Team:DTU-Denmark/Methods/Determining concentration of nitrogen compounds/Experiment 4

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{{:Team:DTU-Denmark/Templates/StartPage|Experiment 4}}
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<div class="overviewPage">
==Procedure==
==Procedure==
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*AMO '' E. coli'' transformant (duplicate)
*AMO '' E. coli'' transformant (duplicate)
*Control: Untransformed ''E. coli''.   
*Control: Untransformed ''E. coli''.   
-
*Control: Nitrosomonas at 26 <sup>o</sup>C
+
*Control: ''Nitrosomonas'' at 26 <sup>o</sup>C
*Control: Abiotic
*Control: Abiotic
-
We expect the AMO transformant to use ammonium more quickly than the untransformed control, and Nitrosomonas to also use ammonia.  
+
We expect the AMO transformant to use ammonium more quickly than the untransformed control, and ''Nitrosomonas'' to also use ammonia.  
The HAO experiment will need the following:
The HAO experiment will need the following:
*HAO ''E. coli'' transformant (duplicate)
*HAO ''E. coli'' transformant (duplicate)
-
*Control: Untransformed E. coli.   
+
*Control: Untransformed ''E. coli''.   
-
*Control: Nitrosomonas @ 26C
+
*Control: ''Nitrosomonas'' at 26 <sup>o</sup>C
*Control: Abiotic
*Control: Abiotic
-
We expect the HAO transformant and Nitrosomonas to consume hydroxylamine and produce nitrite, and the untransformed E. coli will not.
+
We expect the HAO transformant and ''Nitrosomonas'' to consume hydroxylamine and produce nitrite, and the untransformed ''E. coli'' will not.
-
There will be 2 experimental flasks:
+
There will be 10 experimental flasks:
-
# ''E. coli'', to which spikes of NO<sub>2</sub><sup>-</sup> will be added.
+
# ''E. coli'' cultures will be grown at 37 <sup>o</sup>C in the incubator and
-
# ''P. aeruginosa'', to which spikes of NO<sub>2</sub><sup>-</sup> will be added.
+
# ''Nitrosomonas Europaea'' at 26 <sup>o</sup>C
-
In addition to the continuous gas measurements, we take samples to measure the concentration of ammonia, nitrite and nitrate at the beginning and end of each spike.
 
-
The response time of the cells to spikes of NO<sub>2</sub><sup>-</sup> is expected to be on the order of minutes, and we will run the experiment until the solution has reached saturation with NO<sub>2</sub><sup>-</sup>. 
 
'''EQUIPMENT NEEDED'''
'''EQUIPMENT NEEDED'''
-
*1 400 mL bottle with a lid that the electrodes can be fastened air tightly to
+
*4 erlyenmeyer flasks for growing cultures
-
*1 magnetic stirrer
+
*1 hot plate and magnet stirrer
-
*1 NO probe for NO measuring
+
-
*1 N<sub>2</sub>O probe for N<sub>2</sub>O measuring
+
-
*Syringes with long needles and small needles
+
*Syringe filters with pore size 0.2μm
*Syringe filters with pore size 0.2μm
-
*Stopwatch
+
*Stopwatch.
-
* [[Team:DTU-Denmark/Methods/Modified_DM_minimal_medium|Modified DM minimal medium]]
+
*Ammonium Chloride (NH<sub>4</sub>Cl)
 +
*[[Team:DTU-Denmark/Methods/Modified_DM_minimal_medium|Modified DM minimal medium]]
*''E. coli'' overnight culture
*''E. coli'' overnight culture
-
*''P. aeruginosa'' overnight culture
+
*Nitrosomonas overnight culture
 +
*LB-broth medium
*Flat bottom centrifuge tubes
*Flat bottom centrifuge tubes
 +
*50 mM ammonium chloride stock solution
*2mL Eppendorf tubes
*2mL Eppendorf tubes
-
*10mL, 1mL, 200μL pipettes with tips.
+
*Colorimetric test kits for ammonium
 +
*Rack for the samples
 +
*Glass tubes for the colorimetric tests
 +
*10mL, 1mL, 200μL pipettes with tips
 +
*Single use plastic cuvettes
*MilliQ water
*MilliQ water
 +
'''EXPERIMENTAL PROCEDURE'''  
'''EXPERIMENTAL PROCEDURE'''  
-
First,  
+
First, prepare the solutions that will be used:
-
# Prepare DM minimal medium with ammonium chloride as a nitrogen source.  Add 0.745 g NH<sub>4</sub>Cl to 1L of prepared DM medium.   
+
# Prepare at least 2L DM minimal medium with ammonium chloride as a nitrogen source.  Add 0.745 g NH<sub>4</sub>Cl to 1L of prepared DM medium.  This is needed for:
-
# Start overnight cultures.
+
#* growing the AMO transformant (10 mL overnight culture + 400mL to resuspend)
-
# Prepare test solutions for ammonium, nitrite and nitrate kits.
+
#* growing the HAO transformant (10 mL overnight culture + 400mL to resuspend)
-
# Label eppendorf tubes and test tubes for colorimetric samples.
+
#* growing the ''E. coli'' control for both experiments (10 mL overnight culture + 400mL to resuspend x2)
-
# Grow ''E. coli'' top10 overnight/ ''P. aeruginosa'' in 10mL of DM medium + NH<sub>4</sub>Cl prepared in step 1 at 37<sup>o</sup>C.
+
# Prepare at least 1L DM modified minimal medium (with no ammonium chloride).  This is needed for:
-
# Take 4mL of ''E. coli''/''P. aeruginosa'' overnight culture and add to 200mL fresh DM medium + NH<sub>4</sub>Cl.  
+
#* washing the ''E. coli'' cultures (5mL x 6 experiments)
-
# Grow the cells at 37<sup>o</sup>C in 200 RPM until OD=0.35 (about 3 hours; about 5 hours for P. aeruginosa).
+
#* resuspending the ''E. coli'' cultures for the experiments (107.5 mL x6)
-
# Pellet down the 200mL culture, 3000g for 4 min (Cool down the centrifuge if it is needed for 30 min at 4<sup>o</sup>C).
+
#* media for the abiotic control experiments (100mL x2)
-
# Wash with 5 ml cold Modified DM minimal medium and centrifuge again.
+
# Prepare 1 L ''Nitrosomonas'' ATCC medium containing ammonia.  This is needed for:
-
# Pour off the supernatant and resuspend the cell pellet in 200mL Modified DM Minimal medium in a centrifuge tube and pour samples together if they were made in more than one tube.
+
#* overnight culture (10 mL) and resuspending (400 mL) x2
-
# Measure OD of the 200 mL cell suspension and add Modified DM minimal medium until OD=0.3 (note the exact value).
+
# Prepare at least 500 mL Nitrosomonas ATCC medium with no ammonia source. This is needed for:
-
# Pure the 200 mL of the OD=0.3 suspension to a bottle.  This is the experimental flask.   
+
#* washing (5mL) x2
-
# For the control: Remove one aliquot of 200mL of DM medium (without the added NH<sub>4</sub>Cl).   
+
#* resuspending for the experiment (100mL) x2
-
# Make the anaerobic experiment by saturating with pure N<sub>2</sub> following the [[Team:DTU-Denmark/Methods/Making anoxic conditions|Sparging with N<sub>2</sub>]] method , for 5 min the nitrite stock solution and 10 min the cell suspensions and control.
+
# Prepare 50mM ammonium chloride solution.  
-
# Start the experiment by adjusting the NO and N<sub>2</sub>O electrodes in one flask at a time.
+
#* Dissolve 2.4544 g NH4Cl in 50 mL DM modified minimal medium (no NH<sub>4</sub>Cl).
-
# Put the flask on the magnetic stirrer and start with 270 rpm at 37<sup>o</sup>C.  
+
# Prepare 80mM hydroxylamine solution.
-
# Remove 2 mL as the first sample t=0 colorimetric analysis.  
+
#* Dissolve 0.260 g hydroxylamine in 100 mL DM modified minimal medium (no NH<sub>4</sub>Cl).
-
# Add 0.5 mL of 50mM nitrite stock solution to 100 ml of the cell suspension.
+
 
-
# Watch the concentrations of NO and N<sub>2</sub>O, and continue adding nitrite when they are not changing (about 10 min).
+
For the AMO and HAO experiments, repeat the following for both the transformed and untransformed ''E. coli'', and for ''N. europaea''.
-
# Repeat steps 18-20 until the solution exceeds the sensitivity of the sensor (1mM).
+
 
-
# Make the colorimetric measurements for nitrite, nitrate and ammonium for each of the samples collected by using the [[Team:DTU-Denmark/Methods/Nitrite_colorimetric_measurements|Nitrite measurement]], [[Team:DTU-Denmark/Methods/Nitrate_colorimetric_measurements|Nitrate measurement]] and [[Team:DTU-Denmark/Methods/Ammonium_colorimetric_measurements#Ammonium_colorimetric_measurements|Ammonium measurement]], respectively in order to finish gathering data.
+
# Grow'' E. coli'' top10 overnight in 10mL of DM medium + NH<sub>4</sub>Cl prepared in step 1 at 37<sup>o</sup>C in an erlenmeyer flask.
 +
# Take 4mL of E. coli overnight culture and add to 400mL fresh DM medium + NH<sub>4</sub>Cl.  
 +
# Grow the ''E. coli'' at 36.6<sup>o</sup>C in 210 RPM until OD=0.35 (about 5 hours). Grow the ''N. europaea'' at 26<sup>o</sup>C
 +
# Pellet down the 400mL culture at 3000g for 4 min at room temperature.
 +
# Wash with 5 mL Modified DM minimal medium and centrifuge again.
 +
# Pour off the supernatant and resuspend the cell pellet. Pour samples together if they were made in more than one centrifuge tube. The OD should be around 0.3.
 +
# Remove one aliquot of 107.5 mL of the OD=0.3 suspension to a flask and keep at 37<sup>o</sup>C, but don't let it sit around for many hours.  This is the experimental flask.   
 +
For the abiotic control:
 +
# Remove one aliquot of 100mL of DM medium (without the added NH<sub>4</sub>Cl).   
 +
Repeat the following steps for each experiment and for the control:
 +
# Put the experimental flask on the hot plate with magnet stirrer and stabilize the temperature at 37<sup>o</sup>C (26<sup>o</sup>C for ''Nitrosomonas'').
 +
# Remove 4 mL as the first sample t=0 colorimetric analysis.  For the abiotic control, take samples only at the start and end of the experiment.
 +
# Use 2mL of the first sample to measure the OD.
 +
# Take a 2mL sample at 5 min and at 10 min for a baseline.
 +
# After the min 10 sample, quickly spike with
 +
#* 1.7 mL of 50mM ammonium stock solution.  Then the ammonium concentration in 100mL is 0.85mM (equivalent to the Km of AMO) = 11.9mg/L Nitrogen.
 +
#* 50uL of 80mM hydroxylamine solution.  Then the hydroxylamine concentration in 100 mL is 0.04mM (the Km of HAO) = 0.56 mg/L Nitrogen. 
 +
# Then take another sample immediately after the spike.
 +
# Continue taking samples every 5 min until t=30 min.
 +
# Take samples every 10 min until t=60 min.
 +
At the end of the experiment:
 +
# Take an extra 2mL sample to measure the OD.
 +
# Measure the temperature.
 +
To finish gathering data:
 +
# Make the colorimetric measurements for:
 +
#* ammonium for each of the samples collected for the AMO experiment by using the protocol [[Team:DTU-Denmark/Methods/Ammonium_colorimetric_measurements#Ammonium_colorimetric_measurements|Ammonium measurement]].
 +
#* nitrite for each of the samples collected for the HAO experiment by using the protocol [[Team:DTU-Denmark/Methods/Nitrite_colorimetric_measurements|Nitrite measurement]]
 +
 
 +
If none of the the added ammonia is converted to hydroxylamine, then the last sample will contain 11.9 mg N-Ammonia/L (the test kit measures between 0 and 70 mg/L approx). 
 +
 
 +
If all the added hydroxylamine is converted to nitrite, then the last sample will contain 0.56 mg N-Nitrite/L (the test kit measures between 0 and 1 mg/L approx).
 +
 
 +
 

Latest revision as of 18:06, 4 October 2013

Experiment 4

Procedure

In this aerobic experiment, we add increasing concentrations of ammonium NH4+ to transformed E. coli cells growing aerobically, in order to test whether our AMO transformant is converting ammonium to hydroxylamine (NH2OH) . The same protocol is used to measure whether our HAO transformant is converting hydroxylamine to nitrite NO2-.

The bottle is placed to a magnetic stirrer on 270 rpm and 37oC.

The AMO experiment will need the following:

  • AMO E. coli transformant (duplicate)
  • Control: Untransformed E. coli.
  • Control: Nitrosomonas at 26 oC
  • Control: Abiotic

We expect the AMO transformant to use ammonium more quickly than the untransformed control, and Nitrosomonas to also use ammonia.

The HAO experiment will need the following:

  • HAO E. coli transformant (duplicate)
  • Control: Untransformed E. coli.
  • Control: Nitrosomonas at 26 oC
  • Control: Abiotic

We expect the HAO transformant and Nitrosomonas to consume hydroxylamine and produce nitrite, and the untransformed E. coli will not.


There will be 10 experimental flasks:

  1. E. coli cultures will be grown at 37 oC in the incubator and
  2. Nitrosomonas Europaea at 26 oC


EQUIPMENT NEEDED

  • 4 erlyenmeyer flasks for growing cultures
  • 1 hot plate and magnet stirrer
  • Syringe filters with pore size 0.2μm
  • Stopwatch.
  • Ammonium Chloride (NH4Cl)
  • Modified DM minimal medium
  • E. coli overnight culture
  • Nitrosomonas overnight culture
  • LB-broth medium
  • Flat bottom centrifuge tubes
  • 50 mM ammonium chloride stock solution
  • 2mL Eppendorf tubes
  • Colorimetric test kits for ammonium
  • Rack for the samples
  • Glass tubes for the colorimetric tests
  • 10mL, 1mL, 200μL pipettes with tips
  • Single use plastic cuvettes
  • MilliQ water


EXPERIMENTAL PROCEDURE

First, prepare the solutions that will be used:

  1. Prepare at least 2L DM minimal medium with ammonium chloride as a nitrogen source. Add 0.745 g NH4Cl to 1L of prepared DM medium. This is needed for:
    • growing the AMO transformant (10 mL overnight culture + 400mL to resuspend)
    • growing the HAO transformant (10 mL overnight culture + 400mL to resuspend)
    • growing the E. coli control for both experiments (10 mL overnight culture + 400mL to resuspend x2)
  2. Prepare at least 1L DM modified minimal medium (with no ammonium chloride). This is needed for:
    • washing the E. coli cultures (5mL x 6 experiments)
    • resuspending the E. coli cultures for the experiments (107.5 mL x6)
    • media for the abiotic control experiments (100mL x2)
  3. Prepare 1 L Nitrosomonas ATCC medium containing ammonia. This is needed for:
    • overnight culture (10 mL) and resuspending (400 mL) x2
  4. Prepare at least 500 mL Nitrosomonas ATCC medium with no ammonia source. This is needed for:
    • washing (5mL) x2
    • resuspending for the experiment (100mL) x2
  5. Prepare 50mM ammonium chloride solution.
    • Dissolve 2.4544 g NH4Cl in 50 mL DM modified minimal medium (no NH4Cl).
  6. Prepare 80mM hydroxylamine solution.
    • Dissolve 0.260 g hydroxylamine in 100 mL DM modified minimal medium (no NH4Cl).

For the AMO and HAO experiments, repeat the following for both the transformed and untransformed E. coli, and for N. europaea.

  1. Grow E. coli top10 overnight in 10mL of DM medium + NH4Cl prepared in step 1 at 37oC in an erlenmeyer flask.
  2. Take 4mL of E. coli overnight culture and add to 400mL fresh DM medium + NH4Cl.
  3. Grow the E. coli at 36.6oC in 210 RPM until OD=0.35 (about 5 hours). Grow the N. europaea at 26oC .
  4. Pellet down the 400mL culture at 3000g for 4 min at room temperature.
  5. Wash with 5 mL Modified DM minimal medium and centrifuge again.
  6. Pour off the supernatant and resuspend the cell pellet. Pour samples together if they were made in more than one centrifuge tube. The OD should be around 0.3.
  7. Remove one aliquot of 107.5 mL of the OD=0.3 suspension to a flask and keep at 37oC, but don't let it sit around for many hours. This is the experimental flask.

For the abiotic control:

  1. Remove one aliquot of 100mL of DM medium (without the added NH4Cl).

Repeat the following steps for each experiment and for the control:

  1. Put the experimental flask on the hot plate with magnet stirrer and stabilize the temperature at 37oC (26oC for Nitrosomonas).
  2. Remove 4 mL as the first sample t=0 colorimetric analysis. For the abiotic control, take samples only at the start and end of the experiment.
  3. Use 2mL of the first sample to measure the OD.
  4. Take a 2mL sample at 5 min and at 10 min for a baseline.
  5. After the min 10 sample, quickly spike with
    • 1.7 mL of 50mM ammonium stock solution. Then the ammonium concentration in 100mL is 0.85mM (equivalent to the Km of AMO) = 11.9mg/L Nitrogen.
    • 50uL of 80mM hydroxylamine solution. Then the hydroxylamine concentration in 100 mL is 0.04mM (the Km of HAO) = 0.56 mg/L Nitrogen.
  6. Then take another sample immediately after the spike.
  7. Continue taking samples every 5 min until t=30 min.
  8. Take samples every 10 min until t=60 min.

At the end of the experiment:

  1. Take an extra 2mL sample to measure the OD.
  2. Measure the temperature.

To finish gathering data:

  1. Make the colorimetric measurements for:
    • ammonium for each of the samples collected for the AMO experiment by using the protocol Ammonium measurement.
    • nitrite for each of the samples collected for the HAO experiment by using the protocol Nitrite measurement

If none of the the added ammonia is converted to hydroxylamine, then the last sample will contain 11.9 mg N-Ammonia/L (the test kit measures between 0 and 70 mg/L approx).

If all the added hydroxylamine is converted to nitrite, then the last sample will contain 0.56 mg N-Nitrite/L (the test kit measures between 0 and 1 mg/L approx).