Team:Newcastle/13 August 2010

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(New page: {{Team:Newcastle/mainbanner}} =''rocF'' BioBrick miniprep= =''rocF'' BioBrick nanodrop= =''rocF'' BioBrick gel electrophoresis= Expect band to be 3195bp. {{Team:Newcastle/footer}})
(Gel electrophoresis of subtilin immunity BioBrick fragments)
 
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=''rocF'' BioBrick miniprep=
 
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=''rocF'' BioBrick gel electrophoresis=
 
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Expect band to be 3195bp.
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=Gel electrophoresis of subtilin immunity part fragments=
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==Aims==
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The aim of this experiment is to do gel extraction for the ''spaIFEG'' gene cluster amplifed on the 12th August, 2010 and the Plasmid Vector, Promoter & RBS and Double terminator amplifed on the 11th August, 2010. Finally, NanoDrop will be performed for all the fragments.
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==Materials and protocol==
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Please refer to the [[Team:Newcastle/Gel_extraction| gel extraction]] and [[TeamNewcastleNanoDrop_Spectrophotometer| NanoDrop]] protocols. Instead of using the centrifuge to bind the DNA from our sample to the QIAquick column, a '''vacuum manifold''' was used instead. It is the first time it had been used. The advantage of this was that the extraction could be carried out all at the same time.
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[[Image:Newcastle Gel Extraction of spaIFEG genes.JPG|200px|Gel Extraction of spaIFEG genes]]
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[[Image:Newcastle Vacuum Manifold 1.JPG|150px|Setting up the tubes for the vacuum manifold]]
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[[Image:Newcastle Vacuum Manifold 2.JPG|150px|Setting up the tubes for the vacuum manifold]]
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[[Image:Newcastle Vacuum Manifold 3.JPG|200px|Vacuum manifold with the QIAquick spin columns loaded with the samples]]
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==Results==
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{|border=1
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|-
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!'''Vector'''
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!'''Promoter'''
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!'''Immunity gene cluster'''
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!'''Double terminator'''
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|-
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|21.3 µl/ml
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|28.8 µl/ml
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|27.0 µl/ml
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|27.5 µl/ml
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|}
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'''Table 1''': Nanodrop spectrophotometer results. Table represents the amount of plasmid present in µl/ml quantity.
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==Discussion==
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The concentration of the fragments range from 21.3 µl/ml to 28.8 µl/ml. This is acceptable as during the gel extraction step, some of the DNA would be lost.
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==Conclusion==
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We have successfully extracted all the parts required for the Subtilin Immunity BioBrick. The Gibson cloning method will be used next week.
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'''Go back to our main [[Team:Newcastle/notebook| Lab book]] page'''
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{{Team:Newcastle/footer}}
{{Team:Newcastle/footer}}

Latest revision as of 23:41, 27 October 2010

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Contents

Gel electrophoresis of subtilin immunity part fragments

Aims

The aim of this experiment is to do gel extraction for the spaIFEG gene cluster amplifed on the 12th August, 2010 and the Plasmid Vector, Promoter & RBS and Double terminator amplifed on the 11th August, 2010. Finally, NanoDrop will be performed for all the fragments.

Materials and protocol

Please refer to the gel extraction and NanoDrop protocols. Instead of using the centrifuge to bind the DNA from our sample to the QIAquick column, a vacuum manifold was used instead. It is the first time it had been used. The advantage of this was that the extraction could be carried out all at the same time.

Gel Extraction of spaIFEG genes Setting up the tubes for the vacuum manifold Setting up the tubes for the vacuum manifold Vacuum manifold with the QIAquick spin columns loaded with the samples

Results

Vector Promoter Immunity gene cluster Double terminator
21.3 µl/ml 28.8 µl/ml 27.0 µl/ml 27.5 µl/ml

Table 1: Nanodrop spectrophotometer results. Table represents the amount of plasmid present in µl/ml quantity.

Discussion

The concentration of the fragments range from 21.3 µl/ml to 28.8 µl/ml. This is acceptable as during the gel extraction step, some of the DNA would be lost.

Conclusion

We have successfully extracted all the parts required for the Subtilin Immunity BioBrick. The Gibson cloning method will be used next week.



Go back to our main Lab book page


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