Lab Test

Question 1

When and how do you disinfect the lab station?

Answer 1

Before and after each session, wet counter with disinfectant and wipe over entire surface with a paper towel.

Question 2

How long do you wash your hands?

Answer 2

15 seconds

Question 3

What do you do when equipment is missing or not working?

Answer 3

Alert instructor immediately.

Question 4

What happens if an accident or injury happens in lab?

Answer 4

Alert lab instructor, potentially fill out green notice of injury form, and give to environmental health and safety officer.

Question 5

What’s the difference between risk group 1 and risk group 2?

Answer 5

Risk group 1: unlikely to cause illness and pose low risk. no safety measures.

Risk group 2: organisms that may cause illness in otherwise healthy individuals. Wear disposable gloves when handling, do not use open flame, and use disposable plastic inoculating loops.

Question 6

Where do you put petri plates, gloves, glass slides, broken glass, pasteur pipettes, swabs, toothpicks, pipette tips, plastic pipettes, glassware when you’ve finished?

Answer 6

petri plates: biohaz
gloves: biohaz
glass slides: sharps
broken glass: sharps
pasteur pipettes: sharps
swabs: sharps
toothpicks: sharps
pipette tips: sharps
plastic pipettes: sharps
glassware: removed of labels, then wash trolley

Question 7

What happens when you spill a bacterial culture?

Answer 7

1. cover spill with paper towel
2. squeeze disinfectant onto outer edges of the spill and work towards the centre
3. let sit for 1 minute
4. gather soaked towels and discard in garbage
5. disinfect area again with fresh paper towels

Question 8

What do you do if culture is splashed on skin, eyes, mouth, and clothes?

Answer 8

Skin: wash with alcohol, then soap and water

eyes: rinse thoroughly with water from tap or eyewash station

mouth: rinse with copious amounts of water, and report to instructor

clothes: disinfect with small amount of disinfectant and dried completely. wash clothes separately with detergent and bleach.

Question 9

What does the WHMIS gas cylinder symbolize?

Answer 9

Gas under pressure

Question 10

What does the WHMIS flame symbolize?

Answer 10

fire hazards

Question 11

what does the WHMIS flame over circle symbolize?

Answer 11

oxidizing hazards

Question 12

what does the WHMIS skull and crossbones symbolize?

Answer 12

cause death or toxicity with short exposure to small amounts

Question 13

what does the WHMIS silhouette with branching heart symbolize?

Answer 13

may cause/suspected of causing serious health effects (carcinogen)

Question 14

what does the WHMIS exclamation mark symbolize?

Answer 14

May cause less serious health effects, or damage the ozone layer.

Question 15

What does the WHMIS biohazard symbol mean?

Answer 15

organisms or toxins that can causes diseases in people or animals

Question 16

what does the WHMIS test tube spilling on metal and hand mean?

Answer 16

corrosive damage to metals as well as skin and eyes

Question 17

what does the WHMIS explosion mean?

Answer 17

explosion or reactivity hazards

Question 18

What are the magnifications of the ocular lenses and the objective lenses?

Answer 18

ocular: 10x
objective: 10x, 40x, 100x

Question 19

what does parfocal lenses mean?

Answer 19

the user does not have to adjust the focus when changing the power of magnification

Question 20

what does the iris diaphragm and condenser do?

Answer 20

Iris diaphragm: controls width of beam. open to see colour through moving a L to R lever.

Condenser: focuses light into concentrated beam. move condenser up and down using lever beside focus knobs

Question 21

What differentiates prokaryote structure from eukaryote structure?

Answer 21

Prokaryotes are generally very small and have no visible organelles, whereas eukaryotes are larger and have a visible nucleus as well as visible cell components.

Question 22

Can you tell the difference between bacteria and archaea on a microscope?

Answer 22

No, you can only differentiate them based on molecular and chemical makeup.

Question 23

What are heterocysts?

Answer 23

specialized cells that carry out nitrogen fixation in cyanobacteria

Question 24

How do you prepare a wet mount?

Answer 24

1. obtain a clean slide and draw a circle in the middle with grease pencil
2. place drop of culture onto slide within grease pencil circle
3. place cover slip onto the drop of culture

Question 25

What is the difference between fungi and bacteria on an agar plate?

Answer 25

fungi have long filamentous hyphae that appear fuzzy/powdery, whereas bacteria are small, and shiny.

Question 26

How do you report size of a colony?

Answer 26

Measure diameter in milimeters

Question 27

What are the types of colony shapes?

Answer 27

circular, irregular, filamentous, wrinkled, or punctiform

Question 28

what are the types of colony elevations?

Answer 28

flat, raised, convex, pulvinate (semi circle), and umbonate (top of acorn)

Question 29

what are the types of colony margins?

Answer 29

entire (smooth line), undulate (squiggly), lobate (lobe like), erose (sharp and pointy)

Question 30

what are the types of colony textures?

Answer 30

brittle (crumbly), butyrous (like butter), membraneous (thin and cohesive), viscid (slimy)

Question 31

Why do we use immersion oil?

Answer 31

oil has the same refractive index as glass and prevents it from bending to increase the amount of light and therefore resolution of the image.

Question 32

What are the types of shapes of bacteria?

Answer 32

bacillus, coccus, spirillum, spirochete, appendaged, pleomorphic

Question 33

What are the steps to perform the streak plate technique with liquid broth culture?

Answer 33

1. Flame loop
2. open tube and waft over pilot flame
3. dip loop into tube
4. waft over pilot flame and close tube
5. lift petri plate lid
6. streak agar at one angle 3 times
7. flame loop
8. turn plate and streak 3 lines
9. flame loop
10. turn plate and streak 3 lines
11. flame loop
12. drag loop once through third section and streak remaining space.
13. flame loop.

Question 34

What are the steps to perform the streak plate technique with colony from plate?

Answer 34

1. Flame loop
2. open petri plate and touch an isolated colony
3. lift new petri plate lid
4. streak agar at one angle 3 times
5. flame loop
6. turn plate and streak 3 lines
7. flame loop
8. turn plate and streak 3 lines
9. flame loop
10. drag loop once through third section and streak remaining space.
11. flame loop.

Question 35

Why do we perform the streak plate technique?

Answer 35

Diluting a sample as you spread it allows single cells on the surface of the agar. Single cells multiply and grow into isolated colonies, whose morphology can aid in identification.

Question 36

What is the purpose of the standard plate count?

Answer 36

To estimate the bacterial population in the original sample.

Question 37

What is the purpose of a serial dilution?

Answer 37

To dilute a bacterial culture to obtain a plate with a countable number of colonies.

Question 38

what are the limits of the gibson mechanical pipette?

Answer 38

1000uL - 100uL OR 1mL - 0.1 mL

Question 39

How to do a serial dilution + spread plate?

Answer 39

1. Aseptically put a sterile tip onto a pipette
2. Aseptically transfer 1mL of bacterial culture into a 9mL water blank
3. Discard the tip and repeat step 2-3 until you reach desired dilution
4. With fresh tip, take 0.1 mL desired dilution and place onto an agar plate.
5. Sterilize glass hockey stick by dipping into alcohol and passing it quickly through flame
6. Lift lid halfway and spread 0.1mL with hockey stick until it has been absorbed into the plate
7. Immediately put hockey stick into alcohol and incubate plate.

Question 40

How to do the standard plate count?

Answer 40

1. count colonies (<30 and >300 is insignificant)
2. calculate average titre using # colonies/(volume)(dilution)
3. If there is more than one significant count, take the titres of all significant counts and average them.

Question 41

How to prepare a bacterial smear from liquid culture?

Answer 41

1. mix culture by tapping
2. flame loop
3. open tube and take a loopful of broth
4. place loopful onto clean slide and flame loop
5. repeat step 2 and 3 until culture is size of a nickel when spread out.
6. flame loop and allow slide to air dry
7. heat fix after air drying to get ready for staining.

Question 42

What is the gram stain? How does each gram wall work?

Answer 42

Differential stain that differentiates bacteria into groups based on cell wall (gram -ve, gram +ve).

Gram +ve: alcohol dehydrates thick peptidoglycan and decreases pores, trapping the CV-I complex inside

Gram -ve: alcohol disrupts outer cell membrane which allows CV-I to be washed out of the thin peptidoglycan.

Question 43

How does the KOH string test work?

Answer 43

3% KOH is added to a sample of bacteria. Gram negative cell walls are disrupted by the alkalinity of KOH and form strings of released DNA, while Gram positives have no effect.

Question 44

What are the roles of each of the stains in the gram stain?

Answer 44

Crystal Violet: basic stain that is trapped in the thick peptidoglycan of gram positive, and is attracted to the negative outer surface of the cell of the gram negative.

Iodine: mordant; forms complex with CV to increase the intensity of the stain

Ethanol: shrinks pores of gram positive cell wall to trap CV-I, disrupts outer membrane of gram negative to allow CV-I to be washed out

Safranin: counterstain to colour the bacteria that were destained.

Question 45

How to make a smear from solid media?

Answer 45

1. Flame loop and place small loopful of tap water onto the surface of a glass slide
2. Flame loop and take small amount of bacteria from plate and mix into the water, spreading it out into a dime shape
3. flame loop and air dry the slide
4. heat fix the slide over the pilot flame after the slide is completely dry

Question 46

What are the steps of a gram stain?

Answer 46

1. Add drops of crystal violet to smear and let sit for 1 minute
2. wash off with tap water on the sides of the slide and blot dry
3. add drops of iodine and let sit for 1 minute
4. wash off without blotting dry
5. Destain with alcohol (MAX 7 drops) and rinse with water
6. counterstain with safranin for at least 10 seconds
7. rinse and blot dry

Question 47

What is the difference between gliding and flagellar motility?

Answer 47

Gliding: on a surface and involves pili/slime layer

Flagellar: due to chemo taxis; CCW rotation = run, CW rotation = tumble. More running, less tumbling upon attractant, more tumbling, less running upon repellent

Question 48

What are methyl-accpeting chemotaxis protiens?

Answer 48

Sensors on the cytoplasmic membrane that are responsible for turning the environmental signals into flagellar rotation

Question 49

What are the types of arrangement of flagella?

Answer 49

Monotrichous: singular flagella polar on one end, nonpolar anywhere else

Amphitrichous: two flagella on either end of the bacteria (spirillum)

Lophotrichous: Tufts of flagella; polar on one end, non polar anywhere else (spirillum)

Peritrichous: flagella that surround the cell (proteus genus)

Question 50

How to view flagella under the microscope?

Answer 50

apply mordant to thicken flagella (usually tannic acid) and then add silver nitrate or methylene blue

Question 51

How to prepare a hanging drop slide?

Answer 51

1. Pick a colony from plate and suspend in tube of broth, placing it in 28ºC incubator for 45 mins for it to form flagella
2. Draw circle on cover slip with grease pencil and add vaseline to 4 corners
3. flame loop and transfer 1 loopful of broth in the middle of the circle
4. Invert hanging drop slide over the cover slip so the drop is within the depression
5. when finished, clean with disinfectant

Question 52

How does a motility tube differentiate between non motile cells?

Answer 52

Motile bacteria grow outwards from the stab, whereas non-motile bacteria grow within the stab. Growth can be seen due to electron acceptor dye that turns red in presence of metabolically active bacteria

Question 53

What is a capsule?

Answer 53

polysaccharide/protein layer with varying thickness and rigidity that assists in attachment to surfaces, protection against phagocytosis and resistance to desiccation

Question 54

What are the steps of the capsule stain?

Answer 54

1. place slide on double layer of paper towel
2. aseptically transfer loopful of bacteria from plate to one end of a clean glass slide
3. add 1 drop of crystal violet and use the loop to create a homogenous mixture
4. add one drop of nigrosin and mix the two stains together with the loop
5. use a second clean glass slide to scrape the stains across the surface of the slide, letting excess stain collect on the paper towel and let air dry.

Question 55

What is an endospore?

Answer 55

Highly differentiated cells that are resistant to heat, harsh chemicals and radiation. They appear in the dormant stage of bacterial life cycle.

Question 56

How do you perform a simple endospore stain?

Answer 56

1. Prepare a smear of an old culture of bacteria
2. simple stain the slide with safranin
3. draw black lines across the slide with permanent marker

Question 57

How to perform classic endospore stain?

Answer 57

1. prepare smear of old culture of bacteria
2. place paper towel on slide and flood with malachite green
3. pass over flame
4. rinse with water
5. apply safranin as counter stain

Question 58

What is an example of a bacterium that produces a capsule, what is its contribution to virulence?

Answer 58

Streptococcus pneumonia is a virulent, capsule-producing bacteria, which causes diesase. Their capsule prevents digestion from white blood cells.

Question 59

How do cavities form?

Answer 59

Bacteria found within plaque produces acid as a result of carbohydrate fermentation. The acid removes minerals in the outer enamel creating holes that allow the bacteria and acid to reach the dentin of the tooth.

Question 60

What are the microbiota of the mouth and their gram reactions and morphologies?

Answer 60

1. streptococcus: gram positive, cocci in chains
2. Fusobacterium: negative, single rods
3. Borrelia: negative, spirochetes
4. Actinomyces: positive, branched filaments
5. Lactobacillus: positive, rods in chains

Question 61

Why is the skin an unfavourable environment for bacteria?

Answer 61

It is dry and has a low pH

Question 62

What are the two types of normal biota of the skin?

Answer 62

transient microbes: skin picks up from environment and unable to establish residence

resident microbes:thrive on skin and are mostly gram positive, which are better adapted to dry conidtions. They convert oils to antimicrobial unsaturated fatty acids to prevent gram negative and fungi to take over.

Question 63

What is the main genus of gram positive bacteria found on skin and give two examples.

Answer 63

Staphylococcus epidermis: non-pigmented bacterium

Staphylococcus aureus: yellow colony and associated with pimples, boils and food poisoning. Antibiotic resistant S. aureus is rampant in hospital personnel and cause nonsocomial infections.

Question 64

What is the purpose of mannitol salt agar?

Answer 64

Selective and differential medium used to find halotolerant staphylococci such as staphylococcus aureus, which turns bright yellow as it ferments mannitol.

Question 65

What is the purpose of blood agar and an example of a bacteria that has a zone of clearing?

Answer 65

Enriched and differential medium used to differentiate hemolytic bacteria. Can either be gamma hemolytic (no clearing), alpha hemolytic (green zone of clearing) or beta hemolytic (yellow zone of clearing). Staphylococcus aureus is an example of a betahemolytic bacteria.

Question 66

What are examples of members of the family enterobacteriaceae? What can they do?

Answer 66

escherichia coli, enterobacter, bacteroides, clostridium, enterococcus. Produce Vitamin K, stimulate immune system via competition, ferment lactose (coliforms)

Question 67

Why do we use MacConkey Agar?

Answer 67

Differentiates between gram negative (can grow) and gram positives (cannot grow) and produces pigment when fermenting lactose. Extra strong if the bile salts spread.

Question 68

What are the 10 macronutrients? Which make up the macromolecules? Which make up cofactors?

Answer 68

CHOPKNSCaFeMg

Macromolecules: CHONPS
Cofactors: KMgFeCa

Question 69

What are the three classes of growth factors?

Answer 69

1. amino acids (to make protein)
2. purines and pyrimidines (to make nucleic acids)
3. vitamins (organic cofactors for metabolism)

Question 70

Why is agar added into the milk bottle separately from the solution?

Answer 70

Does not dissolve at room temperature.

Question 71

How much is the volume of the milk jar?

Answer 71

approx. 100mL

Question 72

What agar ingredient is added after autoclaving and why? How is it sterilized?

Answer 72

MgSO4 is added after autoclaving because it is heat sensitive and will precipitate at high temps. It is sterilized separately through membrane filtration.

Question 73

How do you know how much of a solution of certain concentration you need for an agar recipe?

Answer 73

C1V1 = C2V2

C1: concentration of stock
V1: volume of stock needed
C2: concentration required
V2: volume of medium

concentrations must be in the same units, volumes must be in the same units

Question 74

How does the autoclave work?

Answer 74

water is heated to boiling temp and steam is injected into chamber containing materials. Chamber is under pressure (15 pounds per square inch) which brings temperature of steam to 121ºC, killing cells and endospores within 20 minutes. Bottles with screwcaps must be loose and cannot be filled with liquids that boil over.

Question 75

What is the laminar flow hood?

Answer 75

Wipe interior surfaces with disinfectant and flow of air from back of hood pushes out any contamination. Air is filtered with HEPA filter, which as 99.97% efficiency at removing particles 0.3um or higher.

Question 76

What is the difference between defined/synthetic medium and a complex medium?

Answer 76

Defined: Medium where all elements are of known quantities (e.g. glucose salts agar)

Complex: exact components of the medium are not known (e.g. peptone agar, tomato juice agar)

Question 77

What is an enriched medium?

Answer 77

Complex media with an added nutrient source to encourage the growth of fastidious heterotrophs (E.g. blood agar, chocolate agar)

Question 78

What is a selective medium and two examples?

Answer 78

Has an ingredient that inhibits a type of bacteria, and supports the growth of the wanted organism

(e.g. Burks agar is nitrogen less, and contains molybdenum to support the growth of nitrogen-fixing bacteria. Mannitol salt agar has a high salt concentration which inhibits all bacteria except those that exhibit halotolerance)

Question 79

What is a differential medium?

Answer 79

a medium that may or may not be selective that allows different kinds of organisms to grow but allows you to visually discriminate between different bacteria. This is based on the appearance of the colony, or the presence of a zone around the colony.

Question 80

What are the requirements for a medium? What else can you add?

Answer 80

1. MUST contain carbon source (unless autotrophic)
2. MUST contain nitrogen source (unless nitrogen fixer)
3. MUST contain inorganic salts.
4. may or may not have agar for solid media
5. may or may not be enriched with growth factors (e.g. peptone)
6. may or may not have a selective agent
7. may or may not have a pH indicator for differential medium.

Question 81

What are the phases of growth on a bacterial growth curve?

Answer 81

1. Lag phase: Bacteria are adjusting to their environment
2. Log phase: exponential increase in number of cells, growth rate > death rate
3. Stationary phase: growth rate = death rate; cell division is equal to cell death as nutrients and oxygen begin to deplete and toxic wastes begin to build up
4. Death phase: initiates when growth rate < death rate due to complete depletion of nutrients and oxygen

Question 82

Why do you use a semi-log scale on a growth curve?

Answer 82

Y axis is graphed as a log and x axis is graphed as arithmetic because growth rate is calculated linearly rather than from raw exponential data.

Question 83

How do you use a spectrophotrometer?

Answer 83

1. before using, make sure that correct wavelength for measurement is selected
2. Take a blank cuvette and zero the machine
3. Take a cuvette of culture and measure after zeroing it

Question 84

What is the difference between the growth rate (k) and the generation time (g)?

Answer 84

growth rate (k): the number of generations that occur per minute/hour

generation time (g): amount of time it takes for one generation to occur

Question 85

What are the formulas for growth constant and generation time?

Answer 85

k = (logA2-logA1)/0.301(delta T)

g = 1/k

Question 86

What are the types of antimicrobials?

Answer 86

Alcohols, Quarternary Ammonium compounds (QUATs), Chlorine, Triclosan

Question 87

How is alcohol an antimicrobial agent?

Answer 87

Strongly antimicrobial but do not destroy endospores. They act quickly and evaporate, but do not penetrate organic matter well. (E.g. isopropanol and ethanol)

Question 88

How are Quarternary Ammonium Compounds antimicrobial agents?

Answer 88

Aka cationic detergents, strongly microbial against gram positive bacteria but not endospores. PEnetrate organic matter well and leave a film of disinfectant that can maintain killing power for hours after application. (e.g. benzalkonium chloride, benzethonium chloride, methylbenzethonium chloride, and cetylpyridinium chloride)

Question 89

How is chlorine an antimicrobial agent?

Answer 89

Destroys bacteria, endospores, and viruses with excellent penetrating power, though they break down over time. (E.g. sodium hypochlorite)

Question 90

How is triclosan an antimicrobial agent?

Answer 90

Phenol containing antimicrobial that has been doubted in value over the years.

Question 91

Why is the disk diffusion assay unreliable to make comparisons between the antimicrobial effect of different agents?

Answer 91

Zone of inhibition is influenced by other factors besides the ability of the product to inhibit growth of bacteria. (e.g. hand creams dont diffuse into the agar well due to hydrophobic nature)

Question 92

How does the pour plate method work?

Answer 92

1. Perform a serial dilution until you have a concentration you want
2. Aseptically take 1mL of the concentration and pipette into the petri plate
3. Pour molten agar into the petri plate with the dilution inside and swirl on the counter with the lid closed

Question 93

What are the digestive enzymes of bacteria?

Answer 93

1. amylase: starch to maltose
2. cellulase: cellulose to glucose
3. gelatinase: protease that can hydrolyze gelatin
4. caseinase: protease that can hydrolyze casein

Question 94

What is the starch plate?

Answer 94

Agar plate with high concentration of starch that can be used to determine if bacteria produce amylase. Iodine binds to starch but not to maltose, so zones of clearing indicate production of amylase.