Your SlideShare is downloading. ×
0
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Sammy Gigliotti's Protein synthesis flipbook
Upcoming SlideShare
Loading in...5
×

Thanks for flagging this SlideShare!

Oops! An error has occurred.

×
Saving this for later? Get the SlideShare app to save on your phone or tablet. Read anywhere, anytime – even offline.
Text the download link to your phone
Standard text messaging rates apply

Sammy Gigliotti's Protein synthesis flipbook

73

Published on

Published in: Education
0 Comments
0 Likes
Statistics
Notes
  • Be the first to comment

  • Be the first to like this

No Downloads
Views
Total Views
73
On Slideshare
0
From Embeds
0
Number of Embeds
0
Actions
Shares
0
Downloads
2
Comments
0
Likes
0
Embeds 0
No embeds

Report content
Flagged as inappropriate Flag as inappropriate
Flag as inappropriate

Select your reason for flagging this presentation as inappropriate.

Cancel
No notes for slide

Transcript

  1. Protein Synthesis By Sammy Gigliotti
  2. DNA Nucleus Cytoplasm Cell
  3. DNA Nucleus Cytoplasm
  4. DNA Nucleus Cytoplasm
  5. DNA Nucleus
  6. DNA Nucleus
  7. DNA Nucleus
  8. DN Nucleus
  9. DN Nucleus
  10. Protein Synthesis takes place inside of the DNA DN Nucleus
  11. RNA polymerase binds on to the DNA double helix and adds the complementary nucleotides. ~~~~~~~~~~~~~~~~~~~~T A C A G G C A A C A C A C T ~~~~~~~~~~~~~~~~~~~~ ~~~~~~~~~~~~~~~~~~~ A T G T C C G T T G T G T G A~~~~~~~~~~~~~~~~~~~~
  12. A T RNA polymerase binds on to the DNA double helix and adds the complementary nucleotides. ~~~~~~~~~~~~~~~~~~~~T A C A G G C A A C A C A C T ~~~~~~~~~~~~~~~~~~~~ ~~~~~~~~~~~~~~~~~~~ A T G T C C G T T G T G T G A~~~~~~~~~~~~~~~~~~~~
  13. A U G RNA polymerase binds on to the DNA double helix and adds the complementary nucleotides. U ~~~~~~~~~~~~~~~~~~~~T A C A G G C A A C A C A C T ~~~~~~~~~~~~~~~~~~~~ ~~~~~~~~~~~~~~~~~~~ A T G T C C G T T G T G T G A~~~~~~~~~~~~~~~~~~~~
  14. A U G U G RNA polymerase binds on to the DNA double helix and adds the complementary nucleotides. G ~~~~~~~~~~~~~~~~~~~~T A C A G G C A A C A C A C T ~~~~~~~~~~~~~~~~~~~~ ~~~~~~~~~~~~~~~~~~~ A T G T C C G T T G T G T G A~~~~~~~~~~~~~~~~~~~~
  15. A U RNA polymerase binds on to the DNA double helix and adds the complementary nucleotides. G U G G ~~~~~~~~~~~~~~~~~~~~T A C A G G C A A C A C A C T ~~~~~~~~~~~~~~~~~~~~ ~~~~~~~~~~~~~~~~~~~ A T G T C C G T T G T G T G A~~~~~~~~~~~~~~~~~~~~
  16. U G U G G C A A RNA polymerase binds on to the DNA double helix and adds the complementary nucleotides. ~~~~~~~~~~~~~~~~~~~~T A C A G G C A A C A C A C T ~~~~~~~~~~~~~~~~~~~~ ~~~~~~~~~~~~~~~~~~~ A T G T C C G T T G T G T G A~~~~~~~~~~~~~~~~~~~~
  17. U G U UG U G U RNA polymerase binds on to the DNA double helix and adds the complementary nucleotides. ~~~~~~~~~~~~~~~~~~~~T A C A G G C A A C A C A C T ~~~~~~~~~~~~~~~~~~~~ ~~~~~~~~~~~~~~~~~~~ A T G T C C G T T G T G T G A~~~~~~~~~~~~~~~~~~~~
  18. U G U UG RNA polymerase binds on to the DNA double helix and adds the complementary nucleotides. U G U G U G A ~~~~~~~~~~~~~~~~~~~~T A C A G G C A A C A C A C T ~~~~~~~~~~~~~~~~~~~~ ~~~~~~~~~~~~~~~~~~~ A T G T C C G T T G T G T G A~~~~~~~~~~~~~~~~~~~~
  19. U U UG U G U G U G A RNA polymerase binds on to the DNA double helix and adds the complementary nucleotides. ~~~~~~~~~~~~~~~~~~~~T A C A G G C A A C A C A C T ~~~~~~~~~~~~~~~~~~~~ ~~~~~~~~~~~~~~~~~~~ A T G T C C G T T G T G T G A~~~~~~~~~~~~~~~~~~~~
  20. G U G U G A RNA polymerase binds on to the DNA double helix and adds the complementary nucleotides. ~~~~~~~~~~~~~~~~~~~~T A C A G G C A A C A C A C T ~~~~~~~~~~~~~~~~~~~~ ~~~~~~~~~~~~~~~~~~~ A T G T C C G T T G T G T G A~~~~~~~~~~~~~~~~~~~~
  21. G U G A RNA polymerase binds on to the DNA double helix and adds the complementary nucleotides. ~~~~~~~~~~~~~~~~~~~~T A C A G G C A A C A C A C T ~~~~~~~~~~~~~~~~~~~~ ~~~~~~~~~~~~~~~~~~~ A T G T C C G T T G T G T G A~~~~~~~~~~~~~~~~~~~~
  22. RNA polymerase binds on to the DNA double helix and adds the complementary nucleotides. ~~~~~~~~~~~~~~~~~~~~T A C A G G C A A C A C A C T ~~~~~~~~~~~~~~~~~~~~ ~~~~~~~~~~~~~~~~~~~ A T G T C C G T T G T G T G A~~~~~~~~~~~~~~~~~~~~
  23. mRNA strand leaving the nucleus. DNA Nucleus Cytoplasm Cell Nuclear pore
  24. mRNA strand leaving the nucleus. DNA Nucleus Cytoplasm Cell Nuclear pore
  25. mRNA strand leaving the nucleus. DNA Nucleus Cytoplasm Cell Nuclear pore
  26. mRNA strand leaving the nucleus. DNA Nucleus Cytoplasm Cell Nuclear pore
  27. mRNA strand leaving the nucleus. DNA Nucleus Cytoplasm Cell Nuclear pore
  28. mRNA strand enters the cytoplasm and heads towards the ribosomes DNA Nucleus Nuclear pore Cytoplasm Ribosomes Cell
  29. mRNA strand enters the cytoplasm and heads towards the ribosomes DNA Nucleus Nuclear pore Cytoplasm Ribosomes Cell
  30. mRNA strand enters the cytoplasm and heads towards the ribosomes DNA Nucleus Nuclear pore Cytoplasm Ribosomes Cell
  31. Large and small subunits of a ribosome binding with mRNA Large Subunit Ribosome A U G G U U U A A A G C U A A
  32. Large and small subunits of a ribosome binding with mRNA Large Subunit Ribosome A U G G U U U A A A G C U A A
  33. Large and small subunits of a ribosome binding with mRNA Large Subunit Ribosome A U G G U U U A A A G C U A A
  34. Large and small subunits of a ribosome binding with mRNA Large Subunit Ribosome A U G G U U U A A A G C U A A
  35. Large and small subunits of a ribosome binding with mRNA Large Subunit Ribosome A U G G U U U A A A G C U A A
  36. Large and small subunits of a ribosome binding with mRNA Large Subunit Ribosome A U G G U U U A A A G C U A A
  37. Large and small subunits of a ribosome binding with mRNA Large Subunit Ribosome A U G G U U U A A A G C U A A
  38. Large and small subunits of a ribosome binding with mRNA. The polypeptide chain is forming. Large Subunit Ribosome A U G G U U U A A A G C U A A
  39. Large and small subunits of a ribosome binding with mRNA. The polypeptide chain is forming. Large Subunit Ribosome A U G G U U U A A A G C U A A
  40. Large and small subunits of a ribosome binding with mRNA. The polypeptide chain is forming. Large Subunit Ribosome A U G G U U U A A A G C U A A
  41. Large and small subunits of a ribosome binding with mRNA. The polypeptide chain is forming. Large Subunit Ribosome A U G G U U U A A A G C U A A
  42. Large and small subunits of a ribosome binding with mRNA. The polypeptide chain is forming. Large Subunit Ribosome A U G G U U U A A A G C U A A
  43. Large and small subunits of a ribosome binding with mRNA. The polypeptide chain is forming. Large Subunit Ribosome A U G G U U U A A A G C U A A
  44. The ribosome stops translation when it reaches the stop codon. Large Subunit Ribosome A U G G U U U A A A G C U A A
  45. The ribosome stops translation when it reaches the stop codon. Large Subunit Ribosome A U G G U U U A A A G C U A A
  46. The amino acid strand folds into a tertiary structure. Large Subunit Ribosome A U G G U U U A A A G C U A A
  47. The amino acid strand folds into a tertiary structure. Large Subunit Ribosome A U G G U U U A A A G C U A A
  48. The amino acid strand folds into a tertiary structure. Large Subunit Ribosome A U G G U U U A A A G C U A A
  49. The amino acid strand is made into a protein. Large Subunit Ribosome A U G G U U U A A A G C U A A
  50. Summary • A summary of protein synthesis is the information on DNA is copied onto an mRNA strand, which then leaves the nucleus and goes into a ribosome. Then, in the ribosome, a tRNA molecule brings an amino acid that is coded for by codons on the mRNA. Amino acids are bonded together as the mRNA moves through the ribosome. Amino acids joined together make a protein, which is why it is called protein synthesis.

×