Microbiology 4

Question 1

what is carbons % dry weight, its source and its function?

Answer 1

50%

• organics / CO2
• main constituent of cell, cell material and water

Question 2

what is oxygens % dry weight, its source and its function?

Answer 2

20%

• H2O, organics, CO2 and O2
• electron acceptor in aerobic respiration

Question 3

what is nitrogens % dry weight, its source and its function?

Answer 3

14%

• NH3, NO3, organics, N2
• amino acids, nucleotides & coenzymes

Question 4

what is hydrogens % dry weight, its source and its function?

Answer 4

8%

• H2O, organics, H2
• organic compounds and cell water

Question 5

what is phosphorous’ % dry weight, its source and its function?

Answer 5

3%

• inorganic phosphates
• nucleic acids, nucleotides & phospholipids

Question 6

what is sulphurs % dry weight, its source and its function?

Answer 6

1%

• SO4, H2S, S^o and organic sulphur compounds
• proteins & several coenzymes

Question 7

what is potassiums % dry weight, its source and its function?

Answer 7

1%

• potassium salts
• main inorganic cation & enzymatic cofactor

Question 8

what is magnesiums % dry weight, its source and its function?

Answer 8

0. 5%
   - magnesium salts
   - inorganic cation & enzymatic cofactor

Question 9

what is calciums % dry weight, its source and its function?

Answer 9

0. 5%
   - calcium salts
   - inorganic cation, enzymatic cofactors & endospores

Question 10

what is irons % dry weight, its source and its function?

Answer 10

0. 2%
   - iron salts
   - cytochrome component, enzymatic cofactor

Question 11

carbon source trophs?

Answer 11

• autotrophs

- heterotrophs

Question 12

energy source trophs?

Answer 12

• phototrophs

- chemotrophs

Question 13

electron source trophs?

Answer 13

• lithotrophs

- organotrophs

Question 14

autotrophs?

Answer 14

CO2 sole / principle carbon source

Question 15

heterotrophs?

Answer 15

obtained from other organism

Question 16

phototrophs?

Answer 16

light

Question 17

chemotrophs?

Answer 17

compound oxidation

Question 18

lithotrophs?

Answer 18

reduced inorganic compounds

Question 19

organotrophs?

Answer 19

organic molecules

Question 20

what are the 2 ways to culture microorganism?

Answer 20

• liquid media (broth)

- solid media (agar plates)

Question 21

who was in vitro microorganism culture originally grown by?

Answer 21

koch (late C19th) on potato slices and gelatine

Question 22

in liquid media, how do bacteria grow?

Answer 22

as individual cells until available nutrients exhausted

• makes suspension of cells (can’t differentiate between different cell types without further testing)

Question 23

on solid media, how does bacteria grow?

Answer 23

bacteria and fungi form colonies with distinctive appearances

• each colony comes from single cells

Question 24

what can the formula of media influence?

Answer 24

colony appearance (selective and differential media)

Question 25

what is the difference between solid and liquid media?

Answer 25

solid has addition of gelling agent (agar)

Question 26

undefined media?

Answer 26

contains chemically undefined yeast/veg/meat extracts and digested proteins

• batch-batch variation and reproducibility
• useful for routine growth applications

Question 27

defined media?

Answer 27

(synthetic media) all components chemically define

• highly reproducible
• can = rich/minimal depending on requirements

Question 28

obligate aerobe?

Answer 28

e.g. mycobacterium tuberculosis

cannot survive without oxygen

Question 29

obligate anaerobe?

Answer 29

e.g. clostridium difficile

cannot survive in presence of oxygen

Question 30

facultative aerobe?

Answer 30

e.g. staphylococcus aureus

can grow in presence of oxygen / produce energy by fermentation

Question 31

microaerophile?

Answer 31

e.g. campylobacter jejuni

needs reduced oxygen content (inc CO2) in order to survive

Question 32

aerotolerant anaerobe?

Answer 32

e.g. streptococcus mutans

can tolerate oxygen in air but makes energy in fermentation

Question 33

what are the methods for anaerobic/aerotolerant culture?

Answer 33

• anaerobic cabinet
• gaspak sachets
• candle extinction

Question 34

anaerobic cabinet?

Answer 34

• big isolates cabinet
• 95% N2, 5% H2 with palladium catalyst
• under positive pressure

Question 35

gaspak sachets?

Answer 35

produces CO2 & H2 from breakdown of citric acid, cobalt chloride and NaBH4

Question 36

candle extinction?

Answer 36

uses up oxygen by burning of candle in jar

Question 37

what 2 methods rarely produce a true anaerobic enviro?

Answer 37

gaspak and candle methods

Question 38

most bacteria reproduce by binary fission, what do other reproduce by?

Answer 38

budding

Question 39

what is the generation time?

Answer 39

time taken to reproduce

Question 40

how does the generation time vary?

Answer 40

• e.coli: 30 mins

- mycobacterium leprae: 14 days

Question 41

how many distinct phases are there in bacterial growth?

Answer 41

4

Question 42

lag phase

Answer 42

• no immediate increase in cell number

- old cells depleted & need time for synthesis of new cell components/metabolites

Question 43

exponential (log) phase

Answer 43

• growth & division at max possible rate five genetic potential & enviro conditions
• regular doubling time

Question 44

stationary phase

Answer 44

• in closed system nutrients = depleted & waste products build up
• growth ceases (or balanced by death)
• morphological and metabolical changes (e.g. secondary metabolism)

Question 45

death phase (senescence)

Answer 45

• severe nutrient deprivation
• build-up of toxic waste products
• viable cell numbers decline at exponential rate

Question 46

primary metabolism

Answer 46

includes major metabolic pathways

• energy production and release
• cell component synthesis
• enzyme production

Question 47

secondary metabolism

Answer 47

non-essential metabolic pathways

• includes production of natural products e.g. antibiotics
• production of secondary metabolites in disease states —> inc pathogenicity (e.g. pyocyanin)

Question 48

what kind of system are flask cultures?

Answer 48

closed systems

Question 49

flask/batch cultures

Answer 49

• used for optimisation
• nutrient availability limited
• atmosphere limited due to diffusion at liquid surface
• limited product production (not suitable for industry, lab scale only)

Question 50

what kind of systems are chemostats?

Answer 50

open systems

Question 51

chemostats/ continuous cultures

Answer 51

• allows for highly controlled growth

- nutrients supplied at constant rate

Question 52

formula for steady state?

Answer 52

Mew = D = F/V

Question 53

what are the 3 growth modes in bulk culturing?

Answer 53

• batch - full at start
• fed batch - fill until vessel full
• continuous - fill and overflow

Question 54

what is the important criteria in bulk culturing?

Answer 54

• maintain adequate mixing
• maintain high oxygen levels - if aerobic
• control pH
• control temp
• control foam
• initial starting conc

Question 55

what does viral replication rely on?

Answer 55

subversion of host replication machinery

in both prokaryotic and eukaryotic viruses

Question 56

in bacteriophages what does subversion lead to?

Answer 56

• cell destruction

- lytic replication

Question 57

in eukaryotes what do viruses tend to do?

Answer 57

bud rather than destroy cell

e.g. influenza, HIV

Question 58

give examples of viruses which lie dormant and cause human disease?

Answer 58

• herpes simplex virus

- human papilloma virus

Question 59

what is lysogenic replication?

Answer 59

when bacteriophages integrate genome into host and replicate alongside host

Question 60

what is evolution?

Answer 60

change in population over time

Question 61

how does evolution arise?

Answer 61

• acquisition of new genes

- mutation of existing genes

Question 62

results of bacterial evolution can = good/bas

give examples of this?

Answer 62

• inc product yield
• become pathogenic
• inc in resistance to treatment

Question 63

more complex the organism ….

Answer 63

slower rate of evolution

Question 64

what is a mutation and give examples of how mutations can arise?

Answer 64

permanent change in single cell (not necessarily cause any noticeable change/get passed on)

• UV irradiation
• chemical exposure
• poor genome copy

Question 65

a harmful or deleterious mutation decreases…

Answer 65

organism fitness

Question 66

a beneficial/advantageous mutation increases ….

Answer 66

organism fitness

also include mutations that promote desirable traits

Question 67

what kind of effect does a neutral mutation have?

Answer 67

no harmful / beneficial effect

such mutations occur at steady state

Question 68

what are the 3 main mechanisms through which bacteria can evolve?

Answer 68

• transformation
• transduction
• conjugation

Question 69

transformation?

Answer 69

direct uptake of DNA through cell membrane

Question 70

transduction?

Answer 70

introduction of genetic material via viral vector

Question 71

conjugation?

Answer 71

transfer of genetic material between 2 directly connected bacteria

Question 72

antibiotic usage can as what on bacteria?

Answer 72

selective pressure

removes competition for resistant cells by killing susceptible cells

Question 73

how can bacterial strains be improved naturally?

Answer 73

spontaneous mutation (random & infrequent)

Question 74

give examples how can exposure to mutagens increase frequency of mutations?

Answer 74

• uv/chemical exposure
• random mutagenesis
• mutants can be picked and assessed for increased production

Question 75

what is targeted mutagenesis?

Answer 75

add/remove/alter genes to improve overall yield

Question 76

what is production measured in?

Answer 76

activity/mL