Biology 3
Cards (38)
- TissuesA group of cells with similar structures and function working together
- Types of tissues
- Muscular tissue
- Glandular tissue
- Epithelial tissue
- Muscular tissue
- Contracts for movement
- Glandular tissue
- Produces and releases substances e.g. enzymes
- Epithelial tissue
- Covering of body and internal organs
- OrgansCollections of tissues working together to form a specific function
- Organs
- Stomach
- Pancreas
- Stomach
- Muscular tissue: Churns food and digestive juices
- Glandular tissue: Produces digestive juices
- Epithelial tissue: Covers inside and outside
- Pancreas
- Makes hormones to control blood sugar (insulin, islets of Langerhans)
- Makes enzymes to digest food (acinar cells)
- Organ systemsA group of organs that work together to perform a specific function
- Adaptations for effective exchange
- Large surface area
- Rich blood supply
- Short diffusion distance
- Mechanisms to increase concentration gradients
- Digestive systemA hollow muscular tube that squeezes food along between 6-9 metres
- Functions of the digestive system
- Exchange substances with environment
- Break down food from large insoluble molecules to smaller soluble molecules that can be absorbed by cells
- Mouth
- Teeth and gums used to mechanically break down food into smaller sections
- Alkaline pH
- Salivary glands produce enzymes like amylase to digest starch
- EnzymesBiological catalysts that speed up the rate of chemical reactions
- Oesophagus
- Muscular tube connecting mouth to stomach
- Peristalsis - squeezing of muscles to move food
- Stomach
- Main organ where food is digested
- Breaks down large insoluble molecules into smaller insoluble ones
- Produces protease to digest proteins
- Acidic pH
- Liver
- Large multi-lobed organ
- Produces bile to neutralise pH in small intestine
- Gallbladder
- Stores bile before it is released through the bile duct
- Pancreas
- Produces insulin to control blood glucose
- Produces enzymes like amylase, protease, lipase that flow into small intestine
- Small intestine
- Main site of digestion and absorption
- Produces protease and lipase
- Main site of carbohydrate digestion using amylase from pancreas
- Smaller soluble molecules absorbed into blood via diffusion and active transport
- Villi increase surface area for absorption
- Large intestine
- Absorbs water from undigested food
- Material left forms faeces
- Includes appendix
- Rectum
- Stores faeces before being passed out through the anus
- Carbohydrates
- Made up of carbon, hydrogen, oxygen units of sugar (e.g. sucrose, glucose)
- Small carbohydrate units = simple sugars
- Long chains of simple sugars = complex carbohydrates (starch)
- Carbohydrate tests
- Benedict's test - blue solution turns brick red if sugars present
- Iodine test - yellow-red solution turns blue-black if starch present
- Lipids
- Made up of carbon, hydrogen, oxygen
- Fats (solid) and oils (liquid)
- Insoluble in water
- 3 fatty acid molecules + 1 glycerol molecule
- Lipid test
- Mix food sample with ethanol - gives a cloudy white layer if lipids present
- Proteins
- Made up of long chains of different amino acids
- Shape is important for function, can be denatured by changes in temperature or pH
- Protein functions
- Building tissues, enzymes, hormones, antibodies
- Biuret test
- Mix food sample with biuret reagent - turns purple if protein present
- CatalystsSpeed up rate of chemical reactions without being consumed or permanently altered
- EnzymesBiological catalysts - proteins that interact with specific substrates
- Enzyme structure
- Primary structure - amino acid chain
- Secondary structure - folded amino acid chain
- Tertiary structure - 3D folded shape with active site
- Lock and key modelSubstrate fits perfectly into the enzyme's active site due to complementary shapes
- Metabolic reactions
- Building large molecules from smaller ones
- Changing one molecule into a different molecule
- Breaking down large molecules into smaller ones
- Effect of temperature on enzymes
- Increase in temperature increases reaction rate up to 40°C, then enzyme becomes denatured and reaction rate drops
- Effect of pH on enzymes
- Enzymes work best at specific pH levels, changes in pH can denature the enzyme
- Digestive enzymes
- Produced by specialised glands and work outside cells in the digestive system to break down food