Periodic Reporting for period 1 - DNASURF (Molecular diagnostics through DNA modification and interfacial engineering)
Periodo di rendicontazione: 2017-12-01 al 2019-11-30
The groups from Newcastle and Birmingham Universities in the UK have synthesised DNA with specific functionalities that have been integrated with electronic and plasmonic materials at Hokkaido University in Japan and at the National University of Singapore. One joint synthesis paper has been published, and papers on the optical and conductive properties of the functional systems are in preparation. Such properties are exploitable for detection of low concentrations of DNA which is an important aim of the project. A related technique is electrochemical detection of biomolecules which has been studied by the group from the Hebrew University of Jerusalem with colleagues in Singapore. The Newcastle group has also worked with Western Sydney University to study the interaction with DNA of metal complexes that are fluorescent probes, which provides yet another detection modality. Another focus has been attachment of DNA to different surfaces such as glass, nobel metals, and graphene which act as active substrates and, as well as the Newcastle group, the group from the University of the Basque Country has worked with Hokkaido University and National University of Singapore in this area. Papers from these research efforts are in preparation. The group of the Basque Country has also started to combine their expertise in microsystems with that of colleagues at Brigham Young University who have developed methods for 3D printing of microfluidics that greatly surpasses what is commercially available. The Newcastle group has gained knowledge of the design and operation of microfluidic systems, and this will be applied to miniaturization of synthesis of functional DNA.
Since nearly all the groups in the network are new collaborators, these first two years of the project have been largely exploratory. As a result, some prospective projects such as solid state nanopore sequencing have not proven their feasibility, but many joint efforts have progressed faster than anticipated and are providing important directions for new investigations in the second half of the project.