Topic 1 - Cell Structure and Organisation YEAR 9 2021 PDF

Summary

This document is a set of notes on cell structure and organization for a year 9 biology class. It discusses using a light microscope and examines cells from different organisms. It is composed of simple teaching materials used for education.

Full Transcript

 Using a light microscope
eyepiece

focus knob

turret

objective lens

stage clip
stage

mirror
 Using a light microscope
eyepiece
Which part would you adjust to
make the image brighter? focus
knob
turret
objective
lens
stage clip stage

mirror

A eyepiece

B focus knob

C mirror

D objective lens
 Using a light microscope
eyepiece
Which part would you adjust to
make the image clearer? focus
knob
turret
objective
lens
stage clip stage

mirror

A eyepiece

B focus knob

C mirror

D objective lens
 What is it made of?

You are going to use a light
microscope to investigate whether
samples from different organisms
are made of.

Can you find out whether they’re
made of cells?
 What is it made of?

Safety

Be very careful when handling glass slides.

If your microscope has a mirror, never use it
to reflect direct sunlight.

If your microscope has a light, never look
down the eyepiece without a slide on the
stage.

Always start with the slide near the objective
lens and then move it away from the lens, so
that the lens does not smash the slide.
 What is it made of?

1. Turn the turret until the lowest power eyepiece
objective lens clicks into position.

2. Place the slide on the stage and fasten it focus
with the stage clips. knob
turret
3. Look from the side and turn the focus objective
knob to move the objective lens closer to lens
stage clip
the stage. Stop before the objective lens stage
touches the slide.
mirror

4. Look through the eyepiece.

5. Turn the focus knob until the image is sharp and clear.

6. Move the mirror to reflect more light through the sample, if needed.

7. Turn the turret until the medium power objective lens clicks into position, then
re-focus the image.

8. When finished, use the focus knob to move the objective lens away from the
stage, and then remove the slide from the stage.
 What is it made of?

To answer

1. Were all of the samples made of cells?

2. How were the cells of the samples different?

3. How were the cells of the samples similar?
 Cell drawings

Some children were asked to draw what they think onion cells look like.

A B

C D

To discuss
1 Which is the best drawing of onion cells?
2 Why do you think it’s the best?
3 What is wrong with the other three drawings?
Onion cells:
Correct Partially correct Partially incorrect Incorrect
D A C B
 Cell drawings

Some children were asked to draw what they think animal cells look like.

A B

C D

To discuss
1 Which is the best drawing of animal cells?
2 Why do you think it’s the best?
3 What is wrong with the other three drawings?
Animal cells:
Correct Partially correct Partially incorrect Incorrect
A C B D
 Cell drawings

Some children were asked to draw what they think bacteria cells look like.

A B

C D

To discuss
1 Which is the best drawing of bacteria cells?
2 Why do you think it’s the best?
3 What is wrong with the other three drawings?
Bacteria cells:
Correct Partially correct Partially incorrect Incorrect
B C D A

19
Gastric pits Surface epithelium
This is where the gastric juices & This is where mucous is released to
enzymes are secreted (released) protect the stomach insides from the acid
& enzymes.
The Stomach Lumen
Space where partially digested food will enter from
the mouth and oesophagus

20

Thank You
Any questions?
 A single cell can…

The drawing shows a single cell.

Parts of the cell have been cut
away so that you can see inside
the cell and its structures.
 A single cell can…

Look at the statements in the table.

I am I I I am
How confident are you that each sure think think sure
statement is right or wrong? this is this is this is this is
right right wrong wrong

A single cell can take in food and other
1
nutrients.

2 A single cell can get energy from food.

3 A single cell can get rid of waste.

4 A single cell can make new cells.

A single cell can respond to its
5
surroundings.

6 A single cell is a living thing.
 Animal cell or plant cell?

1. Which of these diagrams show animal cells?

cytoplasm

cell
nucleus membrane
fatty mucus
insulation vesicles

mitochondria

mitochondria

2. How would you explain your answer to question 1?
 Animal cell or plant cell?

3. Which of these diagrams show plant cells?

cell wall vacuole
cytoplasm

nucleus

chloroplasts

cell
membrane

mitochondria

4. How would you explain your answer to question 3?
 What do they have in common?

The diagrams show different types of animal cells.

cytoplasm

cell
nucleus membrane
fatty mucus
insulation vesicles

mitochondria

mitochondria

Which structures do most of the animal cells have in common?
 What do they have in common?

The diagrams show different types of plant cells.

cell wall vacuole
cytoplasm

nucleus

chloroplasts

cell
membrane

mitochondria

Which structures do most of the plant cells have in common?
 What do they have in common?

Which cell features would you put in each part of the diagram?

Features Features Features
usually found usually found usually found
in animal cells in both types in plant cells
of cells
 Body cells

Which statement about
the human body is true?

A The body contains cells.

B The body is a cell.

C The body is made up of cells.

D There are no cells in the body.
 Made of cells?

1 Which of these animals are made up of cells?

Humans Fish Ants Slugs

A All of them

B Only some of them

C Only one of them

D None of them

2 How would you explain your answer to question 1?
 Made of cells?

1 Which of these plants are made up of cells?

Trees Flowers Vegetables Grass

A All of them

B Only some of them

C Only one of them

D None of them

2 How would you explain your answer to question 1?
 Made of cells?

1 Which of these bacteria are made of cells?

Salmonella E. coli MRSA

A All of them

B Only two of them

C Only one of them

D None of them

2 How would you explain your answer to question 1?
 Made of cells?

1 Which of these biological molecules are made up of cells?

Proteins Carbohydrates DNA

A All of them

B Only two of them

C Only one of them

D None of them

2 How would you explain your answer to question 1?
 Atoms, biological molecules and organelles

Cell are made up of:

Biological Organelles Atoms
molecules
Such as: Such as:
Such as:
Mitochondria Carbon
Proteins
Chloroplasts Hydrogen
Carbohydrates
Nucleus Oxygen
Fats
Vacuole Nitrogen
 Atoms, biological molecules and organelles

Look at the statements in the table. Some are right and some are
wrong.

What is your decision for each statement?

I am I I I am
sure think think sure
this is this is this is this is
right right wrong wrong

Biological molecules, organelles and atoms
1
are all about the same size.

2 Biological molecules are made up of atoms.

Biological molecules are made up of
3
organelles.

4 Atoms are much smaller than organelles.
 Cells are made up of Biological Molecules

Proteins Carbohydrates DNA

✓ Two or more atoms
joined together.
 The unit of life

The diagrams show an atom, a biological molecule and a cell.

They are not drawn to the same scale.

An atom A biological molecule A cell
 The unit of life

1 What is the smallest structure that can be alive?

A An atom

B Many atoms arranged to make a biological molecule

C Many biological molecules arranged to make a single cell

D Many cells arranged to make an organism

2 How would you explain your answer to question 1?
 How many cells?

1. What is the smallest number of cells that a living organism can
be made up of?

A One cell

B Hundreds of cells

C Thousands of cells

D Millions of cells
 How many cells?

2. What is the largest number of cells that a living organism can be
made up of?

A One cell

B Hundreds of cells

C Thousands of cells

D Millions of cells
 The size and shape of cells

Some children are talking about cells.

A B
All cells are the same size and All cells are the same size, but
shape. not all cells are the same shape.

C D
All cells are the same shape, but Different cells can have both
not all cells are the same size. different sizes and different shapes.

To discuss

1 Which person is correct?

2 Can you give examples that prove the other people are wrong?
 Animal cells

mucus
vesicles

fatty
insulation
 Animal cells

Colorized SEM pollen and dust trapped by the cilia in the
trachea (windpipe). Note: Nicotine paralyzes these cilia.
Some effects of first- and second-hand cigarette smoke may
be due to the resulting increase of pollen, dust, and germs
entering the lungs.Less
 The right cell for the job

The diagrams all show animal cells.
nucleus mitochondria whip-like tail

mucus 0.05 mm
vesicles
Cell A

cytoplasm
0.04 mm fatty
cell insulation
membrane

mitochondria

Can be up to 2 m long
Cell B Cell C

To discuss

1 Which cell would be best for transmitting electrical nerve impulses from the toes to the
brain?

How would you explain your answer?
 The right cell for the job

The diagrams all show animal cells.
nucleus mitochondria whip-like tail

mucus 0.05 mm
vesicles
Cell A

cytoplasm
0.04 mm fatty
cell insulation
membrane

mitochondria

Can be up to 2 m long
Cell B Cell C

To discuss

3 Which cell would be best for lining the inside wall of the intestines to protect it from
damage?

How would you explain your answer?
 The right cell for the job

The diagrams all show plant cells. Vacuole can fill
with water to
make the cell
swell up
cell wall
0.01 mm

nucleus
0.02 mm
hole

chloroplasts Cell B
cytoplasm (two cells
work as a pair)
cell
Cell A mitochondria membrane

Can be up to 1.5 mm long

Cell C

To discuss

1 Which cell would be best for making food by photosynthesis in a leaf?

How would you explain your answer?
 The right cell for the job

The diagrams all show plant cells. Vacuole can fill
with water to
make the cell
swell up
cell wall
0.01 mm

nucleus
0.02 mm
hole

chloroplasts Cell B
cytoplasm (two cells
work as a pair)
cell
Cell A mitochondria membrane

Can be up to 1.5 mm long

Cell C

To discuss

2 Which cell would be best for lining the outside of a root to absorb water from the soil?

How would you explain your answer?
 The right cell for the job

The diagrams all show plant cells. Vacuole can fill
with water to
make the cell
swell up
cell wall
0.01 mm

nucleus
0.02 mm
hole

chloroplasts Cell B
cytoplasm (two cells
work as a pair)
cell
Cell A mitochondria membrane

Can be up to 1.5 mm long

Cell C

To discuss

3 Which cell would be best for controlling the movement of gasses into and out of a leaf?

How would you explain your answer?
 Cell needs

The cells of humans and other animals need particular things to stay alive.

How would you joins the boxes to explain what animal cells need and what they do
with it?

What animal cells What animal cells
need do with it

React it with glucose
Oxygen A
to provide energy.

B React it with oxygen
Glucose
to provide energy.

Use it to store and
Water C transport dissolved
substances.
What animal cells What animal cells do
need with it
React it with glucose
Oxygen
to provide energy.

React it with oxygen
Glucose
to provide energy.

Use it to store and
Water transport dissolved
substances.
 Body cells

Which statement about
the human body is true?

A The body contains cells.

B The body is a cell.

C The body is made up of cells.

D Cells are only found between the organs.
https://www.youtube.com/watch?v=ZRFykdf4kDc

81
 Cell wall

Chloroplast
85
 Cell membrane
Cytoplasm

Nucleus
Mitochondria
 Cell membrane

Cell membrane
 Cytoplasm

 Mitochondria

 Mitochondria

Nucleus

Nucleus
 Cell wall
Cell membrane
Cytoplasm Chloroplast

Nucleus
Vacuole

Mitochondria
95
 Cell wall

Chloroplast

 Chloroplast

98
99

Vacuole

Vacuole
Vacuole
 Cell
membrane
retreating

102
 Ribosomes

 Ribosomes on the
membranes of
endoplasmic reticulum

105
 A 5 nm tomographic slice
from a vitreous section of a
Saccharomyces cerevisiae
cell. (M) is a Mitochondrion
and (V) a vacuole. Scale
bar, 100 nm. Upper Panel:
A high-resolution density
map of the averaged 80S
ribosome constructed using
the ribosomes seen in the
background image. Lower
Panel: A select area from
the 80S ribosome
Macromolecular Atlas
displaying a putative
polyribosome cluster.

Source:
http://www.cellimagelibrary.org/images/40609

106

μ
115
116
 μ

117
118
119
 This shows an electon microscope
image of DNA of the pSC101
plasmid, which was used as a
vector in the first successful DNA
cloning experiments, published in
SN Cohen, ACY Chang, HW
Boyer, RB Helling. 'Construction of
biologically functional bacterial
plasmids in vitro', PNAS USA,
70/11 (1973), 3240–4. Credit:
Stanley N Cohen.

120

fatty
insulation

cytoplasm

nucleus
cell
membran
e

mitochondria

mucus
vesicles

130
 4b

4a

✓
132
✓
✓
 ✓

7µm x 2µm)
136
✓
The Root Hair Cell
Function: absorption of water and
minerals/ions

139
✓

✓
141
143
“

144
145
“

146
147
“

148
149
“

150
151

154

161
Gastric pits Surface epithelium
This is where the gastric juices & This is where mucous is released to
enzymes are secreted (released) protect the stomach insides from the acid
& enzymes.
The Stomach Lumen
Space where partially digested food will enter from
the mouth and oesophagus

162
163
164

 Epiglottis

Oesophagus
Mouth
Stomach

Salivary glands

Pancreas

Small intestine

Liver
Large intestine

Gall bladder
Rectum

Anus

166
168
Mitochondria

169

 Larynx

Internal intercostal
muscles
Trachea

External intercostal
muscles Pleural membrane

Rib Pleural fluid

Alveolus

Lung

Bronchiole
Diaphragm

Bronchus
174
Animals

What animals need Why animals need it What animal cells do with it
Animal cells use oxygen for
As a source of
Air respiration to provide energy for
oxygen.
life processes.
To store and transport dissolved
Water Animal cells are filled up with it.
substances.
Animal cells use it to get energy,
Food For nutrition and respiration. and to make new cells and
materials.

Plants

What plants need Why plants need it What plant cells do with it
As a source of Plant cells use it in a chemical
carbon dioxide. reaction to make food.
Air
As a source of Plant cells use it for respiration to
oxygen. provide energy for life processes.
To store and transport dissolved
Plant cells are filled up with it.
substances.
Water
Plant cells use it in a chemical
For nutrition.
reaction to make food.
The energy is used for a chemical
Light Plants need to absorb energy.
reaction in cells that makes food.
Plant cells use nutrients to make
Nutrients from soil For nutrition and growth.
new cells and materials for growth.