Detection of Pancreatic Cancer miRNA with Biocompatible Nitrogen-Doped Graphene Quantum DotsShow full item record
Title | Detection of Pancreatic Cancer miRNA with Biocompatible Nitrogen-Doped Graphene Quantum Dots |
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Author | Ajgaonkar, Ryan; Lee, Bong; Valimukhametova, Alina; Nguyen, Steven; Gonzalez-Rodriguez, Roberto; Coffer, Jeffery; Akkaraju, Giridhar R.; Naumov, Anton V. |
Date | 2022 |
Abstract | Early-stage pancreatic cancer remains challenging to detect, leading to a poor five-year patient survival rate. This obstacle necessitates the development of early detection approaches based on novel technologies and materials. In this work, the presence of a specific pancreatic cancer-derived miRNA (pre-miR-132) is detected using the fluorescence properties of biocompatible nitrogen-doped graphene quantum dots (NGQDs) synthesized using a bottom-up approach from a single glucosamine precursor. The sensor platform is comprised of slightly positively charged (1.14 ± 0.36 mV) NGQDs bound via ??? stacking and/or electrostatic interactions to the negatively charged (?22.4 ± 6.00 mV) bait ssDNA; together, they form a complex with a 20 nm average size. The NGQDs’ fluorescence distinguishes specific single-stranded DNA sequences due to bait–target complementarity, discriminating them from random control sequences with sensitivity in the micromolar range. Furthermore, this targetability can also detect the stem and loop portions of pre-miR-132, adding to the practicality of the biosensor. This non-invasive approach allows cancer-specific miRNA detection to facilitate early diagnosis of various forms of cancer. |
Link | https://doi.org/10.3390/ma15165760
https://repository.tcu.edu/handle/116099117/56998 |
Department | Biology Physics and Astronomy Chemistry and Biochemistry |
Subject | cancer detection
gene sensing miRNA graphene quantum dots sensor fluorescence |
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- Research Publications [1008]
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