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Module Two: Life at a Molecular,
       Cellular and Tissue Level
                      Paper One
• Owing to evolution, we have a large diversity of life on planet
  Earth. The earliest organisms that were thought to have developed
  were viruses, protists, bacteria and fungi. These are the organisms
  we will be focussing on. They:
   – Are an extremely diverse group found in virtually all of the planet’s
     environments.
   – Occur in vast numbers.
   – Vary in size. Some are micro-organisms (microbes) while others are
     macro-organisms (e.g. fungi and some algae).
   – Can be acellular (fungi) or cellular (bacteria, protists, fungi)
   – Cellular forms can be prokaryotes (bacteria) or eukaryotes (protists and
     fungi)
   – Unicellular, or form colonies of similar cells, or are made of primitive
     tissue.
• Micro-organisms can be useful.
• Pathogenic/non-pathogenic:
   – Pathogenic (disease-causing), i.e. germs
   – Non-pathogenic (harmless to plants and animals).
• Viruses can infect animals, plants and even bacteria.
• Viruses are not included in the major plant kingdoms.
• Viruses were discovered after bacteria, as they are smaller
  and can only be seen by an electron microscope.
• In 1900, a Dutch scientist became the first to discover and
  investigate viruses. He did experiments on tobacco plants
  suffering from mosaic disease.
• The word ‘virus’ is Latin, meaning ‘poison’.
• In 1940, more experiments could be carried out due to the
  development of the electron microscope.
• Exist in two distinct states: a virus (when active) and a virion
  (when dormant and not in contact with a host cell).
• Can also remain dormant within an organism (latency).
• A viriod (NOT VIRION) is an infectious RNA particle that
  resembles a virus – but is smaller.
• Are not really living: they don’t respire, eat, excrete, grow or
  move on their own.
• Viruses are obligate intracellular parasites and can only survive
  inside the cells.
• Can only reproduce within a living cell, or when the viral nucleic
  acids use the host cell material to replicate.
• Associated with disease. After the virus leaves the host cell, the
  host cell is destroyed.
• A virus is acellular, i.e. it is NOT a cell
envelope
              as it has no nucleus, cytoplasm or
              organelles.
            • Viruses have a simple structure
DNA/RNA
              consisting of a core of DNA or RNA,
              but not both. The DNA/RNA is not
              contained in a nuclear membrane.
            • The nucleic acid is surrounded by a
 Capsid
              protein coat or capsid,
            • In some viruses, the capsid is covered
              by an envelope of a lipid bilayer.
• Viruses can have different shapes:
   – Polyhedral
      cubical
      e.g. adenovirus

   – Helical
      spiral cylinder
      e.g. tobacco virus

   – Complex
      tadpole-like
      e.g. bacteriophage
1) Adsorption
Virus approaches a cell.
2) Penetration
Virus attaches to the cell, injecting
nucleic acid into the cell. Capsid left
outside cell.
3) Latent phase
Virus multiplies its nucleic acid using
materials from the host cell.
4) Lysis
Protein coats form around strands of
nucleic acid. The cell releases viruses.
Viruses, bacteria, protists and fungi
• Host cells are affected in three ways:
   – The host cells may be destroyed. They may swell and burst, as with
     nerve cells infected with the rabies virus.
   – The host cells may not be able to function correctly, e.g. ciliated
     epithelial cells infected with the influenza virus.
   – The virus can interact with the host cell’s chromosomes causing a
     mutation, e.g. warts and cancer cells.
• The immune system becomes activated in order to fight the
  infection. This may lead to fever, tiredness or an opportunistic
  disease.
• HIV/Aids is the most serious disease facing the world today.
  South Africa has the highest prevalence of HIV in the world;
  18% of the adult population is infected with HIV.
• Human Immunodeficiency Virus (HIV) affects the immune
  system because it is specialised to infect CD4 cells (helper T
  lymphocytes ), which play a significant role in immunity.
• As it effects the immune system, the infected individual is
  prone to many new ‘opportunistic diseases’, which the
  immune system is too weak to fight off. This can kill the
  individual if certain procedures aren’t adhered to.
Physical effects:
• Weakened immune system, resulting in fatigue, weight loss,
  frequent fevers and sweats, fungal infections, shingles (nerve
  disease), skin rashes and flaky skin, diarrhoea, spots or
  blemishes on tongue, in mouth or throat.
• When the CD4 count is less than 200 cells/ml blood (normal is
  600-1200), it is said that the illness has progressed to full-
  blown AIDS (Acquired Immune Deficiency Syndrome).
• At this point, many viruses, bacteria, fungi and protozoa are
  able to invade the body. Other infections could include drug
  resistant TB, cancer and pneumonia as well as memory loss,
  depression and other neurological disorders.
• Economic Effects
   – The affected family will lose money as the ill person may be unable to
     work, for the travel costs to clinics and dispensaries and burial costs.
   – The country loses money as many productive people are sick and
     unable to work. The government has to spend money on medication
     as well as maintaining health facilities and staff.
   – In countries which are badly affected by HIV/AIDS, such as ours, such
     costs can slow down economic growth.
• Emotional Effects
   – Feelings of depression, loneliness and ostracism as there is often a
     stigma attached to HIV/AIDS.
   – Families are being destroyed. Orphaned children may become heads
     of houses or would have to live with other family.
• Awareness of one’s HIV status is the first step.
• Treatment with a combination of anti-retrovirals (ARV’s).This
  doesn’t cure HIV but slows down viral replication, allowing the
  immune system to recover and helping the individual to feel
  healthy again.
• Monitoring the viral load (amount of HIV in one’s blood) enables
  medical staff to adjust the combination of ARV’s.
• Treat opportunistic infections immediately.
• Boost the immune system.
• Care for the mental and emotional health of sufferers.
• Sensible financial planning.
• Giving ARV’s to pregnant women to reduce the chance of
  infecting the baby.
• Drug-resistance is the ability of disease-causing viruses to
  continue multiplying, despite the presence of drugs which
  usually kill them.
• ARV’s consist of a ‘cocktail’ of various classes of drugs, specific
  to the stage of the disease, to attack the viruses at different
  stages of it’s replication.
• If the virus is allowed to multiply it would do so rapidly, blocking
  the working of the ARV’s, and becoming drug resistant.
• This is caused by not taking the drugs exactly as prescribed,
  poor absorption of the ARV’s or unsafe sex with a drug-resistant
  HIV positive person.
1.   HIV locater spikes attach to
     receptor proteins of CD4 cell
2.   HIV cell RNA penetrates CD4 cell,
     shedding protein coat.
3.   RNA enters cell. Reverse
     transcriptase enzyme uses a single
     strand of RNA to create a double
     strand of DNA, destroying RNA.
4.   Viral DNA enters nucleus, joining
     with cell. It reprograms the cell
     DNA to form viral RNA.
5.   Cell stops normal functions, and
     instead becomes a factory,
     sending out replicas of the virus.
• Ancestors of current bacteria were unicellular micro-organisms
  which were the first forms of life to develop on earth, 4 billion
  years ago. They belong to the kingdom Monera.
• The idea of micro-organisms and pathogens which cannot be seen
  with the naked eye, dates back to 400AD Rome.
• Bacteria was only officially discovered in the 17th century, after
  the invention of a microscope.
• Bacteria are the most diverse and abundant group of organisms
  on Earth. They inhabit practically all environments on earth.
  Some, extremophiles, thrive in climatic or environmental
  extremes, e.g. intense heat or intense cold.
• Bacteria are mostly useful, but some cause disease.
• Bacteria are unicellular and are among the smallest organisms.
• In favourable conditions, bacteria will reproduce rapidly by binary
  fission, an asexual process whereby one bacteria can split into
  two every 10-15 minutes.
• In unfavourable conditions, bacteria may survive by becoming
  dormant. They form spores with a thick, protective coat around
  them, which will split open in favourable conditions.
• Endospores are spores created by a small group of bacteria. They
  are specialized to withstand unfavourable conditions. They can
  survive for thousands of years and can cause diseases such as
  tetanus and anthrax.
• Bacteria vary in shape and can be
  classified accordingly:
   –   Spherical bacteria are called cocci
   –   Rod-shaped bacteria are called bacilli
   –   Spiral shaped bacteria are called spirilla
   –   Comma-shaped bacteria are called
       vibrios.


• Can occur singly, in chains
  (streptococcus) or in clumps
  (staphylococcus).
Viruses, bacteria, protists and fungi
• Bacteria are unicellular and are made up of simple cells, but can
  carry out all the functions of living organisms.
• Have a rigid cell wall which consists of large peptidoglycan*
  molecules.
• They have a plasma membrane, which serves as a mitochondrion,
  endoplasmic reticulum and sometimes a chloroplast. Also controls
  exit and entry of materials.
• As prokaryotes, they do not have a true nucleus. This is because
  they do not have a true nuclear membrane and the DNA isn’t
  combined with the protein found in eukaryotes.
• Single chromosome of DNA – closed loop.
• Pathogenic bacteria have a waxy capsule.
• Some bacteria have flagella to enable them to move around.
Viruses, bacteria, protists and fungi
Viruses, bacteria, protists and fungi
Pathogenic bacteria infect our bodies in order to get food.
They may:
• Destroy body cells which are then used as a source of food.
• Absorb material directly from body fluids such as blood.
• Release harmful substances, called toxins. Toxins may:
   – Cause symptoms like a rash or a high temperature.
   – Block metabolic pathways in the host cells which can have a
     devastating effect on the body.
• TB is a chronic infection caused by myocardium tuberculosis, aka
  the TB bacillus. It is covered in a waxy layer which protects it
  from drying out, heat, and being destroyed by the immune
  system.
• It affects all organs, including the brain and bones, but especially
  the lungs. This is called pulmonary tuberculosis.
• It is highly contagious and is spread by moisture droplets.
• After infection one of the following might occur:
   – If the person has a strong immune system, the infection would be
     contained. It will be walled off and can lie dormant for years. The person
     will display little/no symptoms of TB.
   – If the person has a weak immune system, the bacilli will multiply further
     and within four to six weeks, the individual will be ill with pulmonary TB.
• The sufferer feels tired and weak. They may cough up blood,
  lose weight rapidly, and have fevers and night sweats.
• The patient could lose earnings while ill and unable to work.
• The government has to cover the cost of medication, clinics
  and medical staff.
• There is a stigma attached to this disease. Thus, an infected
  person could feel ostracized and lonely.
• If left untreated, a person could infect on average between
  10-15 people each year.
• TB can be cured by an anti-biotic which is free and easily
  available. The treatment is a six-month regime, known as DOTS
  (Directly Observed Therapy, Short Course).
• The patients are carefully monitored to ensure they take the full
  course of antibiotics. Within days of starting the treatment, the
  patient will be unable to infect others.
• Many patients stop taking medication when they start to feel
  better. As a result:
   – illness is prolonged
   – the patient becomes infectious again
   – they can develop multi-drug-resistant TB, which is difficult to treat and can
     be fatal.
• Areas most affected by TB are poverty stricken and overcrowded.
  Malnutrition and bad sanitation exacerbate the situation.
• To prevent the spread of TB:
   – screen those at risk
   – treat the infected ASAP
   – reduce overcrowding, bad sanitation and malnutrition
• Quality education and information about TB must be given out via
  schools, clinics, pamphlets, posters etc.
• Health care workers must be passionate, trained and well-
  equipped.
• People should be immunised against TB with the BCG vaccine.
Bacteria can be used to:
• Replace pesticides
• Degrade herbicides
• Eat or neutralize toxic waste
• Synthesise riboflavin
• Decompose sewage waste
• Produce food by fermentation processes
• Make probiotics
• Separate the fibres of jute, hemp and flax in preparation for
  making sacks and ropes.
The Protista do not form part of any other kingdom. They share the
following characteristics:
   – All are eukaryotic (have a true nucleus)
   – All live in moist environments as they have no means of preventing
     themselves from drying out.
However, there is a lot of variety in this group. The following
characteristics are variable:
   – Can be unicellular or multicellular
   – Can be microscopic or over 100 metres long
   – Can be heterotrophs or autotrophs.
The Protista Kingdom is grouped into the following subcategories:
   – Plant-like protista
   – Animal-like protista
Plant-like Protista are known as algae.
• Algae are simple, aquatic eukaryotes (have true nuclei)
• Contain chlorophyll. They photosynthesis, thus they are
   autotrophic.
• Release large chains of oxygen during photosynthesis.
• Mostly free-floating but some, e.g. kelp, are attached.
• Can be unicellular: e.g. diatoms, or multicellular: e.g. seaweeds.
• Usually reproduce asexually.
• Grouped into: green algae, brown algae, red algae, diatoms and
   dinoflagellates.
Algae can be divided into the following groups:
• Green algae
   – e.g. spirogyra (slime found in fresh water) and green seaweeds (found
     in shallow water – for photosynthesis)
• Brown algae,
   – e.g. kelp (found in deep water)
• Red algae,
   – e.g. red seaweeds (found in deep water)
• Diatoms
   – microscopic, unicellular algae whose cell walls contain silica.
• Dinoflagellates
   – microscopic, unicellular algae with flagella. Found in surface waters.
All animal-like protista, or protozoa, are:
• Unicellular.
• Heterotrophs.
   – They cannot make their own food. Some kinds engulf their food, e.g.
     Amoeba, while others absorb it directly through their cell membranes,
     e.g. plasmodium.
• Swim around actively looking for food.
• Groups consist of: amoeboids, cilliates, flagellates, parasitic.
• Malaria is a chronic, life-threatening parasitic disease
  transmitted through a bite of a female Anopheles mosquito. The
  mosquito acts as a vector.
• It affects mainly poor countries as the mosquitoes thrive in
  tropical environments.
• In 1880, scientists discovered it originates from a unicellular
  protozoan called Plasmodium.
• Plasmodium is carried in the salivary glands of the mosquito.
• Physical effects:
   – Flu-like. Fever, chills, headache, muscle ache, vomiting, tiredness,
     anaemia, brain disease, kidney failure.
• Can result in the destruction of red blood cells (anaemia) or
  clogging of capillaries surrounding the brain (cerebral
  malaria), which results in death.
• Can be costly to individuals and government, impeding
  economic growth.
• Treat the illness:
   –   with a multi-drug called Coartem.
   –   It contains sweet wormwood which is an important natural herb.
   –   It is unfortunately quite expensive.
   –   It is a 3 day course.
• Kill the mosquitoes:
   – insecticide-treated mosquito nets act as a physical barrier and actively
     kill the mosquitoes.
   – Spraying with DDT, a repellent. This is, however, harmful to the
     environment.
Extracts from algae can be used as the following:
• Plant growth regulators.
• Phycocolloids are used:
    – As gelling agents
    – As thickening and stabilizing agents
    – To make agar plates
•   Natural pigments, used as an alternative to chemical dyes.
•   Nutrient extracts.
•   Iodine from kelp is used in mineral salt tablets.
•   Used in food, e.g. in sushi and in Eastern soups.
•   Kelp feeds harvested abalone.
• Fungi were put into a single kingdom because of their:
   – Similar ecological roles – i.e. they’re decomposers of
     organic matter.
   – Similar anatomical and biochemical features.
• The kingdom contains about 1 million species.
• Fungi are found everywhere, usually invisible to the naked eye.
• They are mostly free-living, living in the soil, air and dead matter.
• They are heterotrophs; they obtain food from other organisms.
   – Most feed on dead organisms, i.e. are saprotrophic.
   – Some are parasitic and cause ill health – e.g. thrush and athlete’s foot in
     humans, and rust in plants.
• Some live in symbiotic relationships with plants and animals, e.g.
  lichen (a combination of fungi and algae), and mycorrhizae.
• Most are useful
• Reproduce:
   – Asexually by means of reproductive spores
   – Sexually, when in unfavourable conditions, by resistant zyrospores.
   – By budding or binary fission (e.g. yeast)
• Mostly multicellular
• Multicellular fungi consist of a mass of branched filaments
  (hyphae), enclosed by a rigid cell wall of chitin and glucan.
• The hypha is a multi-branched tubular cell that could be
  separated or continuous.
• When the fungi produce asexually they form spore-
  producing bodies, e.g. mushrooms or sporangia.
• Caused by Candida albicans, a yeast or fungus.
• Affects the mucous membranes in the mouth (babies) or vagina
  (adult females)
• Makes one more vulnerable to HIV, as it affects mucous
  membranes.
• Can occur harmlessly in the intestine.
• The immune system usually keeps this in check, but in certain
  cases overgrowth may occur:
   – Excessive taking of antibiotics
   – Weak immune system due to AIDS, stress, lack of sleep, poor diet or
     illness.
   – Warmth and moisture from tight underwear and being obese.
75% of women at child-bearing age would have suffered from
this condition at least once.
• Oral thrush is treated with an antifungal mouth wash.
• Vaginal yeast infections can be treated with a topical
   medication.
• Caused by a fungus called Tinea which grows in damp areas.
• It is quite common. It usually affects the skin between the
  toes and makes the skin crack and flake.
• It feeds on keratin, found in skin cells.
• Treated with dryness and an antifungal powder.
• As a food source, i.e. mushrooms.
• Produce biological compounds, e.g. alcohol, plant growth
  regulators and enzymes.
• Produce anti-biotics, e.g. penicillin.
• Control haemorrhage after birth.
• Control cholesterol levels
• For fermentation processes, e.g. yeast.
Most micro-organisms are extremely useful. They can be:
• Plant-degraders. Cellulose-degrading fungi and bacteria clean
  up dead plant matter.
• Micro-regulators of nutrients. They further break down the
  nutrients left behind by scavengers.
• Algae such as cyanobacteria and phytoplankton regenerate
  oxygen in the atmosphere.
• Transform nitrogen.
• Biological control agents – they control pests, pathogens and
  weeds.
• Escherichia coli and humans
   – this is found in the colon and is part of the normal gut flora.
   – Bacteria benefit by obtaining glucose and other nutrients from
     undigested food remains in the colon.
   – Humans gain vitamin K2, which helps blood clotting. We are also
     protected from pathogenic bacteria within the gut.
• Nitrogen-fixing bacteria and plants
   – bacteria converts nitrogen into useful forms for living organisms. Lives
     in root nodules of legumes.
   – Rhizobium benefits by gaining glucose and other nutrients as well as a
     favourable habitat.
   – Plant gains ammonia – forms amino acids, which form protein.
• Mycorrhizal fungi and plant roots
   – The fungus gets glucose.
   – The plant has an increased surface area, improving nutrient uptake, as
     well as protection against pets and diseases.
Plants have an innate immune system. The infected cells will:
• Produce salicylic acid
• Activate resistance genes – e.g. to resist viral replication.
• Self-destruct so that the disease cannot spread.
• The SA moves around the plant to activate the immune
   system, making the cells become resistant to the pathogen.
The closing of stomata can play an active role in limiting bacterial
infection.
• First line of defence is the skin. Prevents entry of pathogen.
• The second like of defence involves two responses.
   – The primary response is to prevent pathogens from
      spreading, by:
       • Inducing inflammation (if it is a local infection)
       • Inducing fever (raised body temperature.)
   – The secondary response is to activate the immune system.
Essentially involves:
• The destruction of the invading germs
• Holding a memory of this response.
The immune processes involve two groups of WBC:
• Lymphocytes
• Phagocytes
B-lymphocytes destroy germs by:
• Reading the antigen on the pathogen, which tells it that it is
   dangerous. There are many B-lymphocytes, all specific to their
   own antigen.
• If a B-lymphocyte recognizes its pathogen, it replicates itself
   many times.
• They are then stimulated to produce antibodies which are
   secreted into the plasma.
• The antibodies combine with antigens on the germ’s surface,
   thus neutralizing or destroying the pathogen. Some cause the
   cell to burst, others label the germs for phagocytosis, others
   clump the germs together, thus weakening them.
• Some of the B-lymphocytes stay on in the lymph glands as
  memory cells. If the antigen is encountered again, the
  immune response will be faster. This is the basis of immunity.
• Natural immunity occurs when an attack of a disease is
  prevented by antibodies and memory cells

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Viruses, bacteria, protists and fungi

  • 1. Module Two: Life at a Molecular, Cellular and Tissue Level Paper One
  • 2. • Owing to evolution, we have a large diversity of life on planet Earth. The earliest organisms that were thought to have developed were viruses, protists, bacteria and fungi. These are the organisms we will be focussing on. They: – Are an extremely diverse group found in virtually all of the planet’s environments. – Occur in vast numbers. – Vary in size. Some are micro-organisms (microbes) while others are macro-organisms (e.g. fungi and some algae). – Can be acellular (fungi) or cellular (bacteria, protists, fungi) – Cellular forms can be prokaryotes (bacteria) or eukaryotes (protists and fungi) – Unicellular, or form colonies of similar cells, or are made of primitive tissue.
  • 3. • Micro-organisms can be useful. • Pathogenic/non-pathogenic: – Pathogenic (disease-causing), i.e. germs – Non-pathogenic (harmless to plants and animals).
  • 4. • Viruses can infect animals, plants and even bacteria. • Viruses are not included in the major plant kingdoms. • Viruses were discovered after bacteria, as they are smaller and can only be seen by an electron microscope. • In 1900, a Dutch scientist became the first to discover and investigate viruses. He did experiments on tobacco plants suffering from mosaic disease. • The word ‘virus’ is Latin, meaning ‘poison’. • In 1940, more experiments could be carried out due to the development of the electron microscope.
  • 5. • Exist in two distinct states: a virus (when active) and a virion (when dormant and not in contact with a host cell). • Can also remain dormant within an organism (latency). • A viriod (NOT VIRION) is an infectious RNA particle that resembles a virus – but is smaller. • Are not really living: they don’t respire, eat, excrete, grow or move on their own. • Viruses are obligate intracellular parasites and can only survive inside the cells. • Can only reproduce within a living cell, or when the viral nucleic acids use the host cell material to replicate. • Associated with disease. After the virus leaves the host cell, the host cell is destroyed.
  • 6. • A virus is acellular, i.e. it is NOT a cell envelope as it has no nucleus, cytoplasm or organelles. • Viruses have a simple structure DNA/RNA consisting of a core of DNA or RNA, but not both. The DNA/RNA is not contained in a nuclear membrane. • The nucleic acid is surrounded by a Capsid protein coat or capsid, • In some viruses, the capsid is covered by an envelope of a lipid bilayer.
  • 7. • Viruses can have different shapes: – Polyhedral cubical e.g. adenovirus – Helical spiral cylinder e.g. tobacco virus – Complex tadpole-like e.g. bacteriophage
  • 8. 1) Adsorption Virus approaches a cell. 2) Penetration Virus attaches to the cell, injecting nucleic acid into the cell. Capsid left outside cell. 3) Latent phase Virus multiplies its nucleic acid using materials from the host cell. 4) Lysis Protein coats form around strands of nucleic acid. The cell releases viruses.
  • 10. • Host cells are affected in three ways: – The host cells may be destroyed. They may swell and burst, as with nerve cells infected with the rabies virus. – The host cells may not be able to function correctly, e.g. ciliated epithelial cells infected with the influenza virus. – The virus can interact with the host cell’s chromosomes causing a mutation, e.g. warts and cancer cells. • The immune system becomes activated in order to fight the infection. This may lead to fever, tiredness or an opportunistic disease.
  • 11. • HIV/Aids is the most serious disease facing the world today. South Africa has the highest prevalence of HIV in the world; 18% of the adult population is infected with HIV. • Human Immunodeficiency Virus (HIV) affects the immune system because it is specialised to infect CD4 cells (helper T lymphocytes ), which play a significant role in immunity. • As it effects the immune system, the infected individual is prone to many new ‘opportunistic diseases’, which the immune system is too weak to fight off. This can kill the individual if certain procedures aren’t adhered to.
  • 12. Physical effects: • Weakened immune system, resulting in fatigue, weight loss, frequent fevers and sweats, fungal infections, shingles (nerve disease), skin rashes and flaky skin, diarrhoea, spots or blemishes on tongue, in mouth or throat. • When the CD4 count is less than 200 cells/ml blood (normal is 600-1200), it is said that the illness has progressed to full- blown AIDS (Acquired Immune Deficiency Syndrome). • At this point, many viruses, bacteria, fungi and protozoa are able to invade the body. Other infections could include drug resistant TB, cancer and pneumonia as well as memory loss, depression and other neurological disorders.
  • 13. • Economic Effects – The affected family will lose money as the ill person may be unable to work, for the travel costs to clinics and dispensaries and burial costs. – The country loses money as many productive people are sick and unable to work. The government has to spend money on medication as well as maintaining health facilities and staff. – In countries which are badly affected by HIV/AIDS, such as ours, such costs can slow down economic growth. • Emotional Effects – Feelings of depression, loneliness and ostracism as there is often a stigma attached to HIV/AIDS. – Families are being destroyed. Orphaned children may become heads of houses or would have to live with other family.
  • 14. • Awareness of one’s HIV status is the first step. • Treatment with a combination of anti-retrovirals (ARV’s).This doesn’t cure HIV but slows down viral replication, allowing the immune system to recover and helping the individual to feel healthy again. • Monitoring the viral load (amount of HIV in one’s blood) enables medical staff to adjust the combination of ARV’s. • Treat opportunistic infections immediately. • Boost the immune system. • Care for the mental and emotional health of sufferers. • Sensible financial planning. • Giving ARV’s to pregnant women to reduce the chance of infecting the baby.
  • 15. • Drug-resistance is the ability of disease-causing viruses to continue multiplying, despite the presence of drugs which usually kill them. • ARV’s consist of a ‘cocktail’ of various classes of drugs, specific to the stage of the disease, to attack the viruses at different stages of it’s replication. • If the virus is allowed to multiply it would do so rapidly, blocking the working of the ARV’s, and becoming drug resistant. • This is caused by not taking the drugs exactly as prescribed, poor absorption of the ARV’s or unsafe sex with a drug-resistant HIV positive person.
  • 16. 1. HIV locater spikes attach to receptor proteins of CD4 cell 2. HIV cell RNA penetrates CD4 cell, shedding protein coat. 3. RNA enters cell. Reverse transcriptase enzyme uses a single strand of RNA to create a double strand of DNA, destroying RNA. 4. Viral DNA enters nucleus, joining with cell. It reprograms the cell DNA to form viral RNA. 5. Cell stops normal functions, and instead becomes a factory, sending out replicas of the virus.
  • 17. • Ancestors of current bacteria were unicellular micro-organisms which were the first forms of life to develop on earth, 4 billion years ago. They belong to the kingdom Monera. • The idea of micro-organisms and pathogens which cannot be seen with the naked eye, dates back to 400AD Rome. • Bacteria was only officially discovered in the 17th century, after the invention of a microscope. • Bacteria are the most diverse and abundant group of organisms on Earth. They inhabit practically all environments on earth. Some, extremophiles, thrive in climatic or environmental extremes, e.g. intense heat or intense cold. • Bacteria are mostly useful, but some cause disease.
  • 18. • Bacteria are unicellular and are among the smallest organisms. • In favourable conditions, bacteria will reproduce rapidly by binary fission, an asexual process whereby one bacteria can split into two every 10-15 minutes. • In unfavourable conditions, bacteria may survive by becoming dormant. They form spores with a thick, protective coat around them, which will split open in favourable conditions. • Endospores are spores created by a small group of bacteria. They are specialized to withstand unfavourable conditions. They can survive for thousands of years and can cause diseases such as tetanus and anthrax.
  • 19. • Bacteria vary in shape and can be classified accordingly: – Spherical bacteria are called cocci – Rod-shaped bacteria are called bacilli – Spiral shaped bacteria are called spirilla – Comma-shaped bacteria are called vibrios. • Can occur singly, in chains (streptococcus) or in clumps (staphylococcus).
  • 21. • Bacteria are unicellular and are made up of simple cells, but can carry out all the functions of living organisms. • Have a rigid cell wall which consists of large peptidoglycan* molecules. • They have a plasma membrane, which serves as a mitochondrion, endoplasmic reticulum and sometimes a chloroplast. Also controls exit and entry of materials. • As prokaryotes, they do not have a true nucleus. This is because they do not have a true nuclear membrane and the DNA isn’t combined with the protein found in eukaryotes. • Single chromosome of DNA – closed loop. • Pathogenic bacteria have a waxy capsule. • Some bacteria have flagella to enable them to move around.
  • 24. Pathogenic bacteria infect our bodies in order to get food. They may: • Destroy body cells which are then used as a source of food. • Absorb material directly from body fluids such as blood. • Release harmful substances, called toxins. Toxins may: – Cause symptoms like a rash or a high temperature. – Block metabolic pathways in the host cells which can have a devastating effect on the body.
  • 25. • TB is a chronic infection caused by myocardium tuberculosis, aka the TB bacillus. It is covered in a waxy layer which protects it from drying out, heat, and being destroyed by the immune system. • It affects all organs, including the brain and bones, but especially the lungs. This is called pulmonary tuberculosis. • It is highly contagious and is spread by moisture droplets. • After infection one of the following might occur: – If the person has a strong immune system, the infection would be contained. It will be walled off and can lie dormant for years. The person will display little/no symptoms of TB. – If the person has a weak immune system, the bacilli will multiply further and within four to six weeks, the individual will be ill with pulmonary TB.
  • 26. • The sufferer feels tired and weak. They may cough up blood, lose weight rapidly, and have fevers and night sweats. • The patient could lose earnings while ill and unable to work. • The government has to cover the cost of medication, clinics and medical staff. • There is a stigma attached to this disease. Thus, an infected person could feel ostracized and lonely. • If left untreated, a person could infect on average between 10-15 people each year.
  • 27. • TB can be cured by an anti-biotic which is free and easily available. The treatment is a six-month regime, known as DOTS (Directly Observed Therapy, Short Course). • The patients are carefully monitored to ensure they take the full course of antibiotics. Within days of starting the treatment, the patient will be unable to infect others. • Many patients stop taking medication when they start to feel better. As a result: – illness is prolonged – the patient becomes infectious again – they can develop multi-drug-resistant TB, which is difficult to treat and can be fatal.
  • 28. • Areas most affected by TB are poverty stricken and overcrowded. Malnutrition and bad sanitation exacerbate the situation. • To prevent the spread of TB: – screen those at risk – treat the infected ASAP – reduce overcrowding, bad sanitation and malnutrition • Quality education and information about TB must be given out via schools, clinics, pamphlets, posters etc. • Health care workers must be passionate, trained and well- equipped. • People should be immunised against TB with the BCG vaccine.
  • 29. Bacteria can be used to: • Replace pesticides • Degrade herbicides • Eat or neutralize toxic waste • Synthesise riboflavin • Decompose sewage waste • Produce food by fermentation processes • Make probiotics • Separate the fibres of jute, hemp and flax in preparation for making sacks and ropes.
  • 30. The Protista do not form part of any other kingdom. They share the following characteristics: – All are eukaryotic (have a true nucleus) – All live in moist environments as they have no means of preventing themselves from drying out. However, there is a lot of variety in this group. The following characteristics are variable: – Can be unicellular or multicellular – Can be microscopic or over 100 metres long – Can be heterotrophs or autotrophs. The Protista Kingdom is grouped into the following subcategories: – Plant-like protista – Animal-like protista
  • 31. Plant-like Protista are known as algae. • Algae are simple, aquatic eukaryotes (have true nuclei) • Contain chlorophyll. They photosynthesis, thus they are autotrophic. • Release large chains of oxygen during photosynthesis. • Mostly free-floating but some, e.g. kelp, are attached. • Can be unicellular: e.g. diatoms, or multicellular: e.g. seaweeds. • Usually reproduce asexually. • Grouped into: green algae, brown algae, red algae, diatoms and dinoflagellates.
  • 32. Algae can be divided into the following groups: • Green algae – e.g. spirogyra (slime found in fresh water) and green seaweeds (found in shallow water – for photosynthesis) • Brown algae, – e.g. kelp (found in deep water) • Red algae, – e.g. red seaweeds (found in deep water) • Diatoms – microscopic, unicellular algae whose cell walls contain silica. • Dinoflagellates – microscopic, unicellular algae with flagella. Found in surface waters.
  • 33. All animal-like protista, or protozoa, are: • Unicellular. • Heterotrophs. – They cannot make their own food. Some kinds engulf their food, e.g. Amoeba, while others absorb it directly through their cell membranes, e.g. plasmodium. • Swim around actively looking for food. • Groups consist of: amoeboids, cilliates, flagellates, parasitic.
  • 34. • Malaria is a chronic, life-threatening parasitic disease transmitted through a bite of a female Anopheles mosquito. The mosquito acts as a vector. • It affects mainly poor countries as the mosquitoes thrive in tropical environments. • In 1880, scientists discovered it originates from a unicellular protozoan called Plasmodium. • Plasmodium is carried in the salivary glands of the mosquito.
  • 35. • Physical effects: – Flu-like. Fever, chills, headache, muscle ache, vomiting, tiredness, anaemia, brain disease, kidney failure. • Can result in the destruction of red blood cells (anaemia) or clogging of capillaries surrounding the brain (cerebral malaria), which results in death. • Can be costly to individuals and government, impeding economic growth.
  • 36. • Treat the illness: – with a multi-drug called Coartem. – It contains sweet wormwood which is an important natural herb. – It is unfortunately quite expensive. – It is a 3 day course. • Kill the mosquitoes: – insecticide-treated mosquito nets act as a physical barrier and actively kill the mosquitoes. – Spraying with DDT, a repellent. This is, however, harmful to the environment.
  • 37. Extracts from algae can be used as the following: • Plant growth regulators. • Phycocolloids are used: – As gelling agents – As thickening and stabilizing agents – To make agar plates • Natural pigments, used as an alternative to chemical dyes. • Nutrient extracts. • Iodine from kelp is used in mineral salt tablets. • Used in food, e.g. in sushi and in Eastern soups. • Kelp feeds harvested abalone.
  • 38. • Fungi were put into a single kingdom because of their: – Similar ecological roles – i.e. they’re decomposers of organic matter. – Similar anatomical and biochemical features. • The kingdom contains about 1 million species.
  • 39. • Fungi are found everywhere, usually invisible to the naked eye. • They are mostly free-living, living in the soil, air and dead matter. • They are heterotrophs; they obtain food from other organisms. – Most feed on dead organisms, i.e. are saprotrophic. – Some are parasitic and cause ill health – e.g. thrush and athlete’s foot in humans, and rust in plants. • Some live in symbiotic relationships with plants and animals, e.g. lichen (a combination of fungi and algae), and mycorrhizae. • Most are useful • Reproduce: – Asexually by means of reproductive spores – Sexually, when in unfavourable conditions, by resistant zyrospores. – By budding or binary fission (e.g. yeast)
  • 40. • Mostly multicellular • Multicellular fungi consist of a mass of branched filaments (hyphae), enclosed by a rigid cell wall of chitin and glucan. • The hypha is a multi-branched tubular cell that could be separated or continuous. • When the fungi produce asexually they form spore- producing bodies, e.g. mushrooms or sporangia.
  • 41. • Caused by Candida albicans, a yeast or fungus. • Affects the mucous membranes in the mouth (babies) or vagina (adult females) • Makes one more vulnerable to HIV, as it affects mucous membranes. • Can occur harmlessly in the intestine. • The immune system usually keeps this in check, but in certain cases overgrowth may occur: – Excessive taking of antibiotics – Weak immune system due to AIDS, stress, lack of sleep, poor diet or illness. – Warmth and moisture from tight underwear and being obese.
  • 42. 75% of women at child-bearing age would have suffered from this condition at least once. • Oral thrush is treated with an antifungal mouth wash. • Vaginal yeast infections can be treated with a topical medication.
  • 43. • Caused by a fungus called Tinea which grows in damp areas. • It is quite common. It usually affects the skin between the toes and makes the skin crack and flake. • It feeds on keratin, found in skin cells. • Treated with dryness and an antifungal powder.
  • 44. • As a food source, i.e. mushrooms. • Produce biological compounds, e.g. alcohol, plant growth regulators and enzymes. • Produce anti-biotics, e.g. penicillin. • Control haemorrhage after birth. • Control cholesterol levels • For fermentation processes, e.g. yeast.
  • 45. Most micro-organisms are extremely useful. They can be: • Plant-degraders. Cellulose-degrading fungi and bacteria clean up dead plant matter. • Micro-regulators of nutrients. They further break down the nutrients left behind by scavengers. • Algae such as cyanobacteria and phytoplankton regenerate oxygen in the atmosphere. • Transform nitrogen. • Biological control agents – they control pests, pathogens and weeds.
  • 46. • Escherichia coli and humans – this is found in the colon and is part of the normal gut flora. – Bacteria benefit by obtaining glucose and other nutrients from undigested food remains in the colon. – Humans gain vitamin K2, which helps blood clotting. We are also protected from pathogenic bacteria within the gut. • Nitrogen-fixing bacteria and plants – bacteria converts nitrogen into useful forms for living organisms. Lives in root nodules of legumes. – Rhizobium benefits by gaining glucose and other nutrients as well as a favourable habitat. – Plant gains ammonia – forms amino acids, which form protein.
  • 47. • Mycorrhizal fungi and plant roots – The fungus gets glucose. – The plant has an increased surface area, improving nutrient uptake, as well as protection against pets and diseases.
  • 48. Plants have an innate immune system. The infected cells will: • Produce salicylic acid • Activate resistance genes – e.g. to resist viral replication. • Self-destruct so that the disease cannot spread. • The SA moves around the plant to activate the immune system, making the cells become resistant to the pathogen. The closing of stomata can play an active role in limiting bacterial infection.
  • 49. • First line of defence is the skin. Prevents entry of pathogen. • The second like of defence involves two responses. – The primary response is to prevent pathogens from spreading, by: • Inducing inflammation (if it is a local infection) • Inducing fever (raised body temperature.) – The secondary response is to activate the immune system.
  • 50. Essentially involves: • The destruction of the invading germs • Holding a memory of this response. The immune processes involve two groups of WBC: • Lymphocytes • Phagocytes
  • 51. B-lymphocytes destroy germs by: • Reading the antigen on the pathogen, which tells it that it is dangerous. There are many B-lymphocytes, all specific to their own antigen. • If a B-lymphocyte recognizes its pathogen, it replicates itself many times. • They are then stimulated to produce antibodies which are secreted into the plasma. • The antibodies combine with antigens on the germ’s surface, thus neutralizing or destroying the pathogen. Some cause the cell to burst, others label the germs for phagocytosis, others clump the germs together, thus weakening them.
  • 52. • Some of the B-lymphocytes stay on in the lymph glands as memory cells. If the antigen is encountered again, the immune response will be faster. This is the basis of immunity. • Natural immunity occurs when an attack of a disease is prevented by antibodies and memory cells

Editor's Notes

  1. To remember that Latent is before Lysis – remember it is in alphabetical order!
  2. 1 – Adsorption. 2 – Penetration. 3 – Latent Phase. 4 and 5 – Lysis.
  3. * Not NB to know
  4. ** Know three
  5. * Know Three. I didn’t feel like typing all of it out.