Biology Module 2: Foundations of biology

Question 1

What did the cell theory that was developed state

Answer 1

Both animal and plant tissues are composed of cells
Cells are the basic unit of all life
Cells only develop from existing cells

Question 2

What are the benefits of using a light microscope

Answer 2

Easily available
Relatively cheap
Can be used out on the field
Observes both living and dead cells prepared specimens
Coloured images

Question 3

What do the objective lens and eyepiece lens do

Answer 3

Increase the magnification of the image and reduce chromatic aberration(distortion)

Question 4

What is the drawback of light microscopes

Answer 4

Very low resolutions so viewing images at high magnifications aren’t helpful because they are blurred

Question 5

What is a benefit of using a electron microscope

Answer 5

more detail of cell ultrastructure

Question 6

What are the drawbacks of using electron microscopes

Answer 6

Very expensive
Can only be used in a carefully controlled environment in a dedicated space
Artefacts can be produced because of very complex sample preparation process
Vacuum required so only dead specimens can be used
Black and white images

Question 7

What are the two types of electron microscopes

Answer 7

Transmission electron microscope(TEM)
Scanning electron microscope (SEM)

Question 8

How does a TEM produce an image

Answer 8

Beam of electrons transmitted through specimen and focused to form image

Question 9

How does a SEM produce an image

Answer 9

Beam of electrons are sent across surface of a specimen and reflected electrons collected

Question 10

What is the maximum magnification of electron microscopes

Answer 10

x500 000

Question 11

What is the maximum magnification of light microscopes

Answer 11

x2000

Question 12

What is the maximum resolution of a TEM

Answer 12

0.5nm

Question 13

What is the maximum resolution of a SEM

Answer 13

3-10nm

Question 14

What dimension of images does SEM produce

Answer 14

3D image which shows valuable information about the appearance of different organisms

Question 15

What are the 4 types of light microscope sample preparation

Answer 15

Dry mount
Wet mount
Squash slides
Smear slides

Question 16

Method of Dry mount

Answer 16

solid specimens viewed whole or cut into thin slices with a sharp blade
Specimen placed on the centre of the slide
Coverslip placed on top of specimen

Question 17

When solid specimen is cut into thin slices what is this process called

Answer 17

Sectioning

Question 18

What are examples of Dry mount (whole)

Answer 18

hair, pollen, dust and insect parts

Question 19

What are examples of Dry mount ( slices)

Answer 19

muscle tissue and plants

Question 20

Method of Wet mount

Answer 20

specimen is suspended under a liquid and coverslip is placed over specimen at an angle

Question 21

What are the examples of liquids used as an suspension for Wet mount

Answer 21

water and an immersion

Question 22

Method of Squash slides

Answer 22

Wet mount prepared
Lens tissue used to gently press down coverslip

Question 23

What is a potential prevention of damage to coverslip when producing a Squash slide

Answer 23

Squash specimen between 2 microscope slides

Question 24

Squash slides a good technique for what samples

Answer 24

Soft samples

Question 25

Examples of squash slides

Answer 25

root tip which is used to observe cell division

Question 26

Method of smear slides

Answer 26

Use the edge of the slide to smear the sample
Thin, even coating created on another slide
Place coverslip over specimen

Question 27

Example of smear slide

Answer 27

Blood

Question 28

Specimens that are illuminated by white light like a light microscope, the images often have

Answer 28

low contrast

Question 29

What limits the resolution of light microscopes

Answer 29

the wavelength of light and diffraction of light as it passes through sample

Question 30

Definition diffraction

Answer 30

bending of light as it passes close to the edge of an object

Question 31

Cytosol (cytoplasm) of cells and other structures are usually

Answer 31

Transparent

Question 32

What does stains increase on cells

Answer 32

Contrast as different components within the cell take up stains to different degrees

Question 33

What does an increase in contrast allow

Answer 33

components to become more visible so they can be identified

Question 34

Method of preparing a sample for staining

Answer 34

Place sample on slide and leave to air dry
Heat-fixed by passing through a flame
Specimen adheres to microscope slide and will take up stains

Question 35

Name two positively charged dyes

Answer 35

Crystal violet and methylene blue

Question 36

What are the dyes crystal violet and methylene blue attracted to

Answer 36

negatively charged materials in cytoplasm resulting in staining of cell components

Question 37

Name two negatively charged dyes

Answer 37

Nigrosin and congo red

Question 38

What do the dyes nigrosin and congo red cause in the cell

Answer 38

repulsion of negatively charged cytoplasm

Question 39

Name the technique is taking place when dyes stay out of cells, leaving them unstained, allowing them to stand out against the stained background

Answer 39

Negative stain technique

Question 40

What does differential staining do

Answer 40

distinguishes between two types of organisms that would otherwise be hard to identify.
As well as differentiates between different organelles of a single organism within a tissue sample

Question 41

Why is the gram staining technique used

Answer 41

Separate bacteria into two groups:
- Gram positive bacteria
- Gram negative bacteria

Question 42

Method of the gram stain technique

Answer 42

• Crystal violet added to bacterial specimen on slide
• Iodine applied which fixes the dye
• Slide washed with alcohol
• Gram positive bacteria - retain stain and gram negative bacteria lose stain
• Safranin dye applied - making bacteria appear red

Question 43

Gram stain technique: once slide washed with alcohol what happens to the two groups of bacteria

Answer 43

• Gram positive bacteria - retain the crystal violet stain
• Gram negative bacteria - have thinner cell walls so they lose crystal violet stain

Question 44

What colour is crystal violet dye

Answer 44

Blue/purple under microscope

Question 45

What colour is safranin dye

Answer 45

Red

Question 46

What is safranin dye in gram stain technique

Answer 46

It is a counterstain

Question 47

What is gram positive bacteria susceptible to and what this cause

Answer 47

Antibiotic penicillin - inhibits the formation of cell walls

Question 48

Why is gram negative bacteria not susceptible to penicillin

Answer 48

They have thinner cell walls than gram positive cells

Question 49

What is the use of the acid-fast technique

Answer 49

differentiate species of Mycobacterium from other bacteria

Question 50

Method of acid-fast technique

Answer 50

• Carbolfuchsin dye carried into cells by a lipid solvent
• Cells washed with dilute acid-alcohol solution
  Result:
  -Mycobacterium not affected by acid-alcohol so retains the carbolfuchsin stain
  -Other bacteria lose stain and are exposed to the methylene blue stain which is blue

Question 51

What is the colour of the carbolfuchsin dye

Answer 51

Bright red

Question 52

What are the 4 parts of the production process of pre-prepared slides

Answer 52

Fixing
Sectioning
Staining
Mounting

Question 53

What happens in the fixing part of the production of pre-prepared slides

Answer 53

Chemicals, like formaldehyde are used to preserve specimens in as near-natural a state as possible

Question 54

What happens in the sectioning part of the production of pre-prepared slides

Answer 54

Specimens are dehydrated with alcohols and then placed in a mould with resin/wax to form a hard block
The hard block is sliced thinly with a microtome

Question 55

What happens in the staining part of the production of pre-prepared slides

Answer 55

Specimens often treated with multiple stains to show different structures

Question 56

What happens in the mounting part of the production of pre-prepared slides

Answer 56

Specimens are then secured to a microscope slide and a coverslip is placed on top

Question 57

What features make a good scientific drawing

Answer 57

• Title
• Magnification
• Sharp pencil for drawings and labels
• White/unlined paper
• At least half the paper provided
• Smooth/continuous lines
• No shading
• Clearly defined structures
• Correct proportions
• Label lines parallel to top of the page
• Label lines - no crossing and no arrow heads

Question 58

Define magnification

Answer 58

how many times larger the image is than the actual size of the object viewed

Question 59

Define resolution

Answer 59

ability to distinguish between two points which are close together on an object

Question 60

What is the magnification formula

Answer 60

magnification = image size/actual size

Question 61

Measurements from metres - nm

Answer 61

m x1000 = mm x1000= um x1000 = nm
nm/1000 = um/1000 = mm/1000 = m

Question 62

Features of an eyepiece graticule

Answer 62

• Glass disc
• scale of 1-100
• no units
• remains unchanged under different objective lens
• Relative size of divisions increase as objective lenses increase

Question 63

Feature of a stage micrometre

Answer 63

• microscope slide
• Very accurate scale in micrometre
• 100 divisions = 1mm
• 1 division = 10um
• 1/100 = 0.01mm

Question 64

Calculation of 1 graticule division

Answer 64

no of micrometres/no of graticule division

Question 65

How to calculate actual size of a specimen with after calibration

Answer 65

graticule division x magnification factor