User:Matt Hartings/Notebook/Photosynthesis/2014/12/09: Difference between revisions

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### Stop after 10minutes
### Stop after 10minutes
## Files saved as: KCl_OPD_H2O2_tris_1prop_25_SCANNUMBER.txt
## Files saved as: KCl_OPD_H2O2_tris_1prop_25_SCANNUMBER.txt
## 0.225mL Mb solution added after 3 scans
## Should see this in the spectra
<u>Sample 11</u>
Mb lyophilized from Tris and KCl in 1-butanol. scans every 10 seconds for 10 minutes. 1 scan = 1ms Integration, averaging over 200 scans
# Stock solutions:
## Myoglobin
### 15mg myoglobin from Tris KCl in 1mL 1-butanol
## OPD
### 2.7mg OPD in 2.7mL 1-butanol
## H<sub>2</sub>O<sub>2</sub>
### 0.114mL 30% H<sub>2</sub>O<sub>2</sub> in 0.887mL 1-butanol
#Experimental Run
## Sample chamber set to 25C and to stir
## N<sub>2</sub> run through the cuvette holder to reduce condensation on cuvette
## 2.025mL OPD stock solution
## 0.75mL H<sub>2</sub>O<sub>2</sub> stock solution
### Start Data Collection
### 1ms Integration
### 200 scan average
### Perform a scan every 10 seconds
### Stop after 10minutes
## Files saved as: Mb_OPD_H2O2_tris_1but_25_SCANNUMBER.txt
## 0.225mL Mb solution added after 3 scans
## Should see this in the spectra
<u>Sample 12</u>
lyophilized Tris and KCl in 1-butanol. scans every 10 seconds for 10 minutes. 1 scan = 1ms Integration, averaging over 200 scans
# Stock solutions:
## Myoglobin
### 15mg Tris KCl in 1mL 1-butanol
## OPD
### 4.0mg OPD in 4.0mL 1-butanol
## H<sub>2</sub>O<sub>2</sub>
### 0.114mL 30% H<sub>2</sub>O<sub>2</sub> in 0.887mL 1-butpanol
#Experimental Run
## Sample chamber set to 25C and to stir
## N<sub>2</sub> run through the cuvette holder to reduce condensation on cuvette
## 2.025mL OPD stock solution
## 0.75mL H<sub>2</sub>O<sub>2</sub> stock solution
### Start Data Collection
### 1ms Integration
### 200 scan average
### Perform a scan every 10 seconds
### Stop after 10minutes
## Files saved as: KCl_OPD_H2O2_tris_1but_25_SCANNUMBER.txt
## 0.225mL Mb solution added after 3 scans  
## 0.225mL Mb solution added after 3 scans  
## Should see this in the spectra
## Should see this in the spectra

Revision as of 11:58, 9 December 2014

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Objective

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Samples

Sample 1

Mb lyophilized from Tris and KCl in water. scans every 10 seconds for 10 minutes. 1 scan = 1ms Integration, averaging over 200 scans

  1. Stock solutions:
    1. Myoglobin
      1. 15mg myoglobin from Tris KCl
    2. OPD
      1. 2.6mg OPD in 2.6mL water
    3. H2O2
      1. 0.114mL 30% H2O2 in 0.887mL water
  2. Experimental Run
    1. Sample chamber set to 25C and to stir
    2. N2 run through the cuvette holder to reduce condensation on cuvette
    3. 2.025mL OPD stock solution
    4. 0.75mL H2O2 stock solution
      1. Start Data Collection
      2. 1ms Integration
      3. 200 scan average
      4. Perform a scan every 10 seconds
      5. Stop after 10minutes
    5. Files saved as: Mb_OPD_H2O2_tris_water_25_SCANNUMBER.txt
    6. 0.225mL Mb solution added after 3 scans
    7. Should see this in the spectra

Sample 2

lyophilized from Tris and KCl in water. scans every 10 seconds for 10 minutes. 1 scan = 1ms Integration, averaging over 200 scans

  1. Stock solutions:
    1. Myoglobin - no myoglobin this run
      1. 15mg lyophilized Tris KCl
    2. OPD
      1. 2.5mg OPD in 2.5mL water
    3. H2O2
      1. 0.114mL 30% H2O2 in 0.887mL water
  2. Experimental Run
    1. Sample chamber set to 25C and to stir
    2. N2 run through the cuvette holder to reduce condensation on cuvette
    3. 2.025mL OPD stock solution
    4. 0.75mL H2O2 stock solution
      1. Start Data Collection
      2. 1ms Integration
      3. 200 scan average
      4. Perform a scan every 10 seconds
      5. Stop after 10minutes
    5. Files saved as: KCl_OPD_H2O2_tris_water_25_SCANNUMBER.txt
    6. 0.225mL KCl solution added after 3 scans
    7. Should see this in the spectra

Sample 3

Mb lyophilized from Tris and KCl in methanol. scans every 10 seconds for 10 minutes. 1 scan = 1ms Integration, averaging over 200 scans

  1. Stock solutions:
    1. Myoglobin
      1. 15mg myoglobin from Tris KCl in 1mL methanol
    2. OPD
      1. 2.4mg OPD in 2.4mL methanol
    3. H2O2
      1. 0.114mL 30% H2O2 in 0.887mL methanol
  2. Experimental Run
    1. Sample chamber set to 25C and to stir
    2. N2 run through the cuvette holder to reduce condensation on cuvette
    3. 2.025mL OPD stock solution
    4. 0.75mL H2O2 stock solution
      1. Start Data Collection
      2. 1ms Integration
      3. 200 scan average
      4. Perform a scan every 10 seconds
      5. Stop after 10minutes
    5. Files saved as: Mb_OPD_H2O2_tris_meoh_25_SCANNUMBER.txt
    6. 0.225mL Mb solution added after 3 scans
    7. Should see this in the spectra

Sample 4

lyophilized Tris and KCl in methanol. scans every 10 seconds for 10 minutes. 1 scan = 1ms Integration, averaging over 200 scans

  1. Stock solutions:
    1. Myoglobin
      1. 15mg Tris KCl in 1mL methanol
    2. OPD
      1. 2.5mg OPD in 2.5mL methanol
    3. H2O2
      1. 0.114mL 30% H2O2 in 0.887mL methanol
  2. Experimental Run
    1. Sample chamber set to 25C and to stir
    2. N2 run through the cuvette holder to reduce condensation on cuvette
    3. 2.025mL OPD stock solution
    4. 0.75mL H2O2 stock solution
      1. Start Data Collection
      2. 1ms Integration
      3. 200 scan average
      4. Perform a scan every 10 seconds
      5. Stop after 10minutes
    5. Files saved as: KCl_OPD_H2O2_tris_meoh_25_SCANNUMBER.txt
    6. 0.225mL Mb solution added after 3 scans
    7. Should see this in the spectra

Sample 5

Mb lyophilized from Tris and KCl in ethanol. scans every 10 seconds for 10 minutes. 1 scan = 1ms Integration, averaging over 200 scans

  1. Stock solutions:
    1. Myoglobin
      1. 15mg myoglobin from Tris KCl in 1mL ethanol
    2. OPD
      1. 3.7mg OPD in 3.7mL ethanol
    3. H2O2
      1. 0.114mL 30% H2O2 in 0.887mL ethanol
  2. Experimental Run
    1. Sample chamber set to 25C and to stir
    2. N2 run through the cuvette holder to reduce condensation on cuvette
    3. 2.025mL OPD stock solution
    4. 0.75mL H2O2 stock solution
      1. Start Data Collection
      2. 1ms Integration
      3. 200 scan average
      4. Perform a scan every 10 seconds
      5. Stop after 10minutes
    5. Files saved as: Mb_OPD_H2O2_tris_etoh_25_SCANNUMBER.txt
    6. 0.225mL Mb solution added after 3 scans
    7. Should see this in the spectra

Sample 6

lyophilized Tris and KCl in ethanol. scans every 10 seconds for 10 minutes. 1 scan = 1ms Integration, averaging over 200 scans

  1. Stock solutions:
    1. Myoglobin
      1. 15mg Tris KCl in 1mL ethanol
    2. OPD
      1. 3.4mg OPD in 3.4mL ethanol
    3. H2O2
      1. 0.114mL 30% H2O2 in 0.887mL ethanol
  2. Experimental Run
    1. Sample chamber set to 25C and to stir
    2. N2 run through the cuvette holder to reduce condensation on cuvette
    3. 2.025mL OPD stock solution
    4. 0.75mL H2O2 stock solution
      1. Start Data Collection
      2. 1ms Integration
      3. 200 scan average
      4. Perform a scan every 10 seconds
      5. Stop after 10minutes
    5. Files saved as: KCl_OPD_H2O2_tris_etoh_25_SCANNUMBER.txt
    6. 0.225mL Mb solution added after 3 scans
    7. Should see this in the spectra

Sample 7

Mb lyophilized from Tris and KCl in isopropanol. scans every 10 seconds for 10 minutes. 1 scan = 1ms Integration, averaging over 200 scans

  1. Stock solutions:
    1. Myoglobin
      1. 15mg myoglobin from Tris KCl in 1mL isopropanol
    2. OPD
      1. 3.0mg OPD in 3.0mL isopropanol
    3. H2O2
      1. 0.114mL 30% H2O2 in 0.887mL isopropanol
  2. Experimental Run
    1. Sample chamber set to 25C and to stir
    2. N2 run through the cuvette holder to reduce condensation on cuvette
    3. 2.025mL OPD stock solution
    4. 0.75mL H2O2 stock solution
      1. Start Data Collection
      2. 1ms Integration
      3. 200 scan average
      4. Perform a scan every 10 seconds
      5. Stop after 10minutes
    5. Files saved as: Mb_OPD_H2O2_tris_isop_25_SCANNUMBER.txt
    6. 0.225mL Mb solution added after 3 scans
    7. Should see this in the spectra

Sample 8

lyophilized Tris and KCl in isopropanol. scans every 10 seconds for 10 minutes. 1 scan = 1ms Integration, averaging over 200 scans

  1. Stock solutions:
    1. Myoglobin
      1. 15mg Tris KCl in 1mL isopropanol
    2. OPD
      1. 2.5mg OPD in 2.5mL isopropanol
    3. H2O2
      1. 0.114mL 30% H2O2 in 0.887mL isopropanol
  2. Experimental Run
    1. Sample chamber set to 25C and to stir
    2. N2 run through the cuvette holder to reduce condensation on cuvette
    3. 2.025mL OPD stock solution
    4. 0.75mL H2O2 stock solution
      1. Start Data Collection
      2. 1ms Integration
      3. 200 scan average
      4. Perform a scan every 10 seconds
      5. Stop after 10minutes
    5. Files saved as: KCl_OPD_H2O2_tris_isop_25_SCANNUMBER.txt
    6. 0.225mL Mb solution added after 3 scans
    7. Should see this in the spectra

Sample 9

Mb lyophilized from Tris and KCl in 1-propanol. scans every 10 seconds for 10 minutes. 1 scan = 1ms Integration, averaging over 200 scans

  1. Stock solutions:
    1. Myoglobin
      1. 15mg myoglobin from Tris KCl in 1mL 1-propanol
    2. OPD
      1. 2.9mg OPD in 2.9mL 1-propanol
    3. H2O2
      1. 0.114mL 30% H2O2 in 0.887mL 1-propanol
  2. Experimental Run
    1. Sample chamber set to 25C and to stir
    2. N2 run through the cuvette holder to reduce condensation on cuvette
    3. 2.025mL OPD stock solution
    4. 0.75mL H2O2 stock solution
      1. Start Data Collection
      2. 1ms Integration
      3. 200 scan average
      4. Perform a scan every 10 seconds
      5. Stop after 10minutes
    5. Files saved as: Mb_OPD_H2O2_tris_1prop_25_SCANNUMBER.txt
    6. 0.225mL Mb solution added after 3 scans
    7. Should see this in the spectra

Sample 10

lyophilized Tris and KCl in 1-propanol. scans every 10 seconds for 10 minutes. 1 scan = 1ms Integration, averaging over 200 scans

  1. Stock solutions:
    1. Myoglobin
      1. 15mg Tris KCl in 1mL 1-propanol
    2. OPD
      1. 4.0mg OPD in 4.0mL 1-propanol
    3. H2O2
      1. 0.114mL 30% H2O2 in 0.887mL 1-propanol
  2. Experimental Run
    1. Sample chamber set to 25C and to stir
    2. N2 run through the cuvette holder to reduce condensation on cuvette
    3. 2.025mL OPD stock solution
    4. 0.75mL H2O2 stock solution
      1. Start Data Collection
      2. 1ms Integration
      3. 200 scan average
      4. Perform a scan every 10 seconds
      5. Stop after 10minutes
    5. Files saved as: KCl_OPD_H2O2_tris_1prop_25_SCANNUMBER.txt
    6. 0.225mL Mb solution added after 3 scans
    7. Should see this in the spectra

Sample 11

Mb lyophilized from Tris and KCl in 1-butanol. scans every 10 seconds for 10 minutes. 1 scan = 1ms Integration, averaging over 200 scans

  1. Stock solutions:
    1. Myoglobin
      1. 15mg myoglobin from Tris KCl in 1mL 1-butanol
    2. OPD
      1. 2.7mg OPD in 2.7mL 1-butanol
    3. H2O2
      1. 0.114mL 30% H2O2 in 0.887mL 1-butanol
  2. Experimental Run
    1. Sample chamber set to 25C and to stir
    2. N2 run through the cuvette holder to reduce condensation on cuvette
    3. 2.025mL OPD stock solution
    4. 0.75mL H2O2 stock solution
      1. Start Data Collection
      2. 1ms Integration
      3. 200 scan average
      4. Perform a scan every 10 seconds
      5. Stop after 10minutes
    5. Files saved as: Mb_OPD_H2O2_tris_1but_25_SCANNUMBER.txt
    6. 0.225mL Mb solution added after 3 scans
    7. Should see this in the spectra

Sample 12

lyophilized Tris and KCl in 1-butanol. scans every 10 seconds for 10 minutes. 1 scan = 1ms Integration, averaging over 200 scans

  1. Stock solutions:
    1. Myoglobin
      1. 15mg Tris KCl in 1mL 1-butanol
    2. OPD
      1. 4.0mg OPD in 4.0mL 1-butanol
    3. H2O2
      1. 0.114mL 30% H2O2 in 0.887mL 1-butpanol
  2. Experimental Run
    1. Sample chamber set to 25C and to stir
    2. N2 run through the cuvette holder to reduce condensation on cuvette
    3. 2.025mL OPD stock solution
    4. 0.75mL H2O2 stock solution
      1. Start Data Collection
      2. 1ms Integration
      3. 200 scan average
      4. Perform a scan every 10 seconds
      5. Stop after 10minutes
    5. Files saved as: KCl_OPD_H2O2_tris_1but_25_SCANNUMBER.txt
    6. 0.225mL Mb solution added after 3 scans
    7. Should see this in the spectra


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