Difference between revisions of "Part:BBa K2442101:Design"

Revision as of 23:22, 1 November 2017

Minimal pBAD promoter

Assembly Compatibility:

10
COMPATIBLE WITH RFC[10]
12
COMPATIBLE WITH RFC[12]
21
INCOMPATIBLE WITH RFC[21]
Illegal BamHI site found at 241
23
COMPATIBLE WITH RFC[23]
25
INCOMPATIBLE WITH RFC[25]
Illegal AgeI site found at 76
1000
INCOMPATIBLE WITH RFC[1000]
Illegal SapI site found at 58

Design Notes

In absence of L-arabinose the AraC dimer binds to pBAD operator half-sites O₂ and I₁ and represses transcription by excluding RNA polymerase from binding to pBAD or PC. Binding of L-arabinose causes a conformational change in the protein such that the DNA-binding domains of the dimer bind to adjacent I_{1</sub and I₂ half-sites, resulting in transcription activation of downstream genes (Fig. 1).}

Figure 1: Regulation of the L-arabinose operon by arabinose. In the absence of L-arabinose, AraC dimer binds to O₂ and I₁ half sites causing DNA looping, which prevents RNA polymerase from accessing P_BAD. Upon binding of L–arabinose, the AraC dimer binds I₁ and I₂ half sites instead, allowing transcription of the polycistronic araBAD mRNA. araC is transcribed in opposite direction from araBAD, and is under control of the PC promoter. RNA polymerase and AraC compete for binding at O₁ and P_C. Adapted from Shleif (2000) ^[1]

Source

PCR amplification from BBa_I0500.

===References===

↑ Schleif, R. (2000). Regulation of the L-arabinose operon of Escherichia coli. Trends In Genetics 16, 559-565..

[1] Schleif, R. (2000). Regulation of the L-arabinose operon of Escherichia coli. Trends In Genetics 16, 559-565..

[1]

@@ Line 7: / Line 7: @@
 ===Design Notes===
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+In absence of L-arabinose the AraC dimer binds to pBAD operator half-sites O<sub>2</sub> and I<sub>1</sub> and represses transcription by excluding RNA polymerase from binding to pBAD or PC. Binding of L-arabinose causes a conformational change in the protein such that the DNA-binding domains of the dimer bind to adjacent I<sub>1</sub and I<sub>2</sub> half-sites, resulting in transcription activation of downstream genes (Fig. 1).
+[[Image:T-Glasgow-K2442101-design-Fig1.png|left|thumb|800px|'''Figure 1: Regulation of the L-arabinose operon by arabinose. In the absence of L-arabinose, AraC dimer binds to O<sub>2</sub> and I<sub>1</sub> half sites causing DNA looping, which prevents RNA polymerase from accessing P<sub>BAD</sub>. Upon binding of L–arabinose, the AraC dimer binds I<sub>1</sub> and I<sub>2</sub> half sites instead, allowing transcription of the polycistronic ''araBAD'' mRNA. ''araC'' is transcribed in opposite direction from ''araBAD'', and is under control of the PC promoter. RNA polymerase and AraC compete for binding at O<sub>1</sub> and P<sub>C</sub>. Adapted from Shleif (2000) <ref> Schleif, R. (2000). Regulation of the L-arabinose operon of ''Escherichia coli''. Trends In Genetics ''16'', 559-565..</ref>''']]