Carbon Nanotube Microwell Array for Sensitive Electrochemiluminescent Detection of Cancer Biomarker Proteins

Sardesai, Naimish P.; Barron, John C.; Rusling, James F.

doi:10.1021/ac201292q

Cited by 214 publications

(146 citation statements)

References 39 publications

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“…Electrochemistry has been used to detect nucleic acids with high sensitivity and without the need for PCR amplification in bacterial lysate and serum (18)(19)(20)(21)(22), but protein detection remains a challenge (23)(24)(25)(26). In fact, although protein detection from simple serum has been accomplished (27,28), to date no reported electrochemical systems have effectively detected active protein, of any kind, from crude cell lysate.…”

mentioning

confidence: 99%

Label-free electrochemical detection of human methyltransferase from tumors

Furst

Muren

Hill

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

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The role of abnormal DNA methyltransferase activity in the development and progression of cancer is an essential and rapidly growing area of research, both for improved diagnosis and treatment. However, current technologies for the assessment of methyltransferase activity, particularly from crude tumor samples, limit this work because they rely on radioactivity or fluorescence and require bulky instrumentation. Here, we report an electrochemical platform that overcomes these limitations for the label-free detection of human DNA(cytosine-5)-methyltransferase1 (DNMT1) methyltransferase activity, enabling measurements from crude cultured colorectal cancer cell lysates (HCT116) and biopsied tumor tissues. Our multiplexed detection system involving patterning and detection from a secondary electrode array combines low-density DNA monolayer patterning and electrocatalytically amplified DNA charge transport chemistry to measure selectively and sensitively DNMT1 activity within these complex and congested cellular samples. Based on differences in DNMT1 activity measured with this assay, we distinguish colorectal tumor tissue from healthy adjacent tissue, illustrating the effectiveness of this two-electrode platform for clinical applications.DNA electrochemistry | methylation detection | electrocatalysis

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mentioning

confidence: 99%

Label-free electrochemical detection of human methyltransferase from tumors

Furst

Muren

Hill

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

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“…-encapsulated silica nanoparticles (RuNPs) was done according to the previously published micro emulsion method [25][26][27]. The water-in-oil micro emulsion was prepared by mixing 1.77 mL of TX-100, 7.5 mL of cyclohexane and 1.8 mL of 1-hexane.…”

Section: +mentioning

confidence: 99%

Development of Solid-State Electrochemiluminescence (ECL) Sensor Based on Ru(bpy)32+-Encapsulated Silica Nanoparticles for the Detection of Biogenic Polyamines

2015

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Abstract:A solid state electrochemiluminescence (ECL) sensor based on Ru(bpy)3 2+ -encapsulated silica nanoparticles (RuNP) covalently immobilised on a screen printed carbon electrode has been developed and characterised. RuNPs were synthesised using water-in-oil microemulsion method, amino groups were introduced on their surface, and they were characterised by transmission electron microscopy. Aminated RuNPs were covalently immobilised on activate screen-printed carbon electrodes to form a solid state ECL biosensor. The biosensor surfaces were characterised using electrochemistry and scanning electron microscopy, which showed that aminated nanoparticles formed dense 3D layers on the electrode surface thus allowing immobilisation of high amount of Ru(bpy)3 2+ . The developed sensor was used for ECL detection of biogenic polyamines, namely spermine, spermidine, cadaverine and putrescine. The sensor exhibited high sensitivity and stability.

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“…Rusling et al (253) employed SW-CNTs forests for the electrochemiluminescent detection of interleukin-6 (IL-6) and PSA, two cancer biomarker proteins. A charge-coupled device (CCD) camera was then used for the detection of the light generated by the silica NPs labeled with a ruthenium dye and the specific antibody, achieving detection limits of 1 pg ml À1 for PSA and 0.25 pg ml À1 for IL-6 (254,255).…”

Section: Applications Of Carbon Nanotubes and Graphene In Biomedical mentioning

confidence: 99%