2.24.12 Explosive Fireworks Flipbook

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2.24.12 Explosive Fireworks Flipbook

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

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