Josh.godo protein synthesis

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Josh.godo protein synthesis

  1. 1. Protein Synthesis Flip Book By: Josh Godo
  2. 2. Cell Nucleus
  3. 3. Cell Nucleus
  4. 4. Cell Nucleus
  5. 5. Adenine 3 5 Guanine Cytosine Thymine 3 5
  6. 6. Adenine 3 5 Guanine Cytosine Thymine DNA Polyme rase 3 5
  7. 7. Adenine 3 5 Guanine Cytosine Thymine DNA Polyme rase 3 5
  8. 8. Adenine DNA Polyme rase 5 Guanine 3 Cytosine Thymine 3 5
  9. 9. Adenine 3 5 Guanine Cytosine Thymine DNA Polyme rase 3 5
  10. 10. Adenine 3 5 Guanine Cytosine Thymine DNA Polyme rase 3 5
  11. 11. Adenine 3 5 Guanine Cytosine Thymine DNA Polyme rase 3 5
  12. 12. Adenine 5 Guanine 3 Cytosine DNA Polyme rase Thymine 3 5
  13. 13. 3 5 3 5 DNA Polyme rase
  14. 14. Adenine 5 Guanine 3 DNA Polyme rase Cytosine Uricil mRNA Stran Thymine is replaced by Uricil 3 5
  15. 15. mRNA Strand
  16. 16. mRNA Strand
  17. 17. mRNA Strand
  18. 18. mRNA Strand Cell Nucleus Small Subunit Large subunit Ribosomes
  19. 19. mRNA Strand Cell Nucleus Small Subunit Large subunit Ribosomes
  20. 20. mRNA Strand Cell Nucleus Small Subunit Large subunit Ribosomes
  21. 21. Nuclear Pore mRNA Strand Cell Nucleus Small Subunit Large subunit Ribosomes
  22. 22. mRNA Strand Cell Nucleus Small Subunit Large subunit Ribosomes
  23. 23. mRNA Strand Cell Nucleus Small Subunit Large subunit Ribosomes
  24. 24. ATGCGTTAAGACTAG Start Codon Codon Codon Codon Stop Codon
  25. 25. ATGCGTTAAGACTAG
  26. 26. ATGCGTTAAGACTAG
  27. 27. TAC ATGCGTTAAGACTAG
  28. 28. Amino Acid TAC Anti-Codon ATGCGTTAAGACTAG
  29. 29. TAC ATGCGTTAAGACTAG
  30. 30. T A CG C A ATGCGTTAAGACTAG
  31. 31. T A CG C A ATGCGTTAAGACTAG
  32. 32. T A CG C A A T T ATGCGTTAAGACTAG
  33. 33. TACGCA ATT ATGCGTTAAGACTAG
  34. 34. TACGCA ATT ATGCGTTAAGACTAG
  35. 35. Peptide bond is formed TAC GCA ATT ATGCGTTAAGACTAG
  36. 36. TAC GCA ATT ATGCGTTAAGACTAG
  37. 37. TAC GCA ATT ATGCGTTAAGACTAG
  38. 38. TAC GCA ATTCTG ATGCGTTAAGACTAG
  39. 39. TAC GCAATT CTG ATGCGTTAAGACTAG
  40. 40. TAC GCA ATTCTG ATGCGTTAAGACTAG
  41. 41. TACGCA ATTCTG ATGCGTTAAGACTAG
  42. 42. tRNA TACGCA ATTCTG This is the stop codon TAG ATGCGTTAAGACTAG
  43. 43. TACGCA ATTCTG ATGCGTTAAGACTAG
  44. 44. TACGCA ATTCTG ATGCGTTAAGACTAG
  45. 45. TACGCA ATTCTG ATGCGTTAAGACTAG
  46. 46. TACGCA ATTCTG ATGCGTTAAGACTAG
  47. 47. Tertiary structure TACGCA ATTCTG ATGCGTTAAGACTAG
  48. 48. • The first steps of protein synthesis starts in the nucleus of the cell. Inside the nucleus, the double helix DNA is unwound by RNA polymerase. Once it is unwound an mRNA strand is made in the nucleus. After it is made it starts to move out of the nucleus and into the cytoplasm where the ribosomes are located. The mRNA makes its way to the ribosomes and the ribosomes read the strand of mRNA. While it is being read, amino acids are coming in and attaching to one another through peptide bonds. After 5 are bonded to each other, they break off and fold into the tertiary structure.

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