Electrochemical and Optical Multiple Parameters Genosensors: Tools for Disease Predisposition Analysis
Conference Recording Jan 15, 2013
About the SpeakerValerio Beni is an Assistant Professor in the ”Biosensors and Bioelectronics Centre” at Link?ping University, Sweden. He holds a degree (1999, Universita’ degli Studi di Firenze, Italy) and a Ph.D. (2005, University College Cork, Ireland) in Chemistry. Following his Ph.D. he worked as Postdoctoral Researcher, at the Tyndall National Institute, Ireland (2005-2007) and as Marie Curie Fellow (2008-2011) at the Universitat Rovira I Virgili, Spain. His research interests include the development of electroanalytical and optical tools, at micro and sub-micro scale, for environmental, clinical and food analysis with a particular interest in the development of multiple parameters genosensors.
Multiple parameters genosensors are of growing interest in the field of clinical analysis where they find application in the early diagnosis of genetic diseases or as support in the diagnosis of genetically associated diseases. Coeliac disease is a small intestinal inflammation triggered by the intake of gluten. This disease has been shown to affect only genetically predisposed individuals. Strong relation between Coeliac disease and two Human Leukocyte Antigens (HLA) genes, DQ2 and DQ8, has been reported, with almost 100% of the affected patients carrying at list one of them. In this seminar an electrochemical and a fluorescence genosensors, both for the low to medium resolution typing of Coeliac disease associated HLA genes, are presented. The fluorescence genosensor was based on the integration of gold nano-particles and molecular beacons whilst the electrochemical genosensor was based on an enzymatic sandwich assay format performed at photolitographically fabricated electrode array. The optimisation of different aspects involved in the sensors preparation and real sample detection,as surface chemistry, assay conditions, probe's design and single stranded DNA generation, is presented. This optimisation was achieved by the combination of enzyme linked oligonucleotides assay, surface plasmon resonance, electrochemistry and fluorescence measurements.
Comments | 0 ADD COMMENT
EMBL Course: Transgenic Animals - Micromanipulation Techniques
Apr 10 - Apr 11, 2018
EMBO Practical Course: Extracellular Vesicles: From Biology to Biomedical Applications
Apr 09 - Apr 13, 2018
EMBO | EMBL Symposium: Tissue Self-Organisation: Challenging the Systems
Mar 11 - Mar 14, 2018
EMBL Course: Brillouin Microscopy: Emerging Tool for Probing Mechanical Properties of Living Cells
Jan 17 - Jan 19, 2018