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Team:HokkaidoU Japan/Notebook/plastic protocols
From 2012.igem.org
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<!-- DO NOT EDIT OVER THIS LINE @iTakeshi --> | <!-- DO NOT EDIT OVER THIS LINE @iTakeshi --> | ||
| + | ==PHB Protocols== | ||
| - | ==Polymer producing media== | + | ===Polymer producing media=== |
| - | <div | + | <div class="hokkaidou-section"> |
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polymer producing media (LB:2%Glc+ 10mM pantothenic acid Ca + Amp100mg/l) 20ml | polymer producing media (LB:2%Glc+ 10mM pantothenic acid Ca + Amp100mg/l) 20ml | ||
{|class="hokkaidou-table-digestion" | {|class="hokkaidou-table-digestion" | ||
|- | |- | ||
| - | | | + | |2ÃLB |
|10 ml | |10 ml | ||
|- | |- | ||
| - | | | + | |â50% Glucose |
|800 ul | |800 ul | ||
|- | |- | ||
| - | | | + | |â1M pantothenic acid Ca |
|200 ul | |200 ul | ||
|- | |- | ||
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| - | + | â50%gulcose | |
{|class="hokkaidou-table-digestion" | {|class="hokkaidou-table-digestion" | ||
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|- | |- | ||
|Glucose | |Glucose | ||
| - | |10 g.... | + | |10 g....Heatãand stir until it melts. |
|- | |- | ||
|ROwater | |ROwater | ||
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|- | |- | ||
|} | |} | ||
| - | |||
Filter sterilize. | Filter sterilize. | ||
| - | + | â1M pantothenic acid Ca | |
{|class="hokkaidou-table-digestion" | {|class="hokkaidou-table-digestion" | ||
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|pantothenic acid Ca | |pantothenic acid Ca | ||
| - | |4.77 g.... | + | |4.77 g....Heatãand stir until it melts. |
|- | |- | ||
|ROwater | |ROwater | ||
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|} | |} | ||
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Filter sterilize. | Filter sterilize. | ||
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</div> | </div> | ||
| - | ==Culture and harvest== | + | ===Culture and harvest=== |
| - | <div> | + | <div class="hokkaidou-section"> |
| - | + | # Preculture transformed media 1.5ml for 10ï½14 hours, 180rpm/30â. | |
| - | + | # Culture 15μl preculture media in polymer producing media for 48hours, 180rpm/30â. | |
| - | # Preculture transformed media 1.5ml for | + | |
| - | # Culture | + | |
#Centrifuge for 10min, 5000rpm. | #Centrifuge for 10min, 5000rpm. | ||
#Remove supernatant and add 500ml ROwater and suspend it. | #Remove supernatant and add 500ml ROwater and suspend it. | ||
#Centrifuge again for 10min, 5,000rpm and remove its supernatant. | #Centrifuge again for 10min, 5,000rpm and remove its supernatant. | ||
| - | #Freeze in - | + | #Freeze in -80â for more than 3hours. |
#Freeze-dry for more than 48hours. | #Freeze-dry for more than 48hours. | ||
| - | |||
| - | |||
</div> | </div> | ||
| - | ==Polymer extraction and purification== | + | ===Polymer extraction and purification=== |
| - | <div | + | <div class="hokkaidou-section"> |
| - | + | ||
#Move dried up bacteria into test tube. | #Move dried up bacteria into test tube. | ||
#Break up them to separate and add 10ml chloroform. | #Break up them to separate and add 10ml chloroform. | ||
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#Volatilize chloroform by exposing air again. | #Volatilize chloroform by exposing air again. | ||
#Add 5ml MtOH, voltex for a minute, centrifuge (1,500rpm, 10min), and remove the clear layer. | #Add 5ml MtOH, voltex for a minute, centrifuge (1,500rpm, 10min), and remove the clear layer. | ||
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</div> | </div> | ||
| - | + | ===Preparation for GC/MS=== | |
| - | ==Preparation for GC/MS== | + | <div class="hokkaidou-section"> |
| - | <div | + | |
| - | + | ||
Mixture for hydrolysis<br> | Mixture for hydrolysis<br> | ||
All operation must be done with bare hand, so put gloves on.<br> | All operation must be done with bare hand, so put gloves on.<br> | ||
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10. Remove 100 ul solution by pipetman.<br> | 10. Remove 100 ul solution by pipetman.<br> | ||
11. Supply to GC/MS.<br> | 11. Supply to GC/MS.<br> | ||
| - | + | </div> | |
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<!-- DO NOT EDIT UNDER THIS LINE @iTakeshi --> | <!-- DO NOT EDIT UNDER THIS LINE @iTakeshi --> | ||
Revision as of 18:49, 26 September 2012
Bold text
Contents |
PHB Protocols
Polymer producing media
polymer producing media (LB:2%Glc+ 10mM pantothenic acid Ca + Amp100mg/l) 20ml
| 2ÃLB | 10 ml |
| â50% Glucose | 800 ul |
| â1M pantothenic acid Ca | 200 ul |
| Amp(100mg/ml) | 20 ul |
| ROwater | 8.98 ml |
Put 1.5 ml each into the test tube.
â50%gulcose
| ROwater | 7 ml |
| Glucose | 10 g....Heatãand stir until it melts. |
| ROwater | up to 20 ml |
Filter sterilize.
â1M pantothenic acid Ca
| ROwater | 7 ml |
| pantothenic acid Ca | 4.77 g....Heatãand stir until it melts. |
| ROwater | up to 10 ml |
Filter sterilize.
Culture and harvest
- Preculture transformed media 1.5ml for 10ï½14 hours, 180rpm/30â.
- Culture 15μl preculture media in polymer producing media for 48hours, 180rpm/30â.
- Centrifuge for 10min, 5000rpm.
- Remove supernatant and add 500ml ROwater and suspend it.
- Centrifuge again for 10min, 5,000rpm and remove its supernatant.
- Freeze in -80â for more than 3hours.
- Freeze-dry for more than 48hours.
Polymer extraction and purification
- Move dried up bacteria into test tube.
- Break up them to separate and add 10ml chloroform.
- Incubate for 48hour at 60C.
- Make it filtered through PTFE and move it into another test tube.
- Volatilize organic solvent by exposing air and separate polymer.
- Add 5ml hexane and voltex for a minute. After centrifuging (1,500rpm, 10min), remove the clear layer.
- Volatilize chloroform by exposing air again.
- Add 5ml MtOH, voltex for a minute, centrifuge (1,500rpm, 10min), and remove the clear layer.
Preparation for GC/MS
Mixture for hydrolysis
All operation must be done with bare hand, so put gloves on.
1. Mix each solution in centrifugation tube (10ml).
| Sample | 250 ul |
| HCl | 100 ul |
| Ethanol | 850 ul |
2. Voltex.
3. Heat at 100C for 4 hours (each 30 min voltex).
4. Cool down centrifugation tube in ice.
5. Add solutions as follow.
| (1) | |
| 0.65M NaOH | |
| 0.9M NaCl | |
| 1 ml | |
| (2) | |
| 250mM Na2HPO4 | |
| (store at 4C) | 500 ul |
6. Voltex for 1 min.
7. Test by pH test paper (about pH 7.0).
8. Centrifugation for 5 min at 1,500rpm.
9. Pipette chloroform solution by Pasteur pipette which stuffs glass wool and is added about 5 teaspoons of Na2SO4.
It means the solution is passed on simple column (Dehydration).
Passed solution is collected by a vial whose bottom is covered by Molecular sieves 4A 1/16 (producted by Wako).
10. Remove 100 ul solution by pipetman.
11. Supply to GC/MS.
