Study Unit 4

Question 1

What is cell growth?

Answer 1

Growth is a result of both cell division and a change in cell growth

Question 2

Cell growth phases

Answer 2

1. Lag phase
2. Exponential phase
3. Deceleration phase
4. Stationary phase
5. Death phase

Question 3

When does the lag phase take place?

Answer 3

Directly after innoculation

Question 4

What happens during the lag phase?

Answer 4

The cells adapt to their new environment by reorganizing their molecular constituents. Sometimes additional enzymes are synthesized and other times the enzymes are repressed

Question 5

What happens during the exponential phase?

Answer 5

The cells multiple rapidly. Balanced growth occurs and the average composition of a single cell remains approx. constant.
Cell metabolism is set up to achieve maximum rates of production.

Question 6

What happens during the deceleration growth phase?

Answer 6

Growth starts to decelerate due to the depletion of essential nutrients or the accumulation of toxic by-products.
The rapidly changing environment results in unbalanced growth where cell composition and cell size will change.
The stresses induced by nutrient depletion or toxic waste accumulation cause a restructuring of the cell to increase the prospects of cellular survival in a hostile environment.

Question 7

What happens during the stationary phase?

Answer 7

The net growth rate = 0. Growth rate = death rate.
The cells are still metabolically active and produce secondary metabolites.
Cell lysis occurs and thus cryptic growth.
Cells don’t grow but they produce secondary metabolites.

Question 8

Primary metabolites

Answer 8

Growth-related metabolites

Question 9

Secondary metabolites

Answer 9

Nongrowth-related metabolites

Question 10

What happens to cell number density and cell mass during the exponential phase?

Answer 10

Cell number density (number of cells) and cell mass increase exponentially with time.

Question 11

What happens to the mass concentration during the stationary phase?

Answer 11

Remains constant

Question 12

What happens to the number of viable (living) cells during the stationary phase?

Answer 12

Decrease

Question 13

Cryptic growth

Answer 13

When cell lysis occurs the remaining viable cells use the lysis products as nutrients

Question 14

What happens during the death phase?

Answer 14

Depletion of nutrients or toxic product accumulation

Question 15

Is it easy to differentiate between stationary and death phase?

Answer 15

No

Question 16

Why is the quantification of cell concentration important?

Answer 16

To determine the kinetics and stoichiometry of microbial growth

Question 17

How can you determine cell concentration?

Answer 17

DIRECT METHODS

INDIRECT METHODS

Question 18

Why are direct methods of determining cell concentration not always possible?

Answer 18

Suspended solids may be present as it is hard to differentiate between suspended solids and cells

Question 19

Methods of determining cell number density

Answer 19

Petroff-Hausser method
Direct plate counts
Particle counter
Nephelometer

Question 20

How is cell number density determined through the Petroff-Hausser method?

Answer 20

A callibrated grid is placed over the culture chamber. The number of cells per square grid is counted under a microscope.
Culture medium should be clear and free of particles that could hide cells or be confused for cells.

Hard to use this method for mould because moulds have a mycelial structure.

Question 21

How do you ensure statistic reliability of the Petroff-Hausser method?

Answer 21

At least twenty blocks should be counted

Question 22

How do you distinguish between live and dead cells in the Petroff-Hausser method?

Answer 22

Through the use of stains

Question 23

How is cell number density determined through the plate counts method?

Answer 23

Culture samples are spread onto Agar surface on a petri dish, and the plates are incubated.
The number of colony forming units (CFUs) are determined from this.

Question 24

Which cells are the plate count method more suitable for?

Answer 24

More suitable for bacteria and yeasts

Less suitable for moulds

Question 25

How is cell number density determined through the particle counter method?

Answer 25

Cells have relatively high electrical resistances. An electrolyte solution containing the cells is placed inside the PC. A vacuum is applied over the inner tube which causes the cells to be sucked through the aperture hole.
The poor conducting cells alter the cross section of the conductive microchannel.
If these particles are less conductive than the surrounding liquid medium the electrical resistance across the channel increases causing the electrical current passing across the channel to briefly decrease.
By monitoring the pulses in electric current, the number of particles for a given volume of fluid can be counted.

Question 26

What does the number of pulses in the current measure?

Answer 26

The number of particles

Question 27

What does the amplitude of the pulses in the current indicate?

Answer 27

The size of the particles

Question 28

Which organisms is the PC method not suitable for?

Answer 28

Mycelial organisms

Question 29

How is cell number density determined through the nephelometer method?

Answer 29

Light enters through a slit and particles invisible to the naked eye scatters the incoming light.
Scattered light is measure by the phototube.

Question 30

What is the turbidity of a liquid?

Answer 30

Haziness of a fluid caused by individual particles that are generally invisible to the naked eye (like smoke)
(transmitted light is measured)

Question 31

What is the intensity of scattered light measured using a nephelometer proportional to?

Answer 31

The cell concentration

Question 32

For what do nephelometers give the best results?

Answer 32

Dilute cell and particle suspensions

Question 33

Methods of determining cell mass concentration

Answer 33

Determination of dry weight
Packed cell volume
Photospectrometry

Question 34

How is cell mass concentration determined through the method of dry weight?

Answer 34

Samples of culture broth are centrifuged/filtered and then washed with a buffer solution or water.
The washed cell mass is dried at 80 degrees Celsius for 24h.
Then dry cell weight is measured.

Question 35

When is the dry weight method applicable?

Answer 35

Only applicable for cells grown in a solid-free medium

If non-cellular solids like cellulose or molasses are present the dry mass will be inaccurate

Question 36

How is cell mass concentration determined through the packed cell volume method?

Answer 36

Method in which cell concentration is rapidly but roughly determined.
Fermentation broth is centrifuged in a tapered graduate tube under standard conditions and the volume of the cells are measured.

Question 37

How is cell mass concentration determined through the photospectrometry method?

Answer 37

A spectrometer is used to measure the turbidity (optical density) of the medium.
Light enters the slit and the particles in the sample scatter the light. Light that is not scattered is measured by the phototube.
Calibration curve is used to interpret measured results
(optical density vs. dry weight measurements (concentrations)).
If an unknown sample is now analyzed the absorbance is related to a certain sugar concentration on the calibration curve.

Question 38

What is important to note when using photospectrometry to determine cell mass concentration?

Answer 38

Any other solids/light-absorbing should be absent

Wavelength is used that minimizes absorption by the medium components and regular blanking should be done.

Question 39

How does protein, DNA and RNA play a role in measuring cell mass concentration?

Answer 39

Protein, DNA and RNA can be measured as indirect measures of CELL GROWTH. During a batch growth cycle the concentration of these intracellular components change with time.

Question 40

What are the indirect methods of determining cell mass concentration?

Answer 40

Product formation
Substrate usage
pH changes
Viscosity changes

Question 41

How is product formation used to determine cell mass concentration?

Answer 41

Products of cell metabolism can indicate cell growth.

Question 42

How can changes in pH indicate cell mass concentration?

Answer 42

Indicates nutrient uptake and microbial growth (titration)

Question 43

Nitrate in pH method of determining cell mass concentration

Answer 43

Nitrogen used during cell metabolism. H+ are removed from solution in proportion to the amount of nitrate that is taken up. The amount of acid added to then balance the pH is directly proportional to cell growth.

Question 44

Nitrate in pH method of determining cell mass concentration

Answer 44

Nitrogen used during cell metabolism. H+ are removed from solution in proportion to the amount of nitrate that is taken up. The amount of acid added to then balance the pH is directly proportional to cell growth.

Question 45

How can changes in viscosity indicate cell mass concentration?

Answer 45

Viscosity changes during some fermentation processes.

The change in viscosity will be directly proportional to cell metabolism.

Question 46

Three major categories of microbial growth

Answer 46

Growth associated product formation
Non-growth associated product formation (specific production rate is constant)
Mixed growth associated product formation

Question 47

What happens during growth associated product formation?

Answer 47

Products form simultaneously with the microorganisms

Question 48

When does non-growth related product formation take place?

Answer 48

During the stationary phase when growth rate = 0

Question 49

When does mixed growth associated product formation take place?

Answer 49

During the slow growth phase and the stationary phase

Question 50

What does it mean if alpha is zero?

Answer 50

Product is only growth associated

Growing cells produce cells in constant proportion to their own growth

Question 51

What does it mean if beta is zero?

Answer 51

Product is only non-growth associated

Product in direction proportion to cell concentration

Question 52

What do we know about alpha and beta during mixed growth product formation?

Answer 52

They will be positive values

Question 53

Net specific growth rate formula

Answer 53

μnet = (1/X) * (dX/dt) = μg - kd
μg: gross specific growth rate
kd: rate of loss of cell mass

Question 54

What is growth yield?

Answer 54

Shows by how much cells will increase as the substrate is consumed

Question 55

Which environmental conditions affect microbial growth and product formation?

Answer 55

Temp.
pH
Dissolved oxygen concentration

Question 56

What effect does temp have on cell growth rate?

Answer 56

The cell growth rate approximately doubles with each 10 degrees Celsius increase.
If temperature is higher than optimal temperature, growth rate decreases and cells die more rapidly than they grow

Question 57

Are optimal temperature for growth and optimal temperature for product formation the same?

Answer 57

No they may differ

Question 58

What happens to pH if ammonia is the only nitrogen source?

Answer 58

H+ ions are released

pH decreases

Question 59

What happens to pH if N2 is the only nitrogen source?

Answer 59

H+ is removed

pH increases

Question 60

What effect does dissolved oxygen concentration have on cell growth rate?

Answer 60

Above critical oxygen concentration growth is independent of [O2]