flip book project
TRANSCRIPT
Flip Book Project:
By: Hope Bridge Pd.5/6
Cell
Nucleus
DNA Strand
Key:
Thymine
Adenine
Guanine
Cytosine
Promoter
Operator
Coding Region Terminator
DNA Strand
DNA Polymerase
Coding Region Terminator
DNA Strand
mRNA Strand
Coding Region Terminator
DNA Strand
mRNA Strand
Coding Region Terminator
DNA Strand
mRNA Strand
Coding Region Terminator
DNA Strand
mRNA Strand
Coding Region Terminator
DNA Strand
mRNA Strand
Coding Region Terminator
DNA Strand
mRNA Strand
Coding Region Terminator
DNA Strand
mRNA Strand
Coding Region Terminator
DNA Strand
mRNA Strand
Coding Region Terminator
DNA Strand
mRNA Strand
Coding Region Terminator
DNA Strand
mRNA Strand
Coding Region Terminator
DNA Strand
mRNA Strand
Coding Region Terminator
DNA Strand
mRNA Strand
Coding Region Terminator
DNA Strand
mRNA Strand
Nuclear Pore
Coding Region Terminator
DNA Strand
mRNA Strand
Nuclear Pore
Coding Region Terminator
DNA Strand
mRNA Strand
Nuclear Pore
Coding Region Terminator
DNA Strand
mRNA Strand
Nuclear Pore
Coding Region Terminator
DNA Strand
mRNA Strand
Nuclear Pore
Coding Region Terminator
DNA Strand
mRNA Strand
Nuclear Pore
Coding Region Terminator
DNA Strand
mRNA Strand
Nuclear Pore
Coding Region Terminator
DNA Strand
mRNA Strand
Nuclear Pore
Coding Region Terminator
DNA Strand
mRNA Strand
Nuclear Pore
Coding Region Terminator
DNA Strand
mRNA Strand
Nuclear Pore
Coding Region Terminator
End Codon
Cell
Nucleus
Cytoplasm
Ribosome
Key:
Uracil
Adenine
Guanine
Cytosine
mRNA Strand
Key:
Uracil
Adenine
Guanine
Cytosine
Amino Acids
Ribosome
Start Codon
EndCodon
mRNA Strand
Key:
Uracil
Adenine
Guanine
Cytosine
Amino Acids
Ribosome(tRNA anti-codon)
Met
Peptide Bond
Start Codon
EndCodon
mRNA Strand
Key:
Uracil
Adenine
Guanine
Cytosine
Amino Acids
Ribosome(tRNA anti-codon)
ValMet
Peptide Bond
mRNA Strand
Start Codon
EndCodon
Key:
Uracil
Adenine
Guanine
Cytosine
Amino Acids
Ribosome(tRNA anti-codon)
ValMet
Peptide Bond
v
mRNA Strand
Ser
Start Codon
EndCodon
v
Key:
Uracil
Adenine
Guanine
Cytosine
Amino Acids
Ribosome(tRNA anti-codon)
ValMet
Peptide Bond
v
mRNA Strand
Ser Thr
Start Codon
EndCodon
v
Key:
Uracil
Adenine
Guanine
Cytosine
Amino Acids
Ribosome(tRNA anti-codon)
ValMet
Peptide Bond
v
mRNA Strand
Ser Thr
Start Codon
EndCodon
v
Val
v v
Key:
Uracil
Adenine
Guanine
Cytosine
Amino Acids
Ribosome(tRNA anti-codon)
ValMet
Peptide Bond
v
mRNA Strand
Ser Thr
Start Codon
EndCodon
v
Val Thr
v v
Key:
Uracil
Adenine
Guanine
Cytosine
Amino Acids
Ribosome(tRNA anti-codon)
ValMet
Peptide Bond
v
mRNA Strand
Ser Thr
Start Codon
EndCodon
v
Val Thr
v v
Pro
v
Key:
Uracil
Adenine
Guanine
Cytosine
Amino Acids
Ribosome(tRNA anti-codon)
ValMet
Peptide Bond
v
mRNA Strand
Ser Thr
Start Codon
EndCodon
v
Val Thr
v v
Pro Val
v v
Key:
Uracil
Adenine
Guanine
Cytosine
Amino Acids
Ribosome(tRNA anti-codon)
ValMet
Peptide Bond
v
mRNA Strand
Ser Thr
Start Codon
EndCodon
v
Val Thr
v v
Pro Val
v
Arg
v
Stop
Amino Acids
Peptide Bonds
1.RNA polymerase binds to DNA and unwinds it.
2.RNA polymerase goes to the promoter region to DNA.
3.RNAP reads the DNA and creates mRNA.
4.RNAP hits the stop codon and releases mRNA.
5.mRNA leaves the nucleus and enters the cytoplasm.
1.rRNA forms ribosomes.2.mRNA binds to ribosome and is read.3.tRNA proof reads mRNA and transfers
amino acids.4.Amino acids attach to tRNA, than bind
with peptide bonds.5.Ribosomes hit the stop codon and
complete the protein.