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2.24.12 Explosive Fireworks Flipbook

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Cell Nucleus
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RNA Polymerase binds and unwinds the DNA double helix. RNA Polymerase
RNA Polymerase binds and unwinds the DNA double helix. RNA Polymerase Guanine Thymine Cytosine Adenine
RNA Polymerase binds and unwinds the DNA double helix. RNA Polymerase Guanine Thymine Cytosine Adenine
RNA Polymerase binds and unwinds the DNA double helix. RNA Polymerase Guanine Thymine Cytosine Adenine
RNA Polymerase binds and unwinds the DNA double helix. RNA olymerase Guanine Thymine Cytosine Adenine
RNA Polymerase binds and unwinds the DNA double helix. RNA Polymerase Guanine Thymine Cytosine Adenine
RNA Polymerase binds and unwinds the DNA double helix. RNA Polymerase Guanine Thymine Cytosine Adenine
RNA Polymerase binds and unwinds the DNA double helix. RNA Polymerase Guanine Thymine Cytosine Adenine
RNA Polymerase binds and unwinds the DNA double helix. RNA Polymerase
RNA Polymerase binds and unwinds the DNA double helix. RNA Polymerase
RNA Polymerase binds to the promoter region. RNA Polymerase
RNA Polymerase binds to the promoter region. RNA Polymerase
RNA Polymerase binds to the promoter region. RNA Polymerase
RNA Polymerase binds to the promoter region. RNA Polymerase
RNA Polymerase binds to the promoter region. RNA Polymerase Guanine Thymine Cytosine Adenine
RNA Polymerase reads the DNA and creates the mRNA strand. RNA Polymerase Start Codon Coding Region Guanine Thymine Uracil Cytosine Adenine
RNA Polymerase reads the DNA and creates the mRNA strand. RNA Polymerase Start Codon Coding Region mRNA Strand Guanine Thymine Uracil Cytosine Adenine
RNA Polymerase reads the DNA and creates the mRNA strand. RNA Polymerase Start Codon Coding Region mRNA Strand Guanine Thymine Uracil Cytosine Adenine
RNA Polymerase reads the DNA and creates the mRNA strand. RNA Polymerase Start Codon Coding Region mRNA Strand Guanine Thymine Uracil Cytosine Adenine
RNA Polymerase reads the DNA and creates the mRNA strand. RNA Polymerase Start Codon Coding Region mRNA Strand Guanine Thymine Uracil Cytosine Adenine
RNA Polymerase reads the DNA and creates the mRNA strand. RNA Polymerase Start Codon Coding Region mRNA Strand Guanine Thymine Uracil Cytosine Adenine
RNA Polymerase reads the DNA and creates the mRNA strand. RNA Polymerase Start Codon Coding Region mRNA Strand Guanine Thymine Uracil Cytosine Adenine
RNA Polymerase reads the DNA and creates the mRNA strand. RNA Polymerase Start Codon Coding Region mRNA Strand Guanine Thymine Uracil Cytosine Adenine
RNA Polymerase reads the DNA and creates the mRNA strand. RNA Polymerase Start Codon Coding Region mRNA Strand Guanine Thymine Uracil Cytosine Adenine
RNA Polymerase reads the DNA and creates the mRNA strand. RNA Polymerase Start Codon Coding Region mRNA Strand Guanine Thymine Uracil Cytosine Adenine
RNA Polymerase reads the DNA and creates the mRNA strand. RNA Polymerase Start Codon Coding Region mRNA Strand Guanine Thymine Uracil Cytosine Adenine
RNA Polymerase reads the DNA and creates the mRNA strand. RNA Polymerase Start Codon Coding Region mRNA Strand Guanine Thymine Uracil Cytosine Adenine
RNA Polymerase hits the stop codon and releases the mRNA strand. RNA Polymerase Start Codon Coding Region Stop Codon Termination Sequence mRNA Strand Guanine Thymine Uracil Cytosine Adenine
RNA Polymerase hits the stop codon and releases the mRNA strand. RNA Polymerase Start Codon Coding Region Stop Codon Termination Sequence mRNA Strand Guanine Thymine Uracil Cytosine Adenine
RNA Polymerase hits the stop codon and releases the mRNA strand. RNA Polymerase Start Codon Coding Region Stop Codon Termination Sequence mRNA Strand Guanine Thymine Uracil Cytosine Adenine
RNA Polymerase hits the stop codon and releases the mRNA strand. RNA Polymerase Start Codon Coding Region Stop Codon Termination Sequence mRNA Strand Guanine Thymine Uracil Cytosine Adenine
RNA Polymerase hits the stop codon and releases the mRNA strand. RNA Polymerase Start Codon Coding Region Stop Codon Termination Sequence mRNA Strand Guanine Thymine Uracil Cytosine Adenine
mRNA leaves the nucleus and enters the cytoplasm. RNA Polymerase Start Codon Coding Region Stop Codon Termination Sequence mRNA Strand Guanine Thymine Uracil Cytosine Adenine
mRNA leaves the nucleus and enters the cytoplasm.
mRNA leaves the nucleus and enters the cytoplasm.
mRNA leaves the nucleus and enters the cytoplasm.
mRNA leaves the nucleus and enters the cytoplasm.
mRNA leaves the nucleus and enters the cytoplasm. Nuclear Pore
mRNA leaves the nucleus and enters the cytoplasm. Nuclear Pore
mRNA leaves the nucleus and enters the cytoplasm. Nuclear Pore
mRNA leaves the nucleus and enters the cytoplasm. Nuclear Pore
mRNA leaves the nucleus and enters the cytoplasm. Nuclear Pore
mRNA leaves the nucleus and enters the cytoplasm. Nuclear Pore
mRNA leaves the nucleus and enters the cytoplasm. Nuclear Pore
mRNA leaves the nucleus and enters the cytoplasm. Nuclear Pore
mRNA leaves the nucleus and enters the cytoplasm.
mRNA leaves the nucleus and enters the cytoplasm. Ribosomes
rRNA forms a ribosome. Ribosomes
rRNA forms a ribosome. Ribosomes
rRNA forms a ribosome. Ribosomes
rRNA forms a ribosome.
rRNA forms a ribosome.
mRNA binds to the ribosome and the code is read.
mRNA binds to the ribosome and the code is read.
mRNA binds to the ribosome and the code is read.
mRNA binds to the ribosome and the code is read.
mRNA binds to the ribosome and the code is read.
mRNA binds to the ribosome and the code is read.
mRNA binds to the ribosome and the code is read.
mRNA binds to the ribosome and the code is read.
tRNA has the anticodon and amino acid attaches. Guanine Uracil Cytosine Adenine
Amino acids bind to each other through peptide bonds. Guanine Uracil Cytosine Adenine
Amino acids bind to each other through peptide bonds. Guanine Uracil Cytosine Adenine
Amino acids bind to each other through peptide bonds. Thr Guanine Uracil Cytosine Adenine
Amino acids bind to each other through peptide bonds. Thr Glu Guanine Uracil Cytosine Adenine
Amino acids bind to each other through peptide bonds. Thr Thr Glu Guanine Uracil Cytosine Adenine
Amino acids bind to each other through peptide bonds. Thr Asp Thr Glu Guanine Uracil Cytosine Adenine
Amino acids bind to each other through peptide bonds. Thr Asp Cys Thr Glu Guanine Uracil Cytosine Adenine
Amino acids bind to each other through peptide bonds. Thr Asp Cys Leu Thr Glu Guanine Uracil Cytosine Adenine
Amino acids bind to each other through peptide bonds. Thr Thr Asp Cys Leu Thr Glu Guanine Uracil Cytosine Adenine
Amino acids bind to each other through peptide bonds. Thr STOP Thr Asp Cys Leu Thr Glu Guanine Uracil Cytosine Adenine
Ribosome hits the stop codon, and protein synthesis is complete. Thr Asp Thr Asp Cys Leu Thr Glu Stop Codon Guanine Uracil Cytosine Adenine
Ribosome hits the stop codon, and protein synthesis is complete. Thr Asp Thr Asp Cys Leu Thr Glu Stop Codon Guanine Uracil Cytosine Adenine
Ribosome hits the stop codon, and protein synthesis is complete. Thr Asp Thr Asp Cys Leu Thr Glu Stop Codon Guanine Uracil Cytosine Adenine
Ribosome hits the stop codon, and protein synthesis is complete. Thr Asp Thr Asp Cys Leu Thr Glu Stop Codon Guanine Uracil Cytosine Adenine
Ribosome hits the stop codon, and protein synthesis is complete. Thr Asp Thr Asp Cys Leu Thr Glu Stop Codon Guanine Uracil Cytosine Adenine
Ribosome hits the stop codon, and protein synthesis is complete. Thr Asp Thr Asp Cys Leu Thr Glu Stop Codon Guanine Uracil Cytosine Adenine
Ribosome hits the stop codon, and protein synthesis is complete. Thr Asp Thr Asp Cys Leu Thr Glu Stop Codon Guanine Uracil Cytosine Adenine
Ribosome hits the stop codon, and protein synthesis is complete. Thr Asp Thr Asp Cys Leu Thr Glu Stop Codon Guanine Uracil Cytosine Adenine
Ribosome hits the stop codon, and protein synthesis is complete. Thr Asp Thr Asp Cys Leu Thr Glu Stop Codon Guanine Uracil Cytosine Adenine
Ribosome hits the stop codon, and protein synthesis is complete. Thr Asp Thr Asp Cys Leu Thr Glu Stop Codon Guanine Uracil Cytosine Adenine
Amino acid chain coils into a complete protein.
Amino acid chain coils into a complete protein.
Amino acid chain coils into a complete protein.
Amino acid chain coils into a complete protein.
Amino acid chain coils into a complete protein.
Amino acid chain coils into a complete protein.
Transcription—NDARNA RNA Polymerase binds and unwinds the DNA RNA Polymerase binds to the promoter region (start) of DNA RNA Polymerase reads DNA and creates the mRNA strand RNA Polymerase hits stop codon and releases mRNA mRNA leaves the nucleus and enters the cytoplasm
Transcription—NDARNA RNA Polymerase binds and unwinds the DNA RNA Polymerase binds to the promoter region (start) of DNA RNA Polymerase reads DNA and creates the mRNA strand RNA Polymerase hits stop codon and releases mRNA mRNA leaves the nucleus and enters the cytoplasm
Transcription—NDARNA RNA Polymerase binds and unwinds the DNA RNA Polymerase binds to the promoter region (start) of DNA RNA Polymerase reads DNA and creates the mRNA strand RNA Polymerase hits stop codon and releases mRNA mRNA leaves the nucleus and enters the cytoplasm
Transcription—NDARNA RNA Polymerase binds and unwinds the DNA RNA Polymerase binds to the promoter region (start) of DNA RNA Polymerase reads DNA and creates the mRNA strand RNA Polymerase hits stop codon and releases mRNA mRNA leaves the nucleus and enters the cytoplasm
Transcription—NDARNA RNA Polymerase binds and unwinds the DNA RNA Polymerase binds to the promoter region (start) of DNA RNA Polymerase reads DNA and creates the mRNA strand RNA Polymerase hits stop codon and releases mRNA mRNA leaves the nucleus and enters the cytoplasm
Transcription—NDARNA RNA Polymerase binds and unwinds the DNA RNA Polymerase binds to the promoter region (start) of DNA RNA Polymerase reads DNA and creates the mRNA strand RNA Polymerase hits stop codon and releases mRNA mRNA leaves the nucleus and enters the cytoplasm
Transcription—NDARNA RNA Polymerase binds and unwinds the DNA RNA Polymerase binds to the promoter region (start) of DNA RNA Polymerase reads DNA and creates the mRNA strand RNA Polymerase hits stop codon and releases mRNA mRNA leaves the nucleus and enters the cytoplasm
Transcription—NDARNA RNA Polymerase binds and unwinds the DNA RNA Polymerase binds to the promoter region (start) of DNA RNA Polymerase reads DNA and creates the mRNA strand RNA Polymerase hits stop codon and releases mRNA mRNA leaves the nucleus and enters the cytoplasm
Transcription—NDARNA RNA Polymerase binds and unwinds the DNA RNA Polymerase binds to the promoter region (start) of DNA RNA Polymerase reads DNA and creates the mRNA strand RNA Polymerase hits stop codon and releases mRNA mRNA leaves the nucleus and enters the cytoplasm
Transcription—NDARNA RNA Polymerase binds and unwinds the DNA RNA Polymerase binds to the promoter region (start) of DNA RNA Polymerase reads DNA and creates the mRNA strand RNA Polymerase hits stop codon and releases mRNA mRNA leaves the nucleus and enters the cytoplasm
Transcription—NDARNA RNA Polymerase binds and unwinds the DNA RNA Polymerase binds to the promoter region (start) of DNA RNA Polymerase reads DNA and creates the mRNA strand RNA Polymerase hits stop codon and releases mRNA mRNA leaves the nucleus and enters the cytoplasm
Transcription—NDARNA RNA Polymerase binds and unwinds the DNA RNA Polymerase binds to the promoter region (start) of DNA RNA Polymerase reads DNA and creates the mRNA strand RNA Polymerase hits stop codon and releases mRNA mRNA leaves the nucleus and enters the cytoplasm
Transcription—NDARNA RNA Polymerase binds and unwinds the DNA RNA Polymerase binds to the promoter region (start) of DNA RNA Polymerase reads DNA and creates the mRNA strand RNA Polymerase hits stop codon and releases mRNA mRNA leaves the nucleus and enters the cytoplasm
Transcription—NDARNA RNA Polymerase binds and unwinds the DNA RNA Polymerase binds to the promoter region (start) of DNA RNA Polymerase reads DNA and creates the mRNA strand RNA Polymerase hits stop codon and releases mRNA mRNA leaves the nucleus and enters the cytoplasm
Transcription—NDARNA RNA Polymerase binds and unwinds the DNA RNA Polymerase binds to the promoter region (start) of DNA RNA Polymerase reads DNA and creates the mRNA strand RNA Polymerase hits stop codon and releases mRNA mRNA leaves the nucleus and enters the cytoplasm
Translation—RNAProtein rRNA forms a ribosome mRNA binds to the ribosome, the code is read tRNA has the anticodon and amino acid attaches amino acids bind to each other with a peptide bond ribosome hits the stop codon and protein synthesis is complete
Translation—RNAProtein rRNA forms a ribosome mRNA binds to the ribosome, the code is read tRNA has the anticodon and amino acid attaches amino acids bind to each other with a peptide bond ribosome hits the stop codon and protein synthesis is complete
Translation—RNAProtein rRNA forms a ribosome mRNA binds to the ribosome, the code is read tRNA has the anticodon and amino acid attaches amino acids bind to each other with a peptide bond ribosome hits the stop codon and protein synthesis is complete
Translation—RNAProtein rRNA forms a ribosome mRNA binds to the ribosome, the code is read tRNA has the anticodon and amino acid attaches amino acids bind to each other with a peptide bond ribosome hits the stop codon and protein synthesis is complete
Translation—RNAProtein rRNA forms a ribosome mRNA binds to the ribosome, the code is read tRNA has the anticodon and amino acid attaches amino acids bind to each other with a peptide bond ribosome hits the stop codon and protein synthesis is complete
Translation—RNAProtein rRNA forms a ribosome mRNA binds to the ribosome, the code is read tRNA has the anticodon and amino acid attaches amino acids bind to each other with a peptide bond ribosome hits the stop codon and protein synthesis is complete
Translation—RNAProtein rRNA forms a ribosome mRNA binds to the ribosome, the code is read tRNA has the anticodon and amino acid attaches amino acids bind to each other with a peptide bond ribosome hits the stop codon and protein synthesis is complete
Translation—RNAProtein rRNA forms a ribosome mRNA binds to the ribosome, the code is read tRNA has the anticodon and amino acid attaches amino acids bind to each other with a peptide bond ribosome hits the stop codon and protein synthesis is complete
Translation—RNAProtein rRNA forms a ribosome mRNA binds to the ribosome, the code is read tRNA has the anticodon and amino acid attaches amino acids bind to each other with a peptide bond ribosome hits the stop codon and protein synthesis is complete
Translation—RNAProtein rRNA forms a ribosome mRNA binds to the ribosome, the code is read tRNA has the anticodon and amino acid attaches amino acids bind to each other with a peptide bond ribosome hits the stop codon and protein synthesis is complete
Translation—RNAProtein rRNA forms a ribosome mRNA binds to the ribosome, the code is read tRNA has the anticodon and amino acid attaches amino acids bind to each other with a peptide bond ribosome hits the stop codon and protein synthesis is complete
Translation—RNAProtein rRNA forms a ribosome mRNA binds to the ribosome, the code is read tRNA has the anticodon and amino acid attaches amino acids bind to each other with a peptide bond ribosome hits the stop codon and protein synthesis is complete
Translation—RNAProtein rRNA forms a ribosome mRNA binds to the ribosome, the code is read tRNA has the anticodon and amino acid attaches amino acids bind to each other with a peptide bond ribosome hits the stop codon and protein synthesis is complete
Translation—RNAProtein rRNA forms a ribosome mRNA binds to the ribosome, the code is read tRNA has the anticodon and amino acid attaches amino acids bind to each other with a peptide bond ribosome hits the stop codon and protein synthesis is complete
Translation—RNAProtein rRNA forms a ribosome mRNA binds to the ribosome, the code is read tRNA has the anticodon and amino acid attaches amino acids bind to each other with a peptide bond ribosome hits the stop codon and protein synthesis is complete

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2.24.12 Explosive Fireworks Flipbook

  • 4.
  • 5.
  • 6.
  • 7.
  • 8. RNA Polymerase binds and unwinds the DNA double helix. RNA Polymerase
  • 9. RNA Polymerase binds and unwinds the DNA double helix. RNA Polymerase Guanine Thymine Cytosine Adenine
  • 10. RNA Polymerase binds and unwinds the DNA double helix. RNA Polymerase Guanine Thymine Cytosine Adenine
  • 11. RNA Polymerase binds and unwinds the DNA double helix. RNA Polymerase Guanine Thymine Cytosine Adenine
  • 12. RNA Polymerase binds and unwinds the DNA double helix. RNA olymerase Guanine Thymine Cytosine Adenine
  • 13. RNA Polymerase binds and unwinds the DNA double helix. RNA Polymerase Guanine Thymine Cytosine Adenine
  • 14. RNA Polymerase binds and unwinds the DNA double helix. RNA Polymerase Guanine Thymine Cytosine Adenine
  • 15. RNA Polymerase binds and unwinds the DNA double helix. RNA Polymerase Guanine Thymine Cytosine Adenine
  • 16. RNA Polymerase binds and unwinds the DNA double helix. RNA Polymerase
  • 17. RNA Polymerase binds and unwinds the DNA double helix. RNA Polymerase
  • 18. RNA Polymerase binds to the promoter region. RNA Polymerase
  • 19. RNA Polymerase binds to the promoter region. RNA Polymerase
  • 20. RNA Polymerase binds to the promoter region. RNA Polymerase
  • 21. RNA Polymerase binds to the promoter region. RNA Polymerase
  • 22. RNA Polymerase binds to the promoter region. RNA Polymerase Guanine Thymine Cytosine Adenine
  • 23. RNA Polymerase reads the DNA and creates the mRNA strand. RNA Polymerase Start Codon Coding Region Guanine Thymine Uracil Cytosine Adenine
  • 24. RNA Polymerase reads the DNA and creates the mRNA strand. RNA Polymerase Start Codon Coding Region mRNA Strand Guanine Thymine Uracil Cytosine Adenine
  • 25. RNA Polymerase reads the DNA and creates the mRNA strand. RNA Polymerase Start Codon Coding Region mRNA Strand Guanine Thymine Uracil Cytosine Adenine
  • 26. RNA Polymerase reads the DNA and creates the mRNA strand. RNA Polymerase Start Codon Coding Region mRNA Strand Guanine Thymine Uracil Cytosine Adenine
  • 27. RNA Polymerase reads the DNA and creates the mRNA strand. RNA Polymerase Start Codon Coding Region mRNA Strand Guanine Thymine Uracil Cytosine Adenine
  • 28. RNA Polymerase reads the DNA and creates the mRNA strand. RNA Polymerase Start Codon Coding Region mRNA Strand Guanine Thymine Uracil Cytosine Adenine
  • 29. RNA Polymerase reads the DNA and creates the mRNA strand. RNA Polymerase Start Codon Coding Region mRNA Strand Guanine Thymine Uracil Cytosine Adenine
  • 30. RNA Polymerase reads the DNA and creates the mRNA strand. RNA Polymerase Start Codon Coding Region mRNA Strand Guanine Thymine Uracil Cytosine Adenine
  • 31. RNA Polymerase reads the DNA and creates the mRNA strand. RNA Polymerase Start Codon Coding Region mRNA Strand Guanine Thymine Uracil Cytosine Adenine
  • 32. RNA Polymerase reads the DNA and creates the mRNA strand. RNA Polymerase Start Codon Coding Region mRNA Strand Guanine Thymine Uracil Cytosine Adenine
  • 33. RNA Polymerase reads the DNA and creates the mRNA strand. RNA Polymerase Start Codon Coding Region mRNA Strand Guanine Thymine Uracil Cytosine Adenine
  • 34. RNA Polymerase reads the DNA and creates the mRNA strand. RNA Polymerase Start Codon Coding Region mRNA Strand Guanine Thymine Uracil Cytosine Adenine
  • 35. RNA Polymerase hits the stop codon and releases the mRNA strand. RNA Polymerase Start Codon Coding Region Stop Codon Termination Sequence mRNA Strand Guanine Thymine Uracil Cytosine Adenine
  • 36. RNA Polymerase hits the stop codon and releases the mRNA strand. RNA Polymerase Start Codon Coding Region Stop Codon Termination Sequence mRNA Strand Guanine Thymine Uracil Cytosine Adenine
  • 37. RNA Polymerase hits the stop codon and releases the mRNA strand. RNA Polymerase Start Codon Coding Region Stop Codon Termination Sequence mRNA Strand Guanine Thymine Uracil Cytosine Adenine
  • 38. RNA Polymerase hits the stop codon and releases the mRNA strand. RNA Polymerase Start Codon Coding Region Stop Codon Termination Sequence mRNA Strand Guanine Thymine Uracil Cytosine Adenine
  • 39. RNA Polymerase hits the stop codon and releases the mRNA strand. RNA Polymerase Start Codon Coding Region Stop Codon Termination Sequence mRNA Strand Guanine Thymine Uracil Cytosine Adenine
  • 40. mRNA leaves the nucleus and enters the cytoplasm. RNA Polymerase Start Codon Coding Region Stop Codon Termination Sequence mRNA Strand Guanine Thymine Uracil Cytosine Adenine
  • 41. mRNA leaves the nucleus and enters the cytoplasm.
  • 42. mRNA leaves the nucleus and enters the cytoplasm.
  • 43. mRNA leaves the nucleus and enters the cytoplasm.
  • 44. mRNA leaves the nucleus and enters the cytoplasm.
  • 45. mRNA leaves the nucleus and enters the cytoplasm. Nuclear Pore
  • 46. mRNA leaves the nucleus and enters the cytoplasm. Nuclear Pore
  • 47. mRNA leaves the nucleus and enters the cytoplasm. Nuclear Pore
  • 48. mRNA leaves the nucleus and enters the cytoplasm. Nuclear Pore
  • 49. mRNA leaves the nucleus and enters the cytoplasm. Nuclear Pore
  • 50. mRNA leaves the nucleus and enters the cytoplasm. Nuclear Pore
  • 51. mRNA leaves the nucleus and enters the cytoplasm. Nuclear Pore
  • 52. mRNA leaves the nucleus and enters the cytoplasm. Nuclear Pore
  • 53. mRNA leaves the nucleus and enters the cytoplasm.
  • 54. mRNA leaves the nucleus and enters the cytoplasm. Ribosomes
  • 55. rRNA forms a ribosome. Ribosomes
  • 56. rRNA forms a ribosome. Ribosomes
  • 57. rRNA forms a ribosome. Ribosomes
  • 58. rRNA forms a ribosome.
  • 59. rRNA forms a ribosome.
  • 60. mRNA binds to the ribosome and the code is read.
  • 61. mRNA binds to the ribosome and the code is read.
  • 62. mRNA binds to the ribosome and the code is read.
  • 63. mRNA binds to the ribosome and the code is read.
  • 64. mRNA binds to the ribosome and the code is read.
  • 65. mRNA binds to the ribosome and the code is read.
  • 66. mRNA binds to the ribosome and the code is read.
  • 67. mRNA binds to the ribosome and the code is read.
  • 68. tRNA has the anticodon and amino acid attaches. Guanine Uracil Cytosine Adenine
  • 69. Amino acids bind to each other through peptide bonds. Guanine Uracil Cytosine Adenine
  • 70. Amino acids bind to each other through peptide bonds. Guanine Uracil Cytosine Adenine
  • 71. Amino acids bind to each other through peptide bonds. Thr Guanine Uracil Cytosine Adenine
  • 72. Amino acids bind to each other through peptide bonds. Thr Glu Guanine Uracil Cytosine Adenine
  • 73. Amino acids bind to each other through peptide bonds. Thr Thr Glu Guanine Uracil Cytosine Adenine
  • 74. Amino acids bind to each other through peptide bonds. Thr Asp Thr Glu Guanine Uracil Cytosine Adenine
  • 75. Amino acids bind to each other through peptide bonds. Thr Asp Cys Thr Glu Guanine Uracil Cytosine Adenine
  • 76. Amino acids bind to each other through peptide bonds. Thr Asp Cys Leu Thr Glu Guanine Uracil Cytosine Adenine
  • 77. Amino acids bind to each other through peptide bonds. Thr Thr Asp Cys Leu Thr Glu Guanine Uracil Cytosine Adenine
  • 78. Amino acids bind to each other through peptide bonds. Thr STOP Thr Asp Cys Leu Thr Glu Guanine Uracil Cytosine Adenine
  • 79. Ribosome hits the stop codon, and protein synthesis is complete. Thr Asp Thr Asp Cys Leu Thr Glu Stop Codon Guanine Uracil Cytosine Adenine
  • 80. Ribosome hits the stop codon, and protein synthesis is complete. Thr Asp Thr Asp Cys Leu Thr Glu Stop Codon Guanine Uracil Cytosine Adenine
  • 81. Ribosome hits the stop codon, and protein synthesis is complete. Thr Asp Thr Asp Cys Leu Thr Glu Stop Codon Guanine Uracil Cytosine Adenine
  • 82. Ribosome hits the stop codon, and protein synthesis is complete. Thr Asp Thr Asp Cys Leu Thr Glu Stop Codon Guanine Uracil Cytosine Adenine
  • 83. Ribosome hits the stop codon, and protein synthesis is complete. Thr Asp Thr Asp Cys Leu Thr Glu Stop Codon Guanine Uracil Cytosine Adenine
  • 84. Ribosome hits the stop codon, and protein synthesis is complete. Thr Asp Thr Asp Cys Leu Thr Glu Stop Codon Guanine Uracil Cytosine Adenine
  • 85. Ribosome hits the stop codon, and protein synthesis is complete. Thr Asp Thr Asp Cys Leu Thr Glu Stop Codon Guanine Uracil Cytosine Adenine
  • 86. Ribosome hits the stop codon, and protein synthesis is complete. Thr Asp Thr Asp Cys Leu Thr Glu Stop Codon Guanine Uracil Cytosine Adenine
  • 87. Ribosome hits the stop codon, and protein synthesis is complete. Thr Asp Thr Asp Cys Leu Thr Glu Stop Codon Guanine Uracil Cytosine Adenine
  • 88. Ribosome hits the stop codon, and protein synthesis is complete. Thr Asp Thr Asp Cys Leu Thr Glu Stop Codon Guanine Uracil Cytosine Adenine
  • 89. Amino acid chain coils into a complete protein.
  • 90. Amino acid chain coils into a complete protein.
  • 91. Amino acid chain coils into a complete protein.
  • 92. Amino acid chain coils into a complete protein.
  • 93. Amino acid chain coils into a complete protein.
  • 94. Amino acid chain coils into a complete protein.
  • 95. Transcription—NDARNA RNA Polymerase binds and unwinds the DNA RNA Polymerase binds to the promoter region (start) of DNA RNA Polymerase reads DNA and creates the mRNA strand RNA Polymerase hits stop codon and releases mRNA mRNA leaves the nucleus and enters the cytoplasm
  • 96. Transcription—NDARNA RNA Polymerase binds and unwinds the DNA RNA Polymerase binds to the promoter region (start) of DNA RNA Polymerase reads DNA and creates the mRNA strand RNA Polymerase hits stop codon and releases mRNA mRNA leaves the nucleus and enters the cytoplasm
  • 97. Transcription—NDARNA RNA Polymerase binds and unwinds the DNA RNA Polymerase binds to the promoter region (start) of DNA RNA Polymerase reads DNA and creates the mRNA strand RNA Polymerase hits stop codon and releases mRNA mRNA leaves the nucleus and enters the cytoplasm
  • 98. Transcription—NDARNA RNA Polymerase binds and unwinds the DNA RNA Polymerase binds to the promoter region (start) of DNA RNA Polymerase reads DNA and creates the mRNA strand RNA Polymerase hits stop codon and releases mRNA mRNA leaves the nucleus and enters the cytoplasm
  • 99. Transcription—NDARNA RNA Polymerase binds and unwinds the DNA RNA Polymerase binds to the promoter region (start) of DNA RNA Polymerase reads DNA and creates the mRNA strand RNA Polymerase hits stop codon and releases mRNA mRNA leaves the nucleus and enters the cytoplasm
  • 100. Transcription—NDARNA RNA Polymerase binds and unwinds the DNA RNA Polymerase binds to the promoter region (start) of DNA RNA Polymerase reads DNA and creates the mRNA strand RNA Polymerase hits stop codon and releases mRNA mRNA leaves the nucleus and enters the cytoplasm
  • 101. Transcription—NDARNA RNA Polymerase binds and unwinds the DNA RNA Polymerase binds to the promoter region (start) of DNA RNA Polymerase reads DNA and creates the mRNA strand RNA Polymerase hits stop codon and releases mRNA mRNA leaves the nucleus and enters the cytoplasm
  • 102. Transcription—NDARNA RNA Polymerase binds and unwinds the DNA RNA Polymerase binds to the promoter region (start) of DNA RNA Polymerase reads DNA and creates the mRNA strand RNA Polymerase hits stop codon and releases mRNA mRNA leaves the nucleus and enters the cytoplasm
  • 103. Transcription—NDARNA RNA Polymerase binds and unwinds the DNA RNA Polymerase binds to the promoter region (start) of DNA RNA Polymerase reads DNA and creates the mRNA strand RNA Polymerase hits stop codon and releases mRNA mRNA leaves the nucleus and enters the cytoplasm
  • 104. Transcription—NDARNA RNA Polymerase binds and unwinds the DNA RNA Polymerase binds to the promoter region (start) of DNA RNA Polymerase reads DNA and creates the mRNA strand RNA Polymerase hits stop codon and releases mRNA mRNA leaves the nucleus and enters the cytoplasm
  • 105. Transcription—NDARNA RNA Polymerase binds and unwinds the DNA RNA Polymerase binds to the promoter region (start) of DNA RNA Polymerase reads DNA and creates the mRNA strand RNA Polymerase hits stop codon and releases mRNA mRNA leaves the nucleus and enters the cytoplasm
  • 106. Transcription—NDARNA RNA Polymerase binds and unwinds the DNA RNA Polymerase binds to the promoter region (start) of DNA RNA Polymerase reads DNA and creates the mRNA strand RNA Polymerase hits stop codon and releases mRNA mRNA leaves the nucleus and enters the cytoplasm
  • 107. Transcription—NDARNA RNA Polymerase binds and unwinds the DNA RNA Polymerase binds to the promoter region (start) of DNA RNA Polymerase reads DNA and creates the mRNA strand RNA Polymerase hits stop codon and releases mRNA mRNA leaves the nucleus and enters the cytoplasm
  • 108. Transcription—NDARNA RNA Polymerase binds and unwinds the DNA RNA Polymerase binds to the promoter region (start) of DNA RNA Polymerase reads DNA and creates the mRNA strand RNA Polymerase hits stop codon and releases mRNA mRNA leaves the nucleus and enters the cytoplasm
  • 109. Transcription—NDARNA RNA Polymerase binds and unwinds the DNA RNA Polymerase binds to the promoter region (start) of DNA RNA Polymerase reads DNA and creates the mRNA strand RNA Polymerase hits stop codon and releases mRNA mRNA leaves the nucleus and enters the cytoplasm
  • 110. Translation—RNAProtein rRNA forms a ribosome mRNA binds to the ribosome, the code is read tRNA has the anticodon and amino acid attaches amino acids bind to each other with a peptide bond ribosome hits the stop codon and protein synthesis is complete
  • 111. Translation—RNAProtein rRNA forms a ribosome mRNA binds to the ribosome, the code is read tRNA has the anticodon and amino acid attaches amino acids bind to each other with a peptide bond ribosome hits the stop codon and protein synthesis is complete
  • 112. Translation—RNAProtein rRNA forms a ribosome mRNA binds to the ribosome, the code is read tRNA has the anticodon and amino acid attaches amino acids bind to each other with a peptide bond ribosome hits the stop codon and protein synthesis is complete
  • 113. Translation—RNAProtein rRNA forms a ribosome mRNA binds to the ribosome, the code is read tRNA has the anticodon and amino acid attaches amino acids bind to each other with a peptide bond ribosome hits the stop codon and protein synthesis is complete
  • 114. Translation—RNAProtein rRNA forms a ribosome mRNA binds to the ribosome, the code is read tRNA has the anticodon and amino acid attaches amino acids bind to each other with a peptide bond ribosome hits the stop codon and protein synthesis is complete
  • 115. Translation—RNAProtein rRNA forms a ribosome mRNA binds to the ribosome, the code is read tRNA has the anticodon and amino acid attaches amino acids bind to each other with a peptide bond ribosome hits the stop codon and protein synthesis is complete
  • 116. Translation—RNAProtein rRNA forms a ribosome mRNA binds to the ribosome, the code is read tRNA has the anticodon and amino acid attaches amino acids bind to each other with a peptide bond ribosome hits the stop codon and protein synthesis is complete
  • 117. Translation—RNAProtein rRNA forms a ribosome mRNA binds to the ribosome, the code is read tRNA has the anticodon and amino acid attaches amino acids bind to each other with a peptide bond ribosome hits the stop codon and protein synthesis is complete
  • 118. Translation—RNAProtein rRNA forms a ribosome mRNA binds to the ribosome, the code is read tRNA has the anticodon and amino acid attaches amino acids bind to each other with a peptide bond ribosome hits the stop codon and protein synthesis is complete
  • 119. Translation—RNAProtein rRNA forms a ribosome mRNA binds to the ribosome, the code is read tRNA has the anticodon and amino acid attaches amino acids bind to each other with a peptide bond ribosome hits the stop codon and protein synthesis is complete
  • 120. Translation—RNAProtein rRNA forms a ribosome mRNA binds to the ribosome, the code is read tRNA has the anticodon and amino acid attaches amino acids bind to each other with a peptide bond ribosome hits the stop codon and protein synthesis is complete
  • 121. Translation—RNAProtein rRNA forms a ribosome mRNA binds to the ribosome, the code is read tRNA has the anticodon and amino acid attaches amino acids bind to each other with a peptide bond ribosome hits the stop codon and protein synthesis is complete
  • 122. Translation—RNAProtein rRNA forms a ribosome mRNA binds to the ribosome, the code is read tRNA has the anticodon and amino acid attaches amino acids bind to each other with a peptide bond ribosome hits the stop codon and protein synthesis is complete
  • 123. Translation—RNAProtein rRNA forms a ribosome mRNA binds to the ribosome, the code is read tRNA has the anticodon and amino acid attaches amino acids bind to each other with a peptide bond ribosome hits the stop codon and protein synthesis is complete
  • 124. Translation—RNAProtein rRNA forms a ribosome mRNA binds to the ribosome, the code is read tRNA has the anticodon and amino acid attaches amino acids bind to each other with a peptide bond ribosome hits the stop codon and protein synthesis is complete