Difference between revisions of "Part:BBa K3725220"
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Lambert_GA iGEM 2021’s nitrate biosensor is modeled after E.coli’s natural nitrate sensor, the Nar Operon, which includes the membrane-bound sensor protein NarX and its corresponding DNA-binding response regulator NarL. The NarL/NarX system detects nitrate by using phosphorylated NarL as an inducer of promoter part BBa_K3725210 (Promoter pNar). In the presence of nitrate, NarX phosphorylates NarL, which activates pNar, and sfGFP is transcribed. Conversely, in the absence of nitrate, NarX does not phosphorylate NarL and sfGFP is not transcribed. To analyze the concentration of nitrate present in a solution, nitrate levels need to be correlated with a reporter protein, or a promoter responsive to phosphorylated NarL and report downstream GFP, a well-characterized fluorescent protein. | Lambert_GA iGEM 2021’s nitrate biosensor is modeled after E.coli’s natural nitrate sensor, the Nar Operon, which includes the membrane-bound sensor protein NarX and its corresponding DNA-binding response regulator NarL. The NarL/NarX system detects nitrate by using phosphorylated NarL as an inducer of promoter part BBa_K3725210 (Promoter pNar). In the presence of nitrate, NarX phosphorylates NarL, which activates pNar, and sfGFP is transcribed. Conversely, in the absence of nitrate, NarX does not phosphorylate NarL and sfGFP is not transcribed. To analyze the concentration of nitrate present in a solution, nitrate levels need to be correlated with a reporter protein, or a promoter responsive to phosphorylated NarL and report downstream GFP, a well-characterized fluorescent protein. | ||
− | ===Design=== | + | ===Part Design=== |
+ | [[File:BBa K3725220 Construct.png|thumb|center|500px|<i>Figure 1. The diagram above shows the construct of Part BBa_K3725220.</i>]] | ||
+ | This plasmid was shared by Dr. Adam Silverman from Jewett Lab at Northwestern University. | ||
===Usage and Biology=== | ===Usage and Biology=== | ||
− | [[File:PNar Nar Operon Graphic.png|thumb|center|500px|<i>Figure | + | [[File:PNar Nar Operon Graphic.png|thumb|center|500px|<i>Figure 2. The diagram above shows NarX (the native E. coli Nar membrane-bound sensor protein) and NarL (the corresponding DNA-binding response regulators), as well as how it works with our pNar Composite Part.</i>]] |
Lambert_GA iGEM 2021’s nitrate biosensor is modeled after E.coli’s natural nitrate sensor, the Nar Operon, which includes the membrane-bound sensor protein NarX and its corresponding DNA-binding response regulator NarL. The NarL/NarX system detects nitrate by using phosphorylated NarL as an inducer of promoter part BBa_K3725210 (Promoter pNar). In the presence of nitrate, NarX phosphorylates NarL, which activates pNar, and sfGFP is transcribed. Conversely, in the absence of nitrate, NarX does not phosphorylate NarL and sfGFP is not transcribed. To analyze the concentration of nitrate present in a solution, nitrate levels need to be correlated with a reporter protein, or a promoter responsive to phosphorylated NarL and report downstream GFP, a well-characterized fluorescent protein. | Lambert_GA iGEM 2021’s nitrate biosensor is modeled after E.coli’s natural nitrate sensor, the Nar Operon, which includes the membrane-bound sensor protein NarX and its corresponding DNA-binding response regulator NarL. The NarL/NarX system detects nitrate by using phosphorylated NarL as an inducer of promoter part BBa_K3725210 (Promoter pNar). In the presence of nitrate, NarX phosphorylates NarL, which activates pNar, and sfGFP is transcribed. Conversely, in the absence of nitrate, NarX does not phosphorylate NarL and sfGFP is not transcribed. To analyze the concentration of nitrate present in a solution, nitrate levels need to be correlated with a reporter protein, or a promoter responsive to phosphorylated NarL and report downstream GFP, a well-characterized fluorescent protein. | ||
Latest revision as of 17:23, 20 October 2021
Phosphorylated NarL-Specific w/ GFP Reporter
Lambert_GA iGEM 2021’s nitrate biosensor is modeled after E.coli’s natural nitrate sensor, the Nar Operon, which includes the membrane-bound sensor protein NarX and its corresponding DNA-binding response regulator NarL. The NarL/NarX system detects nitrate by using phosphorylated NarL as an inducer of promoter part BBa_K3725210 (Promoter pNar). In the presence of nitrate, NarX phosphorylates NarL, which activates pNar, and sfGFP is transcribed. Conversely, in the absence of nitrate, NarX does not phosphorylate NarL and sfGFP is not transcribed. To analyze the concentration of nitrate present in a solution, nitrate levels need to be correlated with a reporter protein, or a promoter responsive to phosphorylated NarL and report downstream GFP, a well-characterized fluorescent protein.
Part Design
This plasmid was shared by Dr. Adam Silverman from Jewett Lab at Northwestern University.
Usage and Biology
Lambert_GA iGEM 2021’s nitrate biosensor is modeled after E.coli’s natural nitrate sensor, the Nar Operon, which includes the membrane-bound sensor protein NarX and its corresponding DNA-binding response regulator NarL. The NarL/NarX system detects nitrate by using phosphorylated NarL as an inducer of promoter part BBa_K3725210 (Promoter pNar). In the presence of nitrate, NarX phosphorylates NarL, which activates pNar, and sfGFP is transcribed. Conversely, in the absence of nitrate, NarX does not phosphorylate NarL and sfGFP is not transcribed. To analyze the concentration of nitrate present in a solution, nitrate levels need to be correlated with a reporter protein, or a promoter responsive to phosphorylated NarL and report downstream GFP, a well-characterized fluorescent protein.
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000INCOMPATIBLE WITH RFC[1000]Illegal BsaI site found at 930
Illegal BsaI site found at 1108
Illegal SapI.rc site found at 133