60. = Adenine =Guanine
Amino acid attaches and starts to form peptide chain. = Uracil =Cytosine
Amino Acid Met
Anticodon
Start Codon
61. = Adenine =Guanine
Amino acid attaches and starts to form peptide chain.
Peptide bond = Uracil =Cytosine
Amino Acid Leu Thr
Anticodon
Start Codon
62. = Adenine =Guanine
Amino acid attaches and starts to form peptide chain.
Peptide bond = Uracil =Cytosine
Amino Acid Leu Thr Ser
Anticodon
Start Codon
63. = Adenine =Guanine
Amino acid attaches and starts to form peptide chain.
Peptide bond = Uracil =Cytosine
Amino Acid Leu Thr Ser Pro
Anticodon
Start Codon
64. = Adenine =Guanine
Amino acid attaches and starts to form peptide chain.
Peptide bond = Uracil =Cytosine
Amino Acid Leu Thr Ser Pro Thr
Anticodon
Start Codon
65. = Adenine =Guanine
Amino acid attaches and starts to form peptide chain.
Peptide bond = Uracil =Cytosine
Amino Acid Leu Thr Ser Pro Thr Ser
Anticodon
Start Codon
66. = Adenine =Guanine
Amino acid attaches and starts to form peptide chain.
Peptide bond = Uracil =Cytosine
Amino Acid Leu Thr Ser Pro Thr Ser Stop
Completed Protein
Anticodon
Start Codon
Stop Codon
67. Ribosomes hit stop codon and form a completed protein.
Completed Protein
68. Transcription Summary:
Transcription: DNA RNA
1. RNA Polymerase binds to unwound DNA and unwinds it.
2. RNA Polymerase binds to promoter region of DNA.
3. RNA Polymerase reads DNA and creates mRNA.
4. RNA Polymerase hits stop codon and stop making mRNA.
5. mRNA leaves nucleus and enters cytoplasm.
69. Translation Summary:
Translation: RNA Protein
1. rRNA forms a ribosome.
2. mRNA binds to ribosome and reads the 1st code.
3. tRNA brings anticodon.
4. Amino acid attaches and starts to form peptide chain.
5. Ribosome hits stop codon and forms protein.