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| how you used this part and how it worked out. | | how you used this part and how it worked out. |
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− | ===Applications of BBa_K634007===
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− | When placed 3' of the promoter portion of a 1- or 2-component sensor, BBa_634007 can be used in the following ways:
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− | '''Reporter'''
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− | The fluorescent mCherry-derived ([[Part:BBa_K634005|tagRFP]]) fluoresces red upon induction. This can be useful for visually verifying expression of the cassette is proceeding normally, first order approximations of promoter activity, and (with plate reader analysis) as a marker for quantification of expression. Cell cultures have not appeared visibly red in our experience, but are easy to see when pelleted (it is less obvious in the below picture than it really is in person).
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− | [[Image:TagRFP_induction_in_tagSacBKan.png]]
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− | '''Selection'''
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− | Sensor systems can be selected for desired induced expression through supplementation of the culture with the sensor's analyte and kanamycin.
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− | '''Counter selection'''
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− | Sensors can also be selected for absence of expression when uninduced through supplementation of the culture with sucrose. The ''Bacillus subtilis'' gene ''sacB'' has the effect of killing gram negative bacteria in the presence of sucrose. The counter selection process works well on agar plates, but requires slight adaptations to be used in liquid cultures; long periods of growth appear to extremely frequently give rise to sucrose-insensitive mutants.
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− | See [[Part:BBa_K322921|the ''sacB'' entry]] for more information about how the 2011 Wisconsin-Madison team made ''sacB'' counter selections work in liquid cultures.
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| == Issues in practice == | | == Issues in practice == |
− | ''sacB'' appears to be something of a lightning rod for loss of function mutations. As can be seen below, sucrose lethality is only maintained in a population for approximately 5 hours. At this point, we presume that spontaneous mutations in ''sacB'' produce sucrose-insensitive mutants. | + | ''sacB'' appears to be something of a lightning rod for loss of function mutations. As can be seen above, sucrose lethality is only maintained in a population for approximately 5 hours. At this point, we presume that spontaneous mutations in ''sacB'' produce sucrose-insensitive mutants. |
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| ===User Reviews=== | | ===User Reviews=== |
Latest revision as of 03:48, 28 September 2011
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how you used this part and how it worked out.
Issues in practice
sacB appears to be something of a lightning rod for loss of function mutations. As can be seen above, sucrose lethality is only maintained in a population for approximately 5 hours. At this point, we presume that spontaneous mutations in sacB produce sucrose-insensitive mutants.
User Reviews
UNIQ27e515647b689c39-partinfo-00000000-QINU
UNIQ27e515647b689c39-partinfo-00000001-QINU