biology paper 1

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Created by
marjan

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  • Microscopes
    Normal light microscope can see cells and nucleus, electron microscope can see subcellular structures in more detail
  • Calculating cell size
    1. Measure image size
    2. Divide by magnification
  • Eukaryotic cells
    Have a nucleus containing DNA
  • Prokaryotic cells
    Do not have a nucleus, DNA is in a ring called a plasmid
  • Cell structures
    • Cell membrane
    • Cell wall (plant cells and bacteria)
    • Cytoplasm
    • Mitochondria
    • Ribosomes
    • Chloroplasts (plant cells)
  • Bacterial binary fission
    1. Number doubles every 10 minutes
    2. Practical: Grow culture on agar plate using aseptic technique
    3. Calculate culture size from area or initial drop
  • Diploid cells
    Have 23 pairs of chromosomes
  • Haploid cells
    Have 23 single chromosomes
  • Mitosis
    1. Genetic material duplicated
    2. Nucleus breaks down
    3. Chromosomes pulled to opposite sides
    4. New nuclei form
  • Specialised cell types
    • Nerve
    • Muscle
    • Root hair
    • Xylem
    • Phloem
  • Stem cells
    Unspecialised cells that can differentiate into various cell types
  • Diffusion
    Movement of molecules/particles from high to low concentration, down concentration gradient, passive process
  • Osmosis
    Diffusion of water across a semi-permeable membrane
  • Practical: Osmosis experiment
    1. Cut potato cylinders
    2. Weigh and place in sugar solutions
    3. Reweigh after a day
    4. Calculate percentage change in mass
    5. Plot against sugar concentration to find no change point
  • Active transport
    Using energy to move substances against a concentration gradient
  • Digestive system processes
    • Acid in stomach
    • Bile and enzymes in small intestine
    • Emulsification of fats
  • Enzymes
    Biological catalysts that are specific to certain substrates, work on a lock and key principle
  • Practical: Investigating enzyme activity
    1. Mix amylase and starch at different temperatures or pH
    2. Test for starch presence over time
    3. Plot time to complete reaction against temperature or pH
  • Food tests
    Iodine for starch, Benedict's solution for sugars, Biuret's reagent for proteins, ethanol for lipids
  • Breathing and gas exchange
    1. Air moves down trachea, bronchi, bronchioles to alveoli
    2. Oxygen diffuses into blood, carbon dioxide diffuses out
  • Circulatory system
    Double circulatory system, deoxygenated blood enters right side of heart, oxygenated blood leaves left side
  • Heart has thicker walls on left side to pump blood to whole body
  • Blood vessels
    Arteries carry oxygenated blood away from heart, veins carry deoxygenated blood towards heart
  • Coronary arteries supply the heart muscle with oxygen
  • Stents
    Tubes inserted into blood vessels to keep them open
  • Heart valves
    Can be replaced with artificial ones
  • Non-communicable diseases
    Caused by factors within the body, e.g. cardiovascular disease, allergies, cancer
  • Communicable diseases
    Caused by pathogens that can be transmitted, e.g. infectious diseases
  • Coronary artery
    Delivers blood to the heart muscle to supply oxygen
  • Heart attack
    Occurs when coronary arteries are blocked by buildup of fatty deposits, causing coronary heart disease (CHD)
  • Stents
    Little tubes inserted into blood vessels to keep them open and allow blood flow
  • Statins
    Drugs that reduce cholesterol, which in turn reduces fatty deposits
  • Faulty heart valves
    Result in backflow, can be replaced with artificial ones
  • Blood
    Carries plasma, red blood cells, white blood cells (combat infections), and platelets (clot wounds)
  • Cardiovascular disease (CVD)

    An example of a non-communicable disease, caused by factors within the body
  • Examples of non-communicable diseases
    • Cardiovascular disease
    • Autoimmune conditions
    • Cancer
  • Communicable disease
    Caused by a pathogen (virus, bacteria, fungus, or protest) that enters the body
  • Carcinogen
    Anything that increases the risk of cancer
  • Benign cancer
    Doesn't spread through the body, relatively easy to treat
  • Malignant cancer

    Cancerous cells spread through the body, much worse