Comparing proteins and nucleic acids for next-generation biomolecular engineering

Nanostructures built from biomolecules such as proteins, DNA and RNA are attracting attention in many areas of biological and materials sciences. Such nanoscale engineering was pioneered with proteins, yet the use of DNA is rapidly gaining traction. What are the advantages of the different biopolymers and which is best suited for a given molecular structure, function or application? In this Review, we evaluate the different structural properties of proteins and nucleic acids, as well as possible designs and synthetic routes for functional nanostructures. By comparing protein engineering and DNA nanotechnology, we highlight molecular architectures that are relevant in biotechnology, biomedicine and synthetic biology research, and identify emerging areas for research such as hybrid materials composed of protein and DNA/RNA. Proteins, DNA and RNA can be used to build functional nanostructures. This Review compares protein and DNA/RNA in terms of biochemical properties and ease of engineering in three major areas of application: biomolecular recognition, biocatalysis and structural support.