posted on 2020-09-09, 07:44authored byMiguel González-Pérez, Israel González de Torre, Matilde Alonso, José Carlos Rodríguez-Cabello
Diffusion
of organic and inorganic molecules controls most industrial
and biological processes that occur in a liquid phase. Although significant
efforts have been devoted to the design and operation of large-scale
purification systems, diffusion devices with adjustable biochemical
characteristics have remained difficult to achieve. In this regard,
micrometer-scale, bioinspired membranes with tunable diffusion properties
have been engineered by covalent cross-linking of two elastin-like
recombinamers (ELRs) at a liquid–liquid interface. The covalent
approach selected provides the desired ELR-based membranes with structural
support, and modulation of the concentration of the polypeptides employed
confers direct control of the thickness, pore size, and diffusive
properties over a broad range of molecular weights (4–150 kDa).
The recombinant and versatile nature of the proteinaceous building
blocks employed further paves the way to engineering bioactive motifs
within the membrane scaffold, thereby widening their applicability
in the biological field.