Gonorrhea symptoms: thick discharge, pain when urinating
Fungal Diseases:
Rose black spot symptoms: purple or black spots on rose leaves, reduces photosynthesis area
Protist Diseases:
Malariasymptoms: fevers, shaking
Spread by female Anopheles mosquito
Human Defence System:
Non-specific defence system prevents pathogens from entering the body
Skin, nose, trachea, bronchi, stomach act as barriers
Specific immune system uses white blood cells for protection
Vaccination:
Makes individuals immune to diseases
Stimulates white blood cells to produce antibodies
Herd immunity reduces pathogen spread
Antibiotics and Painkillers:
Antibiotics kill bacterial pathogens without damaging bodycells
Painkillers treat symptoms, not the cause
Vaccinations have advantages (eradicate diseases, prevent epidemics) and disadvantages (not always effective, bad reactions)
Bacteria are becoming resistant to antibiotics
Mutations during reproduction can result in bacteria no longer being killed by antibiotics
When exposed to antibiotics, only the non-resistant bacteria die
Resistant bacteria survive and reproduce, increasing the population of resistant bacteria
This leads to previously effective antibiotics no longer working
To prevent resistant strains:
Stop overusing antibiotics to avoid unnecessary exposure
Finish courses of antibiotics to kill all bacteria
Discovery and Development of Drugs:
Many drugs were initially discovered in plants and microorganisms
New drugs today are mainly synthesised by chemists
Drugs need to be tested for toxicity, efficacy, and dose using preclinical testing and clinical trials
Monoclonal Antibodies:
Identical antibodies produced from the same immune cell
Used to target chemicals and cells in the body for various medical purposes
Producing Monoclonal Antibodies:
Obtain mice lymphocytes stimulated to produce a specific antibody
Combine with tumour cells to form a hybridoma
Hybridoma divides to produce clones that all produce the same antibody
Antibodies are collected and purified
Uses of Monoclonal Antibodies:
In pregnancy tests
In laboratories to measure and monitor hormone or chemical levels
In research to find or identify certain molecules on cells or tissues
In the treatment of diseases like cancer
Advantages of using monoclonal antibodies:
Specific cell targeting without affecting healthy cells
Can be engineered to treat various conditions
Disadvantages of using monoclonal antibodies:
Difficult to attach to drugs
Expensive to develop
Plant Disease:
Plants can be affected by viral, bacterial, and fungal pathogens
Common signs of plant diseases include stunted growth, spots on leaves, areas of decay, abnormal growths, malformed stems or leaves, discolouration, and pests on leaves
Ion deficiencies in plants:
Nitrate deficiency can stunt growth
Magnesium deficiency can cause chlorosis
Plant Defence Responses:
Physical, chemical, and mechanical adaptations to prevent invasion of microorganisms
Physical defences include tough waxy cuticle, cellulose cell walls, and layers of dead cells around stems
Chemical defences include poisons and antibacterial compounds
Mechanical defences include thorns, hairs, drooping or curling leaves, and mimicry