Difference between revisions of "Part:BBa K1992002"
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==Usage and Biology== | ==Usage and Biology== | ||
− | Histamine is a derivative of Histidine, which is also an amino acid as the native Tar ligand. The motivation to | + | Histamine is a derivative of Histidine, which is also an amino acid as the native Tar ligand. The motivation to mediate chemotaxis towards Histamine is due to it’s presence in food poison, especially in rotten fish. |
− | The new chemoreceptor | + | The new chemoreceptor enables chemotactic attractant response to Histamine, althougth Histamin chemoreceptor could be found in human cells, this is the first time this receptor is conducted in bacterial cell. |
<!-- ######################## Design considerations ######################### --> | <!-- ######################## Design considerations ######################### --> | ||
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==Design considerations== | ==Design considerations== | ||
[[File:T--Technion_Israel--Scheme_Histamine.png|300px|thumb|right|Figure 1: Design process schema for designing novel Histamine-Tar chemoreceptor with Rosetta software.]] | [[File:T--Technion_Israel--Scheme_Histamine.png|300px|thumb|right|Figure 1: Design process schema for designing novel Histamine-Tar chemoreceptor with Rosetta software.]] |
Revision as of 22:54, 21 October 2016
Histamin-Tar receptor
Novel Histamine-Tar chemoreceptor in E.coli
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25INCOMPATIBLE WITH RFC[25]Illegal AgeI site found at 1282
- 1000INCOMPATIBLE WITH RFC[1000]Illegal SapI.rc site found at 111
Introduction
Tar is a chemoreceptor found in the bacterium E-coli which mediates chemotaxis towards Aspartic acid and away from Nickel and Cobalt (1). Using designs from bioinformatic tool, a novel chemoreceptor which mediates chemotaxis towards Histamine, was formed by inducing directed point mutations to the Tar ligand-binding domain (LBD) (part BBa_K777000). This novel receptor is a part of the S.Tar platform.
Usage and Biology
Histamine is a derivative of Histidine, which is also an amino acid as the native Tar ligand. The motivation to mediate chemotaxis towards Histamine is due to it’s presence in food poison, especially in rotten fish. The new chemoreceptor enables chemotactic attractant response to Histamine, althougth Histamin chemoreceptor could be found in human cells, this is the first time this receptor is conducted in bacterial cell.
Design considerations
The point mutations deisgn was made by the Rosetta software. Rosetta is a powerfull bioniformatics tool for macromolecular modeling and design. To redesign the Tar ligand-binding domain (LBD), we followed a protocol from the literature(2). The output of the protocol is a library of about 870 variants, this fact means that filtering the results is an extremely crucial part of the process. Rosetta is able to predict which protein designs are likely to have improved protein activity, this predeictions enable to filter out the results and get a final library of 11 varaints. Analyzing the variants in the library illustrating two main regions of point mutations, one around amino acid number 34 in the LBD sequence and the second around the 115th amino acid. Those results led us to design and perform a two-step cloning assay, in each step we insert the mutations with single PCR reaction. All variants go under microscope experiment with only one variant (Histamine_9) succeed to show chemotaxis ability.
Experiments
GFP Based Migration Test
E.coli native chemoreceptors cluster in the cell poles. This property is critical for signal amplification and adaptation of the cell, since it is crucial for additional proteins, such as kinases and adaptors to interact with the receptor, once it is situated in its proper location in the membran. Although little is known about the mechanism of localization, it is important to retain this property with our newly designed Histaine-Tar receptor - to ensure a functional and sensitive chemotactic response. To prove the correct localization, GFP was fused to the C-terminus of Histamine-Tar chemoreceptor, with a short linker sequence (BBa_E0040).The results of these tests as seen in figure 3, prove our assumption of correct localizations.
Microscope Activity Test
Use of a microscope provided us with a relatively simple way to track bacterial chemotaxis in real time and with clear results. In order to perform the experiment we used an inverted microscope with the ability to record the data as a movie or as a time lapse. The purpose of this assay is to test the bacterial chemotactic response towards attractants. In this assay, a microfluidic chip was filled with a suspension of bacteria in motility buffer and placed under the microscope to ascertain the bacteria’s condition (alive and swimming)
References
(1) Bi, Shuangyu, and Luhua Lai. "Bacterial chemoreceptors and chemoeffectors." Cellular and Molecular Life Sciences 72.4 (2015): 691-708.
(2) Moretti, R., Bender, B.J., Allison, B. and Meiler, J., 2016. Rosetta and the Design of Ligand Binding Sites. Computational Design of Ligand Binding Proteins, pp.47-62