Protein Synthesis

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    • Proteins:
      • Made by joining amino acids together in a specific order
      • Job of small cell organelles called ribosomes
    • Gene:
      • A section of DNA that codes for the production of a protein
    • How does a ribosome ‘ know’ which amino acids to join together?
      • The sequence of bases on the DNA acts as a code
      • This ‘genetic code’ is based on non-overlapping groups of 3 bases called triplets
      • Each triplet translates to a different amino acid
    • A-T
      C-G
    • T- thymine
    • A - Adenine
    • G - guanine
    • C - cytosine
    • If the DNA is too big to leave the nucleus, how is the triplet code ’communicated’?

      RNA
    • Triplet of bases on mRNA: CODON
    • Triplet of bases on tRNA: ANTICODON
    • tRNA pair up with the mRNA codons
    • Ribosomes attaches to the messenger RNA
    • Ribosomes has enzymes in it which allows the peptide bond to form
    • Changes in DNA bases happen all the time - mutating
      • Can have negative consequences ie. uncontrolled division can become cancerous
      • Xrays, ultra-violet radiation etc increase mutation rate
      • There are some base changes which don’t change the sequence therefore it won’t cause a problem
      We can change genes by changing the DNA
    • Proteins can be broken down into their constituent amino acids using proteases.
    • When all the amino acids have been joined together, the polypeptide chain folds into its correct shape (protein)
    • Gene therapy is where we replace faulty genes with good ones
    • The folding process is called protein synthesis
    • Translation occurs at ribosomes.
    • The process of protein synthesis is called translation because the genetic code is translated from nucleotides to amino acids.
    • Different amino acid sequences produce different proteins
    • Transcription - the DNA bases are used to make a strand of RNA (ribonucleic acid)
    • Translation -
      • mRNA strands travel out of the nucleus
      • mRNA attach to ribosomes in cytoplasm
      • A ribosome moves along an mRNA strand three bases at a time - triplet base called a codon
      • At each codon a molecule of transfer RNA (tRNA) with complementary bases lines up
      • tRNA molecule carries a specific amino acid
      • As the ribosome moves along it joins the amino acids from the tRNA molecules together, forming a polypeptide
    • Mutation - change in the DNA of a cell
      • Can change the sequence of the amino acid: called frame shift mutation
      • Some mutations had no effect
    • Mutations in non-coding DNA:
      • The first stage of protein synthesis is attachment of RNA polymerase to a non-coding region of DNA in front of the gene
      • If this non-coding region mutates RNA polymerase cannot attach and less protein is produced
      • In some instances the mutation in the non-coding region makes it easier for RNA polymerase to attach and more protein is produced
    • Mutation rates can be increased by:
      • Ionising radiation (UV, Xrays)/radioactive sources
      • Certain chemicals (cigarette smoke, mustard gas, nitrous oxide)
      • Rapidly dividing cells will mutate more rapidly
      Effects:
      • Mostly harmful
      • In reproductive cells, the mutation can pass to the next generation (genetic disease)
      • In body cells mutation is lost when an organism dies
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