuclear pore.
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T A CA TTCCTTTAC A A
A T G
T AAGGAAATG T T
The DNA strand then reforms back into its double helix state.
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T A CA TTCCTTTA
C A A
A T G
T AAGGAAAT
G T T
The DNA strand then reforms back into its double helix state.
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T A CA TTCCT
TTAC A A
A T G
T AAGGA
AATG T T
The DNA strand then reforms back into its double helix state.
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T A CA TT
CCTTTAC A A
A T G
T AA
GGAAATG T T
The DNA strand then reforms back into its double helix state.
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T A C A TTCCTTTAC A A
A T G T AAGGAAATG T T
The DNA strand then reforms back into its double helix state.
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T A C A TTCCTTTAC A A
A T G T AAGGAAATG T T
The DNA strand then reforms back into its double helix state.
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T A C A TTCCTTTAC A A
A T G T AAGGAAATG T T
The DNA strand then reforms back into its double helix state.
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T A C A TTCCTTTAC A A
A T G T AAGGAAATG T T
The mRNA strand then goes into the ribosome.
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T A C A TTCCTTTAC A A
A T G T AAGGAAATG T T
The mRNA strand then goes into the ribosome.
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A U G G U U U A A A G G U A A
Start Codon
Codon
Codon
Codon
Stop Codon
Ribosome
Large
Subunit
Small Subunit
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A U G G U U U A A A G G U A A
Start Codon
Codon
Codon
Codon
Stop Codon
Ribosome
Large
Subunit
Small Subunit
U A C
Methionine
The tRNA molecule then binds on to the codon with the corresponding anti-codon.
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A U G G U U U A A A G G U A A
Start Codon
Codon
Codon
Codon
Stop Codon
Ribosome
Large
Subunit
Small Subunit
Glutamine
C A A
After the tRNA molecule binds with the codon, the amino acid releases from tRNA.
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U G
Start Codon
G U U
Codon
U A A
Codon
A G GCodon
U A A
Stop Codon
Ribosome
Large
Subunit
Small Subunit
A U U
Isoleucine
The process of the tRNA binding on the codon repeats for each codon.
The amino acid that is release then joins onto the previous amino acid by forming a peptide bond.
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U
Codon
U A A
Codon
A G G
Codon
U A AStop Codon
Ribosome
Large
Subunit
Small Subunit
U C C
Serine
The process of the tRNA binding on the codon repeats for each codon.
The amino acid that is release then joins onto the previous amino acid by forming a peptide bond.
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U
Codon
U A A
Codon
A G G
Codon
U A AStop Codon
Ribosome
Large
Subunit
Small Subunit
U C C
Serine
The process of the tRNA binding on the codon repeats for each codon.
The amino acid that is release then joins onto the previous amino acid by forming a peptide bond.
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A A
Codon
A G G
Codon
U A A
Stop Codon
Ribosome
Large
Subunit
Small Subunit
U A A
Stop
The tRNA then forms a “stop” amino acid and the process ends.
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Stop Codon
Ribosome
Large
Subunit
Small Subunit
Stop
The tRNA then forms a “stop” amino acid and the process ends.
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Stop Codon
Ribosome
Large
Subunit
Small Subunit
Stop
The amino acid chain then folds on itself.
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Stop Codon
Ribosome
Large
Subunit
Small Subunit
Stop
The amino acid chain then folds on itself.