Protein synthesis project

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Protein synthesis project

  1. 1. Nucleus Ribosomes Cytoplasm TAT ATA CT A C AA TTT GA TG A DNA Cell
  2. 2. Ribosomes Nucleus T C AAT C AT A C AT T C T A G TAAGA TGTT AGTA DNA Cytoplasm
  3. 3. Ribosomes Nucleus Cytoplasm T ACCAAAT T T CCAT T A T GGT T T A A A GGT A A DNA
  4. 4. T A C C A A A T T T C C A T T A T G G T T T A A A G G T A A
  5. 5. RNA Polymerase unwinds the DNA strand, creating an mRNA strand. T A C C A A A T T T C C A T T A T G G T T T A A A G G T A A RNA Polymerase
  6. 6. RNA Polymerase unwinds the DNA strand, creating an mRNA strand. T A C C A A A T T T C C A T T G G T T T A A A G G T A A RNA Polymerase A T
  7. 7. RNA Polymerase unwinds the DNA strand, creating an mRNA strand. T A C C A A A T T T C C A T T T T T A A A G G T A A RNA Polymerase A T G G
  8. 8. RNA Polymerase unwinds the DNA strand, creating an mRNA strand. T A C C A A A T T T C C A T T T A A A G G T A A RNA Polymerase A T G G T T
  9. 9. RNA Polymerase unwinds the DNA strand, creating an mRNA strand. T A C C A A A T T T C C A T T A A G G T A A RNA Polymerase A T G G T T T A
  10. 10. RNA Polymerase unwinds the DNA strand, creating an mRNA strand. T A C C A A A T T T C C A T T G G T A A RNA Polymerase A T G G T T T A A A
  11. 11. RNA Polymerase unwinds the DNA strand, creating an mRNA strand. T A C C A A A T T T C C A T T T A A RNA Polymerase A T G G T T T A A A G G
  12. 12. RNA Polymerase unwinds the DNA strand, creating an mRNA strand. T A C C A A A T T T C C A T T A A RNA Polymerase A T G G T T T A A A G G T
  13. 13. RNA Polymerase unwinds the DNA strand, creating an mRNA strand. T A C C A A A T T T C C A T T RNA Polymerase A T G G T T T A A A G G T A A
  14. 14. The mRNA strand then breaks off and goes to the cytoplasm through the nuclear pore. T A C C A A A T T T C C A T T RNA Polymerase A T G G T T T A A A G G T A A
  15. 15. The mRNA strand then breaks off and goes to the cytoplasm through the nuclear pore. T A C C A A A T T T C C A T T A T G G T T T A A A G G T A A
  16. 16. The DNA strand then reforms back into its double helix state. C T A T A A T T T C C A T T G T T T A A A G G T A A C A A G
  17. 17. The DNA strand then reforms back into its double helix state. A T A C C A T G G T T T C C A T T T A A A G G T A A A A T T
  18. 18. The DNA strand then reforms back into its double helix state. T T A C C A A A T T G G T T T A C A T T A G G T A A T A C A
  19. 19. The DNA strand then reforms back into its double helix state. A T A C C A A A T T T C T G G T T T A A A G T T A A C A T G
  20. 20. The DNA strand then reforms back into its double helix state. T A C C A A A T T T C C A T T A T G G T T T A A A G G T A A
  21. 21. The DNA strand then reforms back into its double helix state. T A C C A A A T T T C C A T T A T G G T T T A A A G G T A A
  22. 22. The DNA strand then reforms back into its double helix state. T A C C A A A T T T C C A T T A T G G T T T A A A G G T A A
  23. 23. T ACCAAAT T T CCAT T A T GGT T T A A A GGT A A The mRNA strand then goes into the ribosome.
  24. 24. T ACCAAAT T T CCAT T A T GGT T T A A A GGT A A The mRNA strand then goes into the ribosome.
  25. 25. Ribosome G U U U A A A G G U A A Small Subunit A U G
  26. 26. Ribosome The tRNA molecule then binds on to the codon with the corresponding anti-codon. Methionine G U U U A A A G G U A A Small Subunit U A C A U G
  27. 27. Ribosome After the tRNA molecule binds with the codon, the amino acid releases from tRNA. Glutamine U A A A G G U A A Small Subunit A U G C A A G U U
  28. 28. Ribosome The process of the tRNA binding on the codon repeats for each codon. Isoleucine G U U A G G U A A Small Subunit G A U U U A A The amino acid that is release then joins onto the previous amino acid by forming a peptide bond.
  29. 29. Ribosome The process of the tRNA binding on the codon repeats for each codon. Serine U A A U A A Small Subunit U U C C A G G The amino acid that is release then joins onto the previous amino acid by forming a peptide bond.
  30. 30. Ribosome The process of the tRNA binding on the codon repeats for each codon. The amino acid that is release then joins onto the previous amino acid by forming a peptide bond. Serine U A A U A A Small Subunit U U C C A G G
  31. 31. The tRNA then forms a “stop” amino acid and the process ends. Stop A G G U A A U A A Small Subunit A A Ribosome
  32. 32. Ribosome Stop The tRNA then forms a “stop” amino acid and the process ends. Small Subunit
  33. 33. Ribosome Stop The amino acid chain then folds on itself. Small Subunit
  34. 34. Ribosome Stop The amino acid chain then folds on itself. Small Subunit

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