Detection of single amino acid mutation in human breast cancer by disordered plasmonic self-similar chain.

Sci Adv

Bio-Nanotechnology and Engineering for Medicine (BIONEM), Department of Experimental and Clinical Medicine, University of Magna Graecia Viale Europa, Germaneto, Catanzaro 88100, Italy. ; Physical Sciences and Engineering (PSE) and Biological and Environment Science and Engineering Divisions (BESE), King Abdullah University of Science and Technology, Thuwal 23955-6900, Kingdom of Saudi Arabia.

Published: September 2015

AI Article Synopsis

  • - The architecture and electromagnetic behavior of nanostructures enable the development of sensors that can detect peptides in human samples for early breast cancer diagnosis.
  • - The sensors utilize a matrix array of plasmonic devices to enhance electric fields, allowing for the detection of single point mutations in the BRCA1 protein with high sensitivity in the picomolar range (10(-12) M).
  • - This advanced detection method, which accounts for fabrication roughness to improve sensor performance, can be applied to other diseases and complex mixture analyses beyond breast cancer.

Article Abstract

Control of the architecture and electromagnetic behavior of nanostructures offers the possibility of designing and fabricating sensors that, owing to their intrinsic behavior, provide solutions to new problems in various fields. We show detection of peptides in multicomponent mixtures derived from human samples for early diagnosis of breast cancer. The architecture of sensors is based on a matrix array where pixels constitute a plasmonic device showing a strong electric field enhancement localized in an area of a few square nanometers. The method allows detection of single point mutations in peptides composing the BRCA1 protein. The sensitivity demonstrated falls in the picomolar (10(-12) M) range. The success of this approach is a result of accurate design and fabrication control. The residual roughness introduced by fabrication was taken into account in optical modeling and was a further contributing factor in plasmon localization, increasing the sensitivity and selectivity of the sensors. This methodology developed for breast cancer detection can be considered a general strategy that is applicable to various pathologies and other chemical analytical cases where complex mixtures have to be resolved in their constitutive components.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4643778PMC
http://dx.doi.org/10.1126/sciadv.1500487DOI Listing

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