organisation

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Created by
celestine de lucia

Cards (72)

  • Cells
    Make up all living things
  • Tissue
    A group of specialised cells with a similar structure and function, can be made of more than one type of cell
  • Tissue examples
    • Muscular tissue
    • Epithelial tissue
  • Organs
    Formed from a number of different tissues, working together to produce a specific function
  • Organ example
    • Stomach
  • Organ systems
    Organs organised to work together to perform a certain function
  • Organ system example
    • Digestive system
  • Organs in the digestive system
    • Glands (salivary glands, pancreas)
    • Stomach
    • Small intestine
    • Liver
    • Gall bladder
    • Large intestine
    • Rectum
    • Anus
  • Enzymes
    Biological catalysts that increase the rate of reaction without being used up
  • Enzymes
    • They can both break up large molecules and join small ones
    • They are protein molecules and the shape of the enzyme is vital to its function
    • Each enzyme has its own uniquely shaped active site where the substrate binds
  • Lock and Key Hypothesis
    1. Substrate shape is complementary to active site shape, forming enzyme-substrate complex
    2. Reaction takes place and products are released
  • Optimum pH
    Most enzymes have an optimum pH of 7, some produced in acidic conditions have a lower optimum
  • Optimum temperature
    Around 37 degrees Celsius (body temperature), rate increases up to this then rapidly decreases
  • Denaturation
    When bonds in enzyme structure break due to extreme temperature or pH, changing the shape of the active site so substrate can no longer bind
  • Types of enzymes
    • Carbohydrases (convert carbohydrates into simple sugars)
    • Proteases (convert proteins into amino acids)
    • Lipases (convert lipids into fatty acids and glycerol)
  • Bile
    • Produced in the liver, stored in the gallbladder, released into the small intestine
    • Alkaline to neutralise stomach acid
    • Emulsifies large fat droplets into smaller ones to increase surface area for lipase
  • Investigating effect of pH on enzyme controlled reaction
    1. Use iodine to detect presence of starch
    2. Warm amylase, starch and buffer solution
    3. Take samples at regular intervals and test with iodine
    4. Time when starch is completely broken down
    5. Calculate rate using 1000/time
  • Rate of enzymatic reactions

    Calculated using change/time
  • Heart
    An organ in the circulatory system that pumps blood around the body
  • Double circulatory system
    1. Deoxygenated blood flows to right atrium, right ventricle, lungs
    2. Oxygenated blood flows to left atrium, left ventricle, body
  • Heart structure
    • Muscular walls
    • Thicker left ventricle wall
    • 4 chambers
    • Valves
    • Coronary arteries
  • Heart pumping process
    Blood flows into atria, atria contract to force blood into ventricles, ventricles contract to pump blood out
  • Pacemaker
    Group of cells in right atrium that provide electrical stimulation to control heart rate
  • Artificial pacemaker
    Electrical device that produces a signal to make the heart beat at a normal speed
  • Blood vessels
    • Arteries (carry blood away from heart, strong walls)
    • Veins (carry blood towards heart, wide lumen, valves)
    • Capillaries (allow close contact between blood and cells)
  • Lungs
    Found in the thorax, supply oxygen to blood and remove carbon dioxide
  • Ventilation
    1. Ribcage moves up and out, diaphragm moves down to increase chest volume and draw in air
    2. Opposite happens when exhaling
  • Gas exchange
    Oxygen diffuses from alveoli into blood, carbon dioxide diffuses from blood into alveoli
  • Alveoli
    • Small size and clustered arrangement creates large surface area
    • Thin walls for short diffusion pathway
    • Extensive blood supply maintains concentration gradient
  • Blood
    Composed of plasma, red blood cells, white blood cells and platelets
  • Red blood cells
    • Biconcave disc shape for large surface area
    • No nucleus for more space to carry oxygen
    • Contain haemoglobin to bind oxygen
  • White blood cells
    • Part of the immune system, produce antibodies, phagocytose pathogens, coordinate immune response
  • Alveoli
    Very thin, meaning there is a short diffusion pathway
  • Calculating breathing rate
    Divide the number of breaths by the number of minutes
  • Components of blood
    • Plasma
    • Red blood cells
    • White blood cells
    • Platelets
  • Plasma
    Liquid that carries the components in the blood: red blood cells, white blood cells, platelets, glucose, amino acids, carbon dioxide, urea, hormones, proteins, antibodies and antitoxins
  • Red blood cells
    • Carry oxygen molecules from the lungs to all the cells in the body
    • Biconcave disc shape provides a large surface area
    • No nucleus allowing more room to carry oxygen
    • Contain the red pigment haemoglobin, which binds to oxygen and forms oxyhaemoglobin
  • White blood cells
    • Part of the immune system, which is the body's defence against pathogens (microorganisms that can produce disease)
    • Have a nucleus
    • Types: those that produce antibodies against microorganisms, those that engulf and digest pathogens, those that produce antitoxins to neutralise toxins produced by microorganisms
  • Platelets
    • Help the blood clot form at the site of a wound
    • The clot dries and hardens to form a scab, which allows new skin to grow underneath while preventing microorganisms from entering
    • Small fragments of cells
    • No nucleus
    • Without them, cuts would result in excessive bleeding and bruising
  • Coronary heart disease
    When the coronary arteries that provide blood to the heart become blocked with the build up of fatty material, resulting in less blood flowing to the heart and reducing its oxygen supply, which may lead to a heart attack