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  1. 1-biological-molecules

    1-1-biological-molecules-carbohydrates
    11 主题
  2. 1-2-biological-molecules-lipids
    3 主题
  3. 1-3-biological-molecules-proteins
    5 主题
  4. 1-4-proteins-enzymes
    12 主题
  5. 1-5-nucleic-acids-structure-and-dna-replication
    8 主题
  6. 1-6-atp-water-and-inorganic-ions
    4 主题
  7. 2-cell-structure
    2-1-cell-structure
    7 主题
  8. 2-2-the-microscope-in-cell-studies
    4 主题
  9. 2-3-cell-division-in-eukaryotic-and-prokaryotic-cells
    8 主题
  10. 2-4-cell-membranes-and-transport
    7 主题
  11. 2-5-cell-recognition-and-the-immune-system
    7 主题
  12. 2-6-vaccines-disease-and-monoclonal-antibodies
    6 主题
  13. 3-exchange-and-transport
    3-1-adaptations-for-gas-exchange
    6 主题
  14. 3-2-human-gas-exchange
    10 主题
  15. 3-3-digestion-and-absorption
    5 主题
  16. 3-4-mass-transport-in-animals
    6 主题
  17. 3-5-the-circulatory-system-in-animals
    8 主题
  18. 3-6-mass-transport-in-plants
    6 主题
  19. 4-genetics-variation-and-interdependence
    4-1-dna-genes-and-chromosomes
    7 主题
  20. 4-2-dna-and-protein-synthesis
    6 主题
  21. 4-3-genetic-diversity-mutations-and-meiosis
    7 主题
  22. 4-4-genetic-diversity-and-adaptation
    6 主题
  23. 4-5-species-and-taxonomy
    4 主题
  24. 4-6-biodiversity
    9 主题
  25. 5-energy-transfers-in-and-between-organisms-a-level-only
    5-1-photosynthesis-a-level-only
    5 主题
  26. 5-2-respiration-a-level-only
    7 主题
  27. 5-3-energy-and-ecosystems-a-level-only
    9 主题
  28. 5-4-nutrient-cycles-a-level-only
    4 主题
  29. 6-organisms-respond-to-changes-in-their-environments-a-level-only
    6-1-response-to-stimuli-a-level-only
    12 主题
  30. 6-2-nervous-coordination-a-level-only
    10 主题
  31. 6-3-skeletal-muscles-a-level-only
    6 主题
  32. 6-4-homeostasis-a-level-only
    11 主题
  33. 7-genetics-populations-evolution-and-ecosystems-a-level-only
    7-1-inheritance-a-level-only
    6 主题
  34. 7-2-populations-a-level-only
    3 主题
  35. 7-3-evolution-a-level-only
    5 主题
  36. 7-4-populations-in-ecosystems-a-level-only
    7 主题
  37. 8-the-control-of-gene-expression-a-level-only
    8-1-genetic-mutations-a-level-only
    2 主题
  38. 8-2-regulation-of-gene-expression-a-level-only
    11 主题
  39. 8-3-using-genome-projects-a-level-only
    4 主题
  40. 8-4-gene-technologies-a-level-only
    13 主题
  41. exam-guidance-and-skills
    essay-guidance
    3 主题
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The effect of genetic mutations

  • Mutations occur spontaneously and randomly during DNA replication

  • As the DNA base sequence determines the sequence of amino acids that make up a protein, mutations in a gene can sometimes lead to a change in the amino acid sequence coded for by the gene

  • Most mutations do not alter the polypeptide or only alter it slightly, so that its structure or function is not changed

  • As the genetic code is degenerate, some mutations will not cause a change in the amino acid sequence

    • For example, substitution mutations are the mutations that usually have a smaller effect on the resultant polypeptide

  • Some gene mutations change all base triplets downstream from (after) the mutation, which will result in a non-functional polypeptide

    • For example, insertion and deletion mutations result in a frameshift

 The effect of gene mutations on polypeptides 

  • Most mutations do not alter the polypeptide or only alter it slightly so that its appearance or function is not changed

  • However, a small number of mutations code for a significantly altered polypeptide with a different shape

  • This may affect the ability of the protein to perform its function. For example:

    • If the shape of the active site on an enzyme changes, the substrate may no longer be able to bind to the active site

    • A structural protein (like collagen) may lose its strength if its shape changes

The effect of gene mutations on phenotype

  • Polypeptides affect the phenotype of an organism via specific cellular mechanisms

  • If a mutation causes a major alteration in a polypeptide, then cellular mechanisms could be affected, which may impact the phenotype of the organism

  • For example, a mutation in the TYR gene in humans affects the structure of an enzyme that is needed for the production of the pigment melanin

    • The phenotype of humans is affected by the lack of melanin

    • Individuals with the mutation have albinism, characterised by very pale skin, and often white hair

Causes of mutations

  • The rate at which mutations occur can be estimated as around one mutation per 100,000 genes per generation

  • Mutagenic agents are factors that increase the frequency of mutations in DNA; they include

    • physical mutagens, which cause mutations through physical means, typically involving radiation such as ionising radiation (e.g. X-rays, gamma rays)

    • chemical mutagens, which interfere with the DNA molecules chemically

    • biological mutagens, which are organisms or biological molecules that interfere with DNA, such as viruses (e.g. HPV can lead to cervical cancer)

  • Exposure to mutagenic agents can increase the rate of mutation

Examiner Tips and Tricks

Do not confuse mutagenic agents with carcinogens (agents that cause cancer). Whilst some carcinogens do cause mutations in DNA, a mutagen might cause DNA mutations without leading to cancer.