ABSTRACT
A highly-interdisciplinary approach has been developed for minimizing the immunogenicity of films, coatings, microcapsules and other nano-structured materials fabricated from designed polypeptide chains. It is to base the amino-acid sequences on solvent-exposed regions in the folded states of proteins from the same organism. Each such region that meets defined criteria with respect to charge is called a sequence motif. The approach becomes more specifically tailored for intravenous applications by requiring an employed sequence motif to correspond to a known blood protein. An algorithm has been developed to identify sequence motifs in protein-encoding regions of a genome. This work is focused on sequence motifs of charge per unit length >0.5 at neutral pH. It has been found that the number of unique sequence motifs meeting this criterion in available human genome data is maximal for motifs of approx. 7 residues in length. We have designed polypeptides on the basis of computational analysis and shown that they can be used to fabricate nano-structured thin films by electrostatic layer-by-layer assembly (ELBL). The results of this work are discussed with a view to possible applications in biotechnology, notably development of biocompatible coatings and microcapsules.
