Paper 1 Biology

    avatar
    Created by
    Nikunj Dipak

    Subdecks (2)

    Cards (205)

    • Exchange surface
      Specialised surface that arises as the size of the organism, and its surface area to volume ratio increases
      View source
    • Features of an efficient exchange surface
      • Large surface area
      • Thin to ensure short distance for substances to cross
      • Good blood supply/ventilation to maintain a steep gradient
      View source
    • Ventilation in fish
      1. Fish opens mouth
      2. Lowers floor of buccal cavity to enable water flow in
      3. Closes mouth, raising buccal cavity floor to increase pressure
      4. Water forced over gill filaments by pressure difference between mouth and opercular cavities
      5. Operculum acts as valve and pump to let water out and pump it in
      View source
    • Spiracles
      Small openings of tubes (trachea or tracheoles) that supply insects with gases
      View source
    • Gas exchange in plants
      • Leaves have many small holes called stomata to allow gases to enter and exit
      • Air spaces in leaves allow gases to move around and come into contact with photosynthesising cells
      View source
    • Mammalian gaseous exchange system
      • Lungs are lobed structures with large surface area in chest cavity
      • Rib cage protects lungs and lubricating substance prevents friction during inflation/deflation
      • Intercostal muscles and diaphragm control volume changes for ventilation
      View source
    • Inspiration
      1. External intercostal muscles contract, diaphragm contracts and flattens
      2. Increases volume in thorax, decreases pressure, air forced into lungs
      View source
    • Expiration
      1. Internal intercostal muscles contract, diaphragm relaxes
      2. Decreases volume in thorax, increases pressure, air forced out of lungs
      View source
    • Spirometer
      Device used to measure lung volumes and breathing rate
      View source
    • Lung volumes

      • Vital capacity
      • Tidal volume
      • Residual volume
      • Inspiratory reserve volume
      • Expiratory reserve volume
      View source
    • Digestion
      Hydrolysis of large biological molecules into smaller molecules that can be absorbed
      View source
    • Carbohydrate digestion
      1. Amylases in mouth digest larger polymers
      2. Maltases in ileum break down monosaccharides
      3. Sucrases and lactases break down disaccharides
      View source
    • Lipid digestion
      1. Lipases hydrolyse ester bonds between monoglycerides and fatty acids
      2. Bile salts emulsify lipids to increase surface area
      View source
    • Protein digestion
      1. Endopeptidases hydrolyse peptide bonds between specific amino acids
      2. Exopeptidases hydrolyse bonds at ends of polypeptides
      3. Dipeptidases break dipeptides into individual amino acids
      View source
    • Absorption
      Products of digestion are absorbed by cells lining the ileum
      View source
    • Haemoglobin
      Water soluble globular protein with haem groups that can bind and transport oxygen
      View source
    • Partial pressure of oxygen
      Affects the affinity of haemoglobin for oxygen - higher partial pressure increases affinity
      View source
    • Dissociation curves
      Illustrate the relationship between partial pressure of oxygen and oxygen binding to haemoglobin
      View source
    • Haemoglobin
      A globular protein which consists of two beta polypeptide chains and two alpha helices. Each molecule forms a complex containing a haem group.
      View source
    • Haemoglobin
      • It carries oxygen in the blood as oxygen can bind to the haem (Fe2+) group
      • Each molecule can carry four oxygen molecules
      View source
    • Partial pressure of oxygen
      The greater the concentration of dissolved oxygen in cells, the greater the partial pressure
      View source
    • Partial pressure of oxygen increases
      The affinity of haemoglobin for oxygen increases, oxygen binds to haemoglobin tightly
      View source
    • Loading
      Oxygen binds to haemoglobin in the lungs
      View source
    • Partial pressure of oxygen decreases
      The affinity of oxygen for haemoglobin decreases, oxygen is released in respiring tissues
      View source
    • Unloading
      Oxygen is released in respiring tissues
      View source
    • Haemoglobin returns to the lungs

      It binds to oxygen again
      View source
    • Dissociation curves
      Illustrate the change in haemoglobin saturation as partial pressure changes
      View source
    • Partial pressure is high
      Haemoglobin has high affinity for oxygen and is highly saturated
      View source
    • Partial pressure is low
      Haemoglobin has low affinity for oxygen and is less saturated
      View source
    • Haemoglobin binds to first oxygen molecule
      The affinity of haemoglobin for oxygen increases due to a change in shape, making it easier for other oxygen molecules to bind
      View source
    • Positive cooperativity
      The steep increase in oxygen binding after the first molecule has bound
      View source
    • Fetal haemoglobin
      Has a higher affinity for oxygen compared to adult haemoglobin, to better absorb oxygen at low partial pressure in the placenta
      View source
    • Presence of carbon dioxide
      The affinity of haemoglobin for oxygen decreases, causing oxygen to be released
      View source
    • Bohr effect
      Carbon dioxide creates slightly acidic conditions which change the shape of the haemoglobin protein, making it easier for oxygen to be released
      View source
    • In large organisms, the surface area to volume ratio is not large enough for diffusion alone to supply substances like oxygen, glucose and other molecules to cells where they are needed
      View source
    • Common features of a circulatory system
      • Suitable medium (blood)
      • Means of moving the medium (heart)
      • Mechanism to control flow around the body (valves)
      • Close system of vessels
      View source
    • Closed double circulatory system
      The heart at the centre has two pumps - one pumps blood to the lungs to be oxygenated, the other pumps oxygenated blood around the body
      View source
    • Atrium
      Thin walled and elastic, can stretch when filled with blood
      View source
    • Ventricle
      Thick muscular wall to pump blood around the body or to the lungs
      View source
    • Main vessels connecting the heart
      • Aorta
      • Pulmonary Artery
      • Pulmonary Vein
      • Vena Cava
      View source