Digestion
Subject: Biology
Topic: 7
Cambridge Code: 0610 / 0970 / 5090
Digestive System
Digestion - Breakdown of food into particles small enough to absorb
Two Types
Mechanical digestion: Physical breakdown
- Chewing, churning
- Increases surface area
Chemical digestion: Enzyme breakdown
- Breaks chemical bonds
- Produces smaller molecules
Enzymes in Digestion
Carbohydrase
Breaks down carbohydrates
Amylase: Starch → Maltose
- Location: Saliva, pancreas
- Optimum pH: Neutral (6.5)
Maltase: Maltose → Glucose
- Location: Small intestine
- Optimum: Neutral
Protease
Breaks down proteins
Pepsin: Protein → Peptides (in stomach)
- Location: Stomach
- Optimum pH: Acidic (1.5-2)
Trypsin: Peptides → Amino acids
- Location: Pancreas into small intestine
- Optimum pH: Alkaline (8)
Lipase
Breaks down fats
Lipase: Lipids → Fatty acids + Glycerol
- Location: Pancreas
- Optimum pH: Neutral
Path Through Digestive System
Mouth
- Mechanical: Teeth chew food
- Chemical: Salivary amylase
- Result: Food bolus formed
Oesophagus
- Muscular tube
- Peristalsis (muscle contractions) pushes food
- ~25 seconds to stomach
Stomach
- Mechanical: Churning breaks food
- Chemical: Pepsin breaks proteins
- Acid: HCl environment (pH 1.5-2)
- Time: 2-4 hours
- Result: Chyme (semi-liquid mixture)
Small Intestine
Location of maximum digestion and absorption
-
Duodenum: First part
- Receives pancreatic juices (trypsin, lipase)
- Receives bile (emulsifies fats)
- pH raised by bicarbonate
-
Jejunum/Ileum: Remaining small intestine
- Absorption of nutrients
- Villi increase surface area
Large Intestine
- Absorption of water
- Formation of feces
- Bacterial action (vitamin K production)
Rectum and Anus
- Temporary storage
- Defecation
Absorption in Small Intestine
Intestinal Villi
Villi features:
- Single cell lining
- Microvilli on epithelial cells
- Capillary networks inside
- Lacteal (lymphatic vessel) inside
Function: Maximize absorption surface area
Glucose and Amino Acids
- Method: Active transport (requires energy)
- Direction: Into epithelial cell then blood
- Carried by: Blood to liver
Fatty Acids and Glycerol
- Method: Diffusion then resynthesis
- In cell: Recombined to triglycerides
- Transport: Via lacteals in lymphatic system
Water
- Method: Osmosis
- Direction: Into blood (absorbed in small and large intestine)
Mineral Ions
- Method: Active transport
- Carried by: Blood
Role of Bile
Bile - Produced by liver, stored in gallbladder
Functions
- Emulsifies fats - Breaks into small droplets
- Increases surface area - More accessible to lipase
- Aids absorption - Fat solubility
Salts: Reduce surface tension Cholesterol: Component
Role of Pancreas
Pancreatic enzymes secreted into duodenum:
- Trypsin - Protein digestion
- Amylase - Starch digestion
- Lipase - Fat digestion
Bicarbonate - Neutralizes stomach acid
Control of Digestion
Nervous Control
Reflex actions:
- Swallowing
- Peristalsis
- Secretions triggered by food
Hormonal Control
Gastrin:
- Released in stomach
- Stimulates: Stomach acid, pepsin
Secretin:
- Released in duodenum (by acid)
- Stimulates: Pancreatic bicarbonate
Cholecystokinin (CCK):
- Released by duodenum (by lipids, peptides)
- Stimulates: Gallbladder, pancreatic enzymes
Key Points
- Mechanical digestion increases surface area
- Chemical digestion by enzymes
- Different enzymes in different locations
- Optimum pH varies by enzyme
- Maximum absorption in small intestine
- Villi adapt structure to function
- Active transport requires energy
Practice Questions
- Describe path of carbohydrate through digestive system
- Explain action of amylase
- Compare digestion in stomach vs small intestine
- Describe villi structure and function
- Explain role of bile
- Identify enzyme optimum conditions
Revision Tips
- Learn enzyme locations and substrates
- Know optimum pH for each enzyme
- Understand peristalsis
- Know absorption methods
- Relate structure to function of villi
- Learn hormonal controls