Chapter 1 · Cell and Its Structure

Cell Membrane and Transport

~14 min · Pages 19–38

Structure of the Plasma Membrane

The plasma membrane is described by the fluid mosaic model. It consists of a phospholipid bilayer — two sheets of phospholipid molecules with their hydrophilic heads facing outward and hydrophobic tails facing inward. Embedded within the bilayer are proteins: some span the full width (integral proteins) and others attach to the surface (peripheral proteins).

Types of Membrane Transport

Comparison of the four main transport mechanisms across the cell membrane.

TypeDirectionEnergyExamples
Simple diffusionHigh → low concentrationNone (passive)O₂, CO₂, lipid-soluble substances
Facilitated diffusionHigh → low concentrationNone (passive)Glucose, ions via channel proteins
OsmosisHigh → low water potentialNone (passive)Water across aquaporins
Active transportLow → high concentrationATP requiredNa⁺/K⁺ pump, glucose absorption in gut

Osmotic direction

Water moves: HIGH water potential → LOW water potential (across semipermeable membrane)

The Sodium–Potassium Pump

The Na⁺/K⁺ ATPase is a classic example of active transport. For every ATP hydrolysed, it pumps 3 Na⁺ out of the cell and 2 K⁺ in. This creates an electrochemical gradient essential for nerve impulse transmission and muscle contraction.

HSC Exam Focus

Always state BOTH the direction of movement AND the energy requirement. 'Glucose enters the intestinal epithelial cell by active transport against its concentration gradient, using ATP.' Exam marks are lost when students omit the energy source.

Real-Life Application

Oral rehydration salts (ORS) given during diarrhoea contain glucose and Na⁺ to activate the Na⁺–glucose co-transporter in the gut. This pulls water into the body by osmosis — saving millions of lives annually.

InstaTest

InstaTest: Membrane Transport

4-question MCQ sprint on diffusion, osmosis, and active transport.

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