| Literature DB >> 26046486 |
James Carr-Smith, Raúl Pacheco-Gómez, Haydn A Little, Matthew R Hicks, Sandeep Sandhu, Nadja Steinke, David J Smith, Alison Rodger1, Sarah A Goodchild2, Roman A Lukaszewski2, James H R Tucker, Timothy R Dafforn.
Abstract
The field of synthetic biology includes studies that aim to develop new materials and devices from biomolecules. In recent years, much work has been carried out using a range of biomolecular chassis including α-helical coiled coils, β-sheet amyloids and even viral particles. In this work, we show how hybrid bionanoparticles can be produced from a viral M13 bacteriophage scaffold through conjugation with DNA primers that can template a polymerase chain reaction (PCR). This unprecedented example of a PCR on a virus particle has been studied by flow aligned linear dichroism spectroscopy, which gives information on the structure of the product as well as a new protototype methodology for DNA detection. We propose that this demonstration of PCR on the surface of a bionanoparticle is a useful addition to ways in which hybrid assemblies may be constructed using synthetic biology.Entities:
Keywords: M13; PCR; bacteriophage; linear dichroism; nanoparticle; shear flow
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Year: 2015 PMID: 26046486 DOI: 10.1021/acssynbio.5b00034
Source DB: PubMed Journal: ACS Synth Biol ISSN: 2161-5063 Impact factor: 5.110