Bohao Yu scite author profile

Detection of extracellular vesicle (EV)-associated RNAs with low expression levels in early-stage cancer remains a challenge and is highly valuable. Here, we report a nanoparticle-based biochip that could capture circulating EVs without isolation, brighten encapsulated RNAs, and amplify fluorescence signals in situ in a single step. We confine catalyzed hairpin DNA circuit (CHDC) in cationic lipid-polymer hybrid nanoparticles (LPHNs) that are tethered on a chip. LPHN features a core-shell-corona structure that facilitates the transfer and mixing of CHDC with EV-associated RNAs when forming the LPHN–EV nanocomplex. CHDC is triggered upon target RNA binding and quickly generate amplified signals. The signal amplification efficiency of LPHN–CHDC is demonstrated in artificial EVs, cancer cells, and cancer cell-derived EVs. We show that LPHN–CHDC biochip with signal amplification capability could selectively and sensitively identify low expression glypican-1 mRNA in serum EVs, distinguishing patients with early- and late-stage pancreatic cancer from healthy donors and patients with benign pancreatic disease.

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Long Circulating Polymeric Nanoparticles for Gene/Drug Delivery

Yan

Shi

et al. 2018

CDM

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Quantitative analysis of thymine with surface-enhanced Raman spectroscopy and partial least squares (PLS) regression

Zhang

Wei

et al. 2010

Anal Bioanal Chem

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Silver sol surface-enhanced Raman spectroscopy (SERS) was considered as a technique in the quantitative analysis of low-concentration thymine. Because of the poor stability and reproducibility of SERS signal, a polymer of polyacrylic acid sodium was selected as a stable medium to add into silver sol in order to obtain a surface-enhanced Raman spectroscopy signal. Assignments of Raman shift for solid thymine, SERS of thymine, and SERS of thymine containing stable medium were given. The comparison of Raman peaks between them showed that the addition of stable medium had a little influence on the SERS of thymine and is suitable for the quantitative analysis of low-concentration thymine.

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Multiporous Terbium Phosphonate Coordination Polymer Microspheres as Fluorescent Probes for Trace Anthrax Biomarker Detection

Luo

Zhang

et al. 2019

ACS Appl. Mater. Interfaces

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Lanthanide coordination polymers have been recently regarded as attractive sensing materials because of their selectivity, high sensitivity, and rapid response ability. In this research, the multiporous terbium phosphonate coordination polymer microspheres (TbP-CPs) were prepared as a novel fluorescent probe, which showed a fluorescence turn-on response capability for the detection of the trace anthrax biomarker dipicolinate acid (DPA). The morphology and chemical composition of as-prepared TbP-CPs were characterized in detail. The TbP-CPs have the vegetable-flower-like structure and microporous surface. In addition, the as-prepared TbP-CPs not only possess the merits of convenience and simple preparation with high yield but also have the excellent characters as fluorescent probes, such as high stability, good selectivity, and rapid detection ability within 30 s. This proposed sensor could detect DPA with a linear relationship in concentrations ranging from 0 to 8.0 μM and a high detection sensitivity of 5.0 nM. Furthermore, the successful applications of DPA detection in urine and bovine serum were demonstrated. As a result, the recovery ranged from 93.93–101.6%, and the relative standard deviations (RSD) were less than 5%.

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Overhang molecular beacons encapsulated in tethered cationic lipoplex nanoparticles for detection of single-point mutation in extracellular vesicle-associated RNAs

Kwak

Shi

et al. 2018

Biomaterials

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Detection of specific extracellular RNAs has been developed for non-invasive cancer diagnosis. However, accurate and efficient identification of RNAs with single-point mutation in cancer cells-derived extracellular vesicles (EVs) is challenging. Herein, we present a unique overhang molecular beacon with internal dye (Ohi-MB) with a stable hairpin structure, fast hybridization kinetics and single mismatch specificity. Ohi-MBs are encapsulated in cationic lipoplex nanoparticles (CLNs) that are tethered on a gold coated glass slide as a chip, which can capture circulating EVs and detect encapsulated target RNAs in-situ in a single step. The capability of detection of single-point mutation by CLN-Ohi-MB is demonstrated in artificial EVs and cancer cells. This CLN-Ohi-MB biochip could quantify single-point mutations in KRAS mRNA (G12C, G12D, G12V) in pancreatic cancer cell-derived EVs and single-point mutations in EGFR mRNA (L858R and T790M) in lung cancer cell-derived EVs with high specificity, not achievable by conventional molecular probes. We show that CLN-Ohi-MB biochip could selectively and sensitively identify single-point mutations in KRAS mRNA in human serum EVs, distinguishing pancreatic cancer patients with different mutations.

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Bohao Yu

A signal-amplifiable biochip quantifies extracellular vesicle-associated RNAs for early cancer detection

Long Circulating Polymeric Nanoparticles for Gene/Drug Delivery

Quantitative analysis of thymine with surface-enhanced Raman spectroscopy and partial least squares (PLS) regression

Multiporous Terbium Phosphonate Coordination Polymer Microspheres as Fluorescent Probes for Trace Anthrax Biomarker Detection

Overhang molecular beacons encapsulated in tethered cationic lipoplex nanoparticles for detection of single-point mutation in extracellular vesicle-associated RNAs

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