19.2.1

Bioinformatics

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Bioinformatics

Bioinformatics the collection & analysis of biological data using technological software. Bioinformatics has led to great accomplishments such as the sequencing of whole genomes in humans & parasites.

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Genome projects

  • Genome projects are used to determine the sequences of the proteins that derive from the genetic code (the proteome).
  • Genome projects are used to identify which genes are responsible for certain inherited diseases.
  • Once the genes involved in disease are determined, potential targets for drug treatment can be identified.
    • Genetic testing is used to identify if an individual has a specific gene that may cause disease.
    • Gene therapy is used to replace defective genes with normal, healthy genes.
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Biotechnology

  • Biotechnology is the process of designing useful biological devices and systems to solve specific problems.
  • Genome projects can help us understand the best designs for biotechnology.
    • E.g. Investigating the genome can help understand disease. This can be used in developing biomedicine.
    • An example is the study of the Plasmodium genome.
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Parasites

  • Sequencing and studying the genome of parasites has also been useful in disease prevention.
    • For example, Plasmodium species are the causative agents of malaria.
    • Studying the Plasmodium genome has lead to the identification of novel drug and research targets.
    • This is important for the development of novel strategies to help limit the spread of the parasite.

The Genome

The genome is the complete set of genes present in an organism. The genome consists of a number of important features:

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Coding genes

  • During transcription and translation, the genes in the genome are read and proteins are synthesised to be used in the cells.
  • The complete set of proteins that are expressed by an organism is called the proteome.
  • Not all genes are used to produce proteins. The genes that contribute to the proteome are called coding genes.
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Non-coding genes

  • Non-coding genes (introns) are sections of the genome that do not encode proteins.
  • There are large sections of non-coding DNA in complex organisms.
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Regulatory genes

  • Complex organisms also have large amounts of regulatory genes.
  • Regulatory genes encode transcription factors and other proteins that interact with the genome.
  • Gene expression is increased or decreased by the proteins encoded by regulatory genes.
  • Regulatory genes are very important in controlling cell processes and ensuring the correct cells are doing the correct function.

Jump to other topics

1Cell Structure

2Biological Molecules

3Enzymes

4Cell Membranes & Transport

5The Mitotic Cell Cycle

6Nucleic Acids & Protein Synthesis

7Transport in Plants

8Transport in Mammals

9Gas Exchange

10Infectious Diseases

11Immunity

12Energy & Respiration (A2 Only)

13Photosynthesis (A2 Only)

14Homeostasis (A2 Only)

15Control & Coordination (A2 Only)

16Inherited Change (A2 Only)

17Selection & Evolution (A2 Only)

18Classification & Conservation (A2 Only)

19Genetic Technology (A2 Only)

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