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The Creation of Anti-Viral Plastic Nanobodies for Diagnostics and Therapeutics via Molecular Imprinting of Synthetic Polymers


   School of Pharmacy (Medway Campus)

  ,  Applications accepted all year round  Self-Funded PhD Students Only

About the Project

Overview

The need to quickly generate new diagnostic tools and therapies in the battle against viral diseases has been highlighted recently by the continuing global pandemic caused by the SARS-CoV-2 virus. One approach has been the generation of monoclonal antibodies (mAb), generally targeting the spike protein of this novel coronavirus, for use in both diagnostic assays and putative therapies.

In this project, we seek to prepare abiotic “plastic antibodies” targeting a range of virus types, e.g. SARS-CoV-2 and human influenza, using a technique called molecular imprinting of polymers.

Molecularly imprinted polymers (MIPs) are artificial receptors created by combining principles of polymer chemistry with those of molecular recognition (supramolecular chemistry) [1]. The MIP is constructed from monomeric building blocks, using a suitable template to guide the formation of specific binding regions in the polymer structure. The properties of MIPs have been shown to mimic those of their biological counterparts, but MIPs offer a number of advantages. For example, they are very robust and reusable, do not require special storage conditions and are far less expensive to produce.

The goals of the project are to produce anti-viral MIP nanomaterials and to apply them first in diagnostic assays and, ultimately, in therapeutic models.

This ambitious project will be suited to those with a background in materials/polymer/analytical chemistry who wish to work at the chemistry/biological science interface.


Funding Notes

This project is a self-funded opportunity available to both Home/EU and International students.
Applicant must have access to funding to cover tuition fees, living costs and any related project costs (i.e. bench fees).

References

-“Molecularly Imprinted Polymers”, Borje Sellergren and Andrew J Hall, https://doi.org/10.1002/9780470661345.smc137.

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