Part:BBa_K3031018

OxyR mutated at residues 147 & 203

OxyR is a Transcription factor protein. OxyR reacts with H2O2 resulting in the oxidation of a reactive cysteine (Cys-199) formation of a intermolecular disulfide bond with neighboring cyctein-208 and thus a conformation change in the OxyR protein occurs. This change is shape activates the OxyR protein which then can bind to certain promoters with binding site regions to regulate the expression of downstream genes. <figure class="figure-center">

  <img src="" align="center" alt="OxyR">

<figcaption>Reduces OxyR protein on the left and the oxidized version on the right. Note the disulfide bridge formed between Cys-199 and Cys-208:.</figcaption>

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Biology & Uses

This part sequence is a modified version of the OxyR gene sequence (BBa_K1104200) which was submitted by National Yang Ming University iGEM Team in 2013. We attempted to improve the sensitivity of this OxyR to reactive oxygen species (ROS) by editing the sequence to change targeted amino acids surrounding the cysteine-199, thus increasing the accessible surface area of the reactive cysteine (cysteine-199) within the protein and making it more susceptible to oxidation. We hoped that our mutated protein would show a higher sensitivity to low concentration of H2O2, which is a sign of cellular stress and perhaps an immune response to infection from a pathogen. We hoped to make this transcription factor more sensitive to lower concentrations of H2O2 and potentially create a new device which could be used to be a very sensitive indicator of early immune response and infection.

Part Design

Our approach involved using site specific structural data gathered from high resolution crystal images of proteins shown to have an oxidized cysteine (i.e. formed a sulfenic acid). The environments of these resides were explored and analyzed and compared to non-oxidized cysteines within the same proteins. Differences between the environments of oxidized and reduced cysteines that were discovered between these two groups were taken as indicators of facilitating oxidation and therefore could potentially be used to modify OxyR protein and make it more sensitive to oxidative stress. High-resolution crystal structures of proteins (2.2 Angstroms resolution or better) containing S-sulfenylated cysteine sites were first obtained from the PDB (www.pdb.org) and multiple sequence alignment was used to ensure that only unique protein microenvironments would be analyzed. A representative list of unmodified cysteine sites was identified for comparative analysis with the modified sites by first profiling the proteins containing S-sulfenylated sites by UnipriotKB GO annotations (https://www.uniprot.org/uploadlists/) and then by choosing 40% of proteins from the original S-sulfenylated cysteine protein list which contained unmodified cysteines. In total the number of unique S-sulfeylated cysteine environments analyzed was 373 from 322 proteins. While using the selection criteria outlined in above, a total of 426 unmodified cysteine sites were analyzed in comparison.

<figure class="figure-center">

  <img src="" height=600 width=750 align="center" alt="Cys_SOH">

<figcaption>Workflow outlining the selection criteria of all the 3D crystal protein structures used in this stud to inform the improvement of the OxyR part.</figcaption>

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The Amino acid, solvent, and ligand contacts for each atom contained within all Cys-SOH and unmodified cysteine sites in the dataset was furthered analyzed using PISA (Protein Interphases, Surfaces and Assemblies) (Krissinel & Henrick, 2007). The CCP4 Graphical User Interface (CCP4i) (Potterton, Briggs, Turkenburg, & Dodson, 2003) was used to perform and visualize PISA calculations. Crystal structures of protein containing sites of interest in PDB format were used as inputs into the interface. Default parameters were used and only calculations for contacts between 2.0 to 3.2 Angstroms within the chain containing the residue of interest were obtained.

<figure class="figure-center">

  <img src="" height=250 width=300 align="left" alt="Cys_SOH">

<figcaption>Amino Acid profile by type surrounding the S-sulfenylated cycteines..</figcaption>

   </figure>

<figure class="figure-center">

  <img src="" height=250 width=300 align="right" alt="Cys_SOH">

<figcaption>Amino Acid profile by type surrounding the unmodified cycteine residues..</figcaption>

   </figure>

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Sequence and Features