Protein synthesis project
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Protein synthesis project

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Protein synthesis project Protein synthesis project Presentation Transcript

  • Nucleus Ribosomes Cytoplasm TAT ATA CT A C AA TTT GA TG A DNA Cell
  • Ribosomes Nucleus T C AAT C AT A C AT T C T A G TAAGA TGTT AGTA DNA Cytoplasm
  • Ribosomes Nucleus Cytoplasm T ACCAAAT T T CCAT T A T GGT T T A A A GGT A A DNA
  • 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 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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.
  • 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.
  • Ribosome G U U U A A A G G U A A Small Subunit A U G
  • 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
  • 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
  • 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.
  • 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.
  • 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
  • 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
  • Ribosome Stop The tRNA then forms a “stop” amino acid and the process ends. Small Subunit
  • Ribosome Stop The amino acid chain then folds on itself. Small Subunit
  • Ribosome Stop The amino acid chain then folds on itself. Small Subunit