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Mutations (Section 17-5) Now, that you know how gene expression works, let’s see how changes in the gene affect how the protein is made. Mutations - changes in DNA • Small scale (genes) , large scale (chromosomes) • Basic types: – Substitutions (point mutations) – Insertions – Deletions • Possible resulting effects from a mutation: – Silent mutation – Missense mutation – Nonsense mutation – Frameshift mutation Substitutions • Single nucleotide change. • Possible results: – Silent mutation • no amino acid change • redundancy in code – Missense mutaion • change amino acid • Changes the final protein – Nonsense mutation • change to stop codon • Stopping prematurely Point mutation leads to Sickle cell anemia What kind of mutation? Insertions or Deletions • Adding a nucleotide • Deleting a nucleotide • Results: – Frameshift mutation – a change every amino acid from where the mutation occurred Where would this mutation cause the most change: beginning or end of gene? What’s the value of mutations? A part of an mRNA molecule with the following sequence is being read by a ribosome: 5' CCG-ACG 3' (mRNA). The following activated transfer RNA molecules are available. Two of them can correctly match the mRNA so that a dipeptide can form. tRNA Anticodon Amino Acid GGC CGU UGC Proline Alanine Threonine CCG ACG Glycine Cysteine CGG Alanine The dipeptide that will form will be A. B. C. D. E. cysteine-alanine. proline-threonine. glycine-cysteine. alanine-alanine. threonine-glycine.
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