Abstract
The evolution of gene fusions that result in covalently linked protein domains is widespread in bacteria, where spatially coupling domain functionalities can have functional advantages in vivo. Fusions to integral membrane proteins are less widely studied but could provide routes to enhance membrane function in synthetic biology. We studied the major facilitator superfamily (MFS), as the largest family of transporter proteins in bacteria, to examine the extent and nature of fusions to these proteins. A remarkably diverse variety of fusions are identified and the 8 most abundant examples are described, including additional enzymatic domains and a range of sensory and regulatory domains, many not previously described. Significantly, these fusions are found almost exclusively as C-terminal fusions, revealing that the usually cytoplasmic C-terminal end of MFS protein would the permissive end for engineering synthetic fusions to other cytoplasmic proteins.
Highlights
The evolution of gene fusions that result in covalently linked protein domains is widespread in bacteria, where spatially coupling domain functionalities can have functional advantages in vivo
We wished to identify the range and type of fusions seen in the major facilitator superfamily (MFS), the largest family of secondary transporters in bacteria
It is possible that the proteins of Group 4c constitute functional 14TM transporters with the polyamine biosynthesis (PABS) domain located in the linker region that joins the two helical bundles
Summary
The evolution of gene fusions that result in covalently linked protein domains is widespread in bacteria, where spatially coupling domain functionalities can have functional advantages in vivo. We wished to identify the range and type of fusions seen in the major facilitator superfamily (MFS), the largest family of secondary transporters in bacteria. Another variant (Group 4b.) consists of the 13TM MFS and PABS domain followed by a tetratricopeptide repeat-containing domain (TPR, IPR013026).
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