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Viruses. Viruses. Extremely small (can only be viewed using an electron microscope) Non-cellular pathogen Core of genetic material – DNA or RNA Surrounded by wall of protective protein Capsid. Viruses – Living or Non - Living. Viruses have none of the characteristics of living things.
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Viruses • Extremely small (can only be viewed using an electron microscope) • Non-cellular pathogen • Core of genetic material – DNA or RNA • Surrounded by wall of protective protein Capsid
Viruses – Living or Non - Living • Viruses have none of the characteristics of living things. • They only respond when they make contact with a suitable host • All types of cells are attacked by viruses – most viruses are specific to one cell type. • Do not have ribosomes, mitochondria or other cytoplasmic organellescannot carry out metabolisms on their own • Must invade host cell to carry out rxn’s
Possess genetic material DNA/RNA Possess protein coat Can replicate (inside a living cell) Non cellular Cannot reproduce by themselves Do not possess ribosomes, mitochondria etc Only have one type of nucleic acid Living Non-Living
A Bacteriophage is a virus that infects bacteria. - Most complex and best studied viruses
Virus Replication * As viruses are not cells the term replication is used instead of reproduction Attachment – virus attaches to a suitable host cell Entry – the whole virus or its nucleic acid enters the host cell
New virus DNA made using bacterial organelles Synthesis – the host nucleic acid is inactivated. The viral nucleic acid uses the host’s organelles to produce new viral nucleic acids and protein Assembly – Viral nucleic acid and proteins come together forming new viruses
Release – host cell bursts to release between 100 and 100,000 new viruses Bursting of host cell is called lysis Bacterium bursts Many viruses released
Retroviruses • Contain RNA instead of DNA • Contain an enzyme that converts virus RNA to DNA DNA then makes new copies of virus RNA and new viruses inside the host cell. • Example: HIV is a retrovirus
Some viruses do not destroy host DNA. Instead the viral DNA joins with the host DNA and remains inactive When the host DNA is copied, the viral DNA is also copied and passed on to the daughter cells. New host cells may behave normally or may produce new chemicals due to the presence of the virus Example : Diphtheria, scarlet fever and botulism
Economic importance of Viruses • Crop damage e.g. mosaic disease of potatoes, tomatoes and tobacco • Livestock diseases e.g. foot and mouth, rabies • Work days lost due to viral infections e.g. flu, colds
Medical Importance of Viruses • Causes disease e.g. cold, cold sores, flu, measels, rubella, mumps, chickenpox, warts, hepatitis, viral meningitis, HIV(AIDS) • Some cancers are caused by viruses • Vaccines – immunisation against viral diseases
Beneficial uses of Viruses • Act as vectors in genetic engineering used to transfer genes from one organism to another. • Biological control : against pest rabbit populations
Control and Immunity • Controlled by the body’s general defence system and specific defence system • Immunity to certain viruses can be induced artificially by vaccination • Antibiotics kill bacteria but have no effect on viruses • Some antiviral drugs are available – they interfere with the virus without affecting the host. E.g. Acyclovir helps treat herpes (cold sores)