OCR (A) Biology A-level Topic 2.5 Biological Membranes Notes PDF

Summary

This document provides notes on biological membranes, including their structure and the different types of transport across them. It covers diffusion, facilitated diffusion, osmosis, and active transport, and their relationship to cell function.

Full Transcript

OCR (A) Biology A-level

Topic 2.5: Biological membranes
Notes

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 All cells and organelles are surrounded by a
partially permeable membrane composed of a
sea of phospholipids with protein molecules
between the phospholipid molecules. The main
function of the membrane is controlling the
movement of substances in and out of the
cell/organelle. However, it also contains
receptors for other molecules such as hormones
and enables adjacent cells to stick together. The
fluidity of the membrane and the mosaic
arrangement of the protein give the structure of
the membrane its name – fluid mosaic model.
Figure: Biology Course

The movement of molecules through cell membrane depends on the properties of the
molecule as well as the requirements of the cell. There are several types of movement:

Diffusion is the passive movement of small, non-polar lipid soluble molecules such as
carbon dioxide and oxygen from an area of high concentration to an area of low
concentration. The molecules move directly through the phospholipid bilayer.

Facilitated diffusion requires a channel protein in the cell membrane to transport
polar molecules, charged and water soluble molecules across the membrane.

Osmosis is the diffusion of water molecules from an area of low solute concentration
to an area of high solute concentration through a partially permeable membrane.

Osmosis is the diffusion of water molecules from an area of high water potential to an
area of low water potential through a partially permeable membrane.

Active transport can transport all types of molecules through carrier proteins from an
area of low concentration to an area of high concentration. However, this process
requires energy in the form of ATP.

Exocytosis and endocytosis transport large particles and bulk transport. The particles
are enclosed in vesicles made from the cell surface membrane and transported into the
cell in endocytosis. In exocytosis, vesicles containing large particles are fused with
the cell surface membrane.
The rate of gas exchange by diffusion becomes more rapid as:
Surface area of the surface increases
Diffusion distance decreases
Diffusion gradient becomes more steep

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