Lecture 32

Question 1

What is the formula for N2 fixation in the nitrogen cycle?

Answer 1

N2 -> NH4+

Question 2

N2 fixation is catalyzed by what enzyme?

Answer 2

Nitrogenase

Question 3

What is the formula for ammonium assimilation?

Answer 3

NH4+ -> R-NH2

Question 4

Ammonium assimilation is catalyzed by what enzyme?

Answer 4

GS-GOGAT system
GS = glutamine synthetase
GOGAT = glutamine oxyglutarate aminotransferase

Question 5

Describe how ammonium assimilation works and the energy input involved.

Answer 5

Ammonium is put into the GOGAT enzyme system. The result of the reaction is a glutamate from 2-oxoglutarate + NH4+. It requires input of ATP and NADH to function, making it very energetically expensive - this is often a limiting step to growth.

Once the cell has glutamate, this can be used to produce all the other amino acids.

Question 6

What is the formula for ammonification?

Answer 6

R-NH2 -> NH4+

Question 7

Describe how ammonification works.

Answer 7

Many enzymes are capable of ammonification across plants, animals, microbes, etc. The process is the reverse of ammonium assimilation - ammonium gets released.

Question 8

What is the formula for nitrification?

Answer 8

NH4+ -> NO2- -> NO3-

Question 9

Describe the typical organisms that do nitrification and where they are found.

Answer 9

Nitrifiers are ubiquitous in aerobic environments, such as soil and water. In deep oceans, nitrification of ammonium is the source of nitrate upwelling. They are usually autotrophs.

Bacteria and archaea can do nitrification. Bacteria can do aerobic nitrification, ammamox, commamox, etc. Archaea nitrifiers are mainly Thaumarchaeota.

Question 10

Describe the nitrogen cycle that takes place in the open ocean.

Answer 10

Particulate nitrogen sinks down to the bottom of the ocean, where it gets mineralized into NH4+. Nitrification then takes place, converting it to NO2- then NO3-. The NO3- then undergoes upwelling to the surface, where it can get assimilated as R-NH2.

Question 11

Name and state the formulas for the two steps of nitrification. Are these done by the same or separate organisms?

Answer 11

1. Ammonium oxidation: done by ammonium monooxygenase (AMO).
   NH4+ -> NO2-
2. Nitrite oxidation: done by nitrite oxidoreductase (NOR or NXR)
   NO2- -> NO3-

They is usually done in separate organisms. The exception to this is comammox bacteria.

Question 12

What is comammox?

Answer 12

It is complete ammonium oxidation by a single species.

Question 13

What is the formula for comammox?

Answer 13

NH4+ -> NO3-

Question 14

Under what conditions does comammox occur?

Answer 14

It occurs under low O2 and low NH4+ conditions.

Question 15

Describe the genes that comammox bacteria posseses.

Answer 15

They contain amoA genes, which encode the enzyme AMO.

Question 16

Describe how
a) ammonium
b) nitrite
c) nitrate
d) nitrogen balance
Change over time during comammox

Answer 16

a) Ammonium will drop to zero
b) Nitrite will rise as ammonium gets converted, then drop again as it turns into nitrate.
c) Nitrate will grow.
d) The total nitrogen balance will remain the same.

Question 17

What is the formula for nitrate assimilation?

Answer 17

NO3- -> R-NH2

Question 18

Describe the 3 steps of assimilatory nitrate reduction, including the enzymes involved.

Answer 18

1. NO3- -> NO2- by assimilatory nitrate reductase
2. NO2- -> NH4+ by assimilatory nitrite reductase
3. NH4+ assimilated via GS-GOGAT

Question 19

What limits the process of assimilatory nitrate reduction?

Answer 19

It is inhibited by cellular [NH4+]. ANR is limited by end-product inhibition, as cells only need a limited amount of N (in the form of NH4+) to grow

Question 20

What is the function of assimilatory nitrate reduction?

Answer 20

Cellular growth (synthesis of amino acids)

Question 21

What is the purpose of dissimilatory nitrate reduction?

Answer 21

Anaerobic respiration (breathing nitrogen)

Question 22

What is the formula for dissimilatory nitrate reduction? What enzyme executes this?

Answer 22

NO3- -> NO2-

Done by dissimilatory nitrate reductase

Question 23

What types of organisms typically do dissimilatory nitrate reduction?

Answer 23

It is characteristic of facultative anaerobic that can use NO3- as a terminal electron acceptor when O2 is not available.

Question 24

Dissimilatory nitrate reduction can lead to the production of […]

Answer 24

• N2 or N2O via denitrification
• NH4+ via dissimilatory nitrate reduction to ammonia (a form of ammonification)

Question 25

Is dissimilatory nitrate reduction subject to end-product inhibition? Explain how and why or why not.

Answer 25

No - it is not inhibited by [NH4+] like assimilatory nitrate reduction. This is because cells need to continue anaerobic respiration even in the presence of rising [NH4+].

Question 26

What is the complete formula for denitrification?

Answer 26

NO3- -> NO2- -> NO -> N2O -> N2

Question 27

Where in the sediment column does denitrification take place?

Answer 27

It takes place in the NO3- TEA depth (below O2 and above SO42-)

Question 28

What is DNRA? Write the formula for it.

Answer 28

It is a dissimilatory nitrate reduction followed by nitrite ammonification. NO3- -> NO2- -> NH4+

Question 29

Under what circumstances does DNRA usually occur?

Answer 29

It commonly occurs in polluted/eutrophic water with a high [NO3-] and high concentrations of organic compounds. It can occur in aerobic and anaerobic conditions in soil and water.

Question 30

What determines whether dissimilatory nitrate reduction is followed by denitrification or nitrite ammonification?

Answer 30

It is mainly determined by the amount of oxygen. Ammonification is most prevalent under aerobic conditions. As conditions become more anaerobic, it still continues but is reduced compared to denitrification.

As conditions become more anaerobic, denitrification increases from almost nothing to extremely high. (see graph - know how to draw)

Question 31

What is annamox? What is the formula?

Answer 31

NH4+ + NO2- -> N2

This is anaerobic ammonium oxidation. It involves the oxidation of NH4+ using NO2- to yield N2 and perhaps NO3-.

Question 32

What types of organisms are capable of annamox?

Answer 32

Anammox bacteria are slow-growing autotrophs belonging to phylum Planctomyces - they contain anammoxosomes.