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Transcription and Translation Flipbook
Transcription and Translation Flipbook
Transcription and Translation Flipbook
Transcription and Translation Flipbook
Transcription and Translation Flipbook
Transcription and Translation Flipbook
Transcription and Translation Flipbook
Transcription and Translation Flipbook
Transcription and Translation Flipbook
Transcription and Translation Flipbook By Josh Smith
Transcription and Translation Flipbook By Josh Smith
Transcription and Translation Flipbook By Josh Smith
Transcription
Transcription
Transcription
Transcription
Transcription
Cell Nucleus
Cell Nucleus
Cell Nucleus
DNA STRAND Base Promoter Region Coding Region Termination Sequence Key: Codon Thymine Adenine Guanine Cytosine Uracil
DNA STRAND Promoter Region Coding Region Termination Sequence Key: Thymine Adenine Guanine Cytosine Uracil
DNA STRAND Promoter Region Coding Region Termination Sequence Key: RNA Polymerase binds to and unwinds the DNA strand. Thymine Adenine Guanine Cytosine Uracil
DNA STRAND RNA Polymerase Promoter Region Coding Region Termination Sequence Key: RNA Polymerase binds to and unwinds the DNA strand. Thymine Adenine Guanine Cytosine Uracil
DNA STRAND RNA Polymerase Promoter Region Coding Region Termination Sequence Key: RNA Polymerase binds to and unwinds the DNA strand. Thymine Adenine Guanine Cytosine Uracil
DNA STRAND RNA Polymerase Promoter Region Coding Region Termination Sequence Key: RNA Polymerase binds to and unwinds the DNA strand. Thymine Adenine Guanine Cytosine Uracil
DNA STRAND RNA Polymerase Key: RNA Polymerase binds to and unwinds the DNA strand. Thymine Adenine Guanine Cytosine Uracil
DNA STRAND RNA Polymerase Key: Thymine RNA Polymerase binds to and unwinds the DNA strand. Adenine Guanine Cytosine Uracil
DNA STRAND RNA Polymerase Key: Thymine Adenine RNA Polymerase binds to and unwinds the DNA strand. Guanine Cytosine Uracil
DNA STRAND RNA Polymerase Key: Thymine Adenine RNA Polymerase binds to and unwinds the DNA strand. Guanine Cytosine Uracil
DNA STRAND RNA Polymerase Key: Thymine Adenine Guanine RNA Polymerase binds to and unwinds the DNA strand. Cytosine Uracil
DNA STRAND RNA Polymerase Key: Thymine Adenine Guanine Cytosine Uracil RNA Polymerase binds to and unwinds the DNA strand.
DNA STRAND Key: Thymine Adenine Guanine Cytosine Uracil
Key: Thymine DNA STRAND Adenine Guanine Cytosine Uracil
Key: Thymine Adenine DNA STRAND Guanine Cytosine Uracil
Key: Thymine Adenine DNA STRAND Guanine Cytosine Uracil mRNA STRAND
Key: Thymine Adenine DNA STRAND Guanine Cytosine Uracil Start Codon The DNA strand is read and the mRNA strand is created. mRNA STRAND
Key: Thymine Adenine DNA STRAND Guanine Cytosine Uracil The DNA strand is read and the mRNA strand is created. mRNA STRAND
Key: Thymine Adenine DNA STRAND Guanine Cytosine Uracil The DNA strand is read and the mRNA strand is created. mRNA STRAND
Key: Thymine Adenine DNA STRAND Guanine Cytosine Uracil The DNA strand is read and the mRNA strand is created. mRNA STRAND
Key: Thymine Adenine DNA STRAND Guanine Cytosine Uracil The DNA strand is read and the mRNA strand is created. mRNA STRAND
Key: Thymine Adenine DNA STRAND Guanine Cytosine Uracil The DNA strand is read and the mRNA strand is created. mRNA STRAND
Key: Thymine Adenine DNA STRAND Guanine Cytosine Uracil The DNA strand is read and the mRNA strand is created. mRNA STRAND
Key: Thymine Adenine DNA STRAND Guanine Cytosine Uracil The DNA strand is read and the mRNA strand is created. mRNA STRAND
Key: Thymine Adenine DNA STRAND Guanine Cytosine Uracil The DNA strand is read and the mRNA strand is created. mRNA STRAND
Key: Thymine Adenine DNA STRAND Guanine Cytosine Uracil End The DNA strand is read and the mRNA strand is created. Codon mRNA STRAND
Thymine Adenine DNA STRAND Guanine Cytosine Uracil mRNA STRAND
Cytosine Uracil mRNA STRAND
mRNA STRAND
mRNA STRAND
mRNA STRAND
mRNA STRAND
mRNA STRAND
mRNA STRAND
mRNA STRAND
mRNA STRAND
mRNA leaves the nucleus and enters the cytoplasm through the nuclear pore. Nuclear pore
mRNA leaves the nucleus and enters the cytoplasm through the nuclear pore. Nuclear pore
mRNA leaves the nucleus and enters the cytoplasm through the nuclear pore. Nuclear pore
mRNA leaves the nucleus and enters the cytoplasm through the nuclear pore. Nuclear pore
mRNA leaves the nucleus and enters the cytoplasm through the nuclear pore. Nuclear pore
mRNA leaves the nucleus and enters the cytoplasm through the nuclear pore. Nuclear pore
mRNA leaves the nucleus and enters the cytoplasm through the nuclear pore. Nuclear pore
mRNA leaves the nucleus and enters the cytoplasm through the nuclear pore. Nuclear pore
mRNA leaves the nucleus and enters the cytoplasm through the nuclear pore. Nuclear pore
Translation
Translation
Translation
Translation
Translation
Cell Nucleus mRNA strand
Cell Nucleus mRNA strand
mRNA strand
AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
M E T. UAC AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
M E T. UAC Ribosome AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
M E T. Ribosome UAC AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
RibosomeM E T. UAC AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
Amino Acid M E T. tRNA Anti-Codon UAC AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
M E T. UAC AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
T H R. UGG M E T. AC AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
T H R. UGG M E T. AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
T H R. M E T. UGG AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
Peptide Bonds M E T. T H R. UGG AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
P R O. GGU Peptide Bonds M E T. T H R. UGG AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
P R O. Peptide Bonds GGU M E T. T H R. UGG AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
Peptide Bonds P R O. M E T. T H R. GGU AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
M E T. T H R. P R O. GGU AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
M E T. T H R. P R O. GGU AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
A S P. UUG M E T. T H R. P R O. GGU AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
A S P. M E T. T H R. P R O. UUG GGU AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
A S P. M E T. T H R. P R O. UUG AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
M E T. T H R. P R O. A S P. UUG AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
M E T. T H R. P R O. A S P. UUG AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
M E T. T H R. P R O. A S P. UUG AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
V A L. CUA M E T. T H R. P R O. A S P. UUG AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
V A L. M E T. T H R. P R O. A S P. CUA AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
V A L. M E T. T H R. P R O. A S P. CUA AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
M E T. T H R. P R O. A S P. V A L. CUA AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
M E T. T H R. P R O. A S P. V A L. CUA AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
M E T. T H R. P R O. A S P. V A L. CUA AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
A L A. CGC M E T. T H R. P R O. A S P. V A L. UA AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
A L A. T H R. CGC M E T. P R O. A S P. V A L. AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
M E T. T H R. P R O. A S P. V A L. A L A. CGC AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
M E T. T H R. P R O. A S P. V A L. A L A. CGC AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
M E T. T H R. P R O. A S P. V A L. A L A. CGC AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
M E T. T H R. P R O. A S P. V A L. A L A. CGC AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
M E T. T H R. P R O. A S P. V A L. A L A. CGC AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
A S P. CUA M E T. T H R. P R O. A S P. V A L. A L A. GC AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
A S P. T. T H R. P R O. A S P. V A L. A L A. CUA AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
T. T H R. P R O. A S P. V A L. A L A. A S P. CUA AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
T. T H R. P R O. A S P. V A L. A L A. A S P. CUA AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
T. T H R. P R O. A S P. V A L. A L A. A S P. CUA AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
S E R. AGC T. T H R. P R O. A S P. V A L. A L A. A S P. CUA AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
S E R. AGC T. T H R. P R O. A S P. V A L. A L A. A S P. UA AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
T H R. P R O. A S P. V A L. A L A. A S P. S E R. AGC AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
T H R. P R O. A S P. V A L. A L A. A S P. S E R. AGC AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
T H R. P R O. A S P. V A L. A L A. A S P. S E R. AGC AUG ACCCC AAC GAU GCGGAU UCGCGU UAG A
A R G. GCA T H R. P R O. A S P. V A L. A L A. A S P. S E R. AUG ACCCC AAC GAU GCGGAU UCGCGU UAG A
A R G. T H R. P R O. A S P. V A L. A L A. A S P. S E R. GCA AUG ACCCC AAC GAU GCGGAU UCGCGU UAG A
H R. P R O. A S P. V A L. A L A. A S P. S E R. A R G. GCA AUG ACCCC AAC GAU GCGGAU UCGCGU UAG A
H R. P R O. A S P. V A L. A L A. A S P. S E R. A R G. GCA AUG ACCCC AAC GAU GCGGAU UCGCGU UAG A
STOP AUC H R. P R O. A S P. V A L. A L A. A S P. S E R. A R G. AUG ACCCC AAC GAU GCGGAU UCGCGU UAG A
STOP AUC H R. P R O. A S P. V A L. A L A. A S P. S E R. A R G. AUG ACCCC AAC GAU GCGGAU UCGCGU UAG A
H R. P R O. A S P. V A L. A L A. A S P. S E R. A R G. STOP AUC AUG ACCCC AAC GAU GCGGAU UCGCGU UAG A
H R. P R O. A S P. V A L. A L A. A S P. S E R. A R G. STOP AUC AUG ACCCC AAC GAU GCGGAU UCGCGU UAG A
H R. P R O. A S P. V A L. A L A. A S P. S E R. A R G. STOP AUC AUG ACCCC AAC GAU GCGGAU UCGCGU UAG A
H R. P R O. A S P. V A L. A L A. A S P. S E R. A R G. STOP AUG ACCCC AAC GAU GCGGAU UCGCGU UAG A Stop Codon
Protein
Summary Both transcription and translation need to occur for proteins to be made. Transcription comes before translation. It begins in the nucleus. The RNA polymerase binds to DNA and codes for the mRNA. The mRNA code leaves the nucleus through the nuclear pore. After it leaves translation starts. The tRNA comes in and the anti-tRNA bonds to the mRNA until the amino acids bond together by peptide bonds. Once ten amino acids come together it forms a protein

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Translation.Transcription.Smith.Josh

  • 10. Transcription and Translation Flipbook By Josh Smith
  • 11. Transcription and Translation Flipbook By Josh Smith
  • 12. Transcription and Translation Flipbook By Josh Smith
  • 14.
  • 16.
  • 18.
  • 20.
  • 25.
  • 26. DNA STRAND Base Promoter Region Coding Region Termination Sequence Key: Codon Thymine Adenine Guanine Cytosine Uracil
  • 27. DNA STRAND Promoter Region Coding Region Termination Sequence Key: Thymine Adenine Guanine Cytosine Uracil
  • 28. DNA STRAND Promoter Region Coding Region Termination Sequence Key: RNA Polymerase binds to and unwinds the DNA strand. Thymine Adenine Guanine Cytosine Uracil
  • 29. DNA STRAND RNA Polymerase Promoter Region Coding Region Termination Sequence Key: RNA Polymerase binds to and unwinds the DNA strand. Thymine Adenine Guanine Cytosine Uracil
  • 30. DNA STRAND RNA Polymerase Promoter Region Coding Region Termination Sequence Key: RNA Polymerase binds to and unwinds the DNA strand. Thymine Adenine Guanine Cytosine Uracil
  • 31. DNA STRAND RNA Polymerase Promoter Region Coding Region Termination Sequence Key: RNA Polymerase binds to and unwinds the DNA strand. Thymine Adenine Guanine Cytosine Uracil
  • 32. DNA STRAND RNA Polymerase Key: RNA Polymerase binds to and unwinds the DNA strand. Thymine Adenine Guanine Cytosine Uracil
  • 33. DNA STRAND RNA Polymerase Key: Thymine RNA Polymerase binds to and unwinds the DNA strand. Adenine Guanine Cytosine Uracil
  • 34. DNA STRAND RNA Polymerase Key: Thymine Adenine RNA Polymerase binds to and unwinds the DNA strand. Guanine Cytosine Uracil
  • 35. DNA STRAND RNA Polymerase Key: Thymine Adenine RNA Polymerase binds to and unwinds the DNA strand. Guanine Cytosine Uracil
  • 36. DNA STRAND RNA Polymerase Key: Thymine Adenine Guanine RNA Polymerase binds to and unwinds the DNA strand. Cytosine Uracil
  • 37. DNA STRAND RNA Polymerase Key: Thymine Adenine Guanine Cytosine Uracil RNA Polymerase binds to and unwinds the DNA strand.
  • 38. DNA STRAND Key: Thymine Adenine Guanine Cytosine Uracil
  • 39. Key: Thymine DNA STRAND Adenine Guanine Cytosine Uracil
  • 40. Key: Thymine Adenine DNA STRAND Guanine Cytosine Uracil
  • 41. Key: Thymine Adenine DNA STRAND Guanine Cytosine Uracil mRNA STRAND
  • 42. Key: Thymine Adenine DNA STRAND Guanine Cytosine Uracil Start Codon The DNA strand is read and the mRNA strand is created. mRNA STRAND
  • 43. Key: Thymine Adenine DNA STRAND Guanine Cytosine Uracil The DNA strand is read and the mRNA strand is created. mRNA STRAND
  • 44. Key: Thymine Adenine DNA STRAND Guanine Cytosine Uracil The DNA strand is read and the mRNA strand is created. mRNA STRAND
  • 45. Key: Thymine Adenine DNA STRAND Guanine Cytosine Uracil The DNA strand is read and the mRNA strand is created. mRNA STRAND
  • 46. Key: Thymine Adenine DNA STRAND Guanine Cytosine Uracil The DNA strand is read and the mRNA strand is created. mRNA STRAND
  • 47. Key: Thymine Adenine DNA STRAND Guanine Cytosine Uracil The DNA strand is read and the mRNA strand is created. mRNA STRAND
  • 48. Key: Thymine Adenine DNA STRAND Guanine Cytosine Uracil The DNA strand is read and the mRNA strand is created. mRNA STRAND
  • 49. Key: Thymine Adenine DNA STRAND Guanine Cytosine Uracil The DNA strand is read and the mRNA strand is created. mRNA STRAND
  • 50. Key: Thymine Adenine DNA STRAND Guanine Cytosine Uracil The DNA strand is read and the mRNA strand is created. mRNA STRAND
  • 51. Key: Thymine Adenine DNA STRAND Guanine Cytosine Uracil End The DNA strand is read and the mRNA strand is created. Codon mRNA STRAND
  • 52. Thymine Adenine DNA STRAND Guanine Cytosine Uracil mRNA STRAND
  • 53. Cytosine Uracil mRNA STRAND
  • 62.
  • 63.
  • 64. mRNA leaves the nucleus and enters the cytoplasm through the nuclear pore. Nuclear pore
  • 65. mRNA leaves the nucleus and enters the cytoplasm through the nuclear pore. Nuclear pore
  • 66. mRNA leaves the nucleus and enters the cytoplasm through the nuclear pore. Nuclear pore
  • 67. mRNA leaves the nucleus and enters the cytoplasm through the nuclear pore. Nuclear pore
  • 68. mRNA leaves the nucleus and enters the cytoplasm through the nuclear pore. Nuclear pore
  • 69. mRNA leaves the nucleus and enters the cytoplasm through the nuclear pore. Nuclear pore
  • 70. mRNA leaves the nucleus and enters the cytoplasm through the nuclear pore. Nuclear pore
  • 71. mRNA leaves the nucleus and enters the cytoplasm through the nuclear pore. Nuclear pore
  • 72. mRNA leaves the nucleus and enters the cytoplasm through the nuclear pore. Nuclear pore
  • 74.
  • 76.
  • 78.
  • 80.
  • 83. Cell Nucleus mRNA strand
  • 85. AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 86. AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 87. M E T. UAC AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 88. M E T. UAC Ribosome AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 89. M E T. Ribosome UAC AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 90. RibosomeM E T. UAC AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 91. Amino Acid M E T. tRNA Anti-Codon UAC AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 92. M E T. UAC AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 93. T H R. UGG M E T. AC AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 94. T H R. UGG M E T. AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 95. T H R. M E T. UGG AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 96. Peptide Bonds M E T. T H R. UGG AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 97. P R O. GGU Peptide Bonds M E T. T H R. UGG AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 98. P R O. Peptide Bonds GGU M E T. T H R. UGG AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 99. Peptide Bonds P R O. M E T. T H R. GGU AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 100. M E T. T H R. P R O. GGU AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 101. M E T. T H R. P R O. GGU AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 102. A S P. UUG M E T. T H R. P R O. GGU AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 103. A S P. M E T. T H R. P R O. UUG GGU AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 104. A S P. M E T. T H R. P R O. UUG AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 105. M E T. T H R. P R O. A S P. UUG AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 106. M E T. T H R. P R O. A S P. UUG AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 107. M E T. T H R. P R O. A S P. UUG AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 108. V A L. CUA M E T. T H R. P R O. A S P. UUG AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 109. V A L. M E T. T H R. P R O. A S P. CUA AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 110. V A L. M E T. T H R. P R O. A S P. CUA AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 111. M E T. T H R. P R O. A S P. V A L. CUA AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 112. M E T. T H R. P R O. A S P. V A L. CUA AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 113. M E T. T H R. P R O. A S P. V A L. CUA AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 114. A L A. CGC M E T. T H R. P R O. A S P. V A L. UA AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 115. A L A. T H R. CGC M E T. P R O. A S P. V A L. AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 116. M E T. T H R. P R O. A S P. V A L. A L A. CGC AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 117. M E T. T H R. P R O. A S P. V A L. A L A. CGC AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 118. M E T. T H R. P R O. A S P. V A L. A L A. CGC AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 119. M E T. T H R. P R O. A S P. V A L. A L A. CGC AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 120. M E T. T H R. P R O. A S P. V A L. A L A. CGC AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 121. A S P. CUA M E T. T H R. P R O. A S P. V A L. A L A. GC AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 122. A S P. T. T H R. P R O. A S P. V A L. A L A. CUA AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 123. T. T H R. P R O. A S P. V A L. A L A. A S P. CUA AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 124. T. T H R. P R O. A S P. V A L. A L A. A S P. CUA AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 125. T. T H R. P R O. A S P. V A L. A L A. A S P. CUA AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 126. S E R. AGC T. T H R. P R O. A S P. V A L. A L A. A S P. CUA AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 127. S E R. AGC T. T H R. P R O. A S P. V A L. A L A. A S P. UA AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 128. T H R. P R O. A S P. V A L. A L A. A S P. S E R. AGC AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 129. T H R. P R O. A S P. V A L. A L A. A S P. S E R. AGC AUG ACCCC AAC GAU GCGGAU UCGCGU AUG A
  • 130. T H R. P R O. A S P. V A L. A L A. A S P. S E R. AGC AUG ACCCC AAC GAU GCGGAU UCGCGU UAG A
  • 131. A R G. GCA T H R. P R O. A S P. V A L. A L A. A S P. S E R. AUG ACCCC AAC GAU GCGGAU UCGCGU UAG A
  • 132. A R G. T H R. P R O. A S P. V A L. A L A. A S P. S E R. GCA AUG ACCCC AAC GAU GCGGAU UCGCGU UAG A
  • 133. H R. P R O. A S P. V A L. A L A. A S P. S E R. A R G. GCA AUG ACCCC AAC GAU GCGGAU UCGCGU UAG A
  • 134. H R. P R O. A S P. V A L. A L A. A S P. S E R. A R G. GCA AUG ACCCC AAC GAU GCGGAU UCGCGU UAG A
  • 135. STOP AUC H R. P R O. A S P. V A L. A L A. A S P. S E R. A R G. AUG ACCCC AAC GAU GCGGAU UCGCGU UAG A
  • 136. STOP AUC H R. P R O. A S P. V A L. A L A. A S P. S E R. A R G. AUG ACCCC AAC GAU GCGGAU UCGCGU UAG A
  • 137. H R. P R O. A S P. V A L. A L A. A S P. S E R. A R G. STOP AUC AUG ACCCC AAC GAU GCGGAU UCGCGU UAG A
  • 138. H R. P R O. A S P. V A L. A L A. A S P. S E R. A R G. STOP AUC AUG ACCCC AAC GAU GCGGAU UCGCGU UAG A
  • 139. H R. P R O. A S P. V A L. A L A. A S P. S E R. A R G. STOP AUC AUG ACCCC AAC GAU GCGGAU UCGCGU UAG A
  • 140. H R. P R O. A S P. V A L. A L A. A S P. S E R. A R G. STOP AUG ACCCC AAC GAU GCGGAU UCGCGU UAG A Stop Codon
  • 142. Summary Both transcription and translation need to occur for proteins to be made. Transcription comes before translation. It begins in the nucleus. The RNA polymerase binds to DNA and codes for the mRNA. The mRNA code leaves the nucleus through the nuclear pore. After it leaves translation starts. The tRNA comes in and the anti-tRNA bonds to the mRNA until the amino acids bond together by peptide bonds. Once ten amino acids come together it forms a protein