Mer Scott
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1.Describe the different energy and carbon sources used by microorganisms. 2.Describe the growth characteristics of prokaryotes in a ‘closed’ batch culture system. 3.Outline some examples of microbial behaviour.

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Mer Scott
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L39 Microbial growth and behaviour (Winogradsky column)

Frage 1 von 12

1

Choose the incorrect statement about trophic nourishment.

Wähle eine der folgenden:

  • Chemoheterotrophs can get their energy and carbon from the same organic compound.

  • A phototroph uses light as en energy source, and can be oxygenic or anoxygenic.

  • A chemotroph uses chemical energy as an energy source.

  • Autotrophs can make complex carbons from CO2.

  • Anoxygenic phototrophs oxidise molecules like H2S and do not produce oxygen.

  • Oxygenic phototrophs reduce H2O and produce oxygen.

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Frage 2 von 12

1

Choose the correct statements about cyanobacteria.

Wähle eine oder mehr der folgenden:

  • They use light as an energy source.

  • They oxidise water for electrons.

  • They use complex carbons for a carbon source.

  • They carry out oxygenic photosynthesis.

  • They reduce water for electrons.

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Frage 3 von 12

1

Choose the incorrect statement about green and purple cyanobacteria.

Wähle eine der folgenden:

  • They are photoautotrophs.

  • They oxidise H2S to S for an electron source.

  • They use CO2 for an energy source.

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Frage 4 von 12

1

Choose the correct statement about colourless sulfur bacteria(Beggiatoa).

Wähle eine der folgenden:

  • They sit below green and purple sulfur bacteria in the Winogradsky column.

  • They are chemoheterotrophs.

  • They oxidise H2S to SO4.

  • They use complex organic carbons for a carbon source.

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Frage 5 von 12

1

Sulfate reducing bacteria are chemoheterotrophs that essentially reverse the processes that colourless sulfur bacteria carry out.

Wähle eins der folgenden:

  • WAHR
  • FALSCH

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Frage 6 von 12

1

Organisms which carry out fermentation are . Their energy source, carbon source, and electron donor, are always (organic molecules) and sometimes are even the same molecule. An example of are cellulose degrading bacteria, which break pyruvate down into and simultaneously degrade cellulose into . Other examples include clostridium and bacteria.

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    chemoheterotrophs
    chemoautotrophs
    complex carbons
    fermenting chemoheterotrophs
    fermenting chemoautotrophs
    acetate
    acetic acid
    lactate
    lactose
    rumen
    colourless sulfur

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Frage 7 von 12

1

Microbial growth in a culture system is not like nature, in that it is a 'Feast and ' situation controlled by the examiner. There are four stages which characterise the growth for bacteria in this system.
Firstly, there is a . It is shown as little to no change in the population size. The lag period on how much the inoculum must evolve and adjust before it is suited to the environment/has the proper taking place.
The next phase is the . During this phase there are or competition and so the bacterial population can in size every generation via binary fission, displaying exponential population growth.
The next phase is the . This appears to be a stable population size, but does not indicate static activity. Instead, it reflects the cryptic growth of the organisms. Cryptic growth is the state of equilibrium where organisms survive by feeding from the lysed, dead bodies of deceased organisms.
Finally, there will be a where the population size decreases until it is at a stable end point.

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    closed batch
    open batch
    Famine
    curve
    lag phase
    exponential phase
    stationary phase
    death phase
    depends
    biosynthetic reactions
    double
    no limited resources
    limited resources
    dynamic

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Frage 8 von 12

1

What might cause a persistent bacterial infection?

Wähle eine der folgenden:

  • Microbes which are able to degrade antibiotics.

  • Microbes not all being in the same stage of a life cycle, and the non-dividing organisms not being targeted by antibiotics.

  • Microbes which can repopulate faster than a patient can be medicated.

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Frage 9 von 12

1

To be antibiotic resistant a microbe must carry the genes which confer resistance.

Wähle eins der folgenden:

  • WAHR
  • FALSCH

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Frage 10 von 12

1

Choose the incorrect statement about microbial behaviour.

Wähle eine der folgenden:

  • Some bacteria are very large e.g. thiomargarita.

  • Some bacteria have organelles e.g. Anammox bacteria

  • Myxobacteria display social behaviour.

  • None of these are incorrect.

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Frage 11 von 12

1

Which statement best describe the 'sliding' behaviour displayed by myxobacteria.

Wähle eine der folgenden:

  • It is a form of social motility wherein each bacteria pulls with pili and secretes slime like a propellent.

  • It is the microbial version of hunting like a wolf pack.

  • It is swarm feeding cooperatively by sharing enzymes and attacking targets as a group.

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Frage 12 von 12

1

When a food source is exhausted, myxobacteria form 3D structures of endospores. What are these referred to as?

Wähle eine der folgenden:

  • Fruiting bodies

  • Sporing bodies

  • Endospikes

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