Team:Newcastle/Parts/HBsu-fp

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==Purpose & Justification==
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==Purpose and Justification==
''Bacilluis subtilis'' contains HBsu, a non-specific DNA binding protein which is a homologue to eukaryotic histones. This protein is encoded by the gene ''hbs'' gene which is 263bp in length and involved not only in DNA binding but also SRP, DNA repair, HR, and pre-secretory protein translocation (Kouji, et al., 1999).  It binds to DNA by forming homodimer.                                             
''Bacilluis subtilis'' contains HBsu, a non-specific DNA binding protein which is a homologue to eukaryotic histones. This protein is encoded by the gene ''hbs'' gene which is 263bp in length and involved not only in DNA binding but also SRP, DNA repair, HR, and pre-secretory protein translocation (Kouji, et al., 1999).  It binds to DNA by forming homodimer.                                             

Revision as of 15:28, 11 July 2013

 
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Contents

Purpose and Justification

Bacilluis subtilis contains HBsu, a non-specific DNA binding protein which is a homologue to eukaryotic histones. This protein is encoded by the gene hbs gene which is 263bp in length and involved not only in DNA binding but also SRP, DNA repair, HR, and pre-secretory protein translocation (Kouji, et al., 1999). It binds to DNA by forming homodimer.

We plan to conjugate the hbs gene with fluorescent protein (RFP/GFP) in order to fluorescently tag the bacterial chromosome. Each bacterium will only contain one or the other. We plan to regulate their expression through an IPTG induce promoter (Pspac).

This BioBrick the fusion of two L-form B. subtilis, and aims to improve existing phenotype via genome shuffling. This can be visualised through fluorescent microscopy, if a colour mosaic is formed we can confidently claim that recombination has occurred.

Assembly

HBsu-GPF

BareCillus HBsu-GFP.png

HBsu-RFP

BareCillus HBSu-RFP.png