Bacterial microcompartments (BMCs) occur in nature to encapsulate enzymatic and metabolic processes in organisms such as E.coli. We have focused our work on the simplest BMC, the ethanolamine utilization compartment (EUT). Our goal is to engineer the an improved and <a href="#999">simplified EUT</a> that requires minimal genes and can <a href="#9999"> assemble and disassemble</a> by the introducing a non-natural amino acid into the outer shell protein.</p>
Bacterial microcompartments (BMCs) occur in nature to encapsulate enzymatic and metabolic processes in organisms such as E.coli. We have focused our work on the simplest BMC, the ethanolamine utilization compartment (EUT). Our goal is to engineer the an improved and <a href="#999">simplified EUT</a> that requires minimal genes and can <a href="#9999"> assemble and disassemble</a> by the introducing a non-natural amino acid into the outer shell protein.</p>
Bacterial microcompartments (BMCs) occur in nature to encapsulate enzymatic and metabolic processes in organisms such as E.coli. We have focused our work on the simplest BMC, the ethanolamine utilization compartment (EUT). Our goal is to engineer the an improved and simplified EUT that requires minimal genes and can assemble and disassemble by the introducing a non-natural amino acid into the outer shell protein.