Project details
Our research group focuses on the synthesis of heterocycles, particularly using singlet oxygen and activation of enamides and allenamides. This chemistry can be used for the rapid construction of biologically active natural products, and heterocycles of pharmaceutically relevance.

More than 70 lamellarins and related pyrrole-derived alkaloids have been isolated and identified. While they posses a variety of unique structural features they also exhibit fascinating and significant biological properties. These include cytotoxicity and antitumor activity, multidrug resistance (MDR), HIV-1 integrase inhibition, antibiotic activity, cell division inhibition, immuno-modulatory activity, antioxidant activity, and feeding deterrence.

Traditional syntheses of this natural product class compounds have centered on palladium coupling of pyrrole bromides with aryl boronic acids with subsequent alkylation of the pyrrole nitrogen or Diels-Alder reaction of a disubstituted alkynes with subsequent functional group manipulation.

Our approach will utilize our recently reported photoredox mediated addition of radicals to enamides, followed by subsequent nucleophile trapping. This project will develop an intramolecular variant of this unique process that will ultimately deliver a total synthesis of the core heterocyclic structure of the lamellarins.

This project will significantly increase the synthetic efficiency compared to current strategies, as well as providing an excellent training platform to the prospective PhD candidate in our new state-of-the-art laboratories here at Loughborough.

You will need to book the accommodation after you have been accepted.

You can choose to live on campus or off campus in private accommodation.

• Make a booking online after you have been accepted (in this case please let us know your choice when you apply).
• Register when you arrive - its not possible to reserve a room before arriving. You can arrive a few days before and book it