Topic 2 – Organization of the Cells of the Organism – Best IGCSE Biology Revision Guide Syllabus 2023-2025

Welcome back to our Biology Revision Guides. In this guide we will provide you will all the notes you need to revise the topic of "Organization of the Cells of the Organism". Enjoy!
Cells. An example of a cell

Table of Contents

2.1.1 Cell Structure

Animal & Plant Cells

Animals

  • Main features of animal cells:
    • They are multicellular
    • They contain a nucleus with a distinct membrane
    • They do not have cell walls
    • They do not contain chloroplasts thus they are unable to carry out photosynthesis
    • They feed on organic substances made by other living things
    • They often store carbohydrates as glycogen
    • They usually have nervous coordination
    • They are able to move from place to place

Plants

  • The main features of plant cells:
    • They are multicellular
    • They contain a nucleus with a distinct membrane
    • They have cell walls made out of cellulose
    • They contain chloroplasts, which means they can carry out photosynthesis
    • They feed by photosynthesis
    • They store carbohydrates as starch or sucrose
    • They do not have nervous coordination

StructureFunction
NucleusStores the genetic material (known as DNA) which controls and regulates the activities of the cell
CytoplasmGel-like substance mainly composed of water and dissolved solutes
Supports the internal cell
Site of chemical reactions, which also includes anaerobic respiration
Cell membraneHolds the cell together
Controls which substances can enter and leave the cell
RibosomesFound in the cytoplasm
Site of protein synthesis
MitochondriaKnown as the “powerhouse of the cell”
Site of most reactions, involved in aerobic respiration, where energy must be released in order to fuel cell processes.
Structures found in BOTH Animal & Plant Cells ↑

StructureFunction
Cell wallMade of cellulose
Gives the cell extra support
ChloroplastsContains chlorophyll to absorb sunlight and enzymes needed to photosynthesize
VacuoleContains the cell “sap”
Used for storage of materials
Also helps support the shape of the cell
Structures found ONLY in PLANT Cells ↑

Bacteria Cells

  • Bacteria, which have a wide variety of shapes and sizes, all share the following biological characteristics:
    • They are microscopic single-celled organisms
    • They possess a cell wall, cell membrane, cytoplasm and ribosomes
    • They lack a nucleus but contain a circular chromosome of DNA that floats around in the cytoplasm
    • Plasmids are also sometimes present. Plasmids are small rings of DNA that contain extra genes to those found in the chromosomal DNA
    • They lack mitochondria, chloroplasts and other membrane-bound organelles found in animal and plant cells
  •  Some bacteria also have a flagellum or flagella (plural). These are long, thin, whip-like tails attached to bacteria that allow them to move

Identifying Cell Structures & Function

  • Within the cytoplasm, the following organelles are visible in almost all cells except prokaryotes when looking at higher magnification:
    • Mitochondria are organelles found throughout the cytoplasm
    • Ribosomes are tiny structures that can be free within the cytoplasm or attached to membranes within the cell known as the endoplasmic reticulum.
    • Endoplasmic reticulum studded with ribosomes looks rough under the microscope; this gives rise to its name of rough endoplasmic reticulum.
    • Vesicles can also be seen using a higher magnification – these are small circular structures found moving throughout the cytoplasm

2.1.2 – Organization of Cells

Producing New Cells

  • The ones in your body need to be able to divide to help your body grow and repair itself
  • They grow and divide over and over again
  • New cells are produced by the division of existing ones

Specialized Cells

  • This type of cell are those which have developed certain characteristics in order to perform particular functions. These differences are controlled by genes in the nucleus
  • Cells specialize by undergoing differentiation: this is a process by which cells develop the structure and characteristics needed to be able to carry out their function
CellFunctionAdaptation
Ciliated cellControls the movement of mucus in the trachea and/or bronchiHair-like structure called cilia that beat to transport the mucus and trapped particles to the throat
Nerve cellTransmit signals in the form of electrical impulsesLong
Has extensions and branches, so it can communicate with other nerves, muscles, etc
Red blood cellTransports oxygen through the bloodBiconcave shape, which helps to increase surface area so that oxygen can be transported more easily
Contains hemoglobin which combines with oxygen to transport it
Contains no nucleus so there is more space for hemoglobin
Sperm cellReproduction (fertilize the egg cell)Head contains genetic material
Acrosome in the head contains digestive enzymes so it can penetrate the egg cell and fertilize
Mid-piece contains mitochondria, provides energy to the head to penetrate the egg, and the tail to swim.
Tail enables the sperm to swim
Egg cellReproductionContains lots of cytoplasm
Nucleus contains genetic information
Cell membrane changes after it has been fertilized by sperm so that no more can enter.
Specialized cells in animals ↑
CellFunctionAdaptation
Root hair cellAbsorbs water and minerals from soilRoot hair increases the surface area of the cell to ensure maximum absorption of nutrients.
Walls are thin to ensure water transports quickly.
Xylem vesselSupports the plant No top and bottom walls, so water can continuously flow freely
The side walls thicken with the help of lignin so they can help support the plant
Palisade mesophyll cellResponsible for photosynthesisShaped like a column to maximize the absorption of sunlight
Contains lots of chloroplasts for maximum photosynthesis
Specialized cells in plants ↑

Levels of Organization in an Organism

LevelDescription
CellsBasic functioning and structural unit of life
TissuesGroup of similar-structured cells working together to perform the same function
OrganMade from different tissues working together to perform specific functions
Organ SystemsGroup of organs with relating functions, working together to perform bodily functions

2.1.3 Magnification Formula

  • Magnification is calculated using the following equation:

Magnification = Image size ÷ Actual size

An easy way to remember it is by drawing this triangle:

Rearrange the equation however you like depending on the question that you receive.

Keep this in mind:

  • Magnification = image size / actual size
  • Actual size = image size / magnification
  • Image size = magnification x actual size
  1. ALWAYS LOOK AT THE UNITS!
  2. LEARN THE TRIANGLE SO YOU CAN DRAW IT IMMEDIATELY ON YOUR PAPER!
  3. MAGNIFICATION HAS NO UNITS

2.1.4 Converting Between Units: Extended

Conversion table (centimeter to millimeter to micrometer):

And that’s it for Topic 2! Hope this revision guide will help you to ace your exams!

If you want to check out the Topic 1 Revision Guide, click this link here!

If you’d like to watch a video regarding this topic, click this link here!

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