Team:Newcastle/31 August 2010

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(Glycerol stocks)
 
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{{Team:Newcastle/mainbanner}}
{{Team:Newcastle/mainbanner}}
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=Amplification of the plasmid PSB1C3 for ''rocF'' BioBrick=
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=Glycerol stocks=
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Today we made [[Team:Newcastle/Glycerol_stocks|glycerol stocks]] of our filamentous ''Bacillus subtilis'' 168 strain.
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==Aim==
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The aim of this experiment is to amplify plasmid linearized pSB1C3 for the construction of [[Team:Newcastle/Urease|''rocF'' BioBrick]] with the help of a single Phusion PCR using old primers.
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==Materials and Protocol==
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Please refer to  [[Team:Newcastle/PCR| PCR]] for Phusion PCR protocol. The details for the single PCR reaction is mentioned below:
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===PCR===
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{|border=1
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|-
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!'''Tube'''
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!'''Part to be amplified'''
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!'''DNA fragment consisting the part'''
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!'''Forward primer'''
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!'''Reverse Primer'''
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!'''Melting Temperature (Tm in °C) '''
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!'''Size of the fragment (in bp)'''
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!'''Extension time* (in seconds)'''
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|-
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|1
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|Plasmid Vector
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|pSB1C3
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|P1V1 forward
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|P2V1 reverse
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|58
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|2072 approx.
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|65
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|}
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'''Table 1''': Table represents a single Phusion PCR reaction where plasmid pSB1C3 is amplified so that it can be ligated together with other ''rocF'' fragments with the help of Gibson Cloning method.
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* The extension rate of the Phusion polymerase is 1Kb/ 30 seconds. Thus the extension time of each and every PCR reaction is slightly different.
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* For learning about the ''rocF'' fragments, please refer to the [[Media:Cloning_strategy_for_rocF.pdf|Cloning strategy for ''rocF'']].
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==Discussion==
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The Phusion PCR reaction was done however, gel electrophoresis and gel extraction will take place today to check whether the fragments have actually amplified or not.
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==Conclusion==
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Today, we would be running gel electrophoresis to check the outcome of the  PCR reaction and later all the fragments will be ligated with help of Gibson protocol.
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=Amplification of the parts for Subtilin Immunity BioBrick=
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==Aim==
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The aim of this experiment is to amplify the four parts for the Subtilin Immunity BioBrick using Phusion PCR again but using the original primers that were ordered.
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(Before this could be done, four of the primers, 1-T1_for, 2-T1_rev, 1-P1_for and 2-P2_rev, had to be re-hydrated.)
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For more information about the subtilin immunity BioBrick, please see the cloning strategy for subtilin immunity (Link)
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==Materials and Protocol==
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Please refer to [[Team:Newcastle/PCR#Phusion_PCR| Phusion PCR]] for Phusion PCR protocol.
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(Please refer to [[Team:Newcastle/DNA_re-hydration| DNA Re-hydration]] for the DNA Re-hydration protocol.)
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The details for the four PCR reactions are included in the table below:
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{|border=1
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|-
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!'''Tube'''
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!'''Part to be amplified'''
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!'''DNA fragment consisting the part'''
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!'''Forward primer'''
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!'''Reverse Primer'''
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!'''Melting Temperature (Tm in °C) '''
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!'''Size of the fragment (in bp)'''
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!'''Extension time* (in seconds)'''
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|-
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|1
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|Plasmid Vector
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|PSB1C3
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|P1V1 forward
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|P2V1 reverse
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|53.3
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|2046 +
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|70
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|2
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|Promoter and RBS (pVeg-SpoVG)
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|BioBrick Bba_K143053
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|P1P1 forward
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|P2P2 reverse
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|51.7
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|139 +
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|15
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|3
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|''spaIFEG'' Gene Cluster
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|''B. subtilis'' ATCC 6633
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|P1S1 forward
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|P2S1 reverse
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|46.0
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|2753 +
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|110
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|-
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|4
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|Double terminator
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|pSB1AK3 consisting BBa_B0014
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|P1T1 forward
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|P2T1 reverse
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|50.9
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|116 +
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|15
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|}
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'''Table 2''': This table shows the four different Phusion PCR reactions that were carried out today. If this is successful, the four parts will be ligated together for the construction of subtilin immunity BioBrick with the help of Gibson Cloning method.
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* The extension rate of the Phusion polymerase is 1 Kb/ 30 seconds. Thus the extension time of each and every PCR reaction is slightly different.
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==Results, Discussion and Conclusion==
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{{Team:Newcastle/footer}}

Latest revision as of 01:20, 28 October 2010

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Glycerol stocks

Today we made glycerol stocks of our filamentous Bacillus subtilis 168 strain.

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