2.1.1 - Cell structure

Question 1

Name the different types of microscopes ?

Answer 1

• Light microscope
• Transmission electron microscope ( TEM )
• Scanning electron microscope ( SEM )
• Laser scanning confocal microscope

Question 2

What are the features of a light microscope ?

Answer 2

• Uses light to form an image
• Resolution of 0.2 µm
• Maximum magnification of x 1500

Question 3

What are light microscope used to observe ?

Answer 3

Large structures like :
- Entire cells
- Nuclei
- Mitochondria and chloroplasts

Question 4

What are the advantages of light microscopes ?

Answer 4

• They are small/ relatively cheap
• Specimen preparation can be straightforward enough to perform in a school laboratory
• Produce colour images
• Allow the observation of living specimens

Question 5

Explain how a light microscope produces an image ?

Answer 5

• The specimen is placed on a glass slide on the stage
• Visible light ( from light bulb/ mirror ) passes through the specimen
• The objective lens produces a magnified image which is magnified again by the eye piece lens

Question 6

Explain how to prepare sample for light microscope ?

Answer 6

• Place stain at edge of sample
• Lower cover slip at an angle/ use mounted needle
• Use blotting paper to pull stain through/ remove excess stain
• Use more than one stain to increase contrast

Question 7

What are the features of an electron microscope ?

Answer 7

• Uses a beam of electrons to form image which are focused using elecromagnets
• Have a resolution of 0.2 nm
• Have a maximum magnification of x 1,000,000

Question 8

What are electron microscope used to observe ?

Answer 8

Small structures inside cells like :
- Cell membranes
- Ribosomes
- Endoplasmic reticulum
- Lysosomes

Question 9

What are the disadvantages of an electron microscope ?

Answer 9

• They are very large and expensive
• Complex sample/specimen preparation process
• Specimens must be dead/ not-living a viewed in a vacuum
• Images are always black and white

Question 10

Explain how a transmission electron microscope produces an image ?

Answer 10

• TEMs use electromagnets to transmit a beam of electrons through a very thin specimen to produce high resolution 2D image
• Denser parts of the specimen absorb more electrons, meaning that denser parts appear darker on the final image

Question 11

Explain how a scanning electron microscope produces an image ?

Answer 11

• SEMs pass a beam of electrons which are bounced/ reflected off the surface of a specimen
• They then detect the rate at which the electrons bounce back forming a 3D image of the surface of the specimen

Question 12

What is the difference between images produced by TEM’s and SEM’s ?

Answer 12

• TEM’s produce 2D images that allow the internal structures within cells, and within organelles to be seen
• SEM’s produce 3D images of the surface of a specimen
• TEM’s produce high resolution images ( 0.5 nm ) while SEM’s have a lower maximum resolution than TEM’s

Question 13

What are the features of a laser scanning conical microscope ?

Answer 13

• A higher light intensity is used to view specimen
• Uses a laser to focus light/ magnify the specimen
• The specimen is treated with a fluorescent chemical/ dye
• Light is absorbed and re-emitted by the specimen

Question 14

Explain how a laser scanning cofocal microscope produces a magnified image ?

Answer 14

• Light is directed through the thin layer of biological material that is supported on a glass slide
• This light is focused through several lenses so that an image is visible through the eyepiece
• The magnifying power of the microscope can be increased by rotating the higher power objective lens into place

Question 15

Explain how you use an eyepiece graticule and micrometer to measure length of cell ?

Answer 15

• Use eyepiece graticule
• Calibrate graticule using micrometer
• Align two scales and record number of divisions per graticule unit
• Measure the diameter of the nucleus in graticule units/ epu
• Take repeated measurements and calculate the mean diameter
• Use calibrated epu to calculate diameter

Question 16

What is staining ?

Answer 16

The process of dyeing specimen to increase contrast and identify specific components

Question 17

Why is staining used during light microscopy ?

Answer 17

• Staining increases contrast
• This allows organelles to become more easily visible by binding to stain
• This results in a more clear image being produced

Question 18

What is differential staining ?

Answer 18

The process of distinguishing between two types of organism or organelles of an organism ( that would otherwise be hard to identify ) by using more than one dye

Question 19

How do you represent cell structures seen under a light microscope ?

Answer 19

• Draw solid continuous lines
• Line should not overlap
• Draw proper proportions
• No shading
• Label or identifiable organelles visible ( label lines should not cross or have arrowheads and should connect directly )
• Title drawing
• State magnification
• Use at least 50% of space available

Question 20

What is the equation for magnification ?

Answer 20

magnification = ( image size ) / ( object size )

Question 21

Do you know how to do magnification calculations ?

Answer 21

Yes

Question 22

Define the term ‘magnification’ ?

Answer 22

Magnification - How many times larger the image in comparison to the size of the object

Question 23

Define the term ‘resolution’ ?

Answer 23

Resolution - The ability to see individual objects as separate entities instead of as one

Question 24

List the differences between a light and electron microscope ?

Answer 24

Question 25

Label the cell ?

Answer 25

Question 26

What is the function of the nucleus ?

Answer 26

- The nucleus contains chromatin (the material from which chromosomes are made) - Chromosomes are made of sections of linear DNA tightly wound around proteins called histones

Question 27

What is the nucleolus ?

Answer 27

An area within the nucleus that is the site of ribosome production

Question 28

What is the function of the nucleolus ?

Answer 28

Ribosome production

Question 29

What is the nuclear envelope ?

Answer 29

A double membrane that surrounds the nucleus

Question 30

What is the function of the nuclear envelope ?

Answer 30

It protects the nucleus from damage in the cytoplasm

Question 31

What are nuclear pores ?

Answer 31

They are gaps/ holes in the nuclear envelope

Question 32

What is the function of nuclear pores ?

Answer 32

- Allow for the movement of substances in and out of nucleus - Allow mRNA and ribosomes to travel out of the nucleus - Allow enzymes (eg. DNA polymerases) and signalling molecules to travel in

Question 33

What is the rough and smooth endoplasmic reticulum ?

Answer 33

- Flattened sac of membrane - The SER has no ribosomes attached to its surface - The RER has ribosomes bound to its surface

Question 34

What are the features of the rough endoplasmic reticulum ( RER ) ?

Answer 34

- Found in plant and animal cells - Surface covered in ribosomes - Formed from continuous folds of membrane continuous from nuclear envelope - Responsible for the synthesis, processing and transport of proteins

Question 35

What are the features of the smooth endoplasmic reticulum ( SER ) ?

Answer 35

- Found in plant and animal cells - Does not have ribosomes on its surface - Involved in the production, processing and storage of lipids, carbohydrates and steroids

Question 36

What are the features of the Golgi apparatus ?

Answer 36

- Found in plant and animal cells - Flattened sacs of membrane - Modifies proteins and lipids before packaging them into Golgi/ secretory vesicles

Question 37

What are the features of ribosomes ?

Answer 37

- Each ribosome is a complex/ made of ribosomal RNA (rRNA) and proteins - 80S ribosomes are found in eukaryotic cells - 70S ribosomes in prokaryotes, mitochondria and chloroplasts - Site of translation/ protein synthesis

Question 38

Where are ribosomes found in a cell ?

Answer 38

- Free-floating in the cytoplasm - Bound to the surface of the rough endoplasmic reticulum in eukaryotic cells

Question 39

What is the function of ribosomes ?

Answer 39

They are the site of translation/ protein synthesis

Question 40

Label the mitochondrion ?

Answer 40

Question 41

What is the function of the mitochondria ?

Answer 41

The site of aerobic cellular respiration

Question 42

Explain the structure of the mitochondria ?

Answer 42

- Mitochondria have a double membrane, an inner and outer membrane - The foldings of the inner membrane are called cristae and the fluid interior the mitochondrial matrix - Mitochondrial matrix contains enzymes needed for aerobic respiration, producing ATP - Mitochondrial matrix contain mitochondrial DNA and ribosomes - This allows mitochondria to produce they own enzymes and proteins required for replication/ aerobic respiration

Question 43

What are vesicles ?

Answer 43

A membrane-bound sac for transport and storage

Question 44

What are lysosomes ?

Answer 44

Specialist forms of vesicles which contain hydrolytic enzymes ( lysozymes )

Question 45

What is the function of lysosomes ?

Answer 45

- They are responsible for breaking down waste material in cells ( eg. Worn out organelles ) - They are responsible for breaking down pathogens ingested by phagocytic cells/ apoptosis

Question 46

What is the cytoskeleton ?

Answer 46

A network of protein fibres

Question 47

What is the function of the cytoskeleton ?

Answer 47

- Mechanical strength : Provides mechanical strength to maintain the shape of the cell and supports organelles by keeping them in position - Involved in organisation of spindle fibres during cellular division - Intracellular movement : AIDS TRANSPORT of organelles/ molecules in the cell - Extra cellular movement : The cytoskeleton enables cell movement via cilia and flagella which contain microtubules

Question 48

What are the main components of the cytoskeleton ?

Answer 48

- Microfilaments - Microtubules

Question 49

What are microfilaments and what is their function ?

Answer 49

- Microfilaments are solid strands that are mostly made of the protein actin - Responsible for cell movement/ movement of some organelles within cells by contracting

Question 50

What are microtubules and what are their function ?

Answer 50

- Microtubules are tubular/ hollow strands that are mostly made of the protein tubulin - Organelles/ other cell contents are moved along these fibres using ATP

Question 51

What are the features of centrioles ?

Answer 51

- Hollow fibres made of microtubules - Two centrioles at right angles to each other form a centrosome, which organises the spindle fibres during cell division - Not found in flowering plants and fungi

Question 52

What are the main differences between Animalia and plant cells in terms of structure ?

Answer 52

- Animal cells: centrioles and microvilli - Plant cells: the cellulose cell wall, large permanent vacuoles and chloroplasts

Question 53

Explain how the various organelles work together to produce and secrete proteins ?

Answer 53

- Nucleolus synthesises ribsosomes for protein synthesis in the rough endoplasmic reticulum - Nucleus synthesises mRNA via transcription which leaves nucleus and binds to ribosome for translation - Proteins are synthesised by ribosomes bound to RER - Proteins pass into RER's cisternae and are folded/ processed - Proteins are packaged into TRANSPORT vesicles and move from RER to Golgi apparatus via microtubules - Vesicles fuse with CIS FACE of Golgi apparatus and proteins are modified and packaged into secretory/ Golgi vesicles - Secretory vesicles fuse with the cell surface membrane and secrete proteins via exocytosis

Question 54

Label the cell ?

Answer 54

Question 55

How do prokaryotic cells differ from eukaryotic notes ?

Answer 55

- A cytoplasm that lacks membrane-bound organelles - Their ribosomes are structurally smaller (70 S) in comparison to those found in eukaryotic cells (80 S) - No nucleus (instead they have a single circular DNA molecule that is free in the cytoplasm and is not associated with proteins) - A cell wall that contains murein (a glycoprotein)

Question 56

What extra structures do prokaryotic cells contain ?

Answer 56

- Plasmids - Capsules - Flagellum

Question 57

What are the features of plasmids ?

Answer 57

- Plasmids are small loops of DNA that are separate from the main circular DNA molecule - Plasmids contain genes that can be passed between prokaryotes (e.g. genes for antibiotic resistance)

Question 58

What are features of the capsule of prokaryotic cells ?

Answer 58

- A final out layer/ slime capsule - It helps to protect bacteria from drying out and from attack by cells of the immune system of the host organism

Question 59

What is the cell wall made up of for different organisms ?

Answer 59

- Cellulose in plants - Chitin in fungi - Peptidoglycan in prokaryotic organsims

Question 60

What is the function of the cell wall ?

Answer 60

- It is freely permeable so allows for the passing of substances to and away from cell membrane - It provides mechanical strength and offers structural support to cell - It acts as a defence mechanism and protects the cell against invading pathogens

Question 61

What are features of the permanent vacuole ?

Answer 61

- A sac in plant cells surrounded by the tonoplast, selectively permeable membrane - Vacuoles in animal cells are not permanent and small

Question 62

What is the function of the permanent vacuole ?

Answer 62

- It is responsible for maintaining turgor pressure within the cell and keeping it rigid - It is selectively permeable and allows for the passage of small molecules in and out of the vacuole

Question 63

What is the membrane of the permanent vacuole made of ?

Answer 63

Tonoplast

Question 64

Label the chloroplast ?

Answer 64

Question 65

What is the function of chloroplasts ?

Answer 65

It is the site of photosynthesis

Question 66

Explain the structure of chloroplasts ?

Answer 66

- Chlorplasts have a double membrane, an inner and outer membrane - The fluid enclosed within is called the storma - Grana are stacks of disc-shaped sacs called thylakoids - Grana are joined by lamellae - Grana contain chlorophyll-pigments where light-dependant reactions occur during photosnyethsis - Chlroplasts contain small amounts of DNA and ribosomes so can make their own enzymes and proteins required for photosynthesis/ replication

Question 67

What are features of flagella ?

Answer 67

- They are tail-like structures made of longer Microtubules which ROTATE - Contract to enable cell mobility/ locomotion

Question 68

What are the features of cilia ?

Answer 68

- Hair-like projections made from microtubules - Allows the movement of substances over the cell surface

Question 69

Lis the similarities and differences between prokaryotic and eukaryotic cells ?

Answer 69