Cambridge IGCSE Biology Cell Structure & Size of Specimens PDF

Summary

These revision notes provide information on cell structure and the differences between animal and plant cells. It covers topics such as cell structure, cell function, magnification, and more.

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Cambridge (CIE) IGCSE Biology Your notes

Cell Structure & Size of Specimens
Contents
Cell Structure
Organisation of Cells
Magnification Formula
Converting Between Units

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Cell Structure
Your notes
Animal & plant cells
Animal cell structure
The main features of animal cells:
They contain a nucleus with a distinct membrane
Cells do not have cellulose cell walls
Their cells do not contain chloroplasts (so they are unable to carry out photosynthesis)
They contain carbohydrates stored as glycogen

Animal cell diagram

A typical animal cell
Plant cell structure
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The main features of plant cells:
They contain a nucleus with a distinct membrane Your notes
Cells have cell walls made out of cellulose
They contain chloroplasts (so they can carry out photosynthesis)
Carbohydrates are stored as starch or sucrose

Plant cell diagram

A typical plant cell
Plant and animal cell structure and function
Structure Function

Nucleus Contains the DNA (genetic material) which controls the activities of the cell

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Cytoplasm A gel like substance composed of water and dissolved solutes
Supports the internal structures of the cell Your notes
Site of many chemical reactions (including anaerobic respiration)

Cell membrane Holds the cell together separating the inside of the cell from the outside
Controls which substances enter or leave the cell

Ribosomes Found in the cytoplasm
The site of protein synthesis

Mitochondria The site of aerobic respiration

Cell structure diagram

An animal and plant cell as seen under a light microscope
Plant cell structure and function
Structure Function

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Cell wall Made of cellulose (a polymer of glucose)
Gives the cell extra support, defining its shape Your notes

Chloroplast Contains the green chlorophyll pigment that absorbs light energy for
photosynthesis

Permanent Contains cell sap: a solution of sugar and salt
vacuole
Used for storage of certain materials
Helps to support the shape of the cell

Bacteria cells
Bacteria cell structure
Bacteria, which have a wide variety of shapes and sizes, all share the following biological
characteristics:
They are microscopic single-celled organisms
Possess a cell wall (made of peptidoglycan, not cellulose), cell membrane, cytoplasm and
ribosomes
Lack a nucleus but contain a circular chromosome of DNA that floats in the cytoplasm
Plasmids are sometimes present - these are small rings of DNA (also floating in the cytoplasm)
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 (singular) or several flagella (plural). These are long, thin, whip-
like tails attached to bacteria that allow them to move
Examples of bacteria include:
Lactobacillus (a rod-shaped bacterium used in the production of yoghurt from milk)
Pneumococcus (a spherical bacterium that acts as the pathogen causing pneumonia)

Bacteria cell diagram

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Your notes

A typical bacterial cell

Identifying cell structures & function
Within the cytoplasm, the following organelles are visible in almost all cells except prokaryotes when
looking at higher magnification (ie using an electron microscope):
Mitochondria (singular: mitochondrion) are organelles found throughout the cytoplasm
Ribosomes are tiny structures that can be free within the cytoplasm or attached to a system of
membranes within the cell known as Endoplasmic Reticulum
Endoplasmic reticulum studded with ribosomes looks rough under the microscope; this gives rise
to its name of Rough Endoplasmic Reticulum (often shortened to R.E.R.)
Vesicles can also be seen using a higher magnification - these are small circular structures found
moving throughout the cytoplasm

Identifying cell structures under a microscope

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Your notes

Structures in an animal cell visible under a light microscope and an electron microscope

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Structures in a plant cell visible under a light microscope and an electron microscope
Your notes

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Organisation of Cells
Your notes
Producing New Cells
The cells in your body need to be able to divide to help your body grow and repair itself
Cells grow and divide over and over again
New cells are produced by the division of existing cells

Specialised Cells
Specialised cells in animals
Specialised cells are those which have developed certain characteristics in order to perform
particular functions. These differences are controlled by genes in the nucleus
Cells specialise by undergoing differentiation: this is a process by which cells develop the structure
and characteristics needed to be able to carry out their functions
Specialised Cells in Animals Table

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Your notes

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Your notes
Diagrams of specialised cells in animals:

Ciliated cell

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Your notes

Nerve cell

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Your notes

Red blood cells

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Your notes

Sperm cell

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Egg cell
Examples of specialised cells in plants: Your notes

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Your notes

Diagrams of specialised cells in plants:
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Your notes

Root hair cell

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Your notes

Xylem structure

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Your notes

Palisade mesophyll cell

Levels of Organisation in an Organism

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Your notes

Levels of organisation

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Your notes

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Your notes

Your syllabus states that you should be able to identify the different levels of organisation in drawings,
diagrams and images of familiar material
An example of this is shown in the exam question below:

Typical levels of organisation question

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Examiner Tips and Tricks
Your notes
Most incorrect answers here come from not being able to identify a tissue, so it’s worth making sure
you understand and remember that tissues are always made up of only one type of cell.

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Magnification Formula
Your notes
Magnification Formula
Calculating magnification and specimen size using
millimetres as units
Magnification is calculated using the following equation:
Magnification = Image size ÷ Actual size
A better way to remember the equation is using an equation triangle:

Magnification equation
Rearranging the equation to find things other than the magnification becomes easy when you
remember the triangle - whatever you are trying to find, place your finger over it and whatever is left is
what you do, so:
Magnification = image size / actual size
Actual size = image size / magnification
Image size = magnification x actual size
Remember magnification does not have any units and is just written as ‘x 10’ or ‘x 5000’

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Worked Example
An image of an animal cell is 30 mm in size and it has been magnified by a factor of x 3000. What is Your notes
the actual size of the cell?

To find the actual size of the cell:

Worked example using the magnification equation

Examiner Tips and Tricks
This skill most frequently comes up in paper 5 and 6 (although it also comes up in the multiple choice
and occasionally the theory paper) and you will definitely have to calculate either magnification,
drawing size or actual size in a least one paper. To ensure you do not lose marks:
1. Always look at the units that have been given in the question - if you are asked to measure
something, most often you will be expected to measure it in millimetres NOT in centimetres -
double check the question to see!
2. Learn the equation triangle for magnification and write it on the page straight away
3. Don’t forget that magnification has NO UNITS - students often lose a mark because they put
one in

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Converting Between Units
Your notes
Converting Between Units: Extended
Extended Tier Only
Using millimetres and micrometres as units
The table below shows how millimetres are related to two other measures of length
What this basically means is that 1mm = 1000µm and 1cm = 10,000µm
This usually comes up in questions where you have two different units and you need to ensure that you
convert them both into the same unit before proceeding with the calculation
For example:

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Your notes

Example extended magnification question
Remember 1mm = 1000µm
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2000 / 1000 = 2 so the actual thickness of the leaf is 2mm and the drawing thickness is 50mm
Magnification = image size / actual size = 50 / 2 = 25 Your notes
So the magnification is x 25 (NO UNITS)

Examiner Tips and Tricks
If you are given a question with two different units in it, make sure you convert them to the same unit
before doing your calculation.If you don’t, there is a good chance that your answer will be the same
as one of the incorrect options in a multiple choice question so you may think you got it right when, in
fact, you haven’t!The following diagram may help with unit conversion between mm and µm:

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