Using Genome Projects

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Created by
Samuel Bulmer

Cards (7)

  • Define Genome:
    The complete set of genes in a cell
  • Define Proteome:
    The full range of proteins that a cell can produce (coded for by the cell’s DNA / genome)
  • What is genome sequencing and why is it important?
    ● Identifying the DNA base sequence of an organism’s genome
    ● So amino acid sequences of proteins that derive from an organism’s genetic code can be determined
  • Explain how determining the genome of a pathogen could allow vaccines to be developed:
    ● Could identify the pathogen’s proteome
    ● So could identify potential antigens (proteins that stimulate an immune response) to use in the vaccine
  • Suggest some other potential applications of genome sequencing projects:
    ● Identification of genes / alleles associated with genetic diseases / cancers
    ○ New targeted drugs / gene therapy can be developed
    ○ Can screen patients, allowing early prevention / personalised medicine
    ● Identification of species and evolutionary relationships
  • Explain why the genome cannot be directly translated into the proteome in complex organisms:
    ● Presence of non-coding DNA (eg. introns within genes do not code for polypeptides)
    ● Presence of regulatory genes (which regulate expression of other genes, eg. by coding for miRNA)
  • Describe how sequencing methods are changing:
    ● They have become automated (so are faster, more cost-effective and can be done on a larger scale)
    ● They are continuously updated